t3dso2000a data sheetcdn.teledynelecroy.com/files/pdf/t3dso2000a-datasheet.pdf · 2020. 9. 14. ·...
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T3DSO2000A Data SheetOscilloscopes
Debug with Confidence100 MHz ndash 500 MHz
Tools for Improved Debugging
Long Capture ndash 100 MptsCh and 200 Mpts interleaved enspCapture more time and show more waveform detail
Math and Measure ndash 9 basic math functions plus FFT and 50+ automatic measurement parameters
enspExtract results from waveforms and measurements
Connectivity ndash USB for mass storage printing and PC control plus LAN for fast data transfer
ensp Save data for external analysis and screen images for reports
Includes Serial Bus Trigger and Decode ndash I2C SPI UART CAN LIN Optional CAN FD I2S MIL-1553B FlexRay
ensp Debug serial buses directly in your Oscilloscope
Waveform Sequence Recorder ndash record and play back up to 90000 waveforms
ensp Replay the changing waveform history
Includes Bode Plot and Power Analysis applications as standard
ensp Common applications coverage as standard
Optional MSO ndash 16 Digital Channels ensp Add mixed signal debugging to your Oscilloscope
Key Specifications
Bandwidth 100 MHz 200 MHz 350 MHz 500 MHzChannels 2 or 4Memory 100 MptsCh (200 Mpts interleaved)Sample Rate up to 2 GSs (Interleaved) Display Large 101 Bright TFT LCD (1024 x 600)Connectivity USB Host USB Device LANWarranty 3 Years
PRODUCT OVERVIEW
TheT3DSO2000Aseriesemploysa newgenerationofhigh speed display technology that provides excellent signalclarityfidelityandperformanceThesystemnoisefloor is also lower than similar products in the industry It comeswitha minimumverticalinputrangeof500microVdiv an innovative digital trigger system with high sensitivity andlowjitteranda waveformcapturerateof500000waveformssec (sequence mode) The T3DSO2000A also employsa 256-levelintensitygradingdisplayfunctionanda colortemperaturedisplaymodewhichcomplementthe high speed update rate Teledyne Test Tools latest oscilloscope offering supports multiple powerful triggering modes including serial bus triggering IIC SPI UART CAN and LIN serial bus trigger and decode is included
T3DSO2104A 4 Channel 100 MHzT3DSO2204A 4 Channel 200 MHzT3DSO2354A 4 Channel 350 MHzT3DSO2502A 2 Channel 500 MHz 4 Channel 350 MHz
Key Features 100 MHz 200 MHz 350 MHz and 500 MHz bandwidth models
Real-time sampling rate up to 2 Gsas New generation of high speed display technology rsaquo Waveform capture rate up to 120000 wfms (normal mode) and 500000 wfms (sequence mode) rsaquo Supports 256-level intensity grading and color display modes Record length up to 200 Mpts rsaquo Digital trigger system
Intelligent trigger Edge Slope Pulse Width Window Runt Interval Time out Dropout Pattern Serial and Video
ZonetriggerUpto2zoneswithuserdefinedIntersectNot Intersect events
Teledyne Test Tools new T3DSO2000A Oscilloscopes feature two channel and four channel models with analog bandwidth options from 100 MHz to 500 MHz Each model offers a maximum sample rate of 2 GSas and a maximum memory depth of 200 Mpts in half channel mode All models incorporates two 2 GSas ADCs and two 200 Mpts memory modules When all channels are enabled each channel has sample rate of 1 GSas and a standard record length of 100 Mpts When only a single channel per ADC is active the maximum sample rate is 2 GSas and the maximum record length is 200 Mpts For ease-of-use the most commonly used functions can be accessed with its user-friendly front panel design
as standard There are low cost options for serial bus decoding of CAN FD FlexRay I2S and MIL-STD-1553B bus types The models also include History waveform recording and sequential triggering that enable extended waveform recording and analysis as well as a 50 MHz functionthinspthinsparbitrarywaveformgeneratorThereisalsoanoption to add 16 channel MSO capability (user upgradable option)Thenewdigitaldesignalsoincludesa hardwareco-processor that delivers measurements quickly and accurately without slowing acquisition and front-panel response The features and performance of Teledyne Test Tools new T3DSO2000A offers outstanding value for money
2
Standard serial bus triggering and decoding supports protocols IIC SPI UART CAN LIN Optionally CAN FD FlexRay I2S MIL-STD-1553B
VideotriggersupportsHDTV
Low background noise with voltage scales from 500microVdivto10Vdiv
High performance10-bit mode with typically 100 MHz bandwidth
Segmented acquisition (Sequence) mode divides the maximum record length into multiple segments (up to 90000) according to trigger conditions set by the user witha verysmalldeadtimesegmenttocapturethequalifying event
History waveform record (History) function maximum recorded waveform length is 90000 waveforms
Automatic measurement function for more than 50 parameters as well as Measurement Statistics Zoom Gating Math History and Reference functions
10 Math functions (FFT addition subtraction multiplication division integration differential square root average Enhanced Resolution and formula editor)
2 Math operators allowing 2 math functions to be used at the same time
High Speed hardware based PassFail function Optional MSO 16 digital channels Record Length up to 50 MptsCh
50 MHz functionarbitrary waveform generator included as standard Built-in 6 waveform types (Sine Square Ramp Pulse DC Noise) and 45 Arbitrary waveforms
Bode Plot from 10 Hz to 50 MHz using the T3DSO2000A 50MHzfunctionarbitrarywaveformgeneratoror10 Hz
Models and key Specification
Model T3DSO2104A T3DSO2204A T3DSO2354A T3DSO2502ABandwidth 100 MHz 200 MHz 350 MHz 500 MHzSamplingRate (Max) All models have two 2 GSas ADCs When all channels are enabled
eachchannelhasa maximumsamplerateof1GSas Whena singlechannelperpairisactivethatchannelhassamplerate of 2 GSas
The T3DSO2502A has one 2 Gsas ADC per channel in 2 channelgt350 MHzmode and one 2 GsasADCper pair of channels in le350 MHzfourchannel mode
Channels T3DSO2104A 4 + EXT T3DSO2204A 4 + EXT T3DSO2354A 4 + EXT T3DSO2502Ale350MHz4+EXTgt350MHz2+EXT
Memory Depth (Max) 100 MptsCh (not interleave mode)200 MptsCh (interleave mode)
Waveform Capture Rate (Max) 120000 wfms (normal mode) 500000 wfms (sequence mode)Trigger Type EdgeSlopePulseWindowRuntIntervalDropoutPatternVideoZoneSerial Trigger and decoder IIC SPI UART CAN LIN Optional CAN FD FlexRay I2S MIL-STD-1553B16 Digital Channels (MSO option) Maximum waveform capture rate up to 500 MSas Record length up to 50 MptsChWaveform Generator One channel 50 MHz sample rate of 125 MHz wave length of 16 kptsIO USB Host USB Device LAN 100M PassFail Trigger InOutProbe (Std) 1 for each ChannelDisplay 1011048608inch1048608Touch Screen TFT-LCD1048608(1024 x 600)
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to 120 MHz using the T3AFG120 arbitrary function generator
Power Analysis application included as standard measuring power quality current harmonics inrush current switching loss slew rate modulation output rippleturnonthinspthinspturnofftransientresponsePSRRefficiency
T3DSO2502A supports 2 channels at up to 500 MHz and4channelsatle350MHz
Large 101 inch capacitive touch screen TFT-LCD display with 1024 x 600 resolution
Multiple interface types USB Host USB Device (USB-TMC) LAN Trigger InOut
Supports SCPI remote control commands Supports Multi-language display and embedded online help
4
FUNCTION amp CHARACTERISTICS
101 inch TFT-LCD display and 15 one-button menus 101 inch TFT-LCD capacitive touch screen display with 1024 x 600 resolution
Most commonly used functions are accessible using 15 different one-button operation keys Auto Setup Default Cursors Measure Roll History Persist Clear Sweeps Zoom Print Math Measure Search Navigate Decode AWG and more
1 enspHighResolution101-inchTFT-LCD touch screen display for clear images
2 enspHorizontalcontrolsofTimebaseZoom Roll and trigger position
3 enspAdvancedTriggeringcontrolsincluding Edge Pulse Interval Window Slope DropOut Runt and Pattern trigger types
4 enspEasytouseAutoSetup RunthinspthinspStopandDefaultControls
1
2
3
4
5
6
789 10
5 enspMulti-functionalcontrolsforAWGSearch Navigate History and Decode
6 enspIndividualcolorcodedchannelsMath and Digital inputs
7 ensp50MHzbuiltinarbitrarywaveform generator
8 enspProbecompensationcalibrator
9 enspColorcodedinputchannels
10 enspDigitalleadsetsocket
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FUNCTION amp CHARACTERISTICS
Record Length of up to 200 Mpts
The record length of up to 200 Mpts (interleaved) or upto100Mpts(non-interleaved)allowsuseofa highersampling rate to capture more signal detail The hardware-based Zoom then allows quick zoom in to any area of interest
Waveform Capture Rate up to 500000 wfms
With a waveform capture rate of up to 500000 wfms (sequence mode) and 120000 wfms (standard mode) the T3DSO2000A can easily capture glitches infrequent anomalies and other low-probability events
History Mode
The always enabled History mode records up to 90000 waveformsallowinguserstoscrollbackthroughprevious acquisitions to analyze past events and locate anomalies quickly Serial decode zoom and cursor measurements can be used
A Wide Range Of Trigger Functions
A wide range of powerful triggering functions including EdgeSlopePulseVideoWindowRuntInterval Dropout Pattern Serial etc allows users to debug complex hardware issues with ease
Powerful User Set Zone Trigger Extends Trigger Capability
Setupto2zonesdefiningeachasIntersector Not Intersect Trigger occurs when conditions are met Zone Trigger helps to simplify advanced triggering
256-level Intensity Grading and Color Temperature Display256-level intensity graded waveform display is ideal for viewing modulated and changing waveforms
The Color temperature display clearly shows noise and jitter with infrequently occurring waveforms shown in blue through to the most frequently occurring waveforms shown in red
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FUNCTION amp CHARACTERISTICS
Eres Mode
Before Eres
After Eres
Enhanced Resolution (Eres) function reveals hidden Waveformdetailbyusingalinearaveragefiltertoreducewaveform noise on single acquisition waveforms where regular averaging doesnrsquot work The Eres function can be combined with the regular 8 bit acquisition mode or the higher detailed 10 bit acquisition mode
10-bit Mode
8-bit
10-bit
10-bit mode combined with zoom shows more detail and less noise on the waveform The small perturbation circled in red can be more clearly viewed in 10 bit mode The T3DSO2000A Oscilloscope family not only supports horizontal zoom but also the more unusual vertical voltage based zoom capability enabling viewing of very small perturbations on a larger waveformEres can be combined with 8 bit or 10 bit mode to give an evenclearerviewofwaveformdetail
Sequence Mode
Segmented memory mode can store up to 90000 waveforms into memory segments for capturing fast pulses in quick succession Combine SequenceMode with advanced triggers to isolate rare events All the segments can be play back using the History function
16 Digital ChannelsMSO (Optional)
The MSO option adds 16 digital channels to the T3DSO2000A analog channels enabling users to trigger and acquire digital as well as analog waveforms in a mixedsignaldebugenvironment
Advanced Math Function
Two Math traces support PlusMinus Multiply Divide FFT integration differential square root average Eres and formula editor for quick insight into waveform characteristics
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FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
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FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
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SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
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SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
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UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
PRODUCT OVERVIEW
TheT3DSO2000Aseriesemploysa newgenerationofhigh speed display technology that provides excellent signalclarityfidelityandperformanceThesystemnoisefloor is also lower than similar products in the industry It comeswitha minimumverticalinputrangeof500microVdiv an innovative digital trigger system with high sensitivity andlowjitteranda waveformcapturerateof500000waveformssec (sequence mode) The T3DSO2000A also employsa 256-levelintensitygradingdisplayfunctionanda colortemperaturedisplaymodewhichcomplementthe high speed update rate Teledyne Test Tools latest oscilloscope offering supports multiple powerful triggering modes including serial bus triggering IIC SPI UART CAN and LIN serial bus trigger and decode is included
T3DSO2104A 4 Channel 100 MHzT3DSO2204A 4 Channel 200 MHzT3DSO2354A 4 Channel 350 MHzT3DSO2502A 2 Channel 500 MHz 4 Channel 350 MHz
Key Features 100 MHz 200 MHz 350 MHz and 500 MHz bandwidth models
Real-time sampling rate up to 2 Gsas New generation of high speed display technology rsaquo Waveform capture rate up to 120000 wfms (normal mode) and 500000 wfms (sequence mode) rsaquo Supports 256-level intensity grading and color display modes Record length up to 200 Mpts rsaquo Digital trigger system
Intelligent trigger Edge Slope Pulse Width Window Runt Interval Time out Dropout Pattern Serial and Video
ZonetriggerUpto2zoneswithuserdefinedIntersectNot Intersect events
Teledyne Test Tools new T3DSO2000A Oscilloscopes feature two channel and four channel models with analog bandwidth options from 100 MHz to 500 MHz Each model offers a maximum sample rate of 2 GSas and a maximum memory depth of 200 Mpts in half channel mode All models incorporates two 2 GSas ADCs and two 200 Mpts memory modules When all channels are enabled each channel has sample rate of 1 GSas and a standard record length of 100 Mpts When only a single channel per ADC is active the maximum sample rate is 2 GSas and the maximum record length is 200 Mpts For ease-of-use the most commonly used functions can be accessed with its user-friendly front panel design
as standard There are low cost options for serial bus decoding of CAN FD FlexRay I2S and MIL-STD-1553B bus types The models also include History waveform recording and sequential triggering that enable extended waveform recording and analysis as well as a 50 MHz functionthinspthinsparbitrarywaveformgeneratorThereisalsoanoption to add 16 channel MSO capability (user upgradable option)Thenewdigitaldesignalsoincludesa hardwareco-processor that delivers measurements quickly and accurately without slowing acquisition and front-panel response The features and performance of Teledyne Test Tools new T3DSO2000A offers outstanding value for money
2
Standard serial bus triggering and decoding supports protocols IIC SPI UART CAN LIN Optionally CAN FD FlexRay I2S MIL-STD-1553B
VideotriggersupportsHDTV
Low background noise with voltage scales from 500microVdivto10Vdiv
High performance10-bit mode with typically 100 MHz bandwidth
Segmented acquisition (Sequence) mode divides the maximum record length into multiple segments (up to 90000) according to trigger conditions set by the user witha verysmalldeadtimesegmenttocapturethequalifying event
History waveform record (History) function maximum recorded waveform length is 90000 waveforms
Automatic measurement function for more than 50 parameters as well as Measurement Statistics Zoom Gating Math History and Reference functions
10 Math functions (FFT addition subtraction multiplication division integration differential square root average Enhanced Resolution and formula editor)
2 Math operators allowing 2 math functions to be used at the same time
High Speed hardware based PassFail function Optional MSO 16 digital channels Record Length up to 50 MptsCh
50 MHz functionarbitrary waveform generator included as standard Built-in 6 waveform types (Sine Square Ramp Pulse DC Noise) and 45 Arbitrary waveforms
Bode Plot from 10 Hz to 50 MHz using the T3DSO2000A 50MHzfunctionarbitrarywaveformgeneratoror10 Hz
Models and key Specification
Model T3DSO2104A T3DSO2204A T3DSO2354A T3DSO2502ABandwidth 100 MHz 200 MHz 350 MHz 500 MHzSamplingRate (Max) All models have two 2 GSas ADCs When all channels are enabled
eachchannelhasa maximumsamplerateof1GSas Whena singlechannelperpairisactivethatchannelhassamplerate of 2 GSas
The T3DSO2502A has one 2 Gsas ADC per channel in 2 channelgt350 MHzmode and one 2 GsasADCper pair of channels in le350 MHzfourchannel mode
Channels T3DSO2104A 4 + EXT T3DSO2204A 4 + EXT T3DSO2354A 4 + EXT T3DSO2502Ale350MHz4+EXTgt350MHz2+EXT
Memory Depth (Max) 100 MptsCh (not interleave mode)200 MptsCh (interleave mode)
Waveform Capture Rate (Max) 120000 wfms (normal mode) 500000 wfms (sequence mode)Trigger Type EdgeSlopePulseWindowRuntIntervalDropoutPatternVideoZoneSerial Trigger and decoder IIC SPI UART CAN LIN Optional CAN FD FlexRay I2S MIL-STD-1553B16 Digital Channels (MSO option) Maximum waveform capture rate up to 500 MSas Record length up to 50 MptsChWaveform Generator One channel 50 MHz sample rate of 125 MHz wave length of 16 kptsIO USB Host USB Device LAN 100M PassFail Trigger InOutProbe (Std) 1 for each ChannelDisplay 1011048608inch1048608Touch Screen TFT-LCD1048608(1024 x 600)
3
to 120 MHz using the T3AFG120 arbitrary function generator
Power Analysis application included as standard measuring power quality current harmonics inrush current switching loss slew rate modulation output rippleturnonthinspthinspturnofftransientresponsePSRRefficiency
T3DSO2502A supports 2 channels at up to 500 MHz and4channelsatle350MHz
Large 101 inch capacitive touch screen TFT-LCD display with 1024 x 600 resolution
Multiple interface types USB Host USB Device (USB-TMC) LAN Trigger InOut
Supports SCPI remote control commands Supports Multi-language display and embedded online help
4
FUNCTION amp CHARACTERISTICS
101 inch TFT-LCD display and 15 one-button menus 101 inch TFT-LCD capacitive touch screen display with 1024 x 600 resolution
Most commonly used functions are accessible using 15 different one-button operation keys Auto Setup Default Cursors Measure Roll History Persist Clear Sweeps Zoom Print Math Measure Search Navigate Decode AWG and more
1 enspHighResolution101-inchTFT-LCD touch screen display for clear images
2 enspHorizontalcontrolsofTimebaseZoom Roll and trigger position
3 enspAdvancedTriggeringcontrolsincluding Edge Pulse Interval Window Slope DropOut Runt and Pattern trigger types
4 enspEasytouseAutoSetup RunthinspthinspStopandDefaultControls
1
2
3
4
5
6
789 10
5 enspMulti-functionalcontrolsforAWGSearch Navigate History and Decode
6 enspIndividualcolorcodedchannelsMath and Digital inputs
7 ensp50MHzbuiltinarbitrarywaveform generator
8 enspProbecompensationcalibrator
9 enspColorcodedinputchannels
10 enspDigitalleadsetsocket
5
FUNCTION amp CHARACTERISTICS
Record Length of up to 200 Mpts
The record length of up to 200 Mpts (interleaved) or upto100Mpts(non-interleaved)allowsuseofa highersampling rate to capture more signal detail The hardware-based Zoom then allows quick zoom in to any area of interest
Waveform Capture Rate up to 500000 wfms
With a waveform capture rate of up to 500000 wfms (sequence mode) and 120000 wfms (standard mode) the T3DSO2000A can easily capture glitches infrequent anomalies and other low-probability events
History Mode
The always enabled History mode records up to 90000 waveformsallowinguserstoscrollbackthroughprevious acquisitions to analyze past events and locate anomalies quickly Serial decode zoom and cursor measurements can be used
A Wide Range Of Trigger Functions
A wide range of powerful triggering functions including EdgeSlopePulseVideoWindowRuntInterval Dropout Pattern Serial etc allows users to debug complex hardware issues with ease
Powerful User Set Zone Trigger Extends Trigger Capability
Setupto2zonesdefiningeachasIntersector Not Intersect Trigger occurs when conditions are met Zone Trigger helps to simplify advanced triggering
256-level Intensity Grading and Color Temperature Display256-level intensity graded waveform display is ideal for viewing modulated and changing waveforms
The Color temperature display clearly shows noise and jitter with infrequently occurring waveforms shown in blue through to the most frequently occurring waveforms shown in red
6
FUNCTION amp CHARACTERISTICS
Eres Mode
Before Eres
After Eres
Enhanced Resolution (Eres) function reveals hidden Waveformdetailbyusingalinearaveragefiltertoreducewaveform noise on single acquisition waveforms where regular averaging doesnrsquot work The Eres function can be combined with the regular 8 bit acquisition mode or the higher detailed 10 bit acquisition mode
10-bit Mode
8-bit
10-bit
10-bit mode combined with zoom shows more detail and less noise on the waveform The small perturbation circled in red can be more clearly viewed in 10 bit mode The T3DSO2000A Oscilloscope family not only supports horizontal zoom but also the more unusual vertical voltage based zoom capability enabling viewing of very small perturbations on a larger waveformEres can be combined with 8 bit or 10 bit mode to give an evenclearerviewofwaveformdetail
Sequence Mode
Segmented memory mode can store up to 90000 waveforms into memory segments for capturing fast pulses in quick succession Combine SequenceMode with advanced triggers to isolate rare events All the segments can be play back using the History function
16 Digital ChannelsMSO (Optional)
The MSO option adds 16 digital channels to the T3DSO2000A analog channels enabling users to trigger and acquire digital as well as analog waveforms in a mixedsignaldebugenvironment
Advanced Math Function
Two Math traces support PlusMinus Multiply Divide FFT integration differential square root average Eres and formula editor for quick insight into waveform characteristics
7
FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
Automatic measurement function for more than 50 parameters as well as Measurement Statistics Zoom Gating Math History and Reference functions
10 Math functions (FFT addition subtraction multiplication division integration differential square root average Enhanced Resolution and formula editor)
2 Math operators allowing 2 math functions to be used at the same time
High Speed hardware based PassFail function Optional MSO 16 digital channels Record Length up to 50 MptsCh
50 MHz functionarbitrary waveform generator included as standard Built-in 6 waveform types (Sine Square Ramp Pulse DC Noise) and 45 Arbitrary waveforms
Bode Plot from 10 Hz to 50 MHz using the T3DSO2000A 50MHzfunctionarbitrarywaveformgeneratoror10 Hz
Models and key Specification
Model T3DSO2104A T3DSO2204A T3DSO2354A T3DSO2502ABandwidth 100 MHz 200 MHz 350 MHz 500 MHzSamplingRate (Max) All models have two 2 GSas ADCs When all channels are enabled
eachchannelhasa maximumsamplerateof1GSas Whena singlechannelperpairisactivethatchannelhassamplerate of 2 GSas
The T3DSO2502A has one 2 Gsas ADC per channel in 2 channelgt350 MHzmode and one 2 GsasADCper pair of channels in le350 MHzfourchannel mode
Channels T3DSO2104A 4 + EXT T3DSO2204A 4 + EXT T3DSO2354A 4 + EXT T3DSO2502Ale350MHz4+EXTgt350MHz2+EXT
Memory Depth (Max) 100 MptsCh (not interleave mode)200 MptsCh (interleave mode)
Waveform Capture Rate (Max) 120000 wfms (normal mode) 500000 wfms (sequence mode)Trigger Type EdgeSlopePulseWindowRuntIntervalDropoutPatternVideoZoneSerial Trigger and decoder IIC SPI UART CAN LIN Optional CAN FD FlexRay I2S MIL-STD-1553B16 Digital Channels (MSO option) Maximum waveform capture rate up to 500 MSas Record length up to 50 MptsChWaveform Generator One channel 50 MHz sample rate of 125 MHz wave length of 16 kptsIO USB Host USB Device LAN 100M PassFail Trigger InOutProbe (Std) 1 for each ChannelDisplay 1011048608inch1048608Touch Screen TFT-LCD1048608(1024 x 600)
3
to 120 MHz using the T3AFG120 arbitrary function generator
Power Analysis application included as standard measuring power quality current harmonics inrush current switching loss slew rate modulation output rippleturnonthinspthinspturnofftransientresponsePSRRefficiency
T3DSO2502A supports 2 channels at up to 500 MHz and4channelsatle350MHz
Large 101 inch capacitive touch screen TFT-LCD display with 1024 x 600 resolution
Multiple interface types USB Host USB Device (USB-TMC) LAN Trigger InOut
Supports SCPI remote control commands Supports Multi-language display and embedded online help
4
FUNCTION amp CHARACTERISTICS
101 inch TFT-LCD display and 15 one-button menus 101 inch TFT-LCD capacitive touch screen display with 1024 x 600 resolution
Most commonly used functions are accessible using 15 different one-button operation keys Auto Setup Default Cursors Measure Roll History Persist Clear Sweeps Zoom Print Math Measure Search Navigate Decode AWG and more
1 enspHighResolution101-inchTFT-LCD touch screen display for clear images
2 enspHorizontalcontrolsofTimebaseZoom Roll and trigger position
3 enspAdvancedTriggeringcontrolsincluding Edge Pulse Interval Window Slope DropOut Runt and Pattern trigger types
4 enspEasytouseAutoSetup RunthinspthinspStopandDefaultControls
1
2
3
4
5
6
789 10
5 enspMulti-functionalcontrolsforAWGSearch Navigate History and Decode
6 enspIndividualcolorcodedchannelsMath and Digital inputs
7 ensp50MHzbuiltinarbitrarywaveform generator
8 enspProbecompensationcalibrator
9 enspColorcodedinputchannels
10 enspDigitalleadsetsocket
5
FUNCTION amp CHARACTERISTICS
Record Length of up to 200 Mpts
The record length of up to 200 Mpts (interleaved) or upto100Mpts(non-interleaved)allowsuseofa highersampling rate to capture more signal detail The hardware-based Zoom then allows quick zoom in to any area of interest
Waveform Capture Rate up to 500000 wfms
With a waveform capture rate of up to 500000 wfms (sequence mode) and 120000 wfms (standard mode) the T3DSO2000A can easily capture glitches infrequent anomalies and other low-probability events
History Mode
The always enabled History mode records up to 90000 waveformsallowinguserstoscrollbackthroughprevious acquisitions to analyze past events and locate anomalies quickly Serial decode zoom and cursor measurements can be used
A Wide Range Of Trigger Functions
A wide range of powerful triggering functions including EdgeSlopePulseVideoWindowRuntInterval Dropout Pattern Serial etc allows users to debug complex hardware issues with ease
Powerful User Set Zone Trigger Extends Trigger Capability
Setupto2zonesdefiningeachasIntersector Not Intersect Trigger occurs when conditions are met Zone Trigger helps to simplify advanced triggering
256-level Intensity Grading and Color Temperature Display256-level intensity graded waveform display is ideal for viewing modulated and changing waveforms
The Color temperature display clearly shows noise and jitter with infrequently occurring waveforms shown in blue through to the most frequently occurring waveforms shown in red
6
FUNCTION amp CHARACTERISTICS
Eres Mode
Before Eres
After Eres
Enhanced Resolution (Eres) function reveals hidden Waveformdetailbyusingalinearaveragefiltertoreducewaveform noise on single acquisition waveforms where regular averaging doesnrsquot work The Eres function can be combined with the regular 8 bit acquisition mode or the higher detailed 10 bit acquisition mode
10-bit Mode
8-bit
10-bit
10-bit mode combined with zoom shows more detail and less noise on the waveform The small perturbation circled in red can be more clearly viewed in 10 bit mode The T3DSO2000A Oscilloscope family not only supports horizontal zoom but also the more unusual vertical voltage based zoom capability enabling viewing of very small perturbations on a larger waveformEres can be combined with 8 bit or 10 bit mode to give an evenclearerviewofwaveformdetail
Sequence Mode
Segmented memory mode can store up to 90000 waveforms into memory segments for capturing fast pulses in quick succession Combine SequenceMode with advanced triggers to isolate rare events All the segments can be play back using the History function
16 Digital ChannelsMSO (Optional)
The MSO option adds 16 digital channels to the T3DSO2000A analog channels enabling users to trigger and acquire digital as well as analog waveforms in a mixedsignaldebugenvironment
Advanced Math Function
Two Math traces support PlusMinus Multiply Divide FFT integration differential square root average Eres and formula editor for quick insight into waveform characteristics
7
FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
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4
FUNCTION amp CHARACTERISTICS
101 inch TFT-LCD display and 15 one-button menus 101 inch TFT-LCD capacitive touch screen display with 1024 x 600 resolution
Most commonly used functions are accessible using 15 different one-button operation keys Auto Setup Default Cursors Measure Roll History Persist Clear Sweeps Zoom Print Math Measure Search Navigate Decode AWG and more
1 enspHighResolution101-inchTFT-LCD touch screen display for clear images
2 enspHorizontalcontrolsofTimebaseZoom Roll and trigger position
3 enspAdvancedTriggeringcontrolsincluding Edge Pulse Interval Window Slope DropOut Runt and Pattern trigger types
4 enspEasytouseAutoSetup RunthinspthinspStopandDefaultControls
1
2
3
4
5
6
789 10
5 enspMulti-functionalcontrolsforAWGSearch Navigate History and Decode
6 enspIndividualcolorcodedchannelsMath and Digital inputs
7 ensp50MHzbuiltinarbitrarywaveform generator
8 enspProbecompensationcalibrator
9 enspColorcodedinputchannels
10 enspDigitalleadsetsocket
5
FUNCTION amp CHARACTERISTICS
Record Length of up to 200 Mpts
The record length of up to 200 Mpts (interleaved) or upto100Mpts(non-interleaved)allowsuseofa highersampling rate to capture more signal detail The hardware-based Zoom then allows quick zoom in to any area of interest
Waveform Capture Rate up to 500000 wfms
With a waveform capture rate of up to 500000 wfms (sequence mode) and 120000 wfms (standard mode) the T3DSO2000A can easily capture glitches infrequent anomalies and other low-probability events
History Mode
The always enabled History mode records up to 90000 waveformsallowinguserstoscrollbackthroughprevious acquisitions to analyze past events and locate anomalies quickly Serial decode zoom and cursor measurements can be used
A Wide Range Of Trigger Functions
A wide range of powerful triggering functions including EdgeSlopePulseVideoWindowRuntInterval Dropout Pattern Serial etc allows users to debug complex hardware issues with ease
Powerful User Set Zone Trigger Extends Trigger Capability
Setupto2zonesdefiningeachasIntersector Not Intersect Trigger occurs when conditions are met Zone Trigger helps to simplify advanced triggering
256-level Intensity Grading and Color Temperature Display256-level intensity graded waveform display is ideal for viewing modulated and changing waveforms
The Color temperature display clearly shows noise and jitter with infrequently occurring waveforms shown in blue through to the most frequently occurring waveforms shown in red
6
FUNCTION amp CHARACTERISTICS
Eres Mode
Before Eres
After Eres
Enhanced Resolution (Eres) function reveals hidden Waveformdetailbyusingalinearaveragefiltertoreducewaveform noise on single acquisition waveforms where regular averaging doesnrsquot work The Eres function can be combined with the regular 8 bit acquisition mode or the higher detailed 10 bit acquisition mode
10-bit Mode
8-bit
10-bit
10-bit mode combined with zoom shows more detail and less noise on the waveform The small perturbation circled in red can be more clearly viewed in 10 bit mode The T3DSO2000A Oscilloscope family not only supports horizontal zoom but also the more unusual vertical voltage based zoom capability enabling viewing of very small perturbations on a larger waveformEres can be combined with 8 bit or 10 bit mode to give an evenclearerviewofwaveformdetail
Sequence Mode
Segmented memory mode can store up to 90000 waveforms into memory segments for capturing fast pulses in quick succession Combine SequenceMode with advanced triggers to isolate rare events All the segments can be play back using the History function
16 Digital ChannelsMSO (Optional)
The MSO option adds 16 digital channels to the T3DSO2000A analog channels enabling users to trigger and acquire digital as well as analog waveforms in a mixedsignaldebugenvironment
Advanced Math Function
Two Math traces support PlusMinus Multiply Divide FFT integration differential square root average Eres and formula editor for quick insight into waveform characteristics
7
FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
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5
FUNCTION amp CHARACTERISTICS
Record Length of up to 200 Mpts
The record length of up to 200 Mpts (interleaved) or upto100Mpts(non-interleaved)allowsuseofa highersampling rate to capture more signal detail The hardware-based Zoom then allows quick zoom in to any area of interest
Waveform Capture Rate up to 500000 wfms
With a waveform capture rate of up to 500000 wfms (sequence mode) and 120000 wfms (standard mode) the T3DSO2000A can easily capture glitches infrequent anomalies and other low-probability events
History Mode
The always enabled History mode records up to 90000 waveformsallowinguserstoscrollbackthroughprevious acquisitions to analyze past events and locate anomalies quickly Serial decode zoom and cursor measurements can be used
A Wide Range Of Trigger Functions
A wide range of powerful triggering functions including EdgeSlopePulseVideoWindowRuntInterval Dropout Pattern Serial etc allows users to debug complex hardware issues with ease
Powerful User Set Zone Trigger Extends Trigger Capability
Setupto2zonesdefiningeachasIntersector Not Intersect Trigger occurs when conditions are met Zone Trigger helps to simplify advanced triggering
256-level Intensity Grading and Color Temperature Display256-level intensity graded waveform display is ideal for viewing modulated and changing waveforms
The Color temperature display clearly shows noise and jitter with infrequently occurring waveforms shown in blue through to the most frequently occurring waveforms shown in red
6
FUNCTION amp CHARACTERISTICS
Eres Mode
Before Eres
After Eres
Enhanced Resolution (Eres) function reveals hidden Waveformdetailbyusingalinearaveragefiltertoreducewaveform noise on single acquisition waveforms where regular averaging doesnrsquot work The Eres function can be combined with the regular 8 bit acquisition mode or the higher detailed 10 bit acquisition mode
10-bit Mode
8-bit
10-bit
10-bit mode combined with zoom shows more detail and less noise on the waveform The small perturbation circled in red can be more clearly viewed in 10 bit mode The T3DSO2000A Oscilloscope family not only supports horizontal zoom but also the more unusual vertical voltage based zoom capability enabling viewing of very small perturbations on a larger waveformEres can be combined with 8 bit or 10 bit mode to give an evenclearerviewofwaveformdetail
Sequence Mode
Segmented memory mode can store up to 90000 waveforms into memory segments for capturing fast pulses in quick succession Combine SequenceMode with advanced triggers to isolate rare events All the segments can be play back using the History function
16 Digital ChannelsMSO (Optional)
The MSO option adds 16 digital channels to the T3DSO2000A analog channels enabling users to trigger and acquire digital as well as analog waveforms in a mixedsignaldebugenvironment
Advanced Math Function
Two Math traces support PlusMinus Multiply Divide FFT integration differential square root average Eres and formula editor for quick insight into waveform characteristics
7
FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
6
FUNCTION amp CHARACTERISTICS
Eres Mode
Before Eres
After Eres
Enhanced Resolution (Eres) function reveals hidden Waveformdetailbyusingalinearaveragefiltertoreducewaveform noise on single acquisition waveforms where regular averaging doesnrsquot work The Eres function can be combined with the regular 8 bit acquisition mode or the higher detailed 10 bit acquisition mode
10-bit Mode
8-bit
10-bit
10-bit mode combined with zoom shows more detail and less noise on the waveform The small perturbation circled in red can be more clearly viewed in 10 bit mode The T3DSO2000A Oscilloscope family not only supports horizontal zoom but also the more unusual vertical voltage based zoom capability enabling viewing of very small perturbations on a larger waveformEres can be combined with 8 bit or 10 bit mode to give an evenclearerviewofwaveformdetail
Sequence Mode
Segmented memory mode can store up to 90000 waveforms into memory segments for capturing fast pulses in quick succession Combine SequenceMode with advanced triggers to isolate rare events All the segments can be play back using the History function
16 Digital ChannelsMSO (Optional)
The MSO option adds 16 digital channels to the T3DSO2000A analog channels enabling users to trigger and acquire digital as well as analog waveforms in a mixedsignaldebugenvironment
Advanced Math Function
Two Math traces support PlusMinus Multiply Divide FFT integration differential square root average Eres and formula editor for quick insight into waveform characteristics
7
FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
7
FUNCTION amp CHARACTERISTICS
Flat Frequency Response
T3DSO2502A at 2 Gsas shows exceptionally flat frequency response up to its maximum 500 MHz bandwidth
High Performance Front End
T3DSO2502A At 500 MHz bandwidth the input noisefloorisonly80uVrmsandFFTPeaksaretypicallylt-105dBV
Measurements of all relevant Parameters with Statistics
Parametermeasurementsincludes4categoriesVerticalHorizontalMiscellaneousandChannelDelayprovidinga totalof50+differenttypes of measurements
Measurements can be performed on the whole waveform or within a specifiedgateperiod
Measurements on Math Reference and History frames are supported
Simple measurement mode measures up to 12 waveform characteristics simultaneously whereas advanced measurement mode offers statistics measuring the current value maximum value minimum value standard deviation mean value and count on up to 5 parameters simultaneously
Histogramisavailabletoshowtheprobabilitydistributionofa para-meter Trend is available to show the parameter value vs time
In addition horizontal measurements can process up to 1000 signal edges within one single acquisition thus greatly improving the test efficiency
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
8
FUNCTION amp CHARACTERISTICS
Complete Connectivity
Connectivity includes External Trigger Input PassFail and Trigger Out USB Device (USBTMC) and LAN for remote control and a Kensington Lock security point
Built-in 50 MHz FunctionArbitraryWaveform Generator as standard
The 50 MHz built-in functionarbitrary waveform generator comprises 6 standard waveforms and 45 arbitrarywaveforms
Search and Navigate
TheT3DSO2000Acanfindeventswithinanacquisitionrecordorhistoryacquisitionbasedonuserspecifiedtrigger conditions Navigate browses through Events flagged by the Search plays back history events or continuously moves the delay position on long records (useful in zoom view)
Serial Bus Trigger and Decode
Trigger and decode up to 2 common embedded and automotive serial buses (I2C SPI UART LIN and CAN) simultaneously Options are available to add decoding of CAN FD FlexRay I2S and MIL-STD-1553B Bus protocol information can be quickly and intuitively displayed time aligned with the waveform and in table format
Mask Test Function
Themasktestfunctionenablesuserstodefinetheir own masks directly from a waveform or from the mask editor capability The masks can then be used for GothinspthinspNoGotestingwithanyfailuresstoredashistorywaveforms or screen shots The masks can be stored in the T3DSO2000A for future use so are not lost when the T3DSO2000A is powered off making it suitable for long-term signal monitoring or automated production line testing
Built in mask editor
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
9
FUNCTION amp CHARACTERISTICS
Bode Plot
Power Analysis
The T3DSO2000A Bode Plot application can control the built-in waveform generator or any T3AFG40-80-120 function generator to make Bode Plot measurements by scanning the amplitude and phase response over frequency of passive or active components and circuits This makes it possible to replace expensive network analyzers in less demanding applications The built-in waveform generator allows Bode Plot measurements up to 50 MHz whereas usingtheT3AFG120allowsBodePlotmeasurementsupto120 MHz
Theconfigurationscreenallowsconfigurationofthereference and measurement channels with up to three measurement channelspossibleConfigurationofthemeasurementfrequency and amplitude setting the number of measurement points load variable level sweeps channel gain decade or linear frequency mode etc
Themeasurementscreenallowsthesettingoffivecommonmeasurements Upper cutoff frequency lower cutoff frequency bandwidth gain margin and phase margin as well as having user settable measurement cursors
The T3DSO2000A Power Analysis application provides a full suite of power measurements and analysis tools thus improving the efficiencyofmeasurementinswitchingpowersuppliesandpowerdevice designs The power analysis application can measure Power Quality Current Harmonics Inrush Current Switching Loss Slew Rate Modulation Output Riplle Turn OnTurn Off Transient ResponsePSRRandEfficiencyEachmeasurementhasahelpscreen showing a connection diagram with notes
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
10
SPECIFICATIONS
Acquire SystemSampling Rate 2 GSas (single-channel1) ) 1 GSas (dual-channel)Memory Depth 200 Mpts (single-channel) 100 Mpts (dual-channel)Peak Detect 1 nsAverage Averages 4 16 32 64 128 256 512 1024Eres Enhance bits 05 1 15 2 25 3 selectableInterpolation Sinxx Linear
InputChannels 24 + EXTCoupling DC AC GNDImpedance DC(1MΩplusmn2thinsp)||(17pFplusmn2pF)
50Ω50Ωplusmn1thinspMaxInput voltage 1MΩle400Vpk(DC+PeakAC)DCndash10kHz
50Ωle5Vrmsplusmn10VPeakCH to CH Isolation DCndash100MHzgt40dB100MHzndashBWge34dBProbe Attenuation 1X 10X 100X Custom
Horizontal SystemTime Scale 10 nsdiv ndash 1000 sdiv T3DSO2502A 05 nsdiv ndash 1000 sdivChannel Skew lt 100 psWaveform Capture Rate Up to 120000 wfms (normal mode) 500000 wfms (sequence mode)Intensity grading 256-levelDisplay Format Y-TX-YRoll(ge50msdiv)Time base Accuracy plusmn1ppminitialplusmn1ppm1styearageingplusmn35ppm10-yearageingRoll Mode 50 msdiv ndash 1000 sdiv (1-2-5 Step)
Vertical SystemBandwidth (-3dB) 500 MHz T3DSO2502A (2 Channels) 350 MHz (4 Channels)
350 MHz (T3DSO2354A) 200 MHz (T3DSO2204A) 100 MHz (T3DSO2104A)
VerticalResolution 8 bit 10bitmodele100MHz
VerticalRange 8 divisionsVerticalScale(Probe1X) 1MΩ500microVdivndash10Vdiv
50Ω500microVdivndash1VdivOffset Range (Probe 1X) 500microVdivndash100mVdivplusmn2V
102mVdivndash1Vdivplusmn20V102Vdivndash10Vdivplusmn200V
Bandwidth Limit 20MHz-0thinspndash+20thinsp200MHz-0thinspndash+20thinspBandwidth Flatness 50Ω
DCndash10thinsp(BW)plusmn05dB10thinspndash33thinsp(BW)plusmn08dB33thinspndash66thinsp(BW)+1dB-12dB66thinspndashBW+2dB-25dB
Low Frequency Response (AC Coupling ndash3 dB)
le5Hz(typicalatinputBNC)
Noise 80microVat500MHzbandwidthDC Gain Accuracy le30thinspOffset Accuracy plusmn(1thinspoffset+15thinsp8div+1mV)Rise Time1)
50Ω(Typ)le800ps(T3DSO2502A2Channel500MHzmode)le1ns(T3DSO2502A4Channelmode)(Typ)le1ns(T3DSO2354A)(Typ)le17ns(T3DSO2204A)(Typ)le35ns(T3DSO2104A)(Typ)le33ns(T3DSO2104AT3DSO2204AT3DSO2354AT3DSO2502Ain10bitmode)
Overshoot (150 ps Fast Edge 50Ωinput)
lt12thinsp
All specifications are not guaranteed unless the following conditions are met The oscilloscope calibration period is valid Theoscilloscopehasbeenworkingcontinuouslyforatleast30minutesatthespecifiedtemperature(18 ndash 28)
11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
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UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
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11
SPECIFICATIONS
Trigger SystemMode Auto Normal SingleLevel Internalplusmn41divfromthecenterofthescreen
EXT plusmn061V EXT5 plusmn305V
Holdoff Range By Time 8 ns ndash 30 s (8 ns Step)By Event 1 ndash 108
Coupling ACDCLFRJHFRJNoiseRJ(CH1ndashCH4)ensp|enspACDCLFRJHFRJ(EXT)Coupling Frequency Response (CH1 ndash CH4)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 20 Hz LFRJ Attenuates the frequency components below 12 MHz HFRJ Attenuates the frequency components above 600 kHz
Coupling Frequency Response (EXT)2)
DC Passes all components of the signal AC Blocks DC components and attenuates signals below 8 Hz LFRJ Attenuates the frequency components below 33 kHz HFRJAttenuatesthefrequencycomponentsabove967kHz
Accuracy2) CH1ndashCH4plusmn02div EXTplusmn03div
Sensitivity CH1ndashCH4le2mVdivplusmn05divgt2mVdivplusmn033div EXT200mVpp(DCndash10MHz)300mVpp(10MHzndash300MHz)EXT51Vpp(DCndash10MHz)15Vpp(10MHzndash300MHz)
Jitter CH1 ndash CH4 lt 10 ps rms 6 divisions pk-pk 2 ns edge EXT lt 200 ps rmsDisplacement Pre-Trigger0ndash100thinspmemory
Delay-Trigger 0 ndash 5000 divZone Up to 2 zones Source CH1 ndash CH4 Property Intersect Not Intersect
Edge TriggerSlope Rising Falling Rising amp FallingSource CH1 ndash CH4EXT(EXT5)AC LineD0 ndash D15
Slope TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pulse Width TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Pulse Width Range 2 ns ndash 42 sResolution 1 ns
Video TriggerSignal Standard NTSCPAL720p50720p601080p501080p601080i501080i60CustomSource CH1 ndash CH4Sync Any SelectTrigger condition Line Field
Window TriggerWindow Type Absolute RelativeSource CH1 ndash CH4
1) Single-channel one channel in CH1CH2 (or CH3CH4) is ON and another is OFF Dual-channel both channels in CH1CH2 (or CH3CH4) are ON
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
12
SPECIFICATIONS
Interval TriggerSlope Rising FallingLimit Range legeltgtgtltSource CH1 ndash CH4 D0 ndash D15Time Range 2 ns ndash 20 sResolution 1 ns
Dropout TriggerTimeout Type Edge StateSource CH1 ndash CH4 D0 ndash D15Slope Rising FallingTime Range 2 ns ndash 20 sResolution 1 ns
Runt TriggerPolarity +wid -widLimit Range legeltgtgtltSource CH1 ndash CH4Time Range 2 ns ndash 20 sResolution 1 ns
Pattern TriggerPattern Setting Low High Dont CareLogic AND OR NAND NORSource CH1 ndash CH4 D0 ndash D15Limit Range legeltgtgtltTime Range 2 ns ndash 20 sResolution 1 ns
Serial TriggerIIC TriggerCondition Start Stop Restart No Ack EEPROM AddressampData Data LengthSource (SDASCL) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range EEPROM=gtltData Length EEPROM 1 byte
Address amp Data 1 ndash 2 byteData Length 1 ndash 12 byte
RW bit Address amp Data Read Write Dont CareSPI TriggerCondition DataSource (CSCLData) CH1 ndash CH4 D0 ndash D15Data format BinaryData Length 4 ndash 96 bitBitValue 0 1 XBit Order LSB MSB
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
13
UART TriggerCondition Start Stop Data Parity ErrorSource (RXTX) CH1 ndash CH4 D0 ndash D15Data format HexLimit Range =gtltData Length 1 byteData Width 5bit6bit7bit8bitParity Check None Odd EvenStop Bit 1 bit 15 bit 2 bitIdle Level High LowBaud Rate (Selectable) 6001200240048009600192003840057600115200bitsBaud Rate (Custom) 300 bits ndash 334000 bitsCAN TriggerType All Remote ID ID + Data ErrorSource CH1 ndash CH4 D0 ndash D15ID STD (11 bit) EXT (29 bit)Data format HexData Length 1ndash2 byteBaud Rate (Selectable) 5 k10 k20 k50 k100 k125 k250 k500 k800 k1 M bitsBaud Rate (Custom) 5 kbits ndash 1 MbitsLIN TriggerType Break Frame ID ID+Data ErrorSource CH1 ndash CH4 D0 ndash D15ID 1 byteData format HexData Length 1 ndash 2 byteBaud Rate (Selectable) 600120024004800960019200 bitsBaud Rate (Custom) 300 bits ndash 20 kbits
Serial DecoderNo of Decoder 2Decode Type Full DuplexThreshold -41 ndash +41 DivList 1ndash7linesIIC DecoderSignal SCL SDAAddress 7bit10bitDecoded Frames (Max) 2000SPI DecoderSignal CLK MISO MOSI CSEdge Select Rising FallingChip Select Active Low Active High Clock TimeoutBit Order MSB LSBDecoded Frames (Max) 15000UART DecoderSignal RX TXData Width 5bit6bit7bit8bitParity Check None Odd Even Mark SpaceStop Bit 1 bit 15 bit 2 bitIdle Level Low HighBit Order LSB MSBDecoded Frames (Max) 15000
SPECIFICATIONS
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
14
SPECIFICATIONS
CAN DecoderSignal CAN_H CAN_LSource CH1 ndash CH4 D0 ndash D15Decoded Frames (Max) 2000LIN DecoderLINSpecificationPackageRevision Ver13Ver20Baud Rate (Selectable) 600 bps 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps customDecoded Frames (Max) 3000
Serial Decoder (Optional)CAN FDSource CH1 ndash CH4 D0 ndash D15Nominal Baud Rate 10 kbps 25 kbps 50 kbps 100 kbps 250 kbps 1 Mbps customData Baud Rate 500 kbps 1 Mbps 2 Mbps 5 Mbps 8 Mbps 10 Mbps customDecoded Frames (Max) 1000FlexRaySource CH1 ndash CH4Data Baud Rate 25 Mbps 5 Mbps 10 Mbps customDecoded Frames (Max) 1000I2SSignal BCLK WS DATAAudioVariant Audio-I2S Audio-LJ Audio-RJStart Bits 0 ndash 31Baud Rate 1 ndash 32Decoded Frames (Max) 10000MIL-STD-1553BSource CH1 ndash CH4Decoded Frames (Max) 10000
MeasurementSource CH1 ndash CH4 D0 ndash D15 F1 ndash F2 Ref History Z1 ndash Z4Mode Simple AdvancedRange Screen GateMeasurement ParametersVertical (Voltage) Max Highest value in input waveform
Min Lowest value in input waveformPk-Pk Difference between maximum and minimum data valuesAmplitude Difference between top and base in a bimodal signal or between max
and min in an unimodal signalTop ValueofmostprobablehigherstateinabimodalwaveformBase ValueofmostprobablelowerstateinabimodalwaveformMean Average of all data valuesCycleMean Averageofdatavaluesinthefirstcyclestdev Standard deviation of all data valuesCyclestdev StandarddeviationofdatavaluesinthefirstcycleRMS Root mean square of all data valuesCycleRMS RootmeansquareofalldatavaluesinthefirstcycleMedian Middle data value of all data valuesCycleMedian MiddledatavalueofalldatavaluesinthefirstcycleFOV Overshootafterafallingedge(base-min)AmplitudeFPRE Overshoot before a falling edge (max-top)AmplitudeROV Overshootafterarisingedge(max-top)AmplitudeRPRE Overshoot before a rising edge (base-min)AmplitudeLevelTrigger The voltage value of the trigger point
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
15
Horizontal (Time) Period Periodforeverycycleinwaveformatthe50thinsplevelandpositiveslopeFreq Frequencyforeverycycleinwaveformatthe50thinsplevelandpositiveslopeTimemax Time of maximum valueTimemin Time of minimum value+Width Widthmeasuredat50thinsplevelandpositiveslope-Width Widthmeasuredat50thinsplevelandnegativeslope10thinspndashthinsp90thinspRise TimeDurationofrisingedgefrom10 ndash 90thinsp90thinspndashthinsp10thinspFall TimeDurationoffallingedgefrom90 ndash 10thinsp20thinspndashthinsp80thinspRise TimeDurationofrisingedgefrom20 ndash 80thinsp80thinspndashthinsp20thinspFall TimeDurationoffallingedgefrom80 ndash 20thinsp+Bwidth Timefromthefirstrisingedgetothelastfallingedgeatthe50thinspcrossing-Bwidth Timefromthefirstfallingedgetothelastrisingedgeatthe50thinspcrossing+Duty Ratio of positive width to period-Duty Ratio of negative width to periodDelay Timefromthetriggertothefirsttransitionatthe50thinspcrossingTM Timefromthetriggertoeachrisingedgeatthe50thinspcrossingCCJ The difference between two consecutive period
Delay Phase Calculate the phase difference between two edgesFRFR TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFRFF TimebetweenthefirstrisingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFFFR TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstrisingedgeofsourceBatthe50thinspcrossingFFFF TimebetweenthefirstfallingedgeofsourceAandthefollowing
firstfallingedgeofsourceBatthe50thinspcrossingFRLR TimebetweenthefirstrisingedgeofsourceAandthelastrising
edgeofsourceBatthe50thinspcrossingFRLF TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLR TimebetweenthefirstrisingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingFFLF TimebetweenthefirstfallingedgeofsourceAandthelastfalling
edgeofsourceBatthe50thinspcrossingSkew Time of source A edge minus time of nearest source B edge
Miscellaneous +Area Area of the waveform above zero-Area Area of the waveform below zeroArea Area of the waveformAbsArea Absolute area of the waveformCycles Number of cycles in a periodic waveformRising Edges Number of rising edges in a waveformFalling Edges Number of falling edges in a waveformEdges Number of edges in a waveformPpulses Number of positive pulses in a waveformNpulses Number of negative pulses in a waveform
Cursors Manual TimeX1X2(X1ndashX2)(1ΔT) Voltage Y1Y2(Y1ndashY2)Track Time X1 X2 (X1ndashX2) Source CH1 ndash CH4 D0 ndash D15 Math Ref
Statistics Current Mean Min Max Sdev Count Histogram TrendCounter Source CH1 ndash CH4
FrequencyResolution7Digits
SPECIFICATIONS
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
16
MathNumber of Math Operators 2Source CH1thinspndashthinspCH4Z1thinspndashthinspZ4F1F2Operation +-FFTddtintdtsquarerootFormulaEditorFFT Length 2 Mpts 1 Mpts 512 kpts 256 kpts 128 kpts 64 kpts
32 kpts 16 kpts 8 kpts 4 kpts 2 kptsWindow Rectangular Blackman Hanning Hamming FlattopDisplay Full Screen Split ExclusiveMode Normal Max hold Average Tools Peaks Markers
AnalysisSearchSource CH1 ndash CH4 HistoryMode Edge Slope Pulse Interval RuntCopy setting Copy from trigger Copy to triggerNavigateType Search event Time History frameMask TestSource CH1 ndash CH4 Z1 ndash Z4Mask creating Auto (Create mask) Custom (Mask Editor optional)Mask test speed Up to 80000 framessStore failed frames To history To screenshotBode PlotSource CH1 ndash CH4Supported signal sources Built-in waveform generator
SDG series waveform generators Connection USB LANSweep type SimpleVari-levelFrequency Mode Linear Logarithmic
Range 10 Hz ndash 120 MHzMeasure Upper cutoff frequency Lower cutoff frequency Bandwidth Gain margin Phase marginPower AnalysisMeasure Power quality Current Harmonics Inrush current Switching loss Slew rate Modulation
OutputrippleTurnonoffTransientresponsePSRREfficiency
Built-in FunctionArbitrary Waveform GeneratorChannel 1Max Output Frequency 50 MHzSampling Rate 125 MSasFrequency Resolution 1μHzFrequency Accuracy plusmn50ppmVerticalResolution 14 bitsAmplitude Range -15Vndash+15V(into1048608501048608Ω)
-3Vndash+3V(intoHiZ)Waveforms Sine Square Ramp Pulse DC Noise 45 ArbitraryOutput Impedance 50Ωplusmn2thinspProtection Over voltage protection Current limit
SPECIFICATIONS
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
17
SineFrequency 1μHzndash50MHzOffset Accuracy (10 kHz) plusmn(1thinspoffsetsettingvalue+3mVpp)Amplitude Flatness (Comparedto10kHz5Vpp)
plusmn03dBle25MHzplusmn05dBgt25MHz
SFDR DC ndash 1 MHz -60 dBc1 MHz ndash 5 MHz -55 dBc5 MHz ndash 25 MHz -50 dBc25 MHz ndash 50 MHz -40 dBc
Harmonic Distorsion DC ndash 5 MHz -50 dBc5 MHz ndash 25 MHz -45 dBc25 MHz ndash 50 MHz -40 dBc
SquarePulseFrequency 1μHzndash10MHzDuty Cycle 1thinspndash99thinspRiseFall time lt24ns(10thinspndash90thinsp)Overshoot lt3thinsp(typical1KHz1Vpp)Pulse Width gt50nsJitter lt 500 ps + 10 ppm
RampFrequency 1μHzndash300kHzLinearity (Typical) lt01thinspofPk-Pk(Typical1kHz1Vpp50thinspSymmetry)Symmetry 0thinspndash100thinsp
DCOffset range plusmn15V(into50Ω)
plusmn3V(intoHiZ)Accuracy plusmn(|SettingValue|1thinsp+3mV)
NoiseBandwidth gt25MHz(-3dB)
ArbFrequency 1μHzndash5MHzWave Length 16 KptsSampling Rate 125 MSasWaveform Import EasyWave U-Disk directly from waveform data of analog channels
Digital ChannelsNo of Channels 16Max Sampling Rate 500 MSasMemory Depth 50 MptsChMin Detectable Pulse Width 33 nsLevel Group D0ndashD7D8ndashD15Level Range -10Vndash+10VLogic Type TTLCMOSLVCMOS33LVCMOS25customSkew2) D0ndashD15plusmn1samplinginterval
DigitaltoAnalogplusmn(1samplinginterval+1ns)
2)TypicalValuereferstothetestedvalueunderspecificconditionsItmightvarywiththeambienttemperatureorotherconditions
SPECIFICATIONS
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
18
IOStandard USB20Hostx2USB20DeviceLAN100MPassFailOut33VTTLTriggerOut33V
LVCMOSEXTTriggerle15VrmsEXT5Triggerle75Vrms
DisplayDisplay Type 101 inch TFT LCD Capacitive Touch ScreenResolution 1024 x 600Contrast 5001Backlight 500 nit typicalRange 8 x 10 grid
Waveform DisplayType DotVectorPersistence Time OFF1s5s10s30sinfiniteColor Display Normal ColorScreen Saver 1 min 5 min 10 min 30 min 1 hour OFF
LanguageLanguage SimplifiedChineseTraditionalChineseEnglishFrenchJapanese
German Russian Italian Portuguese Spanish
EnvironmentsTemperature Operating 10 ndash 40
Non-operating -20 ndash 60Humidity Operating85thinspRH40DegC24hours
Non-operating85thinspRH65DegC24hoursAltitude Operatingle3000m
Non-operatingle15266mElectromagnetic Compatibility 201430EU
Execution Standard EN 61326-12013Safety 201435EU
Execution Standard EN 61010-12010
All T3DSO2000 Series Oscilloscopes come with a 3 year return to Teledyne LeCroy warranty
Power SupplyInputVoltageampFrequency 100ndash240Vrms5060Hz
100ndash120Vrms400HzPower 80 W Max 50 W typical 4 W typical in standby mode
MechanicalDimensions LengthWidthHeight=352mm111mm224mmWeight NW 39 Kg
GW 54 Kg
SPECIFICATIONS
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
19
ORDERING INFORMATION
T3DSO2000 ProbesProbe type Model Picture DescriptionPassive T3PP300 300MHzbandwidth10MΩ10XProbe1suppliedperchannel
Replacement probe for the T3DSO2104A and T3DSO2204AOscilloscopes
T3PP350A 350MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2354A Oscilloscope
PP020-1 500MHzbandwidth10MΩ10XProbe1suppliedperchannelReplacement probe for the T3DSO2502A Oscilloscope
Logic Probe T3DSO2000-LS 16 Channel Logic Probe This probe REQUIRES that the Oscilloscope has option T3DSO2000A-MSO
MSO Software T3DSO2000A-MSO1)
Software License for the MSO capability Enables one T3DSO2000-LS 16 channel logic probe lead set to be shared amongst several licensed T3DSO2000A oscilloscopes This software option does not come with a logicprobeleadset
1) This option REQUIRES that the scope has probe T3DSO2000-LS
Ordering informationDescription 500 MHz 2 Ch 2 GSas (Max) 200 MptsCh 350 MHz 4 Ch
2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2502A350 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2354A200 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2204A100 MHz 4 Ch 2 GSas (Max) 100 MptsCh 200 Mpts Interleaved T3DSO2104A
Standard Accessories USB Cable -1Passive Probe -4Power Cord -1Quick Start -1CertificateofCalibration-1
Optional Accessories FlexRay trigger amp decode (software) T3DSO2000A-FLEXRAYMIL-STD-1553B trigger amp decode (software) T3DSO2000A-MIL-1553 CAN FD trigger amp decode (software) T3DSO2000A-CANFDI2S trigger amp decode (software) T3DSO2000A-I2S16 Digital Channels (Software requires T3DSO2000-LS) T3DSO2000A-MSO16 Channel Logic Probe requires T3DSO2000A-MSO T3DSO2000-LS
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20
copy 2020 Teledyne Test Tools is a brand and trademark of Teledyne LeCroy Inc All rights reserved Specifications prices availability and delivery subject to change without notice Product brand or brand names are trademarks or requested trademarks of their respective holders T3 stands for Teledyne Test Tools
teledynelecroycom
Company ProfileTeledyne LeCroy is a leading provider of oscilloscopes protocol analyzers and related test and measurement solutions that enable companies across a wide range of industries to design and test electronic devices of all types Since our founding in 1964 we have focused on creating products that improve productivity by helping engineers resolve design issues faster and more effectively Oscilloscopes are tools used by designers and engineers to measure and analyze complex electronic signals in order to develop high-performance systems and to validate electronic designs in order to improve time to market
The Teledyne Test Tools brand extends the Teledyne LeCroy product portfolio with a comprehensive range of test equipment solutions This new range of products delivers a broad range of quality test solutions that enable engineers to rapidly validate product and design and reduce time-to-market Designers engineers and educators rely on Teledyne Test Tools solutions to meet their most challenging needs for testing education and electronics validation
Location and FacilitiesHeadquartered in Chestnut Ridge New York Teledyne Test Tools and Teledyne LeCroy has sales service and development subsidiaries in the US and throughout Europe and Asia Teledyne Test Tools and Teledyne LeCroy products are employed across a wide variety of industries including semiconductor computer consumer electronics education militaryaerospace automotiveindustrial and telecommunications
Teledyne LeCroy (US Headquarters)700 Chestnut Ridge Road Chestnut Ridge NY USA 10977-6499
Phone 800-553-2769 or 845-425-2000Fax Sales 845-578-5985Phone Support 1-800-553-2769Email Sales contactcorpteledynelecroycom Email Support supportteledynelecroycom Web Site httpteledynelecroycom
Teledyne LeCroy (European Headquarters)Teledyne LeCroy GmbHIm Breitspiel 11cD-69126 Heidelberg Germany
Phone +49 6221 82700Fax +49 6221 834655Phone Service +49 6221 8270 85Phone Support +49 6221 8270 28 Email Sales contactgmbhteledynelecroycom Email Service servicegmbhteledynelecroycom Email Support tlct3appsupporteuteledynecom Web Site httpteledynelecroycomgermany
World wide support contacts can be found athttpsteledynelecroycomsupportcontact
ABOUT TELEDYNE TEST TOOLS
Distributed by
22july20