image sensor evaluation kitsphys191r/bench_notes/a8/ccd.pdfrg rd os od og sg 1 2 3 456 24 23 22 20...
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![Page 1: IMAGE SENSOR EVALUATION KITSphys191r/Bench_Notes/A8/CCD.pdfrg rd os od og sg 1 2 3 456 24 23 22 20 15 14 v=60, 124, 252 h=512, 1024 ish ig1h p2h p1h ig2h 13 12 9 10 11 4 blank 4 blank](https://reader034.vdocuments.us/reader034/viewer/2022043021/5f3d40f3bb47042b8712ecaa/html5/thumbnails/1.jpg)
IMAGE SENSOREVALUATION KITS
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IntroductionHamamatsu has developed two convenient means of image sensor evaluation. Choose the package best suited for your application.
The first method uses a cooled camera head, data acquisition card, interface cable and LabVIEW® software drivers. It’s calledthe HC230 series. These evaluation kits are available in either a back illuminated CCD, front illuminated CCD or InGaAs-array camera heads. All of the camera heads are cooled for low light level applications. The LabVIEW® software library allowsfor computer controlled data collection.
The second uses a cooled camera head, stand alone controller unit, SCSI interface, and DLL software library. The Multi-Channel Detector (MCD) controller unit includes an A/D converter, low voltage power supplies and a SCSI interface.
Table of ContentsBack-Thinned CCD (BT-CCD)
HC230 Series – 1-Stage cooled, 16 bit, 250 KHz (Low noise). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
HC231 Series – 1-Stage cooled, 16 bit, 250 KHz (Large Full Well) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
HC236 Series – 2-Stage cooled, 16 bit, 250 KHz . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Front Illuminated CCD (FI-CCD)HC232 Series – 1-Stage cooled, 16 bit, 250 KHz . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
InGaAs Array (IGA-A)HC234 Series – 1-Stage cooled, 16 bit, 300 KHz (1.7 µm cutoff) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
HC235 Series – 2-Stage cooled, 12 bit, 500 KHz (2.6 µm cutoff) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
LabView Evaluation Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Multi-Channel Controller (C7557) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Multi-Channel Controller Evaluation Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Appendix A201648 Cable Pin Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
201648 Cable Assembly Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
201561 Rev A Cable Pin Assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
201561 Rev A Cable Assembly Wiring Diagram. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
C7557 Multi-Channel Controller Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Appendix BCamera Head Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Camera Head Timing Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
C7557 Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
CCD Readout Time Calculations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Appendix COrdering Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
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Back-Thinned CCD (BT-CCD)HC230, HC231 Series
The HC230/31 series are CCD based camera systems. These evaluation kits are available with thinned, back illuminated CCDdetector heads, 16 bit Analog to Digital converters, interface cable assembly and LabVIEW® drivers (software). The HC230series uses our standard low noise BT-CCD and the HC231 series features extended dynamic range. The software allows for com-puter controlled data collection. The user specifics the readout speed (pixel rate) and integration time in either line binningmode (1D) or area scanning mode (2D). In addition, the HC230/31 series reads the CCD temperature and includes a singlestage TE cooler. The cooler is preset for -10˚C.
The advantage of our BT-CCD is high quantum efficiency (QE) over the entire spectral range (UV�NIR). We offer BT-CCD’swith a QE of 90% in the visible, and 50% at UV, as shown in figure 4.
The FFT-CCD was originally designed as a two-dimensional image sensor. However, it can be operated like a linear image sensorhaving a large active area by transferring all the pixel signals in the vertical direction to the horizontal register (this is referred to asline binning).
2
Type No.CCD Area Image Sensor
Suffix No. Number of Pixels Number of Active Pixels Active Area [mm (H) � mm (V)]
-0906 532 � 64 512 � 58 12.288 � 1.392
HC230-0907 532 � 128 512 � 122 12.288 � 2.928
(Low Readout Noise)-0908 532 � 256 512 � 250 12.288 � 6.000
-1006 1044 � 64 1024 � 58 24.576 � 1.392
-1007 1044 � 128 1024 � 122 24.576 � 2.928
-1008 1044 � 256 1024 � 250 24.576 � 6.000
HC231 -0907 532 � 128 512 � 122 12.288 � 2.928
(Large Full Well) -1007 1044 � 128 1024 � 122 24.576 � 2.928
Pixel Format
100.0
90.0
77.0
FOCALPLANE
34.0
35.0
80.0
60.0
82.0
62.0 11.0
50.0
50.0
FOCALPLANE
2.90.5
(4 x) M3 DEPTH 4
Figure 1: Dimensional outline (Unit: mm)
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HC236 Series
The HC236 series is a two (2) stage cooled CCD based camera systems, preset for -20˚C. This evaluation kit uses a thinned,back illuminated CCD detector head, 16 bit Analog to Digital converters, interface cable assembly and LabVIEW drivers(software). The software allows for computer controlled data collection. The user specifics the readout speed (pixel rate) andintegration time in either line binning mode (1D) or area scanning mode (2D). In addition, the HC236 series reads the CCDtemperature.
The advantage of our BT-CCD is high quantum efficiency (QE) over the entire spectral range (UV�NIR). We offer BT-CCD’swith a QE of 90% in the visible, and 50% at UV, as shown in figure 4.
The FFT-CCD was originally designed as a two-dimensional image sensor. However, it can be operated like a linear image sensorhaving a large active area by transferring all the pixel signals in the vertical direction to the horizontal register (this is referred to asline binning).
3
Type No.CCD Area Image Sensor
Type No. Number of Pixels Number of Active Pixels Active Area [mm (H) � mm (V)]
-0906 532 � 64 512 � 58 12.288 � 1.392
-0907 532 � 128 512 � 122 12.288 � 2.928
HC236 -0908 532 � 256 512 � 250 12.288 � 6.000
-1006 1044 � 64 1024 � 58 24.576 � 1.392
-1007 1044 � 128 1024 � 122 24.576 � 2.928
-1008 1044 � 256 1024 � 250 24.576 � 6.000
Pixel Format
Figure 2: Block Diagram (Back-thinnedCCD Area Image Sensor)
2322 21 20 1415
24
1
2
12
11
8 93 4 5
2 B
EV
EL
SI
GN
AL
OU
T2
n
4 BLANK 4 BLANK
V=58, 122, 250H=512, 1024
4 B
EV
EL
THINNING
TH
INN
ING
1 2 3 4 52345
V
H
6 BEVEL 6 BEVEL
2 SIGNAL OUTn
13
10
100.0
90.0
FOCALPLANE
34.0
65.0
80.0
60.0
50.0
50.0
FOCALPLANE
2.90.5 (4 x) M3 DEPTH 4
77.0
82.0
62.0 11.0
Figure 3: Dimensional outline (Unit: mm)
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HC230, HC231 and HC236 SeriesELECTRICAL AND OPTICAL CHARACTERISTICS(Ta=25°C, Ts= -10°C, VD1=+5 V, VA1+=+15 V, VA1-=-15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12 V)
*1: HC230 and HC231 Series have a quartz window. HC236 series has a sapphire window.Spectral response with quartz glass (or sapphire glass) is decreased by the transmittance (refer to Fig. 5)
*2: Including the circuit gain.
*3: at MPP mode. Vertical register value. Measured using line binning operation, vertical sum divided by vertical pixel count.
*4: DR= Horizontal FW
*5: Measured at 50% of the saturated output charge.
4
Parameter Symbol Min. Typ. Max. Unit
Spectral Response Range *1 � - 200 to -1100 nm
Full Well CapacityVertical HC230/36 FW - 200K - e-
HC231 FW - 200K - e-
HorizontalHC230/36 FW - 600K - e-
HC231 FW - 2,700K - e-
Conversion Gain *2HC230/36 Sv - 15 - �V/e-
HC231 Sv - 3 - �V/e-
HC230, HC231 Dark Signal @ -10°C *3 DS - 50 300 e-/pixel/s
HC236 Dark Signal @ -20°C *3 DS - 14 80 e-/pixel/s
Readout NoiseHC230/36 Nr - 20 - e-rms
HC231 Nr - 60 - e-rms
Dynamic Range *4HC230/36 DR - 30K - -
HC231 DR - 45K - -
Photo Response Non-Uniformity *5 PRNU - - ±10 %
100
90
80
70
60
50
40
30
20
10
0
QU
AN
TU
M E
FFIC
IEN
CY
(%
)
200 400 600 800 1000 1200
WAVELENGTH (nm)
Temperature (˚C)Figure 4: Spectral Response
100
90
80
70
60
50
40
30
20
10
0
TR
AN
SMIT
TA
NC
E (
%)
100 300 500 700 900200 400 600 800 1000
WAVELENGTH (nm)
(Typ. Ta=25˚C)
Sapphire Window
Quartz Window
Figure 5: Window Transmittance Characteristics
-50 -40 -30 -20 0-10 10 20 30
Temperature (˚C)
0.1
1
10
100
1000
10000
DA
RK
SIG
NA
L (
e-/p
ixel
/s)
(Tentative Data)
Figure 6: Dark Signal vs. Temperature
Nr
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HC230, HC231 and HC236 ELECTRICAL CHARACTERISTICS
(Unless otherwise noted, Ta=25°C, VD1=+5 V, VA1+=+15 V, VA1-=-15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12V)
For the HC236;
*1: VD2 = VD1 = Vp = +6.0V(typ), +6.25V (max)
*2: Vp(+6.0V) = 3.0A (typ), 4.0A (max) [@ Ta=25˚C]
For cable assembly wiring diagram, see appendix A & B.
5
Parameter Symbol Min. Typ. Max. Unit
Analog/Digital Converter Resolution DN 16 bits
CLK Frequency Fclk - - 1000 KHz
Data Video Readout Frequency fv - - Fclk/4 Hz
Start Pulse Width tst 1/Fclk - - s
Power Supply Requirements
Digital Circuitry VD +4.75 +5.0 +5.25 V
Analog Circuitry
VA1+ +14.5 +15.0 +15.5 V
VA1- -14.5 -15.0 -15.5 V
VA2 +23.5 +24.0 +24.5 V
Other
VD2 (*1) +4.75 +5.0 +5.25 V
Vp (*1) +4.75 +5.0 +5.25 V
VF +11.75 +12.0 +12.75 V
VD1 (+5 VDC) - - - +200 mA
VA1+ (+15 VDC) - - - +100 mA
VA1- (-15 VDC) - - - -100 mA
VA2 (+24 VDC) - - - +30 mA
VD2 (+5 VDC) *1 - - - +30 mA
Ta=10°C - - +0.8 +2.5 A
Ta=20°C - - +1.4 +2.5 A
Ta=30°C - +1.8 +2.5 A
Ta=35°C - - +2.2 +2.5 A
VF (+12 VDC) - - +100 - mA
Vp (+5 DC) *2
Voltage
Current
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Front Illuminated CCDHC232 Series
The HC232 series are CCD based camera systems. These evaluation kits include a front illuminated CCD detector heads,16 bit Analog to Digital converters, interface cable assembly and LabVIEW® drivers (software). The software allows for com-puter controlled data collection. The user specifics the readout speed (pixel rate) and integration time in either line binningmode (1D) or area scanning mode (2D). In addition, the HC232 series reads the CCD temperature and includes a single stageTE cooler.
The FFT-CCD was originally designed as a two-dimensional image sensor. However, it can be operated like a linear image sensorhaving a large active area by transferring all the pixel signals in the vertical direction to the horizontal register (this is referred to asline binning).
6
Type No.CCD Area Image Sensor
Suffix No. Number of Pixels Number of Active Pixels Active Area [mm (H) � mm (V)]
-0906 532 � 64 512 � 60 12.288 � 1.440
-0907 532 � 128 512 � 124 12.288 � 2.976
HC232-0908 532 � 256 512 � 252 12.288 � 6.048
-1006 1044 � 64 1024 � 60 24.576 � 1.440
-1007 1044 � 128 1024 � 124 24.576 � 2.976
-1008 1044 � 256 1024 � 252 24.576 � 6.048
Pixel Format
Figure 7: Block Diagram of Front-illuminated CCD Area Image Sensor
......
......
......
V
1 H
IG1V IG2V ISV SS
RG
RD
OS
OD OG SG
1
2
3
4 5 6
2023 2224 15 14
V=60, 124, 252H=512, 1024
ISH
IG1H
IG2HP1HP2H
13
12
11109
4 BLANK4 BLANK4 OPTICAL
BLACK4 OPTICAL
BLACK
2n SIGNAL OUT2 ISOLATOIN 2 ISOLATOIN
P1V P2V
16TG
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HC232 Series
ELECTRICAL AND OPTICAL CHARACTERISTICS(Unless otherwise noted, (Ta=25°C, Ts= -10°C, VD1=+5 V, VA1+=+15 V, VA1-=-15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12 V)
*1: Including the circuit gain.
*2: at MPP mode. Vertical register value. Measured using line binning operation, vertical sum divided by vertical pixel count.
*3: DR= Horizontal FW
*4: Measured at 50% of the saturated output charge.
For cable assembly wiring diagram, see appendix A.
Parameter Symbol Min. Typ. Max. Unit
Spectral Response Range � - 400 to -1100 nm
Full Well CapacityVertical
Fw - 200K - e-
Horizontal - 600K -
Conversion Gain *1 Sv - 15 - �V/e-
Dark Signal *2 DS - 15 45 e-/pixel/s
Readout Noise Nr - 20 - e-rms
Dynamic Range *3 DR - 30K - -
Photo Response Non-Uniformity *4 PRNU - - ±10 %
50
40
30
20
10
0200 300 400 500 600 700
WAVELENGTH (nm)
800 900 1000 1100 1200
QU
AN
TU
M E
FFIC
IEN
CY
(%
)
(Typ. Ta=25˚C)
-50 -40 -30 -20 0-10 10 20 30
Temperature (˚C)
0.1
0.01
1
10
100
1000
10000
DA
RK
SIG
NA
L (
e-/p
ixel
/s)
(Tentative Data)
7
Figure 8: Spectral Response Figure 9: Dark Signal vs. Temperature
Nr
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8
100.0
90.0
77.0
34.0
35.0
80.0
60.0
82.0
62.0
C7025
C7021
50.0
FOCALPLANE
2.50.5
(4 ×) M3 DEPTH 4
FOCALPLANE
FOCALPLANE
3.40.5
For cable assembly wiringdiagram, see appendix A & B.
Figure 10: Dimensional Outline (C7021, C7025; Unit: mm)
HC232, ELECTRICAL CHARACTERISTICS
(Unless otherwise noted, Ta=25°C, VD1=+5 V, VA1+=+15 V, VA1-=-15 V, VA2=+24 V, VD2=+5 V, Vp=+5 V, VF=+12V)
Parameter Symbol Min. Typ. Max. Unit
Analog/Digital Converter Resolution HC232 DN 16 bits
CLK Frequency Fclk - - 1000 KHz
Data Video Readout Frequency fv - - Fclk/4 Hz
Start Pulse Width tst 1/Fclk - - s
Power Supply Operating Conditions
Digital Circuitry VD +4.75 +5.0 +5.25 V
Analog Circuitry
VA1+ +14.5 +15.0 +15.5 V
VA1- -14.5 -15.0 -15.5 V
VA2 +23.5 +24.0 +24.5 V
Other
VD2 +4.75 +5.0 +5.25 V
Vp +4.75 +5.0 +5.25 V
VF +11.75 +12.0 +12.25 V
VD1 (+5 VDC) - - - +200 mA
VA1+ (+15 VDC) - - - +100 mA
VA1- (-15 VDC) - - - -100 mA
VA2 (+24 VDC) - - - +30 mA
VD2 (+5 VDC) - - - +30 mA
Ta=10°C - - +0.8 +2.5 A
Ta=20°C - - +1.4 +2.5 A
Ta=30°C - +1.8 +2.5 A
Ta=35°C - - +2.2 +2.5 A
VF (+12 VDC) - - +100 - mA
Vp (+5 DC)
Voltage
Current
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InGaAs Linear Image SensorHC234, HC235 Series
The HC234/HC235 lnGaAs linear image sensors evaluation kits include a lnGaAs photodiode array with C-MOS multiplexerreadout, camera head, 12 or 16 bit A/D converter, interface cable and LabVIEW software library.
9
Selection Guide
A/D Spectral Ratio of Bad Pixel SizePart Number Cooling Resolution Response Range Number of Pixels Pixels [µm (H) � µm (V)]
HC234-25616 bit 0.9 to 1.7 µm
2560%
50 � 250
HC234-512 512 25 � 250
HC235-256 12 bit 1.2 to 2.6 µm* 256 5% Max 50 � 250
Single-stage
Two-stage
Figure 11: Spectral Response
0.5 1.0 1.5 2.0 2.5 3.00
0.5
1.0
1.5
WAVELENGTH (µm)
PH
OT
O S
EN
SIT
IVIT
Y (
A/W
)
(Typ.)
T=25 ˚CT= -10 ˚C (G8180-256W: T= -20 ˚C)
HC234SERIES
HC235
34.0
35.0
100.0
90.0
80.0
60.0
50.0
50.0
(4 ×) M3 DEPTH 4
77.0
FOCALPLANE
82.0
62.0 11.0
FOCALPLANE
2.050.5
TE
Control I/O
Signal I/O
Figure 13: C8062 Dimensional Outline (Unit: mm)
65.0
75.4 100.0
90.0
80.0
60.0
50.0
50.0
(4 ×) M3 DEPTH 4
FOCALPLANE
FOCALPLANE
2.250.5
88.4
81.0
TE
Control I/O
Signal I/O
34.0
Figure 12: C8061 Dimensional Outline (Unit: mm)
*We also offer 1.9 and 2.3 µm cutoff wavelength materials. Contact your local sales office for more information.
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ELECTRICAL AND OPTICAL CHARACTERISTICS
(Ta=25°C, Ts= -10°C (HC234)/-25°C (HC235), VD1=+5 V, ±VA=±15 V, VD2=+5 V (HC234)/+6 V (HC235), Vp=+5 V(HC234)/+6 V (HC235), VF=+12 V)
*1: Including x10 circuit gain.
*2: Measured at 50% of the saturated output charge. Except for the first pixel and the last pixel.
10
Parameter Symbol Min. Typ. Max. Unit
Spectral Response RangeHC234 Series
�- 0.9 to 1.7 - �m
HC235 Series - 1.2 to 2.6 - �m
Peak Sensitivity WavelengthHC234 Series
�p- 1.55 - �m
HC235 Series - 2.3 - �m
Saturation Output Charge Qsat - 30 - pC
Conversion Gain *1 G - 0.3 - V/pC
Dark CurrentHC234 Series
ID- 0.1 4 pA/pixel
HC235 Series - 1K 4K pA/pixel
Photo Response Non-Uniformity *2HC234 Series
PRNU- - ±5 %
HC235 Series - - ±10 %
-40 -20 0 20 40
TEMPERATURE (˚C)
0.001
0.01
0.1
1
10
DA
RK
CU
RR
EN
T (
pA)
(Typ.)
Figure 16: Temperature Characteristic forDark Current (HC234)
-40 -30 -20 -10 0
TEMPERATURE (˚C)
0.1
1
10
100
DA
RK
CU
RR
EN
T (
nA)
(Typ.)
Figure 17: Dark Current vs. Temperature(HC235)
CDS
INP
1 PIXEL
INP
PHOTO-DIODE SHIFT REGISTER
OFFSETCOMPENSATION VIDEO
AD-TRIG
Cf=0.5 pF
Cf=10 pF
TIMING GENERATOR
CLK
EXTERNAL INPUT
RESET VrefVssVdd
INTEGRATION TIME
n ch(n-1) ch2 ch1 ch
85N CLOCK (READOUIT TIME)
TRIGGER(OUTPUT)
VIDEO(OUTPUT)
CLK(INPUT)
RESET(INPUT)
2 CLOCKS
8 CLOCKS 8 CLOCKS
Figure 14: Block Diagram of InGaAs Linear Image Sensor (C8060)
Figure 15: Block Diagram of InGaAs Linear Image Sensor (C8160)
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ELECTRICAL CHARACTERISTICS
(Unless otherwise noted, Ta=25°C, VD1=+5 V, VA=±15 V , VD2=+5 V (HC234)/+6 V (HC235),Vp=+5 V (HC234)/+6 V (HC235), VF=+12 V)
11
Parameter Symbol Min. Typ. Max. Unit
A/D ResolutionHC234 bits - 16 - -
HC235 bits - 12 - -
CLK FrequencyHC234 Fclk - - 2.4 MHz
HC235 Fclk 2.4
Data Video Readout Frequency fv - - Fclk/8 Hz
Start Pulse Width tst - - 1/Fclk Sec
Power Supply Connections
Digital Circuitry +VD +4.75 +5.0 +5.25 V
Analog Circuitry ±VA ±14.5 ±15.0 ±15.5 V
HC234 +VD2 +4.75 +5.0 +5.25 V
HC235 +5.75 +6.0 +6.25 V
HC234 +Vp +4.75 +5.0 +5.25 V
HC235 +5.75 +6.0 +6.25 V
HC234 / HC235 +VF +11.75 +12.0 +12.75
+VD1 (+5 VDC) - - - +100 mA
+VA (+15 VDC) - - - +100 mA
-VA (-15 VDC) - - - -100 mA
+VD2
HC234: +5 VDC
HC235: +6 VDC
- - -
+20 mA
+VpHC234: +5 VDC - - +1.5 +1.7 A
HC235: +6 VDC - - +2.0 +3.0 A
+VF (+12 VDC) - - +100 - mA
Voltage
Current
For 201561 cable assembly wiring diagram, see Appendix A.
![Page 13: IMAGE SENSOR EVALUATION KITSphys191r/Bench_Notes/A8/CCD.pdfrg rd os od og sg 1 2 3 456 24 23 22 20 15 14 v=60, 124, 252 h=512, 1024 ish ig1h p2h p1h ig2h 13 12 9 10 11 4 blank 4 blank](https://reader034.vdocuments.us/reader034/viewer/2022043021/5f3d40f3bb47042b8712ecaa/html5/thumbnails/13.jpg)
InGaAs MultichannelDetector Heads C8061, C8062 (256 pixels)
12
LED
TH. H
TE+ TE-
THERM
TIMING GENERATOR
D. GNDVA1+ (+15 V)
A. GND
CLKSTART
EOSTRIGGER
Cf SEL
THERMO-ELECTRIC COOLER
InGaAs IMAGE SENSOR
BUFFER AMPLIFIER
DATA VIDEO
AMPLIFIER
VOLTAGEREGULATOR
G8050-256SG8052-256SG8160-256SG8162-256SG8180-256W
CLKRESETCf SELECTAD-TRIG
THERM
INPVrefVddVss
VP *1
P. GND
VD2 *1
D. GND
VF (+12 V)
F. GND
Temp Monitor
Video
*1: +5 V (C8060, C8061), +6 V (C8062)*2: C8060 does not include the temperature controller and thermoelectric cooler.
AMPLIFIERMUX & AMPLIFIER
DC CLAMP
Cooling control
VD1 (+5 V)
VA1- (-15 V)
TEMPERATURE CONTROLLER *2
*2
STARTCLK
CLOCKRESETVideo
TRIGGERDATA VALID
EOS
8 clocks 8 × (N-1) clocks
ch 1
ch 1
ch 2 ch 3 ch 4
ch 2 ch 3 ch 4
ch (N-3) ch (N-2) ch (N-1) ch N
ch (N-3) ch (N-2) ch (N-1) ch N
STARTCLK
CLOCKRESET
Video
TRIGGERDATA VALID
EOS
INTEGRATION PERIOD
Note: N is the number of pixels (N=256)
ch 1 ch 2 ch 3
ch 1 ch 2 ch 3
2 clocks
Figure 18: Block Diagram (C8060, C8061, C8062)
Figure 19: Timing Chart (C8060, C8061, C8062)
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8 clocks 8 × (N-1) clocks
ch 1 ch (N-3) ch (N-1)
ch (N-2) ch N
ch 3
ch 2 ch 4
STARTCLK
CLOCK-ODDRESET-ODD
VIDED-ODDAD-TRIG-ODD
AD-TRIG-EVENVIDED-EVEN
CLOCK-EVENRESET-EVEN
TRIGGER
DATA VALID
EOS
STARTCLK
CLOCK-ODDRESET-ODD
VIDED-ODDAD-TRIG-ODD
AD-TRIG-EVENVIDED-EVEN
CLOCK-EVENRESET-EVEN
TRIGGERDATA VALID
EOS
ch 4 ch Nch 3ch 2ch 1 ch (N-1)ch (N-2)ch (N-3)
ch 1 ch 3
ch 2
ch 3ch 2ch 1
Note: N is the number of pixels (N=512)
INTEGRATION PERIOD
2 clocks
Figure 21: Timing Chart (C8060, C8061, C8062)
InGaAs MultichannelDetector Heads C8061, C8062 (512 pixels)
LED
TE+ TE-
THERM
TIMING GENERATOR
D. GNDVA1+ (+15 V)
A. GND
CLKSTART
EOSTRIGGER
Cf SEL
THERMO-ELECTRIC COOLER *
InGaAs IMAGE SENSOR
BUFFER AMPLIFIER
DATA VIDEO
VOLTAGEREGULATOR
G8051-512SG8053-512SG8161-512SG8163-512S
CLK-ODD, CLK-EVENRESET-ODD, RESET-EVEN
Cf SELECTAD-TRIG-ODD, AD-TRIG-EVEN
THERM
INPVrefVddVss
VP (+5 V)P. GND
VD2 (+5 V)
D. GND
VF (+12 V)
F. GND
Temp Monitor
Video-ODD
Video-EVEN
*C8060 does not include the temperature controller and thermoelectric cooler.
MUX & AMPLIFIER
DC CLAMP
Cooling control
VD1 (+5 V)
VA1- (-15 V)
TH. H
TEMPERATURE CONTROLLER*
AMPLIFIER
AMPLIFIER
Figure 20: Block Diagram (C8060, C8061, C8062)
13
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14
LabVIEW® Evaluation SoftwareThe Main ScreenAfter the program is launched, the front panel will appear as shown below.
The purpose of the Evaluation Software is to enable digitization of pixel data, control image sensor temperature andreadout mode (1D or 2D), and save pixel data for spreadsheet analysis. We provide a stand alone executable file aswell as the LabVIEW® library file. You do not need to have a licensed copy of LabVIEW® software in order to useour Evaluation software. Simply use the stand alone executable code. For machines with a licensed copy ofLabVIEW® software, try our library file. In the library file, you can modify the code and make it customized for yourapplication. The executable code can not be modified.
In line binning operation (1D mode), all of the pixels in a column are summed into the horizontal register. Next thehorizontal register is clocked out. For example, a 1044 x128 BT-CCD becomes a pseudolinear array (1044 x 1).Therefore, the Main screen displays channel (or pixel) number in the x-axis verses output voltage in the y-axis.
In area scanning operation (2D mode), each pixel in the array is readout individually. The resulting image is recon-structed and displayed on the main screen. Imaging applications generally require a shutter to prevent image smear.
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15
LabVIEW® Evaluation Software
1 Click on the RUN arrow.
2While in the Set-up screen you can select operatingparameters such as:
• Device Number
• Master clock frequency
• Start Period
• Input Limits
• Mode Select (toggle switch)
• Cooler Control (toggle switch)
3 Once your setting are complete, click on the DONEbutton.
This will start the program and bring-up the Set-up screen.
Set-up screen allows you to select operating parameters:
• Device number should correspond with the image sensorpart number. This tells the ADC the number of pixels tobe readout.
• Master clock frequency determines the image sensorspixel rate. It is four (4) times the actual pixel rate.
• In general, the Start period determines the sensors integra-tion time.
• Programs the ADC’s gain.
• Selects between line binning operation (1D) and areascanning (2D).
• Turns the cooler ON and OFF, controls the CCD chiptemperature.
Records your settings and returns you to the Main Screen.
ACTION RESULT
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16
LabVIEW® Evaluation Software
4Data Collection Options, click on the Collection Typeor use the scroll arrows to access your choices;
• Select “Single” and then click on Collect New Scan
• Averaging, you can select the cursor pixels by a clickand drag or typing the numerical vaule in the cursordisplay located in the lower right hand corner of themain display.
Once you have identified the target pixels, clickCollect New Scan.
Determines the data collection mode of operation;A screenshowing the percentage of files copied will appear.
• Acquires a single scan, writes the pixel data to the MainScreen display and halts.
• Computes the mean, standard deviation and peak to peakvalue of selected cursor pixels.
These values are displayed on the Main Screen along withthe mean value for all pixels.
ACTION RESULT
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17
LabVIEW® Evaluation Software
5 • Select, Continuous and clickCollect New Scan.• Stream to Disk
Enter the number of scans to saveand the time between saves usingthe Number of Frames toStream OR Average and StreamInterval respectively.
• Select, Stream to Disk andclick Collect New Scan.
• Free running mode. Continuously writes new data to the display.
• Tells the computer how many scans to save and how often.
• Generates a pop up window with a default file name of HAMA.txt. To changethe file name simply rename it and then click SAVE. Creates a text file.
Now the computer will write a series of scans to the hard drive. Each column inthe file represents a entire scan. During this time you will see a counter box inthe Main Screen. This corresponds to the number of scans written to disk.
ACTION RESULT
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18
LabVIEW® Evaluation Software
6 • Collect Background.
Enter the number of scans toaverage using the Number ofFrames to Stream OR Average.
• Averages n-number of scans and stores the mean value as background value.
After the data is collected the background subtraction switch is illuminated andthe toggle switch is activate. Place the switch in the ON position and the back-ground is nulled to zero.
Note: Background data is cleared once detector set-up is accessed.
ACTION RESULT
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19
Multi-Channel ControllerThe C7557 controller is specifically designed for Hamamatsu multichannel detector heads using a CCD area image sensor or InGaAs linear imagesensor. The C7557 allows simple interface to a PC computer (Windows 95/98® or Windows NT 4.0®) facilitating detector control and data acquisi-tion. It includes a 12 or 16 bit Analog to Digital Converter (ADC), necessary low voltage power supplies for camera biasing and a SCSI interfaceport. The C7557 is supplied with software that enables easy control of the multichannel detector head and data acquisition. This software is avail-able with various types of DLL*1, allowing you to create your own customized program for data acquisition and analysis.
SELECTION GUIDE FOR IMAGE SENSOR AND DETECTOR HEAD COMBINATIONSuitable
Image Sensors MultichannelDetector Head
Types of Sensors Type No.Number of Total Number of Active Active Area
Type No.Pixels Pixels [mm (H) � mm (V)]
S7010-0906 532 � 64 512 � 60 12.288 � 1.440
C7020
S7010-0907 532 � 128 512 � 124 12.288 � 2.976
S7010-0908 532 � 256 512 � 252 12.288 � 6.048
S7010-1006 1044 � 64 1024 � 60 24.576 � 1.440
S7010-1007 1044 � 128 1024 � 124 24.576 � 2.976
S7010-1008 1044 � 256 1024 � 252 24.576 � 6.048
S7011-0906 532 � 64 512 � 60 12.288 � 1.440
C7021S7011-0907 532 � 128 512 � 124 12.288 � 2.976
S7011-1006 1044 � 64 1024 � 60 24.576 � 1.440
S7011-1007 1044 � 128 1024 � 124 24.576 � 2.976
S7015-0908 532 � 256 512 � 252 12.288 � 6.048C7025
S7015-1008 1044 � 256 1024 � 252 24.576 � 6.048
S7030-0906 532 � 64 512 � 58 12.288 � 1.392
C7040
S7030-0907 532 � 128 512 � 122 12.288 � 2.928
S7030-0908 532 � 256 512 � 250 12.288 � 6.000
S7030-1006 1044 � 64 1024 � 58 24.576 � 1.392
S7030-1007 1044 � 128 1024 � 122 24.576 � 2.928
S7030-1008 1044 � 256 1024 � 250 24.576 � 6.000
S7031-0906 532 � 64 512 � 58 12.288 � 1.392
C7041
S7031-0907 532 � 128 512 � 122 12.288 � 2.928
S7031-0908 532 � 256 512 � 250 12.288 � 6.000
S7031-1006 1044 � 64 1024 � 58 24.576 � 1.392
S7031-1007 1044 � 128 1024 � 122 24.576 � 2.928
S7031-1008 1044 � 256 1024 � 250 24.576 � 6.000
G8160-256S 256 256
G8161-512S 512 51212.8 � 0.25 C8061
G8180-256W 256 256 12.8 � 0.25 C8062
Front-illuminatedCCD area
image sensors
Back-thinned *2CCD area
image sensors
InGaAs linear image sensors
*1: DLL (Dynamic Link Library) is a Windows 95/98 library containing various function calls. These function calls can be addressed from numerous highlevel programming languages (C++, Basic, etc.).
*2: C7557 can be used with following back-thinned CCD area image sensors and multi-channel detector heads
· Two-stage TE-cooled CCDs S7032 series/multichannel detector head C7042· Large full-well capacity type CCDs S7033/S7034 series/multichannel detectorheads C7043, C7044.
· Two-dimensional type CCDs S7170-0909, S7171-0909/multichannel detectorheads C7180, C7181.
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• SCSI InterfaceSCSI boards manufactured by Adaptec, especially types below, are recommended.
PCI Bus: AHA-2940AU, PCMCIA: APA-1460A
• OthersA BNC cable is separately required when making measurements by externalsync, controlling an external shutter or external light source,or measuring the video signal with an external device.
*1: A RS-232C connector is included in C7557, and data transfer to computer isperformed by a SCSI connector.
For wiring diagram, see appendix A.
20
Parameter SpecificationsData Transfer Transfers data stored in memory to computer.
Exposure Time Setting 1 ms to 65535 ms (1 ms steps)Minimum exposure time depends on sensor detection level.
External Sync Signal Input BNC connector input
Trigger Mode Internal sync, external sync
Trigger Polarity Trigger polarity selectable for external sync
Shutter Timing Pulse Output Outputs timing signal for operating external shutter or external light source via BNC connector.Pulse width, delay and polarity settings are possible.
Video Signal Output Outputs video signal sent from head, via BNC connector.
Video Sync Signal Output Outputs sync signal used to observe video signal output with external device such as oscilloscope,via BNC connector.
Amplifier Gain 1/2, 1, 2, 5, 10, 20, 50, 100
Detector Head InGaAs linear image sensor, CCD area image sensor selectable
Number of Detector Channels Compatible with each multichannel detector head
Detector Cooling Control Cooling start and stop
Detector Cooling Temperature Converts analog temperature data from detector into digital signal, and transfers it to Readout computer (10 bit A/D conversion)
Parameter SpecificationsClock 20 MHz
Memory 4 MB (1024 ch � 2048 lines)
Interface SCSI
Parameter InGaAs linear image sensors CCD area image sensorsAD Converter 12 bits 16 bits
Conversion Speed 1 ms/ch 4 ms/ch
Input Range -10 to +10 V 0 to 10 V
Input Method Differential input
Nonlinear Linearity 0.1% FS
AD Conversion Signal External input
SPECIFICATIONS• AD Converter
• Controller
Parameter SpecificationsInterface SCSI: 50-pin half pitch connector
Power Supply AC100 to 240 V ± 10% , 50 to 60 Hz
Power Consumption 33 W Max.
Outline Dimension 92 mm (W) � 150 mm (H) � 225.8 mm (D)
Operating Temperature 0 to 40°C
Storage Temperature -10 to 50°C
Weight Approx. 2.9 kg
• Equipment
Parameter SpecificationsConnector D-sub 9-pin male
Baud Rate 19200 bps
Data Bit 8 bit
Parity None
Stop Bit 2
• RS-232C *1
Multi-Channel ControllerFUNCTIONS
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21
Multi-Channel Controller Evaluation SoftwareIn addition to the dynamic library link files, the C7557 controller comes with easy to operate evaluation software. When theprogram is launched the main screen will appear as shown below. Each menu on the left hand side allows you to select operat-ing parameters such as integration time, gain, cooling control, dark correction, data collection mode and pixel format. Theimage sensor data is displayed on the right. There are eight (8) display formats to choose from.
For more advanced (application specific) software development, try our DLL library. Here you will find low level comandsused to simplify software development.
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22
Multi-Channel Controller Evaluation Software
1 Enter the start interval, amp gain cooling option andsensor readout mode using
2 Select the data aqusition style (continuous or single)and scan averaging using Measurement Control.
3 Select the type of data to be acquired using theAcquire mode. Place a check mark in the DarkCalibration box.
Initalizes camera head operating parameters such as inte-gration time, controller gain cooler ON or OFF and readoutmode. The readout mode automatically defines the A/Dresolution. Line scan mode is 12bits, all others are 16 bits.
Determines the data acqusion method. A check mark in the Average box instructs the controller to average the pixel data.
Acquires a Sample, Reference or Dark data set. When theDark Calibration is ON the controller performs a dark sub-traction.
ACTION RESULT
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23
Multi-Channel Controller Evaluation Software
4 To synchronized your optical signal with the image sen-sors pixel data three timing modes are available. Wesuggest Internal Trigger for steady state signals andExternal Trigger/Start for pulsed lights conditions.
5 For 2D readout (area scanning) an external shutter isneeded to prevent image smear. Place a check mark inthe Shutter Control box, specify the delay and durationtimes, and select the logic level (active low or high).
Sychronize your pixel data with an exteranl event by usingthe External Trigger input mode combined with a timedelay. You can also select the leading or trailing edge ofthe external TTL signal.
Controls an exteranl shutter. The shutter open time equalsthe Duration time. For active high logic select Positive,active low select Negative.
ACTION RESULT
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24
A/D Converter Camera Head
D-sub 15 Pin Terminal BananaTerminal Name 68 Pin female male Name Plugs Description
Digital Output 1 17 1 Mode Select NoneControls readout mode
(1D or 2D).
Analog Channel 0 68 2 Data Video None Analog video output.
No connection NC 3 VA1+ (+15 V) White Analog power supply
No connection NC 4 VA1- (-15 V) Green Analog power supply
No connection NC 5 VD1 (+5 V) Red Digital power supply
GPCTR0_OUT 2, 11 6 Start NonePeriod controls CCD
integration time.
Freq_Out,1, 37, 42 7 CLK None
Frequency determines GPCTR0_SOURCE, pixel rate.GPCTR1_SOURCE
Digital Input/Output 0 52 8 EOS NoneIndicating end-of-scan of the
image sensor.
AL GND24,32,27,29,
9 A. GND Black Analog ground56,59,64,67
- - 10 A. GND - Analog ground
No connection NC 11 VA2 (+24 V) Blue Analog power supply
DGND3,4,7,9,12,13,15,
12 D. GND Brown Digital ground18,35,36,39,41,44,53
- - 13 D. GND - Digital ground
- - 14 D. GND - Digital ground
CONVERT 43 15 Trigger None Pixel clock
24
A/D Converter Camera Head
D-sub 9 Pin Terminal BananaTerminal Name 68 Pin female male Name Plugs Description
GPCR1_OUT 40 - - -Shutter Control signal
(RG174/BNC)
No Connection NC 1 VD2 (+5 V) Red Power supply
Analog Channel 1 33 2 Temp Monitor NoneOutput voltage related to CCD
temperature.
Digital Output 2 49 3Cooling
None Turns CCD cooler ON/OFF.Control
No Connection NC 4 Vp (+5 V) Yellow Power supply for CCD cooler.
No Connection NC 5 VF (+12 V) Blue Power supply for cooling fan.
No Connection NC 6 D. GND Brown Ground
DGND4,7,9,12,13,15,18,
7 D. GND - Ground35,36,39,44,50,53
No Connection NC 8 P. GND Black Ground return for CCD Cooler.
No Connection NC 9 F. GND White Ground return for cooling fan.
201648 Cable Pin Assignment - 15 Pin
Appendix ACable Assembly 201648 includes a BNC connector for shutter control and can only be used with HC230 SHUTTER CODE.
201648 Cable Pin Assignment - 9 Pin
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25
Appendix A201648 Cable Assembly Wiring Diagram
AT-A1-16XE-10HAMAMATSU
INSTRUMENTS
CCD
68 Pin
9 Pin
15 Pin
I/O Board for im
age sensor
IBM-compatible computerModel with Windows ¨
Low Voltage Power Supply (optional)
Shutter Controller(optional)
Shutter(optional)
Lens(optional)
Last Row / Column
StartCLK
DataVideo
Shutter Timing Chart 2D MODE (HC230 Series)
Shutter Control Signal (BNC)
Shutter Closed = Readout Time Shutter Open = Exposure
Integration Time
1st Row / Column 2nd Row / Column 3rd Row / Column
Readout Time
Cable 201648
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26
A/D Converter Camera Head
D-sub 9 Pin Terminal BananaTerminal Name 68 Pin female male Name Plugs Description
No Connection 1 NC VD2 (+5 V) Red Power supply
Analog Channel 1 33 2 Temp Monitor NoneOutput voltage related to CCD
temperature.
Digital Output 2 49 3Cooling
None Turns CCD cooler ON/OFF.Control
No Connection NC 4 Vp (+5 V) Yellow Power supply for CCD cooler.
No Connection NC 5 VF (+12 V) Blue Power supply for cooling fan.
No Connection NC 6 D. GND Brown Ground
DGND4,7,9,12,13,15,18,
7 D. GND - Ground35,36,39,44,50,53
No Connection NC 8 P. GND Black Ground return for CCD Cooler.
No Connection NC 9 F. GND White Ground return for cooling fan.
A/D Converter Camera Head
D-sub 15 Pin Terminal BananaTerminal Name 68 Pin female male Name Plugs Description
Digital Output 1 17 1 Mode Select NoneControls readout mode
(1D or 2D).
Analog Channel 0 68 2 Data Video None Analog video output.
No connection NC 3 VA1+ (+15 V) White Analog power supply
No connection NC 4 VA1- (-15 V) Green Analog power supply
No connection NC 5 VD1 (+5 V) Red Digital power supply
GPCTR0_OUT 2, 11 6 Start NonePeriod controls CCD
integration time.
Freq_Out,37, 40 7 CLK None
Frequency determines GPCTR0_SOURCE, pixel rate.GPCTR1_SOURCE
Digital Input/Output 0 52 8 EOS NoneIndicating end-of-scan of the
image sensor.
AL GND24,32,27,29,
9 A. GND Black Analog ground56,59,64,67
- - 10 A. GND - Analog ground
No connection NC 11 VA2 (+24 V) Blue Analog power supply
DGND3,4,7,9,12,13,15,
12 D. GND Brown Digital ground18,35,36,39,41,44,53
- - 13 D. GND - Digital ground
- - 14 D. GND - Digital ground
CONVERT 43 15 Trigger None Pixel clock
Appendix ACable Assembly 201561 REV-A works only with HC230 STD CODE.
201561 Rev A Cable 9 Pin D-Sub
201561 Rev A Cable 15 Pin D-Sub
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27
AT-A1-16XE-10HAMAMATSU
INSTRUMENTS
CCD
68 Pin
9 Pin
15 Pin
I/O Board for im
age sensor
IBM-compatible computerModel with Windows ¨
Low Voltage Power Supply (optional)
H-ch(N)Vertical Transfer time (Binning) H-ch1 H-ch2
StartCLK
Trigger
DataVideo
Shutter Timing Chart 1D MODE (HC230 Series)
Vertical Transfer Time Horizontal Readout
Integration Time
Cable 201561 RevA
Appendix A201561 Rev A Cable Assembly Wiring Diagram
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28
PERSONAL COMPUTER (PC/AT)(INTEGRATED SCSI BOARD)
C7557
SCSICABLE
IMAGE SENSOR+
MULTICHANNELDETECTOR HEAD
POWER
TE CONTROL I/O
SIGNAL I/O
Appendix AC7557 Multi-Channel Controller Wiring Diagram
1. Connect AC power cord to the C7557 controller.
2. Connect SCSI cable to the C7557 controller and computer SCSI port.
3. Connect camera head “Signal I/O” and “TE Control I/O” to the C7557 controller.
4. Install C7557 software and begin evaluations.
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29
Appendix BCCD Camera Head Block Diagram
LED
TH.H
P+ P-
TH+
TEMPERATURE CONTROLLER *
TIMINGGENERATOR
D. GND
A. GND
CLK
Start
Trigger
EOS
TE-COOLER
VDD
CCD AREA IMAGE SENSOR
BUFFER
LOW-PASSFILTER
Data Video
PRE-AMP
DRIVER
REGULATOR
VEE
CLAMP
OD
RD
OG
IG1H, IG2HIG1V, IG2V
P1V, P2V, TG
P1H, P2H
SGRG
SS, ISV, ISH
OS
TH-
Mode Select
Vp (+5V)
P. GND
VD2 (+5V)
D. GND
VF (+12V)
F. GND
Temp Monitor
INVERTER
Cooling ControlVD1 (+5V)
VA1+ (+15V)VA1- (-15V)
VA2 (+24V)
H-ch(N)H-ch(N-9)H-ch(N-10)H-ch11H-ch10
V-ch1 V-ch2 V-ch(M) H-ch1 H-ch2
StartCLKP1VP2V
P1HP2HSGRG
ClampEOSTrigger
Data Video
M=64, 128, 256 N=532, 1044V-ch1--V-ch2, V-ch (M-3)--V-ch (M): ISOLATION PIXELSH-ch1--H-ch4, H-ch (N-3)--H-ch (N): BLANK PIXELSH-ch5--H-ch10, H-ch (N-9)--H-ch (N-4): ISOLATION PIXELS
TG
Camera Head Timing Chart
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30
SIGNAL I/OA/D Trig
Video
AMP
Digital Data
VIDEO OUT
Buffer
Buffer
Buffer
12bitA/D
12bitA/D
+5V+15V-15V
SwitchingPower Supply
Noise Filter
Filter
Filter
Filter
Filter
Filter
Filter
Filter
+5V
+15V
-15V
+12V
+24V
+5/6V
+5/6V
C7557 Power Supply PartBlock Diagram
+5V
+15V
-15V
+12V
+24V
+5/6V
SIGNAL I/O
TE CONTROL I/O
AMP
CPU
DMAC RS-232C
Timer
Digital Data
Buffer
SCSI I/F
RS-232C I/F
SYNC OUT
PULSE OUT
TRIG. IN
Start
Clock
Mode Select
Cooling Control
Temp Monitor
FIFO
Buffer
Buffer
Buffer
Buffer
Buffer
Buffer
Buffer
10bitA/D
SCSIMemory
EOS
C7557 Control Part Block Diagram
Appendix B
C7557 A/D Coversion Part Block Diagram
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31
A general equation for line binning (1D) operation is given by:
tscan �� (tb � Nv) � (tr � Nh)
Where:
tb � 16 Fclk ; Vertical transfer time for one vertical pixel.
Nv � Number of vertical pixels.
tr � 4Fclk ; Horizontal transfer time for one horizontal pixel.
Nh � Number of horizontal pixels.
For the HC230-1007 at 1MHz operation tscan is approximately 6mSec.
Appendix BCCD Readout Time Calculations
NOTES:
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32
Appendix COrdering Example
A BT-CCD with two stage cooler, 16 bit ADC, interface cable and LabVIEW library file.
Order Part number
HC236-1007
A BT-CCD with two stage cooler, controller w/dynamic link library (DLL), power supplies and SCSI interface.
Order Part number
C7042
S7032-1007
C7557
Free software downloads and technical information are available at www.hamamatsu.com.
NOTES:
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HAMAMATSU PHOTONICS K.K., Electron Tube Center1126-1, Ichino-cho, Hamamatsu City, 435-91, JapanTelephone: (81)53-434-3311, Fax: (81)53-434-5184http://www.hamamatsu.com
Main Products
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Quality, technology, and service are part of every product.
Sales Offices
U.S.A.:HAMAMATSU CORPORATIONMain Office360 Foothill Road, P.O. Box 6910,Bridgewater, NJ 08807-0910, U.S.A.Telephone: (1)908-231-0960, Fax: (1)908-231-1218E-mail: [email protected]
Western U.S.A. OfficeSuite 110, 2875 Moorpark AvenueSan Jose, CA 95128, U.S.A.Telephone: (1)408-261-2022, Fax: (1)408-261-2522
MAR. 2001 REVISED
Cat. No. HC091599Sep. 1999, CR
Printed in U.S.A.
Information in this catalog is believed to be reliable. However, no responsibility is assumedfor possible inaccuracies or ommission.Specifications are subject to change withoutnotice. No patent rights are granted to any ofthe circuits described herein.
©2001 Hamamatsu Photonics K.K.