lg envx11k service manual 0430 (cellular phone)
DESCRIPTION
Service manual for the LG EnV3 phone.TRANSCRIPT
Features of VX11000
Transmit Frequency (MHz) Receive Frequency (MHz)
CELLULAR PCS CELLULAR PCS GPS
824.82 ~ 848.19 1850~1910 869.82~893.19 1930~1990 1575.42
3. Rated Output Power : CELLULAR = 0.316W
PCS = 0.316W
4. Output Conversion Method : This is possible by correcting the key board channel.
5. Voltage and Current Value of Termination Part Amplifier (Catalogue included)
MODE Part Name Voltage Current Power
CELLULAR ACPM-7353 4.2V 400mA 0.316W
PCS ACPM-7353 4.2V 470mA 0.316W
6. Functions of Major Semi-Conductors
Classification Function
MSM7500A-64T Terminal operation control and digital signal processing
Memory MCP (KBN00300-A439)
OneNAND Flash Memory (4G) + DDR-SDRAM (2G)Storing of terminal operation program
RTR6500 Converts Rx and Tx RF signal to baseband signal
7. Frequency Stability
● CELLULAR : ±0.5PPM
● PCS : ±0.1PPM
1. Wave Type
● CELLULAR : G7W
●
PCS: G7W
2. Frequency Scope
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VX11000
CDMA Mobile Subscriber UnitVX11000
SERVICE MANUALSERVICE MANUAL
DUAL BAND CDMA[PCS/Cellular/GPS]
CDMA MOBILE PHONE
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VX11000
General IntroductionGeneral Introduction
The VX11000 phone has been designed to operate on the latest digital mobile communication technology, Code Division Multiple Access (CDMA). This CDMA digital technology has greatly enhanced voice clarity and can provide a variety of advanced features. Currently, CDMA mobile communication technology has been commercially used in Cellular and Personal Communication Service (PCS). The difference between them is the operating frequency spectrum. Cellular uses 800MHz and PCS uses 1.9GHz. The VX11000 support GPS Mode, we usually call it tri-band phone. Also, VX11000 works on Advanced Mobile Phone Service (S-GPS). We call it dual- mode phone. If one of the Cellular, PCS base stations is located nearby, Call fail rate of triple-mode phone is less than dual-mode phone or single-mode phone.The CDMA technology adopts DSSS (Direct Sequence Spread Spectrum). This feature of DSSS enables the phone
to keep communication from being crossed and to use one frequency channel by multiple users in the same specific area, resulting that it increases the capacity 10 times more compared with that in the analog mode currently used. Soft/Softer Handoff, Hard Handoff, and Dynamic RF power Control technologies are combined into this phone to reduce the call being interrupted in a middle of talking over the phone.Cellular and PCS CDMA network consists of MSO (Mobile Switching Office), BSC (Base Station Controller), BTS (Base station Transmission System), and MS (Mobile Station). The following table lists some major CDMA Standards.
CDMA Standard Designator Description
Basic air interface TIA/EIA/IS-95-A/B/CANSI J-STD-008
Protocol between MS and BTS for Cellular & AMPSProtocol between MS and BTS for PCS
Network TIA/EIA/IS-634TIA/EIA/IS/651
TIA/EIA/IS-41-CTIA/EIA/IS-124
MAS-BSPCSC-RS
Intersystem operationsNom-signaling data comm.
Service TIA/EIA/IS-96-BTIA/EIA/IS-99
TIA/EIA/IS-637TIA/EIA/IS-657
Speech CODECAssign data and fax
Short message servicePacket data
Performance TIA/EIA/IS-97TIA/EIA/IS-98
ANSI J-STD-018ANSI J-STD-019TIA/EIA/IS-125
Cellular base stationCellular mobile stationPCS personal station
PCS base stationSpeech CODEC
* TSB –74: Protocol between an IS-95A system and ANSI J-STD-008
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VX11000
Chapter1. System IntroductionChapter1. System Introduction
1. CDMA Abstract
The CDMA mobile communication system has a channel hand-off function that is used for collecting the information on the locations and movements of mobile telephones from the cell site by automatically controlling several cell site through the setup of data transmission routes, and then enabling one switching system to carry out the automatic remote adjustment. This is to maintain continuously the call state through the automatic location confirmation and automatic radio channel conversion when the busy subscriber moves from the service area of one cell site to that of another by using automatic location confirmation and automatic radio channel conversion functions. The call state can be maintained continuously by the information exchange between switching systems when the busy subscriber moves from one Cellular system area to the other Cellular system area.
In the Cellular system, the cell site is a small-sized low output type and utilizes a frequency allocation system that considers mutual interference, in an effort to enable the re-use of corresponding frequency from a cell site separated more than a certain distance.
Unlike the time division multiple access (TDMA) or frequency division multiple access (FDMA) used in the band limited environment, the Code Division Multiple Access (CDMA) system which is one of digital Cellular systems is a multi-access technology under the interference limited environment. It can process more number of subscribers compared to other systems (TDMA system has the processing capacity three times greater than the existing FDMA system whereas CDMA system, about 12~15 times of that of the existing system).
CDMA system can be explained as follows; TDMA or CDMA can be used to enable each person to talk alternately or provide a separate room for each person when two persons desire to talk with each other at the same time, whereas FDMA can be used to enable one person to talk in soprano, whereas the other in bass (one of the two talkers can carry out synchronization for hearing in case there is a bandpass filter function in the area of the hearer). Another available method is to make two persons to sing in different languages at the same time, space, and frequency when wishing to let the audience hear the singing without being confused. This is the characteristic of CDMA.
On the other hand, when employing the CDMA technology, each signal has a different pseudo-random binary sequence used to spread the spectrum of carrier. A great number of CDMA signals share the same frequency spectrum. In the perspective of frequency area or time area, several CDMA signals are overlapped. Among these types of signals, only desired signal energy is selected and received through the use of pre-determined binary sequence; desired signals can be separated, and then received with the correlators used for recovering the spectrum into its original state. At this time, the spectrums of other signals that have different codes are not recovered into its original state, and appears as the self-interference of the system.
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2. Features and Advantages of CDMA Mobile Phone
2.1 Various Types of Diversities
When employing the narrow band modulation (30kHz band) that is the same as the analog FM modulation system used in the existing Cellular system, the multi-paths of radio waves create a serious fading. However, in the CDMA broadband modulation (1.25MHz band), three types of diversities (time, frequency, and space) are used to reduce serious fading problems generated from radio channels in order to obtain high-quality calls.Time diversity can be obtained through the use of code interleaving and error correction code whereas frequency diversity can be obtained by spreading signal energy to wider frequency band. The fading related to normal frequency can affect the normal 200~300KHz among signal bands and accordingly, serious effect can be avoided. Moreover, space diversity (also called path diversity) can be realized with the following three types of methods. First, it can be obtained by the duplication of cell site receive antenna. Second, it can be obtained through the use of multi-signal processing device that receives a transmit signal having each different transmission delay time and then, combines them. Third, it can be obtained through the multiple cell site connection (Soft Handoff) that connects the mobile station with more than two cell sites at the same time.
2.2 Power Control
The CDMA system utilizes the forward (from a base station to mobile stations) and backward (from the mobile station to the base station) power control in order to increase the call processing capacity and obtain high-quality calls. In case the originating signals of mobile stations are received by the cell site in the minimum call quality level (signal to interference) through the use of transmit power control on all the mobile stations, the system capacity can be maximized. If the signal power of mobile station is received too strong, the performance of that mobile station is improved. However, because of this, the interference on other mobile stations using the same channel is increased and accordingly, the call quality of other subscribers is reduced unless the maximum accommodation capacity is reduced.In the CDMA system, forward power control, backward open loop power control, and closed loop power control methods are used. The forward power control is carried out in the cell site to reduce the transmit power on mobile stations less affected by the multi-path fading and shadow phenomenon and the interference of other cell sites when the mobile station is not engaged in the call or is relatively nearer to the corresponding cell site. This is also used to provide additional power to mobile stations having high call error rates, located in bad reception areas or far away from the cell site.The backward open loop power control is carried out in a corresponding mobile station; the mobile station measures power received from the cell site and then, reversely increases/decreases transmit power in order to compensate channel changes caused by the forward link path loss and terrain characteristics in relation to the mobile station in the cell site. By doing so, all the mobile transmit signals received by the base station have same strength.Moreover, the backward closed loop power control used by the mobile station is performed to control power using
the commands issued out by the cell site. The cell site receives the signal of each corresponding mobile station and compares this with the pre-set threshold value and then, issues out power increase/decrease commands to the corresponding mobile station every 1.25msec (800 times per second). By doing so, the gain tolerance and the different radio propagation loss on the forward/backward link are complemented.
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2.3 Voice Encoder and Variable Data Speed
The bi-directional voice service having variable data speed provides voice communication which employs voice encoder algorithm having power variable data rate between the base station and the mobile station. On the other hand, the transmit voice encoder performs voice sampling and then, creates encoded voice packets to be sent out to the receive voice encoder, whereas the receive voice encoder demodulates the received voice packets into voice samples. One of the two voice encoders described in the above is selected for use depending on inputted automatic conditions
and message/data; both of them utilize four-stage frames of 9600, 4800, 2400, and 1200 bits per second for Cellular and 14400,7200,3600,1800 bits per second for PCS, so PCS provide relatively better voice quality (almost twice better than the existing cellular system). In addition, this type of variable voice encoder utilizes adaptive threshold values on selecting required data rate. It is adjusted in accordance with the size of background noise and the data rate is increased to high rate only when the voice of caller is inputted. Therefore, background noise is suppressed and high-quality voice transmission is possible under the environment
experiencing serious noise. In addition, in case the caller does not talk, data transmission rate is reduced so that the transmission is carried out in low energy. This will reduce the interference on other CDMA signals and as a result, improve system performance (capacity increased by about two times).
2.4 Protecting Call Confidentiality
Voice privacy is provided in the CDMA system by means of the private long code mask used for PN spreading. Voice privacy can be applied on the traffic channels only. All calls are initiated using the public long code mask for PN spreading. The mobile station user may request voice privacy during call setup using the origination message or page response message, and during traffic channel operation using the long code transition request order.The Transition to private long code mask will not be performed if authentication is not performed. To initiate a transition to the private or public long code mask, either the base station or the mobile station sends a long code transition request order on the traffic channel.
2.5 Soft Handoff
A handoff in which the mobile station commences communications with a new base station without interrupting communications with the old base station. Soft handoff can only be used between CDMA channels having identical frequency assignments.
2.6 Frequency Re-Use and Sector Segmentation
Unlike the existing analog Cellular system, the CDMA system can reuse the same frequency at the adjacent cell. there is no need to prepare a separate frequency plan. Total interference generated on mobile station signals received from the cell site is the sum of interference generated from other mobile stations in the same cell site and interference generated from the mobile station of adjacent cell site. That is, each mobile station signal generates interference in relation to the signals of all the other mobile stations.
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Total interference from all the adjacent cell sites is the ratio of interference from all the cell sites versus total interference from other mobile stations in the same cell site (about 65%). In the case of directional cell site, one cell normally uses a 120°sector antenna in order to divide the sector into three. In this case, each antenna is used only for 1/3 of mobile stations in the cell site and accordingly, interference is reduced by 1/3 on the average and the capacity that can be supported by the entire system is increased by three times.
2.7 Soft Capacity
The subscriber capacity of the CDMA system is flexible depending on the relation between the number of users and service classes. For example, the system operator can increase the number of channels available for use during the busy hour despite the drop in call quality. This type of function requires 40% of normal call channels in the standby mode during the handoff, in an effort to avoid call disconnection resulting from the lack of channels. In addition, in the CDMA system, services and service charges are classified further into different classes so that more transmit power can be allocated to high class service users for easier call set-up; they can also be given higher priority of using hand-off function than the general users.
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VX11000
3. Structure and Functions of tri-band CDMA Mobile Phone
The hardware structure of CDMA mobile phone is made up of radio frequency (RF) part and logic part. The RF part is composed of Receiver part (Rx), Transmitter part (Tx) and Local part (LO). For the purpose of operating on tri- band, It is necessary dual Tx path, tri Rx path, dual PLL and switching system for band selection. The mobile phone antenna is connected with the frequency separator which divide antenna input/output signals between Cellular frequency band (824~894 MHz) and PCS frequency band (1850~1990MHz). Each separated path is linked with the Cellular duplexer and PCS duplexer. Duplexer carries out separating Rx band and Tx band. The Rx signals from the antenna are converted into intermediate frequency(IF) band by the frequency synthesizer and frequency down converter. And then, pass SAW filter which is a band pass filter for removing out image frequency. The IF output signals that have been filtered is converted into digital signals via Analog-to-Digital Converter (ADC). In front of the ADC, switching system is required to choose which band path should be open. The digital signals send to 5 correlators in each CDMA de-modulator. Of these, one is called a searcher whereas the remaining 4 are called data receivers (fingers). Digitalized IF signals include a great number of call signals that have been sent out by the adjacent cells. These signals are detected with pseudo-noise sequence (PN Sequence). Signal to interference ratio (C/I) on signals that match the desired PN sequence are increased through this type of correlation detection process, but other signals obtain processing gain by not increasing the ratio. The carrier wave of pilot channel from the cell site most adjacently located is demodulated in order to obtain the sequence of encoded data symbols. During the operation with one cell site, the searcher searches out multi-paths in accordance with terrain and building reflections. On three data receivers, the most powerful 3 paths are allocated for the parallel tracing and receiving. Fading resistance can be improved a great deal by obtaining the diversity combined output for de-modulation. Moreover, the searcher can be used to determine the most powerful path from the cell sites even during the soft handoff between the two cell sites. Moreover, 3 data receivers are allocated in order to carry out the de-modulation of these paths. Output data that has been demodulated changes the data string in the combined data row as in the case of original signals(deinterleaving), and then, are demodulated by the forward error correction decoder which uses the Viterbi algorithm.Mobile station user information send out from the mobile station to the cell site pass through the digital voice
encoder via a mike. Then, they are encoded and forward errors are corrected through the use of convolution encoder. Then, the order of code rows is changed in accordance with a certain regulation in order to remove any errors in the interleaver. Symbols made through the above process are spread after being loaded onto PN carrier waves. At this time, PN sequence is selected by each address designated in each call. Signals that have been code spread as above are digital modulated (QPSK) and then, power controlled at the automatic gain control amplifier (AGC Amp). Then, they are converted into RF band by the frequency synthesizer synchronizing these signals to proper output frequencies. Transmit signals obtained pass through the duplexer filter and then, are sent out to the cell site via the antenna.
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4. Specification
4.1 General Specification4.1.1 Transmit/Receive Frequency Interval :
1)CELLULAR : 45 MHz2)PCS : 80 MHz
4.1.2 Number of Channels (Channel Bandwidth)
1)CELLULAR : 20 Channels2) PCS : 48 Channels
4.1.3 Operating Voltage : DC 3.3~4.2V
4.1.4 Battery Power Consumption : DC 3.7V
SLEEP IDLE MAX POWER
CELLULAR 1.2 mA 80~90mA 600 mA (24.3dBm)
PCS 1.2 mA 80~100 mA 600 mA (24.0 dBm)
4.1.5 Operating Temperature : -0°C ~ +60°C
4.1.6 Frequency Stability
1) CDMA : ±0.5PPM2) PCS : ±0.1PPM
4.1.7 Antenna : Press Type (PIFA), 50
4.1.8 Size and Weight
1) Size : DOP (105.8(H) * 52.7(W) * 13.7(D) mm), With QWERTY (105.8(H) * 59.3(W) * 22.2(D) mm)2) Weight : DOP (108 g), With QWERTY (165g) (Approximately with standard battery)
4.1.9 Channel Spacing
1) CELLULAR : 1.25MHz2) PCS: 1.25 MHz
4.1.10 Battery Type, Capacity and Operating Time. Unit = Hours : Minutes
Standard (800mAh)
Standby TimeCELLULAR About 165 Hours (SCI=2)
PCS About 165 Hours (SCI=2)
Talk timeCELLULAR 140 Minutes (-92dBm input)
PCS 140 Minutes (-92dBm input)
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4.2 Receive Specification
4.2.1 Frequency RangeCELLULAR : 869.820 MHz ~ 893.190 MHzPCS : 1930 MHz ~ 1990 MHzGPS : 1575.42 MHz
4.2.2 Local Oscillating Frequency Range : CELLULAR : 1738.08MHz ~ 1787.94MHzPCS : 1715.56MHz ∼
1768.89MHz GPS : 3150.84MHz
4.2.3 SensitivityCELLULAR : -104dBm (C/N 12dB or more)PCS : -104dBm (C/N 12dB or more)GPS : -148.5dBm (without SA mode)
4.2.4 SelectivityCELLULAR : 3dB C/N Degration (With Fch±1.25 kHz : -30dBm)PCS : 3dB C/N Degration (With Fch±1.25 kHz : -30dBm)
4.2.5 Spurious Wave Suppression : Maximum of -80dB
4.2.6 CDMA Input Signal RangeDynamic area of more than -104~ -25 dB: 79dB at the 1.23MHz band.
4.3 Transmit Specification
4.3.1 Frequency RangeCELLULAR : 824.820MHz ~ 848.190MHzPCS : 1850 MHz ~ 1910 MHz
4.3.2 Output PowerCELLULAR : 0.316WPCS: 0.316W
4.3.3 Interference RejectionSingle Tone : -30dBm at 900 kHz (CELLULAR), -30dBm at 1.25MHz(PCS)Two Tone : -43dBm at 900 kHz & 1700kHz(CELLULAR), -43dBm at 1.25 MHz & 2.05 MHz (PCS)
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4.3.11 CDMA TX Frequency Deviation : 1) CELLULAR: +300Hz or less2) PCS: ±
150Hz
4.3.12 CDMA TX Conducted Spurious Emissions 1) CELLULAR: 900kHz : - 42 dBc/30kHz below
1.98MHz : - 54 dBc/30kHz below2) PCS: 1.25MHz: - 42 dBc/30kHz below
1.98MHz : - 50 dBc/30kHz below
4.3.13 CDMA Minimum TX Power Control1) CELLULAR: - 50dBm below 2) PCS: -50dBm below
4.4 MS (Mobile Station) Transmitter Frequency
4.4.1 CELLULAR mode
Ch # Center Freq. (MHz) Ch # Center Freq. (MHz)
10112970
111152193234275316363
824.640 825.870 827.100 828.330 829.560 830.790 832.020 833.250 834.480 835.890
404445486527568609650697738779
837.120 838.350 839.580 840.810 842.040 843.270 844.500 845.910 847.140 848.370
4.4.2 PCS mode
Ch # Center Freq (MHz)
Ch # Center Freq (MHz)
Ch # Center Freq (MHz)
25 1851.25 425 1871.25 825 1891.25
50 1852.50 450 1872.50 850 1892.50
75 1853.75 475 1873.75 875 1893.75
100 1855.00 500 1875.00 900 1895.00
125 1856.25 525 1876.25 925 1896.25
150 1857.50 550 1877.50 950 1897.50
175 1858.75 575 1878.75 975 1898.75
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200 1860.00 600 1880.00 1000 1900.00
225 1861.25 625 1881.25 1025 1901.25
250 1862.50 650 1882.50 1050 1902.50
275 1863.75 675 1883.75 1075 1903.75
300 1865.00 700 1885.00 1100 1905.00
325 1866.25 725 1886.25 1125 1906.25
350 1867.50 750 1887.50 1150 1907.50
375 1868.75 775 1888.75 1175 1908.75
4.5 MS (Mobile Station) Receiver Frequency
4.5.1 CELLULAR mode
Ch. # Center Freq. (MHz) Ch. # Center Freq. (MHz)
10112970
111152193234275316363
869.640 870.870 872.100 873.330 874.560 875.790 877.020 878.250 879.480 880.890
404445486527568609650697738779
882.120 883.350 884.580 885.810 887.040 888.270 889.500 890.910 892.140 893.370
4.5.2 PCS mode
Ch #Center Freq
(MHz)Ch # Center Freq
(MHz)Ch # Center Freq
(MHz)
25 1931.25 425 1951.25 825 1971.25
50 1932.50 450 1952.50 850 1972.50
75 1933.75 475 1953.75 875 1973.75
100 1935.00 500 1955.00 900 1975.00
125 1936.25 525 1956.25 925 1976.25
150 1937.50 550 1957.50 950 1977.50
175 1938.75 575 1958.75 975 1978.75
200 1940.00 600 1960.00 1000 1980.00
225 1941.25 625 1961.25 1025 1981.25
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250 1942.50 650 1962.50 1050 1982.50
275 1943.75 675 1963.75 1075 1983.75
300 1945.00 700 1965.00 1100 1985.00
325 1946.25 725 1966.25 1125 1986.25
350 1947.50 750 1967.50 1150 1987.50
375 1948.75 775 1968.75 1175 1988.75
4.5.3 GPS mode : 1575.42 MHz
4.5.4 Bluetooth mode : 2400 MHz ~ 2483.5 MHz
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5. Installation
5.1 Installing a Battery Pack
1) The Battery pack is keyed so it can only fit one way. Align the groove in the battery pack with the rail on the back of the phone until the battery pack rests flush with the back of the phone.2) Slide the battery pack forward until you hear a “click”, which locks the battery in place.
5.2 For Adapter Use
1) Plug the adapter into a wall outlet. The adapter can be operated from a 110V source. When AC power is connected to the adapter.2) Insert the adapter IO plug into the phone with the installed battery pack. Red light indicates battery is being charged.. Green light indicates battery is fully charged.
5.3 For Mobile Mount
5.3.1 Installation PositionIn order to reduce echo sound when using the Hands-Free Kit, make sure that the speaker and microphone are not facing each other and keep microphone a generous distance from the speaker.
5.3.2 Cradle InstallationChoose an appropriate flat surface where the unit will not interface with driver’s movement or passenger’s comfort. The driver/user should be able to access the phone with ease. Using the four self-tapping screws provided, mount the supplied bracket on the selected area. Then with the four machine screws provided, mount the counterpart on the reverse side of the reverse side of the cradle. Secure the two brackets firmly together by using the two bracket joint screws provide. The distance between the cradle and the interface box must not exceed the length of the main cable.
5.3.3 Interface BoxChoose an appropriate flat surface ( somewhere under the dash on the passenger side is preferred ) and mount the IB bracket with the four self-tapping screws provided. Clip the IB into the IB bracket.
5.3.4. Microphone InstallationInstall the microphone either by clipping I onto the sunvisor (driver’s side) or by attaching it to door post (driver’s side), using a velcro adhesive tape (not included).
5.3.5 Cable Connections
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5.3.5.1 Power and Ignition CablesConnect the red wire to the car battery positive terminal and the black wire to the car ground. Connect the green wire to the car ignition sensor terminal. ( In order to operate HFK please make sure to connect green wire to ignition sensor terminal.) Connect the kit’s power cable connector to the interface box power receptacle.
5.3.5.2 Antenna Cable ConnectionConnect the antenna coupler cable connector from the cradle to the external antenna connector. ( Antenna is not included.)
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CHAPTER 2. NAM Input Method(Inputting of telephone numbers included)
CHAPTER 2. NAM Input Method(Inputting of telephone numbers included)
1. NAM Programming Method
1) Press “##776472611000”+CALL” and then, press “000000”
2) Press “Service Prg” for entering “Service Prg.”.
● Usually pressing soft key will save the change.
● To exit service program, press “END” key.
3) MEID/ESN
You can see the MEID/ESN number.
Press “OK” to edit more NAM1 items.
Press “Exit” to exit Service Programming.
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VX110004) NAM1 Phone Number (MDN)
You can edit the NAM1 Phone Number (MDN).Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit MDN Phone Number.
5) NAM1 Phone Number (MIN)You can edit the NAM1 Phone Number (MIN).Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit MIN Phone Number.
6) NAM1 Home SIDYou can edit the NAM1 Home SID.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Home SID.
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VX110007) NAM1 Name
You can edit the NAM1 Name.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit NAM1 Name.
8) More NAM1 ProgrammingYou can decide to edit more NAM1 Name.Press “Exit” to exit Service Programming.Press “More” to edit more advanced NAM1 items.
9) Security CodeYou can decide to edit Security Code.Press “OK” to edit more advanced NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT’ to edit security code.
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VX1100010) NAM1 MCC
You can edit NAM1 Mobile Country Code.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit NAM1 MCC.
11) NAM1 NMSIDYou can edit NAM1 NMSID.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit NAM1 NMSID.
12) NAM1 True IMSI MCCYou can edit NAM1 True IMSI MCC.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit NAM1 True IMSI MCC.
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VX1100013) NAM1 True IMSI NMSID
You can edit NAM1 True IMSI NMSID.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit True IMSI NMSID.
14) NAM1 PRL EnabledYou can see NAM1 PRL Enabled.Press “OK” to edit more NAM1 items.Press “ BACK” to edit previous NAM1 items.
15) CDMA Home SID/NIDYou can edit NAM1 Home SID/NID pair.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.
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VX1100016) NAM1 CDMA Pri. CH A
You can edit NAM1 CDMA Pri. Channel A.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Primary CH A.
17) NAM1 CDMA Sec. CH AYou can edit NAM1 CDMA Secondary Channel A.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Secondary CH A.
18) NAM1 CDMA Pri. CH BYou can edit NAM1 CDMA Primary Channel B.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit
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VX1100019) NAM1 CDMA Sec. CH B
You can edit NAM1 CDMA Secondary Channel B.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Secondary CH B.
20) Lockout SID/NIDYou can edit Lockout SID/NID pair.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.
21) NAM1 Home Sys. Reg.You can edit NAM1 Home System Registration.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Home System Registration.
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VX1100022) NAM1 Forn SID Reg
You can edit NAM1 Foreign SID Registration.Press “OK” to edit more NAM1 items. Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Foreign SID Reg.
23) NAM1 Forn NID RegYou can edit NAM1 Foreign NID Registration.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Foreign NID Reg.
24) NAM1 ACC Ovld ClassYou can edit NAM1 Access Overload Class.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.
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VX1100025) NAM2 Setting
You can decide to edit NAM2 items.Press “OK” to skip NAM2 items setting.Press “Edit” to edit NAM2 related items.
26) Phone ModelYou can see the Phone Model Number.Press “OK” to edit more items.Press “BACK” to edit previous items.
27) Slot Cycle IndexYou can edit Slot Cycle Index.Press “OK” to edit more NAM1 items.Press “BACK” to edit previous NAM1 items.Press “EDIT” to edit Slot Cycle Index.
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VX1100028) Powering Down
Restart.
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VX11000
CHAPTER 3. Circuit DescriptionCHAPTER 3. Circuit Description
1. RF Transmit/Receive Part
1.1 Overview
The TX and RX part employs the Direct-Conversion system. The TX and RX frequencies are respectively 824.04~848.97 and 869.04~893.97 for cellular and 1850~1910 and 1930~1990 for PCS. The block diagram is shown in [Figure 1-1]. CDMA RF signals received through the antenna are separated by the Quintplexer. RF Signal fed into the low noise amplifier in RTR6500(LNA) through the Quintplexer. Then, they are fed into Mixer in RTR6500. In RTR6500, the RF signal is changed into baseband signal directly. Then, this signal is changed into digital signal by the analog to digital converter (ADC, A/D Converter), and the digital circuit part of the MSM(Mobile Station Modem) 7500 processes the data from ADC. The digital processing part is a demodulator. In the case of transmission, RTR6500 receives OQPSK-modulated analog signal from the MSM7500. The RTR6500 connects directly with MSM7500 using an analog baseband interface. In RTR6500, the baseband quadrature signals are upconverted to the Cellular or PCS frequency bands and amplified to provide signal drive capability to the power amp. After that, the RF signal is amplified by the Power Amp in order to have enough power for radiation. Finally, the RF signal is sent out to the cell site via the antenna after going through the Quintplexer.
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VX11000
[Figure 1-1] RF Block Diagram of VX11000
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VX11000
1.2 Description of RX Part Circuit
1.2.1 Quintplexer (DP1000)
The ACFM-7103 is a quintplexer that combines a US-PCS duplexer, a cellular band duplexer and a S-GPSband filter into a single, miniature package with a single antenna port.The main function of quintplexer is to prohibit the other band signals from flowing into theone band circuit and vice versa. RF designer can use common tri-band antenna regardless of frequency band(800, 1575 and 1900 MHz). The specification of VX11000 quintplexer is described below:
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VX11000
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VX11000
1.2.4 RTR6500 – LNA part (U1009)
The RTR6500 has cellular, and PCS LNA, respectively. The characteristics of Low Noise Amplifier (LNA) are low noise figure, high gain, high intercept point and high reverse isolation. The frequency selectivity characteristic of mobile phone is mostly determined by LNA.The specification of VX11000 LNA is described below:
Parameter Low gain Middle gain High gain Units
Cellular PCS Cellular PCS Cellular PCS
Gain -20 -20 4 -3 16 16 dB
Noise Figure 20 20 4 4 1.6 1.7 dB
Input IP3 +10 +10 +5 +10 +8 +6 dBm
1.2.5 GPS LNA(U1001)
The characteristics of Low Noise Amplifier (LNA) are low noise figure, high gain, high intercept point and high reverse isolation. The frequency selectivity characteristic of mobile phone is mostly determined by LNA.The specification of VX11000 GPS LNA is described below
Parameter GPS Band Units
Gain 13.1 dB
Noise Figure 0.77 dB
1dB compression point +3.4 dBm
IIP3 +7 dBm
1.2.2 Diplexer (F1000)
The main function of Diplexer is to prohibit the other band signals from flowing into the one band circuit and vice versa. RF designer can use Dual-band Diversity antenna regardless of frequency band (800 and 1900 MHz). The specification of VX11000 Diplexer is described below:
Cellular PCS
Frequency Range 824 –
894 MHz 1850 –
1990 MHz
Insertion Loss to Common
0.5 dB Max(At +25 deg)
0.6 dB Max (At +25 deg)
Isolation18 dB Min(to PCS)
18 dB Min(to Cellular)
Temperature Range -30 to +85 deg
1.2.3 Diversity Rx RF SAW FILTERs (F1001,F1002)
The main function of Diversity Rx RF SAW filter is to attenuate mobile phone spurious frequency, attenuate direct RF frequency pick up.
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VX11000
1.2.6 RTR6500 - Down-converter Mixers part (U1009)
The RTR6500 device performs signal down-conversion for Cellular, PCS and GPS tri-band applications. It contains all the circuitry (with the exception of external filters) needed to support conversion of received RF signals to Base- band signals. The three down-converting Mixers (Cellular, PCS and GPS), and a programmable PLL for generating RX LO frequency and an RX LO Buffer Amplifier and RX Voltage Controlled Oscillator. The GPS LNA & mixers offer the most advanced and integrated CDMA RX solution designed to meet cascaded Noise Figure (NF) and Third- order Intercept Point (IIP3) requirements of IS-98D and J-STD-018 specifications for Sensitivity, Two-Tone Inter- modulation, and Single-tone Desensitization.Operation modes and band selection are specially controlled from the Mobile Station Modem MSM7500A.The specification of VX11000 Mixers is described below:
ParameterLow gain High gain Units
Cellular PCS Cellular PCS
Noise Figure 27 27 10 10 dB
Input IP3 -5 -11 4 1 dBm
Input IP2 30 30 50 50 dBm
1.3 Description of Transmit Part Circuit
1.3.1 RTR6500 (U1009)
The RTR6500 Base-band to RF Transmit Processor performs all TX signal-processing functions required between digital Base-band and the Power Amplifier Modulator (PAM). The Base-band quadrate signals are up-converted to the Cellular or PCS frequency bands and amplified to provide signal drive capability to the PAM. The RTR6500 includes mixers for up-converting analog Base-band to RF, a programmable PLL for generating TX LO frequency a TX LO Buffer Amplifier and TX Voltage Controlled Oscillator, cellular and PCS driver amplifiers and TX power control through an 85 dB VGA. As added benefit, the single sideband up-conversion eliminates the need for a band pass filter normally required between the up-converter and driver amplifier. I, I/, Q and Q/ signals proceed from the MSM7500A to RTR6500 are analog signal. In CDMA mode, These signals
are modulated by Offset Quadrature Phase Shift King (OQPSK). I and Q are 90 deg. out of phase, and I and I/ are 180 deg. The mixers in RTR6500 converts baseband signals into RF signals. After passing through the up converters, RF signal is inputted into the Power AMP.
1.2.5 Dual RX RF SAW FILTER(F1004)
The main function of RX RF SAW filter is to attenuate mobile phone spurious frequency, attenuate noise amplified by the LNA and suppress second harmonic originating in the LNA.
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VX11000
RTR6500 Cellular and PCS CDMA RF Specifications
Parameter Condition Min. Type. Max. Units
Rated Output Power Average CDMA CellularAverage CDMA PCS
+7+7
dBmdBm
Min Output Power Average CDMA CellularAverage CDMA PCS
-66-41
dBmdBm
RX band noise power CDMA CellularCDMA PCS
-140-140 dBm/Hz
ACPR Cellular: Fc±885kHzPCS : Fc±1.25MHz
-48-48 dBc/30kHz
1.3.2 Dual Power Amplifier(U1008)
The Dual power amplifier that can be used in the PCS and CDMA mode has linear amplification capability and high efficiency. For higher efficiency, it is made up of one MMIC (Monolithic Microwave Integrated Circuit) for which RF input terminal and internal interface circuit are integrated onto one IC after going through the AlGaAs/GaAs HBT (heterojunction bipolar transistor) process. The module of power amplifier is made up of an output end interface circuit including this MMIC. The maximum power that can be inputted through the input terminal is +10dBm and conversion gain is about 26dB. RF transmit signals that have been amplified through the power amplifier are sent to the quintplexer.
1.4 Description of Frequency Synthesizer Circuit
1.4.1 Voltage Control Temperature Compensation Crystal Oscillator (VCTCXO, U1003)
The temperature variation of mobile phone can be compensated by VCTCXO. The reference frequency of a mobile phone is 19.2 MHz. The receiver frequency tuning signals called TRK_LO_ADJ from MSM as 0.4 V~2.4 V DC via R and C filter in order to generate the reference frequency of 19.2 MHz and input it into the frequency synthesizer. Frequency stability depending on temperature is ±1.5 ppm.
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VX11000
2. Digital/Voice Processing Part
2.1 Overview
The digital/voice processing part processes the user's commands and processes all the digital and voice signal processing in order to operate in the phone. The digital/voice processing part is made up of a main keypad/touch keypad/LCD, receptacle part, voice processing part, mobile station modem part, memory part, and power supply part.
2.2 Configuration
2.2.1 Keypad/LCD and Receptacle Part
This is used to transmit keypad signals to MSM7500A. It is made up of a keypad backlight part that illuminates the keypad, LCD part that displays the operation status onto the screen, and a receptacle that receives and sends out voice and data with external sources.
2.2.2 Voice Processing Part
The voice processing part is made up of an audio codec used to convert MIC signals into digital voice signals and digital voice signals into analog voice signals, amplifying part for amplifying the voice signals and sending them to the ear piece, amplifying part that amplifies ringer signals coming out from MSM7500A, and amplifying part that amplifies signals coming out from MIC and transferring them to the audio processor.
2.2.3 MSM (Mobile Station Modem) 7500A Part
MSM is the core elements of CDMA terminal and carries out the functions of CPU, encoder, interleaver, deinterleaver, Viterbi decoder, Mod/Demod, and vocoder.
2.2.4 Memory Part
The memory part is made up of a NAND Flash memory and a SDRAM for storing data.
2.2.5 Power Supply Part
The power supply part is made up of circuits for generating various types of power, used for the digital/voice processing part.
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2.3 Circuit Description
2.3.1 Keypad/LCD and Receptacle Part
Once the main keypad is pressed, the key signals are sent out to MSM7500A for processing. Touch keypad is pressed, Ack signals are sent out to MSM7500A for processing. In addition, when the key is pressed, the keypad/LCD lights up through the use of 19 LEDs. The terminal status and operation are displayed on the screen for the user with the characters and icons on the LCD.Moreover, it exchanges audio signals and data with external sources through the receptacle, and then receives power from the battery or external batteries.
2.3.2 Audio Processing Part
MIC signals are amplified through OP AMP, inputted into the audio codec (included in MSM7500A) and converted into digital signals. Oppositely, digital audio signals are converted into analog signals after going through the audio codec. These signals are amplified at the audio amplifier and transmitted to the ear-piece. The signals from MSM7500 activate the ringer by using signals generated in the timer in MSM7500.
2.3.3 MSM Part
The MSM7500A device integrates the ARM1136-J™ and ARM926EJ-S™ processor cores, offering the ARM® Jazelle™ Java® hardware accelerator: one low-power, high-performance QDSP5000™ application digital signal processor (aDSP) and one QDSP4000™ modem digital signal processor (mDSP) core, hardware acceleration forvideo, imaging, and graphics, and a wideband stereo codec to support enhanced digital audio applications. The hardware acceleration eliminates the need for the multimedia companion processors normally required for video and audio-based applications that support MP3 music files, a MIDI synthesizer, video and still image record and playback,and 2D/3D graphics functions. By removing the need for costly applications coprocessors and memory subsystems, the MSM7500A solution reduces BOM costs and increases standby and talk times. QUALCOMM provides a complete software suite and advance mobile subscriber software (AMSS) for building handsets based on the MSM7500A chipset. AMSS software is designed to run on a SURF phone platform, an optional development platform optimized to assist in evaluating, testing, and debugging AMSS software.
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VX11000
2.3.4 Memory PartMCP contents 4Gbits OneNAND FLASH memory and 2Gbits DDR-SDRAM. In the OneNAND Flash Memory
part of MCP are programs used for terminal operation. The programs can be changed through downloading after the assembling of terminals. On the DDR-SDRAM data generated during the terminal operation are stored temporarily.
2.3.5 Power Supply Part When the battery voltage (+4.0V) is fed and the PWR key of keypad is pressed, U6002(PMIC) is activated by the
PWR_ON_SW signal, and The PWRON signal is held high, Buck and LDO1,2,3 are turned on; when LDO1 reaches 87% of its final value a 60ms reset timer is started at after which RESET\ is asserted high. Now the BB Processor is initialized and will assert PWRHOLD high. PWRHOLD maintains the power on.
The Buck1,2,3/LDO1,2,3 are generating the +1.25V_MSMC1, +1.2_MXMC2, +1.8V_MSME,+2.6V_MSMA, +2.6V_MSMP and +2 .8V_LCD respectively.
The Rx part +2.1V_RX0, +2.1V_RX1 and Tx Part +2.1V_TX is operated by the I2C control signal from MSM7500A.
The TCXO part TCXO_EN is operated by the control signal TCXO_EN from MSM7500A.
2.3.6 Logic PartThe logic part consists of internal CPU of MSM, RAM, MCP. The MSM7500A receives TCXO (=19.2MHz) from
the U1003 and controls the phone in CDMA modes. The major components are as follows:CPU
The ARM926J-S microprocessor includes a 3 stage pipelined RISC architecture, both 32-bit ARM and 16-bit THUMB instruction sets, a 32-bit address bus, and a 32-bit internal data bus. It has a high performance and low power consumption.
MCP OneNAND Flash is used to store the terminal’s program. Using the down-loading program, the program can be
changed even after the terminal is fully assembled.DDR-SDRAM is used to store the internal flag information, call processing data, and timer data.External KEYPADFor external key recognition, key matrix is setup using KEY_SENSE[1][2], KEY_DRIVE[7][8] signal from
MSM7500A. 3 LEDs and backlight circuitry are included in the external keypad for easy operation in the dark.KEYPAD
For key recognition, key matrix is setup using key encoder IC . 4 LEDs and backlight circuitry are included in the keypad for easy operation in the dark.
TOUCH WINDOWFor key recognition, the Touch Controller, TSC2007 MSM7500A by using TOUCH_Y-, TOUCH_Y+,
TOUCH_X-,TOUCH_X+. Touch window also supports vibe-touch function when pressing is recognized.LCD Controller(RGB Converter) and LCD MODULELCD Controller S1D13775 will display the information onto the LCD by 24-bit data from the MSM7500A.LCD Module is supplied stable +2.8V_LCD by Out3 in U4001 for fine view angle and LCD reflects toimprove the display efficiency. 6 LEDs is used to display each LCD backlight.
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VX11000
2.3.7 DSP (Multimedia processor) PartDSP is a specialized integrated circuit that encompasses efficient camera functions, MPEG4 simple profile level 3 compliant codec functions. The host’s register setting by executed with 2-bit address bus, 1-bit chip select signal, 1- bit write enable signal, 1-bit read enable signal and 16-bit data bus from the host(MSM7500A). High-performance QDSP5000™ application digital signal processor (aDSP) and one QDSP4000™ modem digital signal processor (mDSP) core, hardware acceleration for video, imaging, and graphics, and a wideband stereo codec to support enhanced digital audio applications.
LCD In the bypass mode, MSM has complete control over all LCD operations, excluding camera processing function. In other words, it indicates when LCD is initialized and GUI of system is displayed on the LCD.
CAMERADSP provides clock to operate sensor and controls internal register of sensor through the I2C master embedded in DSP to make sensor operate normally. After completion of internal register setting, sensor supplies YUV422 image data, synchronous signal and pixel clock synchronized with pixel of image data to DSP. VSYNC is a synchronized signal to differentiate frames and HREF is a synchronized signal to differentiate lines. These signals are synchronized with the pixel clock. Input image data through the sensor interface is previewed on the LCD up to 30fps through the IMAGE ENHANCER.
EXTERNAL CODECNormally codec bypass signal from MSM7500A to Speaker, Receiver or Headset. However, when we listen to the music in “My Music” folder codec performs 3-D sound enhancement and automatic level control for microphone or line input. The on-chip ADC and DAC are of a high quality using a multi-bit, low-order oversampling architecture to deliver optimum performance with low power consumption. It supports I2S audio data format between DSP and codec. A speaker amplifier, using digital amplifier system, realizes low power consumption than that of linear amplifier. In addition, power-down mode is available to minimize the current consumption when used.
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VX11000
CHAPTER 4. Trouble ShootingCHAPTER 4. Trouble Shooting
4.1 Rx Part Trouble
4.1.1 DCN Rx
Test PointTest Point
VCTCXO
RTR6500
Quintplex
Check flowCheck flow
1. CheckDC Power Supply circuit
2. CheckVCTCXO
Rx TEST SETUP (HHP)- Test Channel: 384- Test Band: US Cellular- SID: 28- Sector Power: -30 dBm Spectrum Analyzer Setting
Oscilloscope Setting
Start
3. Check Control signal,
Redownload S/W, Cal
NO
RF Signal path
4. Check Rx I/Q data
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VX11000
4.1.1.1 Checking DC Power supply circuit (PMIC)
Test PointTest Point
Circuit DiagramCircuit Diagram
TP1
TP2
TP3
MAX8694
RTR6500
LP8720TLX
C4094 C4093R4031
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VX11000
Checking FlowChecking Flow
Check C4093+ 2.1V_RX0 is OK ?
Check R4031+2.6V_MSMP is OK?
YES
Start
DC Po wer supply Circuit is OK. See next Page to checkVCTCXO circuit
The Problem may be Lo gic partRefer to Logic troubleshoot
The Problem may be Lo gic partRefer to Logic troubleshoot
NO
NO
YES
Check C4094+ 2.1V_RX1 is OK ?
The Problem may be Lo gic partRefer to Logic troubleshootNO
YES
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VX11000
4.1.1.2 Checking VCTCXO circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
C1101
R1002
TP1
TP2
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VX11000
WaveformWaveform
Figure 4.1.1 (a) Figure 4.1.1 (b)
Checking FlowChecking Flow
Check U1003 TP2Is it 19.2MHz? (Refer to
figure 4.1.1 (a))
NO
Start
Replace Main B /D
VCTCXO circuit is Ok . See next page to check control signal .
The Problem may b e Logic partRefer to Logic troubleshoot
YES
NO
NO
Check U1003 TP1Is it 2.85V? (Refer to
figure 4.1.1 (b))
Replace U1003 and then check R1002 , Pin3.
YES
Is it similar? VCTCXO circuit is Ok . See next page to check control signal .YES
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VX11000
4.1.1.3 Checking RF signal path (Mobile S/W, Quintplexer)
Test PointTest Point
Circuit DiagramCircuit Diagram
VCTCXO
RTR6500
Quintplex
Mobile switch
TP2
TP1
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VX11000
Checking FlowChecking Flow
Check pin2 at U1002 Check if there is any major difference referring
To Figure 4.1.1 (c). Is any signal detected atthat point?
Start
Replace U1002
YES
RF signal path is OK. See next page to Rx I/Q data signal
NO
Is any signal detected atthat point? Check L1001, C1003, C1002
NO
Check pin1 at DP1000Check if there is any major difference referring
To Figure 4.1.1 (d). Is any signal detected atthat point?
YES
Replace DP1000NO
YES
Is any signal detected atthat point? Check L1007, L1009, C1037
NO
YES
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VX11000
WaveformWaveform
4.1.1 (c)
4.1.1 (d)
U1002 pin2
DP1000 pin1
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VX11000
Test PointTest Point
Circuit DiagramCircuit Diagram
4.1.1.4 Checking Rx I/Q data
RTR6500
U1009 Pin55 (RX0_IP)Pin56 (RX0_IM)Pin57 (RX0_QP)Pin58 (RX0_QM)
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VX11000
Checking FlowChecking Flow
Graph 4.1.1(f)Graph 4.1.1(e)
RX0_QPRX0_IP
RX0_IM RX0_QM
WaveformWaveform
Check pin 55,56,57,58 at U1009 Check if there is any major difference referring
To Figure 4.1.1 (e), (fi)
Start
Replace U 1009YES
NO
Redownload S/W, and then recalibrate the Main B/D
NO
Check pin55,56,57,58 at U1009 Check if there is any major difference referring
To Figure 4.1.1 (e), (f)Replace Main B /D
YES
All DCN Rx check is completed . If the phone still do not work , change Main B /D.
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VX11000
Test PointTest Point
4.1.2 PCS Rx
Checking FlowChecking Flow
1. CheckDC Power Supply circuit
2. CheckVCTCXO
Rx TEST SETUP(Joyphone )- Test Channel: 600- Test Band : US PCS- SID: 5269- Sect or Power: -30 dBm Spectrum Analyzer Setting
Oscilloscope Setting
Start
3. Check Control signal,
Redownload S/W, Cal
NO
RF Signal path
4. Check Rx I/Q data
VCTCXO
RTR6500
Quintplex
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VX11000
4.1.2.1 Checking DC Power supply circuit (PMIC)
Test PointTest Point
Circuit DiagramCircuit Diagram
TP1
TP2
TP3
MAX8694
RTR6500
LP8720TLX
C4094 C4093R4031
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VX11000
Checking FlowChecking Flow
Check C4093+ 2.1V_RX0 is OK ?
Check R4031+2.6V_MSMP is OK?
YES
Start
DC Po wer supply Circuit is OK. See next Page to checkVCTCXO circuit
The Problem may be Lo gic partRefer to Logic troubleshoot
The Problem may be Lo gic partRefer to Logic troubleshoot
NO
NO
YES
Check C4094+ 2.1V_RX1 is OK ?
The Problem may be Lo gic partRefer to Logic troubleshootNO
YES
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VX11000
4.1.2.2 Checking VCTCXO circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
C1101
R1002
TP1
TP2
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Checking FlowChecking Flow
WaveformWaveform
Figure 4.1.2 (a) Figure 4.1.2 (b)
Check U1003 TP2Is it 19.2MHz? (Refer to
figure 4.1.2 (a))
NO
Start
Replace Main B /D
VCTCXO circuit is Ok . See next page to check control signal .
The Problem may b e Logic partRefer to Logic troubleshoot
YES
NO
NO
Check U1003 TP1Is it 2.85V? (Refer to
figure 4.1.2 (b))
Replace U1003 and then check R1002 , Pin3.
YES
Is it similar? VCTCXO circuit is Ok . See next page to check control signal .YES
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VX11000
Checking FlowChecking Flow
Check pin2 at U1002 Check if there is any major difference referring
To Figure 4.1.2 (c). Is any signal detected atthat point?
Start
Replace U1002
YES
RF signal path is OK. See next page to Rx I/Q data signal
NO
Is any signal detected atthat point? Check L1001, C1003, C1002
NO
Check pin2 at DP1000Check if there is any major difference referring
To Figure 4.1.2 (d). Is any signal detected atthat point?
YES
Replace DP1000NO
YES
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VX11000
WaveformWaveform
4.1.2 (c)
4.1.2 (d)
U1002 pin2
DP1000 pin2
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Test PointTest Point
4.1.2.4 Checking Rx I/Q data
Circuit DiagramCircuit Diagram
RTR6500
U1009 Pin55 (RX0_IP)Pin56 (RX0_IM)Pin57 (RX0_QP)Pin58 (RX0_QM)
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Checking FlowChecking Flow
Graph 4.1.2 (f)Graph 4.1.2 (e)
WaveformWaveform
Check pin 55,56,57,58 at U1009 Check if there is any major difference referring
To Figure 4.1.2 (e), (f)
Start
Replace U 1009YES
NO
Redownload S/W, and then recalibrate the Main B/D
NO
Check pin55,56,57,58 at U1009 Check if there is any major difference referring
To Figure 4.1.2 (e), (f)Replace Main B /D
YES
All DCN Rx check is completed . If the phone still do not work , change Main B /D.
RX0_QPRX0_IP
RX0_IM RX0_QM
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Test PointTest Point
4.1.3 DCN diversity Rx
Checking FlowChecking Flow
Rx TEST SETUP (HHP)- Test Channel: 384- Test Band: US Cellular- SID: 28- Sector Power: -30 dBm Spectrum Analyzer Setting
Oscilloscope Setting
Start
1. Check Control signal,
Redownload S/W, Cal
RF Signal path
VCTCXO
RTR6500
Quintplex
Primary Rx Part Diversity Rx Part
Diversity Mobile Switch
Dipexer
DCN SAW Filter
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4.1.3.1 Checking DCN RF Diversity signal path (Mobile S/W, Diplexer, SAW Filter)
Test PointTest Point
Circuit DiagramCircuit Diagram
TP2
TP1
TP3
C1064
C1026
C1011
Diversity Mobile S/W
RTR6500
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Checking FlowChecking Flow
Check pin2 at U1000 Check if there is any major difference referring
To Figure 4.1.3 (a). Is any signal detected atthat point?
Start
Replace U1000
YES
RF signal path is OK. See next page to Rx I/Q data signal
NO
Is any signal detected atthat point? Check C1064, L1023
NO
Check pin4 at F1000Check if there is any major difference referring
To Figure 4.1.3 (b). Is any signal detected atthat point?
YES
Replace F1000NO
YES
Is any signal detected atthat point? Check C1011
NO
YES
Check pin4 at F1001Check if there is any major difference referring
To Figure 4.1.3 (c). Is any signal detected atthat point?
Replace F1001NO
YES
Is any signal detected atthat point? Check C1026, L1006, C1027
NO
YES
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WaveformWaveform
4.1.3 (a)
4.1.3 (b)
U1000 pin2
F1000 pin4
F1001 pin4
4.1.3 (c)
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Test PointTest Point
4.1.4 PCS Diversity Rx
Checking FlowChecking FlowChecking FlowChecking Flow
Rx TEST SETUP(Joyphone )- Test Channel: 600- Test Band : US PCS- SID: 5269- Sect or Power: -30 dBm Spectrum Analyzer Setting
Oscilloscope Setting
Start
1. Check Control signal,
Redownload S/W, Cal
RF Signal path
VCTCXO
RTR6500
Quintplex
Diversity Mobile Switch
Primary Rx Part Diversity Rx Part
Dipexer
PCS SAW Filter
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4.1.4.1 Checking PCS RF Diversity signal path (Mobile S/W, Diplexer, SAW Filter)
Test PointTest Point
Circuit DiagramCircuit Diagram
TP2
TP1
TP3
C1064
L1004
C1010
RTR6500
Diversity Mobile S/W
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Checking FlowChecking Flow
Check pin2 at U1000 Check if there is any major difference referring
To Figure 4.1.4 (a). Is any signal detected atthat point?
Start
Replace U1000
YES
RF signal path is OK. See next page to Rx I/Q data signal
NO
Is any signal detected atthat point? Check C1064, L1023
NO
Check pin6 at F1000Check if there is any major difference referring
To Figure 4.1.4 (b). Is any signal detected atthat point?
YES
Replace F1000NO
YES
Is any signal detected atthat point? Check C1010
NO
YES
Check pin4 at F1002Check if there is any major difference referring
To Figure 4.1.4 (c). Is any signal detected atthat point?
Replace F1002NO
YES
Is any signal detected atthat point? Check L1004, L1005, C1029
NO
YES
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VX11000
WaveformWaveform
4.1.4 (a)
4.1.4 (b)
U1000 pin2
F1000 pin6
F1002 pin4
4.1.4 (c)
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VX11000
4.2 Tx Part Trouble
4.2.1 DCN Tx
Test PointTest Point
Checking FlowChecking Flow
VCTCXO
RTR6500
Quintplex
PAM
VCTCXO
RTR6500
Quintplex
DualPAM
1. CheckDC Power Supply circuit
2. CheckVCTCXO
Press “##5473784236368” + “SEND” key + “000000” in Phone idle state.? Press FCC Test? Press CDMA FCC mode
- Set channel to 384 and AGC to 360? Measure frequency domain waveform with Spectrum
analyser? Measure time domain waveform with Oscilloscope
Start
Redownload S/W, Cal
7. Check Mobile Switch
3. CheckRTR6500
5. CheckDual PAM
4. CheckRF SAW
6. Check Quintplexer
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VX11000
4.2.1.1 Checking DC Power supply circuit (PMIC)
Test PointTest Point
Circuit DiagramCircuit Diagram
TP2
TP1
TP3
MAX8694
RTR6500
LP8720TLX
C41
33
R4031
R1012
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VX11000
Checking FlowChecking Flow
Check C4133+2.1V_TX is OK ?
Check R4031+2.6V_MSMP is OK?
YES
Start
DC Po wer su pply Circuit is OK. See next Page to c hec kVCTCXO circuit
The Problem may be Lo gic partRefer to Logic troubles hoot
The Problem may be Lo gic partRefer to Logic troubles hoot
NO
NO
YES
Check R1012 The Problem may be Lo gic partRefer to Logic troubles hootNO
YES
+2.1V_TX_SYNTH is OK?
- 69/143- LG Electronics Inc.
VX11000
4.2.1.2 Checking VCTCXO circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
C1101
R1002
TP1
TP2
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VX11000
Checking FlowChecking Flow
WaveformWaveform
Figure 4.2.1.2 (a) Figure 4.2.1.2 (b)
Check U1003 TP2Is it 19.2MHz? (Refer to
figure (a))
NO
Start
Replace Main B /D
VCTCXO circuit is Ok . See next page to check control signal .
The Problem may b e Logic partRefer to Logic troubleshoot
YES
NO
NO
Check U1003 TP1Is it 2.85V? (Refer to figure (b))
Replace U1003 and then check R1002 , Pin3.
YES
Is it similar? VCTCXO circuit is Ok . See next page to check control signal .YES
4.2.1.2
4.2.1.2
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VX11000
4.2.1.3 Checking RTR6500 DCN circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
C1101(TP3)
C1093(TP1)
Pin16(TP2)
TP1
TP2
TP3
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VX11000
Checking FlowChecking Flow
Check pin3 at U1009 Check if there is any major difference referring
To Figure 4.2.1.3 (a). Is it similar?
Start
RTR6500 circuit is OK. See next page
Replace U1005
YES
NO
Check pin16 at U1009(TX _ON signal )whether it is higher than 2.5V. Check TX_ON signal & MSM
NO
YES
YES
Check C1101 at U1009 (TCXO signal)referring to Figure 4.2.1.3 (b). Is it similar? Check TCXO circuit.
NO
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VX11000
Figure 4.2.1.3(a)
WaveformWaveform
Figure 4.2.1.3(b)
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VX11000
4.2.1.4 Check DCN RF Tx SAW
Test PointTest Point Circuit DiagramCircuit Diagram
Checking FlowChecking Flow
RF_IN
RF_OUT
WaveformWaveform
Figure 4.2.1.4
RF_IN fed up with CW signal
C1075(TP1)
RF_IN
RF_OUT
TP2 TP1
Check Pin1,4at F1005 . Referring to
Figure 4.2.1. . Is it similar ?
Start
Replace F 1005
RF Tx SAW is OKYES
NO
4
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VX11000
4.2.1.5 Check Dual PAM DCN circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
VCC1 RF_IN CELL
VCC2
VBPVEN_CELL
RF_OUT CELL
VMOD
PCS TxDCN Tx
TP3
TP5 TP6TP1
TP2
TP4
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VX11000
RF_IN fed up with CW signal
in Bypass mode of PAM
Figure 4.2.1.5
Checking FlowChecking Flow
WaveformWaveform
RF_OUTRF_IN
Check if there is any major difference referringTo Figure 4.2.1.5 Is it similar. ?
Start
PAM circuit is OK. See next page
NO
Replace U1008
YES
NO
YES
whether it is lower than 2.2V. Check PA_R0 lineNO
YES
NO
YES
Check pin 1, 14 at U1008
Check pin3 at U1008 (PA _R0 )
whether it is higher than 3.4V.Check Vcc line
NOCheck pin4, 11 at U1008 (Vcc)
YES
whether it is higher than 2.2V.Check pin5 at U1008 (PA _ON0)
whether it is lower than 2.2V.Check pin2 at U1008 (PA _R1)
Check PA_ON0 line
Check PA_R1 line
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VX11000
4.2.1.6 Check Quintplexer
Test PointTest Point Circuit DiagramCircuit Diagram
Checking FlowChecking Flow WaveformWaveform
CELL TX Port
ANT_1 Port
Check pin3, 5 at DP1000. Referring to
Figure 4.2.1.6. Is it similar ?
Start
Replace DP 1000
YES
NO
Quintplexer is OK
CELL_TX
ANT1
TP2
TP1
Figure 4.2.1.6
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VX11000
4.2.1.7 Check Mobile S/W
Test PointTest Point Circuit DiagramCircuit Diagram
Checking FlowChecking Flow WaveformWaveform
Check pin1, 2 at U 1002. Referring to
Figure 4.2.1.7. Is it similar ?
Start
Replace U1002
Mobile S /W is OK
YES
NO
RF_IN
RF_OUTTP2TP1
Figure 4.2.1.7
INPUT Port
OUTPUT Port
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VX110004.2.2 PCS Tx
Test PointTest Point
Checking FlowChecking Flow
VCTCXO
RTR6500
Quintplex
PAM
VCTCXO
RTR6500
Quintplex
DualPAM
1. CheckDC Power Supply circuit
2. CheckVCTCXO
Press “##5473784236368” + “SEND” key + “000000” in Phone idle state.? Press FCC Test? Press CDMA FCC mode
- Set channel to 384 and AGC to 400? Measure frequency domain waveform with Spectrum
analyser? Measure time domain waveform with Oscilloscope
Start
Redownload S/W, Cal
7. Check Mobile Switch
3. CheckRTR6500
5. CheckDual PAM
4. CheckRF SAW
6. Check Quintplexer
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VX11000
4.2.2.1 Checking DC Power supply circuit (PMIC)
Test PointTest Point
Circuit DiagramCircuit Diagram
TP2
TP1
TP3
MAX8694
RTR6500
LP8720TLX
C41
33
R4031
R1012
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VX11000
Checking FlowChecking Flow
Check C4133+2.1V_TX is OK ?
Check R4031+2.6V_MSMP is OK?
YES
Start
DC Po wer su pply Circuit is OK. See next Page to c hec kVCTCXO circuit
The Problem may be Lo gic partRefer to Logic troubles hoot
The Problem may be Lo gic partRefer to Logic troubles hoot
NO
NO
YES
Check R1012 The Problem may be Lo gic partRefer to Logic troubles hootNO
YES
+2.1V_TX_SYNTH is OK?
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VX11000
4.2.2.2 Checking VCTCXO circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
C1101
R1002
TP1
TP2
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VX11000
Checking FlowChecking Flow
WaveformWaveform
Figure 4.2.2.2 (a) Figure 4.2.2.2 (b)
Check U1003 TP2Is it 19.2MHz? (Refer to
figure (a))
NO
Start
Replace Main B /D
VCTCXO circuit is Ok . See next page to check control signal .
The Problem may b e Logic partRefer to Logic troubleshoot
YES
NO
NO
Check U1003 TP1Is it 2.85V? (Refer to figure (b))
Replace U1003 and then check R1002 , Pin3.
YES
Is it similar? VCTCXO circuit is Ok . See next page to check control signal .YES
4.2.2.2
4.2.2.2
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VX11000
4.2.2.3 Checking RTR6500 PCS circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
C1101(TP3)C1092
(TP1)
Pin16(TP2)
TP1
TP3
TP2
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VX11000
Checking FlowChecking Flow
Check pin67 at U1009 Check if there is any major difference referring
To Figure 4.2.2.3 (a). Is it similar?
Start
RTR6500 circuit is OK. See next page
Replace U1006
YES
NO
Check pin16 at U1009(TX _ON signal )whether it is higher than 2.5V. Check TX_ON signal & MSM
NO
YES
YES
Check C1101 1009 (TCXO signal)referring to Figure 4.2.2.3 (b). Is it similar? Check TCXO circuit.
NO
at U
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VX11000
WaveformWaveform
Figure 4.2.2.3(a)
Figure 4.2.2.3(b)
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VX11000
4.2.2.4 Check PCS RF Tx SAW
Test PointTest Point Circuit DiagramCircuit Diagram
Checking FlowChecking Flow WaveformWaveform
Check pin 1 , 4 at F 1006 Referring to
Figure 4 .2 .2 .4. Is it similar ?
Start
Replace F 1006
RF Tx SAW is OKYES
NO
RF_IN
RF_OUTTP2
TP1
RF_IN
RF_OUT
Figure 4.2.2.4
RF_IN fed up with CW signal
- 88/143- LG Electronics Inc.
VX11000
4.2.2.5 Check Dual PAM PCS circuit
Test PointTest Point
Circuit DiagramCircuit Diagram
PCS TxDCN Tx
TP3
TP5 TP6
TP1TP2
TP4
VCC1RF_IN PCS
VCC2
VBPVEN_PCS
RF_OUT PCS
VMOD
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VX11000
Checking FlowChecking Flow
WaveformWaveform
RF_IN fed up with CW signal
in Bypass mode of PAM
Figure 4.2.2.5
RF_OUTRF_IN
Check if there is any major difference referringTo Figure 4.2.2.5 Is it similar. ?
Start
PAM circuit is OK. See next page
NO
Replace U1008
YES
NO
YES
whether it is lower than 2.2V. Check PA_R0 lineNO
YES
NO
YES
Check pin 7, 8 at U1008
Check pin3 at U1008 (PA _R0 )
whether it is higher than 3.4V.Check Vcc line
NOCheck pin4, 11 at U1008 (Vcc)
YES
whether it is higher than 2.2V.Check pin6 at U1008 (PA _ON1)
whether it is lower than 2.2V.Check pin2 at U1008 (PA _R1)
Check PA_ON1 line
Check PA_R1 line
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VX11000
4.2.2.6 Check Quintplexer
Check pin4 , 5at DP1000 Referring to
Figure 4.2.2.6. Is it similar ?
Start
Replace DP1000
Quintplexer is OKYES
NO
Test PointTest Point Circuit DiagramCircuit Diagram
Checking FlowChecking Flow WaveformWaveform
CELL_TX
ANT1
TP2
TP1
PCS TX Port
ANT_1 Port
Figure 4.2.2.6
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VX11000
4.2.2.7 Check Mobile S/W
Test PointTest Point Circuit DiagramCircuit Diagram
Checking FlowChecking Flow WaveformWaveform
Check pin1, 2 at U 1002. Referring to
Figure 4.2.2.7. Is it similar ?
Start
Replace U1002
Mobile S /W is OK
YES
NO
RF_IN
RF_OUTTP2TP1
Figure 4.2.2.7
INPUT Port
OUTPUT Port
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VX11000
4.3 Logic Part Trouble Shooting
4.3.1 Power
4.3.1.1 Power-On Trouble
Circuit DiagramCircuit Diagram
PMIC(U4001)
+1.25V_MSMC1
+1.25V_MSMC2
+2.6V_MSMP
+2.6V_MSMA
+1.8V_MSME
+VBATT
+2.85V_TCXOTCXO_IN
TCXO_OUT
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VX11000
Circuit Diagram2Circuit Diagram2
SLEEP_CLK
PS_HOLD
PMIC(U4001)
USBH_CS
USB(U5004)
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VX11000
Test pointTest point
+1.25V_MSMC1
+1.25V_MSMC2
+VBATT
+2.6V_MSMP
PMICU4001
+2.6V_MSMA
+1.8V_MSME
SLEEP_CLK
PS_HOLD
+2.85V_TCXOTCXO_OUT
TCXO_IN
TCXOU1003
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VX11000
Checking FlowChecking Flow
START
Check battery voltage > 3.4V
Check the voltage of the following port at U4001
Charge of Change Battery and try againNO
NO
YES
YES
NO
+1.0~1.4V_MSMC1+1.15V~+1.4V_MSMP1
+1.8V_MSME+2.6V_MSMP+2.6V_MSMA
+2.85V_TCXO
Is the frequency of TCXO_IN (C4114) 19.2Mhz?
Replace TCXO (U1003)
Check the +BATT voltage > 3.4VNO
YES
Confirm +VBATT Line
Replace PMIC (U4001)
YES
NOIs TCXO_OUT (C4136) 19.2Mhz, Pk-Pk 2.85V?
Replace TCXO BUFFER (U4006)
YES
A
YES
Is SLEEP_CLK (C4042) 32.76Khz, Pk-Pk 2.6V? NO
Replace Sleep Crystal (U4000)
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VX11000
Checking FlowChecking Flow
NO
YES
Replace MSM (U202)Logic level of PS_HOLD=High?
Does it work properly?
download software try again
Change the boardChange the board
NO
A
Logic level of USBH_CS=High after 15s?
YES
NO
- 97/143- LG Electronics Inc.
VX11000
4.3.1.2 Charging Trouble
Circuit DiagramCircuit Diagram
+VBATT
CON5001
USB_DETECT
+5V_VCHAR
ACCESSORY_ADC
CHG_MODE
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VX11000
Test pointTest point
+5V_VCHAR
USB_DETECT
ACCESSORY_ADC
CON5001
+VBATTCHG_MODE
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VX11000
Checking FlowChecking Flow
START
The charging adaptor (TA) or USB cable(USB port of computer) is out of order.
YES
NO
NO
Charging Connector CON603Well-soldered?
Re-soldering CON5001
+5V_VCHAR (D5000) =5V?
Battery Change
Does it work properly
YES
The battery may have the problem
Check VBATT Voltage >3.4VNO
Replace PMIC (U4001)
NO
YES
Service Menu -> H/W test -> ETCGetADC(ACC) 100~150
GetADC(BATT_THM) 1~210 ?
NO
Change the MSM (U2000)When the phone is charged,CHG_MODE(R5019)=0V?
YES
YES
A
NO
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VX11000
Checking FlowChecking Flow
NO
USB_DETECTIf connect USB Cable, 2.6V
If connect TA, 0V ?Replace Q5000
download software try again
Does it work properly Change the boardNO
Charging will operate properly
YES
A
YES
- 101/143- LG Electronics Inc.
VX11000
4.3.2 Camera trouble
Circuit DiagramCircuit Diagram
• Camera Control signals
To MSM : CAM_DATA[0:7], CAM_RESET/,
CAM_I2C_SDA, CAM_I2C_SCL,
CAM_OSC_MCLK, CAM_PCLK
Test PointTest Point
CON6000
U6000
R6013
R6004
C6040
C6039
C6002
C6001
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VX11000
Check flowCheck flow
START
Check the clock to Camera at U6000 (36MHz)
Check the Control signalCAM_DATA[0:7], CAM_RESET/,
CAM_SDA, CAM_SCL
Check CON7007 Soldering
Replace U6000
Replace the Camera module
Camera will work properly
Re-soldering CON6000
YES
NO
YES
NO
NO
NO
NO
YES
YES
YES
Check the clock from Cameraat R6013 : CAM_PCLK
Check the voltage of the following camera power :+2.8V_CAM_VDDA+2.6V_CAM_VDDIO +1.8V_CAM_VDD+2.8V_CAM_LVDD
Replace the U4001, U4002
Check the CON6000
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VX11000
4.3.3 Flash LED trouble
C432
R431
Test PointTest Point
Circuit DiagramCircuit Diagram
CON6002
R6007U6002
C6036
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VX11000
Check flowCheck flow
START
Check the inserted powerat pin 5 of U6002
Check CON6002 Soldering
Recharge the battery
Check the MSM
Camera will work properly
Re-soldering CON6002
YES
NO
YES
NO
NO
NO
YES
YES
Check the control signal at R6007
Replace the U6002Check Flash LED driver output at C6036
Replace the Flash LED module
NO
YES
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VX11000
Test PointTest Point
U7001
U4006
R4049
CON6001
F6004
RGB_DCLK
R6049
- 107/143- LG Electronics Inc.
VX11000
Check flowCheck flow
START
Check the clock to RGB Converter at U4006 (26MHz)
Check the Control signalRGB_DATA[0:23], RGB_VSYNC,
Check CON6001 Soldering
Replace U4006
Replace the U7001
LCD will work properly
Re-soldering CON 6001
YES
NO
YES
NO
NO
NO
NO
YES
YES
YES
Check the clock from RGB converter at F6004
RGB_DCLK
Check the voltage of the following RGB converter power :+2.6V_MSMP +1.8V_MSME+1.5V_RGB
Replace the U4001
Check the CON6001
Check the voltage of LDC power :+2.8V_LCD
Replace U4001 NO
YES
RGB_HSYNC, RGB_DATA_EN,RGB_DCLK
- 108/143-LG Electronics Inc.
VX11000
4.3.4.2 LCD Backlight trouble
Circuit DiagramCircuit Diagram
Test PointTest Point
Internal LCD Backlight
External LCD Backlight
R5027
R5026
TP5000
TP5002
R5018
R5004
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VX11000
Check flowCheck flow
START
Check the I2C at R5004
LCD Backlight will work properly
YES
YESNO
NO
YES
Check the Reset at TP5000
Check the LED output at R5026 Check the CON6001
Internal LCD Backlight
External LCD Backlight
NOCheck the U5000 soldering
Check the U5000 soldering
START
Check the I2C at R5018
LCD Backlight will work properly
YES
YESNO
NO
YES
Check the Reset at TP5002
Check the LED output at R5027 Check the CON6001
NOCheck the U5005 soldering
Check the U5005 soldering
- 110/143- LG Electronics Inc.
VX11000
4.3.5 Audio4.3.5.1 Speaker Trouble
Circuit DiagramCircuit Diagram
- 111/143- LG Electronics Inc.
VX11000
C6016C6017C6018C6019
C30
14
C30
12
C30
15
C3020C3016
C3021
Test PointTest Point
- 112/143- LG Electronics Inc.
VX11000
Checking FlowChecking Flow
START
Voltage at C3020, C3021 is
Check the audio signal atC3012, C3014~C3016?
Speakerwill work properly
YES
NO
YES
Replace MSM or Main BoardCheck the soldering atC3012, C3014~C3016?
Re-solder C3012,C3014,C3015,C3016
Resolder the speaker&proximity cal after SET assembly
NO
YES
YES
Replace U3001
NO
YES
about 3.4~4.2V NOCheck the Battery Voltage
Check the audio signal atC6016~C6019?
Check the contact stateof the FPCB connector NO
Replace the LCD FPCB
YES
Check the audio signal atSPK contact pad NO
Replace speaker&proximity cal after SET assembly
NO
YES
Check the soldering atSPK+, SPK- contact pad
- 113/143- LG Electronics Inc.
VX11000
4.3.5.2 Receiver Trouble
Circuit DiagramCircuit Diagram
Test PointTest Point
C60
14C
6015
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VX11000
Checking FlowChecking Flow
Receiverwill work properly
YES Resolder the receiver &proximity cal after SET assembly
NO
YES
Replace MSM or Main BoardCheck the audio signal atC6014, C6015
Check the contact stateof the FPCB connector NO
Replace the LCD FPCB
YES
Check the audio signal atRCV contact pad NO
Replace the receiver &proximity cal after SET assembly
NO
YES
Check the soldering atRCV+, RCV- contact pad
START
- 115/143- LG Electronics Inc.
VX11000
4.3.5.3 Headset Trouble
< Audio Amp part >
< Ear jack part >
Circuit DiagramCircuit Diagram
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VX11000
Test PointTest Point
C30
14
C30
12
C30
15
C3020C3016
C3021
C3024 C3022
C3025C3026
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VX11000
START
Set the audio part of the test equipment to echo mode
YES
YES
NO
NO
Can you hear your voice from headset ? NO
YES
YES
Insert the headset to ear-jack
Does the audio profile of the phone change to the headset
Mode?1 Headset detect
problem
Change headset and try again
Can you hear the Sound from headset ?
Set the audio part of the test equipment to continuous wave mode
Can you hear your voice from headset ?
Headset will work properly
4
3
2 Headset RXpath problem
Headset TXpath problem
No
YES
NO
YES
Checking FlowChecking Flow
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VX11000
Checking Flow: Headset detect problemChecking Flow: Headset detect problem
Check the voltage C3025whether its range is high ?
NO
1
Check the soldering of CON3000
NO
YES
Replace CON3000
YES
Resolder CON3000 with heat gun4
NOReplace MSM or B/D
Checking Flow: Headset RX path problemChecking Flow: Headset RX path problem
Voltage at C3020, C3021 is
Check the audio signal atC3012, C3014~C3016
YES
NOReplace MSM or Main BoardCheck the soldering at
C3012, C3014~C3016
Re-solder C3012,C3014,C3015,C3016
NOReplace U3001
NO
YES
about 3.4~4.2V NOCheck the Battery Voltage
Check the audio signal atC3022, C3024
YES
NOReplace CON3000Check the soldering of CON3000
YES
2
YES
4
Checking Flow: Headset TX path problemChecking Flow: Headset TX path problem
Check the voltage C3026whether its range is high ?
NO
3
Check the soldering of CON3000
NO
YES
Replace CON3000
YES
Resolder CON3000 with heat gun4
NOReplace MSM or B/D
- 119/143- LG Electronics Inc.
VX11000
4.3.5.4 MIC Trouble
Circuit DiagramCircuit Diagram
Test PointTest Point
C2006
R2001
- 120/143- LG Electronics Inc.
VX11000
START
Check the voltage level at R2001Whether its range is 1.5~2.0V
Check the signal level atEach side of MIC, C2006 Resolder M2000
MIC will work properly
YES
YES
NO
NO
YES
Replace MSM or Main B/DCheck the solderingat R2001
Resolder R2001
NO
YES
Checking FlowChecking Flow
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VX11000
Circuit DiagramCircuit Diagram
4.3.6 Touch and Keypad
4.3.6.1 Touch Trouble
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VX11000
Test PointTest Point
U7004
R70
00C
7002
R70
02
C60
61C
6032
C60
62C
6042
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VX11000
Start
2NO
YES
YES
Replace U4000NO
: Make sure that the trouble is about mechanical thing at first.
Check the Voltage of C7002whether it is 2.6V
Check the Signal at R7000, R7002, TP7000Is there any pulse when you press touch key ?
Touch key will work properly
Replace U7004
NO
Check the signal at C6032, C6042,C6061, C6062, is there any pulse
When you press touch ?
Touch key will work properly
YES
YES
NO
2
Replace Main PCBNO
Check the contact stateof the FPCB connector
Replace the LCD FPCB &proximity cal after SET assembly
Checking FlowChecking Flow
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VX11000
4.3.6.2 Numeric key backlight
Circuit DiagramCircuit Diagram
Test pointTest point
Gate of Switching FET
Drain of Switching FET
VPWR
Gate of Switching FET
Drain of Switching FET
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Checking FlowChecking Flow
START
Is the voltage level of + VPWR3.3 ~ 4.2V?
Is Q5001 Working?
Charge battery
Main key backlightwill work properly
YES
NO
NO
YES
Are all LEDs working?NO
YES
YES
Check the soldering of each R andLEDS, or replace if not working
Replace Q 5001
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4.3.7 Vibrator
Circuit DiagramCircuit Diagram
Test pointTest point
TP1
TP1
U7000
U7002
U7005
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Checking Flow Checking Flow
Setting: “ON” at the motor test of “test mode”
Is U7000, U7002 Working?
Check the state at contact of vibrator
Replace Vibrator
Re-contact vibrator
YES
YES
YES
NO
NO
NO
NO
Start
The vibrator will Work properly
NO
Check the Voltage of TP1 =3.0V?
Replace the U7000, U7002
Change the main board
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▣ IMPORTANTRead This Information Before Using Your Hand-Held Portable Cellular TelephoneFirst introduction in 1984, the hand-held portable Cellular telephone is one of the most exciting and innovative electronic products ever developed.With it you can stay in contact with your office, your home, emergency service, and others. For the safe and efficient operation of your phone, observe these guidelines.Your Cellular phone is a radio transmitter and receiver. When it is ON, it receives and also sends out radio frequency (RF) energy. The phone operates in the frequency range of 824 MHz to 894 MHz and employs commonly used frequency modulation (FM) techniques. When you use your phone, the Cellular system handling your calls controls the power level at which your phone transmits. The power level can range from 0.006 of a watt to .6 of a watt.
▣ Exposure to Radio Frequency EnergyIn 1991 the Institute of Electrical and Electronics Engineers (IEEE), and in 1992 the American National Standards Institute (ANSI) updates the 1982 ANSI Standard for safety levels with respect to human exposure to RF energy. Over 120 scientists, engineers, and physicians from universities, government health agencies, and industry, after reviewing the available boy of research, developed this updated Standard. In March, 1993, the US Federal Communications Commission (FCC) proposed the adoption of this updated Standard.The design of your phone complies with this updated Standard. Of course, if you want to limit RF exposure even further than the updated ANSI Standard, you may choose to control the duration of your calls and operation your phone in the most power efficient manner.
▣ Efficient Phone OperationFor your phone to operate at the lowest power level, consistent with satisfactory call quality, please observe the following guidelines:If your phone has an extendable antenna, extend it fully. Some models allow you to place a call with the antenna retracted. However, your phone operates more efficiently with the antenna fully extended.Hold the phone as you would any other telephone. While speaking directly into the mouthpiece, position the antenna up and over your shoulder.Do not hold the antenna when the phone is “IN USE”. Holding the antenna affects call quality and may cause the phone to operated at a higher power level than needed.
▣ Antenna Care and ReplacementDo not use the phone with a damaged antenna. If a damaged antenna comes into contact with skin, a minor bum may result. Replace a damaged antenna immediately. Consult your manual to see if you may change your antenna yourself. If so, use only a manufacture approves antenna. Otherwise, take your phone to a qualifies service center for repair.Use only the supplied or approved antenna. Non-approved antennas, modifications, or attachments, could impair call quality, damage the phone, and violate FCC regulations.
CHAPTER 5. SafetyCHAPTER 5. Safety
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▣ DrivingCheck the laws and regulations on the use of Cellular telephones in the areas where you drive. Always obey them. Also, when using your phone while driving, please:Give full attention to the driving. Use hands-free operation, if available, and pull off the road and park before making or answering a call if driving conditions require.
▣ Electronic DevicesMost modem electronic equipment is shielded from RF energy. However, RF energy from Cellular telephones may affect inadequately shielded electronic equipment.RF energy may effect improperly installed or inadequately shielded electronic operating and entertainment system in motor vehicles. Check with the manufacturer or its representative to determine if these systems are adequately shielded from external RF energy. You should check with the manufacturer of any equipment that has been added to your vehicle.Consult the manufacturer of any personal medical devices (such as pacemakers, hearing aids, etc.) to determine if they are adequately shielded from external RF energy.Turn your phone OFF in health care facilities. When any regulations posted in the areas instruct you to do so. Hospitals or health care facilities may be using equipment that could be sensitive to external RF energy.
▣ AircraftTurn your phone OFF before boarding any aircraft.Use it on the ground only with crew permission. Do not use it in the air.To prevent possible interference with aircraft systems, US Federal Aviation Administration (FAA) regulations require you to have permission from a crew member to use your phone while the plane is on the ground. Using your phone while the plane is in the air.
▣ ChildrenDo not allow children to play with your phone. It is not a toy. Children could hurt themselves or others (by poking themselves or others in the eye with the antenna, for example). Children also could damage the phone, or make calls that increase your telephone bills.
▣ Blasting AreasTo avoid interfering with blasting operations, turn you unit OFF when in a “blasting area” or in areas posted “Turn off two-way radio”. Construction crews often use remote control RF devices to set off explosives.
▣ Potentially Explosive AtmospheresTurn your phone OFF when in any area with a potentially explosive atmosphere. It is rare, but your phone or accessories could generate sparks. Sparks in such area could cause an explosion or fire resulting in bodily injury or even death.Areas with a potentially explosive atmosphere are often, but not always, clearly marked. They include fueling areas such as gas station; below deck on boats; fuel or chemical transfer or storage facilities; areas where the air contains chemical or particles, such as grain, dust, or metal powders; and any other area where you would normally be advised to turn off your vehicle engine.
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Do not transport or store flammable gas, liquid, or explosives in the compartment of your vehicle which contains your phone or accessories.Vehicles using liquefied petroleum gas (such as propane or butane) must compl7y with the National Fire Protection Standard (NFPA-58). For a copy of this standard, contact the National Fire Protection Association, One Battery march Park, Quincy, MA 02269, Attn: Publication Sales Division.Rule of Thumb: Using common sense at all times when handling, installing or using the phone. Any questions should be directed to you nearest Service Center or authorized service technician or electrician.
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CHAPTER 6. GlossaryCHAPTER 6. GlossaryGeneral TermsAbbreviated Alert. An abbreviated alert is used to remind the mobile station user that previously selected alternative
routing features are still active.
AC. See Authentication Center.
Access Attempt. A sequence of one or more access probe sequences on the Access Channel containing the same
message. See also Access Probe and Access Probe Sequence.
Access Channel. A Reserve CDMA Channel used by mobile stations for communicating to the base station. The
Access Channel is used for short signaling message exchanges such as call origination’s, responses to pages, and
registrations. The Access Channel is a slotted random access channel.
Access Channel Message. The information part of an access probe consisting of the message body, length field, and
CRC.
Access Channel Message Capsule. An Access Channel message plus the padding.
Access Channel Preamble. The preamble of an access probe consisting of a sequence of all-zero frames that is sent
at the 4800bps rate.
Access Channel Request Message. An Access Channel message that is autonomously generated by the mobile
station. See also Access Channel Response Message.
Access Channel Response Message. A message on the Access Channel generated to reply to a message received
from the base station.
Access Channel Slot. The assigned time interval for an access probe. An Access Channel slot consists of an integer
number of frames. The transmission of an access probe is performed within the boundaries of an Access Channel slot.
Access Probe. One Access Channel transmission consisting of a preamble and a message. The transmission is an
integer number of frames in length and transmits one Access Channel message. See also Access Probe Sequence and
Access Attempt.
Access Probe Sequence. A sequence of one or more access probes on the Access Channel. The same Access
Channel message is transmitted in every access probe of an access attempt. See also Access Probe and Access
Attempt.
Acknowledgement. A Layer 2 response by the mobile station or the base station confirming that a signaling message
was received correctly.
Action Time. The time at which the action implied by a message should take effect.
Active Set. The set of pilots associated with the CDMA Channels containing Forward Traffic Channels assigned to a
particular mobile station.
Aging. A mechanism through which the mobile station maintains in its Neighbor Set the pilots that have been
recently sent to it from the base station and the pilots whose handoff drop timers have recently expired.
A-key. A secret, 64-bit pattern stored in the mobile station. It is used to generate update the mobile station’s Shared
Secret Data. The A-key is used in the mobile station authentication process.
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Analog Access Channel. An analog control channel used by a mobile station to access a system to obtain service.
Analog Color-Code. An analog signal (see Supervisory Audio Tone) transmitted by a base station on an analog
voice channel and used to detect capture of a mobile station by an interfering base station or the capture of a base
station by an interfering mobile station.
Analog Control Channel. An analog channel used for the transmission of digital control information from a base
station to a mobile station or from a mobile station to a base station.
Analog Paging Channel. A forward analog control channel that is used to page mobile stations and send orders.
Analog Voice Channel. An analog channel on which a voice conversation occurs and on which brief digital
messages may be sent from a base station to a mobile station or from a mobile station to a base station.
Authentication. A procedure used by a base station to validate a mobile station’s identity.
Authentication Center (AC). An entity that manages the authentication information related to the mobile station.
Authentication Response (AUTHR). An 18-bit output of the authentication algorithm. It is used, for example, to
validate mobile station registrations, origination and terminations. A method of registration in which the mobile
station registers without an explicit command from the base station.
AWGN. Additive White Gaussian Noise.
Bad Frames. Frames classified as erasures (frame category 10) or9600bps frames, primary traffic only with bit
errors (frame category 9). See also Good Frames.
Base Station. A station in the Domestic Public Cellular Radio Telecommunications Service, other than a mobile
station, used for communicating with mobile stations. Depending upon the context, the term base station may refer to
a cell, a sector within a cell, an MSC, or other part of the Cellular system. See also MSC.
Base Station Authentication Response (AUTHBS). An 18-bit pattern generated by the authentication algorithm.
AUTHBS is used to confirm the validity of base station orders to update the Shared Secret Data.
Base Station Random Variable (RANDBS). A 32-bit random number generated by the mobile station for
authenticating base station orders to update the Shared Secret Data.
BCH Code. See Bose-Chaudhuri-Hocquenghem Code.
Busy-Idle Bits. The portion of the data stream transmitted by a base station on a forward analog control channel that
is used to indicate the current busy-idle status of the corresponding reverse analog control channel.
Call Disconnect. The process that releases the resources handling a particular call. The disconnect process beings
either when the mobile station user indicates the end of the call by generating an on-hook condition or other call
release mechanism, or when the base station initiates a release.
Call History Parameter (COUNT). A modulo-64 event counter maintained by the mobile station and
Authentication Center that us used for clone detection.
Candidate Set. The set of pilots that have been received with sufficient strength by the mobile station to be
successfully demodulated, but have not been placed in the Active Set by the base station. See also Active Set.
Neighbor Set, and Remaining Set.
. See Code Division Multiple Access
CDMA Channel. The set of channels transmitted between the base station within a given CDMA frequency
assignment. See also Forward CDMA Channel and Reverse CDMA Channel.
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CDMA Channel Number. An 11-bit number corresponding to the center of the CDMA frequency assignment.
CDMA Frequency Assignment. A 1.23MHz segment of spectrum centered on one of the 30KHz channels of the
existing analog system.
Code Channel. A subchannel of a Forward CDMA Channels. A Forward CDMA Channel contains 64 code channels.
Code channel zero is assigned to the Pilot Channel. Code channels 1 through 7 may be assigned to the either Paging
Channels or the Traffic Channels. Code Channel 32 may be assigned to either a Sync Channel or a Traffic Channel.
The remaining code channels may be assigned to Traffic Channels.
Code Division Multiple Access (CDMA). A technique for spread-spectrum multiple-access digital communications
that creates channels through the use of unique code sequences.
Code Symbol. The output of an error-correcting encoder. Information bits are input to the encoder and code symbols
are output from the encoder. See Convolutional Code.
Continuous Transmission. A mode of operation in which Discontinuous Transmission is not permitted.
Control Mobile Attenuation Code (CMAC). A 3-bit field in the Control-Filler Message that specifies the
maximum authorized power level for a mobile transmitting on an analog reverse control channels.
Convolution Code. A type of error-correcting code. A code symbol can be considered as the convolution of the
input data sequence with the impulse response of a generator function.
CRC. See Cyclic Redundancy Code.
Cyclic Redundancy Code (CRC). A class of linear error detecting codes which generate parity check bits by
finding the remainder of a polynomial division.
Data Burst Randomizer. The function that determines which power control groups within a frame are transmitted
on the Reverse Traffic Channel when the data rate is lower than 9600 bps. The data burst randomizer determines, for
each mobile station, the pseudo random position of the transmitted power control groups in the frame while
guaranteeing that every modulation symbol is transmitted exactly once.
DBc. The ratio (in dB) of the sideband power of a signal, measured in a given bandwidth at a given frequency offset
from the center frequency of the same signal, to the total inband power of the signal. For CDMA, the total inband
power of the signal is measured in a 1.23MHz bandwidth around the center frequency of the CDMA signal.
DBm. A measure of power expressed in terms of its ration (in dB) to one milliwatt.
DBm/Hz. A measure of power spectral density. DBm/Hz is the power in one Hertz of bandwidth. Where power is
expressed in units of dBm.
DBW. A measure of power expressed in terns of its ration (in dB) to one Watt.
Dedicated Control Channel. An analog control channel used for the transmission of digital control information from
either a base station or a mobile station.
Deinterleaving. The process of unpermuting the symbols that were permuted by the interleaver..
Deinterleaving is performed on received symbols prior to decoding.
Digital Color Code (DCC). A digital signal transmitted by a base station on a forward analog control channel that is
used to detect capture of a base station by an interfering mobile station.
Dim-and-Burst. A frame in which primary traffic is multiplexed with either secondary traffic or signaling traffic.
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Discontinuous Transmission (DTX). A mode of operation in which a mobile station transmitter autonomously
switches between two transmitter power levels while the mobile station is in the conversation state on an analog voice
channel.
Distance-Based Registration. An autonomous registration method in which the mobile station registers whenever it
enters a cell whose distance from the cell in which the mobile station last registered exceeds a given threshold.
DTMF. See Dual Tone Multifrequency.
Dual-Tone Multifrequency (DTMF). Signaling by the simultaneous transmission of two tones, one from a group of
low frequencies and another from a group of high frequencies. Each group of frequencies consists of four frequencies.
Eb. The energy of an information bit.
Ec/I0. The ratio in (dB) between the pilot energy accumulated over one PN chip period (Ec) to the power spectral
density in the received bandwidth (Io).
Effective Radiated Power (ERP). The transmitted power multiplied by the antenna gain referenced to a half wave
dipole.
Electronic Serial Number (ESN). A 32-bit number assigned by the mobile station manufacturer, uniquely
identifying the mobile station equipment.
Encoder Tail Bits. A fixed sequence of bits added to the end of a block of data to reset the convolutional encoder to
a known state.
ERP. See Effective Radiated Power.
ESN. See Electronic Serial Number.
Extended Protocol. An optional expansion of the signaling message between the base station and mobile station to
allow for the addition of new system features and operational capabilities.
Fade Timer. A timer kept by the mobile station as a measure of Forward Traffic Channel continuity. If the Fade
timer expires, the mobile station drops the call.
Flash. An indication sent on an analog voice channel or CDMA Traffic Channel indicating that the user Directed the
mobile station to invoke special processing.
Foreign NID Roamer. A mobile station operating in the same system (SID) but a different network (NID)Form the
one in which service was subscribed. See also Foreign SID Roamer and Roamer.
Foreign SID Roamer. A mobile station operating in a system (SID) other than the one from which service was
subscribed. See also Foreign NID Roamer and Roamer.
Forward Analog Control Channel (FOCC). An analog voice channel used from a base station to a mobile station.
Forward Analog Voice Channel (FVC). An analog voice channel used from a base station to a mobile station.
Forward CDMA Channel. A CDMA Channel form a base station to mobile stations. The Forward CDMA Channel
contains one or more code channels that are transmitted on a CDMA frequency assignment using a Particular pilot
PN offset. The code channels are associated with the Pilot Channel, Sync Channel, Paging Channels, and Traffic
Channels. The Forward CDMA Channel always carries a Pilot Channel and may carry up to one Sync Channel, up to
seven Paging Channels, and up to 63 Traffic Channels, as long as the total number of channels, including the Pilot
Channel, is no greater than 64.
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Forward Traffic Channel. A code channel used to transport user and signaling traffic from the base station to the
mobile station.
A basic timing interval in the system. For the Access Channel, Paging Channel, and Traffic Channel, a frame is 20
ms long. For the Sync Channel, a frame is 26.666…ms long.
Frame Category. A classification of a received Traffic Channel frame based upon transmission data rate, the Frame
contents (primary traffic, secondary traffic, or signaling traffic), and whether there are detected error in the frame.
Frame Offset. A time skewing of Traffic Channel frames from System Time in integer multiples of 1.25 ms. The
maximum frame offset is 18..75 ms..
Frame Quality Indicator. The CRC check applied to 9600 bps and 4800 bps Traffic Channel frames.
Global Positioning System (GPS). A US government satellite system that provides location and time Information to
users. See Navstar GPS Space segment / Navigation User interfaces ICD-GPS-200 for Specifications.
Half Frame. A 10 ms interval on the paging Channel. Two half frames comprise a frame, the first half frame begins
at the same time as the frame.
Handoff. The of transferring communication with a station mobile station from one base station to another.
Hard Handoff. A handoff characterized by a temporary disconnection of the Traffic Channel. Hard handoffs Occur
when the mobile station is transferred between disjoint Active Sets, the CDMA frequency assignment changes, the
frame offset changes, or the mobile station is directed from a CDMA Traffic Channel to an analog voice channel, See
also Soft Handoff.
Hash Function. A function used by the mobile station to select one out of N available resource. The hash function
distributes the available resources uniformly among a random sample of mobile stations.
HLR. See Home Location Register.
Home Location Register (HLR). The location register to which a MIN is assigned for record purposes such as
subscriber information.
Home System. The Cellular system in which the mobile station subscribes for service.
Idle Handoff. The act of transferring reception of the Paging Channel from one bass station to another, when the
mobile station is in the Mobile Station Idle State.
Implicit Registration. A registration achieved by a successful transmission of an origination or page response on the
Access Channel.
Interleaving. The process of permuting a sequence of symbols.
kHz. Kilohertz (103 Hertz).
ksps. Kilo-symbols per second (103 symbols per second).
Layer 1. See Physical Layer.
Layer 2. Layer 2 provides for the correct transmission and reception of signaling messages, including partial
duplicate detection. See also Layering and Layer 3.
Layer 3. Layer 3 provides the control of the Cellular telephone systems. Signaling messages originate and terminate
at layer 3. See also Layering and Layer 2.
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Local Control. An optional mobile station feature used to perform manufacturer-specific functions.
A PN sequence with period 242-1 that is used for scrambling on the Forward CDMA Channel and spreading on the
Reverse CDMA Channel. The long code uniquely identifies a mobile station on both the Reverse Traffic Channel and
the Forward Traffic Channel. The long code provides limited privacy. The long code also separates multiple Access
Channels on the same CDMA channel. See also Public Long Code and Private Long Code.
Long Code Mask. A 42-bit binary number that creates the unique identity of the long code. See also Public Long
Code, Private Long Code, Public Long Code Mask, and Private Long Code Mask.
LSB. Least significant bit.
Maximal Length Sequence (m-Sequence). A binary sequence of period 2n-1, n a positive integer, with no internal
periodicities. A maximal length sequence can be generated by a tapped n-bit shift register with linear feedback.
Mcps. Megachips per second (106 chips per second).
Mean Input Power. The total received calorimetric power measured in a specified bandwidth at the antenna
connector, including all internal and external signal and noise sources.
Mean Output Power. The total transmitted calorimetric power measured in a specified bandwidth at the antenna
connector when the transmitter is active.
Message. A data structure that conveys control information or application information. A message consists of a
length field (MSG_LENGTH), a message body (the part conveying the information), and a CRC.
Message Body. The part of the message contained between the length field (MSG_LENGTH) and the CRC field.
Message Capsule. A sequence of bits comprising a single message and padding. The padding always follows the
message and may be of zero length.
Message CRC. The CRC associated with a message. See also Cyclic Redundancy Check.
Message Field. A basic named element in a message. A message field may consist of zero or more bits.
Message Record. An entry in a message consisting of one or more field that repeats in the message.
MHz. Megahertz.(106 Hertz)
MIN. See Mobile Station Identification Number.
Mobile Protocol Capability Indicator (MPCI). A 2-bit field used to indicate 속 mobile station’s capabilities.
Mobile Station. A station in the Domestic Public Cellular Radio Telecommunications Service intended to be used
while in motion or during halts at unspecified points. Mobile station include portable units (e.g., handheld personal
units) and units installed in vehicles.
Mobile Station Class. Mobile station classes define mobile station characteristics such as slotted operation and
transmission power.
Mobile Station Identification Number (MIN). The 34-bit number that is a digital representation of the 10-digit
directory telephone number assigned to a mobile station.
Mobile Station Originated Call. A call originating from a mobile station.
Mobile Station Terminated Call. A call received by a mobile station (not to be confused with a disconnect or call
release).
Mobile Switching Center (MSC). A configuration of equipment that provides Cellular radiotelephone service. Also
called the Mobile Telephone Switching Office (MTSO)
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Modulation Symbol. The output of the data modulator before spreading. On the Reverse Traffic Channel, 64-ary
orthogonal modulation is used and six code symbol (when the data rate is 9600bps) or each repeated code symbol
(when the data rate is less than 9600bps) is one modulation symbol.
Ms. Millisecond.
MSB. Most significant bit.
MSC. See Mobile Switching Center.
Multiplex Option. The ability of the multiplex sublayer and lower layer to be tailored to provide special capabilities.
A multiplex option defines such characteristics as the frame format and the rate decision rules. See also Multiplex
Sublayer.
Multiplex Sublayer. One of the conceptual layers of the system that multiplexes and demultiplexes primary traffic,
secondary traffic, and signaling traffic.
NAM. See Number Assignment Module.
Narrow Analog. A type of voice channel that uses 10kHz channel spacing and subaudible signaling.
Neighbor Set. The set of pilots associated with the CDMA Channel that are probable candidates for handoff.
Normally, the Neighbor Set consists of the pilots associated with CDMA Channel that cover geographical areas near
the mobile station. See also Active Set, Candidate Set, and Remaining Set.
A network is a subset of a Cellular system, such as an area-wide Cellular network, a private group of base stations, or
a group of base stations set up to handle a special requirement. A network can be as small or as large as needed, as
long as it is fully contained within a system. See also System.
Network Identification (NID). A number that uniquely identifies a network within a Cellular system. See also
System Identification.
NID. See Network Identification.
Non-Autonomous Registration. A registration method in which the base station initiates registration. See also
Autonomous Registration.
Non-Slotted Mode. An operation mode of the mobile station in which the mobile station continuously monitors the
Paging Channel when in the Mobile Station Idle State.
Ns. Nanosecond.
NULL. Not having any value.
Null Traffic Channel Data. One or more frames of 16 ‘1’s followed by eight ‘0’s sent at the 1200bps rate. Null
Traffic Channel data is sent when no service option is active and no signaling message is being sent. Null Traffic
Channel data serves to maintain the connectivity between the mobile station and the base station.
Number Assignment Module (NAM). A set of MIN-related parameters stored in the mobile station.
Numeric Information. Numeric information consists of parameters that appear as numeric fields in message
exchanged by the base station and the mobile station and information used to describe the operation of the mobile
station.
OLC. See Overload Class (CDMA) or Overload Control (analog).
Optional Field. A field defined within a message structure that is optionally to the message recipient.
Order. A type of message that contains control codes for either the mobile station or the base station.
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Ordered Registration. A registration method in which the base station orders the mobile station to send registration
related parameters.
Overhead Message. A message sent by the base station on the Paging Channel to communicate base-station-specific
and system-wide information to mobile station.
Overload Class. The means used to control system access by mobile stations, typically in emergency or other
overload conditions. Mobile station are assigned one (or more) of sixteen overload classed, Access to the CDMA
system can then be controlled on a per class basis by persistence values transmitted by the base station.
Overload Control (OLC). A means reverse analog control channel accesses by mobile stations. Mobile station are
assigned one(or more) of sixteen control levels. Access is selectively restricted by a base station setting one or more
OLC bits in the Overload Control Global Action Message.
Packet. The unit of information exchanged between the service option applications of the base station and the mobile
station.
Padding. A sequence of bits used to fill from the end of a message to the end of a message capsule, typically to the
end of the frame or half frame. All bits in the padding are '0'.
Paging. The act of seeking a mobile station when a call has been placed to that mobile station.
Paging Channel (Analog). See Analog Paging Channel.
Paging Channel (CDMA). A code channel in a Forward CDMA Channel used for transmission of control
information and pages from a base station to a mobile station.
Paging Channel Slot. An 80ms interval on the Paging Channel. Mobile station operating in the slotted mode are
assigned specific slots in which day monitor messages from the base station.
Parameter-Change Registration. A registration method in which the mobile station registers when certain of its
stored parameters change.
Parity Check Bits. Bits added to a sequence of information bits to provide error detection, correction, or both.
Persistence. A probability measure used by the mobile station to determine if it should transmit in a given Access
Channel Slot.
Physical Layer. The part of the communication protocol between the mobile station and the base station that is
responsible for the transmission and reception of data. The physical layer in the transmitting station is presented a
frame by the multiplex sublayer and transforms it into an over-the-air waveform. The physical layer in the receiving
station transforms the waveform back into a frame and presents it to the multiplex sublayer above it.
Pilot Channel. An unmodulated, direct-sequence spread spectrum signal transmitted continuously by each CDMA
base station. The Pilot Channel allows a mobile station to acquire the timing of the Forward CDMA Channel,
provides a phase reference for coherent demodulation, and provides a means for signal strength comparisons between
base station for determining when to handoff.
Pilot PN Sequence. A pair of modified maximal length PN sequences with period 215 used to spread the Forward
CDMA Channel and the Reserve CDMA Channel. Different base station are identified by different pilot PN sequence
offsets.
Pilot PN Sequence Offset Index. The PN offset in units of 64 PN chips of a pilot, relative to the zero offset pilot PN
sequence.
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PN Chip. One bit in the PN sequence.
PN Sequence. Pseudonoise sequence. A periodic binary sequence.
Power Control Bit. A bit sent in every 1.25ms interval on the Forward Traffic Channel to signal the mobile station
to increase or decrease its transmit power.
Power Control Group. A 1.25ms interval on the Forward Traffic Channel and the Reverse Traffic Channel.
See also Power Control Bit.
Power-Down Registration. Au autonomous registration method in which the mobile station registers on power up.
PPM. Parts per million.
Preamble. See Access Channel Preamble and Traffic Channel Preamble.
Primary CDMA Channel. A CDMA Channel at a pre-assigned frequency assignment used by the mobile station for
initial acquisition. See also Secondary CDMA Channel.
Primary Paging Channel (CDMA). The default code channel (code channel 1) assigned for paging on a CDMA
Channel.
Primary Traffic. The main traffic stream carried between the mobile station and the base station, supporting the
active primary service option, on the Traffic Channel. See also Secondary Traffic, Signaling Traffic, and Servic3e
Option.
Private Long Code. The long code characterized by the private long code mask. See also Long Code.
Private Long Code Mask. The long code mask used to form the private long code. See also Public Long Code Mask
and Long Code.
Public Long Code. The long code characterized by the public long code mask.
Public Long Code Mask. The long code mask used to form the private long code. The mask contains the ESN of the
mobile station. See also Private Long Code Mask and Long Code.
Punctured Code. An error-correcting code generated from another error-correcting code by deleting (i.e.,
puncturing) code symbols from the code output.
Quick Repeats. Additional transmissions of identical copies of a message within a short interval to increase the
probability that the message is received correctly.
Receive Objective Loudness Rating (ROLR). A perceptually weighted transducer gain of telephone receivers
relating electrical excitation from a reference generator to sound pressure at the earphone. The receive objective
loudness tating is normally specified in dB relative to one Pascal per millivolt. See IEEE Standard 269-1992, IEEE
Standard 661-1979, CCITT Recommendation P.76, and CCITT Recommendation P.79.
Registration. The process by which a mobile station identifies its location and parameters to a base station.
Registration Zone. A collection of one or more base stations treated as a unit when determining whether a mobile
station should perform zone-based registration.
Release. A process that the mobile station and base station use to inform each other of call disconnect.
The set of all allowable pilot offsets as determined by PILOT_INC, excluding the pilot offsets of the pilots in the
Active Set, Candidate Set, and Neighbor Set. See also Active Set, Candidate Set, and Neighbor Set.
Request. A layer 3 message generated by either the mobile station or the base station to retrieve information, ask for
service, or command an action.
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Response. A layer 3 message generated as a result of another message, typically a request.
Reverse Analog Control (RECC). The analog control channel used from a mobile station to a base station.
Reverse Analog Voice Channel (RVC). The analog voice channel used from a mobile station to a base station.
Reverse CDMA Channel. The CDMA Channel from the mobile station to the base station. From the base station’s
perspective, the Reverse CDMA Channel is the sum of all mobile station transmissions on a CDMA frequency
assignment.
Reverse Traffic Channel. A Reverse CDMA Channel used to transport user and signaling traffic from a single
mobile station to one or more base stations.
Roamer. A mobile station operating in a Cellular system (or network) other than the one from which service was
subscribed. See also Foreign NID Roamer and Foreign SID Roamer.
ROLR. See Receive Objective Loudness Rating.
SAT. See Supervisory Audio Tone.
Scan of Channels. The procedure by which a mobile station examines the signal strength of each forward analog
control channel.
SCI. Synchronized Capsule Indicator bit.
Search Window. The range of PN sequence offsets that a mobile station searches for a pilot.
Secondary CDMA Channel. A CDMA Channel at a preassigned frequency assignment used by the mobile station
for initial acquisition. See also Primary CDMA Channel.
Secondary Traffic. An additional traffic stream that can be carried between the mobile station and the base station
on the Traffic Channel. See also Primary Traffic and Signaling Traffic.
Seizure Precursor. The initial digital sequence transmitted by a mobile station to a base station on a reverse analog
control channel.
Seizure Option. A service capability of the system. Service options may be applications such as voice, data, or
facsimile.
Shard Secret Data (SSD). A 128-bit pattern stored in the mobile station (in semi-permanent memory) and known by
the base station. SSD is a concatenation of two 64-bit subsets: SSD_A, which is used to support the authentication
procedures and SSD_B, which serves as one of the inputs to the process generating the encryption mask and private
long code.
Short Message Services (SMS). A suite of services which include SMS Text Delivery, Digital Paging (i.e., Call
Back Number – CBN), and Voice Mail Notification (VMN).
SID. See System Identification.
Signaling Tone. A 10kHz tone transmitted by a mobile station on an analog voice channel to: 1) confirm orders,
2)signal flash requests, and 3) signal release requests.
Signal Traffic. Control message that are carried between the mobile station and base station on the Traffic Channel.
See also Primary Traffic and Secondary Traffic.
Slot Cycle. A periodic interval at which a mobile station operating in the slotted monitors the Paging Channel.
Slotted Mode. An operation mode of the mobile station in which the mobile station monitors only selected slots on
the Paging Channel when in the Mobile Station Idle State.
- 141/143- LG Electronics Inc.
VX11000
Soft Handoff. A handoff occurring while the mobile station is in the Mobile Station Control on the Traffic Channel
State. This handoff is characterized by commencing communications with a new base station on the same CDMA
frequency assignment before terminating communications with the old base station. See also Hard Handoff.
SOM. Start-of-Message Bit.
SPS. Symbols per second.
- An identification of certain characteristics of a mobile station. Classes are defined in Table 2.3.3-1.
Status Information. The following status information is used to describe mobile station operation when using the
analog system.
Serving-System Status. Indicates whether a mobile station is turned to channels associated with System A or
System B.
First Registration ID Status. A status variable used by the mobile station in association with its processing of
received Registration ID messages.
First Location Area ID Status. A status variable used by the mobile station in association with its processing of
received Location Area ID messages.
Location Registration ID Status. A status variable used by the mobile station in association with its processing of
power-up registration and location-based registration.
First Idle ID Status. A status variable used by the mobile station in association with its processing of the Idle Task.
Local Control Status. Indicates whether a mobile station must respond to local control messages.
Roam Status. Indicates whether a mobile station is in its home system.
Termination Status. Indicates whether a mobile station must terminate the call when it is on an analog voice
channel.
Supervisory Audio Tone (SAT). One of three tones in the 6 kHz region that is transmitted on the forward analog
voice channel by a base station and transponder on the reverse analog voice channel by as mobile station.
Supplementary Digital Color Code (SDCC1, SDCC2). Additional bits assigned to increase the number of color
codes from four to sixty four, transmitted on the forward analog control channel.
Symbol. See Code Symbol and Modulation Symbol.
Sync Channel. Code channel 32 in the Forward CDMA Channel which transports the synchronization message to the
mobile station.
Sync Channel Superframe. An 80ms interval consisting of three Sync Channel frames (each 26.666…ms in length).
System. A system is a Cellular telephone service that covers a geographic area such as a city. Metropolitan region,
country, or group of countries. See also Network.
System Time. The time reference used by the system. System Time is synchronous to UTC time (except for leap
seconds) and used the same time origin as GPS time. Offset by the propagation delay from the base station to the
mobile station. See also Universal coordinated Time.
Timer-Based Registration. A registration method in which the mobile station registers whenever a counter reaches
a predetermined value. The counter is incremented an average of once per 80 ms period.
Time Reference. A reference established by the mobile station that is synchronous with the earliest arriving
multipath component used for demodulation.
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VX11000
TOLR. See Transmit Objective Loudness Rating.
Traffic Channel. A communication path between a mobile station and base station used for user and signaling
traffic. The term Traffic Channel implies a Forward Traffic Channel and Reverse Traffic Channel pair. See also
Forward Traffic Channel and Reverse Traffic Channel.
Traffic Channel Preamble. A sequence of all-zero frames that is sent at the 9600 bps rate by the mobile station on
the Reverse Traffic Channel. The Traffic Channel preamble is sent during initialization of the Traffic Channel.
Transmit Objective Loudness Rating (TOLR). A perceptually weighted transducer gain of telephone transmitters
relation sound pressure at the microphone to voltage at a reference electrical termination. It is normally specified in
dB relative to one millivolt per Pascal. See IEEE Standard 269-1992, IEEE Standard 661-1979, CCITT
Recommendation P.76 , and CCITT Recommendation. P.79
Unique Challenge-Response Procedure. An exchange of information between a mobile station and a base station
for the purpose of confirming the mobile station’s identity. The procedure is initiated by the base station and is
characterized by the use of a challenge-specific random number (i.e., RANDU) instead of the random variable
broadcast globally (RAND).
Unique Random Variable (RANDU). A 24-bit random number generated by the base station in support of the
Unique Challenge-Response procedure.
Universal Coordinated Time (UTC). An internationally agreed-upon time scale maintained by the Bureau
International de l’Heure (BIH) used as the time reference by nearly all commonly available time and frequency
distribution systems i.e., WWW, WWVH, LORAN-C, Transit, Omega, and GPS.
UTC. Universal Temps Coordine. See Universal Coordinated Time.
Voice Channel. See Analog Voice Channel.
Voice Mobile Attenuation Code (VMAC). A 3-bit field in the Extended Address Word commanding the initial
mobile power level when assigning a mobile station to an analog voice channel.
Voice Privacy. The process by which user voice transmitted over a CDMA Traffic Channel is a afforded a modest
degree of protection against eavesdropping over the air.
Walsh Chip. The shortest identifiable component of a Walsh function. There are 2N Walsh chips in one Walsh
function where N is the order of the Walsh function. On the Forward CDMA channel one Walsh chip equals
1/1.2288MHz, or 813.802…ns. On the Reverse CDMA Channel, one Walsh chip equals 4/1.2288MHz, or 3.255…㎲.
Walsh Function. One of 2N time orthogonal binary functions (note that the functions are orthogonal after mapping
‘0’ to 1 and ‘1’ to –1).
Zone-Based Registration. An autonomous registration method in which the mobile station registers whenever it
enters a zone that is not in the mobile station’s zone list.
㎲. Microsecond
Block Diagram
Touch Screen
BatteryBattery
I2C
I2C
LNA
AU
X_PCM
UA
RT1 (H
S)
Phone Block Diagram
Internal Use Only
Internal Use Only
RF Block Diagram
Circuit Diagram
(Main PCB/LCD FPCB
/Sensor FPCB / Sidekey FPCB)
Main Board Circuit
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
C1103
1u
C1092
12p
C1019100p
C1012
47p
C1090
100p
C107647p
C1108
1u
C1032
100p
C1023
33n
C105047p
C1042
1u
C1007
10n
C1087
100p
C1105
1u
C1111
100p
C1102
100n
C1016
100n
C1109
1u
C1096
10n
C107547p
C1052
1u
C1094
1u
C1113
3.3n
C1093
33p
C1098
100p
C1083
82n
C1038
1u
C1101100p
C1065
0.5p
C1057
33p
C1079
1u
C1082
1u
C1077100p
C1060
1u
C1033
100p
C1066
1.5p
C1085
10n
C1056
33n
C1005
33p
C1020
22p
C1097
10n
C1086
4.7n
C1099
100p
C1084
100p
C1110
100p
C103047p
C1089
18n
C1088
1u
C1078
1u
C1022
100n
C1053100p
C1091
1.2n
C1112
220p
C1029100p
C1051100p
C1059
10n
C1006
100n
C1080
100n
C1039
1u
C1095
1u
C1004
DNI
C1081
DNI
C1040
DNI
C1024
DNI
C1049
DNI
C1001
DNI C1031
DNI
C1018
DNI
C1048
DNI
TX_I_M
MSM_BT_TCXO
+VDD_RX0_D
+VDD_RX0_B
GPS_RTR_IN
TX_AGC_ADJ
+VDD_MSMP
+2.1V_TX
PA_R0
TRK_LO_MSM
SRX_PCS_IN
TX_ON
+2.1V_TX_SYNTH
+2.1V_RX0
LOAD_SW_EN
+2.1V_TX_SYNTH
+VDD_TX_A
HDET_CPL
+2.85V_TCXO
+2.85V_TCXO
SRX_DCN_IN
PA_R_OR
+2.1V_RX0
+VDD_RX1_C
+2.1V_RX1
TRK_LO_ADJ
PA_ON1
+VDD_RX1_D
+2.85V_TCXO
+2.1V_RX0
+VDD_RX0_C
+VDD_RX1_A
+2.1V_RX0
+VDD_RX1_B
+2.1V_RX1
PA_ON0
TX_Q_P
+2.6V_MSMP
+VDD_RX0_A
TCXO
+2.1V_RX1+2.6V_MSMP
+VDD_RX1_E
+2.1V_TX
+2.1V_TX
+2.85V_GPS
PA_R0
+VBATT
TX_Q_M
PA_R1
DAC_REF
TX_I_P
R101724
R1036
5.1k
R1020
220
R1003100
R101310
R1023
5.1k
R1030
47k
R1010
510
R1035
47k
R100251
R10062k
R10322.2
R1022
1.5k
R1008
49.9
R1021
560
R1024
12k
R1016
220
R10345.1
R1015
150k
+/-1%
L101312n
L10006.8n
L1011
39n
L10173.9n
L102647n
L10163.9n
L102247n
L1024
DNI
L1025
DNI
+VDD_RX0_D
RX0_I_P
RX1_I_P
+VDD_RX1_B
SRX_PCS_IN
+2.1V_TX_SYNTH
+VDD_RX1_E
GPS_RTR_IN
+VDD_RX1_C
+VDD_RX0_B
TCXO
+VDD_RX1_A+VDD_RX0_A
RX0_I_M
RX0_Q_P
+VDD_MSMP
TRK_LO_ADJ
JDET_INT
SRX_DCN_IN
PCB_THM_ADC
+VDD_TX_A
+VDD_RX0_C
RX1_Q_M
+VDD_RX1_D
RX0_Q_M
RX1_I_M
HDET_CPL
RX1_Q_P
C1106
10u
1608
C1104
10u
1608
C1034
2.2u
1608
C1045
4.7u
1608
R1014
1608
NCP18WD683E03RB
12
R10120
R10310
R10330
R10190
R10250
R10260
R10180
NC7SZ74L8XU1004
1PR
2CLR
3Q
4GND
5Q
6 D
7 CK
8VCC
SSBI1
SSBI0
RTR6500U1009
1TX_OUT_LB_B
2PA_R0
3TX_OUT_LB_A
4VDDTX1
5VDDTX2
6DAC_REF
7TX_QP
8TX_QM
9TX_IP
10TX_IM
11
VDDTX3
12
VDDTX4
13VCO_TUNE_TX
14
VDDTX5
15RBIAS_1
16TX_ON
17CHIPX16
18TXAGC_PDM
19SSBI0
20PULL_UP
21PULL_DOWN
22 VDDM
23SSBI1
24DNC1
25DNC2
26JDET_INT
27
VDDRX1
28VCO_TUNE_SRX
29
VDDRX2
30
VDDRX3
31RX1_IM
32RX1_IP
33RX1_QM
34RX1_QP
35
VDDRX4
36RX_IN_GPS
37
VDDRX5
38
VDDRX6
39RX_IN_LB_1
40RX_IN_HB_1
41DNC
42MIX_INP_LB_0
43MIX_INM_LB_0
44
VDDRX7
45MIX_INP_HB_0
46MIX_INM_HB_0
47
VDDRX8
48
VDDRX9
49LNA_OUT_HB_0
50LNA_OUT_LB_0
51RBIAS_2
52 RX_IN_LB_0
53 RX_IN_HB_0
54
VDDRX10
55RX0_IP
56RX0_IM
57RX0_QP
58RX0_QM
59
VDDRX11
60VCO_TUNE_PRX
61
VDDRX12
62TCXO
63PWR_DET_IN
64
VDDTX6
65TX_OUT_HB_B
66PA_R1
67TX_OUT_HB_A
68
VDDTX7
69
G_SLUG
B9425
F1005
1IN
2
G1
3
G2
4OUT
5
G3
B9640
F1006
1IN
2
G1
3
G2
4OUT
5
G3
R1009
DNI
B9318F1004
D_IN1
GND1
2
GND2
3
P_IN4
GND3
5
P_OUT 6
P_OUT 7
D_OUT 8
D_OUT 9
GND6
10
C1074
DNI
+VDD_MSMP
PA_R_OR
TG-5010LH_19_2M-75AU1003
1VC
2
GND
3OUT
4
VCC
C10471n
C1055
2.2u
1608
C10581n
C1063
100p
C1062
100p
C1061
100p
C1069
100p
TC7SH32FEU1007
1
2
3 GND 4
5Vcc
ANT1003
1
ANT1004
1
C1070
100p
PA_R0
PA_R1
KMS-518U1002
1
A
2
C
34
KMS-518U1000
1
A
2
C
34
C106447p
L1023
56n
+2.1V_RX0
R101151k
+/-1%
ACPM-7353U1008
RFIN_CELL1
VMOD2
VBP3
VCC14
VEN_CELL5
VEN_PCS6
RFIN_PCS7
RFOUT_PCS8
GND19
GND210
VCC211
GND312
GND413
RFOUT_CELL14
G_SLUG
15
LDC151G8820Q-359
U1006
1OUT
2IN
3COU
4TER
LDC15836M20Q-360
U1005
1OUT
2IN
3COU
4TER
ACFM-7103DP1000
1CELL_RX
2PCS_RX
3CELL_TX
4PCS_TX
5ANT_1
6ANT_2
7GPS
8G_SLUG
C1115
0.5p
C1028
100p
C1025
100p
ANT1000
1
ANT1001
1
ANT1002
1
L1029100p
L1003100p
L1030100n
C1116
47p
C1003100p L
1008
8.2n
L100712n
L1010
4.7n
C10671n
C10681n
C10114.7n
C10103.9n
C1026100p
C1027
DNI
L100615n
L10044.7n
L1001
DNI
L1009
0.5p
C1037100p
R1004
0
+/-5%
R1037DNI
C1043
DNI
L10142.2n
L1015
3.9n
C10444.7n
C1002
22n
C1114
1p
L1027
4.7n
C103512p
L1005
DNI
ALM-2412U1001
1RF_IN
2S_D
3GND
4FI
L_OU
T
5VDD
SAFEB1G96KA0F00F1002
1IN
2
G1
3
G2
4OUT
5
G3
SAFEB881MAL0F00F1001
1 IN
2
G1
3
G2
4OUT
5
G3
FSLF-S080HLF1000
1GND1
2COMM
3GND2
4AMPS
5GND
6PCS
SIP4282F1003
1VIN1
VIN22
GND3ON/OFF
4
OUT1 5
OUT2 6
C1015
DNI
C1008
8.2n
C1017
15n
C10096.8p
C1021
1.2p
L1002
5.6n
L10283.9n
L10121n
C103647p
C1041
1p
C1046DNI
[PIN 22]
[RX1 SYNTH]
[PIN 35]
GPS
[PIN 59]
MAIN [DCN+USPCS]
[PIN 48]
TRK_LO D-F/F
[PIN 68][PIN 4,5,11]
DCN TX-BYPASS-OUT
TX POWER DST.
[PIN 30]
USPCS TX-BYPASS-OUT
[PIN 14] [PIN 12]
TCXO(19.2MHz)
[PIN 54]
[PIN 47]
[PIN 37]
[PIN 64]
[PIN 44]
<QCT>
[PIN 61]
TEMP CHECK [PIN 38] [PIN 29]
[PIN 27]
RX POWER DISTRIBUTION
RX for MRD
’09.02.25
H.J.YANG
1 OF 8
Rev.1.0
H.K.LIM
[RX0 SYNTH]
LG-VX11000 MAIN
LGE
Doc.Name Doc.Number SHEET OF
DRAW
DATE
CHKD
APRD
REF
MAN
ISSUE
CONTENT
LG<41>-A-2011.0LGE Proprietary Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
+1.25V_MSMC1
+1.2V_MSMC2
+1.8V_MSME
+1.8V_MSME
+2.6V_MSMP
+2.6V_MSMA
RX0_I_P
RX0_Q_P
RESIN/
SLEEP_CLK
MSM_BT_TCXO
RX1_I_P
RX1_I_M
RX0_Q_M
RX0_I_M
RX1_Q_M
RX1_Q_P
+2.6V_MSMA
+2.6V_MSMP
PCB_VER_ADC
PROXI_AOUT
EAR_MIC+
TMS
MIC_BIAS
TDI
TRST/
TCK
+2.6V_MSMP
DDR_SDRAM_BA[0]
DDR_SDRAM_BA[1]
DDR_SDRAM_CAS/
A1[3]
A1[7]
A1[9]
A1[1]
A1[0]
A1[10]
A1[8]
A1[11]
A1[4]
A1[6]
A1[5]
A1[2]
A1[12]
DDR_SDRAM_CLK[0]
DDR_SDRAM_DQS[3]
DDR_SDRAM_DQM[0]
DDR_SDRAM_DQM[1]
DDR_SDRAM_DQS[1]
DDR_SDRAM_CLK[1]
DDR_SDRAM_DQS[2]
DDR_SDRAM_DQM[3]
DDR_SDRAM_DQS[0]
DDR_SDRAM_DQM[2]
NAND_CS/
TX_I_M
PA_ON0
TX_I_P
TX_ON
TX_AGC_ADJ
DAC_REF
TX_Q_M
PA_R0
TX_Q_P
TRK_LO_MSM
PA_R1
DDR_SDRAM_RAS/
DDR_SDRAM_CKE[0]
DDR_SDRAM_WE/
HPH_R
HPH_L
MIC_BIAS
RTCK
TDO
R2007
10k
R200510k
R20012.2k
C20032.2n
C20000.1u
C2004
DNI
R2003
ICVN0505X150FR
R2002
ICVN0505X150FR
SD_DATA[2]
CAM_DATA[5]
CAM_DATA[6]
USBH_CLK
CAM_DATA[2]
USBH_DATA[5]
BT_MSM_DP_TXD
BT_PCM_SYNC
BT_MSM_DP_CTS/
BT_MSM_DP_RFR/
SD_DATA[3]
USBH_DATA[0]
CAM_DATA[7]
USBH_DATA[4]
BT_PCM_CLK
SD_CMD
CAM_PWR_DOWN
CAM_DATA[0]
CAM_DATA[4]
SD_CLK
CAM_VSYNC
SD_DATA[0]
CAM_PCLK
BT_MSM_DP_RXD
USBH_DATA[6]
CAM_HSYNC
BT_PCM_DOUT
USBH_DIR
USBH_NEXT
USBH_DATA[1]
BATT_ID_CHECK
SD_DATA[1]
USBH_DATA[2]
CAM_DATA[3]
USBH_DATA[7]
BT_PCM_DIN
USBH_STOP
CAM_DATA[1]
USBH_DATA[3]
BATT_MON
VICHGBATT_THM_ADC
ACCESSORY_ADC
PCB_THM_ADC
EAR10_P
EAR10_N
USB_SW_EN/
AUDIO_I2C_SCL
AUDIO_I2C_SDA
BT_WAKE
SSBI1
SSBI0
KEY_SENSE[2]
KEY_SENSE[1]
KEY_DRIVE[7]
KEY_DRIVE[8]
JDET_INT
PROXI_LED_ON
PS_HOLD
SD_LDO_EN
SD_DETECT/
LIN_PWM_FREQ
LIN_PWM_MAG
PMIC_IRQ/
LIN_INVERTER
PA_ON1
3D_INT/
3D_I2C_SCL
3D_I2C_SDA
QWERTY_I2C_SCL
QWERTY_I2C_SDA
SLCDCP_I2C_SCL
SLCDCP_I2C_SDA
PWR_ON_SW/
FOLDER_OPEN
QWERTY_RESET/
USB_DETECT
EARJACK_SENSE
QWERTY_INT/
MLCDCP_I2C_SCL
MLCDCP_I2C_SDA
EAR_KEY/
CAM_RESET/
TOUCH_PENIRQ/
FLASH_EN
FLASH_INHIBIT
MOVIE_MODE_EN
SUBPM_I2C_SDA
SUBPM_I2C_SCL
TOUCH_I2C_SCL
TOUCH_I2C_SDA
MLCDCP_RESET/
SLCDCP_RESET/
SUBPM_EN
ALS_AOUT
LOAD_SW_EN
D1[20]
D1[5]
D1[2]
D1[3]
D1[15]
D1[29]
D1[25]
D1[0]
D1[8]
D1[14]
D1[18]
D1[11]
D1[6]
D1[30]
D1[7]
D1[31]
D1[23]
D1[4]
D1[21]
D1[12]
D1[9]
D1[22]
D1[26]
D1[13]
D1[10]
D1[16]
D1[17]
D1[19]
D1[1]
D1[28]
D1[27]
D1[24]
SUBPM_DVS
C2006
0.1u
C2007
0.1u
C2005
0.1u
C20080.1u
C2009
0.1u
CAM_EXT_PREVIEW
TCXO_EN
AUDIO_RESET/
PMIC_I2C_SDA
PMIC_I2C_SCL
BT_HOST_WAKE
BT_RESET/
USBH_CS
MDDI_D0+
MDDI_D0-
MDDI_STB-
MDDI_STB+
CAM_I2C_SCL
CAM_I2C_SDA
LIN_AMP_SHDN/
CHG_MODE
LCD_MKR_ID
WE2/
OE2/
NAND_INT
NAND_CLK
NAND_READY
EBI1_RESOUT/
DDR_SDRAM_CKE[1]
DDR_SDRAM_CS0/
DDR_SDRAM_CS1/
D2[9]
D2[14]
D2[1]
D2[0]
D2[5]
D2[13]
D2[11]
D2[12]
D2[4]
D2[3]
D2[8]
D2[2]
D2[10]
D2[15]
D2[7]
D2[6]
NAND_AVD/
SPU0410HR5H-PBM2000
3.76X2.95X1.2
POWER1
GND12GND2
3
OUT4
BT_PWR_EN
+3.0V_QFUSE
USBH_RGB_TCXO_EN
A2[15]
A2[10]
A2[5]
A2[4]
A2[3]
A2[1]
A2[8]
A2[2]
A2[14]
A2[9]
A2[11]
A2[13]
A2[7]
A2[12]
A2[6]
A2[16]
RGB_RESET/
C2010
33p
RGB_FSYNC
LCD_RESET/
TDI
TRST/
TCK
RESIN/
JTAG_STD_2COLUMN_10PCON2000
1TCK
2RTCK
3TDO
4TDI
5TMS
6TRST
7VCC
8RESIN
9 PS_HOLD
10GND
PS_HOLD
+2.6V_MSMP
TDO
RTCK
TMS
R2008
DNI
1005
DVS_ARM9_HIGH_CLOCK/
MSM7500A-64T
U2000
AC27EBI2_CS5_N
AC28EBI2_CS4_N
AA24EBI2_CS3_N
Y21EBI2_CS2_N
V21EBI2_CS1_N
Y25EBI2_CS0_N
N4I_OUT_P
P4I_OUT_N
P1Q_OUT_P
P2Q_OUT_N
R4DAC_REF
W8PA_ON0
P7TX_ON
Y8PA_R0
R11TRK_LO_ADJ
R5TX_AGC_ADJ
T5 PA_POWER_CTL_M
T7PA_POWER_CTL
T4GSM_PA_PWR_CTL_REF
G4I_IP_CH0
G5I_IM_CH0
G2Q_IP_CH0
G1Q_IM_CH0
H7I_IP_CH1
J7I_IM_CH1
H5Q_IP_CH1
H4Q_IM_CH1
AB4TCXO
AG8SLEEP_CLK
AG27RESIN_N
AG26RESOUT_N
K25EBI1_RESOUT_N
AC4WDOG_EN
AA7MODE3
AB8MODE2
AD7MODE1
AE7MODE0
AC5TRST_N
AD6TCK
AD4TMS
AB5TDI
AE6TDO
AE5RTCK
R8MPM_GPIO[2]
AE1MPM_GPIO[1]
U11MPM_GPIO[0]
U5 PLL_TEST_SE
AD12 USB_DAT_VP
AB12USB_SE0_VM
AE9USB_OE_INT_N
U4TVOUT
T8TVDAC_R_SET
A7MIC1P
B7MIC1N
D6MIC2P
E6MIC2N
D7AUXIP
E7AUXIN
A5LINE_R_I_P
A6LINE_R_I_N
B5LINE_L_I_P
B6LINE_L_I_N
B8LINE_OP
A8LINE_ON
A9EAR1OP
B9EAR1ON
G8AUX_OUT
E5MICBIAS
E4CCOMP
G9HPH_R
H9HPH_L
G7HPH_VREF
B4HKAIN[2]
F1HKAIN[1]
F2HKAIN[0]
D1TS_LR
D2TS_LL
E1TS_UR
E2TS_UL
C1WIPER
AD13MDDI_P_STB_N
AE13MDDI_P_STB_P
AD14MDDI_P_DATA_N
AE14MDDI_P_DATA_P
AG15MDDI_C_STB_N
AH15MDDI_C_STB_P
AG14MDDI_C_DATA0_N
AH14MDDI_C_DATA0_P
AG13MDDI_C_DATA1_N
AH13MDDI_C_DATA1_P
AB14MDDI_E_STB_N
AA14MDDI_E_STB_P
AA15MDDI_E_DATA_N
AB15MDDI_E_DATA_P
K1
USBH_CLK
J8
GPIO[121]_HSBH_STOP
V12
GPIO[120]_HSBH_NEXT
U7
GPIO[119]_HSBH_DIR
L14
GPIO[118]_HSBH_DATA[7]
L13
GPIO[117]_HSBH_DATA[6]
L12
GPIO[116]_HSBH_DATA[5]
K8
GPIO[115]_HSBH_DATA[4]
K7
GPIO[114]_HSBH_DATA[3]
K5
GPIO[113]_HSBH_DATA[2]
K4
GPIO[112]_HSBH_DATA[1]
M12
GPIO[111]_HSBH_DATA[0]
AB13
GPIO[110]_PA_ON2
AB25
GPIO[109]_SDC4_CLK
V17
GPIO[108]_SDC4_DATA[0]
AB24
GPIO[107]_SDC4_CMD
Y22
GPIO[101]_AUX_RTCK
AH16
GPIO[97]_MDP_VSYNC_P
T11
GPIO[96]_AUX_I2C_SDA
N5
GPIO[95]_BOOT_SCUR
R7
GPIO[94]
AD16
GPIO[93]_SDC2_DATA[0]
V16
GPIO[92]_SDC2_DATA[1]
AE16
GPIO[91]_SDC2_DATA[2]
AB16
GPIO[90]_SDC2_DATA[3]
AG16
GPIO[89]_SDC2_CMD
AA16
GPIO[88]_SDC2_CLK
AD25
GPIO[87]_UART3_TX_DATA
AC25
GPIO[86]_UART3_RX_DATA
AE28
GPIO[85]_UART3_CTS_N
AC24
GPIO[84]_UART3_RFR_N
V18
GPIO[83]_JOYSTICK_C
AH26
GPIO[82]_MDP_VSYNC_S
AG25
GPIO[81]_GRFC[0]
AH25
GPIO[80]_GRFC[1]
AE25
GPIO[79]_GRFC[2]
AD24
GPIO[78]_GRFC[3]
AD23
GPIO[77]_GRFC[4]
AE23
GPIO[76]_GRFC[5]
AD22
GPIO[75]_GRFC[6]
AE24
GPIO[74]_GRFC[7]
AA21
GPIO[73]_GRFC[8]
AH23
GPIO[72]_GRFC[9]
AD2
GPIO[71]_AUX_PCM_CLK
AD1
GPIO[70]_AUX_PCM_SYNC
AA4
GPIO[69]_AUX_PCM_DIN
AA5
GPIO[68]_AUX_PCM_DOUT
V14
GPIO[67]_SDC2_DATA[0]
V15
GPIO[66]_SDC2_DATA[1]
AE12
GPIO[65]_SDC2_DATA[2]
AA13
GPIO[64]_SDC2_DATA[3]
AA12
GPIO[63]_SDC2_CMD
AE11
GPIO[62]_SDC2_CLK
Y7
GPIO[61]_I2C_SDA
V11
GPIO[60]_I2C_SCL
W7
GPIO[59]_SSBI_RTR
V8
GPIO[58]_SSBI_RX
V7
GPIO[57]_SSBI_TX
AB11
GPIO[56]_SDC1_CLK
AE10
GPIO[55]_SDC1_CMD
AD11
GPIO[54]_SDC1_DATA[0]
V13
GPIO[53]_SDC1_DATA[1]
AH8
GPIO[52]_SDC1_DATA[2]
AA11
GPIO[51]_SDC1_DATA[3]
AD9
GPIO[50]_UART2_TX_DATA
AE8
GPIO[49]_UART2_RX_DATA
AH6
GPIO[48]_UART2_CTS_N
AD8
GPIO[47]_UART2_RFR_N
AA9
GPIO[46]_UART1_TX_DATA
AB9
GPIO[45]_UART1_RX_DATA
AG6
GPIO[44]_UART1_CTS_N
AA10
GPIO[43]_UART1_RFR_N
AB22
GPIO[42]_KEYPAD[0]
AG23
GPIO[41]_KEYPAD[1]
AB21
GPIO[40]_KEYPAD[2]
AE22
GPIO[39]_KEYPAD[3]
AD21
GPIO[38]_KEYPAD[4]
AH22
GPIO[37]_KEYPAD[5]
AE21
GPIO[36]_KEYPAD[6]
AG22
GPIO[35]_KEYPAD[7]
AD20
GPIO[34]_KEYPAD[8]
AE20
GPIO[33]_KEYPAD[9]
AA20
GPIO[32]_KEYPAD[10]
AH20
GPIO[31]_KEYPAD[11]
AB19
GPIO[30]_RX_VCO_SEL
AB20
GPIO[29]_SYNTH0
AA19
GPIO[28]_SYNTH1
AE19
GPIO[27]_SYNTH2
AD19
GPIO[26]_SYNTH_LOCK
AB18
GPIO[25]_PS_HOLD
AE18
GPIO[24]_PM_INT_N
AH18
GPIO[23]_UHF_VCO_1_EN
AD18
GPIO[22]_PA_ON1
AG18
GPIO[21]_UART1_DCD
AA18
GPIO[20]_UART1_DTR
AE17
GPIO[19]_UART1_RI
AB17
GPIO[18]_SBST_SEC
AD17
GPIO[17]_SBDT_SEC
AA17
GPIO[16]_SBCK_SEC
N11
GPIO[15]_CAM_MCLK
M11
GPIO[14]_CAM_VSYNC
P11
GPIO[13]_CAM_HSYNC
P5
GPIO[12]_CAM_PCLK
M8
GPIO[11]_CAM_DATA[11]
M7
GPIO[10]_CAM_DATA[10]
L8
GPIO[9]_CAM_DATA[9]
M1
GPIO[8]_CAM_DATA[8]
N8
GPIO[7]_CAM_DATA[7]
L5
GPIO[6]_CAM_DATA[6]
N7
GPIO[5]_CAM_DATA[5]
L7
GPIO[4]_CAM_DATA[4]
M5
GPIO[3]_CAM_DATA[3]
M4
GPIO[2]_CAM_DATA[2]
L4
GPIO[1]_CAM_DATA[1]
M2
GPIO[0]_CAM_DATA[0]
B2VDD_A_1
V2VDD_A_2
V5VDD_A_3
W5VDD_A_4
W2VDD_A_5
H1VDD_A_6
H2VDD_A_7
J2VDD_A_8
J4VDD_A_9
D5VDD_A_10
R2VDD_A_11
U2VDD_A_12
T2VDD_A_13
E8VDD_A_14
E9VDD_A_15
A26EBI1_ADR[27]
B26EBI1_ADR[26]
B27EBI1_ADR[25]
D23EBI1_ADR[24]
E23EBI1_ADR[23]
D24EBI1_ADR[22]
G20EBI1_ADR[21]
E22EBI1_ADR[20]
F24EBI1_ADR[19]
E25EBI1_ADR[18]
L15EBI1_ADR[17]
G21EBI1_ADR[16]
L16EBI1_ADR[15]
J21EBI1_ADR[14]
H20EBI1_ADR[13]
F25EBI1_ADR[12]
L17EBI1_ADR[11]
G24EBI1_ADR[10]
H22EBI1_ADR[9]
G25EBI1_ADR[8]
H24EBI1_ADR[7]
K24EBI1_ADR[6]
H25EBI1_ADR[5]
L21EBI1_ADR[4]
J24EBI1_ADR[3]
K21EBI1_ADR[2]
J22EBI1_ADR[1]
K22EBI1_ADR[0]
G10EBI1_DQ[31]
H10EBI1_DQ[30]
D11EBI1_DQ[29]
E11EBI1_DQ[28]
G11EBI1_DQ[27]
H11EBI1_DQ[26]
G12EBI1_DQ[25]
H12EBI1_DQ[24]
A13EBI1_DQ[23]
B13EBI1_DQ[22]
D13EBI1_DQ[21]
E13EBI1_DQ[20]
A14EBI1_DQ[19]
E14EBI1_DQ[18]
G13EBI1_DQ[17]
H13EBI1_DQ[16]
G14EBI1_DQ[15]
H14EBI1_DQ[14]
H15EBI1_DQ[13]
G15EBI1_DQ[12]
G16EBI1_DQ[11]
E16EBI1_DQ[10]
E17EBI1_DQ[9]
D18EBI1_DQ[8]
E18EBI1_DQ[7]
G17EBI1_DQ[6]
D19EBI1_DQ[5]
H16EBI1_DQ[4]
E19EBI1_DQ[3]
D20EBI1_DQ[2]
G18EBI1_DQ[1]
H17EBI1_DQ[0]
E12EBI1_DQS[3]
B14EBI1_DQS[2]
D16EBI1_DQS[1]
A21EBI1_DQS[0]
D12EBI1_DM[3]
D15EBI1_DM[2]
E15EBI1_DM[1]
B23EBI1_DM[0]
B24EBI1_DCLK
B25EBI1_DCLKB
D14EBI1_MEM_CLK
D22EBI_CS5_N
E20EBI_CS4_N
E21EBI_CS3_N
D21EBI_CS2_N
H19EBI_CS1_N
B21EBI_CS0_N
A23EBI1_CKE1
H18EBI1_CKE0
G19EBI1_RAS_N
J25EBI1_WE_N
L22EBI1_OE_N
D17EBI1_WAIT0_N
B3
VDD_C1_1
B10
VDD_C1_2
B16
VDD_C1_3
B18
VDD_C1_4
B22
VDD_C1_5
J27
VDD_C1_6
L2
VDD_C1_7
M27
VDD_C1_8
Y2
VDD_C1_9
Y27
VDD_C1_10
AG12
VDD_C1_11
AG17
VDD_C1_12
AG20
VDD_C1_13
AG24
VDD_C1_14
AE27
VDD_C1_SENSE
AA2
VDD_C2_1
AC2
VDD_C2_2
AG2
VDD_C2_3
AG4
VDD_C2_4
AG5
VDD_C2_5
AG7
VDD_C2_6
AG10
VDD_C2_7
AG11
VDD_C2_8
AF2
VDD_C2_SENSE
C27
VDD_SMIC_1
L27
VDD_SMIC_2
R27
VDD_SMIC_3
V27
VDD_SMIC_4
AF27
VDD_SMIC_5
D27
VDD_SMIC_6
G27
VDD_SMIC_7
H27
VDD_SMIC_8
K27
VDD_SMIC_9
P27
VDD_SMIC_10
R18
VDD_SMIC_11
W27
VDD_SMIC_12
AB27
VDD_SMIC_13
AD27
VDD_SMIC_14
A25
VDD_P1_1
B11
VDD_P1_2
B12
VDD_P1_3
B15
VDD_P1_4
B17
VDD_P1_5
B19
VDD_P1_6
B20
VDD_P1_7
E27
VDD_P1_8
F27
VDD_P1_9
N27
VDD_P2_1
U27
VDD_P2_2
AA27
VDD_P2_3
AB2
VDD_P3_1
AE2
VDD_P3_2
AG3
VDD_P3_3
AG9
VDD_P3_4
AG19
VDD_P3_5
AG21
VDD_P3_6
N2
VDD_P4_1
E10
VDD_P4_2
K2
VDD_P8
AD15
VDD_MDDI
P8
VDD_QFUSE_PROG
W21
EBI2_ADR[20]
W22
EBI2_ADR[19]
Y24
EBI2_ADR[18]
V22
EBI2_ADR[17]
W24
EBI2_ADR[16]
U21
EBI2_ADR[15]
U18
EBI2_ADR[14]
V25
EBI2_ADR[13]
W25
EBI2_ADR[12]
V24
EBI2_ADR[11]
U22
EBI2_ADR[10]
T22
EBI2_ADR[9]
T21
EBI2_ADR[8]
U24
EBI2_ADR[7]
U25
EBI2_ADR[6]
T18
EBI2_ADR[5]
T25
EBI2_ADR[4]
T28
EBI2_ADR[3]
T24
EBI2_ADR[2]
T27
EBI2_ADR[1]
R21
EBI2_DATA[15]
P25
EBI2_DATA[14]
P18
EBI2_DATA[13]
N25
EBI2_DATA[12]
P21
EBI2_DATA[11]
N21
EBI2_DATA[10]
P24
EBI2_DATA[9] N24
EBI2_DATA[8] N22
EBI2_DATA[7] N18
EBI2_DATA[6] M25
EBI2_DATA[5] M22
EBI2_DATA[4] M24
EBI2_DATA[3] L25
EBI2_DATA[2] M21
EBI2_DATA[1] L24
EBI2_DATA[0] R22
EBI2_LB_N
R24
EBI2_UB_N
R25
EBI2_WE_N
P22
EBI2_OE_N
AA25
EBI2_BUSY0_NAA22
EBI2_CLK
A3GND_1
A4GND_2
A10GND_3
A11GND_4
A12GND_5
A15GND_6
A16GND_7
A17GND_8
A18GND_9
A19GND_10
A20GND_11
A22GND_12
A24GND_13
D10GND_14
D25GND_15
D28GND_16
E24GND_17
E28GND_18
F28GND_19
G22GND_20
G28GND_21
H21GND_22
H28GND_23
J28GND_24
K28GND_25
L1GND_26
L18GND_27
M13GND_28
M14GND_29
M15GND_30
M16
GND_31
M17
GND_32
M18
GND_33
M28
GND_34
N1
GND_35
N12
GND_36
N13
GND_37
N14
GND_38
N15
GND_39
N16
GND_40
N17
GND_41
N28
GND_42
P12
GND_43
P13
GND_44
P14
GND_45
P15
GND_46
P16
GND_47
P17
GND_48
P28
GND_49
R12
GND_50
R13
GND_51
R14
GND_52
R15
GND_53
R16
GND_54
R17
GND_55
T12
GND_56
T13
GND_57
T14
GND_58
T15
GND_59
T16
GND_60
T17
GND_61
U12
GND_62
U13
GND_63
U14
GND_64
U15
GND_65
U16
GND_66
U17GND_67
U28GND_68
W28GND_69
Y1GND_70
Y28GND_71
AA1GND_72
AA8GND_73
AA28GND_74
AB1GND_75
AB7GND_76
AB28GND_77
AC1GND_78
AD5GND_79
AD28GND_80
AE4GND_81
AF1GND_82
AH3GND_83
AH4GND_84
AH5GND_85
AH7GND_86
AH9GND_87
AH10GND_88
AH11GND_89
AH12GND_90
AH17GND_91
AH19GND_92
AH21GND_93
AH24GND_94
C28GND_SMIC_1
L28GND_SMIC_2
R28
GND_SMIC_3
V28
GND_SMIC_4
AF28
GND_SMIC_5
AE15
GND_MDD
C2
GND_VDDA_1C2
V1
GND_VDDA_2V1
V4
GND_VDDA_3V4
W1
GND_VDDA_4W1
W4
GND_VDDA_5W4
Y4
GND_VDDA_6Y4
Y5
GND_VDDA_7
F5
GND_VDDA_8
H8
GND_VDDA_9
J1
GND_VDDA_10
J5
GND_VDDA_11
D4
GND_RET
F4
GND_VDDA2_1
D8
GND_VDDA2_2
D9
GND_VDDA2_3
R1
GND_VDDA2_4
T1
GND_VDDA2_5
U1
GND_VDDA2_6
A1
VSS_THERMAL_1
A2
VSS_THERMAL_2
A27
VSS_THERMAL_3
A28
VSS_THERMAL_4
B1
VSS_THERMAL_5
B28
VSS_THERMAL_6
AG1
VSS_THERMAL_7
AG28
VSS_THERMAL_8
AH1
VSS_THERMAL_9
AH2
VSS_THERMAL_10
AH27
VSS_THERMAL_11
AH28
VSS_THERMAL_12
AB10
RESERVED_1
AD10
RESERVED_2
U8
RESERVED_3
<MIC>
2 8
H.J. YANG
’09.02.25
Rev.1.0
KEY_DRIVE[7]
CAM_HALF
SEND
KEY_DRIVE[8]
CLR
KEY_SENSE[1]
KEY MATRIX
H.K. LIM
KEY_SENSE[2]
CAM_FULL
1.8V GPIO
1.8V GPIO
1.8V GPIO
LG-VX11000 MAIN
<JTAG TP>Varistor for BATT_ID_CHECK
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
+2.6V_MSMP
R30111k
C3027
2.2u
1608
C3029
2.2u
1608
SPK_R-
EAR_KEY/
EARJACK_L
+VBATT
HPH_R
NLAS3158MNR2GU3002
2NC1
11NO1
5 NC2
8 NO2
10 S1
7S2
6GND1
3GND2
12VCC1
9VCC2
4COM2
1COM1
SPK_R+
+2.6V_MSMP
+2.6V_MSMA
+2.6V_MSMA
SPK_L+
LM49250RLX
U3001
MIN+D5
MIN-D4
LIN+E6
LIN-D6
RIN+E5
RIN-F5
BYPASSF6
I2C_VDDC2
I2C_SDAE2
I2C_SCLD2
GND_LSC1
RESET
E3
I2C_ADR
B2
GND1
A2
GND2
F2
VSS_CP
A4
CCP-
B5
CCP+
A5
EP+F4
EP-E4
LLS+B1
LLS- A1
RLS+E1
RLS-F1
HPLC6
HPR B6
GND_HPD3
VO_LDOC5
GND_CPA6
VDD
F3
VDD_LS
D1
VDD_CP
A3
L3D1
B4
L3D2
B3
R3D1
C4
R3D2
C3
C3019
470p
AUDIO_I2C_SCL
R30082.2k
C3013
1u
+2.85V_TCXO
EARJACK_L
C3009
33n
SPK_L-
C3018
4.7u1608
EARJACK_R
R3025
DNI
R3005100k
+/-1%
AUDIO_RESET/
EAR_MIC+
AUDIO_I2C_SDA
EARJACK_R
R3023
15k
EARJACK_SENSE
C3033
2.2u
1608
C3036
0.1u
PCB_VER_ADC
+2.6V_MSMP
HPH_L
R3021
68k
R30072.2k
R30101k
C3021
0.1u
KBN00300HA-A439U3004
F6A0O
C4A1O
D5A2O
C5A3O
E6A4O
D6A5O
C6A6O
E7A7O
C10A8O
B10A9O
D10A10O
F8A11O
C11A12O
B11A13O
D11A14O
E9A15O
V5DQ0O
T6DQ1O
P8DQ2O
P9DQ3O
R9DQ4O
R10DQ5O
T11DQ6O
U11DQ7O
U6DQ8O
R7DQ9O
R8DQ10O
P10DQ11O
T9DQ12O
R11DQ13O
T12DQ14O
U12DQ15O
P11INTO
U3_CEO
N10 _OEO
P7 _WEO
R6RDYO
T5_AVDO
T4CLKO
E8_RPO
N13DM0D
F13DM1D
M4DM2D
J5DM3D
N12DQS0D
F12DQS1D
M5DQS2D
K4DQS3D
C8VCCO1
V3VCCO2
V12VCCO3
T7VCCQO1
T8VCCQO2
T10VCCQO3
U10VCCQO4
B8VSSO1
V2VSSO2
V13VSSO3
U7VSSQO1
U8VSSQO2
V10VSSQO3
V11VSSQO4
R5A0D
R4A1D
T3A2D
R3A3D
E2A4D
D4A5D
F4A6D
E4A7D
E3A8D
D3A9D
P6A10D
E5A11D
K5A12D
L4BA0D
L5BA1D
R12DQ0D
P12DQ1D
P13DQ2D
N11DQ3D
M10DQ4D
M11DQ5D
L10DQ6D
L11DQ7D
H11DQ8D
H10DQ9D
G11DQ10D
G10DQ11D
F11DQ12D
E13DQ13D
E12DQ14D
D13DQ15D
P2DQ16D
P3DQ17D
N2DQ18D
N3DQ19D
P4DQ20D
P5DQ21D
N5DQ22D
N4DQ23D
J4DQ24D
H5DQ25D
H4DQ26D
G5DQ27D
G4DQ28D
F5DQ29D
G2DQ30D
G3DQ31D
F3CKE0D
F2CKE1D
K11CKD
K12_CKD
J13_CS0D
K13_CS1D
J12_RASD
J11_CASD
J10_WED
D2VDDD1
K3VDDD2
T13VDDD3
U2VDDD4
G13VDDQD1
H3VDDQD2
H12VDDQD3
J2VDDQD4
L3VDDQD5
L12VDDQD6
M2VDDQD7
M13VDDQD8
B12
NC1
B13
NC2
B2
NC3
B3
NC4
B4
NC5
B5
NC6
B6
NC7
B7
NC8
B9
NC9
C12
NC10
C13
NC11
C3
NC12
C7
NC13
C9
NC14
D12
NC15
D7
NC16
D8
NC17
D9
NC18
E10
NC19
E11
NC20
F10
NC21
F7
NC22
F9
NC23
R13
NC24
R2
NC25
T2
NC26
U4
NC27
U5
NC28
U9
NC29
V4
NC30
V6
NC31
V7
NC32
V8
NC33
V9
NC34
A1
DNU1
A12
DNU2
A13
DNU3
A14
DNU4
A2
DNU5
A3
DNU6
B1
DNU7
B14
DNU8
C1
DNU9
C14
DNU10
J1
DNU11
J14
DNU12
K1
DNU13
K14
DNU14
L1
DNU15
L14
DNU16
U1
DNU17
U14
DNU18
V1
DNU19
V14
DNU20
W1
DNU21
W12
DNU22
W13
DNU23
W14
DNU24
W2
DNU25
W3
DNU26
C2
VSSD1
K2
VSSD2
K10
VSSD3
U13
VSSD4
G12
VSSQD1
H2
VSSQD2
H13
VSSQD3
J3
VSSQD4
L2
VSSQD5
L13
VSSQD6
M3
VSSQD7
M12
VSSQD8
A2[10]
A2[15]
A2[12]
A2[14]
A2[6]
A2[13]
A2[7]
A2[1]
A2[9]
A2[11]
A2[2]
A2[8]
A2[5]
A2[3]
A2[4]
A2[16]
D2[6]
D2[0]
D2[13]
D2[4]
D2[9]
D2[8]
D2[2]
D2[3]
D2[7]
D2[14]
D2[10]
D2[5]
D2[11]
D2[15]
D2[12]
D2[1]
DDR_SDRAM_DQM[2]
DDR_SDRAM_DQS[2]
DDR_SDRAM_DQS[0]
DDR_SDRAM_DQS[1]
DDR_SDRAM_DQS[3]
NAND_CLK
R30024.7k
DDR_SDRAM_DQM[1]
OE2/
DDR_SDRAM_DQM[0]
WE2/
DDR_SDRAM_DQM[3]
NAND_CS/
NAND_AVD/
NAND_READY
+1.8V_MSME
A1[5]
A1[11]
A1[1]
A1[9]
A1[0]
A1[7]
A1[6]
A1[10]
A1[3]
A1[4]
A1[12]
A1[2]
A1[8]
D1[21]
D1[12]
D1[6]
D1[14]
D1[8]
D1[0]
D1[3]
D1[26]
D1[25]
D1[27]
D1[22]
D1[24]
D1[9]
D1[7]
D1[5]
D1[18]
D1[16]
D1[10]
D1[30]
D1[2]
D1[11]
D1[20]
D1[4]
D1[28]
D1[19]
D1[23]
D1[13]
D1[1]
D1[29]
D1[17]
D1[15]
D1[31]
DDR_SDRAM_BA[1]
DDR_SDRAM_BA[0]
DDR_SDRAM_CLK[1]
DDR_SDRAM_WE/
DDR_SDRAM_CKE[0]
DDR_SDRAM_CS0/
DDR_SDRAM_CS1/
DDR_SDRAM_CKE[1]
DDR_SDRAM_RAS/
DDR_SDRAM_CLK[0]
DDR_SDRAM_CAS/
+1.8V_MSME
C3032
0.1u
+1.8V_MSME
C3034
0.1u
C3035
0.1u
C3008
0.1u
C3031
0.1u
C3030
0.1u
C3028
0.1u
C3023
0.1u
C3002
0.1u
+1.8V_MSME
C3006
0.1u
C3004
0.1u
C3005
0.1u
C3003
0.1u
NAND_INT
C3039
2.2u
C3038
2.2u
C3001
2.2u
C3000
2.2u
EBI1_RESOUT/
C3040
33p
C3041
33p
C3026
33p
C3024
33p
C3022
33p
C3025
33p
KJA-PH-2-0174CON3000
M1
MF
M5
M4
ME
M6
R3024
120k
C3020
4.7u
1608
R3006
100k
+/-1%
10uC3017
+/-20%6.3V
C3012 1u
C3016 1u
C3015 1u
C3014 1u
3 OF 8
<Memory : 4G OneNand + 2G DDR SDRAM><AUDIO SUBSYSTEM>
Rev.1.0
H.J.YANG
H.K.LIM
<STEREO EARJACK>
<PCB Revision Check>
LG-VX11000 MAIN
[C8][V3][V12]
[T7][U10]
[K3][U2][D2] [T13]
[J2][M2][G13][M13
EARJACK_SENSE - PMIC Comparator is out of use - GPIO[17] : no-pull
’09.02.25
D
120
100K
100K
0.457
A8,BB1.2
59
75K
ADCDecimal
B3
25,33
100K
2.230
49
A E
5E,6D
1.221
36K
140
19.1K
Rev.
0.606
BC,CF
100K 74 42,50
100K
R222 ADCRange
9D
100K
15
47K
3B
100K
100k
1D
00,15
1.611
1.1 158
5.6K
100K
0.754
Volt
89
100K
C
R225
8B
0.151
27K
30
51,5D
77
16,24
91,93
2C
B
1.832
180
94,A7
56K
0.911
6E,80
100
E
100K
ADCHEX
0.305
C5
12K
45
100K
64
34,41
2.012
59
180K
240K1.3 197
1.0
100K
1.023
F
130k
C3012,C3015 : 3.9nF->1uFC3014,C3016 : 0.1uF->1uF
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
C4036
10n
+2.6V_CAM_VDDIO
C4049
1u
C4073
10n
C4129
0.1u+2.8V_CAM_VDDA
+1.25V_MSMC1
C4092
10n
C4062
10n
C41242.2u1608
C4133
1u
C4072
10n
C4094
1u
C4038
10u
1608
C4089
1n
C4128
10n
C4084
2.2u
1608
C4055
10u
1608
C4117
10n
R40131.5k
+2.6V_MSMP
C4082
10n
C4100
0.1u
+VBATT
+2.6V_MSMP
C4074
10n
C4132
10n
C4097
1u
+2.4V_RTX
MAX8694
U4001
A1IN3
A2OUT8
A3OUT9
A4OUT10
A5OUT13
A6TCXOIN
A7OUT2
A8IN2
B1OUT7
B2IN5
B3INV2
B4FB13
B5CLKIN
B6OEB
B7TCXOOUT
B8COMP2
B9
GND
C1OUT6
C2INV1
C3ENO14
C4IRQB
C5SIMDAT
C6COMP1
C7RESETB
C8SEO
C9OUT11
D1XIN
D2OUT5
D3I2CDAT
D4I2CCLK
D532KHZ
D6SIMCLK
D7SIMRST
D8DAT
D9
VBUSA
E1XOUT
E2OUT14
E3VCOIN
E4VL
E5RSTIN
E6ENO5
E7IO
E8VCC
E9D-
F1
IN7
F2OUT4
F3ENO6
F4ENO13
F5PWRON
F6VICHG
F7ENO4
F8OUT12
F9D+
G1OUT3
G2IN4
G3ONO_
G4ENO3
G5ENBUCK3
G6BATTMON
G7ENBUFF
G8HFPWR
G9PGND1
H1LX3
H2FB3
H3
REFOUT
H4
CHGINB
H5
BATTB
H6
PWRHOLDH7
FB2
H8FB1
H9LX1
I1PGND3
I2DR1
I3
REFBP
I4
CHGINA
I5
BATTAI6
VBUSB
I7LX2
I8IN1B
I9
IN1A
A9OUT1
C4125
2.2u
1608
C4112
0.1u
R403051
TC7SH04FSU4003
1
2 GND
3 NC 4
5Vcc
C4109
1u
C4126
1u
C4066
10n
+1.8V_MSME
C4051
1u
+1.8V_MSME
RESIN/
PMIC_I2C_SDA
+VBATT
C4085
10n
C4103
2.2u
1608
C4083
0.1u
C4076
1n
C4110
1u
PMIC_I2C_SCL
C4056
10u
1608
C4071
0.1u
C4040
10n
C4096100p
+2.85V_TCXO
+2.6V_MSMP
C4030
0.1u
C4086
2.2u
1608
C4010
10n
C4053
1u
C4118
2.2u
1608
C4016
10n
PWR_ON_SW/
R40141.5k
C4020
10n
C4024
10n
C4019
0.1u
C4026
0.1u
C4023
0.1u
C4014
0.1u
+1.8V_MSME
C4008
220n
R4042
10k
C4058
10u 1608
C4048
1u
PWR_ON_SWC4033
0.1u
+2.6V_MSMA
C4093
1u
+VBATT
C4134
1u
C4116
0.1u
+2.6V_MSMP
+VBATT
+3.0V_LINEAR_MOTOR
C4041
1u
C4101200p
+1.2V_MSMC2
+2.1V_TX
BATT_MON
+1.8V_MSME
C40000.1u
C4018
1n
C4063
10n
C4111
10u
1608
C4034
10n
C413610n
EAR_KEY/
+1.25V_MSMC1
+2.85V_GPS
SUBPM_DVS
C4037
1u
+2.1V_RX0
C407010u
1608
+1.8V_MSME
+2.6V_MSMP
C4045
10n
C4057
10u
1608
C41202.2u1608
+2.4V_RTXC4080
10n
C4091
10n
SUBPM_I2C_SCL
+1.2V_MSMC2
C4079
10n
C4046
1u
C4087
10n
C4068
1n
PMIC_IRQ/
C4059
10n
C4095
1n
+VBATT
C412110u1608
R400410k
R4029
100k
C4098
1u
MIPF2016D2R2L4001
1 2
C4135
33p
+VBATT
C4115
2.2u
1608
SUBPM_I2C_SDA
+1.8V_MSME
C4064
0.1u
C4081
0.1u
PS_HOLD
C4028
1n
C4042
5p
C4122
2.2u
1608
+1.8V_MSME
C4067
0.1u
C4069
0.1u
+VBATT
C4065
10u
1608
+1.25V_MSMC1
MSM_BT_TCXO
C4043
10n
MSM_BT_TCXO_EN
C4127
0.1u
C4061
0.1u
C4015
1n
C4012
1n
C4025
1n
+2.6V_MSMP
TP4001
VICHG
C4031
10n
+2.1V_RX1
C4021
1n
C4011
1n
R40052.2k
C4017
1n
R40062.2k
C4039
10n
C4027
10n
C4131
0.1u
C4009
0.1u
+2.6V_MSMP
C4113
4.7u
1608
C4007
0.1u
EAR_MIC+
C4001
0.1u
C4005
0.1u
CM315_12_5PFU4000
1 2
+2.6V_MSMA
TP4000
C4090
1u
SUBPM_EN
+1.8V_CAM_VDD
C40134.7u1608
C4050
10u1608
C41042.2u1608
+1.2V_MSMC2
C4077
100n
C4105
2.2u 1608
C4114
100p
C4119
10n
R4008
DNI
SLEEP_CLK
C4075
0.1u
C4022
1n
+2.85V_TCXO
+5.0V_USB
R40310
TCXO
C4123
0.1u
+5.0V_USB
LP8720TLX
U4002
A1LDO3
A2
VIN1
A3LDO2
A4
VBATT
B1
GND
B2
DEFSEL
B3 IRQ_N
B4LDO1
C1LDO4
C2IDSEL
C3SCL
C4SDA
D1
VIN2
D2FB
D3DVS
D4GNDB
E1LDO5
E2EN
E3SW
E4VINB
C4099
2.2u
1608
C4078
0.1u
C4054
10n
+2.8V_LCD
+2.8V_CAM_LVDD
C4088
0.1u
R401510k
C4102200p
TP4004
C4106
2.2u
C4108
1u
C4137
1u
TP4005
C4138
10n
+1.25V_MSMC1
+1.25V_MSMC1C4004
10u
1608
C4002
10u
1608
C4003
0.1u
+1.2V_MSMC2
CPI2016NHL2R2ML4000
1 2
C4052
5p
+1.8V_TCXO_BUFF
USBH_TCXO
C4060
27p
+3.0V_QFUSE
+1.8V_MSME+1.5V_RGB
+1.8V_TCXO_BUFF
+2.85V_PROXI
L4004100n
C4139
47p
USBH_RGB_TCXO_EN
C4107
10n
C400610n
RGB_TCXO
R40320
TP4002
+2.6V_TOUCH
+1.8V_MSME
R405010k
NLAS5223BMNR2GU4005
1VCC
2NO1
3 COM1
4 IN1
5NC1
6 GND
7NC2
8 IN2
9 COM2
10NO2
+2.6V_MSMP
C4140
0.1u
CPI2016NHL2R2ML4002
1 2
CPI2016NHL2R2ML4003
1 2
R4049
51
C4141
DNI
1005
C4035
51
R4020
200k+/-1%
R4024
DNI
R4025
330k
+/-1%
C4032
0.1u
R4012
1k
R4023
470k
+/-1%
R4010100k+/-1%
MSM_BT_TCXO_EN
C4047
27p
C4044
27p
DVS_ARM9_HIGH_CLOCK/
R4019
120k+/-1%
R4017
91k+/-1%
SG310-SEFU40061
ST
2
GND
3
OUT
4
VDD
R4016180k
+/-1%
R4053510k
+/-1%
R4052300k
+/-1%
R4022
100k+/-1%
R4021
100k+/-1%
R4051510k
+/-1%
4 OF 8
[B19]
[AB27]
[AG11]
[AG12]
[AG2]
Rev.1.0[V27]
[A28]
[AA2]
[E9]
[AC2]
[C27]
[AG9][B2]
[E10]
[AG21]
[P27]
[E27]
[AF27]
H.K.LIM
[E8][AB2]
[AF27]
[U27][AG5]
[B10]
[Y27]
[AG10]
[AD27][J27]
[B12][AE2][AH1]
[L27]
[B3]
[M27]
[G27]
[AA27]
[R27]
[AD15]
[A1][AG3]
[B17]
[B22]
[L2]
H.J.YANG
[N27]
[AG19]
[AG24]
[B15]
[T2][D5]
[AG4]
[B20]
[V2,5] [U2][J2,4]
[K27]
[AG17]
[A25]
[Y2]
[B11]
[AH28]
[F27]
[D27] [W27]
[A28]
[AG20][B18]
[W2,5]
[AG7]
[H27]
[H1,2]
[K2]
[N2]
LG-VX11000 MAIN
[AH28]
[AH1]
[B16]
TCXO for MSM / BT
TCXO for USBH Tranceiver
TCXO for RGB Converter
Dynamic Voltage Scaling for ARM9
’09.02.25
DVS_ARM9_HIGH_CLOCK/ HIGH HIGH LOW
MSM_BT_TCXO_EN
Normal TurboSleep
LOW HIGH HIGH
+VBATT Deleted
DVS for ARM9
SWITCH 1 Status Open Open GND
Open GND GNDSWITCH 2 Status
R4021:220k->100kR4022:240k->100kR4051:820k->510k
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
C5030
33n
+2.6V_MSMA
KEY_LED_EN
MLED3
R5003470k
U5000BD6088GUL
VBATCPB6
VBAT1F4
VIOF5
RESETBB3
SCLD3
SDAE4
WPWMINC4
OUTCNTC3
SBIASE1
SSENSF2
GC1E2
GC2E3
SGNDF3
T1
A1
T2
A6
T4
F1
T3
F6
GND1
A3
VOUT D6
LED1 A2
LED2 B1
LED3 B2
LED4 C2
LED5 D1
LED6 D2
LEDGND C1
KBLT B4
OUT1 D4
OUT2 E5
OUT3 D5
OUT4 E6
C1N
A4
C1P
C5
C2N
B5
C2P
C6
CPGND
A5
USBH_DATA[1]
+2.6V_MSMP
R5008
47k
R5017
12k
C5014
47p
C5028
100n
LEWWS44PA
LED5003
1 +2 -
BATT_THM_ADC+VBATT
USBH_DATA[4]
C5020
1u
1608
U5005BD6088GUL
VBATCPB6
VBAT1F4
VIOF5
RESETBB3
SCLD3
SDAE4
WPWMINC4
OUTCNTC3
SBIASE1
SSENSF2
GC1E2
GC2E3
SGNDF3
T1
A1
T2
A6
T4
F1
T3
F6
GND1
A3
VOUT D6
LED1 A2
LED2 B1
LED3 B2
LED4 C2
LED5 D1
LED6 D2
LEDGND C1
KBLT B4
OUT1 D4
OUT2 E5
OUT3 D5
OUT4 E6
C1N
A4
C1P
C5
C2N
B5
C2P
C6
CPGND
A5
MLED5
USB20_D-
SLCDCP_I2C_SCLTP5000
+1.8V_MSME
C501210u1608
ALS_AOUT
C5022
4.7u
1608
USBH_STOP
+VBATT
ISP1508AET
U5004
TESTC4
VCC_IO1B5
VCC_IO2B2
RREFC2
DMC1
DPD1
FAULTE2
IDD3
CFG2B3
CFG1B4
PSW_ND4
VBUSF4
REG3V3E3
XTAL1F5
XTAL2F6
GND1
C5
GND2
D2
GND3
E4
CHIP_SELC3
CLOCKA4
DATA0B1
DATA1 A1
DATA2A2
DATA3A3
DATA4A5
DATA5 A6
DATA6B6
DATA7C6
NXTD5
STPD6
DIRE5
CFG0E1
REF1V8E6
NC1
F1
NC2
F2
VCC
F3
MLED1
C5018
1u
EXT_KEY_LED_EN
SLCDCP_RESET/
C5003
1u
1608
USB20_D+
USBH_TCXO
C5021
1u
1608
USB20_D+
+2.6V_MSMPR50042.2k
+VBATT
33uC5013
TCTAL1A336M8R
3216
R5007
ICVL0505101V150FR
SLED6
VICHG
KTK5132E
Q5001
1S
2G
3D
SD12T1G
D5003
1 -2 +
+5.0V_USB
LEWWS44PA
LED5001
1 +2 -
+2.6V_MSMP
C500110u1608
PWR_ON_SW
R5002150k
MLCDCP_RESET/
+VBATT
SLED1
MLCDCP_I2C_SCL
SDB1040
D5000
12
+MLCD_VLED
SLCDCP_I2C_SDA
CHG_MODE
R5025
ICVL0505101V150FR
KEY_LED_EN
+2.6V_MSMP
USB_DETECT
C5016
100n
USBH_CS
BATT_ID_CHECK
MLED2
D5001
RCLAMP0521P_TCT
TP5002
MLED6
SLCD_PWM
R5019
47k
R5021 4.7k
+/-1%
SLED2
C5031
4.7u
1608
USB_TP_SEL
R5023
470k
+/-1%
LEWWS44PA
LED5004
1 +2 -
TPCF8102Q5003
1DRAIN1
2DRAIN2
3DRAIN3
4GATE5
SOURCE
6DRAIN4
7DRAIN5
8DRAIN6
R5006200k
+/-1%
USBH_NEXT
R5011
330
+2.6V_MSMP
R502080.6k+/-1%
MLCDCP_I2C_SDAR50182.2k
R5012DNI
UART-TPU5002
1GND
2UART-RXD
3UART-TXD
4V_CHAR
5ON_SW
6VBATT
7USB-POWER
8USB_D-
9USB_D+
10NC1
11NC2
12NC3
C5002
1u
1608
USBH_DIR
+VBATT
USBH_DATA[2]
USBH_DATA[7]
USBH_CLK
USBH_DATA[3]
KEY_LED_EN
SLED4
R5013
330
C5000100n
+SLCD_VLED
R501010k
ACCESSORY_ADC
C5029
100n
USBH_DATA[6]C5011
33n
R50162.2k
+VBATT
+2.6V_MSMA
USBH_DATA[5]
+VBATT
HSBC-4PT25-17CON5001
1
2
3
45DUMMY1
6DUMMY2
7DUMMY3
SLED5
USB20_D-
R5014
330
MLED4
USB_SW_EN/
+2.6V_MSMP
C5015
1u
D5002
RCLAMP0521P_TCT
NFM18PC104R1C3F5001
1INPUT
2
GND1
3OUTPUT
4
GND2
C5024
100n
LEWWS44PA
LED5002
1 +2 -
SLED3
KTC4075EQ5000
1 E
3 C
2B
+5.0V_USB
R50012.2k
R5009
330
KRX102U
Q5002
1
2
3 4
5
MLCD_PWM
USBH_DATA[0]
C5006
0.1u
TP5004
TP5003
C5004
10u1608 C5005
10u1608
+5.0V_USB
R5028150k
USB_TP_SELR5024
200k
+5.0V_USB
+1.8V_MSME
R502910k
R50300
C5007
DNI
1608
R5022
ICVL0505101V150FR
R5026
0
R5027
0
DG2722
U5001
1D+
2D-
3GND
4HSD2-
5HSD2+
6HSD1-
7HSD1+
8_OE
9V+
10S
R50151k
GU073-5P-SD-E1500CON5000
1P1
2P2
3P3
4P4
5P5
6GND1
7GND2
8GND3
9GND4
10
GND5
11
GND6
Rev.1.0
<UART TP>
THM/
H.K.LIM
5 OF 8
H.J.YANG<Battery Contact>
ID
<Main LCD B/L><Sub LCD B/L>
<Micro USB Connector>
-
<High Speed USB Transceiver>
+
<Main Key LED B/L>
LG-VX11000 MAIN
USB_D-
USB_D+
USB_D+
USB_D-
’09.02.25
Part Changed5.6V 10pF ==> 5.6V 100pF
Part ChangedOn-Semi ==> Vishay
GU070-5P-SD-E1500-> GU073-5P-SD-E1500
DUMMY
DUMMY
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
MLED3
CAM_OSC_MCLK
CAM_I2C_SDA
EAR10_P
C6002
30p
CON6000AXK7L34227G
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17 18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
G_DUMMY
36 37 38
FLASH_INHIBIT
C6016
33p
R6000
2.2k
C6009
1u
SLED2
ICVE10184E070R100FR
F6001
1IN1
2IN2
3IN3
4IN4
5
GND
6OUT4
7OUT3
8OUT2
9OUT1
10
TOUCH_X-
KEY_DRIVE[7]
CAM_VSYNC
CAM_DATA[6]
C6034
1u
RGB_DCLK
LCD_MKR_ID
C6000
30p
L6000HB-1M1005-601JT
LCD_SDO
C6012
33p
EAR10_N
C6006
1u
+1.8V_CAM_VDD
LCD_SCL
SLED3
C6007
33p
ICVE10184E070R100FR
F6000
1IN1
2IN2
3IN3
4IN4
5
GND
6OUT4
7OUT3
8OUT2
9OUT1
10
CAM_DATA[2]
C6058
15p
C6017
33p
C6046
33p
MLCD_PWM
+2.8V_CAM_VDDA
MLED2
MOVIE_MODE_EN
R601210
CAM_OSC_MCLK
+2.8V_CAM_LVDD
SLED4
C6055
33p
CAM_DATA[7]
MLED1
C6014
33p
+2.85V_PROXI
SPK_R+
ICVE10184E070R100FR
F6010
1IN1
2IN2
3IN3
4IN4
5
GND
6OUT4
7OUT3
8OUT2
9OUT1
10
C6035
2.2u
SPK_L-
R600422
SLED6
C6045
33p
CAM_DATA[4]
C6043
33p
C6044
33p
+2.8V_LCD
TOUCH_X+
ALS_AOUT
MLED5
C6056
33p
SG-8002CE-SCB_36MU6000
1
ST
2
GND
3
OUT
4
VDD
EXT_ON_SW
C6036
2.2u
C6054
33p
KEY_SENSE[1]
C6040
1u
LCD_RESET/
C6057
33p
C6004
100n
CAM_PWR_DOWN
SLED5
CAM_DATA[3]
C6037
30p
SPK_L+
MLCD_CS/
C6015
33p
+VBATT
R6001
2.2k
C6001
30p
C6019
33p
SLED1
+VBATT
+MLCD_VLED
+2.6V_CAM_VDDIO
R601110
TOUCH_Y-
CAM_DATA[5]
RGB_VSYNC
PROXI_AOUT
RGB_HSYNC
+1.8V_MSMEKEY_SENSE[2]
MIP2520D2R2ML6002
1 2
CAM_DATA[0]
CON6002AXT310164
1
2
3
4
5 6
7
8
9
10
11 12 13 14
C6059
15p
C6050
33p
MLED4
C6038
30p
R6007
100k
SLCD_PWM
C6018
33p
EXT_KEY_LED_EN
SLCD_CS/
AAT1270IFO-T1U6002
CT1
EN/SET2
FLEN3
AGND4
IN5
LX6
PGND7
OUT8
GND9
FLINH10
FLOUTB11
FLGND12
FLOUTA13
RSET14
G_SLUG
15
TOUCH_Y+
AXT580124
CON6001
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40 41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
81 8382 84
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
PROXI_LED_ON
CAM_DATA[1]
L600182n
CAM_PCLK
CAM_RESET/
MLED6
+2.8V_CAM_VDDA
SPK_R-
R6003
1k
CAM_I2C_SCL
R6006
100k
RGB_DATA_EN
C6039
1u
C6003
30p
CAM_HSYNC
+2.6V_CAM_VDDIOFLASH_EN
+SLCD_VLED
C6028
33p
0603
C6025
33p
0603
C6024
33p
0603
C6023
33p
0603
C6022
33p
0603
C6026
33p
0603
C6021
33p
0603
C6020
33p
0603
C6013
33p
0603
C6011
33p
0603
C6010
33p
0603
C6008
33p
0603
C6041
0.1u
C6027
0.1u
C6030
33p
0603
C6033
0.1u
C6049
0.1u
C6048
0.1u
C6062
33p
0603
C6061
33p
0603
C6042
33p
0603
C6032
33p
0603
C6031
33p
0603
RGB_R[6]
RGB_B[2]
RGB_B[4]
RGB_R[0]
RGB_G[0]
RGB_G[6]
RGB_G[4]
RGB_R[2]
RGB_R[4]
RGB_B[6]
RGB_B[0]
RGB_G[2]
RGB_G[1]
RGB_B[3]
RGB_B[5]RGB_B[7]
RGB_R[3]
RGB_G[5]
RGB_R[7]
RGB_R[1]
RGB_G[7]
RGB_R[5]
RGB_G[3]
RGB_B[1]
SLCD_SDIMLCD_SDI
C6060
30p
R601318
C6005
27p
ICVE10184E150R101FR
F6002
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
ICVE10184E150R101FR
F6003
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
ICVE10184E150R101FR
F6007
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
ICVE10184E150R101FRF6008
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
ICVE10184E150R101FRF6006
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
ICVE10184E150R101FR
F6005
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
ICVE10184E150R101FRF6009
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
R6014470
R6015470
R6016470
C6051
100p
C6053
100p
C6052
100p
R600247n
R6008
180k
+/-1%
ICVE10184E150R500FR
F6004
1IN1
2IN2
3IN3
4IN4
5
GND
6 OUT4
7 OUT3
8 OUT2
9 OUT1
10
6 OF 8
H.J.YANG
Rev.1.0
H.K.LIM
LG-VX11000 MAIN
<36MHz Clock>
<FLASH LED DRIVER><34pin Camera Connector>
<80pin LCD Connector>
’09.02.25
ICVE10184E150R101FR : 100ohm, 15pF-> ICVE10184E150R500FR : 50ohm, 15pF
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
R7014100k
R7009100k
R7000
1.2k
R7002
1.2k
R7016
4.7k
R7015
4.7k
TOUCH_Y-
TOUCH_Y+
TOUCH_I2C_SCL
LIN_PWM_FREQ
+2.6V_TOUCH
LIN_INVERTER
TOUCH_X+
+2.6V_TOUCHTOUCH_X-
LIN_PWM_MAG
+2.6V_MSMP
3D_I2C_SCL
+2.6V_MSMP
C70092.2n
C7006
0.1u
C7002
1u
C7010
1u
C70082.2n
C7003
100n
C7001
22n
C7000
1u
TPA6205A1ZQVRU7005
Vo-A1
SHUTDOWNB1
BYPASSC1
VDDA3
Vo+B3
IN-C3
IN+C2
GND B2
TOUCH_PENIRQ/
3D_INT/
TSC2007IYZGRU7004
A1 AUX
A2 VDD_REF
A3 X+
B1
PENI
RQ-
B2A0
B3Y+
C1SDA
C2A1
C3X-
D2
GND
D3
Y-
D1
SCL
TC7SZ86FUU7002
1
2
3 GND 4
5Vcc
TC7SZ86FUU7000
1
2
3 GND 4
5Vcc
BMA150U7003
1NC1
2VDD
3GND
4INT
5CSB
6SCK
7SDO
8SDI
9VDDIO
10NC2
11
G_SL
UG1
12
G_SL
UG2
24-8005-002-100-867CON7000
1
2
BT_PCM_DIN
BT_PCM_CLK
BT_PCM_DOUT
MSM_BT_TCXO
SLEEP_CLK
+2.6V_MSMP
BT_HOST_WAKE
BCM2046B1U7008
J3RES
C1RFIOP
E1RFION
D1RFTUNE
J2VCTRIFP
J5XTALP
J4XTALN
A5LPOIN
A9SCL_TX_PU_TDD_N
A8SDA_TX_PU_TDD
H7GPIO7_TX_PU_TDDN_TX_PU_TDD_USB
H8PA_CTL_GPIO6_TX_PU_TDD_TX_PU_T
G9XTAL_PD_GPIO5_TX_PU_TDD_TX_PU_
F9RF_ACTIVE_GPIO4
E9BT_PRIORITY_STATUS_GPIO3
A6TX_CONFX_WLAN_ACTIVITY_GPIO2
B6HOST_WAKE_USB_DETACH_GPIO_1
B5BT_WAKE_GPIO_0
B4RST_N
H5TM2
H6TM1
J6TM0
D4TST1
F8PCM_CLK_SCK
E8PCM_IN_SPDIF_IF_SD_IN
D9PCM_OUT_SPDIF_OUT_SD_OUT
D8PCM_SYNC_TX_PU_TDD
C8UART_CTS_N
C9UART_RTS_N
B9UART_RXD
B8UART_TXD
J8HUSB_DN
J7HUSB_DP
A7
VDDC1
B7
VDDC2
H9
VDDO1
J9
VDDO2
G8
VDDO_USB
A4
VDDR3V
C2
VSS1
D2
VSS2
D5
VSS3
D6
VSS4
E2
VSS5
E4
VSS6
E5
VSS7
E6
VSS8
F1
VSS9
F2
VSS10
F4
VSS11
F5
VSS12
F6
VSS13
H2
VSS14
H3
VSS15
B3
VREG_CTL
A3
VREG1
A2
VREG2_VBAT
H1
VDDVCO
A1
VDDIF
H4
VDDXO
G2
VDDPLL
B1
VDDTF
G1
VDDLO
J1
VDDIFP
B2
VDDRF
BT_PCM_SYNC
R7023
150k
+/-1%
BT_RESET/
LFB212G45SG8A166F7000
1
G1
2OUT
3
G2
4 IN
BT_WAKE
C7024
2.2u
C7022
2.2u
C7025
100n
+2.6V_MSMP
C7021
100n
3D_I2C_SDA
TOUCH_I2C_SDA
C7032
0.1u
+3.0V_LINEAR_MOTOR
TP7008
TP7009
TP7010
TP7011
TP7012
BT_MSM_DP_TXD
BT_MSM_DP_CTS/BT_MSM_DP_RFR/
BT_MSM_DP_RXD
TCXO_ENMSM_BT_TCXO_EN
+2.4V_RTX
R7036DNI
1005
R7037
0
LIN_AMP_SHDN/
C7026
2.2u
C7027
2.2u
L7002HB-1M1005-601JT
C7023
470p
1608
+/-5%
+2.6V_BT
C703327p
RGB_B[7]
C7034
0.1u
RGB_VSYNC
RGB_R[4]
C7031
0.1u
RGB_G[4]
RGB_FSYNC
MDDI_STB-
RGB_B[4]
C7036
0.1u
C7017
2.2u
RGB_R[1]
SLCD_CS/
RGB_G[0]
RGB_DCLK
RGB_R[6]
RGB_G[6]
RGB_RESET/
RGB_B[6]
RGB_R[3]
C7015
2.2u
RGB_G[3]
MDDI_STB+
R7003
100+/-1%
RGB_B[3]
R7008
100+/-1%
RGB_R[0]
+2.6V_MSMP
MLCD_CS/
MDDI_D0+
LCD_SDO
TP7001
RGB_B[1]
RGB_R[5]
RGB_HSYNC
RGB_G[5]
RGB_TCXO
S1D13775B00B60LU7001
B1 GPIOH0
C7 GPIOH1
C6 GPIOH2
A6 GPIOH3
B6 GPIOH4
C5 GPIOH5
A5 GPIOH6
B5 GPIOH7
B4 GPIOH8
B3 GPIOH9
A4 GPIOH10
C3 GPIOH11
D1 GPIOH12
B2 GPIOH13
A3 GPIOH14
A2 GPIOH15
A7 GPIOH16_ADS
C1 GPIOH17_RD_
D2 GPIOH18_WR_
C2 GPIOH19_CS_
F11 MDATA0P
F10 MDATA0M
D11 MSTBP
D10MSTBM
C9INT
G3RESET_
B8TE
E3CNF
E2TESTEN
B10PLP
A9PLPAV
E9MDREF
A8CLKI
C10OSCI
B11OSCO
K11FPDAT0
J11FPDAT1
J9FPDAT2
J10FPDAT3
L10FPDAT4
K10FPDAT5
L9FPDAT6
L8FPDAT7
K8FPDAT8
K9FPDAT9
K7FPDAT10
L7FPDAT11
J8FPDAT12
J7FPDAT13
L6FPDAT14
K6FPDAT15
L5FPDAT16
K5FPDAT17
J2GPIOP0_FPDAT18
J1GPIOP1_FPDAT19
L3GPIOP2_FPDAT20
J5GPIOP3_FPDAT21
L4GPIOP4_FPDAT22
K4GPIOP5_FPDAT23
J4GPIOP12
H1GPIOP13
G2GPIOP14
H3GPIOP15
G11FPFRAME
H11FPLINE
H10FPSHIFT
G10FPDRDY
L2FPCS_1
H2FPCS_2
K3FPSCK
K1FPA0
K2FPSO
L1NC
C4
COREVDD1
G9
COREVDD2
B7
HIOVDD1
D3
HIOVDD2
H9
PIOVDD1
J3
PIOVDD2
F2
DRAMVDD
G1
DRAMVCC
E11
MD18VDD
E10
MD15VDD
A10
PLLVDD
C11
OSCVDD
A1
VSS1
A11
VSS2
C8
VSS3
F3
VSS4
F9
VSS5
J6
VSS6
L11
VSS7
E1
DRAMVSS1
F1
DRAMVSS2
D9
MDVSS
B9
PLLVSS
RGB_B[5]
+1.8V_MSME
RGB_R[2]
C7030
0.1u
MDDI_D0-
RGB_G[2]
R70123.3k
C70184.7n
C7029
0.1u
RGB_B[2]
RGB_DATA_EN
C7035
0.1u
RGB_G[1]
C7016
2.2u
LCD_SCL
RGB_R[7]
C702810n
+1.5V_RGB
+2.6V_MSMP
RGB_B[0]
TP7000
RGB_G[7]
C7037
0.1u
R7038
10k
SLCD_SDI
MLCD_SDI
C7019100p
C7020100p
R7004
100k
R7005100k
+VBATT +2.6V_BTBT_PWR_EN
RP104K261D
F7001
1VOUT
2GND
3CE_NC
4VDD
5
G_SLUG
C7038
33p
C7039
33p
R701782n
R700182n
R7018
10k
ANT7000ACS2450HBAKU25
1
2GND13 GND2
R70400
C7007
2.2u
C7014
2.2u
R7035
DNI
C7011
1p
C7013
1.2p
C70121.2n
<Touch Driver> <Linear Motor>
<3D Accelation Sensor>
<Bluetooth Module>
7 OF 8
H.J.YANG
Rev.1.0
H.K.LIM
LG-VX11000 MAIN
<RGB Converter>
RGB_CNF : "L" - MDDI Mode "H" - Indirect Mode
[J1][B1]
Using Internal Regulator
’09.02.25
"1" Ohm Deleted
C7011 : DNI->1pFC7012 : 100pF->1.2nHC7013 : 2.2pF->1.2pF
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
DOWN
HOLD
R8009
ICVL0518050FR
R80010
C8022
100p
R8027DNI
COM
QWERTY_RESET/
R8003
ICVL0518050FR
KEY_SENSE[1]
C80201u
R80291k
C8015
100p
0603
R8008
300k
+/-1%
C8013
100p
0603
SD_DATA[2]
DOWN
SD_DATA[1]
+3.0V_SD
R8018 470 0603
R8022470
0603
R8020470
0603
R8023470
0603
R8026470
0603
QWERTY_INT/
C8005
100p
0603
R8041 100
C8002 0.1u
C8001 0.1u
R80280
R8040 100
C8021
1u
C8008
100p
0603
C8007
100p
0603
C8010
100p
0603
R8014 470 0603
C8012
100p
0603
FOLDER_OPEN
R8043 100
SD_DETECT/
SD_CMD
+2.6V_MSMP
RP101K302D
F8000
1VOUT
2GND
3CE
4VDD
5
G_SLUG
+VBATT
+2.6V_MSMP
UP
R803068k
R8010
ICVL0518050FR
SD_CLK
PWR_ON_SW
C8016
100p
0603
R80023.3k
FOLDER_OPEN
R8007
ICVL0518050FR
HOLD
EXT_ON_SW
R80113.3k
+2.6V_MSMP
U8000PP2106M2
1TEST
2SEL_28P
3P57
4P56
5P55
6P17
7P15
8GND1
9P54
10
P53
11
P52
12
P51
13
P50
14
P47
15P46
16P45
17P44
18P43
19P42
20P41
21P40
22
P10
23
VDD
24
CLK_SEL
25
XO
26
XI
27
RESETB
28
GND2
29
GND_
SLUG
QWERTY_I2C_SDA
NLAS4157DFT2GU8001
1B1
2GND
3B0
4A
5VCC
6S
R8005
ICVL0518050FR
C8006
100p
0603
C8011
100p
0603
SD_DATA[3]
R8012 470 0603
R8013 470 0603
+VBATT
EM-0781-T5U8002
1VCC
2OUT
3NC GND
R8016 470 0603
R8017 470 0603
R8019470
0603
R8021470
0603
R8024470
0603
CAM_EXT_PREVIEW
R8025470
0603
+2.6V_MSMP
R8015 470 0603
+2.6V_MSMP
COM
C8023
33p
SD_DATA[0]
+VBATT
C8009
100p
0603
C8017
100p
0603
C8019
100p
0603
KTC4075E
Q80001 E
3 C
2B
SDB0530D8000
1ANODE
2
QWERTY_I2C_SCL
KEY_SENSE[2]
C8018
100p
0603
R8006
ICVL0518050FR
R8004
ICVL0518050FR
UP
SD_LDO_EN
C8014
100p
0603
KEY_DRIVE[8]
R803310k
+3.0V_SD
SW8022
12
SW8038
1 2
SW8046
1 2
SW8039
1 2
SW8047
1 2
SW8007
1 2
SW8015
1 2
SW8001
1 2
SW8024
1 2
SW8000
1 2
SW8023
1 2
SW8008
1 2
SW8031
1 2
SW8014
1 2
SW8025
1 2
SW8020
1 2
SW8042
1 2
SW8012
1 2
SW8052
1 2
SW8028
1 2
SW8027
1 2
SW8011
1 2
SW8044
1 2
SW8006
1 2
SW8018
1 2
SW8005
1 2
SW8053
1 2
SW8021
1 2
SW8048
1 2
SW8032
1 2
SW8033
1 2
SW8051
1 2
SW8034
1 2
SW8010
1 2
SW8050
1 2
SW8041
1 2
SW8040
1 2
SW8036
1 2
SW8026
1 2
SW8017
1 2
SW8029
1 2
SW8013
1 2
SW8043
1 2
SW8004
1 2
SW8003
1 2
SW8019
1 2
SW8035
1 2
SW8037
1 2
SW8045
1 2
SIDEKEY_9PIN_MAINCON8002
1
2
3
4
5
6
7
8
9
SW8030
1 2
SW8002
1 2
SW8009
1 2
SW8016
1 2
SW8049
1 2
C8003
2.2u
1608
R8036
ICVS0505500FR
R8037
ICVS0505500FR
R8038
ICVS0505500FR
R8039
ICVS0505500FR
R8035
ICVS0505500FR
R8031
ICVS0505500FR
R8034
ICVS0505500FR
C8000
2.2u
C8004
2.2u
+2.6V_MSMP R8042
120k
SCHA5B0201CON8000
1P1
2P2
3P3
4P4
5P5
6P6
7P7
8P8
SWDETECT_SW
COMCOMMON
9DU
MMY1
10
DUMM
Y2
11
DUMM
Y312
DUMM
Y4
13
DUMM
Y514
DUMM
Y6
8 OF 8
H.J.YANG
Rev.1.0
H.K.LIM
8 0
OK
EXT_ON_KEY Status
C
G
-
Row 1
DOT
On("H")
U
5
col 4 V
9
SOFT1
MSM PU - Initial Value "H" - Normal Operation "L" - CAM Ext. Preview "H"
col 7
H
EXT_ON = PWR_ON
col 5
J
PWR/END
<micro-SD SOCKET>
<SIDE KEY & CAM Shutter>
Z
3
SYM
E
Q S
Off("L")
7
Close
col 0
Open
I
TAB
2
K
EXT.
ENTER
RIGHT
DOWN
Folder
4
L
P
3.0V LDO for300mA Output
F
Row 4
Y
6
R
SHIFT
EXT_ON = NULL
col 1
LEFT
SPACE
Row 6
EXT_ON = PWR_ON
B
CLR
A
col 3
M
col 6
D
HALF
<QWERTY KEY MATRIX>
Preview
ON
Row 2
1
FULL
SEND
SOFT2
Row 5
W
<PWR On Key>
X
T
Row 3
col 2
SPK
<Hall Switch>
UP
LG-VX11000 MAIN
’09.02.25
Part ChangedPanasonic ==> ALPS
Row 0
LCD FPCB Circuit
DUMMY
G_SLUG
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
+SLCD_VLED
04-6298-006-000-883CON100
1
2
3
4
5
6
7DU
MMY1
8DU
MMY2
PROXI_AOUT
TOUCH_Y+
RGB_R[3]
SLED4
MLCD_CS/
+1.8V_MSME
LEWW-S14
LED102
1 +2 -
ALS_AOUT
TOUCH_X-
MLCD_PWM
+2.8V_LCD
RGB_G[3]
SLED5
MLCD_SDI
LCD_SDO
MLCD_SDI
SLED3
MLED6
SLCD_SDI
RGB_DATA_EN
RGB_G[5]
SLCD_CS/
RGB_B[7]
KEY_SENSE[2]
EXT_ON_SW
MLED4 SLED3
C103
100p
MLED3
KEY_SENSE[2]
MLED1
KTK5132EQ100
1S
2G
3D
LEWW-S14
LED100
1 +2 -
EXT_KEY_LED_EN
RGB_VSYNC
RGB_R[1]
LCD_RESET/
SLCD_PWM
SW100
1 2
SLCD_PWM
LCD_SCL
RCV+
C100
100p
SLED1
RGB_G[7]
+VBATT
+1.8V_MSME
+VBATT
TOUCH_Y-
R10610k
PROXI_LED_ON
EXT_KEY_LED_EN
KEY_DRIVE[7] +VBATT
LCD_SDO
SW101
12
RGB_DATA_ENRGB_DCLK
RGB_B[5]
KEY_SENSE[1]
LCD_RESET/
LCD_MKR_ID
RGB_R[7]
SLED6
TOUCH_X+
RGB_B[1]
SLED4
RGB_HSYNC
RGB_G[1]
RGB_HSYNC
KEY_SENSE[1]
MLED2
LEWW-S14
LED101
1 +2 -
C101
100p
+MLCD_VLED
SLCD_SDI
SPK_L+
SW102
1 2
RCV-
+2.8V_LCD
TOUCH_X+
SLED2
EXT_ON_SW
SLED1
ALS_AOUT
MLCD_CS/
TOUCH_Y+
SLCD_CS/
RGB_VSYNC
+2.85V_PROXI
TOUCH_X-
KEY_DRIVE[7]
SPK_L-
MLED5
SLED6
+SLCD_VLED
RGB_R[5]
SPK_R+ SLED2
AXT680124
CON101
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40 41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
81 8382 84
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
TOUCH_Y-
RGB_DCLK
C102
100p
RGB_B[3]
SLED5
SPK_R-
LCD_SCL
MLCD_PWM
RGB_R[4]
RGB_G[2]
RGB_R[6]
RGB_R[2]
RGB_G[0]
RGB_B[4]
RGB_B[6]
RGB_R[0]
RGB_B[2]
RGB_G[4]
RGB_B[0]
RGB_G[6]
C107
10u
1608
RGB_B[3]
RGB_G[3]
RGB_R[7]
RGB_R[1]
RGB_R[5]
RGB_G[7]
RGB_B[7]
RGB_G[1]
RGB_R[3]
RGB_B[1]
RGB_G[5]
RGB_B[5]
SPK_L-
MLED1
RGB_B[0]
RGB_R[4]
SPK_R+
RCV+
RGB_R[6]
RGB_R[0]
RCV-
+2.85V_PROXI
RGB_G[4]
RGB_B[6]
SPK_L+
RGB_B[4]
MLED6
PROXI_LED_ON
LCD_MKR_ID
RGB_G[0]
SPK_R-
MLED4
MLED3
RGB_G[6]
MLED2
+MLCD_VLED
RGB_G[2]
PROXI_AOUT
RGB_R[2]
RGB_B[2]
MLED5
AXT370164CON102
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
3536
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71727374
R105
22k
+/-1%
R108510
R107510
R110510
H.K.LIM
PWR/END
<CHANGE>
1 OF 1
<DELETE>
<External Keypad>
J.H.PARK
<70PIN LCD CONNECTOR>
VX11000 LCD FPCB
Rev.10
’09.03.24
CLEAR
<INSERT>
<External Key LED>
<80PIN MAIN CONNECTOR>K.C.KIM
SEND
<Touch Window>
1K -> 22K
330 -> 510
Mated Height : 1.0T -> 1.5T Changed(3.0X16.5X1.15 => 3.6X16.7X1.45)
PROX_EN/ Deleted
PROX_EN/ Deleted
Sensor FPCB Circuit
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
PROXI_AOUT
PROXI_LED_ON
C100
100n
+2.85V_PROXI
ALS_AOUT
C101
4.7u
1608
C103
3.3n
RCV+
RCV-
SPK_R+
SPK_R-
CON100FH19-10S-0_5SH-FPC
1
2
3
4
5
6
7
8
9
10
RCV-
RCV+
SPK_R-
ALS_AOUT
PROXI_AOUT
PROXI_LED_ON
+2.85V_PROXI
SPK_R+
EMS1810THP1P
U101
1+
2-
C105
33p
C106
33p
C107
33p
C104
33p
R102
1m
+/-1%
R100 20
+/-1%
R103 20
+/-1%
KR-1107H-02W1PCON102
1
2
QPDS-9800LU100
1NC1
2LEDON
3PS_DOUT
4VCC
5NC2
6PS_PFILT
7ALS_IOUT
8GND
9PS_ENB
10
LEDK
<LIGHT & PROXIMITY SENSOR>
VX11000 SENSOR FPCB
H.K.LIM
Rev.1.0
J.H.PARK
’09.03.24
1 OF 1
K.C.KIM
<LCD 10PIN ZIP CONNECTOR> <RCV & SPK_R PAD>
<INSERT>
<DELETE>
<CHANGE>
PROX_EN/ Deleted
Series 10ohm -> parallel 20ohm
PROX_EN/Connected to GND
APDS-9800 (EUSY0371101, 1.45T)-> QPDS-9800L (EUSY0391401, 1.75T)
SUSY0028013 (EMS1810TCD5P, 10mm)
SURY0011303 (KR-1107H-02W1P, 10mm)
Sidekey FPCB Circuit
Doc. Name Doc. Number SHEET : DRAW :DATECHKDAPRDREFMANISSUE : CONTENT :
LGE Proprietary LG<41>-A-2011.0
LGE
Duplication of this document and the use or communication of the contents thereof are forbidden without express authority. Offenders are punishable and liable to the payment of damages. All rights are reserved in the event of the grant of a patent or the registration of a utility model.
SW102
1 2
SW103
1 2SIDEKEY_9PIN_FPCB_BOT
CON100
1
2
3
4
5
6
7
8
9
SIDEKEY_9PIN_FPCB_TOP
CON101
1
2
3
4
5
6
7
8
9
SW101
1 2
SW100EVPAHBD6A
1C
2B
3D4 A
5 B_
6 C_
VX11000 SIDEKEY FPCB
H.K.LIM
Rev1.0
J.H.PARK
’09.03.24
1 OF 1
K.C.KIM
CAM2 (FULL)
COM1
<CAMERA AUTO FOCUS>
CAM1 (HALF)
UP
DOWN
COM2
DOWNUP
<HOLD/UP/DOWN>
GND
COM
KEY_DRIVE[8]
HOLD
UP
KEY_SENSE[1]
DOWN
KEY_SENSE[2]
GND
GND
<INSERT>
<DELETE>
<CHANGE>
HOLD
HOLD
Dome Spec is Changed: Click Rate 45->60
2. VX11000 BGA Pin Map
BOTTOM VIEW
USEDNOT USED
1. MSM7500A-64T (U2000)
BOTTOM VIEW
2. KBN00300-A439 (U3004)
USEDNOT USED
3. MAX8694 (U4001) Internal Use Only
USEDNOT USED
TOP VIEW
USEDNOT USED
4. LP8720TLX (U4002)
A1 Index Mark
Internal Use Only
5. BD6088GUL (U5000, U5005) Internal Use Only
USEDNOT USED
BOTTOM VIEW
6. LM49250RLX (U3001) Internal Use Only
USEDNOT USED
BOTTOM VIEW
7. S1D13775B00B60L (U7001) Internal Use Only
USEDNOT USED
BOTTOM VIEW
8. ISP1508AET (U5004) Internal Use Only
USEDNOT USED
BOTTOM VIEW
9. BCM2046B1 (U7008) Internal Use Only
USEDNOT USED
TOP VIEW
10. TSC2007IYZR (U7004) Internal Use Only
USEDNOT USED
BOTTOM VIEW
C
D
C’
B’A
B SW100 SW101SW102 SW103
CON101
CON100
4. VX11000 Assembly &Disassembly Diagram
VX11000 Component List : Main PCBRef No Part Name Part Number Spec Maker P/NSPFY00 PCB,MAIN SPFY0189501 FR-4 ,0.8 mm,STAGGERED-10 , ,; , , , , , , , , , SPFY0189501SAFD00 PCB ASSY,MAIN,SMT TOP SAFD0117101C6030 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6031 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6032 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6042 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6061 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6062 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC7000 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC7001 CAP,CERAMIC,CHIP ECCH0000179 22 nF,16V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R223K16PTC7032 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC8021 CAP,CERAMIC,CHIP ECCH0004904 1 uF,6.3V ,K ,X5R ,TC ,1005 ,R/TP GRM155R60J105KE19DC8022 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTLED5001 DIODE,LED,CHIP EDLH0013701 WHITE ,ETC ,R/TP ,SIDEVIEW ,; ,[empty] ,2.9~3.75 LEWWS44PALED5002 DIODE,LED,CHIP EDLH0013701 WHITE ,ETC ,R/TP ,SIDEVIEW ,; ,[empty] ,2.9~3.75 LEWWS44PALED5003 DIODE,LED,CHIP EDLH0013701 WHITE ,ETC ,R/TP ,SIDEVIEW ,; ,[empty] ,2.9~3.75 LEWWS44PALED5004 DIODE,LED,CHIP EDLH0013701 WHITE ,ETC ,R/TP ,SIDEVIEW ,; ,[empty] ,2.9~3.75 LEWWS44PAQ5001 TR,FET,N-CHANNEL EQFN0005601 ESM ,100 mW,30 V,100 mA,R/TP , KTK5132ER5009 RES,CHIP,MAKER ERHZ0000242 220 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2200R5010 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R5011 RES,CHIP,MAKER ERHZ0000242 220 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2200R5013 RES,CHIP,MAKER ERHZ0000242 220 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2200R5014 RES,CHIP,MAKER ERHZ0000242 220 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2200R7015 RES,CHIP,MAKER ERHZ0000286 4700 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4701R7016 RES,CHIP,MAKER ERHZ0000286 4700 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4701R8031 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8034 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8035 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8036 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8037 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8038 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8039 VARISTOR SEVY0005402 5.6 V, ,SMD ,1005 Siez , 50pF ICVS0505500FRR8040 RES,CHIP ERHY0003301 100 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ101R8041 RES,CHIP ERHY0003301 100 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ101R8043 RES,CHIP ERHY0003301 100 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ101U7003 IC EUSY0345201 3*3 QFN ,10 PIN,R/TP ,3xis Accelerometer ,; ,IC,A/D BMA150U8002 IC EUSY0313401 QFN ,4 PIN,R/TP ,1.8X1.2X0.5 size wide input voltag EM-0781-T5SAFC00 PCB ASSY,MAIN,SMT BOTTOM SAFC0118701ANT7000 ANTENNA,GSM,FIXED SNGF0026001 3.0 ,-2.0 dBd, ,Bluetooth, SMD, 8.0*2.0*1.2 ,; ,SINGL ACS2450HBAKU25C1002 INDUCTOR,CHIP ELCH0004711 22 nH,J ,1005 ,R/TP , 1005GC2T22NJ00C1003 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1005 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC1006 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC1007 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC1008 INDUCTOR,CHIP ELCH0004705 8.2 nH,J ,1005 ,R/TP , 1005GC2T8N2J00C1009 CAP,CERAMIC,CHIP ECCH0001001 6.8 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005COG1H6R8DTC1010 INDUCTOR,CHIP ELCH0004712 3.9 nH,S ,1005 ,R/TP , 1005GC2T3N9S00C1011 INDUCTOR,CHIP ELCH0004704 4.7 nH,S ,1005 ,R/TP , 1005GC2T4N7S00C1012 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1016 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC1017 INDUCTOR,CHIP ELCH0004710 15 nH,J ,1005 ,R/TP , 1005GC2T15NJ00C1019 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1020 CAP,CERAMIC,CHIP ECCH0000115 22 pF,50V,J,NP0,TC,1005,R/TP MCH155A220JKC1021 CAP,CERAMIC,CHIP ECCH0000701 1.2 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H1R2CTC1022 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC1023 CAP,CERAMIC,CHIP ECCH0000161 33 nF,16V,K,X7R,HD,1005,R/TP MCH153CN333KKC1025 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JT
C1026 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1028 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1029 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1030 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1032 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1033 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1034 CAP,CERAMIC,CHIP ECCH0005603 2.2 uF,10V ,K ,X5R ,TC ,1608 ,R/TP GRM39X5R225K10C1035 CAP,CHIP,MAKER ECZH0000816 12 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H120JTC1036 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1037 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1038 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1039 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1041 CAP,CHIP,MAKER ECZH0000802 1 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H010CTC1042 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1044 INDUCTOR,CHIP ELCH0004704 4.7 nH,S ,1005 ,R/TP , 1005GC2T4N7S00C1045 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC1047 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC1050 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1051 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1052 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1053 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1055 CAP,CERAMIC,CHIP ECCH0005603 2.2 uF,10V ,K ,X5R ,TC ,1608 ,R/TP GRM39X5R225K10C1056 CAP,CERAMIC,CHIP ECCH0000161 33 nF,16V,K,X7R,HD,1005,R/TP MCH153CN333KKC1057 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC1058 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC1059 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC1060 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1061 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1062 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1063 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1064 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1065 CAP,CHIP,MAKER ECZH0001002 0.5 pF,50V ,B ,NP0 ,TC ,1005 ,R/TP C1005CH1H0R5BBC1066 CAP,CHIP,MAKER ECZH0000822 1.5 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H1R5CTC1067 INDUCTOR,CHIP ELCH0004703 1 nH,S ,1005 ,R/TP , 1005GC2T1N0S00C1068 INDUCTOR,CHIP ELCH0004703 1 nH,S ,1005 ,R/TP , 1005GC2T1N0S00C1069 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1070 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1075 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1076 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC1077 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1078 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1079 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1080 CAP,CHIP,MAKER ECZH0004402 100000 pF,16V ,Z ,X7R ,TC ,1005 ,R/TP , , ,[empty] , MCH153C104ZKC1082 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1083 CAP,CHIP,MAKER ECZH0003125 82000 pF,16V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R823K16C1084 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1085 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC1086 CAP,CERAMIC,CHIP ECCH0000151 4.7 nF,25V,K,X7R,HD,1005,R/TP MCH152CN472KKC1087 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1088 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1089 CAP,CHIP,MAKER ECZH0001102 18000 pF,16V ,K ,X7R ,HD ,1005 ,R/TP C1005X7R1C183KTC1090 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1091 CAP,CERAMIC,CHIP ECCH0000144 1.2 nF,50V,K,X7R,HD,1005,R/TP MCH155C122KC1092 CAP,CHIP,MAKER ECZH0000816 12 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H120JTC1093 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC1094 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1095 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1096 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC1097 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC1098 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1099 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JT
C1101 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1102 CAP,CHIP,MAKER ECZH0004402 100000 pF,16V ,Z ,X7R ,TC ,1005 ,R/TP , , ,[empty] , MCH153C104ZKC1103 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1104 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC1105 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1106 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC1108 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1109 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC1110 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1111 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC1112 CAP,CERAMIC,CHIP ECCH0000133 220 pF,50V ,K ,X7R ,HD ,1005 ,R/TP C1005X7R1H221KTC1113 CAP,CERAMIC,CHIP ECCH0000149 3.3 nF,50V,K,X7R,HD,1005,R/TP MCH155CN332KKC1114 CAP,CHIP,MAKER ECZH0000802 1 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H010CTC1115 CAP,CHIP,MAKER ECZH0001002 0.5 pF,50V ,B ,NP0 ,TC ,1005 ,R/TP C1005CH1H0R5BBC1116 CAP,CHIP,MAKER ECZH0025917 47 pF,25V ,J ,NP0 ,TC ,0603 ,R/TP GRM0335C1E470JC2000 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC2003 CAP,CERAMIC,CHIP ECCH0000147 2.2 nF,50V,K,X7R,HD,1005,R/TP MCH155CN222KKC2005 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC2006 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC2007 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC2008 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC2009 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC2010 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC3000 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC3001 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC3002 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3003 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3004 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3005 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3006 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3008 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3009 CAP,CERAMIC,CHIP ECCH0000161 33 nF,16V,K,X7R,HD,1005,R/TP MCH153CN333KKC3012 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC3013 CAP,CERAMIC,CHIP ECCH0004904 1 uF,6.3V ,K ,X5R ,TC ,1005 ,R/TP GRM155R60J105KE19DC3014 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC3015 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC3016 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC3017 CAP,TANTAL,CHIP ECTH0003701 10 uF,6.3V ,M ,L_ESR ,1608 ,R/TP TCSCM0J106MJARC3018 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC3019 CAP,CHIP,MAKER ECZH0001121 470 pF,50V ,K ,X7R ,HD ,1005 ,R/TP C1005X7R1H471KTC3020 CAP,CERAMIC,CHIP ECCH0007802 4.7 uF,10V ,M ,X5R ,TC ,1608 ,R/TP CV105X5R475M10ATC3021 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC3022 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC3023 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3024 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC3025 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC3026 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC3027 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC3028 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3029 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC3030 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3031 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3032 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3033 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC3034 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3035 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3036 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC3038 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC3039 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC3040 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC3041 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JT
C4000 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC4001 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4002 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4003 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4004 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4005 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4006 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4007 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4008 CAP,CHIP,MAKER ECZH0001216 220 nF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A224KTC4009 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4010 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4011 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4012 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4013 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC4014 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4015 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4016 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4017 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4018 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4019 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4020 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4021 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4022 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4023 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4024 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4025 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4026 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4027 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4028 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4030 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4031 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4032 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC4033 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4034 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4035 RES,CHIP,MAKER ERHZ0000490 51 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ510C4036 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4037 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4038 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4039 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4040 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4041 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4042 CAP,CHIP,MAKER ECZH0000806 5 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H050CTC4043 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4044 CAP,CHIP,MAKER ECZH0000826 27 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H270JTC4045 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4046 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4047 CAP,CHIP,MAKER ECZH0000826 27 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H270JTC4048 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4049 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4050 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4051 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4052 CAP,CHIP,MAKER ECZH0000806 5 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H050CTC4053 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4054 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4055 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4056 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4057 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4058 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4059 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4060 CAP,CHIP,MAKER ECZH0000826 27 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H270JTC4061 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PT
C4062 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4063 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4064 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4065 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4066 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4067 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4068 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4069 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4070 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4071 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4072 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4073 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4074 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4075 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4076 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4077 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC4078 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4079 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4080 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4081 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4082 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4083 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4084 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4085 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4086 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4087 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4088 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4089 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4090 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4091 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4092 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4093 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4094 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4095 CAP,CERAMIC,CHIP ECCH0000143 1 nF,50V,K,X7R,HD,1005,R/TP MCH155CN102KKC4096 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC4097 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4098 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4099 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4100 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4101 CAP,CHIP,MAKER ECZH0000849 200 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H201JTC4102 CAP,CHIP,MAKER ECZH0000849 200 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H201JTC4103 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4104 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4105 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4106 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC4107 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4108 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4109 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4110 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4111 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4112 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4113 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC4114 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC4115 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4116 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4117 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4118 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4119 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4120 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4121 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC4122 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KT
C4123 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4124 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4125 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC4126 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4127 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4128 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4129 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC4131 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC4132 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4133 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4134 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4135 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC4136 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4137 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC4138 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC4139 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC4140 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC5000 CAP,CHIP,MAKER ECZH0004402 100000 pF,16V ,Z ,X7R ,TC ,1005 ,R/TP , , ,[empty] , MCH153C104ZKC5001 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC5002 CAP,CHIP,MAKER ECZH0001420 1 uF,10V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R1A105KTC5003 CAP,CHIP,MAKER ECZH0001420 1 uF,10V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R1A105KTC5004 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC5005 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC5006 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC5011 CAP,CERAMIC,CHIP ECCH0000161 33 nF,16V,K,X7R,HD,1005,R/TP MCH153CN333KKC5012 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , ,[emp GRM188R60J106ME47DC5013 CAP,TANTAL,CHIP ECTH0004804 33 uF,10V ,M ,L_ESR ,3216 ,R/TP TCTAL1A336M8RC5014 CAP,CERAMIC,CHIP ECCH0000122 47 pF,50V,J,NP0,TC,1005,R/TP MCH155A470JKC5015 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC5016 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC5018 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC5020 CAP,CHIP,MAKER ECZH0001420 1 uF,10V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R1A105KTC5021 CAP,CHIP,MAKER ECZH0001420 1 uF,10V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R1A105KTC5022 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC5024 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC5028 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC5029 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC5030 CAP,CERAMIC,CHIP ECCH0000161 33 nF,16V,K,X7R,HD,1005,R/TP MCH153CN333KKC5031 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC6000 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC6001 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC6002 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC6003 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC6004 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC6005 CAP,CHIP,MAKER ECZH0000826 27 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H270JTC6006 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC6007 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6008 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6009 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC6010 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6011 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6012 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6013 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6014 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6015 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6016 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6017 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6018 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6019 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6020 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6021 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JT
C6022 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6023 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6024 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6025 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6026 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6027 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC6028 CAP,CERAMIC,CHIP ECCH0009104 33 pF,50V ,J ,X7R ,TC ,0603 ,R/TP C0603C0G1H330JTC6033 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC6034 CAP,CERAMIC,CHIP ECCH0004904 1 uF,6.3V ,K ,X5R ,TC ,1005 ,R/TP GRM155R60J105KE19DC6035 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC6036 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC6037 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC6038 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC6039 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC6040 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC6041 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC6043 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6044 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6045 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6046 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6048 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC6049 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC6050 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6051 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC6052 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC6053 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC6054 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6055 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6056 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6057 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC6058 CAP,CERAMIC,CHIP ECCH0000112 15 pF,50V,J,NP0,TC,1005,R/TP MCH155C150JC6059 CAP,CERAMIC,CHIP ECCH0000112 15 pF,50V,J,NP0,TC,1005,R/TP MCH155C150JC6060 CAP,CERAMIC,CHIP ECCH0000118 30 pF,50V,J,NP0,TC,1005,R/TP MCH155A300JC7002 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC7003 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC7006 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC7007 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7008 CAP,CERAMIC,CHIP ECCH0000147 2.2 nF,50V,K,X7R,HD,1005,R/TP MCH155CN222KKC7009 CAP,CERAMIC,CHIP ECCH0000147 2.2 nF,50V,K,X7R,HD,1005,R/TP MCH155CN222KKC7010 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC7011 CAP,CHIP,MAKER ECZH0000802 1 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H010CTC7012 INDUCTOR,CHIP ELCH0004720 1.2 nH,S ,1005 ,R/TP , 1005GC2T1N2S00C7013 CAP,CERAMIC,CHIP ECCH0000701 1.2 pF,50V ,C ,NP0 ,TC ,1005 ,R/TP C1005C0G1H1R2CTC7014 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7015 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7016 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7017 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7018 CAP,CHIP,MAKER ECZH0001106 4700 pF,25V ,K ,X7R ,HD ,1005 ,R/TP C1005X7R1E472KTC7019 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC7020 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC7021 CAP,CHIP,MAKER ECZH0004402 100000 pF,16V ,Z ,X7R ,TC ,1005 ,R/TP , , ,[empty] , MCH153C104ZKC7022 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7023 CAP,CHIP,MAKER ECZH0001316 470 pF,50V ,J ,NP0 ,TC ,1608 ,R/TP C1608C0G1H471JTC7024 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7025 CAP,CHIP,MAKER ECZH0004402 100000 pF,16V ,Z ,X7R ,TC ,1005 ,R/TP , , ,[empty] , MCH153C104ZKC7026 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7027 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC7028 CAP,CERAMIC,CHIP ECCH0000155 10 nF,16V,K,X7R,HD,1005,R/TP MCH153CN103KKC7029 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC7030 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC7031 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PT
C7033 CAP,CHIP,MAKER ECZH0000826 27 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H270JTC7034 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC7035 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC7036 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC7037 CAP,CERAMIC,CHIP ECCH0000182 0.1 uF,10V ,K ,X5R ,HD ,1005 ,R/TP GRM36X5R104K10PTC7038 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC7039 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC8000 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC8001 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC8002 CAP,CHIP,MAKER ECZH0003103 0.1 uF,10V ,K ,X7R ,HD ,1005 ,R/TP GRM36X7R104K10PTC8003 CAP,CHIP,MAKER ECZH0001421 2.2 uF,6.3V ,K ,X5R ,HD ,1608 ,R/TP C1608X5R0J225KTC8004 CAP,CERAMIC,CHIP ECCH0000198 2.2 uF,6.3V ,M ,X5R ,TC ,1005 ,R/TP CL05A225MQ5NNNCC8005 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8006 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8007 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8008 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8009 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8010 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8011 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8012 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8013 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8014 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8015 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8016 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8017 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8018 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8019 CAP,CERAMIC,CHIP ECCH0009103 100 pF,50V ,J ,X7R ,TC ,0603 ,R/TP , , ,[empty] ,[empC0603C0G1H101JTC8020 CAP,CHIP,MAKER ECZH0001215 1 uF,10V ,K ,X5R ,TC ,1005 ,R/TP C1005X5R1A105KTC8023 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTCON3000 CONN,JACK/PLUG,EARPHONE ENJE0007401 ,4 , ,; ,[empty] ,4P ,ANGLE ,[empty] , ,[empty] , KJA-PH-2-0174CON5000 CONNECTOR,I/O ENRY0008801 5 , mm,ANGLE , , ,; , ,0.64MM ,ANGLE ,[empty] ,DIP GU073-5P-SD-E1500CON5001 CONNECTOR,ETC ENZY0021001 4 PIN,2.5 mm,STRAIGHT , , HSBC-4PT25-17CON6000 CONNECTOR,BOARD TO BOARD ENBY0015601 34 PIN,0.4 mm,STRAIGHT ,AU ,0.9MM HEIGHT AXK7L34227GCON6001 CONNECTOR,BOARD TO BOARD ENBY0042501 80 PIN,0.4 mm,ETC , , ,; , ,0.40MM ,[empty] ,FEMALEAXT580124CON6002 CONNECTOR,BOARD TO BOARD ENBY0033201 10 PIN,0.4 mm,ETC , ,H=1.5, P4S Socket AXT310164CON7000 CONNECTOR,BOARD TO BOARD ENBY0001802 2 PIN,1.27 mm,STRAIGHT ,SILVER , 24 8005 002 100 867CON8000 CONN,SOCKET ENSY0023301 8 ,ETC , ,0.7 mm,H=1.52,(15*15) SCHA5B0201D5000 DIODE,SWITCHING EDSY0017701 SOD-123 ,40 V,1 A,R/TP , ,; , , , , , , ,[empty] ,[empty] SDB1040D5001 DIODE,TVS EDTY0009601 SLP1006P2 ,5 V,100 W,R/TP ,1.0x0.6x0.5t ,; , , , , , ,[ Rclamp0521P.TCTD5002 DIODE,TVS EDTY0009601 SLP1006P2 ,5 V,100 W,R/TP ,1.0x0.6x0.5t ,; , , , , , ,[ Rclamp0521P.TCTD5003 DIODE,TVS EDTY0007401 SMD ,12 V,350 W,R/TP , SD12T1GD8000 DIODE,SWITCHING EDSY0017702 SOD-323 ,30 V,0.5 A,R/TP ,2.5*1.25*1.0 ,; ,0.36V ,30SDB0530DP1000 MODULE,ETC SMZY0017501 S-Quintplexer, QSC pin to pin, CDMA+USPCS+SGPSACFM-7103F1000 FILTER,SEPERATOR SFAY0003401 824~894MHz ,1850~1990MHz ,0.55 dB,0.65 dB,18 d FSLF-S080HLF1001 FILTER,SAW SFSY0030002 881.5 MHz,1.4*1.1*0.6 ,SMD ,869M~894M, IL 2.6, 5pSAFEB881MAL0F00F1002 FILTER,SAW SFSY0034501 1960 MHz,1.4*1.1*0.6 ,SMD ,1930M~1990M, IL 3.3, 5SAFEB1G96KA0F00F1003 TR,FET,P-CHANNEL EQFP0009001 SC75-6 ,0.6 W, V,1 A,R/TP ,slew late controlled LoadSIP4282F1004 FILTER,SAW,DUAL SFSB0001701 881.5 MHz,25 MHz,2.2 dB,45 dB,1960 MHz,58.8 MH B9318F1005 FILTER,SAW SFSY0036501 836.5 MHz,1.4*1.1*0.45 ,SMD ,824M~849M, IL 2.3, 5B9425F1006 FILTER,SAW SFSY0036601 1880 MHz,1.4*1.1*0.45 ,SMD ,1850.625M~1909.375 B9640F5001 FILTER,EMI/POWER SFEY0015301 SMD ,Pb-free_Bais ,; ,Filter,LCR NFM18PC104R1C3F6000 FILTER,EMI/POWER SFEY0011701 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (10 Ohm,7.5pFICVE10184E070R100FRF6001 FILTER,EMI/POWER SFEY0011701 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (10 Ohm,7.5pFICVE10184E070R100FRF6002 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FRF6003 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FRF6004 FILTER,EMI/POWER SFEY0011601 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (50 Ohm,15pFICVE10184E150R500FRF6005 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FRF6006 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FRF6007 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FRF6008 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FRF6009 FILTER,EMI/POWER SFEY0010501 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (100Ohm,15pFICVE10184E150R101FR
F6010 FILTER,EMI/POWER SFEY0011701 SMD ,SMD ,18 V,4ch. EMI_ESD Filter (10 Ohm,7.5pFICVE10184E070R100FRF7000 FILTER,CERAMIC SFCY0000901 2450 MHz,2.00*1.25*0.95 ,SMD ,Bluetooth Band PasLFB212G45SG8A166F7001 IC EUSY0353701 PLP1010-4 ,4 PIN,R/TP ,1x1 LDO, 2.6V , 150mA ,; ,ICRP104K261DF8000 IC EUSY0365101 PLP1612-4B ,4 ,R/TP ,LDO ,; ,IC,LDO Voltage Regul RP101K302DL1000 INDUCTOR,CHIP ELCH0001408 6.8 nH,J ,1005 ,R/TP ,Pb Free LL1005-FHL6N8JL1002 INDUCTOR,CHIP ELCH0004718 5.6 nH,S ,1005 ,R/TP , 1005GC2T5N6S00L1003 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTL1004 INDUCTOR,CHIP ELCH0004704 4.7 nH,S ,1005 ,R/TP , 1005GC2T4N7S00L1006 INDUCTOR,CHIP ELCH0004710 15 nH,J ,1005 ,R/TP , 1005GC2T15NJ00L1007 INDUCTOR,CHIP ELCH0004701 12 nH,J ,1005 ,R/TP , 1005GC2T12NJ00L1008 INDUCTOR,CHIP ELCH0004705 8.2 nH,J ,1005 ,R/TP , 1005GC2T8N2J00L1009 CAP,CHIP,MAKER ECZH0001002 0.5 pF,50V ,B ,NP0 ,TC ,1005 ,R/TP C1005CH1H0R5BBL1010 INDUCTOR,CHIP ELCH0004704 4.7 nH,S ,1005 ,R/TP , 1005GC2T4N7S00L1011 INDUCTOR,CHIP ELCH0001418 39 nH,J ,1005 ,R/TP ,PBFREE LL1005-FHL39NJL1012 INDUCTOR,CHIP ELCH0004703 1 nH,S ,1005 ,R/TP , 1005GC2T1N0S00L1013 INDUCTOR,CHIP ELCH0004701 12 nH,J ,1005 ,R/TP , 1005GC2T12NJ00L1014 INDUCTOR,CHIP ELCH0004721 2.2 nH,S ,1005 ,R/TP , 1005GC2T2N2S00L1015 INDUCTOR,CHIP ELCH0004712 3.9 nH,S ,1005 ,R/TP , 1005GC2T3N9S00L1016 INDUCTOR,CHIP ELCH0001420 3.9 nH,S ,1005 ,R/TP ,PBFREE LL1005-FHL3N9SL1017 INDUCTOR,CHIP ELCH0001420 3.9 nH,S ,1005 ,R/TP ,PBFREE LL1005-FHL3N9SL1022 INDUCTOR,CHIP ELCH0001421 47 nH,J ,1005 ,R/TP ,PBFREE LL1005-FHL47NJL1023 INDUCTOR,CHIP ELCH0001423 56 nH,J ,1005 ,R/TP ,PBFREE LL1005-FHL56NJL1026 INDUCTOR,CHIP ELCH0001421 47 nH,J ,1005 ,R/TP ,PBFREE LL1005-FHL47NJL1027 INDUCTOR,CHIP ELCH0004704 4.7 nH,S ,1005 ,R/TP , 1005GC2T4N7S00L1028 INDUCTOR,CHIP ELCH0004712 3.9 nH,S ,1005 ,R/TP , 1005GC2T3N9S00L1029 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTL1030 INDUCTOR,CHIP ELCH0004727 100 nH,J ,1005 ,R/TP , 1005GC2TR10J00L4000 INDUCTOR,SMD,POWER ELCP0008006 2.2 uH,M ,- ,R/TP ,Chip power inductor ,- ,650mA(30%CPI2016NHL2R2ML4001 INDUCTOR,SMD,POWER ELCP0010001 2.2 uH,M ,2.5x2.0x1.0 ,R/TP ,chip MLCI ,; , ,20% , , , MIP2016D2R2ML4002 INDUCTOR,SMD,POWER ELCP0008006 2.2 uH,M ,- ,R/TP ,Chip power inductor ,- ,650mA(30%CPI2016NHL2R2ML4003 INDUCTOR,SMD,POWER ELCP0008006 2.2 uH,M ,- ,R/TP ,Chip power inductor ,- ,650mA(30%CPI2016NHL2R2ML4004 INDUCTOR,CHIP ELCH0004727 100 nH,J ,1005 ,R/TP , 1005GC2TR10J00L6000 FILTER,BEAD,CHIP SFBH0000903 600 ohm,1005 , HB-1M1005-601JTL6001 INDUCTOR,CHIP ELCH0001425 82 nH,J ,1005 ,R/TP ,PBFREE LL1005-FHL82NJL6002 INDUCTOR,SMD,POWER ELCP0008002 2.2 uH,M ,2.5*2.0*1.0 ,R/TP , MIP2520D2R2ML7002 FILTER,BEAD,CHIP SFBH0000903 600 ohm,1005 , HB-1M1005-601JTM2000 MICROPHONE SUMY0010609 UNIT ,-42 dB,3.76*2.95*1.1 ,mems smd mic ,; , , ,OM SPU0410HR5H -PBQ5000 TR,BJT,NPN EQBN0007601 SOT-23 ,0.15 W,R/TP ,EMT3 KTC4075EQ5002 TR,BJT,ARRAY EQBA0000601 UMT5 ,.2 W,R/TP , KRX102UQ5003 TR,FET,P-CHANNEL EQFP0004201 2.9*1.9*0.8(t) ,.7 W,20 V,-6 A,R/TP ,NDC652P upgradTPCF8102(TE85L,F)Q8000 TR,BJT,NPN EQBN0007601 SOT-23 ,0.15 W,R/TP ,EMT3 KTC4075ER1002 RES,CHIP,MAKER ERHZ0000490 51 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ510R1003 RES,CHIP,MAKER ERHZ0000201 100 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1000R1004 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1006 RES,CHIP,MAKER ERHZ0000236 2000 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2001R1008 RES,CHIP,MAKER ERHZ0000291 49.9 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF49R9R1010 RES,CHIP,MAKER ERHZ0000293 510 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5100R1011 RES,CHIP,MAKER ERHZ0000295 51 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5102R1012 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1013 RES,CHIP,MAKER ERHZ0000206 10 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF10R0R1014 THERMISTOR SETY0001401 NTC ,68 Kohm,SMD , NCP18WD683E03RBR1015 RES,CHIP,MAKER ERHZ0000222 150 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1503R1016 RES,CHIP,MAKER ERHZ0000242 220 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2200R1017 RES,CHIP,MAKER ERHZ0000325 24 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF24R0R1018 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1019 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1020 RES,CHIP,MAKER ERHZ0000242 220 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2200R1021 RES,CHIP,MAKER ERHZ0000298 560 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5600R1022 RES,CHIP,MAKER ERHZ0000220 1500 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1501R1023 RES,CHIP,MAKER ERHZ0000294 5100 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5101R1024 RES,CHIP,MAKER ERHZ0000212 12 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1202
R1025 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1026 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1030 RES,CHIP,MAKER ERHZ0000287 47 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4702R1031 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1032 RES,CHIP,MAKER ERHZ0000456 2.2 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ2R2R1033 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R1034 RES,CHIP,MAKER ERHZ0003801 5.1 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ5R1R1035 RES,CHIP,MAKER ERHZ0000287 47 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4702R1036 RES,CHIP,MAKER ERHZ0000294 5100 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5101R1037 PCB ASSY,MAIN,PAD OPEN SAFO0000501 0OHM_1005_DNI 0OHM_1005_DNIR2001 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R2002 VARISTOR SEVY0004101 5.6 V, ,SMD ,360pF, 1005 ICVN0505X150FRR2003 VARISTOR SEVY0004101 5.6 V, ,SMD ,360pF, 1005 ICVN0505X150FRR2005 RES,CHIP,MAKER ERHZ0000203 10 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1002R2007 RES,CHIP,MAKER ERHZ0000203 10 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1002R3002 RES,CHIP,MAKER ERHZ0000485 4700 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ472R3005 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R3006 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R3007 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R3008 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R3010 RES,CHIP,MAKER ERHZ0000404 1 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ102R3011 RES,CHIP,MAKER ERHZ0000404 1 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ102R3021 RES,CHIP,MAKER ERHZ0000507 68 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ683R3023 RES,CHIP,MAKER ERHZ0000422 15 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ153R3024 RES,CHIP,MAKER ERHZ0000414 120 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ124R4004 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R4005 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R4006 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R4010 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R4012 RES,CHIP,MAKER ERHZ0000404 1 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ102R4013 RES,CHIP,MAKER ERHZ0000529 1.5 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ152R4014 RES,CHIP,MAKER ERHZ0000529 1.5 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ152R4015 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R4016 RES,CHIP,MAKER ERHZ0000231 180 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1803R4017 RES,CHIP,MAKER ERHZ0000323 91 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF9102R4019 RES,CHIP,MAKER ERHZ0000213 120 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1203R4020 RES,CHIP,MAKER ERHZ0000238 200 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2003R4021 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R4022 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R4023 RES,CHIP,MAKER ERHZ0000288 470 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4703R4025 RES,CHIP,MAKER ERHZ0000538 330000 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF3303R4029 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R4030 RES,CHIP,MAKER ERHZ0000490 51 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ510R4031 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R4032 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R4042 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R4049 RES,CHIP,MAKER ERHZ0000490 51 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ510R4050 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R4051 RES,CHIP,MAKER ERHZ0000296 510 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5103R4052 RES,CHIP,MAKER ERHZ0000265 300 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF3003R4053 RES,CHIP,MAKER ERHZ0000296 510 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF5103R5001 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R5002 RES,CHIP,MAKER ERHZ0000423 150 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ154R5003 RES,CHIP,MAKER ERHZ0000487 470 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ474R5004 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R5006 RES,CHIP,MAKER ERHZ0000238 200 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2003R5007 VARISTOR SEVY0003601 5.6 V, ,SMD ,100pF, 1005 ICVL0505101V150FRR5008 RES,CHIP,MAKER ERHZ0000486 47 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ473R5015 RES,CHIP,MAKER ERHZ0000404 1 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ102R5016 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R5017 RES,CHIP,MAKER ERHZ0000212 12 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1202
R5018 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R5019 RES,CHIP,MAKER ERHZ0000486 47 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ473R5020 RES,CHIP,MAKER ERHZ0000318 80.6 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF8062R5021 RES,CHIP,MAKER ERHZ0000286 4700 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4701R5022 VARISTOR SEVY0003601 5.6 V, ,SMD ,100pF, 1005 ICVL0505101V150FRR5023 RES,CHIP,MAKER ERHZ0000288 470 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF4703R5024 RES,CHIP,MAKER ERHZ0000439 200 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ204R5025 VARISTOR SEVY0003601 5.6 V, ,SMD ,100pF, 1005 ICVL0505101V150FRR5026 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R5027 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R5028 RES,CHIP,MAKER ERHZ0000423 150 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ154R5029 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R5030 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R6000 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R6001 RES,CHIP,MAKER ERHZ0000443 2200 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ222R6002 CAP,CERAMIC,CHIP ECCH0002002 47000 pF,10V ,K ,B ,HD ,1005 ,R/TP C1005JB1A473KTR6003 RES,CHIP ERHY0003201 1000 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1001R6004 RES,CHIP,MAKER ERHZ0000249 22 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF22R0R6006 RES,CHIP,MAKER ERHZ0000406 100 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ104R6007 RES,CHIP,MAKER ERHZ0000406 100 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ104R6008 RES,CHIP,MAKER ERHZ0000231 180 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1803R6011 RES,CHIP,MAKER ERHZ0000402 10 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ100R6012 RES,CHIP,MAKER ERHZ0000402 10 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ100R6013 RES,CHIP,MAKER ERHZ0000428 18 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ180R6014 RES,CHIP,MAKER ERHZ0000484 470 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ471R6015 RES,CHIP,MAKER ERHZ0000484 470 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ471R6016 RES,CHIP,MAKER ERHZ0000484 470 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ471R7000 RES,CHIP,MAKER ERHZ0000211 1200 ohm,1/16W ,F ,1005 ,R/TP RC1005F122CSR7001 INDUCTOR,CHIP ELCH0004717 82 nH,J ,1005 ,R/TP , 1005GC2T82NJ00R7002 RES,CHIP,MAKER ERHZ0000211 1200 ohm,1/16W ,F ,1005 ,R/TP RC1005F122CSR7003 RES,CHIP,MAKER ERHZ0000201 100 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1000R7004 RES,CHIP,MAKER ERHZ0000406 100 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ104R7005 RES,CHIP,MAKER ERHZ0000406 100 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ104R7008 RES,CHIP,MAKER ERHZ0000201 100 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1000R7009 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R7012 RES,CHIP,MAKER ERHZ0000267 3300 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF3301R7014 RES,CHIP,MAKER ERHZ0000204 100 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1003R7017 INDUCTOR,CHIP ELCH0004717 82 nH,J ,1005 ,R/TP , 1005GC2T82NJ00R7018 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R7023 RES,CHIP,MAKER ERHZ0000222 150 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1503R7035 PCB ASSY,MAIN,PAD OPEN SAFO0000501 0OHM_1005_DNI 0OHM_1005_DNIR7037 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R7038 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R7040 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R8001 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R8002 RES,CHIP,MAKER ERHZ0000465 3300 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ332R8003 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8004 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8005 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8006 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8007 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8008 RES,CHIP,MAKER ERHZ0000265 300 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF3003R8009 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8010 VARISTOR SEVY0005101 18 V, ,SMD ,5pF, 1005 ICVL0518050FRR8011 RES,CHIP,MAKER ERHZ0000465 3300 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ332R8012 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8013 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8014 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8015 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8016 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8017 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700
R8018 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8019 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8020 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8021 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8022 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8023 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8024 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8025 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8026 RES,CHIP ERHY0009541 470 ohm,1/20W(0.05W) ,F ,0603 ,R/TP MCR006YZPF4700R8028 PCB ASSY,MAIN,PAD SHORT SAFP0000501 0OHM_1005R8029 RES,CHIP,MAKER ERHZ0000404 1 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ102R8030 RES,CHIP,MAKER ERHZ0000507 68 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ683R8033 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103R8042 RES,CHIP,MAKER ERHZ0000414 120 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ124U1000 CONN,RF SWITCH ENWY0005301 ,SMD , dB,H=1.85 ,; ,3.00MM ,STRAIGHT ,RF ADAP KMS-518U1001 MODULE,ETC SMZY0021701 GPS LNA Module integrated Filter, 3.3x2.1x1.1 ,; ,RF ALM-2412U1002 CONN,RF SWITCH ENWY0005301 ,SMD , dB,H=1.85 ,; ,3.00MM ,STRAIGHT ,RF ADAP KMS-518U1003 VCTCXO EXSK0007802 19.2 MHz,1.5 PPM,10 pF,SMD ,3.3*2.5*1.0 , ,; , ,2PPTG-5010LH(19.2M)-75AU1004 IC EUSY0306201 Micro pak ,8 PIN,R/TP ,D Flip Flip NC7SZ74L8XU1005 COUPLER,RF DIRECTIONAL SCDY0003901 19.8 dB,0.28 dB,33 dB,1.0*0.5*0.4 ,SMD ,Pb-free_CoLDC15836M20Q-360U1006 COUPLER,RF DIRECTIONAL SCDY0003801 20.5 dB,0.25 dB,34 dB,1.0*0.5*0.4 ,SMD ,Pb-free_CoLDC151G8820Q-359U1007 IC EUSY0295701 SON5-P-0.50 ,5 PIN,R/TP ,OR GATE(max 0.6T), Pb TC7SH32FEU1008 PAM SMPY0017301 dBm, %, A, dBc, dB,4x5 ,SMD , ,; , , , , , , , ,R/TP ,R/TACPM-7353U1009 IC EUSY0343601 , PIN,R/TP ,Rx Tx 1chip ,; ,IC,Tx/Rx RTR6500U2000 IC EUSY0362902 BGA ,543 ,R/TP ,CSP,Rev A, Standalone AP, MPEG MSM7500A-64TU3001 IC EUSY0369501 Micro SMD ,36 ,R/TP ,Stereo Class D, Capless HP ,; LM49250RLXU3002 IC EUSY0254201 DFN ,12 PIN,R/TP ,Dual SPDT Analog Switch(Pb FreNLAS3158MNR2GU3004 IC EUSY0378101 FBGA ,204 ,ETC ,FULLY 1.8V 4G(256Mx16) ONENAKBN00300HA-A439U4000 X-TAL EXXY0024301 32.768 KHz,20 PPM,12.5 pF,70 Kohm,SMD ,3.2*1.5*CM315(12.5PF)U4001 IC EUSY0360601 WLP ,81 ,R/TP ,for 3G&MSM7xxx PMIC, 4.5x4.5 ,; ,ICMAX8694LEWGU4002 IC EUSY0227205 Micro SMC ,20 PIN,R/TP ,MM PM ,; ,IC,DC,DC Conv LP8720TLXU4003 IC EUSY0278501 SON5-P-0.50 ,5 PIN,R/TP ,INVERTER GATE, Pb FreTC7SH04FSU4005 IC EUSY0300101 WQFN ,10 PIN,R/TP ,Small package Dual SPDT ana NLAS5223BMNR2GU4006 OSCILLATOR EXSY0024601 26 MHz,50 PPM,15 pF,SMD ,32*25*1.05 ,VX11000 OSG-310SEFU5000 IC EUSY0370301 VCSP50L3 ,36 ,R/TP ,ALC, AIE ,; ,IC,Charge Pump BD6088GULU5001 IC EUSY0386501 uQFN10 ,10 ,R/TP ,DPDT USB 2.0 High Speed AnaloDG2722U5004 IC EUSY0320201 TFBGA ,36 PIN,R/TP ,USB2.0 Transceiver, 3.5X3.5XISP1508AETU5005 IC EUSY0370301 VCSP50L3 ,36 ,R/TP ,ALC, AIE ,; ,IC,Charge Pump BD6088GULU6000 OSCILLATOR EXSY0020505 36 MHz,50 PPM,15 pF,SMD ,3.2*2.5*1.05 ,2.7V ~ 3.6SG-8002CE-SCB(36M)U6002 IC EUSY0264502 DFN ,14 PIN,R/TP ,700mA Boost converter ,; ,IC,DC,AAT1270IFO-T1U7000 IC EUSY0140901 SSOP5-P-0.65 ,5 PIN,R/TP ,XOR GATE, Pb Free TC7SZ86FUU7001 IC EUSY0366801 BGA ,96 ,R/TP ,MDDI, SCALIER ,; ,IC,Mobile Pixel L S1D13775B00B60LU7002 IC EUSY0140901 SSOP5-P-0.65 ,5 PIN,R/TP ,XOR GATE, Pb Free TC7SZ86FUU7004 IC EUSY0337101 CSP ,12 PIN,R/TP ,Touchscreen Controller IC , ,IC,A TSC2007IYZGRU7005 IC EUSY0349001 BGA ,8 PIN,R/TP ,Class AB SPK AMP ,; ,IC,Audio AmTPA6205A1ZQVRU7008 IC EUSY0350101 WFBGA ,65 PIN,R/TP ,Bluetooth V2.1 5x5x0.8 ,; ,IC,BBCM2046SB1KUFBXGU8000 IC EUSY0300004 QFN ,28 ,R/TP ,Keycoder ic, 28pin, 64keys ,; ,IC,Ana PP2106M2U8001 IC EUSY0263301 SC-88(2.0x2.1) ,6 PIN,R/TP ,Single SPDT Switch, PbNLAS4157DFT2G
VX11000 Component List : LCD FPCBRef No Part Name Part Number Spec Maker P/NSPCY00 PCB,FLEXIBLE SPCY0159301 POLYI , mm,MULTI-6 , ,; , , , , , , , , , SPCY0159301SACD00 PCB ASSY,FLEXIBLE,SMT TOP SACD0073901C107 CAP,CERAMIC,CHIP ECCH0005604 10000000 pF,6.3V ,M ,X5R ,TC ,1608 ,R/TP , , GRM188R60J106ME47DCON102 CONNECTOR,BOARD TO BOARENBY0031501 70 PIN,0.4 mm,ETC , ,H=1.5, Socket AXT370164Q100 TR,FET,N-CHANNEL EQFN0005601 ESM ,100 mW,30 V,100 mA,R/TP , KTK5132ER105 RES,CHIP,MAKER ERHZ0000244 22 Kohm,1/16W ,F ,1005 ,R/TP MCR01MZSF2202
R106 RES,CHIP,MAKER ERHZ0000405 10 Kohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ103SACC00 PCB ASSY,FLEXIBLE,SMT BOTTSACC0060701C100 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC101 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC102 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTC103 CAP,CHIP,MAKER ECZH0000813 100 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H101JTCON100 CONNECTOR,FFC/FPC ENQY0008602 6 PIN,0.5 mm,ETC ,AU ,H:1.2MM 04-6298-006-000-883CON101 CONNECTOR,BOARD TO BOARENBY0042801 80 PIN,0.4 mm,ETC , , ,; , ,0.40MM ,[empty] ,MAAXT680124LED100 DIODE,LED,CHIP EDLH0005901 White ,1608 ,R/TP ,White LED LEWW-S14LED101 DIODE,LED,CHIP EDLH0005901 White ,1608 ,R/TP ,White LED LEWW-S14LED102 DIODE,LED,CHIP EDLH0005901 White ,1608 ,R/TP ,White LED LEWW-S14R107 RES,CHIP,MAKER ERHZ0000491 510 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ511R108 RES,CHIP,MAKER ERHZ0000491 510 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ511R110 RES,CHIP,MAKER ERHZ0000491 510 ohm,1/16W ,J ,1005 ,R/TP MCR01MZSJ511
VX11000 Component List : Sensor FPCBRef No Part Name Part Number Spec Maker P/NSPCY00 PCB,FLEXIBLE SPCY0162501 POLYI ,0.2 mm,DOUBLE , ,; , , , , , , , , , SPCY0162501SACD00 PCB ASSY,FLEXIBLE,SMT TOP SACD0074101C100 CAP,CERAMIC,CHIP ECCH0002001 100000 pF,6.3V ,K ,B ,HD ,1005 ,R/TP C1005JB0J104KTC101 CAP,CERAMIC,CHIP ECCH0006201 4.7 uF,6.3V ,K ,X5R ,TC ,1608 ,R/TP C1608X5R0J475KTC103 CAP,CERAMIC,CHIP ECCH0000149 3.3 nF,50V,K,X7R,HD,1005,R/TP MCH155CN332KKC104 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC105 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC106 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTC107 CAP,CHIP,MAKER ECZH0000830 33 pF,50V ,J ,NP0 ,TC ,1005 ,R/TP C1005C0G1H330JTR100 RES,CHIP,MAKER ERHZ0000240 20 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF20R0R102 RES,CHIP,MAKER ERHZ0000205 1 Mohm,1/16W ,F ,1005 ,R/TP MCR01MZSF1004R103 RES,CHIP,MAKER ERHZ0000240 20 ohm,1/16W ,F ,1005 ,R/TP MCR01MZSF20R0U100 IC EUSY0391401 QPDS-9800L
VX11000 Component List : Sidekey FPCBRef No Part Name Part Number Spec Maker P/NSPKY00 PCB,SIDEKEY SPKY0066701 POLYI ,.58 mm,DOUBLE ,F_VOL ,; , , , , , , , , ,SAKD00 PCB ASSY,SIDEKEY,SMT TOP SAKD0001501SW100 SWITCH,TACT ESCY0006101 15 V,20 mA,HORIZONTAL ,1 G, ,; ,1C1P ,[empEVPAHBD6A