GSM TELEPHONE SGH-E630
SERVICE GSM TELEPHONE
Manual
CONTENTS 1.
Specification
2.
Circuit Description
3.
Exploded Views and Parts List
4.
Electrical Parts List
5.
Block Diagrams
6.
PCB Diagrams
7.
Flow Chart of Troubleshooting
ELECTRONICS
ⓒ Samsung Electronics Co.,Ltd. Sep. 2004
Printed in Korea. This Service Manual is a property of Samsung Electronics Co.,Ltd. Any unauthorized use of Manual can be punished under applicable International and/or domestic law.
Code No.: GH68-05360A BASIC.
1. SGH-E630 Specification 1. GSM General Specification GS M9 0 0 Ph a se 1
E GS M 9 0 0 Ph a se 2
DC S 1 8 0 0 P h as e 1
PC S1 9 0 0
F r eq . B a n d [M Hz ] Up l in k / Do w n li n k
8 9 0 ~9 1 5 9 3 5 ~9 6 0
8 8 0 ~9 1 5 9 2 5 ~9 6 0
1 7 1 0 ~1 7 8 5 1 8 0 5 ~1 8 8 0
1 8 5 0 ~1 9 1 0 1 9 3 0 ~1 9 9 0
A RF C N r a n g e
1 ~1 2 4
0~124 & 9 7 5 ~1 0 2 3
5 1 2 ~8 8 5
5 1 2 ~8 1 0
T x /R x s p ac in g
4 5 MHz
4 5 MHz
9 5 M Hz
8 0 MH z
Mo d . B i t r at e/ Bi t Pe r i o d
270.833kbps 3.692us
2 7 0 .8 3 3 k b p s 3 .6 9 2 u s
270.833kbps 3.692us
2 7 0 .8 3 3 k b p s 3 .6 9 2 u s
Ti me Sl o t P er io d / F r am e P er i o d
576.9us 4 .6 1 5 m s
5 7 6 .9 u s 4 .6 1 5 m s
576.9us 4 .6 1 5 m s
5 7 6 .9 u s 4 .6 1 5 ms
Mo d u l a ti o n
0 .3 G MS K
0 .3 G MS K
0 .3 GM SK
0 .3 GM SK
M S P o we r
3 3 d Bm ~1 3 d B m
3 3 d Bm ~5 d B m
3 0 d B m ~0 d B m
3 0 d B m~0 d B m
Po w er C l as s
5 p cl ~ 1 5 p c l
5pcl ~ 19pcl
0pcl ~ 15pcl
0pcl ~ 15pcl
Se n si t iv i t y
-102dBm
- 1 0 2 d Bm
-100dBm
-100dBm
TDM A M u x
8
8
8
8
C el l Ra d iu s
3 5 Km
3 5 Km
2 Km
-
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SGH-E630 Specification
2. GSM TX power class TX Power control level
GSM900
TX Power
DCS1800
control level
TX Power control level
PCS1900
5
33±2 dBm
0
30±2 dBm
0
30±2 dBm
6
31±2 dBm
1
28±3 dBm
1
28±3 dBm
7
29±2 dBm
2
26±3 dBm
2
26±3 dBm
8
27±2 dBm
3
24±3 dBm
3
24±3 dBm
9
25±2 dBm
4
22±3 dBm
4
22±3 dBm
10
23±2 dBm
5
20±3 dBm
5
20±3 dBm
11
21±2 dBm
6
18±3 dBm
6
18±3 dBm
12
19±2 dBm
7
16±3 dBm
7
16±3 dBm
13
17±2 dBm
8
14±3 dBm
8
14±3 dBm
14
15±2 dBm
9
12±4 dBm
9
12±4 dBm
15
13±2 dBm
10
10±4 dBm
10
10±4 dBm
16
11±3 dBm
11
8±4dBm
11
8±4dBm
17
9±3dBm
12
6±4 dBm
12
6±4 dBm
18
7±3 dBm
13
4±4 dBm
13
4±4 dBm
19
5±3 dBm
14
2±5 dBm
14
2±5 dBm
15
0±5 dBm
15
0±5 dBm
SAMSUNG Proprietary-Contents may change without notice 1-2
2. SGH-E630 Circuit Description 1. SGH-E630 RF Circuit Description 1) RX PART 1. FEM(U205) → Switching Tx, Rx path for GSM900, DCS1800 and PCS1900 by logic controlling. 2. ASM Control Logic (U100, U207) → Truth Table VC_1
VC_2
VC_3
GSM/DCS Rx Mode
L
L
L
PCS Rx Mode
L
L
H
GSM Tx Mode
H
L
L
DCS/PCS Tx Mode
L
H
L
3. FILTER To convert Electromagnetic Field Wave to Acoustic Wave and then pass the specific frequency band. - GSM FILTER (L100,L101,L102) → For filtering the frequency band between 925 ~ 960 MHz. - DCS FILTER (L104,L105,L107) → For filtering the frequency band 1805 and 1880 MHz. - PCS FILTER (L108, C151, C152) → For filtering the frequency band 1930 and 1990 MHz. 4. TC-VCXO (U101) To generate the 26MHz reference clock to drive the logic and RF. After additional process, the reference clock applies to the U100 Rx IQ demodulator and Tx IQ modulator. The oscillator for RX IQ demodulator and Tx modulator are controlled by serial data to select channel and use fast lock mode for GPRS high class operation. 5. UAA3536HN (U100) This chip integrates two differential-input LNAs. The GSM input supports the E-GSM, DCS input supports the DCS1800. The LNA inputs are matched to the 200 ohm differential output SAW filters through eternal LC matching network. Image-reject mixer downconverts the RF signal to a 100 KHz intermediate frequency (IF) with the RFLO from VOL1861 frequency synthesizer. The RFLO frequency is between 1801 ~ 1921 MHz. The Mixer output is amplified with an analog programmable gain amplifier (PGA), which is controlled by AGAIN. The quadrature IF signal is digitized with high resolution A/D converts (ADC).
2) TX PART Baseband IQ signal fed into offset PLL, this function is included inside of U100 chip. UAA3536HN chip generates modulator signal which power level is about 1.5dBm and fed into Power Amplifier(U201). The PA output power and power ramping are well controlled by Auto Power Control circuit. We use offset PLL below table.
2-1
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Circuit Description
200kHz offset 30 kHz bandwidth
Modulation Spectrum
400kHz offset 30 kHz bandwidth
600kHz ~ 1.8MHz offset 30 kHz bandwidth
GSM
-35dBc
DCS
-35dBc
PCS
-35dBc
GSM
-66dBc
DCS
-65dBc
PCS
-66dBc
GSM
-75dBc
DCS
-68dBc
PCS
-75dBc
2. Baseband Circuit description of SGH-E630 1. PCF50601 1.1. Power Management Ten low-dropout regulators designed specifically for GSM applications power the terminal and help ensure optimal system performance and long battery life. A programmable boost converter provides support for 1.8V, 3.0V, and 5.0V SIMs, while a self-resetting, electronically fused switch supplies power to external accessories. Ancillary support functions, such as RTC module and High Voltage Charge pump, Clock generator, aid in reducing both board area and system complexity. I2C BUS serial interface provides access to control and configuration registers. This interface gives a microprocessor full control of the PCF50601 and enables system designers to maximize both standby and talk times. Supervisory functions. including a reset generator, an input voltage monitor, and a temperature sensor, support reliable system design. These functions work together to ensure proper system behavior during start-up or in the event of a fault condition (low microprocessor voltage, insufficient battery energy, or excessive die temperature). 1.2. LCD Backlight Brightness Controler (MAX1574) The Backlight Brightness is controled by Main chip(OM6357_7) through the MAX1574 charge pump. The MAX1574 charge pump drives three white LED's with regulated constant current for uniform intensity. The MAX1574 uses an external resistor to set the full scale 100% LED current. An enable input (EN-"BACKLIGHT") is used for simple on/off control or can be pulsed repeatedly to set lower LED current in multiple steps down to 5%. Once the desired brightness is set, the MAX1574 maintains constant LED current as long as EN is kept high. If EN is kept low for more than 2ms, the MAX1574 enters shutdown. When the LEDs are enabled by driving EN high, the MAX1574 goes through soft-start, bringing the LED current up to ILED_. Dimming is then done by pulsing EN low (500ns to 500µs pulse width). Each pulse reduces the LED current by 10%, so after one pulse the LED current is 0.9 x ILED. The tenth pulse reduces the current by 5%, so the ILED_ current reduces from 0.1 x ILED_ to 0.05x ILED. The eleventh pulse sets the LED current back to ILED_. 1.3. Clock Generator The Clock Generator (CG) generates all clocks for internal and external usage. The 32768 Hz crystal oscillator provides an accurate low clock frequency for the PCF50601 and other circuitry.
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Circuit Description
2. Connector 2-1. LCD Connector LCD is consisted of main LCD(color 65K TFT LCD). Chip select signals in the U400, LCD_MAIN_CS, can enable LCD. BACKLIGHT signal enables white LED of main LCD. This signal is from IO part of the DSP in the U300(Main Chip). "LCD_RESET" signal initiates the Reset process of the LCD. 16-bit data lines(LD(0)~LD(15)) transfers data and commands to LCD through by pass capacitor. Data and commands use "RS" signal. If this signal is high, Inputs to LCD are commands. If it is low, Inputs to LCD are data. The signal which informs the input or output state to LCD, is required. But this system is not necessary this signal. So "L_WR" signal is used to write data or commands to LCD. Power signals for LCD are "VBAT and "VDD2". "SPK_P" and "SPK_N" from OM6357 are used for audio speaker. And "VDD_VIB" from PCF50601 enables the motor. 2-3. IrDA This system uses IrDA module, HSDL_3208, Agilent's. This has signals, "IrDA_DOWN" (enable signal), "RXD0" (input data) and "TXD0" (output data). These signals are connected to OM6357. A power signals, "VDD2" is used for circuit and LED. 2-4. Key This is consisted of key interface pins among OM6357, KBIO[0~7]. These signals compose the matrix. Result of matrix informs the key status to key interface in the OM6357. Power on/off key is seperated from the matrix. So power on/off signal is connected with PCF50601 to enable PCF50601. Key LED is consisted of
four white LED for sub key and six white LED for main key. Key LED use the "BLVDD"
supply voltage. Main key LED is controlled by the "VDD_KEY" supply voltage. "FLIP" informs the status of folder (open or closed) to the OM6357. This uses the hall effect IC, EM-1681-FT. A magnet under main LCD enables EM-1681-FT. 2-5. EMI ESD Filter This system uses the EMI ESD filter, EMIF09 to protect noise from IF CONNECTOR part. 2-6. IF connector It is 18-pin connector. They are designed to use VBAT, +DCVOLT, TXD0, RXD0, RTS0, CTS0, JIG_REC, CHARGER_OK, RXD1, TXD1 and GND. They connected to power supply IC, microprocessor and signal processor IC.
3. Battery Charge Management A complete constant-current/constant-voltage linear charger for single cell lithium-ion batteries. If TA connected to phone, "+DCVOLT" enable charger IC and supply current to battery. when fault condition caused, "CHG_ON" signal level change low to high and charger IC stop charging process.
4. Audio EARP_P and EARP_N from OM6357 are connected to the main speaker. AUXSP is connected to the Hands free kit. MIC_P and MIC_N are connected to the main MIC. And AUX_MIC_P and AUX_MIC_N are connected to the Hands free kit. 2-3
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Circuit Description
YMU765MA5 is a LSI for portable telephone that is capable of playing high quality music by utilizing FM synthesizer and ADPCM decorder that are included in this device. As a synthesis, YMU765MA5 is equipped 32 FM voices and 32 Wave Table voices. Since the device is capable of simultaneously generating up to synchronous with the play of the FM synthesizer, various sampled voices can be used as sound effects. Since the play data of YMU765MA5 are interpreted at anytime through FIFO, the length of the data(playing period) is not limited, so the device can flexiblysupport application such as incoming call melody music distribution service. The hardware sequencer built in this device allows playing of the complex music without giving excessive load to the CPU of the portable telephones. Moreover, the registers of the FM synthesizer can be operated directly for real time sound generation, allowing, for example, utilization of various sound effects when using the game software installed in the portable telephone. YMU765MA5 includes a speaker amplifier with high ripple removal rate whose maximum output is 580mW (SPVDD=3.6V). The device is also equipped with conventional function including a vibartor and a circuit for controlling LEDs synchornous with music. For the headphone, it is provided with a stereophonic output terminal. For the purpose of enabling YMU765MA5 to demonstarte its full capablities, Yamaha purpose to use "SMAF:Synthetic music Mobile Application Format" as a data distribution format that is compatible wiht multimedia. Since the SMAF takes a structure that sets importance on the synchronization between sound and images, various contents can be written into it including incoming call melody with words that can be used for traning karaoke, and commercial channel that combines texts, images and sounds, and others. The hardware sequencer of YMU765MA5 directly interprets and plays blocks relevant to systhesis (playing music and reproducing ADPCM with FM synthesizer) that are included in data distributed in SMAF.
5. Memory signals in the OM6357_7 enable two memories. They use only one volt supply voltage, VDD3 in the PCF50601. This system uses Samsung's memory, KBB06B400M-F402. It is consisted of 128M bits flash NOR memory and 256M bits flash NAND memory and 64M bits SCRAM. It has 16 bit data line, HD[0~15] which is connected to OM6357_7 and MV317S. It has 26 bit address lines, HA[1~26]. CS_NAND and NCSRAM signals is chip select.
Wrting process,
HWR_N is low and it enables writing process to flash memory and SRAM. During reading process, HRD_N is low and it enables reading process to flash memory and SRAM. Each chip select signals in the OM6357_7 select memory among 2 flash memory and SCRAM. Reading or writing procedure is processed after HWR_N or HRD_N is enabled. Memories use reset, which is VDD3 delay from PCF50601. HA[25] signal enables lower byte of SRAM and HA[26] signal enables higher byte of SRAM.
6. OM6357_7 OM6357_7 is consisted of ARM core and DSP core. It has 8x1Kword on-chip program/data RAM, 55 Kwords on-chip program ROM in the DSP. It has 4K*32bits ROM and 2K*32bits RAM in the ARM core. DSP is consisted of KBS, JTAG, EMI and UART. ARM core is consisted of EMI, PIC(Programmable Interrupt Controller), reset/power/clock unit, DMA controller, TIC(Test Interface Controller), eripheral bridge, PPI, SSI(Synchronous Serial Interface), ACC(Asynchronous communications controllers), timer, ADC, RTC(Real-Time Clock) and keyboard interface. KBIO(0:7), address lines of DSP core and HD[0~15]. HA[1~26], address lines of ARM core and HD[0~15], data lines of ARM core are connected to memory, YMU765. MV317S(Camera DSP Chip) controls the communication between ARM core and DSP core. 2-4
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Circuit Description
CS_NAND, NCSRAM, NCSFLASH in the ARM core are connected to each memory. HWR_N and HRD_N control the process of memory. External IRQ(Interrupt ReQuest) signals from each units, such as, PMU need the compatible process. KBIO[0~7] receive the status from key and RXD0/TXD0/irDA_DOWN are used for the communicatios using IRDA and data link cable(DEBUG_DTR/RTS/TXD/RXD/CTS/DSR). It has JTAG control pins(TDI/TDO/TCK) for ARM core and DSP core. It recieves 13MHz clock in CKI pin from external TCXO. ADC(Analog to Digital Convertor) part receives the status of temperature, battery type and battery voltage. 7. Camera DSP (MV317SAQ) Tiger is an Integrated circuit for mobile phone camera.
This structure will allow effectiveness for large data management
and significantly reduces main processor will get burden. In hence, Tiger will allow the user to be able to display to LCD direct without burdening the main processor. It also allows to have various kinds of display size on the LCD and snapshot for Jpeg. Digital effect will also be executed on real time base resulting Tiger as being a video co-processor in the mobile platform. Also,an i80 type processor’ s 16bit parallel interface of Tiger makes it available for the CPU to interchange the data with Tiger. As the additional 8Mbit is usable except 2Mbit buffer embedded in Tiger, the diverse UI data processing which is not a burden to the CPU is available.
JPEG encoder and decoder are baseline ISO/IEC 10918-1 JPEG compliance
(DCT-based). JPEG decoder supports YUV444, YUV422, YUV420 and YUV411 format standard JPEG image.
2-5
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3. SGH-E630 Exploded View and its Parts list 1. Cellular phone Exploded View
QMW02
QFU01
QFR01
QVO01
QCK01
QKP02 QMO01 QSP01
QLC01
QKP01
QCR05 QMP02 QME02
QCA02
QPC01
QMI01 QME01
QVK01
QMP01 QFL01
QCA01
QAN02
QCR26 QSC02 QRE01
QIF01
QCW01
QRF01 QCR31
QBA21
3-1
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Exploded view and its Part list
2. Cellular phone Parts list Location
Description
NO.
SEC CODE
QMW02
WINDOW LCD
GH72-15021A
QFU01
MEC-SLIDE UPPER
GH75-04606A
QKP02
KEYPAD SUB
GH75-04612A
QMP02
LCD PBA
GH92-01846A
QME02
LCD METAL DOME
GH59-01438A
QFL01
MEC-SLIDE LOWER
GH75-04607A
QSP01
SPEAKER
3001-001575
QMO01
MOTOR
GH31-00098A
QLC01
LCD
GH07-00561A
QCR26
SCREW MACHINE
6001-001850
QFR01
FRONT COVER
GH75-04605A
QKP01
KEYPAD MAIN
GH75-04611A
QIF01
IF CONN COVER
GH72-15017A
QMP01
MAIN PBA
GH92-01889A
QVK01
UNIT VOLUME KEY
GH59-01436A
QME01
UNIT METAL DOME
GH59-01437A
QCA02
UNIT CAM KEY
GH59-01435A
QCR05
SCREW
6001-001478
QMI01
MICROPHONE ASSY
GH30-00134A
QCK01
MEC CAM KEY
GH75-04610A
QCR31
SCREW
6001-001795
QVO01
MEC SIDE KEY
GH75-04609A
QRE01
MEC REAR COVER
GH75-04608A
QRF01
RF COVER
GH74-09508A
QBA21
BATTERY
GH43-01447A
QPC01
PCB-FPCB
GH41-00637A
QCA01
UNIT CAMERA
GH59-01464A
QSC02
SCREW CAP
GH74-11226A
QAN02
INTENNA
GH42-00457A
QCW01
WINDOW CAMERA
GH75-05299A
3-2
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Remark
Exploded view and its Part list
3. Test Jig (GH80-01909A)
3-1. RF Test Cable
3-2. Test Cable
(GH39-00182A)
3-3. Serial Cable
(GH39-00217A)
3-4. Power Supply Cable
3-5. DATA CABLE (GH39-00219A)
3-6. TA (GH44-00483A)
3-3
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4. SGH-E630 MAIN Electrical Parts List M A I N
SEC CODE
Design LOC
SEC CODE
Design LOC
1405-001082
V601
0403-001387
ZD600
1405-001082
V700
0504-000168
Q801
1405-001082
0504-001151
U206
1405-001082
V702 V703
V701
0504-001151
U207
1405-001082
0506-000107
U801
1405-001082
0601-001790
LED700
1405-001082
V705
0601-001790
LED701
1405-001082
V706
0601-001790
LED702
1405-001082
0601-001790
LED703
1405-001082
V801
1405-001082
V802
0601-001790
LED706
V704
V707
0601-001790
LED709
1405-001082
0604-001261
U601
1405-001082
V804
0801-002237
U409
1405-001082
V805
0801-002882
U301
1405-001082
V803
V812
0801-002882
U403
1405-001082
V814
0801-002882
U405
1405-001093
1001-001253
U702
1405-001093
1203-003109
U602
1405-001138
V808
1204-002138
U402
1405-001138
V809
1205-002327
U100
1405-001138
V810
1205-002350
U500
2007-000138
R616
1404-001221
V600
2007-000140
R125
1405-001082
V201
2007-000140
R416 R700
V503 V504
1405-001082
V202
2007-000140
1405-001082
V203
2007-000141
1405-001082
V204
2007-000141
R303
1405-001082
V205
2007-000141
R304
1405-001082
V501
2007-000141
1405-001082
V502
2007-000141 4-1
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R126
R412 R415
Electrical Parts List
SEC CODE
Design LOC
SEC CODE
Design LOC
2007-000141
R421
2007-000162
R615
2007-000141
R708
2007-000162
R703
2007-000143
R406
2007-000162
R722
2007-000144
R736
2007-000162
R728
2007-000145
R203
2007-000162
R801
2007-000148
R108
2007-000171
R204
2007-000148
R209
2007-000171
R207
2007-000148
R210
2007-000171
R424
2007-000148
R301
2007-000171
R429
2007-000148
R312
2007-000171
R802
2007-000148
R500
2007-000171
R803
2007-000148
R706
2007-000171
R804
2007-000148
R731
2007-000171
R805
2007-000157
R604
2007-000171
R806
2007-000162
R300
2007-000172
R727
2007-000162
R305
2007-000172
R730
2007-000162
R306
2007-000174
R122
2007-000162
R315
2007-000566
R106
2007-000162
R407
2007-000566
R107
2007-000162
R408
2007-000566
R606
2007-000162
R410
2007-000758
R605
2007-000162
R411
2007-000982
R116
2007-000162
R413
2007-000982
R117
2007-000162
R418
2007-000982
R118
2007-000162
R425
2007-000982
R119
2007-000162
R428
2007-001301
R711
2007-000162
R600
2007-001301
R712
2007-000162
R601
2007-001301
R713
2007-000162
R602
2007-001301
R714
2007-000162
R603
2007-001301
R715
4-2
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Electrical Parts List
SEC CODE
Design LOC
SEC CODE
Design LOC
2007-001301
R716
2203-000233
C422
2007-001305
R112
2203-000233
C825
2007-001313
R401
2203-000254
C301
2007-001319
R704
2203-000254
C302
2007-001320
R725
2203-000254
C411
2007-001325
R403
2203-000254
C413
2007-001325
R726
2203-000254
C507
2007-003001
R114
2203-000278
C229
2007-003030
R110
2203-000278
C230
2007-007001
R302
2203-000278
C701
2007-007014
R400
2203-000278
C709
2007-007014
R402
2203-000278
C713
2007-007015
R404
2203-000278
C734
2007-007096
R104
2203-000386
C538
2007-007100
R501
2203-000386
C539
2007-007148
R121
2203-000425
L104
2007-007148
R405
2203-000425
L107
2007-007311
R105
2203-000438
C134
2007-007470
R505
2203-000438
C402
2007-007697
R610
2203-000438
C418
2203-000233
C101
2203-000438
C725
2203-000233
C109
2203-000550
C104
2203-000233
C132
2203-000550
C428
2203-000233
C137
2203-000550
C429
2203-000233
C147
2203-000585
C102
2203-000233
C148
2203-000585
C131
2203-000233
C216
2203-000585
C149
2203-000233
C217
2203-000585
U475
2203-000233
C410
2203-000585
U476
2203-000233
C414
2203-000609
C142
4-3
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Electrical Parts List
SEC CODE
Design LOC
SEC CODE
Design LOC
2203-000643
C431
2203-005061
C311
2203-000679
C144
2203-005061
C312
2203-000679
C146
2203-005061
C313
2203-000679
C401
2203-005061
C314
2203-000679
C801
2203-005061
C315
2203-000725
C408
2203-005061
C316
2203-000812
C202
2203-005061
C317
2203-000812
C303
2203-005061
C318
2203-000812
C308
2203-005061
C319
2203-000854
C1127
2203-005061
C320
2203-000885
C516
2203-005061
C403
2203-000940
C222
2203-005061
C404
2203-000995
C231
2203-005061
C407
2203-000995
C232
2203-005061
C412
2203-000995
C708
2203-005061
C421
2203-001017
C726
2203-005061
C500
2203-001652
C513
2203-005061
C501
2203-001652
C524
2203-005061
C503
2203-002443
C705
2203-005061
C600
2203-002525
C120
2203-005061
C707
2203-005050
C710
2203-005061
C712
2203-005057
C123
2203-005138
C118
2203-005057
C124
2203-005383
C112
2203-005057
C136
2203-005446
C203
2203-005061
C304
2203-005480
C127
2203-005061
C305
2203-005481
C129
2203-005061
C306
2203-005482
C103
2203-005061
C307
2203-005482
C122
2203-005061
C309
2203-005482
C125
2203-005061
C310
2203-005482
C135
4-4
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Electrical Parts List
SEC CODE
Design LOC
SEC CODE
Design LOC
2203-005482
C150
2203-006093
C534
2203-005482
C209
2203-006093
C706
2203-005482
C212
2203-006190
C204
2203-005482
C300
2203-006190
C205
2203-005482
C424
2203-006190
C208
2203-005482
C426
2203-006190
C405
2203-005482
C432
2203-006208
C502
2203-005482
C509
2203-006208
C508
2203-005482
C511
2203-006208
C510
2203-005482
C519
2203-006208
C515
2203-005482
C520
2203-006208
C517
2203-005482
C537
2203-006208
C518
2203-005482
C604
2203-006208
C521
2203-005482
C722
2203-006208
C528
2203-005482
C727
2203-006208
C529
2203-005482
C810
2203-006257
C606
2203-005482
C814
2203-006257
C608
2203-005482
C826
2301-001197
C119
2203-005496
C535
2301-001213
C121
2203-005496
C602
2404-001105
C720
2203-006053
C525
2404-001134
C211
2203-006090
C607
2404-001164
C605
2203-006093
C133
2404-001268
C522
2203-006093
C138
2404-001268
C523
2203-006093
C406
2404-001268
C527
2203-006093
C409
2404-001268
C601
2203-006093
C526
2404-001305
C700
2203-006093
C530
2404-001339
C425
2203-006093
C531
2703-002200
L101
2203-006093
C533
2703-002201
L807
4-5
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Electrical Parts List
S U B
SEC CODE
Design LOC
2703-002201
L808
SEC CODE
Design LOC
2703-002208
L100
0403-001427
ZD1
2703-002208
L102
0407-001002
D1
2703-002267
L201
0601-001819
D2
2703-002314
L200
0601-001819
D3
2703-002636
L105
0601-001819
D4
2801-003747
OSC500
0601-001819
D5
2806-001329
OSC401
1405-001082
V1
2901-001246
U600
1405-001082
V2
2901-001286
F800
1405-001082
V3
2901-001286
F801
1405-001082
V4
2901-001286
F802
1405-001082
V5
2901-001286
F803
1405-001082
V6
3301-001105
L500
1405-001082
V7
3301-001362
L301
1405-001082
V8
3301-001362
L400
1405-001082
V9
3301-001438
L700
2007-000162
R6
3301-001438
L701
2007-001301
R2
3301-001438
R741
2007-001301
R3
3301-001438
R742
2007-001301
R4
3705-001287
CN201
2007-001301
R5
3711-005558
CN603
2007-008137
R1
4302-001130
M500
2203-005061
C5
GH13-00020A
U400
2203-005061
C6
2203-005061
C7
2203-005065
C9
2203-005482
C10
2203-005496
C4
2203-006093
C1
4-6
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5. SGH-E630 Block Diagrams 1. RF Solution Block Diagram
5-1
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Block Diagrams
2. Base Band Solution Block Diagram
MIC
BB INTERFACE Serial Data Interface
RECEIVER SPEAKER
VIBRATOR
OM6357_7
Battery Type Battery Voltage
I/O Interface
Battery Temperature
A/D Interface
VCC_CP VCC_SYN
MELODY IC (64 Poly)
RF INTERFACE
VCC_RX_TX VCC_RF_VCO
SYSTEM CLOCK (13MHz)
AFC
VCC_TX_BURST
CAMERA VDD1 MV317S
RAMP
VDD2
FLASH NOR (128M bit) NAND 256M (256M bit) SRAM (64M bit)
VDD3 VDD_VIB Li-Ion Battery (Standard)
MIC_BIAS
PMU
VDD_KEY
LCD
VDD_AMP KEY_BOARD
Charging Circuit
RTC_CLOCK (32.768KHz)
SIM CARD
AVDD AVDD_TEMP BL_VDD
5-2
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6. SGH-E630 PCB Diagrams 1. Main PCB Top Diagram
6-1
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PCB Diagrams
2. Main PCB Bottom Diagram
6-2
SAMSUNG Proprietary-Contents may change without notice This Document can not be used without Samsung's authorization
7. SGH-E630 Flow Chart of Troubleshooting 1. Power On
' Power On ' does not work Yes
Check the Battery Voltage is more than 3.4V
No Change the Battery
Yes
No C513(V_ISUP) = 2.7V?
Check the PMU related to V_ISUP
Yes
Check the Clock at R501=32KHZ
No Resolder X1
Yes
No C530 (VDD1) = "H"?
Check the VDD1 circuit
Yes
C529(VDD2) & C528(VDD3) = 2.8V?
No Check the VDD2,VDD3 circuit
Yes
Check for the clock at C137 = 13MHz
No
Check the clock generation circuit (related to U100)
Yes
Check the initial operation
Yes END
7-1
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7-2
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This Document can not be used without Samsung's authorization
2V1
2V7
3V25
2V7
2V7
2V7
2V7
1V35 2V35
2V85
MIC_BIAS
V_ISUP
BL_VDD
VCC_SYN
VCC_RX_TX
VCC_RF_VCO
VCC_RX_BURST
VDD1
VDD2
2V65
2V65
3V05
2V95
4V
AVDD
AVDD_TEM P
VDD_AMP
VDD_KEY
VCC_CP
5V
3V
3V05
VDD_VIB
SIMVD D
2V85
VDD3
C528 1UF
1UF
1UF
C529 1UF
C530
G
C527
ovdd
VSS21 VSS20 VSS19 VSS18 VSS17 VSS16 VSS15 VSS14 VSS13 VSS12 VSS11 VSS10 VSS9 VSS8 VSS7 VSS6 VSS5 VSS4 VSS3 VSS2 VSS1
TYP
DVDD T
SIGNAL
PUMP+ LINREG )
(CHARGE
DVDD4 DVDD4VBA DVDD4ON DVDD3 DVDD3 DVDD3VBA SEL3RB DVDD2 DVDD2
VCC C2 CLK C3 RST C1 IO D2
C524 470NF
C526 10UF 6.3V
NC 2 1 NC
HVSVBATC8 HVSGNDB9 HVSSCPC9 HVSSCNA10 HVSO C B10 HVSVDDD8
CHRVBATD3 CHRREGE2 CHRIV E1
OSC32IK8 K9 OSC32O
CPRESD1 SIMIO B8 SIMCLKC6
K10A5 B5A6B6B3 A3
V_ISUP
G3G2G1 H4 H2H1J1 F8 B4 A4 J8 J9 J7 K7
AVDDS
TYP
1
HFAVD HFAVD HFAVBA HFAVBA
SIGNAL
DVDD
T503 T504
2
VBAT
DVDD T
F1 F3 E9
100NF
HIGH VOLTAGE SUPPLY
CHARGE CONTROL
BATTERY VOLTAGE MONITOR
3 T
V_MODE VIB
htmp
E4 F5 F4 G4J3 G5 K5F6 G6G7 G8F7 E6 E7 D7C7 D6E5 D5D4 C4
DVDD2VBAT
DVDD
VPRO H7
SWITCH
LINREG
CONTROL
SUPPLY &
BACKLIGHT
VBAT
32KHz XTA L OSCILLATO R
T T
VDD3
RF1SW S RF1VDD S RF2SW S RF2VDD S
RFVBAT RF1VDD RF1SNS RF2VDD RF2SNS
BLVBAT BLVD D BBMSW BBMGN D
internal supply
PLL REAL-TIME CLOCK
SIMVBAT
4 D D
VIBVD VIBVBA
VDD_VIB
C520 100NF
E8 F9 E10 J10
H9
G9 G10 F10 H10
B7 A7 C5 A8
ISUPA ISUPD
INTERNAL SUPPLY MODULE
htmp
CLOCK GENERATO R
SIM INTERFACE
AVDD
VDD2
C519 NC
T63
VBAT
VBAT VBACK
TEMP HIGH SENSOR
internal clocks
CONTROL
SIM CHARGE PUMP
C500
A HF
D D T T
VDD1
C523 10UF
U802 3.3K
H6 J4
K4 J5
VBAT
calibration
bias currents
reference voltage
control status data
B2A2 B1A1
D T
Baseband power supply
C522 10UF
470NF
C511 100NF
MICBIAS
refgnd
ON-CHIP REFERENCE & MIC BIAS
12C INTERFACE
ON/OFF
C10
VIB
RF power supply
PON_TX VCC_TX_BURST
PON_SYN VCC_RF_VCO
VCC_RX_TX
VCC_SYN
2.2UF
C515
1UF
C514
C513
V_ISUP
POS
J6
REFC REFGND
SCL SDA
K3 H3 D9 A9 J2K1K2
T IN
1
C508 4.7UF
H8 K6
E3 F2
SLPMOD
C507 10NF
SCL SDA
D10
REC3 REC1 REC2 CLK32 RSTO ONKEY N AUXO GENERATO INTERRUPT
NEG 2
C509 100NF
TM
H5
R
M500 RB414_IV02N
MIC_BIAS
PCF50601ET1-N5
U500
PMU (IC)
VBAT
SIM
SIMSCN SIMSC SIMGND
VBAT
100NF
C501
T500
10K
Baseband power supply
P
BACKLIGH T
IT_PMU JIG_REC RECO 1 JACK_IN 32K RSTO N ONKEY_N CHARGER_O K REF_O N
R500
VDD1
VBAT
1UF
C525
C516
100NF
R501 10M
T501 T502
0
C518 2.2UF
R503
C521 1UF
1
2
NC
C504
VBAT
32K
1 2 3 G G G G 10 9 8 7
CN500 0-0292123-1
VDD_KEY VDD_AM P
AVDD_TEM P
AVDD
VCC_CP
RF power supply
NC
C505
L803 BLM11A102SPT
C517 4.7UF
C512 12PF
SIMIO SIMCLK C506 12PF
100NF
4.7UF
X1 FC-255
C503
C502
SIM_VCC SIM_RST SIM_CLK SIM_IO
4 5 6
SGH-E630 Flow Chart of Troubleshooting
Power On
AVD AVD AVDDVBA AVDDVBA
SEL12RB DVDD1VBA DVDD1
SGH-E630 Flow Chart of Troubleshooting
2. Initial Initial Failure Yes
No
R300 (RSTON) ="H"?
Check the circuit related to reset
Yes
No
Is U403 pin 4,6 (memory CE) OK?
Check the U403
Yes Check the circuit around LCD & U403 (Short or not solder) Yes END
7-3
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7-4
SAMSUNG Proprietary-Contents may change without notice
This Document can not be used without Samsung's authorization
CS_NAND
pin L3
pin G2
pin M6
VDD3
100N C318
F 100N C317
pin P4
VDD3
F
F 100N C316
pin C1
VDD3
100N C319
F 100N C315
pin P8
VDD3
F
F
100N C314
pin H11
VDD2
KBIO 7 KBIO 6 KBIO 5 KBIO 4 KBIO 3 KBIO 2 KBIO 1 KBIO 0
KBS
GPIO
0 0
VDD2
L14 L12 L13 L11 J11 K13 J10 K11
GPIO0 GPIO1 GPIO2 GPIO3 GPIO4 GPIO5 GPIO6 GPIO7 GPIO8 GPIO9 GPIO10
UART0
F
100N C313
pin P9 pin M8
VDD1
KBIO(0:7)
KBIO(7) KBIO(6) KBIO(5) KBIO(4) KBIO(3) KBIO(2) KBIO(1) KBIO(0)
M12 K9 L8 M9 P7 L7 L9 N7 P6 N8 K8
G3 CS_N3 M5 CS_N2 G5 CS_N1 N4 CS_N0
UART11
VDD1
X
0
CS_N3
T304
T302
T301
SC
JTAG
PWM
SIMU
IIC
SIOY
J_SEL B4 TRST_N A1 O TD D3 TCK A3 S TM A2 I TD D2
VDD1
X
00
1
HA(20)
M_RST irDA_DOW N T303
NCSRAM
CHG_O N EL_EN IMAGE_RESET B FLIP END_OF_CHARGE CTS0 IMAGE_INT
NCSFLASH
HWR_N HRD_N
HA(20)
AVD
5 JT 3 JT 2 JT 1 JT 4 JT
SIM_BOOT
B_WR GROUN D
J_SEL B_TDI B_TMS B_TCK B_TDO B_TRST
J_SEL TDI TMS TCK TDO TRST_N HWR_N
VSS_P N5 VSS_O P1 VSS_N K1 VSS_M G1 VSS_K C3 VSS_I E8 VSS_H 3 G1 VSS_G 1 N1 VSS_F 4 N1 VSS_E 0 N1 VSS_C M7 VSS_B J1 VSS_A K7 AVSS P10
F
100N C312
pin N12 pin N13
VDD1
0
X
X
CS_N2
A 1
GND 2
A 1
SIOX
ASI
F
100N C311
pin F5
1
X
X
VCC
Y0
_E
3
GND 2
_E
VDDE1_D VDDE1_C VDDE1_B VDDE1_A
IMAGE_CS
CS_N0
6
5
43
Y1
U302 NC7SZ19L6X
Y0
VCC
Y1
I BS
MELODY_CS
CS_NAND
VDD3
6
5
4
DSP
C300 100NF
I CS
IMAGE_CS
MELODY_CS
U301 NC7SZ19L6X
EMI
VDDE2_E VDDE2_C
RFCU
VDDE3_G VDDE3_F VDDE3_B VDDE3_A
VDD3
HD0 HD1 HD2 HD3 HD4 HD5 HD6 HD7 HD8 HD9 HD10 HD11 HD12 HD13 HD14 HD15 HA1 HA2 HA3 HA4 HA5 HA6 HA7 HA8 HA9 HA10 HA11 HA12 HA13 HA14 HA15 HA16 HA17 HA18 HA19 HA20 HA21 HA22 HA23 HWR_N HRD_N
AVDD VDD1
AVDD
D
A
D
D
PCF50732
A
D
A
A
D A
D A
D A
D A
D A
VDD_VBOUT VDD_VB VDD_REF VDD_ VDD_BB
HA(1:23)
HD(0) HD(1) HD(2) HD(3) HD(4) HD(5) HD(6) HD(7) HD(8) HD(9) HD(10) HD(11) HD(12) HD(13) HD(14) HD(15) HA(1) HA(2) HA(3) HA(4) HA(5) HA(6) HA(7) HA(8) HA(9) HA(10) HA(11) HA(12) HA(13) HA(14) HA(15) HA(16) HA(17) HA(18) HA(19) HA(20) HA(21) HA(22) HA(23)
H4 H3 H2 J3 E5 H1 B1 E4 F3 F2 F1 E1 D1 E3 E2 B2 M4 P3 L4 N3 K5 M3 P2 N2 M1 N1 L2 L1 M2 J2 J5 K3 J4 K4 K2 G4 P5 N6 L6 L5 H5
VDDC_ VDDC_ VDDC_ VDDC_
HD(0:15)
H11
PCF50874
C8 2 N1 P9
OOL
C1 P8
RESETN RSTO_N RST_N AUXON
G2 M6 P4
PDCU
L3
C10 M10 H10 K14
CGU
D C B A
100K
K6 M8 3 N1 F5 D
R300
VDD3
2 P1 D
RSTO N
OM6357
VDD2
C9 F12
P11 CKI P13 CKI32I P14 CKI32O
VDD1
2 C1 B12 4 D1
D_REF_13M 32K
U300
VDD1
SIMIO M13 SIMCLK M14 SIMERRM11 PWM1 E6 PWM0 F4
SCK C2 SDA B3
ADI A8 AFS B9 ACLK B8 ADO A9 BOEN G11 BDIO E11 BIEN F10 BIOCLK F11
MCLK D10
MICP A13 MICN B13 AUXMIC P B14 AUXMICN A14
EARP B10 EARN A11 AUXSP A10 BUZ B11
QP H13 QN H14 IP J13 IN J14 AUXADC1F14 AUXADC2G14 AUXADC3E14 AUXADC4F13
AUXDAC1 E12 AUXDAC2 D13 AUXDAC3 D12
RFE_N 0 J12 RFE_N 2 K12 VREF C14 C309
D5 RFSIG0 A6 RFSIG1 RFSIG2 D6 RFSIG3 B6 A7 RFSIG4 C7 RFSIG5 B7 RFSIG6 RFSIG7 C6 E7 RFSIG8 K10 RFSIG9 RFSIG10D7 H12 RXON G12 TXON E10 CCLK CDO E9 CDI D8 D9 CEN
N9 GPON2 L10 GPON1 G10 AUXST
100NF
R301 10K
C301
AVDD
100NF
C306
pin F12
R304 2.2K
R303 2.2K
3.9K
C302 10NF
C307
pin C12 pin B12
100NF
VDD1 DD FSC DCL DU BOEN BDIO BIEN BIOCLK
MIC_P MIC_N AUX_MIC_P AUX_MIC_N
EARP_P EARP_N AUXSP EARP_HF
TEMP_PRODUCT VF
QRX_TX_P QRX_TX_N IRX_TX_P IRX_TX_N MES_BATT
AVDD_TEM P
10NF
VDD2
R302 T57 T58 T59 T60
C308 33PF
C305 100NF
C304
pin D14
AVDD
100NF
pin C9 pin C8
VDD1
C303
IT_PMU
SCL SDA SIMIO SIMCLK
AFC RAMP
RF_EN_SYN
RF_BBI_DATA
RF_BBI_CLK
ANT_SW 3 PON_SYN PON_TX PON_RX
TXVCO_SW 1 TXVCO_SW 2 TXVCO_SW 3 ANT_SW 1
N EL_LIGHT_CO V_MODE REF_O N
33PF
D_REF_13M
AVDD
SGH-E630 Flow Chart of Troubleshooting
Initial
VSS_VBOUT C11 VSS_VB A12 VSS_REF C13 VSS_D 1 D1 VSS_BB E13
J_SEL TRST_N O TD TCK S TM I TD
TXDA4 RXD D4 1 1 TXD RXD
RXD C4 TXD C5 RXT0_N A5 CTS0_N B5 0 0 RXD TXD RTS0 CTS0
F
100N C310
SGH-E630 Flow Chart of Troubleshooting
3. Charging Part
Abnormal charging part Yes No
Check the C605 > 4.9V
Check the the circuit related to +DC_VOLT
Yes
No U602 pin 8 = "H"?
Resolder or replace U602
Yes
No U602 pin 5 = "L"?
Check the circuit related to CHG_ON signal
Yes
No
Check the C601 ≒ 4.2V
Resolder or replace U602
Yes
END
7-5
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+DCVOLT
C605 10UF 10V C604 100PF C606 470nF
R610 2.4K,1%
4 ISET
_EN 5 G GG G 9 10 11 12 MAX1508ETA
_ACOK 6
BATT 7
2 IN 3 GND
_CHG 8
1 VL
U602
R604 47K
VDD2
R609 NC
VDD2
CHG_O N
CHARGER_OK
END_OF_CHARGE
C601 10UF 6.3V
R605 330K R606 220K
C602 NC
MES_BATT
VBAT
SGH-E630 Flow Chart of Troubleshooting
Charging
7-6
SAMSUNG Proprietary-Contents may change without notice
This Document can not be used without Samsung's authorization
SGH-E630 Flow Chart of Troubleshooting
4. SIM Part
Phone can't access SIM Card
Yes
No CN500 pin 1,5 = "H"?
Check the sim charge pump
Yes
No After Power ON, Check SIMCLK Signal on CN500 pin3 in a few second
Check the 32k OSC
Yes
No After SIM card insert, CN500 pin 2 = "H(SIM_RST)"?
Replace PBA
Yes
Check the SIM Card
Yes
END
7-7
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SGH-E630 Flow Chart of Troubleshooting
5. Microphone Part
Microphone does not work
Yes No Check the connection from MIC
Resolder MIC
Yes No Check the circuit from U1102 to MIC
Resolder the L700, L701, R704, R708, C707 and C712
Yes
No Check the MIC
Replace the MIC
Yes END
7-8
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MIC M700
1
2
C713
47PF
C708
10PF
VC040205X150R 10PF
V700
C710 1.8PF
V705 VC040205X150R
C701
NC
C715
C711 NC
NC
C703
BLM10B750SBPT
L701
BLM10B750SBPT
L700
R700 1K
R708 2.2K
C712 100NF
C707 100NF
R704 1.2K
MIC_BIAS
R706 10K
C700 33UF 4V
10PF
C714
10PF
C709
10PF
C702
MIC_N
MIC_P
SGH-E630 Flow Chart of Troubleshooting
Microphone
7-9
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This Document can not be used without Samsung's authorization
SGH-E630 Flow Chart of Troubleshooting
6. Speaker Part(Melody) Speaker does not work Yes No U409 pin 5 = 2.85V?
Resolder or replace U409
Yes
No Check the Clock signal at Pin 1 of U402 (26MHz)
Check the clock generation circuit (related to U101 and U402)
Yes
No U402 pin 17,18 ≒ 1.8V? (When U402 operate)
Resolder U402
Yes
No CN606 pin 23,25 ≒ 1.8V?
Check the circuit related to "SPK_P/SPK_N" signal
Yes
No Is Speaker working?
Change the Speaker
Yes
END
7-10
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MEL_13M
C400 100PF
R400 51K
R402 51K
VDD2
GND
IN
NC
OUT
VCC
4
5
TC7SH04FU-TE85L
3
2
1
U409
C403 100NF
C419 220NF
A0 1 EQ
R HPOUT-
HPOUT-L/MON
7-11
SAMSUNG Proprietary-Contents may change without notice
This Document can not be used without Samsung's authorization C420 100NF
R405 1.2K
12
13
15
MTR
D7
D6
D5
D4
D3
D2
R421 2.2K
16
SPOUT 1
SPOUT 2
26
SPVSS
R406 C408 6.8K 1.2NF
R404 0
14
SPVD
C405 220NF
11
D
10
27
D0
C404 100NF
28
U402
29
YMU762 MA-3
30
D1
C402 1NF
O
VREF
VSS
VDD
PLLC
NC
D /R
9
8
7
6
/RST
/IRQ
LED
CLKI
31
S /C
5
4
3
2
1
32
IOVDD
R403 3.3K
M_LED
R401 330
R /W
HPOUT
M_RST
VDD2
VDD2
VDD3
17
18
19
20
21
22
23
24
25
C406 1UF 10V
C421 100NF
C407 100NF
C401 27PF
EARP_H F
VDD_AMP
AMP_P
AMP_N
VIB
HD(7)
HD(6)
HD(5)
HD(4)
HD(3)
HD(2)
HD(1)
HD(0)
HWR_N
MELODY_C S
HA(1)
HRD_N
SGH-E630 Flow Chart of Troubleshooting
Speaker
3 EQ
2 EQ
SGH-E630 Flow Chart of Troubleshooting
7. Key Data Input
Check Initial Operation Yes No When one of the keys is pushed, is it displayed on LCD?
Check the Dome sheet & Key Pad
Yes
No When one of the keys is pushed, KBIO signal is OK?
Replace the PBA
Yes
END
7-12
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SGH-E630 Flow Chart of Troubleshooting
8. Receiver Part Receiver does not work Yes No Resolder R727, R730, U702
U702 pin 1, 5 = 1.5V?
Yes No Resolder U702
U702 pin 2, 10 = "H"?
Yes No Resolder or replace U702
U702 pin 4, 16 = 1.5V?
Yes No Resolder CN604
CN604 pin 8, 9 = short?
Yes No Replace the CN606
CN606 pin 23,25 = 1.5V?
Yes No Check the soldering of the speaker FPC
Modufy the speaker FPC soldering
Yes No Replace the Receiver
Is Receiver working?
Yes END
7-13
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SGH-E630 Flow Chart of Troubleshooting
9. LCD Part
LCD does not work Yes No Is LCD Contrast set on high level in the Menu?
Set LCD Contrast on high level
Yes
No Check the R315
CN606 pin 21 = 2.8V?
Yes
No CN606 pin 19(L_WR), 20(RS) is OK?
Check the U400
Yes
Replace the LCD Module
Yes END
7-14
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SGH-E630 Flow Chart of Troubleshooting
10. Key Back Light 1. Main Key Part
Main Key Backlight does not work Yes No Check the PMU related to "VDD_KEY"
C524 = "H"?
Yes
END
2. Sub Key Part
Sub Key Backlight does not work Yes No Check the PMU related to "BLVDD"
C531 = "H"?
Yes
END
7-15
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SGH-E630 Flow Chart of Troubleshooting
11. Camera part
"Camera" function does not work Yes
No
Check the Camera connector on Main Board
Connect the camera module
Yes No CN606 pin 29, 31 = 2.8V?
Check LCD and CN606
Yes No
U101 Pin 3, U409 Pin 4 = 26MHz?
Check U101, U409 and C410, C422
Yes No CN606 pin 21 = 2.8V?
Check the R315
Yes
Is there another problem?
Yes
Replace the camera module
END
7-16
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SGH-E630 Flow Chart of Troubleshooting
12. GSM Receiver
RX ON RF input : center freq : 947.4 MHz Amp : -50dBm
Yes No
U205 Pin8 >= -65dBm
Resolder CN201, R1120, C202
Yes U205 pin5,pin6 >= -65dBm
No
Check U205 pin10 = L, pin12= L pin9=L
No
Check ANT Switch control circuit
Yes Yes
Resoder U205 No
U100 pin32 >= -70dBm pin33 >= -70dBm
Resolder L100, L101, L102
Yes No U100 pin 6, 7, 8, 9 >= 1V
Resolder U100 or Check pins related to U100
Yes
R116, R117, R118, R119 >= 1V Yes
Check U1102
END
7-17
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SGH-E630 Flow Chart of Troubleshooting
13. GSM Transmitter
TX ON (5Level)
Yes Yes
U205 Pin11 >= 20dBm
No Yes
U205 pin8 >= 20dBm
Resolder CN201, C202
Yes
Check U205 pin11 = H (2.68V), pin12 = L pin9=L
Change or Resolder U205
No
No Yes
U201 pin12 >= 20dBm
Check ANT Switch control circuit
Resolder C203
No Yes
U201 pin6 >= -11dBm
Check U201 +VBATT, C212, R204 OK?
Yes
No No osc401 pin1 >= -8dBm
Yes Resolder R204
No U100 pin6, 7, 8, 9 >= 500mV
Yes Resolder U100 or Check pins related to U100
Check U1102
END
7-18
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Resolder or Change U201
Check +VBATT or PAM control signal
SGH-E630 Flow Chart of Troubleshooting
14. DCS Receiver
RX ON RF input : CH center freq : 1842.4 MHz Amp : -50dBm
Yes No
U205 Pin8 >= -65dBm
Resolder CN201, C202, R1120
Yes
No
U205 pin1,pin2 >= -65dBm
No
Check U205 pin10 = L, pin12 = L pin9=L
Yes
Yes No U100 pin38 >= -70dBm pin39 >= -70dBm
Resolder L104, L105, L107
Yes No U100 pin6, 7, 8, 9 >= 1V
Resolder U100 or Check pins related to U100
Yes
R116, R117, R118, R119 >= 1V
Yes
Check U1102
END
7-19
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Check ANT Switch control circuit
Resoder U205
SGH-E630 Flow Chart of Troubleshooting
15. DCS Transmitter
TX ON (5Level)
Yes Yes
U205 Pin13 >= 13dBm
Resolder CN201, C202
No Yes
U205 pin8 >= 13dBm
Yes
Check U205 pin10 = L, pin9=L pin12 = H (2.68V)
Change or Resolder U205
No
No Yes
U201 pin17 >= 13dBm
Check ANT Switch control circuit
Resolder C1127
No Yes
U201 pin5 >= 15dBm
Check U201 +VBATT, C212, R204 OK?
Yes
No No osc401 pin5 >= 12dBm
Yes Resolder R207
No U100 pin 6, 7, 8, 9 >= 500mV
Yes
Resolder U100 or Check pins related to U100
No Check U1102
END
7-20
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Resolder or Change U201
Check +VBATT or PAM control signal
SGH-E630 Flow Chart of Troubleshooting
16. PCS Receiver
RX ON RF input : CH center freq : 1960 MHz Amp : -50dBm
Yes No
U205 Pin8 >= -65dBm
Resolder CN201, C202, R1120
Yes
No
U205 pin3,pin4 >= -65dBm
No
Check U205 pin10 = L, pin12 = L pin9=H
Yes
Yes No U100 pin38 >= -70dBm pin39 >= -70dBm
Resolder C151, C152, L108
Yes No U100 pin6, 7, 8, 9 >= 1V
Resolder U100 or Check pins related to U100
Yes
R116, R117, R118, R119 >= 1V
Yes
Check U1102
END
7-21
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SGH-E630 Flow Chart of Troubleshooting
17. PCS Transmitter
TX ON (5Level)
Yes Yes
U205 Pin13 >= 13dBm
Resolder CN201, C202
No Yes
U205 pin8 >= 13dBm
Yes
Check U205 pin10 = L, pin9=L pin12 = H (2.68V)
Change or Resolder U205
No
No Yes
U201 pin17 >= 13dBm
Check ANT Switch control circuit
Resolder C1127
No Yes
U201 pin5 >= 15dBm
Check U201 +VBATT, C212, R204 OK?
Yes
No No osc401 pin5 >= 12dBm
Yes Resolder R207
No U100 pin 6, 7, 8, 9 >= 500mV
Yes
Resolder U100 or Check pins related to U100
No Check U1102
END
7-22
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Resolder or Change U201
Check +VBATT or PAM control signal