SAMSUNG Anycall SGH-X480 SGH-X480C SGH-X488

SAMSUNG Anycall

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

ⓒ Samsung Electronics Co.,Ltd. March. 2005 This Service Manual is a property of Samsung Electronics Co.,Ltd. Any unauthorized use of Manual can be punished under applicable Printed in Korea. International and/or domestic law.

Code No.: GH68-06818A BASIC.

1. Specification 1. GSM General Specification EGS M 9 0 0 Ph a s e 2

D CS 1 8 0 0 Ph a s e 1

PC S 1 9 0 0 P h as e 1

F r eq . B a n d [M Hz ] Up l in k / Do w n li n k

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

1850~1910 1930~1960

A RF C N r a n g e

0 ~1 2 4 & 9 7 5 ~ 1 0 2 3

5 1 2 ~8 8 5

512~810

T x /R x s p ac in g

4 5 MH z

9 5 MH z

8 0 M Hz

Mo d . B i t r at e/ Bi t Pe r i o d

2 7 0 .8 3 3 k b p s 3 .6 9 2 u s

2 7 0 .8 3 3 k b p s 3 .6 9 2 u s

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

5 7 6 .9 u s 4 . 6 1 5 ms

5 7 6 .9 u s 4 . 6 1 5 ms

5 7 6 .9 u s 4 .6 1 5 m s

Mo d u l a ti o n

0 . 3 GMS K

0 . 3 GMS K

0 .3 GM SK

M S P o we r

3 3 d B m~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 9 p c l

0pcl ~ 15pcl

0pcl ~ 15pcl

Se n si t iv i t y

- 1 0 2 d Bm

- 1 0 0 d Bm

-100dBm

TDM A M u x

8

8

8

C el l Ra d iu s

35Km

2Km

2 Km

O p er a ti n g T em p er a tu r e

-20° C ~ +5 0 ° C

1-1

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Specification

1-2

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2. Circuit Description 1. SGH-X480, SGH-X480C, SGH-X488 RF Circuit Description 1) RX PART 1. ASM(F900) → Switching Tx, Rx path for GSM900, DCS1800 and PCS1900 by logic controlling. 2. ASM Control Logic Truth Table VC1

VC2

VC3

Tx (GSM900)

H

L

L

Tx (DCS1800/ PCS1900)

L

H

L

Rx (GSM900)

L

L

L

Rx (DCS1800)

L

L

L

Rx (PCS 1900)

L

L

H

3. Saw FILTER To convert Electromagnetic Field Wave to Acoustic Wave and then pass the specific frequency band. - GSM FILTER (F800) → For filtering the frequency band between 925 and 960 MHz. - DCS FILTER (F800) → For filtering the frequency band between 1805 and 1880 MHz - PCS FILTER (F801) → For filtering the frequency band between 1930 and 1990 MHz. 4. Crystal (U802) To generate the 26MHz reference clock to drive the logic and RF. After additional process, the reference clock applies to the U801 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. Si4210 (U801) The receive section integrates four differential-input low noise amplifiers LNAs supporting the GSM850, EGSM900, DCS1800 and PCS1900 bands. The LNA inputs are matched to the 150 ohm balanced-output SAW filters through externa LC matching network. A quadrature Image-reject mixer downconverts the RF signal to a 200 KHz intermediate frequency(IF). The mixer output is amplified with an analog programmable gain amplifier(PGA) that is controlled with the AGAIN. The quadrature IF ? ? is digitized with high resolution analog-to-digital converts (ADC). The ADC output is downconverted to baseband with a digital quadrature LO signal. Digital decimation and FIR filters perform digital filtering and remove ADC quantization noise, blockers and reference interferers. After filtering, the digital output is scaled with a digital PGA, which is controlled with the DGAIN. DACs drive a differential I and Q analog signal onto the BIP, BIN, BQP and BQN pins to interface to standard analog-input baseband ICs.

2-1

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Circuit Description

2) TX PART Baseband IQ signal fed into offset PLL, this function is included inside of U801 chip. The transmit section of U801 consist of an I/Q baseband upconverter, an offset phase-locked loop (OPLL) and two 50 ohm output buffers that can drive an external Power Amplifier(PA). Si4210 chip generates modulator signal which power level is about 1.5dBm and fed into Power Amplifier(U900). The PA output power and power ramping are well controlled by Auto Power Control circuit. We use offset PLL below.

200kHz offset 30 kHz bandwidth

400kHz offset 30 kHz bandwidth

Modulation Spectrum

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-X480,SGH-X480C,SGH-X488 1) CSP2200B1 1. Power Management Seven low-dropout regulators designed specifically for GSM applications power the terminal and help ensure optimal system performance and long battery life. A programmable LDO provides support for 1.8V, 3.0V SIMs, while a self-resetting, electronically fused switch supplies power to external accessories. Ancillary support functions, such as two LED drivers and two call-alert drivers, aid in reducing both board area and system complexity. A four-wire serial interface unit(SIU) provides access to control and configuration registers. This interface gives a microprocessor full control of the CSP2200B1 and enables system designers to maximize both standby and talk times. Error reporting is provided via an interrupt signal and status register. Supervisory functions. including a reset generator, an input voltage monitor, and a thermal monitor, 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). 2. Battery Charge Management A battery charge management block, incorporating an internal PMOS switch, and an 8-bit ADC, provides fast, efficient charging of single-cell Li-Ion battery. Used in conjunction with a current-limited voltage source, this block safely conditions near-dead cells and provides the option of having fast-charge and top-off controlled internally or by the system's microprocessor.

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Circuit Description

3. Backlight LED Driver The backlight LED driver is a low-side, programmable current source designed to control the brightness of the keyboard illumination.

LED1_DRV is controlled via LED1_[0:2] and can be programmed to sink from 15mA to 60mA in 7.5mA

steps. LED2_DRV is controlled via LED2_[0:2] and can be programmed to sink from 5mA to 40mA in 5mA steps. Both LED drivers are capable of sinking their maximum output current at a worst-case maximum output voltage of 0.6V. For efficient use, the LEDs is connected between the battery and the LED_DRV output. 4. Vibrator Motor Driver The vibrator motor driver is a independent voltage regulator to drive a small dc motor that silently alerts the user of an incoming call. The driver is a 3.3V constant source while sinking up to 140mA and controlled by enable signal of main chip. For efficient use and safety, the vibrator motor should be connected between the regulator output and the ground.

2) Connector 1. LCD Connector LCD is consisted of main LCD(color 65K STN LCD). Chip select signals of EMI part in the trident, LCD_CS, can enable main LCD. LED+ signal enables white LED of main LCD. In sleep mode, white LED are turned off. These two signals are from IO part of the DSP in the trident. RST signal from CSP2200B1 initiates the initial process of the LCD. 8-bit data lines(D(0)~D(7)) transfers data and commands to LCD through emi_filter. Data and commands use A(2) signal. If this signal is high, Inputs to LCD are commands. If it is low, Inputs to LCD are data. The signals which inform the input or output state to LCD, are required. But this system is not necessary for read enable signal. CP_WEN signal is only used to write data or commands to LCD. Power signal for operating LCD driver is VCCD.

2. JTAG Connector Trident has two JTAG ports which are for ARM core and DSP core(DSP16000). So this system has two port connector for these ports. Pins' initials for ARM core are 'CP_' and pins' initials for DSP core are 'DSP_'. CP_TDI and DSP_TDI signal are used for input of data. CP_TDO and DSP_TDO signals are used for the output of the data. CP_TCK and DSP_TCK signals are used for clock because JTAG communication is a synchronous. CP_TMS and DSP_TMS signals are test mode signals. The difference between these is the RESET_INT signal which is for ARM core RESET.

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Circuit Description

3. Keypad connector This is consisted of key interface pins in the trident, KEY_ROW[0~4] and KEY_COL[0~4]. These signals compose the matrix. Result of matrix informs the key status to key interface in the trident. Some pins are connected to varistor for ESD protection. And power on/off key is seperated from the matrix. So power on/off signal is connected with CSP2200 to enable CSP2200. Nine key LED use the +VBATT supply voltage. These are connected to BACKLIGHT signal in the CSP2200. This signal enables LEDs with current control.

4. EMI Filtering This system uses the EMI Filter to reduce noise from LCD part. Some control signals are connected to LCD without EMI filtering.

3) IF connetor It is 24-pin connector, and separated into two parts. One is a power supply part for main system. And the other is designed to use SDS, DEBUG, DLC-DETECT, JIG_ON, VEXT, VTEST, VF, and GND. They connected to power supply IC, microprocessor and signal processor IC. 4) Audio AOUTAP, AOUTAN from CSP2200 is connected to the speaker via analog switch. AOUTBP and AOUTBN are connected to the ear-mic speaker via ear-jack. MICIN and MICOUT are connected to the main MIC. And AUXIN and AUXOUT are connected to the Ear-mic. YMU762MA3 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, YMU762MA3 is equipped 16 voices with different tones. 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 YMU762MA3 are interpreted at anytime through FIFO, the length of the data(playing period) is not limited, so the device can flexibly support 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. YMU762 includes a speaker amplifier with high ripple removal rate whose maximum output is 550mW (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 YMU762MA3 to demonstrate its full capabilities, Yamaha purpose to use "SMAF:Synthetic music Mobile Application Format" as a data distribution format that is compatible with multimedia. 2-4

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Circuit Description

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 training karaoke, and commercial channel that combines texts, images and sounds, and others. The hardware sequencer of YMU762MA3 directly interprets and plays blocks relevant to synthesis (playing music and reproducing ADPCM with FM synthesizer) that are included in data distributed in SMAF.

5) Memory This system uses SHARP's memory, LRS18B0. It is consisted of 256M bits flash memory and 64M bits SCRAM. It has 16 bit data line, D[0~15] which is connected to trident, LCD or CSP2200. It has 23 bit address lines, A[1~23]. They are also connected. CP_CSROMEN signal, chip select signal in the trident, enable flash memories. They use supply voltages, VCCD and VCC_1.8A. During wrting process, CP_WEN is low and it enables writing process to flash memory and SCRAM. During reading process, CP_OEN is low and it output information which is located at the address from the trident in the flash memory or SCRAM to data lines. Each chip select signals in the trident select flash memory or SCRAM. Reading or writing procedure is processed after CP_WEN or CP_OEN is enabled. Memories use FLASH_RESET, which is buffered signal of RESET from CSP2200, for ESD protection. A[0] signal enables lower byte of SCRAM and UPPER_BYTE signal enables higher byte of SCRAM.

6) Trident Trident is consisted of ARM core and DSP core. It has 20K*16bits RAM 144K*16bits ROM in the DSP. It has 4K*32bits ROM and 2K*32bits RAM in the ARM core. DSP is consisted of timer, one bit input/output unit(BIO), JTAG, EMI and HDS(Hardware Development System). ARM core is consisted of EMI, PIC(Programmable Interrupt Controller), reset/power/clock unit, DMA controller, TIC(Test Interface Controller), peripheral bridge, PPI, SSI(Synchronous Serial Interface), ACCs(Asynchronous communications controllers), timer, ADC, RTC(Real-Time Clock) and keyboard interface. DSP_AB[0~8], address lines of DSP core and DSP_DB[0~15], data lines of DSP core are connected to CSP2200. A[0~20], address lines of ARM core and D[0~15], data lines of ARM core are connected to memory, LCD and YMU762. ICP(Interprocessor Communication Port) controls the communication between ARM core and DSP core. CSROMEN, CSRAMEN and CS1N to CS4N in the ARM core are connected to each memory. WEN and OEN control the process of memory. External IRQ(Interrupt ReQuest) signals from each units, such as, YMU, Ear-jack, Ear-mic and CSP1093, need the compatible process. Some PPI pins has many special functions. CP_KB[0~9] receive the status from key FPCB and are used for the communications using data link cable(DEBUG_DTR/RTS/TXD/RXD/CTS/DSR). And UP_CS/SCLK/SDI, control signals for CSP2200 are outputted through PPI pins. It has signal port for charging(CHG_DET), SIM_RESET and FLIP_SNS with which we knows open.closed status of folder. It has JTAG control pins(TDI/TDO/TCK) for ARM core and DSP core. It recieves 13MHz clock in CKI pin from external TCXO and receives 32.768KHz clock from X1RTC. ADC(Analog to Digital Convertor) part receives the status of temperature, battery type and battery voltage. And control signals(DSP_INT, DSP_IO and DSP_RWN) for DSP core are used. It enables main LCD with DSP IP pins.

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Circuit Description

7) CSP2200 CSP2200 is integrated the timing and control functions for GSM 2+ mobile application with the ADC and DAC functions, and power management block. The CSP2200 interfaces to the trident, via a 16-bit parallel interface. It serves as the interface that connects a DSP to the RF circuitry in a GSM 2+ mobile telephone. DSP can load 148 bits of burst data into CSP2200’ s internal register, and program CSP2200’ s event timing and control register with the exact time to send the burst. When the timing portion of the event timing and control register matches the internal quarter-bit counter and internal frame counter, the 148 bits in the internal register are GMSK modulated according to GSM 2+ standards. The resulting phase information is translated into I and Q differential output voltages that can be connected directly to an RF modulator at the TXOP and TXON pins. The DSP is notified when the transmission is completed. For receiving baseband data, a DSP can program CSP2200’ s event timing and control register with the exact time to start receiving I and Q samples through TXIP and TXIN pins. When that time is reached, the control portion of the event timing and control register will start the baseband receive section converting I and Q sample pairs. The samples are stored in a double-buffered register until the register contains 32 sample pairs. CSP2200 then notifies the DSP which has sample time to read the information out before the next 32 sample pairs are stored. The voice band ADC converter issues an interrupt to the DSP whenever it finishes converting a 16-bit PCM word. The DSP then reads the new input sample and simultaneously loads the voice band output DAC converter with a new PCM output word. The voice band output can be connected directly to a speaker via AOUTAN and AOUTAP pins and be connected to a Ear-mic speaker via AOUTBN and AOUTBP pins. There are 7 LDOs which are power sources of microprocessor, LCD, etc. These 7 LDOs output are programmable.

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3. Exploded View and Parts list 1. Cellular phone Exploded View-1

QFU01

QLC01

QPC01

QSP01 QMO01

QFR01 QRF03 QSC14 QVO01

QMI03

QIF01 QFL01 QCR04

QKP01

QSC05 QSC08 QME01

QMW02

QMI01 QVK01

QMP01 QAN02

QRE01 QCR04 QRF01

QBA01

3-1

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Exploded view and Part list

2. Cellular phone Parts list SEC CODE

Location

Description

NO.

SGH-X480

SGH-X480C

SGH-X488

FRONT COVER

GH75-06162A

GH75-06162A

GH75-06162A

QRF03

EAR COVER

GH72-19072A

GH72-19072A

GH72-19072A

QMI03

MIC HOLDER

GH73-04031A

GH73-04031A

GH73-04031A

QSC14

FRONT SHEET

GH74-13673A

GH74-13673A

GH74-13673A

QVO01

SIDE KEY

GH72-19086A

GH72-19086A

GH72-19086A

QIF01

IF COVER

GH72-19085A

GH72-19085A

GH72-19085A

QKP01

KEYPAD

GH75-06188A

GH75-06663A

GH75-06663A

QME01

UNIT METAL DOME

GH59-01925A

GH59-01925A

GH59-01925A

QMI01

MICROPHONE ASSY

GH30-00119A

GH30-00119A

GH30-00119A

QMP01

MAIN PBA

GH92-02033A

GH92-02033A

GH92-02033A

QVK01

UNIT VOLUME KEY

GH59-01927A

GH59-01927A

GH59-01927A

QAN02

INTENNA

GH42-00528A

GH42-00528A

GH42-00528A

QRE01

REAR COVER

GH75-06165A

GH75-06165A

GH75-06165A

QCR04

SCREW MACHINE

6001-001479

6001-001479

6001-001479

QRF01

TAPE RF SWITCH

GH74-12570A

GH74-12570A

GH74-12570A

QBA01

BATTERY

GH43-01661A

GH43-01729A

GH43-01729A

QFU01

FOLDER UPPER

GH75-06163A

GH75-06662A

GH75-06662A

QPC01

FPCB

GH41-00772A

GH41-00772A

GH41-00772A

QLC01

LCD

GH07-00655A

GH07-00655A

GH07-00655A

QSP01

SPEAKER

3001-001737

3001-001737

3001-001737

QMO01

MOTOR DC

GH31-00148A

GH31-00148A

GH31-00148A

QFL01

FOLDER LOWER

GH75-06164A

GH75-06164A

GH75-06164A

QCR04

SCREW MACHINE

6001-001479

6001-001479

6001-001479

QSC05

SCREW CAP R

GH74-12568A

GH74-12568A

GH74-12568A

QSC08

SCREW CAP L

GH74-12569A

GH74-12569A

GH74-12569A

QMW02

WINDOW MAIN

GH72-19120A

GH72-19120A

GH72-19120A

QFR01

3-2

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Exploded view and Part list

3. Test Jig (GH80-00865A)

3-1. RF Test Cable

3-2. Test Cable

(GH39-00283A)

3-3. Serial Cable

(GH39-00127A)

3-4. Power Supply Cable

3-5. DATA CABLE (GH39-00143B)

3-6. TA (GH44-00184A)

3-3

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Exploded view and Part list

3-4

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4. Electrical Parts List SEC Code

Design LOC

SEC Code

Design LOC

0403-001387

ZD302

1405-001082

V711

0403-001427

ZD303

1405-001082

V713

0406-001190

U901

1405-001093

V307

0406-001190

ZD304

1405-001108

V401

0406-001190

ZD305

1405-001108

V402

0406-001190

ZD306

1405-001108

V403

0406-001201

V714

1405-001108

V404

0406-001201

V715

1405-001110

V207

0406-001201

V716

2007-000138

R901

0501-000225

Q400

2007-000140

R115

0504-000168

Q100

2007-000140

R209

0505-001518

Q201

2007-000140

R305

0801-000796

U102

2007-000140

R306

1001-001294

U402

2007-000140

R307

1009-001010

U702

2007-000140

R308

1201-002174

U900

2007-000140

R309

1203-003105

U206

2007-000140

R310

1203-003105

U701

2007-000140

R311

1203-003105

U703

2007-000140

R312

1203-003304

U100

2007-000140

R313

1204-002161

U401

2007-000140

R314

1209-001219

U602

2007-000140

R316

1405-001082

V203

2007-000140

R317

1405-001082

V204

2007-000140

R427

1405-001082

V205

2007-000140

R439

1405-001082

V206

2007-000142

R414

1405-001082

V405

2007-000145

R437

1405-001082

V410

2007-000146

R406

1405-001082

V411

2007-000148

R410

1405-001082

V701

2007-000148

R618

1405-001082

V702

2007-000148

R809

1405-001082

V703

2007-000153

R113

1405-001082

V704

2007-000155

R112

1405-001082

V705

2007-000157

R405

1405-001082

V706

2007-000157

R600

1405-001082

V707

2007-000157

R608

1405-001082

V708

2007-000162

R109

1405-001082

V709

2007-000162

R114

1405-001082

V710

2007-000162

R401

4-1

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Electrical Parts List

SEC Code

Design LOC

SEC Code

Design LOC

2007-000162

R607

2007-000566

R303

2007-000162

R609

2007-000566

R304

2007-000162

R617

2007-001217

R202

2007-000162

R714

2007-001288

R210

2007-000162

R715

2007-001291

R402

2007-000167

R105

2007-001291

R403

2007-000170

R601

2007-001291

R421

2007-000171

R101

2007-001291

R423

2007-000171

R104

2007-001308

R802

2007-000171

R116

2007-001313

R903

2007-000171

R315

2007-001317

R415

2007-000171

R404

2007-001319

R103

2007-000171

R416

2007-001320

R413

2007-000171

R425

2007-001320

R418

2007-000171

R502

2007-001325

R407

2007-000171

R602

2007-001333

R435

2007-000171

R616

2007-002797

R801

2007-000171

R713

2007-007101

R417

2007-000171

R800

2007-007101

R424

2007-000171

R807

2007-007107

R408

2007-000171

R808

2007-007107

R412

2007-000172

R106

2007-007142

R111

2007-000172

R108

2007-007142

R409

2007-000172

R201

2007-007142

R411

2007-000172

R501

2007-007142

R422

2007-000173

R703

2007-007142

R603

2007-000173

R705

2007-007308

R604

2007-000173

R708

2007-007308

R605

2007-000173

R902

2203-000233

C110

2007-000174

R702

2203-000233

C211

2007-000174

R704

2203-000233

C424

2007-000174

R706

2203-000233

C501

2007-000174

R707

2203-000233

C503

2007-000174

R709

2203-000233

C801

2007-000174

R710

2203-000254

C101

2007-000174

R711

2203-000254

C118

2007-000566

R300

2203-000254

C120

2007-000566

R301

2203-000254

C205

2007-000566

R302

2203-000254

C505

4-2

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Electrical Parts List

SEC Code

Design LOC

SEC Code

Design LOC

2203-000254

C601

2203-000854

C802

2203-000254

C602

2203-000995

C413

2203-000254

C603

2203-000995

C903

2203-000254

C604

2203-000995

C913

2203-000254

C608

2203-001017

C806

2203-000254

C610

2203-001072

C102

2203-000254

C611

2203-001072

C433

2203-000254

C612

2203-001072

C434

2203-000254

C613

2203-001072

C901

2203-000254

C813

2203-001383

C908

2203-000254

C914

2203-001385

C904

2203-000278

C803

2203-001405

C607

2203-000278

C808

2203-001412

C812

2203-000278

C819

2203-001598

C109

2203-000330

C619

2203-001598

C117

2203-000330

C620

2203-002668

C906

2203-000359

C401

2203-002677

C816

2203-000386

C811

2203-002677

C817

2203-000425

C415

2203-002687

C911

2203-000438

C210

2203-005061

C108

2203-000438

C418

2203-005061

C119

2203-000438

C912

2203-005061

C124

2203-000438

C915

2203-005061

C403

2203-000438

C916

2203-005061

C404

2203-000585

C408

2203-005061

C407

2203-000628

C414

2203-005061

C419

2203-000628

C431

2203-005061

C502

2203-000679

C606

2203-005061

C504

2203-000812

C105

2203-005061

C605

2203-000812

C106

2203-005065

C121

2203-000812

C107

2203-005234

C807

2203-000812

C206

2203-005234

C809

2203-000812

C207

2203-005288

C804

2203-000812

C410

2203-005288

C805

2203-000812

C411

2203-005288

C907

2203-000812

C422

2203-005450

C818

2203-000812

C432

2203-005482

C103

2203-000812

C905

2203-005482

C201

2203-000854

C302

2203-005482

C202

4-3

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Electrical Parts List

SEC Code

Design LOC

SEC Code

Design LOC

2203-005482

C204

2703-002170

L807

2203-005482

C429

2703-002170

L901

2203-005482

C703

2703-002199

L803

2203-005482

C704

2703-002201

L903

2203-005482

C810

2703-002201

L904

2203-005482

C814

2703-002202

L401

2203-005482

C815

2703-002202

L402

2203-005496

C412

2703-002205

L805

2203-005496

C420

2703-002339

L201

2203-005496

C600

2703-002367

L902

2203-005496

C618

2703-002558

L802

2203-006090

C909

2703-002608

L806

2203-006093

C112

2703-002815

L804

2203-006093

C113

2801-003856

OSC600

2203-006093

C114

2901-001286

U201

2203-006093

C115

2901-001286

U202

2203-006093

C116

2901-001286

U203

2203-006093

C208

2904-001480

F801

2203-006093

C701

2904-001523

F800

2203-006093

C705

3301-001659

L301

2203-006137

C405

3301-001729

L701

2203-006190

C417

3705-001355

CON901

2203-006208

C416

3709-001298

CN100

2203-006324

C104

3710-001994

CN300

2203-006324

C209

3711-005829

CN301

2203-006324

C702

4302-001177

BAT100

2203-006324

C706

GH09-00036A

U600

2203-006438

C615

1108-000009

U500

2404-001105

C425

1203-003663

U101

2404-001105

C430

1203-003674

U200

2404-001151

C423

2203-006562

C217

2404-001239

C910

2203-006636

C216

2404-001240

C111

2801-004426

U802

2404-001268

C123

2911-000002

F900

2404-001268

C125

3711-005885

CN200

2404-001268

C303

3722-002067

CN401

2404-001268

C402

0601-002020

D701

2503-001041

C220

0601-002020

D702

2503-001041

C221

0601-002020

D703

4-4

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Electrical Parts List

SEC Code

Design LOC

0601-002020

D704

0601-002020

D705

0601-002020

D706

0601-002020

D707

0601-002020

D708

0601-002020

D709

0601-002020

D711

1205-002683

U801

4-5

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Electrical Parts List

4-6

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5. Block Diagrams 1. RF Solution Block Diagram

5-1

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Block Diagrams

2. Base Band Solution Block Diagram

5-2

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6. 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. Flow Chart of Troubleshooting 1. Power On The set is not ' Power On '

Check the current consumption

No

Current consumption >=100mA

Download again

Yes Check the +VBATT Voltage

No Voltage >= 3.3V

Charge the Battery

Yes Check the pin of U100

No

Check U100 and C115

pin#J12 of U100 >= 2.8V Yes

pin#A13 of U100 = 2.8V No No

Yes

pin#G11 = 1.8V

Check U100 and C116

Yes

Check the clock signal at pin#3 of U802 Freq = 26MHz , Vrms ≥ 300mV

No

Check the clock generation circuit (related to U802)

Yes Check the initial operation

END

7-1

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Flow Chart of Troubleshooting

2. Initial Initialization Failure Yes

The pin#G11 of U100 = 1.8V and the pin#J12 of U100 ≒ 2.825V ?

No

Check the U100 (If it has some problem, adjust it.)

Yes

No

Is the pin#K9 of U100 "Low -> High"?

Check the U100 (If it has some problem, adjust it.)

Yes

No

32.768kHz wave forms at the C619 and C620

Check the U600

Yes

No The Voltage is "High" at the C114

Check the U100

Yes No Check the LCD Part

LCD display is O.K

Yes No Sound is O.K

Check the Audio Part

Yes END

7-2

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Flow Chart of Troubleshooting

3. SIM Part

"Insert SIM" is displayed on the LCD

Yes

No Are there any Signals at pin#N9, #R10, #P10 of U100?

Check the U600

Yes

No Are there any Signals at pin#K12, #K11, #K14, #J11 of CN100?

Check the U100

Yes

Check the SIM Card

END

7-3

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Flow Chart of Troubleshooting

4. Charging Part

Abnormal charging operation

No

The pin#17, #18 of CN300 is TA_VEXT ≒ 5V ?

Replace TA or Check CN300

Yes

No Check the U101

The pin#8 of U101 is 3.2~4.2V ?

Yes

The ICHRG = 1.4V(during

No

charging) and ≒ 180mV(full

Solder again or change R111

charging) ?

Yes

END

7-4

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7-5

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This Document can not be used without Samsung's authorization

R115

3

A GND

4 JIG_ON

RXTXQN C6 RXTXQP C7 RXTXIN D6 RXTXIP D7 RAREF1 B6 RAREF2 B5

2

Y

CHG_ON

C124

CLK13M_MC

CHG_DET

TP106 TP105 TP104 TP103

C123

CLK32K

5

AUXOUTN AUXOUTP AUXINN AUXINP MICOUTN MICOUTP MICINN MICINP AOUTBN AOUTBP AOUTAN AOUTAP

VCCD

R109

DSP_INT

B VCC

DAIDO M6 DAIDI L6 DAIRN P4 DAICK R4 VREGN R14 VREGP M13 VXVCM R13 AUXOUTN L13 AUXOUTP K13 AUXINN L14 AUXINP M15 MICOUTN P15 MICOUTP N15 MICINN M14 MICINP N14 AOUTBN P12 AOUTBP R12 AOUTAN N12 AOUTAP P11

C121 1UF 10V

R110

VCCD

R116

PWR_ON JIG_ON

R114

R113

1

TXP E7 AFC D9

U102

U100

DINTR P3 NC7 P5 MC R6 XOENAQ D1 RTC_CLK N4

TA_VEXT

VCCD

RST

TA_VEXT

JIG_ON_IF

VBAT

SERLE1 SERLE2 SERDA SERCK

B1 A2 C1 C2

C119

OCTL0 OCTL1 OCTL2 OCTL3 OCTL4 OCTL5 OCTL6 OCTL7

E6 C5 F5 E5 A4 G6 B3 A3

C101

C103

VIB_RNG_EN L9 INTRQL10 PWR_KEEP M9 MODEN10 RESET_O K9 PSW1_BUF L7 PWR_SW1N C15 PWR_SW2 C14

RTX_IP RTX_IN RTX_QP RTX_QN

AFC TXPOWER

SERLE SERDAT SERCLK

SVC_RED SVC_GREEN SVC_BLUE PCS_RX_EN XOENA TX_BAND_SEL RF_EN TX_EN

DB15 DB14 DB13 DB12 DB11 DB10 DB9 DB8 DB7 DB6 DB5 DB4 DB3 DB2 DB1 DB0 AB8 AB7 AB6 AB5 AB4 AB3 AB2 AB1 AB0 I|O RWN RESETN_CSP

AUX_ADC3 D13 GNDS1 F7 GNDS2 F8 GNDS3 F9 GNDS4 F10 GNDS5 G7 GNDS6 G8 GNDS7 G9 GNDS8 G10 GNDS9 H6 GNDS10 H7 GNDS11 H8 GNDS12 H9 GNDS13 J7 GNDS14 J8 GNDS15 J9 GNDS16 J10 GNDS17 K10 NC5 1 NC6 2

D2 D3 E3 E2 F3 F2 F1 F4 G4 G3 H5 J6 J5 K3 K2 K1 K5 K7 M1 M2 N2 N1 L5 P1 K6 L3 L2 R3

VCCA

VDD5 VDD67 GNDQ GND_PSC1 GND_PSC2 GND_HCUR VDD1 VDD2 VDD3 VDD_IO1 VDD_IO2 VSS1 VSS2 VSS3 VSS4 VDDD GNDD VDDB GNDB VDDV GNDV VDD_OCTL GND_OCTL

DSP_IO DSP_RWN CSP_RESET

DSP_AB(0:8)

DSP_DB(15) DSP_DB(14) DSP_DB(13) DSP_DB(12) DSP_DB(11) DSP_DB(10) DSP_DB(9) DSP_DB(8) DSP_DB(7) DSP_DB(6) DSP_DB(5) DSP_DB(4) DSP_DB(3) DSP_DB(2) DSP_DB(1) DSP_DB(0) DSP_AB(8) DSP_AB(7) DSP_AB(6) DSP_AB(5) DSP_AB(4) DSP_AB(3) DSP_AB(2) DSP_AB(1) DSP_AB(0)

C102

R101

C10 B13 E8 B15 K15 F11 J3 M3 N6 N5 J4 G5 K4 R2 P6 N11 M10 A6 F6 L11 P13 C4 B4

DSP_DB(0:15)

VCCD

4

3

2

1

VIN

_EN

_CHG

_PPR

9

GND

GND

IMIN

IREF

5

6

7

8

R102

BAT

R107

C118

D15 E10 A10 E9 H10

E14 E13 E11 F12 D14

K8 L8 N7 M7

K12 H11 G12 G13 F13 F15 C12 A14 C9 D10 B10 B11 A12 B12 A13 J12 G11 F14

N9 R10 P10 J11 K11 K14

U101

ADC_AUX2 ADC_AUX1 VREF CREF RTC_ALMN

VEXT VBAT CH_BDRV CH_ISEN CH_RES

CSN_PSC SCLK_PSC SDO_PSC SDI_PSC

VSIM VRTC LED2_DRV LED1_DRV RING_DRV VIB_DRV VLDO_7 VLDO_6 VL5S_B VL5S_A VLDO_5 VL4S_B VL4S_A VLDO_4 VLDO_3 VLDO_2 VLDO_1 VACC

UP_CLK UP_RST UP_IO SIM_IO SIM_RST SIM_CLK

VDD34 C11 VDD12 J13

VBAT

TP101

TP107

R112

1 Q100

C104

R111

VREF

UP_SDI

UP_CS UP_SCLK

2

3

DCS_TX_EN GSM_TX_EN

KEY_BL1

SIMCLK SIMRST SIMDATA

C111

R104

ICHRG

PWR_KEEP

INTRQ

VBAT

KEY_ROW(0)

KEY_COL(2)

C105

C125

10

R105

VRTC

C117

11 2 2 33

VBAT

CN100 6 6 5 5 4 4 GG GG 7 89 C107

RTCALARM

C108

FLASH_RESET

RST

C115

C116

VCCD VCC_1.8A

C114

VRF

C113

VCCA

C112

VCCB

C106

C110

C109

C122

R108

C120

R106

NEG

POS

R103

VRTC

BAT100

CSP_RESET

TR_RST

Flow Chart of Troubleshooting

TP102

Flow Chart of Troubleshooting

5. Microphone Part

Microphone does not work

Yes No Is the assembled status of microphone O.K?

Reassemble the microphone

Yes

Check the reference voltage on Mic path

No Solder the microphone again or C423 > 2.5V

Replace around Mic Circuit (C412, C420, R415, R418.....)

Yes

No Is microphone ok ?

Check U100

Yes END

7-6

SAMSUNG Proprietary-Contents may change without notice This Document can not be used without Samsung's authorization

Flow Chart of Troubleshooting

6. Speaker Part

There is no sound from Speaker

No Is the terminal of Speaker O.K.?

Replace the Speaker

Yes

The type of sound from the Speaker is Melody

Yes

Are there any signals at the pin#5 and pin#7 of U402? Yes

The pin#4 of U402 is "Low"

No

No

No

Are there any signals at the pin#2 and pin#10 of U402? Yes

Yes

Yes Check U402

No

The pin#4 of U402 is "High"

No

Check U100

Check U402

END

7-7

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Flow Chart of Troubleshooting

R408

SPK1P

V401

C409

V403

R410

R402

C412

9 NO1

VCC

U402

NO2

1 2 3 4 5

VBAT

C404

VCCD

R401

R419

R403

V404

V402

AOUTAN SPK1N AUDIO_AMP_EN YMU_SPK1N

D(1) D(0) CP_WEN

C406

33 26 27 28

G

23

22

21

D7

20

D(7)

19

YMU_VIB_EN

SPOUT2

18

YMU_SPK1N

SPOUT1

17 G

EQ3

YMU_SPK1P SPVDD

24

U401

25

D1

D0 /WR

NC

MTR PLLC

VDD

VSS C434

C418

8

G

36 16 15 14 13 12 11

35

C407

NC

CLKI

/RST

VREF

NC

C427

C416

R426

R425

R420

9

HPOUT-L/MONO 10

LED

/IRQ

EQ2

7

EQ1

6

C432

R407

5

/CS

4

A0

3

HPOUT-R

1

IOVDD G

R427 C433

/RD

2

D6

29 30 31 32 34

D(6)

C408

R423

R421

C417

D5

A(0)

YMU_EN

CP_OEN

CLK13M_YMU YMU_LED YMU_IRQ RST

C425

C430

D(5)

V410

J_MIC+ MIC1

4

D4

C410

C415

V411

5

ZD304

SPVSS

NC1

IN1

COM1

COM2

NC2

IN2

GND

C411

C414

C422

6

3

C419

C405

VCCD

R404

R406

4

JACK_IN 5

EAR_MIC_N 6 EAR_SPK_P 2

EAR_MIC_P 1 EAR_SPK_N 3

V405

C401

CN401

R405

VBAT

C402

C403

This Document can not be used without Samsung's authorization

10

8 7 6 GND 11

L401

L402

R414 2.7K

AOUTBP JACK_IN

AOUTBN

12 78

D(4)

C420

R413

R416

R439

EAR_SWITCH

D3

VCCA

R415

C423

R418

VCCD

Q400

D2

C413

C421

C424

C429

3

1

SAMSUNG Proprietary-Contents may change without notice

AOUTAP

YMU_SPK1P

R409

R411

R422

C431

2

D(3)

R412

R417

R424

VCCA

R435

R437

D(2)

MICINP

MICOUTP

MICINN MICOUTN

AUXOUTN AUXINN

AUXINP AUXOUTP

AUDIO

7-8

Flow Chart of Troubleshooting

8. EGSM Reciever CONTINUOUS RX ON RF INPUT : 62CH AMP : -50dBm

NO NORMAL CONDITION catch the channel?

Check soldered status of C901, C902, L904

YES NO

CON901 resolder or change

F900 CHECK pin#9 ≥ -65dBm ?

YES NO F900 CHECK pin#11 ≥ -65dBm ?

F900, C808, L803 resolder or change

YES NO U801 CHECK pin#21,22 ≥ -65dBm ?

C804,C805,L802 resolder or change

YES

NO U801 CHECK pin#31 : 26MHz ? Vp-p : 860mV?

U802 CHECK 26MHz ? Vp-p : 950mV?

NO U802 CHECK clean 3V?

YES YES

CHECK U100 U802 Resolder or Change?

7-9

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Flow Chart of Troubleshooting

9. EGSM transmitter

F900 pin#7 : about 2~3 dBm?

NO

CONTINUS TX ON CONDITION

NO F900 pin#4 : 3 V?

U100 check & change

YES

TX POWER DAC:500 CODE APPLIED CH:62 RBW : 100KHz VBW : 100KHz SPAN : 10MHz REF LEV. : 10dBm ATT. : 20dB

YES NO CON901, C903 check&change

C906 ≒ 4~5dBm?

YES

U900 check & change

NO BATTERY, U801 check & change

C910 : 3.7 V? YES

NO

NO R903 check & change

Between R903 & U900 : 1.2V?

YES

YES

NO R902 : ≒ -5dBm ?

YES

U900 change

U801 change or resolder

7-10

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U100 check &

Flow Chart of Troubleshooting

10. DCS Receiver CONTINUOUS RX ON RF INPUT : 698CH AMP : -50dBm

NO Check soldered status of C901,C902,L904

NORMAL CONDITION catch the channel?

YES NO CON901 resolder or change

F900 CHECK pin#9 ≥ -65dBm ?

YES NO F900 CHECK pin#1 ≥ -65dBm ?

F900, C806, L807 resolder or change

YES NO U801 CHECK pin#19,20 ≥ -65dBm ?

C807, C809, L806 resolder or change

YES

NO U801 CHECK pin#31 : 26MHz ? Vp-p : 860mV?

NO U802 CHECK 26MHz ? Vp-p : 950mV?

U802 CHECK clean 3V?

YES YES

U802 Resolder or Change? CHECK U100

7-11

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Flow Chart of Troubleshooting

11. DCS transmitter CONTINUOUS TX ON CONDITION

NO

NO

F900 pin#5 : about 2~3 dBm?

U100 check & change

F900 pin#10 : 3 V? YES

YES

CON901, C903 check&change

NO

CH : 698CH(DCS),660CH(PCS) TX POWER CODE: 350 CODE APPLIED RBW : 100KHz VBW : 100KHz SPAN : 10MHz REF LEV. : 10dBm ATT. : 20dB

L902: ≒ 4~5dBm?

YES

U900 check & change

NO BATTERY, U801 check & change

C910 : 3.7 V?

YES

Between R903 & U900 : 1.2V?

NO

R903 check & change

NO

YES

YES

NO R901: ≒ -5dBm ?

YES

U900 change or resolder U801 change or resolder

7-12

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U100 check

Flow Chart of Troubleshooting

12. PCS Receiver CONTINUOUS RX ON RF INPUT : 698CH AMP : -50dBm

NO Check soldered status of C901,C902,L904

NORMAL CONDITION catch the channel?

YES NO CON901 resolder or change

F900 CHECK pin#9 ≥ -65dBm ?

YES NO F900 CHECK pin#3 ≥ -65dBm ?

F900, C818, L805 resolder or change

YES NO U801 CHECK pin#17,18 ≥ -65dBm ?

C816, C817, L804 resolder or change

YES

NO U801 CHECK pin#31 : 26MHz ? Vp-p : 860mV?

NO U802 CHECK 26MHz ? Vp-p : 950mV?

U802 CHECK clean 3V?

YES YES

U802 Resolder or Change? CHECK U100

7-13

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Flow Chart of Troubleshooting

13. PCS transmitter CONTINUOUS TX ON CONDITION

NO

NO

F900 pin#5 : about 2~3 dBm?

U100 check & change

F900 pin#10 : 3 V? YES

YES

CON901, C903 check&change

NO

CH : 698CH(DCS),660CH(PCS) TX POWER CODE: 350 CODE APPLIED RBW : 100KHz VBW : 100KHz SPAN : 10MHz REF LEV. : 10dBm ATT. : 20dB

L902: ≒ 4~5dBm?

YES

U900 check & change

NO BATTERY, U801 check & change

C910 : 3.7 V?

YES

Between R903 & U900 : 1.2V?

NO

R903 check & change

NO

YES

YES

NO R901: ≒ -5dBm ?

YES

U900 change or resolder U801 change or resolder

7-14

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U100 check

SERCLK

SERLE

R804

R805

GND

NC

NC

31

13

XTAL2

7-15

SAMSUNG Proprietary-Contents may change without notice

This Document can not be used without Samsung's authorization R802

R801

30

1

4

U802

29

U801

VDD

C813

3 2

VIO

R800

_RESET 32

VDD

33

12

14

28

15

27

RFOL

35 34

11

GND

16

26

C812

C810

24

23

21

20

19

18

17

C819

C811

25

RFIAN

RFIAP

RFIEN

RFIEP

RFIDN

RFIDP

RFIPN

RFIPP

C814

XMODE

13MHZ_BB

XOENA

R807

SCLK

_SEN

SDIO

BQN

BQP

BIN

BIP

XOUT

0

TP806

VRF

RFOH XDIV

VDD AFC

XEN XTAL1 C815

CLK13M_YMU

CLK13M_MC

CLK13M_TR

R809

VRF

AFC

(MURATA)

(MURATA)

L806

L802

(MURATA) L804

1) Toyocom & KSS to be reviewed 2) Toyocom samples to be reviewed starting 5/26/04 ; to coordinate with Toyocom on behalf of Mr.Park/Samsung

R803

1

2

3

4

5

6

7

8

91

_PDN

SERDAT

T803

T801

C801

VDD

RTX_QN

RTX_QP

RTX_IN

RTX_IP

13MHZ_BB

RF_EN

R808

VCCD

C809

C807

C805

C804

C817

C816

C803

C802

L800

F800

IN

IN

10 5 3 2

G G G G

6 OUT 7 GSM OUT 8 OUT DCS 9 OUT

OUT

4

1

5

4 OUT G

3

IN 2

G

F801

L803

L807

L805

1 C818

C808

C806

EGSMRX

DCSRX

PCSRX

DCS_PAM_IN

GSM_PAM_IN

Flow Chart of Troubleshooting

Flow Chart of Troubleshooting

GSM_PAM_IN

DCS_PAM_IN

R902

R901

C905

VBAT

48

47

C909

43

C910

1 3 8 91 0 11 12 13 14 15 16 17

GSM850/900IN

GND1GSM

20

VCC3GSM

VCCOUT

42

21

39

VCC2DCS/PCS

VCC1DCS/PCS

C915 C916

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

GND

DCS/PCSOUT

GSM850/900OUT

22 23 24 25 26 27 28 29 33 36 38 44

35

C914

VCC3DCS/PCS C913

NC NC NC NC NC NC NC NC NC NC NC NC

VCC1GSM

DCS/PCSIN

BANDSEL

TXENABLE

VRAMP

18

U900

VBATT

46

37

40

41

45

2

19

VBATT

R903

C911

NC NC NC NC NC NC NC NC NC NC NC NC

TX_BAND_SEL

TX_EN

TXPOWER

C912

6

31

5

4

7 30 32 34 49 50 51 52 53 54

L901

L902

C908

C906

C904

C907

DCSRX PCSRX

EGSMRX

9

G 4

C903

A

2

1

C901

L904

GSM_TX_EN DCS_TX_EN PCS_RX_EN

ANT901

This Document can not be used without Samsung's authorization

ANT900

J_ANT

C902

SAMSUNG Proprietary-Contents may change without notice

CON901

CG 3

L903

VC1 0 VC2 4 VC3 2

F900

14 13 12 8 6

G G G G G

ANT 1 DCS_RX 31 PCS_RX DCS/PCS_TX 5 GSM850/900_TX 7 GSM850/900_RX 11

7-16

VCC2GSM

VCCOUT