Samsung Service Manual SGH-E820, Service Manual do Tel.komórkowych, Samsung - Service Manual
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SERVICE
Manual
1. GSM General Specification
G S M 9 0 0
P h a s e 1
E G S M 9 0 0
P h a s e 2
D C S 1 8 0 0
P h a s e 1
F r e q . B a n d [ M H z ]
U p l i n k / D o w n l i 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
A R F C N r a n g e
1 ~ 1 2 4
0 ~ 1 2 4 &
9 7 5 ~ 1 0 2 3
5 1 2 ~ 8 8 5
T x / R x s p a c i n g
4 5 M H z
4 5 M H z
9 5 M H z
M o d . B i t r a t e
/ B i t P e 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
T i m e S l o t P e r i o d
/ F r a m e P e r i o d
5 7 6 . 9 u s
4 . 6 1 5 m s
5 7 6 . 9 u s
4 . 6 1 5 m s
5 7 6 . 9 u s
4 . 6 1 5 m s
M o d u l a t i o n
0 . 3 G M S K
0 . 3 G M S K
0 . 3 G M S K
M S P o w e r
3 3 d B m ~ 5 d B m
3 3 d B m ~ 5 d B m
3 0 d B m ~ 0 d B m
P o w e r C l a s s
5 p c l ~ 1 9 p c l
5pcl ~ 19pcl
0pcl ~ 15pcl
S e n s i t i v i t y
- 1 0 2 d B m
- 1 0 2 d B m
- 1 0 0 d B m
T D M A M u x
8
8
8
C e l l R a d i u s
3 5 K m
3 5 K m
2 K m
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2. GSM TX power class
TX Power
control level
GSM900
TX Power
control level
DCS1800
5
33ꆾ3 dBm
0
30ꆾ3 dBm
6
31
ꆾ
3 dBm
1
28ꆾ3 dBm
7
29ꆾ3 dBm
2
26
ꆾ
3 dBm
8
27ꆾ3 dBm
3
24ꆾ3 dBm
9
25ꆾ3 dBm
4
22ꆾ3 dBm
10
23ꆾ3 dBm
5
20ꆾ3 dBm
11
21
ꆾ
3 dBm
6
18
ꆾ
3 dBm
12
19ꆾ3 dBm
7
16ꆾ3 dBm
13
17
ꆾ
3 dBm
8
14
ꆾ
3 dBm
14
15ꆾ3 dBm
9
12ꆾ4 dBm
15
13
ꆾ
3 dBm
10
10
ꆾ
4 dBm
16
11ꆾ5 dBm
11
8
ꆾ
4dBm
17
9
ꆾ
5 dBm
12
6ꆾ4 dBm
18
7ꆾ5 dBm
13
4
ꆾ
4 dBm
19
5ꆾ5 dBm
14
2ꆾ5 dBm
15
0
ꆾ
5 dBm
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1. SGH-E820 RF Circuit Description
1) RX PART
1. ASM(U100) ꇦ Switching Tx, Rx path for GSM900, DCS1800 by logic controlling.
2. ASM Control Logic (Q100, Q102) ꇦ Truth Table
VC1
VC2
GSM Tx Mode
H
L
DCS Tx Mode
L
H
GSM Rx Mode
L
L
DCS Rx Mode
L
L
3. FILTER
Converting electromagnetic field wave to acoustic wave and then pass the specific frequency band.
- GSM FILTER (F101)
ꇦ
For filtering the frequency band between 925 and 960 MHz
- DCS FILTER (F102)
ꇦ
For filtering the frequency band between 1805 and 1880 MHz.
4. VC-TCXO (OSC101)
This module generates the 26MHz reference clock to drive the logic and RF. After additional process, the reference clock
applies to the U102 Rx IQ demodulator and Tx IQ modulator. And then, the oscillator is controlled by serial data to
select channel and use fast lock mode for GPRS high class operation.
5. Transceiver (U102)
The receiver front-end which amplifies the GSM, DCS aerial signal, converts the chosen channel down to a low IF signal
of 100 kHz. The first stage is composed of symmetrical low noise amplifiers (LNAs). They are matched to 50 ohm. The
LNAs are followed by an IQ down mixer. It consists of two mixers in parallel but driven by quadrature out of phase LO
signals. The In phase(I) and Quadrature phase(Q) IF signals are low pass filtered to provide protection from high
frequency offset interferes. The low IF I and Q signals are then fed into the channel filter. The front-end low IF I and Q
outputs enter the integrated bandpass channel filter with provision for five 8 dB gain steps in front of the filter.
2) TX PART
Baseband IQ signal fed into offset PLL, this function is included inside of U102 chip. OSC100 chip generates modulator
signal which power level is about 6.5dBm and fed into Power Amplifier(U101). The PA output power and power ramping
are well controlled by Auto Power Control circuit. We use offset PLL below table.
200kHz offset
30 kHz bandwidth
GSM
-36dBm
DCS
-36dBm
Modulation Spectrum
400kHz offset
30 kHz bandwidth
GSM
-36dBm
DCS
-36dBm
600kHz ~ 1.8MHz offset
30 kHz bandwidth
GSM
-51dBm
DCS
-56dBm
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2. Baseband Circuit description of SGH-E820
1. PCF50601 (U400)
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. Backlight Brightness Modulator
The Backlight Brightness Modulator (BBM) contains a programmable Pulse-width modulator (PWM) and FET to modulate
the intensity of a series of LED’s or to control a DC/DC converter that drives LCD backlight.
This phone ( SGH-E820) use PWM control to contrast the backlight brigtness.
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.
2. LCD Connector
LCD is consisted of main LCD(color 65K TFT LCD).
Chip select signals in the U500, LCD_CS, can enable LCD. BACKLIGHT signal enables white LED of main LCD.
These signal is from U400.
16-bit data lines(LD(0)~LD(15)) transfers data and commands to LCD. 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 "LCD_VDD".
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 OM6359. It uses two power signals. "VDD2" is used for
circuit and "VBAT" is used for LED.
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