Compal Electronics VS500 Single Band CDMA Cellular Phone User Manual technical part

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Document ID	577011
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Document Description	User Manual technical part
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Date Submitted	2005-08-31 00:00:00
Date Available	2005-08-31 00:00:00
Creation Date	2005-08-08 16:58:36
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Document Title	Microsoft Word - VS500 user manual_technical part _0708_.doc
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Document Author:	kyao

VS500 USER MANUAL
VS500 User manual of Technical part
Rev 1.0
Index
Ch 1. General Description
1.1 Introduction
Ch 2. Specification
2.1 Basic Specification
2.2 Electrical Specification
Ch 3. Circuit Description
3.1 General
3.2 Logic part
3.3 Receiver part
3.4 Transmit part
July 8, 2005
H/W 3 Team , R&D Center
VACOM WIRELESS INC.
Confidential & Proprietary of VACOM
1/13 Page
Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
Ch 1. General Description
1.1 Introduction
This equipment is a Single mode (CDMA only) portable mobile station of which frequency range is 824
∼894MHz. It uses 3G CDMA 1x-RTT solution, the MSM6000 Mobile Station Modem Chipset and
Software are designed to the IS-2000 Rel.0 Standard and enables up to a doubling of overall IS-95A/B
voice capacity and production of cost-optimized voice only handset. CDMA network consists of MSO
(Mobile Switching Office), BSC (Base Station Controller), BTS (Base station Transmission System) and
MS (Mobile station). And the standard of Mobile station is as below.
IS-95A/B, IS-2000 Release 0 (Common Air Interface): Protocol provisions between handset and
base station.
IS-96A (Vocoder): Code of voice signal which is applied to mobile station and system. Provision
relating to compression (Used 8Kbps EVRC)
TIA/EIA-98-D (Minimum performance standard for handset): Minimum performance standard
relating to handset’s H/W.
TIA/EIA-126 (Service Option 2,9): Voice Loop back Service Options.
IS-637 (Additional service): SMS (Short Message Service)
1.1.1
Basic parts
a. Handset
b. Charger (Travel Charger)
c. Standard Battery (950mA/H)
1.1.2
Handset
a. Transmitter part
b. Receiver part
c. Audio/Logic part
d. Others
1.1.3
Charger
a. Power code
b. Power supply parts
c. Others
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2/13 Page
Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
Ch 2. SPECIFICATION
2.1 BASIC SPECICATION
a. Size(Max`) : 105mm * 45.1mm * 19.9mm
b. Weight : 74.5 g (with Standard Battery)
c. Supply Voltage : DC 3.8V (±10%)
d. Operating Temp. : -30℃ ~ 60℃
e. Battery : 950mAh Li-Ion (Standard)
Talk time( CDMA mode) : 194 min (-92dBm/Half Rate/ 970mAh/E8285A)
Antenna Type : internal PIFA
2.2 ELECTRICAL SPECIFICATION
2.2.1
a.
CDMA TRANSMITTER
Frequency Range : 824 ~ 849MHz
b. Bandwidth : 1.23MHz
c.
ERP at Max. Output Power : 200mW ~ 1W
d. Modulation Type : OQPSK
e.
Frequency Stability : ±2.5ppm
f.
Occupied Bandwidth : 1.32MHz
g. Conducted Spurious Emission :
- 42dBc/30KHz (±900KHz)
- 54dBc/30KHz (±1.98MHz)
2.2.2
a.
CDMA RECEIVER
Frequency Range : 869 ~ 894MHz
b. Bandwidth : 1.23MHz
c.
Sensitivity : -104dBm
d. Single Tone Desensitization : -101dBm (offset : ±900KHz, -30dBm)
e.
f.
Intermodulation spurious Response Attenuation :
- 101dBm (offset : ±900KHz, ±1700KHz ,–43dBm)
- 90dBm (offset : ±900KHz, ±1700KHz ,–32dBm)
- 79Bm (offset : ±900KHz, ±1700KHz ,–21dBm)
Conducted Spurious Emission :
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Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
Receiver Band : -81dBm/1MHz
Transmitter Band : -61dBm/1MHz
Other Band : -47dBm/30KHz
Ch 3. CIRCUIT DESCRIPTION
3.1 GENERAL
RF (Radio frequency) Block & Base band Block
Audio/Logic Part, Receiver Part, Transmitting Part,
Audio/Logic Part : Power Management, Base band Signal Processor, Audio, User Interface, PC
Interface, Clock, RX/TX Control
TX Part : Transmitter part converts the frequency of signal to transmit into radio frequency,
amplifies the signal and transmits signals to Base Station through Duplexer and Antenna.
RX Part : Receiver part amplifies received signal through LNA (Low Noise Amplifier) and
converts it into base band frequency.
3.2 AUDIO/LOGIC PART
a. Mobile Station Modem: U1 (MSM6000)
b. Memory: U4 (PH28F160C3BD70) - 16Mbit Flash ROM
U2 (K6F4016U6G-AF70) - 4Mbit Static RAM
U5 (CAT24FC256WI) - 256Kbit EEPROM
c. Power Management: U3 (PM6610-2)
d. Audio Amplifier & Audio Interface: U10 (TPA751DGN)
e. KEY PAD / LCD MODULE
f.
Mini USB Type Connector(Support only RS232C)
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Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
SYSTEM BLOCK DIAGRAM
Confidential & Proprietary of VACOM
5/13 Page
Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
3.2.1
CIRCUIT DESCRIPTION
a. MSM6000: MSM6000 is a chipset responsible for User Interface, RF Interface, Digital Interface
and especially for base-band digital signal processing of CDMA/FM.
b. FLASH MEMORY / SRAM: FLASH MEMORY & SRAM is for storing operation program,
system parameters and additional parameters to manage handset. And it is a temporally place to
preserve all system parameters and data related with Base Station.
c. Power Management : Basically it supplies controllable regulated powers to each parts for handset
operation and offers charging control function for battery in the meaning of power management
And it also conducts functions such as clock buffer, driver circuit for UI, sensor of initial power
ignition.
d. Audio amplifier / Audio Interface: Audio signal for indicating notice of incoming calls needs to be
amplified by audio AMP for noticeable sounds. Voice or key sounds are inputted directly to speaker
from audio AMP output of MSM.
e. KEY PAD / LCD MODULE: These are interface parts between user and the handset like sensing of
key pressing and displaying of handset states.
f.
IO Connector : It offers physical connectivity for data communication and Diagnostic Monitor
using RS232C protocol, and external power from charger or Level Translator circuit for test.
3.2.1.1 MOBILE SYSTEM MODEM – MSM6000
MSM6000 is a core component including ARM7TDMI CPU core for CDMA type cellular phones. It has
208 BALL FBGA package type and handles signals from RF, Digital and user action
a. Clock Interface (reference clock / 19.2MHz, Input) : It is the interface and processing part of
19.2MHz clock signal from VC-TCXO Crystal Oscillator, reference signal for all of clock regime
b. Reset Interface: It makes RESET signal for CPU reset at power on
c. Microprocessor Interface: It stands for embedded ARM CPU core in MSM6000 and its interface. It
consists of CPU interface for memories or devices which need CPU control such as Flash/RAM,
EEPROM, LCD and others. Address Bus(A1-A20) is for addressing to memory space of each
device to forward or receive data. Data Bus(D0-D15) is the path for forwarding the data to devices
or receiving the data from devices. And also there are signals to control data flows between device
and CPU like RAM_CS, ROM_CS, LCD_CS, GP_CS, HWR_N, LWR_N and so on.
d. CODEC (Coder/Decoder) Interface: MSM6000 has a Voice Band Audio CODEC and provides
Receiver/C-Mic, Hands-Free, Ear Phone Interface through 3pairs of embedded audio AMPs.
e. UART (Universal Asynchronous Receiver Transmitter) Interface: It is the RS-232 protocol
interface for diagnosis of handset or data communication with PC. And it consists of UART1 and
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Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
UART2. UART1 is used for test and debugging and user-defined download program.
f.
JTAG (Joint Test Action Group) Interface: It is used for board test and debugging with Boundary
Scan. And it can be used as S/W Upgrade by S/W Downloading function.
g. RF Transmit Interface: It controls Tx RF Signal and output power through providing differential
Base band I/Q Signals and TX_AGC_ADJ signal.
Transmit power strength is controlled by TX_AGC_ADJ which is result of RF calibration in
RFT6122.
RF Receive Interface : It manages received RX_IM, RX_QM, RX_IP, RX_QP signals from
RFR6122
h. Serial Bus Interface: It controls the action of RFR6122, RFT6122 and PM6610 using serial bus
interface protocol.
i.
Others
A. Reference Oscillator Tracking: Compensates error of VCTCXO frequency
with
TRK_LO_ADJ signal.
B. ADCs : There are seven 8bit House-Keeping ADCs which can be used for user-defined
functions.
In this model, we use MSM embedded ADCs for earphone detection, earphone send/end
function, RF Tx Power detection, temperature check, voltage and current of PM6610 check
C. GPIOs : There are totally 50 General Purpose Input/Output ports as interrupt sources
But many of these have alternative inherent functions, so we use a part of these as user-defined
function.
3.2.1.2 AUDIO PART
Audio part is composed of transmit/receive phonetic treatment part .
3.2.1.2.1
TX AUDIO PATH
The microphone interface consists of two differential microphone inputs, one differential auxiliary input.
Each has a two-stage gain programmable amplifier. And there are two optional digital filters on Tx path
prior to the vocoder, a slope filter and a high-pass filter which has a user programmable frequency
response.
3.2.1.2.2
RX AUDIO PATH
The Receive path can be directed to one of two earphone amplifiers or the auxiliary output. Their gain
and path can be controlled by software. And it has user selectable high-pass filter, 2’s complement FIR
filter after the amplifier.
Confidential & Proprietary of VACOM
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Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
3.2.1.2.3
Audio AMP/Audio Interface
Audio AMP amplifies and sounds Alert Tone or Receiving Call Ringing. Its signal source is from
internally generated codec circuit of MSM6000. Its output gain is set by H/W but sound volume can be
controlled by S/W.
Key Tone is transmitted to Receiver unit after converting VOCODER DTMF Signal in MSM6000 to
AUDIO RX PATH Signal. If a hand-free mode is started by using like earphone, Key Tone is sounded
through the hands-free path. And also during the conversation, Ring Back Tone or Voice is sounded
through a Hands-free speaker and MIC in this mode.
3.2.1.3 POWER MANAGEMENT PART
The PM6610 device integrates all handset power management and some user interface functions.
a. Input Power Management: An unregulated external power requires the PM6610 IC to provide
closed-loop control of the pass transistor. In this mode, the handset supply voltage and current
are regulated by the PM6610 IC for battery charging or normal operation
b. Output Voltage Regulation: Seven voltage regulators are provided all have programmable
voltages and derived from a common band-gap reference using low dropout voltage circuits.
c. ADC interface: it allows precise voltage and current measurement of external power and battery
for charging control and voltage/current control of main power. PM6610 forwards multiplexed
analog voltage to one of HKADC in MSM for analog to digital conversion
d. User interfaces: PM6000 IC also supports common handset-level user interfaces like power-on
key sensing and driving LEDs or vibration motor.
e. IC interfaces: The primary IC-level interface is the MSM-compatible 3-line serial bus
interface(SBI) that provides efficient initialization, status checking and control of chipsets.
Configurable device parameters are set through SBI control register, while many other registers
are available to report parameter settings, device status, and interrupt events.
3.2.1.4 I/O Interface
It provides with interface between handset and peripheral accessory such as charger, level translator or
data cable for data communication. Basically it has a pin for supply external power to power
management part and two data lines for RS232C protocol. One pin to detect level translator or charger
ignition is provided.
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Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
3.3 RECEIVER PART
RFR6122 ( LNA + RF to baseband Receiver_Quadrature I/Q Downconverter and
internal VCO
for CDMA mode )
Receiver band Pass Filter (balance 100ohm out put impedance)
Antenna
Duplexer
3.3.1
MAIN FUNCTION
Divide Receive/Transmit signal
Low noise Amplify
Direct Conversion
Quadrature Demodulation
Filtering of TX band signal and noise
3.3.2
BASIC OPERATION
RX Frequency (881.5 ±12.5MHz) which is passed by duplexer amplified through LNA(Low Noise
Amplifier) path of RFR6122 and then input to pre-amplifier through RF SAW filter with balanced output.
The pre-amplifier drive RF signal to quadrature RF to baseband
downconverter. The downconverted
baseband signals are multiplexed and routed to low pass filter. The filter output are buffered and passed
on to the MSM device.
3.3.2.1 ANTENNA: (AT500)
It optimizes transmit/receive of radio wave in the air. It is internal PIFA type.
3.3.2.2 DPX (DUPLEXER): (DX501)
It has the function of separating transmit/receive signals in the full duplex system using the
transmit/receive common antenna. Duplexer consists of the receive part band pass filter and the transmit
part band pass filter, and ideal duplexer provides perfect isolation between transmit and receive parts. In
other words, the transmit part band pass filter is used to suppress noises and spurious waves entering the
receive band among transmit signals in order to improve sensitivity.
RX
TX
Center Frequency
881.5 MHz
836.5 MHz
Bandwidth
± 12.5 MHz
± 12.5 MHz
Insertion Loss
1.9 dB (Typ.)
1.7 dB (Typ.)
Attenuation
824~894 MHz (57dB)
869~894 MHz (45dB)
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Date : 05-08-08, Rev No : 1.0
Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
3.3.2.3 LNA part of RFR6122:(U511 - LNA part)
LNA transfers RF signal received through duplexer from base station as the most suitable signal. Because
the first amplifier after the antenna in a receiver block contributes most significantly to system noise
figure, LNA is used.
Division
Specification
Frequency range
869 ~894 MHz
CDMA Gain mode 0
Division
Specification
CDMA Gain mode 2
Gain
16 dB (Typ.)
Gain
-5 dB (Typ.)
Noise figure
1.5 dB (Type.)
Noise figure
5.5 dB (Type.)
IIP3
10 dBm
IIP3
15 dBm
CDMA Gain mode 1
CDMA Gain mode
Gain
4 dB (Typ.)
Gain
-20 dB (Typ.)
Noise figure
5 dB (Type.)
Noise figure
20 dB (Type.)
IIP3
7 dBm
IIP3
15 dBm
3.3.2.4 RF SAW FILTER: (SW511)
It takes receive frequency (881.5 ±12.5MHz) only and the bandwidth is 25MHz. And it eliminates
signal except receive frequency like thermal noise contributed by TX signal. And it is consists of single
input and balanced output port.
Division
Specification
Insertion loss
3.0 dB max
In-out VSWR
2.5 max
In band ripple
1.5 dB
Stop band attenuation (Tx band)
30 dB min
3.3.2.5 Quadrature I/Q Downconverter of RFR6122 : (U511 Mixer part)
Quadrature downconverter is to convert the RF signal (881.5 ±12.5MHz) amplified by LNA with the
baseband signal directly. Rx signal path include MSM-controlled gain adjustments. And driven Rx
signal passing AGC amplifier drive the RF port of the quadrature RF-to-baseband downconverter. The
downconverted baseband outputs are multiplexed and routed to low pass filter. The filter outputs are
buffered and passed on to the MSM processing.
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Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
(18) LO_OUT
RFR6122
(16) VCO_TUNE
Cell
VCO
VDDA
GND
LO Generation
&Distribution
Ground slug
Quadrature
Downconverter
LNA_IN (6)
LNA
R_LNA (7)
( 30) TCXO
ctls
Control
Circuits
(2) VDDM
(3) SBDT
(4) SBCK
(5) SBST
LPF
(28) RX_IP
(27) RX_IM
LPF
(25) RX_QP
(26) RX_QM
RFR6122 Block diagram
3.3.2.6
Others of RFR6122 (U511)
Numerous secondary functions are integrated on-chip; the RX LO generation and distribution circuits,
the UHF(Cellular-CDMA) VCO circuits, and various interface, control and status circuits,
3.4 TRANSMITTER PART
RFT6122 ( Baseband to
Power Amp
TX Frequency Band Pass Filter
Power Detection circuits
Isolator
3.4.1
RF transmitter IC of qualcomm’s radioOne Zero-IF chipset. )
MAIN FUNCTION
Quadrature Modulation and Upconvertion
Filtering
Power Amplify
Tx AGC
Power detection
3.4.2
BASIC OPERATION
I and Q differential baseband Signals from MSM6000 are changed to Tx RF Signal through quadrature
upconverter and drive to gain controlled amplifier.
This signal is input to Power Amplifier through
passing RF SAW FILTER and then it is amplified as high power and radiated through duplexer and
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Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
antenna.
3.4.2.1 RFT6122 : (U541)
The RFT6122 provides the Zero-IF transmitter signal path, from analog baseband to RF drive amplifier,
for single band single-mode. Secondary functions are integrated on chip , two PLL circuits(TX LO and
RX LO), TX VCO circuit, TX LO generation and distribution circuits, and various interface, control, etc..
RFT6122
Quadrature
Upconverter
RF_OUT (23)
Gain Ctl
Circuits
mode
LOCK (8)
Control
Circuits
LO Generation
&Distribution
mode
lock
Logic
VCONTROL (21)
(31) DAC_REF
(29) TX_IP
(30) TX_IM
(27) TX_QP
(28) TX_QM
(7) VDDM
(32) SBCK
(2) SBST
(1) SBDT
(9) TX_ON
lock
(6) R_BIAS
Fref
Tx
VCO
Rx PLL
Ground slug
TCXO (4)
TX_CP_HOLD (13)
TX_CP (12)
RX_LO_IN (15)
RX_CP (18)
Fref
RX_CP_HOLD (19)
GND
VDDA
VDDRF
Tx PLL
3.4.2.2 RF SAW FILTER: (SW571)
It eliminates other signals except transmit frequency of CDMA handset (836.5±12.5MHz) and
bandwidth is 25MHz.
Division
Specification
Insertion loss
2.5 dB max
In-out VSWR
2.0 max
In band ripple
1.5 dB
Stop band attenuation (Tx band)
30 dB min
3.4.2.3 POWER AMPLIFIER (PA): (U572)
Power AMP is to amplify the signal to reach Base Station.
Division
Power output level
Power gain
Specification
28 dBm (CDMA) // 31 dBm(AMPS)
27.5 dB typ
Power added efficiency
Input VSWR
Load matching stress VSWR
40 % typ @ max power
2:1
8:1
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Control No.: MSD351A0VS500
Originated by Hard Ware 3 Team
VS500 USER MANUAL
3.4.2.4 POWER DETECTOR (D571)
It is to detect of Tx output signal for HDET Data. Using schottky barrier diode.
3.4.2.5 Isolator (U573)
It is to provide constant load and impedance to PAM. It’s Insertion loss is 0.7 dB typical and isolation is
over 15 dB.
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