LG AX300 Service Manual

Features of AX300

1. Wave Type

• CELLULAR : G7W

• PCS : G7W

2. Frequency Scope

Transmit Frequency (MHz) Receive Frequency (MHz)

CELLULAR PCS CELLULAR PCS GPS

824.82 ~ 848.19 1850~1910 869.82~893.19 1930~1990 1575.42

3. Rated Output Power : CELLULAR = 0.251W

PCS = 0.240W

4. Output Conversion Method : This is possible by correcting the key board channel.

5. Voltage and Current Value of Termination Part Amplifier (Catalogue included)

MODE Part Name Voltage Current Power

CELLULAR AWT6321R 4.2V 600mA 0.251W

PCS AWT6321R 4.2V 600mA 0.240W

6. Functions of Major Semi-Conductors

Classification Function

QSC6055 Terminal operation control and digital signal processing

Converts RF signal to baseband signal

Converts baseband signal to RF signal

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MCP (

K5E1H12ACM-D075)

7. Frequency Stability

NAND (1Gbit) + DDR (512Mbit)

Storing of terminal operation program

• CELLULAR : ±0.5PPM

• PCS : ±0.1PPM

LG Electronics Inc.

AX300

CDMA Mobile Subscriber Unit

AX300

SERVICE MANUAL

TRIPLE BAND, TRIPLE MODE

[PCS/GPS/CELLULAR]

CDMA MOBILE PHONE

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Table of Contents

General Introduction ............................................................................................................6

Chapter 1. System Introduction ........................................................................................... 7

1. System Introduction.........................................................................................................7

1.1 CDMA Abstract ....................................................................................................................... 7

2. Features and Advantages of CDMA Mobile Phone .........................................................9

2.1 Various Types of Diversities ................................................................................................... 9

2.2 Power Control ......................................................................................................................... 9

2.3 Voice Encoder and Variable Data Speed ............................................................................. 10

2.4 Protecting Call Confidentiality ............................................................................................... 10

2.5 Soft Handoff .......................................................................................................................... 10

2.6 Frequency Re-Use and Sector Segmentation ...................................................................... 11

2.7 Soft Capacity......................................................................................................................... 11

3. Structure and Functions of tri-band CDMA Mobile Phone.............................................12

4. Specification ..................................................................................................................13

4.1 General Specification ............................................................................................................ 13

4.1.1 Transmit/Receive Frequency Interval ..........................................................................................13

4.1.2 Number of Channels (Channel Bandwidth).................................................................................13

4.1.3 Operating Voltage ........................................................................................................................13

4.1.4 Battery Power Consumption ........................................................................................................13

4.1.5 Operating Temperature ................................................................................................................13

4.1.6 Frequency Stability ......................................................................................................................13

4.1.7 Antenna ........................................................................................................................................13

4.1.8 Size and Weight ...........................................................................................................................13

4.1.9 Channel Spacing ..........................................................................................................................13

4.1.10 Battery Type, Capacity and Orerating Time ..............................................................................14

4.2 Receive Specification............................................................................................................ 14

4.2.1 Frequency Range..........................................................................................................................14

4.2.2 Local Oscillating Frequency Range .............................................................................................14

4.2.3 Sensitivity.....................................................................................................................................14

4.2.4 Selectivity.....................................................................................................................................14

4.2.5 Interference Rejection ..................................................................................................................14

4.2.6 Spurious Wave Suppression.........................................................................................................14

4.2.7 CDMA Input Signal Range..........................................................................................................15

4.3 Transmit Specification........................................................................................................... 15

4.3.1 Frequency Range..........................................................................................................................15

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4.3.2 Local Oscillating Frequency Range .............................................................................................15

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4.3.3 Intermediate Frequency................................................................................................................15

4.3.4 Output Power ...............................................................................................................................15

4.3.5 CDMA TX Frequency Deviation.................................................................................................15

4.3.6 CDMA TX Conducted Spurious Emissions.................................................................................15

4.3.7 CDMA Minimum TX Power Control ..........................................................................................15

4.4 MS (Mobile Station) Transmitter Frequency ......................................................................... 16

4.4.1 CELLULAR mode.......................................................................................................................16

4.4.2 PCS mode.....................................................................................................................................16

4.5 MS (Mobile Station) Receiver Frequency ............................................................................. 17

4.5.1 CELLULAR mode.......................................................................................................................17

4.5.2 PCS mode.....................................................................................................................................17

4.5.3 GPS mode : 1575.42MHz ............................................................................................................17

4.6 AC Adaptor............................................................................................................................ 18

4.7 Cigar Lighter Charger............................................................................................................ 18

4.8 Hands-Free Kit ...................................................................................................................... 18

5. Installation .....................................................................................................................18

5.1 Installing a Battery Pack........................................................................................................ 18

5.2 For Adapter Use.................................................................................................................... 18

5.3 For Mobile Mount .................................................................................................................. 18

5.3.1 Installation Position......................................................................................................................18

5.3.2 Cradle Installation ........................................................................................................................18

5.3.3 Interface Box................................................................................................................................19

5.3.4. Microphone Installation ..............................................................................................................19

5.3.5 Cable Connections .......................................................................................................................19

Chapter 2. NAM Input Method ........................................................................................... 20

NAM Programming Method and Telephone Number Input Method ..................................20

PREPARATION........................................................................................................................... 20

PROGRAMMING STEPS ........................................................................................................... 20

Chapter 3. Circuit Description............................................................................................ 22

1. RF Transmit/Receive Part .............................................................................................22

1.1 Overview ............................................................................................................................... 22

1.2 Description of Rx Part Circuit................................................................................................ 22

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1.2.1 Quintplexer (DP100)....................................................................................................................22

1.2.2 LNAs (U200) ...............................................................................................................................25

1.2.3 GPS LNA (U101) ........................................................................................................................26

1.2.4 Down-converter Mixers ...............................................................................................................27

1.2.5 Rx RF SAW Filters (F100/F104).................................................................................................27

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1.2.6 RF Receiver(U200) ......................................................................................................................27

1.3 Description of Transmit Part Circuit ...................................................................................... 28

1.3.1 RF Transmitter (U200).................................................................................................................28

1.3.2 Dual Power Amplifier (U105) .....................................................................................................30

1.4 Description of Frequency Synthesizer Circuit....................................................................... 31

1.4.1 Voltage Control Temperature Compensation Crystal Oscillator .................................................31

2. Digital/Voice Processing Part ........................................................................................31

2.1 Overview ............................................................................................................................... 31

2.2 Configuration......................................................................................................................... 31

2.2.1 Keypad/LED and Receptacle Part................................................................................................31

2.2.2 Voice Processing Part ..................................................................................................................31

2.2.3 QSC6055 Part ..............................................................................................................................31

2.2.4 Memory Part ................................................................................................................................31

2.2.5 Power Supply Part........................................................................................................................32

2.3 Circuit Description ................................................................................................................. 32

2.3.1 Keypad/LCD and Receptacle Part................................................................................................32

2.3.2 Audio Processing Part..................................................................................................................32

2.3.3 MODEM Part...............................................................................................................................32

2.3.4 Memory Part ................................................................................................................................33

2.3.5 Power Supply Part........................................................................................................................33

2.3.6 Logic Part.....................................................................................................................................33

Chapter 4. Trouble Shooting..............................................................................................35

1. Rx Part Trouble..............................................................................................................35

1.1 DCN & PCS Rx Trouble ........................................................................................................35

1.1.1 Checking DC Power Supply Circuit ............................................................................................36

1.1.2 Checking Rx Signal Path .............................................................................................................37

1.1.3 Checking VCTCXO Circuit.........................................................................................................40

2. Tx Part Trouble..............................................................................................................42

2.1 DCN & PCS Tx Trouble ........................................................................................................42

2.1.2 Checking VCTCXO Circuit.........................................................................................................44

2.1.3 Checking Tx SAW Filter IN/OUT...............................................................................................46

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2.1.4 Checking Tx Dual PAM ..............................................................................................................47

2.1.5 Checking Quintplexer and Mobile Switch...................................................................................49

3. Power.............................................................................................................................50

3.1 Power On Trouble ................................................................................................................. 50

3.2 Charging Trouble .................................................................................................................. 52

4. Logic Part Trouble .........................................................................................................54

4.1 LCD Trouble.......................................................................................................................... 54

4.2. Camera Trouble ................................................................................................................... 57

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4.3 Audio Trouble........................................................................................................................ 60

4.3.1 Speaker Trouble ...........................................................................................................................60

4.3.2 Receiver Trouble..........................................................................................................................62

4.3.3 MIC Trouble ................................................................................................................................64

4.3.4 Ear-Jack Trouble..........................................................................................................................66

4.4 Vibrator Trouble .................................................................................................................... 68

4.5 USB Trouble.......................................................................................................................... 70

Chapter 5. Drawing & Part Lists ........................................................................................72

1. Block Diagram ...............................................................................................................72

2. Circuit Drawing ..............................................................................................................73

2.1 Main PCB .............................................................................................................................. 73

2.2 F-PCB.................................................................................................................................... 78

3. PCB Layout....................................................................................................................79

3.1 Main PCB .............................................................................................................................. 79

3.1.1 Top Side .......................................................................................................................................79

3.1.2 Bottom Side..................................................................................................................................80

3.2 F-PCB.................................................................................................................................... 81

4. Part Lists........................................................................................................................ 82

4.1 Main PCB Top....................................................................................................................... 82

4.2 Main PCB Bottom.................................................................................................................. 82

4.3 Full BOM List......................................................................................................................... 88

5. Assembly Diagram.......................................................................................................100

Chapter 6. Safety............................................................................................................. 102

Chapter 7. Glossary......................................................................................................... 105

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General Introduction

General Introduction

The AX300 phone has been designed to operate on the latest digital mobile communication technology, Code

Division Multiple Access (CDMA). This CDMA digital technology has greatly enhanced voice clarity and can

provide a variety of advanced features. Currently, CDMA mobile communication technology has been

commercially used in Cellular and Personal Communication Service (PCS). The difference between them is the

operating frequency spectrum. Cellular uses 800MHz and PCS uses 1.9GHz. The LG300 support GPS Mode,

we usually call it tri-band phone. We call it tri-mode phone. If one of the Cellular and PCS base stations is

located nearby, Call fail rate of triple-mode phone is less than dual-mode phone or single-mode phone.

The CDMA technology adopts DSSS (Direct Sequence Spread Spectrum). This feature of DSSS enables the

phone to keep communication from being crossed and to use one frequency channel by multiple users in the

same specific area, resulting that it increases the capacity 10 times more compared with that in the analog mode

currently used. Soft/Softer Handoff, Hard Handoff, and Dynamic RF power Control technologies are combined

into this phone to reduce the call being interrupted in a middle of talking over the phone.

Cellular and PCS CDMA network consists of MSO (Mobile Switching Office), BSC (Base Station Controller),

BTS (Base station Transmission System), and MS (Mobile Station). The following table lists some major

CDMA Standards.

CDMA Standard Designator Description

Basic air interface TIA/EIA/IS-95-A/B/C

ANSI J-STD-008

Network TIA/EIA/IS-634

TIA/EIA/IS/651

TIA/EIA/IS-41-C

TIA/EIA/IS-124

Service TIA/EIA/IS-96-B

TIA/EIA/IS-99

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TIA/EIA/IS-637

TIA/EIA/IS-657

Performance TIA/EIA/IS-97

TIA/EIA/IS-98

ANSI J-STD-018

ANSI J-STD-019

Protocol between MS and BTS for Cellular & AMPS

Protocol between MS and BTS for PCS

MAS-BS

PCSC-RS

Intersystem operations

Nom-signaling data comm.

Speech CODEC

Assign data and fax

Short message service

Packet data

Cellular base station

Cellular mobile station

PCS personal station

PCS base station

* TSB –74: Protocol between an IS-95A system and ANSI J-STD-008

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Speech CODEC

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Chapter 1. System Introduction

Chapter 1. System Introduction

1. System Introduction

1.1 CDMA Abstract

The CDMA mobile communication system has a channel hand-off function that is used for collecting the

information on the locations and movements of mobile telephones from the cell site by automatically controlling

several cell site through the setup of data transmission routes, and then enabling one switching system to carry

out the automatic remote adjustment. This is to maintain continuously the call state through the automatic

location confirmation and automatic radio channel conversion when the busy subscriber moves from the service

area of one cell site to that of another by using automatic location confirmation and automatic radio channel

conversion functions. The call state can be maintained continuously by the information exchange between

switching systems when the busy subscriber moves from one cellular system area to the other cellular system

area.

In the cellular system, the cell site is a small-sized low output type and utilizes a frequency allocation system

that considers mutual interference, in an effort to enable the re-use of corresponding frequency from a cell site

separated more than a certain distance. The analog cellular systems are classified further into an AMPS system,

E-AMPS System, NMT system, ETACS system, and JTACS system depending on technologies used.

Unlike the time division multiple access (TDMA) or frequency division multiple access (FDMA) used in the

band limited environment, the Code Division Multiple Access (CDMA) system which is one of digital cellular

systems is a multi-access technology under the interference limited environment. It can process more number of

subscribers compared to other systems (TDMA system has the processing capacity three times greater than the

existing FDMA system whereas CDMA system, about 12~15 times of that of the existing system).

CDMA system can be explained as follows; TDMA or CDMA can be used to enable each person to talk

alternately or provide a separate room for each person when two persons desire to talk with each other at the

same time, whereas FDMA can be used to enable one person to talk in soprano, whereas the other in bass (one

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of the two talkers can carry out synchronization for hearing in case there is a bandpass filter function in the area

of the hearer). Another available method is to make two persons to sing in different languages at the same time,

space, and frequency when wishing to let the audience hear the singing without being confused. This is the

characteristic of CDMA.

On the other hand, when employing the CDMA technology, each signal has a different pseudo-random binary

sequence used to spread the spectrum of carrier. A great number of CDMA signals share the same frequency

spectrum. In the perspective of frequency area or time area, several CDMA signals are overlapped. Among these

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types of signals, only desired signal energy is selected and received through the use of pre-determined binary

sequence; desired signals can be separated, and then received with the correlator used for recovering the

spectrum into its original state. At this time, the spectrums of other signals that have different codes are not

recovered into its original state, and appears as the self-interference of the system.

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2. Features and Advantages of CDMA Mobile Phone

2.1 Various Types of Diversities

When employing the narrow band modulation (30kHz band) that is the same as the analog FM modulation

system used in the existing cellular system, the multi-paths of radio waves create a serious fading. However, in

the CDMA broadband modulation (1.25MHz band), three types of diversities (time, frequency, and space) are

used to reduce serious fading problems generated from radio channels in order to obtain high-quality calls.

Time diversity can be obtained through the use of code interleaving and error correction code whereas frequency

diversity can be obtained by spreading signal energy to wider frequency band. The fading related to normal

frequency can affect the normal 200~300kHz among signal bands and accordingly, serious effect can be avoided.

Moreover, space diversity (also called path diversity) can be realized with the following three types of methods.

First, it can be obtained by the duplication of cell site receive antenna. Second, it can be obtained through the

use of multi-signal processing device that receives a transmit signal having each different transmission delay

time and then, combines them. Third, it can be obtained through the multiple cell site connection (Soft Handoff)

that connects the mobile station with more than two cell sites at the same time.

2.2 Power Control

The CDMA system utilizes the forward (from a base station to mobile stations) and backward (from the mobile

station to the base station) power control in order to increase the call processing capacity and obtain high-quality

calls. In case the originating signals of mobile stations are received by the cell site in the minimum call quality

level (signal to interference) through the use of transmit power control on all the mobile stations, the system

capacity can be maximized.If the signal power of mobile station is received too strong, the performance of that

mobile station is improved. However, because of this, the interference on other mobile stations using the same

channel is increased and accordingly, the call quality of other subscribers is reduced unless the maximum

accommodation capacity is reduced.

In the CDMA system, forward power control, backward open loop power control, and closed loop power control

methods are used. The forward power control is carried out in the cell site to reduce the transmit power on

mobile stations less affected by the multi-path fading and shadow phenomenon and the interference of other cell

sites when the mobile station is not engaged in the call or is relatively nearer to the corresponding cell site. This

is also used to provide additional power to mobile stations having high call error rates, located in bad reception

areas or far away from the cell site.

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The backward open loop power control is carried out in a corresponding mobile station; the mobile station

measures power received from the cell site and then, reversely increases/decreases transmit power in order to

compensate channel changes caused by the forward link path loss and terrain characteristics in relation to the

mobile station in the cell site. By doing so, all the mobile transmit signals received by the base station have same

strength.

Moreover, the backward closed loop power control used by the mobile station is performed to control power

using the commands issued out by the cell site. The cell site receives the signal of each corresponding mobile

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station and compares this with the pre-set threshold value and then, issues out power increase/decrease

commands to the corresponding mobile station every 1.25msec (800 times per second). By doing so, the gain

tolerance and the different radio propagation loss on the forward/backward link are complemented.

2.3 Voice Encoder and Variable Data Speed

The bi-directional voice service having variable data speed provides voice communication which employs

voice encoder algorithm having power variable data rate between the base station and the mobile station. On the

other hand, the transmit voice encoder performs voice sampling and then, creates encoded voice packets to be

sent out to the receive voice encoder, whereas the receive voice encoder demodulates the received voice packets

into voice samples.

One of the two voice encoders described in the above is selected for use depending on inputted automatic

conditions and message/data; both of them utilize four-stage frames of 9600, 4800, 2400, and 1200 bits per

second for cellular and 14400,7200,3600,1800 bits per second for PCS, so PCS provide relatively better voice

quality (almost twice better than the existing celluar system). In addition, this type of variable voice encoder

utilizes adaptive threshold values on selecting required data rate. It is adjusted in accordance with the size of

background noise and the data rate is increased to high rate only when the voice of caller is inputted.

Therefore, background noise is suppressed and high-quality voice transmission is possible under the

environment experiencing serious noise. In addition, in case the caller does not talk, data transmission rate is

reduced so that the transmission is carried out in low energy. This will reduce the interference on other CDMA

signals and as a result, improve system performance (capacity increased by about two times).

2.4 Protecting Call Confidentiality

Voice privercy is provided in the CDMA system by means of the private long code mask used for PN spreading.

Voice privacy can ve applied on the traffic channels only. All calls are initiated using the public long code mask

for PN spreading. The mobile station user may request voice privacy during call setup using the origination

message or page response message, and during traffic channel operation using the long code transition request

order.

The Transition to private long code mask will not be performed if authentication is not performed. To initiate a

transition to the private or public long code mask, either the base station or the mobile station sends a long code

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transition request order on the traffic channel.

2.5 Soft Handoff

A handoff in which the mobile station commences communications with a new base station without interrupting

communications with the old base station. Soft handoff can only be used between CDMA channels having

identical freqeuncy assignments.

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2.6 Frequency Re-Use and Sector Segmentation

Unlike the existing analog cellular system, the CDMA system can reuse the same frequency at the adjacent cell.

there is no need to prepare a separate frequency plan. Total interference generated on mobile station signals

received from the cell site is the sum of interference generated from other mobile stations in the same cell site

and interference generated from the mobile station of adjacent cell site. That is, each mobile station signal

generates interference in relation to the signals of all the other mobile stations.

Total interference from all the adjacent cell sites is the ratio of interference from all the cell sites versus total

interference from other mobile stations in the same cell site (about 65%). In the case of directional cell site, one

cell normally uses a 120°sector antenna in order to divide the sector into three. In this case, each antenna is used

only for 1/3 of mobile stations in the cell site and accordingly, interference is reduced by 1/3 on the average and

the capacity that can be supported by the entire system is increased by three times.

2.7 Soft Capacity

The subscriber capacity of the CDMA system is flexible depending on the relation between the number of

users and service classes. For example, the system operator can increase the number of channels available for

use during the busy hour despite the drop in call quality. This type of function requires 40% of normal call

channels in the standby mode during the handoff, in an effort to avoid call disconnection resulting from the lack

of channels.

In addition, in the CDMA system, services and service charges are classified further into different classes so that

more transmit power can be allocated to high class service users for easier call set-up; they can also be given

higher priority of using hand-off function than the general users.

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3. Structure and Functions of tri-band CDMA Mobile
Phone

The hardware structure of CDMA mobile phone is made up of radio frequency (RF) part and logic part. The

RF part is composed of Receiver part (Rx), Transmitter part (Tx) and Local part (LO). For the purpose of

operating on tri-band, It is necessary dual Tx path, tri Rx path, dual PLL and switching system for band

selection. The mobile phone antenna is connected with quintplexer which divides antenna input/output signals

between cellular frequency band (824~894 MHz) and PCS frequency band (1850~1990MHz). Quintplexer

carrys out seperating Rx band and Tx band. The Rx signals from the antenna are directly converted into

baseband signal by the frequency synthesizer and frequency down converter. And then, are converted into

digital signals via Analog-to-Digital Converter (ADC). In front of the ADC, switching system is required to

choose which band path should be open. The digital signals send to 5 correlators in each CDMA de-modulator.

Of these, one is called a searcher whereas the remaining 4 are called data receivers (fingers). Digitalized signals

include a great number of call signals that have been sent out by the adjacent cells. These signals are detected

with pseudo-noise sequence (PN Sequence). Signal to interference ratio (C/I) on signals that match the desired

PN sequence are increased through this type of correlation detection process, but other signals obtain processing

gain by not increasing the ratio. The carrier wave of pilot channel from the cell site most adjacently located is

demodulated in order to obtain the sequence of encoded data symbols. During the operation with one cell site,

the searcher searches out multi-paths in accordance with terrain and building reflections. On three data receivers,

the most powerful 3 paths are allocated for the parallel tracing and receiving. Fading resistance can be improved

a great deal by obtaining the diversity combined output for de-modulation. Moreover, the searcher can be used

to determine the most powerful path from the cell sites even during the soft handoff between the two cell sites.

Moreover, 3 data receivers are allocated in order to carry out the de-modulation of these paths. Output data that

has been demodulated changes the data string in the combined data row as in the case of original

signals(deinterleaving), and then, are demodulated by the forward error correction decoder which uses the

Viterbi algorithm.

Mobile station user information send out from the mobile station to the cell site pass through the digital voice

encoder via a mike. Then, they are encoded and forward errors are corrected through the use of convolution

encoder. Then, the order of code rows is changed in accordance with a certain regulation in order to remove any

errors in the interleaver. Symbols made through the above process are spread after being loaded onto PN carrier

waves. At this time, PN sequence is selected by each address designated in each call.

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Signals that have been code spread as above are digital modulated (QPSK) and then, power controlled at the

automatic gain control amplifier (AGC Amp). Then, they are converted into RF band by the frequency

synthesizer synchronizing these signals to proper output frequencies.

Transmit signals obtained pass through the quintplexer filter and then, are sent out to the cell site via the

antenna.

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4. Specification

4.1 General Specification

4.1.1 Transmit/Receive Frequency Interval

1) CELLULAR : 45 MHz

2) PCS : 80 MHz

4.1.2 Number of Channels (Channel Bandwidth)

1) CELLULAR : 20 Channels

2) PCS : 48 Channels

4.1.3 Operating Voltage

DC 3.3~4.2V

4.1.4 Battery Power Consumption

DC 3.7V

CELLULAR

PCS

SLEEP IDLE MAX POWER

1.0 mA 90~120mA 650 mA (24.0 dBm)

1.5 mA 90~120 mA 650 mA (23.8 dBm)

4.1.5 Operating Temperature

-30°C ~ +60°C

4.1.6 Frequency Stability

1) CDMA : ±0.5PPM

2) PCS : ±0.1PPM

4.1.7 Antenna

Fixed Type (External Antenna), 50 Ω

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4.1.8 Size and Weight

1) Size : W x H x D : 91.5 x 47.5 x 18.2 mm (1.87 x 3.60 x 0.72 inch)

2) Weight : 81.2g

4.1.9 Channel Spacing

1) CELLULAR : 1.25MHz

2) PCS: 1.25 MHz

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4.1.10 Battery Type, Capacity and Orerating Time

Unit = Hours, Minutes

PCS(Slot Cycle 1)

Stand-by Time

Celluar (Slot Cycle 1)

PCS(Slot Cycle 1)

Talk Time

Celluar (Slot Cycle 1)

4.2 Receive Specification

4.2.1 Frequency Range

1) CELLULAR : 869.820 MHz ~ 893.190 MHz

2) PCS : 1930 MHz ~ 1990 MHz

3) GPS : 1575.42 MHz

4.2.2 Local Oscillating Frequency Range

Standard (800mAh)

About 150 Hrs (SCI=1)

About 160 Hrs (SCI=1)

About 180 Min.(typical quintplexer, -92dBm Input)

About 180 Min.(typical quintplexer, -92dBm Input)

1) CELLULAR : 1738.08MHz ~ 1787.94MHz

2) PCS : 1715.56MHz ∼ 1768.89MHz

3) GPS : 3150.84MHz

4.2.3 Sensitivity

1) CELLULAR : -104dBm (C/N 12dB or more)

2) PCS : -104dBm (C/N 12dB or more)

3) GPS : -148.5dBm

4.2.4 Selectivity

1) CELLULAR : 3dB C/N Degration (With Fch±1.25 kHz : -30dBm)

2) PCS : 3dB C/N Degration (With Fch±1.25 kHz : -30dBm)

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4.2.5 Interference Rejection

1) Single Tone : -30dBm at 900 kHz (CELLULAR), -30dBm at 1.25MHz(PCS)

2) Two Tone : -43dBm at 900 kHz & 1700kHz(CELLULAR), -43dBm at 1.25 MHz & 2.05 MHz

4.2.6 Spurious Wave Suppression

Maximum of -80dB

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4.2.7 CDMA Input Signal Range

z Dynamic area of more than -104~ -25 dB: 79dB at the 1.23MHz band.

4.3 Transmit Specification

4.3.1 Frequency Range

1) CELLULAR : 824.820MHz ~ 848.190MHz

2) PCS : 1850 MHz ~ 1910 MHz

4.3.2 Local Oscillating Frequency Range

1) CELLULAR : 1738.08MHz ~ 1787.94MHz

2) PCS : 1715.56MHz ∼ 1768.89MHz

4.3.3 Intermediate Frequency

Direct Conversion

4.3.4 Output Power

1) CELLULAR : 0.251W

2) PCS: 0.240W

4.3.5 CDMA TX Frequency Deviation

1) CELLULAR: +300Hz or less

2) PCS: ± 150Hz

4.3.6 CDMA TX Conducted Spurious Emissions

1) CELLULAR : 900kHz : - 42 dBc/30kHz below

1.98MHz : - 54 dBc/30kHz below

2) PCS : -42 dBc / 30KHz below

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4.3.7 CDMA Minimum TX Power Control

1) CELLULAR : - 50dBm below

2) PCS: -50dBm below

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4.4 MS (Mobile Station) Transmitter Frequency

4.4.1 CELLULAR mode

Ch # Center Freq. (MHz) Ch # Center Freq. (MHz)

1011

29

70

111

152

193

234

275

316

363

824.640

825.870

827.100

828.330

829.560

830.790

832.020

833.250

834.480

835.890

404

445

486

527

568

609

650

697

738

779

837.120

838.350

839.580

840.810

842.040

843.270

844.500

845.910

847.140

848.370

4.4.2 PCS mode

Ch # Center Freq (MHz) Ch # Center Freq (MHz) Ch # Center Freq (MHz)

25 1851.25 425 1871.25 825 1891.25

50 1852.50 450 1872.50 850 1892.50

75 1853.75 475 1873.75 875 1893.75

100 1855.00 500 1875.00 900 1895.00

125 1856.25 525 1876.25 925 1896.25

150 1857.50 550 1877.50 950 1897.50

175 1858.75 575 1878.75 975 1898.75

200 1860.00 600 1880.00 1000 1900.00

225 1861.25 625 1881.25 1025 1901.25

250 1862.50 650 1882.50 1050 1902.50

275 1863.75 675 1883.75 1075 1903.75

300 1865.00 700 1885.00 1100 1905.00

325 1866.25 725 1886.25 1125 1906.25

350 1867.50 750 1887.50 1150 1907.50

375 1868.75 775 1888.75 1175 1908.75

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4.5 MS (Mobile Station) Receiver Frequency

4.5.1 CELLULAR mode

Ch. # Center Freq. (MHz) Ch. # Center Freq. (MHz)

1011

29

70

111

152

193

234

275

316

363

869.640

870.870

872.100

873.330

874.560

875.790

877.020

878.250

879.480

880.890

404

445

486

527

568

609

650

697

738

779

882.120

883.350

884.580

885.810

887.040

888.270

889.500

890.910

892.140

893.370

4.5.2 PCS mode

Ch # Center Freq (MHz) Ch # Center Freq (MHz) Ch # Center Freq (MHz)

25 1931.25 425 1951.25 825 1971.25

50 1932.50 450 1952.50 850 1972.50

75 1933.75 475 1953.75 875 1973.75

100 1935.00 500 1955.00 900 1975.00

125 1936.25 525 1956.25 925 1976.25

150 1937.50 550 1957.50 950 1977.50

175 1938.75 575 1958.75 975 1978.75

200 1940.00 600 1960.00 1000 1980.00

225 1941.25 625 1961.25 1025 1981.25

250 1942.50 650 1962.50 1050 1982.50

275 1943.75 675 1963.75 1075 1983.75

300 1945.00 700 1965.00 1100 1985.00

325 1946.25 725 1966.25 1125 1986.25

350 1947.50 750 1967.50 1150 1987.50

375 1948.75 775 1968.75 1175 1988.75

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4.5.3 GPS mode : 1575.42MHz

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4.6 AC Adaptor

See Appendix

4.7 Cigar Lighter Charger

See Appendix

4.8 Hands-Free Kit

See Appendix

5. Installation

5.1 Installing a Battery Pack

1) The Battery pack is keyed so it can only fit one way. Align the groove in the battery pack with the rail

on the back of the phone until the battery pack rests flush with the back of the phone.

2) Slide the battery pack forward until you hear a “click”, which locks the battery in place.

5.2 For Adapter Use

1) Plug the adapter into a wall outlet. The adapter can be operated from a 110V source.

When AC power is connected to the adapter.

2) Insert the adapter jack into the phone with the installed battery pack.

Red light indicates battery is being charged.. Green light indicates battry is fully charged.

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5.3 For Mobile Mount

5.3.1 Installation Position

In order to reduce echo sound when using the Hands-Free Kit, make sure that the speaker and microphone are

not facing each other and keep microphone a generous distance from the speaker.

5.3.2 Cradle Installation

Choose an appropriate flat surface where the unit will not interface with driver’s movement or passenger’s

comfort. The driver/user should be able to access the phone with ease. Using the four self-tapping screws

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provided, mount the supplied braket on the selected area. Then with the four machine screws provided, mount

the counterpart on the reverse side of the reverse side of the cradle. Secure the two brackets firmly together by

using the two bracket joint screws provide.

The distance between the cradle and the interface box must not exceed the length of the main cable.

5.3.3 Interface Box

Choose an appropriate flat surface ( somewhere under the dash on the passenger side is preferred ) and mount

the IB bracket with the four self-tapping screws provided. Clip the IB into the IB bracket.

5.3.4. Microphone Installation

Install the microphone either by cliiping I onto the sunvisor (driver’s side) or by attaching it to door post

(driver’s side), using a velcno adhesive tape (not included).

5.3.5 Cable Connections

5.3.5.1 Power and Ignition Cables

Connect the red wire to the car battery positive terminal and the black wire to the car ground. Connect the green

wire to the car ignition sensor terminal. ( In order to operate HFK please make sure to connect green wire to

ignition sensor terminal.) Connect the kit’s power cable connector to the interface box power receptacle.

5.3.5.2 Antenna Cable Connection

Connect the antenna coupler cable connector from the cradle to the external antenna connector. ( Antenna is not

included.)

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Chapter 2. NAM Input Method

(Inputting of telephone numbers included)

Chapter 2. NAM Input Method

NAM Programming Method and Telephone Number
Input Method

PREPARATION

STEP ACTION

1 Press OK key – Press 0 key – Input 000000 for Service Code.

2 Press 1 for Service Programming (Service Prg.)

PROGRAMMING STEPS

ITEM Default Action

1 ESN xxxxxxxxxxxxxx

/ 80xxxxxx

2 Phone

Number(MDN)

3 Phone

Number(MIN)

4 Home SID 0 Enter Home SID

5 Name NAM1 Edit NAM Name

6 Completed Press [More]

7 Service Code 000000 Service Programming code

8 MCC 310 Enter the 3 digits Mobile Country Code [OK]

000000xxxx Enter the Phone Number(Mobile Directory Number) [OK]

000000xxxx Enter the Phone Number(Mobile Identification Number) [OK]

ESN Information (Read Only)

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9 NMSID 00000000xxxx Enter 00 + the 10 digits Mobile Phone Number (National Mobile

Station Identity) [OK]

10 True IMSI MCC 000 Enter the True IMSI Mobile Country Code (International Mobile

Station Identity) [OK]

11 True IMSI NMSID 00000000xxxx Enter 00 + the 10 digits Mobile Phone Number [OK]

12 PRL Enabled Enabled PRL enabled (preset)

13 CDMA Home

SID/NID

14 CDMA Pri. CH A 283 Enter CDMA Primary CH A (preset)

15 CDMA Sec. CH A 691 Enter CDMA Secondary CH A (preset)

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0/65535 Enter CDMA Home SID/NID.

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16 CDMA Pri. CH B 384 Enter CDMA Primary CH B (preset)

17 CDMA Sec. CH B 777 Enter CDMA Secondary CH B (preset)

18 Lockout SID/NID 0/65535 Enter Lockout SID/NID.[OK]

19 Home Sys Reg Yes Enter Yes or No to enable/disable Home System Registration

[OK]

20 Forn SID Reg Yes Enter Yes or No to enable/disable Foreign System ID Registration

[OK]

21 Forn NID Reg Yes Enter Yes or No to enable/disable Foreign Network ID

Registration [OK]

22 Acc Ovld Class x Enter ACCOLC[OK]

23 Slot Cycle Index 2 Enter the Slot Cycle Index (x = 0 ~ 7, commonly 1 or 2) [OK]

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Chapter 3. Circuit Description

Chapter 3. Circuit Description

1. RF Transmit/Receive Part

1.1 Overview

The Tx and Rx part employs the Direct Conversion system. The Tx and Rx frequencies are respectively

824.04~848.97MHz and 869.04~893.97MHz for cellular and 1850~1910MHz and 1930~1990MHz for PCS.

The block diagram is shown in Page 71. RF signals received through the antenna are seperated by quintplexer.

RF Signal fed into the low noise amplifier (in QSC6055) through the quintplexer. Then, they are combined with

the signals of local oscillator (VCO) at the down conversion mixer(in QSC6055) in order to create Base-band

frequency. Then, this signal is changed into digital signal by the analog to digital converter (ADC, A/D

Converter), and the digital circuit part of the QSC(Qualcomm Single Chip)6055 processes the data from ADC.

The digital processing part is a demodulator.

In the case of transmission, RF Transmitter(in QSC6055) receives QPSK-modulated anlog signal from the

QSC6055. In QSC6055, the baseband quadrature signals are upconverted to the Cellular or PCS frequency

bands and amplified to provide signal drive capability to the power amp.

After that, the RF signal is amplified by the Power Amp in order to have enough power for radiation.

Finally, the RF signal is sent out to the cell site via the antenna after going through the coupler and quintplexer.

1.2 Description of Rx Part Circuit

1.2.1 Quintplexer (DP100)

The ACFM-7102 is a quintplexer that combines a US PCS duplexer, a cellular band duplexer and a S-GPS band

filter into a single, miniature package with a single antenna port

The main function of quintplexer is to prohibit the other band signals from flowing into the one band circuit

and vice versa. RF designer can use common tri-band antenna regardless of frequency band (800, 1575 and

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1900 MHz). The specification of LG300 quintplexer is described below:

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1.2.2 LNAs (U200)

The QSC6055 has cellular and PCS LNAs, respectively. The characteristics of Low Noise Amplifier (LNA)

are low noise figure, high gain, high intercept point and high reverse isolation.

The frequency selectivity characteristic of mobile phone is mostly determined by LNA.

The specification of LG300 LNAs are described below:

1.2.2.1 Cellular CDMA LNA performance specifications

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1.2.2.2 PCS CDMA LNA performance specifications

1.2.3 GPS LNA (U101)

The characteristics of Low Noise Amplifier (LNA) are low noise figure, high gain, high intercept point and high

reverse isolation. The frequency selectivity characteristic of mobile phone is mostly determined by LNA.

The specification of LG300 GPS LNA is described below

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1.2.4 Down-converter Mixers

The QSC6055 device performs signal down-conversion for Cellular, PCS and GPS tri-band applications. It

contains all the circuitry (with the exception of external filters) needed to support conversion of received RF

signals to baseband signals. The three downconverting Mixers (Cellular, PCS and GPS), and an LO Buffer

Amplifier to buffer the RF VCO to the RF Transmit Upconverter. The GPS LNA & mixers offer the most

advanced and integrated CDMA Rx solution designed to meet cascaded Noise Figure (NF) and Third-order

Intercept Point (IIP3) requirements of IS-98C and J-STD-018 specifications for Sensitivity, Two-Tone

Intermodulation, and Single-tone Desense.

Operation modes and band selection are specially controlled from the Qualcomm Single Chip QSC6055.

1.2.5 Rx RF SAW Filters (F100/F104)

The main function of Rx RF SAW filter is to attenuate mobile phone spurious frequency, attenuate direct RF

frequency pick up, attenuate noise at the image frequency originating in or amplified by the LNA and suppress

second harmonic originating in the LNA. The Rx RF SAW filter usually called image filter.

1.2.6 RF Receiver (U200)

The circuit functions of the RF Receiver(in QSC6055) include Rx Automatic Gain Controller (AGC) with 90

dB dynamic range, quadrature RF mixers, down-conversion mixer from RF to base-band, low pass filters and

Analog to Digital Converters (ADC) for converting to digital base-band. The RFR includes clock generators that

drive the digital processor and a VCO which generates the LO frequency for base-band down-conversion.

Switching system is located in front of the RFR RX_IN_C_LB and RX_IN_C_HB terminal and is for band

selection between cellular and PCS. The Rx AGC either amplifies or attenuates the received CDMA RF signal

to provide a constant-amplitude signal to the I/Q down-converter. The RF output of the Rx AGC amplifier

separate into I-channel and Q-channel base-band components and down-converted by mixer with quadrature LO.

LO signals are generated by a Voltage Controlled Oscillator (VCO) and frequency stabilized by external

varactor-tuned resonant tank circuit. The I/Q down converter outputs the CDMA signals at baseband frequency.

Low-pass filtering enables the receiver to select the desired baseband signals from the effects of unwanted noise

or adjacent-channel interference. I/Q base band components are converted to digital signals by two identical

4-bit ADCs.

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1.3 Description of Transmit Part Circuit

1.3.1 RF Transmitter (U200)

The RF Transmitter(in QSC6055, base-band-to-RF Transmit Processor) performs all Tx signal-processing

functions required between digital base-band and the Power Amplifier Module (PAM). The base-band

quadrature signals are up-converted to the Cellular or PCS frequency bands and amplified to provide signal

drive capability to the PAM. The RFT includes an RF mixer for upconverting analog baseband to RF, a

programmable PLL for generating Tx LO frequency, two cellular and two PCS driver amplifiers and Tx power

control through an 85 dB VGA. As added benefit, the single sideband upconversion eliminates the need for a

band pass filter normally required between the upconverter and driver amplifier.

I, I/, Q and Q/ signals proceed from the QSC6055 are analog signal. In CDMA mode, These signals are

modulated by Quadrature Phase Shift King (QPSK). I and Q are 90 deg. out of phase, and I and I/ are 180 deg.

Tx IF signal can be obtained by mixing analog signal with 228.6MHz(Cellular)/263.6(PCS) 1

frequency which is generated by Tx VCO. The Tx IF signal is amplified by AGC controlled by QSC6055. The

st

local osillator

second mixer on RFT converts IF signals into RF signals. After passing through the upconverter , RF signal is

inputted into the Power Amplifier Module.

1.3.1.1 Cellular CDMA transmit signal path performance specifications

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