E365 - Shema.ru
Level 1 and 2 Service Manual
E365
Dual Band Wireless Telephone
E365
GSM 900/1800MHz
Level 1 and 2 Service Manual
E365
6809461A68
Table of Contents
Table of Contents
Contents
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Product Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Product Names . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Regulatory Agency Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Computer Program Copyrights . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
About this Service Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Warranty Service Policy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Parts Replacement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Product Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
General Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Controls, Indicators, and Input / Output (I/O) Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
User Interface Menu Structure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Alert Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Battery Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Tools and Test Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Disassembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Removing and Replacing the Battery Cover and Battery . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Removing and Replacing the Subscriber Identity Module (SIM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Removing and Replacing the Front Housing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Removing and Replacing the Vibrator Motor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Removing and Replacing the Keypad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Removing the Antenna/Speaker/Camera Assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Removing and Replacing the LCD Display Bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Removing the Earpiece Speaker . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Removing the Color LCD Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Removing and Replacing the plastic LCD module holder . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Subscriber Identity Module (SIM) and Identification Label . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
SIM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Identification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Manual Test Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Manual Test Mode Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32
Troubleshooting Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
Programming: Software Upgrade and Flexing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
Part Number Charts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Related Publications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
Exploded View Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
Exploded View Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Model-Specific Part Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Index-1
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Table of Contents
4
E365
June 12, 2003
Level 1 and 2 Service Manual
E365
6809461A68
Introduction
Introduction
Motorola® Inc. maintains a worldwide organization that is dedicated to provide
responsive, full-service customer support. Motorola products are serviced by an
international network of company-operated product care centers as well as
authorized independent service firms.
Available on a contract basis, Motorola Inc. offers comprehensive maintenance and
installation programs which enable customers to meet requirements for reliable,
continuous communications.
To learn more about the wide range of Motorola service programs, contact your local
Motorola products representative or the nearest Customer Service Manager.
Product Identification
Motorola products are identified by the model number on the housing. Use the entire
model number when inquiring about the product. Numbers are also assigned to
chassis and kits. Use these numbers when requesting information or ordering
replacement parts.
Product Names
Product names included in Product Family 0C85 (E365) telephones are listed on
the front cover. Product names are subject to change without notice. Some product
names, as well as some frequency bands, are available only in certain markets.
Regulatory Agency Compliance
This device complies with Part 15 of the FCC Rules. Operation is subject to the
following conditions:
1. This device may not cause any harmful interference, and
2. must accept interference received, including interference that may cause
undesired operation.
This class B device also complies with all requirements of the Canadian
Interference-Causing Equipment Regulations (ICES-003).
Cet appareil numérique de la classe B respecte toutes les exigences du Règlement
sur le matériel brouilleur du Canada.
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Introduction
E365
6809461A68
1 and 2
E365
Computer Program Copyrights
The Motorola products described in this manual may include Motorola computer
programs stored in semiconductor memories or other media that are copyrighted
with all rights reserved worldwide to Motorola. Laws in the United States and other
countries preserve for Motorola, Inc. certain exclusive rights to the copyrighted
computer programs, including the exclusive right to copy, reproduce, modify,
decompile, disassemble, and reverse-engineer the Motorola computer programs in
any manner or form without Motorola's prior written consent. Furthermore, the
purchase of Motorola products shall not be deemed to grant either directly or by
implication, estoppel, or otherwise, any license or rights under the copyrights,
patents, or patent applications of Motorola, except for a nonexclusive license to use
the Motorola product and the Motorola computer programs with the Motorola
product.
About this Service Manual
Using this service manual and the suggestions contained in it assures proper
installation, operation, and maintenance of E365 telephones. Refer questions about
this manual to the nearest Customer Service Manager.
A product family is the group of products having the same Account Product Code
(APC). To locate the APC on a device, refer to “Mechanical Serial Number (MSN)”
later in this manual.
Audience
This manual aids service personnel in testing and repairing E365 telephones.
Service personnel should be familiar with electronic assembly, testing, and
troubleshooting methods, and with the operation and use of associated test
equipment.
Use of this manual assures proper installation, operation, and maintenance of
Motorola products and equipment. It contains all service information required for
the equipment described and is current as of the printing date.
Scope
The scope of this document is to provide the basic information relating to E365
telephones, and also to provide procedures and processes for repairing the units at
Level 1 and 2 service centers including:
• Unit swap out
• Repairing of mechanical faults
• Basic modular troubleshooting
• Testing and verification of unit functionality
• Initiate warranty claims and send faulty modules to Level 3 or 4 repair
centers
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Level 1 and 2 Service Manual
Introduction
Conventions
Special characters and typefaces, are used in this manual to emphasize certain
types of information.
➧
G
E
M
Note: Emphasizes additional information pertinent to the subject
matter.
Caution: Emphasizes information about actions that may result in
equipment damage.
Warning: Emphasizes information about actions that may result in
personal injury.
Keys to be pressed are represented graphically. For example, instead of “Press
the Menu Key”, you will see “Press M”.
Information from a screen is shown in text as similar as possible to what
appears in the display. For example, ALERTS or ALERTS.
Information that you need to type is printed in boldface type
Warranty Service Policy
The product comes with the standard 12 months warranty terms and conditions.
Accidental damage, misuse, and extended warranties offered by retailers are not
supported under warranty. Non warranty repairs are available at agreed fixed
repair prices.
Out of Box Failure Policy
The standard out of box failure criteria applies. Customer units that fail very early
on after the date of sale, are to be returned to Manufacturing for root cause analysis,
to guard against epidemic criteria. Manufacturing will bear the costs of early life
failure.
Product Support
Customer’s original units will be repaired but not refurbished as standard.
Appointed Motorola Service Hubs will perform warranty and non-warranty field
service for level 2 (assemblies) and level 3 (limited PCB component). The Motorola
High Tech Centers will perform level 4 (full component) repairs.
Customer Support
Customer support is available through dedicated Call Centers and in-country help
desks. Product Service training should be arranged through the local Motorola
Support Center.
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Introduction
E365
Parts Replacement
When ordering replacement parts or equipment, include the Motorola part number
and description used in the service manual or supplement.
When ordering crystals or channel elements, specify the Motorola part number,
description, crystal frequency, and operating frequency desired.
When the Motorola part number of a component is not known, use the product model
number or other related major assembly along with a description of the related
major assembly and of the component in question.
In the U.S.A., to contact Motorola, Inc. on your TTY, call: 800-793-7834
Accessories and Aftermarket Division (AAD)
Replacement parts, test equipment, and manuals can be ordered from AAD.
U.S.A.
Outside U.S.A.
Phone: 800-422-4210
Phone: 847-538-8023
FAX: 800-622-6210
FAX: 847-576-3023
For EMEA spare parts call +44 131 479 1274.
For Asia spare parts call +65 648 62995.
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Specifications
Specifications
General Function
Frequency Range GSM
Frequency Range DCS
Channel Spacing
Channels
Modulation
Transmitter Phase Accuracy
Duplex Spacing
Frequency Stability
Operating Voltage
Average Transmit Current
Average Stand-by Current
Dimensions
Size (Volume)
Weight
Temperature Range
Battery Life, 740 mAh Li Ion Battery
Specification
880-915 MHz Tx (with EGSM)
925-960 MHZ Rx
1710-1785 MHz Tx
1805-1880 MHz Rx
200 kHz
174 EGSM, 374 DCS carriers with 8 ch.
per carrier
GMSK at BT = 0.3
5 Degrees RMS, 20 Degrees peak
45 MHz GSM, 95 MHz DCS
± 0.10 ppm of the downlink frequency
(Rx)
+3.0V dc to +5.1V dc (battery)
+4.4V dc to +6.5V dc (external
connector)
300 mA max
7 mA max
107 mm x 45 mm x 19.5 mm
(4.2 inches x 1.7 inches x 0.76 inches)
80 cc (4.8 in3)
93 gm (2.9 oz)
-10° C to +55° C (+15° F to +130° F)
Talk time up to 640 minutes
Standby time up to 150 hours
All talk and standby times are
approximate and depend on network
configuration, signal strength, and
features selected. Standby times are
quoted as a range from DRX=2 to
DRX=9. Talk times are quoted as a range
from DTX off to DTX on.
Transmitter Function
RF Power Output
Output Impedance
Spurious Emissions
Receiver Function
Receive Sensitivity
RX bit error rate (100k bits) Type II
Channel Hop Time
Time to Camp
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Specification
32 dBm nominal GSM 900
29 dBm nominal GSM 1800
30 dBm nominal DCS
50 ohms nominal
-36 dBm from 0.1 to 1 GHz,
-30 dBm from 1 to 4 GHz
Specification
-107 dBm GSM 900,
-106 dBm GSM 1800,
-105 dBm DCS
< 2%
500 microseconds
Approximately 5-10 seconds
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Specifications
E365
Speech Coding Function
Speech Coding Type
Bit Rate
Frame Duration
Block Length
Classes
Bit Rate with FEC Encoding
10
Specification
Regular pulse excitation / linear
predictive coding with long term
prediction (RPE LPC with LTP)
13.0 kbps
20 ms
260 bits
Class 1 bits = 182 bits; Class 2 bits = 78
bits
22.8 kbps
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Product Overview
Product Overview
Motorola E365 mobile telephones feature global system for mobile communications
(GSM) air interface, general packet radio service (GPRS) transport technology, and
wireless application protocol (WAP) Internet browser. The mobile telephone uses a
simplified icon and graphical-based user interface (UI) for easier operation, allows
short message service (SMS) text messaging, and include clock, alarm, datebook,
calculator, and caller profiling personal management tools. The E365 is a dual band
phone that allows roaming within the GSM 900 MHz and digital cellular system
(DCS) 1800 MHz bands.
E365 telephones support GPRS and SMS in addition to traditional circuit switched
transport technologies. GPRS, where available, provides substantial increases in
mobile data communications performance and the efficient use of radio spectrum.
Data transmission rates for GSM networks can potentially increase from the
current rate of 9.6 kbps up to a theoretical maximum of 171.2 kbps. An increased
data rate is by no means the only benefit provided by GPRS. A key advantage is
the provision of a permanent virtual connection to the network. This “always on”
connection is possible because GPRS uses packet data transfer so that, for example,
email can be downloaded in “background mode.” There is no need for the user to reconnect before requesting a service, eliminating connection set-up delays and
adding convenience and immediacy to data services access. The “virtual” nature of
this connection means that network resources are not consumed during periods
when a user is not actually sending or receiving data.
The telephones are made of polycarbonate plastic with a metal enclosure. The
display and speaker, as well as the 16-key keypad, transceiver printed circuit board
(PCB), microphone, charger and headphone connectors, and power button are
contained within the candy bar form-factor housing. The user-replaceable 740 mAh
Lithium Ion (LiIon) battery provides up to 640 minutes of talk time with up to 150
hours of standby time1. The phone accepts 3V mini subscriber identity module (SIM)
cards which fit into the SIM holder next to the battery. These telephones feature a
128 x 160 pixel high-resolution color graphics display and an internal antenna.
Features
E365 telephones use advanced, self-contained, sealed, custom integrated circuits to
perform the complex functions required for GSM GPRS communication. Aside from
the space and weight advantage, microcircuits enhance basic reliability, simplify
maintenance, and provide a wide variety of operational functions.
Features available in this family of telephones include:
• Lower voltage technology that provides increased standby and talk times
• Extended GSM (EGSM) channels
• Tri-coder/decoder (CODEC) that allows full rate, half rate, and enhanced full
rate modes of transmission
• Supports SMS, concatenated SMS, MMS, QICQ and cell broadcast messages2
• Supports GPRS, circuit switched, and SMS networks2
• WAP 2.0 compliant2
1. All talk and standby times are approximate and depend on network configuration, signal strength, and features selected. Standby
times are quoted as a range from DRX=2 to DRX=9. Talk times are quoted as a range from DTX off to DTX on.
2. Network, subscription and SIM card or service provider dependent feature. Not available in all areas.
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Product Overview
E365
• 128 X 160 pixel 65K color graphical display with 4 lines of text, 1 line of icons,
and 1 line of prompts
• Embedded VGA Camera
• Display animation
• VibraCall® vibrating alert
• 4-Way navigation key
• Downloadable wallpaper, icons, animations and MIDI ring tones3
• Polyphonic speaker supporting 128 different instruments
• Menu Shortcuts, Voice activation for phone book entries
• Simplified text entry using iTAP™ predictive text entry
• Caller line identification (CLI) 3
• Supports call diverting for incoming voice calls3
• Supports 3V SIM cards
• SIM Toolkit™ Class 2 (STK)3
• Personal management tools calculator with currency converter, real time clock
with date, reminders, and caller profiling
• Phase II Unstructured Supplementary Service Data (USSD)3
• Hearing Aid Telephone Interconnection System (HATIS) support
• Chat messaging via WAP over GPRS3
• Multiple destination SMS
• TrueSync™ Multi-Point Synchronization Capability
Speaker Dependant Voice Activation
The voice dialing feature allows the user to recall pre-programmed voice numbers
simply by pressing the Voice/Ok key and speaking the desired voice tag. Up to 10
voice tags can be stored.
➧
The user cannot place or receive calls while adding voice tags to the phone’s memory.
➧
Because the GSM standard does not provide the option to store voice tags onto the
SIM card, voice tags are added to the phone’s memory.
Wireless Access Protocol (WAP) 1.1 Compliancy
In the WAP environment, access to the Internet is initiated in wireless markup
language (WML), which is derived from hypertext markup language (HTML). The
request is passed to a WAP gateway which retrieves the information from the server
in standard HTML (subsequently filtered to WML) or directly in WML if available.
The information is then passed to the mobile subscriber via the mobile network.
The E365’s microbrowser can be configured for baud, idle timeout, line type, phone
number, and connection type.
➧
Bitmap image data will download as text. If the image is larger than the screen,
only part of the image will display.
3. Network, subscription and SIM card or service provider dependent feature. Not available in all areas.
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Level 1 and 2 Service Manual
➧
Product Overview
If the user receives a call while in browser mode, the browser will pause and allow
the user to resume after completing the call.
Simplified Text Entry
iTAP™ predictive text entry. Press a key to generate a character and a dynamic
dictionary uses this to build and display a set of word or name options. The iTAP™
feature may not be available on the phone in all languages.
Caller Line Identification
Upon receipt of a call, the calling party’s phone number is compared to the phone
book. If the number matches a phone book entry, that name will be displayed. If
there is no phone book entry, the incoming phone number will be displayed. In the
event that no caller identification information is available, an incoming call message
is displayed.
➧
User must subscribe to a caller line identification service through their service
provider.
SIM Toolkit™ - Class 2
SIM Application Toolkit is a value-added service delivery mechanism that allows
GSM operators to customize the services they offer their customers, from the
occasional user who requests sports news and traffic alerts, to a high call time
business user who receives stock alerts and checks flight times. Operators can now
create their own value-added services menu quickly and easily in the phone. The
customized menu will appear as the first menu and may be updated over-the-air
with new services when customers request them.
Network Based Chat Messaging
The chat messaging feature provides a constant WAP connection through GPRS to
carrier, service center, or factory flexed WAP site. The specific site can also be
entered by the user. Chat messaging is a carrier option.
Personal Information Management
The E365 telephone contains a built in calendar with date book reminders and
phonebook that can be synchronized easily to a computer or PDA.
Camera
The E365 Telephone contains a built-in camera. You can take photos to view and
send as Multimedia Messaging Service (MMS) messages.
Other Features
Detailed descriptions of the other features can be found in the appropriate E365
telephone user guides listed in the Related Publications section toward the end of
this manual.
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General Operation
E365
General Operation
Controls, Indicators, and Input / Output (I/O) Connectors
The E365 telephones’ controls are located on the front and side of the device, and
on the keyboard as shown in Figure 1. Indicators, in the form of icons, are displayed
on the LCD (see Figure 2).
Earpiece Speaker
Camera Key
Right Soft Key
Left Soft Key
Menu Key
Send Key
Power/End Key
4 way
Navigation Key
Keypad
Microphone
Accessory Connector
020111o
Figure 1. E365 Telephone Controls and Indicators Locations
Menu Navigation
E365 telephones are equipped with a simplified icon and graphical-based user
interface. The phone also features a user-definable Quick Access menu that is
accessed by holding down the MENU key. See Figure 3 for details of the E365 menu
structure. A 4-way navigation key allows you to move easily through menus. The
4-way navigation key functions as a speaker volume up/down key only during a call.
The 4-way navigation key when pressed UP provides a shortcut to the Quick Access
list. When the 4-way navigation key is pressed DOWN, provides a shortcut to voice
commands.
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Level 1 and 2 Service Manual
General Operation
Liquid Crystal Display (LCD)
The LCD provides an 832 square millimeter multicolor backlit color display with
user-adjustable contrast settings for optimum readability in all light conditions.
The large bit-mapped 128 x 96 pixel display includes up to 4 lines of text, 1 line of
icons, and 1 line of prompts.
Display animation makes the phone’s icon menu move smoothly as the user scrolls
up and down.
➧
Whether a phone displays all indicators depends on the programming and services
to which the user subscribes.
Figure 2 shows some common icons displayed on the LCD.
The following status indicators can appear:
Roam
Message
Active
Line
In Use
Messages
Phonebook
5
Y9
Service Provider
Normal Mode
U
r
g
v
ck and Date 12:00 pm 01/01
PH.BO0 G MESSAG
Menu Indicator
Soft Key Labels
Alert Profile
Signal
Strength
5 U;ÄJDY9
Service Provider
Normal Mode
U
Datebook
Media Center
Note: Your
phone might list
different
features in the
idle display.
r
GPRS
Alert Type
Battery
Level
g
v
12:00 pm 01/01
PH.BO0 G MESSAG
031453o
Figure 2. E365 Display Icon Indicators
•
•
•
•
•
•
•
•
•
Signal Strength shows the strength of the phone’s connection with the
network. Calls cannot be sent or received when the “no signal” indicator
is displayed.
In Use Indicator icon indicates a call in progress.
Roam Indicator icon appears when the phone uses another network
system outside the user’s home network. When leaving the home network area, the phone roams, or seeks, another network.
Message Waiting Indicator4 appears when the phone receives a text
message.
Voice Message Waiting Indicator4 icon indicates when the phone
receives a voicemail message.
Battery Level Indicator shows the amount of charge left in the battery.
Real Time Clock shows the current time.
Menu Indicator provides access to the phone’s main menu.
GPRS Indicator4 indicates when the phone is currently functioning in
4. Network, subscription and SIM card or service provider dependent feature. Not available in all areas.
6809461A68
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15
General Operation
E365
•
GPRS mode.
Alert Setting Indicator indicates the phones current ringer alert setting.
User Interface Menu Structure
Figure 3 shows a portion of the E365 telephone menu structure.
Menu Map
Main Menu
U Messages *
Create
Inbox
Templates
Outbox
Draft
Voicemail
Message Settings
Voicemail Number
Inbox Setup
Info Alert Setup
Auto Cleanup
- Games
Magic II
Bowling King
Bubble ea
T
Big 2 Garden
Pacific Storm
Sound Setting
z
Alarm
o Chat *
Start Chat
History
Clear History
Settings Menu
> More
r Phone Book
z Recent Calls
Received Calls
Dialed Calls
Missed Calls
NotePad
Call Times
Call Cost
v
Media Center
New iPcture
Photo Album
Picture
Animation
Melody
VoiceMemo
View Free Space
w Ring Style
ç Camera
è Browser *
' Voice Memo
: Quick Access
X Profile Setting
Normal Mode
Meeting Mode
Outdoor Mode
Handset Mode
Pager Mode
9 Tools
Datebook
Calculator
Fixed Dial
ã Settings
(see next page)
Personalize
Caller Groups
Banner
Wallpaper
Animation
WAP Profile
Set Profile
Set G
PRS
Quick Access Setup
Call Forward
Voice Calls
Fax C
alls
Data Calls
Cancel All
Phone Status
My el.
T N
umbers
Credit Available
Active Line
In Call Setup
In Call Timer
Call Cost Setup
My Caller ID
Call Waiting
Security
Phone Lock
Lock Now
Auto Lock
Unlock Code
Lock Keypad
Fixed Dial
Call Barring
Outgoing Calls
Incoming Calls
Cancel All
SIM PIN
Passwords
Unlock Code
Security Code
SIM PIN
SIM PIN2
Bar aPssword
Auto Key Lock
Initial Setup
Time and Date
Power on/off
Manual Redial
Backlight
Language
Battery Save
Master R
eset
Master Clear
Network
Avail. Networks
Network Setup
*
optional network, SIM card, or
subscription-dependent feature
020250o
Figure 3. E365 Menu Structure
Alert Settings
In addition to 11 preset ring tones, E365 telephones allow the user to download 2
additional ring tones via SMS to your PC. (Availability is carrier and Network
dependant).
Motorola E365 phones incorporate the VibraCall® discreet vibrating alert that
helps to avoid disturbing others when a ringing phone is unacceptable.
Alerts can be set to ring only, vibrate only, vibrate then ring, or no ring or vibrate
Additionally, the profiling feature allows users to identify incoming calls by a
specific ringer tone.
16
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
General Operation
Battery Function
Battery Charge Indicator
The telephone displays a battery charge indicator icon in the idle screen to indicate
the battery charge level. The gauge shows four levels: 100%, 66%, 33%, and Low
Battery.
Battery Removal
Removing the battery causes the phone to shut down immediately and loose any
pending work (partially entered phone book entries or outgoing messages, for
example).
E
All batteries can cause property damage and/or bodily injury such as burns if a
conductive material such as jewelry, keys, or beaded chains touch exposed terminals.
The conductive material may complete an electrical circuit (short circuit) and
become quite hot. Exercise care in handling any charged battery, particularly when
placing it inside a pocket, purse, or other container with metal objects.
G
If the battery is removed while receiving a message, the message is lost.
➧
To ensure proper memory retention, turn the phone OFF before removing the
battery. Immediately replace the old battery with a fresh battery.
Operation
For detailed operating instructions, refer to the appropriate User Guide listed in
the Related Publications section toward the end of this manual.
6809461A68
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17
General Operation
18
E365
June 12, 2003
6809461A68
E365
6809461A68
1 and 2
Level 1 and 2 Service Manual
Tools and Test Equipment
Tools and Test Equipment
Table 1 list the tools and test equipment used on E365 telephones. Use either the
listed items or equivalents.
Table 1. General Test Equipment and Tools
Motorola
Part Number1
Description
Application
See Table 6
Charger
Used to charge battery and power phone
0180386A82
Antistatic Mat Kit (includes 66-80387A95 antistatic
mat, 66-80334B36 ground cord, and 42-80385A59
wrist band)
Provides protection from damage to phone caused
by electrostatic discharge (ESD)
8102430Z04
GSM / DCS / PCS Test SIM
Used to enable manual test mode
6680388B67
Disassembly tool, plastic with flat and pointed
ends (manual opening tool)
Used during assembly/disassembly
6680388B01
Tweezers, plastic
Used during assembly/disassembly
RSX4043-A
Torque Driver
Used to remove and replace screws
Torque Driver Bit T-5 Plus, Apex 440-6IP Torx Plus
or equivalent
Used with torque driver
Digital Multimeter
Used to measure battery voltage
—
HP34401A2
1. To order in North America, contact Motorola Aftermarket and Accessories Division (AAD) by phone at (800) 422-4210 or
FAX (800) 622-6210; Internationally, AAD can be reached by calling (847) 538-8023 or by fax (847) 576-3023.
2. Not available from Motorola. To order, contact Hewlett Packard at (800) 452-4844.
6809461A68
June 12, 2003
19
Disassembly
E365
Disassembly
This section describes how to disassemble an E365 telephone. Tools and equipment
used are listed in Table 1, preceding.
G
Many of the integrated devices used in this phone are vulnerable to damage from
electrostatic discharge (ESD). Ensure adequate static protection is in place when
handling, shipping, and servicing any internal components.
G
Avoid stressing the plastic in any way to avoid damage to either the plastic or
internal components.
Removing and Replacing the Battery Cover and Battery
E
All batteries can cause property damage and/or bodily injury such as burns if a
conductive material such as jewelry, keys, or beaded chains touch exposed terminals.
The conductive material may complete an electrical circuit (short circuit) and
become quite hot. Exercise care in handling any charged battery, particularly when
placing it inside a pocket, purse, or other container with metal objects.
1.
2.
3.
Ensure the phone is turned off.
Press the sides of the battery cover near the top of the battery cover to release
the battery cover latches.
Slide the battery cover in the direction of the arrow, and lift the cover away
from the phone (see Figure 4).
031236o
Figure 1. Removing the Battery Cover
20
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Disassembly
BATTERY
020305o
Figure 2. Removing the Battery
4.
E
There is a danger of explosion if the Lithium ion battery is replaced incorrectly.
Replace only with the same type of battery or equivalent as recommended by the
battery manufacturer. Dispose of used batteries according to the manufacturer’s
instructions.
5.
6.
7.
6809461A68
Remove the battery by lifting its bottom end from the battery compartment
and sliding it up and away from the compartment as shown in Figure 5.
To replace, align the battery with the battery compartment so the terminals
on the battery match the battery contacts in the phone.
Slide the top of the battery into the receptacle molded into the housing, then
press the bottom end of the battery securely into the battery compartment.
Line up the battery cover with the rear housing, then slide it forward until it
snaps into place.
June 12, 2003
21
Disassembly
E365
Removing and Replacing the Subscriber Identity Module (SIM)
1.
2.
Remove the battery cover and battery as described in the procedures.
Remove the SIM from it’s holder by sliding it in the direction of the arrow as
shown in Figure 6.
020306o
Figure 3. Removing the SIM
3.
4.
22
To replace, carefully slide the SIM into position in its socket. The latch secures
the SIM when correctly positioned over the terminals in the phone.
Replace the battery and battery cover as described in the procedures.
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Disassembly
Removing and Replacing the Front Housing
1.
2.
3.
4.
5.
Remove the battery cover, battery, and SIM as described in the procedures.
Use the disassembly tool to release the 3 housing latches on each side of the
phone as shown in Figure 9
Lift the bottom end of the housing away from the phone.
Insert the disassembly tool into the top end of the housing to disengage the
two latches at the top of the phone. Avoid damaging the two latches at the top
end of the phone.
Carefully lift the front housing away from the phone.
Housing Latches
Housing Latches
DSCN2261
Figure 4. Removing the Front Housing Cover
6.
7.
8.
9.
To replace, align the front housing to the phone.
Carefully engage the two latches at the top of the phone.
Gently lower the bottom end of the front housing into position onto the phone.
Press the front housing cover into place, allowing the housing latches on the
side of the phone to snap into position.
10. Replace the SIM, battery, and battery cover as described in the procedures.
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23
Disassembly
E365
Removing and Replacing the Vibrator Motor
1.
G
Remove the battery cover, battery, SIM, front housing, as described in the
procedures.
This product contains static-sensitive devices. Use anti-static handling procedures
to prevent electrostatic discharge (ESD) and component damage.
2.
Use the disassembly tool to remove the vibrator motor out of the housing as
shown in Figure 8.
VIBRATOR MOTOR
020561-o
Figure 5. Removing the Vibrator Motor
3.
4.
5.
24
To replace, align the vibrator motor with its space in the rear housing.
Gently press the vibrator motor into position in the rear housing.
Replace the front transceiver board, front housing cover, faceplate, the SIM,
battery, and battery cover as described in the procedures.
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Disassembly
Removing and Replacing the Keypad
1.
2.
Remove the battery cover, battery, the SIM, and faceplate as described in the
procedures.
Use the tweezers to lift the keypad up and away from the front housing as
shown in Figure 9.
KEYPAD
020702-o
Figure 6. Removing the Keypad
3.
4.
6809461A68
To replace, insert the keypad into the front housing. Ensure the keys align
properly with the openings and the keypad is fully seated in the faceplate.
Replace the faceplate, the SIM, battery, and battery cover as described in the
procedures.
June 12, 2003
25
Disassembly
E365
Removing the Antenna/Speaker/Camera Assembly
1.
2.
3.
4.
Remove the battery cover, battery, SIM, front housing, as described in the
procedures.
Use the disassembly tool to unhook one latch on each side of the transceiver
board under the antenna/speaker/camera assembly (See Figure 14).
Rotate the Antenna/Speaker/Camera Assembly away from the transceiver
board to expose the flex cable and flex connector socket.
Gently lift open the connector socket and remove the flex cable from the socket.
Antenna/Speaker/Camera Assembly
Latch
Flex Connector
Socket
Flex Connector
Flex Connector
Socket
Flex Connector
032147
Figure 7. Removing the Antenna.Speaker Holder Assembly
26
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6809461A68
Level 1 and 2 Service Manual
Disassembly
5.
To replace, align the Antenna/speaker/camera assembly to the transceiver
board.
6. Open the flex connector socket and insert the Flex into the flex connector
socket.
7. Close the flex connector to secure the flex to the connector socket.
8. Rotate the antenna/speaker/camera assembly down onto the transceiver board.
9. Gently press the assembly to the transceiver board until the latch on each side
of the antenna/speaker/camera assembly snaps into position. Ensure that the
antenna/speaker/camera assembly is correctly seated on the transceiver board.
10. Replace the transceiver pc board assembly, front and rear housings, SIM,
battery and battery cover as described in the procedures.
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27
Disassembly
E365
Removing and Replacing the LCD Display Bracket
1.
2.
3.
Remove the battery cover, battery, SIM, and front housing cover as described
in the procedures.
Using the flat end of the disassembly tool to gently release the 5 latches that
secure the LCD bracket to the transceiver pc board (See Figure 11).
Carefully lift the LCD display bracket from the front housing. Be careful not
to bend or crease the bracket.
Latch
Latch
Latch
Latch
Latch
031371o
Figure 8. Removing the LCD Display Bracket
4.
5.
6.
7.
28
To replace, align the LCD bracket to the transceiver board.
Gently press the LCD bracket into place.
Ensure all 5 latches snap securely into position.
Replace the front housing cover, transceiver board, rear housing, SIM, battery,
and battery cover as described in the procedures.
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Disassembly
Removing the Earpiece Speaker
1.
2.
Remove the battery cover, battery, SIM, front housing, PCB assembly, LCD
bracket as described in the procedures.
Use the disassembly tool or the plastic tweezers to lift the speaker out of its
socket in the plastic spacer (See Figure 12).
LCD Module Holder
Disassembly Tool
Transceiver
Board
Speaker
031384o
Figure 9. Removing the Earpiece Speaker
3.
4.
5.
6809461A68
To replace, align the speaker to its socket on the Plastic spacer.
Place the speaker into the socket. Ensure that the speaker leads contact the
transceiver board below it.
Replace the LCD bracket, PCB assembly, front housing, SIM, battery and
battery cover as described in the procedures.
June 12, 2003
29
Disassembly
E365
Removing the Color LCD Module
1.
2.
3.
4.
5.
Remove the battery cover, battery, SIM, LCD bracket, LCD/keypad assembly
as described in the procedures.
Use the disassembly tool to lift the side of the LCD module out of its socket on
the plastic LCD display holder (See Figure 13).
Rotate the LCD Module up to expose the LCD flex cable and flex connector.
Use the disassembly tool to unlock the flex connector socket and release the
LCD Flex from the flex connector socket.
Lift the LCD module away from the LCD module holder.
LCD
Disassembly tool
LCD
LCD Flex
Disassembly tool
Flex Connector
DSCN 2784
Figure 10. Removing the Color LCD Module
30
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Disassembly
Removing and Replacing the plastic LCD module holder
1.
2.
3.
4.
Remove the battery cover, battery, SIM, rear housing, PCB assembly, antenna/
speaker/camera, LCD bracket, LCD color module, and earpiece speaker as
described in the procedures.
Use the disassembly tool to carefully pry the switch dome PC board out of its
socket connector on the transceiver board. Remove the switch dome PC board.
Turn the assembly over and locate the 4 LCD module holder latches.
Use the plastic tweezer or disassembly tool to release the 4 latches that secure
the LCD module holder to the transceiver board (See Figure 14.
Switch dome PC Board
Socket Connector
Latch
Latch
Latch
031372o
Figure 11. Removing LCD Module Holder
5.
6.
7.
8.
9.
6809461A68
To replace, align the LCD module holder to the transceiver board.
Gently lower the LCD module holder onto the transceiver board.
Press the 4 latches so that they snap into position to secure the LCD module
holder.
Press the switch dome PC board connector into the socket connector.
Replace the Color LCD module, earpiece speaker, LCD bracket, front housing,
SIM, battery, and battery cover as described in the procedures.
June 12, 2003
31
Subscriber Identity Module (SIM) and Identification Label
E365
Subscriber Identity Module (SIM) and Identification Label
SIM
A SIM is required to access the existing local GSM network, or remote networks
when traveling (if a roaming agreement has been made with the provider).
The SIM contains:
• All the data necessary to access GSM services
• The ability to store user information such as phone numbers
• All information required by the network provider to provide access to the
network
Identification
Each Motorola GSM phone is labeled with a variety of identifying numbers. The
following information describes the current identifying labels.
Mechanical Serial Number (MSN)
The MSN is an individual unit identity number and remains with the unit throughout its life.
The MSN can be used to log and track a phone on Motorola's Service Center
Database.
The MSN is divided into 4 sections as shown in Figure 15.
MSN 10 Digits
3 Digits
1 Digit
APC
Account Product Code
TM
i.e. StarTAC Phone130
DC
Distribution Center
i.e. Easter Inch
2 Digits
4 Digits
DC
SNR
Date Code: Year and
Month of Shipment
Unit's individual serial
number
000807a
Figure 12. MSN label breakdown
International Mobile Station Equipment Identity (IMEI)
The International Mobile station Equipment Identity (IMEI) number is an
individual number unique to the PCB and is stored within the unit's memory.
The IMEI uniquely identifies an individual mobile station and thereby provides a
means for controlling access to GSM networks based on mobile station types or
individual units. The full IMEI structure is listed in Table 2.
32
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Label
Subscriber Identity Module (SIM) and Identification
Table 2. IMEI Number Breakdown
TAC
NNXXXX YY
Serial
Number
ZZZZZZ
Check digit
A
Where
TAC
Type Allocation Code, formerly known as Type Approval Code
XXXX
Type Identifier
YY
YY is set to 00 from 01/01/2003 until 31/03/2004
ZZZZZZ
Individual unit serial number
A
Phase 1 = 0. Phase 2 & 2+= check digit and is defined as a function of
all other IMEI digits
Other label number configurations present are:
• TRANSCEIVER NUMBER: Identifies the product type. Normally the SWF
number. (i.e. V100).
• PACKAGE NUMBER: Identifies the equipment type, mode, and language in
which the product is shipped.
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June 12, 2003
33
Troubleshooting
E365
Troubleshooting
Manual Test Mode
Motorola E365 telephones are equipped with a manual test mode capability. This
allows service personnel to verify functionality and perform fault isolation by
entering keypad commands.
To enter the manual test command mode, a GSM / DCS test SIM must be used.
1. Press , to turn the phone OFF.
2. Remove the battery as described in the procedures.
3. Remove the customer’s SIM card from the phone as described in the
procedures.
4. Insert the test SIM into the SIM slot.
5. Replace the battery as described in the procedures.
6. Press , to turn the phone ON.
Manual Test Mode Commands
Table 3. Manual Test Commands
Key Sequence
Test Function/Name
Remarks
<Menu>048263* Enter manual test mode
"End" Key
54*
34
Exit manual test mode
Suspend
0*0*0
Select tone 0
0*0*1
Select tone 1
0*0*2
Select tone 2
0*0*3
Select tone 3
0*0*4
Select tone 4
0*0*5
Select tone 5
0*0*6
Select tone 6
0*0*7
Select tone 7
0*0*8
Select tone 8
0*0*9
Select tone 9
0*1*X
Disable tone X
3*0*1
Enable vibrator
3*0*0
Disable vibrator
5*0*0
Set audio level 0
5*0*1
Set audio level 1
5*0*2
Set audio level 2
5*0*3
Set audio level 3
5*0*4
Set audio level 4
5*0*5
Set audio level 5
5*0*6
Set audio level 6
5*0*7
Set audio level 7
Required for all Test Mode Operations
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Troubleshooting
Table 3. Manual Test Commands (Continued)
Key Sequence
Test Function/Name
5*0*8
Set audio level 8
5*0*9
Set audio level 9
5*0*10
Set audio level 10
5*0*11
Set audio level 11
5*0*12
Set audio level 12
5*0*13
Set audio level 13
5*0*14
Set audio level 14
5*0*15
Set audio level 15
Remarks
6*2*2*0*0
Set Audio Path. Int Mic, IntSpk, RX unmute, TX unmute
6*4*6*0*0
Set Audio Path. Boom Mic, Boom Spk, RX unmute, TX unmute
10*0*3
Set band GSM 900
10*0*4
Set band DCS 1800
10*0*5
Set band PCS 1900
10*0*6
Set dual band GSM 900 / 1800
10*1*0
18*0
18*1
55*2*001
Read band
Initialize Non-volatile memory (Master Clear)
Test Display. All pixels ON
55*2*000
Test Display. All pixels OFF
55*2*002
Test Display. Checkerboard pattern A
55*2*003
Test Display. Checkerboard pattern B
55*2*004
Test Display. Border pixels ON
*#06#
3= GSM 4= DCS 5= PCS 6 =GSM/DCS
Initialize non-volatile memory (Master Reset)
IMEI Check
No Test Mode Required
Phone Set up --> Flex Version / Technology / S-W Version / Readiness Status
Phone Status -->
Other
Information
6809461A68
June 12, 2003
No Test Mode Required
35
Troubleshooting
E365
Troubleshooting Chart
Table 4. PF 0C27 Telephone: Level 1 and 2 Troubleshooting Chart
Symptom
1. Telephone will not turn on or stay on.
Probable Cause
Verification and Remedy
a) Battery either discharged or
defective.
Measure battery voltage across a 50 ohm (>1
Watt) load. If the battery voltage is <3.25 Vdc,
recharge the battery using the appropriate
battery charger. If the battery will not recharge,
replace the battery. If battery is not at fault,
proceed to b.
b) Battery terminals open or
misaligned.
Visually inspect the battery terminals on both
the battery and the telephone. Realign and, if
necessary, either replace the battery or refer to
a Level 3 Service Center for battery connector
replacement. If battery terminals are not at fault,
proceed to c.
c) Transceiver board defective.
Remove the transceiver board assembly.
Substitute a known good transceiver board and
temporarily reassemble the unit. Press the PWR
button; if unit turns on and stays on, disconnect
the dc power source and reassemble the phone
with the new transceiver board. Verify that the
fault has been cleared.
a) Antenna defective
Check connection between the antenna and the
transceiver board. If the connection is OK,
substitute a known good antenna. If the fault is
still present, proceed to b.
b) Transceiver board defective.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board.
a) Mating connections to or from
transceiver board faulty.
Check general condition of flex and flex
connector. If the flex and connector are good,
check that the display assembly mounting tabs
are fully engaged. If connector is not at fault,
proceed to b.
b) Transceiver board defective.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board.
4. Incoming call alert transducer audio
distorted or volume is too low.
Faulty transceiver board.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board.
5. Telephone transmit audio is weak.
(usually indicated by called parties
complaining of difficulty in hearing voice).
a) Microphone defective.
Replace the microphone as described in the
procedures. If fault is not cleared, proceed to b.
b) Transceiver board defective.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board.
2. Telephone exhibits poor reception or
erratic operation such as calls frequently
dropping or weak or distorted audio.
3. Display is erratic, or provides partial or
no display.
6. Receive audio from earpiece speaker is a) Connections to or from transceiver Check connection from the earpiece to the
weak or distorted.
board defective.
transceiver board. If connection is not at fault,
proceed to b.
36
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6809461A68
Level 1 and 2 Service Manual
Troubleshooting
Table 4. PF 0C27 Telephone: Level 1 and 2 Troubleshooting Chart (Continued)
Symptom
Probable Cause
7. Telephone will not recognize or accept
SIM card.
8. Vibrator feature not functioning.
9. Internal Charger not working.
Verification and Remedy
b) Earpiece speaker defective.
Temporarily replace the speaker with a known
good speaker. Ensure good connection. Place a
call and verify improvement in earpiece audio. If
fault is cleared, reassemble the phone with the
good transceiver board. If fault is not cleared,
proceed to c.
c) Transceiver board defective.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the phone with the new transceiver
board.
a) SIM card defective.
Check the SIM card contacts for dirt. Clean if
necessary, and check if fault has been cleared.
If the contacts are clean, insert a known good
SIM card into the telephone. Power up the unit
and confirm that the card has been accepted. If
the fault no longer exists, replace the defective
SIM card. If the SIM card is not at fault, proceed
to b.
b) Transceiver board defective.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the phone with the new transceiver
board.
a) Vibrator defective.
Replace vibrator as described in the
procedures. If the fault has not been cleared,
proceed to b.
b) Transceiver board defective.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board.
Faulty charger circuit on transceiver
board.
Test a selection of batteries in the rear pocket of
the desktop charger. Check LED display for the
charging indications. If these are charging
properly, then the internal charger is at fault.
Replace the transceiver board assembly (refer
to 1c). Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board assembly.
10. No or weak audio when using headset. a) Headset plug not pushed in fully.
Ensure the headset plug is fully seated in the
jack.
b) Faulty jack on transceiver board.
Replace the transceiver board (refer to 1c).
Verify that the fault has been cleared and
reassemble the unit with the new transceiver
board.
Programming: Software Upgrade and Flexing
Contact your local technical support engineer for information about equipment and
procedures for flashing and flexing.
6809461A68
June 12, 2003
37
Part Number Charts
E365
Part Number Charts
The following section provides a reference for the parts associated with
E365 telephones.
Related Publications
Motorola E365 Wireless Phone User Guide
38
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June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Part Number Charts
Exploded View Diagram
1
2
3
5
4
7
9
11
6
12
8
13
14
10
17
18
15
19
16
20
21
031229o
Figure 13. E365 Exploded View Diagram
6809461A68
June 12, 2003
39
Part Number Charts
E365
Exploded View Parts List
Table 5. Exploded View Parts List
Item
Number
Part Number
1
2541T66001W
2
2511T66001W
Upper Housing Assembly
14
7650764511W
Camera
3
3104T66601W
Keypad
15
3012T66001W
Shield
4
3501655202W
Screw
16
3052TV1004W
Shield
5
3012T66001W
Display Bracket
17
23A1T66001W
Camera/Speaker/Antenna Assy
6
3109T66602W
Metal Switch Domes
18
3930408901W
Motor/Vibrator
7
7630029004W
Color LCD Module
19
2512T66001W
Lower Housing Assembly
8
21T66021A1W
Keypad PC board
20
3028T66001W
RF Cover
9
2531T66001W
Inter-board Snubber
21
252AT66001W
Battery Cover
10
2222312101W
Microphone
11
2240117001W
Speaker
12
21T66010D1W
Transceiver PC Board
Description
Display lens
Item
Number
Part Number
13
2240711001W
Description
Alert Transducer
Notes:
E
There is a danger of explosion if the Lithium ion battery pack is replaced incorrectly.
Replace only with the same type of battery or equivalent as recommended by the
battery manufacturer. Dispose of used batteries according to the manufacturer’s
instructions.
To order parts please use the following Link:
https://wissc.motorola.com/wissc_root/main/BrowserOK.html
(Password is Required)
For information on ordering parts please contact EMEA at +44 131 479 1274.
40
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
Part Number Charts
Accessories
Table 6. List of Accessories
Description
Part Number
Power Solutions
Battery 740 mAh LiIon (English label)
SNN5679
Battery 740 mAh LiIon (PRC label)
SNN5680
Linear Charger - PRC with fixed blades
SPN5133
Switchmode charger - US plug
SPN5134
Switchmode charger - UK plug
SPN5136
Switchmode charger - Euro plug
SPN5135
Switchmode charger - Aus/NZ plug
SPN5137
In-Vehicle Solutions
Vehicle power adapter
SYN7862
Audio & Connectivity
One Touch Headset
SYN8419
Over the ear headset
SYN8908
Black mono headset
SYN8390
Retractable headset
SYN8284
Consumer Personalization
Grey lanyard
SYN8392
Silver lanyard
AAYN4402
SIlver wristyard
AAYN4403
6809461A68
June 12, 2003
41
Part Number Charts
42
E365
June 12, 2003
6809461A68
Level 1 and 2 Service Manual
1 and 2
Index
E365
6809461A68
Index
Index
product 3
identification, labels 30
IMEI 30
Introduction 3
A
alert settings 14
antenna, removing and replacing 21
K
keypad, removing and replacing 23
B
battery
charge indicator 15
function 15
battery cover, removing and replacing 18
battery, removing and replacing 18
L
LCD 13
liquid crystal display (LCD) 13
M
C
caller ID 11
Canadian Interference-Causing Equipment regulations 3
commands, manual test mode 32
copyrights
computer software 4
cover plate, removing and replacing 26
manual test mode 32
menu structure 14
model-specific part numbers 39
MSN 30
N
names
product 3
D
disassembly 18
display assembly, removing and replacing 30
E
exploded view diagram 37
exploded view parts list 38
F
FCC rules 3
features
caller ID 11
chat messaging 11
SIM Toolkit 11
text entry 11
voice recognition 10
Wireless Access Protocol (WAP) 10
H
housing cover rear, removing and replacing 21
I
identification
international mobile station equipment identity 30
mechanical serial number 30
6809461A68
O
operation 12
alert settings 14
battery 15
controls, indicators, and I/O connectors 12
icons 13
alarm 13
battery charge indicator 13
home zone 14
message 13
real time clock 13
ringer 13
roam 13
service 13
signal strength 13
voicemail 14
LCD 13
menu navigation 12
menu structure 14
overview, product 9
P
parts
exploded view diagram 37
exploded view parts list 38
June 12, 2003
Index-1
Index
model-specific part numbers 39
replacement parts 36
product
changes 3
identification 3
names 3
product overview 9
features 9
publications, related 36
R
rear housing, removing and replacing 21
regulatory agency compliance 3
related publications 36
removing
antenna 21
battery 15, 18
battery cover 18
cover plate 26
display assembly 30
keypad 23
rear housing 21
rear housing cover 21
SIM 20
vibrator motor 22
replacement parts
ordering 6
replacing
antenna 21
battery 18
battery cover 18
cover plate 26
display assembly 30
keypad 23
rear housing 21
rear housing cover 21
SIM 20
vibrator motor 22
E365
product support 5
shut down
upon battery removal 15
SIM Toolkit 11
SIM, description 30
SIM, removing and replacing 20
specifications 7
subscriber identity module (SIM) 30
support
customer 5
product 5
T
test equipment 17
text entry 11
tools, disassembly 17
troubleshooting 32
manual test mode 32
manual test mode commands 32
troubleshooting chart 34
V
vibrator motor, removing and replacing 22
voice recognition 10
W
WAP (Wireless Access Protocol) 10
warranty service 5
S
serial number
mechanical 30
service manual
about 4
audience 4
conventions 5
scope 4
service policy 5
customer support 5
out of box failure 5
Index-2
June 12, 2003
6809461A68
MOTOROLA, the Stylized M Logo, and all other trademarks indicated as such herein are trademarks of Motorola, Inc.
TrueSync is a trademark of Starfish Software, Inc.
® Reg. U.S. Pat. & Tm. Off.
 2003 Motorola, Inc.
All rights reserved.
Personal Communications Sector,
Sawgrass International Concourse
789 International Parkway Room S2C
Sunrise, FL 33323
@6809461A68@
6809461A68-O
E365 Theory of Operation
Service Manual
Compal Communications, Inc.
△
Baseband function Descriptions
1. Introduction
Baby Garnet use TI’s chipset (Calypso c035 and IOTA) as base-band
solution. Calypso c035 is a GSM digital base-band logic included
microprocessor , DSP , and peripheral. IOTA is GSM analog/codec solution.
It contains the base-band codec, voice-band codec, several voltage
regulators and SIM level shifter etc. The baby garnet add some features such
as digital camera , photo sensor , TFT display , sixteen tone melody etc.
2. Base-band block
TFT
Color
Display
RF- Base_Band Interface ( RIF)
(BBC, APC, AFC,ADAC)
32.768kHz
BACKUP
Ncs2
BATTERY
Tx &Rx I/Q
VBACKUP
TPUPARALLEL
13MHz
13MHz
Miscellaneous
32.768kHz
Regulator
UART_MODERN
D/ARFInterface Circuit With Power
Supply Management
KBR
Monitoring
TPUSERIAL
Digital baseband processor
KBC
NCS1
MATRIX
&Shifter
GSM/DCS Baseband andVoiceA/Dand
ARMSERIALPORT
U15
KEYPAD
SIM
U1
Base band Interface
UART_IRDA
ADC
(MADC)
Power Management
JTAG(TAP)
PWL
KEYPAD
BACKLIGHT
I/O
BUS
ADDRESS
DATA BUS
MAIN
BATTERY
Charging function
EARN
128Mbits FLASH
DIGITALCAMERA
ADPATORIN
(DCPower Input)
VCHG
AUXI
U6
16Mbits SRAN
U7
Melody
IC
VIBRATOR
MIC
VCC4
HSO
NCS1
nSCS0
uWIRE
NCS4
SIMinterface Interface
NCS3
NCS0
LCDBACKLIGHT
DAC
Voice Band Interface
EARP
PHONE
JACK
Melody
Speaker
3. Theory
3.1 CALYPSO
Calypso is a chip implement the digital base-band processes of a GSM/GPRS
mobile phone. The chip combines a DSP sub-chip (LEAD2 CPU) with its
program and data memories, a micro-controller core with emulation
facilities(ARMTDMIE), internal 8Kb of boot ROM memory , 4M bit SRAM
memory , a clock squarer cell, several compiled single-port or 2 ports RAM and
CMOS gates.
3.1.1 Real Time Clock (RTC)
3.1.2 Pulse Width Tones (PWT)
The PWT generates a modulated frequency signal for the external buzzer.
Frequency is programmable between 349Hz and 5276Hz with 12 half tone
frequencies per octave.
3.1.3 Pulse Width Light (PWL)
The PWL allows the control of the backlight of LCD and keypad by
employing a 4096bit random sequence. The block used a switchable clock of
32kHz .
3.1.4 Modem-Uart
3.1.5 I2c master serial interface (I2C)
3.1.6 General purposes I/O (GPIO)
Calypso provides 16 GPIOs in read or write mode by internal registers. In
Baby garnet we use 9 of them as follows.
GPIO PIN
Used As..
Description
IO0 / TPU_WAIT
IO0
DTR_MODEM Output ; RS232 DTR output signal
IO1 / TPU_IDLE
IO1
disable
IO2 / IRQ4
IO2
LEDLCM_EN: LCM backlight=1 active
IO3 / SIM_RnW
IO3
LCDA0 ; LCD Data or Command Control signal
IO4 / TSPDI
IO4
nIRQ_melody:Melody IC interrupt, active=0
IO5 / SIM_PWCTRL
SIM_PWCTRL For SIM Card Power Control
IO6 / BCLKX
IO6
IO7 / NRESET_OUT
nRESET_OUT ? LCD Peripherals reset
IO8 / MCUEN1
IO8
nIO_PWR_EN: Accessary power control : active=1
IO9 / MCSI_TXD
MCSI_TXD
DAI interface ,reserved; disable
IO10 / MCSI_RXD
IO10
COMS_LDO_EN ; active=1
IO11 / MCSI_CLK
IO11
COMS_ASK ; input
EAR_DETECT ; input
IO12/ MCSI_FSYNCH IO12
IO_PWR_EN: Accessary power control : active=1
IO13 / MCUEN2
IO13
LCD_ID; input
IO14 / nBHE
nBHE
nBHE
IO15 / nBLE
nBLE
nBLE
3.1.7 Serial Port Interface (SPI)
The SPI is a full-duplex serial port configurable from 1 to 32 bits and
provides 3 enable signals programmable either as positive or negative edge or
level sensitive. We use SPI to control the melody IC.
nSCS0 :Chip select 0
SDO: Data out.
SDI: Data in
SCLK: Serial clock
3.1.8 Memory interface and internal static RAM
A 4Mbit SRAM is embedded on the die and memory mapped on the
chip-select CS6 of the memory interface.
3.1.9 SIM interface
3.1.10 JTAG
3.1.11 Time Serial Port (TSP)
3.1.12 TSP Parallel interface (ACT)
Herculse Pin no Pin Name
Used As..
Description/Net
M12
TSPACT0
TP5
X
M14
TSPACT1
TSPACT1 PAENA (Chip enable for
Power Amp IC)
L12
TSPACT2
TSPACT2 PDNB (RF IC power down
control)
L13
TSPACT3
TSPACT3 X
J10
TSPACT4
TSPACT4 X
K11
TSPACT5
TSPACT5 X
K13
TSPACT6/nCS6
TSPACT6 TRENA
(T/R
switch
enable)
K12
TSPACT7/CLKX_SPI NC
K14
TSPACT8/Nmreq
X
TSPACT8 GSM_TXEN (Used both
within the RF switch and
the Power Amp to select the
GSM Frequency Band)
J11
TSPACT9/MAS1
TSPACT9 X
J12
TSPACT10/nWAIT
NC
X
J13
TSPACT11/MCLK
NC
X
3.1.13 Radio Interface (RIF)
3.2 IOTA
IOTA is an analog base-band device which a digital base-band device is
part of a TI DSP solution intended for digital cellular telephone applications.
This includes the GSM 900, DCS 1800, PCS 1900 standards.
IOTA includes a complete set of base-band functions that perform the
interface and processing of the following voice signals, the base-band in
phase(I) and quadrature (Q) signals. Which support both the single-slot and
multislot modes. IOTA also includes associated auxiliary RF control features
supply voltage regulation, battery charging controls , and switch on/off
system analysis.
IOTA interfaces with the CALYPSO through a digital base-band port and a
voicebad serial port. The signal ports communicate with a DSP core. A
microcontroller serial port communicates with the microcontoller core and a
time serial port communicates with the time processing unit for real-time
control.
3.2.1 Base-band Codec (BBC)
3.2.2 Automatic Frequency Control ( AFC)
3.2.3 Automatic Power Control ( APC)
3.2.4 Time serial port (TSP)
3.2.5 Voice band Codec (VBC)
3.2.6 SIM card shifters (SIMS)
3.2.7 Voltage Regulation (VREG)
Several low-dropout(LDO) linear voltage regulation supply power to
internal analog and digital circuits to the DBB processor and to external
memory
a. VRDBB is a programmable regulator that generates the supply
voltages( 1.8V , 1.5V , and 1.3V) for the core of the CALYPSO. In baby
garnet , it is programmed to 1.5V. During all modes, the main battery directly
supplies VRDBB.
b. VRIO is a programmable regulator that generates the supply voltages(2.8V)
for I/Os of the CALYPSO and IOTA. During all modes, the main battery
directly supplies VRIO.
c. VRMEM is a programmable regulator that generates the supply
voltages(2.8V and 1.8V) for external memories (typically flash memories)
and CALYPSO memory interface I/Os. In baby garnet , it is programmed to
2.8V. During all modes, the main battery directly supplies VRMEM.
d. VRRAM is a programmable regulator that generates the supply
voltages(2.8V and 1.8V) for external memories (typically SRAM memories)
and CALYPSO memory interface I/Os. In baby garnet , it is programmed to
2.8V. During all modes, the main battery directly supplies VRRAM.
e. VRABB is a programmable regulator that generates the supply voltages
(2.8V ) for the analog functions of the IOTA. During all modes, the main
battery directly supplies VRRAM.
f. VRSIM is a programmable regulator that generates the supply voltages
(2.9V and 1.8V )for SIM card and SIM card drivers. During all modes, the
main battery directly supplies VRRAM.
g. VRRTC is programmable regulator that generates the supply voltages
(1.3V, 1.5V ,and 1.8V) for CALYPSO’s backup RTC. It is switched on the
main or backup battery, depending on the phone state.
3.2.8 Base-band Serial Port (BSP)
3.2.9 Battery charger interface (BCI)
3.2.10 Monitoring ADC (MADC)
3.2.11 Reference Voltage / Power on control (VRPC)
3.2.12 Internal bus and interrupt controller( IBIC)
3.3power supply circuit
IO TA
G S M /D C S B aseb an d
an d Vo ice A /D an d
D /A R F In terface
C ircu it W ith P o w er
S u p p ly M an agem en t
V R S IM 1 .8 V /2 .9 V
V R S A M 2 .8 V
V R M E M 2 .8 V
V R D B B 1 .5 V
V R IO 2 .8 V
V R A B B 2 .8 V
V R RT C 1 .5 V
E x tern al 1 .8 v
150m A
E x tern al 2 .8 v
300m A
S IM card
C A LY P S O
D ig ita l
b a seb an d
p ro cesso r
F lash co re 1 2 8 M B it
F lash I/O
S R A M 1 6 M B it
LC M
L igh t sen so r
E x tern al 2 .5 v
150m A
B ack en d co re
I/O
E x tern al 3 .3 v
150m A
C m o s sen so r
The phone is mainly supplied from the main battery. The main battery supply
the two parts : RF block, base-band block.
The input power to IOTA is divided into 4 blocks.
VCRAM: to provide power for VRRAM
VCMEM: to provide power for VRMEM
VCIO1,VCIO2: to provide power for VRIO and VRSIM
VCABB: to provide power for VRABB
VCDBB: to provide power for VRDBB
The IOTA provides seven low drop-out voltage regulators.
VRRAM:2.8V@50mA, to supply SRAM
VRMEM:2.8V@60mA, to supply flash I/O and CALYPSO memory interface
I/Os.
VRDBB;1.5V@120mA. to supply the core of the CALYPSO
VRIO:2.8V@100mA, to supply I/Os of the CALYPSO and IOTA
VRABB;2.8V@50mA to supply the analog functions of the IOTA
VRRTC:1.5V@10uA, to supply the CALYPSO’s backup RTC.
VRSIM:1.8V or 2.9V@10mA , to supply the SIM.
3.4 memory circuit
CALYPSO
FLASH
Data bus
Address bus
NCS0
NCS3
NFOE
FDP
RNW
NCS1
NBHE
NBLE
/CE
/OE
/RST
/WE
SRAM
/CE
/OE
/HB
/LB
/WE
Description
Flash is a 128Mbit device, supported by external LDO and VRMEM. The
access time of flash is 90ns. The total 128Mbit are divided into two sections:
112Mbit is used for software program code and 16Mbit is used for user’s data.
SRAM is a 16Mbit device supported by VRRAM. The access time of flash is
70ns.
3.5 display circuit
VBAT
VDDS-MIF_2.8V
DGND DGND DGND DGND DGND DGND DGND
C76
C77
C81
C82
C83
C74
DGND
DGND
C80
C85
C722
100PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
DGND
DGND
DGND
22PF 0402
22PF 0402
C720 C79
22PF 0402
D[0..15]
C78
J5
nRESET
VDDS-MIF_2.8V
LCD_RD
RNW
LCDA0
nCS2
1
2
3
4
8
7 R68
6 200 0408
5
1
2
3
4
1
2
3
4
1
2
3
4
8
7 R69
6 200 0408
5
8
7 R70
6 200 0408
5
8
7 R71
6 200 0408
5
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
LED_Cathode
LED_Anode
R75 200 0402
R76 200 0402
R77 100 0402
LCD_ID
C92
C93
22PF 0402
C91
22PF 0402
C90
22PF 0402
22PF 0402
C721 C89
22PF 0402
22PF 0402
C88
22PF 0402
C87
22PF 0402
22PF 0402
22PF 0402
C84
VBAT
VDDS-MIF_2.8V
Down
Cathode
Anode
D13
D14
D15
/RESET
VCC
VCC
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
/RD
/WR
RS
/CS
GND
GND
LCD_ID
NC
NC
CON30
Up
C94
DGND
DGND
DGND DGND DGND DGND DGND DGND DGND DGND DGND
Description
The display area is a 128*160 resolution LCD module. The power of LCDM
is supplied from external LDO (2.8V). It is controlled by CALYPSO via parallel
interface : data bus and chip select .The Ncs2 is low active to enable the LCDM
data bus. Resistance and capacitance is used for radiation suppression.
3.6vibrater circuit
VBAT
I/O2
G
G
3
2
4
I/O1
1
No. G3240010
F1
SGM20F1E104-2A 2012
DGND
3
DGND
1
2
2
R42
R43
10K 0402
0.95mm
1
33 0402
D4
1SS400 SC79
M1
MOTOR 4.0*8.8-1.5V-KHN4NZ1D
3930408801W
2
DGND
BQ1
2SC5592 SC59
1
DAC
DGND
DAC of the IOTA is used to control the vibrational level. D4 is used to
protection the vibrater. In the 3.8V, the DAC output voltage is 1.9V and drain
current is around 90mA .
3.7 speaker circuit
Description
The Melody IC MA2 works as follows.
First, the CPU (G2) fetch melody data from flash and fed them into MA2
by serial interface. After receiving these data, MA2 will start decode its content
and start its sequencer for processing. After completing this process, the MA2
will generate the tones we want according to the melody data. Then, these data
will run through MA2’s DAC, which inside it. Then, the converted signal is fed
into an equalizer, and then followed by an amplifier, which they are inside MA2.
Then this signal will be outputted from SPOUT1 and SPOUT2 to drive the
speaker.
Here, the R44 and R46 provide optimal gain control for MA2. To ensure
the speaker not to be overdrove.
3.8 DSC (Digital Still Camera) function block diagram and circuit
description
3.8.1
Function block diagram
CF
SCCB
Backend
(W99688)
(a)
Host
(Calypso 035)
(d)
LCM
Toppoly
CMOS
SENSOR
(b)
(c)
Memory
interface
Interface
SRAM
Data path
Control path
Fig. 1 Imbedded DSC block diagram
Imbedded DSC included two portions, one is front-end sensor module and
another is backend DSP chip. There are including two interfaces which are
SCCB (Serial Camera Control Bus) and CF (Compact Flash). The function
block diagram is shown in Fig.1. The SCCB is used in sensor to backend
interface, and the backend to host (G2) is used CF interface.
3.8.1. Sensor to Backend Interface
CMOS SENSOR
RESET
PWDN
SIO_C
SIO_D
XCLK
PCLK
VSYNC
Backend
(W99688)
HSYNC
DATA BUS
RESET: (default 0) chip reset with active high
PWDN: (default 0) power down mode selection
“0” normal mode, “1” power down mode
SIO_C: SCCB (Single Chip Camera Bridge) serial interface clock input
SIO_D: SCCB (Single Chip Camera Bridge) serial interface data input and
output
XCLK: Clock input
PCLK: Pixel clock output
VSYNC: Vertical sync output
HSYNC: Horizontal sync output
Data Bus: 8 bits
3.8.1.2 Backend to Sensor
Interface
A0..A3: Compact Flash: Address-0~3 for command
D15..D0: Data bus connect to Host
RD#: Read data or command
WR#: Write data or command
CS#: Chip select
3.8.2 Circuit description
3.8.2.1 Main circuit
ROW4
DGND
DGND
S22
COL4
DD[0..7]
CAMERA
T
CC8
33nF 0402
TP
TP27
D33V
DGND
1
C726
DGND
D25V
100nF 0402
G10
H8
H10
H11
J5
H9
J10
L11
K11
K10
J9
L10
J6
J8
K9
K8
J7
K7
L8
K5
L9
L7
L6
L5
L4
DD4
DD5
DD6
DD7
RR22
0 0402 (OV)
SDA
47 0402 SCK
SDA
SDO
R81
R80
RR16
4.7K 0402 4.7K 0402
10K
SCK
DGND
DD0
DD1
DD2
DD3
DD4
DD5
DD6
DD7
RR24
0 0402 NM(Tasc)
R79
FRST
DD25V
A[1..3]
RR20
DD[0..7]
SDO
0 0402 NM(Tasc)
RR5
10K 0402(OV)
RR25
4.7k 0402 NM(Tacs)
A1
A2
A3
G9
J11
G11
K4
F9
F11
E11
F10
J4
K3
E10
H4
E9
D9
D11
J3
K2
D10
B11
D8
A11
F3
G3
B5
K6
SD5
VDDI-3
SD6
SD7
SD8
SD9
GND-10
SPCLK
SVS
SHS
SCLK
SCK
SDA
SDO
VD3-9
FWAIT#
FCD#
FRST
FA0
FA1
FA2
GND-D
VD3-D
GND-F
VD3-F
VSSI-2
GND-7
VD3-7
GND-6
VD3-6
GND-5
VDDI-1
VSSI-1
VD3-5
P31
P30
USBVDD
DM
DP
USBVSS
GND-4
VD3-4
GPIO15
GPIO14
GPIO13
GPIO12
GPIO11
GPIO10
RESET
GND-3
U12
688CBM3
VD3-1
FIRQ/FSRB#/FWP
FIORD#/FSRE#/XCMD
FIOWR#/FSWE#/FCMD
FCE2#/FSCLE/XCLK
FCE1#/FSALE
FREG#/FSWP#/FCLK
GND-1
FD0/FDAT0
FD1/FDAT1
FD2/FDAT2
FD3/FDAT3
FD4/XDAT0
FD5/XDAT1
FD6/XDAT2
FD7/XDAT3
GPIO0
VD3-2
XIN
XOUT
GND-2
GPIO1
AVSSP
AVDDP
VD3-3
DGND
PWDN
S25V
DD25V
CMOS_CON
C?
47nF 0402(Tasc)]
DD3
DGND
K1
L3
L2
L1
J1
H1
G1
H2
G2
F1
F2
E1
E2
E3
D1
D2
C1
B1
C2
B2
D3
A1
C3
B3
A2
PWDN
TP25
TP26
TP29 1
1
TP
C96
1u 0603
RR4
100K 0402
DGND
DGND
DD25V
R80:
CLOSED TO
688 ASAP
DGND
D7
D6
D5
D4
D3
D2
D1
D0
T
1
AVDDP
AVSSP
CLK13M_DSC
nCS4
RNW
nFOE
D[0..7]
TP28
TP
D33V: Power supply for I/O pads +3.3 V
DD25V: Power supply for CMOS sensor digital part +2.5 V
S25V: Power supply for CMOS sensor analog part +2.5 V
D25V: Internal core logic power supply. +2.5 V.
AVDPP: Power supply for PLL analog 2.5V
AVSSP: Ground for PLL analog
FSRT: Compact flash: RESET/RESET# signal (High enable 2.8V)
Vsync & HREF relation:
T
T
TP
C10
A10
B10
B9
C8
C9
A9
C11
H3
C7
B8
J2
A8
C6
B7
D4
B6
A7
C4
A6
C5
A5
A4
B4
A3
RR23
0 0402 NM(Tasc)
J6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
C725
100nF 0402
SD4
VSSI-3
SD3
SD2
SD1
SD0
GND-9
DVS
DHS
DOCLK
DVALID
DFULL
VD3-8
DD7
DD6
DD5
DD4
DD3
DD2
DD1
DD0
GND-8
GPIO3
VDDI-2
MD1
DGND
OV7645FB/TASC
GND
HREF
VSYNC
PWDN
PCLK
AVDD
DVDD
SIO_D
XCLK
SIO_C
Y0
Y1
Y2
Y3
GND
Y4
Y5
Y6
Y7
RESET
DD0
DD1
DD2
FPC 0.5mm PITCH
CMOS SENSOR MODULE I/F
1
T
TP
The backend power on reset is 100ms that generated by C96 (1uF) and RR4
(100k ohms). The backend clock CLK13M_DSC is 13MHz (Vp-p 3.0V), and
XCLK is 24MHz ( Vp-p 3.35V) that is generated from backend to sensor. Then
sensor will base on XCLK to generate PCLK for image data clock that is
12MHz (Vp-p 2.3V).
3.8.2.2 DSC DC power
D25V
L6
AVDDP
RR26
100nH 0402
0 0603
RR26
1SS400 SC-79(W99685)
L8
2.5V FOR OV7645FB DD25V
100nH 0402
S25V
U13
1
VBAT
2
3
4
DGND
100nF 0402
C99
RR9
100K 0402 nm
COMS_EN
5
C700
Vin VOUT2.5
EN1 VOUT3.0
EN2
NC
BYP
NC
NC
GND
10
9
D33V
8
C97
2.2uF/6V
7
6
L7
C98
1uF/6V
100nH 0402
MIC2211-2.5/3.3BML
10nF 0402
DGND
DGND
DGND
DGND
CMOS_EN is used to control DSC power enable. It is high active (2.8V). L6,
L7 and L8 are formed low pass filter with C97 in order to suppress low
frequency noise.
AVSSP
3.8.2.3 DSC system clock
D33V
RR14
10
CLK13M_DSC
U18
5
C723
100pF
0402
DGND 10%
50V
NPO
NC
VCC
C724
IN
4
1
OUT
GND
2
CLK13M_OUT
100pF
X7R
0402
10%
50V
3
KIC7S04FU
DGND
SOT23-5
RR15
1M
Add buffer to avoid CLK13M_OUT over load causing system hang.
3.8.3 Function flow chart
3.8.3.1 Preview:
Video Preview Path
RGB Data
W99688
Host
1
LCM
2
1.CDM40 (Set Single Capture Mode)
2.CDM41 (Set Preview Size 128x96)
3.CDM42 (Get Preview Data)
Preview Data Source
SRAM
Data Memory
3.8.3.2 Capture:
Capture Image Path
Jpeg Data
W99688
Host
LCM
1
1.CDM40 (Set Single Capture Mode)
2.CDM41 (Set Image Format 640x480)
3.CDM43 (Snapshot)
2
4.CDM2 (Get Jpeg Bitstream)
Preview Data Source
Flash
SRAM
3.8.3.3 Playback:
Data Memory
Play Picture Path
Jpeg Data
W99688
Host
2
LCM
4
RGB Data
1.CDM40 (Set Playback Mode)
2.CDM48 (Set Decode Size 640x480)
3.CDM44 (Send Jpeg Bitstream)
4.CDM45 (Decode Jpeg Bitstream)
1
4.CDM47 (Get Decode Image Data)
Preview Data Source
3
Put Image
Transformation
Preview Data
SRAM
Data Memory
Flash ROM
3.9 led circuit
keypad backlight
R2
RS2N39 0404
R3
RS2N39 0404
R4
RS2N39 0404
R5
RS2N39 0404
R2
R1
R2
R1
1
R1
R1
2
1
R2
R2
2
R1
R1
1
R2
R2
2
R1
R1
1
R2
R2
2
VBAT
D2
D3
D4
LED
LED
LED
D5
D6
D7
LED
D8
D9
LED
LED
LED
LED
R64
4
3
4
3
4
3
4
3
C7
NM 47nF 0402
DGND
VR1
14V 0402
0 0402 NM
3
LEDB
R65
1.5K 0402
2
BQ3
1
KeyLed_En
2SC5585 EMT3
R66
4.7 0402
R67
1K 0402
C73
33nF 0402
DGND
LCD module backlight
LED_Anode
D6
3
22uH FL1
2
VBAT
RB551V-30
CC1
U11
0.22uF 0603
1
DGND
DGND
2
3
LED_Cathode
SW
BIAS
5
GND
FB
EN
4
LEDLCM_EN
MP1523
R36
R40
0 0402
0 0402 NM
CC2
1uF 0603
RR1
56 0402
DGND
DGND
VDDS-MIF_2.8V
description
The baby garnet employ three LEDs for LCD module backlight and six LEDs
for keypad backlight. The keypad backlight is controlled by PWL (Pulse with
light). The LCD module backlight is controlled by GPIO of the CALYPSO. The
CALYPSO is used to enable BQ3 and U11. The total current of LCD backlight
LED’s and keypad backlight LED’s is about 70mA during all LED work.
3.10 audio circuit
Uplink:
Downlink:
Description
The acoustic circuit can be divided into two parts, Uplink and Downlink
path.
For the Uplink path, the analog signal, or Voice, is fed into IOTA (MICIP
and MICIN) by the microphone’s differential input. This signal is then sampled
and transmitted into G2 DSP via the VSP (Voice-Band Serial Port) interface.
After being modulated, the signal goes through the uplink I/Q path to the RF
transceiver and then being transmitted by the antenna.
The microphone is biased by the IOTA MICBIAS pin (2.5V). Where the
bias circuit R58, R59, R60, R61 provide optimal operation point for the
microphone.
For the Downlink path, the signal is received from antenna. Then it is
down-converted to I/Q signal and then send into G2 DSP. After being
demodulated, the signal is then transmitted into IOTA via VSP interface. After
re-construct this signal, this signal is then amplified and drove the receiver.
OVP(2)
Charging Control
Adapter
AC/DC
OCP
3.11 charging circuit
3.11.1Function Block
Battery pack
Micro control
(IOTA)
Detect current
Detect voltage
3.11.2 function description
When the charging device is plugged in, the charging scheme for the Li-ion
battery is constant current first (MAX current is 400mA) then followed by
constant voltage charging. When battery voltage has been detected full, the BCI
of IOTA will be turned off till a Low voltage threshold has been detected. At
charger plug OUT, the charger status bit CHG_STS is driven from “1” to “0”
and an interrupt of the INT2 type is generated making the uC aware of the
charging device unplug. When over-discharging (battery voltage is less than
3.2V), the BCI of the IOTA will be the pre-charge state (charging current equal
to 30mA). Until battery voltage bigger than 3.2V, it returns to normal charge.
When ICHG bigger than 1 A, the OCP (over current protection) will be enabled.
When the battery voltage is higher then 4.35V, the OVP (over voltage protection)
will be enabled.
3.12 Earphone block diagram and circuit description
3.12.1 Function block diagram
Protect
circuit
Audio Jack
EMI circuit
Send-End
key
controller
Use row0 to
detect
Audio signal
Power
(IOTA)
manager
Host
Fig. 1 Earphone block diagram
The earphone circuit included audio jack, protect circuit, EMI circuit and
Send-End key controller. The all design based on external earphone which
characteristic is shown below.
3.12.1.1 Outward appearance:
Send-End key
MIC
AUXO GND
CONNECT TO CELLPHONE
3.12.1.2 Impedance:
The status of send-end
key
Relaxed
Pressed
MIC TO GND
1.7kΩ
AUXO TO GND
35Ω
OPEN
35Ω
3.12.2 Circuit description
DGND
R72
varistor 5.5V 0402
VRIO_2.8V
EAR_BIAS
DGND
VR12
R49
NM 100 0402
2.2K 0402
HSMICBIAS
100 0402
47K
DGND
4
3
2
DGND
DGND
B
C
3
0.7MM
4
2
47K
EF1
5
Auxi2
C56
10uF 0805
BQ4
E
C730
33pF 0402
R52
J4
Jack
1
Mic
Mic2
AUXO
ADCID
DGND
varistor 5.5V 0402
VR6
R51
EAR_DETECT
1
5
220K 0402
1
2
3
O1
I1
GND
O2
I2
PDTA144EE SC-75
R53
4.7K 0402 (HSMICBIAS)
EMIF01-10005W5 SOT323-5L
10k 0402 (EAR_BIAS)
DGND
L3
varistor 5.5V 0402
VR11
HSO
C57
10uF 0805
100nH 0402
C59
33pF 0402
DGND
varistor 5.5V 0402
VR13
DGND
DGND
ROW0
3
Vmicbias(2.5V)
2
HSMICIP
R54
39K 0402
BQ2
DTC124EE EMT3
22K
22K
1
C58
1uF / 0603
Auxi2
DGND
BQ4: It is used to avoid error function on earphone plug in/out.
J4: Audio jack
EF1: Filter audio and circuit noise.
BQ2: Send-end key detected. When BQ2 turned on, the send-end function
work.
3.12.2.1. EMI Filter including ESD protection
EF1
5
4
O1
I1
GND
O2
I2
1
2
3
EMIF01-10005W5 SOT323-5L
Rd=Rd1=Rd2=100Ω
Rd1 is the dynamic impedance between I1 and O1.
Rd2 is the dynamic impedance between I2 and O2.
3.12.2.2. Digital transistors (built-in resistors)
1
BQ4
E
47K
2
B
C
47K
3
0.7MM
PDTA144EE SC-75
Vi(off) input-off voltage Vi>1.2V, (VO=0V)
Vi(on) input-on voltage Vi<1.6V, (VCE = 300 mV)
R1 (input resistor) =47k Resistor ratio=1
3.12.2.3 Digital transistors (built-in resistors)
3
2
BQ2
DTC124EE EMT3
22K
22K
1
Vi (off) input-off voltage<0.9V, (VO=0V)
Vi (on) input-on voltage>1.1V, (0.1V<VCE<0.3V)
R1 (input resistor) =22k Resistor ratio=1
We could base on EAR_DETECT, HSMIBIAS and ROW0 to function.
EAR_DETECT used to detect “earphone plugging” and it is high active.
HSMIBIAS is high active that is used to switch internal path or external
earphone path. Send-end function is based on ROW0 which is low active. The
three signals high/low level are shown to below.
EAR_DETECT
HSMIBIAS
ROW0
High level (V)
2.8
2.5
2.8
Low level (V)
0
0
0
The function status is following below:
3.12.2.4 Status1:
Insert the headset plug when the phone holds over idle mode without the
headset plug in the jack.
Status
EAR_DETECT
HSMIBIAS
ROW0
L
L
H
3.12.2.5 Status2:
Receive an incoming call and the phone rings
EAR_DETECT
HSMIBIAS
ROW0
L
H
H
EAR_DETECT
HSMIBIAS
ROW0
L
H
H to L (falling
edge)
Status
3.12.2.6 Status3:
Press the send-end key to answer the call.
Status
3.13sim circuit
VRSIM
CALYPSO
SIM_IO
SIM_CLK
SIM_RST
VCC/VPP
IOTA
SIO3
SCLK3
SRST3
SIM
SOCKET
I/O
SIO5
SCLK5
SRST5
CLK
RST
GND
DGND
Description
The IOTA SIM interface is composed by a dedicated LDO and I/O level
shifters. It is able to support 3V and 1.8V SIM cards.
SIM_IO: DATA
SIM_RST :Reset signal
SIM_CLK: Clock
For that reason correct enabling sequence is the following :
a. Selection of the SIM voltage and enable of the SIM LDO
b. Wait for the SIM LDO output voltage set up.
c. Enable SIM level shifter when SIMRSU=1.
3.14keypad circuit
S1
PWON
Power / End
DGND
ROW4
ROW3
ROW2
ROW1
ROW0
S2
S3
S4
S5
S6
Soft-KeyL
*
7
4
1
COL3
S7
S8
S9
Menu
0
S12
S13
Soft-KeyR
S17
RIGHT
S10
S11
8
5
2
S14
S15
S16
#
9
6
3
S18
S19
S20
S21
LEFT
down
UP
SEND
COL2
C9
47nF 0402
DGND
COL1
COL0
C1
33nF 0402
C2
NM 33nF 0402
DGND
C3
33nF 0402
DGND
DGND
C4
47nF 0402
C5
10nF 0402
DGND
DGND
C8
47nF 0402
DGND
DGND
DGND
Description
3.14.1 The keypad is made of a 5Column * 5 Row matrixes.
3.14.2 The keypad matrix is as follows:
Function key Col 0 Col 1 Col 2 Col 3 Row 0 Row1 Row 2 Row 3 Row 4
No/PW S1
R
0
MEDIR S2
0
*
S3
0
7
S4
0
4
S5
0
1
S6
0
MENU S7
0
0
S8
0
8
S9
0
5
S10
0
2
S11
0
STYLE S12
0
#
S13
0
9
S14
0
6
S15
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
3
S16
0
0
RIGHT S17 0
LEFT
0
S18 0
0
DOWN S19 0
UP
S20 0
SEND
S21 0
0
0
0
3.15 photo sensor circuit
VDDS-MIF_2.8V
Q1
Photo-Transistor
R1
10k
LIGHTSENSER_EN
C6
?nF 0402 NM
DGND
DGND
Description
The phototransistor is used to switch the backlight of keypad according to the
R1 voltage level. This saves energy and add to stand by time .We use analog
digital converter (ADC) to detect the voltage variation in the R1. The Q1 is a
phototransistor. The light affect the current variation. The lightsenser_en is from
the IOTA’S ADC. So we know the voltage variation, and control the backlight
of keypad. If the brightness is too strong, we will turn off the LED of keypad.
△ Radio Frequency function Descriptions
Top Side
Bot
tom Side
Receiver Block Diagram
Transmitter Block Diagram
Frequency Synthesizer Block Diagram
1.T/R Switch:
U101 is a front-end switch device for GSM/DCS. The below table shows the
three operating mode.
Mode
GSM TX
DCS TX
GSM/DCS RX
VC1 (pin2)
L
H
L
VC2 (pin11)
H
L
L
These four control signals are generated from U103, which controlled by T/R
Switch.
2.Power Amplifier:
PA (U401) is control by signal PAENA, BS, and APC. The power controlloop is
a voltage sensor.
3.Transceiver:
U201 is the transceiver.
A. Receiver Operation
Received signals from the antenna are passed to the T/R switch U101.This T/R
switch contains a diplexer which filters the signal to the required receiver path
(E-GSM900 or GSM1800).Pin diode switches within U101 route the signal path
from the transmitter or to the receiver as required. Output signals from U101 are
then applied via the SAW filter F101 or F102 to the balanced Low Noise
Amplifiers (LNA) onboard U201.Output from LNAs are applied to a pair of
Gilbert Cell mixers within U201.An image-reject mixer downconverts the RF
signal to a 100kHz intermediate frequency (IF) with the RFLO from the U301
frequency synthesizer. The RFLO frequency is between 1737.8 to 1089.9MHz,
and is divided by to in the Si4200 (U201) for GSM 850 and E-GSM 900 modes.
The mixer output is amplified with an analog programmable gain amplifier
(PGA), which is controlled with the internal register. The quadrature IF signal is
digitized with high resolution A/D converters. The signal is then down
converted by a demodulator to I and Q. The Si4201 (U203) downconverts the
ADC output to baseband with a digital 100kHz quadrature LO signal.
B. Transmitter Operation
The transmitter chain converts differential IQ baseband signals to a suitable
format for transmission by a power amplifier. A quadrature mixer upconverts
the differential in-phase (TXIP, TXIN) and quadrature (TXQP, TXQN) signals
with the IFLO to generate a SSB IF signal which is filtered and used as the
reference input to the OPLL. The Si4133 (U301) generates the IFLO & RFLO
frequency.
4.Synthesizer:
U301 is a dual frequency synthesizer that performs IF and RF synthesis. Two
complete PLLs are integrated including VCOs, varactors, loop filters, reference
and VCO dividers, and phase detectors. Differential outputs for the IF and RF
PLLs are provided for direct connection to the Si4200 (U201) transceiver. The
RF PLL uses two multiplexed VCOs. The RF1 VCO is used for receive mode,
and RF2 VCO is used for transmit mode. The IF PLL is used only during
transmit mode and uses a single VCO.
E365 Trouble Shooting
Service Manual
Compal Communications, Inc.
1
△
1.
Baseband Descriptions
The mobile phone can’t boot after inserting the battery?
•STEP1. Check the energy of battery greater than 3.8v.(>3.8v)
a. to charge the battery.
b. change the battery.
•STEP2. Check the battery connector
a. recombination.
b.change the battery connector
•STEP3. Check the BTB connector between M/B and MMI
a. recombination
•STEP4. Check the MMI whether in normal
a. recombination
•STEP5. Check the software in correct
a. Re D/L
2.
The mobile phone turn off automatically after turn on?
•STEP 1.Check battery if voltage enough greater than(>3.8v)
a. recombination
b. Change battery
•STEP 2.Check ADC(3.4v) is correct
a. Re-adjustment ADC(3.4v)
•STEP 3.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
STEP3.1check J2.Row4 and GND maybe short.
STEP3.2.check J2 Pwon and GND maybe short.
BTB_CON
COL0
COL1
COL2
COL3
COL4
PWON
ROW0
VDDS-MIF_2.8V
varistor 5.5V 0402
VR16
GAP3
S
1
2
3
4
5
6
7
8
9
GAP4 GAP5 GAP6 GAP7 GAP8 GAP9
S
S
S
S
S
S
VBAT
18
17
16
J2 15
14
13
12
11
10
LEDKEYN
ROW4
ROW3
ROW2
ROW1
LIGHTSENSER_EN
GAP10 GAP11 GAP12 GAP13 GAP14
S
S
S
S
S
DGND
3.
VR3
varistor 5.5V 0402
C46
22pF 0402
DGND
DGND
The screen display can’t search SIM card when insert SIM after turn on.
•STEP 1.Check the SIM card whether to louse.
a. Change SIM card.
•STEP 2.Check the SIM connecter.
a. Change SIM connector.
•STEP 3.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
a. if change SIM connector isn’t ok,then change a new IOTA.
2
5.
No display on LCD after turn on?
•STEP 1.Check the connector of LCD and FPC
a. recombination
•STEP 2.Check the LCD whether to louse
a. Change LCD
•STEP 3.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
STEP 3.1.checkVDDS-MIF_2.8V =2.8V (if VRMEM<2.7V, the LCD will not
work)
STEP 3.2. check J6 every PIN’s impedance, then you can find one of them
has problem
6.
Has not LCM backlight :
•STEP 1. Check SET is correct
a. To set up LCD light bright mode.
•STEP 2. Check LCD and M/B whether to connect
a. Recombination.
•STEP 3. Check LCD failure
3
a. Change LCD.
•STEP 4.IF above-mentioned are all in normal condition then the problem could be
caused by M/B
STEP 1.Check U11 is slant.
STEP 2. when you press the keypad ,measure U11.4=2.7V
STEP 3. if RR1 have about 0.4V,then change U11.
STEP 4.if U11.4 < 2.7V,then change a new G2.
STEP 5.if step1 to step4 is ok, then check U6.3 about 10V
STEP 6.if U11.1<8V ,then change a new U11 or FL1、D6.
.
LED_Anode
D6
3
22uH FL1
2
VBAT
RB551V-30
CC1
U11
0.22uF 0603
1
DGND
DGND
R36
LED_Cathode
2
3
SW
FB
5
EN
4
LEDLCM_EN
MP1523
R40
0 0402
BIAS
GND
CC2
1uF 0603
0 0402 NM
RR1
56 0402
DGND
DGND
7.
VDDS-MIF_2.8V
Has not Keypad Backlight ?
•STEP 1 Check the BTB connector between M/B and MMI
a. Recombination
•STEP 2.Check MMI whether to have problem
a. Change MMI
•STEP 3.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
STEP3.1.use meter to check J2 every PIN impedance, then you can find
one of them has
problem.
BTB_CON
COL0
COL1
COL2
COL3
COL4
PWON
ROW0
VDDS-MIF_2.8V
varistor 5.5V 0402
VR16
GAP3
S
VBAT
1
18
2
17
3
16
4 J2 15
5
14
6
13
7
12
8
11
9
10
GAP4 GAP5 GAP6 GAP7 GAP8 GAP9
S
S
S
S
S
S
LEDKEYN
ROW4
ROW3
ROW2
ROW1
LIGHTSENSER_EN
GAP10 GAP11 GAP12 GAP13 GAP14
S
S
S
S
S
C46
22pF 0402
DGND
DGND
Step3.2 LEDKEY_EN= 1.4 ~ 2.8V, BQ3.pin3 = 1V DC
4
VR3
varistor 5.5V 0402
DGND
LEDKE
R64
0 0402 NM
3
LEDB
R65
1.5K 0402
2
BQ3
1
KeyLed_En
2SC5585 EMT3
R66
4.7 0402
C73
33nF 0402
R67
1K 0402
DGND
8.
Receiver has no key tone or sound.
•STEP 1.Check SET is correct
a. set up to key tone mode.
•STEP 2.Check Receiver pin is that slanting or sag
a. To adjust the Receiver pin.
•STEP 3.Check Receiver whether in normal
a. Change Receiver.
•STEP 4.Check M/B pad is that oxidation or dirty
a. Use a eraser to clean the pad.
•STEP 5.IF above-mentioned are all in normal condition then the problem could be
caused by M/B
STEP 5.1.check every part impedance (R62、R63、C70、C71,C72、VR7、
VR8).
STEP 5.2.if every part is ok, then change a new IOTA.
5
9.
No ring tone
•STEP 1.Check SET is correct
a. Set up to ring mode.
•STEP 2.Check speaker hold has screwed
a. lock up a screw.
•STEP 3.Check speaker failure?
a. Change Speaker.
•STEP 4.Check speaker Connector damage?
a. Changed Speaker Connector.
•STEP 5.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
STEP5.1.check MELODY “Pin17、Pin18” impedance.
STEP5.2.if step1 is ok, measure L2, C49, C50, R45, R46,
R44,C51,C52,R37,C53,C54,C55,R48
impedance. Then
you can find one of them has problem.
10. Can not charging:
•STEP 1.Check if you use the right adaptor
a. Change right adaptor.
•STEP 2.Check I/O Connector failure?
a. Change I/O Connector.
•STEP 3.Check I/O Connector Pin1&Pin2 solder creak?
a. I/O Connector Pin1&Pin2 re-soldering.
6
•STEP 4.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
STEP 4.1.if U2.4 <5.8v,then change a new U2.
STEP 4.2.if step1 is ok, then change a new IOTA.
VBAT
VBATS
R1
0.15 0805 1%
3
VCCS
2
D2
RB160M-30
R5
PCHG
68 0805 1% NM
ICTL
C10
22nF 0402
1
2
3
VCHG1
nCHG
R15 100K 0402
6
5
4
U2
FDC6506P
DGND
U3
4
IN
CNTRL
GND
5
VCC
OUT
3
2
DGND
1
nCHG
C21
1uF 0603
NCP345
VCHG
DGND
11. Key has not function
•STEP 1. Check the BTB connector between M/B and MMI is well?
a. Recombination.
•STEP 2. Check MMI whether to have problem
a. Change MMI.
•STEP 3.Check MMI Pad whether to oxidize and dirty
a. Use a eraser to clean the pad.
•STEP 4. .IF above-mentioned are all in normal condition then the problem could
be caused by M/B.
STEP 4.1.check BTB connector is short.
STEP 4.2.if not short, then change a new G2
7
12. Has not vibration or vibrator can not stop.
•STEP 1.Check SET is correct
a. Set up to vibrate mode.
•STEP 2.Check Vibrator Pin is that slanting and sag
a. To adjust the Vibrator Pin.
•STEP 3. Check Vibrator failure?
a. Change Vibrator.
•STEP 4. Check M/B pad is that oxidation or dirty
a. Use a eraser to clean the pad.
•STEP 5.IF above-mentioned are all in normal condition then the problem could be
caused by M/B.
STEP 5.1.check F1 ,BQ1 ,R42, R43, D4 maybe slant.
STEP 5.2.check the voltage of BQ1.3 > 3.4V.
STEP 5.3.measure R42, R43 impedance is ok.
STEP 5.4.if step1 to step3 is ok, then change new BQ1
STEP 5.5.if above mention all in normal, then change a new IOTA.
8
VBAT
G
3
G
2
4
I/O2 I/O1
1
No. G3240010
F1
SGM20F1E104-2A 2012
DGND
3
DGND
1
DAC
2
2
R43
10K 0402
0.95mm
M1
MOTOR 4.0*8.8-1.5V-KHN4NZ1D
1
33 0402
BQ1
2SC5592 SC59
1
R42
D4
1SS400 SC79
3930408801W
2
DGND
DGND
13. Micphone can not work:
•STEP 1.Check MIC failure?
a. Change MIC.
•STEP 2.Check M/B pad is that oxidation or dirty
a. Use a eraser to clean the pad.
•STEP 3.IF above-mentioned are all in normal condition then the problem could
be caused by M/B.
STEP 3.1.check EF2 is slant.
STEP 3.2.check C65、C66、C67、R59、R61、C68、C69、R58、R60 impedance.
STEP 3.3.if above mention all in normal, then change a new IOTA.
C65 100nF 0402
EF2
5
MICIP
4
MICIN
C66
100nF 0402
R58
330 0402
O1
I1
GND
O2
I2
1
2
3
1
C67
100pF 0402
EMIF01-10005W5 SOT323-5L
2
MIC+
MIC-
R59
1K 0402
MICBIAS
AGND
C68
10uF 0805
C69
100nF 0402
AGND
R61
1K 0402
R60
330 0402
14. No sound on earphone?
•STEP 1.Check use Earphone is failure?
a. Change right Earphone.
•STEP 2. Check Earphone Jack is failure?
a. Change Earphone Jack.
•STEP 3.IF above-mentioned are all in normal condition then the problem could be
9
MIC1
OBG-13SA 42-C2
caused by M/B.
STEP 3.1.if the earphone has no sound, check the soldering of SPACE R51.
STEP 3.2.if step1 is ok, then check EF1、L3、C57 soldering.
STEP 3.3.if above mention all in normal, then change a new SPACE IOTA
15. Has big Leakage current :
If leakage current > 100mA , battery on for a long time , we can touch the surface
of component , If the component heat more than other , It may be fail .
If leakage current <100mA , replace component.
16. Can not record Time
•STEP 1.Check RTC battery whether powerful or failure
a. Change RTC battery.
•STEP 2.IF above-mentioned are all in normal condition then the problem could
be caused by M/B.
STEP 2.1.if TP24 <> 32.768K,then change a new U2.
STEP 2.2.if change a new U2 isn’t ok ,then change a new G2.
17. Can not Download
•STEP 1.Check Download Tool SET
10
a. Reset.
•STEP 2.Check use right Data cable or failure
a. Change Data cable.
•STEP 3.Check I/O Connector failure
a. Change I/O Connector.
•STEP 4.Check I/O Connector Pin3-Pin16 solder creak
a. I/O Connector Pin3-Pin16 re-soldering.
•STEP 5.IF above-mentioned are all in normal condition then the problem could
be caused by M/B.
STEP5.1.if TP4<>13M,then change a new 13M.
STEP5.2. if TP24=32.768k,then change a new flash.
STEP5.3.if TP24<>32.768k,then change G2.
STEP5.4.if TP24<>32.768k,then pull out G2.measure IOTA’s 5 modules
voltage whether in normal.
STEP5.5.if IOTA is ok, then change a new G2. Space final, you can download
software.
TP4(13M)
TP24(32K)
18 DSC no function
STEP 1..Check the connector of DSC and FPC
11
a. recombination
STEP 2.Check the DSC whether to louse
a. Change DSC
STEP 3 . check the DSC’s LDO whether have output voltage.
STEP3.1 If the COMS_EN <2.5V, then change the G2
STEP3.2 If the LDO (U13) has no voltage output, then change U13
D25V
L6
100nH 0402
AVDDP
RR26
0 0603
RR26
1SS400 SC-79(W99685)
L8
2.5V FOR OV7645FB DD25V
100nH 0402
S25V
U13
1
VBAT
2
3
4
DGND
100nF 0402
C99
RR9
100K 0402 nm
COMS_EN
5
C700
Vin VOUT2.5
EN1 VOUT3.0
EN2
NC
BYP
NC
NC
GND
10
9
D33V
8
C97
2.2uF/6V
7
6
L7
C98
1uF/6V
100nH 0402
MIC2211-2.5/3.3BML
10nF 0402
AVSSP
DGND
DGND
DGND
DGND
STEP 4. CLK13M_DSC have no 13MHz
a. Change the inverter U18.
D33V
RR14
10
CLK13M_DSC
U18
C723
100pF
0402
DGND 10%
50V
NPO
5
NC
C724
IN
4
1
VCC
OUT
GND
2
3
TC7SHU04FU
DGND
SC70-5
RR15
1M
STEP5. check the U12.E10 have no 13MHz
a. change the U12
12
CLK13M_OUT
100pF
X7R
0402
10%
50V
STEP6 move the CMOS sensor , then power on the handset and press
#02#.
If it can’t get the firmware version such as 1.08 . the U12’s data
bus or control bus could have some trouble
a. change the U12
19. light sensor no function
step 1. check the VDDS-MIF-2.8V whether have 2.8V.
a. Check the BTB connector between M/B and MMI
step 2. check the LIGHTSENSER_EN whether have variably voltage
a. please change Q1 or R1.
VDDS-MIF_2.8V
Q1
Photo-Transistor
R1
10k
LIGHTSENSER_EN
C6
?nF 0402 NM
DGND
DGND
Step 3 check the LIGHTSENSER_EN have variably voltage
13
a. please change the IOTA.
14
△
Radio Frequency Descriptions
E365 RF Block Diagram :
The Aero transceiver consists of the Si4200 GSM transceiver, Si4201 universal
baseband interface, and Si4133T dual RF synthesizer. The highly integrated
solution eliminates the IF SAW filter, low noise amplifiers (LNAs) for three bands,
transmit and RF voltage controlled oscillator (VCO) modules, and more than 60
other discrete components found in conventional designs.
The receive section uses a digital low-IF architecture which avoids the difficulties
associated with directconversion while delivering lower solution cost and reduced
complexity. The universal baseband interface is compatible with any supplier’s
baseband subsystem.
The transmit section is a complete up conversion path from the baseband
subsystem to the power amplifier, and uses an offset phase locked loop (PLL) with
a fully integrated transmit VCO. The frequency synthesizer uses Silicon
Laboratories’ proven technology, which includes integrated RF and IF VCOs,
varactors and loopfilters.
15
Receiver Block Diagram :
The Aero transceiver uses a low-IF receiver architecture that allows for the on-chip
integration of the channel selection filters. The Si4200 integrates three
differential-input LNAs. The LNA inputs are matched to the 200 Ohm balanced
output SAW filters through external LC matching networks.
A quadrature image-rejeject mixer downconverts the RF signal to a 100kHz
intermediate frequency (IF) with the RFLO from the Si4133T frequency
synthesizer. The mixer output is amplified with an analog programmable gain
amplifier (PGA). The quadrature IF signal is digitized with high resolution A/D
converters (ADCs).
The Si4201 downconverts the ADC output to baseband with a digital 100kHz
quadrature LO signal. Digital decimation and IIR filters perform channel selection
to remove blocking and reference interference signals. After channel selection, the
digital output is scaled with a digital PGA. DACs drive a differential analog signal
onto the RXIP, RXIN, RXQP and RXQN pins.
16
Transmitter Block Diagram :
The transmit (TX) section consists of an I/Q baseband upconverter, an offset
phase-locked loop (OPLL) and two 50 Ohm output buffers that can drive external
poweramplifiers (PA).
A quadrature mixer upconverts the differential in-phase (TXIP, TXIN) and
quadrature (TXQP, TXQN) signals with the IFLO to generate a SSB IF signal
which is filtered and used as the reference input to the OPLL. The Si4133
generates the IFLO frequency between 766MHz and 896 MHz. The IFLO is
divided by two to generate the quadrature LO signals for the quadrature
modulator, resulting in an IF between 383 and 448MHz.
The OPLL consists of a feedback mixer, a phase detector, a loop filter, and a fully
integrated TXVCO. The TXVCO is centered between the DCS1800 and PCS1900
bands, and its output is divided by two for the GSM 850 and E-GSM 900 bands.
The Si4133T generates the RFLO frequency between 1272 and 1483 MHz.
Low-pass filters before the OPLL phase detector reduce the harmonic content of
the quadrature modulator and feedback mixer outputs.
17
Frequency Plan of Aero
For Tx and Rx intermediate frequency plan
Tx intermediate frequency
Band
E-GSM
DCS
IF frequency (MHz) Channel
LO frequency (MHz)
399*2
975~1023
(890+0.2*(ARFCN-1024))+IF/2
399*2
0~24
(890+0.2*ARFCN)+IF/2
395*2
25~49
(890+0.2*ARFCN)+ IF/2
399*2
50~124
(890+0.2* ARFCN)+ IF/2
383*2
512~885
(1710.2+0.2*( ARFCN -512))-IF/2
E-GSM : fLO=fRF + fIF/2
DCS/PCS : fLO=fRF - fIF/2
Rx intermediate frequency 100kHz
Band
Channel
LO frequency (MHz)
E-GSM
975~1023
((935+0.2*(ARFCN-1024))-0.1)*2
0~124
((935+0.2*ARFCN)-0.1)*2
512~885
(1805.2+0.2*(ARFCN-512))-0.1
DCS
E-GSM: fLO /2 =fRF – 0.1
DCS / PCS: fLO =fRF – 0.1
Tx (Low, Mid, High channel)
Band
E-GSM
DCS
IF frequency(MHz)
LO frequency (MHz)
Channel
399*2
1279.2
975
399*2
1301.4
62
399*2
1313.8
124
383*2
1327.2
512
383*2
1364.6
699
383*2
1401.8
885
Rx (Low, Mid, High channel)
Band
E-GSM
DCS
LO frequency (MHz)
Channel
1850.2
975
1894.6
62
1919.4
124
1805.1
512
1842.5
699
1879.7
885
18
RX : GSM900
1. Set HP8960 or HP8922 : Operating mode : Test mode , Test function :
BCH+TCH
2. Ch 62 : 947.4MHz , cell power : -60dBm
3. Press RX_900(62)
Signal 2
Signal 1
4. RX 900 signal 1 : Use probe to touch U101 pin 8 (freq = 947.4MHz)
5. RX 900 signal 2 : Use probe to touch U101 pin 10 (freq = 947.4MHz)
Signal 3
6. RX 900 signal 3 : Use probe to touch F101 pin 4/6
19
(freq = 947.4MHz)
Signal 4
7. RX 900 signal 4 : Use oscilloscope probe to touch RXQP, RXQN, RXIP,
RXIN from U203 pin 2~5 and you can find that ( For Example : The RXIP
signal )
20
RX : DCS1800
1. Set HP8960 or HP8922 : Operating mode : Test mode , Test function :
BCH+TCH
2. Ch 699 : 1842.6MHz , cell power : -60dBm
3. Press RX_1800(699)
Signal 2
Signal 1
4. RX 1800 signal 1 : Use probe to touch U101 pin 8
5. RX 1800 signal 2 : Use probe to touch U101 pin 1
(freq = 1842.6MHz)
(freq = 1842.6MHz)
Signal 3
6. RX 1800 signal 3 : Use probe to touch F102 pin 4/6
21
(freq = 1842.6MHz)
TX : GSM900
1. Set HP8960 or HP8922 : Operating mode : Test mode , Test function :
BCH+TCH
2. Ch 62 : 902.4MHz , cell power : -60dBm , MS_TX_level : 5
3. Press TX_900(62)
Signal 2
Signal 1
4. TX 900 signal 1 : Use probe to touch U301 pin 23/24 (freq = 1301.4MHz)
5. TX 900 signal 2 : Use probe to touch U301 pin 26/27 (freq = 798MHz)
( If signal 1 and 2 are OK, synthesizer and tranceiver are OK
If there are not then we have to check the inductor (L302 or L301) value
and solder)
22
Signal 3
6. TX 900 signal 3 : Use oscilloscope probe to touch R205/6/7/8 pin 4/3 and you
can find that ( For Example : The TXIP signal )
23
Signal 5
Signal 4
7. TX 900 signal 4 : Use probe to touch R402 pin 2
8. TX 900 signal 5 : Use probe to touch R402 pin 1
(If signal 4 and 5 are OK, TXVCO is OK.)
(frequency 902.4MHz)
(frequency 902.4MHz)
Signal 6
9. TX 900 signal 6 : Use oscilloscope probe to touch R401 and we can find that
24
Signal 7
10. TX 900 signal 7 : If 8960 or 8922 could show output power, PA is OK. If
8960 or 8922 show Freq_error, Peak_phase_error, RMS_phase_error are
inside the standard, Tx is OK.
TX : DCS1800
1. Set HP8960 or HP8922 : Operating mode : Test mode , Test function :
BCH+TCH
2. Ch 699 : 1747.6MHz , cell power : -60dBm , MS_TX_level : 0
3. Press TX_1800(699)
Signal 2
Signal 1
4. TX 1800 signal 1 : Use probe to touch U301 pin 23/24 (freq = 1364.6MHz)
5. TX 1800 signal 2 : Use probe to touch U301 pin 26/27 (freq = 766MHz)
( If signal 1 and 2 are OK, synthesizer and tranceiver are OK
25
If there are not then we have to check the inductor (L302 or L301) value and
solder)
Signal 3
6. TX 1800 signal 3 : Use oscilloscope probe to touch R205/6/7/8 pin 4 (3) and
the result is similar to the GSM TXIQ.
Signal 4
Signal 5
26
7. TX 1800 signal 4 : Use probe to touch R403 pin 2
8. TX 1800 signal 5 : Use probe to touch R403 pin 1
(If signal 4 and 5 are OK, TXVCO is OK.)
(frequency 1747.6MHz)
(frequency 1747.6MHz)
Signal 6
9. TX 1800 signal 6 : Use oscilloscope probe to touch R401 and the diagram is
similar to GSM APC.
Signal 7
10. TX 1800 signal 7 : If 8960 or 8922 could show output power, PA is OK. If
8960 or 8922 show Freq_error, Peak_phase_error, RMS_phase_error are
inside the standard, Tx is OK.
27
GSM 1800 RX
Low Channel - 512 = 1805.2Mhz
Mid Channel - 700 = 1842.8Mhz
High Channel - 885 = 1879.8Mhz
1
3
4
2
U102
1
TX / RX Switch
RFLO= 947.3Mhz
4
947,4 MHz
CH 62
2
2
F101
Control
Function
EGSM TX
Low Channel - 975 = 880.2Mhz
Mid Channel - 37 = 897.4Mhz
High Channel - 124 = 914.8Mhz
8
1 ION
2 IOP
ADC
21
Duplexer
4
2
1 DCS_RX 1805-1880MHz
F102
20
6
IF/100kHz
2
1
4 CKP
3 CKN
ADC
19
5
14, 23,
26, 32
0
100kHz
DCSPA
9
GSM_TX
7
11
DCS_TX
1
U401
2
2
6
5, 25, 28
13
12 SPI
11 IF
10
9
RF_DAT
RF_CLK
(Latch) RF_LE
(Data out) SDO_RF
(Enable) PDNB
(from/to U15)
(VCC)
VBAT
7
VTCXO
5
8
VSYN
U104
Dual Band E365
(Enable)
SXENA
3, 5
6
VTCXO
GSM SERVICE SUPPORT GROUP
LEVEL 3 RF Block Diagram
Revision Overview
Rev. 1.0: initial Block Diagram
Rev. 1.1: updated SDO_RF signal direction, updated U303 to U503
Rev. 1.2: updated F1 as EMI filter, RF VCO frequency, U201 internal divider, U503 output, TR Switch
U503 4
13Mhz
4
7
U301
13Mhz_BB
3
U302
1
AFC
2003.05.19
PHASE
DET.
1
5
2
8
7
TX/ CH 62
12 13 902,4 MHz
TXIN
TXIP
TXQN
TXQP
9 10
RX /CH 62
1894.6 MHz
24
RF
VCO 23
27 IFLOP
IF
VCO 26 IFLON
798 MHz
CH 62
CH 62 TX Mode
RFLO= 1301,4Mhz
IFLO= 798MHz
TX VCO = 902,4 MHz
RX SIGNAL PATH
Rev. 1.2
Dual Band - E365
Michael Hansen
SPI
IF
2
(Tuning/Bias)
(VCC)
VRF
Exc.
399MHz
DCS
24 Exc.
R403 1
(Clock in)
3
399MHz
APC (Power Control)
PAENA (Enable)
GSM_TXEN (Band Select)
VSYN
VBAT (VCC)
6
Control 3
2
4
U105
25
R402 1
(Data in)
TCXOEN
RXQP
RXQN
13Mhz VRF
CMOS
(Enable)
2
ADC 3
RXIP
RXIN
N 6, 20 13 18 17 16 5 14
7
TX /CH 62
1301.4 MHz
RFLOP
RFLON
GSMPA
5
PGA
1
90
GSM
1
9
o
6, 12
PA
VCC4
4
PGA ADC 5
10
3
(VCC)
12
11
1
2 ANTENNA
RF
U203
U201
22
6
10 GSM_RX 925-960MHz
JP1
RX IF = 100kHz
Channel
Filter
11
TRENA
TCXOEN
(Data in) RF_DAT
(Clock in) RF_CLK
(Latch)
RF_LE
(Data out) SDO_RF
(Enable) PDNB
U101
CH 62 RX Mode
(Tx /Rx selection)
3
(Enable)
GSM 1800 TX
Low Channel - 512 = 1710.2Mhz
Mid Channel - 700 = 1747.8Mhz
High Channel - 885 = 1784.8Mhz
(VCC)
VRF
U103
6
CALIBRATION
RF PORT
AP2
GSM_TXEN
o
EGSM RX
Low Channel - 975 = 925.2Mhz
Mid Channel - 37 = 942.4Mhz
High Channel - 124 = 959.8Mhz
(Tx Enable)
T/R Switch
Control
Page 1 of 2
REFERENCE CLOCK
TX SIGNAL PATH
Orderable Part
MAIN VCO SIGNAL PATH
Non - Orderable Part
TUNING VOLTAGES
DLPWR
VACCID
3
14
15
5
7
8
9
10
11
12
6
4
13
1
TDI
TCK
TMS
TDO
4
VCHG
1
5
U9
Analog / Baseband
L12
G13
G10
F13
TDO, TDI, TMS, TCK
CTS_MODEM
RX_MODEM
TX_MODEM
RTS_MODEM
DSR_MODEM
DTR_MODEM
Rx_IrDA
Tx_IrDA
VBAT-VCHG
POWER
RX/TX K14
CNTL K13
SIM
C9
A9
B9
E8
D9
N3
D8
C8
B13
UART
ARM 7
1
KeyLed_En
EAR_DETECT
L7
N11
(from U303) 13MHZ_BB
E13
CLK13M_OUT
nRESET
M10
C11
C1
GPIO L4
L8
M4
E4
F5
2M RAM
(to Display)
nRESET
CLK13M_OUT
nIRQ_Melody
VRIO_2.8V
VBAT
15 7
2
3
LS1
SPKR
4
BL1
17
1
18
AUXO
4
29
30
1 3
U10
Melody IC
31
32
12,13,14
SDO
nSCS0
SCLK
SDI
N2
F12
H10
K8
L9
P9
M9
B2
E2
F4
DAI
Digtal Audio
Interface
C2
D3
DSP
(VCC) VBAT
A1
B2
RNW
nFOE
U7
SRAM
F11
1
U13
9
D33V
DD25V
S25V
D25V
AVDDP
AVSSP
L8
RR26
A2
U19
(enable)
(VCC)
nCS2
VDDS-MIF_2.8V
D6, E1, A6
U20
Boost Power
(VCC)
VBAT
FL1
D6
F8 (Output Enable)
B5 (Reset)
A22
CE
5 3 4
DATA BUS
ADD BUS
VRRAM_2.8V
C5 (Write Enable)
nCS0
nCS3
J5
TFTConnector
TFT Display
DATA BUS
G5
RNW
nFOE
FDP
Key
board
Int.
SPI
(to U19, Q1, J2)
L6
L7
U11
U6
FLASH
MEMORY
(enable)
E7
DATA BUS
Radio
Int.
F_1.8 (to Flash)
VDDS-MIF_2.8V
9
6
ADD BUS
N12
P14 VOICEBAND
N13
Interface
M13
2,3
2,3 10
1
4
LEDLCM_EN
2
R36
E1,G6, D6, B4
COL 0 - COL 4
1,2
3
4,5
6
7
8
9
10-22
28-26
23,24
25
29
LED_Cathode
30
J1/ J2
Keyboard
ROW 0 - ROW 4
Kepad
Connector
Main Charge Path
N7, M7, M8
Charger Overvoltage Protection
VRDBB1,5V
NC
LCD_ID
GND
nCS2
LCDA0
RNW
LCD_RD
D0-D12
D13-D15
VDDS-MIF_2.8V
nRESET
LED_Anode
F_1.8
VRMEM_2.8V
A5, A4, G4
VCLKRX
VDX
VDR
VFSRX
U8
1
Regulator
nBLE
nBHE
MEM
I/FACE
TIMER
Regulator
(enable)
CLK32K_OUT
RTC_ALARM
SWITCHONOFF
RESPWRONZ
VRRTC
COMS_EN
nCS4
nCS2
LEDLCM_EN
LCD_ID
LCDA0
F10
D12
D14
I/O
VRRAM_2.8V
U14
RTC A14
ON/ C12
OFF B14
CNTL
VBAT
IO_PWR_EN
(from ext. charger)
Regulator
M14
A13
A12
JTAG
CAMERA
DISITAL CAMERA
Connector
IC
B9
RNW
DATA BUS DD 0-7
J6
B10
nFOE
U18
F1
PWDN
4
B10
nCS4
D33V
5
H4
SCK
10
CLK13M_DSC
E9
SDA
8
2 3 4
CLK13M_OUT
U12 D9
SDO
20
E10
SCLK
9
DATA BUS D0-7
K3
SHS
2
CAMERA
(to/ from Hercules)
J4
SVS
3
ADD BUS A1-3
Switch
F10
SPCLK
5
G1, ......
D25V
ROW4
6 S22
L2, ......
S25V
6
D33V
COL4
B4
DD25V
7
AVDDP
A4
AVSSP
GND
1
Camera
RR1
J1
RF_DAT
RF_CLK
RF_LE eventuell verbunden auf RF!! U203, U301
SDO_RF
PDNB
GSM_TXEN
TRENA
(to RF Side)
PAENA
SXENA
TCXOEN
(VCC) VCC4
H11
J14
H14
Hercules U15
A5,B12,F11,M1,N14,P7
VRDBB1.5V
A11,L14,N3,N1,N5
VRIO_2.8V
A4,B6,D1,G1
VRMEM_2.8V
SIO3
to/ from Omega SRST3
SCLK3
1-5
COL 0 - COL 4
Battery Over Voltage Protection
BDR/ BFSR
BDX/ BFSX
ROW 4 - ROW 1
15-12, 7
(Sense)
MCUDI
MCUDO
MCUEN0
PCHG
VDDS-MIF_2.8V
R1
VBATS
(Sense)
(Charge Current Control)
ZD1
RTC BATTERY
(from U4/ D3)
EMI Filter
1
F1
VCC4
VBACKUP
E1
A1,A2,G2,G9,K1
VRABB_2.8V
VRDBB_1.5V
VRIO_2.8V
VRRAM_2.8V
VRMEM_2.8V
VRRTC_1.5V
H10
J1
B1
F1
G1
D1
SPI
BACKUP
BASEBAND - 2.8V
BASEBAND - 1.5V
IN/ OUTPUT- 2.8V
RAM - 2.8V
MEMORY - 2.8V
RTC - 1.5V
BASEBAND
SERIAL
PORT
D9
BASEBAND D10
C10
UPLINK
C9
OMEGA U1
VIBRATOR
M1
1
BQ1
2
DAC
(to RF Side) AFC
APC
2
3
B
C
E
1
Auxi2
BQ4
J4 4
Audio 5
Jack 3
1
5
3 EF1 4
Sense
Battery
3
MIC1
LS2
SPKR
HSMICBIAS
HSMICIP
MICBIAS
IO
AFC
APC
IBIC
BUS
CNTL
K8
K7
J8
MICIP J7
EF2
MICIN H7
EARP
J9
BL2
EARN
J10
HSO H9
(to U10) AUXOP
K9
CLK32K_OUT
SWITCHONOFF
(to U15)
RESPWRONZ
(from Keyboard) PWON
(from U15)
RTC_ALARM
(Ext./ on from J1) DLPWR
(from U15)
(to U15)
H4
J4
K4
E2
E3
D3
F8
D2
F7
Charger
Interface
JTAG
Ser. Port
ADC
Analog/Digital
Converter
A10 B6C7A6 C6
D
2
1
6
VBAT
(to U1, U5)
E7
D7
E8
D8
BS_TDO
TDI
TMS
TCK
SIM I/Face
3V / 5V
LEVEL
SHIFTERS
G5
H5
E5
G4
F4
C4
D4
B3
(VCC)
D3
B4 VR_1.8/2.9VSIM
LIGHTSENSER_EN
BATTEMP
VBAT
VACCID
LEDB
2
Backlights
18
D2, D3
D6, D7
LEDKEYN D8, D9
3
16
1
U5
(to U1 as VCC4
Main Soure
for Regulators)
LEDB
2
VCHG1
(ON/OFF)
1
(Sense)
VBATD
KeyLed_En
1 Regulator
BATTERY
CONNECTOR
J3
VBAT
1
Batterie
Switch
U4
R16
Sense
(to/ from Hercules)
GND
2
U16
Batterie
Over Voltage
Protection
3
5
2
1
Switch
S_IO
SRST3
SCLK3
SCLK5
SRST5
SIO5
VCHG1
BQ3
VBATS
VBATD
VCHG1
VCCS
PCHG
ICTL (Charge Current Control)
VCLKRX
VDX
VFSRX
VDR
Q1
LIGHTSENSER_EN 11
Ext.
Overvoltage
Control
U3
nCHG
Light
8 Sensor
(from J1)
4, 5
1
(to U201)
C5
A4
A5
D5
D6
B5
USP
K3
Micro Proc. F5
VRPC
Volt. Reg. and
Power up Ctnl.
G
G B
2
VOICE
UPLINK
VOICE
DOWNLINK
SS
3 D
(bulk)
E4
E9
TSP
TXIP
TXIN
TXQP
TXQN
RXIP
RXIN
RXQP (fromU203)
RXQN
CLK13M_OUT
F9
BASEBAND F10
DOWNLINK E10
2
EAR_DETECT
Dual Band E365
VBAT
BT1
J5, K5, K6
ICTL
VCHG
Ext.
On/Off
U2 5 Switch
Charger
U17
5,6
3
BATTEMP
2
4
NC
BATTGND
BATTGND
VRAM_2.8V
VCCS D2
VBAT
(to Batterie)
PWON
6
S19
RX SIGNAL PATH
TX SIGNAL PATH
MAIN VCO SIGNAL PATH
TUNING VOLTAGES
7, 8
REFERENCE CLOCK
(to/ from Hercules)
Orderable Part
1
SIM CON.
3
2 CON1
Non - Orderable Part
5
GSM SERVICE SUPPORT GROUP
LEVEL 3 AL Block Diagram
Revision Overview
Rev. 1.0: initial Block Diagram
Rev. 1.1: updated SDO_RF signal direction, updated U303 to U503
Rev. 1.2: updated F1 as EMI filter, RF VCO frequency, U201 internal divider, U503 output, TR Switch
2003.05.19
Rev. 1.2
Dual Band-E365
Michael Hansen
Page 2 of 2
REVISIONS HISTORY
REV.
DESCRIPTION
CHECK
DATE
REVISIONS HISTORY
RELEASE
DATE
REV.
0A
0B
DESCRIPTION
CHECK
DATE
EN NO. G2320060
林信杰
鍾源德
FEB. 12
2003
FEB. 26
2003
EN NO. G2320240
EN NO. G2320300
EN NO. G2320340
黃纓雯
RELEASE
李思瑾
黃纓雯
李思瑾
DATE
FEB. 13
2003
FEB. 25
2003
Compal Communications, Inc.
TITLE
NOTES: UNLESS OTHRWISE SPECIFIED.
1. RESISTANCE VALUES ARE IN OHMS, 0402 1/16 WATT.
2. CAPACITANCE VALUES ARE IN PICO FARADS, 50V.
3. VOLTAGES ARE DIRECT CURRENT.
4. THE "NM" FOR NO MONT.
SCHEMATIC, M/B GA-031 WINBOND
T66
Model Name
Sheet
1
Drawing no.
of
16
Rev.
601027
0B
B
C
VRMEM_2.8V
VRDBB_1.5V
C o n nect to
U 1 5 .N14(VDD)
VRRAM_2.8V
C3
C4
C5
C6
C1
C2
VACCID
BATTEMP
TP1
DGND
DGND
DGND
T
DGND
1
DGND
VCC4
TP2
BS_TDO
TDO
TMS
TCK
DLPWR
E7
D7
E8
D8
DGND
B6
A6
C7
C6
R7
A3
G2
F3
G1
F1
K1
J1
H2
A1
A2
B1
B2
B4
G10
H10
G9
G8
DGND
C7
TP3
VBAT
R4
R6
DGND
DGND
UPR
VRRAM_2.8V
A4
VCHG1
A5
DGND
VBACKUP
6
5
R15
VBAT_D
TP7
ZD1
D5
ICTL
D6
GND
5
VCC
OUT
3
2
DGND
1
C20
nCHG
F4
E5
G4
SCLK3
SIO3
SRST3
C4
B3
D4
SCLK5
SIO5
SRST5
1
CNTRL
1
U3
IN
B5
PCHG
T
DGND
VCCS
BT1
VLRTC
VBACKUP
VCRAM
VRRTC
UPR
ITWAKEUP
TESTRESTZ
REFGND
IBIAS
VREF
U1
VXRTC
VBATS
BULIP
BULIM
BULQP
BULQM
IOTA
VBAT
VCHG
BDLIP
BDLIM
BDLQP
BDLQM
VCCS
ICTL
EARP
EARN
AUXOP
AUXON
AUXI
HSO
HSMICP
HSMICBIAS
PCHG
DBBSCK
DBBSIO
DBBSRST
SIMCK
SIMIO
SIMRST
UDX
UEN
UDR
VCK
VFS
VDR
VDX
G3
H1
H6
E6
J6
F6
K3
G5
F5
H5
R16
MICIP
MICIN
MICBIAS
GNDAV
3
LEDB
1
4
VBAT
3
R20
R21
C9
DGND
D9
D10
C10
C9
TXIP
TXIN
TXQP
TXQN
F9
F10
E10
E9
RXIP
RXIN
RXQP
RXQN
J9
J10
K9
K10
G7
H9
K7
K8
DGND
R14
C13
C15
DGND
C17
3
C16
AGND
EARP
EARN
AUXOP
AUXON
AUXI
HSO
HSMICIP
HSMICBIAS
C19
J7
H7
J8
G6
C18
C22
AGND
2
MICIP
C24
MICIN
C25
AGND
R17
MICBIAS
C28
BDX
BFSX
BDR
BFSR
DGND
PWON
C8
UPR
MCUDO
MCUEN0
MCUDI
C30
AGND
R22
IOTA
DGND
1
1,2,5,6
D GND
4
EN BYP
3
5
GND
Vin Vout
2
1
C27
R13
VDR
VDX
VFSRX
VCLKRX
R19
U5
RTC_ALARM
TEN
TDR
DGND
C29
C26
U4
DGND
D2
H8
A7
B7
A8
APC
AFC
DAC
EXT_IRQ
EXT_FIQ
D3
R18
TP6
SWITCHONOFF
RESPWRONZ
AGND
DGND
VCC4
D1
R8
AGND
J5
K6
K5
B8
C8
B10
A10
B9
A9
C23
BFSX
BDX
BFSR
BDR
DGND
K2
J2
H3
J3
DGND
DGND
LEDA
LEDC
LEDB1
LEDB2
GNDL1
GNDL2
2
VBAT_D
VCHG
TDR
TEN
TEST1/INT1
TEST2/INT2
TEST3
TEST4
C21
2
TDO
TDI
TMS
TCK
CK13M
E3
D3
F7
F8
DAC
AFC
APC
C14
DGND
DGND
U2
4
C5
VBATS
ONNOFF
RESPWONZ
RPWON
PWON
H4
J4
K4
C1
C12
C11
nCHG
1
2
3
R12
VRRTC_1.5V
UPR
VCHG1
3
C3
E1
F2
D1
C2
VBACKUP
CK32K
ADIN1
ADIN2
ADIN3
ADIN4
T
1
2
DGND
R11
ICTL
C10
DGND E2
E4
CLK13M_OUT
PCHG
4
GNDD
VCMEM
VLMEM
VRMEM
VRRAM
VCDBB
VRDBB
VSDBB
VCIO2
VCIO1
VRIO2
VRIO1
VRSIM
GNDA
VRABB
VCABB
TESTV
3
R5
R10
AGND
DGND
CLK32K_OUT
ROW4
R9
TP4
D2
AGND
4
VBAT
T
AGND
DGND
LIGHTSENSER_EN
R3
VCCS
1
4
AGND
R2
DGND AGND
R1
VBAT
VBAT
T
VRDBB_1.5V
VRIO_2.8V
1
VRSIM_1.8/2.9V
VRABB_2.8V
E
T
VBAT
VBATS
D
1
A
1
DGND
DGND
VCHG1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE Custom
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
601027
星期二, 二月 25, 2003
0B
Sheet
E
2
of
16
A
B
C
D
VRMEM_2.8V
5
5
5
U20
1
2
3
A[0..22]
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
C33
DGND
F8
nFOE
VPP
F_VCC
F_VCC
/ADV#
/RST#
/CE#
CLK
/WE#
VCCQ
VCCQ
VSSQ
VSSQ
VSS
VSS
/WP#
WAIT
/OE#
4
R23
B4
C5
VRMEM_2.8V
RNW
D6
VRMEM_2.8V
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
A[0..22]
3
E8
D8
C8
B8
A8
B7
A7
C7
A2
B2
C2
A1
B1
C1
D2
D1
D4
B6
A6
C6
B3
C3
D7
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
U6
A5
A4
G4
F_1.8
F_1.8
E1
G6
G8
G2
A3
F1
VRMEM_2.8V
C31
C32
C35
D3
DGND
F7
E6
E5
G5
E4
G3
E3
G1
G7
F6
F5
F4
D5
F3
F2
E2
F_1.8
DGND
DGND
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
DGND
D[0..15]
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
U7
VCC
VCC
VSS
VSS
VSS
CS2
/CS1
/WE
/OE
/UB
/LB
D6
E1
E6
D1
E3
D[0..15]
4
VRRAM_2.8V
C34
DGND
A6
B5
G5
A2
B2
A1
VRRAM_2.8V
nCS1
RNW
nFOE
nBHE
nBLE
RR13
VRRAM_2.8V
NC
C4
B5
E7
G2
H1
D3
E4
F4
F3
G4
G3
H5
H4
H3
H2
D4
C4
C3
B4
B3
A5
A4
A3
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
G1
F1
F2
E2
D2
C2
C1
B1
G6
F6
F5
E5
D5
C6
C5
B6
3
H6
DGND
FDP
D16
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
DGND
4
DGND
nCS0
nCS3
U8
1
VCC4
2
3
VRRAM_2.8V
4
C38
5
RR8
nCS0
Vin
VOUT1.8
EN1 VOUT2.8
EN2
NC
BYP
NC
NC
GND
10
F_1.8
9
VDDS-MIF_2.8V
8
7
C36
6
C37
C39
DGND
2
DGND
VDDS-MIF_2.8V
DGND
VDDS-MIF_2.8V
VRMEM_2.8V
VRMEM_2.8V
VRRAM_2.8V
VRRAM_2.8V
2
DGND
DGND
nCS0
1
1
0
nCS 3
1
0
1
A22
1
1
0
CE
1
0
0
DGND
DGND
Memory&LDO
1
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
Document Number
Rev
601027
星期二, 二月 25, 2003
Sheet
D
0B
3
of
16
A
B
C
BSTDO
TP23
D
nDLPWR
TP24
TCK
TP14
TMS
TP15
TDI
TP5
TDO
TP13
5
5
TP8
1
R29
TDI
R30
DLPWR
TP12
TP13 TP14
TP9
DGND
TP11
DGND
TP10
1
1
1
1
1
1
TP15
1
Tx_IrDA
4
4
R31
1
C40
DGND
T
VR1
TP16
R32
PT1
1206
J1
VR14
VCHG
VR10
D GND
TDO
Rx_IrDA
CTS_MODEM
CTS_MODEM
RX_MODEM
TX_MODEM
RTS_MODEM
DSR_MODEM
DTR_MODEM
TP17
3
3
4
5
6
7
8
9
10
11
12
13
14
15
16
DGND
R33
1
RTS_MODEM
DSR_MODEM
DTR_MODEM
TCK
R34
1
2
VCHG
DGND
MIC/TDI
DLPWR-DCD/Tx_IrDA
SPKN/TDO
SPKP/Rx_IrDA
CTS
RXD
TXD
RTS
DSR
DTR
VBAT-VCHG
ACCID/TCK
IO13/TMS
DGND
3
L1
VR2
VR9
C41
C42
C43
DGND
TP18
DGND
DGND
EP1
2
2
1
DGND
R38
2
2
EP2
IO1
GND IO2
IO3
IO4
IO5
1
3
4
5
6
DGND
IO1
GND IO2
IO3
IO4
IO5
VACCID
1
3
4
5
6
R35
DGND
TMS
U9
1
VBAT
2
3
IO_PWR_EN
Vin
Vout
5
DGND
GND
EN
BYP
4
IO_CONNECTOR
R39
C45
1
C44
1
Compal Communications, Inc.
Title
DGND DGND
SCHEMATIC, M/B GA-031
DGND
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
Document Number
Rev
601027
星期二, 二月 25, 2003
Sheet
D
0B
4
of
16
A
B
C
D
5
5
COL0
COL1
COL2
COL3
COL4
PWON
ROW0
VDDS-MIF_2.8V
4
1
2
3
4
5
6
7
8
9
VR16
GAP3
J2
VBAT
18
17
16
15
14
13
12
11
10
LEDKEYN
ROW4
ROW3
ROW2
ROW1
LIGHTSENSER_EN
4
VR3
GAP4
GAP5 GAP6 GAP7
GAP8 GAP9
GAP10 GAP11 GAP12 GAP13 GAP14
C46
DGND
DGND
DGND
TP20
T
3
TP19
T
3
1
1
J3
R41
BATTGND
BATTEMP
4
3
2
1
VBAT
C48
C47
GAP15
GAP17
GAP16
RR12
2
DGND
DGND
2
DGND
VR15
DGND
DGND
DGND
BTB_CONNECTOR
1
1
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
Compal Communications, Inc.
SCHEMATIC, M/B GA-031
Document Number
Rev
0B
601027
星期二, 二月 25, 2003
Sheet
D
5
of
16
DGND
B
C
D
VBAT
VR4
A
F1
N o . G3240010
1
VBAT
L4
T4
4
4
LS1
G
3
G
5
I/O2
DGND
T1
I/O1
1
T
VBAT
DGND
1
5
TP21
VRIO_2.8V
VRIO_2.8V
BL1
T3
2
T2
L5
3
VR5
2
VBAT
DGND
DGND
L2
BQ1
VREF
C49
C50
4
DGND
14
DGND
R45
R44
C51
D4
DGND
13
3930408801W
AUXOP
R46
2
12
11
M1
1
15
C52
10
DGND
VRIO_2.8V
9
VSS
VDD
8
7
PLLC
16
DGND
18
17
SPOUT1
19
EXT2
SPOUT2
20
21
D7
D6
23
22
D5
24
HPOUT-L/MONO
1
T
1
1
VRIO_2.8V
3
DGND
DGND
3
D4
SDOUT
R37
TP22
HPOUT-R
IFSEL
32
EQ1
SCLK/nRD
6
SDI
SYNC/A0
5
31
EQ2
CLKI
SCLK
EQ3
SDIN/nCS
2
nSCS0
2
0 .95mm
SPVSS
nWR
nRST
30
2
R42
R43
SPVDD
4
29
SDO
1
DAC
DGND
D0
nIRQ
28
D1
EXT1
27
3
26
4
D3
D2
25
3
U10
C53
DGND
R48
C54
VRIO_2.8V
VR12
DGND
DGND
nIRQ_Melody
R49
VR6
R52
DGND
DGND
2
4
3
2
2
DGND
4
O1
O2
R53
I1
GND
I2
1
2
3
3
5
Auxi2
Vmicbias(2.5V)
VR11
DGND
R54
L3
3
BQ2
2
C58
2
C
B
EF1
ROW0
HSMICIP
C56
BQ4
E
DGND
HSMICBIAS
J4
1
R51
EAR_DETECT
Mic Mic2
AUXO
ADCID
DGND
DGND
C55
1
nRESET
CLK13M_OUT
R50
5
VRIO_2.8V
DGND
HSO
22K
C57
22K
1
C59
VR13
MELODY & EARPHONE
Auxi2
DGND
DGND
1
1
Compal Communications, Inc.
DGND
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
A
B
C
SCHEMATIC, M/B GA-031
Size
B
Date:
Document Number
Rev
601027
星期二, 二月 25, 2003
Sheet
D
0B
6
of
16
A
B
C
D
5
5
SCLK5
SRST5
R55
R56
C60
VRSIM_1.8/2.9V
GAP18
C61
GAP20
GAP19
DGND
DGND
4
4
6
3
1
CLK
I/O
C62
CON1
2
R57
4
GND VCC
5
DGND
RST
DGND
VPP
DGND
T O P VIEW
DGND
3
3
SIO5
GAP21
C63
C64
DGND
DGND
2
2
SIM
1
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
A
B
C
SCHEMATIC, M/B GA-031
Size
B
Date:
Document Number
Rev
601027
星期二, 二月 25, 2003
Sheet
D
0B
7
of
16
A
B
C
D
5
5
C65
EF2
5
MICIP
4
MICIN
O1
O2
I1
GND
I2
1
2
3
1
C67
MIC+
2
MIC-
MIC1
C66
R58
R59
MICBIAS
AGND
C69
C68
R61
A GND
4
R60
DGND
DGND
AGND
A GND
AGND
VR7
4
3
3
LS2
BL2
R62
1
EARP
T1
T4
4
C70
2
EARN
T2
T3
3
VR8
R63
C71
C72
2
2
AGND
AGND
Acoustic
1
1
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
Compal Communications, Inc.
SCHEMATIC, M/B GA-031
Document Number
Rev
0B
601027
星期二, 二月 25, 2003
Sheet
D
8
of
16
A
B
DGND
4
D
E
LEDKEYN
DGND
C
VBAT
VDDS-MIF_2.8V
VBAT
VDDS-MIF_2.8V
4
R64
LEDB
DGND DGND
DGND
DGND
DGND DGND
DGND
DGND
DGND
DGND
DGND
DGND
R65
3
BQ3
2
KeyLed_En
1
C78
C720
C79
C80
C76
C77
C81
C82
C83
C74
C85
C722
R66
R67
C73
D[0..15]
J5
DGND
nRESET
VDDS-MIF_2.8V
3
RR17
VDDS-MIF_2.8V
U19
C727
5
RR21
0402
DGND 10%
50V
NPO
LCD_RD
NC
IN
4
1
VCC
OUT
GND
2
nCS2
3
C728
LCD_RD
RNW
LCDA0
nCS2
DGND
SOT23-5
0402
DGND 10%
50V
NPO
1
2
3
4
8
7
6
5
1
2
3
4
1
2
3
4
1
2
3
4
8
7
6
5
8
7
6
5
8
7
6
5
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
LED_Cathode
LED_Anode
R68
R69
R70
R71
R75
R76
R77
LCD_ID
Down
Cathode
Anode
D13
D14
D15
/RESET
VCC
VCC
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
/RD
/WR
RS
/CS
GND
GND
LCD_ID
NC
NC
2
3
2
Up
C84
C87
C88
C721
C89
C90
C91
C92
C93
C94
DGND
LED_Anode
DGND
D6
3
2
DGND
DGND
DGND
DGND DGND
DGND
DGND
DGND
VBAT
CC1
U11
1
DGND
DGND
2
3
R36
1
DGND
FL1
SW
BIAS
5
GND
FB
EN
4
LEDLCM_EN
R40
CC2
TFT LCM
LED_Cathode
1
RR1
Compal Communications, Inc.
Title
DGND
DGND
SCHEMATIC, M/B GA-031
VDDS-MIF_2.8V
A
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
B
C
D
Document Number
Rev
601027
星期二, 二月 25, 2003
0B
Sheet
E
9
of
16
A
B
C
D
E
ROW4
D GND
DGND
D25V
S22
L6
AVDDP
DD[0..7]
RR26
4
RR26
COL4
4
L8
DD25V
2 . 5 V F OR OV7645FB
S25V
T
CC8
D33V
TP27
U13
1
VBAT
D25V
2
DD0
DD1
DD2
F P C 0 .5mm PITCH
D GND
1
C726
DGND
3
COMS_EN
4
C99
DD3
D GND
DD4
DD5
DD6
DD7
PWDN
RR22
S25V
DD25V
RR24
SDA
DD4
DD5
DD6
DD7
R79
SCK
DD0
DD1
DD2
DD3
R80
D GND
GND
HREF
VSYNC
PWDN
PCLK
AVDD
DVDD
SIO_D
XCLK
SIO_C
Y0
Y1
Y2
Y3
GND
Y4
Y5
Y6
Y7
RESET
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
G9
J11
G11
K4
F9
F11
E11
F10
J4
K3
E10
H4
E9
D9
D11
J3
K2
D10
B11
D8
A11
F3
G3
B5
K6
R81
FRST
DD25V
RR16
SCK
SDA
SDO
A1
A2
A3
A[1..3]
2
RR20
DD[0..7]
SDO
RR5
C?
U12
RR9
EN1
VOUT3.0
EN2
NC
BYP
NC
NC
10
9
D33V
8
C97
7
6
GND
L7
C98
AVSSP
DGND
VSSI-2
GND-7
VD3-7
GND-6
VD3-6
GND-5
VDDI-1
VSSI-1
VD3-5
P31
P30
USBVDD
DM
DP
USBVSS
GND-4
VD3-4
GPIO15
GPIO14
GPIO13
GPIO12
GPIO11
GPIO10
RESET
GND-3
DGND
3
DGND
K1
L3
L2
L1
J1
H1
G1
H2
G2
F1
F2
E1
E2
E3
D1
D2
C1
B1
C2
B2
D3
A1
C3
B3
A2
DGND
DGND
DGND
D33V
TP5
PWDN
1
TP26
TP29
1
1
TP25
T
1
RR14
T
T
T
U18
C723
C96
CLK13M_DSC
RR4
0402
DGND 10%
50V
NPO
FOR O V7645FB
5
NC
DGND
C724
IN
4
1
VCC
OUT
GND
SOT23-5
S E N S O R POWER DOWN
C10
A10
B10
B9
C8
C9
A9
C11
H3
C7
B8
J2
A8
C6
B7
D4
B6
A7
C4
A6
C5
A5
A4
B4
A3
RR25
SD5
VDDI-3
SD6
SD7
SD8
SD9
GND-10
SPCLK
SVS
SHS
SCLK
SCK
SDA
SDO
VD3-9
FWAIT#
FCD#
FRST
FA0
FA1
FA2
GND-D
VD3-D
GND-F
VD3-F
VD3-1
FIRQ/FSRB#/FWP
FIORD#/FSRE#/XCMD
FIOWR#/FSWE#/FCMD
FCE2#/FSCLE/XCLK
FCE1#/FSALE
FREG#/FSWP#/FCLK
GND-1
FD0/FDAT0
FD1/FDAT1
FD2/FDAT2
FD3/FDAT3
FD4/XDAT0
FD5/XDAT1
FD6/XDAT2
FD7/XDAT3
GPIO0
VD3-2
XIN
XOUT
GND-2
GPIO1
AVSSP
AVDDP
VD3-3
RR23
J6
5
VOUT2.5
C700
SD4
VSSI-3
SD3
SD2
SD1
SD0
GND-9
DVS
DHS
DOCLK
DVALID
DFULL
VD3-8
DD7
DD6
DD5
DD4
DD3
DD2
DD1
DD0
GND-8
GPIO3
VDDI-2
MD1
DGND
O V 7 6 45FB/TASC
3
C725
G10
H8
H10
H11
J5
H9
J10
L11
K11
K10
J9
L10
J6
J8
K9
K8
J7
K7
L8
K5
L9
L7
L6
L5
L4
C M O S S E N SOR MODULE I/F
Vin
2
CLK13M_OUT
3
2
X7R
0402
10%
50V
DGND
RR15
P 3 1 =0 NORMAL
P 3 1 = 1 POWER DOWN
DGND
DD25V
R80:
C L O SED TO
6 88 ASAP
S E N SOR RESET
P 3 0 =0 NORMAL
P 3 0 =1 RESET
D7
D6
D5
D4
D3
D2
D1
D0
DISITAL CAMERA
1
Title
TP30 TP28
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
1
Compal Communications, Inc.
T
1
T
AVDDP
AVSSP
D[0..7]
CLK13M_DSC
nCS4
RNW
nFOE
1
DGND
C
D
Document Number
Rev
601027
星期二, 二月 25, 2003
0B
Sheet
E
10
of
16
A
B
C
D
C 1 6 c lose to A11
VRIO_2.8V
DGND
3
2
C 7 1 7 close to
VRDBB_1.5V M1
DGND
A15
A16
A17
A18
A19
A20
A21
VRIO_2.8V
EXT_IRQ
EXT_FIQ
nRESET
1
R94
VRIO_2.8V
2
DGND
1
TCK
TDI
2
1
DGND
DGND
DGND
2
VRIO_2.8V
1
T
1
DGND
2
DGND
SWITCHONOFF
4
VRRTC_1.5V
C 7 1 2 c lose to E11
VRIO_2.8V
13MHZ_BB
D GND
C 7 1 3 c lose to F11
TEN
2
2
2
2
DGND
C714
DGND
C715
1
VRIO_2.8V
R92
1
RF_LE
1
1
SIO3
2
R90
C713
1
1
2
VRDBB_1.5V
CLK13M_OUT
SCLK3
S_PWCT
R91
1
SRST3 2
DGND
C711
DGND
C712
DGND
TDR
RF_DAT
nIRQ_Melody
RF_CLK
3
GSM_TXEN
TRENA
C 7 1 8 close to
L14
VRIO_2.8V
PDNB
PAENA
C C 5 c lose to N14
1 .30mm
VFSRX
VDX
DGND
DGND
VRDBB_1.5V
C718
CC5
DGND
DGND
2
DGND
1
2
VDR
BDX
BFS R
BFS X
VCLKRX
BDR
1
R98
2
1
2
1
R99
J7
2
2
1
1
2
3
4
5
RR3
RR2
2 CC7
IO_PWR_EN
R96
R95
2
R97
LCD_ID
MCUDI
MCUDO
MCUEN0
KeyLed_En
1
C C 7 close to P7
VRDBB_1.5V
COL3
COL4
ROW0
ROW1
ROW2
ROW3
ROW4
CC6
C C 6 c l o s e to N5
COL1
COL2
LEDLCM_EN
LCDA0
COL0
DTR_MODEM
RESPWRONZ
C 7 1 5 close to
D13
C 7 1 4 close to
D14
EAR_DETECT
FRST
DGND
1
1
1
2
CLK32K_OUT
C 7 1 1 close to D12
COMS_EN
SCLK
SDI
R93
2
C707
RTC_ALARM
P2
N3
P3
L4
M4
N4
P4
K5
L5
N5
P5
M5
K6
M6
P6
N6
L6
K7
L7
P7
N7
M7
M8
N8
P8
L8
K8
L9
N9
P9
M9
K9
M10
P10
N10
L10
K10
P11
N11
M11
L11
P12
N12
P13
N13
DGND
2
DGND
SDO
nSCS0
1
C717
C706
2
1
C716
U15
B13
A14
C13
C12
B14
C14
D12
D13
D14
F10
E11
E13
E12
E14
F11
F12
F13
F14
G10
G11
G13
G12
G14
H14
H12
H13
H11
H10
J14
J13
J12
J11
K14
K12
K13
K11
J10
L14
L13
L12
M14
N14
M12
M13
P14
TP24
4
1
A6
A7
A8
A9
A10
A11
A12
A13
A14
1
2
2
C 7 1 6 close to
VRMEM_2.8V
G1
DGND
1
D GND
A2
A3
A4
A5
DGND
1
C708
OSC32K_OUT
VSSO
OSC32_IN
CLK32K_OUT
IT_WAKEUP
VSSRTC
RESPWRONZ
VDDS-RTC
VDDRTC
ON_OFF
VDDANG
CLKTCXO
VSSANG
VSSPLL
VDDPLL
CLK13M_OUT/START_BIT
SIM_CLK
SIM_PWRXTRL/IO5
SIM_RST
SIM_CD/MAS0
SIM_IO
TSPEN3/NSCS2
VSS
TSPEN2
TSPEN1
TSPEN0
TSPDO
TSPDI/IO4
TSPACLKX
TSPACT11/MCLK
TSPACT10/NWAIT
TSPACT9/MAS1
TSPACT8/NMREQ
TSPACT7/CLKX_SPI
TSPACT6/NCS6
TSPACT5/DPLLCLK
TSPACT4/NREADYMEM
VDDS-1
TSPACT3
TSPACT2
TSPACT1
VDD
TSPACT0
VFSRX
VDX
5
U14
2
VSS
DATA15
DATA14
DATA13
DATA12
DATA11
VDDS-MIF
DATA10
DATA9
DATA8
VDD
DATA7
DATA6
DATA5
DATA4
VDDS-MIF
DATA3
DATA2
DATA1
VSS
DATA0
TXIR_IRDA
TX_IRDA
SD_IRDA/CLKOUT_DSP
RXIR_IRDA/X_A1
RX_IRDA
RTS_MODEM/TOUT
DST_MODEM/LPG
TX_MODEM/XIOSTRBN
RX_MODEM
CTS_MODEM/XF
TMS
TDO
VSS
TCK
TDI
nEMU1
VDDS-2
nEMU0
nCS4
nBSCAN
TCXOEN
VDD
RFEN
A2
B3
A3
D4
C4
B4
A4
E5
D5
B5
A5
C5
E6
C6
A6
B6
D6
E7
D7
A7
B7
C7
C8
B8
A8
D8
E8
D9
B9
A9
C9
E9
C10
A10
B10
D10
E10
A11
B11
C11
D11
A12
B12
A13
A1
DGND
R89
VSS
IO0/TPU-WAIT
IO1/TPU-IDLE
IO2/IRQ4
IO3/SIM_RnW
KBC0/NFIQ
VSS
KBC1/NIRQ
KBC2/XDIO0
VDDS-1
KBC3/XDIO1
KBC4/XDIO2
KBR0/XDIO3
KBR1/XDIO4
KBR2/XDIO5
KBR3/XDIO6
KBR4/XDIO7
BU/PWT
LT/PWL
VDD
MCUDI
MCUDO
MCUEN(0)
VSS
MCUEN(1)/IO8
MCUEN(2)/IO13
SDO/INT10n
nSCS0/SCL
nSCS1/X_A(2)
SCLK/INT1n
SDI/SDA
MCSI_FSYNCH/IO12
MCSI_RXD/IO10
VSS
MCSI_CLK/IO11
MCSI_TXD/IO9
BDR
BCLKR/ARMCLK
BCLKX/IO6
BDX
BFSR
BFSX
VCLKRX
VSS
VDR
FDP
RnW
nCS0
nCS1
VSS
nCS2
nCS3/INT4N
CS4/ADD22
VDDS-MIF
nBHE/IO14
nBLE/IO15
nFOE/X_A(3)
nFWE/X_A(0)
VDD
FDP/NIACK
ADD0
ADD1
VSS
ADD2
ADD3
ADD4
ADD5
VDDS-MIF
ADD6
ADD7
ADD8
ADD9
ADD10
ADD11
ADD12
ADD13
ADD14
VSS
ADD15
ADD16
ADD17
ADD18
ADD19
ADD20
ADD21/CK16_IRDA
VDD
nlBOOT
EXT_IRQ
IDDQ
EXT_FIQ
nRESET
DGND
2
R88
2
2
C 7 1 0 close
DGNDto
VRDBB_1.5V
E1
B2
C2
C3
B1
C1
D3
D2
D1
F5
E4
E2
E3
E1
F4
F3
F2
F1
G5
G4
G2
G3
G1
H1
H3
H2
H4
H5
J1
J2
J3
J4
K1
K3
K2
K4
J5
L1
L2
L3
M1
N1
M3
M2
P1
N2
VRIO_2.8V
1
1
2
1
nBHE
nBLE
nFOE
C710
2
R83
R84
C701
D GND
1
DGND
nCS2
nCS3
A22
C 7 0 9 close to
VRMEM_2.8V
D1
C709
2
1 R87
1
D0
4
D1
D2
D3
DGND
RNW
nCS0
nCS1
A[0..22]
1 R86
D5
DGND
D4
DGND
D6
D7
DGND
D8
D9
D10
DGND
2
D[0..15]
D11
D12
D13
D14
D15
1
C705
SXENA
1 R85
DGND
2
2
2
1
C702
TCXOEN
VRDBB_1.5V
C x c l ose to B12
DGND
C704
1
DGND
5
C703
RX_IrDA
RTS_MODEM
DSR_MODEM
TX_MODEM
RX_MODEM
CTS_MODEM
TMS
TDO
TX_IrDA
C 2 c lose to A4
VRMEM_2.8V
TP23
CTS_MODEM
R82
C 6 c lose to A5
VRDBB_1.5V
nCS4
DGND
C 1 c lose to B6
VRMEM_2.8V
1
2
1
DGND
Hercules_G2
DGND
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
A
B
C
SCHEMATIC, M/B GA-031
Size
Custom
Date:
Document Number
Rev
601027
星期二, 二月 25, 2003
Sheet
D
0B
11
of
16
A
B
C
D
E
4
4
RR11
1
VBAT
DO
U16
P-
6
RR10
2
3
VCELL
CO
5
3
CC9
4
2
DS
3
GND
4
3
U17
7, 8
1
5, 6
BATTGND
DGND
2
2
OVP
1
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
601027
星期二, 二月 25, 2003
0B
Sheet
E
12
of
16
A
B
C
D
E
4
C108
VRF
1
U102
2
B,2
3
2
C109
R103
TRENA
B
3
4
1
Noise1
Vout1
Noise2
Vin
Ctl1
Vout1
Gnd
Ctl2
SXENA
B
4
3
TANT
6.3V
0805
20%
C114
TANT
6.3V
0805
20%
C115
VSYN
VBAT
4
8
7
6
5
U104
3
VRF
X7R
50V
0402
20%
C112
U103
3
1
6
2
5
C104
GSM_TXEN
B,4
R104
3
U105
VCC4
4
3
R102
TCXOEN
B
U101
EMT6
1
2
DCS_RX
DCS_PA
4
2
3
4
2
DCS-RX
VC2(DCS)
VC1(GSM)
GSM-RX
DCS-TX
GND
GND
ANT
10
2
GSM-TX
GND
GND
GND
N/C
4
ON/OFF
X7R
50V
0402
20%
VTCXO
C116
C110
GSM_RX
ANT
8
7
5
TANT
6.3V
0805
20%
GND
L405
0402
JP1
1
4
L101
0603
RF
ANT
GND
GND
2
3
2
AP2
AP1
2
C106
C107
L404
12
5
6
4
5
SOT23-5
C111
9
C105
GSM_PA
2
3
X7R
50V
0402
20%
11
VIN
VOUT
C113
1
C102
1
X7R
50V
0402
20%
4
0402
T/R SW & LDO
1
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
0B
601027
星期二, 二月 25, 2003
Sheet
E
13
of
16
A
RF_LE
B,3
RF_CLK
B,3
RF_DAT
B,3
B
C
3
4
VRF
D
E
SDO_RF
4
1,4
16
ION
IOP
R402
1
3
R207
2
R210
1
25
RFIPP
R208
TXQN
RFOG
26
27
GND
29
28
NC
30
TXQN
B
C216
NC
RFIPN
9
TXQP
TXQP
IFLOP
8
DIAG1
7
B
RFIDP
16
R206
TXIN
Transcieve r
TXIN
DIAG1
6
RFIDN
VDD2
R209
TXIP
RFIGP
15
C215
Si4200
CKP
14
5
B
RFIGN
RFLON
TXIP
VDD1
CKN
13
4
R205
C411
IOP
RFLOP
3
R403
RFDO
GND
2
ION
12
1
VDD4
C219
GND
VDD3
3
GSM_TX
3
U203
C221
13MHz
4
2
4
L208
10
9
8
7
C212
11
3
6
TCXOEN
12
31
RXIN
PDNB
B,1
11
17
SCLK
SENB
19
18
SDI
XOUT
Converter
RXIP
B,3
32
5
13
PDNB
B
14
IFLON
B
RXIN
XEN
15
10
RXIP
4
PDNB
Si4201
RXQN
VRF
1,4
C213
CKN
B
RXQP
CKP
3
C220
SDO
GND
B
RXQN
GND
XIN
RXQP
2
VDDC
1
VDDA
20
C218
1
3
24
4
2
4
DCS_TX
23
C202
22
4
21
OUT+
GND
F101
3
C201
L202
20
5
GND
IN
2
C203
19
18
17
OUT-
GND
OUT+
GND
C205
4
GSM_RX
1
DCS_RX
1
F102
3
2
C204
L204
5
U201
1
L201
6
GND
IN
OUT-
GND
2
C206
L203
6
1
B
IFLOP
3
IFLON
3
RFLOP
3
RFLON
3
Transceiver
VRF
1
1
C214
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
0B
601027
星期二, 二月 25, 2003
Sheet
E
14
of
16
A
B
U303
C307
4
E
1
NC
VCC
C308
C309
2
IN
4
D
SC70-5
R303
5
C
OUT
3
3
GND
13MHz
4
IFLON
2
2
RFLOP
IFLOP
2
2
RFLON
R304
B
13MHz_BB
VSYN
1
C306
U302
R306
C304
5
C302
6
7
23
22
GNDR
RFLON
24
25
VDDR
RFLOP
26
27
RFLB
Si4133T
GNDD
GNDR
Synthesizer
VDDD
RFLC
GNDD
RFLD
XIN
8
NC
TP105
GNDR
21
20
19
18
17
L302
16
15
NC
1
RFLA
IFLA
SDI
VTCXO
4
IFLB
14
R302
GNDR
13
3
3
GNDI
SCK
2
SENB
1
12
C301
11
B
L301
4
SDO
AFC
1
VDDI
R301
IFLON
3
10
VCC
C305
28
AFC
C303
3
IFLOP
OUT
PDNB
GND
9
2
U301
2
2
PDNB
SDO_RF
B,2
2
RF_LE
B,2
RF_CLK
B,2
RF_DAT
B,2
TP101
RFLO
1
1
TP102
Compal Communications, Inc.
TP103
Title
SCHEMATIC, M/B GA-031
TP104
A
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
B
C
D
Document Number
Rev
0B
601027
星期二, 二月 25, 2003
Sheet
E
15
of
16
A
B
C
D
E
4
GSM_TX
3
8
4
2
3
VCCG
7
GSM IN
L402
R401
APC
6
B
C401
5
4
1,2
PAENA
B
GSM_TXEN
DCS_TX
2
U401
9
C402
L401
C410
VRF
VRAMP
GSMOUT
3
1
GSM_PA
1
DCS_PA
C403
VREG
VBAT
VCC OUT
10
TX ENA
L403
2
B,1
1
2
BAND SELECT
DCSOUT
11
C404
DCS/PCS IN
C405
2
VBAT
12
VCCD
1
C409
C408
C407
C406
PA Module
1
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-031
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
0B
601027
星期二, 二月 25, 2003
Sheet
E
16
of
16
REVISIONS HISTORY
REV.
DESCRIPTION
CHECK
DATE
REVISIONS HISTORY
RELEASE
DATE
REV.
0A
DESCRIPTION
CHECK
DATE
EN NO. G2320060
鍾源德
林信杰
FEB. 12
2002
RELEASE
李思瑾
黃纓雯
Compal Communications, Inc.
TITLE
NOTES: UNLESS OTHRWISE SPECIFIED.
1. RESISTANCE VALUES ARE IN OHMS, 0402 1/16 WATT.
2. CAPACITANCE VALUES ARE IN PICO FARADS, 50V.
3. VOLTAGES ARE DIRECT CURRENT.
4. THE "NM" FOR NO MONT.
SCHEMATIC, MMI GS-020
T66
Model Name
Sheet
1
Drawing no.
of
3
Rev.
602019
0A
DATE
FEB. 12
2003
A
B
C
D
E
S1
PWON
4
4
DGND
ROW4
ROW3
ROW2
S2
ROW1
S3
ROW0
S4
S5
S6
3
3
COL3
S7
S8
S9
S10
S11
S12
S13
S14
S15
S16
S17
S18
S19
S20
S21
COL2
C9
DGND
COL1
COL0
2
2
C1
C2
C3
C4
C5
C8
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
KEY_PAD
1
1
Compal Communications, Inc.
Title
SCHEMATIC, MMI GS-020
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
0A
602019
星期二, 二月 25, 2003
Sheet
E
2
of
3
A
B
C
D
E
4
4
VDDS-MIF_2.8V
VBAT
VBAT
DGND
Q1
DGND
R1
LIGHTSENSER_EN
C6
3
3
DGND
R2
R4
R5
1
R1
2
R2
2
1
R1
R2
1
R1
R2
2
VBAT
D2
D6
D8
R1
R2
D7
DGND
VR1
4
3
R1
R2
D3
4
3
R1
4
3
R2
C7
D9
DGND
COL0
COL1
COL2
COL3
COL4
PWON
ROW0
VDDS-MIF_2.8V
2
1
2
3
4
5
6
7
8
9
J1
18
17
16
15
14
13
12
11
10
VBAT
2
LEDKEYN
ROW4
ROW3
ROW2
ROW1
LIGHTSENSER_EN
DGND
LEDKEYN
BACK_LIGHT/BTB
1
1
Compal Communications, Inc.
Title
SCHEMATIC, MMI GS-020
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC.ANDCONTAINSCONFIDENTIAL Size
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THECUSTODYOFTHECOMPETENTDIVISIONOFR&D
B
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THISSHEETNORTHEINFORMATIONCONTAINSMAYBE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENTOFCOMPALCOMMUNICATIONS,INC.
Date:
A
B
C
D
Document Number
Rev
0A
602019
星期二, 二月 25, 2003
Sheet
E
3
of
3
B
C
UPR
DGND
U2
FDC6506P
1
C4
B3
D4
SCLK5
SIO5
SRST5
BT1
100nF 0402
C21
1uF 0603
NCP345
T
C20
nCHG
F4
E5
G4
SCLK3
SIO3
SRST3
DGND
2
VCCS
ICTL
EARP
EARN
AUXOP
AUXON
AUXI
HSO
HSMICP
HSMICBIAS
PCHG
DBBSCK
DBBSIO
DBBSRST
SIMCK
SIMIO
SIMRST
MICIP
MICIN
MICBIAS
GNDAV
E3
D3
F7
F8
SWITCHONOFF
RESPWRONZ
R10
R8
D1
RB520-30 SC-79
TP
TP6
1
TDO
TDI
TMS
TCK
BDLIP
BDLIM
BDLQP
BDLQM
LEDA
LEDC
LEDB1
LEDB2
GNDL1
GNDL2
DGND
DGND
E7
D7
E8
D8
B6
A6
C7
C6
A3
G2
F3
G1
F1
K1
J1
H2
A1
A2
B1
B2
B4
G10
H10
G9
G8
VCHG
Backup BAT
VBAT_D
VCHG
IOTA
VBAT
VCK
VFS
VDR
VDX
OUT
DGND
B5
PCHG
VBATS
BULIP
BULIM
BULQP
BULQM
2
VCC
2
D6
VXRTC
UDX
UEN
UDR
GND
VCCS
ICTL
TP7
ZD1
D5
ITWAKEUP
TESTRESTZ
REFGND
IBIAS
VREF
U1
PTWL3014GGM
BFSX
BDX
BFSR
BDR
CNTRL
3
DGND
1
U3
A5
VCHG1
VBACKUP
RB520S-30 SC79(NM)
6
5
4
DGND
A4
VBAT_D
VRRAM_2.8V
R15 100K 0402
C5
VBATS
C14
DGND
12pF 0402
1
1
2
3
nCHG
C1
C12
1uF 0603
C11
100nF 0603
CK13M
VLRTC
VBACKUP
VCRAM
VRRTC
UPR
DLPWR
R9
1K 0402
ONNOFF
RESPWONZ
RPWON
PWON
TDR
TEN
TEST1/INT1
TEST2/INT2
TEST3
TEST4
VCHG1
3
CK32K
BS_TDO
TDO
TMS
TCK
D2
H8
A7
B7
A8
RTC_ALARM
R13
100K 0402 J
C8
100nF 0402(NM)
UPR
D9
D10
C10
C9
F9
F10
E10
E9
RXIP
RXIN
RXQP
RXQN
J9
J10
K9
K10
G7
H9
K7
K8
DGND
C15
33pF 0402
DGND
C17
100pF 0402
C16
33pF 0402
AUXI
HSMICIP
HSMICBIAS
C19
J7
H7
J8
G6
33pF 0402
C18
33pF 0402
C22
33pF 0402
AGND
AGND
2
MICIP
C24
100pF 0402
3
R21
100K 0402
R17
MICBIAS
MCUDO
MCUEN0
MCUDI
DGND
C28
10uF 0805
1K 0402
BDX
BFSX
BDR
BFSR
C30
AGND
R22
DGND
100nF 0402
AGND
VDR
VDX
VFSRX
VCLKRX
1uF 0603
C29
DGND
4
BYP
EN
GND
R20
C25
33pF 0402
TEN
TDR
DGND
VBAT
10K 0402
3
2
C27
470pF 0402
3
1
5
Vin Vout
1
C26
10uF/6.3V P-CASE
FDG326P SC70-6
4
1,2,5,6
R19
30.1K 0402 1%
DGND
MIC5219BM5 SOT23-5
1
U4
R18
9.76K 0402 1%
U5
LEDB
D3
RB461F UMD3
MICIN
APC
AFC
DAC
EXT_IRQ
EXT_FIQ
DGND
VCC4
IOTA
100K 0402 J
1
DGND
DGND
VCHG1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
AGND
HSO
H4
J4
K4
G3
H1
H6
E6
J6
F6
K3
G5
F5
H5
J5
K6
K5
K2
J2
H3
J3
B8
C8
B10
A10
B9
A9
C23
10uF/6.3V P-CASE
3
EARP
EARN
AUXOP
AUXON
AGND
R16
0 R 0402
C9
R14
100K 0402 1%
TXIP
C13
TXIN
100nF 0402
TXQP
TXQN
PWON
100nF 0402(NM)
DGND
DAC
AFC
APC
VBACKUP
ICTL
5
C3
E1
F2
D1
C2
R12 10K 0402 NM
VRRTC_1.5V
C10
22nF 0402
IN
E4
R11 10K 0402
DGND
68 0805 1%
DGND E2
ADIN1
ADIN2
ADIN3
ADIN4
T
CLK13M_OUT
PCHG
4
DGND
CLK32K_OUT
1
2
R5
GNDD
VCMEM
VLMEM
VRMEM
VRRAM
VCDBB
VRDBB
VSDBB
VCIO2
VCIO1
VRIO2
VRIO1
VRSIM
GNDA
VRABB
VCABB
TESTV
3
D2
RB160M-30
ROW4
VBAT
10K 0402 (NM)
TP4
TP
TP2
10K 0402(NM)
DGND
R7
DGND
100K 0402 NM
TP3
TP
T
T
VCC4
C7
10uF 0805
4
VBAT
220K 0402 TP
1
R4
DGND
AGND
LIGHTSENSER_EN
R3
100K 0402
DGND
VACCID
BATTEMP
TP1
TP
T
4.7uF 0805
DGND
C2
4.7uF 0805
10uF 0805
R6
DGND
DGND
DGND
100K 0402 J
UPR
C1
DGND
1
C6
10uF 0805
DGND
AGND
C5
1uF 0603
4
VCCS
C4
VBAT
VBAT
T
C3
VRRAM_2.8V
DGND AGND
0 0402
R2
4.7uF 0805
R1
0.15 0805 1%
VRDBB_1.5V
Connect to
U15.N14(VDD)
VRIO_2.8V
VRABB_2.8V
1
VBATS
VRMEM_2.8V
VRDBB_1.5V
VRSIM_1.8/2.9V
E
AGND
VBAT
D
AGND
A
B
C
D
Size
SCHEMATIC, M/B GA-037
Document Number
Custom
Date:
Rev
601030
07/16/2003
Sheet
E
0C
2
of
16
A
B
C
D
VRMEM_2.8V
5
U20
5
D16
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
nCS3
1
4
2
100nF 0402
3
MC74VHC1G08
A21
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A[0..22]
DGND
nCS0
CLK
/WE#
/WP#
WAIT
4
R23
B4
C5
VRMEM_2.8V
RNW
0 0402
D6
VRMEM_2.8V
A1 E8
A2 D8
A3 C8
A4 B8
A5 A8
A6 B7
A7 A7
A8 C7
A9 A2
A10 B2
A11 C2
A12 A1
A13 B1
A14 C1
A15 D2
A16 D1
A17 D4
A18 B6
A19 A6
A20 C6
A21 B3
A22 C3
D7
A[0..22]
U6
GE28F128L30T85
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
VRMEM_2.8V
C31
D3
DGND
F7
E6
E5
G5
E4
G3
E3
G1
G7
F6
F5
F4
D5
F3
F2
E2
DGND
C35
DGND
D0
D1
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
C32
100nF 0402
DGND
U7
VCC
VCC
VSS
VSS
VSS
CS2
/CS1
/WE
/OE
/UB
/LB
D[0..15]
D6
E1
E6
D1
E3
A6
B5
G5
A2
B2
A1
VRRAM_2.8V
4
C34
100nF 0402
DGND
VRRAM_2.8V
R73 0ohm
RNW
nFOE
nBHE
nBLE
R74 NM
nCS1
IO1
RR13
100K 0402
K6F1616U6A SAMSUNG
VRRAM_2.8V
3
U8
1
VCC4
2
3
VRRAM_2.8V
nCS0
2
DGND
VDDS-MIF_2.8V
NC
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
D[0..15]
100K 0402
3
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
A22
E1
G6
G8
G2
A3
F1
F_1.8
F_1.8
F_1.8
100nF 0402
nFOE
VCCQ
VCCQ
VSSQ
VSSQ
VSS
VSS
/OE#
A5
A4
G4
RR8
F8
VPP
F_VCC
F_VCC
/ADV#
/RST#
/CE#
100nF 0402
DGND
FDP
C4
B5
E7
100nF 0402
DGND
C33
H6
G2
H1
D3
E4
F4
F3
G4
G3
H5
H4
H3
H2
D4
C4
C3
B4
B3
A5
A4
A3
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
G1
F1
F2
E2
D2
C2
C1
B1
G6
F6
F5
E5
D5
C6
C5
B6
DGND
5
4
C38
5
C39
VRMEM_2.8V
VRRAM_2.8V
VRRAM_2.8V
EN1 VOUT2.8
EN2
NC
BYP
NC
NC
GND
10
F_1.8
9
VDDS-MIF_2.8V
8
7
6
C36
1uF/6V
C37
1uF/6V
MIC2211-1.8/2.8BML
10nF 0402
DGND
2
DGND
DGND
DGND
VDDS-MIF_2.8V
VRMEM_2.8V
Vin VOUT1.8
nCS0
1
1
0
nCS3
1
0
1
A22
1
1
0
CE
1
0
0
DGND
DGND
Memory&LDO
1
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
601030
07/16/2003
Sheet
D
0C
3
of
16
<RevCode>
A
B
C
BSTDO
TP23
D
nDLPWR
TP24
TCK
TP14
TMS
TP15
TDO
TP13
TDI
TP5
5
5
TP8
1
TP
R29 330 0402
TDI
330 0402 NM
R30
DLPWR
TP9
TP
TP15
TP
1
1
1
1
1
1
TP13 TP14
TP
TP
DGND
TP12
TP
DGND
TP10 TP11
TP
TP
4
4
R31
330 0402
DGND
TP16
1
DGND
DGND
T
TP
R32 330 0402
varistor 5.5V 0402
TDO
R33
330 0402
VR18
varistor 5.5V 0402
PT1
1206
VCHG
MIRCOSMD050-2
CTS_MODEM
CTS_MODEM
RX_MODEM
TX_MODEM
RTS_MODEM
DSR_MODEM
DTR_MODEM
TP17
1
TP
3
4
5
6
7
8
9
10
11
12
13
14
15
16
DGND
Rx_IrDA
3
J1
1
2
DGND
VR10
VR17
varistor 5.5V 0402
C40
1uF 0603
VR19
varistor 5.5V 0402
VR1
varistor 14V 0402
1
Tx_IrDA
RTS_MODEM
DSR_MODEM
DTR_MODEM
TCK
330 0402
R34
varistor 5.5V 0402
L1
100nH 0402
VR9
1
3
4
5
6
1
3
4
5
6
2
TP18
IO1
GND IO2
IO3
IO4
IO5
100nF 0402
DGND
EP2
DGND
EP1
2
2
C42
C43
10uF 0805
DGND
IO1
GND IO2
IO3
IO4
IO5
2
3
I/O CONN
VR2
varistor 5.5V 0402
DGND
C41
100nF 0402
MIC/TDI
DLPWR-DCD/Tx_IrDA
SPKN/TDO
SPKP/Rx_IrDA
CTS
RXD
TXD
RTS
DSR
DTR
VBAT-VCHG
ACCID/TCK
IO13/TMS
DGND
10K 0402 NM
R35
VACCID
VCHG
DGND
1
TP
R38
TMS
DGND
330 0402
U9
1
VBAT
2
3
IO_PWR_EN
1
C45
100nF 0402
DGND DGND
A
ESDA6V1W5/ -5W6
ESDA6V1W5/ -5W6
5
DGND
GND
EN BYP
IO_CONNECTOR
4
MIC5205BM5-3.3 SOT23-5
100k 0402
R39
Vin Vout
DGND
1
Compal Communications, Inc.
C44
470pF 0402
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
DGND
B
C
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
601030
07/16/2003
Sheet
D
0C
4
of
16
A
B
C
D
5
5
BTB_CON
COL0
COL1
COL2
COL3
COL4
PWON
ROW0
VDDS-MIF_2.8V
varistor 5.5V 0402
VR16
GAP3
S
4
1
2
3
4
5
6
7
8
9
J2
VBAT
18
17
16
15
14
13
12
11
10
LEDKEYN
ROW4
ROW3
ROW2
ROW1
LIGHTSENSER_EN
GAP4 GAP5 GAP6 GAP7 GAP8 GAP9
S
S
S
S
S
S
GAP10 GAP11 GAP12 GAP13 GAP14
S
S
S
S
S
C46
22pF 0402
DGND
DGND
4
VR3
varistor 5.5V 0402
DGND
TP19
TP
TP20
TP
T
3
T
3
1
1
J3
R41 1K 0402
BATTGND
BATTEMP
4
3
2
1
VBAT
47pF 0402
2
BAT_CON
C48
C47
100nF 0402
GAP15
S
GAP17
RR12 NM
DGND
DGND
0 0402
varistor 5.5V 0402
DGND
VR15
DGND
S
GAP16
S
2
DGND
DGND
BTB_CONNECTOR
1
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
0C
601030
07/16/2003
Sheet
D
5
of
16
1
T2
T3
3
68nH 0603
VBAT
17
EQ1
SCLK/nRD
HPOUT-R
1
DAC
2
14
DGND
47K 0402
R43
10K 0402
20K 0402
11
10
R46
0.95mm
4
M1
MOTOR 4.0*8.8-1.5V-KHN4NZ1D
D4
1SS400 SC79
DGND
AUXOP
12
C729
22pF
C50
33PF 0402
C51
13
I/O1
2
R42
DGND
R45
R44
BQ1
2SC5592 SC59
1
15
VREF
VSS
C49
10uF 0805
DGND
3930408801W
20K 0402
1uF 0603
C52
220nF 0603
DGND
VRIO_2.8V
9
8
PLLC
VDD
7
6
5
1
T
IFSEL
HPOUT-L/MONO
nRST
SDOUT
16
5
2
SYNC/A0
DGND
SPOUT1
18
SPOUT2
19
EXT2
D7
20
21
D6
22
D5
23
EQ2
R37
3.9K 0402
TP22
D4
24
SDIN/nCS
4
32
SDI
EQ3
nIRQ
SCLK
SPVSS
nWR
3
31
DGND
3
G
DGND
33 0402
SPVDD
EXT1
30
nSCS0
U10
YMU759
D0
2
29
SDO
D3
25
D2
28
D1
CLKI
27
1
Speaker
L2
100nH 0603
26
VR4
varistor 5.5V 0402
L5
EXC24CP221U 0405
G
3
2
4
4
LS1
68nH 0603
I/O2
T4
F1
No. G3240010
SGM20F1E104-2A 2012
2
T1
varistor 5.5V 0402 VR5
DGND
DGND
L4
4
D
VBAT
1
T
1
C
DGND
BL1
TP21
VBAT
VBAT
5
B
VRIO_2.8V
VRIO_2.8V
DGND
A
1
DGND
3
VRIO_2.8V
3
varistor 5.5V 0402
EAR_DETECT
DGND
2.2K 0402
C55
10nF 0402
DGND
DGND
Auxi2
4
ROW0
Vmicbias(2.5V)
R53
O1
I1
GND
O2
I2
3
5
1
2
3
2
0.7MM
EF1
2
DGND
B
C
DGND
C56
10uF 0805
BQ4
E
DGND
HSMICBIAS
47K
C730
33pF
R52 100 0402
J4
Jack
4
3
2
nRESET
CLK13M_OUT
varistor 5.5V 0402
VR6
R51
1
5
DGND
1
R49
220K 0402
VRIO_2.8V
R50
1M 0402 NM
VR12
DGND
C54
100nF 0402
Mic
Mic2
AUXO
ADCID
DGND
3.3k R48
nIRQ_Melody
VRIO_2.8V
C53
100nF 0402
DGND
47K
DGND
2
PDTA144EE SC-75
4.7K
varistor 5.5V 0402
VR11
EMIF01-10005W5 SOT323-5L
DGND
L3
DGND
3
HSO
HSMICIP
2
C58
1uF / 0603
R54
39K
C57
10uF 0805
BQ2
DTC124EE EMT3
22K
22K
100nH 0402
C59
33pF 0402
DGND
MELODY & EARPHONE
1
DGND
varistor 5.5V 0402
VR13
Auxi2
1
1
Compal Communications, Inc.
DGND
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
Size
SCHEMATIC, M/B GA-037
Document Number
Date:
Rev
601030
B
07/16/2003
Sheet
D
0C
6
of
16
A
B
C
D
5
5
SCLK5
SRST5
R55
39 0402
R56
39 0402
C60
22pF 0402
VRSIM_1.8/2.9V
GAP18
S
GAP20
S
GAP19
S
DGND
C61
22pF 0402
DGND
4
4
1
CLK
CON1
SIM CONN
I/O
RST
4
6
20K 0402
VPP
VCC
GND
R57
C62
100nF 0402
3
DGND
2
DGND
5
DGND
TOP VIEW
DGND
3
3
SIO5
C63
22pF 0402
GAP21
SPARK GAP
C64
22pF 0402
DGND
DGND
2
2
SIM
1
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
601030
07/16/2003
Sheet
D
0C
7
of
16
A
B
C
D
5
5
C65 100nF 0402
EF2
5
MICIP
4
MICIN
C66
100nF 0402
R58
330 0402
O1
I1
GND
O2
I2
1
2
3
EMIF01-10005W5 SOT323-5L
MIC+
2
MIC-
MIC1
OBG-13SA 42-C2
R59
1K 0402
MICBIAS
AGND
C69
100nF 0402
C68
10uF 0805
AGND
R61
1K 0402
4
R60
330 0402
DGND AGND
DGND
AGND
AGND
varistor 0402 VR7
4
1
C67
100pF 0402
3
3
LS2
32ohm 7*11
BL2
R62 10 0402
2
EARN
R63
T1
T2
T4
T3
4
C70
150pF 0402
3
VR8
1
EARP
10 0402
EXC24CB221U 0405
C72
22pF 0402
varistor 0402
C71
22pF 0402
2
AGND
2
AGND
Acoustic
1
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-037
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
Size
Document Number
B
Date:
Rev
0C
601030
07/16/2003
Sheet
D
8
of
16
A
B
DGND
4
D
E
LEDKEYN
DGND
C
VBAT
VDDS-MIF_2.8V
VBAT
VDDS-MIF_2.8V
4
R64 0 0402 NM
LEDB
DGND
3
DGND
BQ3
22PF 0402
1
22PF 0402
C74 C85
22PF 0402
22PF 0402
C722
100PF 0402
22PF 0402
C77 C81 C82 C83
22PF 0402
C76
22PF 0402
C80
22PF 0402
D[0..15]
22PF 0402
R67
1K 0402
C720 C79
22PF 0402
R66
4.7 0402
C78
22PF 0402
2SC5585 EMT3
C73
33nF 0402
DGND DGND DGND DGND DGND DGND DGND DGND DGND
2
DGND
R65 1.5K 0402
KeyLed_En
J5
DGND
nRESET
VDDS-MIF_2.8V
3
RR17
VDDS-MIF_2.8V
U19
0 0402
C727
100pF
0402
DGND 10%
50V
NPO
LCD_RD
4
1
NC
5
VCC
RR21
0 0402 NM
2
IN
OUT
nCS2
3
GND
C728 TC7SZU04AFE
NM
SOT23-5 DGND
0402
DGND 10%
50V
NPO
LCD_RD
RNW
LCDA0
nCS2
1
2
3
4
8
7 R68
6 200 0408
5
1
2
3
4
1
2
3
4
1
2
3
4
8
7 R69
6 200 0408
5
8
7 R70
6 200 0408
5
8
7 R71
6 200 0408
5
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
LED_Cathode
LED_Anode
R75 200 0402
R76 200 0402
R77 100 0402
LCD_ID
22PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
22PF 0402
C87
C88 C721 C89
C90
C91
C92
C93
C94
22PF 0402
22PF 0402
C84
22PF 0402
22PF 0402
2
Down
Cathode
Anode
D13
D14
D15
/RESET
VCC
VCC
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
/RD
/WR
RS
/CS
GND
GND
LCD_ID
NC
NC
3
2
CON30
Up
DGND
LED_Anode
DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND
D6
3
22uH FL1
2
VBAT
RB551V-30
CC1
U11
0.22uF 0603
1
DGND
DGND
2
3
1
LED_Cathode
SW
BIAS
5
GND
FB
EN
4
LEDLCM_EN
MP1523
R36
R40
0 0402
0 0402 NM
CC2
TFT LCM
1uF 0603
RR1
56 0402
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-037
DGND
DGND
VDDS-MIF_2.8V
A
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
B
C
D
Size
Document Number
B
Date:
Rev
601030
07/16/2003
Sheet
E
0C
9
of
16
A
B
C
D
E
ROW4
DGND
DGND
D25V
S22
L6
COL4
4
AVDDP
100nH 0402
D7
1SS400 SC-79(W99685)
DD[0..7]
CAMERA
4
L8
2.5V FOR OV7645FB DD25V
T
CC8
33nF 0402
100nH 0402
TP
TP27
D33V
U13
DGND
1
C726
DGND
1
VBAT
D25V
DD3
DGND
J6
PWDN
G9
J11
G11
K4
F9
F11
E11
F10
J4
K3
E10
H4
E9
D9
D11
J3
K2
D10
B11
D8
A11
F3
G3
B5
K6
DD4
DD5
DD6
DD7
RR22
0 0402 (OV)
S25V
DD25V
SDA
SCK
DGND
DD0
DD1
DD2
DD3
DD4
DD5
DD6
DD7
RR24
0 0402 NM(Tasc)
R79
47 0402 SCK
SDA
SDO
R81
R80
RR16
4.7K 0402 4.7K 0402
10K
FRST
DD25V
A1
A2
A3
A[1..3]
2
CMOS_CON
RR20
DD[0..7]
SDO
0 0402 NM(Tasc)
RR25
VSSI-2
GND-7
VD3-7
GND-6
VD3-6
GND-5
VDDI-1
VSSI-1
VD3-5
P31
P30
USBVDD
DM
DP
USBVSS
GND-4
VD3-4
GPIO15
GPIO14
GPIO13
GPIO12
GPIO11
GPIO10
RESET
GND-3
U12
685CBM2
4.7k 0402 NM(Tacs)
RR9
100nF 0402
DGND
5
C700
EN2
NC
BYP
NC
NC
D33V
8
C97
2.2uF/6V
7
6
GND
L7
C98
1uF/6V
100nH 0402
MIC2211-2.5/3.3BML
10nF 0402
AVSSP
DGND
3
DGND
K1
L3
L2
L1
J1
H1
G1
H2
G2
F1
F2
E1
E2
E3
D1
D2
C1
B1
C2
B2
D3
A1
C3
B3
A2
DGND
DGND
DGND
D33V
PWDN
TP29 1
1
TP5
1
T
TP26 TP 1
T
T
TP25
RR14
T
TP
TP
C96
1u 0603
CLK13M_DSC
RR4
100K 0402
DGND
U18
3.3k
TP
C10
A10
B10
B9
C8
C9
A9
C11
H3
C7
B8
J2
A8
C6
B7
D4
B6
A7
C4
A6
C5
A5
A4
B4
A3
C?
47nF 0402(Tasc)]
RR5
10K 0402(OV)
SD5
VDDI-3
SD6
SD7
SD8
SD9
GND-10
SPCLK
SVS
SHS
SCLK
SCK
SDA
SDO
VD3-9
FWAIT#
FCD#
FRST
FA0
FA1
FA2
GND-D
VD3-D
GND-F
VD3-F
100K 0402 nm
G10
H8
H10
H11
J5
H9
J10
L11
K11
K10
J9
L10
J6
J8
K9
K8
J7
K7
L8
K5
L9
L7
L6
L5
L4
RR23
0 0402 NM(Tasc)
VD3-1
FIRQ/FSRB#/FWP
FIORD#/FSRE#/XCMD
FIOWR#/FSWE#/FCMD
FCE2#/FSCLE/XCLK
FCE1#/FSALE
FREG#/FSWP#/FCLK
GND-1
FD0/FDAT0
FD1/FDAT1
FD2/FDAT2
FD3/FDAT3
FD4/XDAT0
FD5/XDAT1
FD6/XDAT2
FD7/XDAT3
GPIO0
VD3-2
XIN
XOUT
GND-2
GPIO1
AVSSP
AVDDP
VD3-3
3
GND
HREF
VSYNC
PWDN
PCLK
AVDD
DVDD
SIO_D
XCLK
SIO_C
Y0
Y1
Y2
Y3
GND
Y4
Y5
Y6
Y7
RESET
C725
100nF 0402
SD4
VSSI-3
SD3
SD2
SD1
SD0
GND-9
DVS
DHS
DOCLK
DVALID
DFULL
VD3-8
DD7
DD6
DD5
DD4
DD3
DD2
DD1
DD0
GND-8
GPIO3
VDDI-2
MD1
DGND
OV7645FB/TASC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
DD0
DD1
DD2
CMOS SENSOR MODULE I/F
4
C99
9
EN1 VOUT3.0
3
COMS_EN
10
Vin VOUT2.5
2
100nF 0402
FPC 0.5mm PITCH
S25V
C723
100pF
0402
DGND 10%
50V
NPO
5
NC
C724
IN
4
OUT
GND
KIC7S04FU
SOT23-5
FOR OV7645FB
1
VCC
SENSOR POWER DOWN
RR15
P31=0 NORMAL
P31=1 POWER DOWN
1M
2
CLK13M_OUT
100pF
X7R
0402
10%
50V
3
DGND
2
DGND
DD25V
SENSOR RESET
R80:
CLOSED TO
688 ASAP
P30=0 NORMAL
P30=1 RESET
D7
D6
D5
D4
D3
D2
D1
D0
DISITAL CAMERA
1
Title
TP30 TP28
TP
TP
SCHEMATIC, M/B GA-037
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
1
Compal Communications, Inc.
T
1
T
AVDDP
AVSSP
D[0..7]
CLK13M_DSC
nCS4
RNW
nFOE
1
DGND
C
D
Size
Document Number
B
Date:
Rev
601030
07/16/2003
Sheet
E
0C
10
of
16
A
B
C
D
C16 close to A11
VRIO_2.8V
nCS4
TCK
TDI
DGND
DGND
SCLK
SDI
DGND
R94 100K 0402
2
1
DGND
DGND
DGND
2 CC7
100nF 0402
VDR
BDX
BFSR
BFSX
VCLKRX
BDR
LCD_ID
MCUDI
MCUDO
MCUEN0
KeyLed_En
1
CC7 close to P7
VRDBB_1.5V
COL3
COL4
ROW0
ROW1
ROW2
ROW3
ROW4
CC6
2
VRIO_2.8V
1
100nF 0402
CC6 close to N5
COL1
COL2
L E D L C M_EN
LCDA0
COL0
DTR_MODEM
TP24
TP
1
1
4
1
C707
22pF 0402
DGND
2
T
MC-146
C706
22pF 0402
CLK32K_OUT
DGND
C711 close to D12
RESPWRONZ
C715 close to
D13
C714 close to
D14
SWITCHONOFF
4
VRRTC_1.5V
C712 close to E11
VRIO_2.8V
13MHZ_BB
DGND
1
DGND
C714
100nF 0402
TEN
TDR
RF_DAT
nIRQ_Melody
RF_CLK
DGND
DGND
C711
C715
100nF 0402 100nF 0402
VRDBB_1.5V
CLK13M_OUT
2
47 0402
R90
C713
100nF 0402
1
2
2
1
1
2
2
VRIO_2.8V
R92100K 0402
1
1
2
RF_LE
SCLK3
S_PWCT
R91
5.1K 0402
SIO3
1
SRST3 2
C713 close to F11
DGND
DGND
C712
100nF 0402
3
GSM_TXEN
TRENA
C718 close to
L14
VRIO_2.8V
PDNB
CC5 close to N14
1.30mm
EAR_DETECT
FRST
C718
100nF 0402
1
VFSRX
VDX
VRDBB_1.5V
2
PAENA
DGND
CC5
100nF 0402
DGND
2
DGND
DGND
1
1
COMS_EN
SDO
nSCS0
1
VRIO_2.8V
U14
RTC_ALARM
P2
N3
P3
L4
M4
N4
P4
K5
L5
N5
P5
M5
K6
M6
P6
N6
L6
K7
L7
P7
N7
M7
M8
N8
P8
L8
K8
L9
N9
P9
M9
K9
M10
P10
N10
L10
K10
P11
N11
M11
L11
P12
N12
P13
N13
R93
220K 0402
2
220K 0402
2
1
2
1
B13
A14
C13
C12
B14
C14
D12
D13
D14
F10
E11
E13
E12
E14
F11
F12
F13
F14
G10
G11
G13
G12
G14
H14
H12
H13
H11
H10
J14
J13
J12
J11
K14
K12
K13
K11
J10
L14
L13
L12
M14
N14
M12
M13
P14
C708
10pF 0402
DGND
OSC32K_OUT
VSSO
OSC32_IN
CLK32K_OUT
IT_WAKEUP
VSSRTC
RESPWRONZ
VDDS-RTC
VDDRTC
ON_OFF
VDDANG
CLKTCXO
VSSANG
VSSPLL
VDDPLL
CLK13M_OUT/START_BIT
SIM_CLK
SIM_PWRXTRL/IO5
SIM_RST
SIM_CD/MAS0
SIM_IO
TSPEN3/NSCS2
VSS
TSPEN2
TSPEN1
TSPEN0
TSPDO
TSPDI/IO4
TSPACLKX
TSPACT11/MCLK
TSPACT10/NWAIT
TSPACT9/MAS1
TSPACT8/NMREQ
TSPACT7/CLKX_SPI
TSPACT6/NCS6
TSPACT5/DPLLCLK
TSPACT4/NREADYMEM
VDDS-1
TSPACT3
TSPACT2
TSPACT1
VDD
TSPACT0
VFSRX
VDX
DGND
VSS
DATA15
DATA14
DATA13
DATA12
DATA11
VDDS-MIF
DATA10
DATA9
DATA8
VDD
DATA7
DATA6
DATA5
DATA4
VDDS-MIF
DATA3
DATA2
DATA1
VSS
DATA0
TXIR_IRDA
TX_IRDA
SD_IRDA/CLKOUT_DSP
RXIR_IRDA/X_A1
RX_IRDA
RTS_MODEM/TOUT
DST_MODEM/LPG
TX_MODEM/XIOSTRBN
RX_MODEM
CTS_MODEM/XF
TMS
TDO
VSS
TCK
TDI
nEMU1
VDDS-2
nEMU0
nCS4
nBSCAN
TCXOEN
VDD
RFEN
HERC_ROM_40_G2 XF741979A/BGHH uBGA179
2
DGND
DGND
R89100K 0402
1
2
DGND
U15
DGND
100K 0402
R88
5
2
1
EXT_FIQ
nRESET
DGND
RnW
nCS0
nCS1
VSS
nCS2
nCS3/INT4N
CS4/ADD22
VDDS-MIF
nBHE/IO14
nBLE/IO15
nFOE/X_A(3)
nFWE/X_A(0)
VDD
FDP/NIACK
ADD0
ADD1
VSS
ADD2
ADD3
ADD4
ADD5
VDDS-MIF
ADD6
ADD7
ADD8
ADD9
ADD10
ADD11
ADD12
ADD13
ADD14
VSS
ADD15
ADD16
ADD17
ADD18
ADD19
ADD20
ADD21/CK16_IRDA
VDD
nlBOOT
EXT_IRQ
IDDQ
EXT_FIQ
nRESET
C701
100nF 0402
1
VRIO_2.8V
EXT_IRQ
C717
100nF 0402
2
A2
B3
A3
D4
C4
B4
A4
E5
D5
B5
A5
C5
E6
C6
A6
B6
D6
E7
D7
A7
B7
C7
C8
B8
A8
D8
E8
D9
B9
A9
C9
E9
C10
A10
B10
D10
E10
A11
B11
C11
D11
A12
B12
A13
2
C717 close to
VRDBB_1.5VM1
DGND
A15
A16
A17
A18
A19
A20
A21
100K 0402
1 R87
2
1
2
VSS
IO0/TPU-WAIT
IO1/TPU-IDLE
IO2/IRQ4
IO3/SIM_RnW
KBC0/NFIQ
VSS
KBC1/NIRQ
KBC2/XDIO0
VDDS-1
KBC3/XDIO1
KBC4/XDIO2
KBR0/XDIO3
KBR1/XDIO4
KBR2/XDIO5
KBR3/XDIO6
KBR4/XDIO7
BU/PWT
LT/PWL
VDD
MCUDI
MCUDO
MCUEN(0)
VSS
MCUEN(1)/IO8
MCUEN(2)/IO13
SDO/INT10n
nSCS0/SCL
nSCS1/X_A(2)
SCLK/INT1n
SDI/SDA
MCSI_FSYNCH/IO12
MCSI_RXD/IO10
VSS
MCSI_CLK/IO11
MCSI_TXD/IO9
BDR
BCLKR/ARMCLK
BCLKX/IO6
BDX
BFSR
BFSX
VCLKRX
VSS
VDR
1
3
B2
C2
C3
B1
C1
D3
D2
D1
F5
E4
E2
E3
E1
F4
F3
F2
F1
G5
G4
G2
G3
G1
H1
H3
H2
H4
H5
J1
J2
J3
J4
K1
K3
K2
K4
J5
L1
L2
L3
M1
N1
M3
M2
P1
N2
VRIO_2.8V
R83
R84
220K 0402
1
100nF 0402
1
2
100nF 0402
1
2
2
1
2
A6
A7
A8
A9
A10
A11
A12
A13
A14
C716
100nF 0402
DGND
D0
DGND
A2
A3
A4
A5
C716 close to
VRMEM_2.8V
G1
D1
D2
D3
FDP
A1
DGND
100K 0402
1 R85
2
D5
nBHE
nBLE
nFOE
C710
100nF 0402
D4
nCS2
nCS3
A22
C709 close to
VRMEM_2.8V
D1
C709
100nF 0402
C710 close to
DGND
VRDBB_1.5V
E1
SXENA
100K 0402
1 R86
2
D6
D7
A[0..22]
DGND
RNW
nCS0
nCS1
TCXOEN
VRDBB_1.5V
Cx close to B12
D[0..15]
DGND
DGND
DGND
C702
100nF 0402
D8
D9
D10
100nF 0402
1
2
C705
D11
D12
D13
D14
D15
DGND
C704
DGND
C703
DGND
VRMEM_2.8V
TP23
TP
1
DGND
C2 close to A4
5
RX_IrDA
RTS_MODEM
DSR_MODEM
TX_MODEM
RX_MODEM
CTS_MODEM
TMS
TDO
TX_IrDA
C6 close to A5
VRDBB_1.5V
4
CTS_MODEM
R8210K 0402
2
DGND
C1 close to B6
VRMEM_2.8V
R95
2 0 0402
1
R97
2 0 0402
1
RR2
2 0 0402 1
IO_PWR_EN
R96
0 0402 NM
2
1
R98
0 0402 NM
2
1
R99
0 0402 NM
2
1
J7
1
2
3
4
5
RR3
0 0402 NM
2
1
DGND
DAI INTERFACE
Hercules_G2
DGND
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
Size
SCHEMATIC, M/B GA-037
Document Number
Custom
Date:
Rev
601030
07/16/2003
Sheet
D
0C
11
of
16
<RevCode>
A
B
C
D
E
4
4
RR11
330 0402
VBAT
1
VM
U16
VSS
2
3
CC9
100nF 0402
3
5
RR10
1K 0402
VCELL
DO
3
4
CO
4
3
2
5, 6
1
7, 8
S-8241
U17
BATTGND
FDM3300NZ
DGND
2
2
OVP
1
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
D
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
601030
07/16/2003
Sheet
E
0C
12
of
16
<RevCode>
A
B
C
D
E
4
C108
100nF
VRF
1
U102
2
B,2
3
2
C109
100nF
R103
3
3.3K
TRENA
Vout1
Noise2
Vin
Ctl1
4
1
B
Noise1
Vout1
Gnd
Ctl2
SXENA
VSYN
C114
10uF
VBAT
4
8
7
6
3
TANT
6.3V
0805
20%
5
U104
B
4
3
TANT
6.3V
0805
20%
VRF
C115
10uF
X7R
50V
0402
20%
TAR8D05K
DTA114E
C112
470nF
U103
1
3
6
C104
22pF
GSM_TXEN
2
B,4
5
R104
3
3.3K
VCC4
U105
1
4
C102
22pF
R102
TCXOEN
RN2902FE
EMT6
3.3K
X7R
50V
0402
20%
4
1
2
DCS_RX
DCS_PA
4
2
2
3
4
DCS-RX
VC2(DCS)
4
5
VC1(GSM)
GSM-RX
DCS-TX
GND
GND
ANT
GSM-TX
GND
10
2
GND
GND
2
5
5
TANT
6.3V
0805
20%
GND
4
N/C
ON/OFF
MAX8878
SOT23-5
C111
100nF
X7R
50V
0402
20%
GSM_RX
9
VTCXO
C116
10uF
C110
10nF
ANT
8
7
JP1
1
22pF
6
C113
470nF
3
X7R
50V
0402
20%
11
C105
GSM_PA
VOUT
B
U101
SHS-M090PA Murata
VIN
4
RF
ANT
GND
12
GND
2
3
L405
0402
0 ohm
2
L101
0603
1.5nH
1
3
AP2
AP1
2
C106
NM
C107
NM
L404
0 ohm
0402
T/R SW & LDO
1
1
Compal Communications, Inc.
Title
SCHEMATIC, M/B GA-037
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
D
Size
Document Number
B
Date:
Rev
0C
601030
07/17/2003
Sheet
E
13
of
16
<RevCode>
A
RF_LE
B,3
RF_CLK
B,3
RF_DAT
B,3
B
C
3
4
SDO_RF
4
16
SENB
IOP
12
TXIN
6
7
B
8
2
B
C216
100pF
6.8K
R208
TXQN
R210
10K
L208
NM
RFIPN
TXQN
RFIPP
23
4
2
4
ATT3dB
C202
22
4
21
20
L202
22nH
1.5pF
OUT+
GND
F101
3
Murata 881MHz 2.5*2
C201
5
GND
IN
2
1
C203
19
6
18
OUT-
GND
OUT+
GND
1.5pF
C205
17
4
U201
DCS_TX
22pF
L204
5.6nH
1.5pF
1
F102
3
GSM_RX
NM L201
22pF
8.2nH
Murata 1960MHz 2.5*2
2
C204
5
GND
IN
2
1
C206
6
Si4200
B
3
25
RFOG
26
VDD4
28
29
30
27
GND
RFIDP
TXQP
9
TXQP
TXIN
IFLOP
6.8K
R207
Transciever
24
DIAG1
6.8K
R206
R209
10K
RFIDN
16
C215
100pF
TXIP
RFIGP
DIAG1
B
Si4200
CKP
VDD2
TXIP
5
RFIGN
15
R205
VDD1
14
4
IOP
CKN
1
3
C411
RFDO
RFLON
3
GSM_TX
R403
ION
13
2
RFLOP
1
12
C219
22nF
100pF
NC
3
NC
VDD3
C221
4
2
4
ATT5dB
U203
Si4201
GND
9
R402
1
3
10
8
7
C212
22pF
11
3
6
TCXOEN
GND
17
SCLK
18
SDI
19
RXIN
ION
B,1
31
RXIN
Converter
RXIP
PDNB
PDNB
B
5
B,3
IFLON
4
XEN
13
11
B
RXQN
14
10
RXIP
Si4201
15
32
B
PDNB
VRF
1,4
C213
22pF
CKN
RXQN
3
RXQP
CKP
2
C220
22pF
SDO
VDDC
B
RXQP
GND
GND
1
XOUT
VDDA
20
C218
22nF
13MHz
E
1,4
XIN
VRF
D
OUT-
GND
L203
NM
1
DCS_RX
33pF
1.5pF
6.8K
1
IFLOP
3
IFLON
3
RFLOP
3
RFLON
3
Transceiver
VRF
1
C214
22pF
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
1
D
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
601030
07/17/2003
0C
Sheet
E
14
of
16
<RevCode>
A
B
C
D
E
KIC7S04FU
SC70-5
U503
R303
3.3K
5
C307
100pF
4
1
NC
VCC
C308
2
IN
C309
4
OUT
3
100pF
3
GND
13MHz
4
IFLON
2
2
RFLOP
IFLOP
2
2
RFLON
1nF
R304
1M
B
13MHz_BB
VSYN
1
C306
100nF
U302
4
1
C304
100nF
C302
10nF
5
6
7
IFLA
GNDD
22
23
RFLON
25
24
RFLOP
GNDR
RFLC
GNDD
RFLD
XIN
GNDR
NC
8
2
SDO_RF
GNDR
Synthesizer
VDDD
TP105
PDNB
RFLB
Si4133T
21
20
19
18
17
16
L302
1.2nH
15
NC
VTCXO
RFLA
14
3
R302
10
IFLB
SDI
2
GNDR
13
KT18
3
GNDI
SCK
1
VDDR
L301
3.9nH
4
SENB
VCC
12
C301
10nF
AFC
11
1
IFLON
B
SDO
AFC
VDDI
100pF
R301
10
26
C305
100nF
10
3
C303
27
R306
100
IFLOP
3
PDNB
OUT
9
GND
28
2
U301
Si4133T
2
B,2
2
RF_LE
B,2
RF_CLK
B,2
RF_DAT
B,2
TP101
RFLO
1
1
TP102
Compal Communications, Inc.
TP103
Title
TP104
A
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
B
C
D
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
0C
601030
07/17/2003
Sheet
E
15
of
16
<RevCode>
A
B
C
D
E
4
4
3
GSM_TX
8
2
3
VCCG
7
R401
1K
APC
6
B
C401
680pF
L401
100nH
5
C410
22pF
4
VRF
1,2
PAENA
B
GSM_TXEN
DCS_TX
2
3
2
B,1
1
2
GSM IN
VRAMP
VREG
GSMOUT
U401
9
L402
0
C402
NM
1
GSM_PA
1
DCS_PA
C403
1.5pF
RF3140
VBAT
VCC OUT
10
TX ENA
BAND SELECT
DCSOUT
11
L403
2.7nH
NM C404
0.5pF
DCS/PCS IN
NM C405
2pF
2
VCCD
VBAT
12
1
C409
100uF
C408
1uF
C407
10pF
C406
22pF
PA Module
1
1
Compal Communications, Inc.
Title
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
D
Size
SCHEMATIC, M/B GA-037
Document Number
B
Date:
Rev
0C
601030
07/17/2003
Sheet
E
16
of
16
A
B
C
D
E
S1
PWON
4
4
Power / End
DGND
ROW4
ROW3
3
ROW2
ROW1
ROW0
S2
S3
S4
S5
S6
Soft-KeyL
*
7
4
1
3
COL3
S7
S8
S9
Menu
0
S10
S11
8
5
2
COL2
S12
S13
S14
S15
S16
S oft-KeyR
#
9
6
3
S17
S18
S19
S20
S21
RIGHT
LEFT
down
UP
S END
C9
47nF 0402
DGND
COL1
COL0
2
2
C1 NM
33nF 0402
C2
47nF 0402
C3
33nF 0402
C4
47nF 0402
C5
47nF 0402
C8
47nF 0402
DGND
DGND
DGND
DGND
DGND
DGND
DGND
DGND
KEY_PAD
1
1
Compal Communications, Inc.
Title
SCHEMATIC, MMI GS-020
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
D
Size
Document Number
B
Date:
Rev
1B
602019
06/23/2003
Sheet
E
2
of
3
A
B
C
D
E
4
4
VDDS-MIF_2.8V
Q1
Photo-Transistor
VBAT
VBAT
R1
10K
DGND
L I G H T S E N S E R _EN
C6 NM
10k 0402
DGND
DGND
DGND
3
3
R2
RS2N39 0404
R4
RS2N39 0404
R5
RS2N39 0404
R2
1
R1
2
1
R1
2
R2
1
R1
R2
2
VBAT
D2
L ED
2
D3
D6
LED
3
D7
LED
R1
DGND
VR1
14V 0402
4
R2
R1
4
R2
3
R1
4
3
R2
C7
47nF 0402
D8
D9
L ED
LED
BTB_CON
DGND
COL0
COL1
COL2
COL3
COL4
PWON
ROW0
VDDS-MIF_2.8V
LED
1
2
3
4
5
6
7
8
9
J1
18
17
16
15
14
13
12
11
10
VBAT
2
L E DKEYN
ROW4
ROW3
ROW2
ROW1
L I G H T S E N S E R _EN
DGND
L E DKEYN
BACK_LIGHT/BTB
1
1
Compal Communications, Inc.
Title
SCHEMATIC, MMI GS-020
THIS SHEET OF ENGINEERING DRAWING IS THE PROPRIETARY PROPERTY OF COMPAL COMMUNICATIONS,INC. AND CONTAINS CONFIDENTIAL
AND TRADE SECRET INFORMATION . THIS SHEET MAY NOT BE TRANSFERRED FROM THE CUSTODY OF THE COMPETENT DIVISION OF R&D
DEPARTMENT EXCEPT AS AUTHORIZED BY COMPAL COMMUNICATIONS,INC. NEITHER THIS SHEET NOR THE INFORMATION CONTAINS MAY BE
USED BY OR DISCLOSED TO ANY THIRD PARTY WITHOUT PRIOR WRITTEN CONSENT OF COMPAL COMMUNICATIONS,INC.
A
B
C
D
Size
Document Number
B
Date:
Rev
1B
602019
06/23/2003
Sheet
E
3
of
3
E365
Item
Number
Part Number
Item
Number
Part Number
1
2541T66001W
Display lens
13
2240711001W
2
3
2511T66001W
Upper Housing Assembly
14
7650764511W
Camera
3104T66601W
Keypad
15
3012T66001W
Shield
Description
Description
Alert Transducer
4
3501655202W
Screw
16
3052TV1004W
Shield
5
3012T66001W
Display Bracket
17
23A1T66001W
Camera/Speaker/Antenna Assy
6
3109T66602W
Metal Switch Domes
18
3930408901W
Motor/Vibrator
7
7630029004W
Color LCD Module
19
2512T66001W
Lower Housing Assembly
8
21T66021A1W
Keypad PC board
20
3028T66001W
RF Cover
9
2531T66001W
Inter-board Snubber
21
252AT66001W
Battery Cover
10
2222312101W
Microphone
11
2240117001W
Speaker
12
21T66010D1W
Transceiver PC Board
1
2
3
5
4
7
9
11
6
12
8
13
14
10
17
18
15
19
16
20
REVISIONS
21
Level 1-2 Parts List
DualBand E365
Michael Hansen
2003.06.16
Version 1.0
Page 1 of 1
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