SEMC TRS Manual Kumiko-Rika-Norika.indd

Transcription

SEMC Troubleshooting Manual
G705 - W705 - W715
ABOUT
Troubleshooting Manual
TROUBLESHOOTING
G705 - W705 - W715
MEASUREMENT POINTS COMPONENT OVERVIEW FUNCTIONAL OVERVIEW
APPENDIX
1225-4035 rev. 1
1 (122)
ABOUT
ABOUT
ABOUT
The purpose of this document is to provide enhanced technical information for Sony Ericsson
repair technicians in order to assist during service, repair and troubleshooting operations on Sony
Ericsson mobile phones. It should be used as a complement to other repair instructions and tools
as notified by the local Sony Ericsson representative.
To search for components throughout the entire document use the “search” function in Adobe
Acrobat Reader 7.0 (or later version) and enter the component name or other word. Use zoom to
enlarge.
For easier navigation of the document you can use the bookmarks that appear in the Bookmarks
tab on the left side of the Adobe Acrobat Reader window. Each bookmark jumps to a page in the
document.
Disclaimer
This document is Sony Ericsson confidential and should be treated as confidential in accordance
with the agreement with Sony Ericsson. This document is intended for use by authorized service
technicians only. Sony Ericsson is not to be held responsible for any damages or losses caused
intentionally or unintentionally due to unauthorised use of the information in this document.
Note
When disassembling and reassembling the phone the instructions and processes described in the
Mechanical Working Instructions, the Generic Repair Manual and the Repair Center Handbook
must be followed.
Revision History
1
Date
04/01/2009
Changes / Comments
Initital revision.
G705 - W705 - W715
2
General Information
Contents
Equipment List
2
2
3
TROUBLESHOOTING
8
Power On/Off Problems
USB and Software Flash Problems
Dead Phone Problems
Display Problems
Display Illumination Problems
Opto Sensor Problems
On-Off Key
Numeric Keypad Problems
Navigation Keypad Problems
Volume Up and Down Button Problems
Camera Button Problems
Walkman/Play & Stop Button Problems
Numeric Keypad LED Problems
Navigation Keypad LED Problems
Navigation Orange LED Problems
Web Shortcut LED Problems
Tally LED Problems
Flash LED Problems
Trickle Charge LED Problems
Main Camera Problems
VGA Camera Problems
Charging Problems
USB/VBUS Charging Problems
SIM Problems
Memory Stick Problems
Microphone Problems
Earphone Problems
Loudspeaker Problems
Handsfree (PHF) Problems
FM Radio Problems
FM Radio Antenna Problems
Bluetooth Problems
WLAN Problems
GSM Problems
WCDMA Problems
A-GPS Problems
Accelerometer Problems
Vibrator Problems
Real Time Clock Problems
Slide Sensor Problems
System Connector Protection Test
Current Consumption Test
Backup Capacitor Test
Charging Test
ASIC Revision Test
Measurement Points Pictures
MEASUREMENT POINTS
Primary Side
Secondary Side
Top Schematic
Audio Top
Audio Analog
Audio Digital
Audio FM Radio
Application & System Performance Top
System Top
System Control - Clocks & Resets
System Memories
8
8
9
10
11
11
12
12
13
13
14
14
15
15
16
16
17
17
18
19
19
20
20
21
21
22
22
23
23
24
24
25
25
26
27
28
29
29
30
30
31
31
33
33
34
35
49
49
50
51
52
53
54
55
56
57
58
59
System PoP IF
Power Top
Power - Regulators & Charging
Power - Imaging
Power - ASICs
Power - WLAN
Connectivity Top
Connectivity - I2C & ADC
Connectivity - Cards
Connectivity
Connectivity - Keypad
Imaging Top
Imaging - Display
Imaging - Camera
Access Top
Access - GSM & UMTS
Access - Bluetooth
Access AGPS
Access - WLAN
Test
COMPONENT OVERVIEW
Primary Side
Secondary Side B - C
Secondary Side D - Z
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
ABOUT
General information
Rev.
Contents
80
80
81
82
FUNCTIONAL OVERVIEW
Technical Description
Platform Block Diagram
Block Diagram Power Distribution
Block Diagram Clocking Concept
APPENDIX
83
94
95
96
97
Replaceable Components
97
Components - B1400, B2000, B2100, B3100 98
Components - B4410, C2214, L2200,
99
Components - L2401-05 , L2406, L2408
99
Components - L2452, L4200, N1210, N1211 100
Components - N1300, N1400
101
Components - N1410, N1510, N2200
102
102
103
104
104
Components - R2449, R2490, S2403
105
Components - S2404, S2405-06, V2200
105
Components - V2202, V2415-16, V2417,
106
Components - V2470, V3101, V4203
106
Components - X1000, X1002-03, X1005
106
Components - X1001. X1004, X1200, X1500 107
Components - X2201, X2401
107
108
108
109
Components - Z2400, Z4200-02
109
Keypad Flex Module
110
Navigation Keypad PBA
110
Upper Board Schematics
111
LCD Assembly
111
SIM Flex Module
112
Slider Flex Module
112
Troubleshooting Software Documentation 113
Troubleshooting Fixture Setup Instructions 120
1225-4035 rev. 1
2 (122)
ABOUT
G705, W705, W715 Equipment List
Equipment List
G705 - W705 - W715
Troubleshooting Fixture
ABOUT
Location: CSPN – Repair Instructions – Mechanical – Tool Catalogue – RepairToolsCatalogue.pdf
Part number: 1222-1854
Note! More information about the TRS Fixture Kit can be found in the Trouble Shooting Fixtures
Setup Instructions document at the end of this manual.
Dummy Battery
Part number: NTZ 112 533
Note! The resistance between GND and BDATA should be approximately 120K Ohm.
Instruments
Power Supply Channel 1 (VBATT)
Agilent 6632B or similar
Instrument Settings:
Voltage: 3.8 Volt
Limiter: 2.0 A
Note! The Maximal cable length between the Power Supply Channel 1 VBATT and the dummy
battery cannot be more than 1m. The cable must have a capacity for at least 16A.
Power Supply Channel 2 (DCIO/SEPI)
Agilent 6632B or similar
Info: More information about the equipment used for TRS can be found on the following location:
CSPN – Repair Instructions – Mechanical – Tool Catalogue – RepairToolsCatalogue.pdf or matris.xls
– G and W Model Tab.
Voltage: 5.0 Volt
Limiter: 2.0 A
Oscilloscope
Agilent DSO7052A or similar
Digital Multimeter (DMM)
Fluke 83 or similar
Note! The 0, 64 mm Test Probes are recommended by Sony Ericsson when the DMM is in use,
please see Picture 1.
Picture 1
1225-4035 rev. 1
3 (122)
ABOUT
RF probe
HP 85024A or similar
G705 - W705 - W715
SE Communication Interface SEPI BOX
Part number: LTN 214 1484
See Picture 3.
ABOUT
Spectrum Analyzer
R&S FSL 9 kHz – 3 GHz or similar
Equipment List
Picture 3
Mobile Phone Tester
Yokogawa VC200 or similar
FM Signal Generator
R&S SMC100A or similar
Location: -
RF Adaptor
Cables
Adaptor 33 N-BNC-50-1
Adaptor to Signal Generator RF Output
See Picture 2
Location: -
USB Computer Cable
See Picture 4.
Picture 2
Picture 4
PC Package & PC Software
PC Package (Computer)
Urquell Fault Trace SW with project file
Location: CSPN – Repair Instructions – Electrical – G705, W705, W715 – Trouble Shooting
Application – Project File: G705, W705, W715 Project_R1A
DSU-60/USB Cable
Part number: KRY 101 1413
RF Test Cable Flexible
Part number: RPM 119 885
See Picture 5.
Picture 5
Drivers
SEPI BOX Drivers
Location: http://emma.extranet.sonyericsson.com /– Drivers – DSS / SEPI / SEMUTS
1225-4035 rev. 1
4 (122)
ABOUT
Picture 6
Power Cable RED to Power Supply Channel 1 (VBATT)
Maximum Length: 1m
G705 - W705 - W715
Step 2:
Connect the CST-75 charger Red or White wire to the Plus Output and the Black wire to the Minus
(GND) Output at backside of the Power Supply Channel 2 (DCIO/SEPI) according to Picture 8.
Picture 8
Step 3:
Cut off insulating material from the inside of the charger plug according to Picture 9.
Picture 9
Power Cable BLACK to Power Supply Channel 1 (VBATT)
Maximum Length: 1m
Customized Power Supply Channel 2 Cable (DCIO/SEPI)
Customize the cable according to following instructions below:
(Step 1, Step 2, Step 3 and Step 4)
Step 1:
Take the CST-75 battery charger and cut off the charger according to Picture 7.
Picture 7
Step 4:
Connect DCIO Cable and SEPI Interface Cable – A1 according to Picture 10.
Picture 10
Note! The Cable length must be exactly 1.3m.
1225-4035 rev. 1
5 (122)
ABOUT
SEPI Interface Cable – A1
Part number: KRY 101 1119/1
See Picture 6.
Equipment List
ABOUT
Picture 11
Equipment List
G705 - W705 - W715
Customized FM Radio Cable
ABOUT
Step 1:
Use the Test lead BNC-4mm 1,5m Cable, see Picture 14.
Picture 14
Note! This setup is wrong.
Connection Instructions for the Dummy Battery
This is the correct setup when a Dummy Battery is in use.
See Pictures 12 and 13.
Picture 12
Product Name: Test lead BNC-4mm 1,5m
Product Description: Test lead with 4 mm lab plugs at one end and a BNC plug at the other.
Manufacturer: PMK Germany
Location: http://www.elfa.se/en/ or other supplier.
Part number: 46-310-40
Note! This is the ELFA part number.
Step 2:
Cut the Red Lab Plug connector according to Picture 15.
Picture 15
Picture 13
Step 3:
Use any Hands-Free (PHF) Cable and cut it according to Picture 16.
Picture 16
Note! Cable length should be at least 40cm.
1225-4035 rev. 1
6 (122)
ABOUT
Step 4:
Use only the Wire that is connected to PIN2 and cut out all the others according to Picture 17.
G705 - W705 - W715
Test SIM GSM/UMTS
One Test SIM GSM/UMTS is needed to perform Current Consumption Test, see Picture 20.
Note! To buy a Test SIM GSM/UMTS, please contact your supplier of test equipment.
Picture 20
Note! Use DMM instrument to ensure which of the wires are connected to PIN2 at Hands-Free
(PHF) system connector plug.
Step 5:
Connect the Cable from the Picture 15 and Cable from the Picture 17 according to Picture 18.
Sony Memory Stick M2
Any functional Memory Stick Micro M2 Card
See Picture 21.
Picture 21
Note! Use a soldering iron for this action and after that use insulating material to protect the
contact point.
Picture 18
SMK RF Probe
Part number: SXA 109 6356
See Picture 22.
Test Cards
Picture 22
Local SIM
Any functional Local SIM Card
See Picture 19.
Picture 19
1225-4035 rev. 1
7 (122)
ABOUT
Picture 17
Equipment List
TROUBLESHOOTING
Power On/Off Problems - USB and Software Flash Problems
G705 - W705 - W715
USB and Software Flash Problems
Power On/Off Problems
START
START
Is the phone
consuming more than
1mA when the phone
is powered off
Use the
Dummy Battery Connected to
Power Supply Channel 1
(VBATT)
Go to
Dead phone
Problems part 1
TRS guide
Yes
Step 1:
Perform
If successful go to step 2.
Step 2:
Dowload ITP SW into the Phone
Does the
Flash process
Start-up when using
EMMA SW
Yes
No
TROUBLESHOOTING
No
Is it possible to
power on the phone
No
Yes
Is it possible to power
off the phone
Yes
Go to
Current
Consumption Test
After this go to
Charging Test
Use TRS Fixture
1: Connect: VBATT and DCIO/SEPI
2: Remove: DCIO/SEPI
3: Connect: USB Cable from the PC
No
Is the
ITP SW Flash
Successful
Yes
SL 5 Replace
N2020
SL 4 Escalate
Yes
Replace
V2416
Yes
Replace
V2415
No
Replace
X2405
No
Is the
phone consuming
any current when
powering on the
phone
No
Is the phones
behavior as normal
Optimized
charging
Connect a charger
No
Is the current
consumption between
10mA to 70mA
No
Go to
Dead Phone
Problems part 1
TRS guide
Flash
the phone with
correct CDA
software
Press ”C”
Connect USB from PC.
Update SEMC BOOT if
necessary. Run EMMA
SUCR SW. Is Phone
Flash Ok
Yes
Go to
USB/VBUS
Charging Problems
No
Does
the Phone
Indicate charging
on the display
Yes
Is MP 11
(X2405_Pin 10)
Short circuit to GND
(Shield Can
Fence)
No
Yes
Yes
Yes
Go to
On-Off Key Problems
TRS guide
SL 4 Replace
N2420
SL 5 Replace
R2442
No
No
Go to
System Connector
Protection Test
After this go to
USB and Software
Flash Problems TRS
guide
5 Volt DC at
MP 62 (C2433)
No
Is MP 12
(X2405_Pin 11)
(Shield Can
Fence)
Yes
2.7V – 3.3V DC
at MP 65 (C2437) and
1.8V DC at MP 61
(C2435)
No
SL 4 Replace
N2420
SL 5 Replace
N2010
No
Yes
Flash
the phone with
correct CDA
software
CDA Software
Flash
Successful
No
Is the
Flash process
started
Remove the PBA from the
TRS Fixture
Max
2 Ohm between
MP 11 (X2405_Pin 10)
and MP 71
(Z2400_Pin 3)
Yes
Yes
Flash
The phone with
ITP software.
Is the ITP Flash
Successful
Yes
1. Customize the phone into DPY/Z
2. Startup the phone and wait for
the configuration to take place
(takes less than a minute)
3. Customize with correct CDA
4. Activate the phone
No
No
Go to
USB and Software
Flash Problems
TRS guide
Is the Problem
solved
Yes
No
Is the Problem
solved
Yes
Claim for a
SW Upgrade
No
Max
0.5 Ohm between
MP 11 (X2405_Pin 10)
and MP 70
(Z2400_Pin 2)
SL 4 Replace
N2420
SL 5 Replace
N2010
Yes
Max
2 Ohm between
MP 12 (X2405_Pin 11)
and MP 73
(Z2400_Pin 4)
Replace
Z2400
Yes
Yes
No
Max
0.5 Ohm between
MP 12 (X2405_Pin 11)
and MP 72
(Z2400_Pin 1)
No
Yes
Replace
X2405
Replace
Z2400
1225-4035 rev. 1
8 (122)
TROUBLESHOOTING
G705 - W705 - W715
Dead Phone Problems part 1
START
Step 1:
Try to recover the Phone by using
EMMA SW
Press key 2 and 5
Connect USB Cable to the Phone
and update SEMCBOOT after this
Run EMMA SUCR SW
and retest the Phone
If successful claim SW Flash
If not continue with the step 2.
START
Is the
current consupmtion
more than 1mA
No
Is the
connection between
MP 23 (X2201_Pin 3)
and PBA GND (Shield
No
SL 4 Replace
X2201
SL 5 Replace
R2200
No
Replace
B2100
Can Fence)
NOTE !
Before this the
Dead Phone Problems part 1 TRS guide
must be done
Ok
Yes
Yes
Try to trace
the Faulty Component
by using Freezing Spray
Connect:
DCIO/SEPI to the Phone
Is
N1200
(Tiger Radio Module)
getting hot
32 kHz at
MP 118 (C2100)
and MP 119 (C2101)
Yes
TROUBLESHOOTING
Step 2:
Use TRS Fixture
Connect: VBATT Only
Replace
N1200
Dead Phone Problems
Is the
VAUDIO26
Voltage
Ok
No
Is N2422
getting hot
No
Yes
No
32 kHz
RTCCLK at
MP 121 (R2103)
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
Go to USB and
Software Flash
Problems TRS guide
SL 5 Replace
N2000
SL 4 Escalate
No
Check the following
Voltages:
1.8V DC at
MP 60 (R2303 VDDE18)
and 2.8V DC at MP 64
(C1218 LDOA_OUT)
No
Yes
Replace
N1211
SL 5 Replace
N2020
SL 4 Escalate
Yes
SL 4 Replace
N2200
SL 5 Replace
N2010
Yes
No
26 MHz
MCLK at
MP 97 (R2102)
Yes
2.6V MP 67 (R2301 VAUDIO26)
2.5V MP 57 (R2302 VANA25)
2.7V MP 113 (C2210 VBT27)
2.7V MP 63 (R2305 VDIG)
2.6V MP 66 (R2306 VBEAR26)
1.2V MP 114 (C2220 VCORE12)
1.8V MP 59 (R2310 VCORE18)
2.8V DC
at MP 99 (C1207)
Go to
Dead Phone
Problems part 2
Is the
ITP SW Flash
Successful
Step 1:
Disconnect:
VBATT and DCIO/SEPI
Step 2:
Connect:
PBA Key Navi and Slider Flex Module
to the PBA
Connect: VBATT Only
Step 3:
Use EMMA SW
Press the ”C” key and Connect
USB Cable from the PC to the PBA
Flash the Phone with the ITP SW
No
Yes
No
Is the
VBT27
Voltage
Ok
No
Is N1300
getting hot
No
Are
all Voltages
Ok
Is the
VDIG
Voltage
Ok
No
Is any
of N2411, N1300
N1500 or N1510
getting hot
Yes
Yes
Yes
Yes
No
Is the
VBEAR26
Voltage
Ok
No
Yes
Replace
N1300
SL 5 Replace
N2000
SL 4 Escalate
No
Yes
Yes
Replace
N1200
No
Is any of
N2200 or N2010
getting hot
Yes
Try to trace Faulty
Component by using
Freezing Spray
SL 5 Replace
N2000
SL 4 Escalate
Is the
current consumption
still more than
1mA
Is the
VANA25
Voltage
Ok
Replace
N2422
SL 5 Replace
N2000
SL 4 Escalate
No
Yes
SL 5 Remove
N2000
SL 4 Escalate
SL 5 Replace
N2000
SL 4 Escalate
Yes
SL 4 Replace
N2411, N1300
or N1510
SL 5 Replace
N1500
SL 5 Replace
N2000
SL 4 Escalate
SL 5 Replace
N2000
SL 4 Escalate
Go to
Dead Phone
Problems part 3
1225-4035 rev. 1
9 (122)
TROUBLESHOOTING
Dead Phone Problems - Display Problems
Display Problems
START
START
Step 1:
Flash the Phone with EMMA SUCR SW
If not go to step 2.
NOTE !
Before this the
Dead Phone Problems part 2 TRS guide
must be done
No
1.1V – 1.2V DC
at MP 117
(V2201_Cathode)
No
3.8 Volt DC at
MP 116 (L2201)
Yes
Yes
Is
MP 114 (C2220)
Short circuit to
PBA GND (Shield
Yes
No
Yes
SL 5 Replace
N2000 or N2010
SL 4 Escalate
Step 2:
Load ITP SW into the Phone
Use TRS Fixture
Connect:
Slider Flex Module, PBA Key Navi and Display
to the PBA
Connect: VBATT and DCIO/SEPI
Use Fault Trace SW and go to:
MMI
Misc
Init Screen Testing
Display Pattern
Activate:
TV Test Pattern
If Display is working on the TRS Fixture
then Replace
Display, Slider Flex Module or PBA Key Navi
If not then continue with
Display Problems TRS guide
Replace
L2201
TROUBLESHOOTING
Is the
VCORE12
Voltage
Ok
G705 - W705 - W715
SL 5 Replace
V2201 or N2000
SL 4 Escalate
Go to
Display illumination
Problems TRS guide
No
Is
Display Backlights
Ok
Can Fence)
Replace
L2200
No
Is the
VCORE18
Voltage
Ok
Is
No
MP 59 (R2310)
Short circuit to
PBA GND (Shield
Yes
Can Fence)
SL 4 Replace
N2200
SL 5 Replace
C2231 or N2010
Yes
Go to
Opto Sensor
Problems TRS guide
Yes
Is the picture
too dark or
too light
No
NOTE !
Be very careful when cutting the
Shield Can Fence to avoid component damage
No
It is recommended to use a microscope when
making these measurements
Z4200, Z4201 and Z4202
Display Filter Test
Test 1:
Check that Pins: 1,2,3,4,5,6,7,8
are NOT short circuit to GND
Test 2:
Max 2 Ohm between the following pins:
Pin 1 and 5
Pin 2 and 6
Pin 3 and 7
Pin 4 and 8
NOTE !
Test 1 and 2 must be made on all filters
Disconnect:
VBATT and DCIO/SEPI
Yes
Replace
Z4200, Z4201 or
Z4202
Is
L2202 = Max 0.5 Ohm
Step 1:
Disconnect:
VBATT and DCIO/SEPI
Step 2:
Connect:
Key Flex Assy and Slider FPC Assy
to the PBA
Connect: VBATT Only
Step 3:
Use EMMA SW
Press the ”C” key and Connect
USB Cable from the PC to the PBA
Flash the Phone with ITP SW
Disconnect: VBATT and DCIO/SEPI and
Remove PBA from the TRS Fixture
Use Digital Multimeter instrument (DMM)
and perform:
Z4200, Z4201 and Z4202
Display Filter Test 1 and 2 (see below)
No
SL 4 Replace
N2200
SL 5 Replace
N2010
Yes
Is the
ITP SW Flash
Successful
Yes
No
SL 5 Replace
L2202
SL 4 Escalate
SL 5 Replace
N2020
SL 4 Escalate
Go to USB and
Software Flash
Problems TRS guide
No
Are all
Display Filters
Ok
Yes
Replace
X4200
Is the Display
Problem solved
Yes
No
Claim Component
X4200
SL 5 Replace
N2010
SL 4 Escalate
1225-4035 rev. 1
10 (122)
TROUBLESHOOTING
Display Illumination Problems - Opto Sensor Problems
G705 - W705 - W715
Opto Sensor Problems
Display Illumination Problems
START
START
Step 1:
Step 1:
Replace PBA Key Flex Flip
If successful claim PBA Key Flex Flip
if not go to step 2.
Step 2:
Use TRS Fixture
Connect:
Slider Flex Module, PBA Key Navi and Display to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Display Backlight
If Display Backlight is working on the TRS Fixture
then Replace
Display, Slider Flex Module or PBA Key Navi
If not then continue with the
Display illumination Problems TRS guide
Go to
Problems TRS guide
No
TROUBLESHOOTING
Step 2:
Replace Slider FPC Assy
If successful claim Slider FPC Assy
if not continue with the
Opto Sensor Problems TRS guide
Is the
Display Illumination
(LEDs) Ok
Yes
Replace
L4200
Yes
3.7V - 3.8V DC
at MP 115 (L4222)
1: Use Fault trace SW and go to:
MMI
Misc
Init Screen Testing
Led and Backlight
Deactivate:
Display Backlight
2: Disconnect Slider Flex Module from the PBA
No
SL 5 Replace
L4222
SL 4 Escalate
3.7V - 3.8V DC
at MP 36 (TP4200)
SL 5 Replace
N2000
SL 4 Escalate
1.8 Volt DC
at MP 48 (R2217
OPTO_EN) Shortly after
phone Power On
Yes
Yes
17V-20V
Pk-Pk Pulses
at MP 36 (TP4200)
Shortly after the Display
Backlight has been
Activated
No
No
Replace
V4203
No
Replace
N2401
Yes
Yes
Can you see
any picture on
Display
Use TRS Fixture
Fault trace SW
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Display Backlight
Replace
X4200
No
Yes
Yes
No
0 Volt DC
at MP 37 (TP4201)
Go to
Display Problems
TRS guide
Replace
N2201
No
More than
5 Volt Pk-Pk
Pulses at MP 112 (R4200)
Shortly after the Display
Backlight has been
Activated
3 Volt
Pk-Pk Pulses
At MP 43 (TP2203
VOPTO30) Shortly after
phone Power On
Yes
Replace
X4200
No
Is the
Problem solved
No
Yes
SL 5 Replace
N2000
SL 4 Escalate
SL 5 Replace
N2000
SL 4 Escalate
No
Is the
Opto Sensor Problem
solved
Yes
Claim Component
X4200
Claim Component
V4203
1225-4035 rev. 1
11 (122)
TROUBLESHOOTING
On-Off Key - Numeric Keypad Problems
On-Off Key Problems
Numeric Keypad Problems
START
Step 1:
Replace PBA Key Navi and retest the Phone
If successful claim PBA Key Navi
Step 1:
If there are Problems with both Numeric and Navigation
Keypads then go to step 3, if not go to step 2.
Step 2:
Replace Slider Flex Module and retest the Phone
If successful claim Slider Flex Module
Step 2:
Use TRS Fixture
Connect:
Numeric Key Flex Module to the PBA
Step 3:
Use TRS Fixture
Connect:
PBA Key Nav and Slider Flex Module to the PBA
SL 5 Replace
V2475, R2470 or
N2010
SL 4 Escalate
Replace
X4200
SL 5 Replace
N2000
SL 4 Escalate
1.8 Volt DC
At MP 82
(V2470_Anode)
Yes
Press the
On/Off Key
1.8 Volt DC at
MP 54 (R2470)
No
Yes
Replace
X4200
SL 4 Replace
V2470
SL 5 Replace
N2000
Is it a
Power Off
problem
No
Yes
SL 5 Replace
R2470 or N2010
SL 4 Escalate
Yes
No
0 Volt DC
At MP 83
(V2470_Cathode)
No
MMI
Misc
Init Screen Testing
Activate
Keypad Scan Test
Yes
Perform Keypad Scan Test by pressing all
Keypads on the Key Flex Module
If successful then
Replace
Key Flex Module
1.8 Volt DC at
MP 103 (S2405_Pin C)
and MP 104
(S2406_Pin C)
1.8 Volt DC at
MP 80 (S2403_Pin A)
No
Yes
Replace
X2401
Is
the problem with
Numeric Keypad
Yes
Go to
Navigation Keypad
Problems TRS guide
Go to
Walkman Button
Problems TRS guide
No
Go to Volume
Up and Down Button
Problems TRS guide
No
Go to
Camera Button
Problems TRS guide
No
SL 5 Replace
N2010
SL 4 Escalate
Yes
3.7 Volt DC
At MP 83
(V2470_Cathode)
Disconnect:
Slider Flex Module
from the PBA
No
Yes
Step 3:
Use TRS Fixture
Connect:
Key Flex Module to the PBA
and continue with the
Numeric Keypad Problems TRS guide
No
No
3.7 Volt DC
At MP 83
(V2470_Cathode)
Yes
1.8 Volt DC at
MP 27 (S2404_Pin C)
Are
there problems
with both Numeric
and Navigation
Keypads
Yes
SL 5 Replace
R2471 or R2472
SL 4 Escalate
No
1.8 Volt DC at
MP 52 (V2474_Pin 1)
and MP 53
(V2474_Pin 2)
No
Yes
SL 5 Replace
N2010
SL 4 Escalate
Flash the Phone with
EMMA SUCR SW
No
0 Volt DC at
MP 53 (V2474_Pin 2)
when press the
Key ”1"
Yes
0 Volt DC at
MP 52 (V2474_Pin 1)
when press the
Key ”6"
Yes
1225-4035 rev. 1
12 (122)
TROUBLESHOOTING
START
Replace
V2470
G705 - W705 - W715
TROUBLESHOOTING Navigation Keypad Problems - Volume Up and Down Button Problems SEMC Troubleshooting Manual
G705 - W705 - W715
Volume Up and Down Button Problems
Navigation Keypad Problems
START
START
Use TRS Fixture
MMI
Misc
Init Screen Testing
Activate
Keypad Scan Test
Replace
S2406
Perform Keypad Scan Test by pressing all Keypads on the
Key PBA Navi
If successful then Replace
Key PBA Navi or Slider Flex Module
SL 5 Replace
N2010
SL 4 Escalate
Step 2:
Continue with the
Navigation Keypad Problems TRS guide
SL 5 Replace
R2473 or N2010
SL 4 Escalate
0 Volt DC
At MP 104
(S2406_Pin C)
No
Press the
S2406 Volume Up
Button
Yes
Yes
No
TROUBLESHOOTING
Step 1:
Use TRS Fixture
Connect:
PBA Key Navi and Slider Flex Module to the PBA
Is MP 104
(S2406_Pin C)
short circuit to GND
No
(Shield Can
Fence)
1.8 Volt DC
at MP 104
(S2406_Pin C)
Is the
problem
with S2406
Volume Up Button
Yes
Yes
Replace
X4200
Yes
Is the
Numeric Keypad
Ok
No
Remove the
S2406 Volume Up
Button
Go to
Numeric Keypad
Problems TRS guide
SL 5 Replace
V2473 or N2010
SL 4 Escalate
Is MP 104
(S2406_Pin C)
still short circuit to
GND (Shield
Yes
No
No
Replace
S2406
Can Fence)
Replace
S2405
SL 5 Replace
N2010
SL 4 Escalate
Replace
S2405
0 Volt DC
at MP 103
(S2405_Pin C)
No
Press the
S2405 Volume Down
Button
1.8 Volt DC
at MP 103
(S2405_Pin C
Yes
Yes
No
No
Is MP 103
(S2405_Pin C)
still short circuit to
the GND (Shield
Remove the
S2405 Volume Down Button
Is MP 103
(S2405_Pin C)
short circuit to GND
Yes
(Shield Can
Fence)
Can Fence)
SL 5 Replace
V2473 or N2010
SL 4 Escalate
Yes
SL 5 Replace
R2474 or N2010
SL 4 Escalate
No
1225-4035 rev. 1
13 (122)
TROUBLESHOOTING
Camera Button Problems - Walkman/Play & Stop Button Problems SEMC Troubleshooting Manual
G705 - W705 - W715
Walkman/Play and Stop Button Problems
START
START
Use TRS Fixture
Use TRS Fixture
SL 5 Replace
V2472
SL 4 Escalate
Yes
Is MP 81
(S2403_Pin C)
1.8 Volt DC at
MP 80 (S2403_Pin A)
Yes
(Shield Can
Fence)
SL 5 Replace
V2472
SL 4 Escalate
TROUBLESHOOTING
Camera Button Problems
Is MP 28
(S2404_Pin A)
Yes
Yes
(Shield Can
Fence)
1.8 Volt DC at
MP 27 (S2404_Pin C)
No
No
SL 5 Replace
N2010
SL 4 Escalate
Replace
S2403
Yes
0 Volt DC at
MP 80 (S2403_Pin A)
Press the
S2403 Camera Button
No
No
SL 5 Replace
N2010
SL 4 Escalate
Replace
S2404
Replace
S2403
Go to Volume
Up and Down Button
Problems TRS guide
Is MP 80
(S2403_Pin A)
No
(Shield Can
Fence)
Yes
Yes
0 Volt DC at
MP 27 (S2404_Pin C)
Press the
S2404 Walkman Button
No
SL 5 Replace
R2475 or N2010
SL 4 Escalate
1.8 Volt DC at
MP 51 (V2475_Pin 1)
Is MP 27
(S2404_Pin C)
No
SL 4 Replace
S2404
SL 5 Replace
L2409
No
Yes
No
(Shield Can
Fence)
Yes
SL 5 Replace
V2475 or V2480
SL 4 Escalate
1225-4035 rev. 1
14 (122)
TROUBLESHOOTING
Numeric Keypad LED Problems - Navigation Keypad LED Problems SEMC Troubleshooting Manual
G705 - W705 - W715
Numeric Keypad LED Problems
Navigation Keypad LED Problems
START
START
Use TRS Fixture
Connect: Key Flex Module to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Numeric Keypad
If Numeric Keypad LED is working on the TRS Fixture
then Replace Key Flex Module
Numeric Keypad LED Problems TRS guide
TROUBLESHOOTING
Use TRS Fixture
Connect: Slider Flex Module and PBA Key Navi to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Navigation Keypad
If Navigation Keypad LED is working on the TRS Fixture
then Replace Slider Flex Module or PBA Key Navi
Navigation Keypad LED Problems TRS guide
1: Use Fault Trace SW and go to:
MMI
Misc
Init Screen Testing
Deactivate:
Numeric Keypad
MMI
Misc
Init Screen Testing
Deactivate:
Navigation Keypad
2: Disconnect the Key Flex Module from the PBA
2: Disconnect the Slider Flex Module from the PBA
3.8 Volt DC
At MP 46
(V4205_Cathode)
Yes
3.8 Volt DC
at MP 49
(V4207_Cathode)
No
No
SL 5 Replace
N2000
SL 4 Escalate
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
Fault Trace SW
Activate:
Numeric Keypad
Is MP 46
(V4205_Cathode)
Short circuit to
PBA GND (Shield
Yes
SL 5 Replace
V4205
SL 4 Escalate
Yes
SL 5 Replace
V4204
SL 4 Escalate
Fault Trace SW
Activate:
Navigation Keypad
Can Fence)
No
SL 5 Replace
N2000
SL 4 Escalate
0 Volt DC
At MP 46
(V4205_Cathode)
No
Is MP 88
(V4204_Pin 2)
Short circuit to PBA
GND (Shield
Can Fence)
Replace
X2401
Yes
No
Replace
X4200
Yes
0 Volt DC
at MP 49
(V4207_Cathode)
SL 5 Replace
N2000
SL 4 Escalate
1225-4035 rev. 1
15 (122)
TROUBLESHOOTING
Navigation Orange LED Problems - Web Shortcut LED Problems
G705 - W705 - W715
Web Short Cut LED Problems
Navigation Orange LED Problems
START
START
NOTE !
This TRS guide is valid ONLY for G705 Phones.
Use TRS Fixture
Connect: Key Flex Module to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Numeric Keypad
If Navigation Orange LED is working on the TRS Fixture then
Replace Slider Flex Module or PBA Key Navi
Navigation Orange LED Problems TRS guide
If Web Short Cut LED working on the TRS Fixture then
Replace Key Flex Module
Web Short Cut LED Problems TRS guide
TROUBLESHOOTING
Use TRS Fixture
Connect: Slider Flex Module and PBA Key Navi to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Navi Orange LED
MMI
Misc
Init Screen Testing
Deactivate:
Numeric Keypad
MMI
Misc
Init Screen Testing
Deactivate:
Navi Orange LED
2: Disconnect the Key Flex Module from the PBA
2: Disconnect the Slider Flex Module from the PBA
3.8 Volt DC at
MP 89 (V4204_Pin 1)
3.8 Volt DC
at MP 50
(V4206_Cathode)
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
No
Fault Trace SW
Activate:
Numeric Keypad
Is MP 89
(V4204_Pin 1)
Short circuit to
PBA GND (Shield
Yes
Fault Trace SW
Activate:
Navi Orange LED
Yes
SL 5 Replace
V4204
SL 4 Escalate
Yes
SL 5 Replace
V2408
SL 4 Escalate
Can Fence)
No
Replace
X4200
Yes
0 Volt DC
at MP 50
V4206_Cathode
No
SL 5 Replace
N2000
SL 4 Escalate
SL 5 Replace
N2000
SL 4 Escalate
0 Volt DC
at MP 89
(V4204_Pin 1)
No
Is MP 94
(V2408_Cathode)
Short circuit to
PBA GND (Shield
Can Fence)
Replace
X2401
Yes
No
SL 5 Replace
N2000
SL 4 Escalate
1225-4035 rev. 1
16 (122)
TROUBLESHOOTING
Tally LED Problems - Flash LED Problems
Tally LED Problems
G705 - W705 - W715
Flash LED Problems
START
Use TRS Fixture
Connect: SIM Flex Module to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Tally LED
If the Tally LED is working on the TRS Fixture
then Replace SIM Flex Module
If not continue with the
Tally LED Problems TRS guide
Use TRS Fixture
Connect: SIM Flex Module to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Flash LED
If the Flash LED is working on the TRS Fixture then
Replace SIM Flex Module
Flash LED Problems TRS guide
TROUBLESHOOTING
START
MMI
Misc
Init Screen Testing
Deactivate:
Flash LED
Fault Trace SW
Deactivate:
Tally LED
2: Disconnect the SIM Flex Module from the PBA
1.4 Volt DC
at MP 18
(V2402_Pin 3)
No
Replace
X2402
3.8 Volt DC
at MP 21
(V2483_Cathode)
No
Is MP 21
(V2483_Cathode)
GND (Shield
No
SL 5 Replace
N2000
SL 4 Escalate
Can Fence)
Yes
Yes
Yes
SL 5 Replace
V2483
SL 4 Escalate
Fault Trace SW
Activate:
Tally LED
Fault Trace SW
Activate:
Flash LED
SL 5 Replace
V2402
SL 4 Escalate
Yes
1.8 Volt DC
at MP 15
(V2402_Pin 1)
No
SL 5 Replace
N2010
SL 4 Escalate
0 Volt DC
at MP 21
(V2483_Cathode)
No
Yes
SL 5 Replace
N2000
SL 4 Escalate
Replace
X2402
1225-4035 rev. 1
17 (122)
TROUBLESHOOTING
G705 - W705 - W715
START
TROUBLESHOOTING
Use TRS Fixture
Connect: PBA Key Navi and Slider Flex Module
to the PBA
MMI
Misc
Init Screen Testing
Led and Backlight
Activate:
Charge LED
If the Trickle Charge LED is working on the TRS Fixture
then Replace PBA Key Navi or Slider Flex Module
Trickle Charge LED Problems TRS guide
SL 4 Replace
X4200
SL 5 Replace
N2000
1225-4035 rev. 1
18 (122)
TROUBLESHOOTING
Main Camera Problems - VGA Camera Problems
Main Camera Problems
VGA Camera Problems
START
START
Step 1:
Flash the Phone with EMMA SUCR SW and go to Service Tests Menu
Perform the: Main and VGA Camera Tests
If the tests are successful then claim SW Flash
Flash the Phone with EMMA SUCR SW and go to
Service Tests Menu
Perform Main and VGA Camera Tests
If both tests are successful then claim SW Flash
If not then continue with the Main Camera Problems TRS guide
Step 2:
Load ITP SW into the Phone and go to step 3.
No
Yes
Is the
VGA Camera
Ok
No
Yes
Replace
X4300
SL 4 Replace
X4200
SL 5 Replace
N2600 or N2010
No
NOTE !
Ignore this messages if they appear in the Trace window
(In the right corner of the Fault Trace SW)
”...timeout when reading” and
”Error_CommandFailed, ERR”
No
Yes
Is the
Main Camera
Ok
No
Go to
Main Camera
Problems TRS guide
Replace
Main Camera 3.2 Mpixel CMOS
Is the
Main Camera
Ok
Yes
2.8 Volt DC
at MP 38 (TP2213)
And 1.8 Volt DC at
MP 26 (TP2215)
Claim
Main Camera
3.2 Mpixel CMOS
Replace
N2203
No
Yes
If the VGA Camera is working properly on the TRS Fixture then
Replace Slider Flex Module
If not then continue with the VGA Camera Problems TRS guide
(Info: The Main Camera is the same as Camera
The VGA Camera is the same as Video call camera)
Is X4300
Damaged /
Bad connection
NOTE !
The Main Camera 3.2 Mpixel CMOS must be mounted inside
the X4300 when performing this TRS guide.
1.8 Volt DC
at MP 40 (TP2214)
Step 3:
Use TRS Fixture
Connect: Slider Flex Module, PBA Key Navi and Display to the PBA
MMI
Misc
Init Screen Testing
Activate:
VGA Camera Test
Yes
1: Load ITP SW into the Phone
2: Use TRS Fixture
MMI
Misc
Init Screen Testing
Activate:
Main Camera Test
Replace
N2203
Go to
VGA Camera
Problems TRS guide
TROUBLESHOOTING
Info:
The Main Camera is the same as Camera
The VGA Camera is the same as Video call camera
Is the
Problem with both
Main and VGA
Camera
G705 - W705 - W715
Yes
Replace
N2204
No
SL 5 Replace
N2010
SL 4 Escalate
No
Use Fault Trace SW and
Repeat the Main Camera Test
SL 5 Replace
L2100 or N2010
SL 4 Escalate
SL 4 Replace
N2203 or N2204
SL 5 Replace
N2010
No
Yes
13 MHz
CAMSYSCLK at
MP 32 (R4303) Shortly
after the Main Camera
Test has been
activated
Yes
More than
2 Volt Pk-Pk Pulses
at MP 31 (R2282) Shortly
after the Main Camera
Test has been
activated
1225-4035 rev. 1
19 (122)
TROUBLESHOOTING
Charging Problems - USB/VBUS Charging Problems
G705 - W705 - W715
Charging Problems
USB/VBUS Charging Problems
START
START
Step 1:
Perform Charging Test
If NOT successful go to step 2.
Step 1:
Perform System Connector Protection Test
Step 2:
Use TRS Fixture
Connect:
VBATT and DCIO/SEPI
No
Replace
X2201
Yes
Is MP 33
(TP2202)
GND (Shield
5V – 5.2V DC at
MP 62 (C2433)
Yes
TROUBLESHOOTING
3.8 Volt DC at
MP 34 (TP2201)
Step 2:
Use Phone with Normal SW (SSW)
Use TRS Fixture and connect: VBATT
Connect: USB Cable from the PC to the Phone
Replace
V2200
Yes
SL 5 Replace
N2000
SL 4 Escalate
No
Replace
X2405
No
Replace
L2452
No
Can Fence)
No
5 Volt DC at
MP 16 (C2440)
5V – 5.2V DC at
MP 6 (X2405_Pin 1)
Yes
SL 4 Replace
V2202
SL 5 Replace
N2000
Yes
No
Is
MP 16
(C2440) and MP 17
(C2441) Short circuit to
GND (Shield Can
Fence)
Yes
Disconnect:
VBATT and USB Cable
SL 4 Replace
V2202
SL 5 Replace
C2440, C2441 or
N2000
No
Replace
N2421
Disconnect:
VBATT and DCIO/SEPI
Is
R2449 = Max 1 Ohm
No
Yes
No
5 Volt DC at
MP 13 (X2405_Pin 12)
Yes
Yes
Is
L2452 = Max 1 Ohm
Replace
R2490
Replace
X2405
Replace
R2449
1225-4035 rev. 1
20 (122)
TROUBLESHOOTING
SIM Problems - Memory Stick Problems
SIM Problems
G705 - W705 - W715
Memory Stick Problems
START
Step 1:
Please follow the instructions from 1 to 5
Step 2:
Use TRS Fixture
Connect: SIM Flex Module to the PBA and Insert the Test SIM
Logic
SIM Card Control
Activate:
SIM Com Test
1: Disconnect: VBATT and DCIO/SEPI
2: Disconnect: SIM Flex Module from the PBA
3: Restart the Fault Trace SW
5: Use Fault Trace Sw and go to:
Logic
SIM Card Control
Activate:
SIMVCC
TROUBLESHOOTING
4: Connect: VBATT and DCIO/SEPI
START
If the SIM Com Test is passed then Replace SIM Flex Module
and Flash the Phone with EMMA SUCR SW
If not then continue with the SIM Problems TRS guide
1.8 Volt DC at
MP 14 (C2420)
No
Is any of C2420,
V2477 or C2414 Short
circuit
Yes
Is X2403
damaged
SL 5 Replace
C2420, V2477
or C2414
SL 4 Escalate
Yes
Replace
X2403
Yes
EMMA SUCR SW
Yes
SL 4 Replace
X2403
SL 5 Replace
N2010
No
SIMVCC On
Activate:
SIMRSTn
1.8 Volt DC at
MP 20 (C2419)
Yes
No
No
Is C2419
Short circuit
Yes
Insert Memory M2 Card
Use TRS Fixture
Connect:
VBATT and DCIO/SEPI
Use Fault Trace SW
SL 5 Replace
C2419
SL 4 Escalate
SL 5 Replace
N2000 or N2010
SL 4 Escalate
No
Yes
SL 5 Replace
N2000
SL 4 Escalate
Fault trace SW
Logic
SIM Card control
Activate:
Memory Stick Test
SIMVCC On
SIMRSTn On
Activate:
SIMCLK
1MHz and
1.8V – 2V Pk-Pk at
MP 110 (R2410)
No
1MHz and
1.8V-2.2V Pk-Pk at
MP 35 (SP2410)
No
SIMVCC On
SIMRSTn On
SIMCLK On
Activate:
SIMDAT
1.8 Volt DC at
MP 111 (R2411)
SL 5 Replace
N2010
SL 4 Escalate
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
Yes
Is the
Memory Stick Test
Passed
Yes
SL 4 Replace
X2402
SL 5 Replace
R2416
No
SL 5 Replace
C2413 or N2010
SL 4 Escalate
SL 4 Replace
X2403
SL 5 Replace
N2000
No
1.8 Volt DC at
MP 47 (C2421
VMC18)
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
1.8 Volt DC at
MP 108 (C2413)
1225-4035 rev. 1
21 (122)
TROUBLESHOOTING
Microphone Problems
Microphone Problems - Earphone Problems
G705 - W705 - W715
Earphone Problems
START
Step 1:
Replace Slider Flex Module and retest the Phone
If successful claim Slider Flex Module
START
Step 1:
Use TRS Fixture
Use Fault Trace SW
Step 2:
Replace PBA Key Navi and retest the Phone
If successful claim PBA Key Navi
TROUBLESHOOTING
Step 2:
Continue with the
Microphone Problems TRS guide
Step 3:
Use TRS Fixture
Use Fault Trace SW
Use Hands-Free (PHF) and continue with the
Earphone Problems TRS guide
Audio and FM Radio
Audio Loop Test
Audio Input: AUX1
Loop Mode: Analog
Audio Output: Earphone
Apply Audio Loop
Audio and FM Radio
Audio Loop Test
Audio Input: Mic1
Loop Mode: Analog
Audio Output: Loudspeaker
Apply Audio Loop
2: Remove the DCIO/SEPI Cable from the PBA
and Insert the Hands-Free (PHF) set to the PBA
2.2 Volt DC at
MP 87 (L3122)
No
Disconnect:
VBATT and DCIO/SEPI
2.6 Volt DC
at MP 66 (R2306) and
MP 67 (R2301)
Is
L3122 = Max 1.5 Ohm
No
Yes
Yes
SL 5 Replace
N2000
SL 4 Escalate
Yes
0.7V – 1V DC at
MP 86 (L3120)
SL 5 Replace
L3122
SL 4 Escalate
Yes
More than
100 mV AC Pk-Pk
at MP 39 (TP3104) and
MP 42 (TP3105) when
blowing into
PHF mic
SL 4 Replace
B3100
SL 5 Replace
N2000
No
SL 5 Replace
N2000
SL 4 Escalate
No
Yes
No
Disconnect:
VBATT and DCIO/SEPI
Is
L3120 = Max 1.5 Ohm
L3101 = Max 1.5 Ohm
Yes
No
SL 5 Replace
L3122 or L3101
SL 4 Escalate
Replace
X4200
Replace
B3100
1225-4035 rev. 1
22 (122)
TROUBLESHOOTING
Loudspeaker Problems - Handsfree (PHF) Problems
Hands-Free (PHF) Problems
Loudspeaker Problems
Replace
N2422
START
SL 5 Replace
N2010
SL 4 Escalate
1: Audio and FM Radio
FM Radio
Frequency: 103 MHz
Set Fm Radio
EMMA SUCR SW
SL 5 Replace
R2437
SL 4 Escalate
2.6 Volt DC
at MP 66 (R2306) and
MP 67 (R2301)
No
Is the
Result
GPIO_06 = HIGH
0 Volt DC
at MP 122 (R2437)
SL 5 Replace
N2000
SL 4 Escalate
Blow into the
Hands-Free (PHF) Mic
No
No
No
0 Volt DC
at MP 10
(V2417_Cathode)
Yes
SL 4 Replace
N3100
SL 5 Replace
N2010
Can you
hear anything at
PHF earphone when
blowing into the
PHF Mic
No
No
Replace
X2405 or N3101
Are
L2401, L2402
L2453 and L2455
= Max 2 Ohm
Disconnect:
VBATT and DCIO/SEPI
Disconnect:
Hnds-Free (PHF) Set
No
SL 5 Replace
N2000
SL 4 Escalate
No
2: Remove the PBA from the TRS Fixture
Replace
N3100
Is X3102
damaged
Yes
No
Yes
No
More than
100 mV AC Pk-Pk at
MP 74 (C3149) and MP 77
(C3150) when blowing
into the PHF mic
Yes
1: Disconnect:
Customized FM Radio Cable and VBATT
Replace
X3102
More than
100 mV AC Pk-Pk
at MP 76 (C3124), MP 75
(C3125), MP 69 (C3155) and
MP 78 (C3156) when blowing
into the PHF mic
Yes
Yes
Yes
Is
L3103, L3104
L3110, L3111, L3113
and L3114
= Max 1 Ohm
2V – 2.2V DC at
MP 68 (R3156)
Yes
SL 4 Replace
L2401 or L2402
SL 5 Replace
L2453 or L2455
No
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
Is any of
MP 44 (X3102_Pin 1)
or MP 45 (X3102_Pin 2)
Short circuit to the GND
(Shield Can
Fence)
2.6 Volt DC
at MP 125 (R2434)
Yes
Replace
V2417
Yes
Yes
Step 2:
Use TRS Fixture
Use Fault Trace SW
Remove the DCIO/SEPI cable
and Insert Hands-Free (PHF) set
Signal Generator
Frequency: 103 MHz
Amplitude/Level: 50μV
FM Dev:
+/-22.5 kHz
FM Rate: 1kHz
More than
40 mV AC Pk-PK
1 KHz signal at
MP 56 (C3137) and
MP 55 (C3148)
Audio and FM Radio
Audio Loop Test
Audio Input: AUX1
Loop Mode: Analog
Audio Output: AUX Earphone
Apply Audio Loop
Yes
Remove: DCIO/SEPI Cable
Connect: Customized FM Radio Cable
Black Lab Plug to TRS Fixture GND Input
and PHF Connector to the
Phone System Connector
No
No
No
(Info: Read Out GPIO_06 value)
Step 1:
Perform
Use Fault trace SW and go to:
1.8 Volt DC
at MP 41 (SP2432)
2: Logic
GPIO Manager
Application
GPIO-Read: GPIO_06
Continue with the Loudspeaker Problems TRS guide
Yes
START
Replace
L2403, L2404
L2405 or L2408
SL 5 Replace
L3103, L3104
L3110, L3111
L3113 or L3114
SL 4 Escalate
No
Are
L2403, L2404
L2405 and L2408
= Max 2 Ohm
Disconnect:
VBATT and DCIO/SEPI
Yes
Replace
L2406
No
Is
L2406 = Max 0.5 Ohm
No
More than
100 mV AC Pk-Pk at
MP 8 (L2403) and MP 9
(L2404) when blowing
into the PHF mic
Yes
Yes
Replace
X2405 or N3101
Replace
X2405
1225-4035 rev. 1
23 (122)
TROUBLESHOOTING
Step 2:
Use TRS Fixture
Use Signal Generator Instrument
Use Fault Trace SW
SL 4 Replace
V3101 or N3100
SL 5 Replace
C3109 or C3111
Yes
Use Fault trace SW and go to:
Step 1:
Replace Loudspeaker and retest the Phone
If successful claim Loudspeaker
SL 4 Replace
N3100
SL 5 Replace
N2000
G705 - W705 - W715
TROUBLESHOOTING
FM Radio Problems - FM Radio Antenna Problems
G705 - W705 - W715
FM Radio Antenna Problems
FM Radio Problems
START
START
NOTE !
Be very careful when cutting the
Shield Can Fence to avoid component damage
Go to
Loudspeaker
Problems TRS guide
Is the
Loudspeaker
Ok
No
No
Is the
FM Radio Problems
TRS guide
finished?
FM Radio Is not
working neither with
Loudspeaker nor with
PHF set
No
Go to
FM Radio Problems
TRS guide
Yes
SL 5 Replace
C3306
SL 4 Escalate
No
Replace
X2405
Yes
Go to
Hands-Free (PHF)
Problems TRS guide
Yes
Yes
Replace
R2451
1: Remove the DCIO/SEPI Cable
2: Connect:
Customized FM Radio Cable
Black Lab Plug to
TRS Fixture GND Input and
PHF Connector to the
Phone System Connector
No
Is
R2451 = Max 1 Ohm
Use the
Digital Multimeter Instrument (DMM)
for these measurements
2: Use TRS Fixture
Connect:
VBATT and DCIO/SEPI
Yes
Audio and FM Radio
FM Radio
Frequency: 103 MHz
Set Fm Radio
Signal Generator
Frequency: 103 MHz
Amplitude/Level: 50 μV
FM Dev:
+/-22.5 kHz
FM Rate: 1 kHz
SL 5 Replace
L3300
SL 4 Escalate
No
Is
L3300 = Max 1 Ohm
Yes
Is C3306
Short Circuit
No
SL 5 Replace
N2000
SL 4 Escalate
Yes
More than
40 mV AC Pk-Pk
1 KHz signal at MP 106
(C3145) and
MP 105 (C3146)
No
Replace
N1300
Signal Generator
Change Amplitude/Level to:
800 μV
Yes
(Shield Can
Fence)
Is the
Signal
Ok
SL 5 Replace
C3145 or C3146
SL 4 Escalate
Yes
Is any of
C3145 or C3146
Short circuit
No
Is there
any signal on
MP 106 (C3145) and
MP 105 (C3146)
Yes
Go to
FM Radio Antenna
Problems TRS guide
Is MP 7
(X2405_Pin 2)
Connected to GND
No
Yes
SL 5 Replace
V2413
SL 4 Escalate
Claim Component
N1300
No
SL 4 Replace
N1300
SL 5 Replace
N2010
No
1.8 Volt DC
at MP 5 (R3302
FM_INT)
Yes
SL 4 Replace
N1300
SL 5 Replace
N2100
1225-4035 rev. 1
24 (122)
TROUBLESHOOTING
Perform System Connector Protection Test
If successful continue with the
FM Radio Antenna Problems TRS guide
TROUBLESHOOTING
Bluetooth Problems - WLAN Problems
Bluetooth Problems
G705 - W705 - W715
WLAN Problems
START
Spectrum Analyzer
2: Use TRS Fixture
Connect:
VBATT and DCIO/SEPI
3: Connect RF Cable Flexible
with SMK RF Probe to the
Spectrum Analyzer instrument
4: Use Fault Trace SW
Frequency: 2402 MHz
Span: 10 MHz
Amplitude: 10 dBm
Use Peak Search (MKR)
Connect SMK RF Probe to
X1500 RF Connector on PBA
Step 1:
EMMA SUCR SW
Fault trace SW Settings:
TX and RX
Bluetooth
Channel 0
Set MaxPwr MOD 0
Replace
X1500
Step 1:
EMMA SUCR SW
Max
0.5 Ohm between
MP 107 (X1500_Pin 1)
and MP 109
(X1500_Pin 2)
No
TROUBLESHOOTING
Step 2:
Continue with the
Bluetooth Problems TRS guide
START
Step 2:
Continue with the
WLAN Problems TRS guide
Yes
Max
0.5 Ohm between
MP 107 (X1500_Pin 1)
and MP 109
(X1500_Pin 2)
Yes
NOTE!
MODE 0 Frequency is
2401.84 MHz
(±0.05 MHz)
Yes
Is the
Blt MaxPwr MOD 0
1 dBm
(±3 dBm)
TX and RX
Bluetooth
Channel 0
Turn Off
(This must be done before the
next step)
Set MaxPwr MOD 1
No
No
Spectrum Analyzer
2: Use TRS Fixture
Connect:
VBATT and DCIO/SEPI
3: Connect RF Cable Flexible
with SMK RF Probe to
4: Use Fault Trace SW
Replace
X1500
Frequency: 2442 MHz
Span: 10 MHz
Amplitude: 20 dBm
Connect
SMK RF Probe to
X1500 RF Connector on PBA
Disconnect the SMK RF Probe
and connect RF Probe to the
Replace
Cover Lower Rear
Sub Assembly
(WLAN/BT Antenna)
NOTE! Do not use 10:1 Divider
Frequency: 2402 MHz
Span: 10 MHz
Amplitude: 10 dBm
NOTE!
MODE 1 Frequency is
2402.14 MHZ
(±0.05 MHz)
TX and RX
WLAN
Wlan Settings
WLAN Turn On
Yes
Is the
WLAN
TX Output Power
7 dBm
(±5 dBm)
No
Check the Following Voltages:
No
Is the
Blt MaxPwr MOD 1
1 dBm
(±3 dBm)
3 dBm
at MP C1502
BT_ANT
(± 5 dBm)
Yes
No
Replace
N1300
Is
MOD 1 Freq.
minimum 230 KHz
higher than
MOD 0 Freq.
No
Replace
Cover Lower Rear
Sub Assembly
or N1300
SL 4 Replace
N1300
SL 5 Replace
N2100
SL 5 Replace
N2010
SL 4 Escalate
-1 dBm at
MP 2 (W1300_Pin 3)
and MP 3
(W1300_Pin 4)
(±5 dBm)
Yes
Yes
Replace
N1510
Yes
2.7 Volt DC at
MP 4 (C1302
VBT27)
Are all
Voltages
Ok
Yes
3.3V – 3.4V DC at MP 1 (R1516)
1.8V DC at MP 120 (R1503)
3.0V DC at MP 19 (R1523)
1.9V DC at MP 22 (R1501)
No
Yes
SL 4 Replace
N2300
SL 5 Replace
N2010
SL 5 Replace
W1300
SL 4 Escalate
SL 5 Replace
N1500
SL 4 Escalate
No
26 MHz Signal
At MP 98 (R2121
BT_CLK)
No
Yes
SL 4 Replace
N1510
SL 5 Replace
N1500
No
SL 4 Replace
N1300
SL 5 Replace
N2000
Claim Componenet
N1500
SL 5 Replace
V2100 or N2010
SL 4 Escalate
1.8 Volt DC at
MP 58 (R2313
WLAN_PDn)
No
Yes
Is the
WLAN problem
solved
Yes
No
1225-4035 rev. 1
25 (122)
TROUBLESHOOTING
GSM Problems
G705 - W705 - W715
GSM Network Problems
START
Step 1:
Replace Cover Lower Rear Sub Assembly and retest the Phone
If successful claim Cover Lower Rear Sub Assembly
TROUBLESHOOTING
Step 2:
Perform SERP Calibration and retest the Phone
If successful claim SERP Calibration
Step 3:
Disassembly the Phone and continue with the
GSM Network Problems TRS guide
Replace
Faulty Component
No
Are
X1000,X1001,
X1002,X1003,X1004 and
X1005 connected to GND
(Shield Can
Fence)
Yes
Max 0.5
Ohm between
MP 96 (X1200_Pin 1) and
MP 93 (X1200_Pin 2)
No
Replace
X1200
No
SL 5 Replace
R1220, L1205,
R1204 or R1206
SL 4 Escalate
Yes
Claim Component
N1200
Yes
SL 5 Replace
L1207 or L1212
SL 4 Escalate
No
Are
L1207 and L1212
Max 0.5 Ohm
Yes
Max 0.5 Ohm
between MP 79 (R1206)
and MP 93
(X1200_Pin 2)
Yes
SL 5 Replace
N2000
SL 4 Escalate
No
Use TRS Fixture
Connect:
VBATT and DCIO/SEPI
2.8 Volt DC at
MP 64 (C1218
LDOA_OUT)
Yes
Replace
N1211
No
2.8V DC
at MP 99 (C1207)
Yes
Replace
N1200
Go to
SERP Calibration
Is the
GSM Network
Problem
solved
No
SL 5 Replace
N2010 or N2000
SL 4 Escalate
1225-4035 rev. 1
26 (122)
TROUBLESHOOTING
WCDMA Problems
G705 - W705 - W715
WCDMA BAND VIII Network Problems
WCDMA BAND I,II,V Network Problems
START
START
NOTE !
This TRS guide is ONLY valid for G705, W705 and W715
phones with support for WCDMA BAND I, II or V.
NOTE !
This TRS guide is ONLY valid for G705, W705 and W715
phones with support for WCDMA BAND VIII.
Step 1:
Step 2:
Use TRS Fixture
Use Fault Trace SW
Go to
GSM Network
Problems TRS guide
Is the
GSM Network
Ok
No
Step 2:
Use TRS Fixture
Use Fault Trace SW
Go to
GSM Network
Problems TRS guide
Is the
GSM Network
Ok
No
Yes
Replace
N1200
Is the
Problem with
WCDMA TX
No
Yes
Fault Trace SW
TX and RX WCDMA
Radio Settings:
Select Band: BAND I
Fast select channels:
Set Low Channel
Ch LOW
Modes: Max Pwr 23dBm
Yes
Go to
SERP Calibration
Replace
N1200
2.5V – 3V DC at
MP 100 (C1215
Yes
Yes
WPA_A_EN)
Replace
N1210
3V – 3.8V DC at
MP 102 (C1206
Replace
N1200
No
Is the
Problem with
WCDMA TX
Yes
2.8V - 3V DC at
MP 127 (C1214
No
Yes
Fault Trace SW
TX and RX WCDMA
Radio Settings:
Select Band: BAND VIII
Fast select channels:
Set Low Channel
Ch LOW
Yes
Go to
SERP Calibration
Replace
N1200
Yes
WPA_C_EN)
VCC_WPA)
No
Disconnect:
VBATT and DCIO/SEPI
TROUBLESHOOTING
Step 1:
Replace
N1210
VCC_WPA)
No
No
Disconnect:
VBATT and DCIO/SEPI
1.8 Volt DC at
MP 101 (R1210
3V – 3.8V DC at
MP 102 (C1206
Yes
1.8 Volt DC at
MP 126 (R1209
WPA2_EN)
WPA0_EN)
No
No
SL 5 Replace
L1200
SL 4 Escalate
Is
L1200 = Max 0.5 Ohm
No
SL 5 Replace
N2010
SL 4 Escalate
SL 5 Replace
L1200
SL 4 Escalate
No
Replace
N1210
Replace
N1210
Is
L1200 = Max 0.5 Ohm
SL 5 Replace
N2010
SL 4 Escalate
Yes
Yes
Is the
WCDMA TX
Problem solved
No
SL 5 Replace
N2010 or N2000
SL 4 Escalate
Is the
WCDMA TX
Problem solved
No
Yes
Yes
Claim Component
N1210
SL 5 Replace
N2010 or N2000
SL 4 Escalate
Claim Component
N1210
1225-4035 rev. 1
27 (122)
TROUBLESHOOTING
A-GPS Problems
A-GPS Problems part 2
A-GPS Problems part 1
START
START
NOTE !
This TRS guide is NOT valid for W705 Phones.
NOTE !
This TRS guide is NOT valid for W705 Phones.
Step 1:
Flash the Phone with EMMA SUCR SW and retest the Phone
NOTE !
Before following this guide the A-GPS Problems part 1
TRS guide must be finished!
Step 3:
Use TRS Fixture
General
Asic Revisions
Read All
Is the
A-GPS (N1400)
Asic Revision Test
Ok
Yes
Go to
A-GPS Problems
part 2
No
SL 5 Replace
N2010
SL 4 Escalate
Use Spectrum Analyzer Instrument
Spectrum Analyzer Instrument Settings:
Frequency: 1574.2 MHz
Span: 10 MHz
Amplitude: -20 dBm
Tx and Rx
GPS
GPS Settings
Turn On GPS
NOTE !
Do not use 10:1 Divider
TROUBLESHOOTING
Step 2:
Replace Cover Lower Rear Sub Assembly and retest the Phone
If successful claim Cover Lower Rear Sub Assembly
G705 - W705 - W715
No
1: Use Signal Generator Instrument
1.8 Volt DC at
MP 92 (R2315
AGPS_LDO_EN)
2: Connect RF Cable Flexible from the Signal Generator
Instrument to the
GPS Antenna RF Switch on the TRS Fixture
Yes
Signal Generator
1577.4 MHz
-67 dBm signal at
MP 90 (L1403)
(±0.2 MHz)
(±10 dBm)
No
Replace
N1400
1574.2 MHz
-63 dBm signal at
MP 90 (L1403)
(±3 dBm)
Yes
SL 4 Replace
N1400
SL 5 Replace
N2010
No
Replace
N1400
Yes
SL 4 Replace
N1410
SL 5 Replace
Z1401
Amplitude/Level: -70 dBm
Yes
2 Volt DC at
MP 91 (R1418
VAGPS20)
No
SL 5 Replace
N2310
SL 4 Escalate
Use Spectrum Analyzer Instrument
Spectrum Analyzer Instrument Settings:
Span: 10 MHz
Amplitude: -20 dBm
Yes
2.8 Volt DC at
MP 95 (R1419
VAGPS28)
No
SL 5 Replace
N2311
SL 4 Escalate
NOTE !
Do not use 10:1 Divider
No
1.6V – 1.8V DC
at MP 123 (C1407
POWER_ON_CONTROL)
Yes
26 MHz at
MP 84 (R1414
AGPS_CLK)
No
SL 5 Replace
N2101 or N2010
SL 4 Escalate
Yes
1574.2 MHz
-70 dBm signal at
MP 124 (C1402)
(±3 dBm)
Yes
27 MHz at
MP 85 (R1404)
No
Yes
Replace
B1400
SL 4 Replace
N1400
SL 5 Replace
N2010
No
SL 5 Replace
Z1400
SL 4 Escalate
1225-4035 rev. 1
28 (122)
TROUBLESHOOTING
Accelerometer Problems - Vibrator Problems
G705 - W705 - W715
Accelerometer Problems
Vibrator Problems
START
START
Step 1:
Step 1:
Got to Service Tests Menu and perform
the Accelerometer Test
If successful
Step 2:
Use Dummy Battery connected to
Connect: DCIO/SEPI
Use Fault Trace SW
Fault Trace SW
General
Asic Revisions
Read All
TROUBLESHOOTING
Step 2:
Use TRS Fixture
MMI
Misc
Init Screen Testing
Activate:
Vibrator Test
Replace
B2000
Yes
Is
Accelerometer
(N2411)
Asic Revision
0x3b
Replace
N2411
No
Is MP 25, 29
(B2000_Pin 2 and 3)
Connected to PBA GND
(Shield Can Fence)
Remove the PBA
from the TRS Fixture
2.7V – 3.5V
Pk-Pk Pulses DC at
MP 24 (TP4203)
Yes
No
No
Yes
Fault Trace SW
MMI
Misc
Init Screen Testing
Activate:
Accelerometer Test
Move the Phone and
Activate
Accelerometer Test again
NOTE! Read X, Y and Z information
in the Info Box.
NOTE! Repeat this Test Sequence
10 Times
NOTE! Read X, Y, Z information in
the Info Box.
EMMA SUCR SW
Yes
No
Is the
Accelerometer
Problem solved
Yes
No
Scrap the
PBA
Remove the PBA
from the TRS Fixture
SL 5 Replace
L4202
SL 4 Escalate
SL 5 Replace
C4208 or C2003
SL 4 Escalate
Is any of
C4208 or C2003
Short circuit
Yes
No
Replace
N2411
SL 5 Replace
N2010
SL 4 Escalate
Can
you see
that X, Y and Z
information are
changing in the
info box
Is
L4202 = Max 1.5 Ohm
No
SL 5 Replace
L4201
SL 4 Escalate
Yes
Claim Component
N2411
SL 5 Replace
N2000
SL 4 Escalate
Is
L4201 = Max 1.5 Ohm
No
Yes
1225-4035 rev. 1
29 (122)
TROUBLESHOOTING
Real Time Clock Problems
Real Time Clock Problems - Slide Sensor Problems
G705 - W705 - W715
Slide Sensor Problems
START
START
TROUBLESHOOTING
Step 1:
Replace Magnet and retest the Phone
If successful claim Magnet
Step 2:
Replace Hinge Slider Sub Assembly and retest the Phone
If successful claim Hinge Slider Sub Assembly
Step 3:
Continue with the
Slide Sensor Problems TRS guide
Does
the Phone
Gain or Lose
Time
Yes
SL 4 Replace
B4410
SL 5 Replace
N2010
Perform:
SERP Calibration
Is there
still problems with
Gaining or Losing
Time
No
Perform:
Backup Capacitor
Test
No
Yes
Is the
Test Passed
Yes
No
Claim
SERP Calibration
Replace
B2100
EMMA SUCR SW
SL 4 Replace
C2214
SL 5 Replace
N2000
1225-4035 rev. 1
30 (122)
TROUBLESHOOTING
System Connector Protection Test - Current Consumption Test
G705 - W705 - W715
Perform the Ohm measurements by using the DMM instrument (Fluke).
Note! The Battery must be removed from the Phone during this test.
Note! Connect the Black probe to the X2405_PIN 9 (GND).
Step 1:
Insert a Local SIM Card and use the phone with the Normal SW (SSW).
Use Dummy Battery connected to Power Supply Channel 1 (VBATT).
Instrument settings: Voltage: 3.8 Volt, Limiter 3A.
TROUBLESHOOTING
Note! The Dummy Battery should have approximately 120K Ohm resistance between GND
and BDATA.
Measure the current consumption when Phone is turned off.
Take a note of the current consumption at Power Supply Channel 1 (VBATT).
The Current consumption in off mode should be less than 1mA.
If more than 1mA go to Dead Phone Problems part 1 TRS guide.
Step 2:
Turn the Phone On:
Measure the deep sleep current max 6mA typical between 0-3mA. Make sure that the
operator is running with deep sleep mode.
Note! This operation can be switched off by operator if network is busy or heavily loaded.
PIN_1
PIN_9 GND
PIN_12
System Conn.
X2405
(PIN Position)
Ohm
Measurements
(Ohm)
SL 4
(Repair Action)
1
0L
X2405
L2452
N2421 if lower
2
0
X2405 if higher
L2406 if higher
3
10k - 12k
4
0.9k – 1.1k
5
0.9k – 1.1k
6
0.9k – 1.1k
7
0L
8
400k – 700k
9
GND
10
35k – 0L
11
250k – 360k
12
85k – 110k
X2405 if higher
L2401 if higher
N3101 if lower or higher
X2405 if higher
L2402 if higher
X2405 if higher
L2403 if higher
L2408 if higher
X2405 if higher
L2404 if higher
L2405 if higher
Not Connected
X2405 if higher
V2417 if lower
X2405 if higher
R2449 if higher
X2405
Z2400
V2416 if lower
N2420 if lower
X2405 if higher
Z2400 if higher
V2415 if lower
R2490 if higher
V2202 if lower
If the phone is using more than 6mA, then go to EMMA and run Software Update Contents
Refresh (SUCR SW).
SL 5
(Repair Action)
C2439 if lower
No Action
L2453 if higher
C2443 if lower
L2455 if higher
C2442 if lower
C2448 if lower
Step 3 with Fault Trace SW application:
-
Flash the phone with ITP SW
Use Dummy Battery connected to the Power Supply Channel 1 (VBATT)
Use Fault Trace SW
-
Connect Dummy Battery connected to the Power Supply Channel 1 (VBATT):
Instrument settings: Voltage: 3.8 Volt, Limiter 3 A
-
Connect DCIO/SEPI to the phone:
Instrument settings: Voltage: 5 Volt, Limiter 2 A
Perform the following tests:
-
C2447 if lower
Max TX Power GSM 850 MHz
Fault Trace SW settings:
TX and RX GSM
GSM Mode Settings:
TX Switched
GSM Radio Settings:
Select Band: GSM 850
Channel: 128
Power Level: 5
Not Connected
R2434 if higher
R2437 if higher
No Action
R2445
R2446 if higher
-
Limits GSM 850 MHz
Transmitter Current Limits: 200mA - 270mA
Tolerance: ±20%
C2440 if lower
C2441 if lower
1225-4035 rev. 1
31 (122)
TROUBLESHOOTING
-
Max TX Power GSM 900 MHz
-
TX and RX GSM
GSM Mode Settings:
TX Switched
GSM Radio Settings:
Select Band: GSM 900
Channel: 1
Power Level: 5
-
Max TX Power DCS 1800 MHz
TX and RX GSM
GSM Mode Settings:
TX Switched
GSM Radio Settings:
Select Band: DCS 1800
Channel: 512
Power Level: 0
-
Limits DCS 1800 MHz
Transmitter Current Limits: 190mA – 240mA
Tolerance: ±20%
-
Max TX Power PCS 1900 MHz
TX and RX GSM
GSM Mode Settings:
TX Switched
GSM Radio Settings:
Select Band: PCS 1900
Channel: 512
Power Level: 0
-
Limits PCS 1900 MHz
Tolerance: ±20%
Max TX Power WCDMA BAND I
Note! Applies only for G705, W705 and W715 that has WCDMA BAND I support.
TX and RX WCDMA
Radio Settings:
Select Band: BAND I
Fast Select Channels: Ch LOW
-
Max TX Power WCDMA BAND II
TX and RX WCDMA
Radio Settings:
Select Band: BAND I
-
TROUBLESHOOTING
-
Limits GSM 900 MHz
Transmitter Current Limits: 250mA - 330mA
Tolerance: ±20%
G705 - W705 - W715
Limits WCDMA BAND I
Tolerance: ±20%
Max TX Power WCDMA BAND V
TX and RX WCDMA
Radio Settings:
Select Band: BAND I
-
Limits WCDMA BAND I
Transmitter current: 500mA - 550mA
Tolerance: ±20%
Max TX Power WCDMA BAND VIII
TX and RX WCDMA
Radio Settings:
Select Band: BAND I
-
Limits WCDMA BAND I
Transmitter current: 550mA – 1000mA
Tolerance: ±20%
If the current consumption is out of the test limits then try to solve the problem by running
SERP Calibration.
If there are still problems with the current consumption then go to the following TRS guides:
GSM Network problems,
WCDMA I, II, V Network Problems or
WCDMA VIII Network Problems
If the current consumption is within the test limits then go to: Charging Test.
Limits WCDMA BAND I
Tolerance: ±20%
1225-4035 rev. 1
32 (122)
TROUBLESHOOTING
Backup Capacitor Test - Charging Test
Charging Test
Backup Capacitor Test
To perform this test use:
-
Phone with the ITP SW
-
Power Supply Channel 1 VBATT: Instrument settings: Voltage: 3.8V, Limiter: 2A
-
G705 - W705 - W715
Phone with the Normal SW (SSW)
-
Dummy Battery connected to Power Supply Channel 1 (VBATT)
Note! The Dummy Battery should have approximately 120K Ohm resistance between GND
and BDATA.
-
Instrument settings:
Voltage: from 3.0 Volt to 4.2 Volt, according to the VBATT row in the Reference Table below.
Limiter: 2A
-
Power Supply Channel 2 (DCIO/SEPI)
Instrument settings:
Voltage: 5V
Limiter: 2A
Power Supply Channel 2 DCIO/SEPI: Instrument settings Voltage: 5V, Limiter: 2A
This test should be performed in 3 steps:
Step1:
Measure the voltage at the Backup capacitor by using Fault Trace SW - Logic - ADC Values – Read
ADC Value (Reading 1).
Step2:
This step should be made 30 seconds after Step 1. Measure the voltage at the Backup capacitor by
using Fault Trace SW - Logic – ADC Values - ADC Channels – Read ADC Value (Reading 2).
Test instructions:
Step3:
-
Compare the difference between Reading 1 and Reading 2 with the reference table below. If the
Reading 1 value is between 50 and 680 go to Interval 1, if between 681 and 800 go to Interval 2, if
between 801 and 880 go to Interval 3 and compare with the Reading 2 – Reading 1 Min and Max
Limits.
-
-
Reference Table:
TROUBLESHOOTING
-
Disconnect the DCIO/SEPI Cable between each measurement and wait for phone shutdown
when changing VBATT voltage.
Take a note of the Current measurements at Power Supply Channel 2 DCIO/SEPI and
Display charging indicator X seconds after DCIO/SEPI cable has been inserted according to
the Test Time row in the reference table below.
Compare the test results with the reference table below, tolerance +/-20%.
Reference Table
Min
Absolute readout
Reading 1
Reading 1 (Dec)
Max
50
880
Unit
Dec
VBATT x
Volt
Test Time x
sec.
DCIO/SEPI
Current mA
Display
indicate
charging
3.0
3.1
3.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
4.0
4.1
4.2
15s
15s
25s
25s
30s
30s
30s
30s
30s
30s
30s
30s
25s-45s
250
250
250-500
500
600
600700
7501200
8001200
8001200
8001200
7001000
Nothing
Nothing
Yes or
Nothing
Yes
Yes
Yes
Yes
Yes
Yes
Yes
Yes
400900
Yes or
Fully
Charged
0
Fully
Charged
Reading 2 – Reading 1 (Dec)
Note! The Power Supply Channel 1 (VBATT) must allow reverse current.
Min
Max
20
210
Interval 2 (681 – 800)
5
30
If the charging current is equal to reference table then insert the normal battery and test the
charging current to define if the phone battery is working properly.
Interval 3 (801 – 880)
0
10
Measure the voltage at the battery to define the current level.
If the battery is receiving the right current, then the phone and the battery are working properly.
Interval 1 (50 – 680)
If the charging current is NOT equal to the reference table then go to:
Charging Problems TRS Guide.
Note! The upper table contains the absolute limits for the readouts. The lower table contains the
allowed delta between the first and the second readout, separated in time with 30 seconds.
Note! If the readings are out of limits then replace the C2214 (Backup Capacitor). If the problem is
not solved then SL 5 Replace N2000 SL 4 Escalate.
1225-4035 rev. 1
33 (122)
TROUBLESHOOTING
ASIC Revision Test
G705 - W705 - W715
ASIC Revision Test
Note! The Keypad Scan Test may not be activated when performing this test.
Purpose:
-
Verify that the ASICs are correctly mounted, that the communication works
and that the revisions are correct.
TROUBLESHOOTING
The tested ASICs are:
-
D2010
N2000
N1300
N2411
N1400
(Kajsa)
(Vera)
(Bluetooth and FM Radio ASIC)
(Accelerometer)
(A-GPS Module)
-
Phone with the ITP SW
TRS Fixture
Power Supply Channel 1 VBATT (Voltage: 3.8V, Limiter: 2A)
Power supply Channel 2 DCIO/SEPI (Voltage: 5V, Limiter: 2A)
Fault Trace SW and go to: General – Asic Revisions – Read All
Reference Table:
ASIC
Part
number
Description
Return value (hex)
N2010
1208-3871
CPU (Kajsa)
0xE8
N2000
1202-0639
Power Management
(Vera)
0xC8
Bluetooth
N1300
1200-6182
Firmware Revision
Ox5,0x3
Chip ID
0x0,0x0,0x0,0x0
Will always return 0 on STLC because Chip ID is
not supported.
N2411
1202-1676
Accelerometer
0x3b
N1400
1200-0700
A-GPS Module
254,0,253,192,0,242,113,9,16,252
Note! This test is not valid for the W705 Phone.
N1300
1200-6182
FM Radio
When FM Radio is On: Ox1253
When FM Radio is Off: Ox1200
1225-4035 rev. 1
34 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 2, 3 (W1300 Pind 3 and 4)
MP 8 (L2403), MP 9 (L2404), MP 69 (C3155), MP 74 (C3149), MP 75
(C3125), MP 76 (C3124), MP 77 (C3150) and MP 78 (C3156)
Note: This is an example! The shape of the signal can be different.
1225-4035 rev. 1
35 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 24 (TP4203)
MP 30 (C1502 BT_ANT)
1225-4035 rev. 1
36 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 31 (R2282 CAM_LDO_EN)
MP 32 (R4303 CAMSYSCLK)
1225-4035 rev. 1
37 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 35 (SP2410)
MP 36 (TP4200)
1225-4035 rev. 1
38 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 39 (TP3104) and MP 42 (TP3105)
MP 43 (TP2203 VOPTO30)
Note: This is an example! The shape of the signal can be different.
1225-4035 rev. 1
39 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 55 (C3148) and MP 56 (C3137)
MP 84 (R1414 AGPS_CLK)
1225-4035 rev. 1
40 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 85 (R1404) 27 MHz
MP 90 (L1403) 1574.2 MHz, -63 dBm
1225-4035 rev. 1
41 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 90 (L1403) 1577.4 MHz, -67 dBm
MP 97 (R2102 MCLK)
1225-4035 rev. 1
42 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 98 (R2121 BT_CLK)
MP 105 (C3146) and MP 106 (C3145)
1225-4035 rev. 1
43 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 110 (R2410 SIMCLK)
MP 112 (R4200)
1225-4035 rev. 1
44 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 118 (C2100)
MP 119 (C2101)
1225-4035 rev. 1
45 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
MP 121 (R2103 RTCCLK)
MP 124 (C1402) 1574.2 MHz, -70 dBm
1225-4035 rev. 1
46 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
Blt MaxPwr MOD 0
Blt MaxPwr MOD 1
1225-4035 rev. 1
47 (122)
TROUBLESHOOTING
G705 - W705 - W715
TROUBLESHOOTING
WLAN TX Output Power
1225-4035 rev. 1
48 (122)
C4334
MP 24
MP 25
MP 26
L4202
MP 27
C4332
MP 28
V4202
MP 29
C 2 2 83
C 2 2 84
C4331
C4336
MP 30
R 15 2 7
R 15 17
SP1507
R 15 2 9
R 15 3 6
C 2 2 81
MP 31
C2234
R 15 2 8
C2201
C4308
MP 32
MP 33
MP 34
MP 35
C2203
C2202
MP 36
MP 37
MP 38
MP 39
MP 40
MP 41
MP 42
R 2 2 12
C 2 2 87
C4333
C4337
MP 43
MP 44
TP3104
TP2214
TP2213
TP4201
TP4200
R3304
SP5103
SP5102
SP5107
SP2435
SP1303
TP3103
SP5105
R4230
TP2203
TP3105
SP4300
SP1505
SP1301
SP1304
SP5104
SP5106
SP3206
TP3102
MP 22
SP1302
SP3204
SP3213
R2432
SP2410
SP2103
SP3207
X2402
SP2105
MP 21
SP1305
SP1500
SP3209
R2435
MP 20
SP3214
MP 19
SP2104
MP 18
SP2107
V2402
SP3205
MP 17
SP2102
SP3208
C2403
C2417
R2490
R2449
R2448
L2404
L2403
MP 16
SP2411
L2405
V2417
L2401
L2402
MP 15
SP2106
SP1503
TP2204
C2407
V2483
C2419
C2418
C2416
L2455
L2408
V2477
C2447
C2448
C2442
R2451
MP 14
TP2202
R2200
C 15 2 8
X2201
V2200
R1501
C1524
R1510
C3304
C2200
N1500
C1527
C1526
C1303
E1001
C1525
R1522
R1507
R1301
C2441
SP2432
R1525
R1521
R1523
R1515
C1523
C1504
R1509
R1508
C1520
R1505
R1506
C1519
C1505
R1502
C2420
TP2201
R 15 11
R1504
R1519
C 15 0 0 C 15 17
C2440
MP 13
TP1211
L4201
R1518
L 15 3 0
C1518
C3306
SP1501
SP1502
C 15 0 6
L 15 3 1
C2451
MP 12
TP1210
R2210
R2004
R 13 10
C2452
MP 11
R2282
R 15 12
C 13 0 0
C1521
W1300
C1522
N1300
MP 10
N2203
R1513
R 13 11
C1516
R1313
L2453
V2413
MP 9
C2282
R2281
L1501
C 15 0 7
SP1504
C1508
MP 8
C1515
C1513
L3300
C2443
L1511
R1520
L2406
C1514
C 13 0 1
R1514
C1509
C3305
SP1506
N1510
C1532
C1512
C2003
R1516
C2002
C2001
C1302
R1312
R1300
MP 7
R2211
C4335
R1535
R3302
X4300
C4304
R1533
MP 6
C4301
C4320
C1502
C1510
R1534
TP1530
MP 5
R4302
C4330
TP2215
B2000
S2404
MP 4
TP4203
L2409
MP 3
C2415
MEASUREMENT POINTS
V2480
MP 2
TP1401
MP 1
TP1400
MEASUREMENT POINTS
Primary Side
G705 - W705 - W715
MP 23
X2405
C2438
C2444
X3102
N2204
C 2 2 86
R4303
C4339
C4340
C4338
MP 45
1225-4035 rev. 1
49 (122)
MEASUREMENT POINTS
Z4202
8
7
6
5
MP 49
MP 50
MP 51
MP 52
MP 53
MP 58
MP 59
MP 60
MP 61
MP 62
MP 63
MP 64
MP 65
MP 66
MP 67
MP 68
MP 69
MP 70
MP 71
MP 72
MP 73
MP 74
MP 75
MP 76
MP 77
MP 78
N2421
X1500
C3156
C3124
C3125
C3155
C3128
C3131
R3123
MP 111
C2414
R4200
C2224
C2223
C1218
C2211
C2206
C2228
N2000
MP 110
R4202
N2401
R 2 4 11
R 2 4 16
L4200
MP 112
C2217
C4200
MP 113
L2201
L4222
C2225
C2220
C 3 15 4
C 3 13 8
R4201
MP 114
V2201
C2215
L2311
L2200
R1100
C2219
C2374
C2373
C2372
MP 117
C2430
SP2434
N2422
C1213
SP2433
MP 119
R2450
R1210
C2214
N1210
R2456
R2454
C2449
C1214
R2434
R1203
C1215
R1209
R2437
MP 118
R2457
MP 120
C 12 0 5
N1410
R 14 10
C1403
L 14 0 1
C1402
R2400
C2400
S2405
S2406
MP 122
Z 14 0 0
MP 123
B4410
X1003
R 14 4 1
C4401
C4402
X1005
N 12 0 2
MP 121
L 14 0 2
E1003
C 12 19
SP2200
C 12 2 0
C238 2
R1222
R1418
C2384
R2315
N 2 3 10
R1419
C2381
L1200
Z1401
C 2 3 83
L1404
C1406
C1206
C 14 0 7
L1400
C1405
C1201
R 12 0 1
C 12 0 3
MP 115
MP 116
C2218
C2371
L2310
C1217
N1211
C1207
E1000
R1211
C1202
R 12 0 0
C 12 0 4
C 12 16
C2379
C4206
N2300
R 2 117
R 12 13
R1503
C2377
R2403
R1214
C2376
L2313
C2105
R2111
N2101
R2116
R 2 118
R2103
C4208
R2394
R 2 10 8
B2100
R2402
R2307
R2404
C2226
C2402
C 2 10 7
R2203
R 2 12 1
R2230
R2204
C2101
C 2 10 6
C2227
R2134
C2349
R 2 12 0
C4209
C2100
V2100
C 2 10 9
C2352
R2102
C2110
C2306
L2100
C2103
C2326
C2354
C2353
C2339
C2342
C2314
C2341
C2325
C2305
R1103
C2337
R1101
C2308
R1102
R2115
C2205
C2213
R2119
N2100
C2304
C2208
MP 124
MP 125
MP 126
MP 127
MP 79
MP 80
MP 81
MP 82
MP 83
MP 84
MP 85
MP 86
MP 87
MP 88
MP 89
MP 90
MP 91
MP 92
MP 93
MP 94
MP 95
MP 96
MP 97
MP 98
MP 99
MP 100
MP 101
MP 102
MP 103
MP 104
1225-4035 rev. 1
50 (122)
MEASUREMENT POINTS
C3135
C3152
C3153
C3132
C3102
C3133
C3127
R3119
C2222
C2204
C2210
0
MP 109
R4203 R4204
C4203
R 2 4 10
C 2 4 12
C2207
C2209
C4202
C4201
C3126
C3122
C 3 15 1
C2413
C3158
C2221
R 3 112
C 3 13 6
X1002
C 3 14 6
C 3 14 5
MP 108
C 2 2 16
N1200
N 2 3 11
MP 107
C3
3150
R3147
R3148
C3149
V2415
V2416
R2445
R2446
R 3 15 6
301
R23
R 3 15 4
V 2 10 1
C2600
C 2 3 80
L2452
C2439
C3116
C3115
C2436
C2232
R2201
R 2 10 4
C 2 2 88
L 12 0 7
R 3 19 8
C 2 2 12
R2306
R2305
R 3 19 9
C 12 0 8
R 2 10 5
R 2 12 3
R 2 10 6
R 2 12 2
C2348
C3123
R2303
R 2 0 10
D2102
C2307
C 3 12 1
V2202
R2302
R2101
R2406
SP2423
R2405
SP2425
R2408
C4309
R2205
R1408
C1426 C1427
C3110
L 3 12 0
SP2424
C2351
R2441
C 2 10 8
R1409
C1415
R 3 19 7
SP2426
R2206
N2200
MP 106
C 3 15 7
C2229
C2336
R2407
N2600
L 14 0 3
B3100
L 3 10 1
SP2430
C2350
C4343
R 14 0 2 R 16 0 2
C1414
C 14 2 0
C1413
C1419
C 14 2 4
L 3 12 2
C3307
C1416
N1400
C 3 117
S2403
C1417
R1407
R1414
4
C1410
E1002
R1413
X1004
L 14 10
C1428
C1423
R1404
R1206
L1212
B1400
C1425
R1403
R1416
L 12 11
C 14 2 1
C1418
C1411
C1412
R1202
R 14 0 6
SP2427
C2230
R 2 4 15
C2327
C1211
C1210
C1209
L1205
R 16 0 0
C 12 12
C 14 2 2
SP2420
L2202
R 2 3 13
C2328
V2470
R 12 2 0
SP2429
SP2428
R2423
C2432
C2345
R 14 0 1
C 2 10 4
C 12 0 0
N2420
C2434
C2347
SP5101
C2309
N3101
R2447
R 2 3 10
C2323
C4341
C2437
SP2422
C2231
Z2400
R2424
R2442
R2444
V4203 C2310
R2431
C2330
R2390
C2320
C2311
C2312
C2301
R2114
R2422
X1200
R 12 0 4
R2112
C4342
C4344
R4304
C3159
V2408
N2201
R2001
R2436
C2483
C2490
C 2 4 84
C2303
C2431
SP2421
C2329
R 16 0 3
R2491
C 2 2 89
R 4 4 12
C2322
C2344
R 16 0 6
C4349
R4305
C 3 13 9
R2202
C 2 4 85
R 3 15 7
C2302
R 5 10 1
C4346
R4301
C 4 2 19
R 3 15 8
C 3 14 0
V 3 12 0
R2477
R2475
C2324
R4300
C4229
R2217
C 2 4 86
R 4 4 14
C2469
C4352
C4305
C3109
L 3 114
C3111
L3111
L 3 113
C 2 4 87
R2471
R2476
C4350
C4306
R 4 4 15
R4417
C 2 4 82
L3110
C2491
C 2 4 88
V4204
R3109
R3108
C 2 4 81
R 2 2 83
C4412
X2401
C3118
C3119
C 2 4 89
C 2 4 80
C2424
R4413
C 4 4 11
C2492
R 2 4 17
C4348
N4410
R2421
N2010
R 4 4 16
C4410
R2428
C2426
C2428
R2300
C4351
C2321
V2475
R 2 4 19
C2425
R2472
V2482
V2474
Z4201
X4200
R2427
R2420
R2433
C 2 4 10
V4205
R4221
C4235
R 2 4 2 9 R 2 4 18
C2427
C2423
R2426
C 3 10 8
V 3 10 1 C 3 10 7
C2411
C2421
C2422
R2473
R 16 0 5
R4224
C2429
C2463
C4345
C4347
R2113
V2473
C2493
V4207
C 4 2 13
C2435
R2440
R 16 0 4
C 4 2 14
R2430
R 5 10 0
R2474
C2470
R4220
R 15 2 4
C2433
C2346
C2461
C2468
C 4 2 11
C 2 3 13
R 15 2 6
R 5 10 2
C2331
R2470
C 4 2 10
X1001
C 3 14 8
R 3 12 7
V2481
V2471
V2476
Z4200
1
Z4202
2
C2494
C2460
SP2401
X2403
3
V4206
N 3 10 0
C 3 10 6
C2405
V2472
R3113
Z4201
5
4
C4234
C 3 13 7
R 3 15 3
R 3 10 0
R2401
SP2400
C2472
L 3 10 4
C2499
R 3 10 2
R3106
1
L 3 10 3
R 3 12 8
C 3 10 4
C2404
2
R2409
X1000
3
C3114
MP Z4200 Pin 1-8
4
MP Z4201 Pin 1-8
6
MP 57
MP 105
N2411
5
7
MP 56
2
R2499
8
MP 55
MP 54
3
R3114
6
MP 48
4
C2406
7
MP 47
G705 - W705 - W715
1
Z4200
8
MP 46
MP Z4202 Pin 1-8
Secondary Side
MEASUREMENT POINTS
Top Schematic
G705 - W705 - W715
Access side GPIO mapping
Port
OPTOSENSE
LED_WebShortcut
LED_KEY2
VBAT
VDIG
VDDE18
Pages B1-B16
VAUDIO26
VBT27
VCAMIO18
VCAMSD18
VBEAR26
VCAMSA28
WLAN_VO33
WLAN_LDO18A
WLAN_VO18
VAUDIO26
WLAN_LDO30
VOPTO30
VOPTO30
VCAMSA28
VDDE18
VCAMSD18
VDIG
VCAMIO18
VBAT
VBAT
VDDE18
VDIG
VBT27
VAUDIO26
Pages I1-I3
VBEAR26
VCAMSD18
VBAT
VDDE18
VCAMSA28
VCAMIO18
VCAMIO18
VCAMSD18
WLAN_VO18
WLAN_VO33
VCAMSA28
WLAN_LDO18A
VOPTO30
VDIG
VOPTO30
LED_MAINKEY
B14
AccGPIO01
USB_HSDIR
B14
AccGPIO02
CTMS
B14
AccGPIO03
CFMS
B14
AccGPIO04
USB_HSINCLK
B14
AccGPIO05
USB_HSNXT
B14
AccGPIO06
USB_HSDATA4
B14
AccGPIO07
USB_HSDATA5
USB_HSDATA6
B14
AccGPIO09
USB_HSDATA7
B14
AccGPIO10
UART3_RX
R04
AccGPIO11
UART3_TX
R04
AccGPIO12
UART3_CTS
R04
AccGPIO13
UART3_RTS
R04
AccGPIO14
CH_DET_DP
B14
AccGPIO15
CH_DET_DM
AccGPIO16
USB_HSCHIP_SEL
B14
AccGPIO17
AGPS_SYNC
R04
AccGPIO18
USB_HSDATA3
R05
ACC_SPI_DI
R03
AccGPIO21
ACC_SPI_DO
R03
AccGPIO22
ACC_SPI_CLK
R03
AccGPIO23
OVP_FLAG
B14
AccGPIO24
not used
AccGPIO25
WLAN_SPI_IRQ
R05
AccGPIO26
BT_SPI_CSn
R03
AccGPIO27
BT_SPI_INT
R03
OPTO_EN
I2CDAT1
TESTOUT
CAMSYSCLK
I2CCLK1
RF_ID
MICP/AUXinL
R03
WLAN_BT_STATE
R03
BTGPIO9
not used
R03
BTGPIO10
not used
R03
BTGPIO11
WLAN_BT_PRIORITY R03
BTGPIO16
not used
R03
Application side GPIO mapping
BT_CLK
Port
RTCCLK
BTRESn
SPR
OPTOSENSE
Page
WLAN_CONFIRMn
BTGPIO8
Imaging
MCLKREQ
RTCCLK
MICN/AUXinR
LED_WebShortcut
Usage
BTGPIO0
AGPS_CLK
BT_CLK
SPL
CAMSYSCLK
LED_MAINKEY
WLAN_CLK
AGPS_CLK
AGPS_RSTn
I2CDAT1
CAMSYSCLK
WLAN_CLK
VAD
I2CCLK1
I2CDAT1
MCLKREQ
WLAN_SCLK
T01
BT-chip GPIO mapping
I2CCLK1
MCLKSEC
B14
WLAN_SPI_CSn
AccGPIO20
Port
MCLK
BT_CLKREQn
B14
AccGPIO19
LED_WebShortcut
WLAN_CLKREQ
B14
AccGPIO08
VAUDIO26
OPTOSENSE
TX_ADSTR
Page
USB_HSSTP
MEASUREMENT POINTS
WLAN_LDO30
Usage
AccGPIO00
BTRESn
AppGPIO00
AGPS_RSTn
PWRRSTn
FM_ANTENNA
VAUDIO26
Application & Sys.Performance
VBEAR26
WLAN_LDO18A
VBAT
VDDE18
WLAN_LDO30
WLAN_VO18
WLAN_VO33
VBT27
VDIG
VBAT
VDDE18
Pages R1-R5
Pages A1-A4
VBAT
VBAT
VDDE18
VDDE18
RTCCLK
I2CDAT1
I2CCLK1
MICN/AUXinR
MICP/AUXinL
PWRRSTn
FM_ANTENNA
VAUDIO26
VBT27
VBEAR26
VDIG
RTCCLK
WLAN_VO18
I2CDAT1
WLAN_VO33
I2CCLK1
WLAN_LDO18A
MICN/AUXinR
WLAN_LDO30
MCLK
TX_ADSTR
OPTO_EN
MICP/AUXinL
PWRRSTn
VAD
TESTOUT
FM_ANTENNA
SPL
WLAN_CLKREQ
WLAN_CLK
SPR
Usage
Page
FM_INT
A04
AppGPIO01
APP_LOG
B14
AppGPIO02
Tally_LED_C
I03
AppGPIO03
not used
AppGPIO04
SLIDE_SENSE
B15
AppGPIO05
not used
B16
I03
AppGPIO06
AMPCTRL
B08
AppGPIO07
AGPS_PWRON
B16
AppGPIO08
AGPS_LDO_EN
B16
AppGPIO09
AGPS_CLK_REQn
B16
AppGPIO10
AGPS_CLK_EN
B03
AppGPIO11
not used
I04
AppGPIO12
MSDETECT
B13
AppGPIO13
CAM_PWDN
I02
AppGPIO14
CIF_STANDBY
I02
AppGPIO15
DCON
AppGPIO16
CAM_LDO_EN
B16
AppGPIO17
WLAN_PDn
A02
AppGPIO18
WLAN_RSTn_PDn
B16
AppGPIO19
not used
I04
xxx
BT_CLKREQn
AGPS_CLK
Audio
MCLKSEC
SPR
MCLKREQ
SPL
BT_CLK
WLAN_SCLK
RTCCLK
RF_ID
VAD
BTRESn
AGPS_RSTn
Access
RF_ID
WLAN_SCLK
MCLKSEC
BT_CLKREQn
WLAN_CLKREQ
TESTOUT
OPTO_EN
TX_ADSTR
MCLK
VDDE18
E1000
Frame Contact
Page T1
X1000
X1001
X1002
X1003
X1004
X1005
1
1201-4841
1
1202-1053
1
1201-4841
1
1201-4841
1
1202-1053
1
1201-4841
VDDE18
Test
1
Clamp
GND
E1001
1
Clamp
GND
E1003
E1002
1
Clamp
GND
1
Clamp
Made for
Top Schematic
GND
Will be connected
to GND in PCB
Will be connected
to GND in PCB
Will be connected
to GND in PCB
Will be connected
to GND in PCB
SHIELD_CAN_FENCE_BB
1206-8591
1
SHIELD_CAN_FENCE_W-LAN
1206-8592
1
SHIELD_CAN_FENCE_AGPS
1206-8593
1
SHIELD_CAN_FENCE_CLOSED_PA
1206-8594
1
Document Nr
Revision
1207-2092 Page 1
3
1225-4035 rev. 1
51 (122)
MEASUREMENT POINTS
Audio Top
VBEAR26 VAUDIO26
G705 - W705 - W715
VBAT
Page 2
VBAT
VAUDIO26
VBEAR26
MICN/AUXinR
MICN/AUXinR
MICN/AUXinR
MICP/AUXinL
MICP/AUXinL
MICP/AUXinL
VAD
SPL
VDDE18
VBAT
SPR
Page 4
VBAT
FMR
VDDE18
FML
FMR
VAD
VAD
SPL
SPL
SPR
SPR
FMR
FML
FML
MEASUREMENT POINTS
Audio Analog
FM_ANTENNA
FM_ANTENNA
PWRRSTn
PWRRSTn
RTCCLK
RTCCLK
I2CDAT1
I2CDAT1
I2CCLK1
I2CCLK1
FM_ANTENNA
PWRRSTn
RTCCLK
I2CDAT1
I2CCLK1
FM Radio
Page 3
Audio Digital
VBAT VDDE18
VAUDIO26
VBEAR26
VBAT
VDDE18
VAUDIO26
VBEAR26
Made for
Audio
Audio Top
Document Nr
Revision
1207-2092 Page A1
3
1225-4035 rev. 1
52 (122)
MEASUREMENT POINTS
Audio Analog
G705 - W705 - W715
R3100 0ohms
VBAT
R3106
4.7Kohms
TP3103 TP3102
INP
OUTA
Bypass
OUTB
SHDN
VM_P
VM
B3
A2
C2
MP 86
B3100
1000-2618
BLM15HG102SN
C3307
33pF
NM
OUT
VCC
1
3
GND
GND
2
L3122 1k 100MHz
C3106
10uF
C3108
33pF
<NM>
C3118 C3119
V3101
33pF
33pF
ESDALC6V1M3 <NM> <NM>
1001-0796
1000-0132 600
0ohms
<NM>
C3109
33pF
MP 45
SPEAKER_N
1000-18750.047uH
2
C3111
1206-4855
1
33pF
MP 56 MP 55
VAUDIO26
C3128
33pF
<NM>
VBEAR26
C3127
33pF
<NM>
C3137
0.22uF
N2000
C3148
0.22uF
<NM>
Ericsson AB 3100
MMI
AUDIO IF
R3199
C3131
100nF
C3122
33pF
R3198
MIC1P
N10
MIC1N
M10
MIC1P
CCO1
MIC1N
CCO2
C3126
33pF
<NM>
R3123
0ohms
<NM>
PHFMICP
N9
PHFMICN
P9
N8
P8
MIC2P
SPKRP_OUT
MIC2N
SPKRN_OUT
MIC3P
BEARP_OUT
MIC3N
BEARN_OUT
MIC4P
AUXO1_OUT
MIC4N
AUXO2_OUT
MP 39 MP 42
N13
C3102
33pF
<NM>
P14
0ohms
C3132
N7
C3153
33pF
<NM>
TP3104
N11
P10
0.1uF
LINEIN1
P12
LINEIN2
P11
P7
P13
P6
P3
LINEIN1
P5
BEARP
M5
BEARN
LINEIN2
VDD_SPKR
VDD_AUDIO
VDD_BEAR
VDD_AUXO
C3146
0.22uF
FMR
C3135
0.1uF
C3136
33pF
AUXO1
P4
AUXO2
NC
A33
BEARN
A32
1206-2940
C3154
0.0033uF
C3138
0.047uF
M7
VSS_SPKR
C3159
33pF
<NM>
1005
J12
PLL_DEC4
SLIDER FLEX
CONNECTOR
BEARP
<NM>
R3157
0ohms
0ohms
R3158
<NM>
R3154
24Kohms
H14
PLL_DEC3
V3120
1001-0796
ESDALC6V1M3
NM
C3139
33pF
<NM>
1
(#6/7)
C3140
33pF
<NM>
N5
VSS_BEAR
2
AB3100
1202-0639
C3151
1uF
M4
N4
MIDR_OUT
X4200
TP3105
1005
N6
0.1uF
C3133
C3152
0.1uF
MP 105
FM_R
FM_L
FML
C3145
0.22uF
MP 106
MP 68
N3101
R3156 100ohms
TJATTE3
NC
NC
NC
MICP/AUXinL
C3115
33pF
<NM>
C3114
33pF
<NM>
A5
V_MIC
B3
INTMICint
B5
INTMIC
D2
COO
B2
SP_ref
D1
MICP
MICP_int
A1
D3
MICN
MICN_int
A2
D4
SPL
SPL_int
A3
D5
SPR
SPR_int
A4
VAD
B1
GND
C1
GND
C2
GND
C3
GND
C4
GND
C5
GND
B4
MICN/AUXinR
C3116
33pF
<NM>
TJATTE3
1000-0198
NC
C3157
33pF
C3158
10uF
R3112
100Kohms
C3124
100nF
C3125
0.1uF
MP 76
MP 75
C3156
0.47uF
MP 78
C3155
0.47uF
MP 69
C3150
220uF
MP 77
+
+
R3147
1Kohms
R3148
1Kohms
C3149
220uF
MP 74
Leadfree
VAD
SPR
SPL
VBEAR26
C3107
33pF
<NM>
C3123
0ohms
VBAT
MP 44
1
MEASUREMENT POINTS
NM
R3109
B2
L3111
33pF
10uF
VAUDIO26
L3114 100MHz
C3117
R3197
0ohms
VBAT
SPEAKER_P
0.047uH
R3119 100ohms
L3101
1000-2618
BLM15HG102SN
C3121
100nF
1000-1875
1000-2618
BLM15HG102SN
1210-7410
1
SPUL409HE5H-PB
33pF
SPEAKER
L3110
MP 87
MIC
4
C3110
1000-0132 600
<NM>
B1
NCP2990FCT2G
C3104 1200-9978
0.47uF
L3120 1k
100MHz
L3103 100MHz
L3113 100MHz
L3104 100MHz
R3114
C3
R3153
100Kohms
DB3210ADT/7POPHF
1208-3871 1
AUDIO_PA
INM
VP
NM
R3128 0ohms
<NM>
AMPCTRL
N17
APPLICATION GPIO_06
C1
R3113
A3
<NM>
R3108
0ohms
NM
A1
R3127 2.2Kohms
N2010
X3102
Radio Components
N3100
R3102 2.2Kohms
VAD
SPR
SPL
VAUDIO26 VBEAR26
Made for
Audio
Audio Analog
Document Nr
Revision
1207-2092 Page A2
3
1225-4035 rev. 1
53 (122)
MEASUREMENT POINTS
Audio Digital
G705 - W705 - W715
SP3213
APP_I2S0_DATA_B
MEASUREMENT POINTS
N2010
KAJSA_BOTTOM_APP
I2S_PCM_A_10_24
N2000
SP3209
KAJSA_BOTTOM_APP_I2S_PCM
SP3208
SP3206
SP3204
SP3205
Ericsson AB 3100
MMI
KAJSA_BOTTOM_AUDIO
T23
CODEC IF
I2S0CLK/PCM0CLK T24
APP_I2S0_CLK
K3
I2S0WS/PCM0SYN U15
APP_I2S0_WS
J3
I2S0DLD/PCM0DLD T22
APP_I2S0_DATA_A
J1
I2S0ULD/PCM0ULD
L3
U23
K4
APP_I2S1_WS
I2S1WS/PCM1SYN V23
I2S1DLD/PCM1DLD
K1
APP_I2S1_CLK
I2S1CLK/PCM1CLK V22
W24
APP_I2S1_DATA_B
SCK1
WS1
SCK2
WS2
L2
SDO2
SDI2
AB3100
1202-0639
I2S1ULD/PCM1ULD
K2
SDO1
SDI1
2
DB3210ADT/7POPHF
1208-3871 1
SP3207
APP_I2S1_DATA_A
SP3214
Made for
Audio
Audio Digital
Document Nr
Revision
1207-2092 Page A3
3
1225-4035 rev. 1
54 (122)
MEASUREMENT POINTS
Audio FM Radio
G705 - W705 - W715
VDDE18
N1300
BLUETOOTH-FM_FM
C3306
100pF
FM_ANTENNA
FM_RADIO_IO
FM_FMIP
C8
FM_RFGND
C9
D9
I2CCLK1
I2CDAT1
PWRRSTn
PWRRSTn
I2CCLK1
I2CDAT1
RTCCLK
RTCCLK
FM_ROUT
C5
FMR
FM_LOUT
B5
FML
FM_RST
NC
D4
FM_SENB
NC
F7
E9
FM_SCL
NC
F8
D8
FM_SDA
NC
L4
D7
FM_RTCCLK
NC
L5
NC
L6
VDDE18
VBAT
R3304 0ohms
<NM>
C3304
0.022uF
A7
FM_GPIO1
A6
FM_GPIO2
A5
FM_GPIO3
A4
FM_VA
FM_GND
A3
B3
FM_VD
FM_GND
B4
D6
FM_VIO
FM_GND
B6
FM_PWR_GND
C3305
0.1uF
STLC2593
1200-9840
R3302
B7
FM_GND
C4
FM_GND
C6
FM_GND
C7
FM_GND
D5
FML
NC
NC
NC
NC
NC
NC
1
MP 5
FM_INT
FM_GND
FMR
MEASUREMENT POINTS
B8
L3300
0.27uH
N2010
R17
APPLICATION GPIO_00
3.3Kohms
DB3210ADT/7POPHF
1208-3871 1
VBAT
VDDE18
VBAT
VDDE18
Made for
Audio
FM Radio
Document Nr
Revision
1207-2092 Page A4
3
1225-4035 rev. 1
55 (122)
MEASUREMENT POINTS
Application & System Performance Top
G705 - W705 - W715
USB_HS_CLK
DCON
VDDE18
Pages 2-4
VDDE18
MCLK
MCLK
MCLK
MCLKSEC
MCLKSEC
MCLKSEC
BT_CLKREQn
BT_CLKREQn
BT_CLKREQn
WLAN_CLKREQ
WLAN_CLKREQ
WLAN_CLKREQ
DCON
USB_HS_CLK
RTCCLK
RTCCLK
Pages 11-16
VMC18
VDDE18
VDIG
VBAT
VBACKUP
USB_HS_CLK
BTRESn
ONSWAn
ONSWAn
ONSWAn
VBAT
AGPS_RSTn
AGPS_CLK
AGPS_CLK
WLAN_CLK
WLAN_CLK
WLAN_CLK
PWRRSTn
PWRRSTn
MEASUREMENT POINTS
VBACKUP
SERVICEn
BTRESn
AGPS_RSTn
AGPS_CLK
SERVICEn
MCLKREQ
BTRESn
AGPS_RSTn
SERVICEn
CAMSYSCLK
MCLKREQ
MCLKREQ
DCON
BT_CLK
CAMSYSCLK
CAMSYSCLK
VAUDIO26
RTCCLK
BT_CLK
BT_CLK
PWRRSTn
System Control
VDIG
VDDE18
VMC18
VAUDIO26
I2CDAT1
I2CDAT1
OPTOSENSE
TESTOUT
VAD
TX_ADSTR
RF_ID
SPL
SPR
LED_MAINKEY
LED_WebShortcut
OPTOSENSE
OPTOSENSE
TESTOUT
I2CDAT1
I2CCLK1
I2CCLK1
I2CCLK1
TESTOUT
VAD
VAD
TX_ADSTR
RF_ID
SPL
TX_ADSTR
MICN/AUXinR
RF_ID
MICP/AUXinL
SPL
SPR
MICN/AUXinR
MICN/AUXinR
MICP/AUXinL
MICP/AUXinL
FM_ANTENNA
FM_ANTENNA
FM_ANTENNA
SPR
LED_MAINKEY
LED_MAINKEY
LED_WebShortcut
LED_WebShortcut
VBUS
DCIO
Connectivity
VBACKUP
VMC18
VBAT
VDDE18 VDIG VAUDIO26
Pages 5-10
VBAT
VBUS
DCIO
VBUS
DCIO
VMC18
VDIG
VAUDIO26
VBEAR26
WLAN_SCLK
WLAN_SCLK
WLAN_CLKREQ
WLAN_SCLK
WLAN_VO18
WLAN_VO33
WLAN_LDO18A
WLAN_LDO30
VCAMSA28
VCAMIO18
VCAMSD18
VBT27
VOPTO30
OPTO_EN
OPTO_EN
VBAT
VBACKUP
VDDE18
WLAN_CLKREQ
VBAT
VDDE18
VDDE18
VDIG
VDIG
VAUDIO26
VAUDIO26
VBEAR26
VBEAR26
WLAN_VO18
WLAN_VO18
WLAN_VO33
WLAN_VO33
WLAN_LDO18A
WLAN_LDO18A
WLAN_LDO30
WLAN_LDO30
VCAMSA28
VCAMSA28
VCAMIO18
VCAMIO18
VCAMSD18
VCAMSD18
VBT27
VBT27
VOPTO30
VOPTO30
OPTO_EN
Power
Made for
Application & System Performance
Top
Document Nr
Revision
1207-2092 Page B1
3
1225-4035 rev. 1
56 (122)
MEASUREMENT POINTS
System Top
G705 - W705 - W715
VDDE18
Page 3
VDDE18
BT_CLK
BT_CLK
WLAN_CLK
BT_CLKREQn
WLAN_CLKREQ
BT_CLKREQn
CAMSYSCLK
WLAN_CLKREQ CAMSYSCLK
BT_CLKREQn
RTCCLK
RTCCLK
MCLKREQ
MCLKREQ
MCLKSEC
MCLK
SERVICEn
ONSWAn
MCLKSEC
MCLK
SERVICEn
ONSWAn
MCLKSEC
MCLK
DCON
DCON
SERVICEn
AGPS_RSTn
ONSWAn
USB_HS_CLK
AGPS_RSTn
USB_HS_CLK
PWRRSTn
PWRRSTn
MEMRESn
WLAN_CLK
CAMSYSCLK
RTCCLK
MCLKREQ
DCON
BTRESn
BTRESn
AGPS_CLK
MEASUREMENT POINTS
WLAN_CLK
WLAN_CLKREQ
BT_CLK
AGPS_CLK
AGPS_CLK
MEMRESn
BTRESn
AGPS_RSTn
USB_HS_CLK
PWRRSTn
Clocks & Resets
VDDE18
Page 4
MEMRESn
VDDE18
System Memories
VDDE18
VDDE18
Made for
System Top
Document Nr
Revision
1207-2092 Page B2
3
1225-4035 rev. 1
57 (122)
MEASUREMENT POINTS
R2119 0ohms
MCLKSEC
MCLKSEC
G705 - W705 - W715
WLAN_CLK
VDDE18
VDDE18
NM
<NM>
N2100
VDDE18
1
R2120
0ohms
OE
R2121
0ohms
VDDE18
2
R2104
100Kohms
R2101
100Kohms
R2116
100Kohms
R2111
A
5
Y
VCC GND
4
3
BT_CLK
SN74LVC1G125YZPR
1200-0425
C2105
4.7uF
C2107
33pF
R2108
100Kohms
V2101
1000-0391
LEADFREE
R2105
0ohms
<NM>
AGPS_CLK_EN
K12
3
5
DB3210ADT/7POPHF
1208-3871 1
A
OE
R2118
0ohms
4
&
Y
VCC GND
AGPS_CLK
AGPS_CLK
<NM>
2
NM
1
MEASUREMENT POINTS
N2101
N2010
APPLICATION GPIO_10
NM
BT_CLKREQn
BT_CLK
MP 98
10ohms
BT_CLKREQn
WLAN_CLK
C2106
33pF
TC7SG125AFS
1202-0076 1
C2108
33pF
R2117
100Kohms
VDDE18
RTCCLK
RTCCLK
N2010
KAJSA_BOTTOM
SYSTEM_CONTROL_A_23_24
KAJSA_BOTTOM_SYSTEM_LEVEL
MP 97
AE23
MCLK
MCLK
RTCCLK
SYSCLKREQn
N2010
1
APPLICATION GPIO_09
M23
3
5
DB3210ADT/7POPHF
1208-3871 1
A
&Y
OE
VCC GND
NM
D2102
4
R2106
0ohms
<NM>
2
C2110
33pF
R2102
100Kohms
NM
CLOCKS
MCLK
RTCCLKIN
SYSCLK0 AD22
L2100
100nH
V16
SYSCLKREQn
SYSCLK1 AB20
R2123
0ohms
SYSCLK2 AC21
SP2104 SP2105
INTERRUPTS
AA24
MSACCIRQn
V17
MSAPPIRQn
TC7SG125AFS
1202-0076
1
R2122
0ohms
MCLKREQ
MCLKREQ
CAMSYSCLK
CAMSYSCLK
<NM>
USB_HS_CLK
<NM>
C2103
33pF
<NM>
USB_HS_CLK
C2109
33pF
SP2103 SP2102
RESETS
AB19
PWRRSTn
AGPS_CLKREQn
PWRRSTn
3
WLAN_CLKREQ
R2115 1Kohms
MCLKREQ AD20
V14
NM
R2010
100Kohms
C2104
0.001uF
<NM>
V2100
RN1108
1000-8463
WLAN_CLKREQ
1
RESOUT0n AC22
MEMRESn
RESOUT1n AB18
AGPS_RSTn
RESOUT2n AB23
BTRESn
MEMRESn
AGPS_RSTn
BTRESn
POWER CONTROL
ACCSLEEP AB17
2
APPSLEEP AD21
R2134 0ohms
DCON Y22
NM
AD23
SERVICEn
SERVICEn
DCON
SERVICEn
DB3210ADT/7POPHF
1208-3871 1
PWRRSTn
MP 118
ONSWAn
ONSWAn
C2100
18pF
N2000
B2100
XTAL1
C1
MP 119
XTAL2
C2
C2101
22pF
1000-8271
32768k
Ericsson AB 3100
SYSTEM CONTROL
SYSTEM POR
E13
E14
E12
R2103
0ohms
IRQA_N
ONSWA_N
IRQB_N
ONSWB_N
PWRRST_N
MP 121
ONSWC
F13
F12
F11
SP2106 SP2107
NC
DCON
RTC
B11 XTAL_OUT
<NM>
XTAL1
XTAL2
A10
D11
CLOCK
SLEEP_A
VDDE18
SLEEP_B
MCLK
VDDE18
AB3100
1202-0639
2
E11
PWRREQn
D14
H13
MCLK_VERA
Made for
Document Nr
Revision
1207-2092 Page B3
3
1225-4035 rev. 1
58 (122)
MEASUREMENT POINTS
System Memories
G705 - W705 - W715
N2010
KAJSA_BOTTOM_APP_EMIF_A_9_24
KAJSA_BOTTOM_APPLICATION
MEMORY_IF(EMIF2)
NC
NC
NC
NC
NC
NC
NC
N2010
NC
KAJSA_BOTTOM_SH_EMIF_A_8_24
NC
NC
NC
NC
NC
N2010
KAJSA_BOTTOM
DIRECT_MEMORY_A_22_24
NC
NC
NC
DIRECT MEMORY ACCESS
NAND_WPN
SDTEMP
DB3210ADT/7POPHF
1208-3871 1
J16
NC
J17
NC
NC
NC
NC
NC
NC
NC
NC
MEMRESn
NC
E4
SH_D00
SH_A01
F3
F4
SH_D01
SH_A02
H3
G4
SH_D02
SH_A03
J3
G5
SH_D03
SH_A04
J2
H5
SH_D04
SH_A05
G3
K5
SH_D05
SH_A06
K2
J4
SH_D06
SH_A07
K3
J5
SH_D07
SH_A08
L2
F5
SH_D08
SH_A09
L3
L4
SH_D09
SH_A10
M3
K4
SH_D10
SH_A11
M4
L9
SH_D11
SH_A12
N4
L5
SH_D12
SH_A13/SH_SDBS0
P3
K9
SH_D13
SH_A14/SH_SDBS01
N3
M5
SH_D14
SH_A15/SH_SDBS1
P4
N5
SH_D15
SH_SDCSn
C5
SH_SDCASn
C4
SH_WEn
D4
SH_SDCLK
H4
MEMRESn
DB3210ADT/7POPHF
1208-3871 1
SH_SDCKE
C3
SH_SDRASn
D3
SH_BE0n
E3
SH_BE1n
E2
NC
NC
NC
NC
NC
NC
NC
NC
AP_D00
AP_A01 C13
E13
AP_D01
AP_A02
J14
AP_D02
AP_A03 C14
J15
AP_D03
AP_A04 C15
NC
E15
AP_D04
AP_A05 D16
NC
D15
AP_D05
AP_A06 B15
NC
E16
AP_D06
AP_A07 C16
D17
AP_D07
AP_A08 B17
NC
E17
AP_D08
AP_A09 C17
NC
D18
AP_D09
AP_A10 B18
NC
E18
AP_D10
AP_A11 C18
NC
D19
AP_D11
AP_A12 C19
NC
E21
AP_D12
AP_A13/AP_SDBS0
B20
E19
AP_D13
AP_A14/AP_SDBS01
C20
D20
AP_D14
AP_A15/AP_SDBS1
C21
J12
NC
NC
NC
NC
NC
NC
NC
AP_A16 C22
NC
NC
AP_A17/AP_CLE C23
NC
NC
AP_A18/AP_ALE
NC
NC
E20
AP_D15
D21
NC
NC
AP_A19 D23
NC
NC
AP_A20 D22
NC
NC
AP_A21 E23
NC
AP_A22 C24
NC
NC
NC
AP_A23 D24
NC
NC
AP_A24 C25
NC
NC
AP_A25 E24
NC
AP_A26/AP_CRE
NC
D25
NC
AP_CLK E12
NC
AP_SDCLK D11
NC
AP_FBCLK D12
NC
AP_SDCKEN0 D14
NC
AP_SDCKEN1
VDDE18
AP_OEn/RE/AP_SDCAS
NC
AP_CS0n
NC
R2112
100Kohms
<NM>
E5
ADVn/AP_SDRAS C12
NC
R2113
2.2Kohms
B11
J10
NC
NC
<NM>
NC
NC
NC
NC
NC
AP_CS2n E11
NC
D7
AP_BE0n D13
J11
D10
AP_NFIF_READY
AP_BE1n
C11
AP_WAITn
AP_WEn B12
R2114 0ohms
NC
AP_CS1n C10
AP_CS3n
MEASUREMENT POINTS
NC
KAJSA_BOTTOM
SHARED_MEMORY_IF(EMIF1)
NC
E14
NC
NC
NC
NC
DB3210ADT/7POPHF
1208-3871 1
VDDE18
VDDE18
Made for
System Memories
Document Nr
Revision
1207-2092 Page B4
3
1225-4035 rev. 1
59 (122)
MEASUREMENT POINTS
System PoP IF
G705 - W705 - W715
TOP_SH_DATA_BUS
TOP_APPLICATION_DATA_BUS
N2010
N2020
KAJSA_TOP_SH_EMIF_B_1_5
KAL00900MX-AJ55_MCP_POP_SDRAM_EMIF1
Kajsa-PoP_top-SYSTEM-LEVEL
2GbitNANDx8+128Mbitx16+512MbitSDRAMx16
KAJSA_SHARED_MEMORY_IF(EMIF1)
SHAREDMEMORYIF(EMIF1)
TOP_SH_D00
T_B7
SH_D00
SH_A01
T_T20
TOP_SH_A01
T20
SDRAM_128_A0
SDRAM_128_DQ0
B7
TOP_SH_D00
T_A6
SH_D01
SH_A02
T_U21
TOP_SH_A02
U21
SDRAM_128_A1
SDRAM_128_DQ1
A6
TOP_SH_D01
TOP_SH_D02
T_B6
SH_D02
SH_A03
T_U20
TOP_SH_A03
U20
SDRAM_128_A2
SDRAM_128_DQ2
B6
TOP_SH_D02
SH_D03
SH_A04
T_V21
TOP_SH_A04
V21
SDRAM_128_A3
SDRAM_128_DQ3
A5
TOP_SH_D03
TOP_SH_A05
V20
SDRAM_128_A4
SDRAM_128_DQ4
B5
TOP_SH_D04
SDRAM_128_A5
SDRAM_128_DQ5
B4
TOP_SH_D05
SDRAM_128_A6
SDRAM_128_DQ6
A4
TOP_SH_D06
SDRAM_128_A7
SDRAM_128_DQ7
A3
T_A5
TOP_SH_D04
T_B5
SH_D04
SH_A05
T_V20
TOP_SH_D05
T_B4
SH_D05
SH_A06
T_W21
TOP_SH_A06
W21
TOP_SH_D06
T_A4
SH_D06
SH_A07
T_Y18
TOP_SH_A07
Y18
SH_D07
SH_A08
T_AA19
TOP_SH_D07
T_A3
AA19
TOP_SH_A08
T_C1
SH_D08
SH_A09
T_Y17
TOP_SH_A09
Y17
SDRAM_128_A8
SDRAM_128_DQ8
C1
TOP_SH_D08
TOP_SH_D09
T_F2
SH_D09
SH_A10
T_AA18
TOP_SH_A10
AA18
SDRAM_128_A9
SDRAM_128_DQ9
F2
TOP_SH_D09
SH_D10
SH_A11
T_Y16
TOP_SH_A11
Y16
SDRAM_128_A10
SDRAM_128_DQ10
F1
TOP_SH_D10
TOP_SH_A12
AA17
SDRAM_128_A11
SDRAM_128_DQ11
G2
TOP_SH_D11
TOP_SH_A13
Y15
NC_1
SDRAM_128_DQ12
H1
TOP_SH_D12
TOP_SH_D10
T_F1
T_G2
SH_D11
SH_A12
T_AA17
TOP_SH_D12
T_H1
SH_D12
SH_A13
T_Y15
T_J2
SH_D13
SH_A14/SH_SDBS01
T_D1
TOP_SH_BA0
D1
SDRAM_128_BA0
SDRAM_128_DQ13
J2
TOP_SH_D13
T_J1
SH_D14
SH_A15/SH_SDBS1
T_E1
TOP_SH_BA1
E1
SDRAM_128_BA1
SDRAM_128_DQ14
J1
TOP_SH_D14
SDRAM_128_DQ15
K2
SH_SDCSn
T_N21
SH_SDCASn
T_R21
TOP_SDRAM_CAS_N R21
SDRAM_128_CASn
SH_WEn
T_R20
TOP_SDRAM_WE_N R20
SDRAM_128_WEn
TOP_SH_D15
T_K2
SH_D15
_
TOP_SDRAM_CS_N
N21
T_T21
TOP_SDRAM_CLK
T21
SH_SDCKE
T_M21
TOP_SDRAM_CKE
M21
SH_SDRASn
T_P20
TOP_SDRAM_RAS_N P20
SDRAM_128_RASn
SH_BE0n
T_D2
TOP_SDRAM_BE0_N D2
SDRAM_128_LDQM
SH_BE1n
T_E2
TOP_SDRAM_BE1_N E2
DB3210ADT/7POPHF_TOP
1208-3871_TOP
1
TOP_SH_D15
SDRAM_128_CSn
SH_SDCLK
SDRAM_128_CKE
AP_D00
AP_A01
T_A14
TOP_AP_A01
A14
SDRAM_512_A0d
SDRAM_512_DQ0
TOP_AP_D01
T_P2
AP_D01
AP_A02
T_B15
TOP_AP_A02
B15
SDRAM_512_A1d
SDRAM_512_DQ1
P2 TOP_AP_D01
TOP_AP_D02
T_R1
AP_D02
AP_A03
T_A15
TOP_AP_A03
A15
SDRAM_512_A2d
SDRAM_512_DQ2
R1 TOP_AP_D02
TOP_AP_D03
T_R2
AP_D03
AP_A04
T_B16
TOP_AP_A04
B16
SDRAM_512_A3d
SDRAM_512_DQ3
R2 TOP_AP_D03
TOP_AP_D04
T_T1
AP_D04
AP_A05
T_A16
TOP_AP_A05
A16
SDRAM_512_A4d
SDRAM_512_DQ4
T1 TOP_AP_D04
TOP_AP_D05
T_T2
AP_D05
AP_A06
T_B17
TOP_AP_A06
B17
SDRAM_512_A5d
SDRAM_512_DQ5
T2 TOP_AP_D05
TOP_AP_D06
T_U1
AP_D06
AP_A07
T_A17
TOP_AP_A07
A17
SDRAM_512_A6d
SDRAM_512_DQ6
U1 TOP_AP_D06
TOP_AP_D07
T_U2
AP_D07
AP_A08
T_B18
TOP_AP_A08
B18
SDRAM_512_A7d
SDRAM_512_DQ7
U2 TOP_AP_D07
TOP_AP_D08
T_Y5
AP_D08
AP_A09
T_A18
TOP_AP_A09
A18
SDRAM_512_A8d
SDRAM_512_DQ8
Y5 TOP_AP_D08
TOP_AP_D09
T_AA6
AP_D09
AP_A10
T_A19
TOP_AP_A10
A19
SDRAM_512_A9d
SDRAM_512_DQ9
AA6 TOP_AP_D09
TOP_AP_D10
T_Y6
AP_D10
AP_A11
T_C21
TOP_AP_A11
C21
SDRAM_512_A10d
SDRAM_512_DQ10
Y6 TOP_AP_D10
TOP_AP_D11
T_AA7
AP_D11
AP_A12
T_D20
TOP_AP_A12
D20
SDRAM_512_A11d
SDRAM_512_DQ11
AA7 TOP_AP_D11
POP Symbol
POP_symbol
1
1
NC
TOP_AP_D12
T_Y7
AP_D12
AP_A13
T_D21
TOP_AP_A13
D21
SDRAM_512_A12d
SDRAM_512_DQ12
Y7 TOP_AP_D12
T_AA9
AP_D13
NC_1
T_E20
TOP_AP_A14
E20
NC_2
SDRAM_512_DQ13
AA9 TOP_AP_D13
TOP_AP_D14
T_Y9
AP_D14
AP_A14/AP_SDBS01
T_L21
TOP_AP_A15
L21
BA0d
SDRAM_512_DQ14
Y9 TOP_AP_D14
TOP_AP_D15
T_AA10
AP_D15
NC_2
T_E21
TOP_AP_A16
E21
NC_3
SDRAM_512_DQ15
AA10 TOP_AP_D15
AP_A15/AP_SDBS1
T_L20
TOP_AP_A17
L20
BA1d
AP_A18/AP_ALE
T_F20
TOP_NAND_ALE
F20
NAND_ALE
AP_A17/AP_CLE
T_A12
TOP_NAND_CLE
A12
NAND_CLE
NC_3
T_F21
TOP_AP_A18
F21
NC_4
NC_4
T_B12
TOP_AP_A19
B12
NC_5
AP_A16
T_G20
TOP_NAND_IO0
G20
NAND_IO0
AP_A19
T_G21
TOP_NAND_IO1
G21
NAND_IO1
AP_A20
T_H20
TOP_NAND_IO2
H20
NAND_IO2
AP_A21
T_H21
TOP_NAND_IO3
H21
NAND_IO3
AP_A22
T_J20
TOP_NAND_IO4
J20
NAND_IO4
AP_A23
T_J21
TOP_NAND_IO5
J21
NAND_IO5
AP_A24
T_K20
TOP_NAND_IO6
K20
NAND_IO6
AP_A25
T_K21
TOP_NAND_IO7
K21
NAND_IO7
AP_A26/AP_CRE
T_M20
TOP_NAND_RE_N
M20
NAND_REn
NC_5
T_B13
TOP_AP_CLK
B13
NC_6
AP_SDCLK
T_M2
TOP_AP_SDCLK
M2
SDRAM_512_CLK
AP_SDCKE0
T_V2
TOP_AP_SDCKE
V2
SDRAM_512_CKE
AP_SDRAS/ADVn
T_AA14
TOP_SDRAS_N_1
AA14
SDRAM_512_RASn
NC_6
T_Y11
TOP_SDRAS_N_2
Y11
NC_7
NC_7
T_A11
TOP_SDCAS_N_1
A11
NC_8
NC_8
T_Y12
TOP_SDCAS_N_2
Y12
NC_9
AP_SDCAS/AP_RE/AP_OEn
T_AA15
TOP_SDCAS_N_3
AA15
SDRAM_512_CASn
AP_CS0n
T_AA12
TOP_NAND_CE_N
AA12
NAND_CEn
NC_9
T_AA11
TOP_AP_CS1_N
AA11
NC_10
AP_CS2n
T_N20
TOP_AP_CS2_N
N20
SDRAM_512_CSn
AP_BE0n
T_Y4
TOP_AP_BE0_N
Y4
SDRAM_512_LDQM
AP_BE1n
T_AA3
TOP_AP_BE1_N
AA3
SDRAM_512_UDQM
NC_10
T_A13
TOP_AP_WE_N
A13
NC_11
AP_WEn
T_V1
TOP_AP_WE2_N
V1
SDRAM_512_WEn
NC_11
T_B11
TOP_DMS_4
B11
NC_12
AP_WAITn
T_AA13
AA13
NAND_WEn
This symbol is placed here to include MCP memory in BOM
Electrical inferface can be seen on page B05
KAL00900MM-AJ55_POP
1205-5912
1
TOP_VDD
N2020
N2010
KAL00900MX-AJ55_MCP_POP_VMEM_POWER
KAJSA_TOP_POWER_B_4_5
Kajsa-PoP_top-POWER
2GbitNANDx8+128MbitSDRAMx16+512MbitSDRAMx16
POWER
TOP_VDD_MEM_00
T_A7
TOP_VDD_MEM_01
T_A10
TOP_VDD_MEM_02
T_A20
TOP_VDD_MEM_03
T_B1
TOP_VDD_MEM_04
T_B2
TOP_VDD_MEM_05
T_B3
VDDMEMORIES
GND_MEM
T_A2
TOP_GND_MEM_00
A2
VDD_Q
GND_MEM
T_A9
TOP_GND_MEM_01
A9
VSSQ_1
F_VDD
GND_MEM
T_B21
TOP_GND_MEM_02
B21
VSS_2
F_VDD
GND_MEM
T_C2
TOP_GND_MEM_03
C2
F_VDD
GND_MEM
T_C20
TOP_GND_MEM_04
C20
VDD_Q
GND_MEM
T_G1
TOP_GND_MEM_05
G1
VDD_Q
VDDQ_1
A7
TOP_VDD_MEM_00
VDDQ_2
A10
TOP_VDD_MEM_01
VDD_1
A20
TOP_VDD_MEM_02
VSSQ_2
VDD_2
B1
TOP_VDD_MEM_03
VSS_N_1
VDD_3
B2
TOP_VDD_MEM_04
VSSQ_3
VDDQ_3
B3
TOP_VDD_MEM_05
VSS_1
TOP_VDD_MEM_06
T_B19
VCC_N
GND_MEM
T_K1
TOP_GND_MEM_06
K1
VSSQ_4
VCC_N_1
B19
TOP_VDD_MEM_06
TOP_VDD_MEM_07
T_H2
VDD_Q
GND_MEM
T_N1
TOP_GND_MEM_07
N1
VSSQ_5
VDDQ_4
H2
TOP_VDD_MEM_07
TOP_VDD_MEM_08
T_L1
VDD_Q
GND_MEM
T_W1
TOP_GND_MEM_08
W1
VSS_3
VDDQ_5
L1
TOP_VDD_MEM_08
TOP_VDD_MEM_09
T_L2
F_VDD
GND_MEM
T_W20
TOP_GND_MEM_09
W20
VSS_4
VDD_4
L2
TOP_VDD_MEM_09
TOP_VDD_MEM_10
T_N2
VDD_Q
GND_MEM
T_Y1
TOP_GND_MEM_10
Y1
VSS_5
VDDQ_6
N2
TOP_VDD_MEM_10
F_VDD
GND_MEM
T_Y2
TOP_GND_MEM_11
Y2
VSS_6
VDD_5
P21
TOP_VDD_MEM_11
F_VDD
GND_MEM
T_Y3
TOP_GND_MEM_12
Y3
VSS_7
VDD_6
W2
TOP_VDD_MEM_12
TOP_VDD_MEM_11
T_P21
TOP_VDD_MEM_12
T_W2
TOP_VDD_MEM_13
T_Y13
F_VDD
GND_MEM
T_Y8
TOP_GND_MEM_13
Y8
VSS_N_2
VDD_7
Y13
TOP_VDD_MEM_13
TOP_VDD_MEM_14
T_Y19
F_VDD
GND_MEM
T_Y10
TOP_GND_MEM_14
Y10
VSS_8
VDD_8
Y19
TOP_VDD_MEM_14
TOP_VDD_MEM_15
T_AA2
F_VDD
GND_MEM
T_Y14
TOP_GND_MEM_15
Y14
VSS_9
VDD_9
AA2
TOP_VDD_MEM_15
TOP_VDD_MEM_16
T_AA8
VCC_N
GND_MEM
T_Y20
TOP_GND_MEM_16
Y20
VSS_10
VCC_N_2
AA8
TOP_VDD_MEM_16
TOP_VDD_MEM_17
T_AA20
GND_MEM
T_Y21
TOP_GND_MEM_17
Y21
VDD_10
AA20
TOP_VDD_MEM_17
F_VDD
1208-3871_TOP 1
N2020
VSS_11
KAL00900MM-AJ55
1205-5912_POP
P1 TOP_AP_D00
TOP_AP_D13
N2020
SDRAM_128_UDQM
KAL00900MM-AJ55
1205-5912_POP
T_P1
Kajsa PoP MCP Memory
SDRAM_128_CLK
APPLICATIONMEMORYIF(EMIF2)
KAJSA_APPLICATION_MEMORY_IF(EMIF2)
TOP_AP_D00
T_B14
AP_NFIF_READY
TOP_NAND_WE_N
1208-3871_TOP
1
KAL00900MM-AJ55
1205-5912_POP
NAND_Ry/By_N
B14
1
TOP_NAND_Ry_By_N
1
KAL00900MX-AJ55_MCP_POP_UNUSED
N2010
NC
T_A1
TOP_NC_1
A1
NC_13
NC
T_A21
TOP_NC_2
A21
NC_14
NC
T_M1
TOP_NC_3
M1
NC_15
NC
T_AA1
TOP_NC_4
AA1
NC_16
NC
T_AA4
TOP_NC_5
AA4
NC_17
NC T_AA21
TOP_NC_6
AA21
NC_18
NC T_AA16
TOP_NC_7
AA16
NC_19
T_AA5
TOP_NC_8
AA5
NC_20
NC
1208-3871_TOP
1
KAL00900MX-AJ55
MCP_POP_DIRECT_MEMORY_SIGNALS
N2010
Kajsa-PoP_top-NOT_USED
UNUSED
N2020
KAJSA_TOP_UNUSED_B_5_5
KAL00900MM-AJ55
1205-5912_POP
UNUSED
KAJSA_TOP_DIRECT_MEMORY_SIGNALS_B_3_5
DirectMemorySignals
DIRECT_MEMORY_SIGNALS
NC_12
T_A8
TOP_DMS_1 A8
NC_21
NC_13
T_B9
TOP_DMS_2 B9
NC_22
TOP_DMS_3 B10
NC_23
NC_14 T_B10
NAND_WPn
T_B8
SDTEMP T_B20
1208-3871_TOP
1
TOP_NAND_WP_N B8
TOP_DMS_5 B20
Made for
System PoP IF
NAND_WPn
NC_24
KAL00900MM-AJ55
1205-5912_POP
1
Document Nr
Revision
1207-2092 Page B5
3
1
1225-4035 rev. 1
60 (122)
MEASUREMENT POINTS
TOP_SH_D13
TOP_SH_D14
TOP_SH_D07
TOP_SH_D08
TOP_SH_D11
KAL00900MX-AJ55_MCP_POP_NAND_EMIF2
KAJSA_TOP_AP_EMIF_B_2_5
TOP_SH_D01
TOP_SH_D03
N2020
N2010
MEASUREMENT POINTS
Power Top
G705 - W705 - W715
Page 10
VBAT
WLAN_VO18
WLAN_SCLK
WLAN_SCLK
WLAN_SCLK
WLAN_CLKREQ
WLAN_CLKREQ
WLAN_VO33
WLAN_CLKREQ WLAN_LDO18A
WLAN_LDO30
WLAN_VO18
WLAN_VO33
WLAN_LDO18A
WLAN_LDO30
WLAN_VO18
WLAN_VO33
WLAN_LDO18A
WLAN_LDO30
Power WLAN
Page 8
VBAT
VBAT
VCAMSD18
VCAMIO18
VOPTO30
OPTO_EN
OPTO_EN
VCAMSA28
VCAMIO18
VOPTO30
VCAMSD18
VCAMSA28
MEASUREMENT POINTS
VCAMSA28
VCAMSD18
VCAMIO18
VOPTO30
OPTO_EN
Power Imaging
Page 9
VCORE18
VDDE18
VCORE18
VDDE18
VANA25
VANA25
VCORE12
VCORE12
Power Asics
Page 7
VBUS
DCIO
VBUS
DCIO
VBUS
VBAT
DCIO
VDDE18
VANA25
VCORE18
VCORE12
VMC18
VAUDIO26
VBT27
VDIG
VBEAR26
VBACKUP
VBAT
VBAT
VDDE18
VDDE18
VDDE18
VBAT
VDDE18
VANA25
VCORE18
VCORE12
VMC18
VAUDIO26
VBT27
VDIG
VBEAR26
VBACKUP
VMC18
VAUDIO26
VBT27
VDIG
VBEAR26
VBACKUP
Regulators & Charging
Made for
Power Top
Document Nr
Revision
1207-2092 Page B6
3
1225-4035 rev. 1
61 (122)
MEASUREMENT POINTS
VDDE18 VANA25
R2300
MP 67
<NM>
MP 57
<NM>
MP R2303
60
<NM>
R2301
R2302
0ohms
VMC18
0ohms
VAUDIO26
0ohms
VANA25
0ohms
VDDE18
MP 34
TP2201
X2201
Ericsson AB 3100
POWER
VBAT
TP2204
BATTERY
CONNECTOR
K14
1
TP2202
C2200
33pF
<NM>
F14
MP 33
C2202
22pF
C2203
3.3pF
M13
2
MP 23
VBAT_B
LDOG
1.5 - 2.85V
LDOD
2.65V
VBAT_E
LDOF
1.05 - 2.5V
LDOE
0.9 - 2.8V
LDOH
1.2 - 2.75V
LDOK
1.8 - 2.75V
VBAT_F
N14
BDATA
VBAT_G
R2200
25mohms
Z1
V2200
DF2S6.8FS
2
A
Z2
C2201
0.1uF
<NM>
NM
1
C
3
MP R2306
66
C2234
4.7pF
L13
LDOG_OUT
VANA25
VDDE18
VDIG
0ohms
VBEAR26
VBT27
VDIG
<NM>
VBEAR26
<NM>
C2212
2.2uF
0ohms
R2307
R2204
4.7Kohms
C2213
1uF
L14
C2207
2.2uF
M14
LDOK_OUT
LDOC_OUT
C2210
2.2uF
0ohms
G14
LDOH_OUT
LDOLP_OUT
C2208
1uF
VAUDIO26
G13
LDOF_OUT
LDOE_OUT
LDOC
2.65V
C2206
4.7uF
L12
LDOD_OUT
LPREG
2V
C2214
50mF
C2211
2.2uF
C2209
2.2uF
VBACKUP
<NM>
N12
D13
BUCK REGULATOR
B12
MOD1
D1
VBAT_C
Z4
Buck
0.9 - 1.8V
5%
1
C2204
10uF
C2205
10uF
VBAT
E1
BUCK_FB
Z3
1206-2937
MP R2305
63
LDO REGULATORS
VMC18
VBT27
<NM>
MP 113
N2000
G705 - W705 - W715
SP2200
VBUCK
VSS_BUCK
C1
L2201
BLM18PG121SN1
1000-0118
B1
2
AB3100
1202-0639
L2200
VCORE12
4.7uH
C2216
0.1uF
C2217
10uF
V2201
1001-0073
Leadfree
MEASUREMENT POINTS
MP 116
MP 117
NM
C2215
0.1uF
VCORE12
MP 114
C2218
10uF
C2220
0.1uF
C2219
10uF
R2230
0ohms
N2000
Ericsson AB 3100
POWER
BATTERY UART
A11
BDATA
Bat_GND
FUEL GAUGE
J14
C2225
47pF
16V
GND
J13
FGSENSEP
FGSENSEN
X4200
Slider Flex Connector
CHARGER CONTROL
G2
R2201
100mohms
H2
DCIO
V2202
4 S
1 S
H1
6 D 7D
NM
D8 D 3
V2202
1200-0145
FDMA1027P
0.1uF C2232
DCIO
H3
J2
F1
1200-0145
1
FDMA1027P
5G
VBUS
E2
2 G
F3
G1
C2221
0.1uF
16V
<NM>
C2222
1uF
25V
C2223
0.1uF
C2224
1uF
VBAT_D
F2
TRICKLE
A13
1206-2940
CHSENSEN
1
CHSENSEP
CHREG
DCIO_INT
DCIO
VBUS
VBAT
VCORE18
VANA25
VBAT_H
VDD_REF
AB3100
1202-0639
2
R2310
0ohms
<NM>
R2206
0ohms
<NM>
N2200
IN
VBUS
C2228
10uF
VDDE18
N2000
MP 59
MAX8640
6
2
GND2
5
GND5
4
C2229
1nF
SHDN
MAX8640YEXT18
1200-6420
1.8V
4MHz
LX
1
OUT
3
L2202 2.2uH
2MHz
C2230
0.001uF
<NM>
C2231
10uF
Ericsson AB 3100
POWER
IO LEVELS
R2394 0ohms
A12
VDD_IO
<NM>
TEST
C2227
0.1uF
B10
A2
D12
SPARE1
SPARE2
TEST
REF
A13
A14
C2226
1uF
R2203
100Kohms
VREF
IREF
AB3100
1202-0639
2
VCORE18
VBAT
VBAT
VCORE18
Made for
Document Nr
Revision
1207-2092 Page B7
3
1225-4035 rev. 1
62 (122)
MEASUREMENT POINTS
Power - Imaging
G705 - W705 - W715
VBAT
MP 31
N2010
MP 40
N2204
VBAT
TP2214
LDO REGULATOR
P22
R2282
CAM_LDO_EN
100Kohms
APPLICATION GPIO_16
DB3210ADT/7POPHF
1208-3871 1
VCAMSD18
R2210
0ohms
<NM>
A1
EN
C3
IN
B2
GND
C2286
TPS79918YZU
1001-0625
1uF
OUT
C1
NR
A3
VOPTO30
R2211 0ohms
<NM>
1.8
MP 48
C2287
OPTO_EN
2.2uF
R2202
0ohms
<NM>
N2201
3
OPTO_EN
4
R2217
100Kohms
2
MP 43
CE
IN
TP2203
OUT
GND
C2288
0.47uF
1
R2205 0ohms
<NM>
C2289
RP103K301D-TR
1201-6465
0.47uF
VBAT
R2281 47Kohms
C2281
0.047uF
C2282
1uF
MEASUREMENT POINTS
VCAMSA28
VCAMIO18
MP 38
R2212
0ohms
<NM>
TP2213
N2203
MP 26
TP2215
2
VDD
6
CE1
VOUT1
1
4
CE2
VOUT2
3
GND
5
R5323Z022B_TR_FD
1.5STEP4.0
1000-8638
C2283
C2284
2.2uF
2.2uF
VOPTO30
VCAMSD18
VCAMSA28
VCAMIO18
VCAMIO18
VCAMSA28
VCAMSD18
VOPTO30
VBAT
VBAT
Made for
Power - Imaging
Document Nr
Revision
1207-2092 Page B8
3
1225-4035 rev. 1
63 (122)
MEASUREMENT POINTS
Power - ASICs
G705 - W705 - W715
N2000
VCORE12
Ericsson AB 3100
POWER
VDDE18
R2390 0ohms
N16
D7
GNDE
P16
D9
P2
VDD_1v8
GNDE
R16
D10
AA2
VDD_1v8
GNDE
T16
E4
AE4
VDD_1v8
GNDE
K17
E5
N2010
AE10 VDD_1v8
GNDE
P17
E6
KAJSA_BOTTOM_VDD_IO_POWER_A_4_24
AE21 VDD_1v8
GNDE
U17
E7
AB25 VDD_1v8
GNDE
J18
E8
R25
VDD_1v8
GNDE
P18
E9
N25
VDD_1v8
GNDE
V18
E10
J25
VDD_1v8
F4
G25
VDD_1v8
F5
B22
VDD_1v8
F6
B13
VDD_1v8
F7
B10
VDD_1v8
F8
W2
VDD_1v8
F9
VDD
GND
P11
GND
R11
B19
VDD
VDD
VDD
GND
T11
GND
L12
T12
B16
VDD
GND
B14
VDD
GND
J13
K13
B7
VDD
GND
K25
VDD
GND
L13
GND
T13
GND
U13
GND
V13
GND
L14
GND
T14
GND
L15
GND
T15
GND
L16
GND_DIG_PLL
U10
C2331
M25
F10
DB3210ADT/7POPHF
1208-3871 1
G3
G4
G5
0.1uF
L11
C2329
P10
GND
0.1uF
GND
VDD
C2330
VDD
T25
G6
G7
0.1uF
Y25
C2327
V9
0.1uF
GND
C2328
AA25 VDD
0.1uF
GND
P9
C2325
K10
0.1uF
GND
C2326
VDD
AE22 VDD
0.1uF
GND
C2323
VDD
J9
0.1uF
AB6
C2324
GND
0.1uF
VDD
C2321
GND AB21
0.1uF
F22
GND
VDD
C2322
E6
0.1uF
GND
C2320
VDD_IO
1uF
VDD
VDD_1V8
G8
G9
G10
G11
G12
H4
H5
VCORE18
H6
H7
VSS1
VSS35
VSS2
VSS36
VSS3
VSS37
VSS4
VSS38
VSS5
VSS39
VSS6
VSS40
VSS7
VSS41
VSS8
VSS42
VSS9
VSS43
VSS10
VSS44
VSS11
VSS45
VSS12
VSS46
VSS13
VSS47
VSS14
VSS48
VSS15
VSS49
VSS16
VSS50
VSS17
VSS51
VSS18
VSS52
VSS19
VSS53
VSS20
VSS54
VSS21
VSS55
VSS22
VSS56
VSS23
VSS57
VSS24
VSS58
VSS25
VSS59
VSS26
VSS60
VSS27
VSS61
VSS28
VSS62
VSS29
VSS63
VSS30
VSS64
VSS31
VSS65
VSS32
VSS66
VSS33
VSS67
H8
H9
H10
H11
H12
J4
J5
J6
J7
J8
J9
J10
J11
K5
K6
K7
K8
K9
MEASUREMENT POINTS
GNDE
VDD_1v8
<NM>
VDDCORE(logic)
VDD
B21
N2
VDD_1v8
VDD_1v2
T2
B23
B4
D6
M2
AE9
VDD_1v8
M16
KAJSA_POWER
AE5
B2
GNDE
DB3210ADT/7POPHF
1208-3871 1
AB2
D5
KAJSA_POWER
KAJSA_BOTTOM_POWER
H2
D4
KAJSA_BOTTOM_1_8V_POWER_A_2_24
KAJSA_BOTTOM_1_2V
POWER_A_1_24
AC20
GROUND
N2010
N2010
K10
K11
L4
L5
L6
L7
L8
L9
L10
L11
M6
M8
M9
M11
M12
VSS34
AB3100
1202-0639
2
_
W25
VDD_DIG_PLL
C2314
0.1uF
C2312
0.1uF
C2313
0.1uF
KAJSA_BOTTOM
VMEM_POWER_A_24_24
KAJSA_BOTTOM_VMEM_POWER
N2010
VANA25
KAJSA_BOTTOM_ANALOG
POWER_A_3_24
VCORE12
0.1uF
0.1uF
C2311
C2310
C2308
0.1uF
C2309
0.1uF
C2306
0.1uF
C2307
0.1uF
0.1uF
C2305
0.1uF
0.1uF
1uF
0.1uF
C2303
C2301
C2302
C2304
N2010
DB3210ADT/7POPHF
1208-3871 1
KAJSA_BOTTOM_2.5V_POWER
AB7
VDDIO_2v5
VDDIO
VSSCO_PLL_1_2 AD18
AD2 FVDD
AC18
VDDCO_PLL_3_4
VSSCO_PLL_3_4 AD17
AE2 FVDD
AE16
VCC_AD1
VSS_AD1 AD16
AE3 FVDD
AE14
VCC_AD2
VSS_AD2 AE15
AD25 FVDD
AB15
VDDAD
VSSDA AB10
V25 FVDD
VCCN
AE24
AC11
VCCDA
GNDAD AB14
U25 FVDD
VCCN
AE25
AC12
VCCGPAD
VSSGPAD AB12
P24 FVDD
VSSCOMMON AE13
P25 FVDD
B25 VDDQ
C2350
0.1uF
U24 FVDD
V24 FVDD
C2351
C2348
0.1uF
C2349
C2346
0.1uF
C2347
DB3210ADT/7POPHF
1208-3871 1
GNDE_ANA AC17
C2345
C2341
C2339
C2337
VDD_ANA
0.1uF
AE19
VDDCO_AF
0.1uF
PLL_PG_416_FILTVDD
C2344
0.033uF
0.1uF
C2354
VDDQ
E25 VDDQ
0.1uF
AE20
0.1uF
PLL_PG_416_VCONT
C2342
0.033uF
VDDQ
G2
VDDCO_PLL_1_2
AE12
0.1uF
C2353
PLL_26_FILTVDD AE18
0.1uF
AE17
1uF
PLL_26_VCONT
0.1uF
C2336
PLL_FILTER
VDDQ
F2
AC19
R2
KAJSA_BOTTOM_PLL
C2
MEMORY POWER
VDDIO_2v5_PLL
2.2uF
KAJSA_BOTTOM_PLL_A_15_24
VDDQ
AD19
VDD_ANALOG
N2010
D2
DB3210ADT/7POPHF
1208-3871 1
C2352
0.1uF
DB3210ADT/7POPHF
1208-3871 1
VDDE18 VANA25 VCORE12
VDDE18
VANA25
VCORE12
VCORE18
VCORE18
Made for
Power ASICs
Document Nr
Revision
1207-2092 Page B9
3
1225-4035 rev. 1
64 (122)
MEASUREMENT POINTS
Power - WLAN
G705 - W705 - W715
VBAT
WLAN_VO33
N2300
MARVELL_88PW886_2
C2371
10uF
WLAN_CLKREQ
WLAN_CLKREQ
N2010
APPLICATION GPIO_17
SVIN
SW3
3
20
PVIN
VO3
7
6
PVIN
PGND
4
SW1
2
10
SLEEPn
VO1
5
11
PDn
PGND
1
13
SDI
SW2
19
FB2
15
PGND
18
VO2
14
C2373
0.1uF
MP 58
R22
WLAN_PDn
DB3210ADT/7POPHF
1208-3871 1
WLAN_SCLK
C2372
10uF
16
WLAN_VO33
MEASUREMENT POINTS
L2310
BLM18PG121SN1
1000-0118
C2374
10uF
L2311
4.7uH
NC
L2313 2.2uH
WLAN_VO18
WLAN_VO18
2MHz
C2376
10uF
R2313
100Kohms
WLAN_SCLK
8
GND
VL2X
9
VL2Y
12
VL3
17
88PW886-B3-CBD1C000-T
1203-2790
2
WLAN_LDO18A
WLAN_LDO18A
NC
WLAN_LDO30
C2377
10uF
WLAN_LDO30
C2379
10uF
VBAT
VBAT
Made for
Power - WLAN
Document Nr
Revision
1207-2092 Page B10
3
1225-4035 rev. 1
65 (122)
MEASUREMENT POINTS
VBAT
Connectivity Top
G705 - W705 - W715
VDDE18
Page 15
VDDE18
VBAT
LED_MAINKEY
LED_MAINKEY
LED_MAINKEY
LED_WebShortcut
LED_WebShortcut
ONSWAn
ONSWAn
ONSWAn
LED_WebShortcut
Keypad
VAUDIO26 VDDE18
VDIG
Page 12
VDIG
MEASUREMENT POINTS
VDDE18
VAUDIO26
OPTOSENSE
OPTOSENSE
OPTOSENSE
TESTOUT
TESTOUT
TESTOUT
VAD
VAD
VAD
TX_ADSTR
TX_ADSTR
VBACKUP
VBACKUP
RF_ID
RF_ID
TX_ADSTR
I2CDAT1
VBACKUP
I2CCLK1
I2CDAT1
I2CCLK1
I2CDAT1
I2CCLK1
RF_ID
AID_AD
AID_AD
ADC & DAC
VAUDIO26
VDDE18
VBAT
Page 14
VBAT
AID_AD
VDDE18
DCON
DCON
SPL
SPL
DCON
MICP/AUXinL
FM_ANTENNA
SPR
USB_HS_CLK
USB_HS_CLK
MICN/AUXinR
SPL
SPR
SPR
DCIO
VAUDIO26
VBUS
USB_HS_CLK
SERVICEn
DCIO
MICN/AUXinR
MICP/AUXinL
FM_ANTENNA
VBUS
SERVICEn
DCIO
MICN/AUXinR
MICP/AUXinL
FM_ANTENNA
VBUS
SERVICEn
Connectivity
VDDE18
VMC18
VBAT
Page 13
VBAT
VMC18
VDDE18
Cards
VDIG
VDDE18 VAUDIO26
VMC18
VBAT
VDIG
VDDE18
VAUDIO26
VMC18
VBAT
Made for
Connectivity Top
Document Nr
Revision
1207-2092 Page B11
3
1225-4035 rev. 1
66 (122)
MEASUREMENT POINTS
G705 - W705 - W715
N2000
R2402
4.7Kohms
R2403
4.7Kohms
R2404
4.7Kohms
Ericsson AB 3100
OP AND SERVICES
GPADC AND AUTOADC
TX_ADSTR
TX_ADSTR
A5
A9
AID_AD
VAD
RF_ID
TESTOUT
VBACKUP
OPTOSENSE
AID_AD
B9
VAD
C9
RF_ID
B8
TESTOUT
A8
RTEMP
C8
OPTOTEMP
D8
VBACKUP
B7
OPTOSENSE
C7
C10
VAUDIO26
R2400
4.7Kohms
GPA1
GPA2
GPA3
ADC
10bit
GPA4
GPA5
AUTO
CTL
GPA6
GPA7
GPA12
VDD_ADC
AD_OUT
C11
VDDE18
C2499
22pF
<NM>
R2499
4.7Kohms
LDOD
GPA0
2
AB3100
1202-0639
R2405
3.3Kohms
N2010
R2406
3.3Kohms
C2402
0.1uF
N2000
KAJSA_BOTTOM_SH_I2C_A_6_24
MEASUREMENT POINTS
C2400
33pF
<NM>
TXON
Ericsson AB 3100
OP AND SERVICES
KAJSA_BOTTOM_CONNECTIVITY
SHARED_I2C_IF(ACC+APP#0)
I2C IF
I2CSDA Y23
I2CDAT0
B13
I2CSCL U18
I2CCLK0
C13
SDA
DB3210ADT/7POPHF
1208-3871 1
SCL
AB3100
1202-0639
2
VDDE18
N2010
KAJSA_BOTTOM_APP_I2C_A_7_24
R2407
2.2Kohms
R2408
2.2Kohms
APPLICATION_I2C_IF(APP#1)
I2CSDA2 W23
I2CDAT1
I2CSCL2 T17
I2CCLK1
I2CDAT1
I2CCLK1
DB3210ADT/7POPHF
1208-3871 1
VDIG
VDDE18
N24
MRUS51S
1000-8451
APPLICATION GPIO_04
C2404
10uF
N2411
ACCELEROMETER
8
SP2400
VDIG
0ohms
NM
NM
C2405
100nF
CS
AX_INT1
11
INT_1
AX_INT2
9
INT_2
SDO
7
SDA/SDI/SDO
6
SCL/SPC
4
1
VDD_IO
14
VDD
GND
5
GND
12
C2406
GND
13
100nF
GND
16
GND_RES_10
10
VDD_RES_15
15
LIS331DL
1202-1676
1
NC
7
CS
8
INT_1
9
INT_2
SDO
12
SDA/SDI/SDO
13
SCL/SPC
14
1
VDD_IO
6
VDD
R4413 0ohms
NM
R4414 NM
0ohms
R4415
0ohms
NM
0.1uF
C4412
0.1uF
NM
C4411
NM
10uF
NM
R2409
0ohms
<NM>
SP2401
VAUDIO26
R4412
DB3210ADT/7POPHF
1208-3871 1
C4402
0.01uF
NM
ACCELEROMETER
VDDE18
R2401
0ohms
<NM>
VDDE18
N4410
NC
VDIG
VDDE18 VAUDIO26 VDIG
R4417 0ohms
2
C4410
C4401
0.01uF
GND
N2010
OUT
NM
3
VCC
NM
B4410
1
R4416 0ohms
VDDE18
GND
2
GND
4
GND
5
GND
10
GND_RES_11
11
VDD_RES_3
3
LIS302DL
1200-1223
NC
Made for
Document Nr
Revision
1207-2092 Page B12
3
1225-4035 rev. 1
67 (122)
MEASUREMENT POINTS
M2 IF
G705 - W705 - W715
VMC18
MP 47
X2403
NM
N2010
KAJSA_BOTTOM
MEMORY_CARD_A_19_24
C2422
2.2uF
C2429
39pF
C2410
2.2uF
M2
CONNECTOR
C2421
0.1uF
8
5
M1005
MMC/SD/MSPRO_IF
R2426 0ohms
MCCLK AA23
MCCLK
MCCMD AB24
MCCMD
MCDAT0 AA22
MCDAT0
R2427
33ohms
MCDAT1 AC24
MCDAT1
R2428
33ohms
MCDAT2 AD24
MCDAT2
R2429
33ohms
R2433
33ohms
22
21
3
20
2
19
18
6
17
33pF
4
16
C2428
33pF
NM
C2427
33pF
NM
C2426
33pF
NM
C2425
33pF
NM
C2424
33pF
NM
R2421
100Kohms
R2420
100Kohms
R2419
100Kohms
R2418
100Kohms
R2417
SP2411
C2423
DB3210ADT/7POPHF
1208-3871 1
NC
7
1
14
15
13
VDDE18
NC
NC
12
11
9
MSDETECT
U16
APPLICATION GPIO_12
10
1000-7708
R2422
470Kohms
N2010
C2411
33pF
<NM>
MEASUREMENT POINTS
MCCMDDIR AC25
MCDATADIR AB22
MCDAT3
100Kohms
MCDAT3 AC23
<NM>
DB3210ADT/7POPHF
1208-3871 1
SIM IF
VDDE18
MP 20
VBAT
MP 14
N2000
SIM_INTERFACE
SDAT V11
MP 110
SIM IF
C2412
0.1uF
M3
NC
MP 108
P2
N3
VBAT_I
SIMOFF_N
SIMLDO_OUT
SDAT
SIMDAT
SCLK
SIMCLK
L1
P1
C2414
1uF
SIMRSTn
A7
A10
SIMCLK
B7
B10
B9
A9
<NM>
B8
R2416
10Kohms
MP 111
B6
A3
R2411 0ohms
SIMDAT
M1
SRSTn V12
M2
DB3210ADT/7POPHF
1208-3871 1
SRST_N
AB3100
1202-0639
SIMRST_N
2
N2
N1
B3
A6
<NM>
SCLK AE7
5.6V
A2
NC
1
C
SP2410
R2415
10Kohms
DF2S5.6FS
1001-1864
KAJSA_BOTTOM_SIM_A_20_24
R2410 0ohms
ERICSSON AB 3100
OP AND SERVICES
V2477
2
A
MP 35
N2010
X2402
SIMVCC
C2415
C2416
C2417
C2418
C2419
C2420
33pF
<NM>
33pF
<NM>
33pF
<NM>
33pF
<NM>
0.01uF
1uF
A8
B2
A1
B1
C2413
100pF
Z1
Z2
Z3
Z4
1200-9864
VMC18
VMC18
VDDE18
VDDE18
1
VBAT
Made for
VBAT
Document Nr
Revision
1207-2092 Page B13
3
1225-4035 rev. 1
68 (122)
MEASUREMENT POINTS
MP 41
Connectivity
G705 - W705 - W715
VAUDIO26 VDDE18
VDDE18
SP2432
N2010
APPLICATION GPIO_01
N22
N2422
R2454 0ohms
APP_LOG
R2456
0ohms
NM
1
ACCESS GPIO_03
ACCESS GPIO_02
CFMS
R4
DCON
<NM>
R2431
100Kohms
<NM>
R2430
0ohms
<NM>
R2423 0ohms
DB3210ADT/7POPHF
1208-3871 1
DCON
VBAT
USB_HSCHIP_SEL
V10
VDD
GND
B2
D3
VDIG
GND
C2
A1
APP_LOG
B1
CFMS/ID_SOURCE
C1
CTMS
D1
SERVICE_N
D2
SERVICE
ACB/RID
CTMS
U3
A3
C2449 0.1uF
VDDE18
ACCESS GPIO_16
R2450
100Kohms
R2457
0ohms
NM
R2424 0ohms
1208-3871
N2010
ELINA
C2430 0.1uF
<NM>
NC
A2
RID_OUT
C3
ACB/RID_IN
B3
MP 125
MP 122
R2434
1Kohms
1%
R2437
100ohms
1%
ADC
SP2434 SP2433
IP4826CX12/LF
1201-4120 2
SP2420 SP2421 SP2422
AID_AD
N2010
V2
USB_HSINCLK
USB_OTG_TRANSIVER
ACCESS GPIO_01
T9
USB_HSDIR
R9
USB_HSSTP
ACCESS GPIO_05
U12
USB_HSNXT
ACCESS GPIO_14
W4
ACCESS GPIO_15
C2432
0.1uF
Y3
Chinese Charger
Detect
KAJSA_BOTTOM_USB_A_21_24
SP2435
SP2423 SP2424 SP2425
USB TRANSCEIVER IF
F3
VCC
REG3V3
E3
B2
VCCIO_1
REG1V8
E6
B5
VCCIO_2
F4
VBUS
C4
TEST
NC_1
F1
E1
CFG0
NC_2
F2
B4
CFG1
B3
CFG2
C3
CHIP_SEL
A4
CLOCK
DIR
DP
D1
D6
STP
DM
C1
NXT
USB_DAT_VP
N9
USB_HSDATA1
B1
DATA0
USB_OE
U9
USB_HSDATA2
A1
DATA1
ID
D3
A2
DATA2
PSW_N
D4
A3
DATA3
A5
DATA4
FAULT
E2
A6
DATA5
ACCESS GPIO_06
V3
ACCESS GPIO_07
U5
USB_HSDATA4
SP2428
USB_HSDATA5
SP2429
ACCESS GPIO_08
T4
USB_HSDATA6
ACCESS GPIO_09
U4
USB_HSDATA7
NC
SP2430
DB3210ADT/7POPHF
1208-3871 1
MP 62
C2437
4.7uF
NC
NC
R2440
100Kohms
<NM>
R2446
360Kohms
VBUS
NC
MP 16
B6
DATA6
C6
DATA7
F5
XTAL1
GND_1
E4
F6
XTAL2
GND_2
C5
C2
RREF
GND_3
D2
V2417
BZX585-C12
1200-5130
V2416
2
1
A
C
ESD9L5.0ST5G
1201-8440
C2438
33pF
<NM>
MP 17
C2440
1uF
25V
V2415
2
1
A
C
ESD9L5.0ST5G
1201-8440
MP 10
1
C
SP2427
C2436
0.1uF
R2445
120Kohms
E5
D5
USB_HSDATA3
C2435
4.7uF
VDDE18
USB_HSDATA0
AC6
REG1_8V
C2434
0.1uF
M9
ACCESS GPIO_18
REG3_3V
MP 61
USB_SE0_VM
SP2426
SERVICEn
MP 65
MEASUREMENT POINTS
ACCESS GPIO_00
AID_AD
SERVICEn
N2420
2
A
ACCESS GPIO_04
C2431
10uF
DCIO
C2441
0.01uF
25V
C2444
10pF
<NM>
X2405
ISP1508
1200-1694
SYSTEM CONNECTOR
R2441
12Kohms
1%
C2433
1uF
MP 71
3
DPext/DTMS
P4
P1
L2408
SPR
2
DPext/DTMS_1
1
100MHz
C2451
1nF
NM
2.2nF
2.2nF
D+/DTMS
9
GND
8
AID/ACB/Vppflash
7
VIDEO/STROBE
C2452
1nF
NM
100MHz
6
SPEAKER_R_Debug-RX
MP 8
L2403
100MHz
5
SPEAKER_L_Debug-TX
L2402
100MHz
4
MICN/AUXinR
L2401
100MHz
3
MICP/AUXinL
MP 7
2
SPEAKER_REF/Line_Ref/FM_Antenna
MP 6
1
VBUS
R2451 0ohms
GND
GND_SLUG
L2452 220
3
1
7
2
Z1
BLM18EG221SN1
1001-1896
C2439
1uF
25V
V2413
1201-2253
A1
Z2
2
IN
EN
FLAG
D-/DFMS
10
A2
NCP360
1200-6309
MEC PIN
MEC PIN
1
8195-3512-LN80
1205-9723
1
R2444
100Kohms
C2448
OUT
11
MP 11
BLM15EG221SN1
1200-6898
6
C2447
NCP360
MP 12
L2404
L2406
5
OUT
DCIO
MP 9
N2421
4
12
1005
SPL
VBUS
MP 13
R2449 0ohms
DMext/DFMS_1
R2448 <NM> 0ohms
MP 72
TCM1210-900-2P
1201-6833
L2405
100MHz
SPR
SPL
P2
MP 73
R2442
470ohms
R2490 0ohms
MP 70
P3
4
DMext/DFMS
USB_HS_CLK
Z2400
FM_ANTENNA
VDDE18
L2453 100nH
M1005
L2455 100nH
M1005
ACCESS GPIO_23
DB3210ADT/7POPHF
1208-3871 1
VBAT
VDDE18
VAUDIO26
MICP/AUXinL
MICN/AUXinR
R2447
100Kohms
N2010
VBAT VDDE18 VAUDIO26
MICP/AUXinL
MICN/AUXinR
R23
OVP_FLAG
C2442
0.01uF
C2443
0.01uF
Made for
Connectivity
Document Nr
Revision
1207-2092 Page B14
3
1225-4035 rev. 1
69 (122)
MEASUREMENT POINTS
G705 - W705 - W715
MP 83
NM
ONSWAn
ONSWAn
C2472
33pF
V2470
C
VDDE18
1001-0075
X4200
A
VDDE18
VBAT
SLIDER FLEX
CONNECTOR
MP 82
B2
KEYIN0
A10
KEYIN1
VBAT
A9
KEYIN2
A8
A7
A6
A5
KEYOUT4
A1
A2
A3
A4
VDDE18
1206-2940
70-pin
(#4/7)
1
V2476
GDZT2R3.9
1201-8626
NM
V2472
NM DF3A3FV
1000-7497
KAJSA_BOTTOM
KEYPAD_IF_A_18_24
DF3A3FV
1000-7497
2
A
R2475
10Kohms
R2474
10Kohms
R2473
10Kohms
R2472
10Kohms
R2471
10Kohms
R2470
10Kohms
X2401
KEYFLEX
CONNECTOR
5.6V
KEYPAD_INTERFACE
KEYIN0
KEYOUT0 Y24
KEYOUT0
M10 KEYIN1
KEYOUT1 W22
KEYOUT1
V15
KEYIN2
KEYOUT2 M11
KEYOUT2
U14
KEYIN3
KEYOUT3 K11
U22
KEYIN4
KEYOUT4 N11
C2463
470pF
NM
NM
NM
NM
MP 51
KEYIN5
MP 103
MP 80
KEYIN1
KEYIN1
KEYIN0
KEYIN0
c
NM
NM
a
1
2
C1
C2
L2409
100MHz
GND
MP 27
V2475
NM
1
C
V2480
2
A
ESD protection for keypad
S2405
VOL b
S2406
VOL +
b
d
d
5.6V
R2004 0ohms
1.8k
DF2S5.6FS
1001-1864
1200-9617
d
d
S2404
c
JPM1990-4901F
1206-9606
VBAT
b
a
MP 46
1
LED_MAINKEY
MP 88
2
A
V2408
KEYIN0
KEYOUT0
KEYOUT1
KEYIN1
3
6
1
Num
Num
Num
Green
-
Nav
KEYOUT2
KEYOUT3
KEYOUT4
GND
KEYIN2
-
KEYIN3
-
CLR
Nav
KEYIN4
KEYIN5
-
-
9
Walk
man
2
0
Soft
Left
5
Num
Nav
Num
-
4
7
Cam
Snap
#
Num
Num
Main
Num
Num
Rock
Down
Rock
Left
Rock
Up
Rock
Push
Rock
Right
Soft
Right
Nav
Nav
Nav
Nav
Nav
Nav
-
Z2
Z3
DF2S5.6FS
1001-1864
1
C
V4204
1
C1
2
C2
A7
A8
5.6V
1214-7370
16pin
Numeric Keypad
GND
GND
8
Nav
-
Z1
Num
Active
Menu
Nav
B1
Num
Num
Red
ON/OFF
DF2S5.6FS
5.6V
1001-1864
V4205
2
A
MP 94
1
C
<NM>
A1
B8
B7
Z4
A
R2436 0ohms
1200-9617
DFA3A5.6FV
LED_WebShortcut
33pFC2492
LED_MAINKEY
MP 89
3
c
EVQ9P301
1001-0060
DIODE V;ZENER_ESD_PROTECTION_DIODE
a
GND
NM
c
NM
EVQ9P301
1001-0060
33pF C2491
a
GND
LED_WebShortcut
A2
A
DFA3A5.6FV
b
A3
EVQ9P301
1001-0060
3
1
V2474
NM
2
C1
C2
A
1200-9617
DFA3A5.6FV
3
1
V2473
2
C1
1200-9617
C2
A
C2470
33pF
<NM>
DFA3A5.6FV
C2469
33pF
<NM>
3
C2468
33pF
<NM>
S2403
A4
33pF C2489
KEYIN2
NM
KEYIN0
A5
KEYIN2
33pFC2488
MP 52
KEYIN1
A6
KEYIN3
NM
MP 53
KEYIN2
B5
B6
KEYIN4
MP 104
33pF C2487
0ohms <NM>
NM
0ohms <NM>
R2477
33pFC2486
R2476
KEYIN3
B4
GND
KEYIN5
KEYIN4
B2
B3
33pFC2483
C2461
470pF
NM
33pF C2482
C2460
470pF
NM
33pFC2481
NM
KEYIN5
DB3210ADT/7POPHF
1208-3871 1
33pF C2480
KEYOUT3
NM
N10
MP 81
KEYOUT4
33pF C2485
L10
MP 54
33pFC2484
1
C
DF2S5.6FS
1001-1864
1
C
DF2S5.6FS
1001-1864
V2482
2
A
5.6V
V2471
N2010
MEASUREMENT POINTS
V2481
2
A
1
C
Navigation Keypad
Vol+
Vol-
Main
Main
*
-
Made for
Document Nr
Revision
1207-2092 Page B15
3
1225-4035 rev. 1
70 (122)
MEASUREMENT POINTS
VDDE18
VCAMSD18
VCAMIO18
Imaging Top
G705 - W705 - W715
VCAMSA28
Page 3
VCAMSA28
VCAMIO18
VCAMSD18
VDDE18
I2CCLK1
I2CCLK1
I2CCLK1
I2CDAT1
I2CDAT1
CAMSYSCLK
CAMSYSCLK
MEASUREMENT POINTS
I2CDAT1
CAMSYSCLK
Camera
VAUDIO26
VOPTO30
VDIG
VDDE18
VBAT
Page 2
VBAT
VDDE18
VDIG
VOPTO30
VAUDIO26
LED_MAINKEY
LED_WebShortcut
OPTOSENSE
LED_MAINKEY
LED_MAINKEY
LED_WebShortcut
LED_WebShortcut
OPTOSENSE
OPTOSENSE
Display
VBAT
VDDE18
VOPTO30
VCAMSA28
VCAMIO18 VCAMSD18 VDIG
VAUDIO26
VBAT
VDDE18
VOPTO30
VCAMSA28
VCAMIO18
VCAMSD18
VDIG
VAUDIO26
Made for
Imaging
Top
Document Nr
Revision
1207-2092 Page I1
3
1225-4035 rev. 1
71 (122)
MEASUREMENT POINTS
Imaging - Display
G705 - W705 - W715
VDIG
R4221
0ohms
NM
VDDE18
R4224 0ohms
VAUDIO26
VOPTO30
<NM>
R4220
X4200
0ohms
SLIDER FLEX
CONNECTOR
<NM>
C4213
0.1uF
C4214
0.1uF
A17
A16
LCD_RESn
A28
A18
LCD_RD
C4229
0.1uF
B5
MP Z4200 Pin 1-8
Z4200
EMI-FILTER
N2010
KAJSA_BOTTOM_DISPLAY_A_13_24
O1-2
5
LCD_D4
I2-1
O2-2
6
LCD_D3
3
I3-1
O3-2
7
LCD_D2
O4-2
8
LCD_D1
GND_2
10
4
I4-1
9
GND_1
KAJSA_BOTTOM_IMAGING
KAJSA_BOTTOM
DISPLAY_INTERFACE
PDI_RESn
KNA16400 1200-1824
MP
Z4201 Pin 1-8
EMI-FILTER
Z4201
L17
C4235
LCD_DAT1
I1-1
2
33pF
LCD_DAT2
1
C4234
LCD_DAT3
33pF
LCD_DAT4
O1-2
5
LCD_DAT7
2
I2-1
O2-2
6
LCD_D7
LCD_DAT6
3
I3-1
O3-2
7
LCD_D6
LCD_DAT5
4
I4-1
O4-2
8
LCD_D5
9
GND_1
GND_2
10
PDI_D1 K22
PDI_D2 J23
PDI_D3 M18
PDI_D4 H23
PDI_D5 J24
B10
B9
A19
B15
B14
MEASUREMENT POINTS
I1-1
LCD_VSYNC
B11
LCD_VSYNC_1
1
PDI_D0 K24
B12
B13
KNA16400 1200-1824
PDI_D6 M17
PDI_D7 H24
MP Z4200 Pin 1-8
Z4202
PDI_C0 L23
EMI-FILTER
PDI_C1 M22
LCD_DAT0
1
I1-1
O1-2
5
LCD_D0
PDI_C2 L24
LCD_RS
2
I2-1
O2-2
6
LCD_RS_1
3
I3-1
O3-2
7
LCD_CS_1
4
I4-1
O4-2
8
LCD_WR_1
9
GND_1
GND_2
10
PDI_C3 K23
LCD_CS
PDI_C4 N18
LCD_WR
PDI_C5 L22
B8
OPTOSENSE
A29
OPTOSENSE
B7
B6
C4219
33pF
<NM>
B4
B34
KNA16400 1200-1824
DB3210ADT/7POPHF
1208-3871 1
A34
VBOOST
B35
A35
A14
MP 36
VBAT
VBOOST
LED_LCD
C4210
33pF
25V
<NM>
L4222
TP4200
C
C
3
B
5
E
4
C
B
V4203
RN1910AFS
1211-3641 1
2
E
INDICATOR LED CONTROL
LED4_N
MP 24
2
3
MP 25
VDDE18
VDIG
VOPTO30
C2002
4.7pF
1uF
NM
NM
2
MP 29
VBAT
1k
C2001
K1/K2 V4202
A2
C2003
33pF
L4202 100MHz
A1
1SS361
NM
1000-0402
C4208
2.2uF
VIBR_OUT
AB3100
1202-0639
VDD_VIBR
B14
C2407
33pF
VDIG
2
C4209
0.1uF
1k
APPLICATION GPIO_02
VAUDIO26
DF2S5.6FS
1001-1864
NM
1
C
V4207
2
A
DF2S5.6FS
1001-1864
33pF
Picture_Light_LED
<NM>
X2402
A4
1200-9864
5.6V
X2402
B5
c
MP 15
R18
Tally_LED_C
MP 18
1200-9864
3
V2402
RN1107_LEADFREE
1000-8367
b
1
VBAT
VDIG
C2490
A5
VAUDIO26
N2010
VDDE18
LED_MAINKEY
LED_WebShortcut
B4
<NM>
Radio components
VOPTO30
NM
1
C
NM
MP 21
R2435 0ohms
B3
C2403 0.1uF
BSY-3242
1202-9271
B
GND
A3
VIBRATOR CONTROL
C14
LED_WebShortcut
<NM>
R4230 0ohms
VBAT
L4201 100MHz
LED_MAINKEY
R2001 0ohms
1
VBAT
NM
B2000
V4203
RN1910AFS
1211-3641 1
C3
LED6_N
Vibrator
5.6V
D3
LED5_N
TP4203
(#1/7)
LED_Walkman
1
C
LED3_N
1
6
A4
LED2_N
1
B3
1206-2940
70-pin
B4
LED1_N
A
V4206
2
A
5.6V
Ericsson AB 3100
MMI
VIBRATOR
NM
C2494 33pF
VBAT
N2000
A30
B33
MP 50
R4204
62Kohms
1%
B32
A12
NM
C2493 33pF
R4203
910Kohms
1%
V2483
2
A
C4203
1uF
25V
C4201
33pF
<NM>
R2432 180ohms
R4202
150mohms
2
A31
MP 49
LED_NAV1
DF2S5.6FS
1001-1864
G
B28
R4201
0ohms
<NM>
B2
VBOOST
B25
B30
D2
BOOST_ISN
AB3100
1202-0639
D2
D1
<NM>
C2
BOOST_ISP
C4206
0.1uF
A11
SCH2819
1001-0077
E3
R4200
0ohms
A21
C4202
330pF
25V
A
BOOST LED DRIVER
A1 VDD_BOOST
SW_BOOST
B16
A20
N2401
MP 112
B1
22uH
C4200
2.2uF
Ericsson AB 3100
MMI
Z4
VBAT
TP4201
MP 115
N2000
Z2
Z3
MP 37
L4200
S
VBAT
Z1
A15
C4211
33pF
25V
<NM>
DB3210ADT/7POPHF
1208-3871 1
LEADFREE
e
2
Made for
Imaging
Display
Document Nr
Revision
1207-2092 Page I2
3
1225-4035 rev. 1
72 (122)
MEASUREMENT POINTS
VCAMSD18
VCAMIO18
Imaging - Camera
G705 - W705 - W715
VCAMSA28
X4300
SP4300
MAIN CAMERA
SOCKET
N2010
KAJSA_BOTTOM_CAMERA_A_12_24
KAJSA_BOTTOM_IMAGING
8
7
17
R4302 0ohms <NM>
21
22
10
20
12
CIHSYNC
CIVSYNC
2
19
13
C4320
0.1uF
C4301
0.1uF
C4304
0.1uF
23
3
24
4
CIVSYNC
6
11
16
Z5
I2CCLK1
R4300
I2CCLK1
0ohms
14
Z7
C4332 33pF
C4334 33pF
C4333 33pF
15
<NM>
C4336 33pF
Z3
0ohms
C4335 33pF
Z2
Z4
I2CDAT1
R4301
I2CDAT1
CI_D0
G24
CI_D1
F24
CI_D2
G23
CI_D3
G22
CI_D4
J22
CI_D5
H25
CI_D6
CI_D7
DB3210ADT/7POPHF
1208-3871 1
18
Z1
C4338 33pF
C4308
22pF
NM
C4337 33pF
<NM>
C4340 33pF
5
CAMSYSCLK
C4339 33pF
R4303
0ohms
CI_VSYNC
H22
C4330 33pF
MP 32
DB3210ADT/7POPHF
1208-3871 1
CI_HSYNC
F23
CIHSYNC
9
C4331 33pF
CAM_PWDN
K18
MEASUREMENT POINTS
R24
APPLICATION GPIO_13
KAJSA_BOTTOM
CAMERA_INTERFACE
CI_PCLK
CI_RESn L18
E22
1
N2010
F25
Z6
I2CCLK1
<NM>
Z8
24-pin
1206-5418
1
X4200
VCAMSA28 VCAMSD18
SLIDER FLEX
CONNECTOR
A27
A25
A26
A23
CI_RSTn
CI_RSTn
CIHSYNC
CIVSYNC
A22
C4305
0.1uF
C4306
0.1uF
CID0
B17
CID1
B21
CID2
B18
CID3
B22
CID4
B19
CID5
B23
CID6
B20
NM
33pF
C4344
100nF
NM
C4341
NM
C4342
33pF
33pF
NM
33pF
C4346
C4345
NM
33pF
NM
33pF
C4348
NM
C4347
NM
33pF
C4349
C4351
C4309
22pF
NM
C4350
B31
<NM>
NM
B27
0ohms
33pF
CID7
33pF
R4304
B24
C4352
CAMSYSCLK
B26
NM
33pF
I2CCLK1
VDDE18
N2010
APPLICATION GPIO_14
K16
A24
R4305
0ohms
B29
N2600
CIPCLK
1
<NM>
R2283
VCAMSA28
VCAMSA28
VCAMIO18
VCAMSD18
VDDE18
VCAMIO18
1
(#2/7)
5
R2491
1Mohms
C2600
A
OE
&Y
VCC GND
4
2
TC7SG125AFS
1202-0076
1
0.1uF
100Kohms
1206-2940
70-pin
C4343 33pF
<NM>
DB3210ADT/7POPHF
1208-3871 1
3
VCAMSD18 VDDE18
Made for
Imaging
Camera
Document Nr
Revision
1207-2092 Page I3
3
1225-4035 rev. 1
73 (122)
MEASUREMENT POINTS
Access Top
G705 - W705 - W715
R1100
RF_ID
RF_ID
4.7Kohms
<NM>
VDDE18 VBAT
N2000
Page 2
Ericsson AB 3100
OP AND SERVICES
VBAT
DAC
C4
B5
C5
RF_ID
VDDE18
DAC_CLK
DACO_0
DAC_STR
DACO_1
DAC_DAT
DACO_2
A7
B6
DC_DC_REF1
A6
BIAS_CTRL
DC_DC_REF1
BIAS_CTRL
C6
DACO_3
2
AB3100
1202-0639
MCLKREQ
MCLKREQ
MCLKREQ
N2010
KAJSA_BOTTOM_ACCESS_A_14_24
R1103
100Kohms
KAJSA_BOTTOM_ACCESS
OPTO_EN
OPTO_EN
OPTO_EN
RADIO_CTRL_IF
RF_CTRL_DATA AE6
RADDAT
RF_CTRL_CLK AC8
RADCLK
RF_CTRL_STRB0 AC7
RADSTR
RF_CTRL_STRB1 AD7
NC
RF_CTRL_STRB2 AB5
NC
ANT_SW0 AB8
ANTSW0
ANT_SW1 AC9
ANTSW1
ANT_SW2 AD8
ANTSW2
ANT_SW3 AE8
ANTSW3
RADDAT
TESTOUT
TESTOUT
RADCLK
MCLK
RADSTR
MCLKSEC
TESTOUT
MCLK
MCLK
MCLKSEC
MCLKSEC
ANTSW0
ANTSW1
ANTSW2
ANTSW3
TX_ADC_STRB AC2
MEASUREMENT POINTS
EGG_RADIO_IF
RF_DATA_A AD5
QDATA_AMP_MSB
RF_DATA_B AC5
IDATA_FREQ_MSB
RF_DATA_C AD3
AMP_LSB_FREQ_LSB
RF_DATA_STRB AC3
QDATA_AMP_MSB
IDATA_FREQ_MSB
AMP_LSB_FREQ_LSB
DCLK_DATSTR
DCLK_DATSTR
WCDMA/GSM_RADIO_IF
RF_WCDMA_EN0 AE11
WPA0_EN
RF_WCDMA_EN1 AD10
WPA1_EN
RF_WCDMA_EN2 AB9
WPA2_EN
RF_WCDMA_EN3 AD9
WDETON
RF_WCDMA_EN4 AB4
NC
RF_WCDMA_EN5 AC4
NC
GSM_PA_ENABLE AA5
NC
ADC_I1_NEG
DAC_I_NEG AD12
AC16
ADC_I1_POS
DAC_I_POS AD13
AC15
ADC_Q1_NEG
DAC_Q_NEG AD11
AD15
ADC_Q1_POS
DAC_Q_POS AC10
AD14
ADC_I2_NEG
AC14
ADC_I2_POS
AC13
ADC_Q2_NEG
AB13
ADC_Q2_POS
AB11
WPA1_EN
WPA2_EN
WDETON
WRX_IB
WTX_IB
WTX_IA
WTX_QB
WCDMA_RADIO_IF
AB16
WPA0_EN
WTX_QA
WTX_IB
WRX_IA
WTX_IA
WRX_QB
WTX_QB
WRX_QA
WTX_QA
WTXPOWDET
GSM & UMTS
R1101
100Kohms
R1102
100Kohms
TX_POW
DB3210ADT/7POPHF
1208-3871 1
WTXPOWDET
WRX_QA
WRX_QB
WRX_IA
WRX_IB
TX_ADSTR
TX_ADSTR
VBAT
VDDE18
VDDE18
Page 4
VBAT
TX_ADSTR
AGPS_RSTn
AGPS_CLK
AGPS_RSTn
AGPS_RSTn
AGPS_CLK
AGPS_CLK
RTCCLK
TX_ADSTR
AGPS_RSTn
AGPS_CLK
RTCCLK
AGPS
VBT27
VDIG
VDDE18
Page 3
VDDE18
VDIG
VBT27
BT_CLK
BT_CLK
BT_CLK
RTCCLK
RTCCLK
BTRESn
BTRESn
BT_CLKREQn
BT_CLKREQn
BT_CLKREQn
RTCCLK
WLAN_LDO30
BTRESn
WLAN_BT_PRIORITY
WLAN_BT_STATE
VDIG
ACC_SPI_DO
WLAN_VO33
WLAN_LDO18A
WLAN_VO18
ACC_SPI_CLK
WLAN_CLKREQ
ACC_SPI_DI
Page 5
BT_ANT
WLAN_VO18
WLAN_VO33
WLAN_CONFIRMn
WLAN_LDO18A
Bluetooth
WLAN_LDO30
VDIG
WLAN_SCLK
WLAN_CLKREQ
WLAN_CLK
WLAN_CLK
WLAN_CLK
ACC_SPI_DO
ACC_SPI_CLK
BT_ANT
VBAT
VDDE18
VDIG
VBT27
WLAN_VO18
WLAN_VO33
WLAN_LDO18A
WLAN_LDO30
WLAN_BT_STATE
WLAN_BT_PRIORITY
VBAT
RTCCLK
VDDE18
VDIG
VBT27
WLAN_VO18
WLAN_VO33
ACC_SPI_DI
WLAN_CLKREQ
WLAN_SCLK
WLAN_CLKREQ
WLAN_CLK
ACC_SPI_DO
ACC_SPI_DI
ACC_SPI_CLK
BT_ANT
WLAN_BT_STATE
WLAN_BT_PRIORITY
RTCCLK
WLAN
WLAN_CONFIRMn
WLAN_SCLK
WLAN_CONFIRMn
Made for
Access
Top
Document Nr
Revision
1207-2092 Page R1
3
WLAN_LDO18A
WLAN_LDO30
1225-4035 rev. 1
74 (122)
MEASUREMENT POINTS
MP 93
R1206 0ohms
TP1210
R1204
0ohms
L1205
R1220 0ohms
MP 79
L1212
3.9nH
TP1211
4
C1211
1pF
<NM>
C1210
1pF
<NM>
C1209
0.75pF
C1212
1.5pF
L1211
0.0058uH
R1202 0ohms
6
G705 - W705 - W715
MP 96
X1200
2
3.9nH
R_TERM
C_TERM
GND
GND
GND
GND
CRS5001-4202E
1203-9688
L1207 2.2nH
1
VDDE18
3
C3
NM
C1
B2
VCCB
C1202
0.5pF
1201-6533
NM
N1202
5
1
1201-7614
VDDE18
VCCA
B1
A1
R1211
0ohms
NM
GSM/UMTS
ANTENNA
Access - GSM & UMTS
A3
TIGER RF-Module
GSM / UMTS
A1
N1200
GND
A5
ANT
ST1G3234BBJR 1A
1206-0331
MCLK
ANTSW0
ANTSW1
R1222 0ohms
ANTSW2
ANTSW0
C2
ANTSW1
C1
ANTSW2
B2
NM
ANTSW0
MCLKSEC
ANTSW1
TESTOUT
L2
MCLK
K3
MCLKSEC
K1
TESTOUT
K9
RF_ID
D1
WRX_IA
E1
WRX_IB
F2
WRX_QA
E2
WRX_QB
A7
WTXPOWDET
MCLK
MCLKSEC
TESTOUT
ANTSW2
D2
MODULE_SENSE
ANTSW3
RF_ID
ANTSW3
ANTSW3
WTX_IA
WTX_IB
WTX_QA
WTX_QB
BIAS_CTRL
WTX_IA
L4
WTX_IB
K4
WTX_QA
L5
WTX_QB
K5
BIAS_CTRL
L7
WDETON
WDETON
WTX_IA
WTXPOWERSENSE
RFCTRL1
RADCLK
IDATA_FREQ_MSB
AMP_LSB_FREQ_LSB
H2
QDATA_AMP_MSB
G1
IDATA_FREQ_MSB
G2
AMP_LSB_FREQ_LSB
F1
RADSTR
WPA1_EN
GND1
WPA_A_EN
K6
WPA1_EN
G8
K7
MCLKREQ
MCLKREQ
E9
GND4
C9
EDATAC
GND5
D9
EDATASTR
GND6
WPA_A_EN
GND8
WPA_B_EN
GND9
WPA_C_EN
GND10
GND12
CLKREQ
GND13
GND14
GND15
VCC_WPA
VRAD28
VBAT
VDDE18
GND16
GND17
GND18
GND19
L3
B8
C1219
2.2uF
<NM>
C1220
68pF
<NM>
L6
A3
B3
J8
H8
D8
EDATAB
GND11
K2
WTXPOWDET
EDATAA
GND7
WPA_C_EN
WRX_QB
RF_CONT1
L1
GND2
DCLK_DATSTR
DCLK_DATSTR
WRX_QA
MEASUREMENT POINTS
RADSTR
QDATA_AMP_MSB
RADSTR
WRX_IB
RADDAT
H1
RADDAT
RADDAT
WRX_IA
PASENSE_EN
J1
RADCLK
WRX_QB
BIAS_CTRL
J2
RADCLK
WRX_IB
WRX_QA
WTX_QB
A8
C1200
33pF
<NM>
WRX_IA
WTX_IB
WTX_QA
VDIGRAD_1V8
GND20
VRADB_2V75
GND21
VRADA_2V75
GND22
VBAT1
GND23
VBAT2
GND24
VCC_PA1
GND25
VCC_PA2
SLUG
F9
G9
E8
A9
K8
B1
A4
B9
B5
L9
A2
L8
B4
B6
C8
A6
H9
J9
F8
B7
SLUG
TIGER_1_8_REV2
1210-9905
1
PA Power Supply
RF_CONT1
MP 126
MP 101
WPA0_EN
WPA0_EN
R1203
100Kohms
VCC_WPA
N1210
WPA2_EN
WPA2_EN
R1209
100Kohms
<NM>
R1210
100Kohms
<NM>
DC_DC_REF1
DC_DC_REF1
MP 102
MAX8805
C1216
1uF
<NM>
VBAT
R1200 0ohms
<NM>
C1204
0.1uF
C1201
10uF
D2
EN1
LX
B4
B3
EN2
PAB
D3
PAA
D4
B2
PA_EN
LDO1
D1
A3
REFIN
LDO2
B1
REFBP
A1
AGND
A2
PGND
A4
C1
IN2
C3
IN1B
C4
IN1A
C2
HP
MAX8805WEWEEE+T
1203-5870
1
L1200 2.2uH
R1201 0ohms
2MHz
<NM>
Radio Power Supply
VBAT
MP 100
MP 127
VBAT
C1206
4.7uF
C1213
0.22uF
C1214
0.1uF
VRAD28
N2000
C1205
0.1uF
Ericsson AB 3100
POWER
C1203
22pF
<NM>
K12
C1215
0.1uF
VBAT_A
LDOA
2.8V
K13
LDOA_OUT
AB3100
1202-0639
6
2
5
C1218
2.2uF
C1217
2.2uF
RP102K281D-TR-FD
2.8V
CE
VOUT_1
VDD_1
VOUT_2
VDD_2
GND
SLUG
RP102K281D-TR
1204-5903
VBAT
VDDE18
VDDE18
1
2
MP 99
3
7
C1207
2.2uF
1
OPTO_EN
VBAT
R1214
0ohms
<NM>
N1211
4
C12
EXT_LDO
C1208
0.1uF
R1213
0ohms
<NM>
MP 64
RADIO
OPTO_EN
Made for
Access
GSM & UMTS
Document Nr
Revision
1207-2092 Page R2
3
1225-4035 rev. 1
75 (122)
MEASUREMENT POINTS
Access - Bluetooth
G705 - W705 - W715
ACC_SPI_DO
ACC_SPI_CLK
ACC_SPI_DI
N1300
BLUETOOTH-FM_IO
BT_SYSCON
BTRESn
BT_CLK
RTCCLK
WLAN_CLKREQ
WLAN_CLKREQ
R1300 0ohms
<NM>
NC
K7
BT_RSTn
F6
BT_REF_CLK_IN
K9
BT_RTCCLK
E7
F9
L9
BT_WAKEUP
BT_REG_CTRL
J4
BT_CLKREQ_IN1
BT_CLKREQ_OUT1
J7
BT_CLKREQ_IN2
BT_CLKREQ_OUT2
J8
HOST_WAKEUP/SPI_INT
E8
NC
BT_CLKREQn
NC
BT_CLKREQn
SP1303 SP1304 SP1305
N2010
SP1301 SP1302
BT_SPI_INT
E10
ACCESS GPIO_27
ACC_SPI_DI
Y4
ACCESS GPIO_20
BT_SPI_CSn
C9
N2010
AB3
ACC_SPI_DO
H9
UART_RXD/SPI_DI
UART_TXD/SPI_DO
G7
ACC_SPI_CLK
K6
UART_CTS/SPI_CLK UART_RTS/SPI_CSn
J6
PCM_INTERFACE
DB3210ADT/7POPHF
1208-3871 1
N2010
PCMCLK
M4
BT_PCM_CLK
PCMSYN
N4
BT_PCM_SYNC
PCM_DLD_TO_KAJSA
K5
BT_PCM_A
PCM_ULD_FROM_KAJSA
M5
BT_PCM_B
WLAN_CONFIRMn
G9
BT_GPIO_0
WLAN_BT_STATE
L3
BT_GPIO_8
M3
BT_GPIO_9
K4
BT_GPIO_10
J3
BT_GPIO_16
L7
BT_CONFIG_1
M7
BT_CONFIG_2
N6
BT_CONFIG_3
KAJSA_BOTTOM
BLUETOOTH_A_11_24
ACCESS GPIO_26
DB3210ADT/7POPHF
1208-3871 1
BT_ANT
BT_ANT
GPIO
KAJSA_BOTTOM_BLUETOOTH
VDDE18
VDDE18
VBT27
VDDE18
WLAN_BT_STATE
TESTPINS
WLAN_BT_PRIORITY
NC
G6
BT_AF_PRG
H2
BT_TEST1
G2
BT_TEST2
W1300
RF
DO-NOT-USE
STLC2593
1200-9840
BT_RFP
K1
BT_RFN
J1
BT_RSRV_D
M8
MP 2
MP 3
NC
BT_RSRV_RF
M2
BT_RSRV_CL
B2
BT_RSRV_DSM
C1
BT_RSRV_N
C2
BT_RSRV_CL
C3
NC
NC
BALUN
3
4
6
Bal
Unbal
Bal
GND
NC
GND
1
2
5
NC
BLUETOOTH-FM_POWER
BTPOWER&GND
N7
BT_HVD
L2
BT_HVA1
D3
BT_HVA2
E1
BT_HVA2
E2
E4
BT_VDD_CLD
E6
BT_HVA2
BT_VSS_ANA
D1
BT_HVA2
BT_VSS_ANA
D2
M6
BT_VIO_A
BT_VSS_ANA
E3
J9
BT_VIO_B
BT_VSS_ANA
F1
N3
BT_VIO_C
BT_VSS_ANA
F2
N5
BT_VIO_D
BT_VSS_ANA
F3
G8
BT_VIO_E
BT_VSS_ANA
F4
BT_VSS_ANA
G3
BT_VSS_ANA
G4
BT_VSS_ANA
H3
HHM1798A1 1
1200-5169
MP 4
NC
NC
N1300
C1300
0.1uF
C1301
0.1uF
C1302
0.1uF
NC
1
STLC2593
1200-9840
VDDE18
VDDE18
VDIG
VBT27
VDIG
VBT27
<NM>
CONFIG-PINS
WLAN_CONFIRMn
WLAN_BT_PRIORITY
VDIG
<NM>
DB3210ADT/7POPHF
1208-3871 1
NC
R1312 0ohms
NM
PCMULD/I2SULD
NC
NC
<NM>
AD4
K3
R1311 0ohms
PCMSYN/I2SWS
PCMDLD/I2SDLD U11
BT_GPIO_11
<NM>
Y5
R1310 0ohms
PCMCLK/I2SCLK
R1301 100Kohms
BLUETOOTH_PCM_I2S(ACCESS)
AD6
MEASUREMENT POINTS
ACCESS GPIO_22
AA3
BT_VSS_ANA
H4
BT_VSS_ANA
G1
BT_VSS_DIG
H6
BT_VSS_DIG
H7
BT_VSS_DIG
H8
BT_VSS_DIG
K8
BT_VSS_DIG
L8
BT_VSS_RF
H1
BT_VSS_RF
J2
BT_VSS_RF
K2
BT_VSS_RF
L1
R1313 0ohms
ACCESS GPIO_21
UART_&_SPI-INTERFACE
C1303
0.1uF
1
Made for
Access
Bluetotth
Document Nr
Revision
1207-2092 Page R3
3
1225-4035 rev. 1
76 (122)
MEASUREMENT POINTS
Access AGPS
G705 - W705 - W715
VAGPS28
VDDE18
RTCCLK
RTCCLK
R1600 0ohms
R1406
10Kohms
<NM>
N1400
N1400
N2010
AGPS_PWRON
L25
APPLICATION GPIO_07
PMB2525_Hammerhead
_Power_distribution
DB3210ADT/7POPHF
1208-3871 1
TX_ADSTR
TX_ADSTR
RTCCLK
E2
POWERON
F4
VDD_RFREG_IN
F2
RX_HOLD
G5
VDD_RF
F7
VDD_VCO
C2
VDD_IO_1
A7
VDD_IO_2
SYSCON
nINTR
R1602 0ohms
AGPS_RSTn
AGPS_RSTn
R1416 0ohms
W5
AGPS_SYNC
<NM>
AGPS_CLK
MP 84
DB3210ADT/7POPHF
1208-3871 1
AGPS_CLK
R1401
100Kohms
R1413
R1403
100Kohms
nRESET
D4
SYNC
A3
CNTIN
A4
CLK
E3
OMS0 ConfigHostIFI2C,SPI,UART
VDDE18
L1410
0.22uH
C1410
120pF
NM
D3
OMS1
A6
VDD_LP_PLLREG_IN
G2
OMS2
B4
VDD_LPREG_OUT
A5
VDD_PLL
B6
VDD_LP
C1414
0.1uF
C1415
22pF
VAGPS20
R1414
0ohms
0ohms
VAGPS28
R1402
100Kohms
NM
NM
C1416
0.1uF
C1417
22pF
C1418
0.1uF
VDDE18
C1419
0.1uF
C1411
C1412
4.7uF
0.1uF
VCC
OUT
3
1
VCONT
GND
2
MP 85
C1405
Z1400
R1410
TP1400
R1441
0ohms
TP1401
0ohms
4
3
L1404
0.0068uH
NM
5
L1400
0.0068uH
IO
IO
1
C1402
4.7pF
GND GND
HIF1
10Kohms
<NM>
B2
HIF2
D1
VDD_COREREG_IN
A1
HIF3
C1
VDD_COREREG_OUT
A2
HIF4
B3
HIF5
G1
VDD_CORE_1
G3
1
100nH
L1401
Z1401
N1410
2
4
MP 123
0.0033uH
SAFEB1G57KB0F00R14
1575.42MHz
1211-5714
C4
100pF
L1402
2
R1407
C1406
0.0022uF
MP 124
GND
HIF0
VAGPS28
R1404
10Kohms
<NM>
ERC3135A
27.456MHz
1200-7847
AGPS
ANTENNA
C3
C1407
10pF
<NM>
C1403
0.01uF
5
3
7
LNA_IN
LNA_OUT
1
6
IN
2
VCC
R1409
3
4
OUT
POWER_ON_CONTROL
C1420
1uF
C1421
0.1uF
C1422
1uF
C1423
0.1uF
MP 90
OUT
DC_BIAS
HostIF
5
GND GND
R1408 0ohms L1403
E6
MIX_IN_PLUS
F6
MIX_IN_MINUS
G7
LNA_OUT
G6
LNA_IN
B5
TDI
D6
TMS
C6
TCK
C7
nTRST
RF
VSS_RF_1
G4
VSS_RF_2
E5
VSS_DIG_1
D7
VSS_DIG_2
D5
VDD_CORE_2
VSS_DIG_3
D2
B7
VDD_CORE_3
VSS_DIG_4
B1
E7
VDD_CAP
VSS_LNA
E4
MEASUREMENT POINTS
B1400
4
GPSPowerandGround
F3
N2010
ACCESS GPIO_17
PMB2525HammerheadPower
C1413
0.1uF
F1
E1
0.0068uH
0ohms
1
LP09A
1575.42MHz
1200-0660
EXT_LNA
F5
TDO
C5
C1424 C1425
0.22uF 0.1uF
C1426
0.1uF
C1427
0.1uF
C1428
0.1uF
PMB2525
1200-0700
1
RF_GND
GND_DC
BGA615L7
1200-2407
NC
NC
1
NC
NC
PMB2525
1200-0700
JTAG
NC
1
N2010
ACCESS GPIO_10
V5
UART3_RX
ACCESS GPIO_11
W3
UART3_TX
ACCESS GPIO_12
V4
UART3_CTX
ACCESS GPIO_13
Y2
UART3_RTX
R1603 0ohms
<NM>
R1604 0ohms
<NM>
R1605 0ohms
<NM>
R1606 0ohms
<NM>
DB3210ADT/7POPHF
1208-3871 1
N2010
VBAT
APPLICATION GPIO_08
M24
LDO REGULATOR
AGPS_LDO_EN
DB3210ADT/7POPHF
1208-3871 1
R2315
100Kohms
VDDE18
VBAT
VAGPS20
N2310
MP 92
A1
EN
C3
IN
B2
GND
OUT
C1
NR
A3
R1418 0ohms
<NM>
MP 91
C2380
1uF
TPS79920YZUR
1200-3994
2V
C2381
0.01uF
C2382
10uF
VBAT
N2311
VAGPS28
2
CE
VDDE18
VBAT
1
3
C2383
1uF
IN
OUT
GND
R1115Z-281B-TR
1000-8818
4
R1419 0ohms
<NM>
C2384
10uF
MP 95
Made for
Access
AGPS
Document Nr
Revision
1207-2092 Page R4
3
1225-4035 rev. 1
77 (122)
MEASUREMENT POINTS
Access - WLAN
G705 - W705 - W715
VDIG
R1506
51Kohms
N1510
N1500
R1505
100Kohms
MP 107
RF_IF
6
MARVELL_RF_IF
ANT
PD
R1533
17
WLAN_CLK
R1502 6.04Kohms
NC
P6
XPWDET2
A6
XTAL_I_XO
A7
XTAL_O
RX2_IN_P C10
P9
REXT
RX2_IN_N E10
RTCCLK
SLEEP_CLK/CLK_OUT PA_PE_G
ANT_SEL_P
M4
ANT_SEL_N
M5
TR_P
P4
TR_N
M3
TR3_N
K5
R1504
0ohms
1
3.3nH
WLAN_RX_P
C1532
0.5pF
7
WLAN_RXb
8
WLAN_Rxa
9
VREF_PA
3
VC1
4
VC2
5
VC3
2
BT_ANT
CONT_IF
R1514 68ohms
R1513 0ohms
NC
R1512 1Kohms
NM
R1511 1Kohms
C1502
5
MP 109
C_TERM
R_TERM
GND
GND
GND
GND
CRS5001-4202E
1203-9688
33pF
MP 30
X1500
R1520 0ohms
2
TP1530
4
6
C1512
2.2pF
L1511
0.0047uH
1
L1501
4.7nH
PWR
R1507
100Kohms
<NM>
2
WLAN_TX
L1531
3.3nH
R1535
0ohms
<NM>
R1534
0ohms
<NM>
11
L1530
WLAN_RX_N
P5
88W8686
1200-0932
WLAN_TX
TX2_OUT J10
DIG_IF
A3
0ohms
3
ANALOG
C1500 0.001uF
WLAN / BT
ANTENNA
EPCOS_FEM_R041B
R1515
3.3Kohms
C1505
10pF
NM
C1504
10pF
R1508
100Kohms
R1509
100Kohms
R1510
100Kohms
C1507
10pF
C1508
10pF
C1509
10pF
WLAN_VO33
R1516 0ohms
16
VCC_PA
1
GND_2
10
GND_3
12
GND_4
13
GND_5
14
GND_6
15
GND_7
18
GND_8
19
WLAN_SCLK
MEASUREMENT POINTS
C1506
10pF
GND_1
WLAN_SCLK
<NM>
C1510
10uF
MP 1
R041B
1200-6173
WLAN_CLKREQ
WLAN_CLKREQ
1
BT_ANT
BT_ANT
N2010
APPLICATION GPIO_18
K15
R1526 0ohms
WLAN_RSTn_PDn
<NM>
R1524
100Kohms
<NM>
DB3210ADT/7POPHF
1208-3871 1
N1500
MARVELL_HOST_IF
WLAN_VO18
PWDWN_CTRL
NM
ACC_SPI_DO
ACC_SPI_DO
SP1507
NM
N2010
AA4
ACCESS GPIO_19
R1527
WLAN_SPI_CSn
RESETn_PDn
0ohms
ACC_SPI_DI
CSP_HOST_IF
F2
SPI_SDI
SPI_SDO
D2
F1
SPI_CLK
SPI_SINTn
B1
D1
SPI_SCSn
SD_DAT_3
B2
WL_ACTIVEn
B5
NM
WLAN_BT_STATE
WLAN_BT_PRIORITY
R1518
2.7Kohms
A5
BT_PRIORITY
WLAN_BT_STATE
R1519
2.7Kohms
B4
BT_STATE
F4
GPIO0
GPIO4
H2
H1
GPIO1
GPIO5
A2
F3
GPIO2
GPIO6
B3
D3
GPIO3
N2010
ACC_SPI_DI
R1529 0ohms
WLAN_SPI_IRQ
NC
R10
ACCESS GPIO_25
DB3210ADT/7POPHF
1208-3871 1
BT_COEX
DB3210ADT/7POPHF
1208-3871 1
WLAN_BT_PRIORITY
A4
100Kohms
0ohms
ACC_SPI_CLK R1528
ACC_SPI_CLK
R1517
WLAN_CONFIRMn
WLAN_CONFIRMn
GPIO
SP1503
WLAN_VO18 WLAN_VO33 WLAN_LDO30 WLAN_LDO18A VDIG
R1525
100Kohms
NC
NC
WLAN_LDO30
WLAN_LDO30
SP1504
SP1505
MP 19
MP 22
SP1500
SP1506
WLAN_LDO18A
R1523
0ohms
<NM>
C1527
1uF
R1501
0ohms
<NM>
C1528
0.1uF
MP 120
R1503
0ohms
<NM>
N1500
N10
VDD12
B9
A10
L9
E8
K7
C1517
10pF
C1518
0.1uF
C1519
0.001uF
C1520
10pF
C1521
0.001uF
C1522
10pF
NC
C1524
1uF
K2
TDO
H5
NC
NC
C1525
0.1uF
C1526
0.1uF
NC
H6
TRSTn
M1
TCK
K1
TDI
F5
TMS1
D4
TMS2
G8
SP1502
SCAN_EN
88W8686
1200-0932
H7
E7
K4
VDD18_LDO
C7
K6
VDD30
C6
A1
VIO_X1
H4
P1
VIO_X2
H3
M6
NC
88W8686
1200-0932
C1523
0.1uF
P2
ECSn
M7
VSS
A8
C1516
10pF
SDA
SCLK
J8
D5
C1515
0.001uF
SRWB
P3
R1536
100Kohms
C8
VDD18A
E6
C1514
0.1uF
SP1501
MARVELL POWER_SUPPLY
K3
P7
C1513
1uF
M2
R1522
100Kohms
JTAG
WLAN_VO18
WLAN_LDO18A
VDIG
R1521
100Kohms
EEPROM_CTRL
WLAN_VO18
WLAN_VO33
NC
Made for
Access
WLAN
Document Nr
Revision
1207-2092 Page R5
3
1225-4035 rev. 1
78 (122)
MEASUREMENT POINTS
Test
G705 - W705 - W715
Unused GPIO
N2010
N2010
ACCESS GPIO_24
D8
NC
DB3210ADT/7POPHF
1208-3871 1
APPLICATION GPIO_05
N23
NC
DB3210ADT/7POPHF
1208-3871 1
N2010
APPLICATION GPIO_11
K14
NC
DB3210ADT/7POPHF
1208-3871 1
N2010
APPLICATION GPIO_19
DB3210ADT/7POPHF
1208-3871 1
VDDE18
P23
NC
SP5101 SP5102 SP5103 SP5104 SP5105
SP5106 SP5107
N2010
R5102
10Kohms
KAJSA_BOTTOM_JTAG_A_16_24
TDI
R3
TMS
T3
TRSTn
U2
TCK
JTAG_EMULATION_IF
MEASUREMENT POINTS
KAJSA_BOTTOM_TEST
P5
TDO T10
RTCK
T5
B24 TEMU0n
B3
TEMU1n
DB3210ADT/7POPHF
1208-3871 1
R5100
10Kohms
R5101
100Kohms
N2010
KAJSA_BOTTOM_UNUSED_A_5_24
KAJSA_BOTTOM_UNUSED
KAJSA_BOTTOM_NOT_USED
NC
N2010
R5
EFUSE_HV5
KAJSA_BOTTOM_ETM_A_17_24
VDDE18
A1
UNUSED
A2
UNUSED
A3
UNUSED
B1
UNUSED
C1
NC
NC
NC
NC
NC
KAJSA_BOTTOM_ETM
UNUSED AD1
NC
KAJSA_BOTTOM
TEST_EMBEDDED_TRACE_IF
UNUSED AE1
NC
UNUSED AF1
NC
DB3210ADT/7POPHF
1208-3871 1
VDDE18
UNUSED
ETM_TCLK
D6
ETM_TSYNC
D5
ETM_TPKT0
C8
ETM_TPKT1
D9
ETM_TPKT2
B6
ETM_TPKT3
E9
ETM_TPKT4
B9
ETM_TPKT5
C6
ETM_TPKT6
B8
ETM_TPKT7
C7
ETM_PSTAT0
E8
ETM_PSTAT1
B5
ETM_PSTAT2
E7
NC
UNUSED AF2
NC
NC
UNUSED AF3
NC
NC
UNUSED AF24
NC
NC
UNUSED AF25
NC
NC
UNUSED AF26
NC
NC
UNUSED AE26
NC
NC
UNUSED AD26
NC
NC
UNUSED A26
NC
NC
UNUSED B26
NC
NC
UNUSED C26
NC
NC
UNUSED A25
NC
NC
UNUSED A24
NC
NC
DB3210ADT/7POPHF
1208-3871 1
Made for
Test
Document Nr
Revision
1207-2092 Page T1
3
1225-4035 rev. 1
79 (122)
COM
COMP
PON
ONE
E NT O
OV
VERVIE
VIEW
W
TP3102
R4230
TP3103
SP5103
SP5102
SP5107
TP3105
TP2214
TP2203
TP3104
SP4300
SP2410
SP2105
TP2213
SP1301
TP4201
SP1304
SP5104
TP4200
SP5106
SP3204
SP2103
SP3207
SP3213
SP1305
C
SP2432
C2202
SP2104
SP2102
TP2201
C2203
SP2107
SP2411
SP2106
TP2204
C2200
E1001
R2282
TP2202
X2201
V2200
C2201
R 15 2 9
C 2 2 81
N2203
C4331
R1525
R1521
C 2 2 84
C4332
C1525
R1522
R1504
C 2 2 83
V4202
L4202
R 15 3 6
R 15 2 8
SP1501
SP1502
R1519
R1518
SP1504
L4201
SP1507
R 15 17
R 15 11
SP3209
SP3208
C2407
V2483
R2200
C1527
C1516
R 15 2 7
C 15 0 0 C 15 17
SP3214
SP3205
C2419
C2418
C1524
R1501
R1510
R1507
R1515
C1526
R1523
R1509
R1508
C1523
R1505
C1504
C1519
R1506
C1520
C1505
R1502
C 15 2 8
N1500
C1515
C1513
L 15 3 0
SP1506
C1532
SP1500
C2282
R2281
B2000
X3102
R2210
R 2 2 12
C4335
V2480
SP1505
SP1503
B
C 2 2 86
X4300
TP1211
R2211
C4308
R4303
C4334
C4304
C 2 2 87
C4339
C4320
C4340
C4337
C4333
C4301
1
R4302
C4330
TP2215
TP4203
D
TP1210
TP1400
D
TP1401
N2204
C4336
C4338
2
3
4
5
B2000
1202-9271
C1
C1513
1000-0051
C2
C1528
1000-0048
B2
C2441
1000-0057
A2
C4334
1000-0056
D1
L2406
1200-6898
A1
R1505
1000-0376
B2
R1525
1000-0376
C2
V2413
1201-2253
C1300
1000-0048
B1
C1514
1000-0048
C2
C1532
1200-4295
C1
C2442
1000-0045
A2
C4335
1000-0056
D1
L2408
1200-0317
A2
R1506
1000-4158
B2
R1533
1000-0179
B1
V2417
1200-5130
A2
C1301
1000-0048
B1
C1515
1000-0053
C2
C2003
1000-0056
C1
C2443
1000-0045
A2
C4336
1000-0056
E2
L2409
1200-0317
C1
R1508
1000-0376
B2
R1536
1000-0376
C2
V2477
1001-1864
B2
6
A1
C1302
1000-0048
B1
C1516
1000-0066
C2
C2202
1000-0049
C2
C2447
1000-6838
A2
C4337
1000-0056
D2
L2453
1000-3633
A2
R1509
1000-0376
B2
R2200
1000-4380
B2
V2480
1001-1864
C1
C1303
1000-0048
B1
C1517
1000-0066
C2
C2203
1000-0064
C2
C2448
1000-6838
A2
C4338
1000-0056
E2
L2455
1000-3633
A2
R1510
1000-0376
B2
R2281
1000-0239
C2
V2483
1001-1864
B2
C1500
1000-0050
C2
C1518
1000-0048
B2
C2281
1000-0069
C2
C3304
1000-0075
B1
C4339
1000-0056
D2
L3300
1000-1899
A1
R1511
1000-0230
C1
R2282
1000-0231
C2
X2201
1206-2937
C2
C1502
1000-0056
C1
C1519
1000-0053
B2
C2282
1000-0062
C2
C3305
1000-0048
B1
C4340
1000-0056
D2
L4201
1200-7732
C1
R1512
1000-0230
C1
R2432
1000-0235
B2
X2402
1200-9864
B2
C1504
1000-0066
B2
C1520
1000-0066
B2
C2283
1000-0059
C2
C3306
1000-0338
B1
L1501
1000-0113
C1
L4202
1200-7732
C1
R1514
1000-0241
C1
R2449
1000-0257
A2
X2405
1205-9723
A2
C1505
1000-0066
B2
C1521
1000-0053
B2
C2284
1000-6901
C2
C4301
1000-0048
E2
L1530
1200-0741
C1
N1300
1200-9840
B1
R1515
1000-4134
B2
R2451
1000-0179
A1
X3102
1206-4855
C6
C1506
1000-0066
C1
C1522
1000-0066
B2
C2286
1000-0062
D2
C4304
1000-0048
D1
L1531
1200-0741
C1
N1500
1200-0932
C2
R1517
1000-0376
C2
R2490
1000-0257
A2
X4300
1206-5418
D2
C1507
1000-0066
C1
C1523
1000-0048
B2
C2287
1000-6901
D2
C4320
1000-0048
D1
L2401
1200-0317
A2
N1510
1200-6173
C1
R1518
1000-4133
C2
R3302
1000-0243
B1
C1508
1000-0066
C1
C1524
1000-0051
B2
C2403
1000-0048
A2
C4330
1000-0056
E2
L2402
1200-0317
A2
N2203
1000-8638
C2
R1519
1000-4133
C2
S2404
1206-9606
C1
C1509
1000-0066
C1
C1525
1000-0048
C2
C2419
1000-0045
B2
C4331
1000-0056
C2
L2403
1200-0317
A2
N2204
1001-0625
D2
R1520
1000-0179
A1
W1300
1200-5169
B1
C1510
1000-0061
B1
C1526
1000-0048
B2
C2420
1000-0051
B2
C4332
1000-0056
C2
L2404
1200-0317
A2
R1502
1201-1031
B2
R1521
1000-0376
C2
V2200
1000-0282
C2
C1512
1000-5949
A1
C1527
1000-0051
C2
C2440
1000-0076
A2
C4333
1000-0056
D2
L2405
1200-0317
A2
R1504
1000-0181
C2
R1522
1000-0376
C2
V2402
1000-8367
B2
R - Replaceable
See Appendix for
more information.
1225-4035 rev. 1
80 (122)
COMPONENT OVERVIEW
C2001
R2004
C2416
R1301
C1509
R 15 12
R2435
C2234
L 15 3 1
C 15 0 6
C2002
R1513
C 15 0 7
C1518
C1521
R 13 10
C2003
C1502
S2404
C1508
L1501
L2409
C
N1510
V2402
C1522
C 13 0 0
R1514
C1510
R1534
R1533
W1300
C1514
C1302
R1312
R1535
N1300
SP3206
X2402
R 13 11
A
C2415
R3304
R1516
SP5105
SP2435
SP1303
C2403
V2477
C2417
R2432
C2420
C1303
C 13 0 1
6
C2444
C2440
C3304
B
5
R2490
R2449
R2448
L2404
4
C2438
L2405
V2417
L2408
3
W890
G705 - W705 - W715
SP1302
C3305
R1300
2
C2441
C3306
R1313
R3302
C2451
C2447
TP1530
L3300
C2452
C2448
C2443
V2413
C1512
L2455
L2453
L1511
R1520
R2451
L2401
L2406
C2442
A
L2402
1
L2403
X2405
Primary Side
COMPONENT OVERVIEW
2
3
L2452
C2439
C3116
C3
3150
R3147
R3148
C3149
V2415
N2421
R4202
N2401
R 2 4 11
R 2 4 16
C2223
L4200
C2225
C2220
C 3 15 4
C 2 2 16
C4200
L2201
L4222
C2215
V2201
L2311
L2200
R1100
C2373
C2372
C2430
SP2434
N2422
C1213
SP2433
R2450
R1210
C2214
N1210
R2456
R2454
C2449
C1214
R2434
R1203
C1215
R1209
R2437
R2457
C 12 0 5
N1410
R 14 10
C1403
R2400
3
S2405
4
S2406
5
C4401
B4410
C2400
Z 14 0 0
C4402
X1003
R 14 4 1
L 14 0 1
C1402
2
N 12 0 2
X1005
C 12 19
D
L 14 0 2
E1003
C 12 2 0
C238 2
SP2200
R1222
R1418
C2384
R2315
R1419
C2381
L1200
Z1401
C 2 3 83
N 2 3 10
L1404
C1206
C1406
C 12 0 3
C 14 0 7
L1400
C1405
C1201
6
B1400
1200-7847
D2
C1217
1000-6901
C5
C1421
1000-0048
D2
C2209
1000-6901
B5
C2226
1000-0051
C5
C2310
1000-0048
A4
C2331
1000-0048
A3
C2354
1000-0068
C4
C2406
1000-0048
A3
C2439
1000-0076
A6
C3133
1000-0048
B5
C4200
1000-0059
B2100
1000-8271
C5
C1218
1000-6901
B5
C1422
1000-0051
D2
C2210
1000-6901
B5
C2227
1000-0048
C5
C2311
1000-0048
A4
C2336
1000-0051
B4
C2371
1000-0061
C5
C2410
1000-6901
C2
C2449
1000-0048
D5
C3135
1000-0048
B5
C4202
1200-0286
B5
B3100
1210-7410
E2
C1402
1000-6073
D6
C1423
1000-0048
D2
C2211
1000-6901
B5
C2228
1000-0061
B4
C2312
1000-0048
A4
C2337
1000-0048
C3
C2372
1000-0061
C5
C2412
1000-0048
B5
C2600
1000-0048
C3
C3136
1000-0056
B5
C4203
1000-0076
B6
C5
B6
B4410
1000-8451
E6
C1403
1000-0045
D6
C1424
1000-0052
D2
C2212
1000-6901
B5
C2229
1000-0050
B4
C2313
1000-0048
A3
C2339
1000-0048
C4
C2373
1000-0048
C5
C2413
1000-0338
B5
C3104
1000-0340
A3
C3137
1000-0052
A3
C4206
1000-0048
C1201
1000-0061
D5
C1405
1000-6838
D6
C1425
1000-0048
D2
C2213
1000-0051
B5
C2231
1000-0061
B4
C2314
1000-0048
C3
C2341
1000-0048
C4
C2374
1000-0061
C5
C2414
1000-0051
B5
C3106
1000-0061
A3
C3138
1000-0069
B5
C4208
1000-6901
C5
C1202
1201-6533
C2
C1406
1000-0338
D6
C1426
1000-0048
D2
C2214
1203-3900
D3
C2288
1000-0340
C2
C2320
1000-0051
A4
C2342
1000-0048
C4
C2376
1000-0061
C5
C2421
1000-0048
B2
C3109
1000-0078
C1
C3145
1000-6900
B5
C4209
1000-0048
B5
C1204
1000-0048
D4
C1411
1000-0039
D2
C1427
1000-0048
D2
C2215
1000-0048
C6
C2289
1000-0340
C2
C2321
1000-0048
A3
C2344
1000-0048
B3
C2377
1000-0061
C5
C2422
1000-6901
C2
C3110
1000-0056
E2
C3146
1000-6900
B5
C4213
1000-0048
B2
C1205
1000-0048
D4
C1412
1000-0048
D2
C1428
1000-0048
D2
C2216
1000-0048
B5
C2301
1000-0051
A4
C2322
1000-0048
B3
C2345
1000-6901
A4
C2379
1000-0061
C5
C2423
1000-0056
B2
C3111
1000-0078
C1
C3149
1213-2060
A5
C4214
1000-0048
B2
C1206
1000-0039
D5
C1413
1000-0048
D2
C2100
1000-6078
C5
C2217
1000-0061
B5
C2302
1000-0048
B3
C2323
1000-0048
B3
C2346
1000-0048
A3
C2380
1000-0051
D2
C2430
1000-0048
C5
C3117
1000-0056
E2
C3150
1213-2060
A6
C4229
1000-0048
C2
C1207
1000-6901
C4
C1414
1000-0048
D2
C2101
1000-0049
C5
C2218
1000-0061
C6
C2303
1000-0048
B3
C2324
1000-0048
B3
C2347
1000-0048
A4
C2381
1000-0045
D2
C2431
1000-0061
A4
C3121
1000-0048
B5
C3151
1000-0051
B5
C4234
1000-0056
A3
C1208
1000-0048
B5
C1415
1000-0049
D2
C2105
1000-0039
C5
C2219
1000-0061
C6
C2304
1000-0048
B3
C2325
1000-0048
C3
C2348
1000-0048
C3
C2382
1000-0061
E2
C2432
1000-0048
A4
C3122
1000-0056
B5
C3152
1000-0048
B5
C4235
1000-0056
B2
C1209
1000-6086
D2
C1416
1000-0048
D2
C2204
1000-0061
B4
C2220
1000-0048
B5
C2305
1000-0048
C3
C2326
1000-0048
C4
C2349
1000-0048
C4
C2383
1000-0051
D3
C2433
1000-0051
A4
C3123
1000-0061
B5
C3154
1000-6840
B5
C4305
1000-0048
C2
C1212
1000-6095
D1
C1417
1000-0049
D2
C2205
1000-0061
B5
C2222
1000-0076
B5
C2306
1000-0048
C4
C2327
1000-0048
B4
C2350
1000-0048
B4
C2384
1000-0061
D3
C2434
1000-0048
A4
C3124
1000-0048
B5
C3155
1000-0340
B5
C4306
1000-0048
C2
C1213
1000-6900
D5
C1418
1000-0048
D2
C2206
1000-0039
B4
C2223
1000-0048
B5
C2307
1000-0048
B4
C2328
1000-0048
B4
C2351
1000-0048
B4
C2402
1000-0048
C5
C2435
1000-0039
A4
C3125
1000-0048
B5
C3156
1000-0340
B5
C4344
1000-0048
C3
C1214
1000-0048
D5
C1419
1000-0048
D2
C2207
1000-6901
B5
C2224
1000-0051
B5
C2308
1000-0048
C3
C2329
1000-0048
B4
C2352
1000-0048
C4
C2404
1000-0061
A3
C2436
1000-0048
A5
C3131
1000-0048
B5
C3157
1000-0056
A6
C4401
1000-0045
E6
C1215
1000-0048
D4
C1420
1000-0051
D2
C2208
1000-0051
B5
C2225
1000-0067
B5
C2309
1000-0048
B4
C2330
1000-0048
A4
C2353
1000-0068
C4
C2405
1000-0048
A3
C2437
1000-0039
A4
C3132
1000-0048
B5
C3158
1000-0061
B5
R - Replaceable
See Appendix for
more information.
1225-4035 rev. 1
81 (122)
COMPONENT OVERVIEW
C2374
C
C2219
C2218
C2379
C4206
C2371
L2310
C1217
N1211
C1207
E1000
R 12 0 0
C 12 0 4
C 12 16
R1503
N2300
R 2 117
R 12 13
R2403
R1214
C2376
L2313
C2377
R2402
B2100
R2103
C2105
R2111
N2101
R2116
R 2 118
R2394
C4208
R2404
C2226
R2307
C2402
C 2 10 7
R 2 10 8
R2203
R 2 12 1
R2230
R2204
C2101
C 2 10 6
C2227
R2134
C2349
R 2 12 0
C2217
C4209
C2100
V2100
C 2 10 9
C2352
R2102
C2110
C2306
L2100
C2103
C2326
C2354
C2353
C2339
C2342
C2314
C2341
C2325
C2305
R1103
C2337
C2308
R1101
R2115
C2205
C2213
R2119
N2100
R 2 10 5
R 2 10 6
C2208
R 12 0 1
N 2 3 11
B
R4200
C2224
C2209
R4201
R 2 4 10
N 20 00
R4203 R4204
C4203
C2414
C2210
0
C1218
C2211
C2206
C2228
C2207
C 3 13 8
C4202
C4201
C3135
C3152
C3153
C3132
C3102
C3133
C3127
C 3 15 1
C2413
C 3 14 5
R 3 112
C 3 13 6
X1002
C 3 14 6
C 2 4 12
301
R23
R 3 15 4
N1200
C 2 3 80
X1500
C3156
C3124
C3126
C3122
C2222
C2204
R3119
C2232
R2201
R 3 15 6
C3125
R 3 19 8
C3155
C3128
R3123
C3131
C3158
C2221
R 3 19 9
C 2 2 12
R2306
R2305
R1211
L 12 0 7
C3115
Z2400
V2416
R2445
R2446
SP2423
SP2425
C3123
R2303
R 2 0 10
D2102
R2101
R 2 10 4
R 2 12 3
C2348
C2436
SP2424
SP2426
SP2430
C2336
C2307
V2202
C 12 0 8
C2304
C 12 0 0
N2420
SP2427
SP2420
SP2429
L2202
C2230
R2406
C 3 12 1
R2302
C2600
C1202
R1408
1
N2200
N2600
R1409
C1426 C1427
C3110
L 3 12 0
R2206
R2408
R2405
R2441
C 2 10 8
L 14 0 3
C1415
L 3 10 1
SP2428
R2423
C2351
A
C 3 15 7
C2229
C 2 2 88
B3100
C 3 117
C2432
C2345
R2407
C4343
R 14 0 2 R 16 0 2
C1414
C 14 2 0
C1413
C1419
C 14 2 4
R 3 19 7
C3307
C1416
N1400
L 3 12 2
S2403
C1417
R1407
R1414
4
C1410
E1002
R1413
X1004
L 14 10
C1428
R1404
R1206
L1212
B1400
C 14 2 2
C1423
C 14 2 1
C1425
R1403
R1416
C1412
L 12 11
C1418
C1411
R 14 0 6
C2434
C2347
SP5101
C2350
C2323
C1211
C1210
C1209
L1205
R1202
C 12 12
R 12 2 0
R2424
R2442
R2444
V4203 C2310
R2431
C2330
R2390
C2320
C2311
R 2 4 15
V2470
R 16 0 0
D
C2328
V 2 10 1
X1200
R 12 0 4
R 14 0 1
R 2 3 13
C2327
R1102
R4304
R2001
V2408
C2231
C2329
C2309
N3101
6
R2447
C4309
R2205
R 4 4 12
R2436
C 2 4 84
N2201
C 2 4 85
C2490
C2483
L 3 114
C 2 4 86
C3109
L3111
L 3 113
C3111
L3110
C 2 4 87
R4417
C 2 4 82
C 2 4 88
R2491
C 2 2 89
R2202
C 2 4 81
V4204
R3109
R3108
C 2 4 80
C2491
R2217
C 2 4 89
SP2422
C 2 10 4
C4341
R4305
C 3 13 9
C4412
X2401
C3118
C3119
C
C2492
R 3 15 7
C4342
C2437
SP2421
R 2 12 2
C4229
V 3 12 0
C4346
C4344
C 4 4 11
R 16 0 6
C2431
R 2 3 10
R 16 0 3
R4301
C 4 2 19
R 3 15 8
C 3 14 0
R2422
C2324
C4349
R4300
C4305
R 4 4 14
R4413
R2421
R 5 10 1
C4352
C3159
N4410
C2428
R2300
C2302
C2322
C2303
C4350
C4306
R 4 4 15
C2312
C2301
V2475
R 4 4 16
C4410
C4348
R 2 2 83
C2424
V2482
C2426
R2428
V4205
C2425
R2475
C2344
C4351
C4235
R 2 4 17
R 2 4 19
R2114
R2477
C2469
R 16 0 5
R4221
R2427
C 2 4 10
R2420
R2433
C 3 10 8
C2427
C2423
R2426
C2421
C2422
V 3 10 1 C 3 10 7
C2411
C2429
R 2 4 2 9 R 2 4 18
R2112
R2476
R2471
C4345
C4347
C2435
N2010
R2472
V2474
Z4201
X4200
C 4 2 13
C2433
R2440
R 16 0 4
C 4 2 14
C2321
R2473
C2470
R4224
R2113
R2474
C2463
C2468
C 4 2 11
R2430
C2346
C2461
R4220
R 15 2 4
5
R 5 10 0
V2473
Z4200
C2493
V4207
B
C 2 3 13
R 15 2 6
R 5 10 2
C2331
R2470
C 4 2 10
X1001
R 3 12 7
V2481
V2476
C 3 14 8
C 3 10 6
V2471
C2460
Z4202
C2494
N 3 10 0
R2401
SP2401
V4206
C 3 13 7
R 3 15 3
R3106
C4234
R 3 10 2
C 3 10 4
R 3 10 0
C2405
V2472
R3113
X2403
C2499
SP2400
C2472
L 3 10 4
4
R 3 12 8
C2404
R2499
L 3 10 3
R2409
N2411
R3114
A
C2406
X1000
G705 - W705 - W715
C3114
1
Secondary Side B - C
COMPONENT OVERVIEW
2
3
L2452
C2439
C3116
C3
3150
R3147
R3148
C3149
V2415
N2421
R4201
R 2 4 10
R4202
N2401
R 2 4 11
R 2 4 16
C2223
L4200
C2225
C2220
C 3 15 4
C 2 2 16
C4200
L2201
L4222
C2215
V2201
L2311
L2200
R1100
C2373
C2372
C2430
SP2434
N2422
C1213
SP2433
R2450
R1210
C2214
N1210
R2456
R2454
C2449
C1214
R2434
R1203
C1215
R1209
R2437
R2457
C 12 0 5
N1410
R 14 10
C1403
R2400
3
S2405
4
S2406
5
C4401
B4410
C2400
Z 14 0 0
C4402
X1003
R 14 4 1
L 14 0 1
C1402
2
N 12 0 2
X1005
C 12 19
D
L 14 0 2
E1003
C 12 2 0
C238 2
SP2200
R1222
R1418
C2384
R2315
R1419
C2381
L1200
Z1401
C 2 3 83
N 2 3 10
L1404
C1206
C1406
C 12 0 3
C 14 0 7
L1400
C1405
C1201
6
D2102
1202-0076
B4
L2313
1200-2913
C5
N1400
1200-0700
D2
N2422
1201-4120
D5
R1413
1000-0181
D2
R2201
1000-4376
B4
R2416
1000-0175
B5
R2444
1000-0231
A4
R3112
1000-0231
B5
S2405
1001-0060
E5
V4203
1211-3641
A4
Z1401
1200-0660
D2
L1200
1200-2913
D4
L2452
1001-1896
A6
N1410
1200-2407
D6
N2600
1202-0076
C3
R1414
1000-0181
D2
R2203
1000-0376
C5
R2417
1000-0231
B2
R2445
1000-0234
A5
R3119
1000-0377
B5
S2406
1001-0060
E5
V4204
1200-9617
C2
Z2400
1201-6833
A5
L1205
1211-1435
D1
L3101
1000-2618
E2
N2000
1202-0639
B5
N3100
1200-9978
A3
R1441
1000-0179
D6
R2204
1000-0249
C5
R2418
1000-0231
B2
R2446
1203-6621
A5
R3147
1000-0172
A5
V2100
1000-8463
C4
V4205
1001-1864
C1
Z4200
1200-1824
B3
L1207
1201-7614
C2
L3103
1000-2603
A2
N2010
1208-3871
B4
N3101
1000-0198
A5
R1600
1000-0181
D2
R2217
1000-0231
C2
R2419
1000-0231
B2
R2447
1000-0231
A6
R3148
1000-0172
A5
V2101
1000-0391
B4
V4206
0000-0000 A3
Z4201
1200-1824
B3
L1211
1206-5992
D1
L3104
1000-2603
A2
N2020
1205-5912
B4
R1101
1000-0231
C3
R1602
1000-0181
D2
R2283
1000-0231
B2
R2420
1000-0231
B2
R2450
1000-0231
D5
R3153
1000-0231
A3
V2201
1001-0073
C5
X1000
1201-4841
A3
Z4202
1200-1824
B3
L1212
1211-1435
D1
L3110
1000-1875
C1
N2100
1200-0425
B4
R1102
1000-0231
C3
R2010
1000-0231
B4
R2313
1000-0231
B4
R2421
1000-0231
C2
R2470
1000-0175
B3
R3154
1000-4152
B5
V2202
1200-0145
B5
X1001
1202-1053
B1
L1401
1200-2414
D6
L3111
1000-1875
C1
N2101
1202-0076
C5
R1103
1000-0231
C3
R2101
1000-0231
B4
R2315
1000-0231
D2
R2422
1000-4063
B3
R2471
1000-0175
B3
R3156
1000-0254
B5
V2408
1001-1864
C2
X1002
1201-4841
B6
L1402
1001-5311
D6
L3113
1000-0132
C1
N2200
1200-6420
B4
R1203
1000-0231
D5
R2104
1000-0231
B4
R2400
1000-5865
E4
R2427
1000-4035
B2
R2472
1000-0175
B3
R3198
1000-0181
B5
V2415
1201-8440
A5
X1003
1201-4841
E3
L1403
1000-3612
D2
L3114
1000-0132
C1
N2201
1201-6465
C2
R1204
1000-0179
D1
R2108
1000-0231
C4
R2402
1000-0226
C5
R2428
1000-4035
B2
R2473
1000-0175
A3
R3199
1000-0181
B5
V2416
1201-8440
A5
X1004
1202-1053
D1
L1404
1205-6617
D6
L3120
1000-2618
E2
N2300
1203-2790
C5
R1206
1000-0179
D1
R2111
1000-0378
C5
R2403
1000-0226
C5
R2429
1000-4035
B2
R2474
1000-0175
A3
R4202
1000-0264
B6
V2470
1001-0075
C2
X1005
1201-4841
E6
L2100
1001-5311
C4
L3122
1000-2618
D2
N2310
1200-3994
D2
R1220
1000-0179
D2
R2113
1000-0388
A3
R2404
1000-0226
C5
R2431
1000-0231
A4
R2475
1000-0175
B3
R4203
1200-1061
B6
V2472
1000-7497
A3
X1200
1203-9688
C2
L2200
1200-2214
C6
L4200
1000-3334
B6
N2311
1000-8818
D3
R1401
1000-0231
B4
R2115
1000-0230
C4
R2405
1000-0243
B4
R2433
1000-4035
C2
R2491
1000-0265
C3
R4204
1000-4160
B6
V2473
1200-9617
B3
X1500
1203-9688
A6
L2201
1000-0118
C5
L4222
1000-0118
C6
N2401
1001-0077
B6
R1403
1000-0231
D2
R2116
1000-0231
C4
R2406
1000-0243
B4
R2434
1000-0230
D5
R2499
1000-5865
A3
R5100
1000-0175
A3
V2475
1200-9617
B3
X2401
1214-7370
C2
L2202
1200-2913
B4
N1200
1210-9905
D3
N2411
1202-1676
A3
R1408
1000-0179
D2
R2117
1000-0231
C5
R2407
1000-0388
B4
R2437
1000-0377
D5
R3100
1000-0181
A3
R5101
1000-0231
B3
V2481
1001-1864
B3
X2403
1000-7708
B2
L2310
1000-0118
C5
N1210
1203-5870
D4
N2420
1200-1694
A4
R1409
1000-0179
D2
R2120
1000-0181
C4
R2408
1000-0388
B4
R2441
1000-4147
A5
R3102
1000-0388
A3
R5102
1000-0175
A4
V2482
1001-1864
B3
X4200
1206-2940
B2
L2311
1200-0119
C5
N1211
1204-5903
C5
N2421
1200-6309
A6
R1410
1000-0179
D6
R2121
1000-0181
C4
R2415
1000-0175
B4
R2442
1000-0240
A4
R3106
1000-0249
A3
S2403
1001-0060
E1
V3101
1001-0796
C1
Z1400
1211-5714
D6
R - Replaceable
See Appendix for
more information.
1225-4035 rev. 1
82 (122)
COMPONENT OVERVIEW
C2374
C
C2219
C2218
C2379
C4206
C2371
L2310
C1217
N1211
C1207
E1000
R 12 0 0
C 12 0 4
C 12 16
R1503
N2300
R 2 117
R 12 13
R2403
R1214
C2376
L2313
C2377
R2402
B2100
R2103
C2105
R2111
N2101
R2116
R 2 118
R2394
C4208
R2404
C2226
R2307
C2402
C 2 10 7
R 2 10 8
R2203
R 2 12 1
R2230
R2204
C2101
C 2 10 6
C2227
R2134
C2349
R 2 12 0
C2217
C4209
C2100
V2100
C 2 10 9
C2352
R2102
C2110
C2306
L2100
C2103
C2326
C2354
C2353
C2339
C2342
C2314
C2341
C2325
C2305
R1103
C2337
C2308
R1101
R2115
C2205
C2213
R2119
N2100
R 2 10 5
R 2 10 6
C2208
R 12 0 1
N 2 3 11
B
R4200
C2224
N 20 00
R4203 R4204
C4203
C2414
C1218
C2211
C2206
C2228
C2209
C4202
C4201
C3135
C3152
C3153
C3132
C3102
C3133
C3127
C 3 15 1
C2413
C3126
C3122
C2222
C2204
R3119
C2232
R2201
C2210
0
R 3 15 4
N1200
C 2 3 80
X1500
C3156
C3124
C3125
C3155
C3128
R3123
C3131
C3158
C2221
C 3 14 5
R 3 112
C 3 13 6
X1002
C 3 14 6
C 2 4 12
C2207
C 3 13 8
R1211
L 12 0 7
C3115
Z2400
V2416
R2445
R2446
SP2423
SP2425
R 3 15 6
301
R23
R2303
R 2 0 10
D2102
R2101
R 2 10 4
R 2 12 3
C2348
C2436
SP2424
SP2426
SP2430
C2336
C2307
R 3 19 8
C 2 2 12
R2306
R2305
R 3 19 9
C 12 0 8
C2304
C 12 0 0
N2420
SP2427
SP2420
SP2429
L2202
C2230
R2406
C3123
R2302
C2600
C1202
R1408
1
N2200
N2600
R1409
C1426 C1427
C3110
L 3 12 0
R2206
R2408
R2405
V2202
C 2 10 8
L 14 0 3
C1415
L 3 10 1
SP2428
R2423
C2351
C 3 12 1
C2229
C 2 2 88
B3100
C 3 117
C2432
C2345
R2407
A
C 3 15 7
R2441
C4343
R 14 0 2 R 16 0 2
C1414
C 14 2 0
C1413
C1419
C 14 2 4
R 3 19 7
C3307
C1416
N1400
L 3 12 2
S2403
C1417
R1407
R1414
4
C1410
E1002
R1413
X1004
L 14 10
C1428
R1404
R1206
L1212
B1400
C 14 2 2
C1423
C 14 2 1
C1425
R1403
R1416
C1412
L 12 11
C1418
C1411
R 14 0 6
C2434
C2347
SP5101
C2350
C2323
C1211
C1210
C1209
L1205
R1202
C 12 12
R 12 2 0
R2424
R2442
R2444
V4203 C2310
R2431
C2330
R2390
C2320
C2311
R 2 4 15
V2470
R 16 0 0
D
C2328
V 2 10 1
X1200
R 12 0 4
R 14 0 1
R 2 3 13
C2327
R1102
R4304
R2001
V2408
C2231
C2329
C2309
N3101
6
R2447
C4309
R2205
R 4 4 12
R2436
C 2 4 84
N2201
C 2 4 85
C2490
C2483
L 3 114
C 2 4 86
C3109
L3111
L 3 113
C3111
L3110
C 2 4 87
R4417
C 2 4 82
C 2 4 88
R2491
C 2 2 89
R2202
C 2 4 81
V4204
R3109
R3108
C 2 4 80
C2491
R2217
C 2 4 89
SP2422
C 2 10 4
C4341
R4305
C 3 13 9
C4412
X2401
C3118
C3119
C
C2492
R 3 15 7
C4342
C2437
SP2421
R 2 12 2
C4229
V 3 12 0
C4346
C4344
C 4 4 11
R 16 0 6
C2431
R 2 3 10
R 16 0 3
R4301
C 4 2 19
R 3 15 8
C 3 14 0
R2422
C2324
C4349
R4300
C4305
R 4 4 14
R4413
R2421
R 5 10 1
C4352
C3159
N4410
C2428
R2300
C2302
C2322
C2303
C4350
C4306
R 4 4 15
C2312
C2301
V2475
R 4 4 16
C4410
C4348
R 2 2 83
C2424
V2482
C2426
R2428
V4205
C2425
R2475
C2344
C4351
C4235
R 2 4 17
R 2 4 19
R2114
R2477
C2469
R 16 0 5
R4221
R2427
C 2 4 10
R2420
R2433
C 3 10 8
C2427
C2423
R2426
C2421
C2422
V 3 10 1 C 3 10 7
C2411
C2429
R 2 4 2 9 R 2 4 18
R2112
R2476
R2471
C4345
C4347
C2435
N2010
R2472
V2474
Z4201
X4200
C 4 2 13
C2433
R2440
R 16 0 4
C 4 2 14
C2321
R2473
C2470
R4224
R2113
R2474
C2463
C2468
C 4 2 11
R2430
C2346
C2461
R4220
R 15 2 4
5
R 5 10 0
V2473
Z4200
C2493
V4207
B
C 2 3 13
R 15 2 6
R 5 10 2
C2331
R2470
C 4 2 10
X1001
R 3 12 7
V2481
V2476
C 3 14 8
C 3 10 6
V2471
C2460
Z4202
C2494
N 3 10 0
R2401
SP2401
V4206
C 3 13 7
R 3 15 3
R3106
C4234
R 3 10 2
C 3 10 4
R 3 10 0
C2405
V2472
R3113
X2403
C2499
SP2400
C2472
L 3 10 4
4
R 3 12 8
C2404
R2499
L 3 10 3
R2409
N2411
R3114
A
C2406
X1000
G705 - W705 - W715
C3114
1
Secondary Side D - Z
FUNCTIONAL OVERVIEW
G705, W705, W715 Function Overview
G705 - W705 - W715
Networks
G705:
GSM/GPRS/EDGE 850/900/1800/1900
UMTS/HSDPA 850/1900/2100
W705:
GSM/GPRS/EDGE 850/900/1800/1900
UMTS/HSDPA 850/900/1900/2100
W715:
GSM/GPRS/EDGE 850/900/1800/1900
UMTS/HSDPA 900/2100
Note! Network support depends on variant and market.
Features
Camera
3.2 megapixel camera
Up to 3.2x digital zoom
Photo fix
Photo light
Video light
Picture blogging
Video blogging
Video recording
General Information
Size
98 x 47.5 x 14.3 mm
Weight
98 grams
Screen
262,144 color TFT, Resolution 240 x 320 pixels, Size: 2.4 inches
Phone memory
Up to 120 MB
Memory Stick Micro™ (M2™) support
Talk time
GSM/GPRS: Up to 10 hrs
UMTS: Up to 4 hrs
Standby time
GSM/GPRS: Up to 400 hrs
UMTS: Up to 350 hrs
Video call time:
Up to 3 hrs
Music listening time:
Up to 20 hrs
W705
Walkman™ player, Clear Stereo, Clear Bass, Album art, PlayNow™, TrackID™, Bluetooth™
stereo (A2DP), Music tones (MP3/AAC), Shake control, SensMe™
W715
Walkman™, Vodafone Music, Clear Stereo, Clear Bass, Album art, TrackID™,
Stereo Bluetooth™ (A2DP), Music tones (MP3/AAC), Shake Control, SensMe™
FUNCTIONAL OVERVIEW
Colors
G705: Silky Gold, Majestic Black
W705: Luxury Silver, Passionate Red
W715: Galactic Black, Luxury Silver
Music
G705
Media player, Mega Bass™, Album art, PlayNow™, TrackID™, Bluetooth™ stereo (A2DP)
Music tones (MP3/AAC)
Internet/Web
G705
Access NetFront™ Web browser, Web feeds, Photo feeds, Web shortcut keys
W705 and W715
Access NetFront™ Web browser, Web feeds, Photo feeds
Communication
Video calling, Speaker phone, Polyphonic ringtones, Vibrating alert
Messaging
Email, Text messaging (SMS), Chat view (W705 and W715 Only), Picture messaging
(MMS), Exchange ActiveSync®, Microsoft® Exchange (W715 Only), Instant messaging,
Predictive text input, Sound recorder
Design
Navigation key, Auto rotate, Picture wallpaper, Wallpaper animation
Entertainment
G705
YouTube™, 3D games, Java, FM radio, Video streaming, Video viewing
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FUNCTIONAL OVERVIEW
W705 and W715
Media, YouTube™, 3D games, Motion gaming, Java, FM radio with RDS, Video streaming
Video viewing
Organizer
Alarm clock, Calculator,Calendar, Flight mode, Notes, Phone book, Stopwatch, Tasks
Timer
Location-based services
G705
AGPS, Geo-tagging of photos, Google Maps™, Wayfinder Navigator™ (3 month trial
version)
W705
Geo-tagging of photos (cell-id), Google Maps™
W715
AGPS, Vodafone Find&Go, Geotagging of photos, Google Maps™
Connectivity
DLNA Certified™, Bluetooth™ technology, Modem, Synchronization, USB mass storage
USB support, Wi-Fi™, PictBridge printing
Hardware Overview
Platform Information
The G705, W705 and W715 are using the U365 platform provided by Ericsson Mobile
Platform (EMP).
The U365 Platform Block Diagram Overview:
G705 - W705 - W715
Baseband Part
Analog Baseband Controller N2000 (Vera)
This component is not replaceable on SL 4 because Baseband calibration is required. The
analog baseband controller is the main power management circuit. It has converters and
regulators that generate a number of supply voltages, each optimized for its load.
The analog baseband controller is a mixed digital and analog device that supports the
following circuitry:
• Power management circuitry
• Voltage regulation circuitry
• Eight Low Dropout (LDO) regulators and low power regulator
• 600 mA integrated Buck regulator
• Boost step-up DC/DC converter for White Light Emitting Diode (WLED) driving
• Battery charging and communication circuitry
• Battery fuel gauging circuitry
• Analog-to-Digital Converter (ADC)
• Digital-to-Analog Converter (DAC)
• SIM interface
• Six programmable LED drivers
• Accurate band gap reference
• Vibrator driver
• Real Time Clock (RTC)
• 8-byte One-Time Programmable (OTP) memory
• Pulse Code Modulation (PCM) voice coder/decoder
• PCM audio coder/decoder
• Microphone interface
• Stereo line input
• Earphone driver
• Earpiece driver
• 8-ƻ speaker driver / Stereo line output
FUNCTIONAL OVERVIEW
The analog baseband controller is controlled by an I2C™ interface. It also comprises the
main power management circuits, equipped with a number of converters and regulators
for generating the required supply voltages.
The analog baseband controller supports the following features:
• Lithium battery
• Full audio CODEC functionality
• Supports stereo audio sampling rates of 8/16 kHz voice coding/decoding and 44.1/48
kHz for high quality audio recording/playback (for example MIDI and MP3 applications)
• Double CODEC I2S/PCM interfaces
• Flexible microphone interface
• Integrated headphone amplifiers
• Integrated earpiece amplifiers
• Integrated speaker amplifier
• Integrated flexible audio mixing functionality
• Boost driver capable of driving up to four WLEDs in series, supplying 50 mA
• Designed to meet power management demands of GSM and WCDMA
• Automated power management ADC to relieve CPU
• Battery identification and communication
• Single-terminal charger and accessory power interface for compact connector design
• Integrated USB charging
• OTP memory
• Integrated hardware fuel gauge to accurately monitor battery capacity
• Reduced number of external components as a result of integrated programmable LED
and vibrator drivers
• 32 kHz real time clock with alarm wake up capability
• Designed to support two host controllers.
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FUNCTIONAL OVERVIEW
Functional Blocks of the Analog Baseband Controller:
G705 - W705 - W715
Connection Diagram of the Analog Baseband Controller:
FUNCTIONAL OVERVIEW
1225-4035 rev. 1
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FUNCTIONAL OVERVIEW
Charger Control
A programmable charger is used for battery charging. Limits can be set for the output
voltage at CHSENSE- and the output current from DCIO through the sense resistor to
CHSENSE-. The programmable charger is enabled or disabled by the assertion/negation of
the external signal DCIO. Parts of the programmable charger are activated and
deactivated depending on the level of VBAT. The rest of the programmable charger is
activated and deactivated through I2C.
G705 - W705 - W715
Resistance Identification and Temperature Measurement
The resistance identification mode utilizes the constant current source to feed the battery
data output while monitoring the voltage at the battery data node with general purpose
ADC the conversion is started through I2C.
Resistance Identification (A) and Temperature Measurement (B):
The programmable charger supports the following functions:
•
•
•
•
•
•
•
•
•
Constant current charging
Constant voltage charging
Trickle charging
PWM controlled charging
Over-voltage and over current detection
Watchdog termination
DCIO assertion/removal detection
Voltage and current measure functions
Low resistive path (reverse mode)
The programmable charger is able to control the voltage and limit the current to a load
seen at CHSENSE-. The programmable charger can also be run in PWM mode to turn the
charging on and off in accordance with the particular period and duty cycle. When the
charging is on, it is set to the current and voltage selected by I2C.
A low resistive path from VBAT to DCIO can be formed when DCIO is not detected. When
this setting is done in the appropriate registers, a lowering of CHREG to 0 V turns on the
external pass device. The pass device is automatically turned off when an external source
is detected on DCIO, or when the watchdog termination block times out. The watchdog
termination block must be active when the external switch is enabled, both in normal
charging mode and in the low resistive path mode. The watchdog is set through the serial
interface, and if it has not been set again before timeout, the watchdog turns off the
external switch. The watchdog is disregarded during trickle charging. When no battery is
present, the system can be booted and supplied from DCIO by
applying the correct voltage on DCIO.
SIM Interface
The SIM interface supplies level is shifting between the digital baseband controller and the
SIM/USIM card. Moreover, hard-wired SIM deactivation functionality manages removal of
a SIM card that has not been powered down.
Block Diagram of the SIM Interface:
FUNCTIONAL OVERVIEW
USB Charger
The analog baseband controller contains a standalone USB charger.
The USB charger has a separate input and incorporates full functionality during low VBAT.
The programmable charger supports the following functions:
• Trickle charging
• Constant current charging
• Watchdog termination
• Trickle LED indication
• VBUS assertion/removal detection
1225-4035 rev. 1
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FUNCTIONAL OVERVIEW
CODEC Overview
The CODEC is encoding analog audio signals and analog voice signals into digital signals
using Analog to Digital converters (ADCs). This is done in the coder section of the CODEC,
also named the TX path (transfer section). The CODEC is also decoding digital audio
signals and digital voice signals into analog signals using DACs. This is done in the
decoder section of the CODEC, also named the RX path (receiver section).
G705 - W705 - W715
CODEC CCO Voltage Source
There is an internal voltage source CCO that provides the necessary drive current for
electret microphones. The voltage source is I²C programmable to 2.2 V or 2.4 V. The
source can be disabled during standby. A typical use case with a microphone connected to
MIC1 and the CCO is shown in picture below.
CODEC Block Schematic:
Earphone Amplifier
FUNCTIONAL OVERVIEW
The earphone amplifiers (BEARP and BEARN) are mainly intended to be differentially
configured and drive a low impedance dynamic transducer (earpiece) but they can also be
single ended configured. The BEARP and BEARN amplifiers can be powered down by the
I2C. The amplifiers can exhibit high impedance to 1.4V or low impedance to ground when
powered-down. Fifty-one gains are available for BEARP and BEARN: from +15dB down to
–60dB in 1.5dB steps. When the BEARP and BEARN outputs are operating in differential
mode, an I²C selectable bit must invert one of the inputs.
Speaker Amplifier
The speaker amplifiers, SPKRP and SPKRN, are intended to drive a low impedance (8ƻ)
speaker in a differential mode or to be used as a stereo configured line output amplifier
supporting external high power amplifiers. The output buffer shall exhibit low impedance
to ground when powered-down and the current consumption shall be minimal. When the
SPKRP and SPKRN outputs are operating in differential mode, an I²C selectable bit must
invert one of the inputs.
1225-4035 rev. 1
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FUNCTIONAL OVERVIEW
Digital Baseband Controller (CPU)
N2010 (Kajsa)
This component is not replaceable on SL 4 because Baseband calibration is required.
The Digital Baseband Controller is divided in two subsystems: Access and Application
Access Subsystem
All modem functionality in the digital baseband controller resides in the Access subsystem.
This includes EDGE/GPRS/GSM interface, WCDMA interface, USB, IrDA, and other
peripheral modules. The control CPU is an ARM926 and a DSP is used for signal processing
and layer one control code.
The main communication between the blocks in the Access subsystem is done through the
Advanced High-performance Bus (AHB) matrix, which is a set of control buses connecting
the different parts together. A block called Syscon is responsible for distributing clocks and
resets to all parts of the Access subsystem. This block is under SW control. The Access
subsystem is connected to the Shared EMIF, an interface for communication with an
external SDRAM. The Shared EMIF is shared between the Access subsystem and the
Application subsystem.
G705 - W705 - W715
Application Subsystem
The Application subsystem contains functionality related to functions such as MMI,
graphics, audio and memory media. The control CPU is an ARM926 with three external
memory interfaces, one shared with the Access subsystem and two dedicated for the
Application subsystem. The Application subsystem contains several blocks. The main
communication between the blocks is done through the Advanced High performance bus
(AHB) matrix, which is a set of control buses connecting the different parts. A block called
Syscon is responsible for distributing clocks and resets to all parts of the Application
subsystem. This block is under SW control. The Application subsystem is connected to the
Shared EMIF that is used for code execution or data storage. In addition, a dedicated EMIF
that support SDRAM or static memory like NOR, PsRAM or NAND are also available. The
Application EMIF is a general interface for communication with, for example external
SDRAM, PSRAM, NOR flash, NAND flash and companion chips
Application Subsystem of the Digital Baseband Controller:
Access Subsystem of the Digital Baseband Controller:
FUNCTIONAL OVERVIEW
1225-4035 rev. 1
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FUNCTIONAL OVERVIEW
The functional blocks of the Digital Baseband Controller:
G705 - W705 - W715
Radio Part
Antenna
The mobile system antenna interface connects the Wideband Code Division Multiple
Access (WCDMA) and Global System for Mobile Communication (GSM) input/output to
the antenna of the Mobile Phone. It is a bi-directional RF interface containing signals in the
range 800 MHz to 2.2 GHz. The mobile system antenna interface is the interface between
the Mobile Phone Radio Frequency (RF) input/output and the mobile system antenna. The
interface handles the GSM 850, EGSM 900, GSM 1800, GSM 1900 and WCDMA Band I, II
and V, RF inputs/outputs.
Mobile System Antenna Interface:
Radio Module N1200 (Tiger)
Front End
The Front End block connects the proper block in the radio system to the antenna. The
Front End has two inputs for EDGE/GSM/GPRS, one for low band (850/900 MHz) and one
for high band (1800/1900 MHz). The EDGE/GSM/GPRS power amplifier output is filtered
by the low pass filter in the Front End and then connected to the antenna through a switch.
In receive mode, the EDGE/GSM/GPRS signal from the antenna passes through the switch
to one of the four receive SAW filters. The SAW filter provides receive band selectivity. In
GSM/GRPS/EDGE systems, transmit and receive operations are divided in time and the
switch connects the proper block in accordance with the mode of operation (that is,
transmit or receive; one at a time).
Keypad
The keypad interface block supports up to 30 keys with 65 columns and 6 rows and
operates in both scan and idle mode. The keypad scan is performed by software. Any
transition in the state of the column inputs is written directly to the register. The keypad
interface differentiates between single key presses, simultaneous presses of any keys with
a function key, and any key releases. The period between successive scans is
programmable over the range 5 ms to 80 ms, in 5 ms steps. During scan mode, the
keypad generates an interrupt whenever a valid keypad state change occurs (including a
release of any pressed keys). The scan function is disabled during system power-up. The
keypad is able to detect at least four simultaneous key presses. Not all combinations are
supported.
FUNCTIONAL OVERVIEW
In WCDMA the transmit outputs from the WCDMA transceiver are filtered by an external
SAW filter that cleans up the spectrum. The SAW filter output is connected to the power
amplifier, one for each band. For power control, a sample of the transmit output is taken
by a directional coupler and converted to a DC level by the power detection circuit. This
signal is used to control the transmitter output power. The transmit signal passes through
an isolator and then a duplexer. The duplexer output is selected by the switch in the Front
End for connection to the antenna. In WCDMA receive mode the signal from the antenna is
switched by the Front End to the correct duplexer. The output from the duplexer is
connected to the LNA input in the WCDMA receiver.
Transceiver
The transceiver is a multi-mode transceiver for WCDMA/EGDE/GPRS/GSM. The
EDGE/GPRS/GSM part of the transceiver use a digital baseband interface that is shared
between received and transmitted data. The receive interface is based on I and Q data
and the transmitter interface is based on envelope and frequency data. The WCDMA part
of the transceiver use differential analog in-phase and quadrature-phase interfaces, which
is an IQ-interface, in the receiver and the transmitter data paths.
1225-4035 rev. 1
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FUNCTIONAL OVERVIEW
Frequency Generation
G705 - W705 - W715
Ericsson RF 3300 Block Diagram:
The 26 MHz reference signal is used as the reference for the on-chip synthesizers. To
cover the required frequency range, the integrated Voltage Controlled Oscillator (VCO)
operates at twice the frequency for band 1800/1900/2100, and at four times the desired
frequency for band 800/900. The two synthesizers are controlled through the serial bus
from the access side of the digital baseband controller.
EDGE/GPRS/GSM Transmitter Part
Polar modulation transmitter architecture based on the direct phase/frequency
modulation/synthesizer architecture is implemented for GSM, GPRS and EDGE. This
architecture has the capability of generating both the GSM/GPRS constant envelope GMSK
modulation and the linear EDGE 8-PSK modulation in a very cost efficient way. The
motivation for a polar modulation transmitter architecture compared to traditionally linear
architectures is to reduce the output noise (thus eliminating the need for off-chip filters)
reduce the power consumption by utilizing non-linear switching analog signal processing
blocks, and to eliminate the need for an RF isolator.
In brief, the phase/frequency modulator in this polar modulation architecture is a sigmadelta controlled fractional-N frequency synthesizer with an additional frequency insertion
point after the loop filter at the input of the VCO. The Phase-locked Loop (PLL) has two
information inputs: the divider ratio in the feedback path and a direct path to the VCO.
The phase locked loop generates the radio frequency carrier including the phase
modulation information at the desired channel frequency.
WCDMA Transmitter Part
FUNCTIONAL OVERVIEW
The WCDMA transmitter architecture is an on frequency linear direct up-conversion IQmodulator. The in-phase and quadrature-phase reconstruction filters are fully integrated
and a programmable gain amplifier implements the gain control. An external SAW filter
between the WCDMA circuit and the power amplifier is used to improve noise performance.
After the power amplifier, the signal is sent through an isolator and through the duplex
filter, which directs the transmit signal to the antenna connector through the antenna
switch. The supply voltage and bias of the power amplifier are adapted depending on the
output power to achieve high efficiency at every transmitter power level. A high efficiency
DC/DC converter regulates the supply voltage and the bias operation point is controlled by
a D/A-converter in the WCDMA radio circuit.
Receiver Part
The receiver architecture is a direct down-conversion zero-IF receiver with integrated lowpass filters. The complete receiver with seven Low Noise Amplifiers (LNAs), one for each
supported band, is integrated on chip. After the down-conversion, the in-phase and
quadrature-phase components are low pass filtered and if the receiver is in
EDGE/GPRS/GSM mode the signals are fed to the integrated high dynamic range sigmadelta A/D-converters.
1225-4035 rev. 1
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FUNCTIONAL OVERVIEW
RF System Control
The access side of the digital baseband controller controls the overall radio system.
In both EDGE/GSM/GPRS and WCDMA air interface mode, the digital baseband controller
controls the radio system through a three-wire serial bus. The digital baseband controller
also manages PA band control and the antenna switch mechanism in the front end module.
The 26 MHz VCXO clock residing in the transceiver is turned on only when required and
initiated by the digital baseband controller.
The control flow for the RF system:
G705 - W705 - W715
EGSM 900:
RX Frequency Range: 925,2 MHZ – 934,8 MHZ
Channel Range RX: 975 – 1023
DCS 1800:
PCS 1900:
Channel Range RX: 512 - 810
WCDMA
Note! The WCDMA Network support depends on variant and market.
TX and RX Frequency and Channel Range
Band I:
Channel Range TX: 9612 - 9888
TX Frequency Range: 1920 – 1980 MHz
RX Frequency Range: 2110 – 2170 MHz
EDGE/GPRS/GSM
TX Frequency, Channel and Power Level Range:
GSM 850:
TX Frequency Range: 824,2 MHZ – 848,8 MHZ
Channel Range TX: 128 – 251
Power Level: Min 19 – Max 5
GSM 900:
DCS 1800:
PCS 1900:
RX Frequency and Channel Range:
GSM 850:
GSM 900:
Frequency Range: 935,2 MHZ – 959,8 MHZ
Band V:
TX Frequency Range: 824 –849 MHz
RX Frequency Range: 869 –894 MHz
Band VIII
TX Frequency Range: 880 –915 MHz
FUNCTIONAL OVERVIEW
EGSM 900:
Band II:
TX Frequency Range: 1850 – 1910 MHz
Bluetooth and FM Radio
The Blt/FM Radio circuit combines Bluetooth and FM tuner functionality into one.
Bluetooth
The Bluetooth implementation is compliant with Bluetooth specification 2.1 + EDR.
The BluetoothTM transceiver has frequency channels with 1 MHz separation from 2402 to
2480 MHz. The same band is used for both transmission and reception. This gives 79
frequency channels.
Receiver
The Bluetooth section implements a low-IF receiver for Bluetooth modulated input signals.
The radio signal is taken from a balanced RF input and amplified by an LNA. The mixers
are driven by two quadrature LO signals, which are locally generated from a VCO signal
running at twice the frequency. The I and Q mixer output signals are band pass filtered by
a poly-phase filter for channel filtering and image rejection. The output of the band pass
filter is amplified by a VGA to the optimal input range for the A/D converter. Further
channel filtering is done in the digital part. The digital part demodulates the GFSK, Ⱥ/4DQPSK or 8-DPSK coded bit stream by evaluating the phase information. RSSI data is
extracted. Overall automatic gain amplification in the receive path is controlled digitally.
The RC time constants for the analog filters are automatically calibrated on chip.
1225-4035 rev. 1
91 (122)
FUNCTIONAL OVERVIEW
Transmitter
The transmitter uses the serial transmit data from the Bluetooth Controller. The
transmitter modulator converts this data into GFSK, Ⱥ/4-DQPSK or 8-DPSK modulated I
and Q digital signals for respectively 1, 2 and 3 Mbps transmission speed. These signals
are then converted to analog signals that are low pass filtered before up-conversion. The
carrier frequency drift is limited by a closed loop PLL.
FM Radio
FM Receiver
The receiver uses a digital low-IF architecture. The receive (RX) section integrates a low
noise amplifier (LNA) supporting the worldwide FM broadcast band (76 to 108 MHz). An
automatic gain control (AGC) circuit controls the gain of the LNA to optimize sensitivity
and rejection of strong interferers. An image-reject mixer down converts the RF signal to
low-IF. The quadrature mixer output is amplified, filtered and digitized with high resolution
analog-to-digital converters (ADCs). This advanced architecture allows the use of digital
signal processing (DSP) to perform channel selection, FM demodulation and stereo audio
processing.
Tuning
The receiver uses frequency synthesizer technology including a completely integrated VCO.
The frequency synthesizer generates the quadrature local oscillator signal used to
downconvert the RF input to a low intermediate frequency. The VCO frequency is locked to
the reference clock and adjusted with an automatic frequency control (AFC) servo loop
during reception. The tuning frequency is defined as: Freq (MHz) = Spacing (kHz) ×
Channel + Bottom of Band (MHz)
G705 - W705 - W715
Master Clock
(26 MHz)
The 26.00 MHz VCXO-based MCLK is distributed as a square wave signal from the
GSM/EDGE circuit. In order to have full control over the load on the MCLK, only the access
side of the digital baseband controller is allowed to request the MCLK. However, by
indirect means also the application side CPU can issue the request. A VCXO-based square
wave is also distributed to the WCDMA circuit, but is turned on only upon a command
from the digital baseband controller.
Real-time Clock
(32. 768 kHz)
A 32.768 kHz crystal oscillator provides a low frequency clock whenever the platform has
power. This clock is used to keep the Real-Time Clock (RTC) block functioning, so that the
platform can keep track of the time and date. The low frequency clock is generated in the
analog baseband controller and distributed to the digital baseband controller, and if
necessary to external devices like Bluetooth, FM radio and A-GPS.
A-GPS
The Assisted GPS functionality in the phone is realized with the Global Locate
Hammerhead GPS module. The Global Locate Hammerhead belongs to the Type 2 GPS
solutions. The PMB 2525 Hammerhead II GPS IC is a GPS single chip device containing a
complete radio frequency front-end as well as the signal processing functionality in a
single die. The device allows the usage of assistance data by supporting A-GPS (assisted
GPS) standards (RRLP, RRC, OMA SUPL). One of three serial interfaces, UART, I²C or SPI,
is used for communication with the host system.
Clock Reference Frequency
External Connectors
External units are connected to the transceiver by means of a 12-pin connector on the
phone.
System connector pin input/output overview:
FUNCTIONAL OVERVIEW
The platform provides two reference frequencies, a 32.768 kHz clock (RTCCLK) from the
Analog Baseband Controller, and a 26 MHz reference clock (SYSCLK) from the Digital
Baseband Controller. The RTCCLK is used by the phone real time clock function. The
RTCCLK is distributed to the A-GPS module as a logical square wave. SYSCLK is derived
from the reference modulation clock MCLK to the platform access system and is
distributed from the Digital Baseband Controller to the A-GPS module. This 26 MHz clock
is synchronized with the cellular network to an accuracy of ±0.1 ppm. Automatic
frequency updates can also cause large frequency corrections, with associated phase
discontinuities. In order to isolate the A-GPS module for the unstable effects of SYSCLK,
an external reference clock is required. This external reference frequency provided by a
TCXO is required to provide a clock with very high short term stability. The frequency of
the TCXO is calibrated against the cellular reference clock by the A-GPS module enabling
the use of a more economical less accurate TCXO.
Interface and Control
Clocks
Clock Distribution
The clocking for the access and application subsystems is separated. This means that the
subsystems can wake up or go to sleep mode independently. The access subsystem is
clocked by the 26 MHz Voltage Controlled Crystal Oscillator (VCXO) located in the
GSM/EDGE circuit. When the access subsystem has a job to do, the Master Clock (MCLK)
signal is requested from the RF part. Most other clocks needed within the access
subsystem are generated from the MCLK. Some minor parts like sleep timer and cable
detect use the 32 kHz real-time clock. The 32 kHz real-time clock clocks the application
subsystem, and all other internal clocks needed within the application subsystem are
generated from this clock. However, when audio is transferred between the application
and the access subsystems, the MCLK is used.
The Interface and control consists of system timing and control. The control interface
includes a communication link where both data and control information are transferred
between platform and the A-GPS module. Data and command information is transferred
using a full-duplex Universal Asynchronous Receiver Transmitter (UART) interface.
Other control signals include the following:
• A GPIO or platform reset used as a reset signal (nRESET) to the GPS module.
• A Transmission On signal (TXON/ RX_HOLD), is used to indicate to the A-GPS module
when the ME is transmitting. The A-GPS modules receiver is disabled whilst the ME is
transmitting.
• A hardware timing pulse (GPSSTART/SYNC) providing the A-GPS module with a
highly accurate timing reference. The A-GPS is able to accurately synchronize its
GPS time to this reference pulse.
• A GPIO used as an enable (POWERON) signal to the GPS module.
• A GPIO used for power control for the GPS module.
1225-4035 rev. 1
92 (122)
FUNCTIONAL OVERVIEW
A-GPS Block Diagram:
G705 - W705 - W715
WLAN device or BT device gets the antenna is Packet Traffic Arbitration (PTA). WLAN LD
configures the PTA during startup of the WLAN device. All PTA parameters are stored in
GDFS. The PTA is configured to prioritize BT traffic if it is a BT high request. All WLAN
traffic should have priority before any BT traffic that is categorized as BT low requests.
WLAN Driver sends status events to BT Driver to inform about:
• WLAN startup and shutdown
• WLAN association and disassociation
• The current WLAN channel in use
In the cases of WLAN startup and shutdown the BT Logical Driver configures the BT Device
to request the antenna from PTA or not. BT LD also monitors if WLAN have any connection
running. In that case, BT avoids the BT frequencies mapping to the WLAN channel. WLAN
monitors if BT has started any BT Inquiry or page. If this happens any link loss
mechanisms should be temporary turned off for the BT Inquiry or page period.
Bluetooth and WLAN PTA Mechanism:
WLAN (Wi-Fi)
FUNCTIONAL OVERVIEW
This WLAN module is based on the new Marvell 88W8686 chipset. WLAN module is
designed to support IEEE 802.11a or 802.11g payload data rates of 6, 9, 12, 18, 24, 36,
48 and 54 Mbps, as well as 802.11b data rates of 1, 2, 5.5 and 11 Mbps. For security the
WLAN module supports the IEEE 802.11i security standard through implementation of the
Advanced Encryption Standard (AES)/Counter Mode CBC-MAC Protocol (CCMP), and Wired
Equivalent Privacy (WEP) with Temporal Key Integrity Protocol (TKIP) security mechanism.
For video, voice and multimedia applications the WLAN module supports 802.11e Quality
of Service (QoS). The 3-wire Bluetooth / Wi-Fi co-existence interface is also supported.
The WLAN module has a fully integrated RF to baseband transceiver that operates in both
the 2.4 GHz ISM radio band for 802.11g/b WLAN applications and 5 GHz UNII radio band
for 802.11a WLAN applications. It contains all the circuitry to support both transmit and
receive operations. The integrated LNA and AGC on the receive path is seamlessly
controlled by baseband functions. Integrated transmitters up-convert the quadrature
baseband signal and the deliver the RF signals to external power amplifiers for 2.4 GHz
and 5 GHz radio band transmission. Local oscillator frequencies are generated by a fully
integrated programmable frequency synthesizer. The loop bandwith is optimized for phase
noise and dynamic performance and quadrature signals are generated on-chip.
Bluetooth and WLAN Chip 3-wire Interface:
BT/WLAN Co-existence
Standards bodies did not fully anticipate the range of scenarios in which WLAN and
Bluetooth would compete for the same spectrum therefore IEEE 802.11 (WLAN) and
Bluetooth use the same 2.4 GHz ISM frequency band (although they use different access
mechanisms). They also did not include comprehensive, robust, and cooperative
mechanisms in their respective standards to mitigate interference. Since no mechanism
for exchanging signal status information has been built into the two standards, the task of
minimizing interference must be accomplished by other means. Co-location refers to the
situation where both Bluetooth and WLAN are in functional mode, that is, they are both
fully radio operational, performing either transmission or reception activities (or ready to
do so immediately). They also either share an antenna or each module has its own
antenna, on the same device. Because both Bluetooth and WLAN operate in the same
unlicensed ISM band (2.4GHz), steps are required to avoid disturbances and allow
coexistence. The HW solution is a single antenna controlled by an Antenna Switch with 3wired lines between WLAN Device and BT Device. The used algorithm to decision whether
1225-4035 rev. 1
93 (122)
FUNCTIONAL OVERVIEW
Platform Block Diagram
G705 - W705 - W715
1.8 V
VIO
DB 3210 POP
SDRAM 512 Mbit
RF 3300 WCDMA RX (other functions unused)
WRxIA
GSM/EDGE
HB
LNA
GSM/EDGE
HB
90
WCDMA HB
LNA
Band V
WCDMA LB
LNA
D
÷
N.M
+
2.8 V
VRAD2
LPF
ChP
PhD
+
2.8 V
VRAD2
LPF
RFCtrl2
ChP
JTAG DEBUG
PhD
TCM IF
Serial
Control
DATA
STROBE
TestOut
RF_CTRL_DATA
I
Cache
32 kB
1.2/1.05 V
VCORE
TLB
AHB
Default
slave
XO
MClkSec
BT + WLAN
0
90
WRX1_In
ADC2_I_NEG
ADC2_I_POS
WRX1_Qn
ADC2_Q_NEG
WRX1_Qp
ADC2_Q_POS
WRX0_In
ADC1_I_NEG
WRX0_Ip
ADC1_I_POS
WRX0_Qn
ADC1_Q_NEG
WRX0_Qp
ADC1_Q_POS
PA
PA
GSM850/
900 Input
WTX_In
DAC_I_NEG
WTX_Ip
DAC_I_POS
WTX_Qn
DAC_Q_NEG
WTX_Qp
DAC_Q_POS
RFWB ENABLE 0
RFWB ENABLE 1
WRFCTRL2
DCS/PCS
Input
GSM/
EDGE HB
1710 – 1910 MHz
+
VBAT
En
RF_DATA_C
EDataA
RF_DATA_A
ANTSW0
ANT_SW0
ANTSW1
ANT_SW1
ANTSW2
ANT_SW2
ANTSW3
ANT_SW3
TXADC
2.8 V
VRAD
1.8 V
VIO
WCDMA HB3
Power
coupler
Bias
En
ChP
PhD
Serial
Control
DATA
STROBE
TestOut
÷
N.M
VCO
RF_CTRL_CLK
RF CTRL CLK
RF_CTRL_DATA
RF CTRL DATA
RF_CTRL_STRB0
RF CTRL STRB0
RF_CTRL_STRB1
RF CTRL STRB1
RF_DATA_A
RF_DATAA0
RF_DATA_B
RF_DATAB1
RF_DATA_C
RF_CTRL_CLK
RF_CTRL_DATA
+
VccWPA
SIM_CLK
SRST
SIM_RSTn
GPA4
PWRRST
Bias
CLKREQ
To Camera
16
SYSCLK1
CLKREQ
32KHz
MCLK
Watch
Dog
Event
Hist
Cable
Detect
CRU
AHB2APB
26 MHz
8
Timer0
ICU
Timer1
PMU
MCiDCT
(Video)
CDI
32
32
TIMER1
32
IRAM
64 kB
RTC
16
32kHz
KEYPAD
UART0
AHB2APB
26 MHz
Det
Core
SYSCON
1.2/1.05 V
VCORE
WTXPOW_DET
WCDMA
Integrity
RS232
RTCCLKIN
BT
UART3
GPRS
CRYPTO
MSAPPIRQn
IRDA
IO
BUS TR
32
16
GPIO
Event H
32
32
6
8
9
*
0
#
UART 0
1.8 V
VIO
SDA
I2CSCL2
I2CSDA2
MMC/SD
I2S/
PCM1
SPI
23
22
21
20
MS PRO
DI/DO/CLK
1.8 V
VIO
I2CSCL2
I2CSDA2
MC_DATADIR
MC_CMDDIR
MC_CMD/BS
MC_CLK
S
L
CS0 -2
SCL
I2C0
UART 0
VIR
2.75V
VIO
1.8V
CTS/RTS
RX/TX
I2S/PCM
(BT)
SPI
All 48 GPIOs here
have switchable
pullups.
I/O &
Supply
Vcc
IRDA
RXD
IRDA_RX
1.8 V
VIO
WRFCTRL3
3
5
7
Data Card
MS Pro
MMC/SD
Resistors
DPLL
208M
IO
En
2
4
2.85 V
VCARD
I2C2
I2S/
PCM0
WCDMA
Cipher 0,1
UART2
MSACCIRQn
1
KEYOUT(0-4)
PPM
16
APLL
13M
I2C1
DPLL
APLL
32
26 MHz
MCLKREQ
SYSCLK1
R0
C0 C1 C2 C3 C4
RF Pow det
Placed
close to
LCD
R1
AHB2APB
FS_USB/
HS_USB
SYSCLK0
R2
28-35
N
C
R3
AHB2APB
WDOG
Y
R4
1.8 V
VIO
TIMER0
DRAM
128 kB
AHB
Slave
INTCON
2.5 V
VANA
En
GPIO
CEVAX1622
Boot ROM
8k x 32 bit
EDC
15
MCLK
R5
COM
P
AMP
VBAT
TXRX H
CTS/RTS
FUNCTIONAL OVERVIEW
Bias
CDICON
13 MHz
AHB Master
XpertCEVA
JTAG
SERVICEn
IRQAcc
IRQApp
GAMEACC
(3D)
16
ETX
GPIO
AHB
Slave
CIVSYN
CIHSYN
CIPCLK
CIRES
26
27
25
24
32+5
Access
Timer
SYS
CON
SYSCLK0
PDICON
PDROM
464kB
AHB Slave
26 MHz
PWRRSTn
SRAM
332 kB
Sensor
Control
PDI
AHB
Slave
Random noise
generator
RXIF
Bus
Tracer
AHB
Master
CAM POW
CAM 2 STBY
PAR/ SSI
ARB
DSP
Sub System
I2CSDA2
I2CSCL2
GRAM
64k byte
Video
Encoder
AHB
Master
40 Channels
40 Requests
EGG
Sub System
SYSCLK2
MClkSec
AHB
Slave
A
D
C
Image
proc
AHB
Master
Video
Enc
RAM1
52 MHz
32+3
TXIF
XGAM
GAMCON
Video
Enc
RAM0
IRAM
7k x 32
bit
APLL
2.75 V
VRAD
LCDTEMP
MCLK
XO
XOp
32
32+5
SYSCLK0REQ
WTxQA
WTxQB
MCLKsec
VccWPA
Power
coupler
Placed
close to RF
32+5
RFIF
RESOUT1n
CLKREQ
MCLK
AHB
Slave
APEX
ROM
AHB
Slave
32
32+3
Camera 1
Camera 2
CIVSYN
CIRES
APEX+
32+3
16
SIMIF
DCON
90
IO
1.8 V
VIO
2.75 V
VCAM
1.8 V
VIO
CAM 1 STBY
AHB
Master
CIPCLK
AHB IF
APPSLEEP
26MHz X-tal
V_TEMP
DFSE
TLB
CIHSYN
32+3
RESOUT2n
0
En
Band 5
16
RESOUT0n
To NAND WP
WCDMA LB
Power
coupler
UL: 824 – 849 MHz
DL: 869 – 894 MHz
VA
16
SER
CON
I2CSCL2
D
Cache
32 kB
MMU
VBAT
LCD
I2CSDA2
AHB BUS IF
DMA
32+3
RF_DATAC2
SCLK
WTxIB
WCDMA HB1
16
D Mem
Control
AHB
Master
Boot
ROM
32+5
26 MHz
RF_CTRL_STRB0
ACCSLEEP
Band 2
TIM
GEN
GSM
CRYPTO
32+3
16
RF_DATA_STRB
WTxIA
WCDMA HB2
UL: 1850 – 1910 MHz
DL: 1930 – 1990 MHz
16
RF CTRL STRB2
CLK
LPF
RFCtrl2
16
O
R
CLK
CON
GSM PA ENABLE
DAC
RFCtrl1
RFCtrl2
16
I
Cache
32 kB
DMA
AHB IF
2
INTCON
ARM9EJ-S
I Mem
Control
MS
PRO
APEX
TX ADC STRB
DAC
+
RFCtrl1
TEMP_BIAS
EDataC
XO
AHB
Slave
AHB2AHB
APEX
RAM
VBAT
1.2/1.05 V
VCORE
IO Bridge
26 MHz
RFWB ENABLE 5
RF_DATA_STRB
AM
RFCtrl1
VccWPA
TEMP_BIAS
PhD
ARB
WTIM- WSYS- WINTGEN
COM
CON
RFWB ENABLE 3
RFWB ENABLE 4
GSM/EDGE
Control
Logic
Band 1
ChP
LPF
DAC
DAC
Switch
UL: 1920 – 1980 MHz
DL: 2110 – 2170 MHz
RF_DATA_B
WDCDCREF
PWM/PFM
VccWPA
RF_DATA_STRB
VCO
VCO
MSL
AHB IF
IM
Bridge
AHB
Slave +
Sequ.
WCDMA SUB System
WRFCTRL1
D
ARB
ADC
WRFCTRL0
÷
N.M
MSL
AHB IF
32
WRxQB
EDataB
A
LNA
GSM/
EDGE LB
824 – 915 MHz
AHB
IF
32
WRxQA
EDataStr
D
LNA
WCDMA LB
ESD
A
AHB
IF
52 MHz
TX_POW
WRFCTRL3
SUB-LCD
I2CSCL2
ARM9 Sub system
AAIF
ARM926
WRX1_Ip
WTXPOW_DET
WRxIB
LNA
AAIF
32
WRxIA
LNA
ARB
52 MHz
RF 3300 WCDMA/GSM/GPRS/EDGE TRX
LNA
AHB
IF
2.75 V
VCAM
NAND Flash IF
ECC
AHB Slave
AHB Slave
AHB Slave
AHB Slave
ARB
MCLK
LNA
D(0-7)
D(0-15)
I2CSDA2
AHB
Master
1.2/1.05 V
VCORE
CLKREQ
LNA
VSS
CE
1.8 V
VIO
DMA
58 Channels
50 Requests
AHB BUS IF
WTxQA
WCDMA HB
UDQM
EMIF2
D
Cache
32 kB
MMU
AHB
Master
90
MCLKsec
VAPC
BE1
WE
1.8 V
VIO
EMIF
EMIF Arbiter
D Mem
Control
Shared EMIF
GPA4
0
VBAT
GSM/EDGE
PA + Ant Sw.
UDQM
VDD
RE
EMIF2_SDCAS_RE_OE
EMIF2_WE
EMIF2 CS0
EMIF1
RF_CTRL_STRB1
WTxIB
WCDMA HB
BE1
VSSQ
LDQM
EMIF Control
ARM9EJ-S
I Mem
Control
RF_CTRL_CLK
WTxIA
+
ETM IF
WTxQB
GSM/EDGE
LB
BA1
1.8 V
VIO
ALE
Digital Baseband
Controller DB 3210
ARM926
WCDMA LB
869 – 894 MHz
BA0
A14
CLE
DTCM
8 kB
ITCM
26 kB
ETM9
EICE
Digital
Baseband
Controller
Decaps
1.8 V
VIO
÷
N.M
VCO
WCDMA HB1
925 – 960 MHz
RAS
A13
BE0
ARM9 Sub system
WCDMA HB2
GSM/EDGE
LB
ADV/RAS
D(0-15)
To Mux
XO
CLK
WCDMA HB3
GSM/EDGE
HB
LDQM
WP
1.8 V
VIO
DAC
RFCtrl1
XOp
BA1
VSS
Memory interface
DAC
DAC
DAC
AM
VSSQ
CAS
BA0
A15
BE0
Internal to Platform
GSM/EDGE
1805 – 1880 MHz
RAS
OE/CAS
External to Platform
VBAT
GSM/EDGE
HB
SDRAS
A14
VSS
EMIF2_CLE_A17
EMIF2_ALE_A18
R/B
EDataA
D
GSM/
EDGE HB
1930 – 1990 MHz
CAS
VDDQ
WE
WE
RESETOUT0
VDD
CS
CS(0-2)
EMIF2 NFIF READY
EDataC
A
VCO
RFCtrl2
SDCAS
VDD
VDDQ
DB 3210 POP
NAND Flash 1 Gbit
CLK
EDataB
VCO
RFCtrl1
WE
CKE
CLK
EDataStr
A
GSM/
EDGE LB
LDO
2.8 V
CS
WE
1.8 V
VIO
Mobile SDRAM
xxx Mbit
SDCKE
WRxQB
LNA
Band II
2.8 V
VRAD
SDCS
WRxQA
LNA
WCDMA HB
Band I
CLK
0
LNA
GSM/EDGE
LB
RX Diversity for WCDMA
CKE
WRxIB
LNA
GSM/EDGE
LB
SDCKE
SDCLK
IRDA_TX
TXD
IRDA_SD
RC
MODE
Log &
Contr
1.2/1.05 V
VCORE
WDAC1
WDAC2
DACO0
DAC0
11 bits
DACO1
DAC1
11 bits
DACO2
DAC2
11 bits
DACO3
DAC3
11 bits
2.5 V
VANA
2.8 V
VRAD
MMC CLK
CAM 2 STBY
CAM 1 STBY
VBAT
VANA
VIO
VBAT
CAM POW
I2C BUS Internal Acc and App
SERCON
Debug
equipm.
1.8 V
VIO
SYSCLK1
VBAT
VIO
1.8V
VBAT
SPI
Power Down
INT
USB
DET
TRICKLE
USB CHRG
CONTROL
VBAT
2.75 V
VBAT_C
DCIO
DCIO
I2C
CHREG
DCIO_INT
DCIO CHRG
CONTROL
DCIO
DET
VBAT
CHSENSE+
100
mohm
VDD_REF
1uF
VBAT
BDATA
uP
M
U
X
I2C
UART
MemCard
LDOg
100 mA ;
2.85 V
LDOc
200 mA
2.65 V
BOOST
(Soft start)
6-22 V, 30 mA
LED Control
SYSCLKREQ1
32 kHz
osc
100k
VRTC
100k
200 mA
2.75 V
BT SPI CLK
LDO LP
2.2 V
1.8~0.9V
SAFETY
VDD_SPKR
Audio Part AB 3100
IRQb
SYSTEM
POR
RX
PGA2
Vol
32KHZ
OTP
64 bits
Power Management
AB 3100
I2S_CLK1
PCMCLK
I2S_WS1
PCMSYN
I2S_TX1
PCMI
I2S_RX1
PCMO
PCM/
I2S
Interface 1
DAC
4
Vol
RX
PGA2
DAC
3
PGA
Vol
RX
PGA2
DAC
2
PGA
Vol
RX
PGA1
DAC
1
PGA
VDDBEAR
VDDDIG
Backup
capacitor
25
mohm
2.65 V
VANA
LED interface
1.8 V
VIO
2.65 V
VAUDIO
VBAT
Vibrator if
SIM interface
VIO
1.8V
PCMULD
EX1030 Filters
PCMDLD
VIO
1.8 V
BT SPI IRQ
PHF
Jack
VMID
I2S_CLK0
PCMCLK
I2S_WS0
PCMSYN
I2S_TX0
PCMI
I2S_RX0
PCMO
PCM
DECODER
ENCODER
GPA4
SIDE
TONE
CCO1
CCO
PCM/
I2S
Interface 2
Hook
SYSCLK2n
CCO
ADC
1
TX
PGA2
ADC
2
OSC
XO
HS_CLOCK
HS_DAT0-7
MIC1P
TX
PGA1
HS-USB Transceiver with ULPI, ISP 1508
XI
ATMS
CCO2
CCO
MIC2N
1
MIC3N
Microphone
TX
PGA3
VCC C1
2.85 V
VCARD
VBAT
2.75 V
VCAM+Display
GND C5
RST C2
NC
CLK C3
DAT C7
C6
ADC
3
ADC2REF
ADC3REF
LINE1
LINE2
D0-D7
HS_DIR
DIR
HS_STP
STP
NXT
ULPI
if logic
Serializer
USB 2.0 ATX
Deserializer
Termination
Resistors
POR
Internal
power
VDD1V8
VBAT
Voltage
regulators
C
O
N
VBUS
Comp
ID
GND
VBUS
Chrg/
dischrg
resistors
VIO
REF
On/Off
Switch
D+
D-
VBUS
ID det
VDD3V3
VBAT
DP
DM
Reg
map
ULPI_CS
VIO 1.8V
PLL
CLOCK
HS_NXT
MIC4N
2.75 V
VIR
VBAT
REG
2.75V
PCMSYN
2.65 V
VAUDIO
CSn
WLED interface
Bluetooth
Radio
VSSBEAR
VBAT
VBAT
Bluetooth
Baseband
PCMCLK
VSS_SPKR
PGA
VBACKUP
VBAT
MCLK SEC
32KHz
PWRRST
SIM
LDO
VDDLP
2.65 V
VANA
RESOUT2
SYSCLKREQ1
IRQa
BDATA
GND
BT SPI DI
BT SPI DO
G
I/O/Core
LDOe
200 mA
BT SPI CS
USB if
VBAT
LDO d
200 mA ;
2.65 V
Camera
LDOh
100 mA ;
2.75 V
IR LDOk
GPIOif
I2S BUS
1MHz
OSC
XTAL_OUT
LED Control
BAND
GAP
VIBRATOR
CONTROL
PLL
44/48
WLAN
32kHz
100k
Level
shift
FUEL
GAUGE
ADDER
S-D
ADC
FGSENSE-
IC
SLEEP
CONTROL
1.8 to 0.9 V
5%
600 mA
VMEAS
FGSENSE+
BATTERY
Internal BUCK
I2C
IMEAS
CHSENSE-
AUTO
CTL
ADC
10bit
2
RF LDO a
EGG/WBTX
150 mA ;
2.8 V
Analog
LDOf
30 mA
2.5~1.05V
MCLK SEC
VBAT
Backup
Cap
VBUS
Int Ref
Voltage
PSW_N
SIM card
Debug Interface
ACB/
Debug
1225-4035 rev. 1
94 (122)
FUNCTIONAL OVERVIEW
Block Diagram Power Distribution
G705 - W705 - W715
RF Subsystem
DAC1
DCIO
DAC2
VBAT_A
Charge
resistor
VccB
VccA
LDOd
2.65V/200mA
Vcc
GPADC
4.7k
LDO LP
2.2V/7mA
VBAT_C
Back-up
capacitor
20
12
VBAT_D
2
2
VBAT_E
LDOf
2.50V/30mA
I/O
VDDCO
VccA2
Fuel
gauge
Block
VccD
1.8 V
VDDIO
VDDIO
VDDIO_PLL
VDDCO_PLL
VCCAD
VCCDA
VCCGPAD
VDDAD
PoP
LDOk
2.75V/200mA
EN
VccA2
WLAN Subsystem
6
LDOh
2.75V/100mA
VccA1
2
D-VDDQ
F-VDD
VCC_N
LDOc
2.65V/200mA
PVIN
VCC_IO
VBAT_H
VDD_AUDIO
Switching Reg 3
3.3V/250mA
V33A
LDO3
3V/300mA
V3A
LDO2
1.8V/300mA
V18A
LDO1
1.8V/300mA
V18D
VCC1
VLED
VBAT_G
VDD_BEAR
VDD_AUXO
CODEC
AVDD
VANA
VDD_SPKR
VCC
VCONTROL
VccD
VDDA_AF
LDOe
1.80V/200mA
VBAT
2.5 V
10
VBAT_F
VccA1
1.2 V
VDDANA
Buck
1.2V (1.05)/600mA
VCC
VCONTROL
VBAT
Control
VCCPA
VDD30
VDD18A
VDD18_LDO
VIO_X1
VIO_X2
DVDD
VACT
VBUS
VCC
VCONTROL
REF
VDD_ADC
VDD_IO
FB
PVIN
LDOg
2.85V/100mA
100 mOhm
VBAT_B
VBAT
SW
VDD
LDOa
2.8V/150mA
CHREG
VDIG
SIM LDO
1.8/2.85V
VBAT_L
Vibrator
driver
FUNCTIONAL OVERVIEW
VBUS
Charger
VBAT_K
VBAT_ACT
VBOOST
KEY_LED_C
ATHODE
Bluetooth
Subsystem
VCC
OEn
VDD2V7
ANODE
VBAT_M
LED1n
LED2n
LED3n
BOOST
W-LED driver
CATHODE
VDD_IO_A
VDD_IO_B
LED5n
LED4n
TRICKLE
VDD_CLD
TRICKLE
ON/OFF
VDD1V8
VDD_HV_A
CLK_REQ_OUT2
IN
OUT
ECO/Low Pow
VDD_HV_D
CLK_REQ_OUT1
VCC I/O
VBAT
VBUS
1225-4035 rev. 1
95 (122)
FUNCTIONAL OVERVIEW
Block Diagram Clocking Concept
G705 - W705 - W715
FUNCTIONAL OVERVIEW
1225-4035 rev. 1
96 (122)
APPENDIX
EXPLANATION OF ABBREVIATIONS USED IN THE COLUMN ‘COMMENTS’ BELOW
COMPONENT LOCATION
A = Side A
B = Side B
REPAIR METHOD
HA = Hot Air (removal & mounting)
HA/ST = Hot Air for removal - Soldering Tool for mounting
BGA = BGA Station
CALIBRATION
C = Calibration of the phone is required after replacing the component
Designation
Osc TCXO 27,456 MHz
Vibrator
Crystal 32,768 kHz
Microphone
IC
Capacitor Electrolytic 70.0 mF None 3.3 V
Shield Can Fence
Ind WW 4.7 uH K3012
120ohm 0603 2A 50mohm Bead
Inductor 0.0 H ±25%
Ind Chip 0, H
220ohm 0603 2A 0.05ohm Bead
22uH 20% 3x3x1.2mm 0.375A 0.63ohm
IC Lin WLP-16
IC Vreg PLP1820-6
Module Bluetooth + FM WFBGA100
A-GPS
IC Amp P-TSLP-1-1
Mod Radio WLAN R041
IC Vreg SC70
IC Vreg PLP1010-4
IC Vreg
IC
ASIC PM WLAN PMU
Trans N-ch FET
ASIC Accelerometer
IC IF 3.5X3.5X0.8
IC ESD Prot UDFN 6 2x2 mm
ASIC BB Elina
ASIC Tjatte3 CSP20
Part no.
1200-7847
1202-9271
RTM501911/2R1A
1210-7410
RYN901920/1
1203-3900
1206-8594
1200-2214
REG70605/15
REG70618/20
REG70618/20
REG70618/20
REG70618/20
REG70618/20
1200-6898
REG70618/20
REG70605/24
REG7245512/22M
1203-5870
1204-5903
1200-9840
1200-0700
1200-2407
1200-6173
1200-6420
1201-6465
RYT113997/4
RYT1137816/4
1203-2790
RYN901936/1
1202-1676
1200-1694
1200-6309
1201-4120
ROP1013074/1R1A
Comments
A HA
B HA/ST
A HA C
A BGA
A HA
A HA
A HA
A HA
A HA
B HA
B HA
B HA
B HA
B HA
B HA
B HA
A HA
A HA
A HA
A HA
B BGA
A HA
A HA
B HA
A HA
A HA
B HA
B HA
A HA
A HA
A HA
A HA
A HA
A HA
A HA
Page
98
98
98
98
99
99
99
99
99
99
99
99
99
99
100
100
100
100
101
101
102
102
102
102
102
102
103
103
103
104
104
104
104
Position
R2449
R2451
R2490
S2403
S2404
S2405
S2406
V2200
V2202
V2415
V2416
V2417
V2470
V3101
V4203
X1000
X1001
X1002
X1003
X1004
X1005
X1200
X1500
X2201
X2401
X2402
X2403
X2405
X3102
X4200
X4300
Z2400
Z4200
Z4201
Z4202
Designation
Resistor 0, Ohm +/-50m 63 mW K0603
Resistor 0.0 Ohm +/-5% NA mW K0402
Resistor 0, Ohm +/-50m 63 mW K0603
Input Switch side push
Input Switch Side Push
Diode Protection 0,
Trans P-ch FET
Diode Protection 5, V SOD-923
Diode Protection 5, V SOD-923
Diode Protection 12, V SOD523
Diode 0,
Zenner Diode, ESD protection, 6.1V
Trans NPN
Conn Leaf Spring
Conn Leaf Spring 1p
Conn Leaf Spring
Conn Leaf Spring
Conn Leaf Spring 1p
Conn Leaf Spring
Conn Coax Plug 6p RF-probe contact
Conn Coax Plug 6p RF-probe contact
Conn Pogopin 5p
Conn BtB Receptacle 16p
Conn BtB
Card Conn
System connector
Conn WtB Receptacle 2p
Conn BtB Receptacle 70p
Conn Camera Socket 0p
Filter 100, MHz K1210
Filter 400.0 MHz KNA16400 – W5 1608 (1.6x0.8x0.5mm)
G705 - W705 - W715
Part no.
REP623001/0
REP622001/0
REP623001/0
RMD10116/9R1A
1206-9606
RMD10116/9R1A
RMD10116/9R1A
RKZ223911/1
RYN122910/1
1201-8440
1201-8440
1200-5130
RKZ323916/1
RKZ223922/1
1211-3641
1201-4841
1202-1053
1201-4841
1201-4841
1202-1053
1201-4841
1203-9688
1203-9688
1206-2937
1214-7370
1200-9864
RNK87147/2
1205-9723
1206-4855
1206-2940
1206-5418
1201-6833
REV50146/1
REV50146/1
REV50146/1
Comments
B HA
B HA
B HA
A HA/ST
B HA/ST
A HA/ST
A HA/ST
B HA
A HA
A HA
A HA
B HA
A HA
A HA
A HA
A HA/ST
A HA/ST
A HA/ST
A HA/ST
A HA/ST
A HA/ST
A HA/ST
A HA/ST
B BGA
A HA
B HA
A BGA
B HA/ST
B HA
A BGA
B HA/SI
A HA
A HA
A HA
A HA
Page
105
105
105
105
105
105
105
106
106
106
106
106
106
106
106
107
106
106
107
105
107
107
107
107
108
108
108
108
109
109
109
109
109
109
APPENDIX
Position
B1400
B2000
B2100
B3100
B4410
C2214
E1003
L2200
L2201
L2401
L2402
L2403
L2404
L2405
L2406
L2408
L2452
L4200
N1210
N1211
N1300
N1400
N1410
N1510
N2200
N2201
N2203
N2204
N2300
N2401
N2411
N2420
N2421
N2422
N3101
1225-4035 rev. 1
97 (122)
APPENDIX
B1400 Osc TCXO 27,456 MHz 1200-7847
Components - B1400, B2000, B2100, B3100
G705 - W705 - W715
B2100 Chrystal 32,768 kHz RTM501911/2R1A
2
1
1,3
1,7+-0,1
0,65
0,1
0,8+-0,1
SEATING PLANE
0.1
3,2+-0,1
P IN C O N N E C T IO N
#1
B2000 Vibrator 1202-9271
* VCONT
#2
GND
#3
OUTPUT
#4
VCC
1,5+-0,1
B3100 Microphone 1210-7410
Package outline
Dimension
3.76
2.95
1.10
1.18
0.50
<0.05
Tolerance (+/-)
0.10
0.10
0.10
0.10
0.10
-
Units
mm
mm
mm
mm
mm
mm
2.95
Top hole type (I)
PIN Designation
Pin #
Function
1
Power
2
Ground
3
Ground
4
Output
1225-4035 rev. 1
98 (122)
APPENDIX
Item
Length (L)
Width (W)
Height (H)
Hole height (LH)
Acoustic Port Diameter (φA)
Co-planarity (Cp)
Pad design
APPENDIX
Components - B4410, C2214, L2200, L2401-05, L2406, L2408
G705 - W705 - W715
L2200 ind WW 4.7 uH K3012 1200-2214
B4410 IC RYN901920/1
1.2
1.45
Gnd
Out
Vcc
(Unit:mm)
1.4
Max0.55
C2214 Capacitor Electrolytic 70.0 mF None 3.3 V 1203-3900
L2401-05, L2408 Inductor 0.0 H +/-25% REG70618/20
Dimension
Equivalent Circuit
0.5±0.05
0.25±0.1
1.0±0.05
(Resistance element becomes dominant
at high frequencies.)
0.5±0.05
(in mm)
L2406 Ind Chip 0, H 1200-6898
APPENDIX
1225-4035 rev. 1
99 (122)
APPENDIX
L2452 220ohm 0603 2A 0.05ohm Bead REG70605/24
Components - L2452, L4200, N1210, N1211
N1210 IC Lin WLP-16 1203-5870
1.6 +/- 0.15
0.4 +/- 0.2
Pin Configuration
(mm)
T ypical Operating Circuit
TOP VIEW
REFBP
A1
W
G705 - W705 - W715
AGND
A2
REFIN
PGND
A3
A4
2.2μF
T
LDO2
PA_EN
EN2
LX
B1
B2
B3
B4
VPA
0.4V TO VBATT
BATT
2.7V TO 5.5V
IN1A
PAA
IN1B
PAB
LX
1μH
PA ON/OFF
PA_EN
2.2μF
PGND
REFBP
L4200 22uH 20% 3x3x1.2mm 0.375A 0.63ohm REG7245512/22M
IN2
HP
IN1B
IN1A
C1
C2
C3
C4
LDO1
EN1
PAB
PAA
D1
D2
D3
D4
ANALOG CONTROL
REFIN
HP
AGND
LDO1 ON/OFF
EN1
LDO1
LDO2 ON/OFF
EN2
VLDO1UP
TO 200mA
LDO2
VLDO2UP
TO 200mA
FORCED BYPASS
BATT
2.7V TO 5.5V
IN2


N1211 IC Vreg PLP1820-6 1204-5903
Size (mm)
3012
L
3.0+/-0.1
W
3.0+/-0.1
H
1.2 max
e (width of electrode)
0.9+/-0.2
f (space between electrodes) 1.0+/-0.2
(BUMP IN BOTTOM)
16-Bump, 2mm × 2mm WLP
Pin Description
PIN
NAME
FUNCTION
A1
REFBP
Reference Noise Bypass. Bypass REFBP to AGND with a 0.22μF ceramic capacitor to reduce noise on the
LDO outputs. REFBP is internally pulled down through a 1k
Ω resistor during shutdown.
A2
AGND
Low-Noise Analog Ground
A3
REFIN
DAC-Controlled Input. The output of the PA step-down converter is regulated to 2 x V
reaches 0.465 x V IN2 , bypass mode is enabled.
A4
PGND
Power Ground for PA Step-Down Converter
B1
LDO2
200mA LDO Regulator 2 Output. Bypass LDO2 with a 1μF ceramic capacitor as close as possible to LDO2
and AGND. LDO2 is internally pulled down through a 1k
Ω resistor when this regulator is disabled.
B2
PA_EN
PA Step-Down Converter Enable Input. Connect to IN_ or logic-high for normal operation. Connect to GND
or logic-low for shutdown mode.
B3
EN2
B4
LX
Inductor Connection. Connect an inductor from LX to the output of the PA step-down converter.
C1
IN2
Supply Voltage Input for LDO1, LDO2, and Internal Reference. Connect IN2 to a battery or supply voltage
from 2.7V to 5.5V. Bypass IN2 with a 2.2μF ceramic capacitor as close as possible to IN2 and AGND.
Connect IN2 to the same source as IN1A and IN1B.
C2
HP
High-Power Mode Set Input. Drive HP high to invoke forced bypass mode. Bypass mode connects the
input of the PA step-down converter directly to its output through the internal bypass MOSFET. Drive HP
low to disable the forced bypass mode.
C3, C4
IN1B,
IN1A
Supply Voltage Input for PA Step-Down Converter. Connect IN1_ to a battery or supply voltage from 2.7V to
5.5V. Bypass the connection of IN1_ with a 2.2μF ceramic capacitor as close as possible to IN1_, and
PGND. IN1A and IN1B are internally connected together. Connect IN1_ to the same source as IN2.
D1
LDO1
200mA LDO Regulator 1 Output. Bypass LDO1 with a 1μF ceramic capacitor as close as possible to LDO1
and AGND. LDO1 is internally pulled down through a 1k
Ω resistor when this regulator is disabled.
D2
EN1
LDO1 Enable Input. Connect to IN2 or logic-high for normal operation. Connect to AGND or logic-low for
shutdown mode.
D3, D4
PAB, PAA
REFIN . When V REFIN
LDO2 Enable Input. Connect to IN2 or logic-high for normal operation. Connect to AGND or logic-low for
shutdown mode.
1225-4035 rev. 1 100 (122)
APPENDIX
PA Connection for Bypass Mode. Internally connected to IN1_ using the internal bypass MOSFET during
bypass mode. PA_ is connected to the internal feedback network. Bypass PA_ with a 2.2
μF ceramic
capacitor as close as possible to PA_ and PGND.
APPENDIX
N1300 Module Bluetooth + FM WFBGA100 1200-9840
G705 - W705 - W715
N1400 A-GPS 1200-0700
Top view (PCB footprint)
Bluetooth Section
B
BT_RSRV_DSM BT_RSRV_N
BT_RSRV_CL
FM_GND
FM_GND
FM_ROUT
FM_GND
FM_RFGND
FM_RSTB
C
BT_VSSANA
BT_VSSANA
BT_HVA
NC
FM_VIO
FM_GND
FM_RCLK
FM_SDIO
FM_SENB
D
BT_HVA
BT_HVA
BT_VSSANA
L7
M7
N6
BT_RFP
K1
BT_RFN
E
BT_VSSANA
BT_VSSANA
BT_REF_CLK_IN
BT_VSSANA
NC
NC
BT_CLK_REQ_IN2
BT_TEST2
BT_VSSANA
BT_VSSANA
BT_AF_PRG
BT_VSSRF
BT_TEST1
BT_VSSANA
BT_VSSANA
BT_VSSDIG
BT_VSSDIG
BT_GPIO_0
BT_VSSDIG
BT_UART_RXD
BT_SPI_DI
BT_RFN
BT_VSSRF
BT_GPIO_16 BT_REG_CTRL
BT_UART_RTS
BT_SPI_CSN
BT_CLK_
REQ_OUT1
BT_CLK_
REQ_OUT2
BT_VIO_B
BT_GPIO_11
BT_UART_CTS
BT_SPI_CLK
BT_RESETN
BT_VSSDIG
BT_LP_CLK
J
BT_RFP
BT_VSSRF
BT_GPIO_10
BT_PCM_A
In put
BT_HVD
BT_VIO_A
BT_VIO_C
BT_VIO_D
BT_VIO_E
BT_VIO_B
BT_VDD_CLD
E6
K
BT_VSSRF
BT_HVA
BT_GPIO_8
NC
NC
NC
BT_CONFIG_1
BT_VSSDIG
BT_WAKEUP
Name
BT_RSRV_RF
BT_GPIO_9
BT_PCM_CLK
BT_PCM_B
BT_VIO_A
BT_CONFIG_2
M
BT_VIO_C
BT_PCM_SYNC
BT_VIO_D
BT_CONFIG_3
1.17 V to 2.85 V I/Os supply(7)
System clock supply
1.65 V to 2.85 V
(Connect to BT_VIO_A in case of a digital
reference clock input, to BT_VSSANA in case
of an analog reference clock input.)
Pin
#
Description
Type
Reset(1)
Pin
Name
Pad
Type
BT_AF_PRG
G6
Test pin (Leave unconnected) (9)
I/O
Open
Open
Digital ground
Analog ground
RF ground
RF regulator ground
FM Radio Section
In columns “Reset” and “Default after reset”, the “PD/PU” shows the pads implementing an internal pulldown/up for the internal Bluetooth section.
The column “Reset” shows the state of the pins during hardware reset; the column “Default after reset”
shows the state of the pins after the hardware reset state is left, but before any software parameter download.
FM_GND
The column “Type” describes the pin directions:
– I for Input (All inputs have a Schmitt trigger function.)
– O for Output
– I/O for Input/Output
– O/t for tri-state output
For the output pin the default drive capability is 2 mA, except for pin K3 (BT_GPIO_11) and pin L3
(BT_GPIO_8) where it is 8 mA such that when used for Class 1, these 2 pins can be used for a switch
control in a cheaper way.
The STLC2593 Pin List (Functional and Supply)
Bluetooth Section
Name
K7
F6
Description
J8
Reset(1)
Default(2)
after reset
Global reset - active low
Reference clock input(3)
BT_LP_CLK
K9 Low power clock input
SW Initiated Low Power mode
BT_CLK_REQ_OUT_1 J7 Wake-up signal to Host (Active high or Active
low, depending on configuration pins)
BT_CLK_REQ_OUT_2
Type
Wake-up signal to Host. Active low
(SPI m ode only)
I
Input
Input
Output
depends on
config
Input PU
BT_CLK_REQ_IN_1
BT_CLK_REQ_IN_2
BT_HOST_WAKEUP/
BT_SPI_INT
E7
F9
Clock request input (Active high)
Clock request input (Active low)
Input PD
Input PU
E8
Wake-up signal to Host or SPI interrupt
Input PD
Output
BT_WAKEUP
L9
Wake-up signal to Bluetooth (Active high)
Input (5)
Input
UART Interface
BT_UART_RXD/
BT_SPI_DI
H9
BT_UART_TXD/
BT_SPI_DO
G7
BT_UART_CTS/
BT_SPI_CLK
K6
BT_UART_RTS/
BT_SPI_CSN
J6
PCM Interface
FM_VA
A4
FM_VD
B3
FM_GPIO1
FM_GPIO2
FM_GPIO3
FM_FMIP
FM_ROUT
FM_LOUT
A7
A6
A5
B8
C5
B5
FM_RFGND
C8
F M _R S T B
FM_VIO
FM_RCLK
FM_SDIO
FM_SENB
FM_SCLK
C9
D6
D7
D8
D9
E9
FM ground (connect to ground plane on PCB)
Analog supply voltage (may be connected
directly to battery)
Digital supply voltage (may be connected
directly to battery)
General purpose FM input/output
FM RF input
FM right audio output
FM left audio output
FM RF ground (connect to ground plane on
PCB)
FM reset (Active low) input
FM I/O supply voltage
FM External reference oscillator input
FM Serial data input / output
FM Serial enable input (active low)
F M S e r i a l c l o c k in p u t
I/O
I
I
I/O
I
I
Input/Output
Input low
Input
Input/Output
Input
Input
Input/Output
I/O(4)
I/O
Input PD
I/O(4)
Input PU
Input PD
Input PD
O u tput high
Input PD
Input PU
I nput P D
O utput lo w
Input PU
BT_RSRV_CL
BT_RSRV_D
BT_RSRV_DSM
BT_RSRV_N
BT_RSRV_RF
BT_REG_CTRL
NC
Input
Input/Output
Input
I n pu t
B2
C3
M8
Test pin (Leave unconnected) (9)
C1
C2
M2
J4 Regulator control pin(10)
D4
F7
F8
Any use(11)
L4
I/O
Input PD
Output high
L5
L6
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
Operational
Mode
RX_HOLD
nINTR
RTCCLK
POWERON
VDD_COREREG_IN
Decouple VCO Mixer
EXT_LNA
A1 HIF3
UART_RXD /
UART_RXD /
I 2 C_GROUP1 /
SPI_nSCS
I/O
A2 HIF4
UART_nRTS /
UART_nRTS /
I 2 C_A0 /
SPI_SI
I/O
O/P
State
Pad Functional Description
D6
E6
F6
G6
A5
B5
C5
D5
E5
F5
G5
A4
B4
C4
D4
E4
F4
G4
A3
B3
C3
D3
E3
F3
G3
A2
B2
C2
D2
E2
F2
G2
A1
B1
C1
D1
E1
F1
G1
0.3
mm
0.25
mm
0.5 mm
C3 HIF0
-/
-/
I 2C_SCL /
-
I/O
C4 HIF1
-/
-/
I 2C_SDA /
-
I/O
I
I
I 2C I
I
-
-
-
Host Interface
OMS[2:0]=[1,1,1]: not used (tie to “0”)
OMS[2:0]=[1,0,1]: I 2 C clock
I
I
I 2 C I/O
I
OD
-
Z
-
Z
-
Host Interface
OMS[2:0]=[1,0,1]: I 2 C data
I
(I)
I
I
-
-
-
Host Interface
OMS[2:0]=[1,1,1]: UART Interface: Data Input
OMS[2:0]=[1,1,0]: UART Interface: Data Input (Ignored)
OMS[2:0]=[1,0,1]: Selection of I 2 C group address
OMS[2:0]=[1,0,0]: SPI chip select
C5 TDO
I/O
O
-
Z
Serial Data Output (JTAG, IEEE 1149.1)
O
Z
I
I
-
0
Z
-
0
Z
-
Host Interface
OMS[2:0]=[1,1,1]: UART Interface: hardware flow control
(Tristated)
OMS[2:0]=[1,0,1]: Selection of I 2 C group address bit 0
OMS[2:0]=[1,0,0]: SPI serial data input
C6 TCK
I/O
I
PD “C” 0
0
Clock (JTAG, IEEE 1149.1)
C7 nTRST
I/O
I
PD “A” 0
0
Reset Input (JTAG, IEEE 1149.1)
D1 VDD_COREREG_IN
PI
-
-
-
-
Digital core voltage regulator supply
D2 VSS_DIG
GND -
-
-
-
0.4 mm
Z
A3 CNTIN
I
I
-
-
-
Digital high accuracy frequency reference
D3 OMS1
I/O
I
-
-
-
Operational mode select / Bus interface select
A4 CLK
I/AI
I
-
-
-
Clock signal input. Selectable as digital or analog input
D4 SYNC
I
I
-
-
-
Digital reference time pulse
A5 VDD_PLL
PI/
PO
-
-
-
-
Digital PLL supply Decoupling
D5 VSS_DIG
GND -
-
-
-
PU “C” 1
1
PI
-
-
-
-
PLL voltage and Low Power core regulator input
D6 TMS
I/O
A6 VDD_LP_PLLREG_I
N
D7 VSS_DIG
GND -
-
-
-
A7 VDD_IO
PI
-
-
-
-
E1 RTCCLK
I/O
I
Hyst
-
-
32.768kHz clock signal input
B1 VSS_DIG
GND -
-
-
-
E2 POWERON
I/O
I
-
0
0
Power On signal to chip
B2 HIF2
UART_TXD /
UART_TXD /
I 2 C_GROUP0 /
SPI_SCK
I/O
E3 OMS0
I/O
I
-
-
-
Operational mode select / Bus interface select
E4 VSS_LNA
GND -
-
-
-
E5 VSS_RF
GND -
-
-
-
E6 MIX_IN_PLUS
AI
-
-
-
B3 HIF5
UART_nCTS /
UART_nCTS /
-/
SPI_SO
I/O
E7 VDD_CAP
PI/O PI/O
-
(Z) (Z)
RF Digital Supply Decoupling
F1 nINTR
I/O
O
OD
Z
Z
Interrupt request signal to host
F2 RX_HOLD
I/O
I
-
-
-
RX_HOLD signal (From host to indicate that the host is
transmitting)
B4 VDD_LPREG_OUT
Low Power core regulator output
F3 nRESET
I/O
I
Hyst
0
1
Chip reset signal
Serial Data Input (JTAG, IEEE 1149.1)
F4 VDD_RFREG_IN
PI
-
-
-
-
RF voltage regulator input
-
Low Power supply
F5 EXT_LNA_CTRL0
AI/O O
-
-
-
External LNA control
-
Differential mixer input
O
Z
I
I
-
0
Z
-
0
Z
-
Host Interface
OMS[2:0]=[1,1,1]: UART Interface: Data Output
OMS[2:0]=[1,1,0]: UART Interface: Data Output (Tristated)
OMS[2:0]=[1,0,1]: Selection of I 2 C group address
OMS[2:0]=[1,0,0]: SPI clock
I
AI
State Machine Control Signal (JTAG, IEEE 1149.1)
Differential mixer input
I
(I)
I
O/Z
-
Z
PO
-
-
-
-
B5 TDI
I/O
I
PU “C” 1
1
B6 VDD_LP
PI
-
-
B7 VDD_CORE
PI
-
-
-
-
Digital core supply
F6 MIX_IN_MINUS
AI
-
-
C1 VDD_COREREG_O
UT
PO
-
-
-
-
Digital core voltage regulator output
F7 VDD_VCO
PI/O PI/O
-
(Z) (Z)
Buffer capacito r for VCO supply
G1 VDD_CORE
PI
-
-
-
-
Digital core supply
C2 VDD_IO
PI
G2 OMS2
I/O
I
-
-
-
Operational mode select
G3 VDD_CORE
PI
-
-
-
-
Digital core supply
G4 VSS_RF
GND -
-
-
-
G5 VDD_RF
PI/0
-
-
-
-
G6 VSS
AI
AI
-
-
-
G7 N.C.
AO
AO
-
-
-
-
-
-
-
Z
Digital I/O supply
-
Host Interface
(Ignored)
OMS[2:0]=[1,0,0]: SPI serial data output
Digital I/O supply
Input high
Other Pins
Input PD/PU,
depends on
config
I/O depends
on config
Input PD
Input PU
UART receive data
SPI data in
UART transmit data
SPI data out
UART clear to send
SPI c lock
UART request to send
SPI chip select
A3
B4
B6
B7
C4
C6
C7
D5
C6
P a d T y pe
D e s c r i p ti o n
C o m m e n ts
GND
Chip Ground
All signals are referred to this
PI
Power In
Supply to a voltage domain
PO
Power Out
Regulator Output
P I/O
Power Out
Supply to a voltage domain and regulator Output
I /O
Digital Signal
Pad
All Digital Pads are I /O Pads which are configured internally as required.
- All are configured as Push-Pull e xcept those marked as OD (open drain)
- All have hysteresis by default, but is onl y mentioned when it is required for correct
system operation.
AI
Analog Input
AO
Analog Output
AI/O
Analog Input/
Output
PU
Internal Pull Up
PD
Internal Pull
Down
AI
RF Analog Supply Decoupling
This ball should be left unconnected
APPENDIX
Clock and Reset Pins
BT_RESETN
BT_REF_CLK_IN
Pin
#
VDD_RF
Pad
Usage
Default(2)
after reset
Input (8)
Pin Description and Assignment
The table shows the pin list of the STLC2593.
B6
VDD_LP
Pin
No.
Input (8)
BT_VSSRF
A6
3.7 mm
I/O
BT_VSSANA
VDD_RFREG_IN
VDD_LPREG_OUT
JTAG Interface
Test pin
BT_HVD
N
VDD_IO
(SG-UFWLB-49 )
VDD_LP_PLLREG_IN
1.65 V to 2.85 V I/Os supply(7)
BT_TEST1
BT_TEST2
BT_VSSDIG
G7
Hammerhead II
VDD_PLL
Power supply (Connect to 2.75 V)
H6
H7
H8
K8
L8
D1
D2
E3
F1
F2
F3
F4
G1
G3
G4
H3
H4
H1
L1
J2
K2
H2
G2
BT_RSRV_D
HIF0
HIF2
nRESET
CLK
Bluetooth Section
L
HIF1
HIF5
HIF3
HIF4
I/O
OMS0
F7
VDD_CORE
VDD_IO
L2
D3
E1
E2
E4
N7
M6
N3
N5
G8
J9
G
H
Input
OMS1
CNTIN
Power Supply
BT_HVA
BT_VIO_E
Input PD
SYNC
E7
0.275
mm
BT_VSSANA
I
Input PD
J1
F
BT_UART_TXD
BT_SPI_DO
I/O(4)
Input PD(6)
D7
0.5 mm
BT_VSSANA
Conf igurati on signal
Differential RF port
BT_CLK_ BT_HOST_WAKEUP FM_SCLK
REQ_IN1
BT_SPI_INT
BT_VDD_CLD
BT_HVA
Configuration Pins
BT_CONFIG_1
BT_ CON FIG_ 2
BT_CONFIG_3
RF Signals
Input PD(6)
Input PD(6)
C7
3.55 mm
General Purpose Input/Output Pins
BT_GPIO_0
G9 General purpose I/O
FM_FMIP
Input
OMS2
RF Supply
FM_GND
FM_GND
L3
Input
Input PD(6)
VDD_CORE
EXT_LNA_CTRL
FM_LOUT
BT_GPIO_8
JTAG_NTRST (Active low) or Alternate
function
JTAG_TCK or GPIO
PU(6)
MIX_IN_MINUS
FM_GND
JTAG_TMS or GPIO
J3
Input PD(6)
PU(6)
MIX_IN_PLUS
FM_VD
K4
BT_GPIO_16
Input PU(6)
Input PD(6)
VDD_VCO
BT_RSRV_CL
BT_GPIO_10
Input PU(6)
VDD_CAP
FM_GPIO1
I/O(4)
VDD_COREREG_OUT
FM_GPIO2
JTAG_TDO or GPIO
B7
Reset
FM_GPIO3
JTAG_TDI or GPIO
K3
A7
Standby
FM_VA
A
M3
BT_GPIO_11
VDD_CORE
FM_GND
9
nTRST
8
TCK
7
System
Integration
Direction
6
Input PD
Core
Supply
Additional
5
Input PD
Multiplexed
Serial Interface
TMS
4
I/O(4)
Default(2)
after reset
TDO
3
PCM frame signal
PCM clock signal
PCM data
PCM data
Reset(1)
TDI
2
BT_PCM_SYNC
BT_PCM_CLK
BT_PCM_A
BT_PCM_B
JTAG Interface
BT_GPIO_9
Type
Clock &
Synchronization
1
N4
M4
K5
M5
Description
LP and PLL Supply
Pinout Top View
Pin
#
0.275
mm
Name
Bidirectional analog pad.
Pin behaviour during HW reset (BT_RESETN low).
Pin behaviour immediately after HW reset and internal chip initialization, but before SW parameter download.
See also pin BT_VDD_CLD.
Reconfigurable I/O pin.The functionality of these I/Os can be configured through software parameter download
Should be strapped to BT_VSSDIG if not used.
JTAG mode.
Described in section 4.3.
To be strapped to BT_VSSANA.
Pin is ST - reserved for test function and it must be soldered to an isolated pad (not connected to anything, just floating).
Described in section 5.8.
Pin is not connected internally in the package; any connection can be done on board, in order to ease the board layout.
1225-4035 rev. 1 101 (122)
APPENDIX
Top view
Bottom view
0.4
+0.1
1.3 ±0.05
0.05 MAX.
CE
CE
VDD
4
3
3
4
5
6
BOTTOM VIEW
TOP VIEW
7
3
3
Pin 1 marking
Pin Definition and Function
Pin No.
Symbol
Function
1
AI
LNA Input
2
BIAS
DC Bias
3
GND
RF Ground
4
PON
Power On Control
5
VCC
Supply Control
6
AO
LNA Output
7
VSS
DC Ground
2 ±0.05
7
6 x 0.2 ±0.035 1)
1.7 ±0.05
1.2 ±0.035 1)
1.1 ±0.035 1)
5
4
2
VDD
1 ±0.05
4
1
G705 - W705 - W715
N2201 IC Vreg PLP1010-4 1201-6465
N1410 IC Amp P-TSLP-1-1 1200-2407
6
Components - N1410, N1510, N2200, N2201, N2203, N2204
2
1
VOUT
2
1
GND
GND
VOUT
2
1
1)
±0.035
6 x 0.2
Pin No.
Symbol
Description
1
V OUT
Output Pi n
2
G ND
G round Pi n
3
CE
Ch ip Enable P in (“H” Active)
4
V DD
Input P in
T ab is GND le vel. ( T hey are c onnec ted to the r evers e s ide of this IC.)
N2203 IC Vreg RYT113997/4
N1510 Mod Radio WLAN R041 1200-6173
Pin configuration
Pin assignment:
15
Vcc PA
16
ANT
17
14
13
12
11
10
19
Top View
18
1
2
3
4
5
6
BT
Vc1
Vc2
Vc3
PD
9
Vref PA
8
RXa
7
RXb
1 - GND
2 - Bluetooth
3 - Vc1 (switch control)
6 - Power detector output
7 - RXb (balanced)
8 - RXa (balanced)
9 - Vref PA
10 - GND
11 - TX
12 - GND
13 - GND
14 - GND
15 - GND
16 - Vcc PA
17 - ANT
18 - GND
19 - GND (center ground pad)
N2200 IC Vreg SC70 1200-6420
APPENDIX
Pin Configurations
TOP VIEW
+
LX 1
6
IN
N2204 IC RYT1137816/4
(TOP VIEW)
GND 2
5
GND
C3
IN
OUT 3
SC70
2.0mm x 2.1mm
4
SHDN
GND
NR
C1
OUT
B2
A3
A1
EN
1225-4035 rev. 1 102 (122)
APPENDIX
N2300 ASIC PM WLAN PMU 1203-2790
G705 - W705 - W715
N2411 ASIC Accelerometer 1202-1676
Pin connection
Z
X
1
1
13
Y
9
(TOP VIEW)
DIRECTION OF THE
DETECTABLE
ACCELERATIONS
5
(BOTTOM VIEW)
Pin description
N2401 Trans N-ch FET RYN901936/1
P in#
Na me
F u n c ti o n
1
Vdd_IO
2
NC
Not Connected
3
NC
Not Connected
4
SCL
SPC
I 2 C Serial Clock (SCL)
SPI Serial Port Clock (SPC)
5
GND
0V supply
6
SDA
SDI
SDO
I 2 C Serial Data (SDA)
SPI Serial Data Input (SDI)
3-wire Interface Serial Data Output (SDO)
7
SDO
SPI Serial Data Output
I 2 C less significant bit of the device address
8
CS
9
INT 2
10
Reserved
11
INT 1
Inertial interrupt 1
12
GND
0V supply
13
GND
0V supply
14
Vdd
Power supply
15
Reserved
Connect to Vdd
16
GND
Power supply for I/O pins
SPI enable
I 2 C/SPI mode selection (1: I
2
C mode; 0: SPI enabled)
Inertial interrupt 2
Connect to Gnd
APPENDIX
0V supply
1225-4035 rev. 1 103 (122)
APPENDIX
N2420 IC IF 3.5x3.5x0.8 1200-1694
Components - N2420, N2421, N2422, N3101
G705 - W705 - W715
N2421 IC ESD Prot UDFN 6 2x2 mm 1200-6309
Pin Diagram
PIN FUNCTION DESCRIPTION
PIN CONNECTIONS
ball A1 index area
Pin No.
Name
Type
1
EN
INPUT
Description
Enable Pin. The device enters in shutdown mode when this pin is tied to a high level. In this case the
output is disconnected from the input. To allow normal functionality, the EN pin shall be connected to
GND to a pull down or to a I/O pin. This pin does not have an impact on the fault detection.
A
EN 1
2
GND
POWER
Ground
B
GND 2
5 OUT
3
IN
POWER
Input Voltage Pin. This pin is connected to the VBUS. A 1 F low ESR ceramic capacitor, or larger,
must be connected between this pin and GND.
C
IN 3
4 OUT
4, 5
OUT
OUTPUT
Output Voltage Pin. The output is disconnected from the VBUS power supply when the input voltage is
above OVLO threshold or below UVLO threshold. A 1 F capacitor must be connected to these pins.
The two OUT pins must be hardwired to common supply.
6
FLAG
OUTPUT
Fault Indication Pin. This pin allows an external system to detect a fault on VBUS pin. The FLAG pin
goes low when input voltage exceeds OVLO threshold. Since the FLAG pin is open drain functionality,
an external pull up resistor to VCC must be added.
6 FLAG
D
E
F
1
2
3
4
5
6
N2422 ASIC BB Elina 1201-4120
ISP1508 TFBGA36 pinout (top view)
Pin-out, top view; bumps down.
Pin Description
Symbol 1
Ball No
Type 2
Description
RREF
C2
AI/O
Resistor reference. Connect through 12k: r1% to GND.
DM
C1
AI/O
Connect to D- pin of the USB connector
x USB mode: D- input/output
x UART mode: TXD output
DP
D1
AI/O
Connect to D+ pin of the USB connector
x USB mode: D+ input/output
x UART mode: RXD input
FAULT
E2
I
Input for Vbus digital over-current or fault detector signal.
If this pin is not in use, connect it to GND
Plain input, 5V tolerant
ID
D3
I
identification (ID) pin of the mini-USB cable.
If this pin is not in use, leave this pin open(there’s internal pull-up).
Plain input, TTL
VBUS
F4
AI/O
Connect to VBUS pin of the USB connector.
VCC
F3
P
Input supply voltage or battery source. Nominally 3.0V to 4.5V.
Note: Below 3.0V, USB FS and LS transactions are not guaranteed to
work though some devices may work with ISP1508 at these voltages.
PSW_N
D4
OD
Controls an external, active low VBUS power switch or charge pump.
An external pull up resistor is required.
Open drain,output, 5V tolerant.
REG3V3
F5
XTAL2
F6
CHIP_SEL
C3
P
AI/O
AI/O
I
3.3V regulator output for USB mode or 2.7V regulator output for UART
mode; requiring parallel 0.1 uF and 4.7 uF capacitors. Internally
powers ATX and other analog circuits. Should not be used to power
external circuits.
Crystal/clock input. 1.8V peak input allowed. Frequency depends on
status on CFG1 and CFG2 pins.
Crystal output. If crystal is not in use, leave this pin open
Active HIGH chip select input.
Pin configuration (Bump side)
5
VMIC
4
SPRi
3
2
1
SPLi
MIC
Ni
MIC
Pi
Symbol names ending with underscore N (for example, NAME_N) indicate active low signals
2
I=input; O=output; I/O = Digital Input/Output; OD = Open Drain Output; AI/O = Analog Input/Output; P = Power or
Ground pin
VAD CCO/VMIC
A
R1
MICPe
R2
Gnd
Gnd
Gnd
INT
mici
CCO
Gnd
Gnd
VAD
MICPi
R3
MICNe
INT
mice
SPLe
R7
SPLi
MICNi
R5
R4
B
GND
Gnd
C
INTmice
R6
INTmici
SPRe
R8
SPRi
SPREF
CCO/VMIC
• When this pin is none-active, ULPI pins will be in 3-state and the chip
1
Electrical diagram
SPR
e
SPL
e
MIC
Ne
MIC
Pe
SPR
EF
D
GND
1225-4035 rev. 1 104 (122)
APPENDIX
XTAL1
E3
N3101 ASIC Tjatte3 CSP20 ROP1013074/1R1A
APPENDIX
R2449, R2490 Resistor 0, Ohm +/- 50m 63 mW K0603 REP623001/0
Components - R2449, R2490, S2403, S2404, S2405-06, V2200
G705 - W705 - W715
S2404 Input Switch Side Push 1206-9606
max 0.45
1.6 +/−.2
max 0.45
0.5 +/− .1
0.8 +/−.2
S2403, S2405-06 Input Switch Side Push RMD10116/9R1A
V2200 Diode Protection 0, RKZ223911/1
APPENDIX
1225-4035 rev. 1 105 (122)
APPENDIX
V2202 Trans P-ch FET RYN122910/1
PIN
G705 - W705 - W715
V3101 Zener Diode, ESD Protection, 6.1V RKZ223922/1
S1 G1 D2
D1
MicroFET
Components - V2202, V2415-16, V2417, V2470, V3101, V4203,
X1000, X1002-03, X1005
D1
D2
G2
S1
1
6
D1
G1
2
5
G2
D2
3
4
S2
S2
V2415-16 Diode Protection 5, V SOD-923 1201-8440
V4203 Trans NPN 1211-3641
MARKING DIAGRAM
DM
D = Specific Device Code
M = Date Code
SOD-923
CASE 514AB
V2417 Diode Protection 12, V SOD523 1200-5130
Pin
Description
1
cathode
2
anode
Simplified outline
Symbol
[1]
1
2
1
2
sym035
Top view
[1]
X1000, X1002-03, X1005 Conn Leaf Spring 1201-4841
The marking bar indicates the cathode.
V2470 Diode 0, RKZ323916/1
APPENDIX
1225-4035 rev. 1 106 (122)
APPENDIX
X1001, X1004 Con Leaf Spring 1p 1202-1053
Components - X1001. X1004, X1200, X1500, X2201, X2401
G705 - W705 - W715
X2401 Conn BtB Receptacle 16p 1214-7370
X1200, X1500 Conn Coax Plug 6p RF-probe contact 1203-9688
X2201 Conn Pogopin 5p 1206-2937
APPENDIX
1225-4035 rev. 1 107 (122)
APPENDIX
X2402 Conn BtB 1200-9864
Components - X2402, X2403, X2405, X3102
G705 - W705 - W715
X2405 System Connector 1205-9723
X2403 Card Conn RNK87147/2
X3102 Conn WtB Receptacle 2p 1206-4855
APPENDIX
1225-4035 rev. 1 108 (122)
APPENDIX
X4200 Conn BtB Receptacle 70p 1206-2940
Components - X4200, X4300, Z2400, Z4200-02
G705 - W705 - W715
Z2400 Filter 100, MHz K1210 1201-6833
1.25±0.07
0.3±0.1
4
0.55±0.1
1.0±0.07
0.25+0.1 / -0.05
1
2
Equivalent circuit
0.6±0.07
3
1
4
2
3
Dimensions in mm
Z4200-02 Filter 400.0 MHz KNA16400 - W5 1608 REV50146/1
Equivalent circuit
IN
IN
1
IN
2
IN
3
4
X4300 Conn camera Socket 0p 1206-5418
GND
GND
5
OUT
9
6
OUT
7
OUT
8
OUT
Size, Dimensions
10
(Unit;mm)
Dimmentions
1.60 +/- 0.08
0.80 +/- 0.08
0.50 +/- 0.10
0.40
0.20 +/- 0.075
0.20 +/- 0.075
0.01< ,(0.10 type)
0.01< ,(0.10 type)
0.40 type
0.40 type
0.23 +/-0.075
0.23 +/-0.075
Plating(Sn)
Plating(Ni)
ceramics (titanium oxcid)
External electrode(Ag)
1225-4035 rev. 1 109 (122)
APPENDIX
Symbol
L
W
T
P
S
G
R
U
V
X
Y
Z
APPENDIX
Keypad Flex Module
Keypad Flex Module - Navigation Keypad PBA
G705 - W705 - W715
Navigation Keypad PBA
APPENDIX
1225-4035 rev. 1
110 (122)
APPENDIX
Upper Board Schematics - LCD Assembly
G705 - W705 - W715
Upper Board Schematics
Key Layout
A12
VBOOST
B12
VDIG
B3
NC
NC
40pin connector
S7001
2
2
33pF
VDDE18
S7003
L7048
1
A2
CLR
L7049
1
1200-8238
1200-8238
KEYOUT1
B5
B10
A4
R7034
LCD_RESn
B12
0ohms
A5
<NM>
S7004
LCD_D0
KEYOUT2
LCD_D4
A10
LCD_D5
A11
LCD_D6
B11
A17
LCD_D7
B10
A18
LCD_WR
B9
A12
LCD_VSYNC
B6
B13
LCD_CS
B8
A14
LCD_RS
A3
A15
LCD_RD
B4
A13
2
A6
L7052
B5
1200-8238
2
Z3
Red
On/Off
Rock
Up
L7051
1
1200-8238
V7011
1
1200-8238
1200-7533
S7007
2
1
Rock
Left
S7008
1
V7012
ONSWAn
B7
Z4
1200-7533
S7009
1
2
Rock
Push
S7010
1
2
Rock
Right
V7013
V7014
V7015
1200-7533
1200-7533
1200-7533
S7011
1
2
Soft(R)
1
KEYOUT4
B2
KEYIN0
A1
A6
B1
A19
KEYIN1
A5
KEYIN2
A4
KEYIN3
NM
A3
KEYIN4
A2
GND
Z1
33pF
NM
C7025
0.1uF
NM
C7023
C7024
0.1uF
C7022
0.1uF
L7053
Menu
S7002
Z2
B20
C7021
Rock
Down
1200-8238
A7
Z1
B19
0.1uF
2
1
GND
A20
C7020
S7006
2
B7
0.1uF
S7005
L7050
KEYOUT3
B3
A1
33pF
B17
B18
Soft(L)
C7029
A9
33pF
A8
LCD_D3
C7028
LCD_D2
B16
33pF
B15
2
B4
C7031
LCD_D1
A7
33pF
B14
A16
Green
C7026
B11
CLR
33pF
B1
B2
A11
Red
PWR
Rock
Right
Rock
Down
Menu
1
Soft
(Right)
Rock
Push
Rock
Left
C7027
X7101
LED_LCD
A9
Green
LCD 24pin connector
1
C7030
X7100
Rock
Up
Soft
(Left)
40pin connector
Z2
KEYIN5
B6
Z3
SP7006
SP7005
SP7004
SP7003
SP7002
SP7001
SP7000
Z4
GND
LCD Assembly
VBAT
V7005
A
C
1203-0715
C
1203-0715
A
V7004
V7003
1203-0715
A
C
V7002
1203-0715
A
C
V7001
1203-0715
A
C
A
C
1203-0715
SMLP12WBC7W1
V7000
A10
LED_NAVI
V7007
1211-6845
A
C
V7006
1211-6845
APPENDIX
SML-P12DTT86
GND
C
A
GDZT2R3.9
1201-8626
V7016
2
A
NM
1
C
B9
LED_walkman
B8
V7010
KB_CHLED
A
C
1206-3930
GDZT2R3.9
1201-8626
V7017
2
A
NM
1
C
A8
1225-4035 rev. 1
111 (122)
APPENDIX
SIM Flex Module
SIM Flex Module - Slider Flex Module
G705 - W705 - W715
Slider Flex Module
APPENDIX
1225-4035 rev. 1
112 (122)
APPENDIX
Troubleshooting Software Documentation
G705 - W705 - W715
Base Band Controls
Introduction
Note: Some parts of Base Band Control functions may not be implemented since they are not
supported by the ITP SW.
Using this software you can control most parts and functions of all Sony Ericsson mobile phones. It is a
GUI (Graphical User Interface) for the commands implemented in the ITP (Integrated Test Program).
The software communicates with the phone through standard serial communication over a USB/RS232
interface (SEPI).
Note: The Troubleshooting Software application is to be used with the Troubleshooting Manual and the
Troubleshooting fixture kit.
The functions in the Troubleshooting Software application are divided into three main sections:
Communication Settings, Radio Control and Base Band Controls. These main sections are
presented under six different tabs.
Note: There are some differences in the user interface depending on the phone project file loaded.
Some functions may not be available for all products.
The functions for Base Band Control are presented under the following four different tabs:
Audio and FM Radio
Used for setting Audio Loop mode and test the functionality of the FM Radio.
Logic
Used to:
-
Read out of the ADC channels
All settings and functions are collected under these six main tabs.
-
Control or Test of SIM and Memory Stick Card
Communication Settings
-
Perform of Battery and Current Calibration
All settings for the communication between the Troubleshooting Software application and the phone
are presented under the Communication Settings Tab.
-
Check Radio and Display temperature
-
Etc.
Radio Controls
Note: Some parts of Radio Control functions may not be implemented since they are not supported by
the ITP SW.
Some functions may not be available on all products.
All Radio Control Functions implemented in the Troubleshooting Software are presented under the Tx
and Rx tab. The main radio functions of the mobile phone presented in this tab are:
x
GSM radio part
x
WCDMA radio part
x
Bluetooth radio part
In the GSM and the WCDMA radio control part the following radio functions can be controlled:
Transmitter (TX) and Receiver (RX)
In the Bluetooth radio control part only the Transmitter (TX) function is supported.
GPIO Manager
Used to control GPIO ports at the Access and Application CPU.
Note: It is very important to follow the GPIO activation sequence according to the Troubleshooting
Guide instructions when the GPIO manager is used to avoid Hardware or SW function interruption.
MMI
Used for:
Main and VGA Camera Tests
-
Camera Door Test
-
Keyboard Scan Test
-
Vibrator Test
-
LED and Backlight Tests
-
Xenon Flash Test
-
Display Test
-
Etc.
APPENDIX
-
General
Used to:
-
Read out Software and Product Data Information flashed into the phone
-
Perform ASIC Revision test
-
Perform available Self tests
1225-4035 rev. 1
113 (122)
APPENDIX
Equipment Setup
G705 - W705 - W715
Power Supply Channel 2 DCIO/SEPI Cable Connection Setup
Note: The Power Supply Channel 1 (VBATT) must allow reverse current.
Note: During calibration the accurate voltage from VBATT must be within ±0.015 V. If this is not
fulfilled it will cause a faulty calibration. For more information about recommended power supply units,
see the Repair Tool Catalogue in CSPN under the Mechanical level. The Power Supply Channel 1 VBATT
must allow reverse current.
Note: The maximal cable length between the Power Supply Channel 1 VBATT and the dummy battery
must not exceed 1m. The cable must have a capacity for at least 16A.
Picture 4
Note: Before starting calibration test, the phone must be flashed with ITP Software.
Instructions for Customization of Power Supply Channel 2 DCIO/SEPI Cable
To perform Current Calibration the phone must be powered directly through the system connector.
Customize the cable according to following instructions: Take the CST-75 battery charger and cut off
the charger according to picture 1. Length of the cable must be exact 1.3m. Connect the CST-75
charger Red or White cable to the Positive (+) Output at Power Supply and the Black cable to the
Negative (GND) Output at the Power Supply according to picture 2. Cut off isolation material from
inside of the charger plug according to picture 3.
Picture 1
Correct DCIO and SEPI A1 Cable setup when the Troubleshooting Fixture is used.
Picture 5
Picture 2
Correct DCIO and SEPI A1 Cable setup when a Dummy Battery is used.
Picture 6
APPENDIX
Picture 3
This setup between DCIO and SEPI A1 Cable is WRONG!
Note: Voltage and Current settings for the Power Supply Channel 1 VBATT and 2 DCIO/SEPI can be
found in the Equipment List included in the Product Specific Troubleshooting Manual.
Note: Instructions about the Troubleshooting fixture connections with the External RF connector,
Display, SIM Card, Memory Stick Card, Keyboard etc. can be found in Troubleshooting Fixture
Connection Instruction included in the Product Specific Troubleshooting Manual.
1225-4035 rev. 1
114 (122)
APPENDIX
System Requirements
Note: Before start using the Troubleshooting Software, the phone must be flashed with ITP SW.
The system requirements for running the application are:
G705 - W705 - W715
GSM Radio Settings
Used for Channel and Power Level control of the selected GSM Band. The TX and RX frequency value
for selected band and channel will be presented in the TX and RX frequency box.
- At least a Pentium III 500 MHz, with 128 MB of RAM
1. Select the desired GSM band. Available options are GSM 850 (Ch 128…251), GSM 900 (Ch
1...124), EGSM 900 (Ch 975…1023), DCS 1800 (Ch 512…885) and PCS 1900 (Ch 512…810).
- Win2000 or Win XP
2. Use default value or select desired channel.
- One free USB connector
- USB Computer Cable
3. Use default value or select desired power level.
Note: Any GSM band not used by the Mobile Phone will be unavailable in the GSM Radio Settings.
- At least 1024x768 display resolution. (1152x864 is recommended.)
- SEPI Drivers must be installed
- SEPI BOX
- SEPI A1 Cable
- Phone Specific Dummy Battery
- Phone Specific TRS Fixture
- CST-75 Charger cable
- One Dual or Two Single Channel Power Supplies
GSM RSSI measurements
This measurement is only possible to perform when RX Switched mode is selected. Use the Mobile
Phone Tester instrument for feeding a signal to the mobile phone’s receiver. For Instrument and
Phone’s settings go to Troubleshooting Manual – GSM Network problems.
1.
Select RX Switched Mode.
2.
Select desired GSM band and Channel.
3.
Go to GSM RSSI Measurements and Start RSSI Test.
Note: The RSSI Test can be performed differently from product to product due to the limited ITP
Software support.
TX and RX - Tab
Communication Functions
Note: Some parts of the Communications functions may not be implemented since they are not
supported by ITP Software.
WCDMA
Note: Unused WCDMA Bands will not be available in the WCDMA Radio Settings.
Note: For some products the TX and RX WCDMA Channels range can be reduced due to the limited
product functionality or Test Instrument limitation. This is done to avoid wrong and incorrect
measurement results.
Radio Settings
GSM Mode Settings
Used for TX and RX Channels control of the selected WCDMA Band. The TX and RX Channels frequency
for selected band will be presented in the TX and RX frequency box.
Used for selecting of the GSM radio mode. The following Radio Modes are available:
-
TX and RX Switched
-
TX and RX Static
Note: In the TX Switched mode all parameters are available (Band, Channel and Power Level). In the
TX Static mode the control of Power Level is hidden and the transmitter works with a predefined DAC
value. This is done to protect the power amplifier against overheating.
1. Select the desired WCDMA band. Available options are Band I (TX Ch 9612…9888, RX Ch
10562…10838), BAND II (TX Ch 9262…9538, RX Ch 9662…9938), BAND IV (TX Ch 1312…1513, RX
Ch 1537…1738),
BAND V (TX Ch 4132…4233, RX Ch 4357…4458) and BAND VIII (TX Ch
2712…2863, RX Ch 2937…3088)
2. Use default value or select desired TX or RX channel.
1225-4035 rev. 1
115 (122)
APPENDIX
GSM
APPENDIX
G705 - W705 - W715
Fast select channels
VCXO Control
Set High Channel: The High Channel for selected WCDMA Band will be set by the Troubleshooting SW.
Used to fine tune the VCXO to MCLK frequency by calibrating the DAC that sets the VCXO control
voltage. It is also used to verify the VCXO tuning range. When transmission is in Switched TX mode
you are allowed to calibrate the VCXO oscillator controlling the DAC value on the AFC pin.
Set Mid Channel: The Mid Channel for selected WCDMA Band will be set by the Troubleshooting SW.
Set Low Channel: The Low Channel for selected WCDMA Band will be set by the Troubleshooting SW.
1.
Switch the GSM tester to GSM900, Ch1.
2.
Read the stored VCXO value from the GDFS by clicking the "Read from GD" button.
Modes
3.
Start transmitting by clicking the "TX Switched" mode button.
Max Pwr 23dBm set the Phone to transmit with maximum power at the selected Band and TX
Channel. The limit is 23dBm.
4.
To apply the VCXO DAC value you set, click the "Set VCXO" button.
5.
Check your GSM tester.
Min Pwr Max -50dBm set the Phone to transmit with minimum power at the selected Band and TX
Channel. The limit is -50dBm.
6.
Set the frequency error as close to 0 Hz as possible by using the up/down arrows and then click
the "Set VCXO" button again.
Read RSSI set the Phone in RX mode at the selected Band and RX Channel.
7.
The button "Mean Value" sets the value to 1024.
Out Pwr level x dBm set the Phone in TX mode at the desired power level value at the selected Band
and TX Channel (Power level range to choose is: from -50dBm to 23dBm).
8.
When the procedure is finished, click on "Save VCXO" button to store the calibrated value in
GDFS.
INP/OUT Pwr check set the Phone to transmit with maximum power and switch the receiver On at
the selected Band and TX/RX Channel
Reset output set the Phone in WCDMA Off mode.
Rx on
VCO Calibration (RX)
Uses the default values in the TP to adjust the varactor diode to a pre-determined operating point, so
that the loop voltage of the RXVCO (measured with an ADC) is within the valid range, and the optimal
value is chosen. The optimal value is defined as: The CVCO value that gives loop voltages within the
limits for both high and low channel and that has the lowest maximum loop voltage.
Read measurement read the RSSI and report the result at Phone reported power. This function can
only be used when the Receiver is On.
The optimum value is stored in GDFS.
Note: The RSSI Measurement can be performed differently from product to product due to the limited
ITP Software support.
Audio and FM Radio - Tab
Audio & Radio Functions
VCO and VCXO Functions
Note: These calibrations are only possible to perform when RX static mode is selected.
Note: These calibrations may not be possible to implement for all products due to limitations in ITP
Software.
VCO Calibration (TX)
The optimum value is stored in GDFS.
Audio Loop Test
1. Select desired Audio Loop Test
2. Click "Apply Audio Loop" to start the test.
3. To switch off the loop, select OFF from Audio Output and click "Apply Audio Loop".
Audio input:
-
APPENDIX
Uses the default values in the TP to adjust the varactor diode to a pre-determined operating point, so
that the loop voltage of the TXVCO (measured with an ADC) is within the valid range and the optimal
value is chosen. The optimal value is defined as: The CVCO value that gives loop voltages within the
limits for both high and low channel and that has the lowest maximum loop voltage.
Note: Some parts of Audio and FM Radio may not be possible to implement for all products due to
limitations in ITP Software.
Mic1 is the internal microphone.
Aux1 is the input from the system connector.
Loop mode:
-
Analogue, where the loop is set before and after the AD/DA conversions.
Digital/DSP loop, where the DSP signal processing also affects to the audio signal.
CPU/PCM loop, where the loop is set between the PCM audio signals.
Dictaphone loop.
1225-4035 rev. 1
116 (122)
APPENDIX
G705 - W705 - W715
Examples of different FM Radio Test setups in the Troubleshooting Software
Audio output:
-
Earphone is the internal Earpiece speaker of the unit.
AUX earphone connected to the system connector.
Loudspeaker is the internal loudspeaker of the unit.
OFF is used to switch off the currently used Audio Loop.
Picture 11
Picture 12
Examples of different Audio Loop Test setups in Fault Trace SW.
Picture 9
Picture 10
K850 Project FM Radio Setup
K800 Project FM Radio Setup
Logic – Tab
K800 Project Setup
K850 Project Setup
Note: Audio output and input pins can be used by disconnecting the blue SEPI connector from the
phone after the audio loop has been applied. Now the Portable Handsfree can be connected to the
System Connector. After function test operation, disconnect the PHF or external audio device from the
System Connector and connect the SEPI cable to proceed with other Audio Loop Tests.
Logic Functions
Note: Some of the Logic functions may not be possible to implement for all products due to limitations
in the ITP Software.
FM Radio
-
To activate the FM radio, click at the Set FM Radio button.
To turn off the FM radio, click at the Turn OFF FM Radio button.
Audio output
Used for selecting Audio Output from the FM Radio. Most common Audio Outputs for all projects are
AUX Stereo (Portable Handsfree, PHF) or Loudspeaker.
Frequency in MHz
Frequency range box for the FM Radio. The frequency value can be selected in two different ways:
The first one is with up/down spin buttons
-
The second one is to type it directly into the Frequency field.
Note: To perform this test only Power Supply channel 1 is needed. Make sure that the correct voltage
values are set for each test step, otherwise the test will fail.
The Battery Calibration test is similar to the Battery Calibration test performed in the factory
environment.
1.
2.
3.
4.
5.
6.
When typing directly into the Frequency field, the Frequency Span should be 100 KHz when changing
from one frequency to another. The Frequency Range used in the Troubleshooting Software is from
87.50 MHz to 108.00 MHz.
7.
8.
Click 1. Battery Calibration.
Click SET VBATT to 3.2 Volt.
Adjust Power Supply channel 1 (the dummy battery) to 3.2 V.
Click VBAT1.
Click SET VBATT to 4.1 Volt.
Adjust Power Supply channel 1 to 4.1 V and click VBAT2.
Adjust Power Supply channel 1 to 3.8 V and click SET VBATT to 3.8 Volt.
The test result (Passed or Failed) will now be displayed.
APPENDIX
-
Battery Calibration
When the measured values are within the limits the calibration will be passed otherwise the test will be
failed. The compensation factor will be calculated and stored in the GDFS.
More information about the test limits can be found in the product specific Troubleshooting Manual and
in the Read Limits Table in the Battery and Current Calibration Test document.
1225-4035 rev. 1
117 (122)
APPENDIX
Current Calibration
G705 - W705 - W715
Memory stick test checks the communication with the Memory stick card.
The test result (Passed or Failed) will be displayed in the info box.
The Current Calibration test is similar to the Current Test for the charging algorithm in the factory
environment.
Note: A Memory stick card must be inserted and a Memory card reader connected to run this test.
Note: For a correct and accurate result, perform the Battery Calibration Test before current
calibration. To perform this test you will need both channel 1 and 2 from the Power Supply.
End Calibration
1.
2.
3.
4.
5.
Click 2. Current Calibration.
Adjust channel 1 (the dummy battery) to 3.8 V.
Click button SET VBATT to 3.8 Volt.
Note the measured current for channel 2 (the customized charger with SEPI).
Type in the measured current (in mA) in the text box.
Ends the calibration and no data will be stored.
Go Idle for 2 sec
The unit will be set to IDLE mode for 2 seconds.
Reboot Phone
IPT command KILL will be send and the phone will restart.
In this example the current is measured to 114 mA.
6.
7.
8.
9.
10.
Press Enter.
The phone will switch to charging with 800mA. Note the measured current value result at Power
Supply Channel 2 DCIO/SEPI.
Type the new value in the text box.
Press Enter.
The test result (Passed or Failed) will now be displayed.
When the measured values are within the limits the calibration will be passed otherwise the test will be
failed. The compensation factor will be calculated and stored in the GDFS.
More information about the test limits can be found in the product specific Troubleshooting Manual and
in the Read Limits Table in the Battery and Current Calibration Test document.
ADC Values
1.
2.
Select the desired ADC Channel.
Click Read ADC value.
- The measured value will be presented in both hex and decimal info boxes.
- N/A means that the General Purpose port is not used by this phone or this port is not supported by
ITP.
- If a port is missing in the Troubleshooting SW that port is not supported by the ITP SW.
The value of the Radio Temperature will be displayed in the info box.
Display Temperature
The value of the Display Temperature will be displayed in the info box.
GPIO Manager Functions
Set GPIO port at Access and/or Application CPU to High or Low and Read Out status of the port.
MMI – Tab
Functions
Note: Some parts of MMI functions may not be possible to implement for all products due to
limitations in the ITP Software.
Display Pattern
Activate different test patterns on the display.
This section controls the SIM interface in the phone.
LED and Backlight
SIM VCC: Voltage for the SIM Card will be activated.
SIM RESET, SIM DATA and SIM CLOCK: Activate the Reset, Data and Clock signals for the SIM Card.
SIM Com Test: Checks the communication with the SIM Card.
Activate/Deactivate LEDs and Backlights on the phone.
The test result (Passed or Failed) will be displayed in the info box.
Note: A SIM card must be inserted and a card reader connected to run this test.
APPENDIX
SIM Card Control
Radio Temperature
Misc
Activate/Deactivate tests such as:
-
Main Camera Test
-
VGA Camera Test
1225-4035 rev. 1
118 (122)
APPENDIX
-
Camera Door Test
Fault Trace SW Error Messages
-
Vibrator Test
1.
-
Keyboard Scan Test
...timeout when reading
-
Etc.
Check the following items:
Note: When one test has been deactivated the phone will be restarted.
General – Tab
Functions
Note: Some parts of General functions may not be possible to implement for all products due to
limitations in ITP Software.
Software Information
This function is used to display the following information stored into the phone:
-
Connection between Power Supply Channel 2 (DCIO) and SEPI A1 cable (Se picture 4, 5 and 6).
-
If the SEPI BOX works properly (The Green LED at the SEPI BOX must be on).
-
If the USB cable between SEPI BOX and PC is connected properly.
-
If the phone has been flashed with the correct ITP version.
-
If VBATT and DCIO Power Supply instruments are on.
2.
...timeout when writing
...timeout when reading
Check if the correct COM Port is selected in Troubleshooting Software - Communication Settings Tab
3.
...Port has not been succesfully opened timeout
-
ITP version
-
IMEI number
- Check if COM Port is connected
-
OTP number
- Check if the correct Phone Project File is loaded
-
CID number
- Restart the Troubleshootinge Software application and try again
-
PAF status
-
Lock Status
4.
-
Etc.
Command failed due to:
Note: The OTP number must match the IMEI number otherwise the IMEI has been changed.
Note: Some of these functions may not be available for all products due to security reasons.
G705 - W705 - W715
…. Error_NotValidParameter, ERR
or
CERR: Error_CommandDoesNotExist, ERR
Product Data
This function displays production data stored in the phone, such as:
First Identification (Serial Nr.)
-
PBA Nr.
-
PBA Rev.
-
DPY Nr. (Sales Unit)
-
Etc.
Check if the correct Phone Project File is loaded
Check if the phone has been flashed with the correct ITP version.
APPENDIX
-
-
ASIC Revisions
This function displays the types and revisions of the different ASICs. To find out more information
about which components are included in this test go to the ASIC Revision Test document included
in the product specific Troubleshooting Manual.
Self Test
This function runs available self tests on the Phone.
1225-4035 rev. 1
119 (122)
APPENDIX
Troubleshooting Fixture Setup Instructions
G705 - W705 - W715
Top-part overview of the TRS Fixture,
see picture 1.
When the SIM Flex Module and SIM Card are
needed then connect SIM Flex Module directly to
the PBA according to picture 4.
Place Display Assembly into the TRS Fixture
Display Holder and secure by using the locking
screws, see pictures 7 and 8.
Open the TRS Fixture according to picture 10.
Picture 1
Picture 4
Picture 7
Picture 10
Bottom-part overview of the TRS Fixture,
see picture 2.
Connect Display, PBA Key Navi and Slide Flex
Module according to pictures 5 and 6.
Picture 2
Picture 5
Insert Memory Card if needed according
to picture 3.
Picture 3
Picture 6
Place the PBA by using the Guide Pin mounted
inside the TRS Fixture according to picture 11.
Picture 8
Picture 11
Place the TRS Fixture Display Holder into TRS
Fixture and secure by using the locking screws
according to picture 9.
Close the TRS Fixture according to picture 12.
Picture 9
Picture 12
APPENDIX
1225-4035 rev. 1 120 (122)
APPENDIX
G705 - W705 - W715
Connect the Numeric Key Flex Module directly to
the PBA when Keyboard is in use according to
picture 13.
When using the Display, Navigation Keypad,
Earphone or VGA Camera then use the TRS Fixture
Display Holder and connect the Slider Flex Module
directly to the PBA according to picture 15.
Secure the DCIO/SEPI Cable by using the locking
screw according to picture 18.
Connect the RF Cable Flexible to the A-GPS
Antenna RF Switch on the TRS Fixture according to
picture 20.
Picture 13
Picture 15
Picture 18
Picture 20
Mount the Keypad Holder on top of the Numeric
Key Flex Module and secure it by using the locking
screws according to picture 14.
Connect Power Supply Channel 1 (VBATT) Black
and Red Lab Plugs to the TRS Fixture according to
picture 16.
Connect SMK RF Probe to the X1500 RF Switch if
needed according to picture 21.
Picture 14
Picture 16
Picture 21
Connect the Customized FM Radio Cable according
to Step 1 and 2, see picture 19.
Step 1:
Connect the Black Lab Plug to the TRS Fixture GND
input.
Note! There is a difference between the G705 and
W705, W715 Numeric Key Flex Module and the
Keyboard. Make sure that the right Part is used!
Connect the Power Supply Channel 2 Cable
(DCIO/SEPI) according to picture 17.
Picture 17
Step 2:
Connect the Hands-Free (PHF) connector to the
Phone system connector (X2405).
Picture 19
Secure the SMK RF Probe with the RF Probe
locking device according to picture 22.
Picture 22
APPENDIX
1225-4035 rev. 1 121 (122)
APPENDIX
Connect SMK RF Probe to the X1200 RF Switch
according to the following steps:
Step 1:
Connect the TRS Fixture RF Holder to the TRS
Fixture according to picture 23.
The PINs marked with GND on the Bottom-part of
the TRS Fixture can be used as an MP TRS Fixture
GND or grounding for the oscilloscope probe, see
picture 26.
Picture 23
Picture 26
Step 2:
Connect SMK RF Probe to the X1200 RF Switch
according to picture 24.
The PIN mounted inside TRS Fixture can be used
as an MP TRS Fixture GND or grounding for the
oscilloscope probe see picture 27.
Picture 24
Picture 27
G705 - W705 - W715
Step 3:
Secure the SMK RF Probe with the RF Probe
locking device according to picture 25.
Picture 25
APPENDIX
1225-4035 rev. 1 122 (122)

SEMC TRS Manual Kumiko-Rika-Norika.indd

Transcription

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