SERVICE MANUAL
700/800MHz DIGITAL TRANSCEIVER
R21SB05EA1BR05-3V72I2C<1RE1e-M0v0.A0N01U>AL
NX-5900, NX-5900(B)
NX-5900 is a model that operation panel is attached.
NX-5900(B) is a model that operation panel is not attached.
The illustration is NX-5900.
COPYRIGHT © 2015 JVC KENWOOD Corporation
TABLE OF CONTENTS
1
2
3
4
5
PRECAUTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
SPECIFIC SERVICE INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
DISASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-31
ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-34
TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-76
This product complies with the RoHS directive for the European market.
This product uses Lead Free solder.
COPYRIGHT © 2015 JVC KENWOOD Corporation
B5B-7211-00
No.RA032<Rev.001>
2015/10
SPECIFICATION
GENERAL
Frequency Range
Receive
Transmit
763~776, 851~870 MHz
763~776, 793~806, 806~825, 851~870 MHz
Max. Channels per Radio
Number of Zones
1024 (Up to 4000 CH with option)
128
Max. Channels per Zone
Channel Spacing
512
Analog
Digital
12.5 / 25 kHz
6.25 / 12.5 kHz
13.6V DC ±15%
-22°F to +140°F (-30°C to +60°C)
±1.0ppm
Operating Voltage
Operating Temperature Range
Frequency Stability
Dimensions (W x H x D)
Radio w/Control Head
Radio w/Control Head
6.73 x 1.89 x 7.72 in.
(171 x 48 x 196 mm)
Weight (net)
RECEIVER
Sensitivity
3.75 lbs (1.7 kg)
NXDN 6.25kHz Digital (3%BER)
NXDN 12.5kHz Digital (3%BER)
P25 Digital (5% BER)
P25 Digital (1% BER)
Analog (12dB SINAD)
P25 Digital
0.20μV
0.25μV
0.25μV
0.40μV
0.25μV
Selectivity
63dB
Analog @ 12.5kHz
70dB
Analog @ 25kHz
78dB
Intermodulation
Spurious Rejection
Audio Distortion
Audio Output
80dB
85dB
Less than 2%
4W / 4Ω (Remote Control Head: 3W / 4Ω)
TRANSMITTER
RF Power Output
Spurious Emission
FM Hum & Noise
30W to 2W (700M), 35W to 2W (800M)
-80dB
Analog @ 12.5kHz
Analog @ 25kHz
40dB
45dB
Audio Distortion
Modulation
Less than 2%
16K0F3E, 14K0F3E, 11K0F3E, 8K10F1E, 8K10F1D,
8K10F1W, 8K30F1E, 8K30F1D, 8K30F7W, 4K00F1E,
4K00F1D, 4K00F7W, 4K00F2D
Analog measurements made per TIA 603 and specifications shown are typical.
P25 Digital measurements made per TIA 102CAAA and specifications shown are typical.
JVC KENWOOD Corporation reserves the right to change specifications without prior notice or obligation.
(No.RA032<Rev.001>)1-3
SECTION 1
PRECAUTION
This service manual does not describe PRECAUTION.
SECTION 2
SPECIFIC SERVICE INSTRUCTIONS
2.1 SYSTEM SET-UP
Type
Frequency range (MHz)
RF power
Operation panel
TX
763~775.99375
793~805.99375
806~825
30W(763~775.99375, NX-5900 K
Yes
No
Merchandise received
793~805.99375MHz)
NX-5900(B) F
35W(806~825,
851~870
Choose the type of transceiver
851~870MHz)
NX-5900(B) K
No
RX
763~775.99375
851~870
NX-5900(B)
NX-5900 or NX-5900(B)?
NX-5900
Operation panel (KCH-19)
Refer to the KRK-14H/15B service manual
(B5B-7173-10) for Setup and installation
information for all combinations.
(Also includes installation information for
KCH-20R.)
It's possible to combine and install the
RF Deck (NX-5900), Remote Kit (KRK-14H,
KRK-15B), Control Head (KCH-19, KCH-20R)
and Cable (KCT-71, KCT-72) respectively.
Are you using
the Multi-RF Deck/Multi-Control
Head remote kit?
YES
NO
Are you using
the ignition sense cable?
YES
Refer to the “2.3.1 Ignition Sense
Cable (KCT-46:Option)”.
KCT-46
(Option)
NO
A personal computer, programming interface (KPG-46U), and
FPU (programming software) are required for programming.
Transceiver programming
KCT-23 DC cable
KCT-23 M,M3
Are you using
the GPS function?
YES
KRA-40 GPS active antenna
(Option)
NO
Are you using
the public address?
YES
YES
Refer to the “2.3.2 Horn Alert/P.A.
Relay Unit (KAP-2: Option)”.
KAP-2
(Option)
(Option)
NO
Are you using
the external speaker?
Refer to the “2.3.3 External
Speaker (Option)”.
KES-3 or KES-5
NO
Are you using
the keypad microphone?
YES
KMC-36
(Option)
NO
Supplied microphone
Desk top microphone KMC-9C/KMC-53
Are you using
the secure cryptographic module?
YES
Refer to the “2.3.4 SECURE CRYPTOGRAPHIC
MODULE (KWD-AE30/KWD-AE31: Option)”.
KWD-AE30 or KWD-AE31
(Option)
NO
Delivery
1-4 (No.RA032<Rev.001>)
2.2 REALIGNMENT
2.2.1 Modes
Mode
Operation
Firmware programming • [AUX (Orange)] + Power ON
mode*2
User mode
Panel test mode
PC mode
• [
] + Power ON
Select the “Firmware Prog” using the
[] / [] key.
Press the [
Panel tuning mode
] key.
• If Write is performed by KFL, Firm-
ware programming mode will start
automatically.
Data programming mode
PC test mode
PC tuning mode
Clone mode*2
• [
] + Power ON
Firmware programming mode
Clone mode
• [
] + Power ON
Select the “Clone” using the [] / []
key.
Press the [
] key.
Front panel programming mode*1
Front panel program- • Press the PF key to which Front pan-
ming mode*2
el programming mode is set during
the user mode.
Transceiver information mode
*1:In order to use the Front panel programming mode, it is nec-
essary to purchase the "Front panel program" feature option.
• Press the [
Menu mode.
] key and enter the
Select the any icon assigned the Front
panel programming mode using the
[] / [] key.
Mode
User mode
Panel test mode
Function
For normal use.
Press [
] key.
Select the “Panel Program” using the
[] / [] key.
Used by the dealer to check the fundamen-
tal characteristics.
Press the [
• [+] + Power ON
• [ ] + Power ON
] key.
Panel tuning mode Used by the dealer to tune the transceiver.
Transceiver
information mode*2
PC mode
Used for communication between the
transceiver and PC.
Select the “Transceiver Info” using the
[] / [] key.
Data programming Used to read and write frequency data and
mode
other features to and from the transceiver.
Press the [
] key.
PC test mode
Used to check the transceiver using the
PC. This feature is included in the FPU.
*2 There is the two or three as how to enter.
2.2.3 Panel Test Mode
Setting method refer to ADJUSTMENT.
Firmware program- Used when changing the main program of
ming mode
the flash memory.
2.2.4 Panel Tuning Mode
Setting method refer to ADJUSTMENT.
Clone mode
Used to transfer programming data from
one transceiver to another.
2.2.5 PC Mode
Front panel pro- Frequency, signaling and features write to
gramming mode the transceiver.
2.2.5.1 Preface
The transceiver is programmed by using a personal computer,
programming interface (KPG-46U/46X) and FPU (programming
software).
The programming software can be used with a PC. Figure 1
shows the setup of a PC for programming.
Transceiver infor- Used to confirm the transcerver firmware
mation mode
version, SCM firmware version and SCM
Hardware version.
2.2.2 How to Enter Each Mode
Mode
PC
Operation
KPG-46U/46X
+ Tuning cable
(E30-3383-05)
User mode
Power ON
Panel test mode*2
• [
] + Power ON
• [
] + Power ON
Select the “Panel Test” using the [] /
[] key.
Press the [
Received commands from PC
[Panel test mode] + [
] key.
PC mode
FPU
PC
Panel tuning mode
]
USB
The illustration is NX-5900.
KPG-46U/46X
Transceiver
Fig.1
(No.RA032<Rev.001>)1-5
2.2.5.2 Connection procedure
(1) Connects the transceiver to the computer using the inter-
face cable (KPG-46U/46X).
(7) If writing ends successfully, the checksum is calculated
and a result is displayed.
(8) If you want to continue programming other transceivers, re-
peat step (4) to (7).
Note:
You must install the KPG-46U/46X driver in the comput-
er to use the USB programming interface cable (KPG-
46U/46X).
Note:
If write is perfomed by KFL, Firmware programming
mode will start automatically even if Firmware program-
ming is set to disable in the programming software.
(2) When the POWER switch on, user mode can be entered
immediately. When PC sends command the transceiver
enter PC mode, and “PROGRAM” is displayed on the LCD.
When data transmitting from the transceiver, the red LED
lights.
2.2.6.4 Function
If you press the [
played, the checksum is calculated, and a result is displayed. If
you press the [ ] key again while checksum is displayed,
] key while “FIRMWARE PROG” is dis-
When data receiving to the transceiver, the green LED
lights.
“FIRMWARE PROG” is redisplayed.
Note:
2.2.7 Clone Mode
The data stored in the computer must match the “Model
Name” when it is written into the flash memory.
Programming data can be transferred from one transceiver to an-
other by connecting them via their modular microphone jacks.
The operation is as follows.
2.2.5.3 KPG-46U/46X description (USB programming in-
terface cable: Option)
The KPG-46U/46X is a cable which connects to a USB port on a
computer.
When using the KPG-46U/46X, install the supplied CD (with driv-
er software) in the computer. The KPG-46U driver runs under
Windows XP, Vista, 7, 8 or 8.1.
The KPG-46X driver runs under Windows Vista, 7, 8 or 8.1.
The latest version of the USB driver is available for download
from the following URL:
The following data cannot be cloned.
• Tuning data
• Embedded message with password
• ESN (Electronic Serial Number) data
Key guide on the Clone/ Front Panel Programming Pass-
word input screen.
• Confirm ([
• Delete ([
] key): The password confirmation
] key): Delete the latest digit from the current
password number (Press and hold to delete all password
numbers)
http://www.kenwood.com/usb-com/
(This URL may change without notice.)
• Select([
number.
] key): Determine the latest digit of the password
2.2.5.4 Programming software KPG-D1/D1N (Ver. 1.60 or
later) description
The FPU is the programming software for the transceiver sup-
plied on a CD. This software runs under Windows Vista, 7, 8 or
8.1 on a PC.
(1) In the source transceiver, enter the clone mode by using
section “2.2.2 How to Enter Each Mode”. When the Clone/
Front Panel Programming Password is set to the transceiv-
er, "Input Password" is displayed on the LCD.
If the password is not set, the transceiver displays "CLONE
MODE".
The data can be input to or read from the transceiver and edited
on the screen.
2.2.6 Firmware Programming Mode
(2) When you enter the correct password, “CLONE MODE” is
displayed, the transceiver can be used as the cloning
source. The following describes how to enter the pass-
word.
2.2.6.1 Preface
Flash memory is mounted on the transceiver. This allows the
transceiver to be upgrade when new features are released in the
future. (For details on how to obtain the firmware, contact Cus-
tomer Service.)
(3)
- How to enter the password using the MIC keypad;
If one of the keys 0 to 9 is pressed while the “Input Pass-
word” is displayed, the password number is displayed on
the LCD.
Each press of the key shifts the display in order to the
left.
2.2.6.2 Connection procedure
Connect the transceiver to the personal computer using the pro-
gramming interface (KPG-46U/46X). (Connection is same as in
the PC mode.)
When you enter the password and press [
] or [*] key,
2.2.6.3 Programming
“CLONE MODE” displayed if the entered password is
correct. If password is incorrect, “Input Password” is re-
displayed.
(1) Start up the firmware programming software (KENWOOD
Firmware Loader). The KFL.exe exists in the KPG-D1/D1N
installed folder.
(2) Set the baud rate to "auto" or 1152000, 576000, 115200,
and 57600.
- How to enter password using the [] and [] keys;
If the [] / [] key is pressed while “Input Password” is
displayed, the Clone/ Front Panel Programming Pass-
word input screen is displayed.
If the [] or [] key is pressed while the clone/ Front
Panel Programming Password input screen is displayed,
the number (0 to 9) blinks on the LCD. When you press
the [ ] key, currently selected number is determined. If
(3) Set the firmware to be upgrade by file name item.
(4) Enter the Firmware programming mode by using section
“2.2.2 How to Enter Each Mode”. Then, the yellow LED on
the transceiver light and "FIRMWARE PROG" is displayed.
(5) Check the connection between the transceiver and the per-
sonal computer, and make sure that the transceiver is in
the Program mode.
you press the [
] key after entering password in this
(6) Press “Write” button in the window. When the transceiver
starts to receive data, the “LOADING” display lights.
procedure, “CLONE MODE” is displayed if entered pass-
1-6 (No.RA032<Rev.001>)
word is correct. If the password is incorrect, “Input Pass-
word” is redisplayed.
If the Clone/Front panel programming Password is set to the
transceiver, "Panel Program" is displayed on the LCD when you
enter the correct password while “Input Password” is displayed.
(4) Power ON the target transceiver.
(5) Connecting the cloning cable (part No.E30-3382-05) to the
modular microphone jacks on the source and target.
2.2.8.2 Data Writing
Before moving to next Zone/Channel, “Keep This Change?” ap-
pears on the LCD, if you select “OK”, the new data is written to
memory. If you select “Cancel”, the new data not be written; the
new data will be erased.
• The setup items for Front panel programming mode are as
follows.
(6) Press [
] key on the source while the source displays
“CLONE MODE”. The data of the source is sent to the tar-
get. While the target is receiving the data, “PROGRAM” is
displayed. When cloning of the data is completed, the
source displays “END”, and the target automatically oper-
ates in the User mode. The target can then be operated by
the same program as the source.
No.
1
Setup item
Display
Remarks
RX Frequency RX Frequency Receive Frequency
TX Frequency TX Frequency Transmit Frequency
Channel Type Channel Type Analog/NXDN/P25
(7) The other target can be continuously cloned. When the
[
] key on the source is pressed while the source displays
2
“END”, the source displays “CLONE MODE”. Carry out the
operation in step (4) to (6).
3
4
Channel
Spacing
Channel Space Analog: 12.5kHz/25kHz
Note:
• Cannot be cloned if the password (overwrite password) is
programmed to the target.
NXDN:
6.25kHz/12.5kHz
• “Model name” must be same to clone the transceiver.
P25: 12.5kHz
The illustration is NX-5900.
5
6
7
8
9
RX Signaling
TX Signaling
RX RAN
RX QT/DQT
TX QT/DQT
RX RAN
Receive QT/DQT
Transmit QT/DQT
None, 1~63
TX RAN
TX RAN
None, 1~63
RX NAC
RX NAC
000~FFF
(Hexadecimal)
Note: “F7F” cannot set.
Cloning cable
(E30-3382-05)
10 TX NAC
TX NAC
000~FFF
(Hexadecimal)
Note: “F7E” and “F7F”
cannot set.
Fig.2
2.2.8 Front Panel Programming Mode
11 Talkgroup ID
List Number
Talkgroup
None, 1~1500
If the Front Panel Programming Mode is used, the frequency or
other data of the conventional channel is rewritable only by the
transceiver.
12 Transmit Power Transmit
Power
Low/Medium/High
Moreover, the conventional channel can be added.
The following setup items can be changed or added by us-
ing the Front panel programming mode.
• RX/TX Frequency
13 Channel Name Channel Name
• Channel Type
• Channel Spacing
• Decode QT/DQT/RAN/NAC, Encode QT/DQT/RAN/NAC
• Talkgroup ID List No.
• Transmit Power
• Channel Name
Key guide on the Clone/ Front Panel Programming Pass-
word input screen.
• Confirm ([
• Delete ([
] key): The password confirmation
] key): Delete the latest digit from the current
password number (Press and hold to delete all password
numbers)
• Select ([ ] key): Determine the latest digit of the password
number.
2.2.8.1 Enter to the Front panel programming mode.
Enter to the Menu Mode by pressing [Front Panel Mode] PF key
or [Menu] key. When the Front Panel Mode is selected, it can en-
ter to the Front panel programming mode.
If the Clone/Front panel programming Password is not set to the
transceiver, "Panel Program" is displayed on the LCD.
(No.RA032<Rev.001>)1-7
• Key operation
Key\Item Zone Select Channel RX Frequency TX Frequency
Select
Channel
Type
Channel
Spacing
RX Signaling TX Signaling
[
[
]
Decision
Unused
Decision
Decision
Decision
Decision
Decision
Decision
Decision
]
Back to the Back to the pre- Back to the Back to the Back to the Back to the Back to the
previous
item
vious item
Unused
previous item previous item previous item previous item previous item
[
[
]
Unused
Unused
TX Frequency Unused
OFF
Unused
Unused
Unused
]
Exit panel pro- Exit panel Exit panel pro- Exit panel pro- Exit
panel Exit
panel Exit panel pro- Exit
panel
gram mode
program
mode
gram mode
gram mode
program
mode
program
mode
gram mode
program
mode
[]
Zone change Channel
change
Frequency up Frequency up Channel type Channel
Signaling
number
change
Signaling
number
change
change
Spacing
Change
[]
Zone change Channel
change
Frequency
down
Frequency
down
Channel type Channel
Signaling
number
change
Signaling
number
change
change
Unused
Unused
Spacing
Change
[]
Unused
Unused
Unused
Unused
Frequency step Frequency
change step change
Unused
Signaling type Signaling
change type change
[]
Frequency step Frequency
change step change
Unused
Signaling type Signaling
change type change
MIC Key- Zone number Channel
Go to the direct enter mode
Channel
number
select (1 or 2) select (1 or 2)
Channel
spacing
Go to the direct enter mode
pad
select
number
select
[0] ~ [9]
MIC Key- Decision
pad [*]
Decision
Decision
Decision
Decision Decision
Decision
Decision
MIC Key- Unused
pad [#]
Back to the Back to the pre- Back to the Back to the Back to the Back to the Back to the
previous
item
vious item
previous item previous item previous item previous item previous item
Key\Item
RX RAN
Decision
TX RAN
RX NAC
Decision
TX NAC
Decision
TG ID List No.
Transmit
Power
Channel Name
[
[
]
]
Decision
Decision
Decision
Decision
Back to the pre- Back to the pre- Back to the pre- Back to the pre- Back to the pre- Back to the pre- Back to the pre-
vious item
vious item
vious item
vious item
vious item
vious item
vious item/De-
lete
[
[
]
]
Unused
Unused
Unused
Unused
Unused
Unused
Character/Digit
switching
Exit panel pro- Exit panel pro- Exit panel pro- Exit panel pro- Exit panel pro- Exit panel pro- Exit panel pro-
gram mode
gram mode
gram mode
gram mode
gram mode
gram mode
gram mode
[]
[]
[]
[]
RX RAN up
TX RAN up
RX NAC up
TX NAC up
TG List number Transmit power Go to the direct
up
change
enter mode
RX RAN down TX RAN down RX NAC down TX NAC down TG List number Transmit power
down
change
Unused
RX RAN ON/
OFF
RX RAN ON/
OFF
Unused
Unused
Unused
Unused
Unused
RX RAN ON/
OFF
RX RAN ON/
OFF
Unused
Unused
MIC Key-
pad [0] ~ [9]
Go to the direct enter mode
Talkgroup List Transmit power
number select select (1, 2 or 3)
MIC Key- Decision
pad [*]
Decision
Decision
Decision
Decision
Decision
Decision/ Char-
acter/ Digit
switching
MIC Key- Back to the
Back to the
Back to the
Back to the
Back to the
Back to the
Back to the
pad [#]
previous item
previous item
previous item
previous item
previous item
previous item
previous item
1-8 (No.RA032<Rev.001>)
• Direct enter mode
Key\Item
RX
TX
RX
TX
RX
TX
RX
TX
Channel
Name
Frequency Frequency Signaling Signaling RAN RAN NAC NAC
[
[
[
[
]
]
]
]
Decision
Character/Channel name decision
Delete
Unused
Exit panel program mode
Unused
[]
Character selection (upper case char-
acter → lower-case character → digit
→ upper case character...)
[]
Character selection (upper case char-
acter → lower-case character → digit
→ upper case character...)
[]
Move a cursor to the right
Move a cursor to the left
[]
MIC Key- Add a digit to the current number
pad
[0] ~ [9]
MIC Key- Decision
pad [*]
Input character switching
Delete
MIC Key- Delete/Back to the previous item
pad [#]
(No.RA032<Rev.001>)1-9
• Front panel programming mode flow chart
NX-5900
Input Password
Clone/Front Panel Password
Enter the Front panel programming mode
by using section "2.2.2 How to Enter Each Mode".
[
]
Front panel Programming mode
[
]
]
[
] or [
]
Keep This Change?
Zone Select
[
[
]
]
Channel Name
[
Channel Select
[
]
[
] or [
]
[
] or [
]
Transmit Power
Low
Medium
High
Blank Channel
Select the setting channel.
[
]
[No]
[No]
Zone-Channel Format
is "Personality".
"System Type = Conventional"
there is more than two.
[
] or [
]
[
] or [
]
System Select
Analog
P25
NXDN
[
]
RX Frfequency
[
]
TX Frequency
OFF
[
]
[
]
[System Type]: "P25" or ”NXDN” and [Channel Type]: "Mixed"
Mixed
[
] or [
]
[System Type]: "P25"
P25
[
] or [
]
]
Channel Type
Analog
[System Type]: "NXDN"
NXDN
[
]
[
] or [
[System Type]: "P25"
[
] or [
]
P25
Transmit Mode select
Analog
[System Type]: "NXDN"
NXDN
[Channel Type]: "Mixed" and
when Channel Spacing in two kinds of Channel Type is set.
[
] or [
]
[Channel Type]: "Analog","Mixed"(Transmit Mode: NXDN),"Mixed"(Transmit Mode: P25)
[
] or [
]
[
] or [
]
[
] or [
]
[Channel Type]:
"P25","Mixed"(Transmit Mode:P25) and
when two kinds of Channel Type is set.
12.5kHz
25.0kHz
20.0kHz
When the KPG-D1N is used, 25.0kHz may not be allowed
depends on the frequency.
Channel Spacing
12.5kHz
[Channel Type]: "NXDN","Mixed"(Transmit Mode: NXDN)
[
] or [
]
[
]
[Channel Type]: "NXDN",
"Mixed"(Transmit Mode:NXDN) and
when two kinds of Channel Type is set.
6.25Hz
[Channel Type]: "Analog","Mixed"(Transmit Mode: NXDN),
"Mixed"(Transmit Mode: P25) and when a kind of Channel Type is set.
[
] or [ ] [ ] or [ ] [ ] or [
]
RX Signaling
OFF
QT
DQT N
DQT I
[
]
[
]
[TX Frequency]: "OFF"
[Channel Type]: "Analog"
[TX Frequency]: Other than "OFF"
[Channel Type]: "Analog","Mixed"(Transmit Mode: NXDN),"Mixed"(Transmit Mode: P25)
[
] or [ ] [ ] or [ ] [ ] or [
]
TX Signaling
RX RAN
OFF
QT
DQT N
DQT I
[
]
[Channel Type]: "Analog"
[
]
[
]
[TX Frequency]: "OFF"
[Channel Type]: "NXDN"
[TX Frequency]: Other than "OFF"
[Channel Type]: "NXDN","Mixed"(Transmit Mode: NXDN)
TX RAN
[
]
[Channel Type]: "NXDN",
"Mixed"(Transmit Mode: NXDN)
RX NAC
[
[
]
]
[TX Frequency]: "OFF"
[Channel Type]: "P25"
[TX Frequency]: Other than "OFF"
[Channel Type]: "P25","Mixed"(Transmit Mode: P25)
TX NAC
[
]
[
]
Talkgroup List ID Amount: 0
[Channel Type]: "P25","Mixed"(Transmit Mode: P25)
Talkgroup ID List Amount must not be 0.
Talkgroup ID List Number
[
]
Note:
Zone-Channel Format allows you to whether to configure for
each zone the channels in the same system, or channels in different system.
P25 can be configured for System Select or Channel Type if one or
more P25 conventional system is preconfigured by the FPU.
1-10 (No.RA032<Rev.001>)
2.2.9 Transceiver Information Mode
Use this function to confirm the transceiver firmware version, SCM Firmware version and SCM Hardware version.
(1) Enter the Transceiver Information mode by using section "2.2.2 How to Enter Each Mode".
(2) The transceiver firmware version appears on the LCD.
(3) Use the [] and [] keys to select the confirmation items.
[
]/[
]
[
]/[
]
Transceiver
firmware version
SCM Firmware
version
SCM Hardware
version
[
]/[
]
(4) To exit the transceiver information mode, turn the transceiver power OFF.
Note:
When the SCM board is not equipped to the transceiver, SCM Firmware Version and SCM Hardware Version are displayed
as "-.-.-."
2.3 INSTALLATION
NX-5900 External View
171
T I A O N .
I N T E
7 0 7 0 0
C E P T
C A U S E U N D E S I R E D O P E R
R E C E I V E D , I N C L U D I N G I N T E R F E R E N C E
( 2 ) T H I S D E V I C E M U S T
Y
M T A T H A
A N D
A
R
N
F
Y
E R E N
I N T E R F E R E N C E , C A U S
T H I S D E V I C E T W O C O N D I T
T I O N I S S U B J E C T F C C R U L E S . O P E R A
A
C
C
E
N
Y E
O
A
H T M A R M F U L
F
I O N L L S O : W ( 1 I ) N G
O
T H
O
E T
T H E
1
T
5 R
O
A
F
T H I S D E V I C E C O M P L I E S W I T H
P
D U R A I T C N T G P R O L O V N A O G I D E D C O U N S E .
C A E F
S U R H O T
C A U T I O N
M4
M a d e i n J a p a n
0 1 2 M 3 4 5 6 7 8 9
0 1 2 N 3 4 5 6 7 8 9 A B
0 1 2 P 3 4 5 6 7 8 9 A B C D E F
S / N o . 0 0 0 0 0 0 0 0
M o d e l : N X - 5 9 0 0 - K
I C : 2 8 2 F - 4 7 8 5 0 0
F C C I D : K 4 4 4 7 8 5 0 0
D C 1 3 . 6 V 1 2 A
0 0 0 0 0 0 0 0 0 0 0 0 0
T R L A A T N S C E I V E R
- K
7 0 0 / 8 0 0 M H z D I G I
N X - 5 9 0 0
24
170
(No.RA032<Rev.001>)1-11
NX-5900(B) External View
171
T I O N .
7 0 7 0 0
C A U S E U N D E S I R E D O P E R A
R E C E I V E D , I N C L U D I N G I N T E R F E R E N C E
( 2 ) T H I S D E V I C E M U S T
Y
M T A T H A
A N D
I N T E A R N F Y E R E N
A C
C C E P T
E
I N T E R F E R E N C E , C A U S N Y E O H T M A A R M F U L
T W O C O N D I T F I O O N L L S O : W ( 1 I ) N G
T I O N I S S U B J E C T F C C R U L E S . O P E R A
T H I S D E V I C E
T H E T
O
T H E
1
T
5 R
O
A
F
T H I S D E V I C E C O M P L I E S W I T H
P
D U
C
R
A T I T N G P R O L
O
O
V I N D A
G
C
E
O
D
N
U S E .
!
C A U T I O N
A C E S U R H F O T
M4
M a d e i n J a p a n
0 1 2 M 3 4 5 6 7 8 9
0 1 2 N 3 4 5 6 7 8 9 A B
0 1 2 P 3 4 5 6 7 8 9 A B C D E F
S / N o . 0 0 0 0 0 0 0 0
M o d e l : N X - 5 9 0 0 - K
I C : 2 8 2 F - 4 7 8 5 0 0
F C C I D : K 4 4 4 7 8 5 0 0
D C 1 3 . 6 V 1 2 A
0 0 0 0 0 0 0 0 0 0 0 0 0
T R L A N S C E I V E R
- K
7 0 0 / 8 0 0 M H z D I G I T
N X - 5 9 0 0
24
(
170)
ATTENTION:
When installing the option, please take measures to prevent
static electricity.
2.3.1 Ignition Sense Cable (KCT-46: Option)
The KCT-46 is an optional cable for enabling the ignition func-
tion. The ignition function lets you turn the power to the transceiv-
er on and off with the car ignition key.
2.3.1.1 Connecting the KCT-46 cable to the transceiver
(1) Open the KCT-46 fuse holder and insert a mini blade fuse
(3A). <1>
<2>
(2) While holding a clear protective cover, remove the black
cap at the end of the yellow cable (ignition sense cable) of
the transceiver. <2>
(3) Connect the plug of the KCT-46 to the yellow cable termi-
nal of the transceiver. <3>
<3>
F52-0019-05
<1>
(4) Connect the other end of the KCT-46 to the ignition line of
the car. <4>
<4>
Ignition line
of the car
Note:
Fig.1
You must setup using the KPG-D1/D1N.
1-12 (No.RA032<Rev.001>)
2.3.2 Horn Alert/P.A. Relay Unit (KAP-2: Option)
The Horn alert (max. 2A drive), Public address and External
speaker function are enabled by installing the KAP-2 in the trans-
ceiver.
(7) Pass the 6-pin connector of the cable (E37-1113-25)
through the chassis hole <5> and insert the bush into the
shassis hole.
(8) Rotate the bush of the cable 90 degrees counterclockwise
as viewed from the rear of the chassis. <6>
(9) Insert the 6-pin connector of the cable into the connector
(CN2) of the KAP-2 relay unit. <7>
2.3.2.1 Installing the KAP-2 unit in the transceiver
(The kit A is not used in the KAP-2 accessories)
(1) Remove the cabinet, top packing and shielding plate of the
transceiver.
(2) Set the KAP-2 relay unit jumper pins according to the pur-
pose of use.
Note:
You must setup using the KPG-D1/D1N.
(3) Remove the 6-pin jumper connector inserted in the TXRX
unit (A/2) connector (CN910). <1>
<6>
<1>
CN910
<5>
Fig.2-1
(4) Insert one side of the lead wire with connector (E37-1114-
05) into the relay unit connector (CN3) <2> and the other
side into the TX-RX unit (A/2) connector (CN910) <3>
CN2
<7>
E37-1113-25
E37-1114-05
Fig.2-4
<2>
(10) Form the KAP-2 cable as shown in the figure.
CN3
<3>
CN910
Fig.2-2
KAP-2 cable
(5) Place the relay unit at the position shown in Figure 2-2 and
secure it to the chassis with a screw.
(6) Remove the cap on the rear of the chassis by pushing it
from the inside with your finger. <4>
<4>
Fig.2-3
(No.RA032<Rev.001>)1-13
2.3.3 External Speaker (Option)
Connection Procedure
Insert the crimp terminal into the Square plug supplied with the
KAP-2.
2.3.3.1 KES-3
The KES-3 is an external speaker for the 3.5-mm-diameter
speaker jack.
Connection Procedure
Connect the KES-3 to the 3.5-mm-diameter speaker jack on
the rear of the transceiver.
Black/White
lead
4
Square plug
(E59-0419-05)
5
Black lead
Insulating cover
(F29-0481-15)
Fig.3-1
Fig.3-3
2.3.3.2 KES-5
KAP-2 Cable (E37-1113-25) 6-pin Connector
External speaker KES-5 can be installed for KAP-2. If KES-5 is
installed, it can be set by changing the CN1 short pin from pins 4
and 5 to pins 5 and 6 on the KAP-2.
Pin No.
Color
Red
Name
HR2
GND
OSP
ESP
GND
HR1
1
4
2
5
3
6
1
2
3
4
5
6
KAP-2 CN1 Connect
Set Up
INT. SP or KES-3
KES-5
Blue
4-5
5-6
Yellow
Green
Brown
Black
When you use the KES-5, plug the short pin to pins 5 and 6 on
the KAP-2.
When you use the INT. SP or KES-3, plug the short pin to pins 4
and 5 on the KAP-2.
KAP-2 unit
1
CN1
6
INT. SP
or
KES-3
KES-5
Short pin
Fig.3-2
1-14 (No.RA032<Rev.001>)
2.3.4 SECURE CRYPTOGRAPHIC MODULE (KWD-AE30/KWD-AE31:Option)
2.3.4.1 SUPPLIED ACCESSORIES
Connecting cable
(X42-3330-XX)
Cushion A *
(G13-2179-XX)
Cushion C
(G1D-0006-XX)
Cushion D *
(G1D-0055-XX)
Spacer *
(F3K-0004-XX)
Cushion B
(G13-2178-XX)
Note:
Supplied accessories with * mark are not used for the NX-5900.
2.3.4.2 INSTALLING THE MODULE IN THE TRANSCEIVER
(1) Remove the cabinet, top packing and shielding plate of the
transceiver.
(5) Pull and remove the release paper while pressing down on
the module with your finger to hold it in place, to attach the
module to the TX/RX PCB.
Note:
• When it is necessary to remove the module, do so by
peeling the module off using your finger, while pulling
it vertically. Do not use a screwdriver or other similar
implement to remove the module; you may inadvert-
ently damage the TX/RX PCB and the module.
• Cushion B cannot be reused. Attach a new cushion B
when you remove the cushion from the module.
(2) Attach the cushion B and C to the module backside.
(6) Reinstall the cabinet, top packing and shielding plate of the
transceiver.
Note:
Align and attach the
cushion to the side of the
Module.
• When the KWD-AE30/ KWD-AE31 is installed, select
the “Secure Cryptographic Module” checkbox in the
Product Information of the Programming software
[FPU (Field Programming Unit)], and then set each pa-
rameter.
• If the KWD-AE30/ KWD-AE31 connector is not proper-
ly installed, the TX/RX indicator will blink red or "No
SCM" will appear on the display when the transceiver
power is turned on.
Note:
Refer to the figure for how to attach cushion B. If the re-
lease paper is reversed, it cannot be pulled out.
(3) Fold the release paper as indicated in the figure.
• If the Encryption Key data is not written at the Keyload-
er, or the Encryption Key data is zeroized, "Key Fail"
will appear on the display.
• If the KWD-AE30/ KWD-AE31 is installed in other
transceivers, the Encryption Key data will be forced to
zeroize.
(4) Insert the connector of the module the connector (CN731)
of the TX/RX PCB into.
CN731
(No.RA032<Rev.001>)1-15
2.3.5 Changing D-SUB 25-pin connector (4 pin, 5 pin) con-
figuration
2.3.5.1 Change configuration of D-SUB 25-pin connector
from AUXIO9 to CTS
4 pin
The output (4 pin) of D-SUB 25-pin connector is configured at
the AUXIO9 as the default value.
Remove the R950 chip jumpers and solder the chip jumpers to
$R952.
Ref. No.
R950
Function
$R952
R952
Default
-
AUXIO9
$R950
CTS (RS-232C)
2.3.5.2 Change configuration of D-SUB 25-pin connector
from DI to RTS
5 pin
The input (5 pin) of D-SUB 25-pin connector is configured at
the DI as the default value.
Remove the R943 chip jumpers and solder the chip jumpers to
$R946.
Ref. No.
R943
Function
DI
$R946
R946
Default
-
$R943
RTS (RS-232C)
MAIN UNIT (A/2)
Component side
1-16 (No.RA032<Rev.001>)
2.4 CIRCUIT DESCRIPTION
2.4.1 Overview
The NX-5900 is a 700/800MHz Analog FM & Digital Mobile transceiver designed to operate in the frequency range of 763 to
775.99375MHz, 793 to 805.99375MHz (700M) and 806 to 825MHz, 851 to 870MHz (800M). The unit consists of a receiver, a trans-
mitter, a phase-locked loop (PLL) frequency synthesizer, a digital control unit, and a power supply circuit.
2.4.2 Frequency Configuration
The receiver is a double-conversion super-heterodyne using first intermediate frequency (IF) of 58.05MHz and second IF of 2.25MHz.
Incoming signals from the antenna are mixed with the local signal from the PLL circuit to produce the first IF of 58.05MHz. This is then
mixed with the 55.8MHz second local oscillator output to produce the 2.25MHz second IF. The transmit signal frequency is generated
by the PLL VCO, and modulated by the signal from the DSP. It is then amplified and fed to the antenna.
ANT
700M:763 775.99375MHz(RX/TX)
793 805.99375MHz(TX)
2nd
VCO
800M:806 825MHz(TX)
851 870MHz(RX/TX))
58.05MHz
MCF
1st MIX
55.8MHz
MIX
IF Circuit
SP
ANT
SW
RF
AMP
AF
AMP
19.2MHz
700M:821 834.04375MHz:
800M:792.95 811.95MHz:
Baseband
Circuit
TCXO
CODEC
PLL
MIC
PA
AMP
TX
AMP
TX
VCO
RX
VCO
700M:763 775.99375MHz(RX/TX)
793 805.99375MHz(TX)
800M:806 825MHz(TX)
851 870MHz(RX/TX)
Fig.1 Frequency configuration
2.4.3 Receiver System
2.4.3.1 RF circuit
The receive signal from antenna SW (D305, D306, D308, D310, and D311) is amplified by a RF amplifier (700MHz band: Q501,
800MHz band: Q502) and passes through the band-pass filter (700MHz band: L521, L510, 800MHz band: L522, L511) to remove
unwanted signals. These are controlled with the RF filter switch (IC501 and IC502).The signal is then fed to the 1st mixer (IC500).
2.4.3.2 IF circuit
The first IF signal is passed through a four-pole monolithic crystal filter (XF600) to reject adjacent channel signal. The filtered first IF
signal is amplified by the first IF amplifier (Q604 and Q603) and then applied to the IF system IC (IC600). The IF system IC provides
a second mixer, second PLL, AGC and A/D converter.
The second mixer mixes the first IF signal with the 55.8MHz of second local oscillator output and produces the second IF signal of
2.25MHz.
The second IF signal is then be fed into an ADC, generates the I and Q data. This data is in the form of SSI (Serial Synchronous
Interface), and sent to the DSP (IC706).
2.4.3.3 Audio amplifier circuit
Audio processing (high-pass filter, low-pass filter, de-emphasized and so on) at Analog FM mode and decoding at Digital mode are
processed by DSP. SSI signal from DSP is converted to audio signal at IC902. The signal goes to internal speaker and connector for
external speaker (J900) through the amplifier (IC903), electronic volume control (IC719) and audio amplifier (IC911).
ANT
D305,306
D308,310 IC501
D311
ANT
SW
SW
L521
BPF
Q501 L510
BPF
2nd Q600
VCO
IC502
SW
IC500
XF600
BPF
Q604 Q603
RF AMP
SSI
LPF
IF IC
L522
BPF
Q502 L511
MCF
IFAMP IFAMP
IC600
BPF
RF AMP
RX VCO/PLL
Internal Speaker
DSP
CODEC
IC902
VOL
IC719
IC706
IC903
IC911
External Speaker
J900
Fig.2 RF and IF circuit
(No.RA032<Rev.001>)1-17
2.4.4 Transmitter System
2.4.4.1 Audio Band Circuit
The signal from microphone is amplified and converted to digital signal by IC902. IC902 includes AGC function.
Digital signal is transferred to IC706 thru SSI.
2.4.4.2 Base Band Circuit
The audio signal transferred from IC902 is processed at IC706. Voice signals of 300Hz or lower and frequencies of 3kHz or higher are
cut off and an audio range 300Hz to 3kHz is extracted. The audio signal is then pre-emphasized in FM mode and synthesized with
the signals, such as QT and DQT, as required, and is transferred to PLL Frequency Synthesizer block. The DTMF and MSK base
band signals are also generated by IC706.
In Digital mode, the audio signal is converted to the 4-Level FSK base band signal and is transferred to PLL Frequency Synthesizer
block.
The output level according to the transmit carrier is fine-adjusted according to each modulation method.
2.4.4.3 Drive and Final amplifier
The signal from the TX VCO is amplified by the pre-drive amplifier (IC300, Q300 and Q301). The output of the pre-drive amplifier is
amplified by the drive amplifier (Q302) and the final amplifier (Q303) to 30W at 700MHz or 35W at 800MHz band (2W when the power
is low). IC300 is MMIC. Q300, Q301, Q302, and Q303 are MOS FET.
The output of the final amplifier is then passed through the coupler, antenna switch (D305, D306, D308, D310, and D311), harmonic
filter (LPF) and applied to the antenna terminal.
2.4.4.4 APC circuit
The automatic transmission power control (APC) circuit controls the transmitter output in adjusted value by monitoring it with a coupler.
RF detection and comparison functions are included in the power-control IC (IC302).
The output of the power control IC is given as a drive source of each gate of the pre-drive amplifier (Q300 and Q301) and the drive
amplifier (Q302) and completes APC feedback loop.
When a normal antenna load is connected, reflected Forward RF Power is detected by the coupler and direct in the power-control IC
(IC302). Forward RF Power is converted into DC voltage in IC302 and is compared with APC1.
The output voltage goes through DC amplifier (IC303) to the pre-drive amplifier (Q300 and Q301) and the drive amplifier (Q302).
The voltage controls the gate bias1 voltage of Q300, Q301 and Q302, and keeps transmission output power stable.
SPC controls the gate bias2 voltage of Q303.
D305,306
D308,310
D311
ANT
IC300
Q300
Q301
Q302
Drive
Q303
Final
Pre-
Pre -
Pre-
ANT
LPF
TX VCO
ANT
sw
Coupler
Drive1
Drive2
Drive3
Gate Bias1
Gate Bias2
Q305
DC SW
Q306
DC SW
IC302
D304
IC303
/DSW
/DSW
PA
CONT
REV
DET
REV
Q309
DC SW
IC303
DC
DC
AMP
AMP
IC304
IC304
IC305
DC
AMP
DC
AMP
SPC
MP
DC
Q307
DC SW
AMP
APC1
Fig.3 Drive and Final amplifier and APC circuit
2.4.5 PLL Frequency Synthesizer
2.4.5.1 TCXO (X700)
TCXO (X700) generates a reference frequency of 19.2MHz for the PLL frequency synthesizer. This reference signal is buffered by
Q700 and IC703. And it is distributed to PLL (IC100), IF IC (IC600), and IC706.
The frequency adjustment is achieved by switching the ratio of dividing frequency of PLL. The resolution of adjusting frequency is ap-
proximately 8Hz.
1-18 (No.RA032<Rev.001>)
2.4.5.2 VCO
There are TX VCO and RX VCO.
The TX VCO (Q102) generates the carrier for the transmitter. The oscillation frequency of the VCO is half of transmit frequency. VCO
oscillation frequency range is 381.5 to 435MHz. The transmit frequency range is 763 to 870MHz.
The RX VCO (Q104) generates the 1st local signal for the receiver. The oscillation frequency of the VCO is half of the 1st local signal
for the receiver. VCO oscillation frequency range is 396.475 to 417.025MHz. The 1st local signal frequency range is 792.95 to
834.05MHz.
The VCO oscillation frequency is determined by voltage control terminals "CV" and "ASSIST".
The voltage control terminal "CV" is controlled by PLL IC (IC100). The voltage control terminal "ASSIST" is controlled by the control
voltage from D/A converter (IC715).
For the modulation input terminal, "VCO_MOD" of PLL (IC100), the output frequency changes according to the applied voltage. This
is used to modulate the VCO output.
2.4.5.3 PLL IC
PLL IC (IC100) compare the difference in phases of the VCO oscillation signal and the TCXO reference frequency. And it returns the
difference voltage to the VCO CV terminal and realizes the "Phase Locked Loop".
This allows the VCO oscillation frequency to accurately match (lock) the desired frequency.
When the frequency is controlled by the PLL, the frequency convergence time increases as the frequency difference increases when
the set frequency is changed. To supplement this, the MPU is used before control by the PLL IC to bring the VCO oscillation frequency
close to the desired frequency. As a result, the VCO CV voltage does not change and is always stable at approx. 2.5V.
The desired frequency is set for the PLL IC by the MPU (IC706) through the 3-line "SDO1", "P_SCK1", "/PCS_RF" serial bus for PLL.
MPU monitors through the “PLD”, whether the PLL IC is locked or not. If the VCO does not lock to desired frequency (unlock), the
“PLD” logic is low.
2.4.6 Control Circuit
The control circuit consists of MPU/DSP (IC706) and its peripheral circuits. IC706 mainly performs the following;
(1) Switching between transmission and reception by PTT signal input.
(2) Reading system, zone, frequency, and program data from the memory circuit.
(3) Sending frequency program data to the PLL.
(4) Controlling the audio mute circuit by decode data input.
2.4.6.1 MPU
The MPU/DSP (IC706) is 32bit RISC processor and Fixed/Floating-Point VLIW DSP, equipped with peripheral function.
This MPU operates at 288MHz (MAX) clock and 3.3V/1.8V/1.2V DC. Controls the flash memory, Mobile DDR, the receive circuit, the
transmitter circuit, the control circuit, and the display circuit and transfers data to or from an external device.
2.4.6.2 Memory Circuit
Memory circuit consists of the MPU and the Mobile DDR (IC702), the flash memory (IC701). The flash memory has capacity of 512Mbit
that contains the transceiver control program for the MPU and stores the data.
It also stores the data for transceiver channels and operating parameter that are written by the FPU. This program can be easily written
from external devices. The Mobile DDR has capacity of 512Mbit. The MPU copies the program to the Mobile DDR from Flash memory.
And MPU is used as a work area Mobile DDR.
Flash memory
Note:
The flash memory stores the data that is written by the FPU (KPG-D1/D1N), tuning data (Deviation, Squelch, etc.) , and firmware
program (User mode, Test mode, Tuning mode, etc.). This data must be rewritten when replacing the flash memory.
Mobile DDR (static memory)
Note:
Mobile DDR is used as a work area of the MPU.
2.4.6.3 LCD
LCD interface connector (CN4) of the display unit.
The LCD is controlled using parallel interface from MPU (IC706) through the interface connectors (CN749 of the MAIN unit and CN6
of SUB unit) and flexible cable.
2.4.6.4 Key Detection Circuit
Keys are detected using I/O Expander IC (IC10) of the SUB unit. If pressed key is detected by IC10, it is informed to MPU (IC706) of
the MAIN unit through serial line.
(No.RA032<Rev.001>)1-19
2.4.6.5 DSP
The DSP circuit consists of a MPU/DSP (IC706) and processes the baseband signal. The DSP operates at 288MHz (MAX) clock, the
I/O section operates at 3.3V/1.8V and the core section operates at 1.2V.
The DSP carries out the following processes:
• 4Level FSK processing
• Analog FM pre-emphasis/de-emphasis
• Vocoder processing between audio codec and modulation/demodulation
• CAI processing, such as error correction encoding
• QT/DQT encoding/decoding
• DTMF encoding/decoding
• MSK encoding/decoding
• 2-tone encoding/decoding
• Compressor/expander processing
• Voice scrambler processing
• Transmit/receive audio filtering processing
• Microphone amplifier AGC processing
• Audio mute processing
• Modulation level processing
• Active Noise Reduction
• Voice recording/playback processing
• Voice announce processing
2.4.7 Power Supply Circuit
+B is connected to RF Power Module, 50BU regulator (Q8, Q9 and D11) through the fuse (F1), DC/DC converter IC (IC8) via fuse
(F1), SB1 switch (Q5 and Q6) through the fuse (F2) and SB2 switch (Q10) through the fuse (F3).
Q8, Q9 and D11 regulates +B voltage to 5V (50BU). Then IC1 regulates 50BU to 3.1V (31BU). Then IC3 regulates 31BU to 1.2V
(12BU). 50BU, 31BU and 12BU operate whenever +B is supplied.
IC8 regulates +B voltage to 5.4V (54M). 54M is controlled by BAT_CNT signal from Power management IC (IC2). When Power switch
is turned on, BAR_CNT signal is controlled by /PSW signal. 54M goes to AVR ICs (A1, IC11, IC5, IC4, IC12, IC14, IC7, IC10, IC6 and
IC17).
A1 (12M) is enabled while the 54M is operating. 12M provides the power to the MPU/DSP (IC706) and turns on IC11 (18M). 18M
provides the power to the MPU/DSP and Mobile DDR (IC702) and turns on IC5 (33M), IC14 (33OPT). 33M provides the power to the
MPU/DSP, Flash memory (IC701) and many control circuits and turns on IC4 (33A), IC10 (50A). Then 33A turns on IC9 (18M_3).
The Power management IC (IC2) watches +B voltage. If +B voltage is higher than 6.2V, IC2 outputs high voltage to the /BINT terminal.
If the /BINT is high, SB1 (Q5 and Q6) and SB2 (Q10 and Q11) are turned on by SBC_2 signal from MPU. In the same way, IC12 (33C)
and IC6 (50C) are turned on by SBC_2. 50C is fed to IC13 (200C). IC13 (200C) is the DC/DC boost converter. The 200C circuit then
outputs approximately +20VDC.
SB1 supplies SUB unit and MAIN unit B/2 (D-sub unit) with +B voltage. SB2 supplies Audio power amplifier (IC911) and 9V AVR (IC15)
with +B voltage. Then IC15 regulates +B to 9V (90C). Then IC16 regulates 90C to 5V (50CT). If the MPU controls TXC, ANT SW and
ASSW signals to High, Q15, Q16 (90T), Q17, Q18 (90ANT) and Q14 are turned on and transmission circuits are enabled to transmit.
If the MPU controls RXC signal to High, IC17 (50R) is turned on and reception circuits are enabled to receive.
When the Power management IC and MPU detect /PSW signal (Power switch), /IGN signal (Ignition sense) and /BINT signal, they
set the SBC_2 signal to Low, and turn the transceiver power off.
When D1, Q4 detect over-voltage condition, they turn SB1 and SB2 off, and transfer that the MPU through IC2.
1-20 (No.RA032<Rev.001>)
CN2
+B
Final / Drive amp
F1
31BU
50BU
Q8, Q9, D11
5V Reg
IC1
3.1V AVR
Power management IC
MPU/DSP RTC
12BU
IC3
1.2V AVR
SCTAM
Q1, Q3
DC SW
Option Board
/BINT
54M
MPU/DSP Core
MPU/DSP PLL
IC8
5.4V DC/DC
A1
1.2V AVR
12M
18M
BAT_CNT
from
Power management IC
(IC2)
MPU/DSP I/O(B), DDR
IC11
1.8V AVR
Mobile DDR2, Clock buffer
IC9
DC SW
18M_3
Flash ROM V(I/O) & 3state(512M)
CODEC DVDD
33A
MPU/DSP I/O(A,C) DVDD, USB_VDDA33
Flash ROM, I/O Expander,ADC, CODEC
19.2M TCXO circuit, Uart SW, RS-232C
driver, SP GND switch clock, SUB (Display) unit
IC5
3.3V AVR
33M
18M
8bit/8ch DAC
12bit/4ch DAC
CODEC AVDD,DRVDD
33A
33C
IC4
3.3V AVR
33M
IC12
3.3V AVR
PLL , IF
SBC_2
IC14
3.3V AVR
33OPT
33SD
Option Board
microSD
18M
IC7
3.3V AVR
SD_EN
I/O Expander, D-sub level shift.
8bit/16ch ADC AVCC
OP amp for VREF/25REF
MPU/DSP USB_VBUS
SP GND switch driver
IC10
5V AVR
50A
33M
50C
IC6
PLL , IF, 2ndVCO
VCO Assist
5V AVR
SBC_2
200C
IC13
20V DC/DC
50CS
Q115
Ripple
TX/RX VCO
VCO buffer amp
/SAVE
VCO Doubler Amp,
TX buffer amp
Q81
TX Heter SW
IC17
5V AVR
50R
54M
RX Heter SW , Local amp
LNA, 1st Mixer, IF amp
RXC
Power management IC
SUB (Display) unit
F2
SB1
SB2
D-sub 25
SUB (Display) unit
Q5, Q6
DC SW
SBC_2
F3
Q10, Q11
DC SW
Audio Power Amp
Q15, Q16
DC SW
90C
IC15
9V AVR
90T
TX Pre Drive / TX circuit
TXC
Q17, Q18
DC SW
90ANT
50CT
Antenna switch
ANTSW
IC16
5V AVR
Q14
DC SW
TX PreDrive(MMIC)
ASSW
RF Detector / Controller
Fig.4 Power supply circuit
(No.RA032<Rev.001>)1-21
2.4.8 Signaling Circuit
2.4.8.1 Encode (QT/DQT/DTMF/2-tone/MSK)
Each signaling data signal of QT, DQT, DTMF, 2-tone and MSK is generated by IC706, superposed on a modulation signal and output
to TX VCO and PLL IC.
2.4.8.2 Decode (QT/DQT/DTMF/2-tone/MSK)
The audio signal is removed from the FM detection signal sent to the IC706 and the resulting signal is decoded by IC706.
2.4.9 Bluetooth/GPS Circuit
The main component of the Bluetooth/GPS circuit is Bluetooth / GPS IC (IC5) on MODULE unit.
The clocks of Bluetooth/GPS IC require 19.2MHz for core and 32.768kHz slow clock (X1 and X2) for UART.
Bluetooth/GPS IC communicates to the OMAP processor (IC706) on the HCI UART. Interface of UART & Digital audio (PCM) between
the OMAP processor (IC706) and the Bluetooth/GPS IC (IC5), have level conversion at the level shift IC (IC6 and IC7) on MODULE
unit.The Bluetooth/GPS IC is powered by 1.8V and 3.3V which are supplied from 2 discrete external regulators (IC2 and IC3) on MOD-
ULE unit.
IC706
IC6
IC5
UART
UART
PCM
UART
PCM
Bluetooth
antenna
Level
shift IC
BPF
BPF
MPU/DSP
BT/GPS IC
IC7
GPS
PCM
Level
shift IC
antenna
connector
X1
X2
CN5
TCXO
19.2MHz
32.768kHz
Clock
Main unit
Module (BT/GPS) unit
Fig.5 Bluetooth/GPS circuit
2.4.9.1 Bluetooth Circuit
The Bluetooth / GPS IC (IC5) support Bluetooth 3.0 up to HCI level.
TX/RX frequency is 2400-2483.5MHz (79ch Hopping, 2402-2480MHz, 1MHz step). Transmitting power is +2dBm at Bluetooth anten-
na input.
Using the printed antenna with Bluetooth, and connected to the Bluetooth / GPS IC (IC5) through the saw filter (L11).
Frequency configuration for Bluetooth is following:
There are two LO modes: 2X and Offset LO (OSLO). 2X where LO is 2*RF_FREQ (e.g. when transmitting at 2441MHz it is at
4882MHz). OSLO where LO is at (2/3)*RF_FREQ (e.g. when transmitting at 2441MHz it is at 1627.333MHz).
In RX the 2X is always used.
In GFSK TX if power is >10dBm then OSLO is used
In EDR2 TX if power is >-12dBm then OSLO is used
In EDR3 TX if power is >-12dBm then OSLO is used
Otherwise 2X is used for TX as well.
2.4.9.2 GPS Circuit
The GPS RF signal is received with the active antenna, and connected to the Bluetooth / GPS IC (IC5) through the terminal (CN5)
and saw filter (L9).
The output is passed to pin L2 of the GPS IC. The input match for pin L2 comprises of C38, C36 and L7.
The control and data lines for the GPS IC are GPS_PA_EN, BTFM_nSHUTDOWN, GPS_TX and GPS_RX.
GPS_TX and GPS_RX are shared with Bluetooth data line.
Frequency configuration for GPS is following: Lo is GPS: 1571.324MHz
GPS
antenna
33BT
VBAT1(A2)
3.3V
TCXO_LDO_IN(H1)
GPS_LNA_IN(L2)
VDDS
1.8V
18BT
Antenna
connector
BPF
IC706
GPS TX
GPS_RX
BT_HCI_UART_TX(A4)
LEVEL
SHIFT
GPS ANT ALM
GPS ANT PWR
GPS
detect
BT_HCI_UART_RX(B5)
BTFM_nSHUTDOWN(A6)
GPS_PA_EN(G3)
MPU/DSP
3.3V
BT
antenna
33GPS
TCXO
19.2MHz
TCXO_CLK_LV(F1)
BT_RF
OSCILLATOR
32.768kHz
RTC_CLK(H9)
BT/GPS IC
BPF
Fig.6 GPS circuit
1-22 (No.RA032<Rev.001>)
2.5 COMPONENTS DESCRIPTION
2.5.1 Main unit (XC1-1021-80)
Ref.No
IC904
Part Name
Description
Logic control
IC
IC
IC
IC
IC
IC
IC
IC
Ref.No
IC1
Part Name
Description
Voltage regulator (31BU)
Power management
Voltage regulator (12BU)
Voltage regulator (33A)
Voltage regulator (33M)
Voltage regulator (50C)
Voltage regulator (33SD)
DC-DC Converter (54M)
Load switch (18M)
Voltage regulator (50A)
DC-DC Converter (18M)
Voltage regulator (33C)
DC-DC Converter (200C)
Voltage regulator (33OPT)
Voltage regulator (90C)
Voltage regulator (50CT)
Voltage regulator (50R)
Reset
IC905
IC906
IC907
IC908
IC909
IC910
IC912
Q1
Buffer AMP (BER CK/BER DT)
Level shift
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC2
Analog switch
Schmitt trigger
RS-232C driver
I/O expander
IC3
IC4
IC5
IC6
Logic control
IC7
Transistor
FET
DC switch (SCTAM1)
DC switch
IC8
Q3
IC9
Q4
DIGI
TRANSISTOR
DC switch
IC10
IC11
IC12
IC13
IC14
IC15
IC16
IC17
IC18
IC100
IC101
IC102
IC300
IC302
Q5
FET
DC switch (SB1)
DC switch
Q6, 7
DIGI
TRANSISTOR
Q8, 9
Q10
Q11
Transistor
FET
Voltage regulator (50BU)
DC switch (SB2)
DC switch
DIGI
TRANSISTOR
Q12
Q14
Q15
FET
FET
DC switch
DC switch
DC switch
PLL IC
DIGI
TRANSISTOR
Schmitt trigger
DC AMP (CV/Assist)
TX pre-drive AMP
TX power control
APC
Q16
Q17
FET
DC switch (90T)
DC switch
DIGI
TRANSISTOR
Q18
FET
DC switch (90ANT)
T/R switch
IC303~305 IC
IC500 IC
IC501, 502 IC
Q81
FET
RX 1st mixer
Q102
Q103
Q104
Q105
Q106
Q107
Q108
Q110
Q113
Q115
FET
VCO oscillation
DC switch
RX Band Switch
IF IC
FET
IC600
IC701
IC702
IC703
IC
IC
IC
IC
FET
VCO oscillation
VCO Buffer amp
VCO Doubler amp
TX local Buffer amp
Ripple filter
Flash memory
Transistor
Transistor
Transistor
Transistor
FET
Mobile DDR
Clock buffer
IC704, 705 IC
IC706 IC
Logic control
MPU/DSP
DC switch
IC707, 708 IC
IC709, 710 IC
Analog switch
FET
T/R switch(VCO)
DC switch
Logic control
FET
IC711
IC712
IC714
IC715
IC719
IC720
IC900
IC901
IC902
IC903
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
I/O expander
Q300, 301 FET
TX Pre-drive amp
TX drive amp
TX Final amp
DC switch
A/D converter
Q302
Q303
Q304
FET
FET
FET
Analog switch
D/A converter
D/A converter
Q305~307 Transistor
Q308, 309 FET
DC switch
Reset
DC switch
Logic control
Q500
Q501, 502 Transistor
Q503 FET
Transistor
RX local Buffer amp
LNA
DC AMP (25REF/VREF)
Codec
RX Band Switch
AF AMP
(No.RA032<Rev.001>)1-23
Ref.No
Q504
Part Name
FET
Description
DC switch
Ref.No
Part Name
Description
D505, 506 Diode
Overvoltage protection
Q600
Q601
FET
VCO oscillation
DC switch
D600, 601 VARI CAP DIODE VCO frequency control
DIGI
TRANSISTOR
D602
Diode array
Overvoltage protection
Reverse current prevention
Line protection
D700, 701 Diode
D702~706 Varistor
Q602
Q603
Q604
Q700
Q701
Transistor
Transistor
FET
Ripple filter
IF AMP
D708
Zener diode
Overvoltage protection
Reverse current prevention
Reverse current prevention
External speaker detection
Overvoltage protection
Line protection
IF AMP
D710, 711 Diode
Transistor
FET
TCXO buffer
DC switch
DC switch
DC switch
D801
D900
D903
D904
D905
D906
D907
D908
D909
Diode
Diode array
Zener diode
Diode array
Diode
Q703, 704 FET
Q705
DIGI
TRANSISTOR
Line protection
Q900, 901 FET
Audio mute
Zener diode
Diode
Overvoltage protection
Reverse current prevention
Line protection
Q902
Transistor
Audio mute
Q905, 906 FET
Q907, 908 FET
Audio mute
Diode array
Diode array
DC switch
External speaker detection
Line protection
D1
Zener diode
Overvoltage protection
Reverse current prevention
Overvoltage protection
Reverse current prevention
Surge protection
D910~915 Diode array
D2
Diode
D916
D917
Diode
Reverse current prevention
Overvoltage protection
Line protection
D3
Zener diode
Diode
Zener diode
D4
D918~920 Diode array
D5
Surge absorber
Diode
D921
D922
D923
D924
Diode
Reverse current prevention
Overvoltage protection
Line protection
D6
Backup battery charge
Reverse current prevention
Voltage regulator (50BU)
Reverse current prevention
DC-DC converter (54M)
DC-DC converter (200C)
Reverse current prevention
Overvoltage protection
Zener diode
Diode array
Diode
D7~10
D11
D12, 13
D14
D15
D16, 17
D100
D106
Diode
Zener diode
Diode
Reverse current prevention
Diode
2.5.2 Module (BT/GPS) unit (XC2-0031-80)
Ref.No Part Name Description
Level converter
Diode
Diode
IC1
IC2
IC3
IC4
IC5
IC
IC
IC
IC
IC
Zener diode
Voltage regulator (18BT)
Voltage regulator (33BT)
Voltage regulator (33GPS)
GPS/Bluetooth
VARI CAP DIODE VCO frequency control
D107~109 VARI CAP DIODE VCO assist tune
D110
D111
VARI CAP DIODE TX modulation
VARI CAP DIODE VCO frequency control
IC6, 7 IC
Level converter
D112~114 VARI CAP DIODE VCO assist tune
Q1
FET
DC switch
D115
D117
DIODE
Speed up
D17, 18 Diode
Overvoltage protection
Variable
capacitance diode
VCO assist tune
2.5.3 SUB (Display) unit (XC3-0020-20) (Only NX-5900)
D300
D304
Diode
Diode
T/R switch
Ref.No
IC1
Part Name
Description
Voltage regulator (50M)
Voltage regulator (30LCD)
Logic control
TX Reverse power detection
Antenna switch
IC
IC
IC
IC
IC
IC
IC
IC
IC
D305, 306 Diode
IC2
IC3
IC4
IC6
IC8
IC9
IC10
IC12
D307
SURGE
ABSORBER
Surge protection
Analog switch
D308
Diode
Antenna switch
Illuminance sensor
LED driver
D310, 311 Diode
Antenna switch
D312, 313 Zener diode
Overvoltage protection
Reverse current prevention
T/R switch
Logic control
D314
D500
Diode
Diode
I/O expander
Logic control
1-24 (No.RA032<Rev.001>)
Ref.No
Q2
Part Name
FET
Description
Pin No.
20 54M
Name
I/O
Function
DC switch
DC switch
O 5.4V output
Q3, 4
DIGI
CN749 (to Sub (Display) unit CN6)
TRANSISTOR
1
NC (IGN)
- No connection
Q6
DIGI
DC switch
(Ignition sense input)
TRANSISTOR
2
3
4
5
6
7
8
9
NC
- No connection
D1, 2
D4~7
D9~12
Zener diode
LED
Overvoltage protection
LED
GND
54M
GND
GND
18M
D[15]
D[14]
- Ground
O 5.4V output
LED
LED
- Ground
D14~16 LED
LED
- Ground
D20
D21
D22
Zener diode
Overvoltage protection
LED
O 1.8V output
LED
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
O LCD driver chip-serect signal
Diode
Overvoltage protection
Overvoltage protection
Surge protector
Overvoltage protection
D23, 24 Zener diode
D25 Varistor
10 D[13]
11 D[12]
12 D[11]
13 D[10]
14 D[9]
15 D[8]
16 D[7]
17 D[6]
18 D[5]
19 D[4]
20 D[3]
21 D[2]
22 D[1]
23 D[0]
24 /CS_LCD
25 DC
D26~32 Zener diode
2.6 TERMINAL FUNCTION
2.6.1 Main unit (XC1-1021-80)
Pin No.
Name
I/O
Function
CN4 (Ignition)
1
2
IGN
I
Ignition sense input
GND
- Ground
CN731 (for production)
- -
1~20 -
1
CN735 (to Module (BT/GPS) unit CN1)
GPS_PWR
GPS_ALM
I
I
Antenna power supply detection
Antenna open/short detection
2
3
4
5
6
O LCD driver data/command
switch signal
GND
- Ground
GND
- Ground
26 /WR_LCD
27 /RD_LCD
28 PRST
29 /KEYINT
30 I2CCK
31 I2CDT
32 GND
O LCD driver WR signal
O LCD driver RD signal
O LCD driver reset signal
GPS_ANT_SW
GPS_PA_EN
O Enable signal for 33GPS
O GPS receiver part switching
signal output
I
Key state change signal
7
8
BT_SHUTDOWN O Shutdown signal output
O I2C serial clock
I/O I2C serial data
- Ground
WCLK
O Audio serial data bus word clock
output
9
BCLK
O Audio serial data bus bit clock
output
33 USB_D-
34 USB_D+
35 GND
I/O USB0 PHY data minus
I/O USB0 PHY data plus
- Ground
10 BT_AUD_DI
11 BT_AUD_DO
12 RTS2
I
Audio signal input
O Audio signal output
O Serial data output
36 33M
O 3.3V output
13 CTS2
I
I
Serial data input
Serial data input
37 DM/KVL
38 GND
I/O MIC data detection
- Ground
14 G_RXD2
15 G_TXD2
16 BT_SW
17 GND
O Serial data output
O Enable signal for 33BT and 18BT
- Ground
39 RXD
I
Serial data input
40 TXD
O Serial data output
41 /PTT
I
I
PTT input
18 GND
- Ground
42 /PSW
Detection signal input of power
switch
19 54M
O 5.4V output
(No.RA032<Rev.001>)1-25
Pin No.
Name
I/O
Function
Pin No.
Name
TXD2
I/O
Function
Serial data input 2
43 AFO+
O AF signal output plus
O AF signal output minus
7
8
9
I
44 AFO-
45 MIC
46 ME
AUXIO4
AUXIO8
I/O AUX input/output 4
I/O AUX input/output 8
I/O AUX input/output 5
I/O AUX input/output 9
I
MIC signal input
- MIC ground
10 AUXIO5
11 AUXIO9
12 AUXO1
13 TXD0
14 AUXO2
15 RXD0
16 GND
17 ME
47 R_SET2
48 R_SET1
49 R_SET0
50 GND
I
I
I
Radio setting signal 2
Radio setting signal 1
Radio setting signal 0
I
I
I
AUX input1
Serial data input 0
AUX input2
- Ground
CN900 (to Sub (Display) unit CN2)
O Speaker output
O Serial data output 0
- Ground
1
2
3
4
SPO
SPG
GND
SB1
- Speaker ground
- MIC ground
- Ground
18 MI2
O External MIC signal output
O Switched power supply
CN906 (to Main unit B/2 CN907)
- No connection
19 DEO
20 GND
21 50A
I
RX detected signal input
- Ground
5V input
O Data signal output
1
NC
I
2~7 SB1
O Switched power supply
O RX filtered AF signal out
22 DI
8
9
AFO
DI
23 AFO
24~29 SB1
30 NC
I
I
RX filtered AF signal in
Switched power supply
I
Data signal input
10 50A
O 5V output
- No connection
CN910
11 GND
- Ground
12 DEO
O RX detected signal output
1
2
3
4
SB2
SPI
SPO
PA
O Switched power supply
O Speaker output
13 MI2
I
External MIC signal input
14 ME
- MIC ground
- Ground
I
Speaker input
15 GND
O Control signal of Pubilc address
function
16 RXD0
17 AUXO2
18 TXD0
19 AUXO1
20 AUXIO9
21 AUXIO5
22 AUXIO8
23 AUXIO4
24 TXD2
25 AUXIO3
26 RXD2
27 AUXIO2
28 AUXIO1
29 AUXIO7
30 AUXIO6
I
Serial data input 0
5
6
HOR
GND
O Control signal of Horn alert func-
tion
O AUX output2
O Serial data output 0
O AUX output1
- Ground
J700 (microSD)
I/O Data2
I/O AUX input/output 9
I/O AUX input/output 5
I/O AUX input/output 8
I/O AUX input/output 4
O Serial data output 2
I/O AUX input/output 3
1
2
3
4
5
6
7
8
9
DAT2
CD/DAT3
CMD
VDD
I/O Data3
I/O Command input/output
O 3.3V output
O Clock output
- Ground
CLK
VSS
I
Serial data input 2
DAT0
DAT1
CD
I/O Data0
I/O AUX input/output 2
I/O AUX input/output 1
I/O AUX input/output 7
I/O AUX input/output 6
I/O Data1
I
Card detect switch
10 COMMON
11 GND1
- Ground
- Ground
- Ground
CN907 (to Main unit A/2 CN906)
12 GND2
1
2
3
4
5
6
AUXIO6
I/O AUX input/output 6
I/O AUX input/output 7
I/O AUX input/output 1
I/O AUX input/output 2
O Serial data output 2
I/O AUX input/output 3
AUXIO7
AUXIO1
AUXIO2
RXD2
AUXIO3
1-26 (No.RA032<Rev.001>)
Pin No.
Name
I/O
Function
Pin No.
Name
I/O
Function
J901 (ACC. D-Sub 25-pin)
15 GPS_PA_EN
I
GPS receiver part switching
signal input
1
2
3
4
5
6
7
8
9
NC
-
I
16 GPS_ANT_SW
17 GND
I
-
Enable signal for 33GPS
Ground
RXD1
TXD1
AUXIO9
DI
O
I/O
I
18 GND
-
Ground
19 GPS_ALM
20 GPS_PWR
O
O
Antenna open/short detection
Antenna power supply detec-
tion
MI2
I
GND
AUXIO8
TXD2
-
2.6.3 Sub (Display) unit (XC3-0020-20)
I/O
O
I
Pin No.
Name
I/O
Function
10 RXD2
CN2 (to Main unit A/2 CN900)
11 GND
-
1
2
3
4
SP+
SPG
GND
SB
I
-
-
I
Speaker output
Speaker ground
Ground
12 AUXIO7
13 AUXIO6
14 SB
I/O
Refer to “D-sub 25-pin connector
specification”.
I/O
-
Switched power supply
15 AUXO2
16 AUXO1
17 AFO
O
CN4 (LCD)
O
1
2
VSSA
VSSA
VSSA
VCC
-
-
-
Ground
Ground
Ground
O
18 GND
-
3
19 DEO
O
4
O 3V output
O 3V output
20 AUXIO5
21 AUXIO4
22 AUXIO3
23 AUXIO2
24 AUXIO1
25 ME
I/O
I/O
I/O
I/O
I/O
-
5
VCC
6
VSSD
VSSD
VSSD
IOVCC
IOVCC
RDX
-
-
-
Ground
Ground
Ground
7
8
9
O 1.8V output
10
11
12
13
O 1.8V output
O LCD driver RD signal
O LCD driver WR signal
2.6.2 Module (BT/GPS) unit (XC2-0031-80)
WRX
DCX
Pin No.
Name
I/O
Function
O LCD driver data/command switch
signal
CN1(to Main unit A/2 CN735)
1
2
3
4
5
54M
I
I
-
-
I
5.4V input
5.4V input
Ground
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
CSX
DB1
O LCD driver chip-serect signal
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
I/O LCD driver data output
54M
GND
GND
BT_SW
DB2
Ground
DB3
Enable signal for 33BT and
18BT
DB4
DB5
6
7
8
9
G_TXD2
G_RXD2
CTS2
I
O
O
I
Serial data intput
Serial data output
Serial data output
Serial data input
Audio signal input
Audio signal output
DB6
DB7
DB8
RTS2
DB10
DB11
DB12
DB13
DB14
DB15
DB16
10 BT_AUD_DO
11 BT_AUD_DI
12 BCLK
I
O
I
Audio serial data bus bit clock
input
13 WCLK
I
I
Audio serial data bus word
clock input
14 BT_SHUTDOWN
Shutdown signal input
(No.RA032<Rev.001>)1-27
Pin No.
30
Name
DB17
I/O
I/O LCD driver data output
No connection
Function
Pin No.
33
Name
I/O
Function
D[5]
D[6]
D[7]
D[8]
D[9]
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
31
CABC
RESX
IM0
-
34
32
O LCD driver reset signal
O Interface mode select
35
33
36
34
LEDA
LED1
LED2
LED3
LED4
O 54M output (LED light anode)
37
35
I
I
I
-
LED light cathode 1
LED light cathode 2
LED light cathode 3
No connection
38
D[10]
D[11]
D[12]
D[13]
D[14]
D[15]
18M
36
39
37
40
38
41
CN5 (Internal speaker)
Speaker ground
42
1
2
SPG
SP+
-
43
O Speaker output
44
I
-
-
I
1.8V input
Ground
CN6 (to Main unit A/2 CN749)
45
GND
GND
54M
1
2
3
4
5
6
7
8
9
GND
-
Ground
46
Ground
R_SET0
R_SET1
R_SET2
ME
O Radio setting signal 0
O Radio setting signal 1
O Radio setting signal 2
47
5.4V input
Ground
48
GND
NC
-
-
-
49
No connection
-
MIC ground
50
NC (IGN)
No connection (Ignition sense in-
put)
MIC
O MIC signal output
J1 (MIC jack)
AFO-
I
I
AF signal input minus
AF signal input plus
1
BLC_4/D+2
I/O Back light control signal / USB
PHY data plus
AFO+
/PSW
O Detection signal input of power
switch
2
3
4
5
6
7
SB_2
O Switched power supply
GND
-
Ground
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
/PTT
O PTT output
PTT/TXD_3
ME_3
I/O PTT input / Serial data output
TXD
I
Serial data input
O Serial data output
Ground
I/O MIC data detection
-
I
MIC ground
RXD
MIC_3
MIC signal input
GND
-
HOOK/RXD/D-2 I/O Hook detection / Serial data input
/ USB PHY data minus
DM/KVL
33M
I
3.3V input
Ground
8
DM/KVL_3
I/O MIC data detection
GND
-
USB_D+
USB_D-
GND
I/O USB0 PHY data plus
I/O USB0 PHY data minus
-
Ground
I/O I2C serial data
I2C serial clock
O Key state change signal
I2CDT
I2CCK
/KEYINT
PRST
/RD_LCD
/WR_LCD
DC
I
I
I
I
I
LCD driver reset signal
LCD driver Read signal
LCD driver Write signal
LCD driver data/command switch
signal
27
28
29
30
31
32
/CS_LCD
D[0]
I
LCD driver chip-serect signal
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
I/O LCD driver data input
D[1]
D[2]
D[3]
D[4]
1-28 (No.RA032<Rev.001>)
2.6.4 D-Sub 25-pin connector specification
Rating and Condition
Pin No.
Pin Name
NC
I/O
Signal Type
Parameter
Min
Typ
Max
Unit
1
2
-
I
-
-
RXD1
Digital
Input Voltage Range
Threshold Low
Threshold High
Baud Rate
-30
0.5
30
V
V
1.3
1.60
2.45
V
-
300k
bps
pF
V
CL
100
3
4
TXD1
O
Digital
Voltage Swing (3kΩ Load)
Baud Rate
±5
-
±5.2
300k
bps
pF
V
CL
100
AUXIO9
I/O Digital
VIH
4
-0.5
4
-
-
-
-
5.2
1
VIL
V
VOH (Io=-1.5mA)
VOL (Io=1.5mA)
Input Voltage Range
Threshold Low
Threshold High
5.2
1.1
30
V
-
V
CTS (RS-232C) I
Digital
-30
0.5
V
1.3
1.75
0.5
V
2.6
-
V
5
6
DI
I
Analog
Input Voltage range
(STD Deviation)
-
Vp-p
Freq Response (STD Dev.)
20~9600Hz
-3
3
dB
RTS (RS-232C) O
Digital
Voltage Swing (3kΩ Load)
Audio Level (STD Deviation)
Allowable Freq
±5
±5.2
5
V
mVrms
Hz
MI2
I
Analog
-
300
-
-
3000
-
Input Impedance
600
Ω
7
8
GND
-
GND
AUXIO8
I/O Digital
VIH
4
-0.5
4
-
5.2
1
V
V
VIL
-
VOH (Io=-1.5mA)
-
5.2
1.1
5.2
1.1
V
VOL (Io=1.5mA)
-
-
V
9
TXD2
RXD2
O
I
Digital
Digital
GND
VOH (Io=-1.5mA)
3.7
-
-
V
VOL (Io=1.5mA)
-
100
-
V
CL
pF
V
10
VIH
VIL
CL
2.8
-
5.2
-
0.65
V
100
pF
11
12
GND
-
AUXIO7
I/O Digital
VIH
4
-0.5
3.7
-
-
-
-
-
-
-
-
-
5.2
1
V
V
V
V
V
V
V
V
VIL
VOH (Io=-1.5mA)
VOL (Io=1.5mA)
VIH
5.2
1.1
5.2
1
13
AUXIO6
I/O Digital
4
VIL
-0.5
3.7
-
VOH (Io=-1.5mA)
VOL (Io=1.5mA)
5.2
1.1
(No.RA032<Rev.001>)1-29
Rating and Condition
Min Typ
This parameter depends on Battery Voltage
Pin No.
Pin Name
SB
I/O
Signal Type
Power
Parameter
Max
Unit
14
-
Voltage
Supply Current
-
-
2
A
15
16
17
AUXO2
AUXO1
AFO
O
O
O
Digital
Digital
Analog
The type of this port is open collector.
VOL
0.4
V
IOL
-500
mA
The type of this port is open collector.
VOL
0.4
V
mA
Vp-p
uF
IOL
-500
Output Level
Coupling Capacitor
0.7
10
-
allowable Load
allowable freq
100
300
-
kΩ
3000
Hz
18
19
GND
DEO
-
GND
O
Analog
Output Level
-
-
0.28
10
-
-
-
Vp-p
uF
Coupling Capacitor
allowable Load
47
-6
-
kΩ
Frequ. Response (STD Dev)
1
dB
Wide
20~4800Hz
Wide
4800~7200Hz
-24
1
dB
dB
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
V
Narrow 20~4800Hz
-15
1
20
21
22
23
24
25
AUXIO5
AUXIO4
AUXIO3
AUXIO2
AUXIO1
ME
I/O Digital
I/O Digital
I/O Digital
I/O Digital
I/O Digital
VIH
4
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
5.2
1
VIL
-0.5
VOH (Io=-1.5mA)
4
5.2
1.1
5.2
1
VOL (Io=1.5mA)
-
VIH
4
VIL
-0.5
VOH (Io=-1.5mA)
4
5.2
1.1
5.2
1
VOL (Io=1.5mA)
-
VIH
4
VIL
-0.5
VOH (Io=-1.5mA)
VOL (Io=1.5mA)
VIH
4
5.2
1.1
5.2
1
-
4
VIL
-0.5
4
VOH (Io=-1.5mA)
VOL (Io=1.5mA)
VIH
5.2
1.1
5.2
1
-
4
VIL
-0.5
4
VOH (Io=-1.5mA)
VOL (Io=1.5mA)
This is GND port for Microphone.
5.2
1.1
-
-
Analog
1-30 (No.RA032<Rev.001>)
SECTION 3
DISASSEMBLY
3.1 Precautions for Disassembly
3.1.2 Removing the speaker hardware fixture (J2B-0023-
00) and holder (J1K-0019-00)
3.1.1 Main PCB (Main unit A/2) disassembly
(1) Remove all screws and antenna terminals on the Main
PCB.
(2) Rotate the bush of the power supply cable 90 degrees
counterclockwise as viewed from the rear of the chassis
<1> and remove the power supply cable from the chassis
<2>.
(3) When the speaker phone jack is pushed up, using your fin-
ger, from the rear of the chassis <3>, the Main PCB is re-
moved from the chassis.
(1) Remove the speaker lead from the holder hook. <1>
(2) Remove the speaker connector from the display unit con-
nector (CN5). <2>
(3) When removing the speaker hardware fixture, insert a flat-
head screwdriver at the position shown in Figure 2-1 and
tilt it in the direction shown by the arrow. <3>
(4) To remove the holder, insert a flat-head screwdriver into
tab of the holder and tilt it in the direction shown by the ar-
row. <4>
Note:
CN5
The Main PCB and D-sub PCB (Main unit B/2) are con-
nected with a flat cable.
Remove them carefully.
(4) Turn the Main PCB over and remove the flat cable from the
connector (CN906). <4>
<2>
(5) Remove the Main PCB from the chassis.
<3>
<1>
<1>
Fig.2-1
<2>
Fig.1-1
<4>
<3>
Fig.2-2
Fig.1-2
<4>
CN906
Fig.1-3
(No.RA032<Rev.001>)1-31
3.2 Precautions for Reassembly
3.2.1 Main PCB (Main unit A/2) reassembly
(1) With the Main PCB turned over, insert the flat cable from
the D-sub PCB (Main unit B/2) into the connector (CN906)
on the Main PCB.
CN4
(2) Place the Main PCB at its original position as shown in Fig-
ure 3.
Black
Red
IC911
C2
Fig.4-2
3.2.3 Remove the top cover from the shield cover
(1) There are five shield covers on the Main unit (A/2) and
Module (BT/GPS) unit, the top covers can be removed.
Shield cover
Fig.3
Module(BT/GPS) unit
3.2.2 Power supply cable installation procedure
(1) Pass the power supply cable through the chassis hole <1>
as shown in Figure 4-1 and insert the bush into the chassis
hole.
(2) Rotate the bush of the power supply cable 90 degrees
clockwise as viewed from the rear of the chassis. <2>
(3) Align the ignition sense connector (yellow) of the power
supply cable around the chemical capacitor (C401) and
connect it to the Main unit (A/2) connector (CN4).
(4) Align the + (positive) terminal of the power supply cable
(red) as shown in Figure 4-2 and fix it to the terminal strip
with a screw.
Shield cover
Main unit (A/2)
(5) Align the - (negative) terminal of the power supply cable
(black) as shown in Figure 4-2 and fix it to the terminal strip
with a screw.
(2) Use tweezers to slightly lift the edge of the top cover. <1>
(3) As you do step 2 above, vary the position you hold the top
cover as you lift it, and remove the top cover <2>.
<2>
Note:
Once the top cover is removed, it cannot be used again.
<1>
<1>
<2>
Fig.4-1
1-32 (No.RA032<Rev.001>)
Note:
Push evenly on the top cover and be careful that you do
3.2.6 Installing the holder (J1K-0019-00) and speaker hard-
ware fixture (J2B-0023-00)
not bend it as you install it on the shield cover.
(1) Insert two tabs of the holder (J1K-0019-00) into the hollows
in the top of the panel. <1>
(2) Push the two tabs of the holder in on the opposite side of
those in step 1 above and fit them into the hollow in the bot-
tom of the panel. <2>
Note:
Push in the holder until it snaps in place.
(3) Install the speaker holder onto the panel. <3>
3.2.4 Top packing installation procedure
(1) Place the top packing over the shielding plate.
(2) Fit the convex tab of the top packing into the hollow of the
chassis. <1>.
(3) Fit the chassis into the groove of the top packing. <2>
Verify that the top packing is in close contact with the chas-
sis.
Note:
To improve water resistance, fit the panel into the groove
of the holder.
(4) Place the speaker into the speaker holder.
Note:
The speaker must not ride on the holder rib.
(5) Place the spacer on the speaker.
(6) Insert the hardware fixture (J2B-0023-00) into the hollow of
the panel as shown in Figure 7-3, then push two parts of
the hardware fixture and fit it into the hollow of the top of the
panel. (Fig. 7-3 <4>)
<2>
<1>
Note:
Push in the hardware fixture until it snaps in place.
(7) Insert the speaker connector into the display unit connector
(CN5).
(8) Place the speaker lead on the holder hook.
<2>
<1>
Fig.5
3.2.5 D-sub cap installation procedure
To improve water resistance, fit the D-sub cap into the D-sub ter-
minal hardware fixture of the transceiver in the following order:
(1) Fit the left side <1> of the D-sub cap into the hardware fix-
ture.
(2) Fit the right side <2> of the D-sub cap into the hardware fix-
ture.
(3) Fit the center <3> of the D-sub cap into the hardware fix-
ture.
Fig.7-1
Spacer
Speaker
Speaker holder
<3>
Verify that the D-sub cap is in close contact with the hard-
ware fixture.
<1>
<2>
<3>
Fig.7-2
<4>
Fig.7-3
Fig.6
(No.RA032<Rev.001>)1-33
SECTION 4
ADJUSTMENT
4.1 Controls
4.2.2 Key operation
Key "Func" not appears on the sub LCD display
Power switch
Function
Display
Volume Up/Down key
Channel Up/Down key
[+]
Push: Volume up
Hold: Volume up continu-
ously
-
-
[-]
Push: Volume down
Hold: Volume down con-
tinuously
[]
[]
[]
[]
Push: Test channel up
Hold: Test channel up
continuously
Channel No.
MIC jack
Auxiliary (orange) key
KMC-36 (OPTION)
Push: Test channel down Channel No.
Hold: Test channel down
continuously
[PTT]
Keypad
Push: Squelch level up *1 Squelch level
Hold: Squelch off
Squelch off: icon
appears
Wide 5k/Wide 4k/Narrow/ Wide 5k: "w"
Very Narrow *2
Wide 4k: "s"
Narrow: "n"
Very Narrow: "v"
[
[
[
[
]
Shift to panel tuning
mode
-
4.1.1 Preparations for checking/tuning the transceiver
Before attempting to check/tune the transceiver, connect the unit
to a suitable power supply.
Whenever the transmitter is turned on, the unit must be connect-
ed to a suitable dummy load (i.e. power meter).
The speaker output connector must be terminated with an 4Ω
dummy load and connected to an AC voltmeter and an audio dis-
tortion meter or a SINAD measurement meter at all times during
checking/tuning.
]
Function on
"Func" appears on the
sub LCD display
]
MSK 1200bps and
2400bps *1
2400bps:
appears
icon
]
Push: Test signaling up Signaling No.
Hold: Test signaling up
continuously
[AUX
-
-
4.2 Panel Test Mode
(Orange)]
4.2.1 Test mode operation features
[PTT]
Transmit
-
-
-
This transceiver has a test mode. To enter test mode, press and
hold the [
] key while turning the transceiver power ON. Before
[0] to [9]
and
[#], [ ]
the transceiver enters test mode, the frequency version informa-
tion appears on the LCD momentarily. Test mode can be inhibit-
ed by programming. To exit test mode, turn the transceiver
power OFF. The following functions are available in test mode.
*1: When the mode is selected as Analog, this function is en-
abled.
• When the panel test mode is activated, the last used channel
and signaling numbers are displayed. When the panel test
mode is activated for the first time, the channel and signaling
numbers are 1.
*2: When the mode is selected as P25, bandwidth is fixed to Nar-
row.
Key
"Func" appears on the sub LCD display
• If test signaling 10 (P25 Phase1), 7 (P25 Phase2) and 7
(NXDN Mode) is selected, the result of Bit Error Rate (BER)
calculation is displayed on the LCD.
Function
Display
icon appears
[+]
P25 Modulation Type LSM :
(C4FM/LSM) *3
[-]
Function off
-
[]
[]
Talk Around on/off
On:
icon appears
Mode selection
Analog: "A"
Analog/P25 Phase1
/P25 Phase2/NXDN
P25 Phase1: "P1"
P25 Phase2: "P2"
NXDN: "N"
[]
-
-
1-34 (No.RA032<Rev.001>)
Key
"Func" appears on the sub LCD display
Key
"Func" appears on the sub LCD display
Function Display
Transmit
Function off
Function
Display
[]
Key/LCD check
The contents of the
pressed key etc.,
appear.
[PTT]
-
-
[0] to [9]
and
[
]
High power/Medium
power/Low power
High: "H"
Medium: "M"
Low: "L"
[#], [ ]
*3: When the mode is selected as P25, this function is enabled.
[
[
[
]
Function off
-
• LED indicator
Red LED Lights during transmission.
Green LED Lights when there is carrier.
]
Compander on/off
On:
icon appears
icon appears
]
External Speaker on/off On:
Function off
• Sub LCD indicator
"Func" Appears at function on.
[AUX
(Orange)]
-
• LCD display in panel test mode
Temperature
Power
(Power ON)
Sub LCD display
Main LCD display
Signaling
No.
(After 2sec.)
Channel No.
Type
Fx, Kx types are displayed
as "K".
Squelch level
(Analog mode only)
An : Analog narrow mode
Aw : Analog wide mode
As : Analog wide 4k mode
P1 : P25 Phase1 mode
P2 : P25 Phase2 mode
Nn : NXDN narrow mode
Frequency range
: 763~870MHz
Nv : NXDN very narrow mode
4.2.3 Frequency and Signaling
The transceiver has been adjusted for the frequencies shown in
the following table. When required, readjust them following the
adjustment procedure to obtain the frequencies you want in ac-
tual operation.
(2) Test signaling
Analog mode signaling
No.
RX
TX
1
None
None
(1) Test frequency
2
None
Square Wave
LTR Data
CH
RX (MHz)
763.05000
TX (MHz)
793.05000
3
LTR Data
QT:67.0Hz
QT:151.4Hz
QT:210.7Hz
QT:254.1Hz
1
4
QT:67.0Hz
QT:151.4Hz
QT:210.7Hz
QT:254.1Hz
DQT:D023N
DQT:D754I
2
769.05000
775.95000
763.55000
769.55000
775.45000
851.05000
860.05000
869.95000
851.55000
860.55000
869.45000
-
799.05000
805.95000
793.55000
799.55000
805.45000
806.05000
815.05000
824.95000
806.55000
815.55000
824.45000
-
5
3
6
4
7
5
8
DQT:D023N
DQT:D754I
6
9
7
10
DTMF Decode
(CODE: 159D)
DTMF Encode
(CODE: 159D)
8
9
11
12
None
DTMF Encode (CODE: 9)
10
11
12
2-tone Decode
(A: 304.7Hz, B: 3106.0Hz) B: 3106.0Hz)
2-tone Encode (A: 304.7Hz,
13
Single Tone Decode
(979.9Hz)
Single Tone Encode
(979.9Hz)
13~16
(No.RA032<Rev.001>)1-35
NXDN Mode signaling
No. RX
No.
14
RX
TX
TX
None
None
Single Tone Encode
(1000Hz)
1
2
3
RAN1
None
RAN1
RAN1
PN9
15
16
MSK PN9
MSK Decode
MSK Encode
Maximum Deviation
Pattern
P25 Phase1 signaling
No. RX
7
9
FSW + PN9
FSW + PN9
TX
NAC 293
Tone Pattern (1031Hz) Tone Pattern (1031Hz)
1
NAC 293
NAC 023
NAC 5EA
None
RAN: Radio Access Number
PN9: Pseudo-Random Pattern
No.7, 9 Item: PC test mode only
2
NAC 023
3
NAC 5EA
4
PN9
4.3 Panel Tuning Mode
5
NAC 293
NAC 293
NAC 293
NAC 293
None
Symbol Rate Pattern
1/3 Deviation Pattern
0 Continuous Pattern
Fidelity Pattern
FSW+PN9
4.3.1 Transceiver tuning (To enter tuning mode)
To enter tuning mode, press the [
is in test mode. Use the [
ing modes, and the [ ]/[ ] key to adjust tuning requirements
(1 to 4096 appears on the LCD).
Use the [
modes. Use the [
justments, and use the [ ] key to switch between Wide5k/
Wide4k/Narrow.
6
] key while the transceiver
] key to write tuning data through tun-
7
8
9
] key to select the adjustment item through tuning
] key to adjust 4, 6 or 8 reference level ad-
10
11
12
13
None
1011Hz Tone Test Pattern
1011Hz Tone Test Pattern
Silence Pattern
Tone Pattern
Silence Pattern
Audio Test Pattern
• LCD display in panel tuning mode
NAC293 + Audio Test Pat-
tern
CV voltage, AD value, etc
14
Vocoder Loop
None
Sub LCD
display
700MHz RX Low
2.6
An
RAST
256
P25 Phase2 signaling
No. RX
Main LCD
display
TX
Adjustment value
(1~4096)
Adjustment point
1
2
3
STTP-OB-1031-0
None
STTP-IB1031-1+Audio
PN9 Phase2
700MHz RX Low
700MHz RX Center
700MHz RX High
700MHz TX Low
700MHz TX High
800MHz TX Low
800MHz TX High
800MHz RX Low
800MHz RX Center
800MHz RX High
Proper value guide
(When the frequency
adjustment is necessary,
or is displayed.)
An: Analog narrow mode
As: Analog wide 4k mode
Aw: Analog wide mode
P1: P25 Phase1 mode
P2: P25 Phase2 mode
Nn: NXDN narrow mode
STTP-OB-1031-1
Symbol Rate Pattern
Phase2
Adjustment item
4
STTP-OB-1031-1
1/3 Deviation Pattern
Phase2
Nv: NXDN very narrow mode
5
6
7
STTP-OB-1031-1
STTP-OB-1031-1
STTP-OB-1031
0 Continuous Pattern
0 Burst Pattern
Symmetrical
STTP-IB1031-1
8
9
Tone Pattern (Half rate) STTP-IB1031-1
Silence Pattern
(Half Rate)
STP-IB-1 +
Silence Pattern (Half Rate)
10
11
12
Audio Test Pattern
(Half Rate)
STTP-IB1031-1 + Audio
Test Pattern (Half Rate)
Codec Loop
STTP-IB1031-1 + Codec
Loop
Vocoder Loop
(Half Rate)
STTP-IB1031-1 +
Vocoder Loop (Half Rate)
1-36 (No.RA032<Rev.001>)
4.3.2 Key operation
Key
RSSI Reference, Open Squelch, Low RSSI, High RSSI, Tight
Squelch
Function
Hold (1 second)
Continuation up
Tuning point
Display
RX (MHz)
TX (MHz)
Push
Volume up
700M RX/TA
Low
700M RX/TA 763.100000
Low
763.000000
[+]
[-]
Volume down
Continuation down
Continuation up
700M RX/TA
Center
700M RX/TA 769.100000
Center
769.000000
776.000000
851.000000
860.000000
870.000000
[ ]
[ ]
[ ]
[ ]
Adjustment value up
Adjustment value down Continuation down
700M RX/TA
High
700M RX/TA 775.900000
High
Auto adjustment start
-
-
800M RX/TA
Low
800M RX/TA 851.100000
Low
Wide5k/Wide4k/Narrow/
P25/NXDN
800M RX/TA
Center
800M RX/TA 859.900000
Center
[
[
]
Shift to panel test mode
-
]
To enter 4, 6 or 8 refer- -
ence level adjustments
800M RX/TA
High
800M RX/TA 869.900000
High
[
[
]
Writes the adjustment
value
-
Transmit Assist, Ramp Up Offset, Ramp Down Offset, High
Transmit Power, Medium Transmit Power, Low Transmit
Power, Balance, Maximum Deviation, P25 High Deviation,
P25 H-CPM Deviation, NXDN High Deviation
]
Go to next adjustment
item
Back to last adjustment
item (At the time of 4, 6 or
8 point adjustment: Ad-
justment point change)
Tuning point
Display
RX (MHz)
TX (MHz)
[AUX
Output tone pattern
-
700M RX/TA
Low
700M RX/TA 763.100000
Low
763.000000
(Orange)] change of balance ad-
justment (A change is
700M RX/TA
High
700M RX/TA 775.900000
High
776.000000
possible only during bal-
ance adjustment.)
700M TX Low 700M TX Low 763.100000
700M TX High 700M TX High 775.900000
800M TX Low 800M TX Low 851.100000
800M TX High 800M TX High 869.900000
793.000000
805.993750
806.000000
825.000000
851.000000
[PTT]
(MIC)
Transmit
[0] to [9]
and
[#],[
-
]
800M RX/TA
Low
800M RX/TA 851.100000
Low
(MIC)
4.3.3 4, 6 or 8 reference level adjustments frequency
Receive Assist
800M RX/TA
High
800M RX/TA 869.900000
High
870.000000
Tuning point
Display
RX (MHz)
TX (MHz)
700M RX/TA
Low
700M RX/TA 763.100000
Low
763.000000
700M RX/TA
High
700M RX/TA 775.900000
High
776.000000
851.000000
870.000000
800M RX/TA
Low
800M RX/TA 851.100000
Low
800M RX/TA
High
800M RX/TA 869.900000
HIgh
QT Deviation, DQT Deviation , LTR Deviation , DTMF Devi-
ation , MSK Deviation
Tuning point
Display
RX (MHz)
TX (MHz)
700M RX/TA
High
700M RX/TA 775.900000
High
776.000000
700M TX High 700M TX High 775.900000
800M TX High 800M TX High 869.900000
805.993750
825.000000
870.000000
800M RX/TA
High
800M RX/TA 869.900000
High
(No.RA032<Rev.001>)1-37
4.3.4 Adjustment item supplement
Adjustment Item
DTMF Deviation
Description
Adjustment Item
Receive Assist
Description
DTMF tone deviation is adjusted.
The lock voltage of VCO (Receive) is ad-
justed.
Single Tone Devia- The deviation of Single Tone used in “2-
This item must be adjusted before all ad-
justment items for receiver section are ad-
justed.
tion
tone” is adjusted.
MSK Deviation
CWID Deviation
MSK tone deviation is adjusted.
CWID tone deviation is adjusted.
Transmit Assist
Frequency
The lock voltage of VCO (Transmit) is ad-
justed.
This item must be adjusted before all ad-
justment items for transmitter section are
adjusted.
CWID is used to inform the others who is
transmitting on a 6.25-kHz spacing chan-
nel. (In FCC rule, Analog mode or CWID is
required for each channel-spacing.)
RSSI Reference
The minimum RSSI level for scan stop is
adjusted.
Frequency is adjusted under receiving
condition with SSG.
Open Squelch
Low RSSI
The squelch level at level “5” is adjusted.
The SSG needs 0.001ppm accuracy so
please use a standard oscillator if neces-
sary.
This item can be adjusted only in PC Test
Mode so that the adjustment value is not
changed easily.
RSSI display level “
“ is adjusted.
Both “Low RSSI” and “High RSSI” must be
adjusted. (The curve data of RSSI level is
applied.)
High RSSI
Tight Squelch
The squelch level at level “9” is adjusted.
Ramp Offset
Adjust this item to the optimal Ramp volt-
age.
High
Maximum High Maximum Power is adjusted.
Power
Medium Maximum Medium Maximum Power is adjusted.
Power
Low
Maximum Low Maximum Power is adjusted.
Power
High Transmit Pow- High Transmit Power Limit is adjusted.
er Limit
Medium Transmit Medium Transmit Power Limit is adjusted.
Power Limit
Low Transmit Pow- Low Transmit Power Limit is adjusted.
er Limit
High Transmit
Power
High Transmit Power is adjusted.
Medium Transmit Medium Transmit Power is adjusted.
Power
Low Transmit Pow- Low Transmit Power is adjusted.
er
Balance
The transmit modulation frequency re-
sponse is adjusted.
This item is adjusted so that the deviation
of 2kHz becomes the same deviation of
20Hz.
This item must be adjusted before all ad-
justment items for deviations are adjusted.
High Deviation
(P25/NXDN)
High Deviation of P25/NXDN is adjusted.
MaximumDeviation Maximum Deviation of Analog (Analog
(Analog Wide 5k/
Wide 4k/Narrow)
Wide 5k/Wide 4k/Narrow) is adjusted.
This item must be adjusted before all ad-
justment items for tone deviations are ad-
justed.
QT Deviation
DQT Deviation
LTR Deviation
QT tone deviation is adjusted.
DQT tone deviation is adjusted.
LTR tone deviation is adjusted.
1-38 (No.RA032<Rev.001>)
4.3.5 Adjustment item and Display
Order Adjusutment Main
Sub LCD
display
Aw
As
An
P1
P2
Nn
Nv
Adjust
item
item
LCD
(Analog (Analog (Analog (P25
(P25 (NXDN (NXDN
display
Wide) Wide 4k) Narrow) Phase1) Phase2) Nar-
row)
Very
Nar-
row)
Number
Adjustment range
1
2
3
4
5
Receive Assist
Transmit Assist
RTC Correction
RAST
TAST
RTC
(CV voltage)
Common
Section 2
4 point ADJ
1 ~ 4096
(CV voltage)
-
Common
Section 3
8 point ADJ
1 ~ 4096
Common
Section 5
-
-2.00~-0.01 ,0.00 ,+0.01~+2.00
8 point ADJ
Ramp Up Offset RAMPU (ADC measurement
value)
Transmitter
Section 1
1~1024
Ramp Down
Offset
RAMPD (ADC measurement
value)
Transmitter
Section 2
8 point ADJ
1~1024
-
-
8
8
8
8
8
8
8
8
8
8
8
-
-
-
-
-
-
-
-
-
-
-
-
8
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
8
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
8
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
8
-
-
Transmitter
Section 3
6
High Maximum
Power
MAX_H
MAX_M
MAX_L
H_LMT
-
1~256
-
-
Transmitter
Section 4
7
Medium
-
Maximum Power
1~256
-
-
Transmitter
Section 5
8
Low Maximum
Power
-
1~256
9
High Transmit
Power Limit
-
-
-
Transmitter
Section 6
1~256
10
11
12
13
14
15
16
17
18
19
20
21
Medium Transmit M_LMT
Power Limit
-
-
-
Transmitter
Section 7
1~256
Low Transmit
Power Limit
L_LMT
-
-
-
Transmitter
Section 8
1~256
High Transmit
Power
H_PWR
-
-
-
Transmitter
Section 9
1~1024
Medium Transmit M_PWR
Power
-
-
-
Transmitter
Section 10
1~1024
Low Transmit
Power
L_PWR
BAL
-
-
-
Transmitter
Section 11
1~1024
Balance
(Encode frequency)
-
-
Transmitter
Section 12
1~1024
Maximum
Deviation
ADEV
PDEV
-
-
8
8
-
Transmitter
Section 13
1~1024
-
P25 High
Deviation
Transmitter
Section 14
1~1024
P25 H-CPM
Deviation
P2DEV (RSSI measurement -
value)
-
-
Transmitter
Section 15
1~1024
NXDN High
Deviation
NDEV
QT
-
-
-
-
-
-
Transmitter
Section 16
1~1024
4
QT Deviation
4
4
4
4
Transmitter
Section 17
1~1024
4
DQT Deviation
DQT
Transmitter
Section 18
1~1024
(No.RA032<Rev.001>)1-39
Order Adjusutment Main
Sub LCD
display
Aw
As
An
P1
P2
Nn
Nv
Adjust
item
item
LCD
(Analog (Analog (Analog (P25
(P25 (NXDN (NXDN
display
Wide) Wide 4k) Narrow) Phase1) Phase2) Nar-
row)
Very
Nar-
row)
Number
Adjustment range
22
23
24
25
26
27
28
29
30
31
LTR Deviation
LTR
-
-
-
-
-
4
4
4
4
4
-
4
4
4
4
4
6
6
6
6
6
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
6
-
-
-
-
-
-
-
-
-
6
-
-
-
Transmitter
Section 19
1~1024
DTMF Deviation DTMF
4
-
Transmitter
Section 20
1~1024
Single Tone
Deviation
TONE
MSK
4
-
Transmitter
Section 21
1~1024
MSK Deviation
4
-
Transmitter
Section 22
1~1024
-
CW ID Deviation CWID
RSSI Reference RRSSI
-
Transmitter
Section 23
1~1024
(RSSI measurement -
value)
-
-
Receiver
Section 2
1~256
Open Squelch
Low RSSI
SQL
(ASQDET
measurement value)
6
6
-
6 *1
Receiver
Section 3
1~256
LRSSI
HRSSI
SQLT
(RSSI measurement -
value)
-
-
-
Receiver
Section 4
1~256
High RSSI
(RSSI measurement -
value)
-
Receiver
Section 5
1~256
Tight Squelch
(ASQDET
measurement value)
6
6
Receiver
Section 6
1~256
*1: When P25 Phase1 is selected, in C4FM and LSM, there is an adjustment item, respectively.
1-40 (No.RA032<Rev.001>)
4.3.6 Panel tuning mode flow chart
Note:
* In this Panel tuning mode flow chart, the Adjustment item name is modified.
Adjustment Item
LCD Display
For all adjustment items, press the [
to write the adjustment value.
N/W/VN
Panel Test Mode
QT Deviation
[
]
] key
DQT Deviation
LTR Deviation
DTMF Deviation
SingleTone Deviation
MSK Deviation
[
[
[
]hold
[
[
]
]
Adjustment Point
LCD Display
Adjustment Point
LCD Display
RX Assist
RAST
]press
4 reference level
Adjustments
Receive Assist
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
]hold
TX Assist
TAST
]press
8 reference level
Adjustments
[
[
[
[
]
]
]
]
[
[
[
[
]
]
]
]
4 reference level
Adjustments
700M RX/TA Low
700M RX/TA Low
4 reference level
Adjustments
700M RX/TA High
700M RX/TA High
]hold
[
]
[
]
]
]
RTC Correction
RTC
700M RX/TA High
700M RX/TA High
700M TX High
700M TX High
]press
[
]hold
]hold
]hold
[
[
]
]
[
]
[
8 reference level
Adjustments
Ramp Up
RAMPU
]press
800M RX/TA Low
800M RX/TA Low
800M TX High
800M TX High
[
[
[
]
8 reference level
Adjustments
Ramp Down
RAMPD
]press
800M RX/TA High
800M RX/TA High
800M RX/TA High
800M RX/TA High
[
[
]
[
[
[
[
[
[
]
]
]
]
]
]
[
]
High Max Power
MAX_H
Narrow
An
8 reference level
Adjustments
4 reference level
Adjustments exit
4 reference level
Adjustments exit
]press
[
]hold
Medium Max Power Narrow
MAX_M
]press
8 reference level
Adjustments
An
[
]hold
RSSI Reference
Open Squelch
Low Max Power
MAX_L
Narrow
An
8 reference level
Adjustments
Adjustment Point
LCD Display
Low RSSI
High RSSI
Tight Squelch
]press
[
]hold
High Power Limit
H_LMT
Narrow
An
8 reference level
Adjustments
]press
[
]hold
[
[
[
[
[
]
]
]
]
]
6 reference level
Adjustments
700M RX/TA Low
700M RX/TA Low
Medium Power Limit Narrow
M_LMT
]press
8 reference level
Adjustments
An
[
]
[
]hold
700M RX/TA Center
700M RX/TA Center
Low Power Limit
L_LMT
Narrow
An
8 reference level
Adjustments
[
]
]press
[
]hold
700M RX/TA High
700M RX/TA High
[
[
[
[
]
High Power
H_PWR
Narrow
An
8 reference level
Adjustments
[
]
]press
[
]hold
800M RX/TA Low
800M RX/TA Low
]
]
]
Medium Power
M_PWR
Narrow
An
8 reference level
Adjustments
[
]
]press
[
]hold
]hold
]hold
800M RX/TA Center
800M RX/TA Center
Low Power
L_PWR
]press
Narrow
An
8 reference level
Adjustments
[
]
[
[
]
800M RX/TA High
800M RX/TA High
Balance
BAL
]press
Narrow
An
8 reference level
Adjustments
[
]
[
6 reference level
Adjustments exit
[
]
[
]
[
]
Analog Max Deviation Narrow
Analog Max Deviation Wide4k
ADEV
Analog Max Deviation Wide5k
ADEV
]press
An
[
As
[
ADEV
Aw
[
]
]
]
8 reference level
Adjustments
[
[
[
]hold
Adjustment Point
LCD Display
Phase1
Narrow
P1
P25 High Deviation
PDEV
[
]
8 reference level
Adjustments
[
[
[
[
[
[
[
[
]
]
]
]
]
]
]
]
8 reference level
Adjustments
700M RX/TA Low
700M RX/TA Low
]press
[
]hold
[
]
Phase2
Narrow
P2
P25 H-CPM Deviation
P2DEV
8 reference level
Adjustments
[
]
700M RX/TA High
700M RX/TA High
[
]
]
]
]
]
[
[
[
]press
[
]hold
700M TX Low
700M TX Low
Transmit Assist
Ramp Up
Ramp Down
High Transmit Power
Medium Transmit Power
Low Transmit Power
Balance
Maximum Deviation
P25 High Deviation
P25 H-CPM Deviation
NXDN High Deviation
[
[
[
]
]
]
VeryNarrow
Nv
NXDN High Deviation Narrow
NXDN High Deviation
NDEV
[
700M TX High
700M TX High
[
NDEV
]press
Nn
[
8 reference level
Adjustments
]
[
]
[
]hold
[
]
[
[
]
]
QT Deviation
QT
Narrow
An
QT Deviation
QT
Wide4k
As
QT Deviation
QT
Wide5k
Aw
800M TX Low
800M TX Low
[
4 reference level
Adjustments
]press
[
]hold
[
]
[
]
[
]
[
]
800M TX High
800M TX High
[
DQT Deviation
DQT
Narrow
An
DQT Deviation
DQT
Wide4k
As
DQT Deviation
DQT
Wide5k
Aw
4 reference level
Adjustments
[
]
[
]
[
]
[
[
[
]press
[
]hold
800M RX/TA Low
800M RX/TA Low
[
]
[
[
]
]
[
[
]
]
LTR Deviation
LTR
Narrow
An
LTR Deviation
LTR
Wide4k
As
LTR Deviation
LTR
Wide5k
Aw
[
]
4 reference level
Adjustments
800M RX/TA High
800M RX/TA High
[
]
[
]
[
]
]press
[
]hold
[
]
[
]
DTMF Deviation
DTMF
Narrow
An
DTMF Deviation
DTMF
Wide4k
As
DTMF Deviation
DTMF
Wide5k
Aw
8 reference level
Adjustments exit
4 reference level
Adjustments
[
]
[
]
[
]
]press
[
]hold
[
]
[
]
[
[
]
Single Tone Deviation Narrow
Single Tone Deviation
TONE
Wide4k
As
Single Tone Deviation Wide5k
TONE
]press
An
[
TONE
Aw
[
4 reference level
Adjustments
]
[
]
]
[
[
[
]hold
[
]
]
[
]
MSK Deviation
MSK
Narrow
An
MSK Deviation Wide4k
MSK Deviation Wide5k
MSK
MSK
As
[
Aw
[
[
]
]
]
]press
[
]hold
4 reference level
Adjustments
CW ID Deviation
CWID
Narrow
An
[
[
]press
[
]hold
[
]
RSSI (Reference)
RRSSI
]press
Narrow
An
6 reference level
Adjustments
[
]hold
[
]
[
]
[
]
[
]
[
]
Squelch (Open)
SQL
Narrow
An
Squelch (Open) Wide4k
SQL
Squelch (Open) Wide5k
SQL
Squelch (Open) C4FM
Squelch (Open)
SQL
LSM”
P1
[
As
Aw
SQL
P1
[
[
]press
[
]hold
]hold
]hold
[
]
[
]
[
]
]
]
[
[
]
]
RSSI (Low)
LRSSI
Narrow
An
6 reference level
Adjustments
[
]
[
]
[
]
VeryNarrow
Nv
[
[
[
]press
[
Squelch (Open) Narrow
SQL
Squelch (Open)
SQL
Nn
RSSI (High)
HRSSI
Narrow
An
6 reference level
Adjustments
[
]
[
]
6 reference level
Adjustments
]press
[
[
]
[
]
[
]
Squelch (Tight)
SQLT
Narrow
An
Squelch (Tight)
SQLT
Wide4k
As
Squelch (Tight)
SQLT
Wide5k
Aw
]press
[
]hold
[
]
[
]
[
]
6 reference level
Adjustments
(No.RA032<Rev.001>)1-41
4.4 BER (Bit Error Rate) Measurement
(1) The Panel Test Mode is used to measure the BER (Refer
"4.2.1 Test mode operation features").
(For example, if the BER is 0.86%, the display shows
"0.86".)
(2) Select "10" (P25 Phase1), "7" (P25 Phase2) and "7"
(NXDN Mode) for test signaling (Refer to "4.2.3 Frequency
and Signaling" (2) Test signaling).
Note:
4.5 Adjustment points
"7" (NXDN Mode) can be selected only by PC test mode.
(3) Select a bandwidth (Narrow/Very Narrow) by pressing the
[ ] key. When P25 Phase1 or P25 Phase2 is selected, it
is not necessary to select a bandwidth.
(4) Select a test frequency ("4.2.3 Frequency and Signaling"
(2) Test signaling Test frequency).
MAIN UNIT (XC1-1021-80) (A/2)
Component side
(5) Measure the BER (Bit Error Rate) using the digital radio
tester.
RTC
Enter a standard input signal into the transceiver as a stan-
dard tone test pattern for P25, FSW+PN9 for NXDN.
(6) Adjust the input signal level to achieve the standard bit er-
ror rate (BER).
RTC
4.6 Test Equipment Required for Alignment
Test Equipment
Major Specifications
1. Standard Signal
Generator (SSG)
Frequency Range
Modulation
Output
100 to 900MHz
Frequency modulation and external modulation
-127dBm/0.1uV to greater than -20dBm/22.4mV
When performing the Frequency adjustment, the following accuracy is necessary.
• 0.001ppm
Use a standard oscillator for adjustments, if necessary.
2. Power Meter
Input Impedance
50Ω
Operation Frequency
Measurement Capability
100 to 900MHz
Vicinity of 100W
3. Deviation Meter
Frequency Range
100 to 900MHz
4. Digital Volt Meter
(DVM)
Measuring Range
Input Impedance
10mV to 20V DC
High input impedance for minimum circuit loading
5. Oscilloscope
DC through 30MHz
6. Frequency Counter
Frequency Range
Frequency Stability
10Hz to 1000MHz
0.2ppm or less
To measure the oscillating frequency of the internal clock 32766.00Hz~32770.00Hz for
RTC Correction Resolution 0.01Hz is better for accuracy adjustment.
7. Ammeter
20A or more
8. AF Volt Meter (AF VM)
Frequency Range
Voltage Range
50Hz to 10kHz
1mV to 10V
9. Audio Generator (AG)
10. Distortion Meter
Frequency Range
Output
50Hz to 5kHz or more
0 to 1V
Capability
Input Level
3% or less at 1kHz
50mV to 10Vrms
11. Spectrum Analyzer
12. 4Ω Dummy Load
Measuring Range
DC to 1GHz or more
Approx. 4Ω, 10W
13. Regulated Power Supply
13.6V, approx. 20A (adjustable from 9V to 17V)
Useful if ammeter equipped
*The test equipment which is not used for adjustment is contained in this table.
1-42 (No.RA032<Rev.001>)
Test cable for microphone input (E30-3360-28)
Tuning cable (E30-3383-05 or E30-7754-05)
Adapter cable (E30-3383-05 or E30-7754-05) is required for
injecting an audio if PC tuning is used.
GREEN
1
2
1
2
RED
See “PC Mode” section for the connection.
BLACK
BLUE
E
3
4
5
6
3
4
5
6
Illust is E30-3383-05.
PTT
MIC-E
MIC
SHIELD
WHITE
GRAY
HK
7
8
7
8
YELLOW
MIC connector (Front panel view)
1 : MBL
2 : +B
3 : GND
Lead wire +
8
Shield wire –
MIC
4 : PTT/TXD (PC serial data from radio)
5 : MICE
6 : MIC
7 : HOOK/RXD (PC serial data to radio)
8 : DM
1
4.7 Radio check Section
Item
Condition
PC test mode
Measurement
Adjustment
Specifica-
tions
/Remarks
Panel test
mode
Test-
Unit Terminal Unit Parts Method
equipment
1.
1)CH-Sig: 1-1
PTT: ON
1)Test Channel
Channel: 1
Test Signaling Mode: Analog
Signaling: 1
f. counter
Panel ANT
Check an ±0.25ppm
internal ±198.3Hz@7
tempera- 93.05MHz
ture of
Frequency
check
PTT: Press [Transmit] button.
radio from
20°C to
33°C.
2-1.
High
1)CH-Sig: 1-1
PTT: ON
1)Test Channel
Channel: 1
Power
meter
Panel ANT
Check
27.0W~30.0W
13.0A or less
power
check
[700M
band]
TA: OFF
Test Signaling Mode: Analog Ammeter
Signaling: 1
PTT: Press [Transmit] button.
2)CH-Sig: 2-1
PTT: ON
2)Test Channel
Channel: 2
TA: OFF
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3)CH-Sig: 3-1
PTT: ON
3)Test Channel
Channel: 3
TA: OFF
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
(No.RA032<Rev.001>)1-43
Item
Condition
PC test mode
Measurement
Adjustment
Specifica-
tions
/Remarks
Panel test
mode
Test-
Unit Terminal Unit Parts Method
equipment
2-2.
High
power
check
[700M
band
1)CH-Sig: 1-1
PTT: ON
TA: ON
1)Test Channel
Channel: 1
Test Signaling Mode: Analog Ammeter
Signaling: 1
Power
meter
Panel ANT
Panel ANT
Panel ANT
Check
Check
Check
27.0W~30.0W
13.0A or less
PTT: Press [Transmit] button.
2)CH-Sig: 2-1
PTT: ON
TA: ON
2)Test Channel
Channel: 2
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
Talk
around]
3)CH-Sig: 3-1
PTT: ON
TA: ON
3)Test Channel
Channel: 3
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
2-3.
High
power
check
[800M
band]
1)CH-Sig: 7-1
PTT: ON
TA: OFF
1)Test Channel
Channel: 7
Test Signaling Mode: Analog Ammeter
Signaling: 1
Power
meter
30.0W~40.0W
13.0A or less
PTT: Press [Transmit] button.
2)CH-Sig: 8-1
PTT: ON
TA: OFF
2)Test Channel
Channel: 8
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3)CH-Sig: 9-1
PTT: ON
TA: OFF
3)Test Channel
Channel: 9
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
2-4.
High
1)CH-Sig: 7-1
PTT: ON
1)Test Channel
Channel: 7
Power
meter
30.0W~40.0W
13.0A or less
power
check
[800M
band
Talk
TA: ON
Test Signaling Mode: Analog Ammeter
Signaling: 1
PTT: Press [Transmit] button.
2)CH-Sig: 8-1
PTT: ON
TA: ON
2)Test Channel
Channel: 8
Test Signaling Mode: Analog
Signaling: 1
around]
PTT: Press [Transmit] button.
3)CH-Sig: 9-1
PTT: ON
3)Test Channel
Channel: 9
TA: ON
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
1-44 (No.RA032<Rev.001>)
Item
Condition
PC test mode
Measurement
Adjustment
Specifica-
tions
/Remarks
Panel test
mode
Test-
Unit Terminal Unit Parts Method
equipment
3-1.
Low
power
check
[700M
band]
1)CH-Sig: 1-1
PTT: ON
TA: OFF
1)Test Channel
Channel: 1
Test Signaling Mode: Analog Ammeter
Signaling: 1
Power
meter
Panel ANT
Panel ANT
Panel ANT
Check
Check
Check
1.5W~2.0W
5.0A or less
PTT: Press [Transmit] button.
2)CH-Sig: 2-1
PTT: ON
TA: OFF
2)Test Channel
Channel: 2
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3)CH-Sig: 3-1
PTT: ON
TA: OFF
3)Test Channel
Channel: 3
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3-2.
Low
1)CH-Sig: 1-1
PTT: ON
TA: ON
1)Test Channel
Channel: 1
Test Signaling Mode: Analog Ammeter
Signaling: 1
Power
meter
1.5W~2.0W
5.0A or less
power
check
[700M
band
Talk
PTT: Press [Transmit] button.
2)CH-Sig: 2-1
PTT: ON
TA: ON
2)Test Channel
Channel: 2
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
around]
3)CH-Sig: 3-1
PTT: ON
TA: ON
3)Test Channel
Channel: 3
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3-3.
Low
1)CH-Sig: 7-1
PTT: ON
1)Test Channel
Channel: 7
Power
meter
1.5W~2.0W
5.0A or less
power
check
[800M
band]
TA: OFF
Test Signaling Mode: Analog Ammeter
Signaling: 1
PTT: Press [Transmit] button.
2)CH-Sig: 8-1
PTT: ON
2)Test Channel
Channel: 8
TA: OFF
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3)CH-Sig: 9-1
PTT: ON
3)Test Channel
Channel: 9
TA: OFF
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
(No.RA032<Rev.001>)1-45
Item
Condition
PC test mode
Measurement
Adjustment
Specifica-
tions
/Remarks
Panel test
mode
Test-
Unit Terminal Unit Parts Method
equipment
3-4.
Low
1)CH-Sig: 7-1
PTT: ON
1)Test Channel
Channel: 7
Power
meter
Panel ANT
Check
1.5W~2.0W
5.0A or less
power
check
[800M
band
Talk
around]
TA: ON
Test Signaling Mode: Analog Ammeter
Signaling: 1
PTT: Press [Transmit] button.
2)CH-Sig: 8-1
PTT: ON
TA: ON
2)Test Channel
Channel: 8
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
3)CH-Sig: 9-1
PTT: ON
3)Test Channel
Channel: 9
TA: ON
Test Signaling Mode: Analog
Signaling: 1
PTT: Press [Transmit] button.
4.
MIC
1)CH-Sig: 1-1
AG: 1kHz
1)Test Channel
Channel: 1
Deviation
meter
Panel ANT
Ext. SP
Adjust AG 5mV ±1mV
input to get
sensitivity
check
PTT: ON
Test Signaling Mode: Analog Oscillo-
connec-
tor
a standard
MOD.
Signaling: 1
AG: 1kHz
scope
AG
PTT: Press [Transmit] button. AF VM
5-1.
1)CH-Sig: 2-1
SSG output
Wide 5k:
-117dBm
(0.32μV)
(MOD:
1kHz/±3kHz)
Wide 4k:
-117dBm
(0.32μV)
(MOD:
1)Test Channel
Channel: 2
Test Signaling Mode: Analog Oscilloscope
Signaling: 1
SSG output
Wide 5k: -117dBm (0.32μV) 4Ω Dummy
(MOD: 1kHz/±3kHz)
Wide 4k: -117dBm (0.32μV)
(MOD: 1kHz/±2.4kHz)
Narrow: -117dBm (0.32μV)
(MOD: 1kHz/±1.5kHz)
SSG
AF VM
Panel ANT
Check
12dB SINAD
or more
Sensitivi-
ty check
[700M
band]
Ext. SP
connec-
tor
Distortion
meter
load
1kHz/
±2.4kHz)
Narrow:
-117dBm
(0.32μV)
(MOD: 1kHz/
±1.5kHz)
5-2.
1)CH-Sig: 8-1
SSG output
Wide 5k:
-117dBm
(0.32μV)
(MOD:
1kHz/±3kHz)
Wide 4k:
-117dBm
(0.32μV)
(MOD:
1)Test Channel
Channel: 8
Test Signaling Mode: Analog Oscilloscope
Signaling: 1
SSG output
Wide 5k: -117dBm (0.32μV) 4Ω Dummy
(MOD: 1kHz/±3kHz)
Wide 4k: -117dBm (0.32μV)
(MOD: 1kHz/±2.4kHz)
(Narrow: -117dBm (0.32μV)
(MOD: 1kHz/±1.5kHz)
SSG
AF VM
Panel ANT
Check
12dB SINAD
or more
Sensitivi-
ty check
[800M
band]
Ext. SP
connec-
tor
Distortion
meter
load
1kHz/
±2.4kHz)
Narrow:
-117dBm
(0.32μV)
(MOD: 1kHz/
±1.5kHz)
1-46 (No.RA032<Rev.001>)
4.8 Common Section
Item Condition
PC test mode
Measurement
Adjustment
Method
Specifications
/Remarks
Panel tuning
mode
Test- Unit Ter- Unit Parts
equip-
ment
minal
1.
1) DC voltage:13.6V
Setting 2) SSG standard modulation
[Wide 5k] MOD:1kHz,DEV:3kHz
[Wide 4k] MOD:1kHz,DEV:2.4kHz
[Narrow] MOD:1kHz,DEV:1.5kHz
2.
1) Adj item:
[RAST]
Adjust:[****] 2) Adj item:
1) Adj item:
[Receive Assist]
Panel [Panel [PC test mode]
tuning [Automatic
2.5V±0.1V
[Automatic
Adjustment]
After the automatic
adjustment is per-
Receive
Assist
mode] Adjustment]
2) Adj item:
[700M RX/
TA Low]→
[700M RX/
TA High]→
[800M RX/
TA Low]→
[800M RX/
TA High]
[Frequency:
[],
[]
[PC
test
1) Press [Tune Assist
Voltage] button.
2) Press [Apply All] but- formed, verify that
ton to store the adjust- the VCO lock volt-
700MHz Band]
[RX/TA Low]→
[RX/TA High]
[Frequency:
mode] ment value after the
age is within the
voltage range
which is specified
800MHz Band]
[RX/TA Low]→
[RX/TA High]
Press [Apply All]
button to store the
adjustment value.
[←],
[→]
automatic adjustment
has finished.
[Manual Adjustment] by the manual ad-
[V] indicator on the PC justment.
window shows VCO lock [Manual Adjust-
voltage. Change the ad- ment]
Adjust:[****]
Press [
]
key to store
the adjust-
ment value.
justment value to get
VCO lock voltage within button to store the
the limit of the specified adjustment value
Press [Apply All]
voltage.
after all adjustment
point have been
adjusted.
3.
1) Adj item:
[TAST]
Adjust:[****] 2) Adj item:
2) Adj item:
[700M RX/
TA Low]→
[700M RX/
TA High]→
[700M TX
Low]→
1) Adj item:
[Transmit Assist]
Panel [Panel
Transmit
Assist
tuning Note:
mode]
[],
[]
[PC
test
mode]
[←],
[→]
Confirm the VCO lock
voltage approximately Note:
3 seconds after the The assist adjust-
adjustment value is ment value must
changed.
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
[TX Low]→
[TX High]
[Frequency:
be between from
340 to 3550.
[700M TX
High]→
[800M TX
Low]→
[800M TX
High]→
800MHz Band]
[TX Low]→
[TX High]→
[RX/TA Low]→
[RX/TA High]
PTT Press
[800M RX/
TA Low]→
[800M RX/
TA High]
[Transmit] button.
Press [Apply All]
button to store the
adjustment value.
Adjust:[****]
PTT: ON.
Press [
]
key to store
the adjust-
ment value.
(No.RA032<Rev.001>)1-47
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifications
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
4.
*The Frequen- 1) Adj item:
SSG
Panel ANT Panel [Panel [PC test mode]
[PC test mode]
Frequency cy adjust-
ment can be
performed
[Frequency]
SSG output:
-20dBm (22.4mV)
(CW (without mod-
ulation))
tuning Press [Start] button of “IF20” value = With-
mode] "Auto Tuning". in 0±30 digits. The
Press [Apply] button to value of “IF20” will
store the adjustment become around “0”
value after the automatic after the adjustment
[],
[]
[PC
test
only in PC
test mode.
adjustment has
has finished.
Caution:
mode] finished.
Perform the fre-
quency adjustment
under the following
conditions.
[←],
[→]
Remark:
“Frequency” is
adjusted under
receiving condition
with SSG.
• Temperature range
of +20°C to +33°C
(+68.0°F to
+91.4°F).
(Thetemperatureis
displayed on the
Frequency adjust-
ment screen of the
KPG-D1/D1N and
the LCD of the
transceiver.)
• Use an accuracy of
0.001ppm for the
SSG. (Use a stan-
dard oscillator if
necessary.)
TEST
POINT
(CN715)
5.
RTC
1) Adj item:
[RTC]
1) Adj item:
[RTC Correction]
Data: [****]
Fre-
quen-
cy
Panel
[Panel [Panel tuning mode]
tuning Press [ ] key to store Change the adjust-
mode] the adjustment value.
Remaks:
Corre- Adjust:[****]
citon
ment value so that
the frequency cur-
Press [ ] key Press [Apply] key to Counte
to store the ad- store the adjustment r
justment val- value.
[
],
]
[PC test mode]
Press [Apply] button to rently displayed on
[
[PC
test
store the adjustment
value.
“Crystal Oscillation
Frequency” on the
PC window and the
frequency currently
displayed on the
ue.
mode]
[
←
],
]
[→
frequency counter
are in agreement.
1-48 (No.RA032<Rev.001>)
4.9 Transmitter Section
Item
Condition
PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Panel tuning
mode
Test- Unit Ter- Unit Parts
equip-
ment
minal
1.
1) Adj item:
1) Adj item:
Power Panel ANT Panel [Panel [PC test mode]
Ramp
up
Offset
[RAMPU]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[Ramp Up Offset] meter
tuning [Automatic Adjust-
mode] ment]
2) Adj item:
Ammeter
[Frequency:
[],
[]
[PC
test
1) Press [Tune Rump
Offset] button.
2) Press [Apply All] but-
ton to store the adjust-
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
[TX Low]→
mode] ment value after the
[700M TX Low]→ [TX High]
[700M TX
[←],
[→]
automatic adjustment
has finished.
[Frequency:
800MHz Band]
High]→
3) Check Ramp UP Off-
set Monitor Value Over
45.
[Manual Adjustment]
1) Set the adjustment
value to “1”.
2) Increase the adjust-
ment value slowly while
monitoring the offset
monitor value.
3) Set the adjustment
value when the offset
monitor value exceed
“50”.
[800M TX Low]→ [TX Low]→
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[TX High]→
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
PTT : ON
Press [ ] key to
store the adjust-
ment value.
2.
1) Adj item:
[RAMPD]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[Ramp Down
Offset ]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel [PC test mode]
Ramp
down
Offset
meter
tuning [Automatic Adjust-
Ammeter
mode] ment]
[],
[]
[PC
test
1) If "Automatic Adjust-
ment" is completed in
the item of "Ramp up
Offset", this item is Com-
mode] pleted in addition.
[←],
[→]
2) Check ''Ramp Down
Offset'' monitor value
under ''50'' with PTT ON
[Manual Adjustment]
1) Set the following val-
ue with reference to the
value that you applied in
the item of "Ramp up
Offset"
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[TX Low]→
[TX High]→
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
2)Write calcurated Val-
ue "Ramp up Offset-70".
3)If the subtraction re-
sult is less than "1", ap-
ply"1".
PTT : ON
Press [ ] key to
store the adjust-
ment value.
(No.RA032<Rev.001>)1-49
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
3.
High
Maxi-
mum
Power
1) Adj item:
[An MAX_H]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[High Maximum
Power]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel 45W (700M RX/TA Low, ±1.0W
meter
Ammeter
tuning 700M RX/TA High,
mode] 700M TX Low,
15.0A or less
[PC test
mode]
[],
[]
[PC
test
700M TX High)
40W (800M RX/TA Low,
800M RX/TA High,
800MHz TX Low,
Press [Apply
All] button to
store the
adjustment
value after all
adjustment
point was
adjusted.
mode] 800MHz TX High)
[←],
[→]
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : ON
Press [Apply All]
button to store the
adjustment value.
Press [ ] key to
store the adjust-
ment value.
4.
1) Adj item:
[An MAX_M]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[Medium Maximum meter
Power]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel 45W (700M RX/TA Low, ±1.0W
Medium
Maxi-
mum
power
tuning 700M RX/TA High,
mode] 700M TX Low,
15.0A or less
[PC test
Ammeter
[],
[]
[PC
test
700M TX High)
40W (800M RX/TA Low, Press [Apply
800M RX/TA High,
800MHz TX Low,
mode]
All] button to
store the
mode] 800MHz TX High)
[←],
[→]
adjustment
value after all
adjustment
point was
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
adjusted.
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : ON
Press [Apply All]
button to store the
adjustment value.
Press [ ] key to
store the adjust-
ment value.
1-50 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
5.
Low
Maxi-
mum
power
1) Adj item:
[An MAX_L]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[Low Maximum
Power]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel 45W (700M RX/TA Low, ±1.0W
meter
Ammeter
tuning 700M RX/TA High,
mode] 700M TX Low,
15.0A or less
[],
[]
[PC
test
700M TX High)
40W (800M RX/TA Low, mode]
800M RX/TA High,
800MHz TX Low,
[PC test
Press [Apply
All] button to
store the
mode] 800MHz TX High)
[←],
[→]
adjustment
value after all
adjustment
point was
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
adjusted.
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : ON
Press [Apply All]
button to store the
adjustment value.
Press [ ] key to
store the adjust-
ment value.
6.
1) Adj item:
[An H_LMT]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
Power Panel ANT Panel [Panel Write the value as
High
Trans-
mit
Power
Limit
[High Transmit
Power Limit]
2) Adj item:
meter
tuning followings.
Ammeter
mode] 256 (Fixed)
[],
[]
[PC
test
mode]
[←],
[→]
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : OFF
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
(No.RA032<Rev.001>)1-51
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
7.
1) Adj item:
[An M_LMT]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[Medium Transmit meter
Power Limit]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel Write the value as
Medium
Trans-
mit
Power
Limit
tuning followings.
Ammeter
mode] 256 (Fixed)
[],
[]
[PC
test
mode]
[←],
[→]
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : OFF
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
8.
1) Adj item:
[An L_LMT]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
Power Panel ANT Panel [Panel Write the value as
Low
Trans-
mit
Power
Limit
[Low Transmit
Power Limit]
2) Adj item:
meter
tuning followings.
Ammeter
mode] 256 (Fixed)
[],
[]
[PC
test
mode]
[←],
[→]
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : OFF
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
1-52 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
9.
High
Trans-
mit
Power
1) Adj item:
[An H_PWR]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[High Transmit
Power]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel [7RL]: 28.5W
±1.0W
13.0A or less
[PC test
meter
Ammeter
tuning [7RH]: 28.5W
mode] [7TL]: 28.5W
[],
[]
[PC
test
[7TH]: 28.5W
mode]
Press [Apply
All] button to
store the
adjustment
value after all
adjustment
point was
[8TL]: 35.0W
[8TH]: 35.0W
mode] [8RL]: 35.0W
[←],
[→]
[8RH]: 35.0W
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
adjusted.
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : ON
Press [Apply All]
button to store the
adjustment value.
Press [ ] key to
store the adjust-
ment value.
10.
1) Adj item:
[An M_PWR]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[Medium Transmit meter
Power]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel 1.75W
±0.2W
5.0A or less
[PC test
Medium
Trans-
mit
tuning
mode]
[],
[]
[PC
Note:
Medium transmit pow-
er is the purpose of
the custom power
(adjustment).
This power must be
lower than High trans-
mit power.
Ammeter
mode]
Power
Press [Apply
All] button to
store the
adjustment
value after all
adjustment
point was
adjusted.
test
mode]
[←],
[→]
[TX High]
[Frequency:
In the production, this
Medium transmit
power is adjusted at
1.75W.
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : ON
Press [Apply All]
button to store the
adjustment value.
Press [ ] key to
store the adjust-
ment value.
(No.RA032<Rev.001>)1-53
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
11.
Low
Trans-
mit
Power
1) Adj item:
[An L_PWR]
Adjust:[****]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
1) Adj item:
[Low Transmit
Power]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Power Panel ANT Panel [Panel 1.75W
±0.2W
5.0A or less
[PC test
meter
Ammeter
tuning
mode]
[],
mode]
[]
[PC
test
mode]
[←],
[→]
Press [Apply
All] button to
store the
adjustment
value after all
adjustment
point was
adjusted.
[TX High]
[Frequency:
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
PTT : ON
Press [Apply All]
button to store the
adjustment value.
Press [ ] key to
store the adjust-
ment value.
12.
Balance
*1
1) Adj item:
[An BAL]
1) Adj item:
[Balance]
Deviation meter
LPF: 3kHz
Devia- Panel ANT Panel [Panel The Deviation of 20Hz 2kHz Tone de-
tion
tuning frequency is fixed.
mode] Change the 2kHz ad-
viation is with-
in ± 1.0% of
20Hz tone de-
viation.
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX High]
[700M TX
meter
Oscillo-
scope
[],
[]
justment value to be-
come the same
HPF: OFF
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
[TX Low]→
[PC
test
deviation of 20Hz within
the specified range.
[PC test
mode]
[←],
[→]
mode]
Press [Apply
All] button to
(a supplementary
explanation:
Another way to adjust is store the
ready. adjustment
[Frequency:
800MHz Band]
(Same as TK-5910, the value after all
old model of NX-5900). adjustment
High]→
[800M TX Low]→ [TX Low]→
Press [AUX(Orange)]
point was
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
[TX High]→
key to switch the tone to adjusted.
100Hz square wave.
Then, make the demod-
ulation waveform shown
on oscilloscope into
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
square shape.)
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
*1 : Refer to the “4.9.1 Necessary Deviation adjustment item for each signaling and mode” table.
Balance adjustment is common with the adjustment of all signaling deviations.
1-54 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
13.
1) Adj item:
[Aw ADEV]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [RX/TA High]→
[700M TX
1) Adj item:
[Maxmum
Deviation
(Analog Wide 5k)] Oscil-
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
Devia- Panel ANT Panel [Panel Write fixed value for
4150~4250Hz
Maxi-
mum
Devia-
tion
tion
meter
tuning each adjustment point.
mode] (The value is written be- [PC test
[],
[]
[PC
test
low.) Transmit at each mode]
adjustment point and
check that the deviation All] button to
is between 4150Hz and store the
lo-
scope
Press [Apply
*2
[Analog
Wide
5k]
mode] 4250Hz.
adjustment
value after all
adjustment
point was
[←],
[→]
Deviation meter
LPF: 15kHz
HPF: OFF
adjusted.
[TX Low]→
[TX High]
[Fixed Value]
497
High]→
[800M TX Low]→ [Frequency:
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
800MHz Band]
[TX Low]→
[TX High]→
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
[Panel tuning mode]
PTT: ON
[PC test mode]
PTT: Press [Transmit]
button
[Analog 1) Adj item:
1) Adj item:
[Maxmum
Deviation
(Analog Wide 4k)] Oscil-
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
Devia- Panel ANT Panel [Panel Write fixed value for
3310~3410Hz
Wide
4k]
*2
[As ADEV]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
tion
meter
tuning each adjustment point.
mode] (The value is written be- [PC test
[],
[]
[PC
test
low.) Transmit at each mode]
adjustment point and
check that the deviation All] button to
is between 3310Hz and store the
lo-
scope
Press [Apply
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
mode] 3410Hz.
adjustment
value after all
adjustment
point was
[←],
[→]
Deviation meter
LPF: 15kHz
HPF: OFF
[700M TX Low]→ [RX/TA High]→
[700M TX
adjusted.
[TX Low]→
[TX High]
[Fixed Value]
498
High]→
[800M TX Low]→ [Frequency:
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
800MHz Band]
[TX Low]→
[TX High]→
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
[Panel tuning mode]
PTT: ON
[PC test mode]
PTT: Press [Transmit]
button
(No.RA032<Rev.001>)1-55
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write fixed value for
2050~2150Hz
Narrow]
*2
[As ADEV]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [RX/TA High]→
[700M TX
[Maxmum
Deviation
(Analog Narrow)]
Deviation meter
LPF: 15kHz
HPF: OFF
tion
tuning each adjustment point.
mode] (The value is written be- [PC test
meter
Oscil-
lo-
[],
[]
[PC
test
low.) Transmit at each mode]
adjustment point and
Press [Apply
scope
check that the deviation All] button to
is between 2050Hz and store the
2) Adj item:
mode] 2150Hz.
adjustment
value after all
adjustment
point was
[Frequency:
700MHz Band]
[RX/TA Low]→
[←],
Deviation meter
LPF: 15kHz
HPF: OFF
[→]
adjusted.
[TX Low]→
[TX High]
[Fixed Value]
495
High]→
[800M TX Low]→ [Frequency:
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
800MHz Band]
[TX Low]→
[TX High]→
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
[Panel tuning mode]
PTT: ON
[PC test mode]
PTT: Press [Transmit]
button
*2 : Refer to the “4.9.1 Necessary Deviation adjustment item for each signaling and mode” table.
Regarding Maximum Deviation (Analog), it is common with the adjustment of all analog signalings.
14. P25 1) Adj item:
1) Adj item:
[P25 High
Deviation]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
Devia- Panel ANT Panel [Panel Write fixed value for
2771~2883Hz
High
Devia-
tion
[P1 PDEV]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
tion
tuning each adjustment point.
mode] (The value is written be- [PC test
meter
Oscil-
lo-
[],
[]
[PC
test
low.) Transmit at each mode]
adjustment point and
check that the deviation All] button to
is between 2771Hz and store the
Press [Apply
scope
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
mode] 2883Hz.
adjustment
value after all
adjustment
point was
[←],
[→]
Deviation meter
LPF: 3kHz
HPF: OFF
[700M TX Low]→ [TX Low]→
[700M TX
adjusted.
[TX High]
[Frequency:
[Fixed Value]
502
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[Panel tuning mode]
PTT: ON
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
[PC test mode]
PTT: Press [Transmit]
button
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
1-56 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
15. P25 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write fixed value for
3090~3215Hz
H-CPM
Devia-
tion
[P2 P2DEV]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [TX Low]→
[700M TX
[P25 H-CPM
Deviation]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
[RX/TA High]→
tion
tuning each adjustment point.
mode] (The value is written be- [PC test
meter
Oscil-
lo-
[],
[]
[PC
test
low.) Transmit at each mode]
adjustment point and
Press [Apply
scope
check that the deviation All] button to
is between 3090Hz and store the
mode] 3215Hz.
adjustment
value after all
adjustment
point was
[←],
Deviation meter
LPF: 3kHz
HPF: OFF
[→]
adjusted.
[TX High]
[Frequency:
[Fixed Value]
482
High]→
[800M TX Low]→ 800MHz Band]
[800M TX
High]→
[TX Low]→
[TX High]→
[Panel tuning mode]
PTT: ON
[800M RX/TA
Low]→
[800M RX/TA
High]
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
[PC test mode]
PTT: Press [Transmit]
button
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
16.
NXDN
High
Devia-
tion
[NXDN
1) Adj item:
[Nn NDEV]
Adjust:[****]
Deviation meter
LPF: 3kHz
1) Adj item:
[NXDN High
Deviation
(NXDN Narrow]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA Low]→
Devia- Panel ANT Panel [Panel Write fixed value for
2995~3117Hz
tion
tuning each adjustment point.
mode] (The value is written be- [PC test
meter
Oscil-
lo-
[],
[]
[PC
test
low.) Transmit at each mode]
adjustment point and
check that the Analog
deviation is between
Press [Apply
HPF: OFF
scope
All] button to
store the ad-
justment val-
ue after all
adjustment
point was ad-
justed.
Narrow] 2) Adj item:
[700M RX/TA
mode] 2995Hz and 3117Hz.
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [RX/TA High]→
[700M TX
[←],
[→]
Deviation meter
LPF: 3kHz
HPF: OFF
[TX Low]→
[TX High]
[Fixed Value]
501
High]→
[800M TX Low]→ [Frequency:
[800M TX
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
800MHz Band]
[TX Low]→
[TX High]→
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
[Panel tuning mode]
PTT: ON
[PC test mode]
PTT: Press [Transmit]
button
(No.RA032<Rev.001>)1-57
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[NXDN 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write fixed value for
1311~1363Hz
Very
Narrow]
[Nv NDEV]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
High]→
[700M TX Low]→ [RX/TA Low]→
[700M TX
[NXDN High
Deviation
(NXDN Very Nar- Oscil-
row]
Deviation meter
LPF: 3kHz
tion
meter
tuning each adjustment point.
mode] (The value is written be- [PC test
[],
[]
[PC
test
low.) Transmit at each mode]
lo-
scope
adjustment point and
check that the Analog
deviation is between
Press [Apply
All] button to
store the ad-
justment val-
ue after all
adjustment
point was ad-
justed.
HPF: OFF
mode] 1311Hz and 1363Hz.
[←],
[→]
2) Adj item:
[Frequency:
700MHz Band]
Deviation meter
LPF: 3kHz
HPF: OFF
[RX/TA High]→
[TX Low]→
[Fixed Value]
501
High]→
[800M TX Low]→ [TX High]
[800M TX
[Frequency:
[Panel tuning mode]
High]→
[800M RX/TA
Low]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX Low]→
PTT: ON
[TX High]→
[PC test mode]
PTT: Press [Transmit]
button
[RX/TA Low]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
17. QT 1) Adj item:
1) Adj item:
[QT Deviation
(Analog Wide 5k)] meter
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
0.75kHz±0.05
kHz
Devia-
tion *3
[Aw QT]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Oscil-
lo-
[],
[]
[Fixed Value]
527
[Analog
Wide
5k]
scope
[PC
test
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
1-58 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
[QT Deviation
(Analog Wide 4k)] meter
Devia- Panel ANT Panel [Panel Write the value as fol-
0.60kHz±0.05
kHz
Wide
4k]
[An QT]
tion
tuning lowings.
mode]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
Deviation meter
LPF: 3kHz
Oscil-
lo-
[],
[]
[Fixed Value]
525
HPF: OFF
scope
[PC
test
mode]
[←],
[→]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
[Analog 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write the value as fol-
0.35kHz±0.05
kHz
Narrow]
[An QT]
[QT Deviation
(Analog Narrow)]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
tion
tuning lowings.
mode]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
[700M TA
High]→
[800M TX
meter
Oscil-
lo-
[],
[]
[Fixed Value]
525
scope
[PC
test
[Frequency:
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
(No.RA032<Rev.001>)1-59
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
18.DQT 1) Adj item:
1) Adj item:
[DQT Deviation
(Analog Wide 5k)] meter
Devia- Panel ANT Panel [Panel Write the value as fol-
0.75kHz±0.05
kHz
Devia-
tion *3
[Aw DQT]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Deviation meter
LPF: 3kHz
Oscil-
lo-
[],
[]
[Fixed Value]
428
[Analog
Wide
5k]
HPF: OFF
scope
[PC
test
mode]
[←],
[→]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
[Analog 1) Adj item:
1) Adj item:
[DQT Deviation
(Analog Wide 4k)] meter
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
0.60kHz±0.05
kHz
Wide
4k]
[As DQT]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Oscil-
lo-
[],
[]
[Fixed Value]
428
scope
[PC
test
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
1-60 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write the value as fol-
0.35kHz±0.05
kHz
Narrow]
[An DQT]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
[DQT Deviation
(Analog Narrow)]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
tion
tuning lowings.
mode]
meter
Oscil-
lo-
[],
[]
[Fixed Value]
428
scope
[PC
test
[Frequency:
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
19. LTR 1) Adj item:
1) Adj item:
[LTR Deviation
(Analog Wide 5k)] meter
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
1.00kHz±0.05
kHz
Devia-
tion *3
[Aw LTR]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Oscil-
lo-
[],
[]
[Fixed Value]
519
[Analog
Wide
5k]
scope
[PC
test
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
(No.RA032<Rev.001>)1-61
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
[LTR Deviation
(Analog Wide 4k)] meter
Devia- Panel ANT Panel [Panel Write the value as fol-
0.9kHz±0.05k
Hz
Wide
4k]
[As LTR]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Deviation meter
LPF: 3kHz
Oscil-
lo-
[],
[]
[Fixed Value]
519
HPF: OFF
scope
[PC
test
mode]
[←],
[→]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
[Analog 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write the value as fol-
0.75kHz±0.05
kHz
Narrow]
[An LTR]
Adjust:[****]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
[LTR Deviation
(Analog Narrow)]
Deviation meter
LPF: 3kHz
HPF: OFF
2) Adj item:
tion
tuning lowings.
mode]
meter
Oscil-
lo-
[],
[]
[Fixed Value]
519
scope
[PC
test
[Frequency:
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
1-62 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
mode
equip-
ment
minal
20.
1) Adj item:
[Aw DTMF]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
1) Adj item:
[DTMF Deviation
(Analog Wide 5k)] meter
Devia- Panel ANT Panel [Panel Write the value as fol-
2.50kHz±0.05
kHz
DTMF
Devia-
tion *3
tion
tuning lowings.
mode]
Deviation meter
LPF: 15kHz
Oscil-
lo-
[],
[]
[Fixed Value]
549
[Analog
Wide
5k]
HPF: OFF
scope
[PC
test
mode]
[←],
[→]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
[Analog 1) Adj item:
1) Adj item:
[DTMF Deviation
(Analog Wide 4k)] meter
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
2.00kHz±0.05
kHz
Wide
4k]
[An DTMF]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Oscil-
lo-
[],
[]
[Fixed Value]
549
scope
[PC
test
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
(No.RA032<Rev.001>)1-63
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write the value as fol-
1.25kHz±0.05
kHz
Narrow]
[An DTMF]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
[DTMF Deviation
(Analog Narrow)]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
tion
tuning lowings.
mode]
meter
Oscil-
lo-
[],
[]
[Fixed Value]
549
scope
[PC
test
[Frequency:
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
21.
1) Adj item:
[Aw TONE]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
1) Adj item:
[Single Tone
Deviation
(Analog Wide 5k)] Oscil-
Deviation meter
LPF: 15kHz
Devia- Panel ANT Panel [Panel Write the value as fol-
3.00kHz±0.05
kHz
Single
Tone
Devia-
tion
tion
meter
tuning lowings.
mode]
[],
[]
[Fixed Value]
515
lo-
scope
[PC
test
[Analog 2) Adj item:
HPF: OFF
Wide
5k]
[700M RX/TA
High]→
[700M TA
High]→
[800M TX
High]→
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA High]→
[TA High]
mode]
[←],
[→]
[Frequency:
[800M RX/TA
High]
800MHz Band]
[TX High]→
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
1-64 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
[Single Tone
Deviation
(Analog Wide 4k)] Oscil-
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
2.40kHz±0.05
kHz
Wide
4k]
[As TONE]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
meter
tuning lowings.
mode]
[],
[]
[Fixed Value]
515
lo-
scope
[PC
test
mode]
[←],
[→]
[700M TA
700MHz Band]
[RX/TA High]→
[TA High]
High]→
[800M TX
High]→
[800M RX/TA
High]
[Frequency:
800MHz Band]
[TX High]→
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
[Analog 1) Adj item:
1) Adj item:
[Single Tone
Deviation
(Analog Narrow)]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
1.50kHz±0.05
kHz
Narrow]
[An TONE]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
meter
Oscil-
lo-
[],
[]
[Fixed Value]
515
scope
[PC
test
mode]
[←],
[→]
[700M TA
700MHz Band]
[RX/TA High]→
[TA High]
High]→
[800M TX
High]→
[800M RX/TA
High]
[Frequency:
800MHz Band]
[TX High]→
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
[RX/TA High]
Press [Transmit]
button.
Press [Apply All]
button to store the
adjustment value.
(No.RA032<Rev.001>)1-65
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
22.MSK 1) Adj item:
1) Adj item:
[MSK Deviation
(Analog Wide 5k)] meter
Devia- Panel ANT Panel [Panel Write the value as fol-
3.00kHz±0.05
kHz
Devia-
tion *3
[Aw MSK]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Deviation meter
LPF: 15kHz
Oscil-
lo-
[],
[]
[Fixed Value]
504
[Analog
Wide
5k]
HPF: OFF
scope
[PC
test
mode]
[←],
[→]
2) Adj item:
[Frequency:
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
[Analog 1) Adj item:
1) Adj item:
[MSK Deviation
(Analog Wide 4k)] meter
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[Frequency:
Devia- Panel ANT Panel [Panel Write the value as fol-
2.40kHz±0.05
kHz
Wide
4k]
[As MSK]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
tion
tuning lowings.
mode]
Oscil-
lo-
[],
[]
[Fixed Value]
504
scope
[PC
test
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
1-66 (No.RA032<Rev.001>)
Item
Condition
Panel tuning PC test mode
mode
Measurement
Adjustment
Method
Specifica-
tions
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
Devia- Panel ANT Panel [Panel Write the value as fol-
1.50kHz±0.05
kHz
Narrow]
[An MSK]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
[700M RX/TA
High]→
[MSK Deviation
(Analog Narrow)]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
tion
tuning lowings.
mode]
meter
Oscil-
lo-
[],
[]
[Fixed Value]
504
scope
[PC
test
[Frequency:
mode]
[←],
[→]
700MHz Band]
[RX/TA High]→
[TA High]
[700M TA
High]→
[800M TX
[Frequency:
High]→
[800M RX/TA
High]
Adjust:[****]
PTT : ON
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
23.
1) Adj item:
[An CWID]
Adjust:[****]
Deviation meter
LPF: 15kHz
HPF: OFF
1) Adj item:
Devia- Panel ANT Panel [Panel Write the value as fol-
1.10kHz±0.10
kHz
CWID
Devia-
tion *3
[CWID Deviation
(Analog Narrow)]
Deviation meter
LPF: 15kHz
HPF: OFF
2) Adj item:
tion
tuning lowings.
mode]
meter
Oscil-
lo-
[],
[]
[Fixed Value]
502
[Analog
Narrow] 2) Adj item:
[700M RX/TA
scope
[PC
test
[Frequency:
mode]
[←],
[→]
High]→
[700M TA
High]→
[800M TX
High]→
[800M RX/TA
High]
700MHz Band]
[RX/TA High]→
[TA High]
[Frequency:
800MHz Band]
[TX High]→
[RX/TA High]
Press [Transmit]
button.
Adjust:[****]
PTT : ON
Press [ ] key to
store the adjust-
ment value.
Press [Apply All]
button to store the
adjustment value.
*3: Refer to the “4.9.1 Necessary Deviation adjustment item for each signaling and mode” table.
(No.RA032<Rev.001>)1-67
4.9.1 Necessary Deviation adjustment item for each signaling and mode
The following shows the necessary adjustment items for each signaling deviation. Please read the following table like the following
example. In the case of the signaling "QT (Wide 5k)", this signaling is composed of three elements [Balance, Maximum Deviation (An-
alog Wide 5k) and QT Deviation (Wide 5k)]. Please adjust Balance and Maximum Deviation (Analog Wide 5k) before adjusting QT
Deviation (Wide 5k).
Mode Signaling
Necessary adjustment and order
Wide 4k Narrow
1. Balance adjust
Wide 5k
Very Narrow
Analog Audio
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
-
2. Maximum Deviation
[Analog Narrow]
QT
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. QT Deviation
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
3. QT Deviation
1. Balance adjust
2. Maximum Deviation
[Analog Narrow]
3. QT Deviation
-
-
-
-
-
-
-
[Analog Wide 5k]
[Analog Wide 4k]
[Analog Narrow]
DQT
LTR
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. DQT Deviation
[Analog Wide 5k]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
3. DQT Deviation
[Analog Wide 4k]
1. Balance adjust
2. Maximum Deviation
[Analog Narrow]
3. DQT Deviation
[Analog Narrow]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. LTR Deviation
[Analog Wide 5k]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
3. LTR Deviation
[Analog Wide 4k]
1. Balance adjust
2. Maximum Deviation
[Analog Narrow]
3. LTR Deviation
[Analog Narrow]
DTMF
2TONE
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. DTMF Deviation
[Analog Wide 5k]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
3. DTMF Deviation
[Analog Wide 4k]
1. Balance adjust
2. Maximum Deviation
[Analog Narrow]
3. DTMF Deviation
[Analog Narrow]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. Single TONE Deviation 3. Single TONE Deviation 3. Single TONE Deviation
[Analog Wide 5k]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
1. Balance adjust
2. Maximum Deviation
[Analog Narrow]
[Analog Wide 4k]
[Analog Narrow]
MSK
(Fleet
sync)
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. MSK Deviation
[Analog Wide 5k]
1. Balance adjust
2. Maximum Deviation
[Analog Wide 4k]
3. MSK Deviation
[Analog Wide 4k]
1. Balance adjust
2. Maximum Deviation
[Analog Narrow]
3. MSK Deviation
[Analog Narrow]
P25
-
-
-
-
-
-
1. Balance adjust
2. P25 High Deviation
3. P25 High Deviation
(H-CPM)
NXDN Audio
CWID
1. Balance adjust
2. High Deviation
[NXDN Narrow]
1. Balance adjust
2. High Deviation
[NXDN Very
Narrow]
-
1. Balance adjust
2. Maximum Devia-
tion
[Analog Narrow]
3. CWID Deviatio
[Very Narrow]
• Balance is common with all the above deviation adjustments. If Balance (Transmitter Section 12) has already adjusted, please skip Step1
and adjust from Step2.
• Maximum Deviation (Analog Wide 5k/Wide 4k/Narrow) is common with all the analog signaling deviations and CWID Deviation (NXDN Very
Narrow).
If Balance and Maximum Deviation (Analog Wide 5k/Wide 4k/Narrow) (Transmitter Section 13) have already adjusted, please skip Step2
and adjust from Step3.
1-68 (No.RA032<Rev.001>)
4.10 Receiver Section
Item
Condition
PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Panel tuning mode
Test- Unit Ter- Unit Parts
equip-
ment
minal
1.
[Panel test mode]
1) Test Channel
Channel: 1
SSG
Panel ANT Panel [Panel Volume Up/Down knob to 1.41V
AF level 1) CH-Sig: 1-1
setting
DVM
AF VM
Dummy
load
Ext.
tuning obtain 1.41V AF output.
±0.1V
SSG output:
-47dBm (1mV)
(MOD: 1kHz/
±1.5kHz)
Test Signaling
Mode: Analog
Signaling: 1
SSG output:
-47dBm (1mV)
(MOD:1kHz/
±1.5kHz)
SP
mode] (0.5W @ 4Ω load)
con-
nector
[+], [-]
[PC
test
mode]
[←],
[→]
2. RSSI 1) Adj item:
1) Adj item:
SSG
Distor-
tion
meter
Oscil-
loscop
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ key to
store the adjustment val-
ue.
refer-
ence
[An RRSSI]
Adjust:[***]
[RSSI Reference
(Analog Narrow)]
2) Adj item:
Ext.
SP
con-
nector
[Analog 2) Adj item:
Narrow] [700M RX/TA
[Frequency:
Low]→
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[700M RX/TA
Center]→
[700M RX/TA
High]→
PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
12dB SINAD level
-3dB
12dB SINAD level
-3dB
(MOD: 1kHz/
±1.5kHz)
(MOD: 1kHz/
±1.5kHz)
3. Open 1) Adj item:
1) Adj item:
SSG
Distor-
tion
meter
Oscil-
loscop
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Squelch
[Analog
Wide
[Aw SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[Open Squelch
(Analog Wide 5k)]
2) Adj item:
Ext.
SP
con-
nector
5k]
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
[PC test mode]
[700M RX/TA
Center]→
[700M RX/TA
High]→
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
12dB SINAD level
-3dB
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
12dB SINAD level
-3dB
(MOD: 1kHz/±3kHz)
(MOD: 1kHz/
±3kHz)
(No.RA032<Rev.001>)1-69
Item
Condition
Panel tuning mode PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
[Open Squelch
(Analog Wide 4k)] tion
2) Adj item:
SSG
Distor-
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Wide
4k]
[As SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
Ext.
SP
con-
nector
meter
Oscillo-
scope
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
12dB SINAD level
-3dB
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
12dB SINAD level
-3dB
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
(MOD: 1kHz/
±2.4kHz)
(MOD: 1kHz/
±2.4kHz)
[Analog 1) Adj item:
1) Adj item:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Narrow]
[An SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[Open Squelch
(Analog Narrow)]
2) Adj item:
Ext.
SP
con-
nector
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
12dB SINAD level
-3dB
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
12dB SINAD level
-3dB
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
(MOD: 1kHz/
±1.5kHz)
(MOD: 1kHz/
±1.5kHz)
1-70 (No.RA032<Rev.001>)
Item
Condition
Panel tuning mode PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[P25
(C4FM)]
1) Adj item:
[P1 SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
1) Adj item:
[Open Squelch
(P25 C4FM)]
2) Adj item:
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Ext.
SP
con-
nector
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
12dB SINAD level
at Analog Narrow
12dB SINAD level -1dB
at Analog Narrow
-1dB
(MOD: 1kHz/
±2.2kHz)
(MOD: 1kHz/
±2.2kHz)
[P25
(LSM)]
1) Adj item:
[P1 SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
1) Adj item:
[Open Squelch
(P25 LSM)]
2) Adj item:
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Ext.
SP
con-
nector
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
12dB SINAD level at
Analog Narrow
12dB SINAD level -3dB
at Analog Narrow
-3dB
(MOD: 1kHz/
±3.3kHz)
(MOD: 1kHz/
±3.3kHz)
(No.RA032<Rev.001>)1-71
Item
Condition
Panel tuning mode PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[NXDN 1) Adj item:
1) Adj item:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Narrow]
[Nn SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[Open Squelch
(NXDN Narrow)]
2) Adj item:
Ext.
SP
con-
nector
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
12dB SINAD level at
Analog Narrow
[800M RX/TA
High]
SSG output:
12dB SINAD level -1dB
at Analog Narrow
-1dB
(MOD: 400Hz/
±2.5kHz)
(MOD: 400Hz/
±2.5kHz)
[NXDN 1) Adj item:
1) Adj item:
[Open Squelch
(NXDN Very
Narrow)]
2) Adj item:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Very
Narrow]
[Nv SQL]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
Ext.
SP
con-
nector
[Frequency:
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800RX/TA
Ceter]→
[800M RX/TA
High]
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
SSG output:
12dB SINAD level at
12dB SINAD level Analog Narrow
at Analog Narrow
-3dB
(MOD: 400Hz/
±1.2kHz)
-3dB
(MOD: 400Hz/
±1.2kHz)
1-72 (No.RA032<Rev.001>)
Item
Condition
Panel tuning mode PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
4.
Low
1) Adj item:
[An LRSSI]
Adjust:[***]
1) Adj item:
[Low RSSI (Analog
Narrow)]
2) Adj item:
[Frequency:
SSG
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Ext.
SP
con-
nector
RSSI
[Analog 2) Adj item:
Narrow]
[700M RX/TA
Low]→
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
-118dB(0.28μV)
(MOD: 1kHz/
±1.5kHz)
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
-118dB(0.28μV)
(MOD: 1kHz/
±1.5kHz)
5.
High
RSSI
1) Adj item:
[An HRSSI
Adjust:[***]
1) Adj item:
[High RSSI
(Analog Narrow)]
2) Adj item:
[Frequency:
SSG
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Ext.
SP
con-
nector
[Analog 2) Adj item:
Narrow] [700M RX/TA
Low]→
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
-80dB(22.4μV)
(MOD: 1kHz/
±1.5kHz)
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
-80dB(22.4μV)
(MOD: 1kHz/
±1.5kHz)
(No.RA032<Rev.001>)1-73
Item
Condition
Panel tuning mode PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
6.
Tight
1) Adj item:
[Aw SQLT]
Adjust:[***]
1) Adj item:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
[Tight Squelch
(Analog Wide 5k)]
2) Adj item:
Ext.
SP
con-
nector
Squelch
[Analog 2) Adj item:
Wide
5k]
[700M RX/TA
Low]→
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
12dB SINAD
SSG output:
12dB SINAD
level at Analog Wide
5k +6dB
level at Analog (MOD: 1kHz/±3kHz)
Wide 5k +6dB
(MOD: 1kHz/
±3kHz)
[Analog 1) Adj item:
1) Adj item:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Wide
4k]
[As SQLT]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[Tight Squelch
(Analog Wide 4k)]
2) Adj item:
Ext.
SP
con-
nector
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[800M RX/TA
High]
SSG output:
12dB SINAD
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
12dB SINAD
level at Analog Wide
4k +6dB
level at Analog (MOD: 1kHz/
Wide 4k +6dB
(MOD: 1kHz/
±2.4kHz)
±2.4kHz)
1-74 (No.RA032<Rev.001>)
Item
Condition
Panel tuning mode PC test mode
Measurement
Adjustment
Method
Specifi-
cations
/Remarks
Test- Unit Ter- Unit Parts
equip-
ment
minal
[Analog 1) Adj item:
1) Adj item:
SSG
Distor-
tion
meter
Oscillo-
scope
Panel ANT Panel
[Panel tuning mode]
After input signal from
SSG, press [ ] key to
store the adjustment val-
ue.
Narrow]
[As SQLT]
Adjust:[***]
2) Adj item:
[700M RX/TA
Low]→
[Tight Squelch
(Analog Narrow)]
2) Adj item:
Ext.
SP
con-
nector
[Frequency:
700 MHz Band]
[RX/TA Low]→
[RX/TA Center]→
[RX/TA High]
[Frequency:
800MHz Band]
[RX/TA Low]→
[RX/TA Ceter]→
[RX/TA High]
SSG output:
[700M RX/TA
Center]→
[700M RX/TA
High]→
[800M RX/TA
Low]→
[800M RX/TA
Ceter]→
[PC test mode]
After input signal from
SSG, press [Apply] button
to store the adjustment
value.
[800M RX/TA
High]
12dB SINAD
SSG output:
12dB SINAD
level at Analog
Narrow +6dB
level at Analog (MOD: 1kHz/
Narrow +6dB
(MOD: 1kHz/
±1.5kHz)
±1.5kHz)
(No.RA032<Rev.001>)1-75
SECTION 5
TROUBLESHOOTING
5.1 Fault Diagnosis of the BGA (Ball Grid Array) IC
Overview
A flowchart for determining whether or not the transceiver can be powered on (the LCD does not function even if the power switch
is turned on) due to broken BGA parts.
BGA parts
MPU/DSP (IC706), mobile DDR (IC702), Flash memory (IC701)
When the BGA IC is problematic, please bring the printed circuit board (XC1-1021-81) in for service. Various ESN/ default adjust-
ment values are written on the printed circuit board for service.
Additionally various ESN stickers are included. (Please refer to "5.4 Replacing Main Unit".)
After the printed circuit board has been readjusted, please attach any ESN stickers to the chassis. When "ESN Validation" is used,
you must modify the ESN register.
Checking power supply voltage
Checking voltage
Checking for an abnormal point
Points to be checked
Normal voltage
12M has an abnormal voltage.
[MPU/DSP]
12M C39
1.2V
1.8V
3.3V
1.8V
Remove L714 and L715 and L717 to check
the voltage of the 12M.
18M C64
33M IC5 (5 pin)
18M_3 IC9 (1 pin)
If the voltage becomes normal, the MPU/DSP
is broken.
When an abnormal
value is confirmed.
Power supply of each device is connected through
the coil.
Note:
A1(12M DC/DC Converter Device) is fragile
in the scratch.
[MPU/DSP]
12M L714, L715, L717
18M L720, L721
33M L722
Be careful when you touch this parts.
18M has an abnormal voltage.
[MPU/DSP]
Remove L720 and L721 to check the voltage
of the 18M.
[mobile DDR]
18M L702
If the voltage becomes normal, the MPU/DSP
is broken.
[Flash Memory]
33M L700
[mobile DDR]
18M_3 L724
Remove L702 to check the voltage of the 18M.
If the voltage becomes normal, the mobile DDR
is broken.
When a normal
value is confirmed.
Checking the clock
Checking the clock
When an abnormal
value is confirmed.
33M has an abnormal voltage.
[MPU/DSP]
Points to be checked
Normal voltage (1.2V)
19.2MHz
Remove L722 to check the voltage of the 33M.
If the voltage becomes normal, the MPU/DSP
is broken.
19.2MHz
MPU/DSP side R708
When a normal
value is confirmed.
[Flash Memory]
Checking the Reset/Control signal
Remove L700 to check the voltage of the 33M.
If the voltage becomes normal, Flash memory
is broken.
Checking the control signal input to the MPU/DSP
Normal voltage
Points to be checked
18M_3 has an abnormal voltage.
[Flash Memory]
/RST D12 (Anode side)
/BINT IC2 (13 pin)
1.8V
3.1V
3.1V
When an abnormal
value is confirmed.
Remove L724 to check the voltage of the
18M_3. If the voltage becomes normal,
Flash memory is broken.
/OVRB_OUT IC2 (12 pin)
When a normal
value is confirmed.
If the voltage is not corrected, there is a
problem other than the BGA parts. *1
Checking the MPU/DSP input switch signal
The POWER key is pressed and held.
Points to be checked
Confirmed voltage
ON 0V
/PSW_OUT IC2 (15 pin)
The BGA parts are not broken.
The ignition key is kept ON.
Points to be checked
The BGA parts are not broken.
Check the peripheral circuit of IC2. *2
Confirmed voltage
ON 0V
/IGN_OUT IC2 (9 pin)
When an abnormal
value is confirmed.
When a normal
value is confirmed.
1-76 (No.RA032<Rev.001>)
Checking the output signal
from the MPU/DSP.
Checking the control signal output from
the MPU/DSP
If the /FRST is always 0V, the MPU/DSP
is broken.
When an abnormal
value is confirmed.
Points to be checked
Normal voltage
Remove D701 to check the voltage of
Flash memory side R732.
/FRST
D701(Anode side)
1.8V
If the voltage becomes abnormal, Flash
memory is broken.
When a normal
value is confirmed.
If the IC704 (1 pin) is 0V or 1.8V,
the MPU/DSP may be broken.
If the IC704 (2 pin) is 0V or 1.8V,
the MPU/DSP or Flash memory may be
broken.
Points to be checked
/CS_FIC704(4 pin)
Normal voltage
When an abnormal
value is confirmed.
After power-on,
and
1.8V fixed later
When a normal
value is confirmed.
When an abnormal
value is confirmed.
Remove R51 to check the voltage of the SBC.
if the MPU/DSP side is 0V,
the MPU/DSP or Flash Memory or mobile DDR
may be broken.
Normal voltage
3.3V
Points to be checked
SBC MPU/DSP side R51
When a normal
value is confirmed.
The LCD displays control
Points to be checked
Normal voltage
The BGA parts are not broken.
Remove the FFC of Main unit between
Sub (Display) unit.
If the voltage becomes normal, the FFC or
Sub (Display) unit is broken.
When an abnormal
value is confirmed.
54M C841
18M C839
33M C820
5.36V
1.8V
3.3V
When a normal
value is confirmed.
The LCD displays control
When an abnormal
value is confirmed.
Normal voltage
3.3V
Remove Q703.
Points to be checked
PRST
D801(Cathode side)
If the MPU/DSP side is 3.3V, the MPU/DSP
or Flash memory or mobile DDR may be
broken.
When a normal
value is confirmed.
/CS_LCD has an abnormal voltage.
Check each of the following items.
Check to see the terminal of L731 and
CP717.
Points to be checked
Normal voltage
/CS_LCD CP717 (8 pin)
After power-on
and
When an abnormal
value is confirmed.
1.8V fixed later
Remove the FFC of Main unit between
Sub (Display) unit.
As a result, if the abnormality yet, the
MPU/DSP or Flash memory or mobile DDR
may be broken.
When a normal
value is confirmed.
It is unlikely that the BGA parts are broken.
When an error display appears on the LCD.
The LCD displays “INIT ERROR 1”.
An error occurs when the mobile DDR
internal RAM reads or writes.
The mobile DDR may be broken.
Check the flowchart from beginning.
Descriptions of signal names
(1) /RST
(2) /BINT
(3) /OVRB_OUT :Battery overvoltage monitoring
(4) /PSW_OUT :Power switch signal
(5) /IGN_OUT :Ignition switch signal
:MPU/DSP reset signal
:Battery final voltage monitoring
LOW Reset
LOW Final voltage
LOW Overvoltage
LOW ON
LOW ON
LOW Reset
(6) /FRST
(7) /CS_F
(8) SBC
(9) 30LCD
(10) PRST
:Flash Memory reset signal
:Flash Memory chip select signal LOW Active
:Switch +B control HIGH ON
:LCD module control 3.0V power supply
:LCD reset signal LOW Reset
(11) /CS_LCD :LCD controller chip select signal LOW Active
(No.RA032<Rev.001>)1-77
*1 If 12M, 18M or 33M has still abnormal voltage after the implementation of each procedure above, 54M(IC8), 12M(A1), 18M(IC11),
33M(IC5) or one of these peripheral circuit is broken.
54M (normally 5.4V at L12) has an abnormal voltage, check the MSP430G25KGCA (IC2) according to the following procedure.
Checking the operation of the IC2
When VIN of 54M
Check that the voltage of VN of 54M (IC8-2pin)
is 13.6V.
is 0V.
Check the voltage (13.6V [operating voltage range]) at both ends
of F1 (fuse). If F1 is broken, replace the F1 with a new one.
If F1 is not broken, 54M (IC8) or its peripheral cricuit is broken.
Standard Voltage/Operating Voltage range
13.6V/13.6 15%
When VIN of 54M is
out of operating
voltage range.
Set the supply voltage within the operating
voltage range. If set correctly, 54M (IC8) or its
peripheral circuit is broken.
When VIN of 54M
is 13.6V.
When the voltage of
BAT_CNT is not High.
Check that the signal BAT_CNT
of IC2-7pin outputs High (3.1V).
54M (IC8) or its peripheral circuit is broken.
When the voltage of
BAT_CNT is not High.
When the voltage DVCC
of IC2 is 3.1V.
IC2, 31BU, 50BU or one of these peripheral circuit
is broken.
Check that the voltage of DVCC of IC2-1pin is 3.1V.
When the voltage of
DVCC of IC2 is 3.1V.
When a normal
value is confirmed.
IC2 is broken.
Check that the analog voltage
of /BINT (IC2-5pin) is normal. (typically 2.6V.
Operating voltage range is 1.6V 3.0V).
When the voltage out-of-
Set the supply voltage within the operating
voltage range. If set correctly, IC2 or its
peripheral circuit is broken.
range condition is confirmed.
*2
Checking the operation of the IC2 (/RST)
When the analog voltage of
/RST(IC2-6pin) is normal.
When the signal /RST (IC2-14pin) has an
abnomal output, check that the analog voltage of
IC2 is broken.
/RST (IC2-6pin) is normal. (typically 2.7V.
Minimum detection voltage is 2.0V.).
When the analog voltage of
/RST (IC2-6pin) is below
2.0V.
IC2, 54M (IC8) or its peripheral circuit of is broken.
Checking the operation of the IC2 (/BINT)
When a normal
value is confirmed.
When the signal/BINT (IC2-13pin) has an
abnormal outputs, check that the signal /RST (IC2
-14pin) has correct output.
IC2 or its peripheral circuit of is broken.
Checking the operation of the IC2 (/OVRB_OUT)
When a abnormal
value is confirmed.
When the signal/OVRB_OUT has an abnormal
outputs, check that the /OVRB (IC2-2pin) is
High (3.1V) in the deck powered on.
IC2 or its peripheral circuit is broken.
When a normal
value is confirmed.
IC2 is broken.
1-78 (No.RA032<Rev.001>)
Checking the operation of IC2 (/PSW and /IGN)
Check that the signal /PSW (IC2-10pin) and /PSW_OUT (IC2-15pin) are linked
with the power button on KCH-19 in power on state.
Check that the signal /PSW and /PSW_OUT are
0V during the power button is pressed.
IC2 is broken.
When /PSW is linked and
/PSW_OUT is not linked
with the power button.
IC2 or the circuit of the signal /PSW is broken.
When both /PSW and
/PSW_OUT are not linked
with the power button.
If the ignition function is enabled, check that the signal /IGN (IC2-8pin) and
/IGN_OUT (IC2-9pin) are linked with the ignition sense.
When the ingnition sense has 13.6V (set within the
operating voltage range), check that the signal
/IGN and IGN_OUT are 0V.
IC2 is broken.
When /IGN is 0V and
/IGN_OUT is not 0V.
IC2 or the circuit of the signal /IGN is broken.
When both /IGN and
/IGN_OUT are not 0V.
Remarks related MSP430G25KGCA
A. MSP430G25KGCA is written the program.
B. OMAP communicates with MSP43G25KGCA by serial communication at startup of deck.
Only firmware version of MSP43G25KGCA is confirmed OMAP in serial communication.
Even when firmware version of MSP43G25KGCA can not be acquired, the system of MSP43G25KGCA is started.
C. If there is the difference of firmware virsion of MSP43G25KGCA between MSP43G25KGCA and OMAP,
the firmware version of MSP43G25KGCA is updated with the serial communication by OMAP.
“WAIT···”is displayed on the LCD during the firmware update. When the firmware update fails,
the system of MSP43G25KGCA is started and OMAP is trying to update again at next startup.
(No.RA032<Rev.001>)1-79
5.2 Failure diagnosis of the GPS section
Over view:
When the GPS function does not operate, use this flowchart to determine the problem.
Major parts for a GPS circuit
IC706
IC6
IC5
GPS antenna (KRA-40 (option))
Coaxial cable (E0E-0003-00)
SAW Filter (L9)
Bluetooth/GPS IC (IC5)
Level conversion IC (IC6,IC7)
TCXO 19.2MHz (X1)
UART
PCM
UART
PCM
UART
PCM
L9
GPS antenna unit
Level
conversion
IC
SAW
Filter
RF
Matching
GPS
Antenna
MPU/DSP
IC
BT/GPS
IC
IC7
Level
conversion
IC
Bias
coaxial cable
CN5
32.768kHz clock (X2)
33BT Regulator (IC3)
MAIN UNIT
X1
X2
18BT Regulator (IC2)
33GPS Regulator (IC4)
MPU/DSP IC (IC706)
TCXO
19.2MHz
32.768kHz
Clock
MODULE (BT/GPS)
UNIT
Positioning is not carried out normally.
When a normal
condition is confirmed.
Check the Module (BT/GPS)
unit PCB side A.
When the power supply is ON,
“GPS Ant Fail” is displayed.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the connection of KRA-40.
(SMA connector)
Connect the KRA-40 correctly.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the connection of the SMA
connecting cable.
CN5 - E0E-0003-00
Connect the cable to
the CN5 correctly.
When a normal
condition is confirmed.
Check the Module (BT/GPS) unit PCB side B.
Check the Module (BT/GPS) unit PCB side A.
[The BT/GPS power supply
line 33BT circuit faulty]
Visual check of the PCB side A parts.
(Whether not damaged)
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Check the Module (BT/GPS) unit
PCB side B.
Verify the BT/GPS power supply.
(33BT) L4: 3.3V
L4, C15, C19, C20, C33
Replace any abnormal parts.
When a normal
condition is confirmed.
[The BT/GPS power supply.
line 18BT circuit isfaulty]
Visual check of the PCB side A parts.
(Whether not damaged)
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS power supply.
(18BT) L5:1.8V
Check the Module (BT/GPS) unit
PCB side B.
C18, C13, C31, L8, C39
Replace any abnormal parts.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the RTC line circuit for
the BT/GPS.
Visual check of X2, L8, C39
(Whether not damaged)
Replace any abnomal parts.
Verify the RTC for the BT/GPS.
X2 (3 pin): square waveform,
32.768kHz, 1.8Vp-p
When a normal
condition is confirmed.
[The reference clock circuit
for the BT/GPS is faulty]
Verify the reference clock for
the BT/GPS.
When an abnormal
condition is confirmed.
Visual check of the R9,Q1 R10,R26
R12, R13, X1, C4, C8, C9
(Whether not damaged)
(BT_CLK) Intersection of C8
and C9: Clipped Sine waveform,
19.2MHz, 0.2 to 1.2 Vp-p
Replace any abnormal parts.
When a normal
condition is confirmed.
Check the Module (BT/GPS) unit PCB side B.
1-80 (No.RA032<Rev.001>)
Check the Module (BT/GPS) unit PCB side B.
When an abnormal
condition is confirmed.
When a normal
condition is confirmed.
Verify the power supply voltage
after removing the KRA-40.
(33GPS) L6: 3.3V
Verify the BT/GPS power
supply.
(33GPS) L6: 3.3V
[The KRA-40 may be broken]
Replace the KRA-40.
When an arbnormal
condition is confirmed.
When a normal
condition is confirmed.
When an arbnormal
condition is confirmed.
Verify the power supply voltage
and the BT/GPS control signal.
CN1 (1 pin, 2 pin) : 5.4V
CN1 (16 pin) : 3.3V
Check the Main unit PCB.
When a normal
condition is confirmed.
[The BT/GPS power supply
line 33GPS circuit is faulty]
Visual check of the PCB side B parts
(Whether not damaged).
C23, C24, R15, C25, R16, IC4, C7,
R19, C26, C27, C29, L2, R14, C3
Replace any abnormal parts.
When an abnormal
condition is confirmed.
Verify the RF input circuit for the GPS.
SAW, GPS IC RF Matching parts
[The GPS RF input circuit is faulty]
Replace the GPS RF input circuit
parts. (only the parts which can be
replaced.) If any unexchangeable
parts are abnormal, replace the PCB.
Visual check the following parts.
From connector to SAW: CN5, C40, R24, R23
SAW parts : L9(side A), D17, D18
GPS IC RF Matching parts(side A) : C38, C36, L7
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS control
signal (BT/_SHUTDOWN).
CN1 (14 pin): 3.3V
Verify the BT/GPS control signal
(BTMF_nSHUTDoWN).
IC1 (5 pin): 1.8V
Check the Main unit PCB.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
[/BT_SHUTDOWN line circuit
is faulty]
Visual check of the IC1, R7
(Whether not damaged)
Replace any abnormal parts.
When a normal
condition is confirmed.
[The MPU/DSP IC is abnormal]
Replace the PCB.
Verify the BT/GPS control
signal (18BT_RX).
IC6 (7 pin):
Square waveform UART data
of 1.8V logic.
Baud rate:
When an abnormal
condition is confirmed.
Verify the BT/GPS control
signal (TXD2).
CN1 (6 pin):
Square waveform UART data
of 3.3V logic.
When an abnormal
condition is confirmed.
Check the Main unit PCB.
Default: 115.2Kbps
After: 3.967Mbps.
When a normal
condition is confirmed.
[The 18BT_HC1 RX (TXD2)
line circuit is faulty]
Visual check of the CP1, IC6, R22
(Whether not damaged)
Replace any abnormal parts.
When a normal
condition is confirmed.
Verify the BT/GPS control
signal (RXD2).
CN1(7 pin): Square waveform
UART data of 3.3V logic.
Baud rate:
Verify the BT/GPS control
signal (18BT_TX).
IC6 (8 pin):
Square waveform UART data
of 1.8V logic.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Check the Main unit PCB.
Default: 115.2kbps
After: 3.967Mbps.
When a normal
condition is confirmed.
[The 18BT_HCI TX (RXD2)
When an abnormal
condition is confirmed.
line circuit is faulty]
Check the Main unit PCB.
Visual check of the CP1, IC6, R22
(Whether not damaged)
Replace any abnormal parts.
(No.RA032<Rev.001>)1-81
Check the Main unit PCB.
Verify the BT/GPS control
signal (G_TXD2).
CP705 (2 pin):
Square waveform UART data
of 3.3V logic.
Verify the BT/GPS control
signal (TXD2).
CN735 (15 pin): Square waveform
UART data of 3.3V logic.
Baud rate
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
[The MPU/DSP IC is abnormal]
Replace the PCB.
Default: 115.2kbps
After: 3.967Mbps.
When a normal
condition is confirmed.
[The TXD2 (18BT_HCI_RX)
When a normal
condition is confirmed.
line circuit is faulty]
Replace the CP705.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS control
signal (G_RXD2).
CP705, (3 pin):
Square waveform UART data
of 1.8V logic.
Verify the BT/GPS control
signal(RXD2).
CN735 (14 pin): Square waveform
UART tada of 3.3V logic.
Baud rate:
[The MPU/DSP IC is abnormal]
Replace the PCB.
Default: 115.2kbps
After: 3.967Mbps.
When a normal
condition is confirmed.
When a normal
condition is confirmed.
[The RXD2 (18BT_HCI_TX)
line circuit is faulty]
Replace the CP705.
[The MPU/DSP IC is abnormal]
Replace the PCB.
Descriptions of signal names
(1) 33BT: BT/GPS IC 3.3V power supply
(2) 18BT: BT/GPS IC 1.8V power supply
(3) 33GPS: BT/GPS IC 3.3V power supply
(4) TXD2: BT/GPS serial data line connected to UART TX of MPU/DSP IC (MPU/DSP to BT/GPS IC)
(5) RXD2:BT/GPS serial data line connected to UART RX of MPU/DSP IC (MPU/DSP to BT/GPS IC)
(6) 18BT_HCI_RX: BT/GPS serial data line connected to UART RX of BT/GPS IC (MPU to BT/GPS IC)
(7) 18BT_HCI_TX: BT/GPS serial data line connected to UART TX of GPS IC (BT/GPS IC to MPU)
(8) /BT_SHUTDOWN: BT/GPS active control of MPU/DSP IC (MPU/DSP to BT/GPS IC) High → Active, Low → Reset
1-82 (No.RA032<Rev.001>)
5.3 Failure diagnosis of the Bluetooth section
Over view:
When the Bluetooth function does not operate, use this flowchart to determine the problem.
Major parts for a Bluetooth circuit
IC706
IC6
IC5
Bluetooth antenna (Pattern Antenna)
LC filter (L11)
Bluetooth/GPS (IC5)
Level conversion IC (IC6, IC7)
TCXO 19.2MHz (X1)
32.768kHz clock (X2)
33BT Regulator (IC3)
18BT Regulator (IC2)
MPU/DSP IC (IC706)
UART
PCM
UART
PCM
UART
PCM
L11
Level
conversion
IC
Bluetooth
Antenna
LC
Filt er
MPU/DSP
IC
BT/GPS
IC
IC7
Pattern Antenna
Level
conversion
IC
MAINUNIT
X1
X2
TCXO
19.2MHz
32.768kHz
Clock
MODULE (BT/GPS)
UNIT
I can not pair with the Bluetooth (BT) headset.
Make sure the BT headset have enough power?
Turn on your BT headset?
Put your BT headset into pairing mode?
Charge the BT headset. Turn on your BT headset and bring it
within one to two meters.
Try again pair with BT headset.
No
When a normal
condition is confirmed.
Check the Module (BT/GPS) unit PCB side A.
Check the Module (BT/GPS) unit PCB side A.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the ANT Matching Parts.
Visual check of L15, C68
(Whether not damaged)
Replace any abnormal parts.
When a normal
condition is confirmed.
[The BT/GPS power supply
line 33BT circuit is faulty]
Visual check of the PCB side A parts.
(Whether not damaged)
L4, C15, C19, C20, C33
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS power supply.
(33BT) L4: 3.3V
Check the Module (BT/GPS) unit
PCB side B (a).
Replace any abnormal parts.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
[The BT/GPS power supply
line 18BT circuit is faulty]
Verify the BT/GPS power supply.
(18BT) L15: 1.8V
Check the Module (BT/GPS) unit
PCB side B (b).
Visual check of the PCB side A parts.
(Whether not damaged)
C18, C13, C31, L8, C39
Replace any abnormal parts.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the RTC Line circuit for
the BT/GPS.
Visual check of X2, L8, C39
(Whether not damaged)
Verify the RTC for the BT/GPS.
X2 (3 pin): Square waveform,
32.768kHz,1.8Vp-p
Replace any abnormal parts.
When a normal
condition is confirmed.
(No.RA032<Rev.001>)1-83
When a normal
condition is confirmed.
Verify the reference clock for the
BT/GPS.
[The reference clock circuit
for the BT/GPS is faulty]
Visual check of the R9, Q1, R10, R26, R12, R13,
X1, C4, C8, C9 (Whether not damaged)
Replace any abnormal parts.
When an abnormal
condition is confirmed.
(BT_CLK) Intersection of
C8 and C9: Sine waveform,
19.2MHz 0.2 to 1.2 Vp-p
When a normal
condition is confirmed.
Check the Module (BT/GPS) unit PCB side B.
Check the Module (BT/GPS) unit PCB side B.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the ANT Matching Parts.
Visual check of R27, R29
(Whether not damaged)
Replace any abnormal parts.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS control signal
(BTFM_nSHUDoWN).
IC1 (5 pin): 1.8V
Verify the BT/GPS control signal
(/BT_SHUTDOWN).
CN1 (14 pin): 3.3V
Check the Main unit PCB (a).
When a normal
condition is confirmed.
When a normal
condition is confirmed.
[/BT_SHUTDOWN Line circuit
is faulty]
Visual check of the IC1, R7
(Whether not damaged)
Replace any abnormal parts.
Verify the BT/GPS control
signal (TXD2).
CN1 (6 pin):
Square waveform UART data
of 3.3V logic.
Verify the BT/GPS control
signal (18BT_RX)
IC6 (7 pin):
Square waveform UART data
of 1.8V logic.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Check the Main unit PCB (b).
Defeult: 115.2kbps
After: 3.967Mbps.
When a normal
condition is confirmed.
When a normal
condition is confirmed.
[The 18BT_HCI_RX(TXD2)
line circuit is faulty]
Visual check of the CP1, IC6, R22
(Whether not damaged)
Replace any abnormal parts.
1-84 (No.RA032<Rev.001>)
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS control
signal (18BT_HCI_TX.).
IC6 (18 pin):
Square waveform UART data
of 1.8V logic.
Verify the BT/GPS control
signal (RXD2).
CN1 (7 pin): Square waveform
UART data of 3.3V logic.
Baud rate:
Check the Main unit PCB (c).
Default: 115.2kbps
After: 3.967Mbps.
When an normal
condition is confirmed.
When a normal
condition is confirmed.
[The RXD2 (18BT_HCI_TX)
line circuit is faulty]
Visual check of the CP1, IC6, R22
Replace any abnormal parts.
[The BT/GPS IC is abnormal
Replace the PCB.
Check the PCB side B (a).
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
[The BT/GPS power supply line 33BT circuit is faulty]
[The BT/GPS IC is abnormal]
Replace the PCB.
Replace the
C5, C46, C44, C49.
Check the PCB side B (b).
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
[The BT/GPS power supply line 18BT circuit is faulty]
[The BT/GPS IC is abnormal]
Replace the PCB.
Replace the
C2, C47, L5, L13, C45, C48.
Check the Main unit PCB.
When a normal
condition is confirmed.
Verify the BT/GPS control
signal (TXD2).
CN735 (15 pin): Square
waveform UART data of 3.3V
logic.
Verify the BT/GPS control
signal (G_TXD2).
CP705 (3 pin):
Square waveform UART data
of 3.3V logic.
When an abnormal
condition is confirmed.
When an abnormal
condition is confirmed.
[The MPU/DSP IC is abnormal
Replace the PCB.
Baud rate
Default: 115.2kbps
After: 3.967Mbps.
When an normal
condition is confirmed.
[The RXD2 (18BT _HCI_TX)
line circuit is faulty]
Replace the CP705.
When a normal
condition is confirmed.
When an abnormal
condition is confirmed.
Verify the BT/GPS control
signal(RXD2).
CN735 (14 pin): Square waveform
UART tada of 3.3V logic.
Baud rate:
When an abnormal
condition is confirmed.
Verify the BT/GPS control
signal (18BT_HCI_TX).
CP705, (4 pin):
Square waveform UART data
of 1.8V logic.
[The MPU/DSP IC is abnormal]
Replace the PCB.
Default: 115.2kbps
After: 3.967Mbps.
When an normal
condition is confirmed.
When a normal
condition is confirmed.
[The RXD2 (18BT _HCI_TX)
line circuit is faulty]
Replace the CP705.
[The MPU/DSP IC is abnormal]
Replace the PCB.
Descriptions of signal names
1) 33BT: BT/GPS IC 3.3V power supply
2) 18BT: BT/GPS IC 1.8V power supply
3) TXD2: BT/GPS serial data line connected to UART TX of MPU/DSP IC (MPU/DSP to BT/GPS IC)
4) RXD2:BT/GPS serial data line connected to UART RX of MPU/DSP IC (MPU/DSP to BT/GPS IC)
5) 18BT_HCI_RX: BT/GPS serial data line connected to UART RX of BT/GPS IC (MPU to BT/GPS IC)
6) 18BT_HCI_TX: BT/GPS serial data line connected to UART TX of GPS IC (BT/GPS IC to MPU)
7) /BT_SHUTDOWN: BT/GPS active control of MPU/DSP IC (MPU/DSP to BT/GPS IC) High Active, Low Reset
(No.RA032<Rev.001>)1-85
5.4 Replacing Main Unit
Service Main unit” Data
The following data is written on the service unit:
Main unit Information
Data Type
Firmware
Desctiption
NX-5900 Firmware.
XC1-102 (NX-5900) F type data.
Model Name
Original Main
unit Number
For Service Main
unit Number
NX-5900 (F,K)
XC1-1021-80
XC1-1021-81
FPU Data
(PC programming mode)
Method of confirming “Original Main unit” and “Service
Main unit”
The 0Ω resistor (R1) is mounted on the “R1” silk print part of
the Service Main unit (XC1-1021-81).
Various Adjustment Data General adjustment values for the
(PC Test mode)
XC1-102 (NX-5900) .
KENWOOD ESN
Model name: [XC1-102] NX-5900S
Type: F
The same number as the KENWOOD
ESN label is written.
R1
R2
NXDN ESN/MPT ESN/ The same number as the NXDN ESN/
R3
R4
Product number/
P25 ESN
MPT ESN/Product Number/P25 ESN
label is written.
After Changing the PCB
(1) After changing the printed circuit board, write the up-to-
date Firmware following the instructions in the “2.2 RE-
ALIGNMENT - 2.2.6 Firmware Programming Mode”.
• Write the Firmware in accordance to the Market. If you
write different Market Firmware, there are times com-
munication with the FPU is not possible.
(2) Using the KPG-D1/D1N, select your desired item (Model
Name and Frequency) from the Model> Product Infor-
mation menu, then use Program> Write Data to the
Transceiver to write the FPU data (PC Programming
mode). When writing to the transceiver, a Warning Mes-
sage, corresponding to the item selected, appears. Click
[OK] to continue writing the data.
XC1-102 A/2
Component side
RTC
(3) Enter Program> Test Mode, then adjust the various ad-
justment data (PC Test Mode) as described in the “SEC-
TION 4 ADJUSTMENT”.
(4) Attach the new labels corresponding to the new printed
circuit board. (Refer to the images below for label place-
ment.)
XC1-102
1-80
R1
(None)
0Ω
1-81
Note:
(5) If necessary, write the FPU data used by the customer
with the KPG-D1/D1N.
• The 0Ω resistor (R1) is used to differentiate the destina-
tion with a visual check. These are not connected with any
PCB pattern; they are specifically for production control.
There is no need to change the mount of these resistors.
• There is no difference between the schematic diagram of
the Service Main unit (XC1-1021-81) and the schematic
diagram of the original Main unit (XC1-1021-80). (R1 is
connected with GND (ground) only.)
Supplied Accessories of “Service Main unit”
Item (Including Parts Number)
Main Unit (XC1-102)
Quantity
1
1
KENWOOD ESN/ NXDN ESN/ Product Number/
MPT ESN/ P25 ESN Label
1-86 (No.RA032<Rev.001>)
Note:
• When using the ESN Validation function of NXDN Trunk-
• When a new printed circuit board is used, the KENWOOD
ESN changes, as does the Transceiver Information dis-
play of the KPG-D1/D1N, but this does not have any effect
on the operation of the transceiver.
• If changing to the original ESN, please contact our service
center.
ing, the NXDN ESN number changes when the circuit
board is changed (the number is written on the circuit
board); the NXDN Trunking System cannot be accessed.
Use the KPG-110SM on the NXDN Trunking System side
to reprogram the NXDN ESN number.
ESN Label Layout
ESN Label
5.5 Failure diagnosis of the Transmitter section
Overview:
When the Transmitter section does not operate, use this flowchart to determine the problem.
Confirmation before this failure diagnosis:
Before attempting to diagnose the transmitter section, check the calibration of measurement equipments (i.e.power meter).
Whenever the transmitter is turn on, the unit must be mounted on the chassis and connected to a suitable dummy load.
Major parts of the Transmitter section
Final FET (Q303)
Drive FET (Q302)
Power Control IC (IC302)
ANT Switch Diode (D305, D306, D308)
90C AVR (IC15)
50CT AVR (IC16)
Fuse (F300)
Note:
The Final FET is not able to be replaced using the service equipment, the Final FET is not registered as a service part.
Therefore, the Main unit must be replaced by the Service Main unit when the Final FET is defective.
This Failure diagnosis of Transmitter section is created to judge a defective Final FET.
Test Channel for the voltage verification
Test Channel 1-1 (TX frequency: 793.05MHz)_HighPower
(No.RA032<Rev.001>)1-87
Transmit power is not output from
the antenna.
Use the antenna for the
appropriate frequency band.
Is the appropriate antenna used ?
When an abnormal condition is confirmed.
When a normal condition
is confirmed.
Connect the antenna conenctor
correctly.
Is the connection of the antenna
connector correct ?
When an abnormal condition is confirmed.
When a normal condition
is confirmed.
Verify the bias voltage of the ANT When an abnormal value Verify the voltage of "90ANT".
When an abnormal value Verify the voltage of "90C".
When an abnormal value
is confirmed.
IC15(4pin): approx. 9.00[V]
--->Point''C''
switch circuit during transmitting. is confirmed.
R353: approx. 1.60[V] --->Point''A''
is confirmed.
R354: approx. 8.90[V] --->Point''B''
When a normal value
is confirmed.
When a normal value
is confirmed.
When a normal value
is confirmed.
[IC706 may be broken.]
Change Main unit PCB
to new one.
Verify the voltage of "ANTSW".
Q17: approx. 3.28[V] --->Point''D'' is confirmed.
When an abnormal value
[ANT switch diodes may be broken.]
Change D305, D306 and D308
(L8104) to new one.
*Foil Side (SideB)
When a normal value
is confirmed.
[Switch circuit may be broken.]
Change Q16 and Q15 to new one.
*Component Side (SideA)
Verify the voltage of "SB2".
IC15(2pin): approx. 12.7[V]
(*13.6[V] at RX) --->Point''E''
Verify whether the huse (F3) is not
broken.
[F3 may be broken]
Change F3 to new one.
*Component Side (SideA)
When an abnormal value
is confirmed.
When an abnormal condition
is confirmed.
When a normal value
is confirmed.
When a normal condition
is confirmed.
[IC15 may be broken.]
Verify the voltage of "SBC_2".
IC12(1pin): approx. 2.47[V]
--->Point''F''
[IC706 may be broken.]
Change Main unit PCB
to new one.
When an abnormal value
is confirmed.
Change IC15 to new one.
*Component Side (SideA)
When a normal value
is confirmed.
[Switch circuit may be broken.]
Change Q10 and Q11 to new one.
*Foil Side (SideB)
1-88 (No.RA032<Rev.001>)
[Battery voltage may be abnormal.]
Verify the voltage of the external
power supply.
Verify the drain voltage of the Final
FET (Q303).
L319: approx. 12.7[V] (*13.6[V] at
RX) --->Point"G"
When an abnormal value
is confirmed.
When a normal value
is confirmed.
Verify the voltage of "SPC".
R422: approx. 2.48[V] --->Point''I''
Verify the alignment value
of ''Maximum Power''.
[Alignment value may be incorrect.]
Align ''Maximum Power'' with all
alignment channels again.
Verify the gate bias voltage of the
Final FET (Q303).
L318: approx. 4.27[V] --->Point''H''
When an abnormal value
is confirmed.
When an abnormal value
is confirmed.
When an abnormal value
is confirmed.
When a normal value
is confirmed.
When a normal condition
is confirmed.
When a normal value
is confirmed.
Verify the voltage of "/DSW".
R381: 0[V] (*3.21[V] at RX)
--->Point''J''
When an abnormal value
is confirmed.
[IC719 may be broken.]
Change IC719 to new one.
[IC706 may be broken.]
Change Main unit PCB
to new one.
*Foil Side (SideB)
When a normal value
is confirmed.
[Switch circuit may be broken.]
Change Q305, Q308, Q309
and IC304
Verify the voltage of ''VOUT'' of
IC302.
IC302(12pin): approx. 1.41[V]
--->Point''L''
Verify the voltage of ''VSET'' of
IC302
IC302(11pin): approx. 1.86[V]
--->Point''N''
Verify the gate bias voltage of the When an abnormal value
Drive FET (Q302).
L316: approx. 4.96[V] --->Point''K''
When an abnormal value
is confirmed.
When an abnormal value
is confirmed.
is confirmed.
When a normal value
is confirmed.
When a normal value
is confirmed.
When a normal value
is confirmed.
Verify the voltage of "/DSW".
R380: 0[V] (*3.21[V] at RX)
--->Point''M''
[IC706 may be broken.]
[IC302 may be broken.]
Change IC302 to new one.
When an abnormal value
is confirmed.
Change Main unit PCB to new
one.
*Component Side (SideA)
When a normal value
is confirmed.
[Switch circuit may be broken.]
Change Q306 and IC303 to new
one.
*Component Side (SideA)
[Alignment values may be incorrect.]
Verify the voltage of "APC1".
R384: approx. 2.91[V] --->Point''O''
Verify the alignment value of
''Tranmit Power''.
When an abnormal value
is confirmed.
When an abnormal value
is confirmed.
Align ''Transmit Power'' with all
alignment channels again.
When a normal value
is confirmed.
When a normal value
is confirmed.
[IC305 may be broken.]
Change IC305 to new one.
*Component Side (SideA)
[IC715 may be broken.]
Change IC715 to new one.
*Foil Side (SideB)
Verify whether the huse (F300) is
not broken.
[F300 may be broken.]
Change F300 to new one.
When an abnormal
condition is confirmed.
*Foil Side (SideB)
When a normal condition
is confirmed.
[Final FET may be broken.]
Change Main unit PCB to new one.
Change the PreDrive FETs
(Q300 and Q301) to new one.
Change the Drive FET
(Q302) to new one.
When an abnormal
When an abnormal
condition is confirmed.
condition is confirmed.
*Foil Side (SideB)
*Foil Side (SideB)
When a normal condition
When a normal condition
is confirmed.
is confirmed.
[PreDrive FETs are broken.]
[Drive FET is broken.]
(No.RA032<Rev.001>)1-89
Voltage check point
Main unit PCB Component Side (SideA)
Point A, B, D, L, N
Point C, E
Point F
1-90 (No.RA032<Rev.001>)
Point G
Point H, I, J, K, M, O
(No.RA032<Rev.001>)1-91
MEMO
SCHEMATIC DIAGRAM
MAIN UNIT (XC1-1021-80 (NX-5900(K), NX-5900B(F), NX-5900B(K)))
THP1
NX-5900 700/800MHz
MAIN UNIT(A/2)(XC1-102)
IC300
BGU6104
IC13,D15
DC-DC
CONVERTER(200C)
TX
PRE-DRIVE AMP
TX
PRE-DRIVE AMP
Q300
4.92V
L13 15u
19.72V
DB2J40700
19.72V
R:0V
T:4.98V
C324
7p
(B)
D15
R:0V
T:2.23V(H)
2.23V(L)
TH1
VCO
BUFFER AMP
VCO
DOUBLER AMP
VCC
CUR_ADJ
NC
ENABLE
RF_IN
RF_OUT
R59
10
200C
RD01MUS2-T113
L301
33n
CN307 CN308
Q106
1.72V
C166
(B)
0.94V
E2
F10-3226-05
R302 C302
C304
C307 C308 C309
C316
C315
C318
R309
18
2SC5108F/Y/
C170
R327
10k
R338
R54 R55
1608 0.25W
R92-3769-05
R331
470
Q105
GND
2SC5108F/Y/
(-71)
SW
NC
FB
7p(B) 4p (B)
15
6p (B) 1500p
47p
0.75p
(B)
47p
3.3 1/3
R361
1500p
1.5p
(B)
50C
VIN
EN
2p
10
10
R305
C313
C120
100p
3.3 1/3
C367
15p
820 1500p
R:13.60V
T:12.28V(H)
13.30V(L)
0.76V
IC13
TPS61041DRVR
E100
F10-3244-15
PLL Shield case
R311
5.6k
C359
8p
R:13.6V
T:13.3V
L1
Q107
2SC5108F/Y/
R:13.60V
T:12.28V(H)
13.30V(L)
REVERSE
CURRENT
PROTECTION PREVENTION
1.6V
C213
C301
(B)
50C
SURGE
D107-109,117
ANT
L326
R178
15
C411
47p
54M DC/DC Shield case
TX VCO
4p
0.96V
L2
L3
R176
180
+B
VCO
ASSIST
TUNE
TX
FINAL AMP
33n
(-55)
47p
R:0V
T:3.97V
D305,306
4.13V
L100
R304
0
C2
1000u
25
4.93V
VCO
FREQUENCY
CONTROL
D305
VOLTAGE
REGULATOR(33C)
Q303
ANTENNA SW
R350
100
R131
10 (D)
IC8,D14
DC-DC
CONVERTER(54M)
(B)
C212 2p
R174
180
L118
(-92)
R:0V
T:2.25V(H)
2.05V(L)
L8104
C392
18p
C413
47p
C407
18p
L328
8n
L329
8n
L330
8n
R:5.31V
T:5.32V
PLL IC
3.27V
L113
270n
SMV1130-079LF
D117
4.61V
270n
C147
C360
15p
5.33V
L12
C141
150p
L117
28n
D107
C143
3.29V
(B)
8p
L137
D306
L8104
10
9
8
7
6
5
4
3
2
1
C103 0.01u
TX LOCAL
BUFFER AMP
(-92)
C47
L11
SMV1130-079LF
TX
R53
54M
24p
(G)
12n
(-53)
TX
DRIVE AMP
CN16
Q102
MCH3914-H/8/
0.01u
12 11 10
NC_1
C104
PRE-DRIVE AMP
Q301
NE5550234
C329
RD50HMS2T1105
IC100
SKY72310362LF
C179
2p (B)
C177
C150
R132
C448 C335 L315
47p
54M
4.7u
25
0
0.1u
4.93V
R:13.58V
T:13.24V
R351
47
4
1
3
15p
2.7n
C333
2p (B)
C181
5p (B)
0.5p
(B)
L103
0
R124
(D)
R112
0
R115
0
R117
0
9
8
7
L138
Q302
RD10MMS2-T212
BOOT
VIN
L115
(-14)
C173 C175
R:0V
T:1.60V
L134 L135
L136
C183
47p
C325
C326 R316 C327
15p 18 4p
(G) (B)
L6
R341
180
2.5p
(B)
PH
390
270n
(-92)
6.8n
(-53)
8.2n
(-53)
12n
(-53)
1.5p(B) 6p (B)
6p
(B)
5p
(B)
13
14
15
16
17
18
6
5
4
3
2
1
R:0V
T:2.00V(H)
1.81V(L)
SURGE
PROTECTION
GND
C358
8p
CPoUTMAIN
VCCCPMAIN
TX
L331
1.5n
C370
15p
EN
4.97V
R:0V
T:0.81V
NC_2
NC_3
NC_4
NC_5
NC_6
REVERSE
POWER
DETECTION
CoMP
RX
SS/TR
VSENSE
RT/CLK
2
(-55)
LD/PSMAIN
FVCoMAIN
R35
R:0V
T:4.46V(H)
4.46V(L)
R:0V
T:2.23V(H)
2.23V(L)
D2,7-9,12
R362
3.3 1/3
D300,500
T/R SW
SBC_2
TX
MODULATION
VCO
OSCILLATION
PWRGD
R320
5.6k
10k
(D)
R:4.04V
T:0V
REVERSE
CURRENT
PREVENTION
FVCoMAIN
R347
10k
R:2.13V
T:2.48V
IC8
TPS54240DGQ
R:0V
T:5.33V(H)
4.88V(L)
VCCECT/CML
R103
10
R337
90T
R328
R332
470
RX VCO
R348
0
R134
10(D)
L128
(-92)
50CS
PLL_CLK
3.24V
10k
3.3 1/3
C211 1p (B)
D308,310,311
ANTENNA SW
270n
Gate Bias
19 20 21 22 23 24 25
C106
3.29V
L123
C156
150p
D112
C158
L127
28n
C161 8p (B)
Gate Bias 2
L101
54M
100p
R:0V
T:2.25V(H)
2.05V(L)
DC AMP
(CV/ASSIST)
270n
(-92)
6p
(B)
SMV1130-079LF
C107
C108
C109
Q104
MCH3914-H/8/
12M
SBWTDIO
100p
100p
100p
Gate Bias 1
C164
R135
90T
C438 0.01u
SBWTCK
R40
DC-DC
CONVERTER(18M)
Q18
SSM3J334R
R:2.54V
T:2.52V
R:0V
T:8.94V
0.5p
(B)
0
4.93V
POWER MANAGEMENT
IC2
100k
DC SW
T/R SW
0V
L125
R:0V
T:4.93V
1.2V
A1
5.31V
L80
IC11
LXDC2HN18F163
IC304
NJM12904RB1
5.32V
C3
2200p
270n
(-92)
DC SW
(90ANT)
Q103
EM6M2
CN109
1.8V
R:0V
T:3.29V(H)
3.29V(L)
Q306
LSCR523EBFS8
R380
VCO
FREQUENCY
CONTROL
DVCC
PWR_CNT
R22 10k
DC SW
D7
DVSS
P2.6
Q81
SSM3J15FS
VIN
B+IN
GND
B-IN
A+IN
BoUT
A-IN
V+
W02-3785-05
SCHMITT
TRIGGER
R72
RB521CM-30
1
2
3
4
5
6
7
8
9
10
11
12
13
/OVRB
GND
P1.0
RXD
TXD
8
7
4
1
GND5
47k
9
VIN
D8
3.28V
GND4
GND3
GND2
GND1
VOLTAGE
REGULATOR(90C)
2.2k
P_TXD2
IC101
TC7SH17FUF
R:0V
T:3.30V
BINT2
R71
R:8.98V
T:0V
6
5
3
2
MoDE
VoUT
EN
L121
4
5
3
6
2
7
1
P2.7
RB521CM-30
D112-114
REVERSE
CURRENT
PREVENTION
330
P_RXD2
DC SW
VCO
OSCILLATION
R37
100
R44
1k
18M
SBWTCK
SBWTDIo
P1.7
DC SW
EN
VCO
ASSIST
TUNE
OUTY
GND
D2
R:0V
T:3.29V
IC15
BA00DD0WHFP
VoUT
AoUT
A3
A4
R126
10M
R391
100
D312,313
OVER
VOLTAGE
PROTECTION
2.64V
R:0V
T:2.64V(H)
2.64V(L)
RB520SM-30
/PSW_OUT
R:3.22V
T:0V
INA
VCC
NC
RB521CM-30
APC
BAT_CNT
/IGN
5.32V
D100
OVER
Q305
LSCR523EBFS8
R381
P1.5
8
R61
1k
P1.6
P2.5
P2.4
P2.3
Q17
LTC014EEBFS8
R407
0
R413
470
D12
VOLTAGE
PROTECTION
/BINT
/RST
P2.0
P2.1
P2.2
R108
1k
C121 33p
R113 120k
0.1u
R:0V
T:4.98V
C112
T/R SW(VCO)
/IGN_OUT
/OVRB_OUT
R:2.84V
T:0V
R:0V
T:4.06V
19.7V
2.2k
50R
R508
8.99V
C76
470p
Q16
SSM3J334R
R:4.13V
T:0V
D9
1
2
3
4
5
/PSW
Q113
SSM3J15FS
DC SW
90T
4.7k
RB521CM-30
R155
0
R158
0
Q308,309
90T
5.32V
L7
3.29V
VOLTAGE
REGULATOR(33M)
DC SW
/BINT
31BU
LOAD SWITCH
(18M)
3.09V
R:2.44V
T:2.39V
MSP430G25KGCA
3.29V
Ramp_Offset
Q110
EM6M2
DC SW
33M
IC9
XC8102AA07-G
R:0V
T:8.94V(H)
8.96V(L)
DC SW
(SCTAM1)
DC SW
(90T)
1.8V
Q9
LSAR523UBFS8
4
5
13.59V
R20
R159
470k
5.08V
R:4.97V
T:0V
R416
10k
18M_3
C444 0.01u
C435 0.01u
VoUT
VIN
Q1
APC
R:8.98V
T:0V
0
Q8,9,D11
TX
POWER CONTROL
IC303
NJM12904RB1
IC305
NJM12904RB1
C624
L626
10u
(-86)
R610
DC SW
VOLTAGE
REGULATOR
(50BU)
R161
470k
R166
50CT
Q309
R42
47k
Q8
LSCR523EBFS8
5V
5.6k
39p (G)
R:13.60V
T:12.28V(H)
13.30V(L)
AoUT
V+
B+IN
GND
B-IN
A+IN
BoUT
A-IN
V+
3
2
1
1k
R:0V
T:3.29V
SSM3K15AMFV
R414
VSS
CE
R432
10k
R427
22k
C432 470p
IC302
ADL5513
A-IN
BoUT
A+IN
B-IN
GND
B+IN
RX
LOCAL BUFFER AMP
D11
DZ2S056(M)
VCO
FREQUENCY
CONTROL
3.29V
R609
BACK UP
BATTERY
CHARGE
R152
47k
VOLTAGE
REGULATOR
(50CT)
L140
Q15
LTC014EEBFS8
22k
R600
10
5V
8.99V
R70
DC SW
L606 1.8k
C600 100p
C601 100p
R601
4.7u
(-14)
Q115
EM6M2
AoUT
DC SW
4.93V
50CS
C630
0.1u
R389
0
D6
RB520SM-30
2.87V
1.2V
Q108
DSC9A01/T/
R371
0
CN13
3.10V
IC1
33A
12BU
R:4.13V
T:4.12V
10
R602
L141
4.96V
R:2.2V
T:0V
0
C428
0.047u
R613
100k
C633
0.1u
VPoS1
5
4
R423
2.2k
VoUT
VSET
CoMM
R429 8.2k
L506 L507
10n
R515
0
C602 100p
APC
R149
470k
VOLTAGE
REGULATOR(50A)
IC10
10
INHI
INLo
C510
2.5p
10n
R:0.44V
T:2.94V(H)
2.51V(L)
BU31TD2WNVX
3.3V
C429
VOLTAGE
REGULATOR(33A)
4
3
2
R501
18
C501 C503
47p
(-71)
(-71)
L4
5.33V
C615
0.1u
Q500
R:4.79V
T:4.78V
R431
TADJ
VoUT
VIN
4.97V
0.047u
VPoS2
100p
(B)
2SC5108F/Y/
DC SW
22k
Q307
LSCR523EBFS8
5.33V
50A
R384
10k
4
3
2
VoUT
Q304
SSM3K15AMFV
DC SW
VIN
PE
R171
C648
100p
1
2
3
SPEED UP
R401
1.2k
CP600
RK74HB1J100J
VREFN
VREFP
C610
0.1u
VDDD
VDDH
CLKoUT
DoUTA
DoUTB
FS
470k
DC SW
GND
1
RIPPLE
FILTER
STBY
GNDA
VDDA
GCN
GCP
Non Save:1.8V
Save:0V
L613
VSS
CE
C603 100p
IF IC
IC600
1
VOLTAGE
REGULATOR(31BU)
VOLTAGE
REGULATOR(12BU)
R26
1k
XC6221D501G-G
C604 100p
C605 100p
C606 100p
C640
33M
L614
1000p
31BU
AD9864BCPZRL
VDDF
IF2P
SCTAM1
+B
SB1
L520
C639 100p
R:1.8V(700MHz)
0V(800MHz)
T:1.8V(700MHz)
0V(800MHz)
SB1(HEAD/D-sub)
C18 470p
GNDH
SYNCB
GNDS1
R:4.95V(700MHz)
0V(800MHz)
T:0V
L601
CN15
R605
10k
13.6V
RX
1ST MIXER
L611
C44
IF2N
C641
100p
SB2
R546
18
13.6V
FZA10BS-5R0
FZA10BS-5R0
13.6V
3.29V
C608
C519
0.01u
F3
GNDF
MXoN
MXoP
10u
RX:763~776MHz
470p
19.2MHz
R614
47
IF_MAIN_CLK
F2
DC SW
R:4.97V
T:0V
REVERSE
CURRENT
PREVENTION
FREF
GNDL
R:4.97V
T:0V
DC SW
(SB1)
Q5
MTM981400BF
0V
L612
10u
0.1u
CN19
13.6V
R:4.90V
T:0V
BLVL
SBC
R17
10k
DC SW
(SB2)
C520
0.01u
L510
C527
Q10
MTM981400BF
50R_700
R: 0V(700MHz)
4.95V(800MHz)
T: 0V
C517
100p
E600
F10-3224-15
IF IC Shield case
R527
0
C534
47p
Q501
MT3S111
L514
OVER
VOLTAGE
PROTECTION
4.23V
LNA
C649
6.88V
RX
BAND SWITCH
L521
8.2n
EM6M2
Q504
0V
C619
0.1u
10p
L607
180n
R36 10k
3.0V
10p (B)
L610
DC SW
Q6
LTC014EEBFS8
C552
9p
C543
7p(B)
C544
100p
6.86V
0V
C637
0.01u
R:4.96V
T:0V
IC500
AK1224
REVERSE
CURRENT
PREVENTION
IC502
UPG2214TK-A
RX
BAND SW
180n
(-53)
R603
1k
(-53)
R: 0V(700MHz)
4.95V(800MHz)
T:0V
VDD2
SSM3J15FS
Q503
LoINN
VSS2
Q11
LTC014EEBFS8
2.45V
DC SW
VDD3
L502
C620
D4
L500
SBC_2
/OVRB
R:1.78V
T:0V
58.05MHz
VCoNT2
oUTPUT2
INPUT
GND
VCoNT1
oUTPUT1
VSS1
RFIN
IFoUTN
IFoUTP
L625
390n
RX
BAND SW
Q604
BB506CFS-H
820n
(-14)
1u
C618
IC501
UPG2214TK-A
C533
10p
R617
270k
Q4
LTC014EEBFS8
RB521CM-30
/OVRB(For MSP430)
L617
820n
XF600
L7B-0001-00
C656
10p (B)
R619
18
C658
0.01u
L619
L608
C665
(B)
5p
D16,17
680n
(-86)
0V
R:4.95V(700MHz)
0V(800MHz)
T:0V
C663
0.01u
L503
R628
R631
0
C500
0.01u
R:5.04V
T:4.96V
R630
0
oUTPUT1
VCoNT1
GND
R632
VOLTAGE
REGULATOR(50C)
DC SW
L609
REVERSE
CURRENT
PREVENTION
L519
C556
100p
C558
47p
5.33V
820n
(-14)
50R_800
0.01u
0
100
VOLTAGE
REGULATOR(50R)
IF AMP
INPUT
R:0V(700MHz)
4.95V(800MHz)
T:0V
54M
R31
0
50C
50R
oUTPUT2
VCoNT2
D17
RB521CM-30
VoUT
VIN
VCO
OSCILLATION
Q603
2SC5066F/O/
R:4.95V(700MHz)
0V(800MHz)
T:0V
CN4
IC17
XC6221D501G-G
RX:851~870MHz
R76 R77 R78
C621
0.01u
5.32V
1
MCH3914-H/8/
Q600
R606
Q602
LSCR523EBFS8
3.3k
3.3k 3.3k
2
1
4
L600
10u
R47
0
C607
12p
VoUT
VIN
2
VSS
CE
RIPPLE
FILTER
0
C623
3p (B)
IF AMP
Q7
LTC014TEBFS8
R:4.99V
T:0V
(G)
L511
C528
OVER
VOLTAGE
PROTECTION
C518
100p
LNA
L513
3.3n
C535
(B)
Q502
MT3S111
R528
0
OVER
VOLTAGE
PROTECTION
D505,506
OVER
VOLTAGE
PROTECTION
L522
IC6
XC6221D501G-G
DC SW
L605 R608
47p
10p
C542
C553
R52
1k
C545
100p
Q601
VSS
CE
VCO
FREQUENCY
CONTROL
270n
390
(-53) (D)
3
DC SW
R:1.89V
T:0V
9p
(B)
6p
RESET
LTC023JEBFS8
ANALOG SW
IC714
BD11600NUX
C830
0.1u
L713
IC911
LA4425A
R956
0
CLOCK BUFFER
3.27V
3.29V
BOOT PIN
UART BOOT=10010100
Emulation Debug BOOT = 00011110
PLL_CLK
CN910
R749
22
33M
19.2MHz(NEW)
CN723
*R1
X700
L77-3123-05
SB
1
2
3
4
5
6
C771
1D+
VCC
1D-
S
1.7V
Service
R1
-
R1
0.1u
C770
1u
For Production line
SPI
SPO
PA
FCNT R700
1k
1-80
CN941 CN922 CN923 CN924 CN925
1
2
3
4
5
2D+
D+
Clock Buffer
Q700
2SC4617/S/
1-81
(Service)
R930 C937
10k(D) 1u
R948
0
R709 C729
0
-
2D-
D-
C944
1u
13.6V
HOR
GND
L711
1k*4
1k 0.01u
2.19V
C740
GND
oE
C772
0.1u
0-10
C978
470p
1.39V
REQ2
CLK2
REQ1
MCLK_REQ
GND_DIG
VDD_DIG
4.7u
(-39)
0.01u
1.61V
DC SW
R701
0-11
(Service)
33M
AUDIO
MUTE
0
0
Q704
SSM3K15AMFV
0V
C969
330u 16
CLK1
B
OSCGND
CP702
R926
AF_MUTE
CLK3
REQ3
Q902
DSC9A01/T/
MCLK_IN
6.5V
EXT.SP
J900
TCXO
BUFFER
R933
0
10k
D905
LINE
PROTECTION
ESP_DET
0V
SPO
IC703
CDC3S04YFF
AUDIO
MUTE
Q905
D924
D/A
CONVERTER
C768
0.01u
C769
1u
REVERSE
CURRENT
PREVENTION
SSM3K335R
LOGIC
IC900
TC7SET08FUF CONTROL
EXTERNAL
SPEAKER
DETECTION
D909
DA3S101F
3.27V
/RST
1.18V
L719
0V
REVERSE
CURRENT
PREVENTION
SPAF
EXTSP_EN
L701
R983 100
W1W2W3 V1 V2 V3 U1 U2 U3 T1 T2 T3 R1 R2 R3 P4R12R11V8 T9 U8V11T14R10W13V9 U9 W9 T8 V7 W7W8 U7 T7 W6 V6 U5 V5 W5 U6 U4 T6 W4 T4 V4 T5U15U14V14U13V13V12W12W11T13T11T10T12U10V10U11W10
INB
TEMP
/FRST
/RST
AUDIO
MUTE
VCC
INA
(D)
R843
R844
R845
100k
10k
10k
/RST
IF_MAIN_CLK
IF_CLK_EN
19.2M
RESET
NMI
K14
J17
T17
L16
M16
J18
J15
L17
J16
K16
R957
IC908
TC7WH14FK-F
C972
0.1u
D/A
CONVERTER
GND
oUTY
1
2
Q906
SSM3J332R
C834
1u 16
100
4.96V
3.28V
RESEToUT
TMS
1A
C970 0.01u
-3.49V
18M
3
VCC
3Y
1Y
18M
VIN7
GND
VIN2
VDD
4.97V
4
100p
C835
TDI
R838
0
RTS2
5
GND
2A
For DDR_DVDD
TDo
AMUTE/UART2_RTS
For CVDD
For RVDD,USB
D5
C2
A1
A2
B2
B1
A3
F3
E1
E2
E3
D1
D3
C1
D2
E4
C3
/20o_REQ
VoUTD
VREFIN
VoUTC
DIN
/EVCS
SCK0
SDO0
3A
GND
2Y
6
IC719
R2A20178NP
LD
C811
0.1u
TCK
AFSR
ACLKR
RESET
AF_CLK
LOGIC
CONTROL
VREF
7
IC912
TC7SET08FUF
TRST
VDAREF2
CLK
CP711
100*4
RTS1
WCLK
BCLK
8
N_INTSP_EN
INTSP_EN
EMU0
AHCLKR/UART1_RTS
AFSX
D900
DA3S101F
VoUTB
SYNC
VoUTA
SCLK
VA
4.96V
CP716
100*4
INB
VCC
INA
VDAREF1
VIN6
A/D
CONVERTER
DI
VIN3
9
APC
SDO0
/DACCS
SCK0
EMU1
33M
R876
1k
R881
330
R944
C946
47k
0.01u
10
MCLK
RTCK/GP8<0>
CLKoUT
oSCIN
ACLKX
R901 C901
K17
R702 10
T18
24 23 22 21 20 19 18 17
SDI
R951
10
GND
CTS1
oUTY
AHCLKX/USB_REFCLKIN/UART1_CTS
AXR0/ECAP0_APWM0/MII_TXD<0>/CLKS0
AXR1/DX0/MII_TXD<1>
AXR2/DR0/MII_TXD<2>
100
0.1u
/INT25P
CP709
19.2M
32k_I
12M_1
1.2V
12BU_1
SCHMITT TRIGGER
C933 0.01u
L19
For DVDD IO
L732
For DVDD IO
For DVDD IO
For USB
C900 0.01u
25
26
27
28
29
30
31
32
16
DAC124S085CIS
IC715
PLL_MOD
IF_DI
EXTERNAL
SPEAKER
DETECTION
CH4
CH5 15
C782
15p
CN715
R736
oSCoUT
RTC_XI
RTC_Xo
K19
J19
H19
F4
X701
L77-1802-05
SDo
33M_1
C803
/BINT
PA
HOR
1.19V
C781
15p 32k_O
CH6
14
BDGND
+VBD
GPIo
AXR3/FSX0/MII_TXD<3>
AXR4/FSR0/MII_CoL
AXR5/CLKX0/MII_TXCLK
AXR6/CLKR0/MII_TXEN
AXR7
R13P13L6 K5 J13G12G11G10G6F14N7H14E5 N8 M9 M8L12K12K6 J12 J6H13H12H11H10H7 H6G13G8 G7E15
G
L714
RTCGND
L725
0
/IF_CS
12M_1
1.19V
PLL0_VDDA
IC906
TC7WBD125AFK
0.1u
CTS2
33M
LEVEL
SHIFT
100*4
RTC_ALARM/DEEPSLEEP
USB0_DM
CH7
13
DVDD3318_A1
DVDD3318_A2
DVDD3318_A3
DVDD3318_A4
DVDD3318_A5
DVDD3318_A6
DVDD3318_B1
DVDD3318_B2
DVDD3318_B3
DVDD3318_B4
DVDD3318_B5
DVDD3318_B6
DVDD3318_B7
DVDD3318_B8
DVDD3318_B9
DVDD3318_B10
DVDD3318_B11
DVDD3318_C1
DVDD3318_C2
DVDD3318_C3
DVDD3318_C4
NC3
SYMTIM_IN
IF_CLK
F5
F15
G5
M3
IC712
ADS7961SRHB
CN738
G
L715
RTCGND
CN743
USB0_DM
USB0_DP
M18
M19
P16
N19
K18
N17
P18
P19
E9
CP710
100*4
3.29V
CH8
12
RSV2
T19
oE1
VCC
A1
oE2
B2
B1
GND
A2
USB0_DP
SATA_VDD4
SATA_VDD3
SATA_VDD2
SATA_VDD1
SATA_VDDR
CODEC_DO
CODEC_DI
20o_DX
UMode
N4
P2
L716
I2CCK
I2CDT
CH9
11
CH10
CH11
18 17 16 15 14 13
REFM
REFP
+VA2
USB0_ID
MAIN UNIT(B/2)(XC1-102)
R733
0
PLL0GND
E
G14
G15
H5
12BU
12M
18M
R831
1k
P1_2[3]
USB0_VBUS
AXR8/CLKS1/ECAP1_APWM1
AFO-
C925 1u
C926 1u
AIO9
1.19V
PLL1_VDDA
10
CN717
P1
L717
SCL
19
20
21
22
23
24
12
11
10
9
USB0_DRVVBUS
AXR9/DX1
AXR10/DR1 D4
C784
AFO+
AIO6
AIO7
20o_DR
M2
P3
9
18M_1
50A_D
USB0_VDDA12
USB1_DM
/CRST
SDA
VDD
INT
A1
L718
/20o_CS
BT_AUD_DI
20o_CLK
E14
F6
0.22u
D-Sub25
R913
AXR11/FSX1
AXR12/FSR1
12M_1
C5
C4
CP708
P1_1[3]
P1_0[3]
VSS
D910-915,918-920
LINE
PROTECTION
USB_CVDDM12
USB1_VDDA18P14
USB1_VDDA33P15
USB0_VDDA18N14
1
2
3
4
5
6
7
8
IC910
PCA9555AHF
F
1.8V
USB1_DP
0
PLL1GND
/WP
F7
3.3V
P0_7[2]
MMCSD0_CLK
AXR13/CLKX1
B3
/INT25P
/INT25P
50A
AIO1
AIO2
BT_AUD_DO
/DMOD_CS
/CRST
ASSW
F8
1u
C909
C910
18M_1
AXR14/CLKR1
AXR15/ECAP2_APWM2
MMCSD1_DAT<7>/LCD_PCLK
MMCSD1_DAT<6>/LCD_MCLK
F1
B4
8
/BER_EN
DM_IN
F10
F11
AFO_SP
C927 1u
MPU/DSP
0.1u
F2
A4
25REF
50A
2.48V
33M_1
18M_2
100*4
1.66V
IC905
TC7WT125FUF
A2
7
DM_OUT
AF_MUTE
TX_PLL_SEL
USB0_VDDA33
N18
CODEC
MMCSD1_DAT<5>/LCD_HSYNC
GP8<12>
BUFFER AMP
(BER CK
/BER DT)
H4
G3
P0_6[2]
IC706
F12
MMCSD1_DAT<4>/LCD_VSYNC
F13
DDR_DVDD18_10
DDR_DVDD18_9
DDR_DVDD18_8
R9
R8
R7
SD1_CMD
SD1_CLK
SD1_DAT[0]
ANTSW
33M
18M
G4
MMCSD1_CMD
MMCSD1_CLK
MMCSD1_DAT<0>
GP6<8>
J4
1
2
3
4
5
6
OMAPL138BWTA3
IC901
BU7242NUX
G1
1.8V
DC AMP
(25REF/VREF)
VCC
G2
LCD_AC_ENB_CS
SATA_RXP
10
R902
R5
G2
L720
L721
L722
18M_1
MCLK
19.2MHz
G9
J14
K15
J5
20o_CLK
20o_DX
A1
Y2
A
L1
G1
R916 2.2k
1.8V
3.29V
DDR_DVDD18_7
P10
CP900
MCLK
VCO_MOD
DEO
oUT1
VDD
IN1-
oUT2
IN1+
IN2-
VSS
IN2+
VREF
DRVDD2
HPRoUT
SATA_RXN
R907
0
L2
T15
U16
W15
U17
R16
18M_2
33M_1
BCLK
WCLK
CODEC_DO
CODEC_DI
BCLK
I/O
EXPANDER
DDR_DVDD18_6
/DM_EN
TXC
P9
P8
P7
33M_1
Y1
A2
SATA_TXP
SATA_TXN
SATA_REFCLKP
SATA_REFCLKN
SATA_REG
GP6<7>
GP6<9>
R917
J1
0
HPRCoM
WCLK
DDR_DVDD18_5
DDR_DVDD18_4
GP6<10>
J2
IC902
TLV32AIC3104I
/DSW
R909
22k (D)
K13
L4
GND
DRVSS
DIN
GP6<11>
N2
DDR_DVDD18_3
N10
AFO_D
C924 1u
10*4
R734
10k
GP6<12>
HPLCoM
HPLoUT
DRVDD1
AVSS1
33M
N1
DoUT
DVSS
IoVDD
SCL
DDR_DVDD18_2
L13
M13
N13
P5
N9
N6
R6
I2CCK
I2CDT
C908
0.1u
PRST
/KEYINT
SDO1
3.3V
3.29V
L902
N3
GP6<13>R17
SPI1_SoMIH17
SPI1_SIMoG17
G16
DVDD3318_C5
DVDD3318_C6
DVDD3318_C7
DVDD3318_C8
DVDD3318_C9
DVDD3318_C10
DDR_DVDD18_1
DDR_VREF
DDR_ZP
RTC_CVDD
PLL1_VDDA
PLL0_VDDA
/INT_IO
C905
0.1u
1.8V
A8 B7 B8 C7 C8 D7 D8 E7 E3 D2 D3 C2 C3 B2 B3 A2 E8 E2 F3 F7 H3
VDDQ5
R915
W14
V15
V18
V19
U19
T16
R18
R19
R15
P17
U18
V16
R14
W16
V17
W17
W18
W19
H3
33A
CN906
33M
50A
/20o_WUP
REVERSE
CURRENT
PREVENTION
GP6<6>
VSSQ5
E9
D1
C9
B1
A7
K9
F9
A9
E1
0
U12
L14
N15
L15
33A
33M
1
2
C916 R914
I2CCK
30 AUXIO6/BER CK
29 AUXIO7/BER DT
R963 100
R964 100
R965 470
R966 470
12BU_1
AIO6
R805
49.9
DI
D907
PRU0_R30<15>/PRU0_R31<15>
CP901
RK74HA1J100J
D33_RXD2
C954 100p
C955 100p
100p
100p
100p
VDDQ4
VDDQ3
VDDQ2
VDDQ1
VDD3
VSSQ1
VSSQ4
VSSQ3
VSSQ2
VSS3
P6
P12
C986
C987
C988
D9
C1
B9
A3
K1
F1
A1
SYMTIM_IN
PLD
I2CDT
PRU0_R30<14>/PRU0_R31<14>
1k
10u
RB521CM-30
AIO7
AIO1
AIO2
G18
PLL1_VDDA
PLL0_VDDA
UART2_SW3
RXD2
R828
10k
33M
PRU0_R30<13>/PRU0_R31<13>
R4
F17
3
28
27
AUXIO1
AUXIO2
IC702
TXD2
CN901
PRU0_R30<12>/PRU0_R31<12>
PRU0_R30<11>/PRU0_R31<11>
PRU0_R30<10>/PRU0_R31<10>
PRU0_R30<9>/PRU0_R31<9>
GP6<5>
IC904
TC7SET125FUF
F16
C956
100p
IC907
BD11600NUX
SPI1_SCS<7>/I2C0_SCL
SPI1_SCS<6>/I2C0_SDA
SPI1_SCS<5>/UART2_RXD
SPI1_SCS<4>/UART2_TXD
SPI1_SCS<3>/UART1_RXD
SPI1_SCS<2>/UART1_TXD
SPI1_SCS<1>
RXD1
TXD1
/PCS
/PTT
4
L18M17M15H18H1 H2 K1 K2 L3
J8 J9 J10J11K7 K8 K9K10K11L5 L7 L8 L9 L10L11M4 M5 M6 M7M10M11N5N11N12P11
M1M14N16A19H8 H9H15 J7
E18
F19
F18
E19
W949D6KBHX5I
33M
G
C957 100p
20o_BSY
KEY_TX
VCC
C989
R967
R981
LINE
PROTECTION
5
1D+
VCC
1D-
S
26 RXD2/DI
1608
100p
100p
D33_TXD2
220
220
R882
47k
220
220
INA
R968
R982
C990
100p
6
AIO3
25
24
AUXIO3
R969
GND
LOGIC
CONTROL
2D+
D+
MOBILE DDR
SPI1_SCS<0>
100p
470
C958
VDD2
VSS2
C991
C992
C993
C994
C995
C996
oUTY
7
27
13
25
12
24
11
23
10
22
9
TXD2/AUXIO9
R970 100
R971 470
R972 470
R973 470
R974 100
C899
10u
2D-
D-
RMII_TXD<1>/PRU0_R31<29>
RMII_TXD<0>/PRU0_R31<28>
RMII_TXEN/PRU0_R31<27>
RMII_RXD<1>/PRU0_R31<26>
SPI1_ENAH16
SPI1_CLKG19
G
100p
VDD1
RTCGND
SCK1
SDI0
VSS1
25REF
50A
8
GND
oE
R927
470k
AIO4
AIO8
AIO5
AIO9
23 AUXIO4
F
PLL1GND
PLL0GND
OSCGND
R993
0
R992 R996 R991
R997
0
R994
0
MIC
E
C959 100p
C960 100p
C961 100p
100p
100p
100p
100p
J8 J9 K7 K8 K2 K3 J1 J2 J3 H1 J7 H2 G3 G2 G1 H7 H8 H9 G9 G8 G7 F8 F2
SPI0_SoMI/MII_RXERC16
SPI0_SIMo/MII_CRSC18
9
22
21
AUXIO8
AUXIO5
B
SDO0
E5 E4 E3 E2 E1 D5 D4
KPY0
1k
0
0
D904
DA204U
RXD0
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
SPI0_SCS<5>/UART0_RXD/MII_RXD<3>
SPI0_SCS<4>/UART0_TXD/MII_RXD<2>
LINE
PROTECTION
RMII_RXD<0>/PRU0_R31<25>
RMII_RXER/PRU0_R31<24>
C19
D18
UMode R880
1k
ANALOG SW
TXD0
KPY5
A1
A2
D3
D2
D1
C5
C4
C3
R950
20 AUXIO9/CTS
KPY8(PWM2)
KPY10(PWM0)
SPI0_SCS<3>/UART0_CTS/MII_RXD<1>
SPI0_SCS<2>/UART0_RTS/MII_RXD<0>E17
ME
/SD_DET
RMII_MHZ_50_CLK/PRU0_R31<23>
RMII_CRS_DV/PRU1_R31<29>
MMCSD1_DAT<3>/PRU1_R30<3>/PRU1_R31<4>
/ADC
SDA
SCL
KPX4
0
21
8
AO1
19
18
17
16
15
14
13
12
11
AUXO1
TXD0
AUXO2
RXD0
GND
ME
/DACCS
/EVCS
/IF_REG
/BT_SHUTDOWN
D16
SPI0_SCS<1>/MDIo_CLK
E16
C962
C963
100p
100p
MMCSD1_DAT<2>/PRU1_R30<2>/PRU1_R31<3>
A3 KPX6
SD1_DAT[3]
SD1_DAT[2]
SD1_DAT[1]
20
7
R975 100
R976 100
MMCSD1_DAT<1>/PRU1_R30<1>/PRU1_R31<2>
PRU1_R30<0>/PRU1_R31<1>
R936
100
KPX0
KPY1
GND
10u
C932
DEO
VCC
A4
A5
B1
100p
100p
C984
C985
54M
19
6
SPI0_SCS<0>/MDIo_D
SPI0_ENA/MII_RXDV
SPI0_CLK/MII_RXCLK
AO2
K3
D17
C17
D19
R_SET1
KPX1
KPY6
DZ2S056(M)
OVER
VOLTAGE
PROTECTION
J3
CN736
18
5
SCK0
KEY_RX
K4
17
4
VOLTAGE
REGULATOR(33SD)
IC711
TC35893XBG
E6 C7 B6 A6 D6 A7 D9E10D7 C6 E7 B5 E8 B8 A8 C9A10B10A11C10E11B11E12C11A12D11D13B12C12D12A13B13E13C13A14D14B14D15C14C15A15B7 D8A16A9A18B17A17F9B16D10B9 A5 C8B15B18B19
MODEL
R998
0
L9
16
3
ME2
B2 B3 B4 B5 C1 C2
C928
10u
R810
1k
5.32V
R920
0
L906
R921
1k
15
2
MI2
5
4
3
GND2
GND1
COMMON
CD
DAT1
DAT0
VSS
CLK
VDD
CMD
CD/DAT3
DAT2
12
11
10
9
I/O EXPANDER
R984
6.8k
UART2_SW1
UART2_SW2
14
1
DEO
DEO1
50A
C964
/SD_DET
IC707
BD11600NUX
26
GND
8
SD1_DAT[1]
SD1_DAT[0]
0.047u
7
L907
A
A
J901
E58-0521-05
R812
2.2k
10 50A
A
VER2
6
SD1_CLK
50A
SB1
C965 100p
5
oE
oE
D-
D+
S
9
8
7
6
5
4
3
2
1
OVER
VOLTAGE
PROTECTION
DI/RTS
AFO
SB
R947
100
1
2
4
GND
D-
GND
2D-
C936
10u
D33_RXD2
D33_TXD2
P_RXD2
R941
100
SD1_CMD
SD1_DAT[3]
SD1_DAT[2]
LOGIC
CONTROL
3
MODEL = Mobile
VER1/2 = PCBVER
2D-
D+
VREF
AFO
50A
2
50A
100p
C966
1
2D+
S
2D+
1D-
IC709
C807
0.01u
R885
0
D906
DZ2S056(M)
13.6V
1D-
VCC
1D+
P_TXD2
VCC
G
/DM_EN
J700
E68-0426-05
VCC
D916,921
SB
F900
C720
0.1u
LOGIC CONTROL
IC704
1D+
DM_OUT
INA
REVERSE
CURRENT
PREVENTION
SB
IC708
BD11600NUX
oUT1
IN1-
F53-0286-05
33M
VDD
oUT2
GND
/CS2
/CS3
oUTY
18M_3
33M
18M_3
L724
SB
A
R943
0
3.29V
ANALOG SW
oUTY
GND
TC7SET125FUF
-
+
A
A
DI
LOGIC
CONTROL
SB
AFO_D
R925 27k
SSM3K335R
IN1+
VSS
SSM3K335R
Q907
oUTY
GND
+
-
DM_IN
33M
R728
Other than SPANTION
ANALOG SW
Q908
SB
IC705
INA
LOGIC CONTROL
3.29V
IN2-
IN2+
DC SW
R977
1k
R857
33k
VCC
CN729
DC SW
LINE
PROTECTION
100k
R729
INA
25REF
NC/RSSI
G1
A1
INB
R961
1k
VCC
VCC
INB
IC903
BU7242NUX
A
IC701
GL512S11DHIV2
CN730
/FLDM
100k
R777
1k
TC7SZ08FE
C780 0.1u
1.8V
IC710
TC7SZ08FE
G2
Y1
RS-232C
DRIVER
Y2
E3 H3 E4 H4 H5 E5 H6 E6 F3 G3 F4 G4 F5 G6 F6 G7 G1 F7 E1 A4 H8 H1 D1 C1 B1 A8 A1
CN907
FlashROM 512Mb
VSS3
VSS2
LOW = UART OR USB LOADER
AF AMP
OVER
VOLTAGE
PROTECTION
OVER
VOLTAGE
PROTECTION
A
A
A
A
E8
H2
H7
AFO_SP
RXD1
TXD1
RTS1
CTS1
3.29V
R2oUT
GND
A2
/WP internal Pull-Up
CN904
CN905
G5
VSS1
VCC
R2IN
TC7WH126FU-F
T2IN
T2oUT
C948
50
1u
1u
T1IN
E2 D2 C2 A2 B2 D3 C3 A3 B6 A6 C6 D6 B7 A7 C7 D7 E7 B3 C4 D5 D4 C5 B8 C8 F8 G8 F2 G2 A5 B5 B4 F1 D8
V-
C2-
C2+
C1-
V+
C949
50
R1oUT
R1IN
T1oUT
GND
1000p
C854
C950
C951
/FRST = OPEN DRAIN
RB521CM-30
50
50
1u
1u
DC SW
CN751
R937
0
FLASH MEMORY
33M
VCC
3.29V
C1+
5.32V
RESET
IC720
XC61CN5002N-G
L15
33OPT
CN747
CN748
CN755
CN754
CN745
CN746
IC909
ADM3202ARUZ
D701
3.29V
R755
R756
100k
100k
REVERSE
CURRENT
PREVENTION
R884
100k
VOUT
VSS
4
3
5
1
Q701
SSM3K15AMFV
REVERSE
CURRENT
PREVENTION
CN753
3.1V
R835
4
3
2
1
SB1
C821
100p
DC SW
C903
100k
D710
RB521CM-30
VIN
NC
C824
GND
SPG
SPo
DC SW
1000p
C822
100p
1000p
2
D710,711
0V
C852 0.1u
D708
REVERSE
CURRENT
PREVENTION
3.17V
C681
470p
Q900
SSM3K335R
CN900
AUDIO
MUTE
D702
D703
D704
D711
RB521CM-30
EDZV8.2B
OVER
VOLTAGE
PROTECTION
SUB UNIT (DISPLAY)
(XC3-002) CN2
VOLTAGE
REGULATOR(33OPT)
D705
D706
0V
Q901
SSM3J332R
D702-706
LINE
PROTECTION
AUDIO
MUTE
-3.49V
CN735
CN749
CN731
Option20pin
MODULE UNIT(BT/GPS)(XC2-003) CN1
SUB UNIT (DISPLAY)(XC3-002) CN6
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
(No.RA032<Rev.001>) 2-1
BLOCK DIAGRAM
MAIN UNIT
Main Unit (XC1-102 A/2)
IC706
700MHz:763~775.99375MHz(RX/TX)
:793~805.99375MHz(TX)
IC702
DDR
DDR_A[0]~DDR_A[13]
DDR_BA[0],DDR_BA[1]
DDR_CAS,DDR_CKE,DDR_CLKN
DDR_CLKP,DDR_CS
DDR_DQM[0],DDR_DQM[1]
DDR_RAS,DDR_WE
800MHz:806~825MHz(TX)
:851~870MHz(RX/TX)
18M
IC100
SKY72310362LF
Fin
Q102
MCH3914-H/8/
VCO_MOD
D110
SMV1801-079LF
D106
SMV1705-079LF
D107,108,109,117
SMV1130-079LF
DDR_DQS[0],DDR_DQS[1]
DDR_D[0]~DDR_D[15]
33C
50C
D305 L8104
D306 L8104
D308 L8104
D310 RN142S
D311 RN142S
IC101
TC7SH17FUF
IC701
Q105
2SC5108F/Y/
Q106
2SC5108F/Y/
D300 RN262CS
D500 RN262CS
Q107
2SC5108F/Y/
IC300
Pre
Q300
RD01MUS2-T113
Q301
NE5550234
Q302
RD10MMS2-T212
Q303
RD50HMS2T1105
10
9
8
7
6
5
4
3
2
1
PLD
COUPLER
/CS2,/CS_F,/FRST,/OE,/WP,/WR
ADD[0]~ADD[23]
J700
Pre
DRIVE 2
AMP
Pre
DRIVE 3
AMP
ANT
TX
T/R
SW
Loop
Filter
FLASH
LPF
Buff
CPL
BUFF
Doub
33M
DRIVE 1
AMP
DRIVE
AMP
FINAL
AMP
VCO
SW
PLL
DATA[0]~DATA[15]
33C
PLL_CLK
/SD_DET
SD1_CLK
SD1_CMD
SD1_DAT[0-3]
PLL_MOD
SDO1
Q14
EM6M2
/CS_F
+B
+B
Gate Bias 2
Q113
SSM3J15FS
/PCS_RF
P_SCK1
/CS2
/CS3
50R
DC SW
DC SW
50CT
ASSW
Q18
SSM3J334R
Ripple
Filter
DC SW
33SD
Q81
SSM3J15FS
IC102
BA2904FVM
1/2
Q17
LTC014EEBFS8
Gate Bias 1
Q16
IC704
TC7SZ08FE
Q108 DSC9A01/T/
D115 1SS400SM
Q110
EM6M2
SSM3J334R
Q15
LTC014EEBFS8
IC302
ADL5513
D304
RB706F-40
DC
CV
90C
DC SW
/T_R
SW
IC703
CDC3S04YFF
50CS
X700
L77-3123-05
19.2MHz
90T
50CT
DC
Q700
2SC4617/S/
PA
CTRL
REV
DET
90C
/RST
200C
SW
Q305
LSCR523EBFS8
Q306
LSCR523EBFS8
REV
IF_CLK_EN
IF_MAIN_CLK
PLL_CLK
Clock
Buffer
DC SW
DC SW
Buffer
33M
TCXO
33M
FCNT
/DSW
/DSW
IC303
NJM12904RB1
2/2 1/2
ANTSW
RX
VCO
Ramp_
Offset
TXC
Q309
SSM3K15AMFV
Q308
200C
IC102
BA2904FVM
2/2
DC
AMP
DC
AMP
Q103EM6M2
D100EDVZ8.2B
Q500
2SC5108F/Y/
EM6M2
DC SW
Q104
MCH3914-H/8/
D111
SMV1705-079LF
D112,113,114
SMV1130-079LF
33M 18M
DC SW
Local
BUFF
ASSIST
IC304
NJM12904RB1
CN749
90T
90T
1/2 2/2
54M
ASTSW
33M
18M
DC
AMP
DC
AMP
50R
SPC
MP
L726,L728,L729,L730,L731
L79-1984-05
DC
DC SW
AMP
Q307
LSCR523EBFS8
---------------------------------------------------------
--SD(J700)--
SD1_DAT[0]~SD1_DAT[3],SD1_CLK,SD1_CMD
---------------------------------------------------------
--PLL(IC100)--
SDO1,PLL_MOD,PLD
---------------------------------------------------------
--DPDT SW(IC714)
/PCS,SCK1,/DMOD_CS,BCLK,TX_PLL_SEL
---------------------------------------------------------
--BT/GPS (XC2-003 IC5)--
/BT_SHUTDOWN,GPS_PA_EN
---------------------------------------------------------
--TX--
ANTSW,/DSW,TXC,ASSW,VTX_H_/L
---------------------------------------------------------
--IFIC(IC600)--
/IF_REG,IF_CLK,/IF_CS,IF_DI,2nd_VCO
---------------------------------------------------------
--ADC(IC712),IFIC(IC600)--
IC305
NJM12904RB1
DC,/CS_LCD,/RD_LCD,/WR_LCD
D[0]~D[15]
/CS4,/OE,/WR,ADD[23]
DATA[0]~DATA[15]
Ripple
Filter
APC1
90T
90T
50C
90T
LPF
Q600
MCH3914-H/8/
D600
SMV1705-079LF
Q601
LTC023JEBFS8
PRST,PRST_MON,/KEYINT,I2CCK,I2CDT,USB0_DM,USB0_DP,RXD0,TXD0
/PTT
Q501
MT3S111
L521
L79-1927-05
L510
L79-1927-05
D505 RN142S
D506 RN142S
2nd
SW
2nd_VCO
VCO
50C 33C
PRO
IC711
LNA
BPF
50R_700
BPF
50R_700
IF_MAIN_CLK
TECT
IC500
AK1224
Q603
2SC5066F/0/
XF600
58.05MHz
Q604
BB506CFS-H
R_SET0,R_SET1,R_SET2
IC501
UPG2214TK-A
IC502
UPG2214TK-A
GPS_PA_EN
/BT_SHUTDOWN
/SD_DET
1st
IF
AMP
IF
/IF_CS,SDIO,IF_DI,IF_CLK
/IF_REG,SDO0,SCK0
SPDT
SW
SPDT
SW
Q504
50R_700
I2CCK
I2CDT
MCF
EM6M2
Q503
SSM3J15FS
IF IC
AMP
I/O
/DM_EN
DM_OUT
MIXER
EXPANDER
L511
L79-1928-05
Q502
MT3S111
L522
L79-1928-05
UMode
/INT_IO
DM/KVL
UART2_SW1
UART2_SW2
UART2_SW3
ESP_DET
L7B-0001-00
Q909,910
50R_700
50R_800
DC
SDI0
IC600
2SC4738(GR)F
2SA1832(GR)F
D925,926
50R
---------------------------------------------------------
--DAC(IC715),DAC(IC719),IFIC(IC600),ADC(IC712)--
SCK0,SDO0
---------------------------------------------------------
--ADC(IC712)--
/ADC
---------------------------------------------------------
--DAC(IC715)--
/DACCS
---------------------------------------------------------
--DAC(IC719)--
/EVCS
---------------------------------------------------------
--5V AVR(IC17)--
RXC
---------------------------------------------------------
--5V AVR(IC12),DC SW(Q6,Q11)--
SBC_2
---------------------------------------------------------
--DC SW(Q12)--
/SAVE
---------------------------------------------------------
--3.3V AVR(IC7)--
SD_EN
SW
IC709
TC7SET125FUF
AD9864BCPZRL
BPF
LNA
BPF
50R_800
50R
50R
50R_800
50R
DA3S101F
IF_CLK_EN
DM_IN
PRSR_MON
LIMIT
IC710
TC7SZ08FE
RX_SW
50R_800
IC902
TLV32AIC3104I
33M
IC913
BU7242UNX
2/2
MIC
ME
VCO_MOD
MI2
ME2
DI
33A
AFO+
AFO-
CODEC
DEO
IC903
BU7242UNX
50A
2/2
CODEC_DI,CODEC_DO
I2CCK,I2CDT,/CRST
BCLK,WCLK,MCLK
AFO_D
AFO
---------------------------------------------------------
--RX--
RX_SW
CN910
18M_333A
SB2
IC911
LA4425A
SB2
50A
IC903
BU7242UNX
1/2
---------------------------------------------------------
CN2
+B
DC in
SPAF_3
SPAF
Q8
LSCR523EBFS8
Q9
LSAR523UBFS8
D11
DZ2S056(M)
(13.6V)
AFO_SP
IC714
BD11600NUX
Q902
LTC014TEBFS8
SPO
F1
F53-0519-05
IC1
/PCS
PA
GND
SW
50BU
5V
3.1V AVR
Module (BT/GPS) Unit (XC2-003)
31BU
12BU
AF_MUTE
DPDT
SCK1
SW
/PCS_RF
P_SCK1
HOR
CN1
IC3
XC6215B122N-G
/DMOD_CS
1.2V AVR
BCLK
Q905
SSM3K335R
J900
ESP_DET
Q1
SW
EXTSP_EN
33M TX_PLL_SEL
KTA2012EP
Q3
SSM3K15AMFV
D909 IC900
DA3S101F TC7SET08FUF
33BT 18BT
IC908
TC7WH14FK-F
X2
L77-3121-05
32.768kHz
Bluetooth
2400-2483.5 MHz
DC SW
/BINT
IC712
ADS7961SRHB
SCTAM1
IC5
NL5500LYFVR
SW
Q906
SSM3J332R
IC8
TPS54240DGQ
/ADC
CV,Ramp_Offset,BLVL,THP1,THP2
TEMP,REV,GPS_PWR,GPS_ALM
18BT
XO
SDI0
ADC
L11
L79-1987-05
5.4V DC/DC
Converter
SCK0,SDO0
54M
D900
DA3S101F
IC912
TC7SET08FUF
Q901
SSM3J332R
54M
12M
Q1
EM6M2
CN900
A1
W02-3785-05
SW
BPF
IC715
DAC124S085CIS
GPS
1575.42MHz
SPO
SPG
1.2V AVR
DC
BLUETOOTH
33BT
BAT_CNT
/DACCS
Q12
EM6M2
SW
GPS
DAC
APC,ASSIST,FCNT
SW
INTSP_EN
Q5
54M
DC SW
MTM981400BF
Q6
LTC014EEBFS8
IC11
LXDC2HN18F163
Q900
SSM3K335R
IC719
R2A20178NP
SB1
F2
FZA10BS-5R0
BPF
1.8V AVR
18M
SB1
DC SW
/EVCS
DAC
TXCO
IC9
XC8102AA07-G
L9
L79-1985-05
MP,SPC,SPAF,SPAF_3
E-Vol
(XC1-102 B/Main Unit 2)
X1
L77-3123-05
19.2MHz
18M_3
33M
DC SW
IC5
XC6223D331P-G
/BER_EN
SBC_2
ANT
DET
33GPS
Q10
3.3V AVR
CN907 CN906
MTM981400BF
Q11
LTC014EEBFS8
20o_CLK
/BER_EN
D916,D917
D921,D922
DA2J101
IC905
TC7WT125FUF
MI2
ME2
DI
IC2
MSP430G25KGCA
F3
FZA10BS-5R0
IC4
NJM2878F4-33
DZ2J108(M)
SB2
DC SW
VOLTAGE
PROTECT
3.3V AVR
SBC_2
20o_DX
IC910
33A
33C
/OVRB
GPS_PWR
GPS_ALM
DEO
AFO
/OVRB_OUT,/IGN_OUT,/PSW_OUT
PWR_CAN,BINT2,/RST,/BINT
BTFM_nSHUTDoWN,GPS_PA_EN
18BT_HCI_TX,18BT_HCI_RX
IC15
BA00DD0WHFP
IC906
TC7WBD125AFK
P_TXD2
P_RXD2
BAT_CNT
/IGN
PCA9555AHF
IC12
NJM2878F4-33
SBC_2
18BT_HCI_CTS,18BT_HCI_RTS
18BT_AUD_OUT,18BT_AUD_IN
18BT_AUD_FSYNC,18BT_AUD_CLK
Power
9.0V AVR
90C
AO1
AUXO1
AUXO2
D1
DZ2J180(M)
Managment
3.3V AVR
INV
AO2
I/O
EXPANDER
LEVEL
SHIFT
IC16
XC6209B502P-G
Q4
LTC014EEBFS8
I2CCK,I2CDT
Q907,Q908
IC14
XC6223H331P-G
SSM3K335R
AIO[1-9]
BT_SW
5.0V AVR
/PSW
50CT
/OVRB
DC SW
IC2
BU18TD2WNVX
3.3V AVR
PA
33OPT
33SD
50A
HOR
SD_EN
1.8V AVR
18BT
54M
50A
IC7
XC6223H331P-G
31BU
CN735
CN1
50A
/INT25P
IC3
XC6209B332D-G
3.3V AVR
IC907
BD11600NUX
IC708
BD11600NUX
IC707
BD11600NUX
TXD2/
AUXIO9
AIO9
P_TXD2
G_TXD2
3.3V AVR
33BT
TXD2
RXD2
IC10
/BT_SHUTDOWN,GPS_PA_EN
RXD2,TXD2
GPS_ANT_SW,WCLK,BCLK,BT_AUD_DI,BT_AUD_DO
RTS2,CTS2,BT_SW
D33_TXD2
18BT
33BT
DPDT
SW
DPDT
SW
GPS_ANT_SW
IC4
NJM2878F4-33
DPDT
SW
LEVEL
SHIFT
5.0V AVR
RXC
IC905
TC7SET125FUF
RTS2,CTS2
RXD2/DI
D33_RXD2
P_RXD2
BT_AUD_DI,BT_AUD_DO
WCLK,BCLK
3.3V AVR
33GPS
IC17
DI
G_RXD2
GPS_PWR
SURGE
5.0V AVR
SBC_2
IC1,6,7
74AVC4TD245GU
50R
PROTECT
GPS_ALM
50A UART2_SW3
33M UART2_SW2
33M UART2_SW1
GPS_PA_EN
SB1
50A
GPS_PWR,GPS_ALM
BT_SW,GPS_ANT_SW
IC6
/BT_SHUTDOWN
G_TXD2
5.0V AVR
IC909
ADM3202ARUZ
50C
G_RXD2
Q12
EM6M2
RXD0
TXD0
RXD1
TXD1
54M
54M
50CS
DC SW
RS-232C
Driver
RTS0
CTS0
RTS1
CTS1
/SAVE
IC13
TPS61041DRVR
Q7
CN4
20V DC/DC
Converter
200C
LTC014TEBFS8
33M
MAIN UNIT
/IGN
XC1-102/XC2-003
XC1-102 A/2
A
(No.RA032<Rev.001>) 2-2
B
C
D
E
F
G
H
I
J
K
L
M
N
O
P
Q
SUB (Display) UNIT
Sub (Display) Unit (XC3-002)
CN6
CN4
DAT[0]~DAT[15]
/WR /RD /CS ADD[23]
LCDRST
5
4
3
2
1
IC2
BU30TD2WNVX
IC1
MM3404A50URE
33M
30LCD
3V
VOLTAGE REGULATOR
5V
VOLTAGE REGULATOR
54M
50M
18M
33M
18M
KEYi3(KEYi3_2)
S12
S8
S7
S6
S5
S4
S3
S2
S1
54M
KEYi2(KEYi2_2)
KEYi1(KEYi1_2)
KEYi0(KEYi0_2)
D6
D4
S9
D11
D9
/PSW
S10
33M
IC6
BH1721FVC
D16
D14
D5
33M
D7
LIGHT
SENSOR
IC10
TC35894FG
D12
D10
D15
I2CCK
I2CDT
S11
Q2 (1/2)
SSM6N37FE
/EMG
KEYo2
KEYo1
KEYo0
Q2(2/2)
SSM6N37FE
To LCD
54M
D21
LCDRST
/KEYINT
KEYBLC
Q6
LTC014EEBFS8
LED_R
LED_G
LED_B
IC3(1/2)
TC7WT125FUF
BLCSW
BLC
Q4
LTC014EEBFS8
33M
BLC_2(BLC_3)
50M
Q3
LTC014EEBFS8
IC4
BD11600NUX
IC9(1/2)
TC7WH126FK
54M
IC8
BD1754HFN
RXD_50V
RXD_33V
DPDT SW
LED1
LED2
LED3
LED
DRIVER
D+
D-
LCDBLC
BUSSWC
IC3(2/2)
TC7WT125FUF
/TXDEN
J1
TXD
BLC_4/D+(D+2)
33M
HOOK/RXD/D-
IC9(2/2)
TC7WH126FK
PTT/TXD(TXD_3)
/PTT
DM/KVL(KVL_3)
MIC(MIC_3)
ME(ME_3)
CN2
SB(SB_2)
CN5
SP+ SPG
A
B
C
D
E
F
G
2-3 (No.RA032<Rev.001>)
(No.RA032<Rev.001>) 2-3
PRINTED CIRCUIT BOARD
MAIN UNIT (XC1-1021-80) (XC1-1021-80 (NX-5900(K), NX-5900B(F), NX-5900B(K)))
--- Component side view (J7C-0126-00) ---
C25
D17
IC18
CN3
GND
D16
CN4
R402
CN909
CN908
D
C
B
A
CN19
C967
C2
IC911
CN307
CN308
C423
D912 D911 D910
IC15
L3
L2
L1
C399 L320
D915 D914 D913
TH306
R62
C77
D918
D919
C981
R945C943
F900
C933
IC910
R953
R954
R961
R962
R977
C997
R978
D312
C434
C433
L316
R395
R433
C446
D314
R355
R386
R404
R387
TH302
R397
R392
R391
R385
IC302
R406 R408
IC304
D11
R413
R407
Q16
R66
C427
R424
R348
R436
TH305
J7C-0126-00
A/2
XC1-102/103
R383
R354
R353
Q18
IC303
IC305
R60
C428
R423
R371
R68
R20
R343
R417 C441 R428
R418
R420 R427
C431
C432
Q14
R401R403 R411
R405 C436
R426
L333
CN905
C76
R61
Q17
R421
R384 C393
C949
C1
D907R928
C945
CN904
J700
IC3
IC907
CN16
CN13
R53
C66
IC909
R937
IC904
R985
CN901
C69
CN744
R1
R2
C192
L7
R154 C191
D115
R29
A1
L101
L100
R58
L141 C198
C110
R107
IC100
CN715
CN12
R104
CN722
CN720 CN721
L14
L15
R123
D100
CN719
R24
RTC
E100
R113
R102C100
C103R100
CN723
R23
CN730
C195
R159
C728
C121 R111
CN729
C773
C776
C775
C731
C733
C735
L140
C190
R115R117
C127
C128
C64
C774
L720 C750
CN752
C745
C741
C82
C202
R556
L103
C754
C756
C759
IC11
C130
R166
C725
C723
CV
CN109 R110
C531
Q503
C681R789
C760 C764
C758 C766
C755 C762
Q81
C718
C715
C742
C786
C785
C711
C557
C707TXD0
C752
C751
C749
C791
R807
C737
R752
R766
R762
R808
C792
C736
C734
C732
CN755
RXD0
CN754
IC710
R773
R764
IC709
CP600
C730
CN10
CN11
C608
L601
L602
L600
R603
CN753
L714
C795
CN747 CN745
E600
C796
R756
C800
C820
L603
C615
C602
C601
C600
IC705
R602
R601
R600
IC7
CN748 CN746
CN751
C807
C619
C801
R833
C612
C629
C622
C625
C627
C628
C611
C616 C617
C621
C623
L605
R878
Q705
R877
C787
CN749
C49
L9
C626
R609
R816
CN5 CN9 CN8 CN20
CN14
CN735
C821C822
D705D706D702D703C818 C816
C631
C637
C646
C798
C794
C793
D708
R71
R72
R607
C649
C638
R611
C644
C643
C841 C839
CP703 CP704 CP705
C635
C652
C651
R884
C853
D711
R610
L626
C852
C639
L612
L610
R614L614L613
IC720
1
2
3
4
5
(No.RA032<Rev.001>) 2-4
2-4 (No.RA032<Rev.001>)
MAIN UNIT (XC1-1021-80) (XC1-1021-80 (NX-5900(K), NX-5900B(F), NX-5900B(K)))
--- Foil side view (J7C-0126-00) ---
R76
D924
D905
R78
Q906
R960
C420
C44
R958
C977
Q303
D307
D
C
B
A
Q11
R36
C396
C349
R329
C395
C394
C50
R39
C355
R49
R50
R933
C18
R930
C937
R338
R938
R17
C51
C56
R963
C986
R361
D14
C419
L329
C418
R964
C987
R948
F300
C360
C351
R362
L11
D1
C4
R965
C988
L317
F300
TH301
R337
L12
C353
C348
C457
R966
C989
R969
C991
R970
C992
R971
C993
C994
R972
C995
R973
C953
C968
C458
C357
R330
C966
C965
C417
C416
C350
C24
C941
C935
C340
C963
C962
C961
C960
C959
C958
C957
C956
C955
C954
C339
C337
L907
L906
C415
C335
R324
C983
R947
C975
C976
C448
R325
L315
D304
R349
L326
C412
R974
C996
R320
R437
C334
C321
C323
C322
R304
C332
C331
R309
R308
R319
C328
R306
L324
R975
C984
D306
R438
R313
C319
R315
R316
L327
C314
R307
Q301
Q300
R976
C985
D305
C324 C325
C421
C329
C998
C310
C311
L304
L303
C305
C309
R305
C407
C392
D308
C71 R57
L323
R341
R340
C45
C65
L302
L300
C38
C905
IC901
C62
R56 C70
C72
C303
C84
C929
D310
D311
R885
R303
R301
R148R147
C187L139
C83
IC6
R31
R925
R951
C906
R908
R43
C67
C54
C186
R919
IC903
R146
R144
R145
R55
C213
R179
R177
CN710 CN712
IC703
C556
C900 R900
C189
C902
C558
L713
C771
IC908
IC501
C552
C940 R944
C770
L723
D700
C553
C757
C973
CN743
R727
C748
R983 C970 R955
C919
CP706
D500
D300 R300
R173
R913
C920
R707
C740
C857
C856
C183
R143
C184 C185
D923
L122
C154
C722
C726
R722R700
C927
R175
R176
IC711
C914
C913
C912
R547
R548
R838
R133
L129
R500
R502
C819
C817
C926
R912
R998R921
Q104
C925
R911
C182
C181
C543
R542
R541
R538
C540
C537
L121
X700
R922
R979
D112
C211
D113
L125
IC712
R720
R719
L127
L518
CP701
R880
C781 C782
R736
C911
R135C164 C161
L124
TH700
C729R709
C704
C165
CP900
R858
R859
C908
L902
R544
R543
C783
Q501
L504
R504
CP710 CP709
R874
R902
R997R991R996
R993
R701R708
D701
L701
R734
IC704
R537
C779
L515
C176
C174
C172
C168
R732
R728
R729
C175
L133
L132
C170
R140
L130
R503
R505
IC714
C541
C539
CP711
L732
R867
L724
C505
L120
CN717
C784
CN738
L111
L117
CN736
CN711
C829
R139
C169
C799
R702
L514
IC701
L505
R747
R748
R754
R876
L112
C151
CN733
R795
R798
IC715
R507
R506 Q106
C167
R138
CN701
CN725
CN724
R794
C724
R136
L513
C512
C513
Q102
R753
R142
C171
C212
R137
L131
C862 R334
R797
R799
L119
R758
R801
R802
R817
R761
R532
R803
C514
C194
R162
R806
R132 C150 C147
D108
R809
R804
R800R813
R814R815
R759R751
R760
R750
R770
C152
R127
L115
L114
R531
R528
R160
CN713
CN700
R757
R765
R785
R788
R782
R778
R783
R768
R767
R774
R781
R787
C518
C517
CP717
R772
R775
C702
C701
C700
IC502
R779
R790
L503
CN709
R512 R511
IC500
R792
R763
L731
C632
CN726
C500
CP719 CP718
L726 L728
CP721 CP720
C658
L618
R622
R619
C671
XF600
C668
IC706
CN732
D9
R881
C520
R612
D602
R545
R546
L502
L501
L729 L730
C903
C504
CN702
C519
Q604
R617
R75
R25
R18
D8
L615
R616
R630
R615
R22
C653
CN900
D710
C10
5
4
3
2
1
(No.RA032<Rev.001>) 2-5
2-5 (No.RA032<Rev.001>)
A-1C
ADDRESS TABLE OF BOARD PARTS
Each address may have an address error by one
interval.
Y axis
X axis
Side
REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION
IC
IC1
IC2
IC3
IC4
IC5
IC6
IC7
IC8
IC9
IC10
IC11
IC12
IC13
IC14
IC15
Q305
A- 2B Q306
B- 1A Q307
A- 2B Q308
B- 2B Q309
A- 2B Q500
B- 2B Q501
A- 2A Q502
B- 2D Q503
A- 2A Q504
B- 2B Q600
A- 2A Q601
A- 2B Q602
B- 2B Q603
A- 1B Q604
A- 1C Q700
B- 3B Q701
A- 3A Q703
A- 2D Q704
A- 3B Q705
A- 3B Q900
A- 3A Q901
B- 3C Q902
A- 4B Q905
A- 3B Q906
A- 3B Q907
A- 3B Q908
B- 4A
B- 4B DIODE
B- 4A D1
A- 3A D2
B- 2A D3
B- 1A D4
B- 2B D5
B- 2B D6
A- 1A D7
B- 2A D8
A- 2A D9
A- 1A D10
A- 2A D11
A- 2A D12
B- 2B D13
B- 2B D14
B- 2B D15
B- 2A D16
B- 3A D17
A- 2A D100
B- 1B D106
B- 1B D107
B- 1B D108
B- 1B D109
A- 1B D110
A- 1C D111
A- 1C D112
A- 1B D113
B- 1B D114
A- 1B D115
A- 1C D117
B- 1B D300
D304
A- 3B D909
A- 3B D910
A- 3B D911
A- 3B D912
A- 3B D913
B- 4B D914
B- 4B D915
B- 4B D916
A- 4A D917
A- 4A D918
A- 3A D919
A- 3A D920
B- 3A D921
B- 3A D922
B- 3A D923
B- 2B D924
A- 3A
B- 1B R103
A- 5C R104
A- 5C R106
A- 5C R107
A- 5C R108
A- 5C R109
A- 5C R110
A- 5C R111
A- 5C R112
A- 5C R113
A- 5C R115
B- 5C R116
A- 5C R117
A- 5C R118
B- 1B R121
B- 1D R122
R123
A- 3B R330
A- 3B R331
A- 3B R332
A- 3B R333
A- 3A R334
A- 3B R335
A- 3A R336
A- 3B R337
A- 3B R338
A- 3B R339
A- 3A R340
A- 3A R341
A- 3A R342
A- 3A R343
A- 3A R344
A- 3B R346
A- 3B R347
A- 3A R348
A- 3A R349
A- 3B R350
B- 3A R351
A- 3B R353
A- 3B R354
B- 4A R355
B- 3A R359
B- 4A R360
B- 4B R361
B- 3B R362
B- 4B R369
B- 4A R371
B- 4A R373
B- 4A R374
B- 4B R375
B- 4B R376
B- 4A R380
B- 4A R381
B- 4B R382
B- 3B R383
B- 3B R384
B- 3B R385
B- 3B R386
B- 3B R387
A- 3B R388
A- 4A R389
A- 4A R390
A- 3A R391
A- 3B R392
A- 3B R395
A- 3B R397
A- 3B R398
A- 3A R399
B- 4A R401
A- 3A R402
B- 4A R403
A- 3A R404
A- 3B R405
A- 3B R406
A- 3B R407
B- 4B R408
B- 4B R409
B- 4B R411
B- 4B R412
B- 3B R413
B- 3B R414
B- 3B R415
B- 4B R416
B- 3B R417
B- 3B R418
B- 3B R420
B- 3C R421
B- 3C R422
B- 3C R423
B- 3C R424
B- 3C R426
B- 3C R427
B- 3C R428
B- 3C R429
B- 3C R431
B- 3C R432
B- 3C R433
B- 3C R434
B- 3C R436
B- 3C R437
B- 3C R438
B- 3C R500
B- 3C R501
B- 2C R502
B- 3C R503
B- 3C R504
B- 3C R505
B- 3D R506
B- 3C R507
B- 3D R508
B- 3C R509
B- 3D R510
B- 3C R511
B- 3D R512
B- 2A R514
B- 3D R515
B- 3D R516
B- 3C R518
B- 3D R519
B- 4D R520
B- 4B R521
B- 4B R527
B- 4B R528
A- 3B R531
B- 4C R532
A- 3B R533
A- 3B R534
A- 3B R537
B- 4C R538
B- 4B R539
B- 4C R540
A- 4B R541
A- 4B R542
A- 3B R543
B- 3C R544
B- 3D R545
B- 3D R546
B- 3D R547
A- 4B R548
A- 4B R549
A- 4B R550
A- 3B R554
A- 4B R555
A- 4B R556
A- 3B R557
A- 3B R600
A- 3B R601
A- 3B R602
A- 3B R603
A- 3B R604
A- 3B R605
A- 3B R606
A- 3B R607
A- 3B R608
A- 3B R609
A- 3B R610
A- 3B R611
A- 3C R612
A- 3B R613
A- 3B R614
A- 3B R615
A- 3B R616
A- 4D R617
A- 3B R618
A- 3B R619
A- 3B R620
A- 3B R621
A- 3B R622
A- 3B R623
A- 3B R624
A- 3B R625
A- 3B R626
A- 3B R628
A- 3B R630
A- 3B R631
A- 3B R632
A- 3B R700
A- 3B R701
A- 3B R702
A- 3B R707
A- 3B R708
A- 4B R709
A- 4B R719
A- 3B R720
A- 3B R721
A- 3B R722
A- 3B R727
A- 3B R728
A- 3B R729
A- 3B R731
A- 3B R732
A- 3B R733
B- 3C R734
B- 3C R735
B- 4B R736
B- 4B R738
B- 4B R740
B- 4B R742
B- 4B R744
B- 4B R746
B- 4A R747
B- 4A R748
B- 4B R749
B- 4A R750
B- 4A R751
B- 4A R752
B- 4A R753
B- 4A R754
B- 4A R755
B- 4A R756
A- 4B R757
A- 4B R758
A- 4A R759
A- 4A R760
B- 4A R761
B- 4A R762
B- 4A R763
B- 4A R764
B- 4A R765
B- 4A R766
B- 4B R767
B- 5B R768
B- 4B R770
B- 4B R772
B- 5B R773
B- 5B R774
B- 4B R775
B- 4B R777
B- 4A R778
B- 4A R779
B- 4B R781
B- 4B R782
B- 4B R783
B- 4B R785
A- 4A R787
A- 4A R788
A- 4A R789
B- 4A R790
A- 3A R791
A- 3A R792
A- 3A R794
A- 3A R795
A- 3A R797
A- 3A R798
A- 3A R799
A- 3A R800
A- 3A R801
A- 3A R802
A- 3A R803
A- 3A R804
B- 3A R805
A- 3A R806
A- 3A R807
B- 3A R808
B- 3A R809
B- 3A R810
B- 3A R812
B- 3A R813
B- 3A R814
B- 3A R815
B- 3A R816
B- 3A R817
B- 3A R828
B- 3A R830
B- 3A R831
B- 3A R833
B- 3A R835
B- 4A R837
B- 4A R838
B- 2B R839
B- 2B R843
B- 1B R844
B- 1B R845
B- 2B R854
B- 2B R857
B- 2B R858
B- 2B R859
B- 2B R862
B- 2B R863
B- 2B R864
B- 2B R865
B- 2B R867
B- 1B R868
B- 2B R869
B- 1B R874
B- 1B R876
B- 2B R877
B- 2B R878
A- 1B R879
A- 1B R880
A- 1B R881
A- 1B R882
A- 1B R883
B- 1A R884
B- 1A R885
A- 1B R900
B- 1A R901
B- 1A R902
A- 1A R903
B- 1A R904
B- 1A R905
A- 1A R906
A- 1A R907
B- 1A R908
B- 1A R909
B- 1A R911
B- 1A R912
B- 1A R913
A- 1A R914
B- 1A R915
A- 1A R916
B- 1A R917
A- 1A R918
B- 1A R919
B- 1A R920
B- 1A R921
B- 1A R922
A- 1A R923
B- 1A R924
B- 1A R925
A- 2A R926
B- 1A R927
B- 1A R928
B- 1A R930
B- 1A R932
B- 1A R933
B- 1A R935
B- 1A R936
B- 1A R937
A- 1A R938
B- 1A R939
A- 1A R940
B- 1A R941
B- 1A R943
B- 1A R944
B- 1A R945
B- 1A R947
B- 1A R948
B- 1A R949
B- 1A R950
B- 1A R951
B- 1A R953
B- 1A R954
A- 1A R955
B- 1A R956
A- 2A R957
A- 1A R958
B- 1A R960
B- 2B R961
B- 2B R962
B- 1A R963
B- 1A R964
B- 1A R965
A- 1A R966
B- 1A R967
B- 2B R968
A- 3A R969
B- 3B R970
A- 3A R971
A- 3A R972
A- 2A R973
B- 2B R974
A- 2A R975
B- 2B R976
B- 2B R977
B- 2B R978
A- 2A R979
A- 2A R980
B- 2B R981
B- 2B R982
B- 2B R983
A- 2A R984
A- 2A R985
B- 2B R991
B- 2A R992
A- 2A R993
A- 2A R994
B- 2B R996
B- 3A R997
A- 2A R998
A- 2A
B- 1B C9
B- 1D C144
B- 1A C145
A- 2D C146
B- 1A C147
A- 2B C148
A- 1D C149
B- 1D C150
A- 2B C151
B- 2C C152
A- 1D C154
A- 2B C155
B- 2D C156
B- 2B C158
B- 2D C159
A- 2B C160
B- 1D C161
A- 2B C162
A- 2B C163
B- 2B C164
A- 2B C165
B- 2D C166
B- 2B C167
A- 2A C168
B- 1D C169
B- 2B C170
A- 2B C171
B- 2D C172
B- 2B C173
A- 2A C174
B- 1D C175
B- 2D C176
A- 2A C177
A- 3A C178
B- 2B C179
B- 2B C180
B- 2D C181
A- 2A C182
B- 2D C183
B- 2D C184
B- 2D C185
A- 3A C186
B- 2B C187
B- 2D C188
A- 2A C189
B- 2B C190
A- 3B C191
B- 2B C192
B- 2B C194
A- 2B C195
B- 2B C198
B- 2B C199
B- 2B C202
A- 1B C203
A- 1B C204
A- 3B C211
A- 2B C212
A- 1C C213
A- 1C C300
A- 1C C301
A- 4B C302
A- 3A C303
B- 3B C304
B- 3B C305
A- 2C C306
A- 3B C307
A- 3B C308
A- 3B C309
A- 3B C310
A- 3B C311
A- 3B C313
A- 3B C314
A- 3B C315
A- 3B C316
A- 3B C317
A- 3B C318
A- 3B C319
A- 3B C320
A- 3B C321
A- 3B C322
A- 3B C323
A- 3A C324
A- 3B C325
A- 3B C326
A- 3A C327
A- 3A C328
A- 3A C329
A- 3A C330
A- 3A C331
A- 3A C332
A- 3B C333
B- 3A C334
B- 3A C335
B- 3A C336
B- 3A C337
B- 3A C339
B- 3A C340
B- 3A C342
B- 4A C343
B- 3A C345
B- 4A C346
B- 3A C347
B- 3A C348
B- 3B C349
B- 3B C350
B- 3B C351
B- 3B C353
B- 3B C355
B- 3B C356
B- 3B C357
B- 3B C358
B- 3B C359
B- 4B C360
B- 3B C367
B- 4A C370
B- 4A C373
B- 4B C374
B- 4A C375
B- 4B C376
B- 4A C377
B- 4B C378
B- 4B C387
B- 4B C392
B- 4B C393
B- 4B C394
B- 4B C395
B- 4B C396
B- 4B C399
B- 4B C404
B- 4B C405
B- 4B C406
B- 4B C407
B- 4B C408
B- 4B C410
B- 3B C411
B- 3B C412
B- 3B C413
B- 3B C415
A- 4A C416
A- 3B C417
A- 3B C418
B- 4A C419
A- 3B C420
A- 3B C421
A- 3B C423
A- 4A C427
A- 3B C428
A- 3A C429
B- 3B C430
B- 3A C431
B- 3B C432
B- 4B C433
B- 3B C434
B- 3B C435
B- 3B C436
B- 3B C437
B- 3B C438
A- 3B C439
B- 3B C440
B- 3C C441
B- 3C C443
B- 3C C444
B- 3C C445
B- 3C C446
B- 3C C447
B- 3C C448
B- 3C C457
B- 3C C458
B- 3C C500
B- 3C C501
B- 3C C502
B- 3C C503
B- 3C C504
B- 3C C505
B- 3C C506
B- 3C C507
B- 3C C508
B- 3C C509
B- 3C C510
B- 3C C511
B- 3C C512
B- 2C C513
B- 2C C514
B- 2C C516
B- 2C C517
B- 2C C518
B- 2C C519
B- 2C C520
B- 2C C521
B- 2C C522
B- 3C C525
B- 3C C526
B- 2C C527
B- 2C C528
B- 2C C530
B- 2C C531
B- 3D C532
B- 3C C533
B- 2D C534
B- 3C C535
B- 3D C536
B- 3D C537
B- 3C C538
B- 3C C539
B- 3D C540
B- 3D C541
B- 3D C542
B- 3C C543
B- 3D C544
B- 3D C545
B- 3D C552
B- 3C C553
B- 3D C556
B- 3C C557
B- 4D C558
B- 4C C559
A- 3B C561
B- 4D C562
B- 4D C600
B- 4D C601
A- 3C C602
B- 4C C603
B- 4C C604
B- 4C C605
B- 4C C606
A- 3B C607
B- 4B C608
B- 4C C609
B- 5C C610
B- 4C C611
B- 5C C612
B- 4C C613
B- 5C C614
B- 4D C615
B- 4D C616
B- 4D C617
B- 5C C618
A- 5C C619
A- 4B C620
A- 4B C621
A- 4B C622
A- 4B C623
A- 4B C624
A- 4B C625
A- 3C C626
A- 3C C627
A- 3B C628
A- 3B C629
A- 3B C630
A- 3B C631
A- 3B C632
A- 3B C633
A- 3B C634
A- 3B C635
A- 3B C636
A- 3B C637
A- 3B C638
A- 3B C639
B- 2C C640
B- 2C C641
B- 3C C642
B- 4A C643
B- 4B C644
B- 4A C645
B- 4B C646
B- 4A C647
B- 4B C648
B- 4A C649
B- 4B C650
B- 4A C651
B- 4A C652
B- 4A C653
B- 4A C654
B- 4A C655
B- 4A C656
B- 4A C657
A- 4B C658
B- 4A C659
B- 4A C660
B- 4A C661
B- 4A C662
A- 4A C663
A- 4A C665
A- 4B C666
A- 4A C668
B- 4A C671
B- 4A C681
B- 5B C700
A- 4A C701
B- 4B C702
B- 4A C703
B- 4B C704
B- 4A C705
B- 5B C706
B- 5B C707
B- 4B C708
B- 4B C709
B- 5B C711
B- 4B C712
B- 4B C713
B- 4B C714
B- 4B C715
B- 4B C716
B- 4B C717
B- 4B C718
B- 4B C719
A- 4A C720
B- 4B C721
A- 4A C722
B- 4B C723
B- 4B C724
A- 3A C725
A- 3A C726
A- 3A C728
A- 3A C729
A- 3A C730
A- 3A C731
A- 3A C732
A- 3A C733
A- 3A C734
A- 3A C735
A- 3A C736
A- 3A C737
A- 3A C738
A- 3A C739
A- 3A C740
A- 3A C741
A- 3A C742
A- 3A C743
A- 3A C745
A- 3A C746
A- 3A C747
A- 3A C748
A- 3A C749
A- 3A C750
A- 3A C751
A- 3A C752
A- 3A C754
A- 3A C755
A- 3A C756
A- 3A C757
A- 3A C758
A- 3A C759
B- 3A C760
A- 3A C762
B- 3A C764
A- 3A C766
A- 3A C768
A- 3A C769
A- 3A C770
A- 3A C771
A- 3A C772
A- 3A C773
A- 3A C774
A- 3A C775
A- 3A C776
A- 3A C777
A- 3A C778
A- 3A C779
A- 3A C780
A- 3A C781
A- 3A C782
A- 3A C783
A- 3A C784
B- 3A C785
B- 3A C786
B- 3A C787
B- 3A C791
B- 3A C792
B- 3A C793
B- 3A C794
B- 3A C795
B- 3A C796
B- 3A C797
B- 3A C798
B- 3A C799
B- 3A C800
B- 3A C801
B- 4A C802
A- 1A C803
B- 2A C804
B- 2A C805
B- 2A C806
B- 1A C807
B- 1B C808
B- 1A C809
B- 1A C810
A- 2A C811
A- 1A C812
B- 1A C813
A- 2A C814
A- 2A C815
B- 1A C816
B- 1A C817
A- 2A C818
A- 2A C819
B- 1A C820
A- 2A C821
A- 2A C822
A- 2A C824
B- 1A C829
B- 1B C830
A- 2A C831
B- 1A C834
A- 2A C835
B- 1B C839
A- 2B C841
B- 2B C852
A- 2A C853
A- 2A C854
A- 2A C856
A- 2A C857
A- 2A C862
A- 2A C898
A- 2A C899
A- 2A C900
B- 2B C901
A- 1A C902
B- 2B C903
A- 2A C904
A- 2A C905
B- 2B C906
A- 2A C908
A- 1A C909
A- 2A C910
B- 2B C911
A- 2A C912
A- 2A C913
A- 2A C914
A- 2A C915
A- 2A C916
A- 1A C917
A- 2A C918
B- 2B C919
A- 1A C920
A- 2A C921
A- 1A C922
A- 2A C924
A- 2A C925
A- 2A C926
B- 2B C927
B- 2B C928
B- 1B C929
B- 1B C930
B- 2B C931
A- 2A C932
A- 2A C933
A- 2A C934
A- 2A C935
B- 2A C936
B- 2A C937
B- 2B C938
B- 2B C940
B- 2B C941
B- 2B C942
B- 1B C943
B- 1B C944
A- 1A C945
A- 1A C946
A- 1A C947
A- 2A C948
A- 1A C949
A- 1A C950
A- 1A C951
A- 2A C952
A- 2A C953
A- 1A C954
A- 2A C955
B- 2B C956
A- 2A C957
A- 3A C958
B- 3B C959
B- 2B C960
B- 3B C961
A- 3A C962
B- 3B C963
A- 2A C964
A- 3A C965
A- 3A C966
A- 3A C967
B- 2B C968
A- 3A C969
A- 3A C970
A- 2A C971
A- 2A C972
A- 2A C973
B- 2B C975
A- 2A C976
B- 2B C977
A- 2A C978
A- 2A C979
A- 2A C980
A- 2A C981
B- 2B C982
B- 2B C983
B- 2A C984
B- 2A C985
B- 2A C986
A- 2A C987
A- 2A C988
A- 2A C989
A- 2A C990
A- 2A C991
B- 2B C992
B- 2B C993
B- 2A C994
B- 1B C995
B- 1B C996
B- 1B C997
B- 1B C998
B- 1B C999
B- 2A
B- 1C E2
B- 1C E100
B- 1C E600
B- 1C
B- 1C F1
B- 1C F2
B- 1C F3
B- 1C F300
B- 1C F900
B- 1C
B- 1C J700
B- 1C J900
B- 1C J901
A- 1D
B- 1C L1
A- 1D L2
B- 2D L330
A- 3B L331
A- 3A L333
L500
A- 2D L501
A- 1D L502
A- 2D L503
B- 2C L504
A- 1C L505
L506
B- 4D
B- 5B
A- 4B
B- 4A
B- 4A
B- 4A
B- 4A
B- 4B
B- 4A
B- 4A
B- 4A
B- 4A
B- 4A
B- 4A
B- 4A
B- 4A
B- 4B
B- 4B
B- 4B
B- 4B
B- 4A
B- 5B
B- 4B
B- 4B
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
A- 3A
B- 3A
B- 3A
B- 3A
B- 3A
B- 3A
B- 3A
B- 3A
A- 4A
A- 3A
B- 2A
B- 1B
B- 1A
B- 2B
B- 1B
A- 2A
A- 2B
A- 1A
A- 2B
A- 2A
B- 2B
A- 2A
A- 2A
A- 2B
B- 1B
B- 2B
B- 2B
B- 2A
B- 2A
B- 2A
B- 2A
B- 2A
B- 2B
B- 1B
B- 1B
B- 5C
B- 5C
B- 1B C10
B- 3A C11
B- 2B C12
B- 2B C13
B- 2B C16
B- 1B C18
B- 1B C21
B- 1B C24
B- 1B C25
B- 1B C30
B- 1B C31
B- 1B C32
B- 1B C33
B- 1B C34
B- 1B C35
B- 1B C36
B- 1B C37
B- 1B C38
B- 1B C39
B- 1B C40
B- 1B C41
B- 1B C43
B- 1B C44
B- 1D C45
A- 1B C46
A- 1B C47
B- 1D C48
B- 1B C49
B- 1D C50
B- 1D C51
A- 1C C52
A- 1B C53
B- 1D C54
A- 1C C55
A- 1C C56
A- 1C C57
A- 1C C58
B- 1B C59
A- 1C C60
B- 5C C61
B- 1D C62
A- 1C C63
A- 1C C64
B- 1B C65
A- 1C C66
A- 1C C67
B- 1B C68
A- 1D C69
B- 1B C70
B- 1D C71
B- 1D C72
A- 5C C73
A- 5C C74
B- 5D C75
B- 5D C76
B- 5C C77
B- 5C C78
B- 5C C80
B- 5C C81
B- 5C C82
B- 5C C83
B- 5C C84
B- 5C C85
B- 5C C100
B- 5C C101
B- 5C C102
B- 5C C103
A- 5C C104
A- 5C C106
B- 1B C107
B- 1B C108
B- 5C C109
B- 5C C110
B- 1B C111
B- 1C C112
A- 1B C113
B- 1B C114
B- 1B C115
B- 1B C116
B- 1B C118
B- 1B C120
B- 1B C121
B- 1B C124
C125
A- 2B L507
A- 1D L508
A- 5C L510
L511
A- 2C L513
A- 2C L514
A- 2C L515
B- 2B L516
A- 2B L517
B- 2D L518
A- 2B L519
A- 2A L520
A- 2A L521
B- 2D L522
B- 2C L600
B- 2B L601
A- 1B L602
A- 1B L603
A- 3B L604
A- 3A L605
A- 3B L606
A- 3B L607
A- 3B L608
A- 3A L609
B- 3A L610
B- 3A L611
B- 3A L612
B- 3A L613
B- 3A L614
B- 3A L615
B- 3A L616
B- 4A L617
B- 3B L618
B- 3B L619
B- 3B L620
B- 3B L621
B- 3B L625
B- 3B L626
B- 3B L700
B- 3B L701
B- 3B L702
B- 4B L711
B- 4A L713
B- 4A L714
B- 4B L715
B- 4B L716
B- 4B L717
B- 4B L718
B- 4B L719
B- 4B L720
B- 3B L721
B- 3B L722
A- 4A L723
A- 3B L724
B- 3A L725
B- 3B L726
B- 3B L728
B- 3B L729
B- 3C L730
B- 3C L731
B- 3C L732
B- 3C L901
B- 3C L902
B- 3C L906
B- 3C L907
B- 3C
IC16
IC17
IC18
B- 1B L3
A- 1D L4
B- 1B L5
B- 1B L6
B- 5C L7
B- 5C L9
A- 2A RESISTOR
R124
B- 2B R1
A- 2A R8
B- 3A R10
B- 3A R11
B- 1D R12
B- 1D R13
B- 1D R14
A- 5C R15
A- 5C R16
R17
A- 1B R125
A- 1D R126
B- 1A R127
B- 1A R128
B- 1A R129
B- 1A R130
B- 1A R131
B- 1D R132
A- 2B R133
B- 2D R134
B- 1A R135
A- 2B R136
A- 2B R137
B- 1A R138
B- 1A R139
A- 2B R140
A- 2B R141
B- 1A R142
B- 2B R143
A- 2B R144
A- 2B R145
B- 2D R146
B- 2B R147
B- 2D R148
B- 1D R149
B- 2D R151
B- 2D R152
B- 2D R153
A- 2B R154
B- 1D R155
B- 1D R156
A- 2B R158
A- 2B R159
A- 2A R160
B- 2B R161
A- 2A R162
B- 2D R166
A- 2A R170
A- 3A R171
B- 2D R172
B- 2D R173
B- 2D R174
B- 1D R175
A- 3A R176
A- 3B R177
B- 2B R178
B- 2B R179
B- 2B R300
B- 2B R301
A- 1B R302
B- 2B R303
A- 2B R304
A- 2B R305
A- 1C R306
A- 1C R307
A- 1D R308
A- 1D R309
A- 3B R310
A- 3B R311
A- 4B R312
A- 4B R313
B- 3B R314
A- 1A R315
A- 1A R316
B- 2D R317
B- 1A R318
B- 1D R319
B- 2D R320
B- 2D R321
A- 3A R323
A- 1C R324
A- 1C R325
A- 3B R327
A- 3B R328
A- 3B R329
IC100
IC101
IC102
IC300
IC302
IC303
IC304
IC305
IC500
IC501
IC502
IC600
IC701
IC702
IC703
IC704
IC705
IC706
IC707
IC708
IC709
IC710
IC711
IC712
IC714
IC715
IC719
IC720
IC900
IC901
IC902
IC903
IC904
IC905
IC906
IC907
IC908
IC909
IC910
IC912
B- 1D L10
B- 1D L11
B- 5C L12
B- 5C L13
A- 5C L14
B- 5C L15
B- 5C L16
B- 5C L80
B- 5C L100
B- 5D L101
B- 5D L102
B- 5C L103
B- 5C L112
B- 5C L113
B- 5C L114
B- 5C L115
B- 5C L116
B- 5C L117
B- 5C L118
B- 5C L119
A- 5C L120
B- 5C L121
B- 1C L122
L123
R18
B- 1D R19
B- 1A R20
A- 2D R21
B- 1D R22
A- 2C R23
A- 2B R24
B- 1A R25
B- 1A R26
B- 1A R27
A- 2C R29
A- 2B R30
B- 1A R31
B- 1D R32
B- 2D R33
B- 2B R34
A- 2D R35
A- 2D R36
A- 3B R37
B- 3A R38
B- 3A R39
B- 3A R40
B- 3A R41
B- 3A R42
B- 3B R43
B- 3B R44
B- 3B R45
B- 3B R46
A- 3B R47
B- 3A R48
B- 4B R49
B- 4C R50
B- 4C R51
B- 4C R52
B- 4D R53
B- 5C R54
B- 5B R55
B- 5B R56
A- 3C R57
A- 3B R58
A- 3B R59
B- 4B R60
B- 4B R61
B- 4B R62
A- 3A R63
A- 3A R64
B- 3A R65
B- 1B R66
B- 2B R67
A- 2A R68
A- 2A R69
A- 2A R70
A- 2A R71
A- 2A R72
A- 2A R73
B- 2A R75
A- 2A R76
A- 2A R77
B- 1B R78
A- 1C R84
A- 1B R96
B- 1D R97
A- 1C R100
A- 1B R101
A- 1C R102
B- 2B OTHER
B- 1B X700
B- 1B X701
B- 1B
B- 1B TH301
B- 1B TH302
B- 1B TH305
B- 1B TH306
B- 1B TH700
B- 1B
L124
B- 2B L125
B- 2B L126
L127
B- 5C L128
A- 3B L129
A- 3B L130
A- 3C L131
B- 1B L132
L133
B- 1B CN2
B- 1B CN3
B- 1B CN4
B- 1B CN12
B- 1B CN715
B- 1B CN731
B- 1B CN735
B- 1B CN749
B- 1B CN900
B- 1B CN906
B- 1B CN907
B- 1B CN910
B- 1B
B- 1B CP100
B- 1B CP600
B- 1D CP701
A- 1C CP702
A- 1C CP703
A- 1B CP704
B- 1C CP705
A- 1C CP706
B- 1D CP707
A- 1C CP708
B- 1B CP709
B- 1C CP710
A- 1B CP711
A- 1C CP716
B- 1D CP717
A- 1B CP718
B- 1B CP719
B- 1D CP720
A- 1B CP721
A- 1B CP900
A- 1B CP901
A- 1B
A- 2C L134
A- 2D L135
A- 1D L136
A- 2B L137
A- 2B L138
A- 1A L139
A- 1A L140
A- 2A L141
B- 2A L142
B- 1C L300
B- 5C L301
A- 1D L302
L303
A- 3B L304
A- 3A L305
B- 2B L306
B- 2A L307
A- 1A L308
A- 1A L309
A- 1A L310
B- 2B L311
B- 2B L312
B- 3B L313
B- 2B L314
B- 3B L315
B- 2B L316
B- 2A L317
B- 2A L318
B- 2A L319
B- 2A L320
B- 2A L323
B- 2A L324
B- 1B L325
B- 1B L326
L327
TRANSISTOR
Q1
Q3
Q4
Q5
Q6
Q7
Q8
Q9
Q10
Q11
Q12
Q14
Q15
Q16
Q17
Q18
Q81
Q102
Q103
Q104
Q105
Q106
Q107
Q108
Q110
Q113
Q115
Q300
Q301
Q302
Q303
Q304
D305
B- 1A D306
B- 1A D307
B- 1D D308
B- 1D D310
B- 2D D311
A- 1D D312
A- 2B D313
A- 2B D314
B- 1D D500
B- 2D D505
A- 2B D506
A- 2B D600
A- 3B D601
A- 3B D602
A- 4B D700
A- 4B D701
A- 3A D702
B- 3A D703
A- 3B D704
B- 3B D705
B- 4A D706
B- 4A D708
B- 3B D710
A- 3B D711
A- 3A D801
A- 3B D900
A- 3B D903
B- 3C D904
B- 2C D905
B- 3C D906
A- 3D D907
A- 4B D908
B- 3C XF600
B- 2C
B- 2C
B- 2C
B- 3C
A- 3C
B- 2C
A- 3C
B- 4D
A- 3C
B- 4B
B- 4C
B- 4C
B- 4C
B- 5C
B- 5C
B- 4C
B- 3A
A- 2A CAPACITOR
C126
B- 2B C1
B- 2A C2
B- 1B C3
B- 1B C4
A- 2A C5
B- 1B C7
B- 1B C8
A- 2B C127
A- 2D C128
A- 1A C130
B- 1D C131
A- 2C C140
A- 2C C141
B- 1D C143
B- 1D A1
B- 1C
A- 2B L328
L329
(No.RA032<Rev.001>) 2-6
2-6 (No.RA032<Rev.001>)
MODULE (BT/GPS) UNIT (XC2-0031-80)
--- Component side view (J7C-0037-00) ---
--- Foil side view (J7C-0037-00) ---
Q1
R9
R18
R21
CN2
R26
C30
C37
R15
C23
C24
R12
C10
C12
B
B
C4
CN8
CN1
L13
L14
E1
CN9
C16
C45 C44
C1
XC2-003/004
J7C-0037
-00
C48 C49
IC7
C50
R19
C27
C29
C17
C22
CN4
C2
C36
C6
R22
L9
IC6
R25
R2
C68
R1
R4
R24
CN7
IC1
C5
C7
C3
R7
CN5
C46 C47
A
A
CN6
1
2
3
3
2
1
A-1C
ADDRESS TABLE OF BOARD PARTS
Each address may have an address error by one interval.
Y axis
X axis
Side
REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION
IC
R7
B- 2A R8
B- 3B R9
B- 3A R10
B- 3A R11
A- 2B R12
B- 3B R13
B- 3B R14
R15
B- 3A CAPACITOR
C21
A- 2B C45
A- 2B C46
B- 1B C47
B- 1B C48
B- 1B C49
B- 1B C50
B- 1B C68
A- 2B
B- 1B OTHER
A- 2B X1
A- 2B X2
A- 2B
A- 2B CN1
A- 2B CN2
A- 2B CN3
A- 2B CN4
A- 2B CN5
A- 1B CN6
A- 2B CN7
B- 1A CN8
B- 3B CN9
B- 3B
IC1
IC2
IC3
IC4
IC5
IC6
IC7
B- 3B C1
A- 1B C2
A- 1B C3
B- 3A C4
A- 1B C5
A- 1B C6
B- 3A C7
B- 1B C8
B- 1B C9
A- 2B C10
B- 1B C11
A- 2B C12
B- 3A C13
B- 1B C14
B- 1A C15
B- 2A C16
A- 1B C17
B- 2A C18
B- 2B C19
C20
B- 3B C22
B- 3B C23
B- 3A C24
A- 1B C25
B- 3A C26
B- 3A C27
B- 3A C28
A- 1B C29
A- 1B C30
A- 1B C31
A- 2B C32
A- 1B C33
A- 1B C34
A- 1B C35
A- 1B C36
A- 2B C37
A- 1B C38
A- 1B C39
A- 1B C40
A- 2B C44
B- 2A CP1
B- 2A CP2
B- 3B
B- 2B E1
B- 2B
A- 2A L1
L2
L3
A- 1B L4
A- 2B L5
L6
B- 3B L7
B- 2B L8
B- 2B L9
A- 2B L11
B- 1A L13
A- 1A L14
B- 2A L15
B- 1B
B- 3B
B- 2B
A- 2B
B- 3B
B- 3A
B- 3A
A- 1B
A- 1B
B- 1A
A- 2B
A- 2B
A- 1B
A- 2B
B- 3B
B- 3B
A- 2A
TRANSISTOR
Q1
R16
A- 1B R18
R19
R21
B- 1B R22
B- 1B R23
R24
DIODE
D17
D18
RESISTOR
R25
R1
R2
R3
R4
B- 3A R26
B- 2A R27
B- 3A R29
B- 3A
B- 2B
(No.RA032<Rev.001>) 2-7
2-7 (No.RA032<Rev.001>)
SUB (DISPLAY) UNIT (XC3-0020-20 (NX-5900(K)))
--- Component side view (J7C-0038-00) ---
ADDRESS TABLE OF BOARD PARTS
Each address may have an address error
by one interval.
A-1C
Y axis
X axis
Side
REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION
S5
S7
S1
S2
IC
R52
B- 4B R53
A- 3A R54
B- 4B R55
B- 4B R60
A- 5A R61
A- 3B R62
B- 4B R63
B- 4A R64
B- 3B R65
R66
B- 5A S7
B- 4B S8
B- 4A S9
B- 4A S10
B- 5B S11
B- 5B S12
B- 5B
A- 2B
A- 2B
A- 5A
A- 1B
A- 1B
A- 1A
IC1
IC2
IC3
IC4
IC6
IC8
IC9
IC10
IC12
S8
S6
B
S11
CN4
IC8
R98
B- 5B J1
B- 5A
A- 5B
R30
R27
B- 5B L1
B- 5B L2
A- 3B L3
B- 5B L4
B- 5A L5
B- 5A L11
B- 4B L14
B- 4A L15
B- 5A L16
B- 4A L17
B- 2A L18
B- 4B
A- 3A
B- 4B
B- 4A
B- 5A
A- 3A
B- 3A
A- 3A
B- 4A
B- 3A
B- 3A
B- 3A
TRANSISTOR
R69
R71
J1
L5
$IC12
Q2
Q3
Q4
Q6
B- 3B R77
B- 5A R78
B- 5A R79
B- 5A R81
R82
C16
C18
D12
R24
D9
S3
D21
DIODE
D1
D2
R83
IC6
B- 3B R86
B- 3B R87
A- 1B R88
A- 3B R98
A- 4B R99
A- 5A
$IC11
R32
A
D4
D5
D6
D7
B- 4B
A- 3B
B- 4B
R42
L1
L14
D9
A- 1A CAPACITOR
A- 2B
D10
D11
D12
D14
D15
D16
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
D7
D14
C54
A- 4B C2
A- 5A C5
A- 1A C8
A- 1B C9
A- 3B C11
B- 5B C16
A- 5A C18
B- 5B C22
B- 5B C24
B- 5B C29
B- 5B C32
B- 5B C42
B- 5B C43
B- 5B C44
B- 5B C45
B- 5B C46
B- 5B C48
B- 5B C50
C52
B- 2B
IC2
S9
B- 2B
B- 2B
B- 3A
B- 3A
A- 3A
A- 3A
B- 4A
B- 4A
B- 3A
B- 3B
B- 3A
B- 3A
B- 3B
B- 3A
B- 3B
B- 3A
B- 3A
B- 4B
B- 4A
A- 3A
B- 4A
B- 4A
B- 4B
A- 3A
B- 4B
B- 4B
B- 4A
B- 4A
B- 4A
B- 4B
B- 5A
B- 5A
B- 4B
B- 5B
B- 5A
B- 3B
A- 3B
A- 3B
B- 5A
B- 5B
A- 3A
B- 3A
B- 5A
B- 3B
B- 4A
1
2
3
4
5
--- Foil side view (J7C-0038-00) ---
C79
R60
IC4
RESISTOR
R3
R4
R5
R6
R7
R9
C53
Q2
C5
C2
B- 3A C54
B- 3A C55
B- 3A C56
B- 3A C57
B- 3B C58
B- 3A C59
B- 2A C62
B- 3B C63
B- 3A C64
B- 2A C65
B- 3B C66
B- 3B C67
B- 4A C68
A- 1B C69
A- 2B C70
A- 4B C71
A- 5A C73
B- 4A C74
B- 3B C75
A- 1B C76
A- 2B C79
A- 3B C83
A- 5B C84
B- 4A C87
A- 1A C90
A- 1B C101
A- 3B
B- 4A OTHER
B- 4A CN2
B- 4A CN4
B- 4A CN5
A- 3A CN6
B- 4B
B- 5A S1
B- 4B S2
B- 4B S3
B- 5A S4
B- 5A S5
B- 5B S6
R71
C8
R26
D25
R99
R62
B
R47
R48
R65
C70
R79
R10
R11
R12
R17
R18
R19
R20
R21
R22
R23
R24
R25
R26
R27
R28
R29
R30
R31
R32
R33
R34
R38
R39
R40
R41
R42
R43
R46
R47
R48
R49
R50
R51
R53
IC12
C69
C73
D2 D1
IC1
D20
D22
R66
C62
IC3
C32
C90
R87
R43
L2
Y M
IC9
C52
C76
C57
C71
C22
C53
R41
C68
Q3
R38
L15
C24
CN5
R31
Q4
C101
R46
R49
R50
CN6
R25
R20
XC3-007
XC3-002
R81
C67
Q6
R86
R83
R55
C9
A
C84
C11
R54
L11
L18
L3
IC10
R40
J7C-0038-00
R39
B- 2B
A- 3A
B- 2B
B- 3A
A- 4B
A- 4B
A- 5B
A- 5A
A- 3B
A- 1B
5
4
3
2
1
(No.RA032<Rev.001>) 2-8
2-8 (No.RA032<Rev.001>)
MODULE (BT/GPS) UNIT (XC2-0031-80)
BT ANT
MODULE UNIT (BT/GPS)(XC2-0031-80)
IC1
CN6
LEVEL
CONVERTER
1.8V
1.8V
E1 F10-3226-05
1.80V
5
4
3
2
1
IC1
74AVC4TD245GU
18BT_HCI_RX R18
0
18BT_HCI_TX R21
0
18BT_TX
IC2
IC3
18BT_RX
VOLTAGE
REGULATOR(18BT)
VOLTAGE
REGULATOR(33BT)
9
10
11
12
DIR4
DIR1
4
3
2
1
3.31V
C47
C46
0.1u
GND
OE
VCC(A)
VCC(B)
DIR2
EM6M2
R26
0
X1
19.2MHz
0.1u
DIR3
1
VCoNT
IC7
L11
Q1
VCC 4
DC SW
LEVEL
CONVERTER
MSL
R29
R27
0
C37
22p
L15
2.2n
MSL
oUT
IN
2
MSL-SL-MSL 0
R3
GND
A1
B1
B2
C1
C2
D4
E2
E1
F1
G2
G1
F2
F3
H1
C4
C6
D5
E4
F4
E3
F5
H2
H3
J3
oUTPUT 3
L77-3123-05
C4
B10
C10
C8
1u
C10
C11
GND2 GND1
10k
R4
0.1u
C32
0.1u
18BT
BU18TD2WNVX
C33
C34
C35
IC2
0.1u
0.1u
0.1u
100
VDD_SRAM_LDo
VSS_DIG5
3.17V
D8
PMTEST_1P8V
VDD1P8V_1
VDD_DIG_LDo
VSS_RF_BT
0.1u
0.1u
C12
0.1u
BT_RF
VDD1P8V_BT
VDD_LDoIN_CLASS1P5_BT
VDD_CLASS1P5_BT
D9
D10
E7
R8
74AVC4TD245GU
1.8V
BT_SW
3
4
STBY GND
TCXo_CLK_REQ
VDDS4
VDD_PPAIF_BT
REF_CLK_LV
REF_CLK_HV
BT_WAKEUP
VSS_REF_CLK
VSS_DIG3
2
1
C13
C18
18p
1.8V
IC7
1k
1.80V
33BT
CN1
20
0V
TCXo_LDo_VPRoG
TCXo_CLK_LV
VSS_TCXo_CLK
VDD_TCXo
IC3
E8
9
9
10
11
12
DIR4
DIR1
VCC(A)
VCC(B)
DIR2
DIR4
GND
OE
DIR1
4
L1
H10
E9
4
3
2
1
19
18
17
R11
1k
C48
0.1u
R25
10k
VIN 1
10
VIN
VoUT
GND
VCC(A)
3
6 CE
C14
0.1u
1u
R22
10k
C49
0.1u
NC1 2
11
E10
F9
OE
VCC(B)
2
5 VSS
4 NC2
VDD_DIG2
VDD_SRAM1
VDD_DIG4
33BT
VoUT 3
12
IC6
DIR3
DIR3
IC5
DIR2
1
VSS_DIG2
F10
G9
G10
E6
16 GPS_ANT_SW
C15
CN2
1.8V-3.3V
LEVEL SHIFT
TCXo_LDo_IN
GPS_PPS_oUT
GPS_TIMESTAMP
GPS_nSHUTDoWN
GPS_SENS_I2C_SDA
GPS_SENS_I2C_SCL
GPS_UART_RX
VSS_DIG1
C44
0.1u
74AVC4TD245GU
IC6
C31
1u
C5
C6
1u
15
14
13
VDDS2
3.3V
3.3V
C50
FM_I2C_SDA
FM_I2C_SCL
FM_IRQ
DIRn H=An->Bn
L=Bn->An
0.47u
L3
GPS/BLUETOOTH
GPS_PPS_OUT
C45
0.1u
LEVEL
CONVERTER
10*4
CP2
1
F6
BCLK
8
7
6
5
47p
WCLK
G6
F8
2
3BT_AUD_DO
FM_I2S_CLK
FM_I2S_FSYNC
FM_I2S_oUT
FM_I2S_IN
12
11
10
9
3.32V
3.32V
1.80V
BT_AUD_DI
4
5.30V
F7
VDD1P8_GPS
VSS_PLL_GPS
VDD_PLL_GPS
VSS_LNA_GPS1
33GPS
GPS_UART_TX
GPS_TM
GPS&BT RTC
NDK NZ2520B
X2
L2
G7
G8
H7
H8
H9
J8
RTC_CLK
VDD1P8_FM
VSS_PASYNTH_FM
-32.768000k-NSA3534A
C16
0.1u
L77-3121-05
@C-FRE
CN4
GPS_TP
FM_AUD_IN_L
FM_AUD_IN_R
L8
8
J1
7
CTS2
RTS2
TXD2
RXD2
1.80V
C17
0.1u
J2
4
5
L1
6
3
2
1
6
7
8
J10
ANT CONNECT:3.13V
ANT UNCONNECTED:3.30V
5
4
3
2
1
33BT
18BT
10*4
CP1
L4
L5
SAW FILTER
L9
GPS
R14
1k
C36
R23 R24
C40
18p
L7
4
1
10n
(-71)
0
0
22p
3.20V
3.30V
1.80V
MSL
0V
IC4
VOLTAGE
REGULATOR(33GPS)
5.34V
0V
0V
GPS_PA_EN_LV
(3216)
R16
10
L6
27n
3.30V
GPS_ALM
GPS_PWR
to ADC
3.30V
to ADC
ANT CONNECT:3.13V
ANT UNCONNECTED:3.30V
CN5
GPS ANT
A
B
C
D
E
F
G
2-9 (No.RA032<Rev.001>)
(No.RA032<Rev.001>) 2-9
SUB (DISPLAY) UNIT (XC3-0020-20 (NX-5900(K)))
SUB UNIT (DISPLAY)(XC3-002)
D21
B30-2364-05
KEYi3_2
S70-0901-05
S4
S70-0901-05
S8
S70-0901-05
R39
100
THREE COLOR
LED
CN2
1
SP+
S12
D9
R27
D14
R32
D4
R21
5
4
3
2
1
SPG
2
3
4
3.28V
330
B30-2365-05
330
B30-2365-05
330
B30-2365-05
13.60V
L3
CN4
1
LED
LED
SB
LED
L18
VSSA
VSSA
VSSA
VCC
/KEYINT
KEYi2_2
2
3
D
S70-0901-05
S70-0901-05
S70-0901-05
Q3,Q4,Q6
C83
0.1u
L14
R40
100
R5547k
R54
LTC014EEBFS8
Q3
Q6
4
CN6
Q4
2.99V
S7
EMG
S11
R33
S3
NC
NC
VCC
47k
5
LED_B
D10 R28
D15
D5
R22
50
48
46
44
42
40
38
36
34
32
30
28
26
24
1
2
VSSD
VSSD
VSSD
IOVCC
IOVCC
6
330
330
VSS
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
SDA 33
SCL
32
330
B30-2365-05
B30-2365-05
GND
54M
GND
GND
18M
D[15]
D[14]
D[13]
D[12]
D[11]
D[10]
D[9]
5.32V
B30-2365-05
7
KPY11
KPY10
EXITO0
KPY9
D
LED
LED
LED
L15
54M
C84
0.1u
LED_G
LED_R
3
8
Q3,4,6
DC SW
DIR25
31
30
29
4
9
DIR24
VSS
KEYi1_2
1.82V
L1718M
5
S70-0901-05
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
S70-0901-05
S70-0901-05
R41
100
IC10
TC35894FG
BH1721FVC
LED_G
28
/RD
6
RDX
VSS
KPY7
IC6
L4
DAT[15]
DAT[14]
DAT[13]
DAT[12]
DAT[11]
DAT[10]
DAT[9]
DAT[8]
DAT[7]
DAT[6]
DAT[5]
DAT[4]
DAT[3]
DAT[2]
DAT[1]
DAT[0]
/CS
KEYo0
KEYo1
1
2
3
VCC
GND
SDA
/WR
7
KPY0
WRX
RESETN 27
KPX5
26
S2
S6
S10
ILLUMINANCE
SENSOR
SCL 5
D11
R29
330
D16
R34
D6
R23
330
ADD[23]
/CS
8
IC6
DCX
CSX
I/O EXPANDER
KPY1
KPY3
KPY2
330
BLC
9
KPY4
25
KPY6
B30-2365-05
B30-2365-05
B30-2365-05
DVI 4
KEYo2
KEYi1
LED_B
DAT[0]
DAT[1]
DAT[2]
DAT[3]
DAT[4]
DAT[5]
DAT[6]
DAT[7]
DAT[8]
DAT[9]
DAT[10]
DAT[11]
DAT[12]
DAT[13]
DAT[14]
DAT[15]
10
11
DB1
LED
LED
LED
IC2
24
30LCD
STBY
IC2
/EMG
DB2
KPX1
KPX4
VOLTAGE
REGULATOR
(30LCD)
R42
23
3
4
BLCSW
R38
100
KEYi0_2
DB3
GND
2
1
S70-0901-05
1k
S70-0901-05
S5
S70-0901-05
DB4
2.99V
3.28V
D[8]
DB5
S1
R24
330
D[7]
S9
PSW
VIN
DB6
VoUT
D12
R30
D7
L1
/TXDEN
D[6]
DB7
330
BU30TD2WNVX
B30-2365-05
D[5]
B30-2365-05
DB8
LOGIC
CONTROL
50M
LED
LED
D[4]
L11
DB10
DB11
DB12
DB13
DB14
DB15
DB16
DB17
CABC
RESX
IM0
18M
D[3]
IC12
TC7SZ08FE
50M
MM3404A50URE
1.82V
D[2]
3.3V->5.0V
LOGIC
CONTROL
1
2
3
4
G1
1
2
3
D[1]
INB
R43
1k
5.31V
4.99V
VCC 8
1 CE
VCC 5
A1
Y2
VDD 4
IC1
INA
D[0]
/CS
G2 7
Y1 6
A2 5
Q2
SSM6N37FE
PTT/TXD
IC3
1
2
3
6
5
4
GND
DC SW
oUTY 4
R48
150
ADD[23]
/WR
GND
A[23]
R3 /KEYINT
2 GND
VoUT 3
/WR
/RD
0
D
TC7WT125FUF
C62
/RD
0.1u
R7
0
LCDRST
LCDRST
LEDA
/KEYINT
Analog SW
IC1
- >
1
LED
DRIVER
22
L5
1D+
I2CCK
I2CDT
GND
I2CCK
I2CDT
LEDA
LED1
LED2
LED3
LED4
VOLTAGE
REGULATOR(50M)
VCC 10
1
2
3
4
0
0
EN
R5
R4
2
3
4
5
->
BLC_3
1D-
L4 8
L3 7
L2 6
L1 5
S 9
D+ 8
D- 7
oE 6
20
GND
ISET
VIN
2D+
2D-
IC4
IC8
IC4
R69
270k D
D-
USB_D-
R19
R18
0
0
ANALOG SWITCH
18
D+
GND
USB_D+
D20
38
D1,2
GND
3.29V
L16
D1,D2
SPC10501A01
OVER VOLTAGE
PROTECTION
BD1754HFN
BD11600NUX
0.1u
C66
BUSSWC
LOW=1 UART/BLC
HIGH=2 USB
CN5
2
1
16
OVER VOLTAGE PROTECTION
33M
33M
DM/KVL
DM/KVL
R60
BLC_4/D+2
0
0
0
13.60V
14
R6
0
D25
R61
R62
R63
R64
R65
R66
J1
E
SB_2
GND
RXD
TXD
1
2
3
4
5
6
7
8
10k
R53
MINISMDC020F
RXD_33V
TXD
PTT/TXD
R12
0
PTT/TXD_3
12
10
8
TC7WH126FK
5.0V->3.3V
G1
D22
R11
0
0
0
ME_3
MIC_3
1
2
3
4
C87
OVER VOLTAGE
PROTECTION
/PTT
/PTT
/PSW
AFO+
AFO-
MIC
R9
0
VCC 8
100p
DM/KVL_3
A1
/PSW
0
G2 7
Y1 6
A2 5
IC9
IC9
D31
Y2
100
LOGIC CONTROL
GND
7
MIC
ME
0.1u
EMZ6.8N
6
R17
R10
0
0
ME
C69
5
R_SET2
R_SET1
R_SET0
GND
D23,D24,D26
D27,D32
SPC10501A01
D28,D29,D30
DZ2S068M
4
2
D23,24,26,
D27,31
3
D25
D28,29,30,32
OVER VOLTAGE
PROTECTION
SURGE
PROTECTOR
OVER VOLTAGE
PROTECTION
1
A
B
C
D
E
F
G
(No.RA032<Rev.001>) 2-10
2-10 (No.RA032<Rev.001>)
INTERCONNECTION DIAGRAM
IC911
AF AMP
LA4425A
20pin Option
NX-5900 (K) only
5
4
3
2
1
ANT
R402
CN749
1
CN6
50
INT SP
NC(IGN)
NC
NC(IGN)
NC
CN907
CN906
CN5
2
+
-
GND
GND
1
30
SP+
54M
54M
AUXIO6
AUXIO6
AUXIO7
AUXIO1
AUXIO2
RXD2
GND
GND
SPG
1
AUXIO7
AUXIO1
AUXIO2
RXD2
GND
GND
18M
18M
J901
D[15]
D[14]
D[13]
D[12]
D[11]
D[10]
D[9]
D[15]
D[14]
D[13]
D[12]
D[11]
D[10]
D[9]
AUXIO3
TXD2
AUXIO3
TXD2
NC
1
SB
14
CN4
RXD1
2
AUXIO4
AUXIO8
AUXIO5
AUXIO9
AUXO1
AUXIO4
AUXIO8
AUXIO5
AUXIO9
AUXO1
AUXO2
1
VSSA
VSSA
VSSA
VCC
15
16
TXD1
3
4
AUXO1
AFO
AUXIO9
D[8]
D[8]
17
18
19
20
DI
MI2
D[7]
5
6
D[7]
GND
TXD0
AUXO2
RXD0
GND
ME
TXD0
AUXO2
RXD0
GND
D[6]
D[6]
VCC
D[5]
D[5]
DEO
VSSD
VSSD
VSSD
IOVCC
IOVCC
RDX
GND
D[4]
7
8
D[4]
AUXIO5
D[3]
D[3]
AUXIO8
TXD2
RXD2
GND
ME
MI2
D[2]
D[2]
AUXIO4
AUXIO3
21
22
MI2
DEO
GND
50C
DI
D[1]
9
D[1]
DEO
GND
50C
D[0]
D[0]
10
11
12
AUXIO2
/CS
/CS_LCD
DC
23
WRX
DCX
A[23]
/WR
AUXIO1
ME
24
25
DI
/WR_LCD
/RD_LCD
PRST
/KEYINT
I2CCK
I2CDT
GND
AUXIO7
CSX
SUB (DISPLAY) UNIT
XC3-002
AFO
SB
MAIN UNIT (A/2)
XC1-102
AFO
/RD
DB1
SB
SB
AUXIO6
LCDRST
/KEYINT
I2CCK
I2CDT
GND
13
DB2
SB
DB3
SB
SB
SB
SB
SB
DB4
SB
DB5
SB
DB6
SB
USB_D-
USB_D+
GND
USB_D-
USB_D+
GND
DB7
NC
NC
1
DB8
30
DB10
DB11
DB12
DB13
DB14
DB15
DB16
DB17
CABC
RESX
IMO
33M
33M
DM/KVL
GND
DM/KVL
GND
RXD
RXD
TXD
TXD
/PTT
/PSW
AFo+
AFo-
MIC
/PTT
/PSW
AFo+
AFo-
CN2
CN3
+
13.6 V
DC Supply
MiC
-
ME
ME
LEDA
LED1
LED2
LED3
LED4
R_SET2
R_SET1
R_SET0
GND
R_SET2
R_SET1
R_SET0
GND
CN4
1
IGN
IGN
GND
2
50
1
38
CN910
6
CN900
1
CN2
1
GND
J1
1
HOR
SPo
SPG
GND
SB1
4
SP+
SPG
GND
SB
BLC/D+2
PA
SB
SPO
E
PTT/TXD
ME
SPI
SB
1
4
MIC
HOOK/RXD/D-2
DM/KVL
EXT SP
8
J900
BT/GPS
micro SD
GPS ANT
MODULE (BT/GPS) UNIT
XC2-003
A
B
C
D
E
F
G
2-11 (No.RA032<Rev.001>)
(No.RA032<Rev.001>) 2-11
LEVEL DIAGRAM
Receiver Section
5
4
3
2
1
1st IF (58.05MHz)
AF (1kHz)
RF (Center Frequency)
-124dBm
-113dBm
-114dBm
-117dBm
141mVrms
-120dBm
ANT
-123dBm
-116dBm
-111dBm
-121dBm
-114dBm
-102dBm
116mVrms
D305
D306 IC501
C552 L521 C544 Q501 C534 L510 C517
IC502
SW
BPF
BPF
IC600
IFIC
IC706
IC902
IC719
VOL
C413 D308
ANT
SW
C533 IC500 C500 XF600 C663 Q604 C658 Q603 C637
BPF
C927 IC903
RFAMP
C5553 L522 C545 Q502 C535 L511 C518
SSI
LPF
SW
MCF
IFAMP
IFAMP
BPF BPF
CODEC
RFAMP
-113dBm
RX PLL
C944 IC911 C969
-123dBm
-124dBm
-114dBm
To make measurements in the AF section, connect the AC level meter.
(ANT input: –53dBm, 1kHz FM,1.5kHz DEV (Narrow). SP output: 4W@4ohm Load)
In the RF section, use 470pF coupling capacitor.
(The display shows the SSG input value required to obtain 12dB SINAD.)
28.8mVrms
Transmitter Section
AF
(1kHz)
RF (Center Frequency)
AF (1kHz)
65mVrms(793M)
65mVrms(825M)
13dBm(793M) 25dBm(793M) 35.5dBm(793M)
45.5dBm(793M)
30W(793M)
35W(825M)
1.5dBm
5mVrms
-5dBm
C166
-3dBm
10dBm
15dBm(825M)
27dBm(825M) 37dBm(825M) 46.5dBm(825M)
4dBm
C170
Narrow
IC902
IC706
IC902
ANT
Q102
Q104
L136
L137
Q106
MIC
C190
C213 Q107
Buff
C307 IC300 C316 Q300
Pre-
Drive1
C327 Q301 C448 Q302 C360 Q303 C392
Pre-
Drive3
C413
Pre-
Drive2
ANT
SW
SSI
SSI
CODEC
CODEC
Doubler
Coupler
VCO
Drive
Final
LPF
To PLL IC
* Transmit frequency : 700MHz band(793MHz) / 800MHz band(825MHz)
A
B
C
D
E
F
G
(No.RA032<Rev.001>) 2-12
2-12 (No.RA032<Rev.001>)
PARTS LIST
[NX-5900,NX-5900(B)]
* SAFETY PRECAUTION
Parts identified by the ꢀ symbol are critical for safety. Replace only with
specified part numbers.
* BEWARE OF BOGUS PARTS
Parts that do not meet specifications may cause trouble in regard to safety and
performance. We recommend that genuine parts be used.
* (x_) in a description column shows the number of the used part.
- Contents -
Exploded view of general assembly and parts list
Electrical parts list
Packing materials and accessories parts list
3-2
3-4
3-17
(No.RA032<Rev.001>)3-1
Exploded view of general assembly and parts list
Block No.M1MM
1
41
F
F
F
23
34
29
50
F
F
51
22
16
C
36
F
D
F
F
F
46
MAIN UNIT<01>
49
F
17
44
F
21
5
SUB (DISPLAY) UNIT<03>
G
4
20
15
B
48
F
B
43
31
G
11
40
26
39
A
7
33
F
32
27
45
3
12
F
6
37
47
10
38
9
42
13
8
MODULE (BT/GPS) UNIT<02>
2
E
14
21
E
18
3-2(No.RA032<Rev.001>)
General assembly
Block No. [M][1][M][M]
Symbol No.
Part No.
Part Name
Description
Local
1
2
3
4
5
6
7
8
9
A0C-0107-00
A6C-0003-20
B09-0681-03
B09-0754-05
B0K-0004-00
B1B-0017-00
B38-0966-05
B4B-0008-00
B4D-0021-00
E04-0170-35
E0E-0021-00
E30-7520-45
E3F-0017-00
E3F-0019-00
E3F-0021-10
E37-1118-05
E37-1693-05
E3H-0008-00
F10-3223-05
F10-3225-05
F10-3243-15
F1A-0017-00
F1E-0001-00
F1E-0002-00
G13-1837-04
G1D-0011-00
G1D-0012-10
G1D-0018-00
G1D-0028-00
G53-1616-13
G53-1643-04
G53-1789-04
G53-1768-04
G5D-0053-00
G5D-0061-00
G5D-0017-00
J1K-0018-00
J1K-0019-00
J2B-0021-00
J2B-0023-00
K2K-0100-10
T07-0810-05
W09-0971-05
G13-1801-04
F0B-0083-00
N09-2292-05
N30-2606-48
N67-3008-48
N67-3010-43
N83-2005-48
N87-2608-48
N89-2606-43
XC1-1021-81
XC2-0031-80
XC3-0020-20
PLASTIC CABINET
PANEL ASSY
CAP(KAP-2)
CAP(SMA)
CAP(D-SUB)
ILLUMINATION GUIDE
LCD ASSY
CAUTION STICKER
BADGE
RF COAXIAL RECEPTACLE-N (ANT)
RF COAXIAL RECEPTACLE-SMA (GPS)
DC CORD
FLAT CABLE(20P)
FLAT CABLE(50P)
5900_K
5900_K
5900_K
5900_K
5900_K
10
11
12
13
14
15
16
17
18
20
21
22
23
26
27
29
31
32
33
34
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
A
FLAT CABLE(30P)
LEAD WIRE WITH CONNECTOR(SHORT CABLE)
LEAD WIRE WITH CONNECTOR(SP 2P)
LEAD WIRE WITH CONNECTOR(4P)
SHIELDING COVER(BLS(IF IC))
SHIELDING COVER(BLS(BT/GPS,DCDC54M))
SHIELDING COVER(BLS(PLL IC))
SHIELDING PLATE(TOP)
SHIELDING PLATE(D-SUB)
SHADE(TX-BUSY)
5900_K
5900_K
(x2)
CUSHION
CUSHION(LCD-HOLDER)
CUSHION(LCD-F.GLASS)
CUSHION(D-SUB)
CUSHION(DC SCREW)
PACKING(PHONE JACK)
PACKING(DC CORD)
PACKING(ANT(N))
PACKING(SMA)
PACKING(SP)
PACKING(TOP)
PACKING(FRONT)
HOLDER(LCD)
HOLDER(PCB PANEL)
MOUNTING HARDWARE(LCD)
MOUNTING HARDWARE(SP)
KEY TOP
SPEAKER
LITHIUM CELL(MAIN UNIT)
CUSHION
5900_K
5900_K
5900_K
5900_K
5900_K
5900_K
5900_K
5900_K
5900_K
RADIATION PLATE
HEXAGON HEAD SCREW(D-SUB)
P.HEAD M.SCREW(SMA)
PAN HEAD SEMS SCREW(DC)
P.H.SEMS SCREW(FINAL FET)
PAN HEAD TAPTITE SCREW(MODULE UNIT)
BRAZIER HEAD TAPTITE SCREW
BINDING HEAD TAPTITE SCREW(D-SUB)
SERVICE MAIN UNIT
(x2)
(x2)
(x2)
(x2)
(x3)
(x23)
(x2)
B
C
D
E
F
G
-
-
-
MODULE UNIT(BT/GPS)
SUB UNIT(DISPLAY)
5900_K
(No.RA032<Rev.001>)3-3
Electrical parts list
MAIN UNIT
Symbol No.
Part No.
Part Name
Description
Local
XC1-1021-80
Q11
Q12
Q14
Q15
Q16
Q17
Q18
Q81
LTC014EEBFS8
EM6M2
EM6M2
DIGI TRANSISTOR
FET
FET
DIGI TRANSISTOR
FET
DIGI TRANSISTOR
FET
FET
FET
FET
FET
TRANSISTOR
TRANSISTOR
TRANSISTOR
TRANSISTOR
FET
*Note : This part cannot be replaced. There-
fore, this part is not supplied as a service part.
Block No. [0][1]
LTC014EEBFS8
SSM3J334R
LTC014EEBFS8
SSM3J334R
SSM3J15FS
MCH3914-H/8/
EM6M2
MCH3914-H/8/
2SC5108F/Y/
2SC5108F/Y/
2SC5108F/Y/
DSC9A01/T/
EM6M2
Symbol No.
Part No.
Part Name
Description
Local
Q102
Q103
Q104
Q105
Q106
Q107
Q108
Q110
Q113
Q115
Q300
Q301
Q302
Q303
Q304
Q305
Q306
Q307
Q308
Q309
Q500
Q501
Q502
Q503
Q504
Q600
Q601
Q602
Q603
Q604
Q700
Q701
Q703
Q704
Q705
Q900
Q901
Q902
Q905
Q906
Q907
Q908
IC1
------------
IC
*Note
IC2
IC3
MSP430G25KGCA IC
XC6215B122N-G IC
IC4
IC5
IC6
IC7
NJM2878F4-33
XC6223D331P-G IC
------------ IC
XC6223H331P-G IC
IC
*Note
*Note
IC8
IC9
IC10
TPS54240DGQ
XC8102AA07-G
------------
IC
IC
IC
SSM3J15FS
EM6M2
RD01MUS2-T113 FET
NE5550234 FET
RD10MMS2-T212 FET
FET
FET
IC11
LXDC2HN18F163 IC
IC12
IC13
NJM2878F4-33
TPS61041DRVR
IC
IC
------------
FET
FET
TRANSISTOR
TRANSISTOR
TRANSISTOR
FET
*Note
IC14
XC6223H331P-G IC
SSM3K15AMFV
LSCR523EBFS8
LSCR523EBFS8
LSCR523EBFS8
EM6M2
SSM3K15AMFV
2SC5108F/Y/
MT3S111
IC15
IC16
IC17
BA00DD0WHFP
XC6209B502P-G
------------
IC
IC
IC
*Note
*Note
IC18
XC61CN5002N-G IC
IC100
IC101
IC102
IC300
IC302
IC303
IC304
IC305
IC500
IC501
IC502
IC600
IC701
IC702
IC703
IC704
IC705
IC706
IC707
IC708
IC709
IC710
IC711
IC712
IC714
IC715
IC719
IC720
IC900
IC901
IC902
IC903
IC904
IC905
IC906
IC907
IC908
IC909
IC910
IC912
SKY72310362LF
TC7SH17FUF
BA2904FVM
------------
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
IC
FET
TRANSISTOR
TRANSISTOR
TRANSISTOR
FET
FET
FET
DIGI TRANSISTOR
TRANSISTOR
TRANSISTOR
FET
TRANSISTOR
FET
MT3S111
SSM3J15FS
EM6M2
ADL5513
NJM12904RB1
NJM12904RB1
NJM12904RB1
AK1224
UPG2214TK-A
UPG2214TK-A
AD9864BCPZRL
------------
MCH3914-H/8/
LTC023JEBFS8
LSCR523EBFS8
2SC5066F/O/
BB506CFS-H
2SC4617/S/
SSM3K15AMFV
SSM3K15AMFV
SSM3K15AMFV
LTC014TEBFS8
SSM3K335R
SSM3J332R
DSC9A01/T/
SSM3K335R
SSM3J332R
SSM3K335R
SSM3K335R
*Note
*Note
------------
FET
FET
CDC3S04YFF
TC7SZ08FE
TC7WH126FU-F
------------
BD11600NUX
BD11600NUX
TC7SET125FUF
TC7SZ08FE
------------
ADS7961SRHB
BD11600NUX
DAC124S085CIS IC
R2A20178NP IC
XC61CN5002N-G IC
TC7SET08FUF
BU7242NUX
TLV32AIC3104I
BU7242NUX
TC7SET125FUF
TC7WT125FUF
TC7WBD125AFK IC
DIGI TRANSISTOR
FET
FET
TRANSISTOR
FET
FET
*Note
*Note
FET
FET
D1
D2
D3
D4
D5
D6
D7
D8
DZ2J180(M)
RB520SM-30
EDZV8.2B
RB521CM-30
22ZR-10D
RB520SM-30
RB521CM-30
RB521CM-30
RB521CM-30
DSA3A1
DZ2S056(M)
RB521CM-30
1SS400SM
ZENER DIODE
DIODE
ZENER DIODE
DIODE
SURGE ABSORBER
DIODE
DIODE
DIODE
DIODE
DIODE
ZENER DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
ZENER DIODE
IC
IC
IC
IC
IC
IC
D9
D10
D11
D12
D13
D14
D15
D16
D17
D100
D106
D107
D108
D109
D110
D111
D112
BD11600NUX
TC7WH14FK-F
ADM3202ARUZ
PCA9555AHF
TC7SET08FUF
IC
IC
IC
IC
IC
RB060M-40
DB2J40700
RB521CM-30
RB521CM-30
EDZV8.2B
SMV1705-079LF
SMV1130-079LF
SMV1130-079LF
SMV1130-079LF
SMV1801-079LF
SMV1705-079LF
SMV1130-079LF
Q1
Q3
Q4
Q5
Q6
Q7
Q8
Q9
Q10
KTA2012EP
TRANSISTOR
FET
DIGI TRANSISTOR
FET
DIGI TRANSISTOR
DIGI TRANSISTOR
TRANSISTOR
TRANSISTOR
FET
SSM3K15AMFV
LTC014EEBFS8
MTM981400BF
LTC014EEBFS8
LTC014TEBFS8
LSCR523EBFS8
LSAR523UBFS8
MTM981400BF
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
3-4(No.RA032<Rev.001>)
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
D113
D114
D115
D117
D300
D304
D305
D306
D307
D308
D310
D311
D312
D313
D314
D500
D505
D506
D600
D601
D602
D700
D701
D702
D703
D704
D705
D706
D708
D710
D711
D801
D900
D903
D904
D905
D906
D907
D908
D909
D910
D911
D912
D913
D914
D915
D916
D917
D918
D919
D920
D921
D922
D923
D924
SMV1130-079LF
SMV1130-079LF
1SS400SM
SMV1130-079LF
RN262CS
RB706F-40
L8104
L8104
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
DIODE
VARIABLE CAPACITANCE DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
ZENER DIODE
ZENER DIODE
DIODE
DIODE
DIODE
C35
C36
C37
C38
C39
C40
C41
C43
C44
C45
C46
C47
C48
C49
C50
C51
C52
C53
C54
C55
C56
C57
C58
C59
C60
C61
C62
C63
C64
C65
C66
C67
C68
C69
C70
C71
C72
C73
C74
C75
C76
C77
C78
C80
C81
C82
C83
C84
CK73HBB1H471K C CAPACITOR
470PF K
1.0UF K
10.0UF K
470PF K
10.0UF K
10000PF K
1.0UF K
2.2UF K
470PF K
1.0UF K
2.2UF K
0.10UF K
2.2UF K
1.0UF K
1000PF K
3300PF K
0.10UF K
1.0UF K
1.0UF K
470PF K
3900PF K
4.7UF K
22PF G
10.0UF K
10.0UF K
470PF K
2.2UF K
1000PF K
10.0UF K
10.0UF K
1.0UF K
10.0UF K
4.7UF K
2.2UF K
390PF K
390PF K
4.7UF K
1.0UF K
2.2UF K
1.0UF K
470PF K
4.7UF K
4.7UF K
0.1UF K
47PF G
2.2UF K
1.0UF K
2.2UF K
470UF 25WV
10000PF K
470PF K
10PF B
10000PF K
10000PF K
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
0.10UF K
0.10UF K
100PF J
0.10UF K
100PF J
10000PF K
100PF J
33PF G
CK73GB1H105K
CK73FB1C106K
C CAPACITOR
C CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73GB0J106K
CK73HB1H103K
CK73GB1H105K
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73HBB1H471K C CAPACITOR
CSA30-201N
L8104
RN142S
CK73HB1C105K
CK73GXR1C225K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73HB1C105K C CAPACITOR
C CAPACITOR
RN142S
DZ2S056(M)
DZ2S056(M)
RB520SM-30
RN262CS
RN142S
RN142S
CK73HBB1H102K C CAPACITOR
CK73HBB1H332K C CAPACITOR
CK73HB1E104K
CK73GB1H105K
CK73GB1H105K
C CAPACITOR
C CAPACITOR
C CAPACITOR
DIODE
SMV1705-079LF
SMV1705-079LF
DA3S101F
RB521CM-30
RB521CM-30
SPC10501A01
SPC10501A01
SPC10501A01
SPC10501A01
SPC10501A01
EDZV8.2B
RB521CM-30
RB521CM-30
RB521CM-30
DA3S101F
DZ2S056(M)
DA204U
1SS400SM
DZ2S056(M)
RB521CM-30
DA204U
DA3S101F
DA204U
DA204U
DA204U
DA204U
DA204U
VARIABLE CAPACITANCE DIODE
VARIABLE CAPACITANCE DIODE
MULTIPLE DIODE
DIODE
DIODE
VARISTOR
VARISTOR
VARISTOR
VARISTOR
VARISTOR
CK73HBB1H471K C CAPACITOR
CK73HB1H392K C CAPACITOR
CK73FXR1E475K C CAPACITOR
CC73HCH1H220G C CAPACITOR
CK73FB1C106K
CK73FB1C106K
C CAPACITOR
C CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73HBB1H102K C CAPACITOR
ZENER DIODE
DIODE
DIODE
CK73GB0J106K
CK73FB1C106K
CK73HB1C105K
CK73FB1C106K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
DIODE
MULTIPLE DIODE
ZENER DIODE
MULTIPLE DIODE
DIODE
ZENER DIODE
DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
DIODE
ZENER DIODE
MULTIPLE DIODE
MULTIPLE DIODE
MULTIPLE DIODE
DIODE
CK73FXR1E475K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73HB1H391K
CK73HB1H391K
C CAPACITOR
C CAPACITOR
CK730FA1H475K C CAPACITOR
CK73GB1H105K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73HB1C105K C CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73FXR1E475K C CAPACITOR
CK730DT1C476K C CAPACITOR
CK73GXR1H104K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CK73GXR1C225K C CAPACITOR
DA204U
DA2J101
DZ2J180(M)
DA204U
DA204U
DA204U
DA2J101
DZ2J180(M)
DA204U
RB520SM-30
CK73HB1C105K
C CAPACITOR
CK73GXR1C225K C CAPACITOR
C85
C92-0968-05
CK73HB1H103K
E CAPACITOR
C CAPACITOR
C100
C101
C102
C103
C104
C106
C107
C108
C109
C110
C111
C112
C113
C114
C115
C116
C118
C120
C121
C124
C125
C126
C127
C128
C130
C131
C140
C141
C143
CK73HBB1H471K C CAPACITOR
CC73HCH1H100B C CAPACITOR
ZENER DIODE
MULTIPLE DIODE
DIODE
CK73HB1H103K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
C1
C2
C3
C4
C5
C7
C8
C9
C10
C11
C12
C13
C16
C18
C21
C24
C25
C30
C31
C32
C33
C34
CK73HB1C105K
CD04CK1E102M
C CAPACITOR
E CAPACITOR
1.0UF K
1000UF M
2200PF K
470PF K
470PF K
47PF G
CK73HBB1H222K C CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73FB1C106K
CK73HB1E104K
C93-1959-05
CK73HB1A474K
CK73HB1H103K
CK73HBB1H471K C CAPACITOR
CK73HB1C105K C CAPACITOR
CK73HB1E104K
CK73HB1E104K
C CAPACITOR
C CAPACITOR
1000PF K
470PF K
10.0UF K
0.10UF K
0.10UF B
0.47UF K
10000PF K
470PF K
1.0UF K
CC73HCH1H101J C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H330G C CAPACITOR
CC73HCH1H101J C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
100PF J
1.0UF K
100PF J
0.15UF K
10UF M
0.047UF K
100PF J
5.0PF B
150PF J
24PF G
CK73GB1H105K
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73FBB1H154K C CAPACITOR
CS77ABE1D100M TA E CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73HBB1H102K C CAPACITOR
470PF K
1000PF K
1.0UF K
CK73HB1C105K
CK73EB1H475KM C CAPACITOR
CK73GB1H105K C CAPACITOR
CK73EB1H475KM C CAPACITOR
CK73HB1E104K C CAPACITOR
C CAPACITOR
CK73FB1H473K
C CAPACITOR
4.7UF K
1.0UF K
4.7UF K
0.10UF K
CC730AD1H104J C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC73HCH1H151J C CAPACITOR
CC73HCH1H240G C CAPACITOR
(No.RA032<Rev.001>)3-5
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
C144
C145
C146
C147
C148
C149
C150
C151
C152
C154
C155
C156
C158
C159
C160
C161
C162
C163
C164
C165
C166
C167
C168
C169
C170
C171
C172
C173
C174
C175
C176
C177
C178
C179
C180
C181
C182
C183
C184
C185
C186
C187
C188
C189
C190
C191
C192
C194
C195
C198
C199
C202
C203
C204
C211
C212
C213
C300
C301
C302
C303
C304
C305
C306
C307
C308
C309
C310
C311
C313
C314
C315
C316
C317
C318
C319
C320
C321
CC73HCH1HR75B C CAPACITOR
CC73HCH1H0R5B C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H080B C CAPACITOR
CC73HCH1H060B C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H0R5B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H151J C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H2R5B C CAPACITOR
CC73HCH1H080B C CAPACITOR
CC73HCH1H080B C CAPACITOR
CC73HCH1H070B C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H0R5B C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H020B C CAPACITOR
CC73HCH1H470G C CAPACITOR
0.75PF B
0.5PF B
6.0PF B
8.0PF B
6.0PF B
470PF K
0.5PF B
100PF J
470PF K
100PF J
3.0PF B
150PF J
6.0PF B
2.5PF B
8.0PF B
8.0PF B
7.0PF B
470PF K
0.5PF B
470PF K
2.0PF B
47PF G
0.10UF K
47PF G
1.5PF B
47PF G
10PF B
C322
C323
C324
C325
C326
C327
C328
C329
C330
C331
C332
C333
C334
C335
C336
C337
C339
C340
C342
C343
C345
C346
C347
C348
C349
C351
C350
C353
C355
C356
C357
C358
C359
C360
C367
C399
C370
C373
C374
C375
C376
C377
C378
C387
C392
C393
C394
C395
C396
C399
C404
C405
C406
C407
C408
C410
C411
C412
C413
C415
C416
C417
C418
C419
C420
C421
C423
C427
C428
C429
C430
C431
C432
C433
C434
C435
C436
C437
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H070B C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H150G C CAPACITOR
CC73GCH1H040B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73GCH1H050B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H2R5B C CAPACITOR
CK73GXR1H104K C CAPACITOR
CC73GCH1H150J C CAPACITOR
CC73GCH1H060B C CAPACITOR
CC73GCH1H110G C CAPACITOR
CC73GCH1H060B C CAPACITOR
CC73GCH1H220J C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H101J C CAPACITOR
CK73GXR1H104K C CAPACITOR
47PF G
47PF G
7.0PF B
6.0PF B
15PF G
4.0PF B
47PF G
5.0PF B
47PF G
47PF J
47PF J
2.5PF B
0.1UF K
15.0F J
6.0F B
11PF G
6.0PF B
22PF J
47PF J
47PF J
47PF J
100PF J
0.1UF K
13PF G
47PF J
5.0PF B
47PF J
13PF G
47PF J
1.5PF B
47PF J
8.0PF C
8.0PF C
15PF G
15PF G
47PF G
15PF G
18PF B
18PF B
18PF B
18PF B
8.0PF B
8.0PF B
9.0PF B
18PF B
4700PF K
47PF J
CK73HB1E104K
C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H1R5B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H1R5B C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H020B C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC73HCH1H020B C CAPACITOR
CC73HCH1H0R5B C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
C93-0938-05
CC73GCH1H470J C CAPACITOR
C93-0980-05 C CAPACITOR
CC73GCH1H470J C CAPACITOR
C93-0938-05 C CAPACITOR
CC73GCH1H470J C CAPACITOR
C93-0875-05 C CAPACITOR
CC73GCH1H470J C CAPACITOR
C CAPACITOR
1.5PF B
10PF B
6.0PF B
6.0PF B
2.0PF B
5.0PF B
2.0PF B
0.5PF B
5.0PF B
6.0PF B
47PF G
3.0PF B
3.0PF B
47PF G
47PF G
0.10UF K
47PF G
1.0UF K
100PF J
10.0UF K
47PF G
1.0UF K
1.0UF K
100PF J
100PF J
100PF J
100PF J
1.0PF B
2.0PF B
47PF G
100PF J
4.0PF B
47PF G
9.0PF B
0.75PF B
9.0PF B
470PF K
47PF G
6.0PF B
1500PF K
47PF G
47000PF K
1500PF K
47PF G
1500PF K
7.0PF B
47PF G
4.0PF B
47PF G
6.0PF B
0.1UF K
C93-0897-05
C93-0897-05
C93-1863-05
C93-0939-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CC73HCH1H470G C CAPACITOR
C93-0939-05
C93-1864-05
C93-1864-05
C93-1864-05
C93-1864-05
C93-1857-05
C93-1857-05
C93-1859-05
C93-1864-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HB1E104K
CC73HCH1H470G C CAPACITOR
CK73HB1C105K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73FB1C106K C CAPACITOR
CC73HCH1H470G C CAPACITOR
C CAPACITOR
CK73HBB1H472K C CAPACITOR
CC73GCH1H470J C CAPACITOR
CK73GBB1H102K C CAPACITOR
CK73GBB1H103K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H470J C CAPACITOR
1000PF K
0.10UF K
47PF G
47PF J
CK73GB1H105K
CK73HB1C105K
C CAPACITOR
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H010B C CAPACITOR
CC73HCH1H020B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H040B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H090B C CAPACITOR
CC73HCH1HR75B C CAPACITOR
CC73HCH1H090B C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H060B C CAPACITOR
CK73HBB1H152K C CAPACITOR
CC73HCH1H470G C CAPACITOR
47PF J
C93-1835-05
C93-1864-05
C CAPACITOR
C CAPACITOR
1.5PF B
18PF B
2200PF K
47PF G
47PF J
CK73HBB1H222K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73GCH1H470J C CAPACITOR
C93-1838-05
C93-1869-05
C93-1844-05
C93-2004-05
C93-2004-05
C93-2004-05
C93-2004-05
C93-1844-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
2.0PF B
47PF B
3.6PF B
3.3PF B
3.3PF B
3.3PF B
3.3PF B
3.6PF B
4.0PF B
47PF G
100PF J
47000PF K
47000PF K
100PF J
100PF J
470PF K
2200PF K
0.033UF K
10000PF K
0.047UF K
47000PF K
CC73GCH1H040B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1E473K
C CAPACITOR
CK73HB1E473K
CK73HB1E473K
C CAPACITOR
C CAPACITOR
CK73HBB1H152K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CK73HBB1H152K C CAPACITOR
CC73HCH1H070B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H040B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H060B C CAPACITOR
CK73GXR1H104K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H471K C CAPACITOR
CK73HBB1H222K C CAPACITOR
CK73GBB1H333K C CAPACITOR
CK73HB1H103K
CK73HBB1H472K C CAPACITOR
CK73HB1E473K C CAPACITOR
C CAPACITOR
3-6(No.RA032<Rev.001>)
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
C438
C439
C440
C441
C443
C444
C445
C446
C447
C448
C457
C458
C500
C501
C502
C503
C504
C505
C506
C507
C508
C509
C510
C511
C512
C513
C514
C516
C517
C518
C519
C520
C521
C522
C525
C526
C527
C528
C530
C531
C532
C533
C534
C535
C536
C537
C538
C539
C540
C541
C542
C543
C544
C545
C552
C553
C556
C557
C558
C559
C561
C562
C600
C601
C602
C603
C604
C605
C606
C607
C608
C609
C610
C611
C612
C613
C614
C615
CK73HB1H103K
C CAPACITOR
10000PF K
3300PF K
33000PF K
3300PF K
10000PF K
10000PF K
10000PF K
3300PF K
6800PF K
47PF J
C616
C617
C618
C619
C620
C621
C622
C623
C624
C625
C626
C627
C628
C629
C630
C631
C632
C633
C634
C635
C636
C637
C638
C639
C640
C641
C642
C643
C644
C645
C646
C647
C648
C649
C650
C651
C652
C653
C654
C655
C656
C657
C658
C659
C660
C661
C662
C663
C665
C666
C668
C671
C681
C700
C701
C702
C703
C704
C705
C706
C707
C708
C709
C711
C712
C713
C714
C715
C716
C717
C718
C719
C720
C721
C722
C723
C724
C725
CC73HCH1H330G C CAPACITOR
CC73HCH1H330G C CAPACITOR
33PF G
33PF G
CK73HBB1H332K C CAPACITOR
CK73HB1E333K C CAPACITOR
CK73HBB1H332K C CAPACITOR
CK73HB1H103K
CK73HB1H103K
CK73HB1H103K
CK73HBB1H332K C CAPACITOR
CK73HBB1H682K C CAPACITOR
CC73GCH1H470J C CAPACITOR
C93-0938-05
C93-0938-05
CK73HB1H103K
CC73HCH1H470G C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H2R5B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H2R5B C CAPACITOR
CK73HB1H103K
C93-1959-05
CK73HB1C105K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
10000PF K
0.10UF B
1.0UF K
10000PF K
1000PF K
3.0PF B
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H390G C CAPACITOR
39PF G
C93-1959-05
CK73HB1E104K
C93-1953-05
C93-1959-05
C93-1953-05
C93-1959-05
C93-1959-05
C93-1953-05
C93-1959-05
CK73FB1C106K
C93-1959-05
CK73HB1C105K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF B
0.10UF K
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
10.0UF K
0.10UF B
1.0UF K
10000PF K
6800PF K
100PF J
1000PF G
100PF J
10PF B
100PF J
0.10UF B
22PF G
150PF J
0.10UF B
100PF J
10PF B
100PF J
0.10UF B
0.10UF B
56PF J
1000PF K
10000PF K
10PF B
C CAPACITOR
C CAPACITOR
C CAPACITOR
13PF G
13PF G
10000PF K
47PF G
10000PF K
100PF J
10000PF K
100PF J
0.10UF K
100PF J
2.5PF B
100PF J
2.5PF B
10000PF K
3.0PF B
5.0PF B
3.0PF B
47PF G
100PF J
100PF J
10000PF K
10000PF K
47PF G
47PF G
47PF G
47PF G
10PF B
10PF B
10000PF K
47PF G
10000PF K
10PF B
47PF G
47PF G
47PF G
47PF G
47PF G
CK73HBB1H682K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1H103K
C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
C93-1969-05
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73JCH1H101J C CAPACITOR
C93-1953-05
C CAPACITOR
CC73HCH1H220G C CAPACITOR
CC73HCH1H151J C CAPACITOR
CK73HB1H103K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C93-1959-05
C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H100B C CAPACITOR
CK73HB1H103K
CC73HCH1H470G C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H060B C CAPACITOR
CC73HCH1H070B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H090B C CAPACITOR
CC73HCH1H090B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H101J C CAPACITOR
C93-1959-05
C93-1959-05
C CAPACITOR
C CAPACITOR
CC73HCH1H560J C CAPACITOR
CK73HBB1H102K C CAPACITOR
C CAPACITOR
CK73HB1H103K
C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H060B C CAPACITOR
6.0PF B
CK73HB1H103K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
10000PF K
10000PF K
12PF G
1000PF K
1000PF K
10000PF K
5.0PF B
15PF G
18PF G
18PF G
470PF K
1.0UF K
0.10UF B
0.10UF B
22UF M
10000PF K
0.10UF B
0.10UF B
22UF M
10.0UF K
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
100PF J
0.10UF K
0.10UF B
100PF J
0.10UF B
0.10UF B
100PF J
CC73HCH1H120G C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
47PF G
47PF G
47PF G
CK73HB1H103K
C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC73HCH1H150G C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC73HCH1H180G C CAPACITOR
CK73HBB1H471K C CAPACITOR
6.0PF B
7.0PF B
100PF J
100PF J
9.0PF B
9.0PF B
100PF J
100PF J
47PF G
0.10UF K
100PF J
1.0PF B
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
12PF G
CK73HB1C105K
C93-1959-05
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73FXR0J226M C CAPACITOR
CK73HB1H103K
C93-1959-05
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HB1E104K
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H010B C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73HCH1H120G C CAPACITOR
CK73HB1E104K
CK73HB1E562K
C93-1959-05
CC73HCH1H030B C CAPACITOR
CK73HB1A224K
C93-1959-05
CK73FXR0J226M C CAPACITOR
CK73GB0J106K
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF K
5600PF K
0.10UF B
3.0PF B
0.22UF K
0.10UF B
12000PF K
0.10UF K
CC73JCH1H101J C CAPACITOR
CK73HB1E104K
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CC73JCH1H101J C CAPACITOR
C93-1959-05
C93-1959-05
C CAPACITOR
C CAPACITOR
CK73HB1H123K
CK73HB1E104K
CC73JCH1H101J C CAPACITOR
(No.RA032<Rev.001>)3-7
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
C726
C728
C729
C730
C731
C732
C733
C734
C735
C736
C737
C738
C739
C740
C741
C742
C743
C745
C746
C747
C748
C749
C750
C751
C752
C754
C755
C756
C757
C758
C759
C760
C762
C764
C766
C768
C769
C770
C771
C772
C773
C774
C775
C776
C777
C778
C779
C780
C781
C782
C783
C784
C785
C786
C787
C791
C792
C793
C794
C795
C796
C797
C798
C799
C800
C801
C802
C803
C804
C805
C806
C807
C808
C809
C810
C811
C812
C813
C93-1953-05
CK73GB0J106K
CK73HB1H103K
CK73GB0J106K
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
CC73JCH1H101J C CAPACITOR
C93-1959-05 C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73GB0J106K
CK73HB1H103K
C93-1959-05
CK73GB0J106K
C93-1953-05
C93-1959-05
CK73GB0J106K
CK73GB0J106K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF B
10.0UF K
10000PF K
10.0UF K
0.10UF B
0.10UF B
0.10UF B
0.10UF B
100PF J
C814
C815
C816
C817
C818
C819
C820
C821
C822
C824
C829
C830
C831
C834
C835
C839
C841
C852
C853
C854
C856
C857
C862
C898
C899
C900
C901
C902
C903
C904
C905
C906
C908
C909
C910
C911
C912
C913
C914
C915
C916
C917
C918
C919
C920
C921
C922
C924
C925
C926
C927
C928
C929
C930
C931
C932
C933
C934
C935
C936
C937
C938
C940
C941
C942
C943
C944
C945
C946
C947
C948
C949
C950
C951
C952
C953
C954
C955
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
100PF J
100PF J
100PF J
1000PF K
100PF J
10000PF K
0.10UF K
100PF J
100PF J
1000PF K
1.0UF K
CK73HB1H103K
CK73HB1E104K
C CAPACITOR
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
0.10UF B
100PF J
100PF J
CK73HB1C105K
C93-1959-05
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF B
0.10UF B
1.0UF K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
10.0UF K
10000PF K
0.10UF B
10.0UF K
0.10UF B
0.10UF B
10.0UF K
10.0UF K
10PF B
0.10UF B
10.0UF K
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
1.0UF K
CK73HB1C105K
CC73HCH1H101J C CAPACITOR
100PF J
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF K
0.10UF K
0.10UF K
10000PF K
1000PF K
47PF G
47PF G
0.047UF K
1.0UF K
10.0UF K
10000PF K
0.10UF K
0.10UF K
1000PF K
1.0UF K
0.10UF K
1.0UF K
0.10UF B
1.0UF K
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF K
10.0UF K
1.0UF K
0.10UF B
1.0UF K
0.10UF B
100PF J
0.047UF K
1.0UF K
1.0UF K
1.0UF K
1.0UF K
10.0UF K
0.10UF K
68PF J
0.47UF K
10.0UF K
10000PF K
10000PF K
100PF J
10.0UF K
1.0UF K
10000PF K
1000PF K
100PF J
10000PF K
0.10UF K
1.0UF K
10000PF K
10000PF K
1000PF K
1.0UF K
CK73HBB1H102K C CAPACITOR
CC73HCH1H470G C CAPACITOR
CC73HCH1H470G C CAPACITOR
CK73HBB1H472K C CAPACITOR
CC73HCH1H100B C CAPACITOR
C93-1959-05
CK73GB0J106K
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
CK73HB1C105K
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73GB1H105K
CK73GB0J106K
CK73HB1H103K
CK73HB1E104K
CK73HB1E104K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HBB1H102K C CAPACITOR
0.10UF B
100PF J
CK73HB1C105K
CK73HB1E104K
CK73HB1C105K
C93-1959-05
CK73HB1C105K
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
CK73HB1E104K
CK73GB0J106K
CK73HB1C105K
C93-1959-05
CK73HB1C105K
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CC73JCH1H101J C CAPACITOR
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1953-05
CK73HB1C105K
CK73HB1C105K
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
C93-1959-05
CK73HB1C105K
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
1.0UF K
1.0UF K
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
0.10UF B
1.0UF K
CC73HCH1H101J C CAPACITOR
CK73HBB1H472K C CAPACITOR
0.10UF B
15PF G
15PF G
CK73HB1C105K
CK73HB1C105K
CK73HB1C105K
CK73HB1C105K
CK73GB0J106K
CK73HB1E104K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CC73HCH1H150G C CAPACITOR
CC73HCH1H150G C CAPACITOR
CK73HB1E104K
CK73HB1A224K
CK73GB0J106K
CK73GB0J106K
CK73HB1E104K
C93-1959-05
C93-1959-05
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HB1H103K
CK73HB1H103K
CK73HB1H103K
CK73GB1H105K
CK73HB1E104K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.10UF K
0.22UF K
10.0UF K
10.0UF K
0.10UF K
0.10UF B
0.10UF B
1000PF K
1000PF K
10000PF K
10000PF K
10000PF K
1.0UF K
CC73HCH1H680J C CAPACITOR
CK73HB1A474K
CK73GB0J106K
CK73HB1H103K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CC73HCH1H101J C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73GB0J106K
CK73GB1H105K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
0.10UF K
10000PF K
100PF J
CK73HB1H103K
CK73HB1E104K
CK73GB1H105K
CK73HB1H103K
CK73HB1H103K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1C105K
C93-1959-05
C93-1959-05
CC73HCH1H101J C CAPACITOR
C93-1959-05
C CAPACITOR
C CAPACITOR
C CAPACITOR
1.0UF K
0.10UF B
0.10UF B
100PF J
0.10UF B
10000PF K
100PF J
100PF J
100PF J
0.10UF B
100PF J
100PF J
CK73HBB1H102K C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73GB1H105K
CK73GB1H105K
CK73GB1H105K
CK73GB1H105K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HB1H103K
1.0UF K
1.0UF K
1.0UF K
1000PF K
100PF J
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
C93-1959-05
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
C CAPACITOR
100PF J
100PF J
3-8(No.RA032<Rev.001>)
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
C956
C957
C958
C959
C960
C961
C962
C963
C964
C965
C966
C967
C968
C969
C970
C971
C972
C973
C975
C976
C977
C978
C979
C980
C981
C982
C983
C984
C985
C986
C987
C988
C989
C990
C991
C992
C993
C994
C995
C996
C997
C998
C999
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
47000PF K
100PF J
100PF J
1000PF K
100PF J
330UF 16WV
10000PF K
47UF 25WV
0.10UF K
0.10UF K
100PF J
100PF J
1000PF K
470PF K
100PF J
100PF J
1000PF K
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
100PF J
1000PF K
1000PF K
1.0UF K
R44
R45
R46
R47
R48
R49
R50
R51
R52
R53
R54
R55
R56
R57
R58
R59
R60
R61
R62
R63
R64
R65
R66
R67
R68
R69
R70
R71
R72
R73
R75
R76
RK73JB1H102J
RK73HH1J103D
RK73JB1H104J
RK73HB1J000J
RK73HH1J103D
RK73HH1J473D
RK73HH1J103D
RK73HB1J222J
RK73HB1J102J
RK73HB1J000J
R92-3769-05
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
1.0K J 1/20W
10K D 1/16W
100K J 1/20W
0.0 J 1/16W
10K D 1/16W
47K D 1/16W
10K D 1/16W
2.2K J 1/16W
1.0K J 1/16W
0.0 J 1/16W
CK73HB1E473K
C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
METAL GLAZE RESISTOR
METAL GLAZE RESISTOR
R92-3769-05
RK73HB1J334J
RK73HH1J223D
RK73HB1J102J
RK73HB1J100J
RK73HB1J474J
RK73HB1J102J
RK73HB1J102J
RK73HH1J273D
RK73HH1J152D
RK73HH1J472D
RK73HH1J103D
RK73HH1J472D
RK73HH1J103D
RK73HH1J472D
RK73HB1J000J
RK73HB1J331J
RK73JB1H473J
RK73HB1J471J
RK73HB1J474J
RK73FB2B332J
RK73FB2B332J
RK73FB2B332J
RK73HB1J000J
RK73FB2B2R7J
RK73FB2B3R3J
RK73HB1J122J
RK73HB1J100J
RK73HB1J000J
RK73HB1J100J
RK73HB1J100J
RK73HH1J473D
RK73HB1J102J
RK73HB1J102J
RK73HB1J470J
RK73HB1J102J
RK73HH1J223D
RK73HB1J000J
RK73HB1J124J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J222J
RK73HB1J151J
RK73HH1J472D
RK73HH1J104D
RK73HH1J391D
RK73HH1J103D
RK73HB1J106J
RK73HH1J104D
RK73HB1J470J
RK73HH1J104D
RN73HH1J151D
RN73HH1J100D
RK73HB1J000J
RN73H0AJ181D
RN73HH1J100D
RK73HB1J000J
RK73HB1J392J
RK73HB1J272J
RK73HB1J820J
RK73HB1J330J
RK73HB1J222J
RK73HH1J562D
RK73HB1J150J
RK73HB1J101J
RK73HH1J562D
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MF RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
330K J 1/16W
C92-0906-05
E CAPACITOR
C CAPACITOR
E CAPACITOR
C CAPACITOR
C CAPACITOR
22K D 1/16W
1.0K J 1/16W
10 J 1/16W
CK73HB1H103K
CE32BY1E470M
CK73HB1E104K
CK73HB1E104K
470K J 1/16W
1.0K J 1/16W
1.0K J 1/16W
27K D 1/16W
1.5K D 1/16W
4.7K D 1/16W
10K D 1/16W
4.7K D 1/16W
10K D 1/16W
4.7K D 1/16W
0.0 J 1/16W
330 J 1/16W
47K J 1/20W
470 J 1/16W
470K J 1/16W
3.3K J 1/8W
3.3K J 1/8W
3.3K J 1/8W
0.0 J 1/16W
2.7 J 1/16W
3.3 J 1/16W
1.2 J 1/20W
10 J 1/16W
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H471K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
R77
R78
R84
R96
R97
R100
R101
R102
R103
R104
R106
R107
R108
R109
R110
R111
R112
R113
R115
R116
R117
R118
R121
R122
R123
R124
R125
R126
R127
R128
R129
R130
R131
R132
R133
R134
R135
R136
R137
R138
R139
R140
R141
R142
R143
R144
0.0 J 1/16W
10 J 1/16W
10 J 1/16W
47K D 1/16W
1.0K J 1/16W
1.0K J 1/16W
47 J 1/16W
CK73HB1C105K
C CAPACITOR
R8
RK73HH1J104D
RK73HH1J104D
RK73HH1J104D
RK73HB1J000J
RK73HH1J104D
RK73HH1J223D
RK73HH1J103D
RK73JB1H102J
RK73HH1J103D
RK73JB1H104J
RK73HH1J473D
RK73GB2A000J
RK73HH1J104D
RK73JB1H103J
RK73JB1H102J
RK73JB1H104J
RK73JB1H472J
RK73JB1H102J
RK73JB1H103J
RK73JB1H473J
RK73HH1J223D
RK73HB1J000J
RK73HB1J101J
RK73HH1J103D
RK73HH1J333D
RK73HH1J103D
RK73HH1J103D
RK73HB1J101J
RK73HB1J224J
RK73HH1J104D
RK73JB1H104J
RK73JB1H104J
RK73JB1H473J
RK73HB1J000J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
100K D 1/16W
100K D 1/16W
100K D 1/16W
0.0 J 1/16W
100K D 1/16W
22K D 1/16W
10K D 1/16W
1.0K J 1/20W
10K D 1/16W
100K J 1/20W
47K D 1/16W
0.0 J 1/10W
100K D 1/16W
10K J 1/20W
1.0K J 1/20W
100K J 1/20W
4.7K J 1/20W
1.0K J 1/20W
10K J 1/20W
47K J 1/20W
22K D 1/16W
0.0 J 1/16W
100 J 1/16W
10K D 1/16W
33K D 1/16W
10K D 1/16W
10K D 1/16W
100 J 1/16W
220K J 1/16W
100K D 1/16W
100K J 1/20W
100K J 1/20W
47K J 1/20W
0.0 J 1/16W
R10
R11
R12
R13
R14
R15
R16
R17
R18
R19
R20
R21
R22
R23
R24
R25
R26
R27
R29
R30
R31
R32
R33
R34
R35
R36
R37
R38
R39
R40
R41
R42
R43
1.0K J 1/16W
22K D 1/16W
0.0 J 1/16W
120K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
2.2K J 1/16W
150 J 1/16W
4.7K D 1/16W
100K D 1/16W
390 D 1/16W
10K D 1/16W
10M J 1/16W
100K D 1/16W
47 J 1/16W
100K D 1/16W
150 D 1/16W
10 D 1/16W
0.0 J 1/16W
180 J 1/16W
10 D 1/16W
0.0 J 1/16W
3.9K J 1/16W
2.7K J 1/16W
82 J 1/16W
33 J 1/16W
2.2K J 1/16W
5.6K D 1/16W
15 J 1/16W
100 J 1/16W
5.6K D 1/16W
(No.RA032<Rev.001>)3-9
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
R145
R146
R147
R148
R149
R151
R152
R153
R154
R155
R156
R158
R159
R160
R161
R162
R166
R170
R171
R172
R173
R174
R175
R176
R177
R178
R179
R300
R301
R302
R303
R304
R305
R306
R307
R308
R309
R310
R311
R312
R313
R314
R315
R316
R317
R318
R319
R320
R321
R323
R324
R325
R327
R328
R329
R330
R331
R332
R333
R334
R335
R336
R337
R338
R339
R340
R341
R342
R343
R344
R346
R347
R348
R349
R350
R351
R353
R354
RK73HH1J332D
RK73HB1J101J
RK73HB1J221J
RK73HB1J330J
RK73HB1J474J
RK73HB1J183J
RK73HH1J473D
RK73HH1J473D
RK73HH1J103D
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J474J
RK73HB1J392J
RK73HB1J474J
RK73HB1J121J
RK73HB1J102J
RK73HH1J473D
RK73HB1J474J
RK73HB1J102J
RK73HH1J472D
RK73HB1J181J
RK73HB1J330J
RK73HB1J181J
RK73HB1J331J
RK73HB1J150J
RK73HB1J331J
RK73HH1J332D
RK73HB1J331J
RK73HB1J150J
RK73HB1J331J
RK73HB1J000J
RK73HB1J821J
RK73HB1J101J
RK73HB1J682J
RK73HB1J271J
RK73HB1J180J
RK73HB1J271J
RK73HH1J562D
RK73HB1J470J
RK73HB1J822J
RK73HB1J471J
RK73EB2E271J
RK73EB2E180J
RK73EB2E271J
RK73GB2A470J
RK73HB1J822J
RK73HH1J562D
RK73FB2B471J
RK73GB2A332J
RK73GB2A470J
RK73GB2A562J
RK73GB2A103J
RK73GB2A103J
RK73GB2A103J
RK73GB2A103J
RK73PB2H471J
RK73PB2H471J
RK73F0GZ1R0F
RK73HH1J103D
RK73F0GZ1R0F
RK73FB2B3R3J
RK73F0GZ3R3F
RK73F0GZ3R3F
RK73RB2H5R6J
RK73GB2A680J
RK73GB2A181J
RK73GB2A680J
RK73HB1J000J
RK73FB2B121J
RK73HH1J333D
RK73HH1J103D
RK73HB1J000J
RK73GB2A000J
RK73FB2B101J
RK73GB2A470J
RK73PB2H470J
RK73PB2H470J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
3.3K D 1/16W
100 J 1/16W
220 J 1/16W
33 J 1/16W
470K J 1/16W
18K J 1/16W
47K D 1/16W
47K D 1/16W
10K D 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
470K J 1/16W
3.9K J 1/16W
470K J 1/16W
120 J 1/16W
1.0K J 1/16W
47K D 1/16W
470K J 1/16W
1.0K J 1/16W
4.7K D 1/16W
180 J 1/16W
33 J 1/16W
180 J 1/16W
330 J 1/16W
15 J 1/16W
330 J 1/16W
3.3K D 1/16W
330 J 1/16W
15 J 1/16W
330 J 1/16W
0.0 J 1/16W
820 J 1/16W
100 J 1/16W
6.8K J 1/16W
270 J 1/16W
18 J 1/16W
270 J 1/16W
5.6K J 1/16W
47 J 1/16W
8.2K J 1/16W
470 J 1/16W
270 J 1/16W
18 J 1/16W
270 J 1/16W
47 J 1/16W
8.2K J 1/16W
5.6K D 1/16W
470 J 1/8W
3.3K J 1/10W
47 J 1/10W
5.6K J 1/10W
10K J 1/10W
10K J 1/10W
10K J 1/10W
10K J 1/10W
470 J 1/2W
470 J 1/2W
1.0 F 1/3W
R355
R359
R360
R361
R362
R369
R371
R373
R374
R375
R376
R380
R381
R382
R383
R384
R385
R386
R387
R388
R389
R391
R392
R395
R397
R398
R399
R401
R402
R403
R404
R405
R406
R407
R408
R409
R411
R412
R413
R414
R415
R416
R417
R418
R420
R421
R422
R423
R424
R426
R427
R428
R429
R431
R432
R433
R434
R436
R437
R438
R500
R501
R502
R503
R504
R505
R506
R507
R508
R509
R510
R511
R512
R514
R515
R516
R518
R519
RK73HB1J271J
RK73GB2A000J
RK73GB2A000J
RK73F0GZ3R3F
RK73F0GZ3R3F
RK73GB2A470J
RK73HB1J000J
RK73HB1J682J
RK73HH1J223D
RK73HB1J821J
RK73HB1J181J
RK73HB1J222J
RK73HB1J222J
RK73HH1J223D
RK73HH1J223D
RK73HH1J103D
RK73HB1J470J
RK73HB1J470J
RK73HB1J822J
RK73HB1J393J
RK73HB1J000J
RK73HB1J101J
RK73HH1J103D
RK73HB1J470J
RK73HB1J000J
RK73HH1J223D
RK73HB1J222J
RK73HH1J122D
R92-1061-05
RK73HH1J223D
RK73HB1J182J
RK73HH1J223D
RK73HH1J223D
RK73HB1J000J
RK73HH1J223D
RK73HH1J223D
RK73HH1J223D
RK73HH1J104D
RK73HB1J471J
RK73HH1J223D
RK73HH1J104D
RK73HH1J103D
RK73HH1J223D
RK73HH1J223D
RK73HH1J104D
RK73HH1J104D
RK73HH1J103D
RK73HB1J222J
RK73HB1J000J
RK73HB1J000J
RK73HH1J223D
RK73HB1J183J
RK73HB1J822J
RK73HH1J223D
RK73HH1J103D
RK73HB1J682J
RK73HH1J472D
RK73HH1J473D
RK73HB1J822J
RK73HB1J822J
RK73HB1J331J
RK73HB1J180J
RK73HB1J331J
RK73HH1J103D
RK73HH1J103D
RK73HB1J271J
RK73HB1J470J
RK73HB1J222J
RK73HH1J472D
RK73HB1J222J
RK73HH1J273D
RK73HB1J000J
RK73HB1J000J
RK73HB1J101J
RK73HB1J000J
RK73HB1J101J
RK73HH1J223D
RK73HH1J223D
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
JUMPER REST
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
270 J 1/16W
0.0 J 1/10W
0.0 J 1/10W
3.3 F 1/3W
3.3 F 1/3W
47 J 1/10W
0.0 J 1/16W
6.8K J 1/16W
22K D 1/16W
820 J 1/16W
180 J 1/16W
2.2K J 1/16W
2.2K J 1/16W
22K D 1/16W
22K D 1/16W
10K D 1/16W
47 J 1/16W
47 J 1/16W
8.2K J 1/16W
39K J 1/16W
0.0 J 1/16W
100 J 1/16W
10K D 1/16W
47 J 1/16W
0.0 J 1/16W
22K D 1/16W
2.2K J 1/16W
1.2K D 1/16W
0 OHM
22K D 1/16W
1.8K J 1/16W
22K D 1/16W
22K D 1/16W
0.0 J 1/16W
22K D 1/16W
22K D 1/16W
22K D 1/16W
100K D 1/16W
470 J 1/16W
22K D 1/16W
100K D 1/16W
10K D 1/16W
22K D 1/16W
22K D 1/16W
100K D 1/16W
100K D 1/16W
10K D 1/16W
2.2K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
22K D 1/16W
18K J 1/16W
8.2K J 1/16W
22K D 1/16W
10K D 1/16W
6.8K J 1/16W
4.7K D 1/16W
47K D 1/16W
8.2K J 1/16W
8.2K J 1/16W
330 J 1/16W
18 J 1/16W
330 J 1/16W
10K D 1/16W
10K D 1/16W
270 J 1/16W
47 J 1/16W
2.2K J 1/16W
4.7K D 1/16W
2.2K J 1/16W
27K D 1/16W
0.0 J 1/16W
0.0 J 1/16W
100 J 1/16W
0.0 J 1/16W
100 J 1/16W
22K D 1/16W
22K D 1/16W
10K D 1/16W
1.0 F 1/3W
3.3 J 1/16W
3.3 F 1/3W
3.3 F 1/3W
56 J 1/16W
68 J 1/10W
180 J 1/10W
68 J 1/10W
0.0 J 1/16W
120 J 1/16W
33K D 1/16W
10K D 1/16W
0.0 J 1/16W
0.0 J 1/10W
100 J 1/16W
47 J 1/10W
47 J 1/2W
47 J 1/2W
3-10(No.RA032<Rev.001>)
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
R520
R521
R527
R528
R531
R532
R533
R534
R537
R538
R539
R540
R541
R542
R543
R544
R545
R546
R547
R548
R549
R550
R554
R555
R556
R557
R600
R601
R602
R603
R604
R605
R606
R607
R608
R609
R610
R611
R612
R613
R614
R615
R616
R617
R618
R619
R620
R621
R622
R623
R624
R625
R626
R628
R630
R631
R632
R700
R701
R702
R707
R708
R709
R719
R720
R721
R722
R727
R728
R729
R731
R732
R733
R734
R735
R736
R738
R740
RK73HH1J223D
RK73HH1J223D
RK73HB1J000J
RK73HB1J000J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J470J
RK73HB1J101J
RK73HB1J000J
RK73HB1J000J
RK73HB1J183J
RK73HB1J183J
RK73HB1J183J
RK73HB1J183J
RK73HB1J331J
RK73HB1J180J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J474J
RK73HB1J331J
RK73HB1J100J
RK73HB1J100J
RK73HB1J100J
RK73HB1J102J
RK73HB1J681J
RK73JB1H103J
RK73HB1J000J
RK73HB1J220J
RK73HH1J391D
RK73HB1J182J
RK73HH1J562D
RK73HB1J471J
RK73JB1H472J
RK73HH1J104D
RK73HB1J470J
RK73HH1J103D
RK73HB1J101J
RK73HB1J274J
RK73HB1J271J
RK73HB1J180J
RK73HB1J271J
RK73HB1J470J
RK73HB1J681J
RK73HH1J104D
RK73HB1J563J
RK73HB1J823J
RK73HH1J333D
RK73HB1J101J
RK73HB1J000J
RK73HB1J000J
RK73GB2A000J
RK73HB1J102J
RK73HB1J000J
RK73HB1J100J
RK73HB1J100J
RK73HB1J220J
RK73HB1J102J
RK73HB1J153J
RK73HH1J333D
RK73HB1J100J
RK73HB1J681J
RK73HB1J821J
RK73JB1H104J
RK73JB1H104J
RK73JB1H473J
RK73JB1H472J
RK73HB1J000J
RK73JB1H103J
RK73JB1H103J
RK73HB1J000J
RK73HB1J102J
RK73HB1J102J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
22K D 1/16W
22K D 1/16W
0.0 J 1/16W
0.0 J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
47 J 1/16W
100 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
18K J 1/16W
18K J 1/16W
18K J 1/16W
18K J 1/16W
330 J 1/16W
18 J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
470K J 1/16W
330 J 1/16W
10 J 1/16W
R742
R744
R746
R747
R748
R749
R750
R751
R752
R753
R754
R755
R756
R757
R758
R759
R760
R761
R762
R763
R764
R765
R766
R767
R768
R770
R772
R773
R774
R775
R777
R778
R779
R781
R782
R783
R785
R787
R788
R789
R790
R791
R792
R794
R795
R797
R798
R799
R800
R801
R802
R803
R804
R805
R806
R807
R808
R809
R810
R812
R813
R814
R815
R816
R817
R828
R830
R831
R833
R835
R837
R838
R839
R843
R844
R845
R854
R857
RK73HB1J102J
RK73HB1J102J
RK73HB1J102J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73HH1J332D
RK73JB1H220J
RK73JB1H220J
RK73JB1H104J
RK73JB1H104J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H104J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H104J
RK73JB1H220J
RK73JB1H220J
RK73JB1H102J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73HB1J101J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
1.0K J 1/16W
1.0K J 1/16W
1.0K J 1/16W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
3.3K D 1/16W
22 J 1/20W
22 J 1/20W
100K J 1/20W
100K J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
100K J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
100K J 1/20W
22 J 1/20W
22 J 1/20W
1.0K J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
100 J 1/16W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
49.9 D 1/10W
22 J 1/20W
1.0K J 1/20W
1.0K J 1/20W
22 J 1/20W
1.0K J 1/20W
2.2K J 1/20W
22 J 1/20W
22 J 1/20W
22 J 1/20W
1.0K J 1/16W
22 J 1/20W
10K D 1/16W
10K J 1/20W
1.0K J 1/16W
100K J 1/20W
100K J 1/20W
1.0K J 1/16W
0.0 J 1/16W
47K D 1/16W
100K D 1/16W
10K D 1/16W
10K D 1/16W
0.0 J 1/16W
33K D 1/16W
10 J 1/16W
10 J 1/16W
1.0K J 1/16W
680 J 1/16W
10K J 1/20W
0.0 J 1/16W
22 J 1/16W
390 D 1/16W
1.8K J 1/16W
5.6K D 1/16W
470 J 1/16W
4.7K J 1/20W
100K D 1/16W
47 J 1/16W
10K D 1/16W
100 J 1/16W
270K J 1/16W
270 J 1/16W
18 J 1/16W
270 J 1/16W
47 J 1/16W
680 J 1/16W
100K D 1/16W
56K J 1/16W
82K J 1/16W
33K D 1/16W
100 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/10W
1.0K J 1/16W
0.0 J 1/16W
10 J 1/16W
10 J 1/16W
22 J 1/16W
1.0K J 1/16W
15K J 1/16W
33K D 1/16W
10 J 1/16W
680 J 1/16W
820 J 1/16W
100K J 1/20W
100K J 1/20W
47K J 1/20W
4.7K J 1/20W
0.0 J 1/16W
10K J 1/20W
10K J 1/20W
0.0 J 1/16W
1.0K J 1/16W
1.0K J 1/16W
RK73GH2A49R9D MG RESISTOR
RK73JB1H220J
RK73JB1H102J
RK73JB1H102J
RK73JB1H220J
RK73JB1H102J
RK73JB1H222J
RK73JB1H220J
RK73JB1H220J
RK73JB1H220J
RK73HB1J102J
RK73JB1H220J
RK73HH1J103D
RK73JB1H103J
RK73HB1J102J
RK73JB1H104J
RK73JB1H104J
RK73HB1J102J
RK73HB1J000J
RK73HH1J473D
RK73HH1J104D
RK73HH1J103D
RK73HH1J103D
RK73HB1J000J
RK73HH1J333D
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
(No.RA032<Rev.001>)3-11
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
R858
R859
R862
R863
R864
R865
R867
R868
R869
R874
R876
R877
R878
R879
R880
R881
R882
R883
R884
R885
R900
R901
R902
R903
R904
R905
R906
R907
R908
R909
R911
R912
R913
R914
R915
R916
R917
R918
R919
R920
R921
R922
R923
R924
R925
R926
R927
R928
R930
R932
R933
R935
R936
R937
R938
R939
R940
R941
R943
R944
R945
R947
R948
R949
R950
R951
R953
R954
R955
R956
R957
R958
R960
R961
R962
R963
R964
R965
RK73HH1J223D
RK73HH1J223D
RK73HB1J222J
RK73HB1J000J
RK73HB1J000J
RK73HB1J222J
RK73HH1J823D
RK73HB1J000J
RK73HB1J000J
RK73JB1H104J
RK73HB1J102J
RK73FB2B332J
RK73FB2B332J
RK73FB2B332J
RK73HB1J102J
RK73HB1J331J
RK73JB1H473J
RK73JB1H473J
RK73HH1J104D
RK73HB1J000J
RK73HB1J100J
RK73HB1J101J
RK73HB1J100J
RK73HH1J103D
RK73HH1J223D
RK73HH1J223D
RK73HB1J000J
RK73HB1J000J
RK73HH1J223D
RK73HH1J223D
RK73HH1J104D
RK73HB1J102J
RK73HB1J000J
RK73HB1J102J
RK73HB1J000J
RK73HB1J222J
RK73HB1J000J
RK73HB1J683J
RK73HH1J473D
RK73HB1J000J
RK73HB1J102J
RK73HB1J681J
RK73HB1J000J
RK73HH1J473D
RK73HH1J273D
RK73HH1J103D
RK73HB1J474J
RK73HH1J103D
RK73HH1J103D
RK73HH1J473D
RK73HB1J000J
RK73HB1J102J
RK73GB2A101J
RK73HB1J000J
RK73HH1J332D
RK73HB1J392J
RK73HB1J392J
RK73GB2A101J
RK73GB2A000J
RK73HH1J473D
RK73HH1J472D
RK73HB1J101J
RK73HB1J000J
RK73HH1J472D
RK73GB2A000J
RK73HB1J100J
RK73HH1J472D
RK73HH1J472D
RK73HB1J100J
RK73HB1J000J
RK73HB1J101J
RK73GB2A102J
RK73HH1J103D
RK73GB2A102J
RK73HH1J473D
RK73HB1J101J
RK73HB1J101J
RK73HB1J471J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
22K D 1/16W
22K D 1/16W
2.2K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
2.2K J 1/16W
82K D 1/16W
0.0 J 1/16W
0.0 J 1/16W
100K J 1/20W
1.0K J 1/16W
3.3K J 1/8W
3.3K J 1/8W
3.3K J 1/8W
1.0K J 1/16W
330 J 1/16W
47K J 1/20W
47K J 1/20W
100K D 1/16W
0.0 J 1/16W
10 J 1/16W
R966
R967
R968
R969
R970
R971
R972
R973
R974
R975
R976
R977
R978
R979
R980
R981
R982
R983
R984
R985
R991
R992
R993
R994
R996
R997
R998
RK73HB1J471J
RK73GB2A221J
RK73GB2A221J
RK73HB1J471J
RK73HB1J101J
RK73HB1J471J
RK73HB1J471J
RK73HB1J471J
RK73HB1J101J
RK73HB1J101J
RK73HB1J101J
RK73GB2A102J
RK73HH1J473D
RK73HB1J681J
RK73HB1J000J
RK73GB2A221J
RK73GB2A221J
RK73HB1J101J
RK73HB1J682J
RK73HH1J104D
RK73HB1J000J
RK73HB1J102J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
470 J 1/16W
220 J 1/10W
220 J 1/10W
470 J 1/16W
100 J 1/16W
470 J 1/16W
470 J 1/16W
470 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
1.0K J 1/10W
47K D 1/16W
680 J 1/16W
0.0 J 1/16W
220 J 1/10W
220 J 1/10W
100 J 1/16W
6.8K J 1/16W
100K D 1/16W
0.0 J 1/16W
1.0K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
100 J 1/16W
10 J 1/16W
10K D 1/16W
22K D 1/16W
22K D 1/16W
0.0 J 1/16W
0.0 J 1/16W
22K D 1/16W
22K D 1/16W
100K D 1/16W
1.0K J 1/16W
0.0 J 1/16W
1.0K J 1/16W
0.0 J 1/16W
2.2K J 1/16W
0.0 J 1/16W
68K J 1/16W
47K D 1/16W
0.0 J 1/16W
1.0K J 1/16W
680 J 1/16W
0.0 J 1/16W
47K D 1/16W
27K D 1/16W
10K D 1/16W
470K J 1/16W
10K D 1/16W
10K D 1/16W
47K D 1/16W
0.0 J 1/16W
1.0K J 1/16W
100 J 1/10W
0.0 J 1/16W
3.3K D 1/16W
3.9K J 1/16W
3.9K J 1/16W
100 J 1/10W
0.0 J 1/10W
47K D 1/16W
4.7K D 1/16W
100 J 1/16W
0.0 J 1/16W
4.7K D 1/16W
0.0 J 1/10W
10 J 1/16W
L1
L2
L3
L4
L5
L6
L7
L9
L10
L11
L12
L13
L14
L15
L16
L80
L100
L101
L102
L103
L112
L113
L114
L115
L116
L117
L118
L119
L120
L121
L122
L123
L124
L125
L126
L127
L128
L129
L130
L131
L132
L133
L134
L135
L136
L137
L138
L139
L140
L141
LB73Z0AF-001
LB73Z0AF-001
LB73Z0AF-001
LB73H0AV-002
LB73G0AK-001
LB73G0AM-004
LB73G0AK-001
LB73G0AK-001
LB73G0AK-001
L41-4792-69
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 4.7UH
CHIP FERRITE BEADS
CHIP INDUCTOR
LB73G0AM-004
LR79Z0AA150M
LB73G0AK-001
LB73G0AK-001
LB73H0AY-004
LB73H0AV-003
LB73H0AV-003
LB73H0AV-003
LB73H0AV-003
LB73H0AV-003
LB73H0AY-004
LK73G0AFR27J
LK73G0AFR27J
LK73G0AFR27J
LK73G0AFR27J
LR79Z0CM28NG
LK73G0AFR27J
LK73G0AFR27J
LB73H0AV-003
LB73H0AV-003
LB73H0AY-004
LK73G0AFR27J
LK73G0AFR27J
LK73G0AFR27J
LK73G0AFR27J
LR79Z0CM28NG
LK73G0AFR27J
LK73G0AFR27J
LK73H0AM12NJ
LK73H0AM12NJ
LK73H0AM12NJ
LK73H0AM12NJ
L41-6865-53
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
270NH
270NH
270NH
270NH
270NH
270NH
270NH
270NH
270NH
270NH
270NH
270NH
12NH
12NH
12NH
12NH
4.7K D 1/16W
4.7K D 1/16W
10 J 1/16W
0.0 J 1/16W
100 J 1/16W
1.0K J 1/10W
10K D 1/16W
1.0K J 1/10W
47K D 1/16W
100 J 1/16W
100 J 1/16W
470 J 1/16W
MULTILAYER CHIP INDUCTOR
MULTILAYER CHIP INDUCTOR
MULTILAYER CHIP INDUCTOR
MULTILAYER CHIP INDUCTOR
CHIP FERRITE BEADS
M.CHIP INDUCTOR
CHIP FERRITE BEADS
CHIP FERRITE BEADS
L41-8265-53
L41-1275-53
L41-1275-53
LB73H0AV-003
LK73H0AM12NJ
LB73H0AY-004
LB73H0AY-004
12NH
3-12(No.RA032<Rev.001>)
Symbol No.
Part No.
Part Name
Description
270NH
Local
Symbol No.
Part No.
Part Name
Description
Local
L142
L300
L301
L302
L303
L304
L305
L306
L307
L308
L309
L310
L311
L312
L313
L314
L315
L316
L317
L318
L319
L320
L323
L324
L325
L326
L327
L328
L329
L330
L331
L333
L500
L501
L502
L503
L504
L505
L506
L507
L508
L510
L511
L513
L514
L515
L516
L517
L518
L519
L520
L521
L522
L600
L601
L602
L603
L604
L605
L606
L607
L608
L609
L610
L611
L612
L613
L614
L615
L616
L617
L618
L619
L620
L621
L625
L626
L700
LK73G0AFR27J
L40-3363-71
LK73H0AM33NJ
L40-3363-71
LK73H0AM4N7S
LK73H0AM27NJ
LK73H0AM68NJ
L40-5663-92
L41-2763-14
LB73F0AW-002
L40-5663-92
L40-5663-92
L40-3963-92
L41-5668-14
LB73F0AW-002
L41-5668-14
L41-2763-14
LB73G0BA-004
L34-4994-05
LB73G0BA-004
L34-4560-05
LB73H0AV-003
LR77Z0AA22NJ
LR77Z0AA27NJ
L34-4613-05
M.CHIP INDUCTOR
L701
L702
L711
L713
L714
L715
L716
L717
L718
L719
L720
L721
L722
L723
L724
L725
L726
L728
L729
L730
L731
L732
L901
L902
L906
L907
LB73H0AV-003
LB73G0AK-001
LR77Z0AE4R7J
LB73H0AV-002
LB73G0AM-004
L92-1101-05
L92-1101-05
L92-1101-05
L92-1101-05
LB73H0AV-002
LB73G0AK-001
LB73G0AK-001
LB73G0AK-001
LB73H0AV-002
LB73G0AK-001
LB73H0AV-002
L79-1984-05
L79-1984-05
L79-1984-05
L79-1984-05
L79-1984-05
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP INDUCTOR
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE
CHIP FERRITE
CHIP FERRITE
CHIP FERRITE
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
FILTER
FILTER
FILTER
FILTER
FILTER
SMALL FIXED INDUCTOR 3.3NH
M.CHIP INDUCTOR 33NH
SMALL FIXED INDUCTOR 3.3NH
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
SMALL FIXED INDUCTOR 5.6NH
SMALL FIXED INDUCTOR 2.7NH
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 5.6NH
SMALL FIXED INDUCTOR 5.6NH
SMALL FIXED INDUCTOR 3.9NH
SMALL FIXED INDUCTOR 5.6NH
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 5.6NH
SMALL FIXED INDUCTOR 2.7NH
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 47.0NH
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 47.0NH
CHIP FERRITE BEADS
CHIP INDUCTOR
CHIP INDUCTOR
SMALL FIXED INDUCTOR 67NH
SMALL FIXED INDUCTOR 33NH
SMALL FIXED INDUCTOR 5.3NH
CHIP INDUCTOR
CHIP INDUCTOR
CHIP INDUCTOR
SMALL FIXED INDUCTOR 1.5NH
CHIP FERRITE BEADS
TOROIDAL COIL
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 820NH
SMALL FIXED INDUCTOR 820NH
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
M.CHIP INDUCTOR
FILTER
4.7NH
27NH
38NH
L92-1101-05
CHIP FERRITE
22NH
27NH
LB73H0AV-003
LB73H0AV-003
LB73G0BA-004
LB73G0BA-004
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
L41-3378-55
L34-4650-05
LR79Z0DA8N0G
LR79Z0DA8N0G
LR79Z0DA8N0G
L41-1561-55
LB73H0AV-003
L39-1498-05
LB73G0BD-005
L41-8285-14
L41-8285-14
LK73H0AM15NJ
LK73G0AF8N2J
LK73H0AM10NJ
LK73H0AM10NJ
LK73H0AM12NJ
L79-1927-05
L79-1928-05
L40-3363-71
LK73H0AM8N2J
L41-1578-08
L41-1878-08
LK73H0AM5N6S
LK73H0AM6N8J
LB73G0BA-004
LB73G0BA-004
L79-1927-05
8NH
8NH
8NH
A1
CN2
CN3
CN4
W02-3785-05
E23-1260-14
E23-1260-14
E41-1682-05
J19-5386-05
E40-6720-05
E40-6862-05
EC720AA-0550A
E41-2723-05
E40-6560-05
DC-DC CONVERTER
TERMINAL
TERMINAL
PIN ASSY
HOLDER
CN12
CN731
CN735
CN749
CN900
CN906
CN907
CN910
CP100
CP600
CP701
CP702
CP703
CP704
CP705
CP706
CP707
CP708
CP709
CP710
CP711
CP716
CP717
CP718
CP719
CP720
CP721
CP900
CP901
E2
SOCKET FOR PIN ASSY
FLAT CABLE CONNECTOR
FLAT CABLE CONNECTOR SMD
PIN ASSY
FLAT CABLE CONNECTOR
FLAT CABLE CONNECTOR
PIN ASSY
15NH
8.2NH
10NH
10NH
12NH
E40-6560-05
E40-6582-05
RK74HB1J100J
RK74HB1J100J
RK74HB1J103J
RK74HB1J102J
RK74HB1J100J
RK74HB1J100J
RK74HB1J100J
RK74HB1J101J
RK74HB1J101J
RK74HB1J101J
RK74HB1J101J
RK74HB1J101J
RK74HB1J101J
RK74HB1J101J
RK74HB1J470J
RK74HB1J470J
RK74HB1J470J
RK74HB1J470J
RK74HB1J470J
RK74HB1J100J
RK74HA1J100J
F10-3226-05
F10-3244-15
F10-3224-15
F53-0286-05
FZA10BS-5R0
FZA10BS-5R0
FZA10BQ-3R15
F53-0286-05
E68-0426-05
E1B-0001-00
E58-0521-05
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
NET RESISTOR
SHIELDING CASE
SHIELDING CASE
SHIELDING CASE
FUSE
10 J 1/16W
10 J 1/16W
10K J 1/16W
1.0K J 1/16W
10 J 1/16W
10 J 1/16W
10 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
47 J 1/16W
47 J 1/16W
47 J 1/16W
47 J 1/16W
47 J 1/16W
10 J 1/16W
10 J 1/16W
FILTER
SMALL FIXED INDUCTOR 3.3NH
M.CHIP INDUCTOR 8.2NH
SMALL FIXED INDUCTOR 15NH
SMALL FIXED INDUCTOR 18NH
M.CHIP INDUCTOR
M.CHIP INDUCTOR
CHIP FERRITE BEADS
CHIP FERRITE BEADS
FILTER
5.6NH
6.8NH
L79-1928-05
FILTER
LK73G0AQ100K
LB73H0AV-003
LB73H0AV-003
L41-2788-55
LB73H0AV-003
L41-2785-53
L41-4798-14
L41-1885-53
LB73H0AV-003
LB73H0AV-003
L41-1885-53
LK73G0AQ100K
LK73G0AQ100K
LB73H0AV-003
LB73H0AV-003
LK73G0AQR33K
LB73H0AV-002
LK73G0AQR82K
LK73G0AQ2R2K
L40-6881-86
LB73H0AV-002
L41-1098-14
LK73G0ASR39J
LK73G0AQ100K
LB73G0AK-001
M.CHIP INDUCTOR
CHIP FERRITE BEADS
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 270NH
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 270NH
SMALL FIXED INDUCTOR 4.7UF
SMALL FIXED INDUCTOR 0.18UH
CHIP FERRITE BEADS
10UH
E100
E600
F1
F2
F3
F300
F900
J700
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 0.18UH
2.5A
5.0A
5.0A
3.15A
2.5A
M.CHIP INDUCTOR
M.CHIP INDUCTOR
CHIP FERRITE BEADS
CHIP FERRITE BEADS
M.CHIP INDUCTOR
CHIP FERRITE BEADS
M.CHIP INDUCTOR
M.CHIP INDUCTOR
SMALL FIXED INDUCTOR 0.68U
CHIP FERRITE BEADS
SMALL FIXED INDUCTOR 10UH
SMALL FIXED INDUCTOR 390NH
10UH
10UH
FUSE
FUSE
FUSE
FUSE
330NH
JACK(OTHERS)
3.5D PHONE JACK
SUB SOCKET(D)
NEGATIVE TEMP THERMISTOR
NEGATIVE TEMP THERMISTOR
NEGATIVE TEMP THERMISTOR
NEGATIVE TEMP THERMISTOR
NEGATIVE TEMP THERMISTOR
J900
J901
820NH
2.2UH
TH301
TH302
TH305
TH306
TH700
X700
ERTJ0V104H
ERTJ0V104H
ERTJ0V104H
ERTJ0V104H
ERTJ0V104H
L77-3123-05
M.CHIP INDUCTOR
CHIP FERRITE BEADS
10UH
TCXO
19.2M
X701
L77-1802-05
CRYSTAL RESONATOR 32768HZ
(No.RA032<Rev.001>)3-13
Symbol No.
XF600
Part No.
Part Name
MCF
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
L7B-0001-00
R1
R2
R3
R4
R7
R8
R9
R10
R11
R12
R13
R14
R15
R16
R18
R19
R21
R22
R23
R24
R25
R26
R27
R29
RK73HB1J101J
RK73HB1J103J
RK73HB1J103J
RK73HB1J101J
RK73HB1J101J
RK73HB1J102J
RK73HB1J104J
RK73HB1J104J
RK73HB1J102J
RK73HB1J473J
RK73HB1J473J
RK73HB1J102J
RK73HB1J102J
RK73EB2E100J
RK73HB1J000J
RK73HB1J102J
RK73HB1J000J
RK73HB1J103J
RK73HB1J000J
RK73HB1J000J
RK73HB1J103J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
100 J 1/16W
10K J 1/16W
10K J 1/16W
100 J 1/16W
100 J 1/16W
1.0K J 1/16W
100K J 1/16W
100K J 1/16W
1.0K J 1/16W
47K J 1/16W
47K J 1/16W
1.0K J 1/16W
1.0K J 1/16W
10 J 1/4W
0.0 J 1/16W
1.0K J 1/16W
0.0 J 1/16W
10K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
10K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
MODULE (BT/GPS) UNIT
XC2-0031-80
*Note : This part cannot be replaced. There-
fore, this part is not supplied as a service part.
Block No. [0][2]
Symbol No.
Part No.
Part Name
Description
Local
IC1
IC2
IC3
IC4
IC5
IC6
IC7
74AVC4TD245GU IC
BU18TD2WNVX
------------
NJM2878F4-33
------------
IC
IC
IC
IC
*Note
*Note
74AVC4TD245GU IC
74AVC4TD245GU IC
Q1
EM6M2
FET
L1
L2
L3
L4
L5
L6
L7
L8
LB73H0AV-002
LB73G0AK-001
LB73G0BJ-002
L92-0487-05
L92-0487-05
LK73H0AG27NJ
LK73H0AM10NJ
L92-0487-05
L79-1985-05
L79-1987-05
L92-0487-05
L92-0487-05
L40-2263-71
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE
CHIP FERRITE
M.CHIP INDUCTOR
M.CHIP INDUCTOR
CHIP FERRITE
FILTER
D17
D18
RN262CS
RN262CS
DIODE
DIODE
C1
C2
C3
C4
C5
C6
C7
C8
CK73HB1A474K
CK73HB1A474K
CK73HB1E104K
CK73HB1E104K
CK73HB1A105K
CK73HB1A474K
CK73HB1A474K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
0.47UF K
0.47UF K
0.10UF K
0.10UF K
1.0UF K
0.47UF K
0.47UF K
22PF J
27NH
10NH
L9
L11
L13
L14
L15
FILTER
CHIP FERRITE
CHIP FERRITE
CC73HCH1H220J C CAPACITOR
CC73HCH1H100B C CAPACITOR
SMALL FIXED INDUCTOR 2.2NH
C9
10PF B
C10
C11
C12
C13
C14
C15
C16
C17
C18
C19
C20
C21
C22
C23
C24
C25
C26
C27
C28
C29
C30
C31
C32
C33
C34
C35
C36
C37
C38
C39
C40
C44
C45
C46
C47
C48
C49
C50
C68
CK73HB1A105K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1A105K
CK73HB1E104K
CK73HB1E104K
CC73HCH1H180J C CAPACITOR
CC73HCH1H180J C CAPACITOR
CK73HB1A105K
CK73HB1A105K
CK73HB1E104K
CK73HBB1H102K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1A105K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CC73HCH1H220J C CAPACITOR
CC73HCH1H220J C CAPACITOR
CC73HCH1H2R5B C CAPACITOR
CK73HB1E104K
CC73HCH1H180J C CAPACITOR
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
1.0UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
1.0UF K
0.10UF K
0.10UF K
18PF J
CN1
CN5
CP1
CP2
E1
E40-6879-05
E0E-0012-00
RK74HB1J100J
RK74HB1J100J
F10-3226-05
L77-3123-05
L77-3121-05
FLAT CABLE CONNECTOR
RF COAXIAL CABLE RECEPTACLE
NET RESISTOR
NET RESISTOR
SHIELDING CASE
TCXO
10 J 1/16W
10 J 1/16W
X1
X2
19.2M
CRYSTAL RESONATOR 32.768K
18PF J
C CAPACITOR
C CAPACITOR
C CAPACITOR
1.0UF K
1.0UF K
0.10UF K
1000PF K
0.10UF K
1000PF K
1000PF K
1000PF K
0.10UF K
0.10UF K
0.10UF K
1.0UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
22PF J
22PF J
2.5PF B
0.10UF K
18PF J
0.10UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
47PF J
SUB (DISPLAY) UNIT
XC3-0020-20(NX-5900_K)
Block No. [0][3]
Symbol No.
Part No.
Part Name
Description
Local
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
IC1
IC2
IC3
IC4
IC6
IC8
IC9
IC10
IC12
MM3404A50URE IC
BU30TD2WNVX
TC7WT125FUF
BD11600NUX
BH1721FVC
BD1754HFN
TC7WH126FK
TC35894FG
IC
IC
IC
IC
IC
IC
IC
IC
TC7SZ08FE
C CAPACITOR
Q2
Q3
Q4
Q6
SSM6N37FE
FET
LTC014EEBFS8
LTC014EEBFS8
LTC014EEBFS8
DIGI TRANSISTOR
DIGI TRANSISTOR
DIGI TRANSISTOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
D1
D2
D4
D5
SPC10501A01
SPC10501A01
B30-2365-05
B30-2365-05
VARISTOR
VARISTOR
LED
WHITE
WHITE
CC73HCH1H470J C CAPACITOR
CC73HCH1H010B C CAPACITOR
LED
1.0PF B
3-14(No.RA032<Rev.001>)
Symbol No.
Part No.
Part Name
Description
Local
Symbol No.
Part No.
Part Name
Description
Local
D6
D7
D9
B30-2365-05
B30-2365-05
B30-2365-05
B30-2365-05
B30-2365-05
B30-2365-05
B30-2365-05
B30-2365-05
B30-2365-05
DZ2J062(M)
B30-2364-05
RB521CM-30
SPC10501A01
SPC10501A01
MINISMDC020F
SPC10501A01
SPC10501A01
DZ2S068M
LED
LED
LED
LED
LED
LED
LED
LED
WHITE
WHITE
WHITE
WHITE
WHITE
WHITE
WHITE
WHITE
WHITE
R12
R17
R18
R19
R20
R21
R22
R23
R24
R25
R26
R27
R28
R29
R30
R31
R32
R33
R34
R38
R39
R40
R41
R42
R43
R46
R47
R48
R49
R50
R51
R52
R53
R54
R55
R60
R61
R62
R63
R64
R65
R66
R69
R71
R77
R78
R79
R81
R82
R83
R86
R87
R88
R98
R99
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J101J
RK73HB1J331J
RK73HB1J331J
RK73HB1J331J
RK73HB1J331J
RK73HB1J101J
RK73HB1J222J
RK73HB1J331J
RK73HB1J331J
RK73HB1J331J
RK73HB1J331J
RK73HB1J101J
RK73HB1J331J
RK73HB1J331J
RK73HB1J331J
RK73HB1J101J
RK73HB1J101J
RK73HB1J101J
RK73HB1J101J
RK73HB1J102J
RK73HB1J102J
RK73HB1J681J
RK73HB1J103J
RK73GB2A151J
RK73HB1J222J
RK73HB1J222J
RK73HB1J222J
RK73HB1J102J
RK73HB1J103J
RK73HB1J473J
RK73HB1J473J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J101J
RK73HH1J274D
RK73GB2A000J
RK73HB1J222J
RK73HB1J222J
RK73HB1J222J
RK73HB1J103J
RK73HB1J222J
RK73HB1J000J
RK73GB2A000J
RK73HB1J222J
RK73HB1J102J
RK73HB1J222J
RK73HB1J222J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
100 J 1/16W
330 J 1/16W
330 J 1/16W
330 J 1/16W
330 J 1/16W
100 J 1/16W
2.2K J 1/16W
330 J 1/16W
330 J 1/16W
330 J 1/16W
330 J 1/16W
100 J 1/16W
330 J 1/16W
330 J 1/16W
330 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
100 J 1/16W
1.0K J 1/16W
1.0K J 1/16W
680 J 1/16W
10K J 1/16W
150 J 1/10W
2.2K J 1/16W
2.2K J 1/16W
2.2K J 1/16W
1.0K J 1/16W
10K J 1/16W
47K J 1/16W
47K J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
100 J 1/16W
270K D 1/16W
0.0 J 1/10W
2.2K J 1/16W
2.2K J 1/16W
2.2K J 1/16W
10K J 1/16W
2.2K J 1/16W
0.0 J 1/16W
0.0 J 1/10W
2.2K J 1/16W
1.0K J 1/16W
2.2K J 1/16W
2.2K J 1/16W
D10
D11
D12
D14
D15
D16
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
D30
D31
D32
LED
ZENER DIODE
LED
RGB
DIODE
VARISTOR
VARISTOR
VARISTOR
VARISTOR
VARISTOR
ZENER DIODE
ZENER DIODE
ZENER DIODE
ZENER DIODE
ZENER DIODE
DZ2S068M
DZ2S068M
EMZ6.8N
DZ2S068M
C2
C5
C8
C9
CC73GCH1H101J C CAPACITOR
CK73GXR1H104K C CAPACITOR
C93-1810-05
100PF J
0.1UF K
4.7UF K
100PF J
0.1UF K
100PF J
0.1UF K
100PF J
0.1UF K
100PF J
100PF J
47PF J
C CAPACITOR
CC73GCH1H101J C CAPACITOR
CK73GXR1H104K C CAPACITOR
CC73GCH1H101J C CAPACITOR
CK73GXR1H104K C CAPACITOR
CC73GCH1H101J C CAPACITOR
CK73GXR1H104K C CAPACITOR
CC73GCH1H101J C CAPACITOR
CC73GCH1H101J C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73GCH1H470J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73GBB1H102K C CAPACITOR
CK73GBB1H102K C CAPACITOR
CK73GBB1H102K C CAPACITOR
CK73GBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73GB1E105K
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73GB1E105K
CK73GB1E105K
CK73GB1E105K
CK73HB1E104K
CK73GB1E105K
CK73HB1E104K
C11
C16
C18
C22
C24
C29
C32
C42
C43
C44
C45
C46
C48
C50
C52
C53
C54
C55
C56
C57
C58
C59
C62
C63
C64
C65
C66
C67
C68
C69
C70
C71
C73
C74
C75
C76
C79
C83
C84
C87
C90
C101
47PF J
100PF J
1000PF K
1000PF K
1000PF K
1000PF K
100PF J
100PF J
1.0UF K
100PF J
100PF J
1.0UF K
1.0UF K
1.0UF K
0.10UF K
1.0UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
0.10UF K
1000PF K
0.1UF K
0.10UF K
1.0UF K
0.10UF K
1000PF K
1000PF K
0.10UF K
0.10UF K
100PF J
1000PF K
1000PF K
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
CK73HBB1E103K C CAPACITOR
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73HB1E104K
CK73GBB1H102K C CAPACITOR
CK73GXR1H104K C CAPACITOR
CK73HB1E104K
CK73GB1E105K
CK73HB1E104K
CK73GBB1H102K C CAPACITOR
CK73GBB1H102K C CAPACITOR
CK73HB1E104K
CK73HB1E104K
CC73HCH1H101J C CAPACITOR
CK73GBB1H102K C CAPACITOR
CK73GBB1H102K C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
C CAPACITOR
L1
L2
L3
L4
LB73G0AM-004
LB73G0AM-004
LB73H0AV-003
LB73H0AV-003
LB73G0AM-004
LB73H0AV-003
LB73H0AV-003
LB73G0AM-004
LB73H0AV-003
LB73H0AV-003
LB73H0AV-003
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
CHIP FERRITE BEADS
C CAPACITOR
C CAPACITOR
C CAPACITOR
L5
L11
L14
L15
L16
L17
L18
C CAPACITOR
C CAPACITOR
CN2
CN4
CN5
CN6
J1
S1
S2
S3
S4
E41-2673-05
E40-6965-05
E41-2671-05
E40-6913-05
E58-0535-05
S70-0901-05
S70-0901-05
S70-0901-05
S70-0901-05
S70-0901-05
PIN ASSY
FLAT CABLE CONNECTOR
PIN ASSY
FLAT CABLE CONNECTOR
MODULAR JACK
TACT SWITCH
TACT SWITCH
TACT SWITCH
TACT SWITCH
TACT SWITCH
R3
R4
R5
R6
R7
R9
R10
R11
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
RK73HB1J000J
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
MG RESISTOR
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
0.0 J 1/16W
S5
(No.RA032<Rev.001>)3-15
Symbol No.
Part No.
Part Name
Description
Local
S6
S7
S8
S9
S10
S11
S12
S70-0901-05
S70-0901-05
S70-0901-05
S70-0901-05
S70-0901-05
S70-0901-05
S70-0901-05
TACT SWITCH
TACT SWITCH
TACT SWITCH
TACT SWITCH
TACT SWITCH
TACT SWITCH
TACT SWITCH
3-16(No.RA032<Rev.001>)
Packing materials and accessories parts list (NX-5900_K)
Block No.M2MM
3
2
1
18
6
9
5
15
11
16
17
7
8
14
Packing and accessories
Block No. [M][2][M][M]
Symbol No.
Part No.
Part Name
Description
15A(x2)
Local
1
2
3
5
6
7
8
9
11
14
15
16
17
18
B5A-0868-00
------------
------------
INSTRUCTION MANUAL
PAMPHLET
PAMPHLET
DC CORD ASSY
FUSE(BLADE TYPE)
INNER CARTON CASE
PACKING FIXTURE(LOWER)
PACKING FIXTURE(UPPER)
PROTECTION BAG
ITEM CARTON
E30-7523-65
F52-0024-05
H0C-0007-00
H1C-0077-00
H1C-0078-00
------------
H5A-0618-00
J19-1584-15
------------
HOLDER(MIC)
BRACKET
SCREW SET
MICROPHONE
N99-2039-05
T91-0639-65
(No.RA032<Rev.001>)3-17
Packing materials and accessories parts list (NX-5900B_F,NX-5900B_K)
Block No.M3MM
3
2
1
9
12
10
8
13
Packing and accessories
Block No. [M][3][M][M]
Symbol No.
Part No.
Part Name
Description
Local
1
2
B5A-0868-00
------------
INSTRUCTION MANUAL
PAMPHLET
3
------------
PAMPHLET
8
9
10
12
13
H1C-0077-00
H1C-0078-00
H1C-0027-00
------------
PACKING FIXTURE(LOWER)
PACKING FIXTURE(UPPER)
PACKING FIXTURE(SPACER)
ANTI-STATIC BAG
H5A-0617-00
ITEM CARTON
3-18(No.RA032<Rev.001>)
MEMO
JVC KENWOOD Corporation
Communications Systems Business Unit
(No.RA032<Rev.001>)
Printed in Japan
VSE
|