KENWOOD | USB DRIVER DOWNLOAD PAGEUser Manual for KENWOOD models including: Digital Transceiver 800 900MHz, NX-3400
SPECIFIC SERVICE INSTRUCTIONS 2.1 SYSTEM SET-UP Merchandise received Choose the type of transceiver Transceiver programming Are you using the speaker microphone? A personal computer, programming interface (KPG-36U/36X), and FPU (programming software) are required for programming. (The frequency, and signaling data are programmed for the ...
Index of /Kenwood/nx/NX-3400
SERVICE MANUAL
800/900MHz DIGITAL TRANSCEIVER
R23SB05EA1BR09-7V70I3C<1RE1e-M0v0.A0N01U>AL
NX-3400
COPYRIGHT © 2019 JVC KENWOOD Corporation
TABLE OF CONTENTS
1 PRECAUTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 2 SPECIFIC SERVICE INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 3 DISASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-24 4 ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-29 5 TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-57
This product complies with the RoHS directive for the European market.
B5B-7311-00
COPYRIGHT © 2019 JVC KENWOOD Corporation
This product uses Lead Free solder.
No.RA070<Rev.001> 2019/3
Document Copyrights
Copyright 2019 by JVC KENWOOD Corporation. All rights reserved. No part of this manual may be reproduced, translated, distributed, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, for any purpose without the prior written permission of JVC KENWOOD Corporation.
Disclaimer
While every precaution has been taken in the preparation of this manual, JVC KENWOOD Corporation assumes no responsibility for errors or omissions. Neither is any liability assumed for damages resulting from the use of the information contained herein. JVC KENWOOD Corporation reserves the right to make changes to any products herein at any time for improvement purposes.
Firmware Copyrights
The title to and ownership of copyrights for firmware embedded in KENWOOD product memories are reserved for JVC KENWOOD Corporation. Any modifying, reverse engineering, copy, reproducing or disclosing on an Internet website of the firmware is strictly prohibited without prior written consent of JVC KENWOOD Corporation. Furthermore, any reselling, assigning or transferring of the firmware is also strictly prohibited without embedding the firmware in KENWOOD product memories. Transceivers containing AMBE+2TM Vocoder: The AMBE+2TM voice coding technology is embedded in the firmware under the license of Digital Voice Systems, Inc.
Bluetooth Copyrights
The Bluetooth word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. and any use of such marks by JVC KENWOOD Corporation is under license. Other trademarks and trade names are those of their respective owners.
1-2 (No.RA070<Rev.001>)
SPECIFICATION
GENERAL
Frequency Range
RX: 851~870 MHz, 935~941 MHz TX: 806~825 MHz, 851~870 MHz, 896~902 MHz, 935~941 MHz
Max. Channels per Radio
Up to 1000 channels with option
Number of Channels
512
Number of Zones
128
Channel Spacing
Analog
12.5 / 25 kHz (25 kHz in 900MHz band is not included.)
Digital
6.25 / 12.5 kHz
Power Supply
7.5V DC ± 20%
Battery Life (FDMA Conventional / Trunking, TDMA Conventional / Trunking) 5-5-90 duty cycle
With KNB-55L (1,480 mAh) With KNB-56N (1,400 mAh) With KNB-57L (2,000 mAh)
Approx. 9 / 7 hours, Approx. 12 / 9 hours Approx. 8 / 6 hours, Approx. 10.5 / 8 hours Approx. 13 / 10 hours, Approx. 17 / 13 hours
With KNB-78L (2,860 mAh)
Approx. 18.5 / 14 hours, Approx. 24 / 18.5 hours
Operating Temperature
-22F to +140F (-30C to +60C)
Frequency Stability
±0.5 ppm (-30C to +60C; +25C Ref.)
Antenna Impedance
50ohm
Dimensions (W x H x D) (Projections not included)
Radio only With KNB-55L
2.20 x 4.71 x 1.43 in (56 x 119.6 x 36.4 mm) 2.20 x 4.71 x 1.43 in (56 x 119.6 x 36.4 mm)
With KNB-56N
2.20 x 4.71 x 1.68 in (56 x 119.6 x 42.7 mm)
With KNB-57L
2.20 x 4.71 x 1.53 in (56 x 119.6 x 39 mm)
With KNB-78L
2.20 x 4.71 x 1.77 in (56 x 119.6 x 44.9 mm)
Weight (net)
Radio only
7.8 oz (220 g)
With KNB-55L
11.1 oz (315 g)
With KNB-56N
14.5 oz (410 g)
With KNB-57L
12.0 oz (340 g)
With KNB-78L
13.6 oz (385 g)
RECEIVER
Sensitivity
NXDN 6.25 kHz Digital (3% BER) 0.20V
NXDN 12.5 kHz Digital (3% BER) 0.25V
DMR 12.5 kHz Digital (5% BER) 0.30V
DMR 12.5 kHz Digital (1% BER) 0.45V
Analog (12dB SINAD)
0.25V
Selectivity
Analog@12.5 kHz
60dB
Analog@25 kHz
70dB
Intermodulation
70dB
Spurious Rejection
70dB
Audio Distortion
3%
Audio Output (Internal Speaker)
3% Distortion
500mW / 8ohm
5% Distortion
1000mW / 8ohm
TRANSMITTER
RF Power Output
3 W / 1 W
Spurious Emission
-70dB
FM Hum & Noise
Analog @ 25 kHz
45dB
Analog @ 12.5 kHz
40dB
Audio Distortion
3%
Emission Designator
16K0F3E*1, 14K0F3E*1, 11K0F3E, 8K30F1E, 8K30F1D, 8K30F7W, 4K00F1E, 4K00F1D, 4K00F7W, 7K60FXE, 7K60FXD, 4K00F2D
All specifications shown are typical. *1 800MHz band only Analog measurements made per TIA603. Specifications are measured according to applicable standards. Battery Life is measured by Battery Save ON, GPS/Bluetooth OFF, 3 W for 800/900MHz Bands. JVC KENWOOD Corporation reserves the right to change specifications without prior notice or obligation.
(No.RA070<Rev.001>)1-3
SECTION 1 PRECAUTION
This service manual does not describe PRECAUTION.
2.1 SYSTEM SET-UP
SECTION 2 SPECIFIC SERVICE INSTRUCTIONS
Merchandise received
Choose the type of transceiver
Transceiver programming Are you using the optional antenna?
NO
Type NX-3400 K3
Frequency range (MHz)
TX 806~825 851~870 896~902 935~941
RX 851~870 935~941
RF power 3W
DTMF keypad Yes
A personal computer, programming interface (KPG-36U/36X), and FPU (programming software) are required for programming. (The frequency, and signaling data are programmed for the transceiver.)
YES
KRA-32, KRA-36 or KRA-38 Optional antenna
(Option)
Are you using the speaker microphone? NO
YES
KMC-25/KMC-25S/KMC-41/ KMC-41D/KMC-42W/
KMC-42WD/KMC-51D/KMC-52/ KMC-52D/KMC-54WD Speaker microphone
(Option)
Delivery
1-4 (No.RA070<Rev.001>)
2.2 REALIGNMENT 2.2.1 Modes
User mode
Panel test mode
Panel tuning mode
PC mode
Data programming mode
PC test mode PC tuning mode Firmware programming mode Clone mode
Front panel programming mode*1
Transceiver information mode
*1:In order to use the Front panel programming mode, it is necessary to purchase the "Front panel program" feature option.
Mode
Function
User mode
For normal use.
Panel test mode Used by the dealer to check the fundamental characteristics.
Panel tuning mode Used by the dealer to tune the transceiver.
PC mode
Used for communication between the transceiver and PC.
Data programming Used to read and write frequency data and
mode
other features to and from the transceiver.
PC test mode
Used to check the transceiver using the PC. This feature is included in the FPU.
Firmware programming mode
Used when changing the main program of the flash memory.
Clone mode
Used to transfer programming data from one transceiver to another.
Front panel programming mode
Frequency, signaling and features write to the transceiver.
Transceiver
Used to confirm the transceiver firmware
information mode version, Encryption Library version.
2.2.2 How to Enter Each Mode
Mode
Operation
User mode
Power ON
Panel test mode*2
· [ ] + Power ON
· [ ] + Power ON Select the "Panel Test" using the [] / [] button. Press the [ ] button.
PC mode
Received commands from PC
Panel tuning mode [Panel test mode] + [ ]
Firmware programming · [AUX (Orange)] + Power ON
mode*2
· [ ] + Power ON
Select the "Firmware Prog" using the
[] / [] button.
Press the [ ] button.
· If Write is performed by KFL, Firmware programming mode will start automatically.
Clone mode*2
· [ ] + Power ON
· [ ] + Power ON Select the "Clone" using the [] / [] button. Press the [ ] button.
Front panel
· Press the PF button to which Front
programming mode*2 panel programming mode is set
during the user mode.
· Press the [ ] button and enter the Menu mode.
Select the any icon assigned the Front panel programming mode using the [] / [] button. Press [ ] button. Select the "Panel Program" using the [] / [] button. Press the [ ] button.
Transceiver information mode*2
· [Side 1] + Power ON
· [ ] + Power ON Select the "Transceiver Info" using the [] / [] button. Press the [ ] button.
*2: There is the two or three as how to enter.
2.2.3 Panel Test Mode Setting method refer to ADJUSTMENT.
2.2.4 Panel Tuning Mode Setting method refer to ADJUSTMENT.
(No.RA070<Rev.001>)1-5
2.2.5 PC Mode 2.2.5.1 Preface The transceiver is programmed by using a personal computer (PC), a USB programming cable (KPG-36U/36X) and a Programming software (FPU). The programming software can be used with a PC. Figure 1 shows the setup of a PC for programming.
PC
KPG-36U or KPG-36X
FPU
Fig.1
2.2.5.2 Connection procedure (1) Connects the transceiver to the PC using the KPG-36U/ 36X. Note: You must install the KPG-36U/36X USB driver in the PC to use the KPG-36U/36X. (2) When the POWER switch on, user mode can be entered immediately. When PC sends command the transceiver enter Data programming mode (PC mode), and "PROGRAM" is displayed on the LCD. When data transmitting from the transceiver, the red LED lights. When data receiving to the transceiver, the green LED light. Note: The data stored in the PC must match the "Model Name" when it is written into the flash memory.
2.2.5.3 KPG-36U/KPG-36X description (USB programming interface cable: Option)
The KPG-36U/36X is a cable which connects to a USB port on a PC. When using the KPG-36U/36X, install the supplied CD (with driver software) in the PC. The KPG-36U/36X driver runs under Windows 7, 8.1, 10. The latest version of the USB driver is available for download from the following URL: https://www.kenwood.com/usb-com/ (This URL may change without notice.)
2.2.5.4 Programming software KPG-D3/D3N (Ver. 2.00 or later) description
The FPU is the programming software for the transceiver supplied on a CD. This software runs under Windows 7, 8.1, 10. The data can be input to or read from the transceiver and edited on the screen.
2.2.6 Firmware Programming Mode
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 Customer Service.)
2.2.6.2 Connection procedure Connect the transceiver to the PC using the programming interface (KPG-36U/36X). (Connection is same as in the PC mode.)
2.2.6.3 Programming (1) Start up the firmware programming software (KENWOOD Firmware Loader). The KFL.exe exists in the KPG-D3/D3N installed folder. (2) Set the baud rate to "auto" or 1152000, 576000, 115200, and 57600. (3) Set the firmware to be upgrade by file name item. (4) Check the connection between the transceiver and the PC. (5) Press "Write" button in the window. When the transceiver starts to receive data, the "LOADING" is displayed on LCD, and the Green LED lights. (6) If writing ends successfully, the checksum is calculated and a result is displayed on the LCD. Also the Red LED lights. (7) If you want to continue programming other transceivers, repeat step (5) to (6).
Note: If write is performed by KFL, Firmware programming mode will start automatically even if Firmware programming is set to disable in the programming software.
2.2.6.4 Function If you press the [ ] button while "FIRMWARE PROG" is displayed, the checksum is calculated, and a result is displayed. If you press the [ ] button again while checksum of the Encryption Library is displayed. If you press the [ ] button again while checksum of the Encryption Library is displayed, "FIRMWARE PROG" is redisplayed.
1-6 (No.RA070<Rev.001>)
2.2.7 Clone Mode Programming data can be transferred from one transceiver to another by connecting them via their external universal connectors. The operation is as follows.
The following data cannot be cloned. · Tuning data · Transceiver Embedded Message · ESN (Electronic Serial Number) data
Button guide on the Clone/ Front Panel Programming Password input screen.
· Confirm ([ ] button): The password confirmation · Delete ([ ] button): Delete the latest digit from the current
password number (Press and hold to delete all password numbers) · Select([ ] button): Determine the latest digit of the password number. (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 transceiver, "Input Password" is displayed on the LCD. If the password is not set, the transceiver displays "CLONE 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 password. (3) There are two methods to enter the password as follows. - How to enter the password using the keypad;
If one of the buttons 0 to 9 is pressed while the "Input Password" is displayed, the password number is displayed on the LCD. Each press of the button shifts the display in order to the left. When you enter the password and press [ ] or [*] button, "CLONE MODE" displayed if the entered password is correct. If password is incorrect, "Input Password" is redisplayed.
- How to enter password using the [] and [] buttons; If the [] / [] button is pressed while "Input Password" is displayed, the Clone/ Front Panel Programming Password input screen is displayed. If the [] or [] button 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 [ ] button, currently selected number is determined. If you press the [ ] button after entering password in this procedure, "CLONE MODE" is displayed if entered password is correct. If the password is incorrect, "Input Password" is redisplayed.
(4) Power ON the target transceiver. (5) Connecting the cloning cable (part No.E30-3325-05) to the
universal connectors on the source and target. (6) Press [ ] button on the source while the source displays
"CLONE MODE". The data of the source is sent to the target. 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 operates in the User mode. The target can then be operated by the same program as the source.
(7) The other target can be continuously cloned. When the [ ] button on the source is pressed while the source displays "END", the source displays "CLONE MODE". Carry out the operation in step (4) to (6).
Note: · Cannot be cloned if the Password (Write) is programmed to the target. · "Model name" must be same to clone the transceiver. Cloning cable (E30-3325-05)
Fig.2
2.2.8 Front Panel Programming Mode If the Front Panel Programming Mode is used, the frequency or other data of the conventional channel is rewritable only by the transceiver. Moreover, the conventional channel can be added. The following setup items can be changed or added by using the Front panel programming mode.
· RX/TX Frequency · Channel Type · Transmit Mode (Mixed mode only) · Channel Spacing · Decode QT/DQT/RAN, Encode QT/DQT/RAN · Color Code · Slot Selection · Transmit Power · Channel Name Button guide on the Clone/ Front Panel Programming Password input screen. · Confirm ([ ] button): The password confirmation · Delete ([ ] button): Delete the latest digit from the current
password number (Press and hold to delete all password numbers) · Select ([ ] button): Determine the latest digit of the password number.
2.2.8.1 How to enter the Front panel programming mode Press the PF button which is assigned as "Panel Program" by the FPU, or select the "Panel Program" which is assigned into the Menu button by the FPU. If the Clone/Front panel programming Password is not set to the transceiver, "Panel Program" is displayed on the LCD. 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.
(No.RA070<Rev.001>)1-7
2.2.8.2 Data Writing Before moving to next Zone/Channel, "Keep This Change?" appears 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.
No. Setup item
Display
Remarks
1 RX Frequency RX Frequency Receive Frequency
2 TX Frequency TX Frequency Transmit Frequency
3 Channel Type Channel Type Analog/NXDN/DMR
4 Transmit Mode*3 Transmit Mode Analog/NXDN/DMR
5 Channel Spacing
Channel Space Analog: 12.5kHz/20kHz/25kHz*4
NXDN: 6.25kHz/12.5kHz
6 RX Signaling
RX QT/DQT
DMR: 12.5kHz Receive QT/DQT
No. Setup item
Display
7 TX Signaling TX QT/DQT
Remarks Transmit QT/DQT
8 RX RAN 9 TX RAN 10 Color Code
RX RAN TX RAN Color Code
None, 1~63 None, 1~63 0 ~15
11 Slot Selection Slot Selection Slot 1, Slot 2, Auto
12 Transmit Power Transmit Power
Low/Medium/High
13 Channel Name Channel Name
*3: In "Channel Type" display, "Transmit Mode" can be entered only when Mixed mode is selected.
*4: When the transmission/reception frequency is set more than 900 MHz or more, the Channel Spacing is fixed to 12.5 kHz.
Button operation (1/3)
Button\ Item
Zone Select
Channel Select
RX Frequency
TX Frequency
Channel Type Transmit Mode *5
Channel Spacing
[ ]
Decision
Decision
Decision
Decision
Decision
Decision
Decision
[ ] Unused
Back to the Back to the Back to the Back to the previous item previous item previous item previous item
Back to the previous item
Back to the previous item
[ ] Unused
Unused
Unused
TX Frequency Unused OFF
Unused
Unused
[ ]
Exit panel Exit panel Exit panel
Exit panel Exit panel program Exit panel program Exit panel
program mode program mode program mode program mode mode
mode
program mode
[]
Zone change Channel
Frequency up Frequency up Channel type
Transmit Mode Channel Spacing
change
change
Change
Change
[]
Zone change Channel
Frequency Frequency Channel type
Transmit Mode Channel Spacing
change
down
down
change
Change
Change
[]
Unused
Unused
Frequency Frequency Unused step change step change
Unused
Unused
[]
Unused
Unused
Frequency Frequency Unused step change step change
Unused
Unused
Keypad Zone number Channel
Entry a Frequency directly
[0] ~ [9] select
number select
Channel Type select ([1], [2] or [3]) *6
Transmit Mode select ([1] or [2]) *7
Channel spacing select ([1], [2] or [3]) *8
Keypad Decision [*]
Decision
Decision
Decision
Decision
Decision
Decision
Keypad Unused [#]
Back to the Back to the Back to the Back to the previous item previous item previous item previous item
Back to the previous item
Back to the previous item
*5: Mixed Mode only *6: [1] = "Analog", [2] = "NXDN" for System type or "DMR" for System type DMR, [3] = "Mixed" *7: [1] = "Analog", [2] = "NXDN" for System type NXDN or "DMR" for System type DMR *8: [1] = "12.5kHz", [2] = "25kHz" for System type Analog or "6.25kHz" for System type NXDN, [3] = "20kHz" for System type Analog
1-8 (No.RA070<Rev.001>)
Button operation (2/3)
Button\ RX Signaling TX Signaling Item
RX RAN
TX RAN
Color Code Slot Selection
Transmit Power
[ ]
Decision
Decision
Decision
Decision
Decision
Decision
Decision
[ ]
Back to the previous item
Back to the previous item
Back to the previous item
Back to the previous item
Back to the previous item
Back to the
Back to the
previous item previous item
[ ]
Unused
Unused
Unused
Unused
Unused
Unused
Unused
[ ]
Exit panel
Exit panel
Exit panel
Exit panel
Exit panel
Exit panel
Exit panel
program mode program mode program mode program mode program mode program mode program mode
[]
Signaling
Signaling
RX RAN up TX RAN up Color Code up Slot up
number change number change
Transmit power change
[]
Signaling
Signaling
RX RAN down TX RAN down Color Code Slot down
Transmit power
number change number change
down
change
[]
Signaling type Signaling type RX RAN ON/ TX RAN ON/ Unused
change
change
OFF
OFF
Unused
Unused
[]
Signaling type Signaling type RX RAN ON/ TX RAN ON/ Unused
change
change
OFF
OFF
Unused
Unused
Keypad Entry a frequency or a code directly [0] ~ [9]
Slot Selection Transmit power
select
select
([1], [2] or [3]) *9 ([1] or [2]) *10
Keypad Decision [*]
Decision
Decision
Decision
Decision
Decision
Decision
Keypad Back to the Back to the Back to the Back to the Back to the Back to the
Back to the
[#]
previous item previous item previous item previous item previous item previous item previous item
*9: [1] = "Slot 1", [2] = "Slot 2", [3] = "Auto" *10: [1] = "Low", [2] = "High"
Button operation (3/3)
Button\Item
Channel Name
[ ]
Decision and exit the "Manual Entry mode"
[ ]
Back to the previous item
[ ]
Change the character type (Capital font Small font Numerical value)
[ ]
Delete
[]
Character selection ("A", "a" or "0" to "Z", "z" or "9" )
[]
Character selection ("Z", "z" or " 9" to "A", "a" or "0")
[]
Move a cursor to the right
[]
Move a cursor to the left
Keypad [0] ~ [9] Character selection (Follow to the "Keypad Charactor Entry" in the FPU setting)
Keypad [*]
Change the character type (Capital font Small font Numerical value)
Keypad [#]
Delete
(No.RA070<Rev.001>)1-9
Front panel programming mode flow chart
Enter the Front panel programming mode by using section "2.2.2 How to Enter Each Mode".
[ ] or [ ]
Keep This Change? [ ]
Channel Name [ ]
Transmit Power
[ ] or [ ]
Low
High
Input Password Clone/Front Panel Password [ ]
Front panel Programming mode
[ ]
Zone Select
[ ]
Channel Select
[ ]
Blank Channel
Select the setting channel.
[ ]
"System Type = Conventional"
[No]
there is more than two.
[ ] or [ ]
System Select [ ]
RX Frequency [ ]
TX Frequency [ ]
Analog
DMR or NXDN
OFF [ ]
[System Type]: "DMR" or "NXDN" and [Channel Type]: "Mixed"
[ ] or [ ]
Mixed
[ ] or [ ]
[System Type]: "DMR" DMR
Channel Type [ ]
Analog [ ] or [ ] [ ] or [ ]
[System Type]: "NXDN" NXDN
[System Type]: "DMR" DMR
Transmit Mode select
Analog [ ] or [ ]
[System Type]: "NXDN" NXDN
[Channel Type]: "DMR" [Channel Type]: "NXDN"
[ ] [TX Frequency]: "OFF" [Channel Type]: "Analog"
[ ] [Channel Type]: "Analog"
"Mixed"(DMR)
[ ] [TX Frequency]: "OFF" [Channel Type]: "NXDN"
[ ] [Channel Type]: "NXDN"
[ ] [TX Frequency]: "OFF" [Channel Type]: "DMR" [ ]
1-10 (No.RA070<Rev.001>)
Channel Spacing *11 [ ]
RX Signaling [ ]
[ ] or [ ] [ ] or [ ]
25.0kHz
20.0kHz
12.5kHz
When the KPG-D3N is used, 25.0kHz may not be allowed depends on the frequency.
[ ] or [ ] [ ] or [ ] [ ] or [ ]
OFF
QT
DQT N
DQT I
TX Signaling [ ] "Mixed"(NXDN)
Channel Spacing [ ]
RX RAN [ ]
[ ] or [ ] [ ] or [ ] [ ] or [ ]
OFF
QT
DQT N
DQT I
[ ] or [ ]
12.5kHz
6.25kHz
TX RAN
Color Code [ ]
Slot Selection
*11: When the transmission/reception frequency is set more than 900MHz or more, the Channel Spacing is fixed to 12.5kHz.
2.2.9 Transceiver Information Mode Use this function to confirm the transceiver firmware version, Encryption Library 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 [] buttons to select the confirmation items.
Transceiver [ ]/[ ] Encryption Library
firmware version
Version
[ ]/[ ]
(4) To exit the transceiver information mode, turn the transceiver power OFF. Note: The Encryption Library Version will be displayed even if the Radio Feature License (KWD-3004AE) is inactive.
2.3 CIRCUIT DESCRIPTION 2.3.1 Overview The NX-3400 is 800/900MHz Dual Band Analog FM & Digital Portable transceiver designed to operate in the frequency range of 806 to 870MHz and 896 to 941MHz. The unit consists of a transceiver IC, a transmitter, a digital control unit, and a power supply circuit.
2.3.2 Frequency Configuration The receiver uses the direct conversion system. Incoming signals from the antenna are mixed with the local signal from the PLL circuit and converted to the baseband signal. The transmit signal frequency is generated by the VCO/PLL, and modulated by the signal from the MPU/DSP (IC401). It is then amplified and fed to the antenna.
ANT
SP
ANT SW
VCO
TRANSCEIVER IC
BASEBAND CIRCUIT
CODEC
MIC
FINAL AMP
DRIVE AMP
TCXO 19.2MHz
Fig.1 Frequency configuration
(No.RA070<Rev.001>)1-11
2.3.3 Receiver System
2.3.3.1 RF Circuit The receive signal from ANT SW (D201, D202, D203 and D207) passes through the high-pass filter (L302, L307, L308, L312, L314 and L315) to remove unwanted signals and amplified by a RF amplifier (incorporated in Transceiver IC (IC303)). The signal is then fed to the mixer (incorporated in Transceiver IC (IC303)) and converted to the baseband signal.
2.3.3.2 Baseband Circuit The baseband signal is then be fed into an ADC (incorporated in Transceiver IC (IC303)), generates the I and Q data. This data is in the form of Serial Interface, and sent to the MPU/DSP (IC401).
ANT
D201 D202 D203 D207
L302 L307 L308
L312, L314, L315
ANT LPF
ANT SW
HPF
IC303 RFAMP
HPF
MIXER
ADC
Serial I/F
IC401 MPU/DSP
PLL
VCO
Fig.2 RF and Baseband circuit
2.3.3.3 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. I2S signal from DSP is converted to audio signal at CODEC (IC601). The signal goes to internal speaker or universal connector for external speaker through the internal Class D amplifier. Audio path inside the Codec is controlled by I2C.
Serial I/F
DSP
Class D
I2S
DA
LC
Filter
Class D I2C
LC Filter
Transceiver IC
MPU/DSP
CODEC
IC303
IC401
IC601
Fig.3 Audio amplifier circuit
Internal Speaker External Speaker
1-12 (No.RA070<Rev.001>)
2.3.4 Transmitter System
2.3.4.1 Audio Band Circuit The signal from microphone is amplified and converted to digital signal by IC601, IC601 includes AGC function. Digital signal is transferred to MPU/DSP (IC401).
2.3.4.2 Baseband Circuit The audio signal transferred from CODEC (IC601) is processed at MPU/DSP (IC401). 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 in Transceiver IC (IC303). The DTMF and MSK baseband signals are also generated by MPU/DSP (IC401). In Digital mode, the audio signal is converted to the 4-Level FSK baseband signal and is transferred to PLL Frequency Synthesizer block in Transceiver IC (IC303).
Serial I/F
DSP
I2S
AD
Internal MIC
I2C
External MIC
Transceiver IC
IC303
MPU/DSP
CODEC
IC401
IC601
Fig.4 Audio and Baseband circuit
2.3.4.3 Drive and Final Amplifier The signal from the Transceiver IC (IC303) is amplified by pre-drive amplifier (IC202). The output of the pre-drive amplifier is amplified by the drive amplifier (Q201) and final amplifier (Q202) to 3W (1W when the power is low). IC202 is MMIC. Q201 and Q202 are MOS FET. The output of the final amplifier is then passed through the harmonic filter (LPF) and antenna switch (D201 and D207, D202 and D203) and applied to the antenna terminal.
2.3.4.4 APC Circuit The APC circuit always monitors the current flowing through the drive amplifier (Q201) and final amplifier (Q202). And APC keeps current constant. The voltage drop at R248 and R250 is caused by the current flowing through the RF power amplifier and this voltage is applied to APC circuit. Output voltage from APC controls the VGG of Q201 and Q202 to keep the current constant. The change of power high/low is carried out by the change of the reference voltage.
IC202
TX
Pre-Drive
Q201 Drive
Q202 Final
D201, D202, D203, D207
ANT SW
R248 R250
APC IC203
+B Fig.5 Drive and Final amplifier and APC circuit
APC reference voltage
2.3.5 PLL Frequency Synthesizer
2.3.5.1 TCXO (X401) TCXO (X401) generates a reference frequency of 19.2MHz for the PLL frequency synthesizer. This reference signal is buffered by Q401. And it is distributed to PLL (incorporated in Transceiver IC (IC303)), MPU/DSP (IC401) and IC351. The oscillation frequency is adjusted TCXO directly by controlled the D/A converter of FCNT.
(No.RA070<Rev.001>)1-13
2.3.5.2 VCO There are two VCO contain VCO_L for 800MHz and VCO_H for 900MHz. The VCO_H (Q131) generates the carrier for the transmitter (Frequency range: 896 to 941MHz) and the receiver (Frequency range: 935 to 941MHz). VCO oscillation frequency range is 1792 to 1882MHz. The VCO_L (Q151) generates the carrier for the transmitter (Frequency range: 806 to 870MHz) and the receiver (Frequency range: 851 to 870MHz). VCO oscillation frequency range is 1612 to 1740MHz. The both VCO (VCO_H and VCO_L) oscillation frequency is divided as 1/2 by Transceiver IC (IC303) and it becomes the carrier for the Transmitter and the Receiver (Direct conversion).
The VCO oscillation frequency is determined by voltage control terminals "CP" and "ASSIST". The voltage control terminal "CP" is controlled by PLL (incorporated in Transceiver IC (IC303)). The voltage control terminal "ASSIST" is controlled by the control voltage from D/A converter (IC410). For the modulation input terminal, "VCO_MOD3" of PLL (incorporated in Transceiver IC (IC303)), the output frequency changes according to the applied voltage. This is used to modulate the VCO output.
2.3.5.3 PLL PLL (incorporated in Transceiver IC (IC303)) compares the difference in phases of the VCO oscillation signal and the TCXO (X401) reference frequency. And it returns the difference voltage to the VCO CP 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 ASSIST Voltage from D/A converter (IC410) is used before control by the PLL (incorporated in Transceiver IC (IC303)) to bring the VCO oscillation frequency close to the desired frequency. As a result, the VCO CP voltage does not change and is always stable at approx. 2.5V. The desired frequency is set for the PLL (incorporated in Transceiver IC (IC303)) by the MPU/DSP (IC401) through the 3-line "/ DCR_CS", "DCR_DO", "BCLK" serial bus for PLL. MPU/DSP (IC401) monitors through the "PLD", whether the PLL (incorporated in Transceiver IC (IC303)) is locked or not. If the VCO does not lock to desired frequency (unlock), the "PLD" logic is low.
2.3.6 Control Circuit The control circuit consists of MPU/DSP (IC401) and its peripheral circuits. MPU/DSP (IC401) 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.
2.3.6.1 MPU The MPU/DSP (IC401) is 32bit RISC processor and Fixed/Floating-Point VLIW DSP, equipped with peripheral function. This MPU/DSP (IC401) operates at 288MHz (MAX) clock and 3.2V/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.
2.3.6.2 Memory Circuit Memory circuit consists of the MPU/DSP (IC401) and the Mobile DDR (IC402), the flash memory (IC404). The flash memory has capacity of 512Mbit that contains the transceiver control program for the MPU/DSP (IC401) 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/DSP (IC401) copies the program to the Mobile DDR from Flash memory. Flash memory Note: The flash memory stores the data that is written by the FPU (KPG-D3/D3N), tuning data (Deviation, Squelch, etc.), and firmware program (User mode, Test mode, Tuning mode, etc.).
Mobile DDR Note: Mobile DDR is used as a work area of the MPU/DSP (IC401).
2.3.6.3 LCD The LCD is controlled using parallel interface from the MPU/DSP (IC401).
2.3.6.4 Button Detection Circuit Buttons are detected using the MPU/DSP (IC401).
1-14 (No.RA070<Rev.001>)
2.3.6.5 Low Battery Warning The battery voltage is divided using R65 and R66, it is detected by A/D converter (IC409). When the battery voltage falls below the voltage set by the Low battery warning adjustment, the red LED blinks to notify the operator that it is time to replace the battery. If the battery voltage falls even more (approx. 5.8V), a beep sounds and transmission stops.
Low battery warning
Battery condition
The red LED blinks during The battery voltage is low but the
transmission.
transceiver is still usable.
The red LED blinks and the The battery voltage is low and the warning tone beeps while transceiver is not usable to make the PTT switch is pressed. calls.
2.3.6.6 DSP The DSP circuit consists of a MPU/DSP (IC401) and processes the baseband signal. The DSP operates at 288MHz (MAX) clock, the I/O section operates at 3.2V/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 · LTR encoding/decoding · DTMF encoding/decoding · MSK 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
2.3.7 Power Supply Circuit The battery voltage (+B) is provided from battery terminal. The battery voltage passes through the 3.15A fuse (F1), and goes to RF final amplifier, AVR ICs (IC9, IC17, IC602, IC6, IC15), DC/DC converter (IC3), transistor (Q7 through the 0.5A fuse (F2)), and voltage detector IC (IC1). Voltage detector (IC1) watches battery voltage. If the battery voltage is enough higher than 5.6V, detector outputs High. Then, IC9 (31BU) outputs 3.1V, and IC10 (12BU) outputs 1.2V. When the VOL SW is turned on, SB1 becomes high (battery voltage). DC/DC (IC3) operates if both SB1 and output of detector are high. IC3 (38M) outputs 3.8V, and IC2 (12M) outputs 1.2V. Then, IC4 (18M) outputs 1.8V. Then, IC5 (32M) outputs 3.2V. Then, IC8 (18BT) outputs 1.8V. Then, IC7 (32BT) outputs 3.2V. Then, IC11 (32A) outputs 3.2V, and IC17 (50A) outputs 5.0V. Then, IC12 (18M_3) outputs 1.8V, and Q7 (53AF) is turned on. Voltage detector (IC403) watches IC3 (38M) output voltage. If the 38M output voltage is enough higher than 3.5V, detector outputs High. As a result, the MPU/DSP (IC401) operated. SBC signal becomes High after the MPU/DSP (IC401) operates, and IC13 (200C), and IC14 (32C), and IC6 (50C), and Q4 (SB2) are turned on. When 5UC signal becomes High, IC602 (50U) operates. When TXC signal becomes High, IC15 (50T) operates. IC15 (50T) is turned on in transmit mode. Switches are controlled by the MPU/DSP (IC401). When the VOL SW is turned off /PSW signal becomes Low. After detecting /PSW signal, the MPU/DSP (IC401) changes SBC signal to Low. 38M is fed to IC13 (200C). IC13 (200C) is the DC/DC boost converter. IC13, D10, C50 consist of a voltage quadrupler. The 200C circuit then outputs approximately +20VDC.
(No.RA070<Rev.001>)1-15
F1
(3.15A) Battery
+B
IC9 31BU
IC3 38M
BackUp Battery
IC2 12M
IC4 18M
SBC
IC8 18BT
IC7 32BT
IC11 32A
IC5 32M
IC13 200C
IC14 32C
IC403 3.5V DET
VOL SW SB1
IC1 5.6V DET
D8
Q1
OR
AND
SBC
IC10 12BU
Final Amp, APC MPU/DSP RTC
IC12 18M_3
MPU/DSP Core, MPU/DSP PLL, CODEC VDD MPU/DSP 1.8V I/O, mobile DDR, LCD Module I/O
Flash Memory I/O
BT & GPS I/O
BT & GPS VDD
CODEC VDD, 8bit/8ch DAC, 12bit/4ch DAC
MPU/DSP 3.2V I/O, Flash Memory VCC, CODEC VDD LCD Module ASSIST
Direct Conversion Transceiver /RST
Q3
/BINT
Lvl Conv
Q2 Lvl Conv
/PSW
IC401 MPU/DSP
1-16 (No.RA070<Rev.001>)
5UC
IC17 50A
IC602 50U
KEY Back Light, 3Color LED, 8bit/16ch ADC
Universal Option
SBC
IC6 50C
VCO
ANT SW
IC201 SW
ANT SW
TXC
IC15 50T
TX circuit
SBC
F2 (0.5A)
Q4 SB2
Q7 53AF
8bit ADC Int AF Amp
Fig.6 Power supply circuit
Ext AF Amp
2.3.8 Signaling Circuit
2.3.8.1 Encode (QT/DQT/LTR/DTMF/MSK) Each signaling data signal of QT, DQT, LTR, DTMF and MSK is generated by MPU/DSP (IC401), superposed on a modulation signal and output to VCO and PLL.
2.3.8.2 Decode (QT/DQT/LTR/DTMF/MSK) The audio signal and signaling data (QT, DQT, LTR, DTMF and MSK) are separated by MPU/DSP (IC401). Next MPU/DSP (IC401) decode the signaling data.
2.3.9 Bluetooth/GPS Circuit The main component of the Bluetooth/GPS circuit is Bluetooth/GPS IC (IC351). The clocks of Bluetooth/GPS IC require 19.2MHz for core and 32.768kHz slow clock (X351) for UART. 19.2MHz clock (X401) is shared with the MPU/DSP (IC401), and is supplied through the Clock buffer amplifier (Q401). Bluetooth/GPS IC communicates to the MPU/DSP (IC401) on the HCI UART. Interface of UART & Digital audio (PCM) between the MPU/DSP (IC401) and the Bluetooth/GPS IC (IC351), have level conversion at the level conversion IC (IC352, IC353). The Bluetooth/GPS IC is powered by 1.8V and 3.2V which are supplied from 2 discrete external regulators (IC8 and IC7). The input of these regulators is sourced from a switching regulator (IC3) which regulates the battery voltage to 3.8V.
GPS antenna
Matching BT antenna
HPF
Pre-SAW
LNA LNA Module
LNA Supply
Post-SAW
TCXO 19.2MHz
X401
Post-SAW
Clock Buffer Q401
IC351
VDD_TCXO(G1)
VBAT1(A2)
TCXO_LDO_IN(H1)
3.2V
GPS_EXT_LNA_EN(H6) VDDS
1.8V
GPS IC(IC850)
GPS_LNA_IN(L2)
IC352,
IC353
BT_HCI_UART_TX(A4) GPS_TX Level
BT_HCI_UART_RX(B5) GPS_RX Conversion
BTFM_nSHUTDOWN(A6)
GPS PA EN(G3)
TCXO_CLK_LV(F1) RTC_CLK(H9)
OSCILLATOR 32.768kHz X351
BT_RF
IC401 MPU/DSP
LC filter
Fig.7 Bluetooth/GPS circuit
(No.RA070<Rev.001>)1-17
2.3.9.1 Bluetooth Circuit The Bluetooth/GPS IC (IC351) support Bluetooth 4.0 up to HCI level.
Basic Rate TX/RX frequency is 2400-2483.5MHz (79ch Hopping, 2402-2480MHz, 1MHz step). Transmitting power is +0dBm (Max.: +4dBm) at Bluetooth antenna input.
Low Energy TX/RX frequency is 2400-2483.5MHz (40ch (3 advertising channels: Single carrier, 37data channels: Hopping), 2402-2480MHz, 2MHz step). Transmitting power is +0dBm (Max.: +4dBm) at Bluetooth antenna input.
Common Bluetooth antenna is made of sheet metal, and connected to the Bluetooth/GPS IC (IC351) through the LC filter (L361).
IC401
MPU/DSP
X401
TCXO 19.2MHz
IC352
Level Conversion
IC353
Level Conversion
Q401
Clock Buffer
IC351
BT/GPS IC
L361
LC Filter
X351
32.768kHz Clock
Bluetooth Antenna
Fig.8 Bluetooth circuit 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.
2.3.9.2 GPS Circuit The RF signal is received by the antenna matched by the matching circuit. The matching circuit consists of L173, C172 on DISPLAY Unit. And this signal applied to a high-pass filter. The filter consists of C175, C177, C179, L176 and L178 on DISPLAY Unit. The filtered RF signal is then applied to a LNA Module (A151). The output of the LNA Module is fed into the SAW Filter (L359) after through the Attenuator comprised of R354, R355 and R356. The output of the second SAW filter is passed to pin L2 of the GPS IC. The input match for pin L2 comprises of C369, C395 and L353. 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 C172, L173
C175, C177 C179, L176 L178
LNA Supply
Matching
HPF
Pre-SAW
LNA LNA Module
Post-SAW
TCXO 19.2MHz
X401
Post-SAW
Clock Buffer Q401
Fig.9 GPS circuit
IC351
VDD_TCXO(G1)
VBAT1(A2)
TCXO_LDO_IN(H1)
3.2V
GPS_EXT_LNA_EN(H6) VDDS
1.8V
GPS IC(IC850)
GPS_LNA_IN(L2)
IC352,
IC353
BT_HCI_UART_TX(A4) GPS_TX Level
BT_HCI_UART_RX(B5) GPS_RX Conversion
BTFM_nSHUTDOWN(A6)
GPS PA EN(G3)
TCXO_CLK_LV(F1) RTC_CLK(H9)
OSCILLATOR 32.768kHz X351
IC401 MPU/DSP
1-18 (No.RA070<Rev.001>)
2.4 COMPONENTS DESCRIPTION 2.4.1 MAIN unit (XC1-276K-00)
Ref. No.
Part Name
IC1
IC
IC2
IC
IC3
IC
IC4
IC
IC5
IC
IC6
IC
IC7
IC
IC8
IC
IC9
IC
IC10
IC
IC11
IC
IC12
IC
IC13
IC
IC14
IC
IC15
IC
IC17
IC
IC18
IC
IC101
IC
IC102
IC
IC201
IC
IC202
IC
IC203
IC
IC303
IC
IC351
IC
IC352,353 IC
IC401
IC
IC402
IC
IC403
IC
IC404
IC
IC405
IC
IC406
IC
IC409
IC
IC410
IC
IC601
IC
IC602
IC
IC603
IC
IC604
IC
IC605
IC
IC606
IC
IC607
IC
Q1
Transistor
Q2,3
FET
Q4,5
FET
Q6
Transistor
Use / Function Voltage detector DC/DC converter (12M) DC/DC converter (38M) DC/DC converter (18M) Voltage regulator (32M) Voltage regulator (50C) Voltage regulator (32BT) Voltage regulator (18BT) Voltage regulator (31BU) Voltage regulator (12BU) Voltage regulator (32A) Switch IC (18M_3 ) DC/DC converter (200C) Voltage regulator (32C) Voltage regulator (50T) Voltage regulator (50A) DC amplifier DC amplifier (Assist) DC amplifier (CV) DC amplifier (Antenna SW) MMIC (Pre-drive) DC amplifier (APC) Transceiver IC GPS/Bluetooth Level converter MPU/DSP Mobile DDR Voltage detector Flash memory AND gate (2 input) Motion sensor A/D converter D/A converter Codec Voltage regulator (50BU) Multiplexer Bus switch DPDT switch Bus Buffer AND gate (2 input) DC switch Detector DC switch DC switch
Ref. No. Q7 Q102 Q103 Q111 Q112 Q113 Q114 Q117 Q118 Q131 Q151 Q181,182 Q201 Q202 Q203 Q204 Q205,206 Q207 Q351 Q401 Q402 D1 D8 D9 D10 D102 D103,104 D111 D131
D132-134
D136
D151
D152-154
D156
D201-203 D204 D206 D207 D301,302 D303,304 D401,402 D403-407
Part Name Transistor FET FET FET FET Transistor FET FET FET Transistor Transistor Transistor FET FET Transistor Transistor FET Transistor FET Transistor Transistor Diode Diode Diode Diode Zener diode Diode Diode Variable capacitance diode Variable capacitance diode Variable capacitance diode Variable capacitance diode Variable capacitance diode Variable capacitance diode Diode Zener diode Varistor Diode Diode Diode Diode Diode
Use / Function DC switch (Codec IC) DC switch (Assist) DC switch DC switch (VCO) DC switch Ripple filter DC switch DC switch (VCO) DC switch VCO VCO VCO Drive amplifier RF final amplifier APC switch DC switch DC switch DC switch DC switch Clock buffer DC switch Reverse protection 38M control Back up battery charge DC/DC converter Over voltage protection Reverse current protection Reverse current protection VCO frequency control
VCO frequency control
VCO frequency control
VCO frequency control
VCO frequency control
VCO frequency control
Antenna switch Over voltage protection Surge protection Antenna switch Reverse current protection Excessive input protection Reverse current protection Reverse current protection
(No.RA070<Rev.001>)1-19
Ref. No. D601 D609 D620,621 D622,623 D624-628 D629,630 D632-634
Part Name Diode Diode Zener diode Diode Diode Zener diode Zener diode
Use / Function Reverse current protection Reverse current protection Over voltage protection Over voltage protection Reverse current protection Over voltage protection Over voltage protection
2.4.2 DISPLAY unit (XC1-209K-02)
Ref. No.
Part Name
A151
IC
Use / Function GPS front-end module
IC201 Q141 Q201
IC Transistor Transistor
AND gate (2 input) DC switch DC switch
Q221-223 Q227-229 D111-120 D141-144 D180,181 D201,202 D221 D227
Transistor Transistor LED Diode Diode LED LED LED
DC switch DC switch Key backlight Reverse current protection Excessive input protection LCD backlight TX/busy Light bar
2.5 TERMINAL FUNCTION 2.5.1 MAIN unit (XC1-276K-00)
Pin No.
Name
1 NC 2 ENC0 3 ENC0 4 ENC1 5 GND 6 ENC3 7 ENC2 8 +B
9 50A 10 VOL 11 GND 12 SB 13 NC
1 EMG 2 GND 3 SIDE2 4 SIDE1 5 PTT
I/O
Function
CN1
- No connection
I Rotary switch input
I Rotary switch input
I Rotary switch input
- GND
I Rotary switch input
I Rotary switch input
O Power output after passing through the fuse
O DC 5.0V output
I Volume level input
- GND
I Switched B input
- No connection
CN7
I Emergency input
- GND
I Side 2 input
I Side 1 input
I PTT input
1-20 (No.RA070<Rev.001>)
Pin No.
Name
I/O
Function
6 NC
- No connection
CN402
1 32LCD
O DC 3.2V output
2 32LCD
O DC 3.2V output
3 18M
O DC 1.8V output
4 LCD_VSS
- GND
5 LCD_/CS
O LCD CS signal
6 LCD_A0
O Data/Command control signal
7 LCD_E(WR1) O LCD read signal
8 LCD_R/W(WR0) O LCD write signal
9 LCD_RST
O LCD reset signal
10 LCD_DB0
I/O LCD Data Bus 0
11 LCD_DB1
I/O LCD Data Bus 1
12 LCD_DB2
I/O LCD Data Bus 2
13 LCD_DB3
I/O LCD Data Bus 3
14 LCD_DB4
I/O LCD Data Bus 4
15 LCD_DB5
I/O LCD Data Bus 5
16 LCD_DB6
I/O LCD Data Bus 6
17 LCD_DB7
I/O LCD Data Bus 7
18 LCD_BLC
O LCD backlight control
19 GND
- GND
20 GND
- GND
21 ME
- MIC GND
22 MIC
I Main MIC input
23 50A
O DC 5.0V output
24 50A
O DC 5.0V output
25 KEYI4
I Key matrix input
26 KEYI3
I Key matrix input
27 KEYI2
I Key matrix input
28 KEYI1
I Key matrix input
29 KEYI0
I Key matrix input
30 KEYo3
O Key matrix output
31 KEYo2
O Key matrix output
32 KEYo1
O Key matrix output
33 KEYo0
O Key matrix output
34 LED_G
O LED Green control
35 LED_B
O LED Red control
36 LED_R
O LED Blue control
37 LBC_G
O Light Bar Green Control
38 LBC_R
O Light Bar Red Control
39 LBC_B
O Light Bar Blue Control
40 GND
- GND
41 GND
- GND
CN602
1 SP-
O BTL output for internal speaker -
2 SP+
O BTL output for internal speaker +
Pin No.
Name
1 SMIC 2 RXD/USB_DM 3 TXD/USB_DP 4 5U 5 GND 6 OPT 7 PF 8 PTT 9 ME 10 EMC/VBUS 11 MSW 12 SP13 SP+ 14 SSW
I/O
Function
CN625
I External MIC input
I/O Serial data input / USB DM
I/O Serial data output / USB DP
O 5V power supply output
- GND
I MIC identification
I Programmable function key input
I PTT input
- MIC GND
I External MIC input / USB VBUS
I Ext/Int MIC switch Input
O BTL output for external speaker -
O BTL output for external speaker +
I Ext/Int speaker switch input
2.5.2 DISPLAY unit (XC1-209K-02 A/2)
Pin No.
Name
1 NC 2 K3 A+ 4 VSS 5 DB7 6 DB6 7 DB5 8 DB4 9 DB3 10 DB2 11 DB1 12 DB0 13 /RST 14 R/W 15 E 16 A0 17 /CS0 18 VSS 19 VDDI
20 VDDA
21 VB0+
22 VB1+
23 VB1-
I/O
Function
CN201
- No connection
- Cathode for backlight(GND)
O Anode for backlight
- GND
I/O LCD Data Bus 7
I/O LCD Data Bus 6
I/O LCD Data Bus 5
I/O LCD Data Bus 4
I/O LCD Data Bus 3
I/O LCD Data Bus 2
I/O LCD Data Bus 1
I/O LCD Data Bus 0
O LCD reset signal
O LCD write signal
O LCD read signal
O Data/Command control signal
O LCD CS signal
- GND
O LCD I/O Power Supply(DC 1.8V output)
O LCD Analog Power Supply (DC 3.2V output)
- LCD bias voltage. Connect to VB0via a capacitor.
- LCD bias voltage. Connect to VB1via a capacitor.
- LCD bias voltage. Connect to VB1+ via a capacitor.
Pin No.
Name
I/O
Function
24 VB0-
- LCD bias voltage. Connect to VB0+ via a capacitor.
25 VLCD
O Main LCD power supply
CN202
1 GND
- GND
2 GND
- GND
3 LBC_B
O Light Bar Blue Control
4 LBC_R
O Light Bar Red Control
5 LBC_G
O Light Bar Green Control
6 LED_R
O LED Blue control
7 LED_B
O LED Red control
8 LED_G
O LED Green control
9 KEYo0
O Key matrix output
10 KEYo1
O Key matrix output
11 KEYo2
O Key matrix output
12 KEYo3
O Key matrix output
13 KEYI0
I Key matrix input
14 KEYI1
I Key matrix input
15 KEYI2
I Key matrix input
16 KEYI3
I Key matrix input
17 KEYI4
I Key matrix input
18 50A
O DC 5.0V output
19 50A
O DC 5.0V output
20 MIC
I Main MIC input
21 ME
- MIC GND
22 GND
- GND
23 GND
- GND
24 LCD_BLC
O LCD backlight control
25 LCD_DB7
I/O LCD Data Bus 7
26 LCD_DB6
I/O LCD Data Bus 6
27 LCD_DB5
I/O LCD Data Bus 5
28 LCD_DB4
I/O LCD Data Bus 4
29 LCD_DB3
I/O LCD Data Bus 3
30 LCD_DB2
I/O LCD Data Bus 2
31 LCD_DB1
I/O LCD Data Bus 1
32 LCD_DB0
I/O LCD Data Bus 0
33 LCD_RST
O LCD reset signal
34 LCD_R/W(WR0) O LCD write signal
35 LCD_E (WR1) O LCD read signal
36 LCD_A0
O Data/Command control signal
37 LCD_/CS
O LCD CS signal
38 LCD_VSS
- GND
39 18M
O DC 1.8V output
40 32LCD
O DC 3.2V output
41 32LCD
O DC 3.2V output
(No.RA070<Rev.001>)1-21
2.5.3 DISPLAY unit (XC1-209K-02 B/2)
Pin No.
Name
1 EMG 2 GND 3 SIDE2 4 SIDE1 5 PTT 6 NC
I/O
Function
CN301
I Emergency input
- GND
I Side 2 input
I Side 1 input
I PTT input
- No connection
2.5.4 14Pin Universal Connector Specification
Pin No.
Pin Name
1 SSW
2 SP+
3 SP-
4 MSW 5 EMC
VBUS 6 ME 7 PTT 8 PF
9 OPT 10 GND
I/O
Signal Type
Description
Rating and Condition
Parameter
Min Typ Max
I Digital Ext/Int speaker switch input
VIH
Internal Pull Up@3.2V
VIL
MaxCurrent 310uA
2.5 -
5.3
0.0 - 0.15
O Analog BTL output for external speaker
[ 8 ohm load ]
Max output power
- 1.2 1.5
(1kHz , Batt=7.5V) -
-
-
DC Bias
- 2.6
-
Allowable Frequency 300 - 3000
O Analog
[ 16 ohm load ]
Max output power
- 0.8 1.0
(1kHz , Batt=7.5V) -
-
-
DC Bias
- 2.6
-
Allowable Frequency 300 - 3000
I Digital Ext/Int MIC switch Input External Pull Up VIH
@3.2V 47kohm
VIL
& External Pull Up@5.0V 100kohm
3.5 -
5.3
0.0 - 0.15
I Analog External MIC input
Audio Level
7.7 12.5 17.3
(STD deviation)
-
-
-
Input impedance
- 2.2
-
DC Bias
- 1.5
-
Allowable Frequency 300 - 3000
Analog USB VBUS(5V) input
VIH
4.8 -
5.3
VIL
0.0 - 0.50
--
MIC Ground
-
-
-
-
I Digital Ext PTT switch input
VIH
Internal Pull Up@3.2V 10.6kohm~47.1kohm VIL
2.5 -
5.3
0.0 - 0.40
I Analog Programmable function key input (Pull Up:3.2V/8.2k)
V(PF2) V(PF1)
3.5 -
3.9
2.5 -
3.5
V(BOTH)
1.5 -
2.5
V(FIPS)
0.0 -
1.5
I Digital MIC identification
VIH
External Pull Up@5.0V 2.2kohm
VIL
4.0 -
5.3
0.0 -
0.4
--
Ground
-
-
-
-
Unit V V
W
V Hz
W V Hz V V
mV -
kohm V Hz V V V V V V V V V V -
1-22 (No.RA070<Rev.001>)
Pin No.
Pin Name
11 5U
I/O
Signal Type
Description
- Power 5V power supply output
12 TXD
O Digital Serial data output CMOS
USB_DP
I/O Analog USB DP
13 RXD USB_DM
I Digital
Serial data input CMOS External Pull Up@3.2V 10kohm
I/O Analog USB DM
14 SMIC
I Analog External MIC input
Rating and Condition
Parameter
Min Typ Max Unit
Output Voltage (Iout = 100mA)
4.9 5.0 5.1
V
Maximum Current
-
-
0.2
A
VOH(Io=-5mA)
4.1 -
5.1
V
VOL(Io=5mA)
0.0 -
0.8
V
Baud Rate
-
- 1.1875 Mbps
VIH
2.7 -
3.6
V
VIL
-
-
0.8 V
VOH
2.8 -
3.5
V
VOL
0.0 -
0.3
V
Baud Rate (Full-Speed)
-
-
12 Mbps
VIH
2.0 -
5.3
V
VIL
0.0 -
0.8
V
Baud Rate
-
- 1.1875 Mbps
VIH
2.7 -
3.6
V
VIL
-
-
0.8 V
VOH
2.8 -
3.5
V
VOL
0.0 -
0.3
V
Baud Rate (Full-Speed)
-
-
12 Mbps
Audio Level (STD deviation)
7.7 12.5 17.3 mV
Input impedance
- 2.2
- kohm
DC Bias
- 1.5
-
V
Allowable Frequency 300 - 3000 Hz
(No.RA070<Rev.001>)1-23
SECTION 3 DISASSEMBLY
3.1 Precautions for Waterproof · Do not remove the black sheet from the reverse side of the transceiver (refer to the illustration below). Removal of this sheet
decreases the waterproof efficiency of the transceiver and may cause malfunctions if water seeps into the transceiver. · The black packing material on the reverse side of the transceiver is important with respect to the waterproof efficiency of the
transceiver. · Do not place stickers or other materials on the shaded area that the battery contacts shown in the figure. Doing so will impair the
waterproof efficiency of the transceiver and may cause it to break down. Additionally, in order to prevent damage to the packing material, do not allow it to come in contact with foreign materials.
Packing
Sheet
3.2 Precautions for Disassembly 3.2.1 Removing the selector knob and volume knob
(1) Loosen the screw <1> then remove the CAP. (2) Using a thin tool, insert it in the hole on the selector knob
side and push the knob spring. <2> Note: When you push the knob spring, take care not to damage the resin of the knob.
(3) Lift and remove the selector knob <3> while pushing the knob spring.
(4) Repeat steps 2 and 3 for the volume knob, to remove the volume knob <4>.
<1>
CAP
<3> <4>
Note: Perform the following procedures when installing the selector knob and volume knob. a) Match the direction for the hole of the knob and the
knob spring. b) Push the knob onto the knob spring until a click
sounds.
3.2.2 Removing the selector knob spring and volume knob spring
(1) Lightly grasp the left and right sides of the selector knob spring together, and lift up as shown in the figure. <1>
Note: Do not grasp the knob spring tightly. (2) Remove the selector knob spring <2>.
Note: Use minimal contact with your fingers on the knob spring. (3) Repeat steps 1 and 2 for the volume knob spring, to remove the volume knob spring <3>.
Knob spring <1>
<2> <3>
<2> 1-24 (No.RA070<Rev.001>)
Encoder
3.2.3 Removing the front case from the chassis (1) Remove the rear panel with a flat-head screwdriver. Insert the screwdriver between the rear panel (right side) and the chassis, push it in the direction of the arrow <1>,and remove the right side of the rear panel. Repeat the above action for the left side of the rear panel <2>.
Rear panel
3.2.4 Remove the holder ASSY from the chassis (1) Remove the four tabs on the holder ASSY from the chassis.<1> (2) Lift up the holder ASSY, then remove the speaker lead wire from the connector (CN602).
Speaker lead wire from the holder ASSY
<1>
CN602
<1> <1>
<1>
<1>
3.2.5 Removing the Display unit from the chassis (1) Remove the five screws <1>. (2) While lifting the Display unit, remove the FPC from the connector (CN202) of the Display unit.
<1>
<2>
(2) Remove the two screws <3>. (3) Peel off the void seal. (4) Lift the base of the chassis and remove the chassis from
the front case. <4>
Note: · Once the void seal is peeled off, it cannot be used
again. · When the chassis cannot be removed from the front
case, remove by pushing in the button top with the finger. · Regarding VOID, confirm the service policy of the NX3400 to KENWOOD (or authorized distributor).
VOID seal
<1> <1>
<1><1>
Display unit FPC MAIN unit
<3>
<3>
<4>
(No.RA070<Rev.001>)1-25
3.2.6 Removing the MAIN unit from the chassis (1) Remove the following parts in numerical order. <1>VOL/SEL FPC <2>PTT FPC <3>Universal FPC <4> nine screws
<2>PTT FPC <1> VOL/SEL FPC
<3>Universal FPC
3.2.7 Removing the TOP packing (1) Pull the TOP packing to the left to remove the packing that is fit into the left groove of the chassis. <1> (2) Pull the TOP packing to the right to remove the packing that is fit into the right groove of the chassis. <2> (3) Pull the TOP packing to the center to remove the packing that is fit into the center groove of the chassis. <3> (4) Remove the TOP packing. <4>
Note: Remove the packing slowly, as the packing of the selector part might be overset when the TOP packing is removed. If the packing is turned over, return it to the original position using a soft tipped item (e.g., your finger).
Note: The FPC is locked with an actuator. Raise the actuator straight upward, then make sure the actuator is perpendicular to the insulator.
Insulator
Actuator
Front contact straight upward
perpendicular
<3> <2>
<1>
TOP packing
<4>
<4> <4>
<4>
<4> <4>
<4> <4>
<4> <4>
1-26 (No.RA070<Rev.001>)
3.2.8 Removing the TERMINAL BLOCK (with PACKING)
(1) Remove the screw. <1>
<1>
(2) Remove the TERMINAL BLOCK (with PACKING). <2>
<1>
TERMINAL BLOCK
Circular nut <2>
<2>
Note:
When reassembling, make sure the stopper and the
circular nut are engaged.
3.2.10 Removing the LCD from the Display unit (1) Remove the LCD FPC from the connector. <1> (2) Remove the Display ASSY fixed with two tabs.<2> (3) Remove the shielding case fixed with four tabs.<3> (4) Take the LCD out of the case.
LCD FPC <2>tab
<3>tab <3>tab
LCD
3.2.9 Removing the stopper of the selector circle nut and volume circle nut
(1) Remove the stopper using a pair of tweezers. <1> (2) Remove the circular nut <2> using the nut wrench (W05-
1123-00).
<2>tab <3>tab <3>tab
Case
3.2.11 Forming the FPC (for connection of DISPLAY UNIT and MAIN UNIT)
Bend the FPC twice along the mark. <1> <2>
Mark
<1> <2>
Mark
3.2.12 Insert direction for the FPC (for connection of DISPLAY UNIT and MAIN UNIT)
Insert the FPC with the electrode surface downward.
Stopper
Display unit
(No.RA070<Rev.001>)1-27
3.3 Precautions for Reassembly
3.3.1 Assembly Information (Sheet/Cushion) When "Main Parts" is changed (ordered), "Assembled Sheet / Cushion" should also be changed (ordered) together. The Sticker and Sheet etc are non-reusable parts. It requires the new one to get the radio's performance after repairs.
Main Parts
Assembled Sheet/ Cushion
Part Name
Part Number
Part Name
Part Number
CHASSIS
A1A-0106-10
FIBROUS SHEET (AIR LEAK) G1A-0063-00
CUSHION (AIR LEAK)
G1D-0204-00
SHEET (AIR LEAK)
G11-4440-04
SHEET (PTT)
G1G-0075-00
ADHESIVE SHEET (UNIV CN) J99-0715-08
CABINET ASSY (FULL)
A0C-0176-30
STICKER (NEXEDGE)
B42-7417-04
KENWOOD BADGE
B4D-0044-10
FIBROUS SHEET
G1A-0053-00
HOLDER
J1K-0493-10
FIBROUS SHEET (MIC)
G1A-0057-00
CUSHION (SP)
G1D-0203-10
SHEET (BUTTON)
G1G-0076-00
SHEET (SP)
G1G-0077-00
ANTENNA ELEMENT (GPS)
T9A-0058-00
ANTENNA ELEMENT (BT)
T9A-0059-00
MOUNTING HARDWARE
J2B-0350-20
CUSHION (2 pieces)
G1D-0205-00
SHEET (LCD)
G1B-0300-00
CAP
B0K-0076-00
PACKING
G5D-0027-00
ILLUMINATION GUIDE
B1B-0105-00
REFLECTION SHEET
B1B-0110-00
R.RECEPTACLE (UNIV CN) E58-0532-15
FLEX P.BOARD
J8C-0021-00
When open the BLS
SHIELDING COVER
(The situation that need to repair or inspection the SHIELDING COVER chip part in the BLS)
SHIELDING COVER
F10-3227-05 F1B-0084-00 F1B-0086-00
SHIELDING COVER
F1B-0088-00
1-28 (No.RA070<Rev.001>)
4.1 Controls
SECTION 4 ADJUSTMENT
Selector knob Power switch/ Volume control
Transmit/ Receive/ Battery low indicator Light Bar
Auxiliary (orange) button PTT (Push-To-Talk) switch
Side 1 button Side 2 button
4-way D-pad
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 connected to a suitable dummy load (i.e. power meter). The speaker output connector must be terminated with an 8ohm dummy load and connected to an AC voltmeter and an audio distortion meter or a SINAD measurement meter at all times during checking/tuning.
4.2 Panel Test Mode
4.2.1 Test mode operation features This transceiver has a test mode. To enter test mode, press and hold the [ ] button while turning the transceiver power ON or press the [ ] button and select the "Panel Test". Before the transceiver enters test mode, the frequency version information appears on the LCD momentarily. Test mode can be inhibited by programming. To exit test mode, turn the transceiver power OFF. The following functions are available in test mode.
· When the panel test mode is activated, the channel selected with the 4-way D-pad and the last used signaling number are displayed. When it is activated for the first time, the signaling number is 1.
4.2.2 Button operation Function OFF: "Func" not appears on the sub LCD display
Button
Function
Display
[Selector] -
-
[]
Push: Test channel up Channel No.
Hold: Test channel up
continuously
[]
Push: Test channel down Channel No.
Hold: Test channel down
continuously
[]
Push: Squelch level up *1 Squelch level
Hold: Squelch off
Squelch off: icon
appears
[]
Wide 5k/Wide 4k/Narrow/ Wide 5k: "w"
Very Narrow
Wide 4k: "s"
Narrow: "n"
Very Narrow: "v"
[Side1] -
-
[Side2] -
-
[ ]
Shift to panel tuning
-
mode
[ ]
Function on
"Func" appears on the sub LCD display
[ ]
-
-
[ ]
Push: Test signaling up Signaling No. Hold: Test signaling up continuously
[AUX
MSK 1200bps and
(Orange)] 2400bps *1
2400bps: [ ] icon appears
[PTT]
Transmit
-
[0] to [9] -
-
and
[#], [ ]
*1: When the mode is selected as Analog, this function is enabled.
(No.RA070<Rev.001>)1-29
Function ON: "Func" appears on the sub LCD display
Button [Selector] [] []
[] []
[Side1] [Side2] [ ]
Function Talk Around On/Off Analog/NXDN/DMR
Function off Button/LCD check
Function off Function off High power/Low power
Display
-
On: [ ] icon appears
Analog: "A" NXDN: "N" DMR: "D"
-
The position of the selector knob, etc., appear.
-
-
High:[ ] icon appears Low:[ ] icon appears
[ ]
Function off
-
[ ]
Function off
-
[ ]
Function off
-
[AUX (Orange)]
[PTT]
[0] to [9] and [#], [ ]
Compander On/Off
Transmit Function off
On: [
-
] icon appears
LED indicator Red LED Lights during transmission. Green LED Lights when there is carrier.
LCD display in panel test mode
(Power ON)
Temperature [oC] Power
Battery type detect "ALKALI": Alkaline battery pack "LI ": Li-ion "NIMH": Ni-MH "SP": Other
Type K3 type is displayed as "K"
Sub LCD display Main LCD display
Signaling No.
Frequency range
(After 2sec.) Channel No.
An : Analog narrow mode Squelch level Aw : Analog wide 5k mode (Analog mode only) As : Analog wide 4k mode Nn : NXDN narrow mode Nv : NXDN very narrow mode D : DMR mode
1-30 (No.RA070<Rev.001>)
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 actual operation.
(1) Test frequency
Channel 1
RX (MHz) 851.050000
TX (MHz) 806.050000
2
859.950000
3
868.950000
4
851.550000
815.550000 823.950000 806.550000
5
860.450000
6
868.450000
7
935.050000
816.050000 823.450000 896.050000
8
938.050000
9
939.950000
10
935.550000
899.050000 900.950000 896.550000
11
938.550000
12
939.450000
899.550000 900.450000
(2) Signaling Analog Type Signaling
No.
RX
TX
1 None
None
2 None
Square Wave
3 LTR Data
LTR Data
4 QT:67.0Hz
QT:67.0Hz
5 QT:151.4Hz
QT:151.4Hz
6 QT:210.7Hz
QT:210.7Hz
7 QT:254.1Hz
QT:254.1Hz
8 DQT:D023N
DQT:D023N
9 DQT:D754I
DQT:D754I
10 DTMF Decode (CODE: 159D)
DTMF Encode (CODE: 159D)
11 None
DTMF Encode (CODE: 9)
12 2-tone Decode
2-tone Encode (A: 304.7Hz,
(A: 304.7Hz, B: 3106.0Hz) B: 3106.0Hz)
13 Single Tone Decode (979.9Hz)
Single Tone Encode (979.9Hz)
14 None
Single Tone Encode (1000Hz)
15 None
MSK PN9
16 MSK Decode
MSK Encode
NXDN Type Signaling
No.
RX
TX
1 RAN1
RAN1
2 None
PN9
3 RAN1
Maximum Deviation Pattern
7 *2 FSW + PN9
FSW + PN9
9 *2 Tone Pattern (1031Hz) Tone Pattern (1031Hz)
RAN: Radio Access Number PN9: Pseudo-Random Pattern *2: PC test mode only
DMR Type Signaling
No.
RX
TX
1 CC 00 Burst
CC 00 Burst
2 PN9
PN9
3 CC 00 Burst
Maximum Deviation Pattern
4 CC 00 Burst
1/3 Deviation Pattern
5 CC 00 Burst
0 Continuous Pattern
6 SYNC (Each Slot) + SYNC (Each Slot) + PN9
PN9 Burst Pattern
Burst Pattern
7 SYNC (Super Frame) + SYNC (Super Frame) +
PN9 Burst Pattern
PN9 Burst Pattern
8 CC 00 Burst
0 Burst Pattern
9 Tone Pattern
Tone Test Burst Pattern
10 Silence Pattern
Silence Burst Pattern
11 Audio Test Pattern
Audio Test Burst Pattern
12 Vocoder Loop
None
(No.RA070<Rev.001>)1-31
4.3 Panel Tuning Mode 4.3.1 Transceiver tuning (To enter tuning mode) To enter tuning mode, press the [ ] button while the transceiver is in test mode. Use the [ ] button to write tuning data through tuning modes, and the [ ]/[ ] button to adjust tuning requirements (1 to 4096 appears on the LCD). Use the [ ] button to select the adjustment item through tuning modes. Use the [ ] button to adjust 5, 6 or 10 reference level adjustments, and use the [ ] button to switch between Wide 5k/ Wide 4k/Narrow.
· LCD display in panel tuning mode
CV voltage, AD value, etc
Sub LCD display Main LCD display
2.6 800M TX L
An AST
256
Adjustment point 800M TX L 800M TX C 800M TX H 800M RX/TA L 800M RX/TA C 800M RX/TA H 900M TX L 900M TX H 900M RX/TA L 900M RX/TA H
Adjustment value (1~4096)
Proper value guide
An : Analog narrow mode Aw : Analog wide 5k mode As : Analog wide 4k mode
(When the frequency adjustment is necessary,
or is displayed.)
Nn : NXDN narrow mode Adjustment item
Nv : NXDN very narrow mode
D : DMR mode
4.3.2 Button operation
Button
Function
Push
Hold (1 second)
[Selector] -
[ ]
Adjustment value up
Continuation up
[ ]
Adjustment value down Continuation down
[ ]
Auto adjustment start
Output tone pattern change of balance adjustment (A change is possible only during balance adjustment.)
[ ]
Wide 5k/Wide 4k/Narrow/ NXDN/DMR
[ Side1 ] -
[ Side2 ] -
[ ]
Shift to panel test mode -
[ ]
To enter 5, 6 or 10
-
reference level adjustments
[ ] Writes the adjustment value
[ ]
Go to next adjustment item
Back to last adjustment item (At the time of 5, 6 or 10 point adjustment: Adjustment point change)
[AUX -
-
(Orange)]
[PTT] Transmit
[0] to [9] and [#],[ ]
4.3.3 5, 6 or 10 reference level adjustments frequency 5 reference level adjustment
IQ Phase / RSSI Reference 1 DSP (Receive) / RSSI Reference 2 RF IC (Receive) / RSSI Reference 3 DSP(Standby) / RSSI Reference 4 RF IC (Standby) / Squelch Open / Squelch Tight / Low RSSI / High RSSI
<5 points>
Tuning No.
Name
Display
RX (MHz)
TX (MHz)
1
800MHz TX Low
800M TX L
806.050000
806.100000
2
800MHz TX Center
800M TX C
815.550000
815.600000
3
800MHz TX High
800M TX H
823.950000
823.900000
4
900MHz RX/TA Low
900M RX/TA L
935.050000
935.100000
5
900MHz RX/TA High
900M RX/TA H
939.950000
939.900000
6 reference level adjustment (Analog Wide 5k, Analog Wide 4k) Maximum Deviation / QT Deviation / DQT Deviation / LTR Deviation / DTMF Deviation / MSK Deviation <6 points>
Tuning No.
Name
Display
RX (MHz)
TX (MHz)
1
800MHz TX Low
800M TX L
806.050000
806.100000
2
800MHz TX Center
800M TX C
815.550000
815.600000
3
800MHz TX High
800M TX H
823.950000
823.900000
4
800MHz RX/TA Low
800M RX/TA L
851.050000
851.100000
5
800MHz RX/TA Center 800M RX/TA C
859.950000
859.900000
6
800MHz RX/TA High
800M RX/TA H
868.950000
868.900000
1-32 (No.RA070<Rev.001>)
10 reference level adjustment (Analog Narrow, NXDN Narrow, NXDN Very Narrow, DMR) VCO Assist / High Transmit Power / Low Transmit Power / Balance / Maximum Deviation / NXDN High Deviation / DMR High Deviation / QT Deviation / DQT Deviation / LTR Deviation / DTMF Deviation / MSK Deviation / CW ID Deviation
<10 points>
Tuning No.
Name
Display
RX (MHz)
TX (MHz)
1
800MHz TX Low
800M TX L
806.050000
806.100000
2
800MHz TX Center
800M TX C
815.550000
815.600000
3
800MHz TX High
800M TX H
823.950000
823.900000
4
800MHz RX/TA Low
800M RX/TA L
851.050000
851.100000
5
800MHz RX/TA Center 800M RX/TA C
859.950000
859.900000
6
800MHz RX/TA High
800M RX/TA H
868.950000
868.900000
7
900MHz TX Low
900M TX L
896.050000
896.100000
8
900MHz TX High
900M TX H
900.950000
900.900000
9
900MHz RX/TA Low
900M RX/TA L
935.050000
935.100000
10
900MHz RX/TA High
900M RX/TA H
939.950000
939.900000
4.3.4 Adjustment item supplement
Adjustment Item
Description
LCD Contrast
The contrast of LCD display can be changed.
VCO Assist
The lock voltage of VCO is adjusted. This item must be adjusted before receiver and transmitter adjustment items.
Frequency
Frequency is adjusted under receiving condition with SSG. The SSG needs 0.001ppm accuracy so please use a standard oscillator if necessary. This item can be adjusted only in PC Test Mode so that the adjustment value is not changed easily.
RTC Correction
Real Time Clock is adjusted. This item uses the internal clock. (Any measurement equipment is not required.)
High Transmit Power
High Transmit Power is adjusted.
Mid Transmit Power Medium Transmit Power is adjusted.
Low Transmit Power Low Transmit Power is adjusted.
Ramp Offset
Adjust this item to the optimal Ramp voltage.
Balance
The transmit modulation frequency response 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 adjustment items for deviations are adjusted.
Maximum Deviation Maximum Deviation of Analog (Wide 5K/ (Analog Wide 5K/ Wide 4K/Narrow) is adjusted. Wide 4K/Narrow) This item must be adjusted before all
adjustment items for tone deviations are adjusted.
Adjustment Item High Deviation QT Deviation DQT Deviation LTR Deviation DTMF Deviation Single Tone Deviation MSK Deviation CW ID Deviation
Battery Warning Level
IQ Phase
RSSI Reference
Squelch Open Squelch Tight Low RSSI High RSSI
Description
NXDN/DMR high deviation is adjusted.
QT deviation is adjusted.
DQT deviation is adjusted.
LTR deviation is adjusted.
DTMF deviation is adjusted.
No adjustment is required.
MSK deviation is adjusted.
CWID tone deviation is adjusted. CWID is used to inform the others who is transmitting on a 6.25kHz spacing channel. (In FCC rule, Analog mode or CWID is required.)
Battery Warning Level (LED blinking level) is adjusted. Battery Warning Level minus 0.4V is the transmission inhibited level.
Correction of phase difference shift between I and Q.
The minimum RSSI level for scan stop is adjusted.
The squelch level at level "1" is adjusted.
The squelch level at level "9" is adjusted.
RSSI display level " " is adjusted. Both "Low RSSI" and "High RSSI" must be adjusted. (The curve data of RSSI level is applied.)
(No.RA070<Rev.001>)1-33
4.3.5 Adjustment item and Display
Order
Adjustment item
Main LCD display
Sub LCD display
AW
AS
AN
Nn
Nv
D
Adjust
(Analog (Analog (Analog (NXDN (NXDN Very (DMR) item
Wide 5k) Wide 4k) Narrow) Narrow) Narrow)
Number
Adjustment range
1
LCD Contrast CNTR -
1 point ADJ 1~256
Common Section 2
2
VCO Assist
AST (CV voltage)
-
-
1~4096
10
-
-
-
Common
Section 3
3
Frequency
-
-
1 point ADJ 1~4096
Common Section 4
4
RTC Correction RTC -
-2.00 ~ -0.01 ,0.00 ,+0.01 ~ +2.00
Common Section 5
5
High Transmit H_PWR -
Power
-
-
1~1024
10
-
-
-
Transmitter
Section 1
6
Low Transmit L_PWR -
Power
-
-
1~1024
10
-
-
-
Transmitter
Section 2
7
Ramp Offset
RAMP (ADC measurement 1 point ADJ
value)
1~1024
Transmitter Section 3
8
Balance
BAL (Encode frequency) -
-
1~1024
10
-
-
-
Transmitter
Section 4
9
Maximum
Deviation
ADEV -
6
6
1~1024
10
-
-
-
Transmitter
Section 5
10 NXDN High Deviation
NDEV -
-
-
1~1024
-
10
10
-
Transmitter
Section 6
11 DMR High Deviation
DDEV -
-
-
1~1024
-
-
-
10 Transmitter Section 7
12 QT Deviation QT
-
6
6
1~1024
10
-
-
-
Transmitter
Section 8
13 DQT Deviation DQT -
6
6
1~1024
10
-
-
-
Transmitter
Section 9
14 LTR Deviation LTR -
6
6
1~1024
10
-
-
-
Transmitter
Section 10
15 DTMF Deviation DTMF -
6
6
1~1024
10
-
-
-
Transmitter
Section 11
16 MSK Deviation MSK -
6
6
1~1024
10
-
-
-
Transmitter
Section 12
17 CW ID Deviation CWID -
-
-
1~1024
10
-
-
-
Transmitter
Section 13
18 Battery Warning BATT (BATT measurement 1 point ADJ
value)
1~256
Transmitter Section 14
19 IQ Phase
IQ
(RSSI DSP(Receive) -
-
measurement value) 1~63
5
-
-
-
Receiver
Section 2
20 RSSI Reference 1 RSSI1 (RSSI DSP(Receive) -
-
DSP (Receive)
measurement value) 1~256
5
-
-
-
Receiver
Section 3
21 RSSI Reference 2 RSSI2 (RSSI RF IC(Receive) -
-
RF IC(Receive)
measurement value) 1~256
5
-
-
-
Receiver
Section 3
1-34 (No.RA070<Rev.001>)
Order
Adjustment item
Main LCD display
Sub LCD display
AW
AS
AN
Nn
Nv
D Adjust
(Analog (Analog (Analog (NXDN (NXDN Very (DMR) item
Wide 5k) Wide 4k) Narrow) Narrow) Narrow)
Number
Adjustment range
22 RSSI Reference 3 RSSI3 (RSSI DSP (Standby) -
-
DSP (Standby)
measurement value) 1~256
5
-
-
-
Receiver
Section 3
23 RSSI Reference 4 RSSI4 (RSSI RF IC (Standby) -
-
RF IC (Standby)
measurement value) 1~256
5
-
-
-
Receiver
Section 3
24 Squelch Open SQL
(ASQDET
5
5
measurement value) 1~256
5
5
5
5
Receiver
Section 4
25 Squelch Tight SQLT (ASQDET
5
5
measurement value) 1~256
5
-
-
-
Receiver
Section 5
26 Low RSSI
LRSSI (RSSI DSP (Receive) -
-
measurement value) 1~256
5
-
-
-
Receiver
Section 6
27 High RSSI
HRSSI (RSSI DSP (Receive) -
-
measurement value) 1~256
5
-
-
-
Receiver
Section 7
(No.RA070<Rev.001>)1-35
4.3.6 Panel tuning mode flow chart
Note: * In this Panel tuning mode flow chart, the Adjustment item name is modified.
Panel Test Mode
[ ] [ ]hold
LCD Contrast
CNTR
[ ]press [ ]hold VCO Assist
[ ]
AST
[ ]press [ ]hold
RTC Correction
RTC
[ ]press [ ]hold
High Power
Narrow [ ]
H_PWR
An
[ ]press [ ]hold
Low Power
Narrow [ ]
L_PWR
An
[ ]press [ ]hold
Ramp Offset
RAMP
[ ]press [ ]hold
Balance
Narrow [ ]
BAL
An
[ ]press [ ]hold Analog Max Deviation Wide 5k [ ]
ADEV
Aw
[ ]press [ ]hold [ ]
NXDN High Deviation Narrow [ ]
NDEV
Nn
[ ]press [ ]hold [ ]
DMR High Deviation DMR
DDEV
D
[ ]press [ ]hold
[ ]
Upper: ADJ point Name
N/W/VN
Lower: Displayed characters
For all adjustment items, press the [ ] button
to write the adjustment value.
10 reference level Adjustments
10 reference level Adjustments
10 reference level Adjustments
10 reference level Adjustments
Analog Max Deviation ADEV
Wide 4k
As [ ]
[ ] Analog Max Deviation ADEV
NXDN High Deviation NDEV
10 reference level Adjustments
VeryNarrow
Nv [ ]
10 reference level Adjustments
Narrow
An [ ]
[ ]
6 or 10 reference level Adjustments
5 reference level Adjustments
6 reference level Adjustments
QT Deviation QT [ ]press [ ]hold
DQT Deviation DQT [ ]press [ ]hold
LTR Deviation LTR [ ]press [ ]hold
DTMF Deviation DTMF [ ]press [ ]hold
Wide 5k Aw [ ]
Wide 5k Aw [ ]
Wide 5k Aw [ ]
Wide 5k Aw [ ]
[ ] QT Deviation QT
[ ] DQT Deviation DQT
[ ] LTR Deviation LTR
[ ] DTMF Deviation DTMF
Wide 4k [ ] QT Deviation
As
QT
[ ]
Wide 4k As [ ]
[ ]
DQT Deviation DQT
Wide 4k As [ ]
[ ]
LTR Deviation LTR
Wide 4k
As [ ]
[ ]
DTMF Deviation DTMF
Narrow An [ ]
Narrow An [ ]
Narrow An [ ]
Narrow An [ ]
[ ]
6 or 10 reference level Adjustments [ ]
6 or 10 reference level Adjustments [ ]
6 or 10 reference level Adjustments [ ]
6 or 10 reference level Adjustments
10 reference level Adjustments
Single Tone Deviation TONE [ ]press [ ]hold
MSK Deviation MSK [ ]press [ ]hold
CW ID Deviation CWID [ ]press [ ]hold Battery BATT [ ]press [ ]hold
IQ Phase IQ [ ]press [ ]hold
RSSI Referance 1 RSSI1 [ ]press [ ]hold
RSSI Referance 2 RSSI2 [ ]press [ ]hold
RSSI Referance 3 RSSI3 [ ]press [ ]hold
RSSI Referance 4 RSSI4 [ ]press [ ]hold
Squelch (Open) SQL [ ]press [ ]hold
Wide 5k [ ] Aw [ ]
Narrow [ ] An
MSK Deviation MSK
10 reference level Adjustments
Wide 4k [ ] MSK Deviation
As
MSK
[ ]
Narrow
An [ ]
[ ]
6 or 10 reference level Adjustments
Narrow [ ] An
5 reference level Adjustments
Narrow [ ] An
5 reference level Adjustments
Narrow [ ] An
5 reference level Adjustments
Narrow [ ] An
5 reference level Adjustments
Narrow [ ] An
5 reference level Adjustments
Wide 5k [ ] Squelch (Open) Wide 4k [ ] Squelch (Open) Narrow [ ] Squelch (Open) Narrow
Aw
SQL
As
SQL
An
SQL
Nn
[ ]
[ ]
[ ]
[ ]
[ ]
Squelch (Open) VeryNarrow Nv [ ]
Upper: ADJ point Name Lower: Displayed characters
800MHz TX Low [ ]
800M TX L
[ ] 800MHz TX Center [ ] 800M TX C
[ ] 800MHz TX High 800M TX H
[ ]
[ ] 900MHz RX/TA Low [ ]
900M RX/TA L
[ ] 900MHz RX/TA High [ ]
900M RX/TA H
[ ]
5 reference level Adjustments exit
800MHz TX Low 800M TX L
[ ]
[ ] 800MHz TX Center [ ]
800M TX C
[ ] 800MHz TX High 800M TX H
[ ]
[ ] 800MHz RX/TA Low [ ]
800M RX/TA L
[ ] 800MHz RX/TA Center [ ]
800M RX/TA C
[ ] 800MHz RX/TA High [ ]
800M RX/TA H
[ ]
6 reference level Adjustments exit
800MHz TX Low [ ]
800M TX L
[ ] 800MHz TX Center [ ]
800M TX C
[ ] 800MHz TX High
[ ]
800M TX H
[ ] 800MHz RX/TA Low [ ]
800M RX/TA L
[ ] 800MHz RX/TA Center [ ]
800M RX/TA C
[ ] 800MHz RX/TA High [ ]
800M RX/TA H
[ ] 900MHz TX Low
[ ]
900M TX L
[ ] 900MHz TX High
[ ]
900M TX H
[ ] 900MHz RX/TA Low [ ]
900M RX/TA L
[ ] 900MHz RX/TA High [ ]
900M RX/TA H
[ ]
10 reference level Adjustments exit
Squelch (Tight) SQLT [ ]press [ ]hold
RSSI (Low) LRSSI [ ]press [ ]hold
RSSI (High) HRSSI [ ]press [ ]hold
Wide 5k [ ] Aw
[ ]
Narrow [ ] An
Narrow [ ] An
Squelch (Tight) SQLT
Wide 4k [ ] As [ ]
5 reference level Adjustments
5 reference level Adjustments
Squelch (Tight) SQLT
Narrow An [ ]
[ ]
5 reference level Adjustments
[ ] Squelch (Open) DMR
[ ]
D
[ ] 5 reference level Adjustments
1-36 (No.RA070<Rev.001>)
4.4 Adjustment points
MAIN UNIT (XC1-276) Component Side
RTC (CN412)
CN412 RTC
4.5 Test Equipment Required for Alignment
Test Equipment
Major Specifications
1. Standard Signal Generator (SSG)
Frequency Range Modulation Output
100 to 950MHz 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 Operation Frequency Measurement Capability
50ohm 100 to 950MHz Vicinity of 10W
3. Deviation Meter
Frequency Range
100 to 950MHz
4. Digital Volt Meter (DVM)
Measuring Range Input Impedance
10mV to 10V 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
5A
8. AF Volt Meter (AF VM)
Frequency Range Voltage Range
50Hz to 10kHz 1mV to 10V
9. Audio Generator (AG)
Frequency Range Output
50Hz to 5kHz or more 0 to 1V
10. Distortion Meter
Capability Input Level
3% or less at 1kHz 50mV to 10Vrms
11. Spectrum Analyzer
Measuring Range
DC to 1GHz or more
12. 8ohm Dummy Load
Approx. 8ohm, 3W
13. Regulated Power Supply
5V to 10V, approx. 3A, Useful if ammeter equipped
* The test equipment which is not used for adjustment is contained in this table.
(No.RA070<Rev.001>)1-37
Antenna connector adapter The antenna connector of this transceiver uses an SMA terminal. Use an antenna connector adapter [SMA(f) - BNC(f) or SMA(f) - N(f)] for adjustment. (The adapter is not provided as an option, so buy a commercially-available one.)
Nut wrench In order to turn the volume nut and the channel selector nut, use a recommendation tool. Part No.: W05-1123-00
Battery Jig (W05-0909-00) Connect the power cable properly between the battery jig installed in the transceiver and the power supply, and be sure output voltage and the power supply polarity prior to switching the power supply ON, otherwise over voltage and reverse connection may damage the transceiver, or the power supply or both. When using the battery jig in user mode, the transceiver assumes that a lithium-ion battery pack is attached to the transceiver. In adjustment mode, battery type detection is not performed.
Universal connector Use the interface cable (KPG-36U/36X) for PC tuning for panel tuning. Connect the plug to the universal connector of the transceiver and tighten the screw. Numbers are universal connector terminal numbers.
Caution (1) When connecting the plug to the universal connector of the transceiver, a short circuit may occur. To prevent this, be sure to turn the transceiver POWER switch off. (2) Since the RX AF output is a BTL output, there is a DC component. Isolate this with a capacitor or transformer as shown in the figure. (3) Do not connect an instrument between red or black and GND.
*Universal connector
1 : SSW 3 : SP5 : EMC 7 : PTT 9 : OPT 11 : 5V 13 : RXD
2 : SP+ 4 : MSW 6 : ME 8 : PF 10 : E 12 : TXD 14 : SMIC
Note: When using the battery jig, you must measure the voltage at the terminals of the battery jig. Otherwise, a slight voltage drop may occur within the power cable, between the power supply and the battery jig, especially while the transceiver transmits.
+ Terminal (Red) Terminal (Black)
R1 1.8M
Schematic diagram S
+ +
*Panel tuning
C1 100P/25V
C2 470P/25V
C3 100µ/25V
Terminal (Black)
Power Power cable supply
+Terminal (Red)
SCREW TUBE
To transceiver
2 : RED (RX AF OUTPUT) 3 : BLACK (RX AF OUTPUT)
5 : WHITE (MIC INPUT)
6 : BROWN (MIC GND)
7 : BLUE (PTT SW) GND ON
8 : YELLOW (PF SW)
10 : BROWN (GND)
11 : GREEN (5M)
BLU (7)
PTT SW
BRN (10)
RED (2)
100 10V +
8ohm
AF Voltmeter
BLK (3)
+
100 10V
WHT (5) +
10 10V
BRN (6)
Audio generator
Note: Pin 1 (SSW) and Pin 4 (MSW) are connected to Pin 10 (GND) to active External SP and External MIC.
1-38 (No.RA070<Rev.001>)
*PC tuning Connect the wires to the PCB in the connector case of interface cable. For output the wires out of the connector case, need to process the connector case.
KPG-36U/36X
PCB layout Shield
8ohm 100 10V +
100 10V
+ 10 10V
+
AF Voltmeter Audio generator
Remove the screw
Connector case
4.6 Radio check Section
Item
Condition
<PC>: PC test mode <Panel>: Panel tuning mode
1. Frequency <PC>
check
1) Test Channel: 1
Test Signaling Mode: Analog
Signaling: 1
2) Press [Transmit] button.
<Panel> 1) CH-Sig: 1-1 2) PTT: ON
2. High power <PC>
check
1) Test Channel: 1
(Battery
Test Signaling Mode: Analog
voltage:7.5V) Signaling: 1
2) Press [Transmit] button.
1) Test Channel: 2 Test Signaling Mode: Analog Signaling: 1
2) Press [Transmit] button.
1) Test Channel: 3 Test Signaling Mode: Analog Signaling: 1
2) Press [Transmit] button.
<Panel> 1) CH-Sig: 1-1 2) PTT: ON
1) CH-Sig: 2-1 2) PTT: ON
1) CH-Sig: 3-1 2) PTT: ON
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
f. counter
Check an internal temperature of radio from 20C to 33C.
±0.25ppm ±201.5Hz @806.05MHz
Power meter Ammeter
Check
2.5~3.5W 2.3A or less
Power meter Ammeter
(No.RA070<Rev.001>)1-39
Item
Condition
<PC>: PC test mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
3. Low power <PC>
check
1) Test Channel: 1
(Battery
Test Signaling Mode: Analog
voltage:7.5V) Signaling: 1
2) Press [Transmit] button.
Power meter Ammeter
Check
0.5~1.5W 1.1A or less
1) Test Channel: 2 Test Signaling Mode: Analog Signaling: 1
2) Press [Transmit] button.
1) Test Channel: 3 Test Signaling Mode: Analog Signaling: 1
2) Press [Transmit] button.
<Panel> 1) CH-Sig: 1-1 2) PTT: ON
Power meter Ammeter
1) CH-Sig: 2-1 2) PTT: ON
1) CH-Sig: 3-1 2) PTT: ON
4. MIC sensitivity check
<PC> 1) Test Channel: 1
Test Signaling Mode: Analog Signaling: 1 2) AG: 1kHz 3) Press [Transmit] button.
<Panel> 1) CH-Sig: 1-1 2) AG: *Same as above 3) PTT: ON
Deviation meter Oscilloscope AG AF VM
Adjust AG input to get a standard 12.5mV
MOD.
±5.8mV
Standard MOD Wide 5k: ±3.0kHz Wide 4k: ±2.4kHz Narrow: ±1.5kHz
5. Sensitivity check
<PC> 1) Test Channel: 1
Test Signaling Mode: Analog Signaling: 1 2) SSG output: -117dBm (0.32V) Wide 5k: (MOD: 1kHz/±3.0kHz) Wide 4k: (MOD: 1kHz/±2.4kHz) Narrow: (MOD: 1kHz/±1.5kHz)
SSG AF VM Oscilloscope Distortion meter 8ohm Dummy load
Check
12dB SINAD or more
<Panel> 1) CH-Sig: 1-1 2) SSG output: *Same as above
1-40 (No.RA070<Rev.001>)
4.7 Common Section Note: "Adj points" are described by abbreviation as "8" for 800M and "9" for 900M.
Item 1. Setting
2. LCD Contrast
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
1) DC voltage:7.5V 2) SSG standard modulation
[Wide 5k] MOD:1kHzDEV:3kHz [Wide 4k] MOD:1kHzDEV:2.4kHz [Narrow] MOD:1kHzDEV:1.5kHz
<PC> 1) Adj item: [LCD Contrast]
<Panel> 1) Adj item: [CNTR]
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[+], [-] Write fixed value "115".
[], []
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
3. VCO Assist <PC> 1) Adj item: [VCO Assist] 2) Adj points: 10 points [8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H]
<Panel> 1) Adj item: [AST] 2) Adj points: *Same as above
[+], [-] [], []
<PC>
2.5V±0.1V
[Automatic Adjustment]
1) Press [Autotune] button.
2) Press [Apply] button to store the
adjustment value after the
automatic adjustment has
finished.
3) Verify that the VCO lock voltage
is within the specification.
<PC> <Panel> [Manual Adjustment] 1) Change the adjustment value to
get VCO lock voltage within the specified voltage. 2) Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value. after all adjustment points have been adjusted.
Note: Confirm the VCO lock voltage approximately 3 seconds after the adjustment value is changed.
4. Frequency <PC> 1) Adj item: [Frequency] 2) SSG output : -20dBm (22.4mV) (CW (without modulation))
<Panel> *The Frequency adjustment can be performed only in PC tuning mode.
SSG
[+], [-]
Press [Start] button of "Auto Tuning". Press [Apply] button to store the adjustment value after the automatic adjustment has finished.
"IF20" value = Within 0±10 digits. The value of "IF20" will become around "0" after the adjustment has finished.
Caution: Perform the frequency adjustment under the following conditions. · Temperature range of +20C to +33C (+68.0F to +91.4F).
(The temperature is displayed on the Frequency adjustment screen of the KPG-D3/D3N and the LCD of the transceiver.) · Use an accuracy of 0.001ppm for the SSG. (Use a standard oscillator if necessary.) Remark: "Frequency" is adjusted under receiving condition with SSG.
5. RTC Correction
<PC> 1) Adj item: [RTC Correction]
<Panel> 1) Adj item: [RTC]
Frequency Counter
Test Point (CN412/MAIN UNIT)
[+], [-] [], []
The adjustment value should input the display of the Frequency Counter.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
(No.RA070<Rev.001>)1-41
4.8 Transmitter Section Note: "Adj points" are described by abbreviation as "8" for 800M and "9" for 900M.
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
1. High
<PC>
Transmit
1) Adj item: [High Transmit Power]
Power
2) Adj points: 10 points
(Battery
[8TX L], [8TX C], [8TX H],
voltage :7.5V) [8RX/TA L], [8RX/TA C],
[8RX/TA H], [9TX L], [9TX H],
[9RX/TA L], [9RX/TA H]
3) Press [Transmit] button.
<Panel> 1) Adj item: [H_PWR] 2) Adj points: *Same as above 3) PTT : ON
2. Low
<PC>
Transmit
1) Adj item: [Low Transmit Power ]
Power
2) Adj points: 10 points
(Battery
[8TX L], [8TX C], [8TX H],
voltage :7.5V) [8RX/TA L], [8RX/TA C],
[8RX/TA H], [9TX L], [9TX H],
[9RX/TA L], [9RX/TA H]
3) Press [Transmit] button.
<Panel> 1) Adj item: [L_PWR] 2) Adj points: *Same as above 3) PTT : ON
3. Ramp Offset
<PC> 1) Adj item: [Ramp Offset ] 2) Press [Transmit] button.
<Panel> 1) Adj item: [RAMP] 2) PTT : ON
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
Power meter Ammeter
[+], [-]
3.0W
±0.1W
2.3A or less
Press [Apply] button for <PC>, or
[ ] button for <Panel> to store
the adjustment value.
[], []
[+], [-]
1.0W
±0.1W
1.1A or less
Press [Apply] button for <PC>, or
[ ] button for <Panel> to store
the adjustment value.
[], []
Power meter Ammeter
[+], [-] [], []
<PC> [Automatic Adjustment] 1) Press [Autotune(TX starts)]
button. 2) Press [Apply] button to store the
adjustment value after the automatic adjustment has finished.
<PC> <Panel> [Manual Adjustment] 1) Set the adjustment value to "1". 2) Press [Transmit] button for
<PC>, or [PTT] button for <Panel> and increase the adjustment value slowly while monitoring the offset monitor value. 3) Set the adjustment value when the offset monitor value exceed "10".
1-42 (No.RA070<Rev.001>)
Item 4. Balance
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
<PC> 1) Adj item: [Balance] 2) Deviation meter
LPF: 3kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
<Panel> 1) Adj item: [An BAL] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
5. Maximum <PC>
Deviation 1) Adj item: [Maximum Deviation
adjust
(Analog Wide 5k)]
[Analog Wide 2) Deviation meter
5k]
LPF: 15kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
<Panel> 1) Adj item: [Aw ADEV] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[Analog Wide <PC>
4k]
1) Adj item: [Maximum Deviation
(Analog Wide 4k)]
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
<Panel> 1) Adj item: [As ADEV] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
Deviation meter Oscilloscope
[+], [-]
The Deviation of 20Hz frequency is fixed. Change the 2kHz adjustment value to become the same deviation of 20Hz within the specified range.
2kHz Tone deviation is within ± 1.0% of 20Hz tone deviation.
[], []
<PC> While PTT is ON click the check box "2kHz Sine Wave" to change the 20Hz/2kHz. Press [Apply] button to store the adjustment value.
Deviation meter Oscilloscope
[+], [-]
<Panel> While PTT is ON, press the [] button to change the 20Hz/2kHz. Press [ ] button to store the adjustment value.
Write fixed value "489" for each 4150~4250Hz adjustment point. Transmit at each adjustment point and check that the deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
[], []
Deviation meter Oscilloscope
[+], [-]
Write fixed value "487" for each 3310~3410Hz adjustment point. Transmit at each adjustment point and check that the deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
[], []
(No.RA070<Rev.001>)1-43
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[Analog Narrow]
<PC> 1) Adj item: [Maximum Deviation
(Analog Narrow)] 2) Deviation meter
LPF: 15kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
[+], [-]
Write fixed value "481" for each 2050~2150Hz adjustment point. Transmit at each adjustment point and check that the deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An ADEV] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
6. NXDN High <PC>
Deviation 1) Adj item: [NXDN High Deviation
[NXDN
(NXDN Narrow)]
Narrow]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 10 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9TX L], [9TX H],
[9RX/TA L], [9RX/TA H]
4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "497" for each 2995~3117Hz adjustment point. Transmit at each adjustment point and check that the deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [Nn NDEV] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
[NXDN Very Narrow]
<PC> 1) Adj item: [NXDN High Deviation
(NXDN Very Narrow)] 2) Deviation meter
LPF: 3kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "491" for each 1311~1363Hz adjustment point. Transmit at each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [Nv NDEV] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
1-44 (No.RA070<Rev.001>)
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
7. DMR High Deviation
<PC> 1) Adj item: [DMR High Deviation
(DMR Narrow)] 2) Deviation meter
LPF: 3kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
<Panel> 1) Adj item: [D DDEV] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
8. QT
<PC>
Deviation 1) Adj item: [QT Deviation (Analog
[Analog Wide Wide 5k)]
5k]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
<Panel> 1) Adj item: [Aw QT] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[Analog Wide <PC>
4k]
1) Adj item: [QT Deviation (Analog
Wide 4k)]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L],
[8RX/TA C], [8RX/TA H]
4) Press [Transmit] button.
<Panel> 1) Adj item: [As QT] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[+], [-]
Write fixed value "496" for each 2695~2803Hz adjustment point. Transmit at each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
[], []
Deviation meter Oscilloscope
[+], [-]
Write fixed value "518" for each 0.75kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
[], []
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "519" for each 0.60kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
[], []
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
(No.RA070<Rev.001>)1-45
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[Analog Narrow]
<PC> 1) Adj item: [QT Deviation (Analog
Narrow)] 2) Deviation meter
LPF: 3kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "519" for each 0.35kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An QT] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
9. DQT
<PC>
Deviation 1) Adj item: [DQT Deviation (Analog
[Analog Wide Wide 5k)]
5k]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "426" for each 0.75kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [Aw DQT] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
[Analog Wide <PC>
4k]
1) Adj item: [DQT Deviation (Analog
Wide 4k)]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "433" for each 0.60kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [As DQT] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
1-46 (No.RA070<Rev.001>)
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[Analog Narrow]
<PC> 1) Adj item: [DQT Deviation (Analog
Narrow)] 2) Deviation meter
LPF: 3kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "433" for each 0.35kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An DQT] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
10. LTR
<PC>
Deviation 1) Adj item: [LTR Deviation (Analog
[Analog Wide Wide 5k)]
5k]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "518" for each 1.00kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [Aw LTR] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
[Analog Wide <PC>
4k]
1) Adj item:LTR Deviation (Analog
Wide 4k)]
2) Deviation meter
LPF: 3kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "502" for each 0.90kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [As LTR] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
(No.RA070<Rev.001>)1-47
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[Analog Narrow]
<PC> 1) Adj item: [LTR Deviation (Analog
Narrow)] 2) Deviation meter
LPF: 3kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "513" for each 0.75kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An LTR] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
11. DTMF <PC>
Deviation
Deviation 1) Adj item: [DTMF Deviation (Analog meter
[Analog Wide Wide 5k)]
Oscilloscope
5k]
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
[+], [-]
Write fixed value "545" for each 2.50kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [Aw DTMF] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
[Analog Wide <PC>
Deviation
4k]
1) Adj item: [DTMF Deviation (Analog meter
Wide 4k)]
Oscilloscope
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
[+], [-]
Write fixed value "544" for each 2.00kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [As DTMF] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
1-48 (No.RA070<Rev.001>)
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
[Analog Narrow]
<PC>
Deviation
1) Adj item: [DTMF Deviation (Analog meter
Narrow)]
Oscilloscope
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 10 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9TX L], [9TX H],
[9RX/TA L], [9RX/TA H]
4) Press [Transmit] button.
[+], [-]
Write fixed value "542" for each 1.25kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An DTMF] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
12. MSK
<PC>
Deviation
Deviation 1) Adj item: [MSK Deviation (Analog meter
[Analog Wide Wide)]
Oscilloscope
5k]
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
[+], [-]
Write fixed value "500" for each 3.00kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [Aw MSK] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
[Analog Wide <PC>
Deviation
4k]
1) Adj item: [MSK Deviation (Analog meter
Wide 4k)]
Oscilloscope
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 6 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H]
4) Press [Transmit] button.
[+], [-]
Write fixed value "499" for each 2.40kHz adjustment point. Transmit at ±0.05kHz each adjustment point and check that the Analog deviation is within the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [As MSK] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
(No.RA070<Rev.001>)1-49
Item [Analog Narrow]
13. CWID Deviation [Analog Narrow]
14. Battery Warning [Reference voltage Writing]
15. Battery Warning [Check]
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
<PC> 1) Adj item: [MSK Deviation
(Analog Narrow)] 2) Deviation meter
LPF: 15kHz/ HPF: OFF 3) Adj points: 10 points
[8TX L], [8TX C], [8TX H], [8RX/TA L], [8RX/TA C], [8RX/TA H], [9TX L], [9TX H], [9RX/TA L], [9RX/TA H] 4) Press [Transmit] button.
Deviation meter Oscilloscope
[+], [-]
Write fixed value "499" for each 1.50kHz
adjustment point. Transmit at
±0.05kHz
each adjustment point and check
that the Analog deviation is within
the Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An MSK] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
<PC>
Deviation
1) Adj item: [CWID Deviation (Analog meter
Narrow)]
Oscilloscope
2) Deviation meter
LPF: 15kHz/ HPF: OFF
3) Adj points: 10 points
[8TX L], [8TX C], [8TX H],
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9TX L], [9TX H],
[9RX/TA L], [9RX/TA H]
4) Press [Transmit] button.
[+], [-]
Write fixed value "492" for each 1.10kHz
adjustment point.
±0.10kHz
Transmit at each adjustment point
and check that the Analog
deviation is within the
Specifications.
Press [Apply] button for <PC>, or [ ] button for <Panel> to store the adjustment value.
<Panel> 1) Adj item: [An CWID] 2) Deviation meter
*Same as above 3) Adj points: *Same as above 4) PTT : ON
[], []
<PC> 1) Adj item: [Battery Warning] 2) BATT terminal voltage:
6.2V *While transmitting
Power meter [+], [-] DVM
1) Press [Transmit] button. 2) Press [Acquire Monitored
Value] button. 3) Press [Apply] button to store the
adjustment value. Confirm that one predetermined numeric in the range 1 to 256 appears.
<Panel> 1) Adj item: [BATT] 2) BATT terminal voltage:
6.2V *While transmitting
[], []
1) PTT ON 2) Press [ ] button to store the
adjustment value.
<PC test mode> 1) Test Channel: 1
Test Signaling Mode: Analog Signaling 1 2) BATT terminal voltage: 6.0V *While transmitting 3) Press [Transmit] button.
Power meter [+], [-] DVM
Check
The transceiver can transmit with causing the LED to blink.
<Panel test mode> 1) CH-Sig: 1-1 2) BATT terminal voltage:
* Same as above 3) PTT : ON
[], []
1-50 (No.RA070<Rev.001>)
4.8.1 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 (Analog Wide 5k)", this signaling is composed of three elements [Balance, Maximum Deviation (Analog Wide 5k) and QT Deviation (Analog Wide 5k)]. Please adjust Balance and Maximum Deviation (Analog Wide 5k) before adjusting QT Deviation (Analog Wide 5k).
Mode Analog
NXDN
Signaling
Wide 5k
Audio
1. Balance adjust 2. Maximum Deviation [Analog Wide 5k]
QT
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. QT Deviation
[Analog Wide 5k]
DQT
1. Balance adjust 2. Maximum Deviation [Analog Wide 5k] 3. DQT Deviation [Analog Wide 5k]
LTR
1. Balance adjust
2. Maximum Deviation
[Analog Wide 5k]
3. LTR Deviation
[Analog Wide 5k]
DTMF
1. Balance adjust 2. Maximum Deviation [Analog Wide 5k] 3. DTMF Deviation [Analog Wide 5k]
MSK (Fleet sync)
1. Balance adjust 2. Maximum Deviation [Analog Wide 5k] 3. MSK Deviation [Analog Wide 5k]
Audio
-
CWID -
DMR Audio
-
Necessary adjustment and order
Wide 4k
Narrow
1. Balance adjust 2. Maximum Deviation [Analog Wide 4k]
1. Balance adjust 2. Maximum Deviation [Analog Narrow ]
1. Balance adjust 2. Maximum Deviation [Analog Wide 4k] 3. QT Deviation [Analog Wide 4k]
1. Balance adjust 2. Maximum Deviation [Analog Narrow ] 3. QT Deviation [Analog Narrow ]
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 4k] 3. LTR Deviation [Analog Wide 4k]
1. Balance adjust 2. Maximum Deviation [Analog Narrow ] 3. LTR Deviation [Analog Narrow ]
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 4k] 3. MSK Deviation [Analog Wide 4k]
1. Balance adjust 2. Maximum Deviation [Analog Narrow] 3. MSK Deviation [Analog Narrow]
-
1. Balance adjust
2. NXDN High Deviation
[NXDN Narrow]
-
-
-
1. Balance adjust
2. DMR High Deviation
Very Narrow -
-
-
-
-
-
1. Balance adjust 2. NXDN High Deviation [NXDN Very Narrow] 1. Balance adjust 2. Maximum Deviation [NXDN Very Narrow] 3. CWID Deviation [NXDN Very Narrow] -
· Balance is common with all the above deviation adjustments. If Balance (Transmitter Section 4) has already adjusted, please skip Step 1 and adjust from Step 2.
· 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 5) have already adjusted, please skip Step 2 and adjust from Step 3.
(No.RA070<Rev.001>)1-51
4.9 Receiver Section Note: "Adj points" are described by abbreviation as "8" for 800M and "9" for 900M.
Item 1. AF level setting
2. IQ Phase
3. RSSI Reference [DSP (Receive)]
[RF IC (Receive)]
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
<PC> 1) Test Channel: 1
Test Signaling Mode: Analog Signaling 1 2) SSG output: -47dBm (1mV) (MOD: 1kHz/±1.5kHz)
<Panel> 1) CH-Sig: 1-1 2) SSG output: *Same as above
<PC> 1) Adj item: [IQ Phase] 2) SSG output: -53dBm (500V)
(MOD:OFF) Freq: Tune Freq +8kHz 3) Adj points: 5 points [8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
<Panel> 1) Adj item: [An IQ] 2) SSG output: *Same as above 3) Adj points: *Same as above
<PC> 1) Adj item: [RSSI Reference
(Analog Narrow) 1 DSP (Receive)] 2) SSG output: 12dB SINAD level -3dB (MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points [8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
<Panel> 1) Adj item: [An RSSI 1] 2) SSG output: *Same as above 3) Adj points: *Same as above
<PC> 1) Adj item: [RSSI Reference
(Analog Narrow) 2 RF IC (Receive)] 2) SSG output: 12dB SINAD level -3dB (MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points [8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
<Panel> 1) Adj item: [An RSSI 2] 2) SSG output: *Same as above 3) Adj points: *Same as above
Measurement Unit Parts
Adjustment Method
Specifications /Remarks
SSG AF VM Dummy load
Volume knob
Turn the Volume knob to obtain 0.63V AF output.
0.63V±0.1V
SSG
[+], [-]
[Automatic Adjustment] After input signal from SSG, 1) Press [Autotune] button. 2) Press [Apply] button to store the
adjustment value after the automatic adjustment has finished.
SSG Distortion meter Oscilloscope
[], [] [+], [-]
After input signal from SSG, increase or decrease the adjustment value so that the RSSI indicator level becomes minimum.
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
[], []
SSG Distortion meter Oscilloscope
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
[], []
1-52 (No.RA070<Rev.001>)
Item
Condition
Measurement
Adjustment
<PC>: PC tuning mode <Panel>: Panel tuning mode
Unit Parts
Method
[DSP (Standby)]
<PC> 1) Adj item: [RSSI Reference
(Analog Narrow) 3 DSP (Standby)] 2) SSG output: 12dB SINAD level -3dB (MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points [8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
SSG Distortion meter Oscilloscope
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [An RSSI 3] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
[RF IC (Standby)]
<PC> 1) Adj item: [RSSI Reference
(Analog Narrow) 4 RF IC (Standby)] 2) SSG output: 12dB SINAD level -3dB (MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points [8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
SSG Distortion meter Oscilloscope
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [An RSSI 4] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
4.Squelch <PC>
SSG
Open
1) Adj item: [Squelch Open (Analog Distortion
[Analog Wide Wide 5k)]
meter
5k]
2) SSG output: 12dB SINAD level Oscilloscope
-3dB (MOD: 1kHz/±3kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [Aw SQL] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
[Analog Wide <PC>
SSG
4k]
1) Adj item: [Squelch Open (Analog Distortion
Wide 4k)]
meter
2) SSG output: 12dB SINAD level Oscilloscope
-3dB (MOD: 1kHz/±2.4kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [As SQL] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
Specifications /Remarks
(No.RA070<Rev.001>)1-53
Item [Analog Narrow]
[NXDN Narrow]
[NXDN Very Narrow]
[DMR]
Condition
Measurement
Adjustment
<PC>: PC tuning mode <Panel>: Panel tuning mode
Unit Parts
Method
<PC> 1) Adj item: [Squelch Open (Analog
Narrow)] 2) SSG output: 12dB SINAD level
-3dB (MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points
[8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [An SQL] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
<PC>
SSG
1) Adj item: [Squelch Open (NXDN Distortion
Narrow)]
meter
2) SSG Output: 12dB SINAD level Oscilloscope
at Analog Narrow -5dB
(MOD: 400Hz/±1.5kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [Nn SQL] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
<PC>
SSG
1) Adj item: [Squelch Open (NXDN Distortion
Very Narrow)]
meter
2) SSG Output: 12dB SINAD level Oscilloscope
at Analog Narrow -2dB
(MOD: 400Hz/±1.5kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [Nv SQL] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
<PC>
SSG
1) Adj item: [Squelch Open (DMR)] Distortion
2) SSG Output: 12dB SINAD level meter
at Analog Narrow -4dB
Oscilloscope
(MOD: 400Hz/±1.8kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [D SQL] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
Specifications /Remarks
1-54 (No.RA070<Rev.001>)
Item
Condition
Measurement
Adjustment
<PC>: PC tuning mode <Panel>: Panel tuning mode
Unit Parts
Method
5.Squelch <PC>
SSG
Tight
1) Adj item: [Squelch Tight (Analog Distortion
[Analog Wide Wide 5k)]
meter
5k]
2) SSG output: 12dB SINAD level Oscilloscope
+6dB (MOD: 1kHz/±3.0kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [Aw SQLT] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
[Analog Wide <PC>
SSG
4k]
1) Adj item: [Squelch Tight (Analog Distortion
Wide 4k)]
meter
2) SSG output: 12dB SINAD level Oscilloscope
+6dB (MOD: 1kHz/±2.4kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [As SQLT] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
[Analog Narrow]
<PC>
SSG
1) Adj item: [Squelch Tight (Analog Distortion
Narrow)]
meter
2) SSG output: 12dB SINAD level Oscilloscope
+6dB (MOD: 1kHz/±1.5kHz)
3) Adj points: 5 points
[8RX/TA L], [8RX/TA C],
[8RX/TA H], [9RX/TA L],
[9RX/TA H]
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [An SQLT] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
6. Low RSSI
<PC> 1) Adj item: [Low RSSI (Analog
Narrow)] 2) SSG output: -118dBm (0.28V)
(MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points
[8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
SSG Distortion meter Oscilloscope
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
<Panel> 1) Adj item: [An LRSSI] 2) SSG output: *Same as above 3) Adj points: *Same as above
[], []
Specifications /Remarks
(No.RA070<Rev.001>)1-55
Item
Condition
<PC>: PC tuning mode <Panel>: Panel tuning mode
7. High RSSI <PC> 1) Adj item: [High RSSI (Analog Narrow)] 2) SSG Output: -80dBm (22.4V) (MOD: 1kHz/±1.5kHz) 3) Adj points: 5 points [8RX/TA L], [8RX/TA C], [8RX/TA H], [9RX/TA L], [9RX/TA H]
<Panel> 1) Adj item: [An HRSSI] 2) SSG output: *Same as above 3) Adj points: *Same as above
Measurement Unit Parts
Adjustment Method
[+], [-]
After input signal from SSG; Press [Acquire Monitored Value] button and then press [Apply] button for <PC>, or press [ ] button for < Panel>, to store the adjustment value.
[], []
Specifications /Remarks
1-56 (No.RA070<Rev.001>)
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 Transceiver does not function (No LCD display, No power on beep or other) even if the power switch is turned on) due to broken BGA parts.
BGA parts MPU/DSP(IC401), mobile DDR(IC402), Flash Memory(IC404) When the BGA IC is problematic, it is necessary to replace the printed circuit board by the Service Main unit in service. Various ESN/ default adjustment values are written on the service unit. Please refer to "5.6 Replacing Main Unit".
Checking battery voltage
Points to be checked voltage
Normal voltage
Fail
+B CN3
6~9V
Checking power supply voltage
Pass
Checking voltage
Points to be checked 12M C32 18M C24 32M IC5(1pin) 18M_3 IC12(1pin)
Normal voltage
Fail
1.2V
1.8V
3.2V
1.8V
Power supply of each device is connected through the coil. [MPU/DSP] 12M: L404, L405, L406 18M: L407, L408 32M: R452
[mobile DDR] 18M: L409
[Flash Memory] 32M: R451 18M_3: L410
Checking the clock
Checking the clock
Points to be checked (1.2V) 19.2MHz MPU/DSP side R410
Pass
Normal voltage
Fail
1.2V(peak-to-peak)
19.2MHz
Checking the Reset/Control signal
Pass
Checking the control signal input to the MPU/DSP
Points to be checked /RST IC403 (4pin) /BINT Q3 (6pin) /PSW Q2 (3pin)
Normal voltage
Fail
1.8V
3.2V
3.2V
Pass
The BGA parts are not broken. If the CN3 is less than 6V, charge the battery.
Checking for an abnormal point 12M has an abnormal voltage. [MPU/DSP] Remove L404 and L405 and L406 to check the voltage of the 12M. .If the voltage becomes normal, the MPU/DSP is broken. 18M has an abnormal voltage. [MPU/DSP] Remove L407 and L408 to check the voltage of the 18M. If the voltage becomes normal, the MPU/DSP is broken.
[mobile DDR] Remove L409 to check the voltage of the 18M. If the voltage becomes normal, the mobile DDR is broken. 32M has an abnormal voltage. [MPU/DSP] Remove R452 to check the voltage of the 32M. If the voltage becomes normal, the MPU/DSP is broken. [Flash memory] Remove R451to check the voltage of the 32M. If the voltage becomes normal, Flash Memory is broken. 18M_3 has an abnormal voltage. [Flash memory] Remove L410 to check the voltage of the 18M_3. If the voltage becomes normal, Flash Memory is broken.
If the voltage is not corrected, there is a problem other than the BGA parts.
The BGA parts are not broken.
Checking the control signal output from the MPU/DSP
Points to be checked /FRST Flash memory side D402
Normal voltage
Fail
1.8V
Pass
If the /FRST is always 0V, the MPU/DSP is broken.
Remove D402 to check the voltage of Flash Memory side R445. If the voltage becomes abnormal, Flash Memory is broken.
(No.RA070<Rev.001>)1-57
Checking the output signal from the MPU/DSP Points to be checked /CS_F IC405 (4pin)
Points to be checked SBC MPU/DSP side R13
Pass
Normal voltage After power-on, and Fail 1.8V 0V 1.8V, 1.8V fixed later
Pass
Normal voltage
Fail
3.2V
Pass
The LCD displays control Points to be checked 32M L427 side CN402
Points to be checked /LCD_RST R479
Normal voltage
Fail
3.2V
Pass
Normal voltage
Fail
1.8V
Pass
If the IC405 (1pin) is 0V or 1.8V, the MPU/DSP may be broken. If the IC405 (2pin) is 0V or 1.8V, the MPU/DSP or Flash Memory may be broken.
Remove the following parts. C28 IC6 R29 Q4 IC14 R13
If the MPU/DSP side is 0V,the MPU/DSP or Flash Memory or mobile DDR may be broken.
The BGA parts are not broken. Remove L427 to check the voltage of the 32M. If the voltage becomes normal, re-insert the FPC of Display Unit PCB or replace Display Unit PCB.
Remove R479. If the MPU/DSP side is less than 3.2V, the MPU/DSP or Flash Memory or mobile DDR may be broken.
Points to be checked /CS4 CP410 (10pin)
Normal voltage Fail
After power-on, and 1.8V 0V 1.8V, 1.8V fixed later
Pass
/CS4 has an abnormal voltage. Check each of the following items.
Re-insert the FPC of Display Unit PCB. Replace the Display Unit PCB.
As a result, if the abnormality yet, the MPU/DSP or Flash Memory or mobile DDR may be broken.
It is unlikely that the BGA parts are broken.
When an error display appears on the LCD The LCD display "INIT ERROR 1".
1) /RST 2) /BINT 3) /PSW 4) /FRST 5) /CS_F 6) SBC 7) LCD_RST 8) /CS4
: MPU/DSP reset signal : Battery final voltage monitoring : Power switch signal : Flash memory reset signal : Flash memory chip select signal : Switch +B control : LCD reset signal : LCD controller chip select signal
If an error occurs when the mobile DDR internal RAM reads or writes. The mobile DDR may be broken.
LOW LOW LOW LOW LOW HIGH LOW LOW
Reset Final voltage ON Reset Active ON Reset Active
1-58 (No.RA070<Rev.001>)
5.2 Failure diagnosis of the GPS section
Overview: When the GPS function does not operate, use this flowchart to determine the problem.
BT/GPS IC (IC351) When the BT/GPS IC is problematic, it is necessary to replace the printed circuit board by the Service Main unit in service. Various ESN/default adjustment values are written on the service unit. Please refer to "5.6 Replacing Main Unit".
Major parts for a GPS circuit
· GPS antenna (Connect on CN152, CN153)
· Front End Module (A151)
IC401
· SAW Filter (L359)
· BT/GPS IC (IC351) · Level conversion IC (IC352, IC353) · TCXO 19.2MHz (X401)
MPU/DSP IC
· 32.768 kHz clock (X351) · 32BT Regulator (IC8) · 18BT Regulator (IC7)
X401
TCXO 19.2MHz
· MPU/DSP IC (IC401)
UART
IC352
Level UART conversion
IC
PCM
IC353
Level Conversion
IC
PCM
IC351
BT/GPS IC
X351 32.768kHz
Clock
A151 FEM
DISPLAY UNIT
HPF
ANT Matching
SheetMetal
GPS ANT
RF Matching
L359
SAW Filter
MAIN UNIT
ATT
Hyper Pogo
Current Monitor Circuit
CN354 CN356
Positioning is not carried out normally.
Are you operating at a location that is suitable for Fail receiving the GPS signals?
Pass Verify the contact of the GPS internal antenna with Fail the PCB.
Pass
Check the DISPLAY UNIT PCB.
Operate at place where is good visibility of the sky.
Re-assembling the GPS antenna correctly If an antenna is defective, replace the GPS internal antenna.
Check the DISPLAY UNIT PCB.
Verify the ANT Matching Parts.
Fail
Visually check to C172, L173.
Pass
Verify the High Pass Filter Parts.
Verify the C175, L176, C177, L178, C179,
Fail
D180 and D181.
Pass
Verify the FEM.
Verify the L187, C184, C186, R189 and
Fail
C190. Check the voltage of the C192 with
the side CN157. And verify PCB side B
parts L194, C193 and R191.
Pass
Check the MAIN UNIT PCB.
Replace any abnormal parts. Replace any abnormal parts. Replace any abnormal parts.
(No.RA070<Rev.001>)1-59
Check the MAIN UNIT PCB Side A.
Verify the CN354 and Fail
CN356, C391. Pass
Verify the BT/GPS power
supply.
Fail
(32BT) C34[Hot Side]: 3.2V
Pass
Verify the BT/GPS power Fail
supply. (18BT) R9:
Pass
Verify the current monitor circuit parts.
Fail Check the L354, C377, R364, R362, R363, C376, R365 and C378.
Pass
Check the PCB side B.
Check the PCB side B.
Verify the GPS RF circuit
parts.
Check the R369, R356,
Fail
R355, R354, L359, C395,
C369 and L353.
Pass
Verify the BT/GPS control
signal (/BT_SHUTDOWN).
Fail
R353: 1.8V
Pass
Replace abnormal parts.
[The BT/GPS power supply
line 32BT circuit is faulty]
Fail
Verify the PCB side A parts.
Replace any abnormal parts.
[The BT/GPS power supply
line 18BT circuit is faulty]
Fail
Verify the PCB side A parts,
C15.
[Current monitor circuit is
faulty.]
Fail
Replace any abnormal parts.
[GPS RF circuit is faulty.] Replace any abnormal parts.
[MPU/DSP (IC401) or IC351 is faulty] Replace the PCB.
1-60 (No.RA070<Rev.001>)
Check the PCB side B (a).
Check the PCB side B (b).
Check the PCB side B.
Verify the reference clock for
the BT/GPS.
(BT_CLK) Intersection of
Fail
R360 and R361: Sine
waveform, 19.2MHz, 0.2 to
1.2 Vp-p
Pass
Verify the BT/GPS control
signal (18BT_RX).
Fail
IC352 (7pin):
Square waveform UART data
of 1.8V logic.
Baud rate:
Default: 115.2kbps
After: 3.967Mbps.
Pass
Verify the BT/GPS control
signal (RXD2).
Fail
CP352 (1pin): Square
waveform UART data of 3.2V
logic.
Baud rate:
Default: 115.2kbps
After: 3.967Mbps.
Pass
[The reference clock circuit
for the BT/GPS is faulty]
Fail
Verify the PCB side A parts
C356, R360, R861.
Replace any abnormal parts.
Verify the BT/GPS control
signal (TXD2).
Fail
CP352 (2pin):
Square waveform UART data
of 3.2V logic.
Pass
[The 18BT_HCI_RX (TXD2) line circuit is faulty] Verify the CP352, IC352 and R357. Replace any abnormal parts.
Verify the BT/GPS control
signal (18BT_TX).
Fail
IC352 (8pin):
Square waveform UART data
of 1.8V logic.
Pass
[The RXD2 (18BT_TX) line circuit is faulty] Verify the CP352, IC352, R357. Replace any abnormal parts.
Check the PCB side B (c).
[MPU/DSP (IC401) is faulty] Replace the PCB.
[BT/GPS IC (IC351) is faulty] Replace the PCB.
Verify the RTC for the BT/GPS.
X351 (3pin): Square waveform, 32.768 kHz,
Fail
1.8Vp-p
Pass
[The BT/GPS IC is abnormal] Replace the PCB.
Verify the RTC line circuit for the BT/GPS. X351, L358, C375 Replace any abnormal parts.
(No.RA070<Rev.001>)1-61
Check the PCB side B (a).
[The BT/GPS power supply line 32BT circuit is faulty]
Fail Verify the PCB side B parts. L351, C388, C363, C364, C372 Replace any abnormal parts.
Check the PCB side B (b).
[The BT/GPS power supply line 18BT circuit is
faulty]
Fail
Verify the PCB side A parts.
L352, R361, R360, C358, C370, L358, C375,
X351. Replace any abnormal parts.
[The BT/GPS IC is abnormal] Replace the PCB.
[The BT/GPS IC is abnormal] Replace the PCB.
Check the PCB side B (c).
[The reference clock circuit for the BT/GPS is
faulty]
Verify the PCB side B parts
X401(OUTPUT pin): Clipped sine wave,
X401(VCC pin): 3.2V,
R401, R403, C402, C403, R404, C404, R405,
R406, R410,
Fail
Q401(B, E): Clipped sine wave, Q401(C): 3.2V,
R407, C405, C407, R408, C406, L402, C408,
R412, R413, R414, C303, IC303
Replace any abnormal parts.
If any unexchangeable parts are abnormal,
replace the PCB.
[The BT/GPS IC is abnormal] Replace the PCB.
Descriptions of signal names (1) 32BT: BT/GPS IC 3.2V 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
1-62 (No.RA070<Rev.001>)
5.3 Failure diagnosis of the Bluetooth section
Overview When the Bluetooth function does not operate, use this flowchart to determine the problem.
BT/GPS IC (IC351) When the BT/GPS IC is problematic, it is necessary to replace the printed circuit board by the Service Main unit in service. Various ESN/default adjustment values are written on the service unit. Please refer to "5.6 Replacing Main Unit".
Major parts for a Bluetooth circuit · Bluetooth antenna (Sheet metal)
IC401
· LC filter (L361)
· BT/GPS IC (IC351) · Level conversion IC (IC352, IC353)
MPU/DSP IC
· TCXO 19.2MHz (X401)
· 32.768 kHz clock (X351)
· 32BT Regulator (IC7) · 18BT Regulator (IC8) · MPU/DSP IC (IC401)
X401
TCXO 19.2MHz
IC352 UART Level
conversion IC
IC353 PCM Level
conversion IC
UART PCM
IC351
BT/GPS IC
L361 LC Filter
X351
32.768kHz Clock
CN353 CN155 CN151
MAIN UNIT
DISPLAY UNIT
Bluetooth Antenna
Sheet metal
I can not pair with the Bluetooth (BT) headset.
Is the BT headset charged enough?
Is the BT headset turned on?
No
Is the BT headset in pairing mode?
Yes
Verify the contact of the BT internal antenna with
Fail
the PCB. (CN151, CN155, CN353)
Pass
Check the Display Unit PCB
Charge the BT headset. Turn on your BT headset and bring it within one meter. Try again pair with BT headset.
To reassembly correctly the BT antenna. If an antenna is defective, replace the BT internal antenna.
Check the Display Unit PCB
Verify the antenna matching parts.
Fail
Visually check to L151, L152, L153, R155, L156,
C158.
Pass
Check the PCB side A.
Replace any abnormal parts.
Check the PCB side A.
Verify the antenna matching parts. Visually check to R359, C353.
Pass
Verify the BT/GPS power
Fail
supply.
(32BT) C34: 3.2V
Pass
Fail Replace any abnormal parts.
[The BT/GPS power supply
Fail
line 32BT circuit is faulty]
Verify the parts.
IC7, L8, C33, C34, R9
Replace any abnormal parts.
Check the PCB side B (a).
(No.RA070<Rev.001>)1-63
Pass Verify the BT/GPS power
Fail supply. (18BT) C15: 1.8V
Pass
Check the PCB side B.
[The BT/GPS power supply
line 18BT circuit is faulty]
Fail
Verify the parts.
IC8, L9, C16, C15, R8
Replace any abnormal parts.
Check the PCB side B (a).
[The BT/GPS power supply line 32BT circuit is
faulty]
Fail
Verify the PCB side B parts.
L351, L366, R367
Replace any abnormal parts.
Check the PCB side B (b).
[The BT/GPS IC is abnormal] Replace the PCB.
[The BT/GPS power supply line 18BT circuit is
faulty]
Fail
Verify the PCB side B parts.
L352, L365
Replace any abnormal parts.
[The BT/GPS IC is abnormal] Replace the PCB.
Check the PCB side B.
Verify the reference clock for the BT/GPS.
Fail (BT_CLK) Intersection of C356 and R360: Sine waveform, 19.2MHz, 0.2 to 1.2 Vp-p
Pass
Verify the BT/GPS control
signal (18BT_HCI_RX).
Fail
IC352 (7pin):
Square waveform UART data
of 1.8V logic.
Baud rate:
Default: 115.2kbps
After: 3.967Mbps.
Pass
1-64 (No.RA070<Rev.001>)
[The reference clock circuit for the BT/GPS is faulty] Fail
Verify the parts C356, R360, R361, .R413, R412, C408, L402, C406, Q401, R407, R405, R406, C404, R404, X401, R401 Replace any abnormal parts.
Verify the BT/GPS control
signal (TXD2).
Fail
CP352 (2pin):
Square waveform UART data
of 3.2V logic.
Pass
[The 18BT_HCI_RX (TXD2) line circuit is faulty] Verify the CP352, IC352 Replace any abnormal parts.
Check the PCB side B (b).
[MPU/DSP (IC401) is faulty] Replace the PCB. [MPU/DSP (IC401) is faulty] Replace the PCB.
Pass
Verify the BT/GPS control
signal (RXD2).
Fail
CP352 (1pin): Square
waveform UART data of 3.2V
logic.
Baud rate:
Default: 115.2kbps
After: 3.967Mbps.
Pass
Verify the BT/GPS control
signal (/BT_SHUTDOWN).
Fail
R353: 1.8V
Pass
Verify the BT/GPS control
signal (18BT_HCI_TX).
Fail
IC352 (8pin):
Square waveform UART data
of 1.8V logic.
Pass
[The RXD2 (18BT_HCI_TX) line circuit is faulty] Verify the CP352, IC352. Replace any abnormal parts.
[The /BT_SHUTDOWN line
circuit is faulty]
Fail
Verify the R353, Q351.
Replace any abnormal parts.
[BT/GPS IC (IC351) is faulty] Replace the PCB.
[MPU/DSP (IC401) is faulty] Replace the PCB.
Verify the RTC for the BT/GPS.
X351 (3pin): Square waveform, 32.768 kHz,
Fail
1.8Vp-p
Pass
Verify the RTC line circuit for the BT/GPS. X351, L358, C375 Replace any abnormal parts.
[The BT/GPS IC is abnormal] Replace the PCB.
Descriptions of signal names (1) 32BT: BT/GPS IC 3.2V 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.RA070<Rev.001>)1-65
5.4 Failure diagnosis of the VCO section
Overview The VCO circuit is mounted inside the BLS. BLS stands for "Board Level Shield". This BLS has no lid and provides high shielding performance. Because BLS is difficult to solder, components inside the BLS can't be soldered. When there is a problem with the VCO circuit, the VCO can't be repaired. If the VCO function doesn't work, use this flow chart to identify the problem. The following is explained about failure diagnosis of VCO circuit inside a BLS<E101>.
BLS BLS is shielding case BLS for VCO area is integrated type and can not be removed When the parts in the BLS is problematic, it is necessary to replace the printed circuit board by the Service Main unit in service. Various ESN/default adjustment values are written on the service unit. Please refer to "5.6 Replacing Main Unit".
Prediction problem related to the VCO circuit · PLL Unlock
<Radio state> - Unlock beep - VCO Assist voltage tuning is impossible <The cause> - VCO control voltage is abnormal - VCO Assist voltage is abnormal - VCO power supply is abnormal - VCO signal output circuit is abnormal
VCO circuit inside a BLS<E101>
C50 0.68u
R138 4.7k C191 2.5p
R46
R102 R106
22
0 10
F
R127 R126 00
R128 390
L121
L131 100n
VCO H
C127 3p
C133 D136
5p 1SV280FT
D134 1SV280FT
C134 1.6p
L139 100n
D131 BBY53-02V
C122 R130 10u 150 C123 0.047u C132 18p
C121 0.15u
R104 1k
R103 43k
R110 100k
C102 0.01u
321
DC amplifier (Assist) C104 100p C105 1u
IC101
IN+ V+
VIN-
oUT OPA170AIDRLR
C103 33p R105 150k
4
5
EDZV8.2B D102 R107 R111 100k 4.7k
Q102 EM6M2
R108 10M
R109 47
G
ED
321
IC102
IN+ VDD
VSS
5
CN101
50C
C118 150p
INoUT
4
R112 1k
C107 100p
BU7295HFV C106 0.1u
R189 10k R190 100k
L160
R129 10k
R125
0
C111
47p
VCO L L151 C153 91n 7p
C171 3p D156
1SV280FT
D154 1SV280FT
C156 1.9p
1SV280FT 1SV280FT L154 3.2n
D152
L153 47n
D151 BBY53-02V
L159 47n
L152 47n D153
C108 0.1u C154 22p
D111 R121
Q113 2SD2654/W/
Q114
470k
VT6M1
R120 470k
C135 18p
L135 100n L132 100n D133 D132 1SV280FT 1SV280FT L133 3.2n L134
L155
C155 R153 4.7k C159 22p C160 0.33u C163 0.6p
1.0p L156 100n C162
1.0p
R152 4.7k L158 91n C167
22p C165 0.1u
C137 R132 1.5k C139
18p C140 0.33u C141 1.0p R134 150 C144 18p
0.1p L136 91n C143 1.6p
R133 1k L138 120n C130 18p C148 0.1u
Q131 C142 BFU660F
1.3p
C145 0.5p
L137
R139 39n 15
C138 CP101 22p
C161 1.3p
Q151 BFU660F
C166 1.0p
L157 R155 100n 8.2
CP102 C158 22p
22p
C164
R154 120
BLS E101
L111
Q112
Q111 RE1E002SP
R116 22
R117 22
C124 1u R145 470k R148 47k
R182 3.3k R183 3.3k C181 22p
R188 3.3k R186 3.3k C184 18p R187 120 L182 4.3n R196 4.7k
VCO circuit inside a BLS [in a bold line square]
Q182 BFU660F
C186 0.6p
D103 RN262CS
Q181 BFU660F
C185 18p
R185 100
C183 0.75p
D104 RN262CS
A
R198 0
R184 120
L181 5.1n R197 4.7k
C182 22p R181 100
L113
Q117 RE1E002SP
Q118
C
VT6M1
B Q103
VT6M1
VT6M1
C113 1u R119 470k R118 470k VCO_H_/L R115 0 R114 47k C116 3p C117 0.75p R141 470k /SAVE
4.7u 10 R123
C112 10k
1SS400SM
CP VCO_MOD3
/SAVE
CPZ
50C
CV ASTSW
ASSIST
1-66 (No.RA070<Rev.001>)
[Inspection procedure]
Unlock [Unlock beep / VCO assist tuning is impossible] *Include modulation problems
Assist Auto Tuning
Auto tuning NG
Assist Manual Tuning
Manual tuning NG
Check the VCO output signal
Observe the signal at point A with spectrum analyzer thru high impedance probe
Signal existence
No signal
Remove <R198> and check whether it is short circuited at point A
No short-circuit
Short-circuit
There is a problem with the VCO circuit inside a BLS / Please replace to new PCB
Check the VCO power supply
*In case, Radio frequency is set under 870MHz point B
Measure the voltage at point B or C
In case, other than those above point C
The checked voltage is
The checked voltage is about 4.2V.
not about 4.2V.
There is a problem with the VCO circuit inside a BLS / Please replace to new PCB
*In case, Radio frequency is set under 870MHz point B
Remove <R116> or <R117> and measure the voltage at point B or C
In case, other than those above point C
The checked voltage is
The checked voltage is to greatly differ from 4.2V.
about 4.2V.
There is a problem outside the BLS. Check the power supply circuit.
There is a problem with the VCO circuit inside a BLS / Please replace to new PCB
Check the VCO Assist voltage supply circuit
Remove <C118> and measure the voltage at point D by setting Assist tuning value [4096]
*When measuring this point, please use a multimeter with sufficiently high input impedance
This voltage fluctuatein conjunction The checked voltage is about 0V. *Modulation problems may occur if this point[D] be abnormally condition.
with the change of Assist tuning value
Remove <R108><R109> and measure the voltage at point E
*Assist voltage switch<Q102> is on in the state of Assist tuning mode
This voltage fluctuatein conjunction
The checked voltage is about 0V.
with the change of Assist tuning value
There is a problem outside the BLS. Check the Assist voltage supply circuit.
*In case of tuning value is [1] , this voltage is about 0V
In case of tuning value is [4096] , this voltage is about 15V
There is a problem with the VCO circuit inside a BLS / Please replace to new PCB
Observe the signal at point A with spectrum analyzer thru high impedance probe
This signal fluctuate in conjunction with the change of the voltage at point E
This signal doesn't fluctuate in conjunction with the change of the voltage at point E
There is a problem with the VCO circuit inside a BLS / Please replace to new PCB
Check the VCO control voltage supply circuit
Measure the voltage at point F
* In case of Assist tuning value is [1] , this voltage is about 4.7V
In case of Assist tuning value is [4096] , this voltage is about 0.1V
This voltage fluctuatein conjunction
with the change of Assist tuning value
When the above condition is not satisfied
There is a problem outside the BLS. Check the circuit around IC303.
Remove <IC102> and measure the voltage at point G
This voltage difference between
point F and point G is more than 0.1V
This voltage difference between point F and point G is less than 0.1V
There is a problem outside the BLS. Please check the circuit posterior to <IC102>
There is a problem with the VCO circuit inside a BLS / Please replace to new PCB
Please refer to [Remarks] below.
[Remarks] The following things are assumed as causes of trouble besides the above · PLL data is abnormal · VCO/PLL lock judgment is abnormal[<IC401>MPU/DSP IC]
(No.RA070<Rev.001>)1-67
5.5 Operating Method of Enforced Firmware Overwriting Mode
Enforced firmware overwriting mode is a mode to forcibly overwrite the transceiver firmware when the operations as instructed in Section 2.2.2 "How to Enter Each Mode" does not allow the transceiver to enter the firmware programming mode, for instance, when the transceiver fails to start up due to the transceiver failure.
(1) Prepare the followings: · Transceiver (NX-3400) · Battery jig · Programming interface cable (KPG-36U or KPG-36X) · DC Power supply
(2) Disassemble the transceiver to the condition shown in the figure.
(5) Upon startup of KFL, "FIRMWARE PROG" appears on an LCD, and the Yellow LED on the transceiver lights.
(6) Start KFL up, select the desired firmware you wish to overwrite, select the COM port number and baud rate, and then click the "Write" button.
Note: Configuring "Auto" for baud rate automatically apply the maximal speed of baud rate allowed for a programming cable connected to the selected COM port number. Upon start of overwriting on the transceiver, "LOADING" appears on an LCD, and the Green LED on the transceiver lights.
(7) Upon completion of the firmware overwriting, "CHECKSUM xxxx" appears on an LCD, and the Red LED on the transceiver lights.
(3) Connect a transceiver, battery jig and programming interface cable (KPG-36U or KPG-36X).
(4) While FLDM terminal has a short-circuit with GND terminal on the PCB, turn the DC Power supply output ON.
FLDM terminal GND terminal
1-68 (No.RA070<Rev.001>)
5.6 Replacing MAIN Unit MAIN unit information
Model Name
NX-3400 (K3)
Original MAIN unit Number
XC1-276K-00
For Service MAIN unit Number
XCA-066K-00
Method of confirming "Original MAIN unit" and "Service MAIN unit"
The following marking seals are affixed on the shield cover of the service MAIN unit (XCA-066K-00).
Model Name
NX-3400 (K3)
Marking seal XCA-066K-00
Supplied Accessories of "Service MAIN unit"
Item (Including Parts Number)
MAIN Unit (XC1-276)
KENWOOD ESN/ NXDN ESN/ Product Number/ MPT ESN Label
Quantity 1 1
"Service MAIN unit" Data The following data is written on the service unit:
Data Type
Description
KENWOOD ESN
Model name: [XCA-066] NX-3400S Type:K3 The same number as the KENWOOD ESN label is written.
NXDN ESN/ MPT ESN/ The same number as the NXDN ESN/
Product number
MPT ESN/ Pruduct Number label is
written.
After Changing the PCB (1) After changing the printed circuit board, write the up-todate Firmware following the instructions in the "2.2 REALIGNMENT - 2.2.6 Firmware Programming Mode". · Write the Firmware in accordance to the Market. If you write different Market Firmware, there are times communication with the FPU is not possible. (2) Using the KPG-D3/D3N, select your desired item (Model Name) from the Radio Configuration> Product Information menu, then use Read/ Write > Write Configuration to the Transceiver to write the FPU data (PC Programming mode). When writing to the transceiver, a Warning Message, corresponding to the item selected, appears. Click [OK] to continue writing the data. (3) Tools > Test/Tuning, then adjust the various adjustment data (PC Test Mode) as described in the "SECTION 4 ADJUSTMENT". (4) Attach the new labels corresponding to the new printed circuit board. (Refer to the images below for label placement.) (5) If necessary, write the FPU data used by the customer with the KPG-D3/D3N.
Note: · When using the ESN Validation function of NXDN Trunking, 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 NEXEDGE 1st and NEXEDGE 2nd Generation Trunking System to reprogram the NXDN ESN number.
· When a new printed circuit board is used, the KENWOOD ESN changes, as does the Transceiver Information display of the KPG-D3/D3N, but this does not have any effect on the operation of the transceiver.
· If changing to the original ESN, please contact our service center.
(No.RA070<Rev.001>)1-69
ESN Label Layout ESN Label Note: Cut a ESN Label at dotted line.
1-70 (No.RA070<Rev.001>)
PRECAUTIONS ON SCHEMATIC DIAGRAMS
* Due to the improvement in performance, some part numbers shown in the circuit diagrams may not agree with those indicated in the Parts List.
* The parts numbers, values and rated voltage etc. in the Schematic Diagrams are for reference only.
* Since the circuit diagrams are standard ones, the circuits and circuit constants may be subject to change for improvement without any notice.
* The parts of the symbol with " * " may vary depending on model. Refer to the parts list for details. * The parts of the symbol with " $ " are unmounted parts.
(No.RA070<Rev.001>) 2-1
2-1 (No.RA070<Rev.001>)
IC12
CN405 CN406 CN407 CN408 CN409
PRINTED CIRCUIT BOARD
MAIN UNIT (XC1-276K-00)
--- Component side view/Side A (J7C-0276-00) ---
R43
IC13
IC4
IC4
C49 R44
R45 C52
C48
C24
C63
CN10
C604
IC18
CN436
C66
R654 C674 Q6
R650 R50 R51
CN625
L7 R36 C25
CN437
CP412 CP411 CP410
C
L631 L630
C699 L633
CN457
F2
R668
R666
CN460
C676
R652 C65
R58 R56 R57
IC18
R60 C64 C62
C518 C517
R613 R479 L427
L428
R46
C50
D10
IC13
C47
L12
R42 C46
R25
C23 R24
R67
Q5 R37 R35
R41 C44
IC5 C35 R26
C18
IC6
C28
D634
CN452
C43
IC11
C42
L11
R59
R656
R47
CN458
C429 IC2
C431
CN423 C31
R411
Q402 R415
CP409 CP408
D111 C111
R121 C112
R120
L612
Q114
L610
R123
Q3 Q2 CN652
CN4 C5 C6 CN651 CN650
D633
CN602
D620 D626
CN625
R673
CN456
Q7
CN402
IC3 C20
R22
IC12
R674
R23
L5
C658
R670
D621
D632 D630 D629
C60
IC17
IC17 C672
C54 IC15
CN6
IC11
L13
IC14
R18 R17 R12
C37
R40 C51
C27 IC6 C29
R609
R635
C663
L429 L430
C516
C515 C510
CN402
C19
C21
R480
C469 C470
D407
L3 IC3
D406 D405
R52
R448
L4 C22
R38
R32
IC5
C26 R33
IC2
C32
CN602
IC14 C113
R16
R21 R19
C657
L623 L622
CN605
C682
CN604 C703 C700 C697 C706 C705
C704
R663
C1
C698
R671
R7
R612
R667
L632
R30
C712
C3
R659
L634
C9
R11
IC15
C4 C7 C8
C10
C55
C56 C106 IC102
R49 R48
C36 R20
D8
R14 R15
Q4
R29
CN191
C666 L111 R119
Q112
R13 R28
R27
Q111
R125 Q113
L431 R141 Q103
R145
CN424
C453
C471
D404
R447
R446
C472
IC406
C473
D403
C474
C475 C476
IC406
C454
R429
L411
C477
R449
R428
L404 CN439
R452
L113
C124
Q118
Q117
R65
C17 R31
CN101 CP2
C107
C696
R669
C430
B
D627
TH201
CN1
C14
IC1
Q1 C30
R118
R112
R66 C197 R115
R114 R117 C117 R116 C116
R148
R468 R467
CN412
RTC
L412
CN443
L416
L413
CN453 C498 C499
R462 C496 R461
CP413 CP414
IC602 C681 C683 IC602
R677 C611
C427 C425
R470 R469
F1
F1
L1
R250 R248
C261
C212 IC201
R205 C213
C257
C214 CP1
C258 R244
Q203
R247
R246 R245
C259
L160 CN1
CN303 CN304
C320
L315 C305 L304 C302 C306 R333 R194
L314
R318 C311
L312
R315
C314 C313 C317
C315
L311 R310
C325
C194 C192
C326
R195
L191
R301 L301
L192
L303 R302
C323 C324
C195 R313 R127
C121
C328 R126 C327
R331
R138 R198 C191 R464 R10
CP404 CP405
IC409
IC10
R466
C39
C497 CP402
IC9
R463
CP403 IC409
C38
L405
IC10 L406
C40
D9
R39
CN5
CN450 C428 C426 C489
R438
R440 R439
C435 C488
C434 C487
L414 C433 L415
L407 L408
C432
R442
CN2 C41
IC9
CN309
R367 C500
C33 C16
C15 R9 IC7
R363 C376
R362 R365
CN308 CN310 CN305 CN307
R251
C266 C262
CN357 R359
CN353 L307 R312
R260 R233 C265 R234
CN7 C70 C69 C68 C67
D1
CN357
C393
C338
C346
L10
L309 C312
D204
R306
R325
C343
R366 C385
C333 C321 C322
C342 C341 C329 C330 C348
R253 R252
R303
IC303
C303
CN356 CN354
R249 C2
A
CN3
R257
R256 R264 R265 R255
C264
Q205
Q206
CN7
R230 R237
Q207
CN353
C310 L308
C334 R304 L302
C308
C301
R330 C316 C332 C331
R336 R335
CN306
CN311
CN356
CN354
C378
C34
IC403
C448
IC7
L8
C309
CP303 CP302
CP301
C392 L354
C391
IC203
R332
C263 R268
Q204
R269
D303
D304
CN8 CN9
R364
IC8
L9
C377
R8 IC8
XC1-276
R258 R259
J7C-0276-00
1
2
3
4
5
CN2
R1 R2 R1
(No.RA070<Rev.001>) 2-2
2-2 (No.RA070<Rev.001>)
MAIN UNIT (XC1-276K-00)
--- Foil side view/Side B (J7C-0276-00) ---
5
C436
L409 IC402
CN418
CN415 CN416 CN417
CN413
R420
R421 R422
R427 R424 R423 R426 R425
IC401
IC401
L417 R453
R450
C450
R419
R451 C445
C446
C447
C451
CN422
C439 C457
IC404
IC402
C438 C437
C440 C441 C442 C443 C458 C459 C480 C481
4
(No.RA070<Rev.001>) 2-3
3
2-3 (No.RA070<Rev.001>)
CN419
C444 C482
CN414
CP401 C456 D401
R431 R436
C486
C483 C484 C485
CN421
R430 C424
R434 R433
C421 R432 C455
R435
R437 C423 C422
CN445 CN447
X402
IC405
C449
R443 R444
L410
D402
C452
R445
IC404
X402
R355 R369
L153 C154
X351
C369 C395
L359
R354 R356
C370 C373 C389
C374
L361
C372 CN355
C354
C379
C371 C367 C368
L358 C375
R351
Q351
C364 C365
R353
IC351
L353 C366
CN352
C361
C360
R352
R361
C388 C382
C386 C384 R360 C381
L352
R358
L365 C358
C356
C387C359 L351
CN351
C357 C383 C363 L366 C380
IC352
CP352
R357
R189
C118 R190
IC353
CP351
Q102 R110 R109
R402 R410 R404 C404 R413 R414
IC410
X401
R401
C401 TH401 L401
C403 C407
C402 C405
Q401
R403 R407
R405 R406
R408 C406
L402
C408
R412
C502
CP406 C501
IC410
CN454
R104
R111 R107
R108
D102
R105
C103
R103 C102 IC101
C104
C105
R102 R106
L135
C155
L155
L152
D153
C156 L154
C163 R155 C162 C161
R154 C164 L157
C167
C165
Q151
L156
D154
D152
R153 C159
L158
D156
C171 L159
C153
C108
C160 R152
C181 R184
Q181
C166
C158 R183
R182
D151 D131
L151 L121
C132 R128
L131 R130 R129
C123
C183 L181 R197 D104 R196 D103 C186 L182
C182 R181
R185 C185
R188
C133
L139 C127
D136
C122
R187 C184 R133 C140
Q182
C145
R186 C138
L136
D134 L132
D132 D133
C139 R132
L133
Q131
C142 C134
L138
C130
C148 L137
C144
R134
L134
R139 C141 C143
C137
C344
D301 D302
L202
C209
L201
C270
D202 D203
L204 C215 D207
C246 D201
C211
R204
L203
C241 C243
C227
C240
C208
C228
C269
L216
L214 C203
CP101
CP102
R221 R228
R223
L209 L212
L208
IC202
R211 R212
R608 C659 R603
R207
C218
R206
R208
C216 L205 C217
C233 C221
C220
C223 R214 R213
L206
C224
C225 C267
L207
C229
C219
C230 C253
R209 R215
R216 C234
Q201
IC202
C660
R611
CP601
C612 R605
R604
C614 R606
R637
R639
C603
R638
C601
C606 CN623 CN624
C620
C607
R610 R607
D609
IC601
C626
C609
R636
C622
R601 R602
L601
L613
C602
C615
C608
C610
D622
D623
L626
L627
C686
C621 L609 L605
L604 L608
C625 C617
C627 C618
L625 L624
C687 C685
C688
C235 L211
C237
L218
R218
C231
R266
C268
R210 R219
C272
Q202
R222 C239
IC607 C707
C693
IC605
R672
D628
C708
R665
D624
C710
D625
R675
C689 R661
R660 C711
IC603
C695
IC606
L213
C271
C242 C201
D601 C690
R662
IC604
C691 R664
C236
C709 C702
C701
L629
L628
C694
C692
L215
C248 C247
R676
C249
L217
C251 R227 D206
C135
CN202
CN201
C250
2
1
C
B
A
ADDRESS TABLE OF BOARD PARTS
A-1C
Each address may have an address error by one Side
interval.
Y axis X axis
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 IC17 IC18 IC101 IC102 IC201 IC202 IC203 IC303 IC351 IC352 IC353 IC401 IC402 IC403 IC404 IC405 IC406 IC409 IC410 IC601 IC602 IC603 IC604 IC605 IC606 IC607
A- 2B A- 5B A- 4C A- 5C A- 5C A- 3C A- 4A A- 4A A- 4B A- 4B A- 3C A- 5C A- 4C A- 3B A- 2C A- 2C A- 3C B- 3C A- 2B A- 2B B- 3B A- 1A A- 3A B- 4A B- 4B B- 4B B- 5B B- 5A A- 4A B- 5C B- 4C A- 4B A- 4B B- 4C B- 3C A- 1B B- 2C B- 1C B- 2C B- 2C B- 2C
TRANSISTOR
Q1
A- 3B
Q2
A- 2C
Q3
A- 2B
Q4
A- 3B
Q5
A- 5C
Q6
A- 3C
Q7
A- 3C
Q102 B- 3B
Q103 A- 3B
Q111
A- 3B
Q112 A- 3B
Q113 A- 3B
Q114 A- 3B
Q117 A- 3B
Q118 A- 3B
Q131 B- 2A
Q151 B- 3A
Q181 B- 3A
Q182 B- 2A
Q201 B- 2B
Q202 B- 2B
Q203 A- 2B
Q204 A- 1A
Q205 A- 1A
Q206 A- 1A
Q207 A- 2A
Q351 B- 3A
Q401 B- 4B
Q402 A- 4B
DIODE D1 D8 D9 D10 D102 D103 D104 D111 D131 D132
A- 1A A- 3B A- 4B A- 4C B- 3B B- 3A B- 3A A- 3B B- 3A B- 2A
D133 D134 D136 D151 D152 D153 D154 D156 D201 D202 D203 D204 D206 D207 D301 D302 D303 D304 D401 D402 D403 D404 D405 D406 D407 D601 D609 D620 D621 D622 D623 D624 D625 D626 D627 D628 D629 D630 D632 D633 D634
B- 2A B- 2A B- 2A B- 3A B- 3A B- 3A B- 3A B- 3A B- 1A B- 2A B- 2A A- 2A B- 1A B- 1A B- 2A B- 2A A- 2A A- 2A B- 4A B- 4C A- 4B A- 4B A- 4C A- 4C A- 4C B- 2C B- 3C A- 1C A- 1C B- 3C B- 3C B- 2C B- 2C A- 1C A- 2B B- 2C A- 2C A- 1C A- 1C A- 2C A- 2C
RESISTOR
R1
A- 5A
R2
A- 5A
R7
A- 1B
R8
A- 4A
R9
A- 4A
R10
A- 3B
R11
A- 2B
R12
A- 3C
R13
A- 3B
R14
A- 3B
R15
A- 3B
R16
A- 3B
R17
A- 3C
R18
A- 2C
R19
A- 2B
R20
A- 3B
R21
A- 2B
R22
A- 4C
R23
A- 5C
R24
A- 5C
R25
A- 5C
R26
A- 5C
R27
A- 3B
R28
A- 3B
R29
A- 3B
R30
A- 1B
R31
A- 2B
R32
A- 5C
R33
A- 5C
R35
A- 5C
R36
A- 5C
R37
A- 5C
R38
A- 5C
R39
A- 4B
R40
A- 3C
R41
A- 5C
R42
A- 5C
R43
A- 5C
R44
A- 4C
R45
A- 4C
R46
A- 4C
R47
A- 2C
R48 R49 R50 R51 R52 R56 R57 R58 R59 R60 R65 R66 R67 R102 R103 R104 R105 R106 R107 R108 R109 R110 R111 R112 R114 R115 R116 R117 R118 R119 R120 R121 R123 R125 R126 R127 R128 R129 R130 R132 R133 R134 R138 R139 R141 R145 R148 R152 R153 R154 R155 R181 R182 R183 R184 R185 R186 R187 R188 R189 R190 R194 R195 R196 R197 R198 R204 R205 R206 R207 R208 R209 R210 R211 R212 R213 R214 R215 R216 R218 R219 R221 R222 R223 R227
A- 2B A- 2B A- 3C A- 3C A- 4C A- 3C A- 3C A- 3C A- 3C A- 3C A- 3B A- 3B A- 5C B- 3C B- 3C B- 3C B- 3C B- 3C B- 3B B- 3B B- 3B B- 3B B- 3B A- 2B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B A- 3B B- 3A B- 3A B- 3A B- 2A B- 2A B- 2B A- 3B B- 2A A- 3B A- 3B A- 3B B- 3A B- 3A B- 3B B- 3B B- 3B B- 3B B- 3B B- 3A B- 3B B- 2B B- 2A B- 3B B- 3B B- 3B A- 3B A- 3B B- 3A B- 3A A- 3B B- 2A A- 2B B- 3B B- 3B B- 3B B- 3B B- 2B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 2B B- 2B B- 2B B- 2B B- 3B B- 1A
R228 R230 R233 R234 R237 R244 R245 R246 R247 R248 R249 R250 R251 R252 R253 R255 R256 R257 R258 R259 R260 R264 R265 R266 R268 R269 R301 R302 R303 R304 R306 R310 R312 R313 R315 R318 R325 R330 R331 R332 R333 R335 R336 R351 R352 R353 R354 R355 R356 R357 R358 R359 R360 R361 R362 R363 R364 R365 R366 R367 R369 R401 R402 R403 R404 R405 R406 R407 R408 R410 R411 R412 R413 R414 R415 R419 R420 R421 R422 R423 R424 R425 R426 R427 R428
B- 2B A- 2A A- 1A A- 1A A- 2A A- 2B A- 2B A- 2B A- 2B A- 1B A- 1A A- 1B A- 2A A- 1A A- 1A A- 1A A- 1A A- 1A A- 1A A- 1A A- 1A A- 1A A- 1A B- 2B A- 1A A- 1A A- 3B A- 3B A- 2A A- 2A A- 2A A- 3B A- 2A A- 3B A- 2B A- 2B A- 2A A- 3A A- 3A A- 3A A- 3B A- 3A A- 3A B- 3A B- 4B B- 4A B- 4A B- 4A B- 4A B- 3B B- 4B A- 2A B- 4B B- 4B A- 4A A- 4A A- 4A A- 4A A- 3A A- 3A B- 4A B- 4B B- 4B B- 4C B- 4B B- 4B B- 4B B- 4C B- 4B B- 4B A- 4C B- 4B B- 4B B- 4B A- 4C B- 5C B- 5B B- 5B B- 5B B- 5B B- 5B B- 5B B- 5B B- 5B A- 5B
R429 R430 R431 R432 R433 R434 R435 R436 R437 R438 R439 R440 R442 R443 R444 R445 R446 R447 R448 R449 R450 R451 R452 R453 R461 R462 R463 R464 R466 R467 R468 R469 R470 R479 R480 R601 R602 R603 R604 R605 R606 R607 R608 R609 R610 R611 R612 R613 R635 R636 R637 R638 R639 R650 R652 R654 R656 R659 R660 R661 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677
A- 4B B- 4B B- 4A B- 4B B- 4B B- 4B B- 4B B- 4A B- 4B A- 5B A- 5B A- 5B A- 4A B- 4C B- 4C B- 4C A- 5B A- 4B A- 4C A- 4B B- 5B B- 5C A- 5B B- 5B A- 4B A- 4B A- 3B A- 3B A- 4B A- 4B A- 4B A- 3B A- 3B A- 4C A- 4C B- 3C B- 3C B- 3C B- 3B B- 3C B- 3C B- 3C B- 3C A- 3C B- 3C B- 3C A- 2B A- 4C A- 3C B- 3B B- 3C B- 3C B- 3C A- 3C A- 3C A- 3C A- 2C A- 2B B- 2C B- 2C B- 1C A- 2B B- 1C B- 2C A- 2C A- 1B A- 2C A- 2B A- 1C A- 2B B- 2C A- 2C A- 2C B- 2C B- 1C A- 1B
CAPACITOR
C1
A- 1B
C2
A- 1A
C3
A- 1B
C4
A- 2B
C5
A- 2B
C6
A- 2B
C7
A- 2B
C8 C9 C10 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 C41 C42 C43 C44 C46 C47 C48 C49 C50 C51 C52 C54 C55 C56 C60 C62 C63 C64 C65 C66 C67 C68 C69 C70 C102 C103 C104 C105 C106 C107 C108 C111 C112 C113 C116 C117 C118 C121 C122 C123 C124 C127 C130 C132 C133 C134 C135 C137 C138 C139 C140 C141 C142 C143 C144
A- 2B A- 2B A- 2B A- 2B A- 4A A- 4A A- 2B A- 4C A- 4C A- 4C A- 4C A- 5C A- 5C A- 5C A- 5C A- 5C A- 3C A- 3C A- 3C A- 3B A- 5B A- 5C A- 4A A- 4A A- 5C A- 3B A- 3B A- 4A A- 4B A- 4B A- 4B A- 3C A- 3C A- 5C A- 5C A- 5C A- 4C A- 4C A- 4C A- 3C A- 4C A- 2C A- 2B A- 2B A- 2C A- 3C A- 3C A- 3C A- 3C A- 3C A- 2A A- 2A A- 2A A- 2A B- 3C B- 3C B- 3C B- 3C A- 2B A- 2B B- 3A A- 3B A- 3B A- 3B A- 3B A- 3B B- 3B A- 3B B- 2A B- 3A A- 3B B- 2A B- 2B B- 3A B- 2A B- 2A B- 2A B- 2A B- 2B B- 2A B- 2A B- 2A B- 2A B- 2A B- 2B
C145 C148 C153 C154 C155 C156 C158 C159 C160 C161 C162 C163 C164 C165 C166 C167 C171 C181 C182 C183 C184 C185 C186 C191 C192 C194 C195 C197 C201 C203 C208 C209 C211 C212 C213 C214 C215 C216 C217 C218 C219 C220 C221 C223 C224 C225 C227 C228 C229 C230 C231 C233 C234 C235 C236 C237 C239 C240 C241 C242 C243 C246 C247 C248 C249 C250 C251 C253 C257 C258 C259 C261 C262 C263 C264 C265 C266 C267 C268 C269 C270 C271 C272 C301 C302
B- 2B B- 2B B- 3A B- 3A B- 3A B- 3A B- 3B B- 3A B- 3A B- 3A B- 3A B- 3B B- 3B B- 3B B- 3B B- 3B B- 3A B- 3A B- 3B B- 3A B- 2A B- 3B B- 3A A- 3B A- 3B A- 3B A- 3B A- 3B B- 1B B- 1B B- 2A B- 2A B- 2A A- 2B A- 2B A- 2B B- 2A B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 1A B- 1A B- 3B B- 3B B- 2B B- 3B B- 3B B- 2B B- 1B B- 2B B- 2B B- 1B B- 2B B- 2B B- 2B B- 1A B- 1A B- 1A B- 1A B- 1A B- 1A B- 3B A- 2B A- 2B A- 2B A- 1B A- 2A A- 1A A- 1A A- 1A A- 2A B- 3B B- 2B B- 1A B- 2A B- 2B B- 2B A- 2A A- 3B
C303 C305 C306 C308 C309 C310 C311 C312 C313 C314 C315 C316 C317 C320 C321 C322 C323 C324 C325 C326 C327 C328 C329 C330 C331 C332 C333 C334 C338 C341 C342 C343 C344 C346 C348 C354 C356 C357 C358 C359 C360 C361 C363 C364 C365 C366 C367 C368 C369 C370 C371 C372 C373 C374 C375 C376 C377 C378 C379 C380 C381 C382 C383 C384 C385 C386 C387 C388 C389 C391 C392 C393 C395 C401 C402 C403 C404 C405 C406 C407 C408 C421 C422 C423 C424
A- 3A A- 3B A- 3B A- 2A A- 2A A- 2A A- 2B A- 2A A- 2B A- 2B A- 2B A- 3A A- 2A A- 2B A- 2A A- 2A A- 3B A- 3B A- 3B A- 3B A- 3A A- 3A A- 3A A- 3A A- 3A A- 3A A- 2A A- 2A A- 2A A- 3A A- 3A A- 3A B- 2A A- 3A A- 3A B- 3A B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A A- 4A A- 4A A- 4A B- 3A B- 3B B- 4B B- 4B B- 4B B- 4B A- 3A B- 4B B- 4B B- 4B B- 4A A- 4A A- 4A A- 2A B- 4A B- 4C B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B
C425 C426 C427 C428 C429 C430 C431 C432 C433 C434 C435 C436 C437 C438 C439 C440 C441 C442 C443 C444 C445 C446 C447 C448 C449 C450 C451 C452 C453 C454 C455 C456 C457 C458 C459 C469 C470 C471 C472 C473 C474 C475 C476 C477 C480 C481 C482 C483 C484 C485 C486 C487 C488 C489 C496 C497 C498 C499 C500 C501 C502 C510 C515 C516 C517 C518 C601 C602 C603 C604 C606 C607 C608 C609 C610 C611 C612 C614 C615 C617 C618 C620 C621 C622 C625
A- 4B A- 4B A- 4B A- 4B A- 5B A- 5B A- 5B A- 5B A- 5B A- 5B A- 5B B- 5A B- 4A B- 5A B- 5A B- 5A B- 5A B- 5A B- 4A B- 4A B- 5C B- 5C B- 5C A- 4A B- 4C B- 5B B- 5C B- 4C A- 4B A- 4B B- 4B B- 4A B- 5A B- 5A B- 5A A- 4C A- 4C A- 4B A- 4B A- 4B A- 4B A- 4B A- 4B A- 4B B- 5A B- 4A B- 4A B- 4A B- 4A B- 4A B- 4A A- 5B A- 5B A- 4B A- 4B A- 4B A- 4B A- 4B A- 4A B- 4C B- 4C A- 3C A- 3C A- 3C A- 4C A- 4C B- 3C B- 3C B- 3C A- 2C B- 3C B- 3C B- 3C B- 3B B- 3C A- 1B B- 3C B- 3C B- 3C B- 2B B- 2C B- 3C B- 3C B- 3B B- 2B
C626 C627 C657 C658 C659 C660 C663 C666 C672 C674 C676 C681 C682 C683 C685 C686 C687 C688 C689 C690 C691 C692 C693 C694 C695 C696 C697 C698 C699 C700 C701 C702 C703 C704 C705 C706 C707 C708 C709 C710 C711 C712
OTHER X351 X401 X402
TH201 TH401
CN1 CN2 CN3 CN4 CN5 CN6 CN7 CN8 CN9 CN10 CN101 CN191 CN201 CN202 CN303 CN304 CN305 CN306 CN307 CN308 CN309 CN310 CN311 CN351 CN352 CN353 CN354 CN355 CN356 CN357 CN402 CN405 CN406 CN407
B- 3C B- 2C A- 1B A- 1C B- 3C B- 3C A- 3C A- 3B A- 2C A- 3C A- 2C A- 1B A- 1B A- 1B B- 2C B- 2C B- 2C B- 2C B- 2C B- 2C B- 1C B- 1C B- 2C B- 1C B- 2C A- 2B A- 1B A- 1B A- 2C A- 1B B- 1C B- 1C A- 1B A- 1B A- 2B A- 2B B- 2C B- 2C B- 1C B- 2C B- 2C A- 2B
B- 4A B- 4B B- 4C
A- 2B B- 4C
A- 2B A- 4A A- 1A A- 2B A- 4B A- 3C A- 2A A- 3A A- 3A A- 3C A- 2B A- 3B B- 1A B- 2A A- 2B A- 2B A- 3A A- 3A A- 3A A- 3A A- 3A A- 3A A- 3A B- 3B B- 4A A- 2A A- 4A B- 3A A- 3A A- 2A A- 4C A- 5B A- 5B A- 5B
CN408 CN409 CN412 CN413 CN414 CN415 CN416 CN417 CN418 CN419 CN421 CN422 CN423 CN424 CN436 CN437 CN439 CN443 CN445 CN447 CN450 CN452 CN453 CN454 CN456 CN457 CN458 CN460 CN602 CN604 CN605 CN623 CN624 CN625 CN650 CN651
CP1 CP2 CP101 CP102 CP301 CP302 CP303 CP351 CP352 CP401 CP402 CP403 CP404 CP405 CP406 CP408 CP409 CP410 CP411 CP412 CP413 CP414 CP601
E101 E301 E351 E401 E601
F1 F2
L1 L3 L4 L5 L7 L8 L9 L10 L11 L12 L13 L111 L113 L121 L131
A- 5B A- 5B A- 4B B- 5A B- 4A B- 5A B- 5A B- 5A B- 5A B- 4A B- 4B B- 5B A- 5B A- 5B A- 4C A- 4C A- 5B A- 5B B- 4C B- 4B A- 4B A- 4C A- 4B B- 4C A- 2C A- 2C A- 2C A- 2C A- 1C A- 1B A- 1B B- 3C B- 3C A- 1C A- 2C A- 2C
A- 2A A- 2B B- 2B B- 3B A- 3A A- 3A A- 3A B- 4B B- 4B B- 4A A- 4B A- 3A A- 3B A- 3B B- 4C A- 4B A- 4B A- 4C A- 4C A- 4C A- 4B A- 4B B- 3C
B- 3A A- 3A B- 4B B- 5B B- 3C
A- 1B A- 2C
A- 1B A- 4C A- 5C A- 5C A- 5C A- 4A A- 4A A- 4A A- 3C A- 4C A- 3C A- 3B A- 3B B- 3A B- 3A
L132 L133 L134 L135 L136 L137 L138 L139 L151 L152 L153 L154 L155 L156 L157 L158 L159 L160 L181 L182 L191 L192 L201 L202 L203 L204 L205 L206 L207 L208 L209 L211 L212 L213 L214 L215 L216 L217 L218 L301 L302 L303 L304 L307 L308 L309 L311 L312 L314 L315 L351 L352 L353 L354 L358 L359 L361 L365 L366 L401 L402 L404 L405 L406 L407 L408 L409 L410 L411 L412 L413 L414 L415 L416 L417 L427 L428 L429 L430 L431 L601 L604 L605 L608 L609
B- 2A B- 2A B- 2A B- 2A B- 2A B- 2B B- 2B B- 2A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3B B- 3B B- 3A A- 2B B- 3A B- 3A A- 3B A- 3B B- 2A B- 2A B- 2A B- 2A B- 3B B- 3B B- 3B B- 3B B- 3B B- 2B B- 3B B- 2B B- 2B B- 1A B- 1A B- 1A B- 2B A- 3B A- 2A A- 3B A- 3B A- 2A A- 2A A- 2A A- 2B A- 2B A- 2B A- 3B B- 3B B- 4B B- 4B A- 4A B- 4A B- 4A B- 4A B- 4B B- 3B B- 4C B- 4C A- 5B A- 4B A- 4B A- 5B A- 5B B- 5A B- 4C A- 5B A- 5B A- 5B A- 5B A- 5B A- 5B B- 5B A- 4C A- 4C A- 3C A- 3C A- 3B B- 3C B- 2C B- 2C B- 3C B- 3C
L610 L612 L613 L622 L623 L624 L625 L626 L627 L628 L629 L630 L631 L632 L633 L634
A- 3C A- 3C B- 3C A- 1B A- 1B B- 2C B- 2C B- 3C B- 3C B- 1C B- 1C A- 2C A- 2C A- 1B A- 2C A- 2B
(No.RA070<Rev.001>) 2-4
2-4 (No.RA070<Rev.001>)
S124
S124 S127
S127
S130 S130
S129 S129
S128
S128
DISPLAY UNIT (XC1-209K-02)
--- Component side view/Side A (J7C-0217-10) ---
S301
S301
B
J7C-0217-10
S302 XC1-209 S302 2/2 #1
S303
S303
S304
S304
L201 C205
C202 C203 C204
C201
J7C-0217-10
XC1-209 1/2 #0
CP203 CP201 CP202
CN201 CN201
C207 R201
R230 R231 R232
R227 R228 R229 Q227 Q228 Q229
D227
CN151
1
BT
A 1
D221 MIC101
L152 L153
L151
2
MIC101
R206
GPS 3
CN154
R155 C158 CN152
L156
CN153
R170
R205
IC201
R208
D202
R141 IC201
Q201 Q141 C206
C145
R207
R203 L202
C147 C149
R148 R145 R142
C148 R143
R147 C146
C172
L173 R174
C177
L176
C179 C175
L178
D181
A151 D180
R185 C186 C184 R183
A151
L187 D201
R189 R204
CP141
C190 C192
D141 D142 D143 D144
D113 S121
S113
S118
S113
S132 S118
R113
S121
D117 R117
D112
S119 S119
S112 S112 S117 S117
S120 S120
R111
S115
D111
S115
C141 C142 C143 C144
S114
S114 R112
D114 R114
S111
S131
S111
S116
S116
S123
R116 D116
R122 R115 D115
S122
S123
S122 S125
S125
S126
D120 R120
S126
R119 D119
R118 D118
4
5
6
ADDRESS TABLE OF BOARD PARTS
A-1C
Each address may have an address error by one Side
interval.
Y axis X axis
REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION
IC IC201 A- 4B
TRANSISTOR Q141 A- 4B Q201 A- 4B Q227 A- 2A Q228 A- 2B Q229 A- 2B
DIODE D111 D112 D113 D114 D115 D116 D117 D118 D119 D120 D141
A- 5B A- 5A A- 5B A- 5A A- 6A A- 6B A- 6B A- 6A A- 6B A- 6B A- 4A
D142 D143 D144 D180 D181 D201 D202 D221 D227
A- 4A A- 4A A- 4A A- 4A A- 4A A- 4A A- 4B A- 2A A- 2B
RESISTOR R111 A- 5B R112 A- 5A R113 A- 5B R114 A- 5A R115 A- 6A R116 A- 6B R117 A- 6B R118 A- 6A R119 A- 6B R120 A- 6B R122 A- 6A
R141 R142 R143 R145 R147 R148 R155 R170 R174 R183 R185 R189 R201 R203 R204 R205 R206 R207 R208 R227 R228 R229
A- 4B A- 4B A- 4B A- 4B A- 4B A- 4B A- 3A A- 3A A- 4A A- 4A A- 4A A- 4A A- 2B A- 4B A- 4A A- 4B A- 3A A- 4B A- 4B A- 2A A- 2B A- 2B
R230 R231 R232
A- 2A A- 2B A- 2B
CAPACITOR C141 A- 4A C142 A- 4A C143 A- 4A C144 A- 4A C145 A- 4B C146 A- 4A C147 A- 4B C148 A- 4B C149 A- 4B C158 A- 3A C172 A- 3A C175 A- 4A C177 A- 4A C179 A- 4A C184 A- 4A C186 A- 4A C190 A- 4A
C192 C201 C202 C203 C204 C205 C206 C207
A- 4A A- 3B A- 2B A- 2B A- 2B A- 2B A- 4B A- 2B
OTHER CN151 CN152 CN153 CN154 CN201 S111 S112 S113 S114 S115 S116 S117
A- 2A A- 3A A- 3A A- 3A A- 2B A- 5A A- 5B A- 5B A- 5A A- 5B A- 5A A- 5B
S118 S119 S120 S121 S122 S123 S124 S125 S126 S127 S128 S129 S130 S301 S302 S303 S304 CP141 CP201 CP202 CP203 A151
A- 5B A- 5A A- 5B A- 5B A- 6A A- 6B A- 6B A- 6A A- 6B A- 6B A- 6A A- 6B A- 6B A- 1B A- 2B A- 3B A- 3B A- 4A A- 2B A- 2B A- 2A A- 4A
L151 L152 L153 L156 L173 L176 L178 L187 L201 L202 MIC101
A- 2A A- 2A A- 2A A- 3A A- 4A A- 4A A- 4A A- 4A A- 2B A- 4B A- 2A
(No.RA070<Rev.001>) 2-5
2-5 (No.RA070<Rev.001>)
DISPLAY UNIT (XC1-209K-02)
--- Foil side view/Side B (J7C-0217-10) ---
BT
CN202
1
R3 R3 R1 R1
R4
CN202
R2 R2
CN156
L194
GPS
R191 C193 CN157 CN158
CN155
6
5
4
3
ADDRESS TABLE OF BOARD PARTS
A-1C
Each address may have an address error by one Side
interval.
REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION
TRANSISTOR Q221 B- 2A Q222 B- 2A Q223 B- 2A
RESISTOR
R1
B- 3B
R2
B- 3B
R3
B- 3B
R191 B- 5A
R221 B- 2A
R222 R223
B- 2A B- 2A
CAPACITOR C101 B- 2A C102 B- 2A C193 B- 5A
OTHER CN155 B- 3A CN156 B- 3A
CN157 CN158 CN202 CN301 L101 L102 L194
B- 5A B- 5A B- 4B B- 1B B- 2A B- 2A B- 5A
Y axis X axis
R221 Q221
+
R223 R222 Q223 Q222
C102
L102 C101
L101
CN301
B
A
-
2
1
(No.RA070<Rev.001>) 2-6
2-6 (No.RA070<Rev.001>)
INTERCONNECTION DIAGRAM
Power SW/ AF Vol
5
2
1
3
5
4
CHANNEL SELECTOR
3
5
7
9
11
13
ENC0
ENC1 4
GND
ENC3 6
ENC2
+B 8
VOL 10
50A
GND
SB1 12
CN1
NC
4 3 2
SP
UNIVERSAL CONNECTOR
BATT
+
ANT
CN354
GPS (To DISPLAY Unit)
CN353
Bluetooth
-
S
CN625
1
SMIC
2
RXD/USB_DM
3
TXD/USB_DP
4
5U
5
GND
6
OPT
7
PF
8
PTT
9
ME
10
EMC/VBUS
11
MSW
12
SP-
13
SP+
14
SSW
CN602
1 SP-
2 SP+
MAIN Unit XC1-276
NC
PTT
SIDE1
SIDE2
GND
EMG
CN7
6
5
4
3
2
1
CN301 EMG 1 GND 2 SIDE2 3 SIDE1 4 PTT 5
NC 6
1 A
DISPLAY Unit XC1-209 B/2
B
C
F E D C B A
ENC0 2
NC
1
32LCD 1 32LCD
18M 3 LCD_VSS LCD_/CS 5
LCD_A0 LCD_E(WR1) 7 LCD_R/W(WR0)
LCD_RST 9 LCD_DB0 LCD_DB1 11 LCD_DB2 LCD_DB3 13 LCD_DB4 LCD_DB5 15 LCD_DB6 LCD_DB7 17 LCD_BLC
GND 19 GND
ME 21 MIC 50A 23 50A KEYI4 25 KEYI3 KEYI2 27 KEYI1 KEYI0 29 KEYo3 KEYo2 31 KEYo1 KEYo0 33 LED_G LED_B 35 LED_R LBC_G 37 LBC_R LBC_B 39 GND GND 41
CN402 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40
MIC
MIC101
CN202 40 38 36 34 32 30 28 26 24 22 20 18 16 14 12 10 8 6 4 2
32LCD 41
32LCD
18M 39
LCD_VSS
LCD_/CS 37
LCD_A0
LCD_E(WR1) 35
LCD_R/W(WR0)
LCD_RST 33
LCD_DB0
LCD_DB1 31
LCD_DB2
LCD_DB3 29
LCD_DB4
LCD_DB5 27
LCD_DB6
LCD_DB7 25
LCD_BLC
GND 23
GND
ME 21
MIC
50A 19
50A
KEYI4 17
KEYI3
KEYI2 15
KEYI1
KEYI0 13
KEYo3
KEYo2 11
KEYo1
KEYo0 9
LED_G
LED_B 7
LED_R
LBC_G 5
LBC_R
LBC_B 3
GND
GND 1
Bluetooth
GPS
DISPLAY Unit XC1-209 A/2
D
E
F
(No.RA070<Rev.001>) 2-7
2-7 (No.RA070<Rev.001>)
ME INTM_M Bluetooth
GND GPS
LCD
CN201
NC 1
K-
2
A+ 3
VSS
4
DB7 5
DB6
6
DB5 7
DB4
8
DB3 9
DB2
10
DB1 11
DB0
12
/RST 13
R/W(WR0)
14
E(WR1) 15
A0
16
/CS0 17
VSS
18
VDDI 19
VDDA
20
VB0+ 21
VB1+
22
VB1- 23
VB0-
24
VLCD 25
G
BLOCK DIAGRAM
MAIN UNIT
MAIN UNIT (XC1-276)
IC402
DDR_A[0]~DDR_A[13]
DDR_BA[0],DDR_BA[1]
5
18M
DDR
DDR_CAS,DDR_CKE,DDR_CLKN DDR_CLKP,DDR_CS DDR_DQM[0],DDR_DQM[1]
DDR_RAS,DDR_WE
DDR_DQS[0],DDR_DQS[1]
DDR_D[0]~DDR_D[15]
IC404
32M
FLASH
/FRST,/OE,/WP,/WR ADD[0]~ADD[23]
DATA[0]~DATA[15]
/CS_F IC405
/CS2 /CS3
X401 19.2MHz
FCNT
TCXO
Q401 Buffer
BT_CLK PLL_CLK
32M
32M
4
CN402
TEMP
TEMP
32M 18M 50A
CP410~412
LCD_/CS,/WR1_/OE,/WR0_/WR LCD_A0,DB[0]~DB[7]
/CS4,/OE,/WR,ADD[23] DATA[0]~DATA[7]
To DISPLAY Unit (A/2)
/KEYI0~/KEYI4,KEYO0~KEYO3, /LCD_RST,LCD_BLC LED_R,LED_G,LED_B,LBC_R,LBC_G,LBC_B INTM_M ME
CN7
IC401
----------------------------------------------------------TX-ANTSW,APCSW2,/APCSW,/DSW,TXC ----------------------------------------------------------VCO-/SAVE,ASTSW,H_/L ----------------------------------------------------------DC SW(Q3)-/BINT ----------------------------------------------------------5V AVR(IC602)-5UC ----------------------------------------------------------5V AVR(IC6),3.2V AVR(IC14),DC SW(Q4)-SBC ----------------------------------------------------------Detect(IC403)-/RST ----------------------------------------------------------OTHERS-SYMTIM_IN,SYMTIM_IN(OUT) ---------------------------------------------------------
200C IC101
ASSIST
Q131 D131 D132,133,134,136
VCO_H
Q182 RF
AMP
50C
Q102 D102 DC SW
VCO_MOD ASTSW
Q113 D111
Ripple Filter
VCO_H_/L Q112
DC SW
Q114 DC SW
Q111 DC SW
32C
/SAVE
VCO_L
Q151 D151 D152,153,154,156
Q103 DC SW
/SAVE
Q118
DC SW
VCO_H_/L
Q117
DC SW
Q181 RF AMP
50C IC102 CV
Loop Filter
CP CPZ
VCO_MOD PLL_CLK
LPF IC303
/DCR_RST,RX,TX,AGCKEEP,BCLK,/DCR_CS,DCR_DO,DCR_DI,DCR_ACLK,PLD,DCR_ADI,/DCR_ACS,/DCR_DCS,DCR_DDO
TRANSCEIVER IC
32C 50C
TX: 806-825MHz, 851-870MHz, 896-902MHz, 935-941MHz RX: 851-870,935-941MHz
IC202
Pre DRIVE AMP
Q201
DRIVE AMP
Q202
FINAL AMP
D201~203 D207
ANT SW
LPF
50T
Ramp_ Offset
Q203 DC SW
Q207 DC SW
APCSW2
/DSW
IC203 APC
+B
Q205 DC SW
Q206 DC SW
APC
/APCSW
Q204
IC201
SW
50C ANTSW
TEMP THP
ATT
HPF
D301,302 Protect
LNAoUT ATT
To DISPLAY Unit (B/2)
3
EMG,INT_PTT,SIDE1,SIDE2
VOL/ENC
CN1
+B 50A
ENC0~ENC3
VOL
Q2
SB1
CN602
1 2
2
/PSW
IC601
INTM_M EXTM_M
ME EXTM_S
CODEC
CODEC_DI,CODEC_DO
/CINT,BCLK,WCLK I2CCK,I2CDT
To Universal Connector
CN625
ME PFKEY
GND 5U
1
12M18M 32M32A 53AF
IC603 EXTM_M
/UDET
CTS1 USB_VBUS /EXT_PTT
IC604 BUS SW
32M
EXTM_S IC606 BER_EN 2/2
USB_SW
RTS1
32M
IC606 1/2 TXD1
DPDT SW
USB0_DP USB0_DM
32M
IC607 RXD1
MIC_IESW
32BT 18BT
32BT 18BT
RXD2,TXD2, RTS2,CTS2 BT_AUD_DI,BT_AUD_DO WCLK,BCLK
IC352,353 LEVEL CONVERSION
/BT_SHUTDOWN GPS_PA_EN
18BT_TX,18BT_RX 18BT_CTS,18BT_RTS 18BT_AOUT,18BT_AIN 18BT_AFSYNC,18BT_ACLK
BT_CLK
IC351
L361
BLUETOOTH
SAW
BLUETOOTH GPS
L359 BPF
GPS
FEM_PWR FEM_ALM
ANT DET
28GPS
2400-2483.5MHz To DISPLAY Unit (A/2)
1575.42MHz
18BT
CLK X351
38M
SCK0,SDO0.SDI0 /ADC,/ADC_INT
IC409
ADC
BATT,CV,TEMP,THP,Ramp_Offset, SDET,VOL,FEM_PWR,FEM_ALM,ANTCHK
32.768kHz
32A 32M
IC11 3.2V Reg
IC5 3.2V Reg
SCK1,SDO1 /DACCS
IC410 DAC APC,ASSIST,FCNT
I2CCK,I2CDT
IC406 Motion Sensor
32M
32BT
18M
18BT
18M_3 12M
IC12 DC SW
32A
IC7 3.2V Reg
IC4 1.8V DC/DC Converter
IC8 1.8V Reg
Q5 IC2
1.2V DC/DC Converter
32C 200C /RST
3.2V Reg
SBC
IC14
IC13
20V DC/DC Converter
Detect IC403
+B 12BU
IC10 1.2V Reg
IC9 31BU 3.1V Reg
/BINT
38M
IC3
3.8V DC/DC Converter
Q1 D8
SBC Q3
SW
56DET
50A
SB1
IC1 Detect
IC17 5V Reg
32M
IC602
5U
5V Reg
50C
5UC
IC6
5V Reg
50T
SBC
IC15
5V Reg
BATT
TXC Q4
DC SW
53AF
SBC
Q6 Q7 IC18
AFSW(Reg) F2
50A
F1 SDET
BATT 7.5V GND S
A
B
C
D
E
F
G
(No.RA070<Rev.001>) 2-8
2-8 (No.RA070<Rev.001>)
To LCD ASSY
DISPLAY UNIT
Bluetooth
GPS
5
DISPLAY UNIT (XC1-209) (A/2)
A151
GPS FRONT-END MODULE
28GPS
CN202
4
50A
32M
18M
50A
D221
TX/BUSY LED
50A
D227
LIGHTBAR LED
50A
Q141
DC SW
LCD_BLC
D111-120 D132
KEY ILLUMINATION
50A
Q201
LCD_BLC
DC SW
D201,202
LCD BACKLIGHT
CN201
A+
LED_R,LED_G,LED_B LBC_R,LBC_G,LBC_B
LED_B
Q223
DC SW
Q222
DC SW
LED_R
LBC_B
Q229
DC SW
Q228
DC SW
LBC_R
LCD_BLC
3
/LCD_RST
Q221
DC SW
LED_G
Q227
DC SW
LBC_G
/LCD_RST 18M
IC201
/RST
32M
To MAIN UNIT
DB[0]~DB[7],LCD_/CS,WR1_/OE,WR0_/WR,LCD_A0
KEYI0-4,KEYO0-3
ME MIC101
2
INTM_M
KEY MATRIX
DISPLAY UNIT
EMG
CN301
(XC1-209) (B/2)
PTT
EMG,PTT,SIDE1,SIDE2
SIDE1
1
SIDE2
To MAIN UNIT
A
B
C
D
E
F
G
(No.RA070<Rev.001>) 2-9
2-9 (No.RA070<Rev.001>)
LEVEL DIAGRAM
Receiver Section RF
5
-120.5dBm -121.5dBm -122.0dBm -122.5dBm
D201
ANT
D207
D202
C246 D203 C344
C334
4
LPF
ANT SW
HPF
-113.0dBm
C311 HPF IC303 Transceiver IC
IC401 MPU/DSP
C195 -5dBm ~ +5dBm
AF (1kHz)
5.65Vp-p
IC601
CN604 CN605
CODEC
VCO
To make measurements in the AF section, connect the AC level meter.
(ANT input: 53dBm, 1kHz FM, 1.5kHz DEV (Narrow). SP output: 500mW@8ohm Load)
3
In the RF section, use 100pF coupling capacitor.
(The display shows the SSG input value required to obtain 12dB SINAD.)
Transmitter Section
AF (1kHz)
AF (1kHz)
RF
Internal Speaker External Speaker
2
12.5mVrms
Internal MIC
INTM_M
IC601
CODEC
1
External MIC
EMC
IC401
MPU/ DSP
78.9mVrms
-5~5dBm
3dBm
(Mod) C348
VCO
(Local) C195
IC303 Transceiver IC
C218
12dBm
22dBm
35dBm
35dBm
3W
IC202
PreDrive
C225
Q201 Drive
C237
Q202 Final
D201
D207
ANT
D202
C227 D203 C246
ANT SW
LPF
A
B
C
D
E
F
G
(No.RA070<Rev.001>) 2-10
2-10 (No.RA070<Rev.001>)
To MAIN UNIT XC1-276 CN402
SCHEMATIC DIAGRAM
DISPLAY UNIT (XC1-209K-02)
DISPLAY UNIT (A/2)
5
Bluetooth ANT
CN151
L152 6.8n
CN154
$R154
R155
0
L156 1.2n
C158 22p
CN155
A151
R191 0
R185 0 C186 1000p
L151 15n L153 12n
GPS ANT CN152
CN156
R170 0
C172 4p
R174 C175 0 1.5p
C177 1p
C179 1.5p
R183 0
1
PoSToUT 10
GND_1
2
NC<GND>2 9
VCTL
3 VDD
LNAIN 8
4
PREoUT 7
NC<GND>1
5
GND_2 6
PREIN
L187 10n
EXP_PAD
R189 0
C192 120p
C193 1000p
L194 27n
2.7V
CN157
C190 1p
D180 RN262CS D181 RN262CS
C184 1000p
11
L176 3.9n L178 3.9n
L173 4.7n
CN153
CN158
4
MIC101
MIC T9B-0004-00 L101
L102
C102 C101 470p 470p
MIC/ME
R1 8KEY
R1
R2
R3
R4
12KEY GPS/BT RESERVE
R2
R3 $R4
K-02 0
0
0
-
To MAIN UNIT XC1-276 CN7
DISPLAY UNIT (B/2)
S301 EMG S70-0516-05
CN301
3
6
5
4
3
2
1
S302 PTT S70-0516-05
S303 SIDE1 S70-0516-05
S304 SIDE2 S70-0516-05
2
1
S111
MENU MENU
S70-0901-05
S112
S114
S70-0901-05
S115
S113
RET RET
S70-0901-05
Ko0 MENU
FULL KEY
Ko1
Ko2
Ko3 RET Ki0
HOME Ki1
1
2
3 Ki2
0
4
5
6 Ki3
#
7
8
9 Ki4
D112 B30-2365-05 R112
560
S116
S70-0901-05
D111 S70-0901-05 B30-2365-05
R111
1k
S117
D113 B30-2365-05 R113 560
S118
HOME
S70-0901-05
R122 S119 0 1
S70-0901-05 D115
B30-2365-05 R115
1k S122
4
S70-0901-05
S125 7
S70-0901-05 D114
B30-2365-05 R114
1k S120
2
S70-0901-05 D116
B30-2365-05 R116
1k S123
5
S70-0901-05
S126
8
S70-0901-05
S121 3 HOME
S70-0901-05 D117
B30-2365-05 R117
1k S124
6 S70-0901-05
S127 9
S70-0901-05 D118
B30-2365-05 R118 1.2k
S128
*
S70-0901-05 D119
B30-2365-05 R119 1.2k
S129
0
S70-0901-05 D120
B30-2365-05 R120 1.2k
S130
#
S70-0901-05
S70-0901-05
S70-0901-05
C141 C142 C143 C144
470p 470p 470p 470p
Q141 EMD9
D144 D143 D142 D141
CP141 RB521SM-30 RB521SM-30 RB521SM-30 RB521SM-30
100
KEYo0 KEYo1 KEYo2 KEYo3
R142 R143 R145 R147 R148
100 KEYi4 100 KEYi3 100 KEYi2 100 KEYi1 100 KEYi0
C145 470p C146 470p C147 470p C148 470p C149 470p
D201 NSSW206C-T865
D202 NSSW206C-T865
R204 220 R205 220
R141 4.7k
D221
A_G
A_R
A_B
NESM238B
1k
R221
Q221
LTC014EEBFS8
TX/BUSY LCD_BL
CP203
8
7
6
DB[7] DB[6] DB[5] DB[4]
R222
K_G
5
K_R
Q222
1.2k
K_B
100
LTC014EEBFS8
CP201
8
7
6
DB[3] DB[2] DB[1] DB[0]
5
R223
Q223
270
LTC014EEBFS8
CP202
8 /WR
7 /OE
R230 2.2k
6 ADD[23]
5 /CS4
4
5
R227
D227
Light Bar
K_B
K_R
K_G
270
R229
1.2k
R228
1k
LTC014EEBFS8
LTC014EEBFS8
LTC014EEBFS8
Q229
R232 2.2k
Q228
2.2k
R231
Q227
/LCDRST
R208 10k
IC201
INB VCC
INA GND oUTY TC7SZ08FE
C206 0.1u
321 R207 0
R203 10k
18LCD
L202
L201
5.0V
LCD_BL DB[7] DB[6] DB[5] DB[4] DB[3] DB[2] DB[1] DB[0] /LCDRST /WR /OE ADD[23] /CS4
1.8V 3.2V
CN202 1 3 5 7 9
11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41
GND 2 GND
LBC_B 4 LBC_R
LBC_G 6 LED_R
LED_B 8 LED_G
KEYo0 10 KEYo1
KEYo2 12 KEYo3
KEYi0 14 KEYi1
KEYi2 16 KEYi3
KEYi4 18 50A
50A 20 MIC
ME 22 GND
GND 24 LCD_BLC
LCD_DB7 26 LCD_DB6
LCD_DB5 28 LCD_DB4
LCD_DB3 30 LCD_DB2
LCD_DB1 32 LCD_DB0
LCD_/RST 34 LCD_R/W(WR0)
LCD_E(WR1) 36 LCD_A0
LCD_/CS 38 LCD_VSS
18M 40 32LCD
32LCD
C204 0.47u C205 0.1u
C202 2.2u C203 2.2u
100 C201 0.1u
100 R201 100
4
3
2
1
4
3
2
1
4
3
2
1
EMD9
Q201
C207 0.1u
R206 100
24
22
20
18
16
14
12
10
8
6
4
2
VLCD 25
VB0-
VB1- 23
VB1+
VB0+ 21
VDDA
VDDI 19
VSS
/CS0 17
A0
E(WR1) 15
R/W(WR0)
CN201
1
K-
A+ 3
VSS
DB7 5
DB6
DB5 7
DB4
DB3 9
DB2
DB1 11
DB0
/RST 13
To LCD
A_G
A_R
A_B
NESM238B
A
B
C
D
E
F
G
(No.RA070<Rev.001>) 2-11
2-11 (No.RA070<Rev.001>)
< MEMO >
(No.RA070<Rev.001>) 2-12
2-12 (No.RA070<Rev.001>)
MAIN UNIT (XC1-276K-00)
10 9 8 7 6 5 4 3 2 1
POWER SW, AF VOL CHANNEL SELECTOR
BATTERY
VoUT VSS
IC1 XC61CC5602N-G
R10 180k C3 6800p
R7 R30
S
0 270k
1000p
C1
CN3 +B
+
7.5V F1
L1
FZA10BQ-3R15
D1 RR1LAM4S
22p
C2
CN9
R31
Voltage detector
2
1
0 VIN NC
C17 100p
3
4
R1
R2
K-00
0
-
F E D C B A
4
5
3
1
2
CN1
1
NC
2
3
4
5
6
7
8
9
10
11
12
NC 13
C7 100p
C8 100p
C10 100p C14 100p C4 100p C5 100p C9 6800p
C6 100p
CP2 RK74HB1J101J
ENC0 ENC1 ENC3 ENC2
R11 2.2k
CN4 SB1
C37 100p R12 470k
D8 DAN222WM
R15 10k
470k
R14
Q1 EMD12
10k
R13
R16 470k
Q2 SSM6N15AFEM
R19 100k
R18 100k
R20
Q3
100k
R21 100k
SSM6N15AFEM
R49 470k
R48 470k
R17 470k
C36 100p
DC/DC converter (38M)
L3
R52
1
R28 220k
R27 270k
C27 0.1u VIN CE NC1 VSS VoUT NC2
R29 470k R66 R65 470k 470k C30 100p
SDET
Voltage regulator (50C)
VOL
C29 2.2u
5.0V 123
IC6 XC6209B502D-G
654
SBC
C28 100p
SBC Q4
VT6M1
/BINT /PSW
BATT
0.1u
C21
3300p
R38
5 6 7 8 C20
PVIN2 12 PVIN1 11
AVIN 10 SS/TR 9
C19 10u
C18 10u
16 15 14 13
Q5 VT6M1
R37 100k
9
18k
R22
EN VoS PGND1 PGND2
DEF FSW AGND
FB
22u 68k
C22 R23
1 SW1 2 SW2 3 SW3 4 PG
L4 IC3 TPS62140RGT 2.2u
R67 R24 2.2 1k
DC/DC converter (18M)
L2
8765
IC4
VoUT AVSS
NC1 CE
LX NC2
PVSS VIN
10
1.8V
1234 C24 10u
L5 3.8V
R33 100k
R32
2.7
10u
C31
456
L1
7
DC/DC converter (12M)
IC2
LX VIN
AGND PGND
VoUT CE
321
R36 100k
1.2V R35 100
1k
L2
C32 10u
8
Voltage regulator (18BT)
IC8
2
R8
STBY
3
GND
1k
L9
VIN
1.8V
1
4
VoUT
BU18TD2WNVX
0.22u
C15
0.22u
C16
L1
R25 100k C23 4.7u
Voltage regulator (32M)
IC5
2
R26
3
CE VSS
10k
0.1u
L7
4
VIN VoUT
1
3.2V
Voltage regulator (32BT)
IC7
2
R9
3
STBY GND
1k
L8
4
VIN VoUT
1
3.2V
0.22u
C34
0.22u
C33
0.47u C35
0.47u
C26
C25
L10
Voltage regulator (31BU) 321
BATT CHK
3.1V D9
RB520SM-30
Voltage regulator (12BU)
CN5
4
3
1.2V
L11
Voltage regulator (32A)
4
3
3.2V
C42 0.1u IC11
CoNTRoL VIN
GND VoUT
NJM2878F4-32 C43 0.47u
C38 0.1u IC9
XC6209B312D-G NC2 VoUT VSS NC1 CE VIN C39 1u
CN2 R39 1k
C40 0.1u IC10
XC6215B122N-G CE VIN VSS VoUT C41 0.1u
456
1
2
1
2
R40 1k
FCNT
TEMP
R407 10
R403 C402 10 100p C403
R401 1k
X401
19.2MHz L7H-0076-00
1 VC
VCC 4
2 GND oUT 3
L401
R402 0
OSCGND B
R404 C404 22 0.01u
0.01u
R405
15k C405
100p C407
0.01u
Q401 2SC5585
C406 L402 0.01u 4.7u
R412 0
R413 22
3
4
Switch IC (18M_3) IC12 VoUT
VIN
VSS CE XC8102AA07-G C44 0.1u
2
1
BT_CLK 1.8V
ASSIST
CV ASTSW
CP
VCO_MOD3
CPZ
50C
D111 1SS400SM
C112
4.7u 10 R123 470k
/SAVE
C113 1u R119 470k
R118 470k VCO_H_/L R115 0
R114 47k C116
3p C117 0.75p
R141 470k /SAVE
CN355 BT_CLK_REQ
BT_CLK
C357 C359 C387
R351 C358
1u 0.1u 0.1u
100 0.1u
R360 10k R361 47k
C356 0.01u
C386 0.1u
C388 1u
CN351 GPS_PPS_OUT
C360
0.1u C361
0.1u
L352 L351
1.8V 3.2V
L1 J2 J1 J3 H3 H2 F5 E3 F4 E4 D5 C6 C4 H1 F3 F2 G1 G2 F1 E1 E2 D4 C2 C1 B2 B1 A1
C363 18p C364 1u C365 1u
18BT_ACLK 18BT_AFSYNC
18BT_AIN 18BT_AOUT
18BT_TX 18BT_RX 18BT_CTS 18BT_RTS /BT_SHUTDOWN R353 100 C367 0.1u C368 0.1u
/BT_SHUTDOWN
CN352 BT_TX_DBGX
Level converter
Level converter
BLS E351
18BT_ACLK
18BT_AFSYNC A2 6
18BT_AIN
18BT_AOUT
18BT_TX 18BT_RX 18BT_CTS 18BT_RTS
VBAT1 A2 VDD1P8V_2 A3
VDDS1 B3 BT_AUD_CLK D1 BT_AUD_FSYNC D2
BT_AUD_IN D3 BT_AUD_oUT C3 BT_HCI_UART_TX A4 BT_HCI_UART_RX B5 BT_HCI_UART_CTS B4 BT_HCI_UART_RTS B7 BT_HoST_WAKEUP A5 BTFM_nSHUTDoWN A6
VDD_DIG1 E5 VSS_DIG6 B6 BT_GPIo<6> H5 BT_GPIo<5> D7 BT_GPIo<4> C5 BT_GPIo<3> D6 BT_GPIo<2> C7 BT_TESTTP B8 VSS_DPLL_BT A7 VDD_DCo_BT A8 VSS_DCo_BT A9 VDD_RF_BT B9 BT_TESTTM A10
VDDS4 TCXo_LDo_VPRoG TCXo_CLK_LV VSS_TCXo_CLK VDD_TCXo
VSS_RF_BT
BT_RF
PMTEST_1P8V
VDD1P8V_BT
VDD1P8V_1
VDD_LDoIN_CLASS1P5_BT
VDD_DIG_LDo
VDD_CLASS1P5_BT
VDD_SRAM_LDo
VSS_DIG5
TCXo_CLK_REQ
VDD_DIG2
VSS_DIG2
GPS&BLUETOOTH
TCXo_LDo_IN GPS_PPS_oUT
IC351
GPS_TIMESTAMP
GPS_nSHUTDoWN GPS_SENS_I2C_SDA GPS_SENS_I2C_SCL GPS_UART_RX GPS_UART_TX
GPS_TM GPS_TP VDD1P8_GPS VSS_PLL_GPS VDD_PLL_GPS VSS_LNA_GPS1
FM_AUD_IN_L FM_AUD_IN_R
RTC_CLK VDD1P8_FM VSS_PASYNTH_FM
VDD_PPAIF_BT REF_CLK_LV REF_CLK_HV BT_WAKEUP
VSS_REF_CLK VSS_DIG3
VDD_SRAM1 VDD_DIG4 VSS_DIG1 VDDS2
FM_I2C_SDA FM_I2C_SCL
FM_IRQ FM_I2S_CLK FM_I2S_FSYNC FM_I2S_oUT
FM_I2S_IN
J10 J8 H9 H8 H7 G8 G7 F7 F8 G6 F6 E6 G10 G9 F10 F9 E10 E9 H10 E8 E7 D10 D9 D8 C8 C10B10
C389 10p C371 0.1u C372 0.1u C373 0.1u C374 0.1u
L361 L79-1987-05
R357 10k
A4 8
DIR4 GND
OE DIR3
A3 7
A2 6
IC352 74AVC4TD245GU
C380
A1 5
DIR1 VCC(A)
VCC(B) DIR2
1234
0.1u
C383 0.1u
R358 10k
A4 8
DIR4 GND
OE DIR3
A3 7
IC353 74AVC4TD245GU
C381
A1 5
DIR1 VCC(A)
VCC(B) DIR2
1234
0.1u
C384 0.1u
12 11 10 9
12 11 10 9
16 B1
15 B2
14 B3
13 B4
16 B1
15 B2
14 B3
RK74HB1J100J 13 B4
C370 1u
CP352
Q351 SSM3K15AMFV
CP351
RK74HB1J100J
C382 47p
L366 L365
BT_AUD_DI BT_AUD_DO
WCLK BCLK
RTS2 CTS2
RXD2 TXD2
X351 L77-3121-05
L353 10n
C369 22p
L359 L7K-0059-00
R355 39
R369 0
C391 120p
GPS RF CN354 CN356
2.9V
C354 4p
BT RF CN353 CN357 R359 0
K2 VSS_LNA_GPS3 L2 GPS_LNA_IN L3 VSS_LNA_GPS2 K4 VDD_IF_GPS K3 VSS_MIX_GPS G5 GPS_IRQ H6 GPS_EXT_LNA_EN G3 GPS_PA_EN H4 GPS_I2C_UART_SEL L4 IFoRCE J4 VSENSE G4 CLK_REQPoL L5 VDD_SRAM2 K5 VDDS3 J5 VSS_DIG4 L6 VPP K6 VDD_DIG3 J6 REF_CLK_REQ L7 FM_AUD_oUT_L K7 FM_AUD_oUT_R J7 VSS_ADCPLL_FM L8 FM_ABGAP_CAP K8 VSS_RF_FM L9 FM_RFP_IN K9 FM_RFP_oUT J9 VSS_PA_FM L10 TEST_EN
L354 27n
R354 150 R356 150
C395 2.5p
C375 0.1u
L358
R365 1k
R362 220
R363 220
R364 1k
R367 47k
R366 1k
32BT
C218 100p
R207 18
R206 270 R208 270 C217 1p C216 4p
L205 5.6n
C233 R211 100p 3.3
C220 100p C221 0.047u 321 456
MMIC (Pre-drive)
IC202 BGU6104
VCC CUR_ADJ NC
ENABLE RF_IN
RF_OUT
R212 C223
R214 8.2k
C225 R223 C267
100p 18 100p
1k 100p
C229 5p
C219 10p C230 12p C253 18p
L207 L208
L209
6.8n 6.8n L212 1.0n
DRIVE
RD01MUS2BT513 Q201
L206 68n
R216 47
100p R213
82
C224
C54 0.1u VIN CE NC1 VSS VoUT NC2 C55 2.2u
800M:RX :0V 800M:TXH:5.0V 800M:TXL:5.0V 900M:RX :0V 900M:TXH:5.0V 900M:TXL:5.0V
Voltage regulator (50T) IC15 XC6209B502D-G 123
654
C56 100p
C259 100p R245
47k
R246 47k
R244 27k
R247
C234 100p R215 3.3k R209 2.7k
C235 100p L211
EDZV5.6B
R218 330 L218 39n
R248 0.22 R250 0.22
C237 100p R228
0
R266 0
FINAL Q202 RD07MUS2BT514
R221
0
C231 3p
C268 12p R219 68 C272 33p
800M:RX :7.5V 800M:TXH:7.3V 800M:TXL:7.4V 900M:RX :7.5V 900M:TXH:7.3V 900M:TXL:7.4V
R210 2.7k R222 3.3k C239 100p
800M:RX :4.6mV 800M:TXH:1.9V 800M:TXL:1.6V 900M:RX :4.6mV 900M:TXH:3.0V 900M:TXL:2.5V
R252 4.7k R253 4.7k
R265
6.8k
C262 R251 0.056u 27
R255 39k
R264
6.8k
C271 22p C242 15p C201 5.1p L213
micro strip line
L214 C243 0.1u C241 100p
C240 150p
R230 220
4321
DC amplifier (APC)
R258 3.3k
IC203 oUT1
VCC -IN1
oUT2 +IN1
-IN2 VEE
+IN2
C263 100p
BA3472FVM
R259 15k
C257 100p TH201 NCU15WF104F6S
C236 6.2p C203 5.1p
-t
R204 120 C211 100p C269 1.5p C270 1.5p C209 2p D202 RN142SM D203 RN142SM
C227 100p
800M:RX :0V 800M:TXH:1.6V 800M:TXL:1.6V 900M:RX :0V 900M:TXH:1.6V 900M:TXL:1.6V
L203 68n
C215 15p
L204 47n D201
RN142SM D207
RN142SM
C246 100p
800M:RX :0V 800M:TXH:0.8V 800M:TXL:0.8V 900M:RX :0V 900M:TXH:0.8V 900M:TXL:0.8V L201 12.1n
4 C212 100p
Q207 EMD9
Q206 SSM3K15AMFV
C214
100p
2
1
DC amplifier (Antenna SW) IC201
VoUT VIN
VSS CE
XC8102AA07-G C213 100p
3 R205
1k
C208 1.5p C247 4p
ANT_SW/LPF
L215 5.3n C228
1p
L216 5.3n C248
0.75p
L217 5.3n C250
0.75p
C249 2.5p
L202 10n
5678 R268 R269 100k 1k
39k R257 R256
R260 3.9k C264 8200p
R237 1k
220
LSCR523EBFS8 47 D204
C261 100p
Q203
C258 100p
R47 100k
R233 3.9k C265 8200p
C266 100p
R249 10k
Q205 SSM3K15AMFV
Q204 LTC044EEBFS8
R234 100k
ANTSW
APC APCSW2 THP
/APCSW
TXC Ramp_Offset /DSW
C379 1000p C385 1000p
ANTCHK
1000p
1000p
FEM_ALM
C377
C392
1000p
FEM_PWR
C376 1000p
C378
C366 0.1u R352 100 GPS_PA_EN
32BT
38M SBC
C46 4.7u C47 3.3u C48 4.7u
321
C51
0.22u
DC/DC converter (200C)
D10
L12
15u RB561VM-40
IC13
456 C52
R42
R43
27
27
GND SW
VIN NC
EN FB
TPS61041DRVR
Voltage regulator (32C) IC14
STBY GND
2
3
L13
VIN
4
VoUT
1
C666
0.22u
680p R45 33k
R44 C49 C50
470k 680p 0.68u
800M:18.6V
R46
900M:18.6V R102 R106
22
0 10
C102 0.01u
R104 1k
R103 43k
321
DC amplifier (Assist) C104 100p C105 1u
IC101 OPA170AIDRLR
IN+ V+
VIN-
oUT
C103 33p R105 150k
4
5
D102
EDZV8.2B
R107 R111 100k 4.7k
Q102 EM6M2
R108 10M
321
DC amplifier (CV) IC102
IN+ VDD
VSS IN-
oUT BU7295HFV C106 0.1u
4
5
C107 100p
CN101 R112
1k
R109 47
R110 100k
R189
C118 150p
R127 R126
0
0
R128 390
L121
L131 100n
VCO H
C133 5p
C127
3p
D134
D136 1SV280FT
1SV280FT
C134 1.6p
D133 1SV280FT 1SV280FT
L133 3.2n L134
L135 100n L132 100n
D132
D131 BBY53-02V
L139 100n
C123 0.047u C132 18p
R130 150
C121 0.15u
C122 10u
C135 18p
R129 10k
VCO L L151 C153
C171
3p D156
D154 1SV280FT
91n
7p 1SV280FT
C156 1.9p
L153 47n L152 47n D153 1SV280FT D152 1SV280FT L154 3.2n L155
L159 47n
D151 BBY53-02V
C154 22p
C108 0.1u
50C
L160
Q113 2SD2654/W/
800M:4.3V 900M:4.3V
Q114
R121 10k
0 C111 47p
100k
R125
VT6M1
10k R190
R120 470k
C155 1.0p
C137 0.1p R132
R153
4.7k C159 22p C160
R152 4.7k L158 91n C167
22p C165 0.1u
1.5k C139
R133 1k L138 120n C130 18p C148 0.1u
Q131 C142 BFU660F
C145 0.5p
1.6p
L136 91n C143
1.3p
L137 R139 39n
15
C138 22p
CP101
18p
150 C144
R134
1.0p
C141
18p C140 0.33u
C161
Q151
1.3p BFU660F
C166 1.0p
C162 1.0p
L156 100n
R155 L157 8.2 100n
C158 22p
CP102
Q182 BFU660F
Q181 BFU660F
R182 3.3k R183 3.3k C181 22p R184 120 L181 5.1n R197 4.7k
R188 3.3k R186 3.3k C184 18p R187 120 L182 4.3n R196 4.7k
C185 18p
C182 22p R181 100
R138 4.7k C191 2.5p
C192 4p
C186 0.6p
D103 RN262CS
R185 100
C183 0.75p
D104 RN262CS
R198 0
L191 4.1n
CN191
L192 4.1n
C197 100p
$R191
R195 0
R194 C195 0 1000p
C194 2.5p
22p
120 C164
R154
0.6p
0.33u C163
R116 22 R117 22
C124 1u R145 470k
R148 47k
L111
BLS E101
Q112
800M:4.3V 900M:0V
Q111 RE1E002SP
L113
Q117 RE1E002SP
Q118
800M:3.2V 900M:3.2V
VT6M1
800M:0V 900M:4.3V
Q103
VT6M1
VT6M1
C251 1p R227 82k D206
SPC10501A01
TH Tap CN8 CN10
ON Board Plate CN201 CN202
C401 0.01u TH401
-t NCU15WF104F6S
R410 22 R406 33k R408 680 C408 5p R414 22
47k
R41
R333 0
800M:RX:3.2V 800M:TX:3.2V 900M:RX:3.2V 900M:TX:3.2V
C333 10u C322 100p
CN409 R428 22
CN405 2.2k 2.2k
CN406 2.2k 2.2k CN407 2.2k 2.2k 1k CN408 2.2k
R420 R421 R422 R423 R424 R425 R426 R427
/RST
$CN401
1 2 3 4 5 6 7 8 9 10
DDR_D[15]
DDR_D[14]
DDR_D[13]
DDR_D[12]
DDR_D[11]
DDR_D[10]
DDR_D[9]
DDR_D[8]
DDR_D[7]
DDR_D[6]
DDR_D[5]
DDR_D[4]
DDR_D[3]
DDR_D[2]
DDR_D[1]
CN419 DDR_D[0]
DDR_A[13]
DDR_A[12]
DDR_A[11]
DDR_A[10]
DDR_A[9]
DDR_A[8]
DDR_A[7]
DDR_A[6]
DDR_A[5]
DDR_A[4]
DDR_A[3]
DDR_A[1] DDR_A[2]
DDR_A[0]
CN417 DDR_CLKP
CN416 DDR_CLKN
DDR_CKE
DDR_WE
CN415 DDR_RAS
DDR_CAS
DDR_CS
DDR_DQM[0]
CN414 DDR_DQM[1]
DDR_DQS[0]
CN413 DDR_DQS[1]
DDR_BA[0] DDR_BA[1]
LCD_BLC LED_R
BER_EN PLD
/INT_PTT SBC
LED_B LED_G BOOT[0] BOOT[1] BOOT[2] BOOT[3] BOOT[4] BOOT[5] BOOT[6] BOOT[7]
12M_1
1.2V 1.2V
PLL0_VDDA
1.2V PLL1_VDDA
C427 0.1u C425 0.1u
L404 L405
L406
C428 0.1u C426 0.1u
CN418
LCD_D<0> LCD_D<1> LCD_D<2> LCD_D<3> LCD_D<4> LCD_D<5> LCD_D<6> LCD_D<7> LCD_D<8>/BooT<0> LCD_D<9>/BooT<1> LCD_D<10>/BooT<2> LCD_D<11>/BooT<3> LCD_D<12>/BooT<4> LCD_D<13>/BooT<5> LCD_D<14>/BooT<6> LCD_D<15>/BooT<7> DDR_DQGATE1 DDR_DQGATE0 DDR_BA<0> DDR_BA<1> DDR_BA<2> DDR_DQS<1> DDR_DQS<0> DDR_DQM<1> DDR_DQM<0>
DDR_CS DDR_CAS DDR_RAS DDR_WE DDR_CKE DDR_CLKN DDR_CLKP DDR_A<0> DDR_A<1> DDR_A<2> DDR_A<3> DDR_A<4> DDR_A<5> DDR_A<6> DDR_A<7> DDR_A<8> DDR_A<9> DDR_A<10> DDR_A<11> DDR_A<12> DDR_A<13> DDR_D<0> DDR_D<1> DDR_D<2> DDR_D<3> DDR_D<4> DDR_D<5> DDR_D<6> DDR_D<7> DDR_D<8> DDR_D<9> DDR_D<10> DDR_D<11> DDR_D<12> DDR_D<13> DDR_D<14> DDR_D<15>
/FRST
R433 10k
W1 W2 W3 V1 V2 V3 U1 U2 U3 T1 T2 T3 R1 R2 R3 P4 R12 R11 V8 T9 U8 V11 T14 R10W13 V9 U9 W9 T8 V7 W7 W8 U7 T7 W6 V6 U5 V5 W5 U6 U4 T6 W4 T4 V4 T5 U15 U14 V14 U13 V13 V12W12W11 T13 T11 T10 T12 U10 V10 U11W10
K14 J17 T17
18M_1 18M_2 32M_1
1.8V 1.8V 3.2V
L407 L408
R452 0
L16
M16 TDI J18 TDo J15 TCK
RESET NMI RESEToUT TMS
AMUTE/UART2_RTS D5 AFSR C2
RTS2 USB_SW
R432 10k R434 10k
L17 TRST J16 EMU0 K16 EMU1
CN450 K17 RTCK/GP8<0>
CN412
T18 CLKoUT
X402 C422 18p L77-1802-05
C455
CTS2
100p C423
G
15p
RTCGND
USB0_DM
USB0_DP
R430 0
C421 0.1u
/WP
SYMTIM_IN /DCR_RST
AGCKEEP
R431
/KEYI2
22k
LBC_B KEYO1 LBC_R
L19 oSCIN
K19 oSCoUT
R435 1M
J19 RTC_XI R437
0 H19 RTC_Xo
F4 RTC_ALARM/DEEPSLEEP 32M_1_1
M18 USB0_DM
M19 USB0_DP USB_DET
P16 USB0_ID
VBUS N19 USB0_VBUS
C424 0.22u
K18 USB0_DRVVBUS N17 USB0_VDDA12 P18 USB1_DM
18M_1_1
P19 USB1_DP
E9 MMCSD0_CLK
F1
F2
H4
G4
R5 LCD_AC_ENB_CS
L1 SATA_RXP
L2 SATA_RXN
J1 SATA_TXP
32M_1_1
J2 SATA_TXN
N2 SATA_REFCLKP
N1 SATA_REFCLKN
N3 SATA_REG
R436 0
W14 GP6<7> V15 GP6<6> V18 PRU0_R30<15>/PRU0_R31<15>
V19 PRU0_R30<14>/PRU0_R31<14>
U19 PRU0_R30<13>/PRU0_R31<13>
T16 PRU0_R30<12>/PRU0_R31<12>
F5 DVDD3318_A1 F15 DVDD3318_A2 G5 DVDD3318_A3 G14 DVDD3318_A4 G15 DVDD3318_A5 H5 DVDD3318_A6 E14 DVDD3318_B1 F6 DVDD3318_B2 F7 DVDD3318_B3 F8 DVDD3318_B4 F10 DVDD3318_B5 F11 DVDD3318_B6 F12 DVDD3318_B7 F13 DVDD3318_B8 G9 DVDD3318_B9 J14 DVDD3318_B10 K15 DVDD3318_B11 J5 DVDD3318_C1 K13 DVDD3318_C2 L4 DVDD3318_C3 L13 DVDD3318_C4 M13 N13 P5 P6 P12 R4
ACLKR A1
MIC_IESW
AHCLKX/USB_REFCLKIN/UART1_CTS AXR0/ECAP0_APWM0/MII_TXD<0>/CLKS0
AHCLKR/UART1_RTS A2 AFSX B2
ACLKX B1 A3 F3
R450 L417
330 R453
100 CN439
RTS1 WCLK BCLK CTS1
18M_1_1 12M_1_2 12M_1_1
AXR1/DX0/MII_TXD<1> E1 AXR2/DR0/MII_TXD<2> E2
DCR_DO DCR_ADI
R13 P13 L6 K5 J13 G12 G11 G10 G6 F14 N7 H14 E5 N8 M9 M8 L12 K12 K6 J12 J6 H13 H12 H11 H10 H7 H6 G13 G8 G7 E15
AXR3/FSX0/MII_TXD<3> E3
/BINT
MMCSD1_DAT<7>/LCD_PCLK MMCSD1_DAT<6>/LCD_MCLK MMCSD1_DAT<5>/LCD_HSYNC MMCSD1_DAT<4>/LCD_VSYNC
DVDD3318_C5 DVDD3318_C6 DVDD3318_C7 DVDD3318_C8 DVDD3318_C9 DVDD3318_C10
DVDD18_10 DVDD18_9 DVDD18_8 DVDD18_7 DVDD18_6 DVDD18_5 DVDD18_4 DVDD18_3 DVDD18_2 DVDD18_1 RVDD3 RVDD2 RVDD1 CVDD18 CVDD17 CVDD16 CVDD15 CVDD14 CVDD13 CVDD12 CVDD11 CVDD10 CVDD9 CVDD8 CVDD7 CVDD6 CVDD5 CVDD4 CVDD3 CVDD2 CVDD1
MPU/DSP IC401
AXR4/FSR0/MII_CoL D1
/DCR_ACS
NC3 M3
AXR5/CLKX0/MII_TXCLK D3
SYMTIM_IN
RSV2 T19
AXR6/CLKR0/MII_TXEN C1
DCR_ACLK
SATA_VDD4 N4
AXR7 D2
CODEC_DO
SATA_VDD3 P2
AXR8/CLKS1/ECAP1_APWM1 E4
CODEC_DI
SATA_VDD2 P1
AXR9/DX1 C3
DCR_DDO
SATA_VDD1 M2
AXR10/DR1 D4
/DCR_DCS
SATA_VDDR P3 12M_1_2
AXR11/FSX1 C5
DCR_DI
USB_CVDD M12
AXR12/FSR1 C4
BT_AUD_DI
USB1_VDDA18 P14
AXR13/CLKX1 B3
KEY_INT
USB1_VDDA33 P15 18M_1_1
AXR14/CLKR1 B4
BT_AUD_DO
USB0_VDDA18 N14 32M_1_1 AXR15/ECAP2_APWM2 A4
/DCR_CS
USB0_VDDA33 N18 18M_2_1
GP8<12> G3
/LCD_RST
R613 470k
DDR_DVDD18_10 R9
18M_2_2
MMCSD1_CMD J4
DDR_DVDD18_9 R8
DDR_DVDD18_8 R7
MMCSD1_CLK G2
CN443
MMCSD1_DAT<0> G1
DDR_DVDD18_7 P10
ANTSW_0 GP6<8> T15
DDR_DVDD18_6 P9
APCSW2_0
GP6<9> U16
DDR_DVDD18_5 P8
GP6<10> W15
TXC
GP6<11> GP6<12>
GP6<13> SPI1_SoMI SPI1_SIMo 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
DDR_DVDD18_4 P7
DDR_DVDD18_3 N10
DDR_DVDD18_2 N9 DDR_DVDD18_1 N6
DDR_VREF R6 DDR_ZP U12
R439 1k
R438 49.9 C489 100p
R440 1k
C435 0.1u
C434 0.1u C487 100p
/DSW U17
ENC0 R16
R17
/APCSW_0
H17
/ADC_INT
SDO1 G17
I2CCK G16
C488 100p
PLL1_VDDA PLL0_VDDA
RTC_CVDD L14 N15
PLL1_VDDA G18 PLL0_VDDA F17
I2CDT RXD2
L15
TXD2
F16
oSCVSS PLL0_VSSA PLL1_VSSA RTC_VSS SATA_VSS1 SATA_VSS2 SATA_VSS3 SATA_VSS4 SATA_VSS5 SATA_VSS6 NC1 NC2 VSS1 VSS2 VSS3 VSS4 VSS5 VSS6 VSS7 VSS8 VSS9 VSS10 VSS11 VSS12 VSS13 VSS14 VSS15 VSS16 VSS17 VSS18 VSS19 VSS20 VSS21 VSS22 VSS23 VSS24 VSS25 VSS26 VSS27 VSS28 VSS29 VSS30
KEYO2
R18 PRU0_R30<11>/PRU0_R31<11>
L18 M17M15 H18 H1 H2 K1 K2 L3 M1 M14 N16 A19 H8 H9 H15 J7 J8 J9 J10 J11 K7 K8 K9 K10 K11 L5 L7 L8 L9 L10 L11 M4 M5 M6 M7 M10M11 N5 N11 N12 P11
RXD1 E18
KEYO3
R19 PRU0_R30<10>/PRU0_R31<10>
F19
TXD1
KEYO0 /EMG /KEYI0 /SIDE1
/SIDE2
R15 PRU0_R30<9>/PRU0_R31<9> P17 GP6<5> U18 RMII_TXD<1>/PRU0_R31<29> V16 RMII_TXD<0>/PRU0_R31<28> R14 RMII_TXEN/PRU0_R31<27> W16 RMII_RXD<1>/PRU0_R31<26>
G RTCGND OSCGND B
12M_1
C429 10u C431 4.7u
L411 L79-1946-05
L412 L79-1946-05
12M_1_2
12M_1_1 18M_2 C432 10u
L414 L79-1946-05 L79-1946-05 L415
18M_2_2 18M_2_1
SPI1_SCS<1> F18 SPI1_SCS<0> E19
SPI1_ENA H16 SPI1_CLK G19 SPI0_SoMI/MII_RXER C16 SPI0_SIMo/MII_CRS C18
/DACCS ENC3
/EXT_PTT SCK1 SDI0 SDO0
EMA_D<15> EMA_D<14> EMA_D<13> EMA_D<12> EMA_D<11> EMA_D<10> EMA_D<9> EMA_D<8> EMA_D<7> EMA_D<6> EMA_D<5> EMA_D<4>
18M_1_1
18M_1 C433 4.7u
32M_1_1
/KEYI4 /KEYI3
V17 RMII_RXD<0>/PRU0_R31<25> W17 RMII_RXER/PRU0_R31<24>
32M_1
L416 L79-1946-05
L79-1946-05 L413
SPI0_SCS<5>/UART0_RXD/MII_RXD<3> C19 SPI0_SCS<4>/UART0_TXD/MII_RXD<2> D18
CN445 CN447
C430 10u
EMA_WAIT<1>
EMA_WAIT<0>
EMA_WEN_DQM<0>
EMA_WEN_DQM<1>
EMA_A<14>/MMCSD0_DAT<7>
EMA_A<15>/MMCSD0_DAT<6>
EMA_A<18>/MMCSD0_DAT<3> EMA_A<17>/MMCSD0_DAT<4> EMA_A<16>/MMCSD0_DAT<5>
EMA_A<20>/MMCSD0_DAT<1> EMA_A<19>/MMCSD0_DAT<2>
EMA_A<21>/MMCSD0_DAT<0>
EMA_A<22>/MMCSD0_CMD
/KEYI1
W18 RMII_MHZ_50_CLK/PRU0_R31<23>
SPI0_SCS<3>/UART0_CTS/MII_RXD<1> E17
/ADC
ENC1 /PSW
W19 RMII_CRS_DV/PRU1_R31<29> H3 MMCSD1_DAT<3>/PRU1_R30<3>/PRU1_R31<4> K3 MMCSD1_DAT<2>/PRU1_R30<2>/PRU1_R31<3>
SPI0_SCS<1>/MDIo_CLK SPI0_SCS<0>/MDIo_D SPI0_ENA/MII_RXDV SPI0_CLK/MII_RXCLK
SPI0_SCS<2>/UART0_RTS/MII_RXD<0> D16 E16 D17
RX TX 5UC
EMA_oE
EMA_WE
EMA_A_RW
EMA_CS<3> EMA_CS<4> EMA_CS<5>
EMA_CS<2>
EMA_CS<0>
EMA_CLK EMA_SDCKE EMA_RAS EMA_CAS
EMA_BA<0> EMA_BA<1>
EMA_A<0>
EMA_A<4> EMA_A<3> EMA_A<2> EMA_A<1>
EMA_A<6> EMA_A<5>
EMA_A<7>
EMA_A<8>
EMA_A<9>
EMA_A<10>
EMA_A<11>
EMA_A<12>
EMA_A<13>
EMA_D<3> EMA_D<2> EMA_D<1> EMA_D<0>
ENC2
J3 MMCSD1_DAT<1>/PRU1_R30<1>/PRU1_R31<2>
LBC_G C17
/CINT
K4 PRU1_R30<0>/PRU1_R31<1>
D19
SCK0
D401 RB521CM-30
E6 C7 B6 A6 D6 A7 D9 E10 D7 C6 E7 B5 E8 B8 A8 C9 A10 B10 A11 C10 E11 B11 E12 C11 A12 D11 D13 B12 C12 D12 A13 B13 E13 C13 A14 D14 B14 D15 C14 C15 A15 B7 D8 A16 A9 A18 B17 A17 F9 B16 D10 B9 A5 C8 B15 B18 B19 USB_VBUS_0
CP401
APCSW2 /APCSW
USB_VBUS ANTSW
100*4
100p 100p 100p 100p
C483 C484 C485 C486
/WR /UDET GPS_PA_EN /OE
/CS_F
GPSBT_DET R419 2.2k
/BT_SHUTDOWN
C456 100p
/CS4
FLDM ADD[0]
ADD[4] ADD[3] ADD[2] ADD[1]
DATA[15] DATA[14] DATA[13] DATA[12] DATA[11] DATA[10] DATA[9] DATA[8] DATA[7] DATA[6] DATA[5] DATA[4] DATA[3] DATA[2] DATA[1] DATA[0] ADD[23] ADD[22] ADD[21] ADD[20] ADD[19] ADD[18] ADD[17] ADD[16] ADD[15] ADD[14] ADD[13] ADD[12] ADD[11] ADD[10] ADD[9] ADD[8] ADD[7] ADD[6] ADD[5]
VCO_H_/L
L410
L409
BLS E401
C437 C457 C438 C458 C439 C459 C440 C480 C441 C481 C442 C482 C443 C444
0.1u 100p 0.1u 100p 0.1u 100p 0.1u 100p 0.1u 100p 0.1u 100p 0.1u 0.1u
DDR_A[0] DDR_A[1] DDR_A[2] DDR_A[3] DDR_A[4] DDR_A[5] DDR_A[6] DDR_A[7] DDR_A[8] DDR_A[9] DDR_A[10] DDR_A[11] DDR_CLKN DDR_CLKP DDR_CKE DDR_CS DDR_BA[0] DDR_BA[1] DDR_RAS DDR_CAS DDR_WE DDR_DQM[0] DDR_DQM[1]
CN421 ADD[0] ADD[1] ADD[2] ADD[3] ADD[4] ADD[5] ADD[6] ADD[7] ADD[8] ADD[9] ADD[10] ADD[11] ADD[12] ADD[13] ADD[14] ADD[15] ADD[16] ADD[17] ADD[18] ADD[19] ADD[20] ADD[21] ADD[22] ADD[23]
CN424 CN423
R429 1k
DDR_D[0] DDR_D[1] DDR_D[2] DDR_D[3] DDR_D[4] DDR_D[5] DDR_D[6] DDR_D[7] DDR_D[8] DDR_D[9] DDR_D[10] DDR_D[11] DDR_D[12] DDR_D[13] DDR_D[14] DDR_D[15] DDR_DQS[0] DDR_DQS[1] DDR_A[13] DDR_A[12]
1.8V
A8 B7 B8 C7 C8 D7 D8 E7 E3 D2 D3 C2 C3 B2 B3 A2 E8 E2 F3 F7 H3
DQ0 DQ1 DQ2 DQ3 DQ4 DQ5 DQ6 DQ7 DQ8 DQ9 DQ10 DQ11 DQ12 DQ13 DQ14 DQ15 LDQS UDQS NC2 NC1 A12
A0 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10/AP A11 CK CK CKE CS BA0 BA1 RAS CAS WE LDM UDM
E9
D1
C9
B1
A7 VDDQ1
K9 VDD3
F9
VDD2 VDD1
A9
VDDQ5 VDDQ4 VDDQ3 VDDQ2
SDRAM IC402
VSSQ5 E1 VSSQ1 D9 VSSQ4 C1 VSSQ3 B9 VSSQ2 A3
VSS3 K1 VSS2 F1 VSS1 A1
J8 J9 K7 K8 K2 K3 J1 J2 J3 H1 J7 H2 G3 G2 G1 H7 H8 H9 G9 G8 G7 F8 F2
C445 1u C446 0.1u C447 100p
A0 DQ0 A1 DQ1 A2 DQ2 A3 DQ3 A4 DQ4 A5 DQ5 A6 DQ6 A7 DQ7 A8 DQ8 A9 DQ9 A10 DQ10 A11 DQ11 A12 DQ12 A13 DQ13 A14 DQ14 DQ15/A-1 A15 A16 RFU5 A17 BYTE A18 RFU4 A19RY/BY A20 NC4 A21 NC3 A22 RFU3 A23 RFU2 A24 RFU1 A25 NC2 CE NC1 oE WE RESET WP/ACC VIo1 VIo2
R451 0
VSS oUT
DS VDD
C448 0.01u
ASTSW /SAVE
/CS3
5
/RST
Voltage detector R442 4.7k
4
3
IC403 S-80135ANPF-G
1
2
AND gate (2 input)
IC405
321
INB VCC
INA GND
oUTY
TC7SZ08FE C449 0.01u
4
DATA[0] DATA[1] DATA[2] DATA[3] DATA[4] DATA[5] DATA[6] DATA[7] DATA[8] DATA[9] DATA[10] DATA[11] DATA[12] DATA[13] DATA[14] DATA[15]
R443
100k R444
100k
Flash memory
IC404
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 VSS1
VSS2 VSS3
E8
G5 VCC
H2
H7
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
R445 4.7k D402 RB521CM-30
1.8V
CN422 /CS_F /OE /WR /FRST /WP
C436 10u
C450 0.1u C451 0.1u C452 1u
CN436 CN437
/DCR_RST RX TX AGCKEEP
BCLK
/DCR_CS DCR_DO DCR_DI DCR_ACLK
PLD
DCR_ADI /DCR_ACS /DCR_DCS DCR_DDO
R447 2.2k
Motion sensor
IC406 KXCJ9-1008
SDA 10
R446 10
C453 0.01u 4321
IoVDD SCL DNC1 ADD DNC2 INT GND RSVD
5 VDD
C454 0.1u
Voltage regulator (50A) IC17
XC6209B502D-G
123
5.0V
C672 0.1u VIN
CE NC1
VSS VoUT
NC2 C60 2.2u
654 32M
CN310 CN311
6789 R449 4.7k
R448 2.2k
CN305 CN306 CN307 CN308 CN309
C496 1u
C498 0.1u C499 0.1u
R467 100 R468 100 R469 100 R470 100
CP303 RK74HB1J100J
R335 680 R336 680
CP302 RK74HB1J100J
R332 1k
CP301 RK74HB1J100J
C303 0.01u
2.2u CN303 CN304 47k
C321 0.1u
C312 2p L309 12n
R304 0
C301 R325
C338 100p
RSTN VCoM_AD
ADVDD ADVSS TEST2 AoUT_N AoUT_P RXVDD
BIAS1 LNAVDD LNACoNT
LNAIN VSS3 EXP_PAD
39 38 37 36 35 34 33 32 31 30 29 28 27 53
40 RX_PDN 41 TX_PDN 42 AGC_KEEP 43 CSN 44 SDATAI 45 SCLK 46 SDATAo 47 LD 48 DVDD 49 AD_SCLK 50 AD_SDo 51 AD_FS 52 DA_FS
VSS2 LNAoUT DEMVDD
Transceiver IC
IC303
26 25 24 DEMIN 23 VSS1 22 LoVDD 21 RFoUT_N 20 RFoUT_P 19 LoIN 18 LoDVDD 17 CPZ 16 SWIN 15 CP 14
C315 1u C314 0.01u C313 100p
C323 100p
C324 0.01u C325 100p
C326 0.01u
R313 100
DA_SCLK DVSS1 DA_SDI TEST1 BIAS2 SMFoUT DACVDD VREF1 TCXoIN VREF2 SYNVSS SYNVDD CPVDD
1 2 3 4 5 6 7 8 9 10 11 12 13 R331 0
C332 0.1u
C316 10u
C327 0.1u C328 100p
R330 27k C348 1u
C342 10u C341 100p C343 0.47u
C346 22p
C331 100p
C329 0.1u C330 100p
L301 18n R302 100
C305 1.5p
L303 270n R301 100 C302 2p L304 18n
L311 13n R310 470 C306 100p
C393 5p R306 820 R303 820 L302 6.8n D304
1SS390 D303
1SS390 L308 3.6n
R312 5.6
C334 4p
C310 3p
RX HPF
C309 3p
C308 18p
C344 100p
D302 1SS400SM
D301 1SS400SM
L307 5.6n
C317 0.75p
C311 2p
L312 12n
C320 5p
R315 0
R318 0
L315 220n L314 10n
BLS E301
CP CPZ
VCO_MOD3
I2CDT I2CCK
R463 R464
100k 10k
CP403 100*4
/ADC SCK0 SDO0 SDI0
/ADC_INT
CP402 10*4
CN453
R466 0
C497 0.1u
R462 0 R461
0
C500 0.1u
24 23 22 21 20 19 18 17
SCLK CS
AGND2 +VA1 CH0 CH1 CH2 CH3
25 SDI
26 SDo
27 BDGND
A/D converter
28 +VBD
29 GPIo
30 REFM REFP
31 +VA2 32
IC409 ADS7961SRHB
CH4 16 CH5 15
CH6 14
CH7 13
CH8 12 CH9 11 CH10 CH11 10
9
AGND1 MXo AINP AINM CH15 CH14 CH13 CH12
12345678
CP404
100*4 CP405
100*4
CV Ramp_Offset
BATT
TEMP THP
SDET VOL
PFKEY FEM_PWR FEM_ALM
ANTCHK SCK1
/DACCS SDO1
32M
FCNT ASSIST
APC
C501 1u 10 9 8 7 6
CP406 10*4
D/A converter
IC410
GND VoUTD
VREFIN VoUTC
DIN VoUTB
SYNC VoUTA
SCLK VA
DAC124S085CIS
CN454
12345 C502 0.1u
DATA[0] DATA[2] DATA[4] DATA[6]
CN452
/WR
DATA[7] ADD[23]
DATA[5]
/CS4 /OE DATA[1] DATA[3]
RK74HB1J101J
1.8V 3.2V
CN402
C518 0.1u
2
L427
L428
4
C517 0.1u
LCD_/CS
CP410 RK74HB1J101J
6
LCD_A0
LCD_/CS WR1_/OE DB[1] DB[3]
WR1_/OE
8
WR0_/WR
R479
/LCD_RST
10
DB[0]
100
CP411
RK74HB1J101J
DB[1]
DB[5]
12
DB[2]
DB[7] LCD_A0
DB[3]
WR0_/WR
14
DB[4]
DB[5]
CP412 RK74HB1J101J
16
DB[6]
DB[0]
DB[2]
DB[7]
DB[4] DB[6]
18
R480
100
LCD_BLC
20
C510 100p
L429
C515 100p
22
L430
24
L431
C516 0.1u
C469 100p
CP408
26
C470 100p
C471 100p 28
C472 100p RK74HB1J101J
C473 100p 30
C474 100p
C475 100p 32
C476 100p
CP409
C477 100p RK74HB1J101J 34
5.0V
50A
/KEYI4
/KEYI3
/KEYI2 /KEYI1
/KEYI0
KEYO3
KEYO2 KEYO1
R415 100k
Q402 LTC044EEBFS8
10k
R411
KEY_INT
LED_B LBC_G LBC_B
LED_G
LED_R
LBC_R
KEYO0
D403 1SS400SM D404 1SS400SM D405 1SS400SM D406 1SS400SM D407 1SS400SM
36
CP414
38
40
RK74HB1J101J
CP413
C62
0.1u
470
R60
C67 100p C68 100p C69 100p C70 100p
4321
47k
R50
C64 0.1u R650 68k R652 C65
10k 1000p
R656 DC amplifier 1.2
IC18 BU7442NUX
oUT1 VDD
IN1oUT2
IN1+ IN2-
VSS IN2+
5678
C676 4.7u C604 4.7u C66 100p R654 470
F2 FZA10BH-R50
Q7 2SAR293P5
R59 0
5.4V
Q6 LTC014EEBFS8
R58 R57 R56 22k 18k 3.3k
C674 1u
CN6
BLS E601
CP1 RK74HB1J101J
47k
R51
0.1u
C63
/CINT CODEC_DI
BCLK CODEC_DO
WCLK CP601
10 (CODEC)
I2CDT I2CCK
C660 4.7u R611 2.2k R610 2.2k C659 4.7u
R609 2.2k C663 4.7u
D609 RB521CM-30
ME
EXTM_M EXTM_S
R607 1k
R608 1k R635 1k
R603 R604
R636 R605 R606
R638 R639
C606 1u
0 0 3.2V 0 470 C612 1u
470 C614 1u 1.2V
0 0 3.2V
32A
C601 0.1u C607 1u
R637 10k
1.8V
L610
C626 0.01u C620 4.7u 100 100
IN2R CS/GPIo6 ADCDAT
BCLK IN1L LDoVDD IN4L IN2L oSCENA/GPIo5 DACDAT LRCLK AGND AVDD
R601 R602
F4 F3 F2 F1 E7 E6 E5 E4 E3 E2 E1 D7 D6
F5 C603
F6 4.7u F7
G1 DGND
G2 DCVDD
IN4R VMIDC IN1R
CN624 G3 DBVDD G4 CLKoUT2/GPIo2
CN623 G5 CLKoUT5 G6 MCLK/XTI
G7 XTo
IN3L D5 IN3R D4 CIFMoDE D3
SDA D2
Codec
SCLK D1
IC601
CPGND C7
HPoUT2L CPVDD C6
SPKoUTLN HPoUT1L C5
SPKoUTRN
SPKGND2
C4 1.8V
CPCB
C3
C2
C1
B7
A1 A2 A3 A4 A5 A6 A7 B1 B2 B3 B4 B5 B6
C609 4.7u
L612
SPKGND1 SPKVDD1 MICVDD MICBIAS HPoUTFB CPVoUTP CPVoUTN SPKVDD2 SPKoUTRP SPKoUTLP HPoUT2R HPoUT1R CPCA C622 2.2u
L601 L613
L608 10u
L604
C625 0.33u
C627 0.33u
L609 10u
L605
C618 C617 100p 100p
CN605 EDZV6.8B D621 D620
CN604
L622 L623
C657 100p
C658 100p
C615 4.7u C602 4.7u C621 4.7u C608 2.2u C610 2.2u
ME PFKEY
EXTM_M EXTM_S
C681 0.47u IC602
CoNTRoL VIN
GND NC
VoUT NJW4107U2-05A
C682 0.01u C683 2.2u
C711 100p R675 47k C710 100p R659 100k C712 100p
D624 RB521CM-30 R660 1k C689 0.01u
IC603 CoMMoN
VCC INH
CH0 VEE
CH1 GND
A TC7W53FKFT
D623 RBE05SM20A
L626
L624
10u
C688 0.33u C685 100p
C686 0.33u C687 100p
D622 RBE05SM20A
D625 RB521CM-30 R661 100k
L627 10u
L625
D626 RB521CM-30
D627 RB521CM-30
R663 470
CN460
8765 1234
5.0V
C709
0.01u
5
4
123 C611 100p R677 2.2k
R662 C690 2.2k 0.01u
321
C691 0.01u IC604
VCCA VCCB
GND oE
A B
TC7SPB9306TUF CN456
R612 8.2k
R665
1k
R670 330 R676 2.2k R667 100 R668 100
R669 1k
L628 L629
L630 L631
R671 100
CN457 CN458 R666
L632 100 L633
10 9 8 7 6
IC605 BD11600NUX
oE GND
D2D-
D+ 2D+
S 1D-
VCC 1D+
C693 0.01u
IC606
G1 VCC
A1 G2
Y2 Y1
GND A2
TC7WT126FU-F C695 0.01u
C692 1000p C694 1000p
USB_VBUS
CTS1 /UDET
/EXT_PTT 5UC
RTS1
/EMG /SIDE2 /SIDE1 /INT_PTT
456 C708 R664 2.2k 100p USB_SW TXD1
4321
5 6 7 8 D601 RB521CM-30
MIC_IESW BER_EN
12345 C699 100p C704 100p C705 100p C706 100p
RXD1
C696 C697 C698 C700 C701 C702 C703
100p 100p 100p 100p 100p 100p 100p
321 USB0_DP USB0_DM
ANT
CN7 EMG
6
5
PTT
4
3
Side1
2
1
Side2
SPEAKER
CN602 1 2
EMZT6.8E
EMZT6.8E D632
D630
R673 0 R674 0
CN651
CN650
R672 C707
D628 RB521CM-30
4.7k 0.01u
IC607 INB
VCC INA
GND oUTY TC7SZ08FE
5
4
D629 EMZT6.8E
EXTM_S_3
D633
14 13 12 11 10
9 8 7 6 L634 5 4 3 2 1
CN625 SSW SP+ SPMSW EMC/VBUS ME PTT PF OPT GND 5U TXD/USB_DP RXD/USB_DM SMIC
D634 RSB12Z
32LCD 1 32LCD
18M 3 LCD_VSS LCD_/CS 5
LCD_A0 LCD_E(WR1) 7 LCD_R/W(WR0)
LCD_/RST 9 LCD_DB0 LCD_DB1 11 LCD_DB2 LCD_DB3 13 LCD_DB4 LCD_DB5 15 LCD_DB6 LCD_DB7 17 LCD_BLC
GND 19 GND
ME 21 MIC 50A 23 50A KEYi4 25 KEYi3 KEYi2 27 KEYi1 KEYi0 29 KEYo3 KEYo2 31 KEYo1 KEYo0 33 LED_G LED_B 35 LED_R LBC_G 37 LBC_R LBC_B 39 GND GND 41
To DISPLAY UNIT XC1-209 A/2 CN202
A
B
C
D
E
F
G
H
I
J
K
L
M
N
O
UNIVERSAL CONNECTOR
P
Q
(No.RA070<Rev.001>) 2-13
< MEMO >
(No.RA070<Rev.001>) 2-14
PARTS LIST
[NX-3400]
* 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 3-12
(No.RA070<Rev.001>)3-1
Exploded view of general assembly and parts list
9
2
30 62
70 71
8
Block No.M1MM
47 52 75
33 39
28 74
73 34
14 60
32
53
22
45
25
26
6
23 41 41
68
10
67
24
24
DISPLAY UNIT B/2
31
54 AE
49 50
12 51
D
49 11
50
72
36
78
64 55
44 37
65
13
18
38 7
C 40
19
G
77
20
29 4
21
X7 66
F
MAIN UNIT
X3
DISPLAY UNIT A/2
3
F 16
79
F
81 80
B 3-2(No.RA070<Rev.001>)
General assembly
Symbol No.
2 3 4 6 7 8 9 10 11 12 13 14 16 18 19 20 21 22 23 24 25 26 28 29 30 31 32 33 34 36 37 38 39 40 41 44 45 47 49 50 51 52 53 54 55 60 62 64 65 66 67 68 70 71 72 73 74 75 77 78 79 80 81 A B C D E F G -
Part No.
A0C-0176-30 A8A-0050-00 A1A-0106-10 B3H-0062-00 B4B-0006-00 B42-7417-04 B4D-0044-10 D32-0454-04 D3C-0003-00 E04-0467-15 E2D-0083-00 E3K-0275-00 E7C-0018-00 F10-3227-05 F1B-0084-00 F1B-0086-00 F1B-0088-00 B1B-0105-00 J2B-0350-20 G0K-0012-00 B1B-0110-00 B1B-0138-00 G1A-0057-00 G1A-0063-00 G1A-0053-00 G1G-0075-00 G1G-0076-00 G1G-0077-00 G1B-0266-00 --------G11-4090-14 G11-4440-04 G1D-0203-10 G1D-0204-00 G1D-0205-00 G1D-0303-00 G1B-0300-00 G1D-0350-00 G53-1792-04 G53-2211-04 G5D-0133-00 G5D-0121-10 G5D-0122-00 G5D-0120-00 G5D-0128-00 J1K-0493-10 K2K-0248-00 J87-0027-15 J8C-0020-00 J8C-0022-00 K2K-0249-00 K2K-0250-00 K2K-0251-00 K2K-0252-00 S6A-0004-00 T0H-0025-10 T9A-0058-00 T9A-0059-00 W09-0971-05 R31-0692-15 J8C-0021-00 E58-0532-15 J99-0715-08 N09-6554-05 N79-2080-43 N0Z-0287-00 N14-1011-00 N14-1012-00 N83-2005-48 N84-2004-43 XC1-209K-02 XCA-066K-00
Part Name
P.CABINET ASSY REAR PANEL CHASSIS LCD ASSY CAUTION STICKER STICKER KENWOOD BADGE STOPPER STOPPER C.RECEPTACLE-SM TERMINAL LEAD.WIRE W.C. TERMINAL BLOCK SHIELDING COVER SHIELDING COVER SHIELDING COVER SHIELDING COVER ILL.GUIDE MOUNTING KNOB SPRING REF.SHEET FILTER FIBROUS SHEET FIBROUS SHEET FIBROUS SHEET SHEET SHEET SHEET RUBBER SHEET SEAL SHEET SHEET CUSHION CUSHION CUSHION CUSHION SHEET CUSHION PACKING O RING PACKING PACKING PACKING PACKING PACKING HOLDER KEY TOP FPC(LEAD FREE) FLEX P.BOARD FLEX P.BOARD KNOB KNOB KNOB BUTTON KNOB ROTARY SWITCH SPEAKER ANTENNA ELEMENT ANTENNA ELEMENT LITHIUM CELL V RESISTOR FLEX P.BOARD R.RECEPTACLE ADHESIVE SHEET PAN HEAD SCREW P.HEAD T.SCREW SPECIAL SCREW CIRCULAR NUT CIRCULAR NUT P.HEAD T.SCREW P.HEAD T.SCREW DISPLAY UNIT MAIN UNIT
Description
FULL UNIV
UNIV
FCC NEXEDGE
CH KNOB NUT SMA ANT SP BATT BLS/GPS BLS/IC303 BLS/CODEC BLS/OMAP LCD LCD (x2) LCD LCD ECM LCD SP PTT KEY SP/BT/GPS SP VOID FINAL LEAK COVER SP/ECM AIR LEAK LCD(x2) ANT LIGHT LEAKAGE BT ANT HOLD O RING-NUT(x2) VOL/CH(x2) ANT HOLDER ECM TOP TER.BLOCK/RING(x2) SP/LCD/KEY FULL PTT VOL/ROSW KEY-MAIN VOL ROSW PTT PTT CH D28 GPS BT TO UNIT VOL UNIV UNIV SA*UNIV SMA(x2) LCD(x2) CASE M2.6x8 3M2353(x2) VOL ROSW UNIT(x11) TER.BLOCK (+,-)(x2) FULL SERVICE UNIT
Block No. [M][1][M][M]
Local
(No.RA070<Rev.001>)3-3
Electrical parts list
MAIN UNIT
XC1-276K-00 *Note:This part cannot be replaced.Therefore, this part is not supplied as a service part.
Block No. [0][1]
Symbol No. Part No.
Part Name
Description Local
IC1 IC2 IC3 IC4 IC5 IC6 IC7 IC8 IC9 IC10 IC11 IC12 IC13 IC14 IC15 IC17 IC18 IC101 IC102 IC201 IC202 IC203 IC303 IC351 IC352 IC353 IC401 IC402 IC403 IC404 IC405 IC406 IC409 IC410 IC601 IC602 IC603 IC604 IC605 IC606 IC607
Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q102 Q103 Q111 Q112 Q113 Q114 Q117 Q118 Q131 Q151 Q181 Q182 Q201 Q202 Q203 Q204 Q205 Q206
XC61CC5602N-G IC
---------
IC
TPS62140RGT IC
---------
IC
XC6223D321G-G IC
XC6209B502D-G IC
BU32TD2WNVX IC
BU18TD2WNVX IC
XC6209B312D-G IC
XC6215B122N-G IC
NJM2878F4-32 IC
XC8102AA07-G IC
TPS61041DRVR IC
BU32TD2WNVX IC
XC6209B502D-G IC
XC6209B502D-G IC
BU7442NUX
IC
OPA170AIDRLR IC
BU7295HFV
IC
XC8102AA07-G IC
BGU6104
IC
BA3472FVM
IC
---------
IC
---------
IC
74AVC4TD245GU IC
74AVC4TD245GU IC
---------
IC
---------
IC
S-80135ANPF-G IC
---------
IC
TC7SZ08FE
IC
KXCJ9-1008
IC
ADS7961SRHB IC
DAC124S085CIS IC
---------
IC
NJW4107U2-05A IC
TC7W53FKFT IC
TC7SPB9306TUF IC
BD11600NUX IC
TC7WT126FU-F IC
TC7SZ08FE
IC
*Note *Note
*Note *Note *Note *Note *Note *Note
EMD12
TRANSISTOR
SSM6N15AFEM DUAL FET
SSM6N15AFEM DUAL FET
VT6M1
FET
VT6M1
FET
LTC014EEBFS8 DIGI TRANSISTOR
2SAR293P5
TRANSISTOR
EM6M2
FET
VT6M1
FET
RE1E002SP
FET
VT6M1
FET
2SD2654/W/
TRANSISTOR
VT6M1
FET
RE1E002SP
FET
VT6M1
FET
BFU660F
TRANSISTOR
BFU660F
TRANSISTOR
BFU660F
TRANSISTOR
BFU660F
TRANSISTOR
RD01MUS2BT513 FET
RD07MUS2BT514 FET
LSCR523EBFS8 TRANSISTOR
LTC044EEBFS8 DIGI TRANSISTOR
SSM3K15AMFV FET
SSM3K15AMFV FET
Symbol No. Part No.
Part Name
Description Local
Q207 Q351 Q401 Q402
D1 D8 D9 D10 D102 D103 D104 D111 D131 D132 D133 D134 D136 D151 D152 D153 D154 D156 D201 D202 D203 D204 D206 D207 D301 D302 D303 D304 D401 D402 D403 D404 D405 D406 D407 D601 D609 D620 D621 D622 D623 D624 D625 D626 D627 D628 D629 D630 D632 D633 D634
C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C14 C15 C16 C17 C18 C19 C20 C21 C22
EMD9 SSM3K15AMFV 2SC5585 LTC044EEBFS8
TRANSISTOR FET TRANSISTOR DIGI TRANSISTOR
RR1LAM4S DAN222WM RB520SM-30 RB561VM-40 EDZV8.2B RN262CS RN262CS 1SS400SM BBY53-02V 1SV280FT 1SV280FT 1SV280FT 1SV280FT BBY53-02V 1SV280FT 1SV280FT 1SV280FT 1SV280FT RN142SM RN142SM RN142SM EDZV5.6B SPC10501A01 RN142SM 1SS400SM 1SS400SM 1SS390 1SS390 RB521CM-30 RB521CM-30 1SS400SM 1SS400SM 1SS400SM 1SS400SM 1SS400SM RB521CM-30 RB521CM-30 EDZV6.8B EDZV6.8B RBE05SM20A RBE05SM20A RB521CM-30 RB521CM-30 RB521CM-30 RB521CM-30 RB521CM-30 EMZT6.8E EMZT6.8E EMZT6.8E RSB12Z RSB12Z
DIODE DIODE ARRAY DIODE SCHOTTKY DIODE ZENER DIODE DIODE DIODE DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE VARI CAP DIODE DIODE DIODE DIODE ZENER DIODE VARISTOR DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE ZENER DIODE ZENER DIODE DIODE DIODE DIODE DIODE DIODE DIODE DIODE ZENER DIODE ZENER DIODE ZENER DIODE ZENER DIODE ZENER DIODE
CK73HBB1H102K C CAPACITOR CC73HCH1H220G C CAPACITOR CK73HBB1H682K C CAPACITOR CC73JCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CK73HBB1H682K C CAPACITOR CC73JCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CK73HB1A224K C CAPACITOR CK73HB1A224K C CAPACITOR CC73HCH1H101J C CAPACITOR CK73FB1C106K C CAPACITOR CK73FB1C106K C CAPACITOR CK73HBB1H332K C CAPACITOR CK73HB1E104K C CAPACITOR CK73FXR0J226M C CAPACITOR
1000pF 50V K 22pF 50V G 6800pF 50V K 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 6800pF 50V K 100pF 50V J 100pF 50V J 0.22uF 10V K 0.22uF 10V K 100pF 50V J 10uF 16V K 10uF 16V K 3300pF 50V K 0.1uF 25V K 22uF 6.3V M
3-4(No.RA070<Rev.001>)
Symbol No. Part No.
Part Name
Description Local
C23 C24 C25 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C39 C40 C41 C42 C43 C44 C46 C47 C48 C49 C50 C51 C52 C54 C55 C56 C60 C62 C63 C64 C65 C66 C67 C68 C69 C70 C102 C103 C104 C105 C106 C107 C108 C111 C112 C113 C116 C117 C118 C121 C122 C123 C124 C127 C130 C132 C133 C134 C135 C137 C138 C139 C140 C141 C142 C143 C144 C145 C148 C153 C154 C155
CK73GXR1E475K C CAPACITOR
CK73GB0J106K C CAPACITOR
CK73HB1A474K C CAPACITOR
CK73HB1A474K C CAPACITOR
CK73GB1E104K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73GXR1C225K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73FB1C106K C CAPACITOR
CK73GB0J106K C CAPACITOR
CK73HB1A224K C CAPACITOR
CK73HB1A224K C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73GB1E104K C CAPACITOR
CK73GB1E105K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HB1A474K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73GXR1E475K C CAPACITOR
CK73GB1A335K C CAPACITOR
CK73FXR1E475K C CAPACITOR
CK73HBB1H681K C CAPACITOR
CK730JM1H684K C CAPACITOR
CK73HB1A224K C CAPACITOR
CK73HBB1H681K C CAPACITOR
CK73GB1E104K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73GXR1C225K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H330G C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73GXR1H105K C CAPACITOR
C93-1959-05
C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC730AD1H104J C CAPACITOR
CC73HCH1H470G C CAPACITOR
CS77BP1A4R7M TA E CAPACITOR
CK73HB1A105K C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1HR75B C CAPACITOR
CC73HCH1H151J C CAPACITOR
CK73FBB1H154K C CAPACITOR
CS77ABE1D100M TA E CAPACITOR
CK73FB1H473K C CAPACITOR
CK73HB1A105K C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC730AZ1H1R6A C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC730AZ1H0R1A C CAPACITOR
CC73HCH1H220G C CAPACITOR
CC73HCH1H180G C CAPACITOR
CK73HB1A334K C CAPACITOR
CC730AZ1H010A C CAPACITOR
CC730AZ1H1R3A C CAPACITOR
CC730AZ1H1R6A C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC730AZ1H0R5A C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73HCH1H070B C CAPACITOR
CC73HCH1H220G C CAPACITOR
CC730AZ1H010A C CAPACITOR
4.7uF 25V K 10uF 6.3V K 0.47uF 10V K 0.47uF 10V K 0.1uF 25V K 100pF 50V J 2.2uF 16V K 100pF 50V J 10uF 16V K 10uF 6.3V K 0.22uF 10V K 0.22uF 10V K 0.1uF 25V K 100pF 50V J 100pF 50V J 0.1uF 25V K 1uF 25V K 0.1uF 25V K 0.1uF 25V K 0.1uF 25V K 0.47uF 10V K 0.1uF 25V K 4.7uF 25V K 3.3uF 10V K 4.7uF 25V K 680pF 50V K 0.68uF 50V K 0.22uF 10V K 680pF 50V K 0.1uF 25V K 2.2uF 16V K 100pF 50V J 2.2uF 16V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 1000pF 50V K 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 0.01uF 50V K 33pF 50V G 100pF 50V J 1uF 50V K 0.1uF 16V 100pF 50V J 0.1uF 50V J 47pF 50V G 4.7uF 10V M 1uF 10V K 3pF 50V B 0.75pF 50V B 150pF 50V J 0.15uF 50V K 10uF 20V M 0.047uF 50V K 1uF 10V K 3pF 50V B 18pF 50V G 18pF 50V G 5pF 50V B 1.6pF 50V A 18pF 50V G 0.1pF 50V A 22pF 50V G 18pF 50V G 0.33uF 10V K 1pF 50V A 1.3pF 50V A 1.6pF 50V A 18pF 50V G 0.5pF 50V A 0.1uF 25V K 7pF 50V B 22pF 50V G 1pF 50V A
Symbol No. Part No.
Part Name
Description Local
C156 C158 C159 C160 C161 C162 C163 C164 C165 C166 C167 C171 C181 C182 C183 C184 C185 C186 C191 C192 C194 C195 C197 C201 C203 C208 C209 C211 C212 C213 C214 C215 C216 C217 C218 C219 C220 C221 C223 C224 C225 C227 C228 C229 C230 C231 C233 C234 C235 C236 C237 C239 C240 C241 C242 C243 C246 C247 C248 C249 C250 C251 C253 C257 C258 C259 C261 C262 C263 C264 C265 C266 C267 C268 C269 C270 C271 C272
CC730AZ1H1R9A C CAPACITOR CC73HCH1H220G C CAPACITOR CC73HCH1H220G C CAPACITOR CK73HB1A334K C CAPACITOR CC730AZ1H1R3A C CAPACITOR CC730AZ1H010A C CAPACITOR CC730AZ1H0R6A C CAPACITOR CC73HCH1H220G C CAPACITOR CK73HB1E104K C CAPACITOR CC730AZ1H010A C CAPACITOR CC73HCH1H220G C CAPACITOR CC73HCH1H030B C CAPACITOR CC73HCH1H220G C CAPACITOR CC73HCH1H220G C CAPACITOR CC73HCH1HR75B C CAPACITOR CC73HCH1H180G C CAPACITOR CC73HCH1H180G C CAPACITOR CC730AZ1H0R6A C CAPACITOR CC73HCH1H2R5B C CAPACITOR CC73HCH1H040B C CAPACITOR CC73HCH1H2R5B C CAPACITOR CK73HBB1H102K C CAPACITOR CC73HCH1H101J C CAPACITOR CC730AY2E5R1B C CAPACITOR CC730AY2E5R1B C CAPACITOR CC73GCH1H1R5B C CAPACITOR CC73HCH1H020B C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H150G C CAPACITOR CC73HCH1H040B C CAPACITOR CC73HCH1H010B C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H100B C CAPACITOR CC73HCH1H101J C CAPACITOR CK73HB1E473K C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73GCH1H101J C CAPACITOR CC73GCH1H010B C CAPACITOR CC73HCH1H050B C CAPACITOR CC73HCH1H120G C CAPACITOR CC73HCH1H030B C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC730AY2E6R2B C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H151J C CAPACITOR CC73HCH1H101J C CAPACITOR CC730AY2E150G C CAPACITOR CK73HB1E104K C CAPACITOR CC73GCH1H101J C CAPACITOR CC73GCH1H040B C CAPACITOR CC73GCH1HR75B C CAPACITOR CC73GCH1H2R5B C CAPACITOR CC73GCH1HR75B C CAPACITOR CC73GCH1H010B C CAPACITOR CC73HCH1H180G C CAPACITOR CC73HCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CC73JCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CK73GB1C563K C CAPACITOR CC73HCH1H101J C CAPACITOR CK73HB1H822K C CAPACITOR CK73HB1H822K C CAPACITOR CC73JCH1H101J C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H120G C CAPACITOR CC73GCH1H1R5B C CAPACITOR CC73GCH1H1R5B C CAPACITOR CC730AY2E220G C CAPACITOR CC73HCH1H330G C CAPACITOR
1.9pF 50V A 22pF 50V G 22pF 50V G 0.33uF 10V K 1.3pF 50V A 1pF 50V A 0.6pF 50V A 22pF 50V G 0.1uF 25V K 1pF 50V A 22pF 50V G 3pF 50V B 22pF 50V G 22pF 50V G 0.75pF 50V B 18pF 50V G 18pF 50V G 0.6pF 50V A 2.5pF 50V B 4pF 50V B 2.5pF 50V B 1000pF 50V K 100pF 50V J 5.1pF 250V B 5.1pF 250V B 1.5pF 50V B 2pF 50V B 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 15pF 50V G 4pF 50V B 1pF 50V B 100pF 50V J 10pF 50V B 100pF 50V J 0.047uF 25V K 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 1pF 50V B 5pF 50V B 12pF 50V G 3pF 50V B 100pF 50V J 100pF 50V J 100pF 50V J 6.2pF 250V B 100pF 50V J 100pF 50V J 150pF 50V J 100pF 50V J 15pF 250V G 0.1uF 25V K 100pF 50V J 4pF 50V B 0.75pF 50V B 2.5pF 50V B 0.75pF 50V B 1pF 50V B 18pF 50V G 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 0.056uF 16V K 100pF 50V J 8200pF 50V K 8200pF 50V K 100pF 50V J 100pF 50V J 12pF 50V G 1.5pF 50V B 1.5pF 50V B 22pF 250V G 33pF 50V G
(No.RA070<Rev.001>)3-5
Symbol No. Part No.
Part Name
Description Local
C301 C302 C303 C305 C306 C308 C309 C310 C311 C312 C313 C314 C315 C316 C317 C320 C321 C322 C323 C324 C325 C326 C327 C328 C329 C330 C331 C332 C333 C334 C338 C341 C342 C343 C344 C346 C348 C354 C356 C357 C358 C359 C360 C361 C363 C364 C365 C366 C367 C368 C369 C370 C371 C372 C373 C374 C375 C376 C377 C378 C379 C380 C381 C382 C383 C384 C385 C386 C387 C388 C389 C391 C392 C393 C395 C401 C402 C403
CK73HB0J225K C CAPACITOR
CC73HCH1H020B C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H1R5B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H030B C CAPACITOR
CC73HCH1H020B C CAPACITOR
CC73HCH1H020B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
CK73HB1A105K C CAPACITOR
CK730BS0J106M C CAPACITOR
CC73HCH1HR75B C CAPACITOR
CC73HCH1H050B C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73HB1E104K C CAPACITOR
CK730BS0J106M C CAPACITOR
CC73HCH1H040B C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK730BS0J106M C CAPACITOR
CK73HB1A474K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H220G C CAPACITOR
CK73HB1A105K C CAPACITOR
CC73HCH1H040B C CAPACITOR
C93-1953-05
C CAPACITOR
CK73HB1A105K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CC73HCH1H180G C CAPACITOR
CK73HB1A105K C CAPACITOR
CK73HB1A105K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CC73HCH1H220G C CAPACITOR
CK73HB1A105K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
CK73HBB1H102K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CC73HCH1H470G C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HBB1H102K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HB1A105K C CAPACITOR
CC73HCH1H100B C CAPACITOR
CC73HCH1H121J C CAPACITOR
CK73HBB1H102K C CAPACITOR
CC73HCH1H050B C CAPACITOR
CC73HCH1H2R5B C CAPACITOR
CK73HB1H103K C CAPACITOR
CC73JCH1H101J C CAPACITOR
C93-1953-05
C CAPACITOR
2.2uF 6.3V K 2pF 50V B 0.01uF 50V K 1.5pF 50V B 100pF 50V J 18pF 50V G 3pF 50V B 3pF 50V B 2pF 50V B 2pF 50V B 100pF 50V J 0.01uF 50V K 1uF 10V K 10uF 6.3V M 0.75pF 50V B 5pF 50V B 0.1uF 25V K 100pF 50V J 100pF 50V J 0.01uF 50V K 100pF 50V J 0.01uF 50V K 0.1uF 25V K 100pF 50V J 0.1uF 25V K 100pF 50V J 100pF 50V J 0.1uF 25V K 10uF 6.3V M 4pF 50V B 100pF 50V J 100pF 50V J 10uF 6.3V M 0.47uF 10V K 100pF 50V J 22pF 50V G 1uF 10V K 4pF 50V B 0.01uF 25V 1uF 10V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 18pF 50V G 1uF 10V K 1uF 10V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 22pF 50V G 1uF 10V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 1000pF 50V K 1000pF 50V K 1000pF 50V K 1000pF 50V K 0.1uF 16V 0.1uF 16V 47pF 50V G 0.1uF 16V 0.1uF 16V 1000pF 50V K 0.1uF 16V 0.1uF 16V 1uF 10V K 10pF 50V B 120pF 50V J 1000pF 50V K 5pF 50V B 2.5pF 50V B 0.01uF 50V K 100pF 50V J 0.01uF 25V
3-6(No.RA070<Rev.001>)
Symbol No. Part No.
Part Name
Description Local
C404 C405 C406 C407 C408 C421 C422 C423 C424 C425 C426 C427 C428 C429 C430 C431 C432 C433 C434 C435 C436 C437 C438 C439 C440 C441 C442 C443 C444 C445 C446 C447 C448 C449 C450 C451 C452 C453 C454 C455 C456 C457 C458 C459 C469 C470 C471 C472 C473 C474 C475 C476 C477 C480 C481 C482 C483 C484 C485 C486 C487 C488 C489 C496 C497 C498 C499 C500 C501 C502 C510 C515 C516 C517 C518 C601 C602 C603
CK73HB1H103K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
C93-1953-05
C CAPACITOR
CC73HCH1H050B C CAPACITOR
C93-1959-05
C CAPACITOR
CC73HCH1H180G C CAPACITOR
CC73HCH1H150G C CAPACITOR
CK73HB1A224K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73FB1C106K C CAPACITOR
CK73FB1C106K C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73FB1C106K C CAPACITOR
CK73GXR0J475K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73FB1C106K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HB1A105K C CAPACITOR
C93-1959-05
C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1H103K C CAPACITOR
C93-1953-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HB1A105K C CAPACITOR
CK73HB1H103K C CAPACITOR
CK73HB1E104K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1A105K C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
C93-1959-05
C CAPACITOR
CK73HB1A105K C CAPACITOR
C93-1959-05
C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73HB1E104K C CAPACITOR
CK73FXR1E475K C CAPACITOR
CK73GXR0J475K C CAPACITOR
0.01uF 50V K 100pF 50V J 0.01uF 50V K 0.01uF 25V 5pF 50V B 0.1uF 16V 18pF 50V G 15pF 50V G 0.22uF 10V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 10uF 16V K 10uF 16V K 4.7uF 6.3V K 10uF 16V K 4.7uF 6.3V K 0.1uF 16V 0.1uF 16V 10uF 16V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 1uF 10V K 0.1uF 16V 100pF 50V J 0.01uF 50V K 0.01uF 25V 0.1uF 16V 0.1uF 16V 1uF 10V K 0.01uF 50V K 0.1uF 25V K 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 1uF 10V K 0.1uF 16V 0.1uF 16V 0.1uF 16V 0.1uF 16V 1uF 10V K 0.1uF 16V 100pF 50V J 100pF 50V J 0.1uF 25V K 0.1uF 25V K 0.1uF 25V K 0.1uF 25V K 4.7uF 25V K 4.7uF 6.3V K
Symbol No. Part No.
Part Name
Description Local
C604 C606 C607 C608 C609 C610 C611 C612 C614 C615 C617 C618 C620 C621 C622 C625 C626 C627 C657 C658 C659 C660 C663 C666 C672 C674 C676 C681 C682 C683 C685 C686 C687 C688 C689 C690 C691 C692 C693 C694 C695 C696 C697 C698 C699 C700 C701 C702 C703 C704 C705 C706 C707 C708 C709 C710 C711 C712
R1 R7 R8 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18 R19 R20 R21 R22 R23 R24
CK73FXR1E475K C CAPACITOR
CK73HB1A105K C CAPACITOR
CK73HB1A105K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1A105K C CAPACITOR
CK73HB1A105K C CAPACITOR
CK73FXR1E475K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73GXR1C225K C CAPACITOR
CK73HB1A334K C CAPACITOR
CK73HB1H103K C CAPACITOR
CK73HB1A334K C CAPACITOR
CC73HCH1H101J C CAPACITOR
CC73HCH1H101J C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73GXR0J475K C CAPACITOR
CK73HB1A224K C CAPACITOR
CK73GB1E104K C CAPACITOR
CK73GB1E105K C CAPACITOR
CK73FXR1E475K C CAPACITOR
CK73GB1E474K C CAPACITOR
C93-1953-05
C CAPACITOR
CK73GXR1C225K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1A334K C CAPACITOR
CC73JCH1H101J C CAPACITOR
CK73HB1A334K C CAPACITOR
C93-1953-05
C CAPACITOR
C93-1953-05
C CAPACITOR
C93-1953-05
C CAPACITOR
CK73HBB1H102K C CAPACITOR
C93-1953-05
C CAPACITOR
CK73HBB1H102K C CAPACITOR
C93-1953-05
C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
C93-1953-05
C CAPACITOR
CC73JCH1H101J C CAPACITOR
C93-1953-05
C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
CC73JCH1H101J C CAPACITOR
RK73HB1J000J RK73HB1J000J RK73JB1H102J RK73HB1J102J RK73HH1J184D RK73HB1J222J RK73JB1H474J RK73JB1H103J RK73JB1H474J RK73JB1H103J RK73JB1H474J RK73JB1H474J RK73JB1H104J RK73JB1H104J RK73JB1H104J RK73JB1H104J RK73HH1J183D RK73HH1J683D RK73JB1H102J
MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR
4.7uF 25V K 1uF 10V K 1uF 10V K 2.2uF 16V K 4.7uF 6.3V K 2.2uF 16V K 100pF 50V J 1uF 10V K 1uF 10V K 4.7uF 25V K 100pF 50V J 100pF 50V J 4.7uF 6.3V K 4.7uF 6.3V K 2.2uF 16V K 0.33uF 10V K 0.01uF 50V K 0.33uF 10V K 100pF 50V J 100pF 50V J 4.7uF 6.3V K 4.7uF 6.3V K 4.7uF 6.3V K 0.22uF 10V K 0.1uF 25V K 1uF 25V K 4.7uF 25V K 0.47uF 25V K 0.01uF 25V 2.2uF 16V K 100pF 50V J 0.33uF 10V K 100pF 50V J 0.33uF 10V K 0.01uF 25V 0.01uF 25V 0.01uF 25V 1000pF 50V K 0.01uF 25V 1000pF 50V K 0.01uF 25V 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 100pF 50V J 0.01uF 25V 100pF 50V J 0.01uF 25V 100pF 50V J 100pF 50V J 100pF 50V J
0 1/16W J 0 1/16W J 1k 1/20W J 1k 1/16W J 180k 1/16W D 2.2k 1/16W J 470k 1/20W J 10k 1/20W J 470k 1/20W J 10k 1/20W J 470k 1/20W J 470k 1/20W J 100k 1/20W J 100k 1/20W J 100k 1/20W J 100k 1/20W J 18k 1/16W D 68k 1/16W D 1k 1/20W J
Symbol No. Part No.
Part Name
Description Local
R25 R26 R27 R28 R29 R30 R31 R32 R33 R35 R36 R37 R38 R39 R40 R41 R42 R43 R44 R45 R46 R47 R48 R49 R50 R51 R52 R56 R57 R58 R59 R60 R65 R66 R67 R102 R103 R104 R105 R106 R107 R108 R109 R110 R111 R112 R114 R115 R116 R117 R118 R119 R120 R121 R123 R125 R126 R127 R128 R129 R130 R132 R133 R134 R138 R139 R141 R145 R148 R152 R153 R154 R155 R181 R182 R183 R184 R185
RK73JB1H104J RK73JB1H103J RK73HB1J274J RK73HB1J224J RK73HB1J474J RK73HH1J274D RK73HB1J000J RK73JB1H102J RK73JB1H104J RK73JB1H101J RK73JB1H104J RK73JB1H104J RZ73G0BK2R7J RK73JB1H102J RK73JB1H102J RK73JB1H473J R92-3774-05 R92-3774-05 RK73HB1J474J RK73HB1J333J RK73GB2A220J RK73JB1H104J RK73JB1H474J RK73JB1H474J RK73HH1J473D RK73HH1J473D RK73FB2B1R0J RK73HB1J332J RK73HH1J183D RK73HH1J223D RK73GB2A000J RK73HB1J471J RK73HH1J474D RK73HH1J474D RK73GB2A2R2J RK73HB1J000J RK73HB1J433J RK73HB1J102J RK73HH1J154D RK73HB1J100J RK73HB1J104J RK73HB1J106J RK73HB1J470J RK73HB1J104J RK73HB1J472J RK73HB1J102J RK73HB1J473J RK73HB1J000J RK73HB1J220J RK73HB1J220J RK73HB1J474J RK73HB1J474J RK73HB1J474J RK73HB1J103J RK73HB1J474J RK73HB1J000J RK73HB1J000J RK73HB1J000J RN73H0AV391D RK73HB1J103J RN73H0AV151D RN73H0AV152D RN73H0AV102D RN73H0AV151D RK73HB1J472J RN73H0AU150D RK73HB1J474J RK73HB1J474J RK73HB1J473J RN73H0AV472D RN73H0AV472D RN73H0AJ121D RK73HB1J8R2J RK73HB1J101J RK73HB1J332J RK73HB1J332J RK73HB1J121J RK73HB1J101J
MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR 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 MF RESISTOR MF RESISTOR MF RESISTOR MF RESISTOR MG RESISTOR MF RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MF RESISTOR MF RESISTOR MF RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR
100k 1/20W J 10k 1/20W J 270k 1/16W J 220k 1/16W J 470k 1/16W J 270k 1/16W D 0 1/16W J 1k 1/20W J 100k 1/20W J 100 1/20W J 100k 1/20W J 100k 1/20W J 2.7 J 1k 1/20W J 1k 1/20W J 47k 1/20W J 27 0.25W 27 0.25W 470k 1/16W J 33k 1/16W J 22 1/10W J 100k 1/20W J 470k 1/20W J 470k 1/20W J 47k 1/16W D 47k 1/16W D 1.0 1/8W J 3.3k 1/16W J 18k 1/16W D 22k 1/16W D 0 1/10W J 470 1/16W J 470k 1/16W D 470k 1/16W D 2.2 1/10W J 0 1/16W J 43k 1/16W J 1k 1/16W J 150k 1/16W D 10 1/16W J 100k 1/16W J 10M 1/16W J 47 1/16W J 100k 1/16W J 4.7k 1/16W J 1k 1/16W J 47k 1/16W J 0 1/16W J 22 1/16W J 22 1/16W J 470k 1/16W J 470k 1/16W J 470k 1/16W J 10k 1/16W J 470k 1/16W J 0 1/16W J 0 1/16W J 0 1/16W J 390 D 10k 1/16W J 150 D 1.5k D 1k D 150 D 4.7k 1/16W J 15 D 470k 1/16W J 470k 1/16W J 47k 1/16W J 4.7k D 4.7k D 120 D 8.2 1/16W J 100 1/16W J 3.3k 1/16W J 3.3k 1/16W J 120 1/16W J 100 1/16W J
(No.RA070<Rev.001>)3-7
Symbol No. Part No.
Part Name
Description Local
R186 R187 R188 R189 R190 R194 R195 R196 R197 R198 R204 R205 R206 R207 R208 R209 R210 R211 R212 R213 R214 R215 R216 R218 R219 R221 R222 R223 R227 R228 R230 R233 R234 R237 R244 R245 R246 R247 R248 R249 R250 R251 R252 R253 R255 R256 R257 R258 R259 R260 R264 R265 R266 R268 R269 R301 R302 R303 R304 R306 R310 R312 R313 R315 R318 R325 R330 R331 R332 R333 R335 R336 R351 R352 R353 R354 R355 R356
RK73HB1J332J RK73HB1J121J RK73HB1J332J RK73HB1J103J RK73HB1J104J RK73HB1J000J RK73HB1J000J RK73HB1J472J RK73HB1J472J RK73HB1J000J R92-3785-05 RK73HB1J102J RK73HB1J271J RK73HB1J180J RK73HB1J271J RK73HB1J272J RK73HB1J272J RK73HB1J3R3J RK73HB1J102J RK73GB2A820J RK73HB1J822J RK73HB1J332J RK73HB1J470J RK73HB1J331J RK73HB1J680J RK73GB2A000J RK73HB1J332J RK73HB1J180J RK73GB2A823J RK73GB2A000J RK73HB1J221J RK73HB1J392J RK73HB1J104J RK73JB1H102J RK73HB1J273J RK73HB1J473J RK73HB1J473J RK73HB1J470J R92-3756-05 RK73JB1H103J R92-3756-05 RK73HB1J270J RK73HH1J472D RK73HH1J472D RK73HH1J393D RK73HH1J682D RK73HB1J221J RK73HB1J332J RK73HB1J153J RK73HB1J392J RK73HH1J682D RK73HH1J393D RK73GB2A000J RK73HB1J104J RK73HB1J102J RK73HB1J101J RK73HB1J101J RK73HB1J821J RK73GB2A000J RK73HB1J821J RK73HB1J471J RK73HB1J5R6J RK73HB1J101J RK73HB1J000J RK73HB1J000J RK73HH1J473D RK73HH1J273D RK73HB1J000J RK73HB1J102J RK73HB1J000J RK73HB1J681J RK73HB1J681J RK73JB1H101J RK73JB1H101J RK73JB1H101J RK73HB1J151J RK73HB1J390J RK73HB1J151J
MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR 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 1/16W J 120 1/16W J 3.3k 1/16W J 10k 1/16W J 100k 1/16W J 0 1/16W J 0 1/16W J 4.7k 1/16W J 4.7k 1/16W J 0 1/16W J 120 0.25W 1k 1/16W J 270 1/16W J 18 1/16W J 270 1/16W J 2.7k 1/16W J 2.7k 1/16W J 3.3 1/16W J 1k 1/16W J 82 1/10W J 8.2k 1/16W J 3.3k 1/16W J 47 1/16W J 330 1/16W J 68 1/16W J 0 1/10W J 3.3k 1/16W J 18 1/16W J 82k 1/10W J 0 1/10W J 220 1/16W J 3.9k 1/16W J 100k 1/16W J 1k 1/20W J 27k 1/16W J 47k 1/16W J 47k 1/16W J 47 1/16W J 0.22 1/3W 10k 1/20W J 0.22 1/3W 27 1/16W J 4.7k 1/16W D 4.7k 1/16W D 39k 1/16W D 6.8k 1/16W D 220 1/16W J 3.3k 1/16W J 15k 1/16W J 3.9k 1/16W J 6.8k 1/16W D 39k 1/16W D 0 1/10W J 100k 1/16W J 1k 1/16W J 100 1/16W J 100 1/16W J 820 1/16W J 0 1/10W J 820 1/16W J 470 1/16W J 5.6 1/16W J 100 1/16W J 0 1/16W J 0 1/16W J 47k 1/16W D 27k 1/16W D 0 1/16W J 1k 1/16W J 0 1/16W J 680 1/16W J 680 1/16W J 100 1/20W J 100 1/20W J 100 1/20W J 150 1/16W J 39 1/16W J 150 1/16W J
3-8(No.RA070<Rev.001>)
Symbol No. Part No.
Part Name
Description Local
R357 R358 R359 R360 R361 R362 R363 R364 R365 R366 R367 R369 R401 R402 R403 R404 R405 R406 R407 R408 R410 R411 R412 R413 R414 R415 R419 R420 R421 R422 R423 R424 R425 R426 R427 R428 R429 R430 R431 R432 R433 R434 R435 R436 R437 R438 R439 R440 R442 R443 R444 R445 R446 R447 R448 R449 R450 R451 R452 R453 R461 R462 R463 R464 R466 R467 R468 R469 R470 R479 R480 R601 R602 R603 R604 R605 R606 R607
RK73JB1H103J MG RESISTOR RK73JB1H103J MG RESISTOR RK73HB1J000J MG RESISTOR RK73JB1H103J MG RESISTOR RK73JB1H473J MG RESISTOR RK73HB1J221J MG RESISTOR RK73HB1J221J MG RESISTOR RK73HB1J102J MG RESISTOR RK73HB1J102J MG RESISTOR RK73HB1J102J MG RESISTOR RK73HB1J473J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J102J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J100J MG RESISTOR RK73HB1J220J MG RESISTOR RK73HB1J153J MG RESISTOR RK73HB1J333J MG RESISTOR RK73HB1J100J MG RESISTOR RK73HB1J681J MG RESISTOR RK73HB1J220J MG RESISTOR RK73JB1H103J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J220J MG RESISTOR RK73HB1J220J MG RESISTOR RK73JB1H104J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H102J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H220J MG RESISTOR RK73JB1H102J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J223J MG RESISTOR RK73JB1H103J MG RESISTOR RK73JB1H103J MG RESISTOR RK73JB1H103J MG RESISTOR RK73JB1H105J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J000J MG RESISTOR RK73GH2A49R9D MG RESISTOR RK73HH1J102D MG RESISTOR RK73HH1J102D MG RESISTOR RK73JB1H472J MG RESISTOR RK73JB1H104J MG RESISTOR RK73JB1H104J MG RESISTOR RK73JB1H472J MG RESISTOR RK73HB1J100J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H222J MG RESISTOR RK73JB1H472J MG RESISTOR RK73HB1J331J MG RESISTOR RK73GB2A000J MG RESISTOR RK73GB2A000J MG RESISTOR RK73JB1H101J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HH1J104D MG RESISTOR RK73HH1J103D MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J101J MG RESISTOR RK73HB1J101J MG RESISTOR RK73JB1H101J MG RESISTOR RK73JB1H101J MG RESISTOR RK73HB1J101J MG RESISTOR RK73HB1J101J MG RESISTOR RK73HB1J101J MG RESISTOR RK73HB1J101J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J000J MG RESISTOR RK73HB1J471J MG RESISTOR RK73HB1J471J MG RESISTOR RK73HB1J102J MG RESISTOR
10k 1/20W J 10k 1/20W J 0 1/16W J 10k 1/20W J 47k 1/20W J 220 1/16W J 220 1/16W J 1k 1/16W J 1k 1/16W J 1k 1/16W J 47k 1/16W J 0 1/16W J 1k 1/16W J 0 1/16W J 10 1/16W J 22 1/16W J 15k 1/16W J 33k 1/16W J 10 1/16W J 680 1/16W J 22 1/16W J 10k 1/20W J 0 1/16W J 22 1/16W J 22 1/16W J 100k 1/20W J 2.2k 1/20W J 2.2k 1/20W J 2.2k 1/20W J 2.2k 1/20W J 2.2k 1/20W J 2.2k 1/20W J 2.2k 1/20W J 1k 1/20W J 2.2k 1/20W J 22 1/20W J 1k 1/20W J 0 1/16W J 22k 1/16W J 10k 1/20W J 10k 1/20W J 10k 1/20W J 1M 1/20W J 0 1/16W J 0 1/16W J 49.9 1/10W D 1k 1/16W D 1k 1/16W D 4.7k 1/20W J 100k 1/20W J 100k 1/20W J 4.7k 1/20W J 10 1/16W J 2.2k 1/20W J 2.2k 1/20W J 4.7k 1/20W J 330 1/16W J 0 1/10W J 0 1/10W J 100 1/20W J 0 1/16W J 0 1/16W J 100k 1/16W D 10k 1/16W D 0 1/16W J 100 1/16W J 100 1/16W J 100 1/20W J 100 1/20W J 100 1/16W J 100 1/16W J 100 1/16W J 100 1/16W J 0 1/16W J 0 1/16W J 470 1/16W J 470 1/16W J 1k 1/16W J
Symbol No. Part No.
Part Name
Description Local
R608 R609 R610 R611 R612 R613 R635 R636 R637 R638 R639 R650 R652 R654 R656 R659 R660 R661 R662 R663 R664 R665 R666 R667 R668 R669 R670 R671 R672 R673 R674 R675 R676 R677
L1 L3 L4 L5 L7 L8 L9 L10 L11 L12 L13 L111 L113 L121 L131 L132 L133 L134 L135 L136 L137 L138 L139 L151 L152 L153 L154 L155 L156 L157 L158 L159 L160 L181 L182 L191 L192 L201 L202 L203 L204 L205 L206
RK73HB1J102J RK73HB1J222J RK73HB1J222J RK73HB1J222J RK73HB1J822J RK73HB1J474J RK73HB1J102J RK73HB1J000J RK73JB1H103J RK73HB1J000J RK73HB1J000J RK73HB1J683J RK73HB1J103J RK73GB2A471J RK73PB2H1R2J RK73JB1H104J RK73JB1H102J RK73JB1H104J RK73HB1J222J RK73HB1J471J RK73HB1J222J RK73JB1H102J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J102J RK73HB1J331J RK73HB1J101J RK73JB1H472J RK73HB1J000J RK73HB1J000J RK73JB1H473J RK73HB1J222J RK73JB1H222J
MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR
1k 1/16W J 2.2k 1/16W J 2.2k 1/16W J 2.2k 1/16W J 8.2k 1/16W J 470k 1/16W J 1k 1/16W J 0 1/16W J 10k 1/20W J 0 1/16W J 0 1/16W J 68k 1/16W J 10k 1/16W J 470 1/10W J 1.2 1/2W J 100k 1/20W J 1k 1/20W J 100k 1/20W J 2.2k 1/16W J 470 1/16W J 2.2k 1/16W J 1k 1/20W J 100 1/16W J 100 1/16W J 100 1/16W J 1k 1/16W J 330 1/16W J 100 1/16W J 4.7k 1/20W J 0 1/16W J 0 1/16W J 47k 1/20W J 2.2k 1/16W J 2.2k 1/20W J
LB73F0AW-002 CHIP FERRITE
LB73G0AM-004 CHIP FERRITE
LR73Z0AY2R2M CHIP INDUCTOR
LB73G0AM-004 CHIP FERRITE
LB73G0AM-004 CHIP FERRITE
LB73G0AM-004 CHIP FERRITE
LB73H0AV-002 CHIP FERRITE
LB73H0AV-002 CHIP FERRITE
LB73H0AV-002 CHIP FERRITE
L41-1502-70
CHIP INDUCTOR
LB73H0AV-002 CHIP FERRITE
LB73H0AY-004 CHIP FERRITE
LB73H0AY-004 CHIP FERRITE
LB73H0AY-004 CHIP FERRITE
LR79H0AZR10J CHIP INDUCTOR
LK73H0AMR10J M.CHIP INDUCTOR 0.1uH
LR79H0AZ3N2B CHIP INDUCTOR
L3C-0018-00
OSC-COIL
LK73H0AMR10J M.CHIP INDUCTOR 0.1uH
LR79H0AZ91NG CHIP INDUCTOR
LK73H0AM39NJ M.CHIP INDUCTOR 39nH
LR79H0AZR12J CHIP INDUCTOR
LK73H0AMR10J M.CHIP INDUCTOR 0.1uH
LR79H0AZ91NG CHIP INDUCTOR
LK73H0AM47NJ M.CHIP INDUCTOR 47nH
LK73H0AM47NJ M.CHIP INDUCTOR 47nH
LR79H0AZ3N2B CHIP INDUCTOR
L3C-0014-00
OSC-COIL
LR79H0AZR10J CHIP INDUCTOR
LR79H0AZR10J CHIP INDUCTOR
LR79H0AZ91NG CHIP INDUCTOR
LK73H0AM47NJ M.CHIP INDUCTOR 47nH
LB73H0AQ-002 CHIP FERRITE
LK73H0AM5N1S M.CHIP INDUCTOR 5.1nH
LK73H0BX4N3B M.CHIP INDUCTOR
LR79H0AZ4N1B CHIP INDUCTOR
LR79H0AZ4N1B CHIP INDUCTOR
LR79Z0MX12N1G CHIP INDUCTOR
LR79G0CQ10NG CHIP INDUCTOR
L41-6878-43
CHIP INDUCTOR
LK73H0AM47NJ M.CHIP INDUCTOR 47nH
LK73H0AM5N6S M.CHIP INDUCTOR 5.6nH
LK73H0AM68NJ M.CHIP INDUCTOR 68nH
Symbol No. Part No.
Part Name
Description Local
L207
LK73H0AM6N8J M.CHIP INDUCTOR 6.8nH
L208
LK73H0AM6N8J M.CHIP INDUCTOR 6.8nH
L209
LK73H0AM1N0S M.CHIP INDUCTOR 1nH
L211
LB73G0AM-004 CHIP FERRITE
L212
LK73H0AM5N6S M.CHIP INDUCTOR 5.6nH
L213
LR79Z0DC39N9J CHIP INDUCTOR 39.9nH
L214
LB73F0AW-002 CHIP FERRITE
L215
L34-4650-05
AIR CORE COIL
L216
L34-4650-05
AIR CORE COIL
L217
L34-4650-05
AIR CORE COIL
L218
LR79Z0CA39NG CHIP INDUCTOR 39nH
L301
LK73H0AM18NJ M.CHIP INDUCTOR 18nH
L302
LR79G0CQ6N8C CHIP INDUCTOR
L303
LK73H0AMR27J M.CHIP INDUCTOR
L304
LK73H0AM18NJ M.CHIP INDUCTOR 18nH
L307
LR79G0CQ5N6C CHIP INDUCTOR
L308
LK73H0AM3N6S M.CHIP INDUCTOR
L309
LR79G0CQ12NG CHIP INDUCTOR
L311
LR79G0CQ13NG CHIP INDUCTOR
L312
LR79G0CQ12NG CHIP INDUCTOR
L314
LR79G0CQ10NG CHIP INDUCTOR
L315
LR79G0CQR22G CHIP INDUCTOR
L351
L92-0487-05
CHIP FERRITE
L352
L92-0487-05
CHIP FERRITE
L353
LK73H0AM10NJ M.CHIP INDUCTOR 10nH
L354
LK73H0AM27NJ M.CHIP INDUCTOR 27nH
L358
L92-0487-05
CHIP FERRITE
L359
L7K-0059-00
FILTER
L361
L79-1987-05
FILTER
L365
L92-0487-05
CHIP FERRITE
L366
L92-0487-05
CHIP FERRITE
L401
LB73H0AV-002 CHIP FERRITE
L402
LK73G0AQ4R7K M.CHIP INDUCTOR 4.7uH
L404
LB73G0AM-004 CHIP FERRITE
L405
L92-1101-05
CHIP FERRITE
L406
L92-1101-05
CHIP FERRITE
L407
LB73G0AM-004 CHIP FERRITE
L408
LB73G0AM-004 CHIP FERRITE
L409
LB73G0AM-004 CHIP FERRITE
L410
LB73G0AM-004 CHIP FERRITE
L411
L79-1946-05
FILTER
L412
L79-1946-05
FILTER
L413
L79-1946-05
FILTER
L414
L79-1946-05
FILTER
L415
L79-1946-05
FILTER
L416
L79-1946-05
FILTER
L417
LB73H0AV-002 CHIP FERRITE
L427
LB73H0AV-002 CHIP FERRITE
L428
LB73H0AV-002 CHIP FERRITE
L429
LB73H0AV-002 CHIP FERRITE
L430
LB73H0AV-002 CHIP FERRITE
L431
LB73H0AV-002 CHIP FERRITE
L601
LB73G0AM-004 CHIP FERRITE
L604
LB73G0AM-004 CHIP FERRITE
L605
LB73G0AM-004 CHIP FERRITE
L608
LR73Z0AY100M CHIP INDUCTOR
L609
LR73Z0AY100M CHIP INDUCTOR
L610
LB73G0AM-004 CHIP FERRITE
L612
LB73G0AM-004 CHIP FERRITE
L613
LB73G0AM-004 CHIP FERRITE
L622
LB73G0AM-004 CHIP FERRITE
L623
LB73G0AM-004 CHIP FERRITE
L624
LB73G0AM-004 CHIP FERRITE
L625
LB73G0AM-004 CHIP FERRITE
L626
LR73Z0AY100M CHIP INDUCTOR
L627
LR73Z0AY100M CHIP INDUCTOR
L628
LB73G0AM-004 CHIP FERRITE
L629
LB73G0AM-004 CHIP FERRITE
L630
LB73H0AV-002 CHIP FERRITE
L631
LB73H0AV-002 CHIP FERRITE
L632
LB73G0AM-004 CHIP FERRITE
L633
LB73H0AV-002 CHIP FERRITE
L634
LB73G0AM-004 CHIP FERRITE
CN1
EC720CQ-0313A FFC FPC CONNE
CN2
J19-5386-05
HOLDER
CN7
---------
F.C.CONNECTOR *Note
CN8
---------
TERMINAL
*Note
(No.RA070<Rev.001>)3-9
Symbol No. Part No.
Part Name
Description Local
Symbol No. Part No.
Part Name
Description Local
CN10 CN201 CN202 CN353 CN354 CN356 CN357 CN402 CN602 CN625 CP1 CP2 CP101 CP102 CP301 CP302 CP303 CP351 CP352 CP401 CP402 CP403 CP404 CP405 CP406 CP408 CP409 CP410 CP411 CP412 CP413 CP414 CP601 E101 E301 E351 E401 E601 F1 F2 TH201 TH401 X351 X401 X402
E2D-0082-00
TERMINAL
E2D-0058-00
TERMINAL
E2D-0058-00
TERMINAL
G0B-0005-00 EARTH SPRING
G0B-0005-00 EARTH SPRING
G0B-0005-00 EARTH SPRING
G0B-0005-00 EARTH SPRING
EC720BP-0341A FFC FPC CONNE
E41-1476-05
PIN ASSY
EC720AA-0514A FFC FPC CONNE
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
R9B-0010-00
ATTENUATOR
R9B-0010-00
ATTENUATOR
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J101J MG RESISTOR 100 1/16W J
RK74HB1J100J MG RESISTOR 10 1/16W J
---------
SHIELDING CASE *Note
---------
SHIELDING CASE *Note
---------
SHIELDING CASE *Note
---------
SHIELDING CASE *Note
---------
SHIELDING CASE *Note
FZA10BQ-3R15 FUSE (CC)
3.15A
FZA10BH-R50 FUSE (CC)
0.5A
NCU15WF104F6S N THERMISTOR
NCU15WF104F6S N THERMISTOR
L77-3121-05
QUARTZ CRYSTAL
L7H-0076-00
TCXO
L77-1802-05
QUARTZ CRYSTAL
DISPLAY UNIT
XC1-209K-02 *Note:This part cannot be replaced.Therefore, this part is not supplied as a service part.
Block No. [0][2]
Symbol No. Part No.
Part Name
Description Local
IC201
Q141 Q201 Q221 Q222 Q223 Q227 Q228 Q229
D111 D112 D113 D114 D115 D116 D117
TC7SZ08FE
IC
EMD9 EMD9 LTC014EEBFS8 LTC014EEBFS8 LTC014EEBFS8 LTC014EEBFS8 LTC014EEBFS8 LTC014EEBFS8
TRANSISTOR TRANSISTOR DIGI TRANSISTOR DIGI TRANSISTOR DIGI TRANSISTOR DIGI TRANSISTOR DIGI TRANSISTOR DIGI TRANSISTOR
B30-2365-05
LED
B30-2365-05
LED
B30-2365-05
LED
B30-2365-05
LED
B30-2365-05
LED
B30-2365-05
LED
B30-2365-05
LED
3-10(No.RA070<Rev.001>)
D118 D119 D120 D141 D142 D143 D144 D180 D181 D201 D202 D221 D227
C101 C102 C141 C142 C143 C144 C145 C146 C147 C148 C149 C158 C172 C175 C177 C179 C184 C186 C190 C192 C193 C201 C202 C203 C204 C205 C206 C207
R1 R2 R3 R111 R112 R113 R114 R115 R116 R117 R118 R119 R120 R122 R141 R142 R143 R145 R147 R148 R155 R170 R174 R183 R185 R189 R191 R201 R203 R204 R205 R206 R207 R208 R221
B30-2365-05
LED
B30-2365-05
LED
B30-2365-05
LED
RB521SM-30 DIODE
RB521SM-30 DIODE
RB521SM-30 DIODE
RB521SM-30 DIODE
RN262CS
DIODE
RN262CS
DIODE
NSSW206C-T865 LED
NSSW206C-T865 LED
NESM238B
LED
NESM238B
LED
CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CK73HBB1H471K C CAPACITOR CC73HCH1H220J C CAPACITOR CC73HCH1H040B C CAPACITOR CC73HCH1H1R5B C CAPACITOR CC73HCH1H010B C CAPACITOR CC73HCH1H1R5B C CAPACITOR CK73HBB1H102K C CAPACITOR CK73HBB1H102K C CAPACITOR CC73HCH1H010B C CAPACITOR CC73HCH1H121J C CAPACITOR CK73HBB1H102K C CAPACITOR CK73HB1E104K C CAPACITOR CK73HB0J225K C CAPACITOR CK73HB0J225K C CAPACITOR CK73HXR1E474K C CAPACITOR CK73HB1E104K C CAPACITOR CK73HB1E104K C CAPACITOR CK73HB1E104K C CAPACITOR
RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J102J RK73HB1J561J RK73HB1J561J RK73HB1J102J RK73HB1J102J RK73HB1J102J RK73HB1J102J RK73HB1J122J RK73HB1J122J RK73HB1J122J RK73HB1J000J RK73HB1J472J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J101J RK73HB1J103J RK73GB2A221J RK73GB2A221J RK73HB1J101J RK73HB1J000J RK73HB1J103J 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
470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 470pF 50V K 22pF 50V J 4pF 50V B 1.5pF 50V B 1pF 50V B 1.5pF 50V B 1000pF 50V K 1000pF 50V K 1pF 50V B 120pF 50V J 1000pF 50V K 0.1uF 25V K 2.2uF 6.3V K 2.2uF 6.3V K 0.47uF 25V K 0.1uF 25V K 0.1uF 25V K 0.1uF 25V K
0 1/16W J 0 1/16W J 0 1/16W J 1k 1/16W J 560 1/16W J 560 1/16W J 1k 1/16W J 1k 1/16W J 1k 1/16W J 1k 1/16W J 1.2k 1/16W J 1.2k 1/16W J 1.2k 1/16W J 0 1/16W J 4.7k 1/16W J 100 1/16W J 100 1/16W J 100 1/16W J 100 1/16W J 100 1/16W J 0 1/16W J 0 1/16W J 0 1/16W J 0 1/16W J 0 1/16W J 0 1/16W J 0 1/16W J 100 1/16W J 10k 1/16W J 220 1/10W J 220 1/10W J 100 1/16W J 0 1/16W J 10k 1/16W J 1k 1/16W J
Symbol No. Part No.
Part Name
Description Local
R222 R223 R227 R228 R229 R230 R231 R232
L101 L102 L151 L152 L153 L156 L173 L176 L178 L187 L194 L201 L202
A151 CN201 CN202 CN301 CP141 CP201 CP202 CP203 MIC101 S111 S112 S113 S114 S115 S116 S117 S118 S119 S120 S121 S122 S123 S124 S125 S126 S127 S128 S129 S130 S301 S302 S303 S304
RK73HB1J122J RK73HB1J271J RK73HB1J102J RK73HB1J122J RK73HB1J271J RK73HB1J222J RK73HB1J222J RK73HB1J222J
MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR
1.2k 1/16W J 270 1/16W J 1k 1/16W J 1.2k 1/16W J 270 1/16W J 2.2k 1/16W J 2.2k 1/16W J 2.2k 1/16W J
LB73H0AV-002 LB73H0AV-002 LK73H0AM15NJ LK73H0AM6N8J LK73H0AM12NJ LK73H0AM1N2S LK73H0AM4N7S LK73H0BJ3N9S LK73H0BJ3N9S LK73H0AM10NJ LK73H0AM27NJ LB73H0AV-002 LB73H0AV-002
CHIP FERRITE CHIP FERRITE M.CHIP INDUCTOR 15nH M.CHIP INDUCTOR 6.8nH M.CHIP INDUCTOR 12nH M.CHIP INDUCTOR M.CHIP INDUCTOR 4.7nH M.CHIP INDUCTOR M.CHIP INDUCTOR M.CHIP INDUCTOR 10nH M.CHIP INDUCTOR 27nH CHIP FERRITE CHIP FERRITE
--------EC720BP-0325A EC720BP-0341A E40-6883-05 RK74HB1J101J RK74HB1J101J RK74HB1J101J RK74HB1J101J T9B-0004-00 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0901-05 S70-0516-05 S70-0516-05 S70-0516-05 S70-0516-05
CIRCUIT MODULE *Note FFC FPC CONNE FFC FPC CONNE F.C.CONNECTOR MG RESISTOR 100 1/16W J MG RESISTOR 100 1/16W J MG RESISTOR 100 1/16W J MG RESISTOR 100 1/16W J MIC ELEMENT TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW TACTILE PUSH SW
(No.RA070<Rev.001>)3-11
Packing materials and accessories parts list
8
Block No.M2MM
2
10
14
12 7
16
6 17
3 1
Packing and accessories
Symbol No.
Part No.
Part Name
1
H1C-0175-00
PACKING FIXTURE
2
---------
PROTECTION BAG
3
---------
PROTECTION BAG
4
H5A-1304-00
ITEM CARTON
6
J29-0730-05
HOOK
7
N09-6585-15
SPECIAL SCREW
8
B5A-2530-10
INST.MANUAL
10
N08-0571-04
DRESSED SCREW
12
B0K-0076-00
CAP
14
D32-0454-04
STOPPER
16
G5D-0027-00
PACKING
17
T90-1114-05
WHIP ANTENNA
Description
ACC/CAP RADIO
ACC-KBH-11 ACC-HOOK(x2) ACC INST Manual ACC-UNIV CAP ACC-UNIV ACC-CH KNOB ACC-UNIV CAP ACC KRA-38
4
Block No. [M][2][M][M]
Local
3-12(No.RA070<Rev.001>)
MEMO
JVC KENWOOD Corporation Communications Systems Division
(No.RA070<Rev.001>)
Printed in Japan JKS