Kenwood TK-5310 K4, TK-5310 K5, TK-5310 K2, TK-5310, TK-5310 K Service Manual

UHF P25 TRANSCEIVER

TK-5310

SERVICE MANUAL

© 2006-12 PRINTED IN JAPAN

B51-8779-00 (S) 570

Helical Antenna
(KRA-23: Option)

Knob (Volume)
(K29-9322-03)

Knob (PTT)
(K29-9328-02)

Main cabinet
(A02-3875-01)

Knob (16CH)
(K29-9323-03)

Helical Antenna
(KRA-23: Option)

Knob (Volume)
(K29-9322-03)

Key top
(EMG)
(K29-9319-03)

Knob (PTT)
(K29-9328-02)

Main cabinet
(4key)
(A02-3877-11)

Knob (16CH)
(K29-9323-03)

Helical Antenna
(KRA-23: Option)

Knob (Volume)
(K29-9322-03)

Key top
(EMG)
(K29-9319-03)

Knob (PTT)
(K29-9328-02)

Key top
(4key)
(K29-9320-03)

Main cabinet
(DTMF)
(A02-3879-11)

Knob (16CH)
(K29-9323-03)

Key top
(EMG)
(K29-9319-03)

Key top
(DTMF)
(K29-9321-13)

TK-5310 K, K4 TK-5310 K2, K5 TK-5310 K3, K6

Does not come with antenna. Antenna is available as an option.

CONTENTS

GENERAL ............................................................... 2

SYSTEM SET-UP ................................................... 2

REALIGNMENT ...................................................... 3

INSTALLATION .................................................... 10

DISASSEMBLY FOR REPAIR .............................. 11

CIRCUIT DESCRIPTION ....................................... 16

SEMICONDUCTOR DATA ................................... 22

COMPONENTS DESCRIPTION ........................... 24

PARTS LIST .......................................................... 26

EXPLODED VIEW................................................. 39

PACKING .............................................................. 41

ADJUSTMENT ..................................................... 42

TERMINAL FUNCTION ........................................ 62

PC BOARD

TX-RX UNIT (X57-7250-XX) ........................... 66

SCHEMATIC DIAGRAM....................................... 74

INTERCONNECTION DIAGRAM ......................... 86

BLOCK DIAGRAM ................................................ 87

LEVEL DIAGRAM ................................................. 90

SPECIFICATIONS .............................. BACK COVER

TK-5310

GENERAL / SYSTEM SET-UP

Document Copyrights

Copyright 2006 by 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 Kenwood.

Disclaimer

While every precaution has been taken in the preparation
of this manual, Kenwood assumes no responsibility for
errors or omissions. Neither is any liability assumed for dam­ages resulting from the use of the information contained
herein. Kenwood reserves the right to make changes to any
products herein at any time for improvement purposes.

INTRODUCTION

SCOPE OF THIS MANUAL

This manual is intended for use by experienced technicians
familiar with similar types of commercial grade communications
equipment. It contains all required service information for the
equipment and is current as of the publication date. Changes
which may occur after publication are covered by either Service
Bulletins or Manual Revisions. These are issued as required.

ORDERING REPLACEMENT PARTS

When ordering replacement parts or equipment information, the
full part identification number should be included. This applies to all
parts : components, kits, or chassis. If the part number is not known,
include the chassis or kit number of which it is a part, and a sufficient
description of the required component for proper identification.

PERSONAL SAFETY

The following precautions are recommended for personal safety:

• DO NOT transmit until all RF connectors are verified se-

cure and any open connectors are properly terminated.

•SHUT OFF and DO NOT operate this equipment near elec-

trical blasting caps or in an explosive atmosphere.

•

This equipment should be serviced by a qualified technician only.

SERVICE

This transceiver is designed for easy servicing. Refer to
the schematic diagrams, printed circuit board views, and
alignment procedures contained within.

NOTE

You must use KPG-95D version 5.00 or later for this trans-

ceiver. KPG-95D versions earlier than version 5.00 will not

work properly.

Model &

Unit X57-725X-XX

Destination (Market code)

K ✓
K2 ✓ 450~520 MHz ✓✓

TK-5310

K3 ✓ 1st IF:49.95MHz ✓✓✓
K4 ✓ LOC:50.4MHz
K5 ✓ 380~470 MHz ✓✓
K6 ✓✓✓✓

SYSTEM SET-UP

Merchandise received

License and frequency allocated by FCC

Choose the type of transceiver

Transceiver programming

Are you using the optional antenna?

NO

Are you using the speaker microphone?

NO

Are you using the voice guide & storage unit?

NO

0-10 0-11 0-12 0-13 0-14 0-15

Frequency range (MHz) RF power Type LCD 4-key

TX/RX 450~520 4W TK-5310 K No No No

TX/RX 450~520 4W TK-5310 K2 Yes Yes

TX/RX 450~520 4W TK-5310 K3 Yes Yes Yes

TX/RX 380~470 4W TK-5310 K4 No No

TX/RX 380~470 4W TK-5310 K5 Yes Yes No

TX/RX 380~470 4W TK-5310 K6 Yes Yes

A personal computer (IBM PC or compatible), programming interface (KPG-36/36A), USB
adapter(KCT-53U), and programming software (KPG-95D) are required for programming.
(The frequency, and signaling data are programmed for the transceiver.)

YES

YES

YES

KRA-23 or KRA-27

Helical antenna

(Option)

KMC-25

Speaker microphone

or

KMC-38GPS

GPS speaker microphone

(Option)

VGS-1

(Option)

Frequency range

See page 10

Remarks LCD 4-key

DTMF keypad

DTMF

keypad

---

-

---

-

No

No

Yes

2

Delivery

TK-5310

REALIGNMENT

1. Modes 2. How to Enter Each Mode

User mode

Panel test mode

PC mode

Firmware
programming mode

Clone mode ∗1

Self programming mode

Firmware version information

Clock adjustment mode ∗1

Transceiver information mode ∗1

Mode Function

User mode For normal use.

Panel test mode ∗1 Used by the dealer to check the fundamen-

Panel tuning mode ∗1

PC mode Used for communication between the

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.

Firmware Used when changing the main program of

programming mode the flash memory.

Clone mode ∗1 Used to transfer programming data from

Self programming Frequency, signaling and features write to

mode ∗1 the transceiver.

Firmware version Used to confirm the internal firmware

information ∗1 version.

Clock adjustment Used by the dealer to adjust date and time.

mode ∗1

Transceiver Used to confirm the transceiver firmware

information mode ∗1 version.

∗

1 : K2, K3, K5 and K6 models only

∗

1

tal characteristics.

Used by the dealer to tune the transceiver.

transceiver and PC (IBM compatible).

This feature is included in the FPU.

See panel tuning.

one transceiver to another.

Panel tuning mode ∗1

Data programming mode

PC test mode

∗

1

∗

1

PC tuning mode

Mode Operation

User mode Power ON

Panel test mode ∗2 Press and hold the [Side3] and [PTT] keys

while turning the transceiver power ON and

then release the [PTT] key first.

PC mode Received commands from PC

Panel tuning Press the [Side3] key, in Panel test mode

mode ∗2

Firmware

programming mode

Clone mode ∗2 Press and hold the [Side2] and [PTT] keys

Self

programming

mode ∗2 while turning the transceiver power ON and

Firmware version

information ∗2 the transceiver power ON.

Clock adjustment Press and hold the [Orange] and [PTT] keys

mode ∗2 while turning the transceiver power ON and

Transceiver Press and hold the [Side1] and [PTT] keys

information mode ∗2

∗

2 : K2, K3, K5 and K6 models only

Press and hold the [Side3] and [PTT] keys

while turning the transceiver power ON and

then release the [Side3] key first.

while turning the transceiver power ON and

then release the [Side2] key first.

Press and hold the [Side2] and [PTT] keys

then release the [PTT] key first.

Press and hold the [Side3] key while turning

then release the [Orange] key first.

while turning the transceiver power ON and

then release the [PTT] key first.

3. Panel Test Mode

(K2, K3, K5 and K6 models only)

Setting method refer to ADJUSTMENT.

4. Panel Tuning Mode

(K2, K3, K5 and K6 models only)

Setting method refer to ADJUSTMENT.

3

TK-5310

REALIGNMENT

5. PC Mode

5-1. Preface

The transceiver is programmed by using a personal com­puter, programming interface (KPG-36/36A), USB adapter
(KCT-53U) and programming software (KPG-95D).

The programming software can be used with an IBM PC
or compatible. Figure 1 shows the setup of an IBM PC for
programming.

IBM-PC

KPG-95D

PC

D-SUB

(25-pin)

KPG-36

Tra nsceiver

PC

D-SUB
(9-pin)

KPG-36A

Tra nsceiver

Fig. 1

5-2. Connection procedure

1. Connect the transceiver to the computer using the inter-

face cable and USB adapter (When the interface cable is

KPG-36A, the KCT-53U can be used.).

Notes:

•

You must install the KCT-53U driver in the computer to use

the USB adapter (KCT-53U).

•

When using the USB adapter (KCT-53U) for the first time,

plug the KCT-53U into a USB port on the computer with

the computer power ON.

2.

When the POWER switch on, user mode can be entered

immediately. When PC sends command the transceiver

enter PC mode, and “PROGRAM” is displayed on the LCD.

When data transmitting from transceiver, the red LED is lights.

When data receiving to transceiver, the green LED is lights.

Notes:

•

The text message are displayed for K2, K3, K5 and K6 mod-

els only.

• The data stored in the computer must match the "Model

Name and Market Code" when it is written into the

EEPROM and flash memory.

4

KPG-36 or KPG-36A or
KPG-36A + KCT-53U
Illustration is KPG-36.

PC

USB

KCT-53U

KPG-36A

Transceiver

5-3. KPG-36/KPG-36A description
(PC programming interface cable: Option)

The KPG-36/36A is required to interface the transceiver to
the computer. It has a circuit in its D-sub connector (KPG-36
: 25-pin, KPG-36A : 9-pin) case that converts the RS-232C
logic level to the TTL level.

The KPG-36/36A connects the universal connector of the
transceiver to the RS-232C serial port of the computer.

5-4. KCT-53U description (USB adapter : Option)

The KCT-53U is a cable which connects the KPG-36A to a
USB port on a computer.

When using the KCT-53U, install the supplied CD-ROM
(with driver software) in the computer. The KCT-53U driver
runs under Windows 2000 or XP.

5-5. Programming software KPG-95D description

The KPG-95D is the programming software for the trans­ceiver supplied on a CD-ROM. This software runs under MS­Windows 98, ME, Windows 2000 or XP on an IBM-PC or
compatible machine.

The data can be input to or read from the transceiver and
edited on the screen. The programmed or edited data can be
printed out. It is also possible to tune the transceiver.

6. Firmware Programming Mode

6-1. Preface

Flash memory is mounted on the transceiver. This allows
the transceiver to be upgraded when new features are re­leased in the future. (For details on how to obtain the firm­ware, contact Customer Service.)

6-2. Connection procedure

Connect the transceiver to the personal computer (IBM
PC or compatible) using the interface cable (KPG-36/36A) and
USB adapter (KCT-53U : when the interface cable is KPG­36A, the KCT-53U can be used.). (Connection is the same as
in the PC Mode.)

6-3. Programming

1. Start up the firmware programming software (Fpro.exe).

2. Set the communications speed (normally, 115200 bps)

and communications port in the configuration item.

3. Set the firmware to be updated by File name item.

4. Press and hold the [Side3] and [PTT] keys while turning

the transceiver power ON and then release the [Side3] key

first. Then, the orange LED on the transceiver lights and

the baud rate is displayed as follows according to the posi-

tion of the Concentric switch.

A: PROGRAM 115200 bps
B: PROGRAM 57600 bps

C: PROGRAM 19200 bps
Since the baud rate is normally set to 115200 bps, change
the Concentric switch to "A".

5. Check the connection between the transceiver and the
personal computer, and make sure that the transceiver is
in the Program mode.

6. Press “write” button in the window. When the trans­ceiver starts to receive data, the [PG] display lights.

REALIGNMENT

TK-5310

7. If writing ends successfully, the checksum is calculated
and a result is displayed.

8. If you want to continue programming other transceivers,
repeat steps 4 to 7.

Notes:

• This mode cannot be entered if the Firmware Program­ming mode is set to Disable in the Programming software.

• The text message are displayed for K2, K3, K5 and K6
models only.
These transeivers use firmware versions F4.00 or later.

•
When using firmware versions earlier than version F4.00, a
“Check connection” error message will appear on the
LCD. Firmware versions earlier than version F4.00 will not
write to the transceiver.

6-4. Baud rate change

1. Change baud rate by changing the Concentric switch posi­tion. The baud rates are assigned to positions of the Con­centric switch as follows:

A: PROGRAM 115200 bps (The LED lights orange)
B: PROGRAM 57600 bps (The LED blinks orange)
C: PROGRAM 19200 bps (The LED blinks green)

2. If you press the [Side1] switch (top of left side) while the
baud rate (such as “PROGRAM 115200 bps") is displayed,
the checksum is calculated, and a result is displayed. If
you press the [Side1] switch again while the checksum is
displayed, the baud rate (such as “PROGRAM 115200
bps") is redisplayed.

Notes:

• Normally, write in the high-speed mode.

• The text message are displayed for K2, K3, K5 and K6
models only.

7. Clone Mode (K2, K3, K5 and K6 models only)

Programming data can be transferred from one transceiver

to another by connecting them via their external universal con­nectors. The operation is as follows (the transmit transceiver
is the source and the receive transceiver is a target).

The following data cannot be cloned.

• Tuning data

• Embedded message with password

• Model name data

• ESN (Electronic Serial Number) data

• Network file data (P25)

Key guide on the "INPUT PASSWORD" display.

• CNF([A] key): The password confirmation

• DEL([B] key): Delete the least digit from the current pass-

word number (Press and hold to delete all
password numbers)

• SET([D] key):

Determine the least digit of the password number

3.

• How to enter the password using the keypad (K3 and

K6 models only);

If the [D] key is pressed while "CLONE LOCK" is displayed,
the Read authorization password input screen (INPUT
PASSWORD) is displayed.
If one of keys 0 to 9 is pressed while "INPUT PASSWORD"
is displayed, the pressed number is displayed on the LCD.
Each press of the key shifts the display in order to the left.
When you enter the password and press the [A] or [✳]
key, “CLONE MODE” is displayed if the entered pass­word is correct. If the password is incorrect, “CLONE
LOCK” is redisplayed.

• How to enter the password using the [Side2] and

[Side3] keys (K2, K3, K5 and K6 models);

If the [D] key is pressed while "CLONE LOCK" is displayed,
the Read authorization password input screen (INPUT
PASSWORD) is displayed.
If the [Side2] key or [Side3] key is pressed while "INPUT
PASSWORD" is displayed, the number (0 to 9) flashes on
the LCD. When you press the [D] key, the currently
selected number is determined. If you press the [A] key
after entering the password in this procedure, “CLONE
MODE” is displayed if the entered password is correct. If
the password is incorrect, “CLONE LOCK” is redisplayed.

4. Power ON the target transceiver.

5. Connect the cloning cable (part No. E30-3325-05) to the
universal connectors on the source and target.

6. Press the [Side1] or [A] key 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 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
[Side1] or [A] key on the source is pressed while the
source displays “END”, the source displays “CLONE
MODE”. Carry out the operation in step 4 to 6.

Notes:

• Cannot be cloned if the password (overwrite password) is
programmed to the target.

•

Cannot be cloned if the checksum in the Network File area of
the source transceiver and the target transceiver is different.

•"Model Name and Market Code" must be same to clone
the transceiver. However, it may be unable to clone the
transceiver depending on the enhanced features settings.
(Refer to the FPU for the enhanced features details.)

• Under certain conditions, clone mode cannot be activated
even if the clone mode of the source transceiver is set to
enable. Refer to the FPU for more details.

Cloning cable
(E30-3325-05)

1.

Press and hold the [Side2] and [PTT] keys while turning the
transceiver power ON and then release the [Side2] key first.
If the Read authorization password is set to the transceiver,
the transceiver displays “CLONE LOCK”. If the password is
not set, the transceiver displays “CLONE MODE”.

2.

When you enter the correct password, and “CLONE MODE”
is displayed, the transceiver can be used as the cloning
source. The following describes how to enter the password.

Fig. 2

5

TK-5310

REALIGNMENT

8. Self Programming Mode

(K2, K3, K5 and K6 models only)

Write mode for frequency data and signaling etc. To be
used ONLY by the authorized service person maintaining the
user's equipment. After programming, reset the FPU to the
"Self- Programming" disabled mode. Transceivers CANNOT
be delivered to the end-user in the self-programming mode.

The following setup items in the channels programmed by
the FPU can be changed using the self-programming mode.
The addition of new channel and the deletion of channel that
has already been programmed by the FPU cannot be
performed using the self-programming mode.

• RX frequency

• TX frequency

• Channel type

• TX mode (When the channel type is selected "MIXED".)

• Channel spacing

• RX signaling

• TX signaling

• RX NAC

• TX NAC

• Talkgroup list number

Note:

The personality will be also changed when the above-

mentioned items is changed. (Refer to the FPU for the

personality details.)

8-1. Enter to the self programming mode

Press and hold the [Side2] and [PTT] keys while turning
the transceiver power ON and then release the [PTT] key
first. Ignoring whether the Read authorization password is
set or not, "INPUT PASSWORD" appears.

If the Read authorization password is not set to the trans­ceiver, "SELF PROG MODE" is displayed on the LCD when the
[A] key is pressed while "INPUT PASSWORD" is displayed.

If the password is set to the transceiver, "SELF PROG
MODE" is displayed on the LCD when you enter the correct
password while "INPUT PASSWORD" is displayed.

For the password input method, see "7.Clone Mode”
step 3 described on page 5.

Note :

This mode (self programming mode) cannot be set when

it has been disabled with the FPU.

8-2. Data Writing

If the [Side3] key is pressed while Zone/Channel mode is
displayed, new data is written into memory. "Writing" is dis­played while the transceiver is writing data.

Key guide on the "INPUT PASSWORD" display.

• CNF([A] key): The password confirmation

• DEL([B] key): Delete the least digit from the current pass­word number (Press and hold to delete all

• SET([D] key): Determine the least digit of the password

password numbers)

number

The setup items for self programming mode are as follows.

No. Setup item Display Remarks

1 Select ZONE [**] -CH *** Zone : 1~50

Zone/Channel ZONE ** -CH [***] CH : 1~250
2 RX frequency RX Freq Receive frequency
3 TX frequency TX Freq Transmit frequency
4 Channel type CH Type ANALOG/P25/MIXED
5 TX mode TX Mode ANALOG/P25
6Channel spacing CH Space 25.0kHz/12.5kHz

P25 12.5kHz/12.5kHz (When the Channel type is selected "P25".)
7 RX Signaling RX Sig Receive QT/DQT
8 TX Signaling TX Sig Transmit QT/DQT
9 RX NAC RX NAC *** 000~FFF (Hexadecimal) Note : “F7F” cannot be set.

10 TX NAC TX NAC *** 000~FFF (Hexadecimal) Note : “F7E” and “F7F” cannot be set.
11 Talkgroup list number TG List No. *** 1~250

(When the Channel type is selected "ANALOG" or "MIXED".)

6

TK-5310

REALIGNMENT

Key operation

Item

Key

[Side3]

Keypad

[0]~[9]

(K3 and K6 (After selecting signaling type)

models only)

Zone-Channel RX Frequency TX Frequency Channel Type TX Mode Channel Spacing RX Signaling TX Signaling

[A] Go to the next item

Zone/ Channel 5kHz/6.25kHz/1MHz

[B]

[C]

[D]

switching step switching switching

Zone/ Channel

down switching(Back) switching(Back) switching(Back)

Zone/ Channel

up

Data

writing switching switching

Unused Go to the direct enter mode Unused

Unused

1 step down

1 step up

ON/OFF

Unused

ANALOG/P25/MIXED

ANALOG/P25/MIXED

switching(Forward) switching(Forward) switching(Forward)

ANALOG/P25 Channel spacing

ANALOG/P25 Channel spacing

Unused

QT/DQT(N)/DQT(I)/OFF

Signaling down

Signaling up

1 step/Standard

Go to the direct enter mode

Item

Key

[A] Go to the next item

[B]

[C] Unused

[D] Determine the least digit

[Side2] Increment a number in the specified digit Unused

[Side3] Decrement a number in the specified digit Unused

Keypad Add a digit to the current number

(K3 and K6 How to enter the “A” ~ “F” is follows.

models only)

A : Press [2] with PTT B : Press [5] with PTT C : Press [8] with PTT

D : Press [0] with PTT E : Press [#] with PTT F : Press [*] with PTT

RX NAC TX NAC TG List No.

Delete the least digit from the current number

(Press and hold to delete all numbers.)

number down

number up

• Direct enter mode

Item

Key

[A] Return to non-direct enter mode

[B] Unused

[C] Unused

[D]

[Side3] ON/OFF switching at TX Frequency Unused

Keypad

[0] ~ [9]

Keypad

[*]

Keypad Delete the least digit from the current number

[#] (Press and hold to delete all numbers.)

RX Frequency TX Frequency RX Signaling TX Signaling

Change the type of signaling and

return to non-direct enter mode

Delete the least digit from the current number

(Press and hold to delete all numbers.)

Add a digit to the current number

Return to non-direct enter mode

Unused

TG List

TG List

Unused

7

TK-5310

●

Self programming mode flow chart

[Side2] + [PTT] + POWER ON Release [PTT]

REALIGNMENT

Input Password

Read authorization password entry (6 digits)
[A]

Self programming mode

[A]

Zone/Channel

[A] When the [Side3] key is pressed, new data is written into memory.

RX frequency

[A]

Zone selection

[B]

Channel selection

[A] [A]
[TX frequency] : "OFF"

[Channel type] : "ANALOG" or "P25"

[A]
[Channel type] : "P25"

[A]
[TX frequency] : "OFF"

[Channel type] : "ANALOG"

[A]
[Channel type] : "ANALOG"

[A]
[TX frequency] : "OFF"

Talkgroup ID List Amount : 0
or
[TX frequency] : Other than "OFF"
[Channel type] : "MIXED"
[TX mode] : "ANALOG"
Talkgroup ID List Amount : 0

[A]
Talkgroup ID List Amount : 0

TX frequency

Channel type

TX mode

Channel spacing

RX signaling

[A]
[TX frequency] : "OFF"

[Channel type] : "P25" or "MIXED"

TX signaling

[A]
[TX frequency] : "OFF"

Talkgroup list number

RX NAC

TX NAC

[Side 3]

[A]

[TX frequency] : Other than "OFF"
[Channel type] : "MIXED"

[A]

[A]
[Channel type] : "ANALOG" or "MIXED"

[A]
[TX frequency] : Other than "OFF"

[Channel type] : "ANALOG" or "MIXED"
[TX mode] : "ANALOG"

[A]
[Channel type] : "P25" or "MIXED"

[A]
[TX frequency] : Other than "OFF"

[Channel type] : "P25" or "MIXED"
If [Channel type] is set to "MIXED", [TX mode] must be set to "P25".

[A]
[Channel type] : "P25" or "MIXED"
Talkgroup ID List Amount must not be 0.

[A]

OFF

ANALOG

OFF QT

OFF QT DQT N

[C]/[D]

[C]/[D]

*1

*2

[B] [B] [B]

[B]

[C]/[D]

P25

P25ANALOG

*1 [Channel type] : "ANALOG" or "MIXED"

P25 12.5kHz

*2 [Channel type] : "P25"

[B]

DQT N

[B]

[B]

[C]/[D]

[C]/[D]

[C]/[D]

[B]

MIXED

12.5kHz25.0kHz

12.5kHz

DQT I

DQT I

8

REALIGNMENT

9. Firmware Version Information

(K2, K3, K5 and K6 models only)

Press and hold the [Side3] key while turning the transceiver
power ON and then keep pressing and holding the [Side3] key,
the firmware version information appears on the LCD.

10. Clock Adjustment Mode

(K2, K3, K5 and K6 models only)

10-1. Flow chart of operation

[Orange] + [PTT] + Power ON Release [Orange]

YEAR

[A]

MONTH

[A]

DAY

[A]

HOUR

[A]

MINUTE

[A]

[Side2] and [Side3] keys or [C] and [D] keys

[Side2] and [Side3] keys or [C] and [D] keys

[Side2] and [Side3] keys or [C] and [D] keys

[Side2] and [Side3] keys or [C] and [D] keys

[Side2] and [Side3] keys or [C] and [D] keys

TK-5310

Completion

11. Transceiver Information Mode

(K2, K3, K5 and K6 models only)

Use this function to confirm the transceiver firmware version.

1. Press and hold the [Side1] and [PTT] keys while turning

the transceiver power ON and then release the [PTT] key

first.

2. The transceiver firmware version appears on the LCD.

3. To exit the transceiver information mode, turn the trans-

ceiver power OFF.

9

TK-5310

INSTALLATION

Voice Guide & Storage Unit (VGS-1:Option)

■ Installing the VGS-1 unit in the transceiver

1. Remove the 4 screws from the cover.

2. Remove the cover by inserting the tip of a pair of tweezers
into the screw hole of the cover and prying it open.

5. Insert the VGS-1 connector (CN1) into the connector
(CN609) of the TX-RX PCB.

Cushion
(G13-1995-04)
20X30X1.0mm

VGS-1

Fig. 1

3. Remove the OPTION PCB from the connector (CN609) of
the TX-RX PCB.

OPTION PCB

CN609

Fig. 2

VGS-1

CN1

CN609

Cushion
(G13-1974-04)
21X21X1.0mm

Fig. 3

6. Reinstall the cover using the 4 screws removed in step 1.

Note:

You must setup using the KPG-95D.

Attach two cushions to the VGS-1 as shown in the figure 3.

4.

Note:

Be sure not to cover the VGS-1 connector (CN1) with the
cushion.

10

DISASSEMBLY FOR REPAIR

TK-5310

Disassembly Procedure

■ 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 (the place next to the """ mark shown on
the chassis), push it in the direction of the arrow
remove the right side of the rear panel. Repeat the above
action for the left side of the rear panel x.

""" mark

x

2. Remove the four screws c and universal connector cap

Rear panel

z

v.

3. Lift the battery pack release latch on the bottom of the

chassis

Notes:

• Lift the chassis from the front case slowly and carefully. If

the chassis is lifted suddenly, the SP/MIC FPC may be
pulled and the connector may become damaged.

• Handle the main packing with care. It is likely to collect

dust and dirt.

4. Remove the SP/MIC FPC from the CONTROL PCB con-

nector (CN713).

b and remove the chassis from the front case.

n

c

c

Chassis

z, and

""" mark

■ Removing the CONTROL PCB (X57-725 B/5)
from the chassis.

1. Remove the six screws m.

CONTROL PCB

m

m

2. On the reverse side of the CONTROL PCB

cord ASSY and each FPC from the connectors (CN700,
CN800 (K2, K3, K5 and K6 models only), CN803, CN804)
of the CONTROL PCB.

CN803

CN700

CN800

,

m

Chassis

,, remove the

CN804

Cord ASSY

■ Removing the TX-RX PCB (X57-725 A/5) from
the chassis.

1. Remove the 14 screws ..

2. Remove the universal connector FPC from the TX-RX PCB

connector (CN606) /.

3. Insert the two tips of a pair of tweezers into the two holes

in the bottom of the shield plate of the TX-RX PCB, firmly
squeeze the tweezers to hold the shield plate, then
remove the TX-RX PCB

4. Remove the coaxial cables from the two connectors

(MAIN (CN204), UNIV (CN205)) of the TX-RX PCB ≈.

Ω.

Battery pack
release latch

b

v

SP/MIC FPC

Front case

CN713

n

TX-RX PCB

.

Ω

.

.

.

.

Chassis

.

UNIV
(CN205)

.

Universal
connector FPC

≈

/

≈

CN606

MAIN
(CN204)

11

TK-5310

DISASSEMBLY FOR REPAIR

■ Removing the top panel from the chassis.

1. Remove the volume knob ç and channel knob √.

2. Remove the concentric switch knob

3. Remove the volume torque-up packing
tweezers.

4. Remove the nuts from the volume knob, channel knob
and antenna receptacle.

5. Remove the top panel

Notes:

• Before removing the top panel, set the lever switch to the
"-" position (circle painted in white)

• Each of the volume knob, channel knob and antenna re­ceptacle on the top panel has an O-ring. Take care not to
lose them after removing the panel.

µ.

∫.

~ using a pair of

≤.

ç

≤

~

√

∫

µ

O-ring

Precautions for Reassembly

■ Installing the VOL/CH FPC and CONTROL-TOP
FPC on the TOP PCB

1. Remove the volume z and channel switch x from the

chassis.

2. Position the coaxial cable connecting the ANT PCB and

TX-RX PCB as shown in the figure below.

The projection
of the volume

z

CONTROL-TOP

FPC

3. Pass the coaxial cable

through the round hole of the hardware fixture
insert it into the coaxial connector (MAIN (CN204)) of the
TX-RX PCB.

x

VOL/CH FPC

Aline the coaxial cable
connecting the ANT PCB and
TX-RX PCB as shown in the figure.

c of the antenna receptacle

pedestal

The projection of
the channel
switch pedestal

v, then

■ Removing the TOP PCB (X57-725 C/5) from the
chassis.

1. Remove the two screws ≥.

2. Lift the TOP PCB and remove the VOL/CH FPC
CONTROL-TOP FPC
CN903) of the TOP PCB.

21

from the two connectors (CN902,

TOP PCB

CN902

≥

≥

÷ and

÷

21

CN903

v

MAIN
(CN204)

4. Pass the volume, channel switch, VOL/CH FPC and
CONTROL-TOP FPC through hardware fixture holes, then
bring the hardware fixture into contact with the chassis
and fix it with a screw

Note:

The projections of the volume and channel switch pedes­tals must protrude from the square holes of the hardware
fixture.

5. Fix the antenna receptacle with the two screws n.

6. Fix the hardware fixture with a screw

b.

c

m.

12

b
m

n

DISASSEMBLY FOR REPAIR

tab

CONTROL PCB

TK-5310

7. Insert the VOL/CH FPC , and the CONTROL-TOP FPC .

into the connectors (CN902, CN903) of the TOP PCB.

8. Fix the TOP PCB with a screw

9. Fix the TOP PCB with a screw

CN902

,

/.
Ω.

.

/

Ω

CN903

■ TX-RX PCB Installation Procedure

1. Insert the coaxial cable of the antenna receptacle into the
coaxial connector (CN204) of the TX-RX PCB
coaxial cable of the ANT PCB into the coaxial connector
(CN205) of the TX-RX PCB

2. Grasp both sides of the lower part of the TX-RX PCB, tilt
the TX-RX PCB and install the chassis so that the PTT FPC

x.

z and the

c, CONTROL-TOP FPC v and universal connector FPC
b are not caught n.

3. Fix the TX-RX PCB with the 14 screws.

CN205

c

b

v

n

x

z

CN204

2. Fit the two tabs on the right side of the holder c and the

two tabs on the left side of the holder
CONTROL PCB.

Note:

Take care that the FPC is not caught when fitting the two
tabs on the right side of the holder.

v into the

c

c

v

v

3. Insert the FPC into the CONTROL PCB connector (CN802)

b.

CN802

b

■

Main Packing (G53-1637-04) Installation Procedure

1. Hook the packing (coated with silicon oil) in the upper
groove of the chassis
lower groove of the chassis

Note:

Ensure that the chassis grooves and packing are free from
dirt and dust.

z, then fit the packing into the

x.

Grasp both sides of the lower part
of the TX-RX PCB

■ LCD ASSY Installation Procedure (K2, K3, K5 and

K6 models only)

1. Fold the LCD ASSY FPC to the back of the holder
that the FPC is between the two tabs on the right side of
the holder x.

tab

x

z

LCD ASSY FPC

z so

tab

2. Fit the packing into the grooves on both sides of the

chassis c. (Fit the packing into the groove in the chassis
by tracing it lightly with your fingers.)

Main packing

z

c

c

x

Note:

To remove the packing from the chassis groove, use a
resin adjustment bar or other such device. If the packing
is pried with a sharp metallic tool, such as tweezers, the
packing may become damaged.

3. Verify that the packing fits snuggly into the groove of the
chassis.

13

TK-5310

DISASSEMBLY FOR REPAIR

■ Top Packing (G53-1638-04) Installation Procedure

1. Ensure that the hardware fixture is first secured to the
chassis.

2. Hook the packing (coated with silicon oil) in the upper left
groove of the chassis
groove of the chassis.

Notes:

• Verify that the chassis grooves and packing are free from
dirt and dust.

• To remove the packing from the chassis groove, use a
resin adjustment bar or other such device. If the packing
is pried with a sharp metallic tool, such as tweezers, the
packing may become damaged.

3. Verify that the packing fits snuggly into the groove of the
chassis.

z, then fit the packing into the right

x

Hardware fixture

z

x

Top packing

2. Tighten the two screws from the TX-RX PCB side.

Tw o screws

3. Firmly tighten the hexagon screws of the GND terminal.

Installation Procedure during Parts Replacement

■ Attaching the Sheet (G10-1338-04, J99-0383-14)
to the Front Case Speaker and Installation of
the Packing (G53-1633-04)

1. Attach a new fiber sheet z (G10-1338-04) so that its

convex fits the hollow of the front case

2. Attach a new pressure sensitive adhesive sheet

0383-14) so that its convex fits the hollow of the front
case v.

3. Remove the separation sheet from the pressure sensitive

adhesive sheet with a pair of tweezers b.

4. Fit the packing

speaker.

n (G53-1633-04) into the front case

x.

c (J99-

■ Volume Torque-up Packing (G53-1628-04)
Installation Procedure

Insert the packing using a pair of tweezers so that the
hollow of the packing fits the convex of the panel

Volume torque-up packing

z

z.

■ Screw sequence for mounting the battery
terminal block to the chassis.

Attach the battery terminal block to the chassis as
described in the following procedure.

1. Loosely fix the hexagon screws of the GND terminal to
the chassis (enough so that the hexagon screws do not
move).

Note:

Fit the packing into the hollow of the case so that the two
low-height places in the convex of the packing are posi­tioned on the lower side

m.

n

m

c

vb

z

x

5. Verify that the packing does not ride on the rib of the case.

14

GND terminal

■ Installing a new LCD ASSY to the holder (K2,
K3, K5 and K6 models only)

1. Remove the separation paper (brown) from the new sheet

z x, and attach the sheet to the surface of the holder c.

2. Remove the protection sheets attached to both sides of

the new LCD ASSY.

Apply grease to between
the two holes in
the hardware fixture.

Apply bond (Three Bond 1401C)
to the tip of the lever knob shaft
and the surface of the hexagon
nut.

Top panel

Inserted into the hole
on the left side of the
hardware fixture.

Apply grease to the
base of the shaft of
the lever knob.

z

v

m

b

n

x

c

DISASSEMBLY FOR REPAIR

TK-5310

3. Remove the separation paper (white) from the sheet in

v, then attach the LCD ASSY b to the sheet.

step 1

4. Attach two pieces of double-sided adhesive tape

n to the

back of the holder and remove the separation paper.

5. Remove the protection sheet (transparent) attached to
one side of the new filter
sheet (yellow) from the other side

m , and remove the protection

..

6. Attach the filter from step 5 to the back of the holder.

7. Attach the new cushion / so that it fits to the corner of
the holder convex.

/

b

z

x

b

c

v

z

/

c

n

n

n

n

m

,

.

6. Fix the two hardware fixtures with the hexagon nut n.

7. Apply bond (Three Bond 1401C) to the tip of the lever

knob shaft and the surface of the hexagon nut m.

■ Volume Knob and Channel Knob Parts Replace­ment

Since the volume knob consists of two components, a
knob

z and a spacer x, replace and reinstall these two

parts at the same time.
Since the channel knob consists of three components, a

c, a 16CH display seal v and a spacer b, replace

knob
and reinstall these three parts at the same time.

Volume Knob Channel Knob

■ Preparation when Replacing the Cord ASSY
(X42-3270-10)

Cut the tip of the FPC on the side on which "TX-RX" is
stamped when replacing the cord ASSY.

■ Procedures when Replacing the Top Panel

1. Insert the O-ring z into the lever switch part of the new

top panel.

2. Apply grease to the base of the shaft of the lever knob x

and install the lever knob so that it is in the "-" position
(circle painted in white) on the top panel

3. Pass the hardware fixture

it onto the top panel.

4. Apply grease to between the two holes in the hardware

fixture

5. Install the hardware fixture

hole on the left side of the hardware fixture

CUT

v.

Cord Assy(X42-3270-10)

TX-RX

v through the shaft and install

b so that it is inserted into the

z

x

■

Procedure when replacing the universal connector

b

c

v

FPC (J82-0097-25)

When assembling a new universal connector FPC, insert

CONT

c.

the FPC into the chassis hole by gently bending the FPC
as shown in the figure.

Universal connector FPC
(J82-0097-25)

Right

Universal connector FPC

Universal
Connector

Bend the FPC gently.

Wrong

Universal connector FPC

Universal
Connector

Do not bend the FPC at a sharp angle.

v.

15

TK-5310

CIRCUIT DESCRIPTION

1. Overview

This transceiver is a UHF/FM/P25 portable transceiver
designed to operate in the frequency range of 450 to
520MHz (K, K2, K3) or 380 to 470MHz (K4, K5, K6).

The unit consists of receiver, transmitter, phase-locked
loop (PLL) frequency synthesizer, base band parts, power
supply, and control circuits.

2. Frequency Configuration

The receiver is a double-conversion superheterodyne
using first intermediate frequency (IF) of 49.95MHz and
second IF of 450kHz. Incoming signals from the antenna are
mixed with the local signal from the PLL circuit to produce
the first IF of 49.95MHz.

This is then mixed with the 50.4MHz second local
oscillator output to produce the 450kHz second IF. This
signal is detected to give the demodulated signal in the DSP.

The transmit signal frequency is generated by the PLL
VCO, and modulated by the signal from the DSP. It is then
amplified and fed to the antenna.

ANT

TX/RX : 450~520MHz(K, K2, K3)
TX/RX : 380~470MHz(K4, K5, K6)

1st MIX

SW

PA

RF

AMP

16.8MHz

400.05~470.05MHz(K, K2, K3)

330.05~420.05MHz(K4, K5, K6)

TX

AMP

450~520MHz(K, K2, K3)
380~470MHz(K4, K5, K6)

49.95MHz

VCXO

ANT

AMP

MCF

450kHz

IF AMP

x3

50.4MHz

CF

MIX

PLL

VCO

FPGA

A/D
D/A

DSP

AF

AMP

MIC

AMP

SP

MIC

Fig. 1 Frequency configuration

3. Receiver System

3-1. Front-end RF Amplifier

The signal is passed through an antenna matching coil,
where the high-frequency components are amplified by a
MOS FET(Q301). The signals are then fed into band-pass
filter that uses varactor diode tuning to reject unwanted
signal components, and is fed to the 1st mixer.

3-2. 1st Mixer

The 1st mixer uses the GaAs IC (IC302). The 1st mixer
mixes the signal with the 1st local oscillator frequency from
the VCO, and converts it to the 1st IF (49.95MHz).

The signal then passes through monolithic crystal filter
(XF300) to remove unnecessary nearby frequency
components. The signal from the MCF is used as the 1st IF
signal.

2nd IF of 450KHz. The 450KHz signal is then passed through
a ceramic filter (CF300) and fed back into IC304 for additional
amplification.

BPF BPF

TUNE2

MCF

Q302

IF AMP

XF300

49.95MHz

Q301

LNA MIXER

TUNE1

CF300

IC304

FM IC

1st

Tripler

VCXO

X3

IC302

2nd Local OSC

Q303

X300

16.8MHz

1st Local OSC

Fig. 2 Receiver section

3-4. Wide/ Narrow/ P25 Switching Circuit

Narrow and Wide and P25 settings can be made for each
channel by switching the ceramic filters CF303 (Wide),
CF302 (Narrow), CF301 (P25).

The Wide and Narrow and P25 data is output from pin51
(WN) and pin52 (VN) of CPU (IC5).

When a Wide data (VN : low level, WN : high level) is
received, the 450KHz signal is passed through a ceramic filter
(CF303). When a Narrow data (VN : low level, WN : low level)
is received, the 450KHz signal is passed through a ceramic
filter (CF302). When a P25 data (VN : high level, WN : high
level) is received, the 450KHz signal is passed through a
ceramic filter (CF301).

If the 450kHz signal is a FM signal(Wide, Narrow), the
signal is detected by a ceramic discriminator (CD300). AF
signal is fed to CODEC(IC454), the AF level is adjusted and it
is output from 15pin of IC454. Q304 turns on/off with the
Wide/Narrow data and the IC304 detector output level is
changed to maintain a constant output level during Wide or
Narrow signals.

If the 450kHz signal is an P25 signal, the signal is prepared
by the buffer amplifier (IC308) and fed to FPGA (IC457). The
P25 signal is A/D-converted by the FPGA and DSP (IC8), and
is performed P25 demodulation.

The AF signal is output from 15pin of CODEC (IC454).

VN WN

HH

L

L

49.95MHz

Filter

P25

HLWide

Narrow

450kHz

IC303

CF300

CF301

P25

CF302

IC304
FM IC

Narrow

CF303

Wide

IC306

WN WN

IC307

IC305

VNVN

CD300

AF

CD

DET

P25

3-3. IF Amplifier

The 1st IF signal is amplified by the IF amplifier (Q302) and
fed into the FM IC (IC304). The IF signal is then mixed with
the 2nd local oscillator frequency of 50.4MHz to generate the

16

50.4MHz

Q303

x3

X300

VCXO

16.8MHz

Fig. 3 Wide/Narrow/P25 switching circuit

CIRCUIT DESCRIPTION

TK-5310

3-5. Audio Amplifier Circuit

• AF signal

The AF signal from CODEC (IC454) is amplified by IC456

and goes through IC458.

The AF signal goes through a DAC (IC462), an AF amplifier
(IC705), and an AF switch (IC701), and is routed to audio
power amplifier (IC702), where the signal is amplified and
output to the internal speaker.

•Audio circuit

CODEC (IC454) extracts the audio signal from the receive
signal in the detection circuit in FM mode. The signal is then
deemphasized and output as a decoded audio signal in P25
mode.

LPF (IC456) removes quantization noise from the audio
signal output of the CODEC.

The switch (IC458) stops the audio signal of the CODEC to
prevent the mixing of BEEP, voice announcement and audio
signal when the BEEP or voice announcement is output from
the CPU. If an optional scrambler board is installed, the audio
path is adjusted so that the audio signal goes through the
scrambler board.

DAC (IC462) controls the voltage amplitude level of the
audio signal according to the volume position of the
transceiver. This determines the volume level output from
the speaker.

The amplifier (IC705) amplifies the audio signal so that the
audio signal level at the final stage amplifier is appropriate.

The volume levels of the 8Ω internal speaker and 16Ω
external speaker are matched using the EXT AFC.

The switch (IC701) adjusts the signal path so that the
audio signal is output to the audio amplifier (IC703) for
external speakers when optional external speakers are
connected. If no external speakers are connected, the audio
signal is output to the audio amplifier (IC702) for the internal
speaker.

IC702 and IC703 output is BTL (Bridge Tied Load).

• AF control

Speaker switching is performed by the CPU (IC5) using
INT AFC or EXT AFC. First, the logic level at the speakers
switching terminal (SSW) on the universal connector is fed to
the CPU. The CPU then outputs data based on this input.

When there is no SP-MIC installed, this logic level
becomes high. When the INT AFC is high, the EXT AFC goes
low, so the AF signal is only fed to the amplifier for the
internal speaker (INT SP) of IC702.

However, when a SP-MIC has been connected, this logic
level becomes low, so the INT AFC goes low and the EXT
AFC goes high. In this case, the AF signal is fed only to
amplifier for the external speaker (EXT SP) of IC703.

3-6. Squelch Circuit

It amplifies the demodulated noise signal from FM IC
(IC304) after filtering through BPF circuit. Then, the amplified
signal is converted to DC signal by the detection circuit. The
converted signal is fed to the CPU (IC5).

IC451

BPF AMP

Q460

Noise AMP

D453

DET

IC5

CPU

Fig. 5 Squelch circuit

4. Transmitter System

4-1. Audio Band Circuit

The audio band circuit of the transmitter system consists
of the following:

• Microphone (Main)

•Microphone (Sub)

• N/C amplifier (Noise canceling mic amplifier) (IC705)

• Switch (Int/ext) (Q455)

• Switch (Mic mute) (Q452)

• AGC (IC452, D450, D451)

• Switch (Scrambler board) (Q454)

• Switch (VGS-1) (IC450)

This transceiver has two types of microphones: main and
sub. The main microphone is located at the front of the
cabinet and the sub microphone is located at the rear of the
cabinet. The audio signal input from these microphones is
synthesized by the N/C amplifier (IC705). The audio signal
from the main microphone is synthesized in normal phase
and the audio signal from the sub microphone is synthesized
in opposite phase. So if the same audio signal is applied in the
same phase to the main and sub microphones, it is cancelled
by the N/C amplifier. If audio signal is input to only the main or
sub microphone, it is not cancelled, but output from the N/C
amplifier.

This prevents ambient noise from entering the audio band
circuit at the next or subsequent stages.

When an optional external speaker microphone is
installed, the Int/ext switch (Q455) cuts off the audio signal
from the main and sub microphones and sends only the audio
signal from the external microphone to the next stage.

The microphone mute switch (Q452) cuts off audio
signals from the main, sub and external microphones.

AGC (IC452, D450, D451) is an amplifier that reduces gain
automatically by greatly increasing the attenuation when the
audio signal of a certain level or higher is present. It controls
the gain so that the audio signal input to the CODEC (IC454)
is not clipped.

IC8
DSP

IC454
CODEC

TX-RX (X57-725 A/5) CONTROL (X57-725 B/5)

IC456
LPF

Scrambler board

IC458
SW

BEEPS/
SCSW

BEEP/
voice announce

IC462
DAC

EXT AFC EXT AFC

IC705
AMP

IC701
SW

INT AFC

Fig. 4 Audio circuit diagram

IC702
AMP

IC703
AMP

INT SP

universal connector
EXT SP

17

TK-5310

CIRCUIT DESCRIPTION

If an optional scrambler board is installed, the switch
(Q454) adjusts the signal path so that the audio signal is input
to the CODEC through the scrambler board.

If the optional VGS-1 (Voice Guide & Storage unit) is
installed, the switch (IC450) will adjust the signal path so that
the audio signal from the microphone is output to the VGS-1
and the audio signal from the VGS-1 is input th the CODEC.

The audio signal is input to the CODEC (base band circuit)
through the above path.

4-2. Base Band Circuit

The base band circuit of the transmitter system consists
of the following:

• CODEC (IC454)

• DSP (IC8)

• LPF (IC456)

• Buffer (IC459)

• DAC (IC462)

•Amplifier (IC463)

The audio signal output from the base band circuit is
converted to digital data of a sampling frequency of 48 kHz
and a quantization resolution of 16 bits by the CODEC
(IC454). This digital data is sent to the DSP (IC8), and voice
signals of 300 Hz or lower and frequencies of 3 kHz or higher
are cut off and an audio range 300 Hz to 3 kHz 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 then output from the CODEC. In P25 mode,
the audio signal is converted to the C4FM base band signal
and output from the CODEC. The DTMF and MSK base band
signals are also generated by the DSP and output by the
CODEC.

LPF (IC456) removes quantization noise from the base
band signal output from the CODEC.

The buffer (IC459) sets the base band signal level to the
DAC input range.

The DAC (IC462) assigns the base band signal to the VCO
(Q107) and VCXO (X100).

At this time, the level output according to the transmit
carrier is fine-adjusted according to the modulation method
of FM Wide, FM Narrow and P25.

4-3. Transmit Signal Amplification Circuit

(From T/R switch to Final amplifier)

The transmit signal passing through the T/R switch
(D200) is amplified to approx. 50 mW by the two transistor
amplification circuits (Q200, Q210). The transmit signal
output from Q210 passes through an attenuator to improve
high-frequency signal matching is amplified by the drive
amplifier (Q202) and applied to the final amplifier (Q205). The
signal applied to the final amplifier is amplified by the final
amplifier so that the antenna output is 4 W (1 W for Low
Power).

4-4. High-Frequency Signal Switch Circuit

(From Antenna switch to ANT output)

The transmit signal output from the final amplifier (Q205)
passes through the antenna switch (D202, D203) and LPF,
and goes into the SPDT switch (IC202, IC203) which changes
the antenna connector (CN204) and the universal connector
(CN205).

The transmit signal passing through the output change
switch passes through the surge protection HPF and
spurious removing LPF and then goes to the antenna
connector (CN204) or the universal connector (CN205),
specified by the SPDT switch (IC202, IC203).

4-5. APC Circuit

The APC circuit detects the current of the drive amplifier
(Q202) and final amplifier (Q204) during transmission and
controls the output power by controlling the current.

It detects the current using R220 and R222 and applies a
drop voltage between both resistors during transmission to
APC (IC201). It controls the transmission current of the drive
amplifier and final amplifier so that it is constant by
comparing this current with the reference voltage output
from pin 7 of IC200. The reference voltage input to pin 5 of
IC200 is output from the DAC (IC462). High/Low power
output is set according to the DAC output voltage.

18

EXT.MIC

MIC(MAIN)

MIC(SUB)

MSW/CTS
MM

IC705

N/C
AMP

Scrambler board

Q454SWIC8

SCSW

MIC

Q455
SW

D450,D451
DET

Q452
SW

VGS-1 VATS

IC450
SW

AGC-AMP
IC452
LPF

Fig. 6 Audio band and Base band circuit

DSP

IC454
CODEC

IC456
LPF

IC459
BUFF

IC462
DAC

IC463
AMP

Q107
VCO

X100
VCXO

CIRCUIT DESCRIPTION

T/R

IC100

V-assist

DC AMP

LE
DAT
CLK

Q109 Q112 D200

to pre-pre-drive

LPF

Q106,Q107

VCO

BUFF BUFF SW

UL CV

IC5

IC101 D308

to 1st mixer

(Q200)

(IC302)

CPU

PLL

Q110,Q111

Doubler

SW

MOD

X100 IC462

VCXO DAC

4-6. Temperature Protection Circuit

The temperature protection circuit reduces the APC
voltage when the temperature of Q204 rises, to prevent
thermal destruction of the final amplifier (Q204). The CPU

D200
T/R SW

Q200
Pre Pre
Drive Amp

Q210
Pre
Drive Amp

Attenuator

Q202

Drive Amp

Fig. 7 Transmitter circuit

TK-5310

(IC5) detects the temperature with a thermistor (TH200) to
control the reference voltage to the APC circuit.

Q204

Final Amp

D202,D203

ANT SW

R220+BR222

IC201
APC

LPF

IC202
SPDT

IC203
SPDT

APC SW

CN204

CN205

5. PLL Frequency Synthesizer

The PLL Frequency Synthesizer consists of the following
components:

• VCXO (X100)

• VCO (Q106, Q107)

• Doubler (Q110, Q111)

• PLL IC (IC101)

• Local switch (D200, D308)

5-1. VCXO (X100)

VCXO (X100) generates a reference frequency of 16.8
MHz for the PLL frequency synthesizer. This reference
frequency is applied to pin 8 of the PLL IC (IC101).

The VCXO oscillation frequency is fine-adjusted by
controlling the voltage applied to pin 1 of the VCXO with DAC
(IC462). It is also controlled with pin 1 of the VCXO if the
output from VCXO is modulated.

5-2. VCO

There is a RX VCO and a TX VCO.

The TX VCO (Q107) generates a transmit carrier and the
RX VCO (Q106) generates a 1st local receive signal.

The oscillation frequency is as follows.

K, K2, and K3 types

Q106 : 400.050 ~ 449.995MHz
Q107 : 450.000 ~ 520.000MHz

K4, K5, and K6 types

Q106 : 330.050 ~ 379.995MHz
Q107 : 380.000 ~ 470.000MHz

The VCO oscillation frequency is determined by one
system of operation switching terminal "T/R" and two
systems of voltage control terminals "C/V" and "V-assist".

The operation switching terminal, "T/R", is controlled by the
control line (T/R) output from the CPU (IC5). When the T/R
logic is low, the VCO (Q107) outputs the transmit carrier and
when it is high, VCO (Q106) outputs a 1st local receive signal.

The voltage control terminals, "CV" and "V-assist", are
controlled by the PLL IC (IC101) and CPU (IC5) and the output
frequency changes continuously according to the applied
voltage. “V-assist” is controlled directly by a microcomputer
to change the VCO oscillation frequency at high speed.
However, its accuracy is low and the VCO frequency cannot
be matched accurately with the desired transmit carrier or
the 1st local receive signal. “CV” is controlled by the PLL and
is used to accurately match (look) the desired frequency of
the VCO oscillation frequency. For the modulation input
terminal, "MOD", the output frequency changes according to

the applied voltage. This is used to modulate the VCO output.
"MOD" works only when "T/R" is low.

5-3. Doubler (Q110, Q111)

The doubler (Q110, Q111) extracts the twice harmonic
component from the signal output from the VCO. This twice
harmonic component is then fed into pin 5 of the PLL IC.

5-4. PLL IC (IC101)

PLL IC compares the differences in phases of the VCO
oscillation frequency and the VCXO reference frequency,
returns the difference to the VCO CV terminal and realizes
the "Phase Locked Loop" for the return control. 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 CPU is used before control by the PLL
IC to bring the VCO oscillation frequency close to the desired
frequency. As a result, the VCO CV voltage does not change
and is always stable at approx. 2.5 V.

The desired frequency is set for the PLL IC by the CPU
(IC5) through the 3-line "LE", "DAT", "CLK" serial bus. Whether
the PLL IC is locked or not is monitored by the CPU through
the “UL” signal line. If the VCO is not the desired frequency
(unlock), the "UL" logic is low.

5-5. Local Switch (D200, D308)

The connection destination of the signal output from the
VCO is changed with the diode switch (D200) that is
controlled by the transmission power supply, 5T, and the
diode switch (D308) that is controlled by the receive power
supply, 5R.

If the 5T logic is high, it is connected to a send-side pre­pre-drive (Q200). If the 5T logic is low, it is connected to a
receive-side mixer (IC302).

Fig. 8 PLL block diagram

19

TK-5310

CIRCUIT DESCRIPTION

6. Control Circuit

The control circuit consists of CPU (IC5) and its peripheral
circuits. It controls the TX-RX unit and transfers data to the
Control unit. IC5 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 squelch on/off by the DC voltage from the

squelch circuit.

5) Controlling the audio mute circuit by decode data input.

6) Transmitting tone and encode data.

6-1. Memory Circuit

Memory circuit consists of the CPU (IC5) and a flash
memory (IC6). A flash memory has a capacity of 16M bits and
contains the transceiver control program for the CPU. It also
stores the data for transceiver channels and operating param­eter that are written by the FPU. This program can be easily
written from an external devices.

The EEPROM (IC3) stores the last channel data, the scan
on status, and other parameters.

■ Flash memory

Note : The flash memory stores the data that is written by

the FPU (KPG-95D), and firmware program (User mode, Test
mode, Tuning mode, etc.). This data must be rewritten when
replacing the flash memory.

■ EEPROM

Note : The EEPROM stores tuning data (Deviation, Squelch,

etc.).
Realign the transceiver after replacing the EEPROM.

■ Real-time clock

The clock function is based on real-time clock IC (IC2).
When the power supply is off, it is backed up by an internal
secondary lithium battery

IC5

CPU

IC3

EEPROM

6-2. LCD (K2, K3, K5 and K6 models only)

The LCD is controlled using the bus lines on the connector

(CN800) of the control unit (X57 B/5).

The LCD contrast voltage is corrected using IC800. The
thermometry result used by the temperature IC (IC1) is
corrected by the CPU (IC5), and the contrast voltage is output
as a pulse ripple from the LCDV terminal (pin 28) of the CPU.
The filter then smoothens the voltage which in turn is input
into pin 3 of IC800.

6-3. Temperature Detection Circuit

The temperature detection circuit detects the
temperature using a temperature IC (IC1) and corrects the
thermal characteristic change of the squelch or LCD.

6-4. Key Detection Circuit

Keys are detected using three shift registers (IC801,
IC802, IC803).

The KIN signal that is normally pulled down goes high
when any key is pressed.

6-5. Low Battery Warning

The battery voltage is divided using R22 and R23 and is
detected by the CPU (IC5). 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

transmission. the transceiver is still usable.

The red LED blinks and The battery voltage is low and

the warning tone beeps while the transceiver is not usable to

the PTT switch is pressed. make calls.

6-6. Battery Type Detection

The transceiver automatically detects the battery type,
measuring the resistance between the S-terminal and GND
terminal on the battery pack and changes the supplied
voltage to the S-terminal as below. The microprocessor then
detects the battery type.

20

IC5

CPU

IC8

DSP

IC457
FPGA

IC454

CODEC

FLASH

IC6

Fig. 9 Memory circuit

9.216MHz

9.216MHz

IC453

(2/3,3/3)

18.432MHz

18.432MHz

Fig. 10 Clock diagram

IC455

IC453

(1/3)

X450

VCXO

18.432MHz

Battery type Input voltage of S-terminal Resistor value

Battery case 0~0.2V Short

Li-ion battery 0.85~1.02V 47 kΩ

Ni-Cd battery 3.23~3.37V Open

Ni-MH battery 1.71~1.95V 150 kΩ

6-7. VOX

The VOX function can be used only with an external
microphone.

The VOX (Voice Operated Transmission) function detects
voice input to the microphone and automatically switches
between transmission and reception. However, if a
scrambler board is installed (Extended Function Voice
Scrambler is selected with FPU), VOX does not operate.

CIRCUIT DESCRIPTION

TK-5310

If the microphone input exceeds a certain level,
transmission automatically begins. If the input falls below a
certain level, the transceiver automatically returns to receive
mode.

The transceiver realizes this function using DSP (IC8).

6-8. DSP

The DSP circuit consists of a DSP (IC8), a CODEC (IC454)
and processes the base band signal. The DSP operates on an
external clock of 9.216MHz (the same as the CPU), the I/O
section operates at 3.3V and the core section operates at

1.5V. The DSP carries out the following processes:

• C4FM encoding

• Analog FM pre-emphasis/de-emphasis

• Vocoder (IMBE) processing between audio codec and

modulation/demodulation

• CAI processing, such as error correction encoding

• QT/DQT encoding/decoding

• DTMF encoding/decoding

• MSK encoding/decoding

• 2-tone encoding/decoding

• Compressor/expander processing

• Transmit/receive audio filtering processing

• VOX processing

•Microphone amplifier AGC processing

• Audio mute processing

•Modulation level processing

6-9. FPGA

The FPGA(IC457) I/O section operates at 3.3V. and the core
section operates at 2.5V. The FPGA has the following function.

• Demodulation (C4FM,CQPSK)

• Shift register(8CH)

• Level convert Buffer amplifier(5V➝3.3V)(9CH)

• Generates 1.536MHz for the demodulation and CODEC.

7. Power Supply Circuit

The power supply voltage (+B) is supplied from the
battery terminal of the TX-RX unit (X57 A/5) and is then
passed through the fuse (F600).

If +B voltage is detected by the voltage detection IC
(IC706) and it is above 5.6V, then the 3V regulator (IC704) CE
pin becomes high and the 3.0V power source turns ON.
Additionally, when the VOL SW is ON, the 3.6V DC/DC
converter (IC710) CE pin becomes high and the 3.6V power
source turns ON.

The output from the 3.6V DC/DC converter (IC710)
provides the power source for three regulators (IC707,
IC708, IC711) and the 1.5V DC/DC converter (IC709).

The voltage output from the 1.5V DC/DC converter
(IC709) is detected by the 33A SW (Q712).

When the CE pin of the 3.3V regulator (IC708) is high, the
33A power source turns on.

When the 3.6V power source turns on, the 5V regulator
(IC712) CE pin becomes high and 5M is supplied with the
power source.

The three regulators (IC707, IC708, IC711) and the DC/DC
converter (IC709) start the CPU, DSP, FPGA, etc. After the
CPU starts up, it begins controlling two regulators (IC601,
IC600) with the 5CC and PWR signals.

When the Power SW (Q602) is turned on with the PWR
signal, the 15V DC/DC converter (IC713) starts up. IC712,
IC601, and IC600 is supplied from +B.

The output from IC600 is switched between 5R (which is
turned on while receiving) and 5T (which is turned on while
transmitting), and is controlled by the CPU.

The output from of the 5V regulator (IC610) is controlled by
Q604 and is used as a power source for 5MCS, for an optional
accessory which is connected to the universal connector.

Drive, Final AMP

+B

33M

33A

28M

15D

25D

15V

Q604

5M CS SW

5MC

5C

Q601
5R SW

CE

5RC

Q600
5T SW

CE

5TC

DC/DC, AVR

CPU, FlashROM,
EEPROM, VCXO,

FPGA (I/O)

DSP (I/O)

RTC

DSP (Core)

FPGA (Core)

LCD
VCO

5M

5MCS

5R

5T

F600

3A Fuse

BATT

+B

CE

IC704
AVR IC

CE

VOL
SW

Q713

Detect

IC706

Detect

Q602

Power

SW

IC5

CPU

SW

SB

PWR

IC710

DC/DC

3.6V

Q712

33A SW

5CC

IC707
AVR IC

CE

IC708

AVR IC

CE

IC709

DC/DC

CE

IC711

AVR IC

CE

IC713

DC/DC

CE

IC712

AVR IC

CE

CE

IC610

AVR IC

IC601

AVR IC

CE

IC600
AVR IC

CE

Fig. 11

8. Signaling Circuit

8-1. Encode (QT/DQT/DTMF/2-tone/MSK)

Each signaling data signal of QT, DQT, DTMF, 2-tone and
MSK is generated by the DSP circuit, superposed on a modu­lation signal and output from pin 16 of the CODEC (IC406).

The modulation balance of the QT/DQT signal is adjusted
by the D/A converter(IC411) and the resulting signal is routed
to the modulation input of the VCO and VCXO (X301).

The each deviation of the TX QT, DQT, DTMF, 2-tone and
MSK tone is adjusted by changing the output level of the
CODEC and the resulting signal is routed to VCO and VCXO.
The RX DTMF tone is output from pin 15 of the CODEC,
passes through the receive audio signal system, and is out­put from the speaker.

8-2. Decode (QT/DQT/DTMF/2-tone/MSK)

The audio signal is removed from the FM detection signal
sent to the DSP circuit and the resulting signal is decoded.

9. Compander Circuit

The term “compander” means compressor and expander.
The compander reduces noise by utilizing a compressor and
an expander.

The transceiver contains DSP(IC8) to perform this opera­tion. The transceiver compander can be turned on or off using
the FPU.

21

TK-5310

SEMICONDUCTOR DATA

CPU:30625MGP346HU (TX-RX unit IC5)

Pin

Port Name I/O Function

No.

1 BATT DET I(A/D) Battery detection terminal
2 NC(ANEX0) I NC (For expansion A/D)
3 ASSIST O

4 VOICE O
5 SOE O Shift register OE
6ULIPLL unlock input

7DAT O Common data
8 CLK O Common clock
9 SDA I/O EEPROM data

10 BYTE I Use as 8bit data bus (Vcc)
11 CNVSS I Use as memory expansion mode (Vss)
12 STRB O Shift register CS

13 NC - No connection
14 RESET I Reset input
15 XOUT - No connection

16 VSS1 - Power supply input
17 XIN - Clock input, 9.216MHz(18.432MHz/2)
18 VCC1 - Power supply input

19 NMI I NC
20 RTCDT I/O RTC data I/O
21 PSW I

22 INTRA I
23 LD O DAC LD
24 BEEP

25 LE O PLL CS
26 BSFT O Beat shift output

27 KEY/PLAY I TX key input (for ANI board),

28 LCDV O LCD contrast adjustment

29 INH I Audio inhibit input (for ANI board),
30 AUXI I AUX input (for ANI board),
31 TCNT I Tone control input (for ANI board),

32 BEEPS O Beep switch(L:Unmute, H:Mute)
33 TXD1
34 VCC1 - Power supply input

35 RXD1 I
36 VSS2 - Power supply input
37 BUSY I BUSY input(for VGS)

38 RTSM/EXTO O UART(3.3V➔5V)/External option

39 TXDM

40 RXDM I
41 DSRM I UART(5V➔3.3V)
42 CTSM I UART(5V➔3.3V)

43 A20 O Flash memory A19
44 KES O Key counter CS
45 KIN I Key counter return

46 MODEL I Model detection
47 RDY I Bus control (Ready)
48 ALE - No connection

49 HOLD I Bus control (Hold)

(D/A)

VCO control

(D/A)

Voice output

(INT1)

Power switch detection

(L:Power on, H:Power off)

(INT0)

RTC interrupt input

O

(PWM)

Beep output

(L:Shift, H:Not shift)

Play Input (for VGS)

O

(UART)

UART(for VGS)

(UART)

UART(for VGS)

output port to universal connector

O

(UART)

UART(3.3V➔5V)

(UART)

UART(5V➔3.3V)

Pin

Port Name I/O Function

No.

50 HLDA - No connection
51 WN O Wide/Narrow ceramic filter switching

(L:Narrow, H:Wide)

52 VN O Wide,Narrow/P25 ceramic filter

switching (L:P25, H:Analog)

53 EXTIM I External option control port from

universal connector

54 SCSW O When the scrambler board is installed,

the route of AF is changed.

(L:Scrambler on, H:off)
55 BCLK O Bus control (Base clock output)
56 RD O Bus control (Read)

57 BHE - No connection
58 WR O Bus control (Write)
59 TGL0 I Lever switch input 0

60 TGL1 I Concentric switch input 1
61 TGL2 I Concentric switch input 2
62 CS3 O LCD CS

63 CS2 O Flash memory CS
64 CS1 O DSP CS
65 CS0 O Flash memory CS

66 A19 O Address bus 19
67 A18 O Address bus 18
68 A17 O Address bus 17

69 A16 O Address bus 16
70 A15 O Address bus 15
71 A14 O Address bus 14

72 A13 O Address bus 13
73 A12 O Address bus 12
74 A11 O Address bus 11

75 A10 O Address bus 10
76 A9 O Address bus 9
77 INAFC O Internal AF control (L:Off, H:On)

78 CH_A I Rotary switch input 1
79 CH_B I Rotary switch input 2
80 CH_C I Rotary switch input 3

81 CH_D I Rotary switch input 4
82 VCC2 - Power supply input
83 A8 O Address bus 8

84 VSS3 - Power supply input
85 A7 O Address bus 7
86 A6 O Address bus 6

87 A5 O Address bus 5
88 A4 O Address bus 4
89 A3 O Address bus 3

90 A2 O Address bus 2
91 A1 O Address bus 1
92 A0 O Address bus 0

93 EXAFC O External AF Control (L:Off, H:On)
94 HINT I(INT4) DSP HINT interrupt
95 INT3 - Not used

96 PTT I PTT input
97 EXSP I External speaker install check
98 DRST O DSP reset output

22

SEMICONDUCTOR DATA

TK-5310

Pin

Port Name I/O Function

No.

99 FRST O Flash memory reset output
100 NC O No connection
101 D7 I/O Data bus 7

102 D6 I/O Data bus 6
103 D5 I/O Data bus 5
104 D4 I/O Data bus 4

105 D3 I/O Data bus 3
106 D2 I/O Data bus 2
107 D1 I/O Data bus 1

108 D0 I/O Data bus 0
109 5TC O 5T control (L:Off, H:On)
110 5RC O 5R control (L:Off, H:On)

111 5CC O 5C control (L:Off, H:On)
112 APCSW O APC switch output (L:Off, H:On)
113 CAE3 I Man-down switch input

114 VU I V/U detection
115 MM O MIC mute output (L:Unmute, H:Mute)
116 PWR O Power control output

(L:Power off, H:Normal)
117 WPA I(A/D) PA temperature compensation
118 SQ I(A/D) Analog SQ input

119 CV I(A/D) VCO CV input
120 RSSI I(A/D) RSSI input
121 TEMP I(A/D) Temperature input

122 BATT I(A/D) Battery level input
123 REM I(A/D) KMC-25 PF1/PF2 key, KVL3000 input
124 AVSS -

125 VOL I(A/D) Volume level input
126 VREF - A/D converter reference voltage input

127 AVCC - A/D converter power supply input

128 T/R O TX/RX switch (L:TX, H:RX)

A/D converter power supply input terminal

terminal

terminal

Shift Register:BU4094BCFV (TX-RX unit IC606)

Pin

Port Name I/O Function

No.

1 STRB I Latch clock input
2 DATA I Serial data input

3 CLK I Serial clock input
4Q1OOPT5
5Q2OOPT4

6Q3OOPT1
7Q4 OOP_MAN
8 VSS - GND

9QSOSerial data output
10 Q'S O NC
11 Q8 O OPT6

12 Q7 O OPT2
13 Q6 O CHGIO:UNIV 9p I/O Switching
14 Q5 O OPT3

15 OE I Output enable control input
16 VDD - Power supply input

Shift Register:BU4094BCF (Control unit IC801)

Pin

Port Name I/O Function

No.

1 STRB I Latch clock input
2 DATA I Serial data input
3 CLK I Serial clock input

4-7 Q1-Q4 O Key counter

8 VSS - GND
9QSOSerial data output

10 Q’S O NC

11-14 Q8-Q5 O Key counter

15 OE I Output enable control input

16 VDD - Power supply input

Shift Register:BU4094BCF (Control unit IC802)

Pin

Port Name I/O Function

No.

1 STRB I Latch clock input

2 DATA I Serial data input
3 CLK I Serial clock input

4-7 Q1-Q4 O Key counter

8 VSS - GND
9QSOSerial data output

10 Q’4 O NC

11-14 Q8-Q5 O Key counter

15 OE I Output enable control input
16 VDD - Power supply input

Shift Register:BU4094BCF (Control unit IC803)

Pin

Port Name I/O Function

No.

1 STRB I Latch clock input
2 DATA I Serial data input
3 CLK I Serial clock input

4-7 Q1-Q4 O Key counter

8 VSS - GND
9OS ONC

10 NC O NC
11 Q8 O Audio amplifier switch
12 Q7 O Backlight switch

13 Q6 O TX LED switch
14 Q5 O Busy LED switch
15 OE I Output enable control input

16 VDD - Power supply input

23

TK-5310

COMPONENTS DESCRIPTION

TX-RX unit (X57-7250-XX A/5)

Ref. No. Part name Description

IC1 IC Temperature DET
IC2 IC RTC IC
IC3 IC EEPROM
IC4 IC Voltage DET
IC5 IC CPU
IC6 IC FLASH ROM
IC7 IC CS AND

IC8 IC DSP
IC100 IC DC AMP for VCO tune
IC101 IC PLL IC
IC200 IC DC AMP
IC201 IC Auto Power Control

IC202,203 IC SPDT
IC300,301 IC DC AMP for BPF

IC302 IC DBM
IC303 IC Multiplexer
IC304 IC FM IC

IC305~307 IC Multiplexer

IC308 IC Buffer
IC450 IC Switch (VGS TX I/O)
IC451 IC OP AMP (5V reference/SQL AMP)
IC452 IC OP AMP (TX AGC AMP/Buffer AMP)
IC453 IC D-type flip flop
IC454 IC CODEC
IC455 IC Buffer
IC456 IC OP AMP (TX LPF/RX LPF)
IC457 IC FPGA
IC458 IC Switch (RX scrambler SW/BEEP SW)
IC459 IC
IC460 IC Switch (VGS RX I/O)
IC461 IC RX summing AMP
IC462 IC D/A Converter
IC463 IC
IC600 IC Voltage regulator (5T/5R)
IC601 IC Voltage regulator (5C)
IC602 IC Multiplexer
IC603 IC Buffer

IC604,605 IC UART switch

IC606 IC Shift register
IC607 IC Bus switch (8ch)

IC608,609 IC Bus switch (2ch)

IC610 IC Voltage regulator (5MCS)

Q100 Transistor Ripple filter
Q101 FET S33A switch
Q102 FET Switch
Q103 FET Buffer for CV
Q104 Transistor Ripple filter
Q105 FET T/R switch

Q106,107 Transistor VCO oscillation

Q108 FET T/R switch

Q109~112 Transistor Buffer AMP

Q200 Transistor RF AMP
Q202 FET RF driver AMP
Q203 FET APC switch
Q204 FET RF final AMP

24

OP AMP (TX buffer AMP/RX buffer AMP)

OP AMP (TX MOD AMP/3.3V reference)

Ref. No. Part name Description

Q205 Transistor 3.3V➝5V level converter
Q206 FET APC switch
Q207 Transistor APC switch
Q208 FET APC switch
Q209 FET SPDT EXT/INT switch
Q210 Transistor RF AMP
Q300 Transistor Ripple filter
Q301 FET LNA (Low Noise AMP)
Q302 FET IF AMP
Q303 Transistor 2nd local buffer AMP
Q304 Transistor W/N switch

Q450,451 Transistor Auto gain control

Q452 FET MIC mute switch
Q453 FET VGS I/O switch
Q454 FET TX scrambler switch
Q455 FET EXT MIC switch
Q456 FET TX scrambler switch
Q457 FET EXT MIC switch
Q459 FET Beat shift switch
Q460 Transistor Noise AMP
Q461 FET VGS I/O switch
Q600 FET 5T switch
Q601 FET 5R switch
Q602 FET SB switch
Q603 FET 5M switch
Q604 FET 5M switch
Q605 FET 5V➝3.3V level converter
Q606 FET Switch

D1 Diode Reverse current prevention

D102

D104~112

D113,114 Diode Feedback filter switch

D115

D116,117 Diode Feedback filter switch

D118 Diode 5C voltage rise
D119 Diode Bypass diode
D200 Diode Local switch
D201 Zener diode Voltage protection

D202~205 Diode Antenna switch

D206,207 Varistor Surge absorption
D301,302

D304~307

D308 Diode Local switch

D450,451 Diode Detection

D452 Diode Reverse current prevention
D453 Diode Detection

D454,455 Diode Reverse current prevention

D600 Diode Reverse current prevention
D601,602 Varistor Surge absorption
D609,611 Diode Surge absorption

Variable
capacitance diode
Variable
capacitance diode

Variable
capacitance diode

Variable
capacitance diode
Variable
capacitance diode

Frequency control

Frequency control

FM modulation

Vari-cap tune

Vari-cap tune

COMPONENTS DESCRIPTION

TK-5310

Control unit (X57-7250-XX B/5)

Ref. No. Part name Description

IC701 IC AF mute switch

IC702,703 IC Audio AMP

IC704 IC Voltage regulator (28M)
IC705 IC OP AMP (AF Pre-AMP/TX AF AMP)
IC706 IC Voltage detector (5.6V)
IC707 IC Voltage regulator (33M)
IC708 IC Voltage regulator (33A)
IC709 IC DC/DC converter (15D)
IC710 IC DC/DC converter (36M)
IC711 IC Voltage regulator (25D)
IC712 IC Voltage regulator (5M)
IC713 IC DC/DC converter (15V)
IC800 IC DC AMP for LCD voltage

IC801~803 IC Shift register

Q700 FET 5A AVR switch
Q701 Transistor 5A AVR switch

Q702 Transistor 5A AVR
Q703,704 FET External audio mute switch
Q705,706 FET Internal audio mute switch

Q708 FET EXT/INT gain convert switch

Q709 Transistor Noise canceler switch

Q710 FET Switch (36M DC/DC)

Q711 FET Switch (15V DC/DC)

Q712 FET DSP power supply timing control

Q713 FET DC/DC converter (36M) control
Q800,801 Transistor switch (backlight)

Q802 FET PSW switch

Q803 FET Busy LED switch

Q804 FET TX LED switch
D700,701 diode Reverse current prevention

D702 diode Surge absorption

D703 diode Reverse current prevention

D704 diode flywheel (DC/DC)

D705~708 diode Reverse current prevention
D800~803 LED Key backlight

D804,805 diode Reverse current prevention

D806~809 LED Key backlight
D810~812 LED LCD backlight

D813,814 diode Reverse current prevention

D815 Zener diode AVR for backlight LED

D816~818 diode Reverse current prevention

Top Panel unit (X57-7250-XX C/5)

Ref. No. Part name Description

D901 LED TX/RX LED

25

TK-5310

PARTS LIST

CAPACITORS

1 = Type ... ceramic, electrolytic, etc.

2 = Shape ... round, square, ect.

3 = Temp. coefficient

Temperature coefficient

1st Word

Color*

ppm/

Tolerance (More than 10pF)

Code

(%)

Voltage rating

1st word

Black Red Orange Yellow Green Blue Violet

0 -80 -150 -220

C

0.25 0.5 2 5 10 20

2nd word

0

1

2

3

CC 45

1

1

2

LCPRSTU

DG J KMX Z P

A

BCD EF

1.0

1.25

10

12.5

100

125

1000

1250

TH 1H J220

3

4

5

4 = Voltage rating

5 = Value

6 = Tolerance

2.0

1.6

20

16

200

160

2000

1600

6

-330 -470 -750

+ 40

+ 80

- 40

- 20

3.15

2.5

31.5

25

315

250

3150

2500

CC45

+ 100

-0

G

4.0

40

400

4000

Color*

2nd Word HG

ppm/

Example : CC45TH = -470

No code

More than 10µF -10 +50

Less than 4.7µF -10 +75

H

J

5.0

6.3

50

63

500

630

5000

6300

Capacitor value

010 = 1pF

100 = 10pF

101 = 100pF

102 = 1000pF = 0.001µF

103 = 0.01µF

30 60

K

V

8.0

-

80

35

800

-

8000

-

22

JKL

120 250 500

60ppm/

(Less than 10pF)

Gode

(pF)

CD FGB

0.1 0.25 0.5 1 2

0 = 22pF

Multiplier

2nd number

1st number

Chip capacitors

(EX) C C 7 3 F S L 1 H

(Chip)(CH,RH,UJ,SL)

(EX) C K 7 3 F F 1 H

(Chip)(B,F)

RESISTORS

Chip resistor (Carbon)

(EX) R D 7 3 E B 2 B

(Chip)(B,F)

Carbon resistor (Normal type)

(EX) R D 1 4 B B

1 = Type

2 = Shape

3 = Dimension

4 = Temp. coefficient

2C

000

000

000

000

J

7654321

Z

7654321

J

7654321

J

7654321

5 = Rating wattage

6 = Value

7 = Tolerance

Refer to the table above.

1 = Type

2 = Shape

3 = Dimension
4 = Temp. coefficient

5 = Voltage rating
6 = Value

7 = Tolerance

Dimension (Chip capacitors)

Dimension code L W T

Empty

A

B

C

D
E

F

G

H

Dimension

Dimension (Chip resistor)

Dimension code L W T

E

F

G

H

Rating wattage

Wattage

Code

1/16W

1J

1/10W

2A

1/8W

2B

5.6

4.5

4.5

4.5

3.2

3.0

2.0

1.6

1.0

W

3.2

2.0

1.6

1.0

Code

2C

2E
2H

L

0.5

0.5

0.5

0.5

0.4

0.2

0.3

0.2

0.05

0.2

0.3

0.2

0.05

Wattage

1/6W

1/4W
1/2W

5.0

3.2

2.0

1.25

2.5

1.6

1.25

0.8

0.5

1.6

1.25

0.8

0.5

Code

0.5

0.4

0.3

0.2

0.3

0.2

0.2

0.2

0.05

T

0.2

0.2

0.2

0.05

3A

3D

Less than 2.0

Less than 2.0

Less than 2.0

Less than 1.25

Less than 1.5

Less than 1.25

Less than 1.25

Less than 1.0

0.35

Wattage

1W

2W

0.5

0.5

0.05

1.0

1.0

0.1

0.05

2626

PARTS LIST

TK-5310

New Parts. indicates safety critical components.

∗

Parts without Parts No. are not supplied.
Les articles non mentionnes dans le Parts No. ne sont pas fournis.
Teile ohne Parts No. werden nicht geliefert.

TK-5310 (Y50-6060-XX)

Ref. No.

Address

Parts No. Description

parts

Destination Destination

New

TK-5310

11A A02-3875-01 MAIN CABINET K,K4
21D A02-3877-11 MAIN CABINET(4KEY) K2,K5
31D∗ A02-3879-11 MAIN CABINET(DTMF) K3,K6
4 3A,3C ∗ A10-4084-31 CHASSIS
5 2B,2D A62-1104-02 PANEL(TOP)

6 3A,3C A82-0057-02 REAR PANEL
7 2B,2D B03-3612-04 DRESSING PLATE(16CH)
8
9 2B,2D B11-1821-03 ILLUMINATION GUIDE(TX-BUSY)
10 1C B11-1832-04 FILTER(LCD) K2,K3,K5

10 1C B11-1832-04 FILTER(LCD) K6
11 1C ∗ B38-0891-15 LCD ASSY K2,K3,K5
11 1C ∗ B38-0891-15 LCD ASSY K6
12 3A,3C B41-1841-04
13 1B,1D B43-1171-04 BADGE(FRONT)

14 2B,2D B43-1172-04 BADGE(REAR)
15 2E B59-2393-00
16 2E ∗ B59-2439-00
17 2E ∗ B59-2448-00
18 2E ∗ B62-1972-00

20 3A ∗ B72-2418-04 MODEL NAME-PLATE K
21 3C ∗ B72-2419-04 MODEL NAME-PLATE K2
22 3C ∗ B72-2420-04 MODEL NAME-PLATE K3
23 3A ∗ B72-2421-04 MODEL NAME-PLATE K4
24 3C ∗ B72-2422-04 MODEL NAME-PLATE K5

25 3C ∗ B72-2423-04 MODEL NAME-PLATE K6
27 2A,2C E37-0722-05 LEAD WIRE WITH CONNECTOR(UNIV)
28 2B,2D E37-1126-15 LEAD WIRE WITH CONNECTOR(ANT)
29 2C E37-1128-05 FLAT CABLE(CN613-CN800) K2,K3,K5
29 2C E37-1128-05 FLAT CABLE(CN613-CN800) K6

30 3A,3C E58-0510-05 RECTANGULAR RECEPTACLE(UNIV)
31 3A,3C E72-0420-33 TERMINAL BLOCK(BATT+)
32 3A,3C F07-1887-12 COVER ASSY
33 2A,2C F10-2499-12 SHIELDING PLATE(TX-RX PCB)
34 3A,3C G10-1327-04 FIBROUS SHEET(AIR)

35 1B,1D G10-1338-04 FIBROUS SHEET(SP)
36 3A,3C ∗ G10-1366-04 FIBROUS SHEET
37 1C G11-4302-04 SHEET(LCD) K2,K3,K5
37 1C G11-4302-04 SHEET(LCD) K6
38 3A,3C G11-4303-14 SHEET(PTT)

39
40 - G11-4346-08 SHEET(UNIV)
41 1A,1C G13-2036-04 CUSHION(MIC)
42
43 1A,2C, G13-2070-04 CUSHION(CORD ASSY)

44 2A,2C G13-2071-04 CONDUCTIVE CUSHION(CHASSIS/PCB)
45 2B,2D G13-2079-04 CUSHION(VOL)
46 1C G13-2087-04 CUSHION(LCD) K2,K3,K5
46 1C G13-2087-04 CUSHION(LCD) K6
47 2B,2D G53-1628-04 PACKING(VOL TORQ-UP)

48 2B,2D G53-1629-05 PACKING(VOL,CH O-RING)
49 2B,2D G53-1630-05 PACKING(ANT O-RING)

1B,1D,2E

1B,1D,2E

3A,2C,3C

3A,3C

B09-0682-13 CAP(SP/MIC) ACCESSORY

CAUTION STICKER(HUMAN BODY PROTECTION)

SUB-INSTRUCTION MANUAL(QRC/ENGLISH)
SUB-INSTRUCTION MANUAL(QRC/FRENCH)
PAMPHLET(HUMAN BODY PROTECTION)
INSTRUCTION MANUAL(ENGLISH/FRENCH)

G11-4340-04 RUBBER SHEET(CAP) ACCESSORY

G13-2046-04 CUSHION(UNIV)

L:

Scandinavia

Y:

PX (Far East, Hawaii)

Y:

AAFES (Europe)

Ref. No.

50 2B,2D G53-1631-05 PACKING(LEVER SW O-RING)
51 1B,1D G53-1633-04 PACKING(SP)
52 1B,1D, G53-1634-14 PACKING(MAIN MIC,NC MIC)

53 2A,2C G53-1637-04 PACKING(CHASSIS-FRONT)
54 2B,2D G53-1638-04 PACKING(CHASSIS-TOP)
55 3A,3C G53-1640-03 PACKING(BATT)
56 3A,3C G53-1649-05 PACKING(BATT- O-RING)
57 3A,3C G53-1663-23 PACKING(TERMINAL BLOCK)

59 3F ∗ H52-2174-02 ITEM CARTON CASE
60 1C J19-5475-12 HOLDER(LCD) K2,K3,K5
60 1C J19-5475-12 HOLDER(LCD) K6
61 2B,2D J19-5477-04 HOLDER(EMG)
62 2B,2D ∗ J21-8482-13 MOUNTING HARDWARE(TOP)

63 2B,2D J21-8483-03 MOUNTING HARDWARE(SP)
64 3A,3C J21-8484-04 MOUNTING HARDWARE(NC MIC)
65 2B,2D ∗ J21-8581-04 MOUNTING HARDWARE(LEVER SW)
66 2B,2D J21-8495-04
67 2E ∗ J29-0730-05 BELT CLIP ACCESSORY

68 2B,2D J39-0646-03 SPACER(VOL)
69 2B,2D J39-0647-03 SPACER(16CH)
70 2B,2D J82-0096-05 FPC(VOL/CH)
71 3A,3C J82-0097-25 FPC(UNIV)
72 2B,2D J82-0098-05 FPC(SP/MIC)

73 2A,2C J82-0104-05 FPC(CONTROL-TOP)
74 3A,3C J99-0377-14 ADHESIVE SHEET(PTT)
75 3A,3C J99-0380-04 ADHESIVE SHEET(ANT PCB)
76 2A,2C J99-0381-04 ADHESIVE SHEET(CONTROL-TOP FPC)
77 1B,1D J99-0383-14 ADHESIVE SHEET(SP)

78 1C J99-0390-04 ADHESIVE SHEET(LCD FILTER) K2,K3,K5
78 1C J99-0390-04 ADHESIVE SHEET(LCD FILTER) K6
80 2B,2D K29-9319-03 KEY TOP(EMG)
81 1D K29-9320-03 KEY TOP(4KEY) K2,K5
82 1C K29-9321-13 KEY TOP(DTMF) K3,K6

83 2B,2D K29-9322-03 KNOB(VOL)
84 2B,2D K29-9323-03 KNOB(16CH)
85 2B,2D K29-9324-13 KNOB(CONCENTRIC SW)
86 2B,2D K29-9325-04 KNOB(LEVER SW)
87 1A,1C K29-9327-03 KEY TOP(PTT)

88 1A,1C K29-9328-02 KNOB(PTT)

A
B 2B,2D N09-2439-25 SPECIAL SCREW(SP)
C 3A,3C N09-2440-15 SPECIAL SCREW(CASE)
D 3A,3C N09-2441-15 SPECIAL SCREW(COVER ASSY)
E 2B,2D N09-2442-15 SPECIAL SCREW(ANT)

F 3A,3C ∗ N09-2443-14 HEXAGON HEAD SCREW(BATT-)
H 2B,2D N14-0813-14 CIRCULAR NUT(VOL)
I 2B,2D ∗ N14-0814-14 CIRCULAR NUT(CH)
J 2B,2D N14-0815-04 CIRCULAR NUT(ANT)
K 2B,2D ∗ N14-0817-14 HEXAGON NUT(LEVER SW)

M2E N30-3008-60
N 2B,2D N32-2004-48 FLAT HEAD MACHINE SCREW(TOP)
P 1A,1C, N83-2005-48

Address

2A,2C

1B,1D,2E

2A,2C

K:

USA

T:

England

X:

Australia

New

Parts No. Description

parts

N08-0531-14 DRESSED SCREW(CAP) ACCESSORY

P:

Canada

E:

Europe

M:

Other Areas

MOUNTING HARDWARE(LEVER SW PANEL SIDE)

PAN HEAD MACHINE SCREW(BELT CLIP)

PAN HEAD TAPTITE SCREW(CONT/TXRX)

27

TK-5310

TK-5310
TX-RX UNIT (X57-7250-XX)

Ref. No. Parts No. Description

Q 2B,2D N83-2006-43 PAN HEAD TAPTITE SCREW(TOP)

Address

New

parts

PARTS LIST

Destination Destination

Ref. No. Parts No. Description

C131 CK73HB1C103K CHIP C 0.010UF K

Address

New

parts

90 3B,3D R31-0654-05 VARIABLE RESISTOR(VOL)
91 3B,3D S60-0431-05 ROTARY SWITCH(CH)
92 1C S79-0454-05 KEYBOARD ASSY(4KEY,DTMF) K2,K3,K5
92 1C S79-0454-05 KEYBOARD ASSY(4KEY,DTMF) K6
93 1B,1D T07-0755-15 SPEAKER

94 2A,2B, T91-0575-05 MIC ELEMENTT(MAIN MIC,NC MIC)

2C,2D
95 1C W09-0971-05 LITHIUM CELL
96 3A,3C X41-3690-10 SWITCH UNIT(FPC(PTT))
97 1A,2C X42-3270-10 CORD ASSY(FPC(50PIN))

TX-RX UNIT (X57-7250-XX)

-10 :K -11 :K2 -12 :K3 -13 :K4 -14 :K5 -15 :K6

D800-803 B30-2171-05 LED K3,K6
D800,801 B30-2171-05 LED K2,K5
D806-809 B30-2171-05 LED K3,K6
D810-812 B30-2261-05 LED K2,K3,K5
D810-812 B30-2261-05 LED K6

D901 B30-2019-05 LED(RE/GR)

C1 CK73HB1A104K CHIP C 0.10UF K
C2 CK73HB1C103K CHIP C 0.010UF K
C3 CK73HB1A104K CHIP C 0.10UF K
C5 CK73HB1A104K CHIP C 0.10UF K
C6 -8 CK73HB1H471K CHIP C 470PF K

C10 ,11 CK73HB1A104K CHIP C 0.10UF K
C12 CK73HB1H471K CHIP C 470PF K
C13 CC73HCH1H470J CHIP C 47PF J
C14 CK73HB1C103K CHIP C 0.010UF K
C15 CK73HB1A104K CHIP C 0.10UF K

C17 CK73HB1A104K CHIP C 0.10UF K
C18 ,19 CK73HB1H471K CHIP C 470PF K
C20 CK73HB1A104K CHIP C 0.10UF K
C22 CK73HB1A104K CHIP C 0.10UF K
C23 CK73HB1C103K CHIP C 0.010UF K

C24 CK73GB0J475K CHIP C 4.7UF K
C25 -27 CK73HB1C103K CHIP C 0.010UF K
C28 CK73GB0J475K CHIP C 4.7UF K
C29 ,30 CK73HB1C103K CHIP C 0.010UF K
C32 -35 CK73HB1C103K CHIP C 0.010UF K

C38 CK73HB1C103K CHIP C 0.010UF K
C101 CK73HB1A104K CHIP C 0.10UF K
C102,103 CC73HCH1H470J CHIP C 47PF J
C105 CC73HCH1H470J CHIP C 47PF J
C106,107 CK73HB1H471K CHIP C 470PF K

C108 CK73HB1A104K CHIP C 0.10UF K
C109 CK73GB1E105K CHIP C 1.0UF K
C110 CK73HB1H471K CHIP C 470PF K
C111 CK73GB1E105K CHIP C 1.0UF K
C114,115 CK73HB1A104K CHIP C 0.10UF K

C116,117 CK73HB1C103K CHIP C 0.010UF K
C118 CK73HB1H471K CHIP C 470PF K
C122 CC73HCH1H470J CHIP C 47PF J
C125 CK73GB1C104K CHIP C 0.10UF K
C126 C93-0787-05 CERAMIC 0.1UF 50WV

C127 CK73HB1H471K CHIP C 470PF K
C128 CC73HCH1H470J CHIP C 47PF J
C129 CK73HB1C103K CHIP C 0.010UF K
C130 CC73HCH1H470J CHIP C 47PF J

C132 CK73HB1H471K CHIP C 470PF K
C135,136 CK73HB1C103K CHIP C 0.010UF K
C137,138 CC73HCH1H101J CHIP C 100PF J
C139 CK73HB1C103K CHIP C 0.010UF K
C140 C92-0863-05 CHIP TNTL 0.047UF 35WV

C141 CK73HB1H471K CHIP C 470PF K
C142 ∗ CS77AA1VR47M CHIP TNTL 0.47UF 35WV
C143 CK73HB1H471K CHIP C 470PF K
C144 CS77CP0J100M CHIP TNTL 10UF 6.3WV
C145 CK73HB1H471K CHIP C 470PF K

C147 CK73GB0J475K CHIP C 4.7UF K
C148 CK73HB1H471K CHIP C 470PF K
C149 CC73HCH1H150J CHIP C 15PF J K,K2,K3
C149 CC73HCH1H390J CHIP C 39PF J K4,K5,K6
C150 CC73HCH1H0R5B CHIP C 0.5PF B K,K2,K3

C150 CC73HCH1H010B CHIP C 1.0PF B K4,K5,K6
C151 CC73HCH1H220J CHIP C 22PF J K,K2,K3
C151 CC73HCH1H270J CHIP C 27PF J K4,K5,K6
C152 CC73HCH1H2R5B CHIP C 2.5PF B
C153 CK73HB1H471K CHIP C 470PF K

C154 CC73HCH1H0R5B CHIP C 0.5PF B
C155 CK73HB1H471K CHIP C 470PF K
C156 CC73GCH1H050B CHIP C 5.0PF B K,K2,K3
C156 CC73GCH1H060B CHIP C 6.0PF B K4,K5,K6
C157 CC73GCH1H020B CHIP C 2.0PF B K,K2,K3

C157 CC73GCH1H050B CHIP C 5.0PF B K4,K5,K6
C158,159 CC73HCH1H470J CHIP C 47PF J K4,K5,K6
C159 CC73HCH1H470J CHIP C 47PF J K,K2,K3
C160,161 CC73GCH1H050B CHIP C 5.0PF B
C162 CC73HCH1H100B CHIP C 10PF B K4,K5,K6

C163 CC73HCH1H080B CHIP C 8.0PF B K,K2,K3
C163 CC73HCH1H120J CHIP C 12PF J K4,K5,K6
C164 CC73GCH1H050B CHIP C 5.0PF B K4,K5,K6
C164 CC73GCH1H060B CHIP C 6.0PF B K,K2,K3
C165 CC73GCH1H040B CHIP C 4.0PF B

C166-168 CK73HB1H471K CHIP C 470PF K
C169,170 CC73HCH1H020B CHIP C 2.0PF B K4,K5,K6
C170 CC73HCH1H020B CHIP C 2.0PF B K,K2,K3
C171,172 CC73HCH1H0R5B CHIP C 0.5PF B
C173 CC73HCH1H090B CHIP C 9.0PF B K4,K5,K6

C174 CC73HCH1H030B CHIP C 3.0PF B K,K2,K3
C174 CC73HCH1H060B CHIP C 6.0PF B K4,K5,K6
C175 CC73HCH1H040B CHIP C 4.0PF B K4,K5,K6
C176 CC73HCH1H020B CHIP C 2.0PF B K,K2,K3
C176 CC73HCH1H2R5B CHIP C 2.5PF B K4,K5,K6

C177 CC73HCH1H101J CHIP C 100PF J K4,K5,K6
C178,179 CK73HB1H471K CHIP C 470PF K
C180 CC73HCH1H040B CHIP C 4.0PF B K,K2,K3
C180 CC73HCH1H100B CHIP C 10PF B K4,K5,K6
C182-185 CK73HB1H471K CHIP C 470PF K

C186 CK73HB0J105K CHIP C 1.0UF K
C187 CC73HCH1H050B CHIP C 5.0PF B K,K2,K3
C187 CC73HCH1H150J CHIP C 15PF J K4,K5,K6
C188 CK73GB1H471K CHIP C 470PF K
C189,190 CC73HCH1H470J CHIP C 47PF J K4,K5,K6

C191 CK73HB1H471K CHIP C 470PF K
C200 CK73HB1C103K CHIP C 0.010UF K
C201 CK73HB1H471K CHIP C 470PF K K4,K5,K6

28

PARTS LIST

Ref. No. Parts No. Description

C201,202 CK73HB1H471K CHIP C 470PF K K,K2,K3
C202 CC73HCH1H220J CHIP C 22PF J K4,K5,K6

C203,204 CC73HCH1H070B CHIP C 7.0PF B K4,K5,K6
C205,206 CK73HB1H471K CHIP C 470PF K
C207 CC73HCH1H070B CHIP C 7.0PF B
C209,210 CK73HB1H471K CHIP C 470PF K
C215,216 CK73HB1H471K CHIP C 470PF K

C218 CC73HCH1H050B CHIP C 5.0PF B K,K2,K3
C218 CC73HCH1H060B CHIP C 6.0PF B K4,K5,K6
C219 CK73HB1C103K CHIP C 0.010UF K
C220 CK73HB1H471K CHIP C 470PF K
C221 CC73HCH1H150J CHIP C 15PF J

C223 CK73HB1H471K CHIP C 470PF K
C224 CC73GCH1H270J CHIP C 27PF J K,K2,K3
C224 CC73GCH1H390J CHIP C 39PF J K4,K5,K6
C225 CK73HB1H471K CHIP C 470PF K K,K2,K3
C226 CK73GB1H471K CHIP C 470PF K

C227,228 CK73HB1H471K CHIP C 470PF K K4,K5,K6
C228 CK73HB1H471K CHIP C 470PF K K,K2,K3
C229 CK73HB1C103K CHIP C 0.010UF K
C230 CK73HB1H471K CHIP C 470PF K
C231 CC73HCH1H101J CHIP C 100PF J

C232 CC73GCH1H220J CHIP C 22PF J K,K2,K3
C234,235 CK73HB1H471K CHIP C 470PF K
C237 CK73HB1C103K CHIP C 0.010UF K
C238 CK73GB1E105K CHIP C 1.0UF K
C239-242 CK73HB1H471K CHIP C 470PF K

C243 ∗ C93-0951-05 CERAMIC 47PF 50WV K,K2,K3
C243 ∗ C93-0955-05 CERAMIC 68PF 50WV K4,K5,K6
C244,245 CK73HB1H471K CHIP C 470PF K K4,K5,K6
C245 CK73HB1H471K CHIP C 470PF K K,K2,K3
C246 CK73HB1C103K CHIP C 0.010UF K

C247 CK73HB1H471K CHIP C 470PF K
C249 CK73GB1C104K CHIP C 0.10UF K
C250 ∗ C93-0945-05 CERAMIC 27PF 50WV K,K2,K3
C252 CK73GB1H471K CHIP C 470PF K
C253 CK73GB0J475K CHIP C 4.7UF K

C254 CK73HB1H471K CHIP C 470PF K
C255 ∗ C93-0941-05 CERAMIC 18PF 50WV K4,K5,K6
C256 ∗ C93-0878-05 CERAMIC 2.0PF 100WV K,K2,K3
C256 ∗ C93-0989-05 CERAMIC 8.2PF 50WV K4,K5,K6
C257 CC73GCH1H101J CHIP C 100PF J K,K2,K3

C257,258 CK73GB1H471K CHIP C 470PF K K4,K5,K6
C258 CK73GB1H471K CHIP C 470PF K K,K2,K3
C259 CK73HB1C103K CHIP C 0.010UF K
C260 CC73GCH1H070B CHIP C 7.0PF B K4,K5,K6
C260 CC73GCH1H090D CHIP C 9.0PF D K,K2,K3

C261 CC73GCH1H020B CHIP C 2.0PF B K4,K5,K6
C261 CC73GCH1H040B CHIP C 4.0PF B K,K2,K3
C262 CK73HB1H471K CHIP C 470PF K
C263 CC73HCH1H060B CHIP C 6.0PF B K,K2,K3
C263 CC73HCH1H100B CHIP C 10PF B K4,K5,K6

C264 CC73HCH1H010B CHIP C 1.0PF B
C265 CC73HCH1H070B CHIP C 7.0PF B K,K2,K3
C265 CC73HCH1H150J CHIP C 15PF J K4,K5,K6
C266 CC73HCH1H040B CHIP C 4.0PF B K4,K5,K6
C267 CC73HCH1H010B CHIP C 1.0PF B

C268 CC73HCH1H0R5B CHIP C 0.5PF B K,K2,K3
C268 CC73HCH1H060B CHIP C 6.0PF B K4,K5,K6

Address

New
parts

Destination Destination

TK-5310

TX-RX UNIT (X57-7250-XX)

Ref. No. Parts No. Description

C270,271 CK73GB1H471K CHIP C 470PF K
C273 CK73HB1H471K CHIP C 470PF K
C277 CK73HB1H471K CHIP C 470PF K

C278 CC73GCH1H070B CHIP C 7.0PF B K4,K5,K6
C278 CC73GCH1H090D CHIP C 9.0PF D K,K2,K3
C280 CK73HB1H471K CHIP C 470PF K
C281 CC73GCH1H070B CHIP C 7.0PF B K4,K5,K6
C281-283 CC73GCH1H090D CHIP C 9.0PF D K,K2,K3

C282,283 CC73GCH1H150J CHIP C 15PF J K4,K5,K6
C284,285 CK73HB1H471K CHIP C 470PF K
C288 CC73HCH1H030B CHIP C 3.0PF B K,K2,K3
C288 CC73HCH1H060B CHIP C 6.0PF B K4,K5,K6
C289 CC73GCH1H050B CHIP C 5.0PF B K4,K5,K6

C289 CC73GCH1H2R5B CHIP C 2.5PF B K,K2,K3
C290 CC73HCH1H030B CHIP C 3.0PF B K,K2,K3
C290 CC73HCH1H060B CHIP C 6.0PF B K4,K5,K6
C291 CC73HCH1H040B CHIP C 4.0PF B
C292 CC73GCH1H050B CHIP C 5.0PF B K4,K5,K6

C292 CC73GCH1H2R5B CHIP C 2.5PF B K,K2,K3
C293 CC73HCH1H040B CHIP C 4.0PF B
C295 ∗ C93-0937-05 CERAMIC 12PF 50WV K,K2,K3
C295 ∗ C93-0941-05 CERAMIC 18PF 50WV K4,K5,K6
C296 ∗ C93-0989-05 CERAMIC 8.2PF 50WV K,K2,K3

C297 ∗ C93-0947-05 CERAMIC 33PF 50WV K4,K5,K6
C299 CK73HB1H471K CHIP C 470PF K
C300 CK73GB1C104K CHIP C 0.10UF K
C302 CK73GB1E105K CHIP C 1.0UF K
C303 CK73GB1C104K CHIP C 0.10UF K

C306,307 CC73GCH1H120G CHIP C 12PF G K,K2,K3
C306,307 CC73GCH1H180J CHIP C 18PF J K4,K5,K6
C308 CK73HB1H471K CHIP C 470PF K
C309 CC73HCH1H150J CHIP C 15PF J K,K2,K3
C309 CC73HCH1H470J CHIP C 47PF J K4,K5,K6

C311 CC73GCH1H010B CHIP C 1.0PF B K,K2,K3
C311 CC73GCH1H1R5B CHIP C 1.5PF B K4,K5,K6
C312 CC73HCH1H040B CHIP C 4.0PF B
C313 CK73HB1H471K CHIP C 470PF K
C315 CC73GCH1H180J CHIP C 18PF J K4,K5,K6

C315 CC73GCH1H390J CHIP C 39PF J K,K2,K3
C316 CC73HCH1H030B CHIP C 3.0PF B K,K2,K3
C316 CC73HCH1H040B CHIP C 4.0PF B K4,K5,K6
C317 CC73HCH1H150J CHIP C 15PF J K,K2,K3
C317 CC73HCH1H470J CHIP C 47PF J K4,K5,K6

C318 CK73GB1H471K CHIP C 470PF K
C321-325 CK73HB1H471K CHIP C 470PF K
C327 CK73HB0J105K CHIP C 1.0UF K
C329,330 CK73HB1H471K CHIP C 470PF K
C332 CC73HCH1H220J CHIP C 22PF J K,K2,K3

C332 CC73HCH1H270J CHIP C 27PF J K4,K5,K6
C333,334 CK73HB1H471K CHIP C 470PF K
C335 CC73HCH1H050B CHIP C 5.0PF B K4,K5,K6
C335 CC73HCH1H090B CHIP C 9.0PF B K,K2,K3
C336 CC73HCH1H070B CHIP C 7.0PF B K,K2,K3

C336 CC73HCH1H120J CHIP C 12PF J K4,K5,K6
C337 CC73HCH1H220J CHIP C 22PF J K,K2,K3
C337 CC73HCH1H270J CHIP C 27PF J K4,K5,K6
C338 CK73HB1H471K CHIP C 470PF K
C339 CC73HCH1H030B CHIP C 3.0PF B K,K2,K3

C339 CC73HCH1H120J CHIP C 12PF J K4,K5,K6

Address

New
parts

29

TK-5310

PARTS LIST

TX-RX UNIT (X57-7250-XX)

Ref. No. Parts No. Description

C340 CK73HB1H471K CHIP C 470PF K
C341 CC73HCH1H070B CHIP C 7.0PF B K,K2,K3
C341 CC73HCH1H150J CHIP C 15PF J K4,K5,K6
C342 CC73HCH1H220J CHIP C 22PF J K,K2,K3

C342 CC73HCH1H270J CHIP C 27PF J K4,K5,K6
C344 CC73HCH1H040B CHIP C 4.0PF B K,K2,K3
C344 CC73HCH1H070B CHIP C 7.0PF B K4,K5,K6
C345 CK73HB1H471K CHIP C 470PF K
C346 CC73HCH1H070B CHIP C 7.0PF B K,K2,K3

C346 CC73HCH1H080B CHIP C 8.0PF B K4,K5,K6
C347 CC73HCH1H220J CHIP C 22PF J K,K2,K3
C347 CC73HCH1H270J CHIP C 27PF J K4,K5,K6
C348 CC73HCH1H050B CHIP C 5.0PF B
C349 CC73HCH1H020B CHIP C 2.0PF B

C350 CK73HB1H471K CHIP C 470PF K
C351 CC73HCH1H100B CHIP C 10PF B K4,K5,K6
C351,352 CC73HCH1H100B CHIP C 10PF B K,K2,K3
C352 CC73HCH1H070B CHIP C 7.0PF B K4,K5,K6
C354 CK73HB1H471K CHIP C 470PF K

C355 CC73HCH1H0R5B CHIP C 0.5PF B
C356 CC73HCH1H060B CHIP C 6.0PF B
C357,358 CK73HB1H471K CHIP C 470PF K K4,K5,K6
C358 CK73HB1H471K CHIP C 470PF K K,K2,K3
C360,361 CK73HB1H471K CHIP C 470PF K

C362 CC73GCH1H150J CHIP C 15PF J K4,K5,K6
C362 CK73GB1H471K CHIP C 470PF K K,K2,K3
C363 CK73HB1H471K CHIP C 470PF K
C365,366 CK73HB1H471K CHIP C 470PF K
C367,368 CK73HB1A104K CHIP C 0.10UF K

C370 CK73HB1C103K CHIP C 0.010UF K
C372 CC73GCH1H150J CHIP C 15PF J
C374 CC73HCH1H270J CHIP C 27PF J
C378 CC73HCH1H120J CHIP C 12PF J
C379-382 CK73HB1C103K CHIP C 0.010UF K

C383 CC73HCH1H220J CHIP C 22PF J
C385 CC73HCH1H470J CHIP C 47PF J
C386 CC73HCH1H080B CHIP C 8.0PF B
C387 CK73HB1H471K CHIP C 470PF K
C388 CK73HB1C103K CHIP C 0.010UF K

C389 CC73HCH1H470J CHIP C 47PF J
C390 CC73HCH1H220J CHIP C 22PF J
C391 CC73HCH1H820J CHIP C 82PF J
C392 CC73HCH1H470J CHIP C 47PF J
C393-396 CK73HB1A104K CHIP C 0.10UF K

C397 CC73HCH1H680J CHIP C 68PF J
C398 CK73HB1A104K CHIP C 0.10UF K
C399 CK73HB1H102K CHIP C 1000PF K
C400-404 CK73HB1A104K CHIP C 0.10UF K
C405,406 CK73HB1C103K CHIP C 0.010UF K

C407 CK73FB0J106K CHIP C 10UF K
C408,409 CK73HB1A104K CHIP C 0.10UF K
C410 CC73HCH1H390J CHIP C 39PF J
C411,412 CC73HCH1H151J CHIP C 150PF J
C413 CK73HB1C223K CHIP C 0.022UF K

C414 CC73HCH1H101J CHIP C 100PF J
C415 CK73HB1H102K CHIP C 1000PF K
C416 CK73HB1A104K CHIP C 0.10UF K
C418,419 CK73HB1A104K CHIP C 0.10UF K
C420 CK73GB0J225K CHIP C 2.2UF K

Address

New

parts

Destination Destination

Ref. No. Parts No. Description

C421,422 CK73HB1A104K CHIP C 0.10UF K
C423 CC73GCH1H060B CHIP C 6.0PF B
C450 CK73HB0J105K CHIP C 1.0UF K
C451,452 CC73HCH1H101J CHIP C 100PF J
C453 CK73HB1A104K CHIP C 0.10UF K

C454,455 CK73GB0J475K CHIP C 4.7UF K
C456 CK73GB0J225K CHIP C 2.2UF K
C457,458 CK73HB0J105K CHIP C 1.0UF K
C459 CK73GB0J225K CHIP C 2.2UF K
C460,461 CK73HB1A104K CHIP C 0.10UF K

C462 CK73HB1H471K CHIP C 470PF K
C463 CK73HB0J105K CHIP C 1.0UF K
C464,465 CK73HB1A104K CHIP C 0.10UF K
C466,467 CK73HB0J105K CHIP C 1.0UF K
C468,469 CK73HB1A104K CHIP C 0.10UF K

C470,471 CC73HCH1H151J CHIP C 150PF J
C472 CK73HB1A104K CHIP C 0.10UF K
C473 CK73HB1H471K CHIP C 470PF K
C474 CK73HB1A104K CHIP C 0.10UF K
C475 CK73HB1C103K CHIP C 0.010UF K

C476 CK73HB0J105K CHIP C 1.0UF K
C477 CK73HB1A104K CHIP C 0.10UF K
C478,479 CK73GB0J475K CHIP C 4.7UF K
C480 CK73HB1C103K CHIP C 0.010UF K
C481,482 CK73HB1A104K CHIP C 0.10UF K

C483 CK73FB0J106K CHIP C 10UF K
C484 CK73HB1A104K CHIP C 0.10UF K
C485 CK73HB0J105K CHIP C 1.0UF K
C486 CK73HB1H102K CHIP C 1000PF K
C487 CK73HB1A104K CHIP C 0.10UF K

C488 CK73HB0J224K CHIP C 0.22UF K
C493 CK73HB0J224K CHIP C 0.22UF K
C496 CK73HB1A104K CHIP C 0.10UF K
C497 CK73FB0J106K CHIP C 10UF K
C498 CK73HB1H122K CHIP C 1200PF K

C499 CK73HB1A104K CHIP C 0.10UF K
C501 CC73HCH1H101J CHIP C 100PF J
C502 CK73HB1A104K CHIP C 0.10UF K
C504 CK73GB1A105K CHIP C 1.0UF K
C505 CK73FB0J106K CHIP C 10UF K

C506 CK73HB1C103K CHIP C 0.010UF K
C507 CK73HB1A104K CHIP C 0.10UF K
C508 CK73HB1C103K CHIP C 0.010UF K
C509 CK73GB0J475K CHIP C 4.7UF K
C510 CK73HB0J105K CHIP C 1.0UF K

C511 CK73HB1C103K CHIP C 0.010UF K
C512 CC73HCH1H151J CHIP C 150PF J
C513 CK73HB1A104K CHIP C 0.10UF K
C515 CK73GB0J475K CHIP C 4.7UF K
C517 CK73HB1H272K CHIP C 2700PF K

C519 CC73HCH1H101J CHIP C 100PF J
C520 CK73HB1C103K CHIP C 0.010UF K
C522,523 CK73HB1C103K CHIP C 0.010UF K
C524 CK73HB1A104K CHIP C 0.10UF K
C526 CC73HCH1H101J CHIP C 100PF J

C527,528 CK73HB1A104K CHIP C 0.10UF K
C529 CK73HB1C103K CHIP C 0.010UF K
C530-532 CK73HB1A104K CHIP C 0.10UF K
C533 CK73FB0J106K CHIP C 10UF K
C534,535 CK73HB1A104K CHIP C 0.10UF K

Address

New

parts

30