Hyt Tc-600 User manual

TC-600 Service Manual

Contents

Revision History… … … … … … … … … … … … … … … … … … … … … … … … … 2

General……………………………………………………………………………2

Radio Overview… … … … … … … … … … … … … … … … … … … … … … … … … .3

Software Specifications… … … … … … … … … … … … … … … … … … … … … 5

Circuit Description… … … … … … … … … … … … … … … … … … … … … … … .11

CPU Pins… … … … … … … … … … … … … … … … … … … … … … … … … … … ...16

TC-600 VHF Parts List 1… … … … … … … ...… … … … … … … … … … … … … .18

TC-600 UHF Parts List 1… … … … … … ...… … … … … … … … … … … … … … .

Adjustment Description… … … … … … … … … … … … … … … … … … … … …

Disassembly and Assembly for Repair… … … … … … … … … … … … … … .

Exploded View… … … … … … … … … … … … … … … … … … … … … … … … … .

TC-600 Parts List 2… … … … … … … … … … … … … … … … … … … … … … …

Packing………………………………………………………………………….

TC-600 VHF PCB View… … … … … … … … … … … … … … … … … … … … … …

TC-600 UHF PCB View… … … … … … … … … … … … … … … … … … … … …

TC-600 Block Diagram… … … … … … … … … … … … … … … … … … … … … .

TC-600 VHF Schematic Diagram… … … … … … … … … … … … … … … … …

TC-600 UHF Schematic Diagram… … … … … … … … … … … … … … … … …

Specifications… … … … … … … … … … … … … … … … … … … … … … … … … .

TC-600 Service Manual

Revision History

Material No. Date of Issue Changes

8130060000100 Initial Release

8130060000110 1. High frequency amplifier tube, mixer diode and parts list 1.

2. Parts list 2.

8130060000120 1. Audio power amplifier, APC circuit and parts list 1.

2. Parts list 2.

General

Manual Scope

This manual is intended for use by experienced technicians familiar with similar types of

communication equipment. It contains all service information required for theequipment and is current

as of the publication date.

User Safety Information

The following precautions are recommended for personnel safety:

DO NOT transmit until all RF connectors are verified secure and any open connectors are

properly terminated.

SHUT OFF and do not operate this equipment near electrical blasting caps or in an explosive

atmosphere.

When in vehicles with an airbag, do not place a portable radio in the area over an airbag or in the

airbag deployment area.

Do not expose the radio to direct sunlight for a long time nor place it close to a heating source.

Do not use any portable radio with a damaged antenna. If a damaged antenna comes into contact

with your skin, a minor burn may result.

When transmitting with a portable radio, hold the radio in a vertical position with its microphone

about 5 centimeters away from your mouth.

If you wear a portable radio on your body, be sure to keep the antenna at least 2.5

centimeters away from your head or body when transmitting.

This equipment should be serviced by qualified technicians only.

TC-600 Service Manual

Radio Overview

1. Antenna

Helical antenna with a threaded connector. It is used to transmit/receive signals.

2. LED Indicator

The light will glow red during transmission and glow green during receiving. During transmission,

the light flashes red when the battery voltage is low.

3. Channel Selector Knob

4. Power/Volume Control Knob

Rotate the Power/Volume Knob clockwise until a “click”is heard to turn the radio on, fully

counterclockwise until a “click”is heard to turn the radio off. When the radio is on, turn the knob to

adjust volume.

5. PTT Key

Press and hold down the PTT key to transmit; and release it to receive.

6. Function Key

The key can be programmed to access the radio features with the preset type of key pressing

through the programming software.

7. Microphone

Used to input voice.

8. Speaker

Used to output voice.

9. External Jack (for external earpiece or radio programming)

Rotate the jack cover and insert the accessory plug,or insert the programming cable into the jack

TC-600 Service Manual

to program the radio via the programming software.

10. Battery

11. Belt Clip

Used to clip the radio on your belt.

12. Battery Latch

Used to fasten and remove the battery.

13. Battery Charging Piece

Insert the battery into the charger; connect the battery charging piece with those on the charger to

begin charging.

TC-600 Service Manual

Software Specifications

Radio Feature Description

1. Use theChannel Selector Knob to choose from 15+1(Scan) channels

2. Monitor

3. CTCSS/CDCSS Encode & Decode

CTCSS: 38 groups

CDCSS: 83 groups

4. Wideband (25KHz) / Narrowband (12.5KHz)

5. Channel Scan (priority channel and revert channel available)

6. Battery Save (programmable by dealers)

7. Time-out Timer (TOT)

8. Squelch Level (0-9)

9. Low Battery Alert

10. Programmable Function Key

11. High/Low Power

12. 2-ToneEncode & Decode

13. DTMF ANI Encode

14. Model Set Mode

15. PC Programming & Adjust Mode

16. Manual Adjust Mode

17. User Wired Clone Mode

18. Factory Wired Clone Mode

TC-600 Service Manual

Radio Modes

Mode Entry for Mode Startup Audible & Visual Indicator

User Mode Disconnect the SELF points and then turn the

power on Power-on alert tone (one long Beep)

Model Set Mode Short out the SELF points and then turn the power

2 short Beeps, the light flashes from red

to green

User Wired Clone Mode

Disconnect the SELF points, turn on the power

while holding down Function Key, press Function

Key again 1 short Beep

Factory Wired Clone

Mode

Short out the SELF points, turn on the power while

holding down Function Key, press Function Key

again

2 short Beeps

Manual Adjust Mode

Enable Manual Adjust Mode, turn on the power

while holding down PTT and Function Key

simultaneously, the radio enters this mode in 2

seconds

2 short Beeps, orange light glows

PC Programming &

Adjust Mode

Connect the radio with PC, turn on the radio and

activate this mode in programming software

1. User Mode

User Mode is for conventional communication operation. Disconnect the two SELF points and then

turn the power on, the radio enters User Mode. (Refer to “TC-600 Owner’s Manual”for detailed

operation description.)

2. Model Set Mode

(1) Select MS1 according to the radio model. If MS1 is 1, short out the two MS1 points on PCB. If

not, disconnect the two MS1 points.

(2) Short out the two SELF points and then turn the power on. Two Beeps sound.

(3) Turn Channel Selector Knob to the corresponding position (1-11) according to the radio model

(Refer to “Initial Data Table”).

(4) Press PTT while holding down Function Key to set the model. Channel data and settings are

initialized (Refer to “Initial Data Table”).

(5) Turn off the power and then disconnect the two SELF points to complete the model setting.

For example, MS1 of TC-600U (450.000~469.995MHz) is 0 and its model is 7(Refer to “Initial

Data Table”). To initialize its model and channel data, you can operate as following:

●Disconnect the two MS1 points.

TC-600 Service Manual

●Short out the two SELF points.

●Turn on the power and rotate the Channel Selector Knob to CH7.

●Press PTT while holding down Function Key.

●After reset, turn off the power and disconnect the two SELF points. The radio operates at the

preset frequency after restart.

Note: Once the new model is set, previous channel settings (frequency, CTCSS/CDCSS, channel

function settings) will be deleted, and part of functions are also changed. Therefore, do not make this

operation unless it’s necessary, such as changing the EEPROM, etc.

3. PC Programming Mode

The following parameters can be set through the programming software:

(1) Receive frequency and transmit frequency

(2) Receive signaling and transmit signaling

(3) Busy channel lockout (BCL)

(4) Time-out timer (TOT)

(5) Squelch level

(6) Battery save

(7) Audio alarm

(8) Monitor mode

(9) Scan mode

(10) Scan revert channel

(11) Priority scan channel

(12) Wideband/narrowband per radio

(13) High/low power

(14) Wideband/narrowband per channel

4. PC Adjust Mode

The following settings can be adjusted through the programming software:

(1) Low battery alert level

(2) SQL9

(3) SQL3

(4) CTCSS deviation (wide)

(5) CDCSS deviation (wide)

(6) CTCSS deviation (narrow)

(7) CDCSS deviation (narrow)

TC-600 Service Manual

5. Manual Adjust Mode

If Manual Adjust Mode is enabled, turn on the power while holding down PTT and Function Key

simultaneously, the radio enters Manual Adjust Mode in 2 seconds. Choose the adjusting items by

turning the channel selector knob to CH1-CH7; use PTT/Function Key to adjust upwards/downwards

(Note: MIC jack shouldn’t be connected with external cable while adjusting), CH1-CH7 are defined as

follows:

(1) Low battery alert level

(2) SQL9

(3) SQL3

(4) CTCSS deviation (wide)

(5) CDCSS deviation (wide)

(6) CTCSS deviation (narrow)

(7) CDCSS deviation (narrow)

CH12-CH16 are used to adjust transmitter and receiver. Press PTT to transmit; release to receive. In

receive mode, short press the Function Key to toggle between high and low power, or long press it to

switch between wideband and narrowband. Three Beeps alternating from high tone to low tone

indicate that the transmit power is switched from high to low; and three beeps alternating from low tone

to high tone indicate that the transmit power is switched from low to high. Two Beeps sound when

wideband is selected and one Beep sounds when narrowband is selected. CH12-CH16 are defined as

follows:

(12) Center frequency (the difference between RX and TX frequency is 0.1MHz)

(13) Lowest frequency (the difference between RX and TX frequency is 0.1MHz)

(14) Highest frequency (the difference between RX and TX frequency is –0.075MHz)

(15) Center frequency: transmit DTMF number “9”(the difference between RX and TX frequency is

0.1MHz)

(16) Center frequency: transmit with 250.3Hz CTCSS signaling (the difference between RX and TX

frequency is 0.1MHz)

Note:

To enable/disable the Manual Adjust Mode: short out the two SELF points, turn on the power to enter

Model Set Mode, then Manual Adjust Mode is enabled. Press PTT to disable. It is sugggested to

disable the mode after the adjustment is completed.

6. User/Factory Wired Clone Mode

The only difference between the two modes is that the latter is able to clone the adjustment settings.

Turn on the power while holding down Function key to enter Wired Clone Mode.

TC-600 Service Manual

a) If the two SELF points are disconnected, press Function key again, the radio starts user wired

clone and red LED flashes; when cloning is completed, red LED goes out.

b) If the two SELF points are short out, press Function key again, the radio starts factory wired clone

and red LED flashes; when cloning is completed, red LED goes out.

TC-600 Service Manual

Initial Data Table

MS1 Model Frequency

(MHz)

1CH (Center) 2CH(Low) 3CH(High) 4CH 5CH 6CH 7CH 8CH 9-16CH

(MHz)

(MHz) (MHz) (MHz) (MHz) (MHz) (MHz) (MHz)

0 1 150.000~173.995 +45.050 162.000 162.100 150.000 150.100 173.975 173.900 162.500 162.550 162.600 162.550 162.650

0 2 136.000~149.995 +45.050 143.000 143.100 136.000 136.100 149.975 149.900 143.500 143.550 143.600 143.550 143.650

0 3 146.000~173.995 +45.050 160.000 160.100 146.000 146.100 173.975 173.900 160.500 160.550 160.600 160.550 160.650

0 4 144.000~147.995 +45.050 146.000 146.100 144.000 144.100 147.975 147.900 146.500 146.550 146.600 146.550 146.650

0 5 136.000~147.995 +45.050 142.000 142.100 136.000 136.100 147.975 147.900 142.500 142.550 142.600 142.550 142.650

0 6 136.000~173.995 +45.050 155.000 155.100 136.000 136.100 173.975 173.900 155.500 155.550 155.600 155.550 155.650

0 7 450.000~469.995 -45.050 460.000 460.100 450.000 450.100 469.975 469.900 460.300 460.350 460.400 460.350 460.450

0 8 400.000~419.995 -45.050 410.000 410.100 400.000 400.100 419.975 419.900 410.500 410.550 410.600 410.550 410.650

0 9 470.000~489.995 -45.050 480.000 480.100 470.000 470.100 489.975 489.900 480.500 480.550 480.600 480.550 480.650

0 10 490.000~511.995 -45.050 501.000 501.100 490.000 490.100 511.975 511.900 501.500 501.550 501.600 501.550 501.650

0 11 220.000~239.995 -45.050 230.000 230.100 220.000 220.100 239.975 239.900 230.500 230.550 230.600 230.550 230.650

1 1 240.000~259.995 -45.050 250.000 250.100 240.000 240.100 259.975 259.900 250.500 250.550 250.600 250.550 250.650

1 2 336.000~367.995 -45.050 352.000 352.100 336.000 336.100 367.975 367.900 352.500 352.550 352.600 352.550 352.650

1 3 368.000~395.995 -45.050 382.000 382.100 368.000 368.100 395.975 395.900 382.500 382.550 382.600 382.550 382.650

1 4 370.000~389.995 -45.050 380.000 380.100 370.000 370.100 389.975 389.900 380.500 380.550 380.600 380.550 380.650

1 5 350.000~369.995 -45.050 360.000 360.100 350.000 350.100 369.975 369.900 360.500 360.550 360.600 360.550 360.650

1 6 406.000~429.995 -45.050 418.000 418.100 406.000 406.100 429.975 429.900 418.500 418.550 418.600 418.550 418.650

1 7 400.000~429.995 -45.050 415.000 415.100 400.000 400.100 429.975 429.900 415.500 415.550 415.600 415.550 415.650

1 8 430.000~439.995 -45.050 435.000 435.100 430.000 430.100 439.975 439.900 435.500 435.550 435.600 435.550 435.650

1 9 438.000~449.995 -45.050 444.000 444.100 438.000 438.100 449.975 449.900 444.500 444.550 444.600 444.550 444.650

1 10 480.000~519.995 -45.050 500.000 500.100 480.000 480.100 519.975 519.900 500.500 500.550 500.600 500.550 500.650

1 11 441.000~451.000 -45.050 446.000 446.100 441.000 441.100 450.975 450.900 446.500 446.550 446.600 446.550 446.650

CH QT/DQT OFF OFF OFF OFF OFF OFF OFF 023 023 127.3 151.4

TC-600 Service Manual

Circuit Description

1. Frequency Configuration

The receiver utilizes double conversion superheterodyne. The first IF is 45.050MHz and the

second is 455 KHz. The first local oscillator signal is supplied from PLL circuit. Frequency needed

in the transmitter is supplied from PLL circuit. Figure 1 shows the frequency configuration.

Frequency Range: 150 MHz— 174MHz

400 MHz—420MHz 450 MHz— 470MHz

Figure 1 Frequency Configuration

2. Receiver

The receiver utilizes double conversion superheterodyne.

1) Front-End RF Amplifier

The input signal from antenna is amplified in RF amplifier (Q27) after passing through the

receive/transmit switch circuit and a 3-stage LC band pass filter. The amplified signals are

filtered by a band pass filter (a 3-stage LC BPF) to eliminate unwanted signals before they go

to the first mixer.

MCF

45.050MHz

44.595MHz

TC-600 Service Manual

Figure 2 Receiver Section Configuration

2) The First Mixer

The signal from RF amplifier is mixed with the first local oscillator signal from PLL frequency

synthesizer in the first mixer (Q23) to generate a 45.050MHz first IF signal. The first IF signal is then

fed through two monolithic crystal filters (XF1) to remove spurious signals from adjacent channels.

3) IF Amplifier

The first IF signal is amplified in Q22 and then enters the IF processing chip IC1. The signal is mixed

with the second local oscillator signal in IC1 to create a 455KHz second IF signal. The second IF

signal is then fed to a 455KHz ceramics filter (CF1) to eliminate unwanted signals before it is amplified

and detected in IC1.

4) Audio Amplifier

The demodulated audio signal obtained from IC1 is amplified in IC7 (1/4), and then filtered by low pass

filter Q19 and high pass filter Q20, and then de-emphasized by R130 and C156. The resulting audio

signal passes through a volume control circuit and then is amplified to a sufficient level to drive the

speaker by audio power amplifier (IC8).

5) Squelch

Part of the audio signal from IC1 re-enters IC1, and the noise component is amplified and rectified by a

filter and an amplifier to produce a DC voltage corresponding to the noise level. The DC signal goes to

the analog port of the microprocessor (IC11). IC11 determines whether to output sounds from the

speaker by detecting whether the input voltage is higher or lower than the preset value.

To output sounds from the speaker, IC11 sends a high level signal to the MUTE and AFCO lines and

turns on IC8 through Q12.

TC-600 Service Manual

DET

FM IF IC1

IF AMP

HPF

AMP

IC7

AF LPF HPFDET

239 40 1

Q12

AF/PF AMP

IC7

LPF

IC11

MCU

BUSY

MUTE

AFCO

IC8

Figure 3 AudioAmplifier and Squelch Circuit

6) Receive Signaling

CTCSS/CDCSS

Over 300Hz audio frequencies of the signal output from IF chip is cut off by a low pass filter. The

resulting signal enters the microprocessor IC11. IC11 determines whether the CTCSS/CDCSS

matches the preset value, and controls the MUTE, AFCO and the speaker output according to the

squelch results.

2-Tone

The output 2-Tone signal from IF chip goes to IC7 (1/4) for voltage amplification, then is processed by

shaping circuit that is comprised of IC7 (2/4) and other components before being detected by IC11

Pin11. IC11 determines whether the 2-Tone matches the preset value, and controls MUTE, APCO and

speaker output according to squelch results.

3. PLL Frequency Synthesizer

PLL circuit generates the first local oscillator signal for reception and the RF signal for transmission.

1) PLL

The step frequency of PLL circuit is 5KHz\6.25KHz\12.5 KHz\10 KHz. A 12.8MHz reference

oscillator signal is divided at IC2 by a fixed counter to produce a 5 KHz\6.25KHz\12.5 KHz\10

KHz reference frequency. The output signal from voltage control oscillator (VCO) passes

through buffer amplifier Q14 and is divided at IC2 by the programmable dual-module counter.

The divided signal is compared in the phase comparator IC2 with the 5 KHz\6.25KHz\12.5

KHz\25 KHz reference signal. The output signal from phase comparator is filtered by a

TC-600 Service Manual

low-pass filter and passed to the VCO to control the oscillator frequency. (See Figure 4)

Figure 4 PLL Circuit

2) VCO

The operating frequency is generated by Q16 in transmit mode and by Q8 in receive mode.

The operating frequency generates a control voltage through the phase comparator to control

the varactor, so that the oscillator frequency is made consistent with the preset frequency in

CPU (D2 and D3 in transmit mode, D7 and D8 in receive mode). In receive mode, Q6 turns off

Q16 and turns Q7 on, which causes the T/R pin to be set tohigh level. The T/R pin is setto low levelin

transmit mode. The output from Q8 and Q16 is amplified by Q14 and sent to the buffer amplifier.

4. Transmitter

1) Transmit Audio

The modulation signal from microphone is amplified by IC3, pre-emphasized, then filtered by another

low pass filter（separate filter）(Q25 and Q24) to eliminate the frequencies higher than 3KHz. The

resulting signal enters the VCO for direct FM modulation. The voice voltage amplitude control circuit

(Q46\R131\R601) is used to switch between wideband and narrowband. (See Figure 5)

2) CTCSS/CDCSS Encoder

The signal needed by CTCSS/CDCSS encoder is generated by IC11 and FM-modulated to the PLL

reference signal. Since the reference oscillator can not modulate frequency without loop

characteristics, modulation is performed at the VCO side via the divider. (See Figure 5)

TC-600 Service Manual

Figure 5 Transmit CTCSS

3) DTMF/2-Tone Encoder

DTMF/2-Tone signalings are generated by IC11 and outputted in parallel by Pin 48-51. The output

signal is reshaped by resistor array CP7-CP10, then sent to IC3 (1/4) for amplification, and filtered by

active LPF consisting of Q25, Q24 and other components to eliminate the corresponding HF emission

before being passed to TX VCO for modulation. The modulated signal is applied to AF AMP through

C254 for ease of monitoring.

4) RF Amplifier

The transmit signal obtained from VCO buffer amplifier Q14 is amplified by Q15 and Q17. The

amplified signal is passed to power amplifier Q32 and Q31, and is capable of generating a 4.0W RF

power. Q50 and R617 are used to toggle between high and low power.

5) Antenna Switch and LPF

The output signal from RF amplifier is passed through a low-pass filter network and a transmit/receive

switch circuit before reaching the antenna terminal. The transmit/receive switch circuit is comprised of

D11 and D12. D11 and D12 is turned on (conductive) in transmit mode and off (isolated) in receive

mode.

5. Power

The 5V reference power supply for the control circuit is derived from a LDO IC. The reference power

provides a 5V voltage in transmit mode [T_V], a 5V voltage in receive mode [R_V], and a 5V voltage

shared in both modes based on the control signal from the microprocessor.

6. Control System

The IC11 CPU operates at 7.3728MHz.

TC-600 Service Manual

CPU Pins

35 ENC0 I

Channel Selector Knob encode input

36 ENC1 I

37 ENC2 I

38 ENC3 I

39 AF_MUTE O AF mute control

Pin No. Pin Name I/O Description

1 TI I CTCSS/CDCSS input

2 BUSY I Busy signal input

3 BATT I Battery voltage detect

4 TIBI I CTCSS/CDCSS external circuit center point input

5 NC

6 SAVE O Battery save control H: OFF L: ON

7 TXLow O TX power control H: Low power L: High power

8 LE 0 PLL IC enable

9 PLL_DAT O PLL data output

10 PLL_CLK O PLL clock output

11 TTSin I 2-Tone input

12 BEEP O BEEP output

13 SCL O E2PROM clock line

14 SDA I/O E2PROM data line

15 MUTE O MIC mute control H: MIC mute L: MIC enable

16 MS1 O Model select

17 GLED O Green light control H: Lit

18 RLED O Red light control H: Lit

19 TXD O RS-232C output

20 RXD I RS-233C input

21 PTT I PTT key input L: Press

22 NC I

23 RXC O Receiver power supply control L: ON

24 NC I NC

25 RESET I Reset input

26 SELF I Self programming L: ON

27 TXC O Transmitter power supply control H: ON

28 Xin I Oscillator input

29 Xout O Oscillator output

30 Vss I GND

31 RT O RX/TX control H: RX L: TX

32 UL I PLL unlock detect H: Lock L: Unlock

33 IF_CTRL I IF select H: 21.4MHz L: 45.05MHz

34 MONI I Function key input L: Press

TC-600 Service Manual

40 AF_PWR O AF power supply control

41 CTDCSS5 O

CTCSS/CDCSS code output

42 CTDCSS4 O

43 CTDCSS3 O

44 CTDCSS2 O

45 CTDCSS1 O

46 CTDCSS0 O

47 WNTC O Wideband/narrowband L: W H: N

48 DTMF/2ToneOut5 0

DTMF/2-Tone code output

49 DTMF/2ToneOut4 0

50 DTMF/2ToneOut3 0

51 DTMF/2ToneOut2 0

52 DTMF/2ToneOut1 0

53 DTMF/2ToneOut0 0

54-70 NC

71 Vcc I Power input: 5V

72 Vref I A-D conversion reference voltage

73 Avss I A-D GND

74-80 NC

TC-600 Service Manual

TC-600 VHF Parts List 1

150-174MHz

No. Material No. Description Qty

Ref. No.

Address

1 3001053330010 Chip resistor 0402 33KΩJ 1/16W(RoHS) 1 R629 T2E

2 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 D20 T1D

3 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 L29 B3C

4 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R107 B3I

5 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R108 B3F

6 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R110 T4G

7 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R116 T3B

8 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R126 B2G

9 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R151 B2F

10 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R193 B3E

11 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R194 B3E

12 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R46 T2G

13 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R508 B1I

14 3001060000000 Chip resistor 0603 0ΩJ 1/10W(RoHS) 1 R94 T3F

15 3001061000000 Chip resistor 0603 10ΩJ 1/10W(RoHS) 1 R106 T3F

16 3001061000000 Chip resistor 0603 10ΩJ 1/10W(RoHS) 1 R113 T5J

17 3001061000000 Chip resistor 0603 10ΩJ 1/10W(RoHS) 1 R164 B4H

18 3001061000000 Chip resistor 0603 10ΩJ 1/10W(RoHS) 1 R171 B5G

19 3001061000000 Chip resistor 0603 10ΩJ 1/10W(RoHS) 1 R80 B4G

20 3001061000000 Chip resistor 0603 10ΩJ 1/10W(RoHS) 1 R82 B3E

21 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R127 B1E

22 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R147 B2F

23 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R169 B2I

24 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R170 B2I

25 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R74 B4G

26 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R75 B2A

27 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R76 B1F

28 3001061010000 Chip resistor 0603 100ΩJ 1/10W(RoHS) 1 R90 T5H

29 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R146 B2G

30 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R165 B2E

31 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R184 B3H

32 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R186 B5D

33 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R203 T2E

34 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R39 B3I

35 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R47 B2G

36 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R51 B5E

37 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R52 T3F

38 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R53 B4G

39 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R56 B4I

40 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R57 B1I

TC-600 Service Manual

No. Material No. Description Qty

Ref. No.

Address

41 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R58 T4B

42 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R59 T3B

43 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R60 T2D

44 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R61 T2D

45 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R78 T3A

46 3001061020010 Chip resistor 0603 1KΩJ 1/10W(RoHS) 1 R89 T4I

47 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R100 T4B

48 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R119 B4J

49 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R129 T2H

50 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R179 B3H

51 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R36 B2I

52 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R37 T2E

53 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R38 B4J

54 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R40 B3F

55 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R41 T5F

56 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R42 T5E

57 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R44 B4B

58 3001061030010 Chip resistor 0603 10KΩJ 1/10W(RoHS) 1 R45 B4B

59 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R10 B2H

60 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R12 B2I

61 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R13 B3G

62 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R145 T5F

63 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R15 B3G

64 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R154 T4F

65 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R168 B1E

66 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R17 B2F

67 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R173 B3F

68 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R175 T2B

69 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R176 T2B

70 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R178 B3F

71 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R18 T4B

72 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R202 B4I

73 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R35 T2C

74 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R7 B2I

75 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R8 B5F

76 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R9 B5G

77 3001061040010 Chip resistor 0603 100KΩJ 1/10W(RoHS) 1 R95 B4I

78 3001061050010 Chip resistor 0603 1MΩJ 1/10W(RoHS) 1 R109 T2B

79 3001061050010 Chip resistor 0603 1MΩJ 1/10W(RoHS) 1 R197 T2G

80 3001061240010 Chip resistor 0603 120KΩJ 1/10W(RoHS) 1 R11 B4I

81 3001061240010 Chip resistor 0603 120KΩJ 1/10W(RoHS) 1 R150 B2F

82 3001061240010 Chip resistor 0603 120KΩJ 1/10W(RoHS) 1 R72 B4G

83 3001061510000 Chip resistor 0603 150ΩJ 1/10W(RoHS) 1 R5 B2F

84 3001061510000 Chip resistor 0603 150ΩJ 1/10W(RoHS) 1 R68 B4F

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