NX-240(V) B53-7066-00

SERVICE MANUAL VHF DIGITAL TRANSCEIVER SERVICE MANUAL 8 2013 RA002<Rev.001> B53-7066-00 NX-240, NX-240(V) COPYRIGHT © 2013Note JVC KENWOOD Corporation : Lead free solder used in the board (material : Sn, Ag, In, Bi, melting point : 227 Centigrade) TABLE OF CONTENTS 1 2 3 4 5 PRECAUTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 SPECIFIC SERVICE INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4 DISASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-13 ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-16 TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-20 This product complies with the RoHS directive for the European market. B53-7066-00 COPYRIGHT © 2013 JVC KENWOOD Corporation This product uses Lead Free solder. No.RA002<Rev.001> 2013/8 Document Copyrights Copyright 2013 by JVC KENWOOD Corporation. All rights reserved. No part of this manual may be reproduced, translated, distributed, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, for any purpose without the prior written permission of JVC KENWOOD Corporation. Disclaimer While every precaution has been taken in the preparation of this manual, JVC KENWOOD Corporation assumes no responsibility for errors or omissions. Neither is any liability assumed for damages resulting from the use of the information contained herein. JVC KENWOOD Corporation reserves the right to make changes to any products herein at any time for improvement purposes. Firmware Copyrights The title to and ownership of copyrights for firmware embedded in KENWOOD product memories are reserved for JVC KENWOOD Corporation. Any modifying, reverse engineering, copy, reproducing or disclosing on an Internet website of the firmware is strictly prohibited without prior written consent of JVC KENWOOD Corporation. Furthermore, any reselling, assigning or transferring of the firmware is also strictly prohibited without embedding the firmware in KENWOOD product memories. Transceivers containing AMBE+2TM Vocoder: The AMBE+2TM voice coding technology is embedded in the firmware under the license of Digital Voice Systems, Inc. 1-2 (No.RA002<Rev.001>) SPECIFICATION GENERAL Frequency Range 136~174MHz Number of Channels 32 Zones 2 Max. Channels per zone 16 Channel Spacing Analog 12.5kHz Digital 6.25kHz Operating Voltage 7.5V DC ±20% Battery Life Battery Saver OFF/ON (5-5-90 at high power with KNB-45L (2000mAh)) Approx. 10/12 hours Operating Temperature Range -30°C~+60°C (-22°F to +140°F) Frequency Stability ±2.0ppm Antenna Impedance 50Ω Dimensions (W x H x D) (Projections not included) with KNB-45L 54 x 122 x 35.3 mm (2.13 x 4.80 x 1.39 in) Weight (net) Radio only 165 g (5.8 oz) with KNB-45L 281 g (9.9 oz) Digital 0.25µV Analog 0.25µV (EIA 12dB SINAD) Selectivity Analog 60dB Intermodulation Distortion Analog 60dB Spurious Response Analog 70dB RECEIVER Sensitivity Audio Distortion Less than 10% Audio Output 1W/12Ω (Internal speaker) 500mW/8Ω (External output) TRANSMITTER RF Power Output High/Low Spurious Response FM Hum & Noise 5W/1W 70dB Analog 40dB Audio Distortion Less than 10% Modulation 11K0F3E, 4K00F1E, 4K00F1D, 4K00F7W, 4K00F2D Measurements made per TIA/EIA-603 and specifications shown are typical. JVC KENWOOD Corporation reserves the right to change specifications without prior notice or obligation. (No.RA002<Rev.001>)1-3 SECTION 1 PRECAUTION This service manual does not describe PRECAUTION. SECTION 2 SPECIFIC SERVICE INSTRUCTIONS 2.1 CIRCUIT DESCRIPTION 2.1.1 Frequency Configuration The receiver utilizes double conversion. The first IF is 45.45MHz and the second IF is 450kHz. The first Local oscillator is supplied from the PLL circuit. The PLL circuit in the transmitter generates the necessary frequencies. Figure 1 shows the frequencies. TX/RX: 136~174MHz ANT 1st MIX ANT SW MCF RF AMP SP IF System 45.45MHz 181.45~ 219.45MHz AF AMP Baseband 45.9MHz x3 Tripler TCXO 15.3MHz MIC TX AMP 136~174MHz RF AMP PLL VCO MIC AMP Fig.1 Frequency configuration 2.1.2 Receiver System The receiver system is shown in Figure 2. ANT BPF Q405 RF AMP BPF Q404 1st MIX XF400 Q403 IF AMP ANT SW IC705 IC400 IF,MIX,DET Baseband Q400 x3 Tripler X1 TCXO 2nd Local 15.3MHz IC709 AF PA (INT) SP MCF BPF1 BPF1 1st Local Fig.2 Receiver system 2.1.2.1 Front End (RF Amplifier) Circuit The signal coming from the antenna passes through the transmit/receive switching diode circuit (D201, D202, D203 and D204) and a BPF (L415 and L416), and is then amplified by the RF amplifier (Q405). The resulting signal passes through a BPF (L411) and goes to the mixer. The BPF is adjusted by variable capacitance diodes (D401, D402, D403 and D404). The input voltage to the variable capacitance diodes is the regulated voltage output from the DC amplifier (IC704). 2.1.2.2 First Mixer The signal from the front end is mixed with the first local oscillator signal generated in the PLL circuit by Q404 to produce the first IF frequency of 45.45MHz. The resulting signal passes through the XF400 MCF to cut the adjacent spurious and provide optimum characteristics, such as adjacent frequency selectivity. 1-4 (No.RA002<Rev.001>) 2.1.2.3 IF Amplifier Circuit The first IF signal is passed through a four-pole monolithic crystal filter (XF400) to remove the adjacent channel signal. The filtered first IF signal is amplified by the first IF amplifier (Q403) and is then applied to the IF system IC (IC400). The IF system IC provides a second mixer, AGC+BPF, PLL FM detector, noise squelch and RSSI circuit. The second mixer mixes the first IF signal (45.45MHz) with the signal of the second local oscillator output (Q400) and produces the second IF signal of 450kHz. The second IF signal is passed through the internal bandpass filter of the IF system IC to remove the adjacent channel signal. The filtered second IF signal is amplified by the limiting amplifier and demodulated by the internal discriminator of the IF system IC. The demodulated signal is routed to the audio circuit. 2.1.2.4 Audio Amplifier Circuit The demodulated signal from IC400 is sent to an AF amplifier through IC705, and is routed to an audio power amplifier (INT:IC709, EXT:IC707) where it is amplified and output to the speaker. IC707 AF PA SPO (EXT) IC400 IC705 IC709 FM IC Baseband IC AF PA (INT) EXT SP INT SP Fig.3 Audio amplifier circuit 2.1.2.5 Squelch Circuit Part of the AF signal from the IC400 enters the FM IC (IC400) again, 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 from the FM IC goes to the analog port of the MCU (IC710). IC710 determines whether or not to output sounds from the speaker by checking if the input voltage is higher or lower than the preset value. To output sounds from the speaker, IC710 sends a high signal to the EXTSPSW line and turns IC707 on through Q709, Q710, Q713 and Q716. This explanation is for the external speaker amplifier. For the internal loudspeaker amplifier, IC710 sends a high signal to the INTSPSW line and turns IC709 on through Q711 and Q714. 2.1.3 Transmitter System 2.1.3.1 Microphone Amplifier Circuit The signal from the microphone is limited by the AGC circuit, which is composed of D700, D701, Q705, Q706 and the mute switch (Q704). IC705 is composed of a high-pass filter, low-pass filter and pre-emphasis/IDC circuit. The signal from the microphone and the low speed data from the MCU (IC710) enter the baseband IC (IC705) and pass through each path and are mixed inside the IC. The output signal from the audio processor MOD2 goes to the VCO modulation input. The other output signal from MOD1 goes to the TCXO modulation input. MIC IC705 MOD2 VCO Baseband X1 D700,701 MIC Q705,706 AGC MICM SW TCXO MOD1 LSD OUT Q704 Fig.4 Microphone amplifier circuit 2.1.3.2 Drive and Final Amplifier Circuit The signal from the T/R switch (D15 is on) is amplified by the pre-drive amplifier (Q201) to 20mW. The output of the pre-drive amplifier is amplified by the drive amplifier (Q206) and the RF final amplifier (Q208) to 5.0W (1W when the power is low). The drive amplifier and the RF final amplifier consist of two MOS FET stages. The output of the RF final amplifier is then passed through the antenna switch (D203 and D204) and harmonic filter (LPF) and is applied to the antenna terminal. (No.RA002<Rev.001>)1-5 2.1.3.3 APC Circuit The APC circuit always monitors the current flowing through the drive amplifier (Q206) and RF power amplifier (Q208), and keeps it constant. The voltage drop at R230, R231 and R233 is caused by the current flowing through the RF final amplifier. This voltage is applied to the differential amplifier IC200 (1/2). IC200 (2/2) compares the output voltage of IC200 (1/2) with the reference voltage from IC705 (32pin:AUXDAC1). The output of IC200 (2/2) controls the gate bias voltage of the RF power amplifier and the drive amplifier to make both voltages the same. The change of power (high/low) is carried out by the change of the reference voltage. ANT From T/R SW (D15) Q201 Q206 Q208 D203,204 Pre-DRIVE AMP DRIVE AMP RF FINAL AMP ANT SW VG R230 VDD +B R231 R233 IC200 (1/2) IC200 (2/2) PC Fig.5 Drive and final amplifier and APC circuit 2.1.4 Frequency Synthesizer Unit 2.1.4.1 Frequency synthesizer The frequency synthesizer consists of the TCXO (X1), VCO, PLL-IC (IC2), and buffer amplifiers. The TCXO generates 15.3MHz. The frequency stability of TCXO is 0.45ppm within the temperature range of -30°C to +60°C. The frequency tuning and modulation of the TCXO are done to apply voltage to pin 1 of the TCXO. The TCXO output is applied to pin 10 of the PLL-IC. The VCO consists of 2 VCOs and covers a dual range of 181.45~219.45MHz and 136~174MHz. The VCO generates 181.45~219.45MHz to provide the first local signal for reception. The operating frequency is generated by Q6 in transmitting mode and Q5 in receiving mode. The oscillation frequency is controlled by applying the VCO control voltage, obtained from the phase comparator (IC2) to the variable capacitance diodes (D3, D5, D8, D9, D11,and D13 while transmitting and D2, D4, D6, D7 and D12 while receiving). The TX/RX pin of IC710 goes “high” in transmission mode, causing Q8 to turn off, and Q7 turn on. The TX/RX pin goes “low” in reception mode. The output from Q5 and Q6 are amplified by a buffer amplifier (Q9) and RF amplifier (Q2), and are then sent to the PLL-IC. The PLLIC consists of an 18-bit delta signal modulator, prescaler, reference divider, phase comparator, and charge pump. The input signal from pin 10 and 17 of the PLL-IC is divided down and compared at the phase comparator. The pulse output signal of the phase comparator is applied to the charge pump and transformed into a DC signal in the loop filter (LPF). The DC signal is applied to the CV of the VCO and is locked to keep the VCO frequency constant. PLL data is output from PLL_LE (pin 87), PLL_DATA (pin 86) and PLL_CLK (pin 88) of the MCU (IC710). The data is input to the PLLIC when the channel is changed or when transmission is changed to reception and vice-versa. The PLL lock condition is always monitored by pin 70 (PLL_LD) of the MCU. When the PLL is unlocked, PLL_LD goes low. TX/RX (TX: High) VCO Q9 Q10 D15 BUFF RF AMP SW CV Q2 LPF 21 PLL_LD SW AMP IC2 To mixer 17 PLL 7 D14 10 TCXO VC X1 MCU PLL_LE,PLL_DATA,PLL_CLK IC710 Fig.6 PLL block diagram 1-6 (No.RA002<Rev.001>) Baseband IC705 To RF AMP 2.1.5 Control Circuit The control consists of the MCU (IC710) and its peripheral circuits. It controls the TX-RX unit. IC710 mainly performs the following; (1) Switching between transmission and reception via the PTT signal input. (2) Reading channel information, frequency, and program data from the memory circuit. (3) Sending frequency program data to the PLL. (4) Controlling squelch on/off via the DC voltage from the squelch circuit. (5) Controlling the audio mute circuit via the decode data input. (6) Transmitting tone and encode data. 2.1.5.1 Frequency Shift Circuit The MCU (IC710) and baseband IC (IC705) operate at a clock frequency of 19.2MHz. The clock frequency can be shifted by 50ppm when the beat shift is checked in the FPU. This is implemented by applying the beat shift voltage of 3.2V to pin 1 of X2. The beat shift function must be ON if there is any internal beat which is related to the 19.2MHz clock. IC705 Baseband IC IC710 MCU XTAL 39 BSHIFT XIN 8 12 19.2MHz 6 H: OFF L: ON 1 X2 TCXO 3 IC713 2 CLK AMP 4 Fig.7 Frequency shift circuit 2.1.5.2 Memory Circuit The Memory circuit consists of the MCU (IC710) and EEPROM (IC700). The EEPROM has a capacity of 64K-bit and stores the channel information, the last channel data, the scan on status, and other parameters. EEPROM Note: The EEPROM stores tuning data (Deviation, Squelch, etc.). Realign the transceiver after replacing the EEPROM. 2.1.5.3 Low Battery Warning The battery voltage is monitored by the MCU (IC710 pin 33: BATT). When the battery voltage falls below 6.4V approximately, the red LED blinks, notifying the operator that it is time to replace the battery (When “Always” option (default setting) under the Battery Warning function in the FPU is selected). If the battery voltage falls below 5.8V approximately, the transceiver does not transmit and a warning tone beeps when the PTT switch is pressed (When the Battery Warning Tone is selected in the FPU). 2.1.5.4 Key Input Keys and channel selector circuit. The signal from the keys and channel selector are directly input to the MCU, as shown in Figure 8. Selector PTT SW IC710 MCU 66 64 65 63 EN4 EN3 EN2 EN1 PTT Side1 Side2 59 Side1 60 61 Side2 Fig.8 Key input (No.RA002<Rev.001>)1-7 2.1.6 Signaling Circuit 2.1.6.1 Encode Low-speed data (QT, DQT) Low-speed data is output from pin 29 of the MCU. The signal passes through the low pass CR filter, and goes to the audio processor (IC705). The signal is mixed with the audio signal and goes to the VCO and TCXO (X1) modulation input after passing through the D/A converter inside the audio processor (IC705) for BAL adjustment. High-speed data (2-tone,DTMF) High-speed data (HSD) is output from pin 30 of the MCU. HSD deviation made by an adjustment in the MCU is passed through the low pass CR filter and is then mixed with the microphone signal before being applied to the baseband IC (IC705). The output of the baseband IC, MOD1 and MOD2, will be fed into the TCXO and VCO respectively. MSK (Fleet Sync/MDC-1200) The MSK signal is generated in the audio processor (IC705). The signal passes through the D/A converter (inside the baseband IC: IC705) and is routed to the VCO. When encoding the MSK, the microphone input signal is muted. 2.1.6.2 Decode QT/DQT The output signal from the FM IC (IC400) enters the MCU (IC710) through IC705. IC710 determines whether or not the QT or DQT matches the preset value, and controls the AFSW and speaker output sounds according to the squelch results. 2-tone Part of the received AF signal output from the FM IC (IC400) passes through the baseband IC (IC705), and is compared and output from MOD2 before going to the MCU (IC710). IC710 checks whether or not the 2-tone data is necessary. If it matches, IC710 carries out a specified operation, such as turning the speaker on. MSK (Fleet Sync) The MSK input signal from the FM IC (IC400) goes to IC705. The decoded information is then processed by the MCU. DTMF The DTMF input signal from the FM IC (IC400) goes to IC705. The decoded information is then processed by the MCU. 1-8 (No.RA002<Rev.001>) 2.1.7 Power Supply There are five 5V power supplies and five 3.3V power supplies: 50M, 50V, 50C, 50R, 50T, 33M, 33MS, 33B, 33R and 33MD. 50M and 33M are always output while the power is on. 33MS is always output, but turns off when the power is turned off, to prevent a malfunction of the MCU. 50C is a common 5V and is output when SAVE is not set to ON. 50R is 5V for reception and is output during reception. 50T is 5V for transmission and is output during transmission. 50V is 5V for the SP/MIC connector. 33B is 3.3V for the baseband IC (IC705) digital supply. 33R is 3.3V for the IF IC (IC400). 33MD is 3.3V for the MCU digital supply. F600 BATT +B 2.5A GND F601 IC703 AVR 33B IC603 AVR 50V 1A SB SB IC602 AVR 50C IC606 AVR IC710 MCU 5CC D600 IC601 AVR 50TC 33R 50M Q601 50T SW 50T Q602 50R SW 50R BATT 50RC IC715 AVR INT IC600 DET IC604 AVR 33M Q606 33MS SW VDDA 33MD 33MS IC605 DET RESET VDD1-VDD6 33MSC Fig.9 Power supply 2.1.8 NXDN Receiving 2.1.8.1 For Digital Data Mode The demodulated signal from IC400 (Pin13) is fed into the baseband IC (Pin 16) for NXDN decoding. The decoded digital data will pass to the MCU through the C-BUS. The MCU determines whether or not to output sound from the speaker by checking if the data matches. (No.RA002<Rev.001>)1-9 2.1.8.2 For Digital Voice Mode If the digital data matches in the MCU, the digital voice payload data will go into the Vocoder in the MCU for conversion to PCM. The PCM data will go to the baseband IC through the SPI input, where it will be converted to analog by the DAC. Analog voice will be filtered and finally sent to the audio amplifier. IC705 Baseband IC 13 16 NXDN decoder C-BUS DAC IC400 FM IC IC710 MCU Audio Output SPI 43 54 3 79 C-BUS Vocoder To Audio AMP Fig.10 NXDN receiver system 2.1.9 NXDN Transmitting 2.1.9.1 For Digital Data Mode The digital data will be generated by the MCU, where it will be passed to the baseband IC, through the C-BUS for the encoding process. The encoded data will finally transmit through the TCXO and VCO modulation. 2.1.9.2 For Digital Voice Mode The analog voice from the microphone will go to the ADC (after the audio filter) to convert to PCM data. The PCM data will be sent to the Vocoder through the SPI output. The Vocoder will convert the PCM to NXDN protocol, where it will be sent to the baseband through the C-BUS. In the baseband IC, the data will be encoded and finally transmitted through the TCXO and VCO modulation. IC705 Baseband IC TCXO IC710 MCU 23 NXDN encoder Audio Filter VCO C-BUS ADC 24 SPI 42 53 1 80 C-BUS Vocoder From MIC Fig.11 NXDN transmit system 2.2 SEMICONDUCTOR DATA 2.2.1 MCU: 2F405VGT6KFAA (TX-RX unit IC710) Pin No. Name I/O Function Pin No. Name 17 VOX 18 OPT4 I/O I Function VOX level input I/O Option port 4 1 MINVOL O Minimum volume control 19 VDD - 33MD 2 DCSW O APC voltage discharge switch 20 VSSA - GND 3 APCSW O APC switch 21 VREF+ - 33M 4 TEST_1 O Test land 1 22 VDDA - 33M 5 TEST_2 O Test land 2 23 5CC O 5C control 6 VBAT - 3.3V 24 CVIN I 7 BLULED O Blue LED light control (Hi: LED ON) VCO lock voltage (for automatic alignment) 8 BSHIFT O MPU clock frequency shift 25 EMPTT O Emergency PTT 9 INSPMT O Internal speaker mute 26 50VC O 10 VSS1 - GND 5V AVR control for GPS MIC option/OPT detection 11 VDD1 - 3.3V 27 VSS2 - GND 12 XIN I Crystal (19.2MHz) 28 VDD3 - 33MD 13 NC O No connection 29 LSDO O QT/DQT output 14 NRST I MCU reset input 15 LSDI I QT/DQT decode 16 HSDDEC I 2-tone decode 1-10 (No.RA002<Rev.001>) 30 HSDENC O BEEP/HSD output 31 5RC O 5R control 32 5TC O 5T control 33 BATT I Battery level input Pin No. Name 34 RSSI I/O I Function Pin No. Name I/O Function RSSI input 79 CML_EPSO O SPI output 35 BUSY I BUSY input 80 CML_EPSI I SPI input 36 TH_DET I Thermistor detection (Temperature detection) 81 EEP_DATAI I Data input for EEPROM 82 EEP_DATAO O Data output to EEPROM 37 33MSC I/O 33M switch control 83 EEP_CS O Chip select for EEPROM 38 OPT1 O Option port 1 84 EEP_CLK O Clock for EEPROM 39 OPTDET I Option detection 85 EEP_WP O Write protect for EEPROM 40 GRNLED O Green LED control (Hi: LED ON) 86 PLL_DATA O Data output for PLL 41 REDLED O Red LED control (Hi: LED ON) 87 PLL_LE O Chip select for PLL 42 MIC_MT O MIC mute 88 PLL_CLK O Clock for PLL 43 EXTSPMT O Speaker mute 89 SWO O SWO for SWD 44 ASSTSW O Assist switch 90 SRST I SRST for SWD 45 TX/RX O TX/RX switch (Hi: TX, Lo: RX) 91 OPT5 I/O Option port 5 46 INSPSW O Internal speaker switch 92 OPT6 I/O Option port 6 47 TEST_TX O UART_TX for test 93 OPT7 I/O Option port 7 48 TEST_RX I UART_RX for test 94 NC 49 VCAP_1 - 2.2uF 95 GPIO6 I/O No connection 50 VDD4 - 33MD 96 GPIO7 I/O No connection 51 CML_CSN O Chip select for baseband IC 97 INT I Interrupt 52 CML_SCLK O SCLK for baseband IC 98 CML_IRQN I IRQ for baseband IC 53 CML_CDATA O Command for baseband IC 99 PDR_ON - GND 54 CML_RDATA I REPLY for baseband IC 100 VDD6 - 33MD 55 FM_RSTN O Hardware reset for FM IC 56 FM_CSN O Chip select for FM IC 2.3 57 FM_SCLK O Clock for FM IC 2.3.1 TX-RX unit (X57-8500-10) 58 FM_SDATA I/O Data I/O for FM IC 59 PTT I PTT key 60 PF1 I Programmable function key input 1 61 PF2 I Programmable function key input 2 62 FM_PDN O Power down port for LDO of FM IC 63 EN1 I Encoder input 1 64 EN3 I Encoder input 3 65 EN2 I Encoder input 2 66 EN4 I Encoder input 4 67 OPT3 I/O Option port 3 68 TXD O Serial data to MIC jack 69 RXD I Serial data from MIC jack 70 PLL_UL I Unlock voltage for PLL 71 OPT2 I/O Option port 2 72 SWDIO I/O SWDIO for SWD 73 VCAP_2 - 2.2uF 74 VSS3 - GND 75 VDD5 - 33MD 76 SWCLK I/O SWCLK for SWD 77 CML_SSOUT I SPI chip select for baseband IC 78 CML_EPSCLK I Clock for SPI I No connection COMPONENTS DESCRIPTION Ref. No. Part Name Description IC2 IC PLL System IC3 IC DC amplifier (CV) IC200 IC DC amplifier (APC) IC400 IC IF System IC600 IC Voltage detector (INT) IC601 IC Voltage regulator (50M) IC602 IC Voltage regulator (50C) IC603 IC Voltage regulator (50V) IC604 IC Voltage regulator (33M) IC605 IC Voltage detector (Reset) IC606 IC Voltage regulator (33R) IC700 IC EEPROM IC703 IC Voltage regulator (33B) IC704 IC DC amplifier (BPF tune) IC705 IC Baseband system IC706 IC DC amplifier (VOX) IC707 IC AF power amplifier (EXT) IC708 IC AF amplifier IC709 IC AF power amplifier (INT) (No.RA002<Rev.001>)1-11 Ref. No. IC710 Part Name IC Description Ref. No. MCU Q715 Part Name Description Transistor Q714 control AF switch (EXT SP) IC713 IC Crystal oscillator amplifier Q716 FET IC715 IC Voltage regulator (33MD) D2 Variable capacitance diode RX VCO tune IC717 IC AF amplifier D3 Variable capacitance diode TX VCO tune Q1 FET DC switch (MOD) D4 Variable capacitance diode RX VCO tune Q2 Transistor PLL Fin amplifier D5 Variable capacitance diode TX VCO tune Q3 FET Q1 control D6, 7 Variable capacitance diode RX VCO tune Q4 Transistor Rippler filter D8, 9 Variable capacitance diode TX VCO tune Q5 FET RX VCO D10 Diode Q6 FET TX VCO D11 Variable capacitance diode TX assist Q7 FET Q8 control D12 Variable capacitance diode RX assist Q8 FET TX/RX VCO DC switch D13 Variable capacitance diode Modulation Q9 Transistor Buffer amplifier D14, 15 Diode TX/RX switch Speed up Q10 Transistor RF amplifier D200 Zener diode Over voltage protection Q201 Transistor Pre-drive amplifier Diode Antenna switch Q203 Transistor Discharge switch D201204 Q205 FET APC control switch Variable capacitance diode RX BPF tuning Q206 FET Drive amplifier D401404 Q207 Transistor DC switch (APC) D600 Diode Voltage drop Q208 FET Final amplifier D601 LED Green (BUSY) Q209 FET DC switch (Power control) D602 LED Red (TX) Q210 Transistor DC switch (Power control) D603 Diode Voltage prevention Q400 Transistor 2nd local amplifer D604 LED Blue Q403 Transistor 1st IF amplifier D700, 701 Diode AF detector (MIC) Q404 FET 1st mixer D702 Diode AF detector (VOX) Q405 FET RX RF amplifier D703 Diode Limiter Q600 Transistor DC switch (BUSY LED) Q601 FET DC switch (50T) Q602 FET DC switch (50R) Q603 FET DC switch (MIN VOL) Q604 Transistor DC switch (RED LED) Q605 Transistor DC switch (BLUE LED) Q606 FET DC switch (33MS ) Q703 FET Level shift (TXD) Q704 Transistor MIC mute switch Q705 Transistor MIC AGC amplifier Q706 Transistor MIC AGC amplifier Q707 FET Level shift (RXD) Q708 Transistor DC switch (EXT PTT) Q709 Transistor Q710 control Q710 Transistor DC switch (IC707 SB) Q711 Transistor Q715 control Q712 Transistor Pop noise mute control Q713 FET AF switch (EXT SP) Q714 Transistor DC switch (IC709 SB) 1-12 (No.RA002<Rev.001>) SECTION 3 DISASSEMBLY 3.1 Precautions for Disassembly 3.1.1 Removing the Case Assembly from the Chassis (1) Remove the selector knob <1> and volume knob <2>. (2) Remove the two screws <3>. (3) Lift and remove the chassis from the case assembly <4>. (Use a flat-blade screwdriver to easily lift the chassis.) <2> <1> Note: You can remove the TX-RX unit from the chassis without removing the solder at the positive terminal. However, in this case, you cannot attach the packing (G53-2218-03) that is on the positive terminal to the chassis during assembly. So, we advise you to remove the solder on the positive terminal first. (4) Remove the FPC from the flat cable connector <10>. (5) Lift and remove the TX-RX unit from the chassis <11>. <3> <3> <8> <4> <7> <7>x2 <7> 3.1.2 Removing the Holder Assembly from the Chassis (1) Remove the packing <5> from the SMA, volume and selector. (2) Remove the holder from the chassis. <7>x2 <7> <7> <7>x4 <11> Note: Take care to not cut the speaker and microphone leads. (3) Detach the solder of the speaker and microphone leads from the PCB beforehand. (4) Remove the packing <6> from the SP/MIC jack of the TXRX unit. <10> <9> RED Note: To remove the Holder Assy from the Chassis, use RED a flat-blade screwdriver and BLACK insert to this hole. M- M+ BROWN <5> 3.1.4 Removing the Battery Release Lever from the Case Assembly (1) Press the upper part of the lever toward the inside of the case assembly. One side of the shaft will be removed <1>. (2) Lift and remove the battery release lever from the case assembly <2>. S+ Note: Scratch and widen the glue hole if you are having difficulty removing the other end of the shaft. No glue is required when you reassemble the battery release lever. S- <6> 3.1.3 Removing the TX-RX unit from the Chassis (1) Remove the twelve screws <7> fixing the TX-RX unit. (2) Remove the solder of the antenna terminal with a soldering iron <8>. (3) Remove the solder of the positive terminal with a soldering iron <9>. <2> <1> (No.RA002<Rev.001>)1-13 3.2 Precautions for Reassembly 3.2.1 Attaching the Battery Release Lever to the Case Assembly (1) Insert one side of the shaft into the hole at the lever fitting section on the case assembly <1>. Caution: Position the thin spring (G01-4543-14) above the two tabs of the lever. (2) Tilt the battery release lever slightly forward <2>, so that the thick spring (G01-4542-04) is positioned below the case surface. (3) With the thick spring positioned below the case surface, attach the other side of the shaft to the case assembly by pressing the battery release lever <3> until it snaps into place <4>. Caution: Be careful to not tilt the battery release lever too far forward. If the battery release lever is pushed in this state where the two tabs come below the case surface, there is a possibility of damaging the two tabs. A thin spring Tow tabs Shaft A thick spring <1> <2> 3.2.2 (1) (2) (3) Assembling the Battery Release Lever Place the lever <2> onto the stopper <1>. Place the thick spring <3> onto the lever. Hook the right and left ends of the thin spring <4> onto the tabs of the stopper, then place the thin spring onto the lever <5>. (4) Slide the shaft through the hole of the stopper and lever <6>. <4> <3> <5> <2> <6> <1> 3.2.3 Attaching the Positive Terminal to the Chassis Always attach the positive terminal to the chassis using the following procedures, before mounting the TX-RX unit onto the chassis. (1) Remove the holder assembly <2> from the packing <1> of the positive terminal. (2) Mount the packing of the positive terminal into the chassis hole <3>. (3) Mount the holder assembly into the packing of the positive terminal <4>. <2> <4> <3> <4> <1> <3> 1-14 (No.RA002<Rev.001>) 3.2.4 Mounting the Chassis to the Case Assembly (1) Confirm that the waterproof packing attached to the circumference of the chassis is securely inserted in the groove of the chassis <1>. (2) Insert the upper part of the chassis into the case assembly <2>. (3) Press the chassis <3> and the case assembly together to attach them. Caution: If the packing of the SP/MIC is not at the correct position after attaching the chassis to the case assembly, reposition the packing with your fingers. 3.2.6 The Nuts of the Volume Knob and Channel Knob Note that the shape, color and height of the nuts of the volume knob and channel knob are different from one another. (The nut of volume knob is silver, and the nut of channel knob is gold.) Use the following jig when removing the nuts of the volume knob and channel knob: • Jig (Part No.: W05-1012-00) for Volume knob (Long) for Selector knob (Short) <1> <2> <3> <3> 3.2.5 Attaching the Antenna Receptacle to the Chassis Screw the antenna receptacle to the chassis in the order shown in the drawing so that the antenna receptacle comes to the center of the case hole. Tighten this screw second. Tighten this screw first. (No.RA002<Rev.001>)1-15 SECTION 4 ADJUSTMENT 4.1 Test Equipment Required for Alignment Test Equipment 1. Standard Signal Generator (SSG) 2. Power Meter Major Specifications Frequency Range 100 to 520MHz Modulation Frequency modulation and external modulation Output -127dBm/0.1µV to greater than -47dBm/1mV Input Impedance 50Ω Operation Frequency 100 to 520MHz Measuring Range Vicinity of 10W 3. Deviation Meter Frequency Range 100 to 520MHz 4. Digital Volt Meter (DVM) Measuring Range 10mV to 10V DC Input Impedance High input impedance for minimum circuit loading 5. Oscilloscope 6. High Sensitivity Frequency Counter DC through 30MHz Frequency Range Frequency Stability 7. Ammeter 8. AF Volt Meter (AF VM) 9. Audio Generator (AG) 10. Distortion Meter 10Hz to 1000MHz 0.2ppm or less 5A Frequency Range 50Hz to 10kHz Voltage Range 1mV to 10V Frequency Range 50Hz to 5kHz or more Output 0 to 1V Capability 3% or less at 1kHz Input Level 50mV to 10Vrms 11. 8Ω Dummy Load Approx. 8Ω, 3W 12. Regulated Power Supply 5V to 10V, approx. 3A Useful if ammeter equipped Antenna connector adapter The antenna connector of this transceiver uses an SMA terminal. Use an antenna connector adapter [SMA(f) - BNC(f) or SMA(f) - N(f)] for adjustment. (The adapter is not provided as an option, so buy a commercially-available one.) Note: When using the battery jig, you must measure the voltage at the terminals of the battery jig. Otherwise, a slight voltage drop may occur within the power cable, between the power supply and the battery jig, especially while the transceiver transmits. Repair Jig (Chassis) Use jig (Chassis) for repairing the transceiver. Place the TXRX unit on the jig and fit it with screws. The jig facilitates the voltage check and protects the final amplifier FET when the voltage on the flow side of the TX-RX unit is checked during repairs. - Terminal (Black) Schematic diagram S - Terminal (Black) + C3 100 /25V C2 470P/25V R1 1.8M - C1 100P/25V Battery Jig (W05-1011-00) Connect the power cable properly between the battery jig installed in the transceiver and the power supply, and be sure output voltage and the power supply polarity prior to switching the power supply ON, otherwise over voltage and reverse connection may damage the transceiver, or the power supply or both. + Terminal (Red) Power cable + +Terminal (Red) 1-16 (No.RA002<Rev.001>) Power supply 4.2 Frequency and Signaling 4.3 The transceiver has been adjusted for the frequencies shown in the following table. When required, readjust them following the adjustment procedure to obtain the frequencies you want in actual operation. Test frequency Preparations for Tuning the Transceiver Before attempting to tune the transceiver, connect the unit to a suitable power supply. Whenever the transmitter is tuned, the unit must be connected to a suitable dummy load (i.e. power meter). The speaker output connector must be terminated with a 8Ω dummy load and connected to an AC voltmeter and an audio distortion meter or a SINAD measurement meter at all times during tuning. CH RX (MHz) TX (MHz) 1 155.05000 155.10000 2 136.05000 136.10000 3 173.85000 173.90000 TEST CH RX (MHz) TX (MHz) 4 155.00000 155.00000 Low 136.05000 136.10000 5 155.20000 155.20000 Low’ 145.55000 145.50000 155.05000 155.10000 5 reference level adjustments frequency 6 155.40000 155.40000 Center 7~16 - - High’ 164.55000 164.50000 High 173.85000 173.90000 Analog mode signaling No. RX TX 1 None None 2 None 20 Hz Square Wave 3 QT 67.0 Hz QT 67.0 Hz 4 QT 151.4 Hz QT 151.4 Hz 5 QT 210.7 Hz QT 210.7 Hz 6 QT 254.1 Hz QT 254.1 Hz 7 DQT D023N DQT D023N 8 DQT D754I DQT D754I 9 DTMF Decode (Code: 159D) DTMF Encode (Code: 159D) 10 None DTMF (Code: 9) 11 None MSK (1010..) 12 FleetSync: 100-1000 FleetSync: 100-1000 13 None Single Tone: 1000 Hz 14 2-tone Decode: A: 304.7 Hz B: 3106.0 Hz 2-tone Encode: A: 304.7 Hz B: 3106.0 Hz 15 None DTMF Tone: 1477 Hz 16 Single Tone: 979.9 Hz Single Tone: 979.9 Hz 17 None MSK PN9 18 None DTMF (Code: 3) 4.4 Adjustment Points TX-RX UNIT Component side view CVIN NXDN mode signaling No. RX TX 1 RAN1 RAN1 2 None PN9 3 RAN1 Maximum Deviation Pattern 4 FSW+PN9 Mod set-up *1 RAN: Radio Access Number PN9: Pseudo-Random Pattern (for production only) *1: To output 150Hz square wave (for production only) (No.RA002<Rev.001>)1-17 4.5 Common Section Item Condition Measurement Testequipment 1. Setting 1) Power supply voltage DC power supply terminal : 7.5V 2. Receive Assist voltage 1) Auto tuning *Note 1 2) CH: Low *Note 2 3. Transmit Assist voltage Unit Adjustment Terminal Unit FPU DVM TX-RX CVIN 2) CH: Low *Note 2 4.0 ± 0.1V Check 1) Auto tuning *Note 1 FPU DVM Specifications /Remarks Parts Method TX-RX CVIN 0.6V or more (at CVIN terminal) 4.0 ± 0.1V Check 0.6V or more (at CVIN terminal) *Note 1: During test mode, click the [Tune Assist Voltage] button in test mode dialog box, then start automatic adjustment of the Receive/ Transmit assist voltage. *Note 2: The CV voltage checking of CH:2 (Default value) test frequency must be performed in test mode. 4.6 Transmitter Section Item Condition Measurement TestUnit Terminal equipment 1. Frequency (1)TEST CH: Center PTT ON Unit Parts Method Specifications /Remarks ANT FPU 155.100MHz ±30Hz 2. High Trans- (1)TEST CH: Low, Low', Center, Power mit Power High', High (5 point) meter (2)Baterry Terminal voltage: Ammeter 7.5V (3)PTT ON ANT FPU 5.0W ±0.1W 2.0A or less 3. Low Transmit Power (1)TEST CH: Low, Center, High Power (3 point) meter (2)Baterry Terminal voltage: Ammeter 7.5V (3)PTT ON ANT FPU 1.0W ±0.1W 1.0A or less 4. DQT Balance 1 *Note 3 (1)TEST CH: Low, Low', Center, High', High (5 point) (2)Deviation meter filter LPF: 3kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU Make the demodulation wave into square wave. 4. DQT Balance 2 *Note 3 (1)TEST CH: Low, Low', Center, High', High (5 point) (2)Deviation meter filter LPF: 3kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU The Deviation of ±15Hz 20Hz frequency isfixed. Change the 1kHz adjustment value to become the same deviation of 20Hz within the specified range. 5. Maximum (1)TEST CH: Low, Low', Center, Deviation (AnaHigh', High (5 point) log Narrow) (2)Deviation meter filter LPF: 15kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU 2.0kHz (According to ±50Hz larger +, -) Note: FPU auto input 1kHz/ 150mV 1-18 (No.RA002<Rev.001>) Frequency counter Adjustment Item Condition Measurement TestUnit Terminal equipment 6. Maximum Deviation (NXDN Very Narrow) *Note 4 Adjustment Unit Parts Specifications /Remarks Method Deviation meter Oscilloscope ANT FPU 1.337kHz ±50Hz 7. CW ID Devi- (1)TEST CH: Center (2)Deviation meter filter ation (NXDN LPF: 15kHz Very Narrow) HPF: OFF *Note 4 (3)PTT ON Deviation meter Oscilloscope ANT FPU 1.00kHz ±100Hz 8. DQT Deviation (Analog Narrow) (1)TEST CH: Center (2)Deviation meter filter LPF: 3kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU 0.35kHz ±40Hz 9. QT Deviation (1)TEST CH: Center (Analog Nar- (2)Deviation meter filter row) LPF: 3kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU 0.35kHz ±40Hz 10. DTMF Deviation (Analog Narrow) (1)TEST CH: Center (2)Deviation meter filter LPF: 15kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU 1.5kHz ±50Hz 11. MSK Deviation (Analog Narrow) (1)TEST CH: Center (2)Deviation meter filter LPF: 15kHz HPF: OFF (3)PTT ON Deviation meter Oscilloscope ANT FPU 1.5kHz ±50Hz (1)TEST CH: Low, Low', Center, High', High (5 point) (2)Deviation meter filter LPF: 15kHz HPF: OFF (3)PTT ON *Note 3: Only 1 DQT Balance needs to be adjusted (either DQT Balance 1 or DQT Balance 2). *Note 4: For the adjustment of the Maximum Deviation (NXDN Very Narrow) and CW ID Deviation (NXDN Very Narrow). After adjusting the DQT Balance and Maximum Deviation (Analog), it is necessary to adjust the Maximum Deviation (NXDN Very Narrow) and CW ID Deviation (NXDN Very Narrow). 4.7 Receiver Section Item Condition Measurement Adjustment TestUnit Terminal Unit Parts equipment 1. RX Sensitivity (Semiautomatic) Method (1)TEST CH: Low, Center, High (3 point) (2)SSG output: -90dBm (7.08uV) AF Freq : 1kHz Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) 2. Open Squelch 5 (1)TEST CH: Low, Center, High (3 point) (Analog Narrow) (2)SSG output: -120dBm (0.22uV) AF Freq : 1kHz Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) 2. Open Squelch 5 (1)TEST CH: Low, Center, High (3 point) (NXDN Very Narrow) (2)SSG output: Low : -123dBm (0.158uV) Center, High : -124dBm (0.14uV) AF Freq : 400Hz Mod Dev : ±1.1kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) *Note 5 Specifications /Remarks (No.RA002<Rev.001>)1-19 Item Condition Measurement Adjustment TestUnit Terminal Unit Parts equipment Method 3. Tight squelch (Analog Narrow) (1)TEST CH: Low, Center, High (3 point) (2)SSG output: -116dBm (0.35uV) AF Freq : 1kHz Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) 4. Low RSSI (Analog Narrow) (1)TEST CH: Low, Center, High (3 point) (2)SSG output: -120dBm (0.22uV) AF Freq : 1kHz Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) 4. Low RSSI (1)TEST CH: Low, Center, High (3 point) (NXDN Very Narrow) (2)SSG output: -120dBm (0.22uV) AF Freq : 1kHz *Note 6 Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) 5. High RSSI (Analog Narrow) (1)TEST CH: Low, Center, High (3 point) (2)SSG output: -80dBm (22.4uV) AF Freq : 1kHz Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) 5. High RSSI (1)TEST CH: Low, Center, High (3 point) (NXDN Very Narrow) (2)SSG output: -80dBm (22.4uV) AF Freq : 1kHz *Note 6 Mod Dev : ±1.5kHz SSG Oscilloscope Audio Analyzer ANT FPU Press [Start] (Auto tuning) *Note 6 *Note 6 Specifications /Remarks *Note 5: (1) Only RX Sensitivity (Semiautomatic) needs to be adjusted (RX Sensitivity does not need to be adjusted again). *Note 6: (1) If Analog Narrow band RSSI tuning is selected, Analog Narrow band and NXDN Very Narrow will be adjusted with the same tuning value. (2) If NXDN Very Narrow RSSI tuning is selected, it will adjust for the NXDN Very Narrow band only. SECTION 5 TROUBLESHOOTING 5.1 SYSTEM SET-UP Merchandise received Frequency range (MHz) RF power Type Choose the type of transceiver TX/RX 136~174 5.0W NX-240 K, P NX-240(V) K Transceiver programming Are you using the optional antenna? A personal computer, programming interface (KPG-22A/22U), and FPU (programming software) are required for programming. (The frequency, TX power HI/LOW, and signaling data are programmed for the transceiver.) YES KRA-22, KRA-26 or KRA-41 Optional antenna YES KMC-21, KMC-45 Speaker microphone or KMC-48GPS GPS speaker microphone NO Are you using the speaker microphone? NO Delivery 1-20 (No.RA002<Rev.001>) (Option) 5.2 REALIGNMENT 5.2.3 PC Mode 5.2.1 Modes User mode Data programming mode PC mode PC test mode 5.2.3.1 Preface The transceiver is programmed by using a personal computer, a programming interface (KPG-22A/22U) and the FPU (programming software). The programming software can be used with a PC. Figure 1 shows the setup of a PC for programming. PC PC tuning mode KPG-22A or KPG-22U Wireless clone mode Mode Function User mode For normal use. PC mode Used to communication between the transceiver and PC. Data programming Used to read and write frequency data and mode other features to and from the transceiver. PC test mode Used to check the transceiver using the PC. This feature is included in the FPU. Wireless clone mode Used to transfer programming data from one transceiver to another. FPU Gray Gray/Black 1.5D-XV Lead wire 1.5D-XV Shield wire + – + – SP MIC 5.2.2 How to Enter Each Mode Mode Operation User mode Power ON PC mode Received commands from PC Wireless clone mode [PTT] + [Side2] + Power ON (Two seconds) Tuning cable (E30-3216-05) PC PC D-SUB (9-pin) USB KPG-22A Transceiver KPG-22U Transceiver Fig.1 5.2.3.2 Connection procedure (1) Connect the transceiver to the computer using the interface cable. Note: You must install the KPG-22U driver in the computer to use the USB programming interface cable (KPG-22U). (2) When the Power is switched on, you can immediately enter user mode. When the PC sends a command, the transceiver enters PC mode. When data is transmitting from the transceiver, the red LED lights. When data is being received by the transceiver, the green LED lights. Note: • The data stored in the computer must match the “Model Name and Model Type” when it is written into the EEPROM. • Do not press the [PTT] key during data transmission or reception. (No.RA002<Rev.001>)1-21 5.2.3.3 KPG-22A description (PC programming interface cable: Option) The KPG-22A is required to interface the transceiver with the computer. It has a circuit in its D-sub connector (KPG-22A: 9-pin) case that converts the RS-232C logic level to the TTL level. The KPG-22A connects the SP/MIC connector of the transceiver to the RS-232C serial port of the computer. 5.2.3.4 KPG-22U description (USB programming interface cable: Option) The KPG-22U is a cable which connects to a USB port on a computer. When using the KPG-22U, install the supplied CD-ROM (with driver software) in the computer. The KPG-22U driver runs under Windows XP, Vista, 7 or 8. The latest version of the USB driver is available for download from the following URL: http://www.kenwood.com/usb-com/ (This URL may change without notice.) 5.2.3.5 Programming software description The FPU is the programming software for the transceiver supplied on a CD-ROM. This software runs under Windows XP, Vista, 7 or 8 on a PC. The software on this disk allows a user to program the transceiver via the Programming interface cable (KPG-22A/22U). • Use the FPU that matches the market when you first set the market code and model name/frequency data to the service unit. A unit set by mistake cannot be restored. • List of FPU for transceiver Model Type FPU NX-240 K, P KPG-169D NX-240(V) K KPG-170D 5.2.3.6 Programming with a PC If data is transferred to the transceiver from a PC with the FPU, the data for each set can be modified. Data can be programmed into the EEPROM in RS-232C format via the SP/MIC jack. In this mode, the PTT line operate as TXD and RXD data lines, respectively. 5.2.4 Wireless Clone Mode 5.2.4.1 Outline “Wireless Clone Mode” copies the transceiver data to another transceiver. The dealer can copy the transceiver data to another transceiver even without the use of a personal computer. 5.2.4.2 Example The transceiver can copy the programming data to one or more transceivers via RF communication. The clone source and clone target(s) must be in wireless clone mode. 5.2.4.3 Operation (1) To switch the clone target(s) to Wireless Clone mode, press and hold the [PTT] and [Side2] keys while turning the transceiver power ON. (2) Wait for 2 seconds. The LED will light orange and the transceiver will announce “Clone”. 1-22 (No.RA002<Rev.001>) (3) Select a channel table number using the Side1 (increment channel table) and Side2 (decrement channel table) keys. (4) To switch the clone source to wireless clone mode, press and hold the [PTT] and [Side2] keys while turning the transceiver power ON. (5) Wait for 2 seconds. The LED will light orange and the transceiver will announce “Clone”. (6) Select the same channel table number as the clone target(s). (7) Press [PTT] on the clone source to begin data transmission. When the clone target starts to receive data, the LED will light green. When the clone source finishes sending data, a “confirmation” tone will sound. If data transmission fails while cloning, an “error” tone will sound from the target unit. (8) If the cloning fails, no data will be available in the target unit when it is returned to User mode. (9) When the cloning is successful, the target unit’s “Scan” and “Key lock” functions will return to their default values (Scan = OFF, Key lock = OFF). Note: • The dealer can clone data to two or more transceivers by repeating the above procedures. • If the transceiver’s wireless clone Mode is configured as “Disabled”, it cannot enter Clone mode. • The table shown in the next page covers the frequencies used for wireless cloning. • Wireless clone mode cannot be entered in battery low state. • A unit cannot be a “Source Unit” if it is not programmed. If [PTT] is pressed, an “error” tone will sound. • The language available is only English. • Once a unit is set to be the source, it cannot be a target after the data has been transmitted. This protects the data in the source unit. • Electronic interface may cause a failure in data transfer during Wireless Cloning, such as when waveforms or electromagnetic fields are being performed at the workbench. • Wireless clone mode can be used ONLY by authorized service personnel. • The wireless clone mode setting must be configured as “Disable” before being delivered to the end-user. • To clone, replace the antenna from both the source transceiver and the target transceiver with a dummy load. • The transmit output power is automatically set to Low in clone mode. • Wireless clone mode does not function if Read Authorization Password or Overwrite Password has been configured in Data Password. • Clone frequency table 5.3 No. Operating frequency 136~174 (MHz) 1 136.150 2 138.150 3 140.150 4 142.150 5 144.150 6 146.150 7 148.150 8 150.150 9 152.150 10 154.150 11 156.150 12 158.150 13 160.150 14 162.150 15 164.150 16 166.150 17 168.150 18 170.150 19 172.150 20 174.150 After Changing the PCB (1) Using the KPG-169D (NX-240) / KPG-170D (NX-240V), select your desired item (Model Name and Frequency) from the Model> Product Information menu, then use Program> Write Data to the Transceiver to write the FPU data (PC Programming mode). When writing to the transceiver, a Warning Message, corresponding to the item selected, appears. Click [OK] to continue writing the data. (2) Enter Program> Test Mode, then adjust the various adjustment data (PC Test Mode) as described in the “SECTION 4 ADJUSTMENT" . (3) Attach the new labels corresponding to the new printed circuit board. (Refer to the images below for label placement.) (4) If necessary, write the FPU data used by the customer with the KPG-169D (NX-240) / KPG-170D (NX-240V). Note: • When a new printed circuit board is used, the KENWOOD ESN changes, as does the Transceiver Information display of the KPG-169D (NX-240) / KPG-170D (NX-240V), but this does not have any effect on the operation of the transceiver. • If changing to the original ESN, please contact our service center. Model Name Plate Label Layout Replacing TX-RX Unit TX-RX unit Information Model Name Original TX-RX unit For Service TX-RX Number unit Number NX-240 K X57-8500-10 X60-4120-10 NX-240V K X57-8500-10 X60-4120-11 NX-240 P X57-8500-10 X60-4121-01 KENWOOD ESN NXDN ESN Model Name Plate Label Supplied Accessories of "Service TX-RX unit" Item (Including Parts Number) Quantity TX-RX Unit (X60-412) 1 Model Name Plate 1 “Service TX-RX unit” Data The following data is written on the service TX-RX unit: Data Type Firmware Description NX-240/340 Firmware FPU Data X60-412 (NX-240/240V) K type data. (PC programming mode) X60-412 (NX-240) P type data. KENWOOD ESN Model name: NX-240 or NX-240V Type: K or P The same number as the Model Name Plate label is written. NXDN ESN The same number as the Model Name Plate label is written. (No.RA002<Rev.001>)1-23 5.4 TERMINAL FUNCTION 5.4.1 TX-RX unit (X57-8500-10) Pin No. Name I/O Function CN600 1 VOLOUT O Volume output to audio amplifier 2 VOLIN I Volume level input for audio control 3 SB I Power input after power switch 4 SB I Connect to pin 3 5 B O Power output after passing through the fuse 6 B O Connect to pin 5 7 VOLGND - GND for volume level 8 EN2 I Rotary switch input 9 EN4 I Rotary switch input 10 GND - GND 11 EN3 I Rotary switch input 12 EN1 I Rotary switch input 5.4.2 SP/MIC Connector Specification Pin No. Name I/O Signal Type Function I Digital PTT/RXD input 1 PTT/RXD 2 MICIN I Analog External MIC input 3 MICO O Analog Internal MIC output 4 OPTDET I Digital External option detection 5 50V O Power DC 5V output 6 AE - GND GND 7 TXD O Digital TXD output 8 NC - - No connection 9 NC - - No connection 10 SPO O Analog 1-24 (No.RA002<Rev.001>) Internal audio output MEMO (No.RA002<Rev.001>)1-25 PARTS LIST [NX-240,NX-240(V)] * SAFETY PRECAUTION Parts identified by the symbol are critical for safety. Replace only with specified part numbers. * BEWARE OF BOGUS PARTS Parts that do not meet specifications may cause trouble in regard to safety and performance. We recommend that genuine parts be used. * (x_) in a description column shows the number of the used part. - Contents Exploded view of general assembly and parts list Electrical parts list Packing materials and accessories parts list 3-2 3-4 3-10 (No.RA002<Rev.001>)3-1 Exploded view of general assembly and parts list Block No.M1MM 5 32 13 3 35 14 31 6 4 8 1 7 39 12 38 23 26 F 15 29 20 F F F 28 TX-RX UNIT<01> 11 27 36 16 37 2 9 A E 25 22 18 D C 10 24 D 17 21 B 34 19 33 3-2(No.RA002<Rev.001>) General assembly Block No. [M][1][M][M]  Symbol No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 31 32 33 34 35 36 37 38 39 A B C D E F Part No. Part Name A02-4228-03 A10-4177-01 B43-1693-04 B43-1694-04 B43-1700-04 D10-0649-03 D21-0863-04 D32-0441-13 E04-0477-15 E23-1253-14 E23-1395-04 E37-1288-05 G01-4542-04 G01-4543-14 G10-1348-04 G11-4465-04 G13-2009-04 G13-2033-04 G13-2034-14 G13-2448-04 G53-1604-03 G53-2215-03 G53-2216-03 G53-2217-02 G53-2218-03 J19-5578-12 J19-5579-03 J19-5580-03 J87-0054-05 J99-0783-04 K29-9612-03 K29-9614-03 K29-9615-03 K29-9625-03 R31-0670-25 S60-0450-05 T07-0805-05 T91-0659-15 N09-6621-05 N14-0849-05 N14-0869-05 N19-2214-05 N30-2604-48 N83-2005-48 PLASTIC CABINET ASSY CHASSIS BADGE(KENWOOD-FRONT) BADGE(KENWOOD) BADGE(NEXEDGE) LEVER SHAFT STOPPER RF COAXIAL RECEPTACLE(SMA) TERMINAL(GROUND) TERMINAL(+VE) PARALLEL CORD COIL SPRING(LEVER) COIL SPRING(STOPPER) FIBROUS SHEET(X57-IC) RUBBER SHEET(FET) CUSHION(CHASSIS) CUSHION(GROUND) CUSHION(CHASSIS) CUSHION(X57,SP) PACKING(CHASSIS) PACKING(SP/MIC) PACKING(SP) PACKING(VOLUME/SELECTOR) PACKING(+VE) HOLDER(SP) HOLDER(+VE) HOLDER ASSY FPC(VOLUME/SELECTOR) ADHESIVE SHEET(PTT) BUTTON KNOB(PTT) KNOB(VOLUME) KNOB(SELECTOR) BUTTON KNOB(PF) VARIABLE RESISTOR ROTARY SWITCH SPEAKER MIC ELEMENT PAN HEAD SCREW CIRCULAR NUT(VOLUME) CIRCULAR NUT(SELECTOR) SPECIAL WASHER(VOL/SELECTOR) PAN HEAD MACHINE SCREW PAN HEAD TAPTITE SCREW Description Local (x2) (x2) (x2) (x12) (No.RA002<Rev.001>)3-3 Electrical parts list TX-RX UNIT  Symbol No. X57-8500-10 Block No. [0][1]  Symbol No. Part No. Part Name IC2 IC3 IC200 IC400 IC600 IC601 IC602 IC603 IC604 IC605 IC606 IC700 IC703 IC704 IC705 IC706 IC707 IC708 IC709 IC710 IC713 IC715 IC717 AK1541 BD7542FVM BA2904FVM AK2365 XC61CN4502N-G XC6209B502P-G MM1856A50N XC6209B502P-G MM1856A33N BU4830F XC6209B332M-G EX25064ATA00A MM1856A33N BU7465HFV CMX7141 BU7465HFV TA7368PL BU7465HFV NJU7089KV1 2F405VGT6KFAA SM5023CNDH-G MM1856A33N BU7465HFV MOS-IC MOS-IC MOS-IC MOS-IC MOS-IC MOS-IC BI-POLAR IC MOS-IC BI-POLAR IC MOS-IC MOS-IC ROM IC BI-POLAR IC MOS-IC MOS-IC MOS-IC MOS-IC MOS-IC MOS-IC MICROPROCESSOR IC MOS-IC BI-POLAR IC MOS-IC Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 Q201 Q203 Q205 Q206 Q207 Q208 Q209 Q210 Q400 Q403 Q404 Q405 Q600 Q601 Q602 Q603 Q604 Q605 Q606 Q703 Q704 Q705 Q706 Q707 Q708 Q709 Q710 Q711 Q712 Q713 Q714 Q715 Q716 SSM3J36TUT 2SC5636 RE1C001UN KTC4075E(Y,GR) MCH3914(8)-H MCH3914(7)-H SSM6L36FE SSM3J36TUT 2SC5636 2SC5636 2SC5455-A LTC014TEBFS8 RE1C001UN RFM01U7P LTC014EEBFS8 RD07MUS2BT112 RE1L002SN LTA044EEBFS8 KTC4080E-P KTC4075E(Y,GR) BB506CFS-E BB506CFS-E LTC014EEBFS8 SSM6L36FE SSM6L36FE SSM3K127TUT LTC014EEBFS8 LTC014EEBFS8 SSM3J36TUT UM6K34N KTC4075E(Y,GR) 2SC4116(GR)F 2SA1586(Y,GR)F UPA672T-A LTC014EEBFS8 LTC014EEBFS8 2SB1694 LTC014EEBFS8 LTC044EEBFS8 2SK3577-A 2SB1132(Q,R) UMG3N 2SK3577-A FET TRANSISTOR FET TRANSISTOR FET FET FET FET TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR FET FET TRANSISTOR FET FET DIGITAL TRANSISTOR TRANSISTOR TRANSISTOR FET FET TRANSISTOR FET FET FET TRANSISTOR TRANSISTOR FET FET TRANSISTOR TRANSISTOR TRANSISTOR FET TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR TRANSISTOR FET TRANSISTOR TRANSISTOR FET D2 D3 1SV323F 1SV323F VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE 3-4(No.RA002<Rev.001>) Description Local Part No. Part Name Description D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D200 D201 D202 D203 D204 D401 D402 D403 D404 D600 D601 D602 D603 D604 D700 D701 D702 D703 1SV323F 1SV323F 1SV323F 1SV323F 1SV325F 1SV323F KDS160E-P BBY57-02V BBY57-02V 1SV305F 1SS390 1SS390 UDZW5.1(B) RN142S RN142S RN141S RN141S 1SV323F 1SV323F 1SV323F 1SV323F RB521S-30-TP B30-2314-05 B30-2315-05 GN1G B30-1790-05 RB706F-40 RB706F-40 1SS372F MC2850 VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE DIODE DIODE ZENER DIODE DIODE DIODE DIODE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE VARIABLE CAPACITANCE DIODE DIODE LED (GREEN) LED (RED) DIODE LED (BLUE) DIODE DIODE DIODE DIODE C6 C7 C8 C9 C11 C13 C15 C16 C18 C19 C22 C23 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C40 C41 C42 C43 C45 C46 C47 C48 C49 C50 C51 C54 C56 C57 C58 C59 C60 C61 C64 C65 CC73HCH1H101J C CAPACITOR CC73HCH1H100B C CAPACITOR CK73HB1E103K C CAPACITOR CC73HCH1H101J C CAPACITOR CC73HCH1H100B C CAPACITOR CC73HCH1H101J C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1E103K C CAPACITOR CS77MA1ER47M TA E CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR C93-1905-05 C CAPACITOR CK73HB1H102K C CAPACITOR CS77MA1V0R1M TA E CAPACITOR CK73HB1H471K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1A104K C CAPACITOR CC73HCH1H220J C CAPACITOR CK73HB1A105K C CAPACITOR CC73HCH1H150J C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H470J C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1A104K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H330J C CAPACITOR CC73HCH1H470J C CAPACITOR CC73HCH1H070B C CAPACITOR CC73HCH1H090B C CAPACITOR CC73HCH1H330J C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1HR75B C CAPACITOR CK73FB0J106K C CAPACITOR CC73HCH1H100B C CAPACITOR CC73HCH1H060B C CAPACITOR CK73HB1A105K C CAPACITOR CC73HCH1H180J C CAPACITOR CC73HCH1H050B C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1E103K C CAPACITOR 100PF J 10PF B 0.010UF K 100PF J 10PF B 100PF J 0.010UF K 0.010UF K 1000PF K 0.010UF K 1000PF K 0.010UF K 0.47UF 25WV 1000PF K 1000PF K 0.068UF J 1000PF K 0.1UF 35WV 470PF K 0.010UF K 0.10UF K 22PF J 1.0UF K 15PF J 1000PF K 47PF J 1000PF K 0.10UF K 1000PF K 1000PF K 33PF J 47PF J 7.0PF B 9.0PF B 33PF J 1000PF K 0.75PF B 10UF K 10PF B 6.0PF B 1.0UF K 18PF J 5.0PF B 0.010UF K 0.010UF K Local  Symbol No. C66 C68 C71 C72 C73 C74 C75 C76 C77 C78 C79 C80 C81 C82 C83 C84 C85 C86 C87 C88 C89 C90 C200 C201 C202 C207 C208 C210 C211 C212 C213 C214 C216 C218 C219 C220 C222 C224 C225 C226 C227 C228 C229 C230 C232 C233 C235 C236 C239 C240 C242 C245 C247 C249 C250 C252 C253 C257 C258 C259 C260 C262 C263 C264 C268 C269 C270 C271 C272 C273 C274 C275 C276 C277 C278 C279 C280 C400 Part No. Part Name CC73HCH1H0R5B C CAPACITOR CC73HCH1H010B C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H330J C CAPACITOR CC73HCH1H050B C CAPACITOR CC73HCH1H150J C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1A104K C CAPACITOR CC73HCH1H220J C CAPACITOR CC73HCH1H180J C CAPACITOR CC73HCH1H220J C CAPACITOR CC73HCH1H180J C CAPACITOR CC73HCH1H101J C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H103K C CAPACITOR CK73HB1A473K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1A224K C CAPACITOR CK73HB1A224K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H470J C CAPACITOR CC73HCH1H390J C CAPACITOR CC73HCH1H390J C CAPACITOR CK73HB1A224K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H390J C CAPACITOR CK73HB1A104K C CAPACITOR CC73HCH1H300J C CAPACITOR CC73HCH1H180J C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73FB1A475K C CAPACITOR CC73HCH1H680J C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H470J C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H470J C CAPACITOR CC73HCH1H100B C CAPACITOR CC73HCH1H151J C CAPACITOR CC73HCH1H151J C CAPACITOR CC73GCH1H390J C CAPACITOR CK73GB1A105K C CAPACITOR CK73GB1C104K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73GCH1H560J C CAPACITOR CC73GCH1H390J C CAPACITOR CK73HB1H102K C CAPACITOR CC73GCH1H120J C CAPACITOR CC73GCH1H220J C CAPACITOR CK73HB1A104K C CAPACITOR CK73HB1H102K C CAPACITOR CK73GB1H102K C CAPACITOR CK73GB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H040B C CAPACITOR CC73GCH1H110J C CAPACITOR CK73GB1H102K C CAPACITOR CC73GCH1H100C C CAPACITOR CC73GCH1H160J C CAPACITOR CC73GCH1H200J C CAPACITOR CC73GCH1H060B C CAPACITOR CC73GCH1H030B C CAPACITOR CC73GCH1H220J C CAPACITOR CC73GCH1H070B C CAPACITOR CC73GCH1H100C C CAPACITOR CK73HB1A104K C CAPACITOR Description 0.5PF B 1.0PF B 1000PF K 33PF J 5.0PF B 15PF J 1000PF K 1000PF K 0.10UF K 22PF J 18PF J 22PF J 18PF J 100PF J 1000PF K 0.010UF K 0.047UF K 0.010UF K 1000PF K 1000PF K 0.22UF K 0.22UF K 1000PF K 1000PF K 47PF J 39PF J 39PF J 0.22UF K 1000PF K 1000PF K 1000PF K 1000PF K 39PF J 0.10UF K 30PF J 18PF J 1000PF K 1000PF K 1000PF K 1000PF K 4.7UF K 68PF J 1000PF K 47PF J 1000PF K 1000PF K 47PF J 10PF B 150PF J 150PF J 39PF J 1.0UF K 0.10UF K 1000PF K 1000PF K 1000PF K 56PF J 39PF J 1000PF K 12PF J 22PF J 0.10UF K 1000PF K 1000PF K 1000PF K 1000PF K 4.0PF B 11PF J 1000PF K 10PF C 16PF J 20PF J 6.0PF B 3.0PF B 22PF J 7.0PF B 10PF C 0.10UF K Local  Symbol No. C402 C403 C404 C405 C406 C407 C409 C410 C412 C413 C414 C419 C421 C422 C424 C425 C426 C428 C429 C430 C431 C432 C433 C434 C435 C436 C437 C438 C439 C440 C441 C442 C443 C444 C445 C446 C447 C450 C452 C453 C454 C455 C456 C457 C458 C459 C460 C461 C464 C465 C466 C468 C469 C470 C471 C472 C474 C475 C478 C484 C485 C486 C487 C488 C489 C491 C492 C493 C494 C495 C496 C497 C600 C601 C602 C603 C604 C605 Part No. Part Name CC73HCH1H470J C CAPACITOR CK73HB1E103K C CAPACITOR CC73HCH1H180J C CAPACITOR CC73HCH1H820J C CAPACITOR CK73HB1H271K C CAPACITOR CC73HCH1H390J C CAPACITOR CC73HCH1H820J C CAPACITOR CK73HB1H271K C CAPACITOR CC73HCH1H560J C CAPACITOR CK73HB1H182K C CAPACITOR CK73HB1H681K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1A333K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1E103K C CAPACITOR CC73HCH1H020B C CAPACITOR CC73HCH1H180J C CAPACITOR CC73HCH1H100B C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H100B C CAPACITOR CK73HB1E103K C CAPACITOR CC73HCH1H020B C CAPACITOR CC73HCH1H100C C CAPACITOR CC73HCH1H130J C CAPACITOR CC73HCH1H030B C CAPACITOR CC73HCH1H030B C CAPACITOR CK73HB1E103K C CAPACITOR CC73HCH1H010B C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H020B C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H2R5B C CAPACITOR CC73HCH1H680J C CAPACITOR CC73HCH1H1R5B C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H1R5B C CAPACITOR CC73HCH1H220J C CAPACITOR CC73HCH1H4R5B C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1H102K C CAPACITOR CK73HB1A104K C CAPACITOR CC73HCH1H080B C CAPACITOR CC73HCH1H2R5B C CAPACITOR CC73HCH1H330J C CAPACITOR CK73HB1H102K C CAPACITOR CC73HCH1H2R5B C CAPACITOR CC73HCH1H300J C CAPACITOR CC73HCH1H070B C CAPACITOR CC73HCH1H080B C CAPACITOR CK73HB1H102K C CAPACITOR CK73GB0J106K C CAPACITOR CK73HB1A104K C CAPACITOR CK73HB1A224K C CAPACITOR CK73HB1A105K C CAPACITOR CK73HB1A105K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1E103K C CAPACITOR CK73HB1A224K C CAPACITOR CK73HB1A104K C CAPACITOR CK73GB0J106K C CAPACITOR CK73HB1A104K C CAPACITOR CK73GB1A105K C CAPACITOR CK73GB1A105K C CAPACITOR CK73GB1C225K C CAPACITOR CK73GB1A105K C CAPACITOR CK73HB1H102K C CAPACITOR CK73GB1A105K C CAPACITOR Description Local 47PF J 0.010UF K 18PF J 82PF J 270PF K 39PF J 82PF J 270PF K 56PF J 1800PF K 680PF K 1000PF K 0.033UF K 0.010UF K 0.010UF K 1000PF K 0.010UF K 2.0PF B 18PF J 10PF B 1000PF K 0.010UF K 1000PF K 10PF B 0.010UF K 2.0PF B 10PF C 13PF J 3.0PF B 3.0PF B 0.010UF K 1.0PF B 1000PF K 1000PF K 2.0PF B 1000PF K 1000PF K 1000PF K 1000PF K 1000PF K 2.5PF B 68PF J 1.5PF B 1000PF K 1.5PF B 22PF J 4.5PF B 1000PF K 1000PF K 1000PF K 1000PF K 0.10UF K 8.0PF B 2.5PF B 33PF J 1000PF K 2.5PF B 30PF J 7.0PF B 8.0PF B 1000PF K 10UF K 0.10UF K 0.22UF K 1.0UF K 1.0UF K 0.010UF K 0.010UF K 0.22UF K 0.10UF K 10UF K 0.10UF K 1.0UF K 1.0UF K 2.2UF K 1.0UF K 1000PF K 1.0UF K (No.RA002<Rev.001>)3-5  Symbol No. C606 C607 C609 C610 C611 C612 C613 C615 C616 C618 C620 C621 C623 C624 C625 C626 C628 C629 C630 C631 C700 C704 C706 C711 C718 C719 C720 C723 C730 C732 C734 C735 C736 C737 C739 C740 C741 C742 C743 C744 C745 C746 C747 C748 C749 C750 C751 C754 C756 C758 C759 C760 C761 C762 C763 C764 C765 C766 C767 C768 C769 C770 C771 C772 C773 C774 C775 C777 C778 C779 C780 C781 C782 C783 C784 C785 C786 C787 Part No. Part Name Description CK73GB1A105K CK73GB1A105K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1A104K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73GB1A105K CK73HB1H102K CK73GB1A105K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1E103K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1A104K CK73HB1H102K CK73HB1A104K CK73HB1H102K CK73GB1A105K CK73GB1A105K CK73GB1A105K CK73HB1H102K CK73GB0J106K CK73GB0J106K CK73HB1H102K CK73HB1A105K CK73HB1E103K CK73HB1A104K CK73GB0J106K CK73HB1H102K CK73HB1H103K CK73GB0J106K CK73HB1A104K CK73HB1H102K CK73HB1H152K CK73HB1A105K CC73HCH1H101J CC73HCH1H101J CC73HCH1H271J CC73HCH1H101J CK73HB1A105K CK73HB0J475M CK73HB1A105K CK73HB1A474K CK73HB1A474K CK73HB1H102K CK73HB1A473K CK73HB1H102K CK73HB1H102K CK73HB1A474K CK73GB0J225K CK73GB0J225K CK73HB1A474K CK73HB1H102K CK73HB1H102K CC73HCH1H470J CK73HB1H102K CK73HB1H102K CK73HB1A104K CK73HB1A683K CK73HB1H102K CK73GB0J106K CK73HB1H102K CK73HB1A104K CK73HB1H102K CK73GB1A105K CK73GB1C225K CK73GB0J106K CK73HB1A224K CK73HB1A104K C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR 1.0UF K 1.0UF K 1000PF K 1000PF K 1000PF K 0.10UF K 1000PF K 1000PF K 1000PF K 1.0UF K 1000PF K 1.0UF K 1000PF K 1000PF K 1000PF K 1000PF K 1000PF K 0.010UF K 1000PF K 1000PF K 1000PF K 1000PF K 0.10UF K 1000PF K 0.10UF K 1000PF K 1.0UF K 1.0UF K 1.0UF K 1000PF K 10UF K 10UF K 1000PF K 1.0UF K 0.010UF K 0.10UF K 10UF K 1000PF K 0.010UF K 10UF K 0.10UF K 1000PF K 1500PF K 1.0UF K 100PF J 100PF J 270PF J 100PF J 1.0UF K 4.7UF M 1.0UF K 0.47UF K 0.47UF K 1000PF K 0.047UF K 1000PF K 1000PF K 0.47UF K 2.2UF K 2.2UF K 0.47UF K 1000PF K 1000PF K 47PF J 1000PF K 1000PF K 0.10UF K 0.068UF K 1000PF K 10UF K 1000PF K 0.10UF K 1000PF K 1.0UF K 2.2UF K 10UF K 0.22UF K 0.10UF K 3-6(No.RA002<Rev.001>) Local  Symbol No. Part No. Part Name Description C788 C789 C790 C791 C792 C794 C795 C798 C801 C802 C805 C806 C807 C808 C809 C812 C814 C815 C851 C852 C853 C905 C906 C907 C908 C909 C910 C911 C912 C913 C914 C915 C920 C921 C922 C923 C924 C925 C970 C971 C980 C981 C982 C983 C984 C985 C986 C989 C999 CK73FB0J226M CC73HCH1H101J CK73HB1A473K CK73HB1A104K CC73HCH1H101J CK73HB1A683K CK73GB1A105K CK73HB1H102K CK73GB1A105K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1A104K CK73EB0J476M CK73EB0J476M CK73HB1H102K CK73HB1A104K CK73HB1A105K CK73HB1A104K CK73HB1H152K CK73HB1A104K CK73HB1A104K CK73HB1H103K CK73HB1H103K CK73HB0J105K CK73HB1A104K CK73HB0J225K CK73HB1A104K CK73HB0J225K CK73HB1A104K CK73HB1H103K CK73HB1H103K CK73HB1A104K CK73HB1A104K CK73HB1A104K CK73HB1A104K CK73GB1A105K CK73HB1A105K CK73HB1H102K CK73HB1A104K CS77MB20J101M CK73HB0J475M CK73HB0J105K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1H102K CK73HB1A104K CK73HB1A104K C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR TA E CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR C CAPACITOR 22UF M 100PF J 0.047UF K 0.10UF K 100PF J 0.068UF K 1.0UF K 1000PF K 1.0UF K 1000PF K 1000PF K 1000PF K 0.10UF K 47UF M 47UF M 1000PF K 0.10UF K 1.0UF K 0.10UF K 1500PF K 0.10UF K 0.10UF K 0.010UF K 0.010UF K 1.0UF K 0.10UF K 2.2UF K 0.10UF K 2.2UF K 0.10UF K 0.010UF K 0.010UF K 0.10UF K 0.10UF K 0.10UF K 0.10UF K 1.0UF K 1.0UF K 1000PF K 0.10UF K 100UF 6.3WV 4.7UF M 1.0UF K 1000PF K 1000PF K 1000PF K 1000PF K 0.10UF K 0.10UF K R1 R2 R3 R4 R5 R7 R8 R9 R10 R11 R13 R16 R17 R18 R19 R20 R21 R22 R23 R24 R25 R26 R27 R28 R29 R30 R31 R32 RK73HB1J223J RK73HB1J123J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J331J RK73HB1J222J RK73HB1J101J RK73HB1J102J RK73HB1J100J RK73HB1J000J RK73HB1J000J RK73HB1J152J RK73HB1J471J RK73HB1J000J RK73HB1J105J RK73HB1J103J RK73HB1J470J RK73HB1J474J RK73HB1J105J RK73HB1J102J RK73HB1J103J RK73HB1J471J RK73HB1J271J RK73HB1J683J RK73HB1J334J RK73HB1J152J MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR 22K J 1/16W 12K J 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 330 J 1/16W 2.2K J 1/16W 100 J 1/16W 1.0K J 1/16W 10 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 1.5K J 1/16W 470 J 1/16W 0.0 J 1/16W 1.0M J 1/16W 10K J 1/16W 47 J 1/16W 470K J 1/16W 1.0M J 1/16W 1.0K J 1/16W 10K J 1/16W 470 J 1/16W 270 J 1/16W 68K J 1/16W 330K J 1/16W 1.5K J 1/16W Local  Symbol No. R33 R34 R35 R36 R37 R38 R39 R40 R41 R43 R44 R45 R46 R48 R51 R52 R53 R54 R55 R56 R58 R200 R202 R210 R211 R212 R213 R214 R215 R217 R219 R222 R223 R224 R225 R226 R227 R228 R229 R230 R231 R232 R233 R235 R236 R237 R238 R239 R240 R241 R242 R243 R244 R246 R247 R248 R249 R250 R251 R252 R253 R400 R401 R403 R404 R405 R407 R408 R409 R412 R413 R414 R417 R418 R419 R420 R421 R422 Part No. Part Name Description RK73HB1J124J RK73HB1J104J RK73HB1J271J RK73HB1J391J RK73HB1J220J RK73HB1J220J RK73HB1J104J RK73HB1J154J RK73HB1J102J RK73HB1J103J RK73HB1J470J RK73HB1J271J RK73HB1J103J RK73HB1J472J RK73HB1J102J RK73HB1J100J RK73HB1J000J RK73HB1J103J RK73HB1J273J RK73HB1J100J RK73HB1J103J RK73HB1J472J RK73HB1J000J RK73HB1J220J RK73HB1J102J RK73HB1J152J RK73HB1J220J RK73HB1J561J RK73HB1J561J RK73HB1J100J RK73HB1J561J RK73HB1J000J RK73HB1J561J RK73HB1J470J RK73HB1J823J RK73HB1J472J RK73HB1J563J RK73HB1J333J RK73HB1J391J RK73EB2ER39K RK73EB2ER39K RK73HB1J563J RK73EB2ER39K RK73HB1J182J RK73HB1J820J RK73HH1J154D RK73HH1J154D RK73HB1J333J RK73GB2A100J RK73HH1J474D RK73HH1J474D RK73HB1J103J RK73HB1J563J RK73HB1J474J RK73HB1J104J RK73HB1J105J RK73HB1J271J RK73FB2B000J RK73HB1J271J RK73GB2A000J RK73GB2A823J RK73HB1J334J RK73HB1J102J RK73HB1J222J RK73HB1J564J RK73HB1J474J RK73HB1J332J RK73HB1J332J RK73HB1J563J RK73HB1J100J RK73HB1J184J RK73HB1J101J RK73HB1J684J RK73HB1J334J RK73HB1J331J RK73HB1J271J RK73HB1J101J RK73HB1J472J MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR 120K J 1/16W 100K J 1/16W 270 J 1/16W 390 J 1/16W 22 J 1/16W 22 J 1/16W 100K J 1/16W 150K J 1/16W 1.0K J 1/16W 10K J 1/16W 47 J 1/16W 270 J 1/16W 10K J 1/16W 4.7K J 1/16W 1.0K J 1/16W 10 J 1/16W 0.0 J 1/16W 10K J 1/16W 27K J 1/16W 10 J 1/16W 10K J 1/16W 4.7K J 1/16W 0.0 J 1/16W 22 J 1/16W 1.0K J 1/16W 1.5K J 1/16W 22 J 1/16W 560 J 1/16W 560 J 1/16W 10 J 1/16W 560 J 1/16W 0.0 J 1/16W 560 J 1/16W 47 J 1/16W 82K J 1/16W 4.7K J 1/16W 56K J 1/16W 33K J 1/16W 390 J 1/16W 0.39 K 1/4W 0.39 K 1/4W 56K J 1/16W 0.39 K 1/4W 1.8K J 1/16W 82 J 1/16W 150K D 1/16W 150K D 1/16W 33K J 1/16W 10 J 1/10W 470K D 1/16W 470K D 1/16W 10K J 1/16W 56K J 1/16W 470K J 1/16W 100K J 1/16W 1.0M J 1/16W 270 J 1/16W 0.0 J 1/8W 270 J 1/16W 0.0 J 1/10W 82K J 1/10W 330K J 1/16W 1.0K J 1/16W 2.2K J 1/16W 560K J 1/16W 470K J 1/16W 3.3K J 1/16W 3.3K J 1/16W 56K J 1/16W 10 J 1/16W 180K J 1/16W 100 J 1/16W 680K J 1/16W 330K J 1/16W 330 J 1/16W 270 J 1/16W 100 J 1/16W 4.7K J 1/16W Local  Symbol No. R423 R424 R425 R426 R427 R428 R429 R433 R434 R435 R436 R437 R438 R439 R440 R441 R442 R446 R448 R449 R450 R451 R452 R453 R454 R455 R460 R600 R601 R602 R603 R604 R605 R606 R607 R608 R609 R610 R611 R612 R613 R614 R615 R616 R701 R702 R703 R705 R708 R709 R710 R711 R712 R715 R718 R720 R723 R725 R726 R736 R737 R740 R744 R746 R748 R751 R752 R755 R756 R757 R759 R760 R762 R763 R764 R765 R766 R767 Part No. Part Name Description RK73HB1J222J RK73HB1J471J RK73HB1J563J RK73HB1J104J RK73HB1J104J RK73HB1J563J RK73HB1J000J RK73HB1J681J RK73HB1J000J RK73HB1J471J RK73HB1J104J RK73HB1J564J RK73HB1J104J RK73HB1J154J RK73HB1J270J RK73HH1J473D RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J224J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J104J RK73HB1J105J RK73GB2A221J RK73HB1J104J RK73HB1J104J RK73HB1J101J RK73GB2A331J RK73HB1J223J RK73HB1J104J RK73HB1J104J RK73GB2A271J RK73HB1J102J RK73HB1J104J RK73HB1J104J RK73HB1J104J RK73HB1J104J RK73HH1J824D RK73HH1J394D RK73HB1J000J RK73HH1J103D RK73HH1J103D RK73HB1J153J RK73HB1J103J RK73HB1J102J RK73HB1J222J RK73HB1J102J RK73HH1J103D RK73HB1J473J RK73HB1J102J RK73HB1J820J RK73HB1J000J RK73HB1J000J RK73HB1J473J RK73HB1J102J RK73HB1J101J RK73HB1J101J RK73HB1J472J RK73HB1J150J RK73HB1J103J RK73HB1J000J RK73HB1J105J RK73HB1J000J RK73HB1J564J RK73HB1J100J RK73HB1J473J RK73HB1J153J RK73HB1J473J RK73HB1J104J RK73HB1J104J RK73HB1J000J RK73HB1J273J RK73HB1J222J RK73HB1J104J MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR 2.2K J 1/16W 470 J 1/16W 56K J 1/16W 100K J 1/16W 100K J 1/16W 56K J 1/16W 0.0 J 1/16W 680 J 1/16W 0.0 J 1/16W 470 J 1/16W 100K J 1/16W 560K J 1/16W 100K J 1/16W 150K J 1/16W 27 J 1/16W 47K D 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 220K J 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 100K J 1/16W 1.0M J 1/16W 220 J 1/10W 100K J 1/16W 100K J 1/16W 100 J 1/16W 330 J 1/10W 22K J 1/16W 100K J 1/16W 100K J 1/16W 270 J 1/10W 1.0K J 1/16W 100K J 1/16W 100K J 1/16W 100K J 1/16W 100K J 1/16W 820K D 1/16W 390K D 1/16W 0.0 J 1/16W 10K D 1/16W 10K D 1/16W 15K J 1/16W 10K J 1/16W 1.0K J 1/16W 2.2K J 1/16W 1.0K J 1/16W 10K D 1/16W 47K J 1/16W 1.0K J 1/16W 82 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 47K J 1/16W 1.0K J 1/16W 100 J 1/16W 100 J 1/16W 4.7K J 1/16W 15 J 1/16W 10K J 1/16W 0.0 J 1/16W 1.0M J 1/16W 0.0 J 1/16W 560K J 1/16W 10 J 1/16W 47K J 1/16W 15K J 1/16W 47K J 1/16W 100K J 1/16W 100K J 1/16W 0.0 J 1/16W 27K J 1/16W 2.2K J 1/16W 100K J 1/16W Local (No.RA002<Rev.001>)3-7  Symbol No. Part No. Part Name Description R768 R769 R770 R772 R773 R774 R775 R777 R780 R781 R782 R783 R784 R785 R786 R787 R788 R789 R790 R792 R793 R794 R795 R796 R797 R798 R800 R801 R802 R803 R804 R805 R806 R807 R809 R810 R811 R812 R813 R814 R815 R816 R817 R822 R824 R825 R826 R828 R850 R852 R853 R857 R860 R901 R902 R903 R904 R905 R907 R960 R970 R977 R978 R979 R983 R984 R987 R988 R991 R992 R993 R994 R995 R996 R997 RK73HB1J103J RK73HB1J104J RK73HB1J124J RK73HB1J154J RK73HB1J103J RK73HB1J101J RK73HB1J000J RK73HB1J104J RK73HB1J474J RK73HB1J682J RK73HB1J473J RK73HB1J272J RK73HB1J123J RK73HB1J123J RK73HB1J104J RK73HB1J105J RK73HB1J473J RK73HB1J103J RK73HB1J103J RK73HB1J471J RK73HB1J182J RK73HB1J152J RK73HB1J473J RK73HB1J561J RK73HH1J334D RK73HH1J154D RK73HB1J183J RK73HB1J101J RK73HB1J474J RK73HB1J391J RK73HB1J124J RK73HB1J103J RK73HB1J103J RK73HB1J183J RK73HB1J103J RK73HB1J334J RK73HB1J274J RK73HB1J473J RK73HB1J823J RK73HB1J273J RK73HB1J101J RK73HB1J102J RK73HB1J000J RK73HB1J224J RK73HB1J102J RK73HB1J104J RK73HB1J104J RK73HB1J273J RK73GB2A000J RK73HB1J123J RK73HB1J123J RK73HB1J100J RK73HB1J000J RK73HB1J473J RK73HB1J473J RK73HB1J220J RK73HB1J820J RK73HB1J474J RK73HB1J000J RK73HB1J000J RK73HB1J000J RK73HB1J103J RK73HB1J103J RK73HB1J103J RK73GB2A000J RK73GB2A000J RK73GB2A000J RK73GB2A000J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J101J RK73HB1J101J MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR MG RESISTOR 10K J 1/16W 100K J 1/16W 120K J 1/16W 150K J 1/16W 10K J 1/16W 100 J 1/16W 0.0 J 1/16W 100K J 1/16W 470K J 1/16W 6.8K J 1/16W 47K J 1/16W 2.7K J 1/16W 12K J 1/16W 12K J 1/16W 100K J 1/16W 1.0M J 1/16W 47K J 1/16W 10K J 1/16W 10K J 1/16W 470 J 1/16W 1.8K J 1/16W 1.5K J 1/16W 47K J 1/16W 560 J 1/16W 330K D 1/16W 150K D 1/16W 18K J 1/16W 100 J 1/16W 470K J 1/16W 390 J 1/16W 120K J 1/16W 10K J 1/16W 10K J 1/16W 18K J 1/16W 10K J 1/16W 330K J 1/16W 270K J 1/16W 47K J 1/16W 82K J 1/16W 27K J 1/16W 100 J 1/16W 1.0K J 1/16W 0.0 J 1/16W 220K J 1/16W 1.0K J 1/16W 100K J 1/16W 100K J 1/16W 27K J 1/16W 0.0 J 1/10W 12K J 1/16W 12K J 1/16W 10 J 1/16W 0.0 J 1/16W 47K J 1/16W 47K J 1/16W 22 J 1/16W 82 J 1/16W 470K J 1/16W 0.0 J 1/16W 0.0 J 1/16W 0.0 J 1/16W 10K J 1/16W 10K J 1/16W 10K J 1/16W 0.0 J 1/10W 0.0 J 1/10W 0.0 J 1/10W 0.0 J 1/10W 100 J 1/16W 100 J 1/16W 100 J 1/16W 100 J 1/16W 100 J 1/16W 100 J 1/16W 100 J 1/16W L1 L2 L41-4795-39 L92-0442-05 SMALL FIXED INDUCTOR (4.7UH) CHIP FERRITE 3-8(No.RA002<Rev.001>) Local  Symbol No. Part No. Part Name Description L3 L4 L7 L8 L9 L10 L11 L13 L14 L15 L16 L17 L21 L23 L24 L25 L26 L204 L205 L206 L207 L208 L209 L212 L213 L216 L217 L218 L219 L220 L221 L222 L223 L400 L401 L402 L403 L404 L405 L406 L407 L408 L409 L411 L412 L414 L415 L416 L600 L601 L700 L701 L702 L901 L902 L903 L92-0163-05 L40-1575-71 L40-1001-86 L40-1001-86 L40-2775-71 L40-2702-86 L40-2702-86 L40-3391-86 L40-3391-86 L41-3978-14 L41-2278-14 L92-0163-05 L40-1001-86 L40-1001-86 L40-1085-71 L40-1085-71 L40-1875-71 L40-3375-71 L40-1085-71 L92-0162-05 L40-3975-71 L34-4577-05 L92-0149-05 L92-0149-05 L34-4569-05 L41-2295-39 L34-4577-05 L34-4566-05 L34-4569-05 L34-4568-05 L34-4563-05 L34-4565-05 L34-4566-05 L41-1885-53 L40-1085-71 L40-1591-86 L92-0138-05 L41-6885-39 L40-5675-71 L41-1885-53 L40-5675-71 L41-1585-53 L41-2785-53 L41-6878-14 L92-0138-05 L41-6878-14 L41-6878-14 L41-6878-14 L92-0472-05 L92-0138-05 L92-0161-05 L92-0161-05 L92-0161-05 L92-0163-05 L92-0163-05 L92-0163-05 BEADS CORE SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR BEADS CORE SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR BEADS CORE SMALL FIXED INDUCTOR AIR-CORE COIL CHIP FERRITE CHIP FERRITE AIR-CORE COIL SMALL FIXED INDUCTOR AIR-CORE COIL AIR-CORE COIL AIR-CORE COIL AIR-CORE COIL AIR-CORE COIL AIR-CORE COIL AIR-CORE COIL SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR CHIP FERRITE SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR CHIP FERRITE SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR SMALL FIXED INDUCTOR CHIP FERRITE CHIP FERRITE BEADS CORE BEADS CORE BEADS CORE BEADS CORE BEADS CORE BEADS CORE CN600 CN912 CN913 CN914 CN915 CN916 CN917 CN918 CN919 CN920 CN921 CP1 CP20 CP21 CP22 CP23 CP24 CP25 CP26 CP27 CP28 E40-6922-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 E23-1167-05 RK75HA1J101J RK75HA1J473J RK75HA1J473J RK75HA1J102J RK75HA1J473J RK75HA1J102J RK75HA1J473J RK75HA1J103J RK75HA1J474J RK75HA1J103J FLAT CABLE CONNECTOR TERMINAL TERMINAL TERMINAL TERMINAL TERMINAL TERMINAL TERMINAL TERMINAL TERMINAL TERMINAL CHIP-COM 100 J 1/16W CHIP-COM 47K J 1/16W CHIP-COM 47K J 1/16W CHIP-COM 1.0K J 1/16W CHIP-COM 47K J 1/16W CHIP-COM 1.0K J 1/16W CHIP-COM 47K J 1/16W CHIP-COM 10K J 1/16W CHIP-COM 470K J 1/16W CHIP-COM 10K J 1/16W (15NH) (10UH) (10UH) (27NH) (27UH) (27UH) (3.3UH) (3.3UH) (39NH) (22NH) (10UH) (10UH) (100NH) (100NH) (18NH) (33NH) (100NH) (39NH) (2.2UH) (0.18UH) (100NH) (1.5UH) (0.68UH) (56NH) (0.18UH) (56NH) (0.15UH) (0.27UH) (68NH) (68NH) (68NH) (68NH) Local  Symbol No. CP401 CP402 F600 F601 J601 S601 S602 S603 TH200 TH400 X1 X2 XF400 Part No. Part Name Description RK75HA1J474J RK75HA1J474J F53-0324-15 F53-0319-15 E11-0703-05 S70-0414-05 S70-0414-05 S70-0414-05 ERTJ0EV104J NCP18WM224J03 L77-3127-05 L77-3129-05 L71-0686-05 CHIP-COM CHIP-COM FUSE FUSE PHONE JACK TACT SWITCH TACT SWITCH TACT SWITCH THERMISTOR THERMISTOR TCXO TCXO MCF 470K J 1/16W 470K J 1/16W (2.5A) (1A) (SP/MIC) Local (15.3MHZ) (19.2MHZ) (45.45MHZ) (No.RA002<Rev.001>)3-9 Packing materials and accessories parts list Block No.M2MM 2 3 14 4 15 7 16 5 11 10 12 13 8 1 6 9 Packing and accessories Block No. [M][2][M][M]  Symbol No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 14 15 15 16 Part No. Part Name B09-0758-03 ----------------------B62-2580-00 D32-0456-03 H12-4319-05 ----------------------H52-2589-01 J19-5577-03 J29-0734-15 N99-2089-05 T90-1036-15 W08-1247-25 W08-1326-05 W08-1249-45 W08-1331-05 ------------ CAP(SP/MIC) PAMPHLET(SAR) PAMPHLET(VOCODER) INSTRUCTION MANUAL STOPPER(SELECTOR) PACKING FIXTURE PROTECTION BAG (100/200/0.07) PROTECTION BAG ITEM CARTON CASE HOLDER(SP/MIC) BELT CLIP SCREW SET HELICAL ANTENNA AC ADAPTER AC ADAPTER CHARGER CHARGER BATTERY ASSY 3-10(No.RA002<Rev.001>) Description Local NX-240_K,NX-240(V)_K NX-240_P NX-240_K,NX-240(V)_K NX-240_P JVC KENWOOD Corporation Communications Equipment Div (No.RA002<Rev.001>) Printed in Japan VSE PRINTED CIRCUIT BOARD TX-RX UNIT (X57-8500-10) --- Component side view (J79-0400-09) --- R607 L601 C628 C631 Q603 R602 F601 R601 R233 ANT C620 C625 C613 C623 5R C616 C603 Q710 C783 C788 R801 R806 Q712 IC709 C808 R815 C807 L903 C981 1 2 A-1C ADDRESS TABLE OF BOARD PARTS Each address may have an address error by one Side interval. 3 4 5 Y axis X axis REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION IC IC200 IC600 IC601 IC602 IC603 IC604 IC605 IC606 IC700 IC703 IC705 IC706 IC707 IC708 IC709 IC710 IC713 IC717 A- 4A A- 1B A- 4B A- 3B A- 3A A- 1B A- 1A A- 4B A- 1A A- 2B A- 2B A- 3A A- 5B A- 4B A- 4A A- 1A A- 1B A- 2B TRANSISTOR Q203 A- 3B Q205 A- 4B Q207 A- 4B Q209 A- 4B Q210 A- 4A Q600 A- 5A Q601 A- 4B Q602 A- 4B Q603 A- 4B Q604 A- 5A Q605 A- 5A Q606 A- 1B Q704 A- 3B Q705 A- 3B Q706 A- 3B Q707 A- 3A Q708 A- 3A Q709 Q710 Q711 Q712 Q713 Q714 Q715 Q716 A- 5B A- 5B A- 4A A- 4A A- 5A A- 4A A- 4A A- 5A DIODE D200 D600 D601 D602 D603 D604 D700 D701 D702 A- 3B A- 1B A- 5A A- 5A A- 1B A- 5A A- 3B A- 3B A- 3A D703 A- 3A RESISTOR R222 A- 3B R223 A- 4B R226 A- 4B R228 A- 3B R230 A- 5B R231 A- 5B R233 A- 5B R235 A- 4B R237 A- 4A R238 A- 4A R241 A- 4B R242 A- 4A R243 A- 4A R244 A- 4B R246 A- 4A R247 A- 4B R248 R253 R600 R601 R602 R603 R604 R605 R606 R607 R608 R609 R610 R611 R612 R613 R614 R615 R616 A- 4B A- 5B A- 5A A- 4B A- 4B A- 4B A- 5A A- 1B A- 4B A- 4B A- 5A A- 1B A- 1B A- 3B A- 3A A- 1A A- 2A A- 2A A- 1A R701 R702 R703 R705 R708 R709 R710 R711 R712 R715 R718 R723 R725 R726 R736 R737 R740 R744 R746 A- 2A A- 2A A- 2A A- 2A A- 2A A- 1A A- 1A A- 2A A- 1B A- 1A A- 2B A- 2A A- 2A A- 2A A- 1B A- 1B A- 1B A- 1B A- 2B R748 R752 R756 R757 R759 R760 R762 R763 R764 R765 R766 R767 R768 R769 R770 R772 R773 R774 R775 A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 3B A- 3A A- 3A R777 R780 R783 R784 R785 R786 R787 R788 R789 R790 R792 R793 R794 R795 R796 R797 R798 R800 R801 A- 2A A- 3A A- 3B A- 3B A- 3B A- 3A A- 3A A- 3A A- 3B A- 3A A- 4A A- 4A A- 4B A- 5B A- 5B A- 1A A- 1A A- 4B A- 4B R802 R803 R804 R805 R806 R807 R809 R810 R811 R812 R813 R814 R815 R816 R817 R822 R825 R826 R828 A- 5A A- 4A A- 4A A- 4A A- 4A A- 4A A- 4A A- 5A A- 5A A- 3A A- 4A A- 4A A- 4A A- 3A A- 3A A- 4A A- 2A A- 2B A- 2A R852 R853 R857 R860 R901 R902 R903 R904 R905 R907 R960 R977 R978 R979 R983 R984 R987 R988 (No.RA002<Rev.001>) 2-1 A- 2B A- 2B A- 2B A- 2A A- 2A A- 2A A- 2B A- 1B A- 1B A- 1B A- 2A A- 1A A- 1B A- 1B A- 2B A- 2B A- 3B A- 3B CAPACITOR C218 A- 3B C225 A- 4B C226 A- 4A C227 A- 4B C230 A- 4B C235 A- 4A C236 A- 4A C249 A- 4A C252 A- 4B C258 A- 4B C263 A- 3A C600 A- 4B C601 A- 3A C602 A- 1B C603 A- 4B C604 A- 4B C605 A- 1B C606 A- 4B C607 C609 C610 C611 C612 C613 C615 C616 C618 C620 C621 C623 C624 C625 C626 C628 C629 C630 C631 A- 3A A- 1B A- 1A A- 3B A- 1B A- 4B A- 3B A- 4B A- 3B A- 4B A- 1B A- 4B A- 5A A- 4B A- 1B A- 4B A- 1A A- 2A A- 4B C700 C704 C711 C718 C719 C720 C723 C730 C732 C734 C735 C737 C740 C741 C742 C743 C744 C745 C746 A- 2A A- 2A A- 1B A- 1A A- 1A A- 4B A- 3B A- 1B A- 2B A- 2B A- 2B A- 1B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B 2-1 (No.RA002<Rev.001>) C747 C748 C749 C750 C751 C754 C756 C758 C759 C760 C761 C763 C764 C765 C766 C767 C768 C769 C770 A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 2B A- 3B A- 3B A- 3B A- 3A A- 3B A- 3B A- 3A A- 3B C771 C772 C773 C774 C775 C777 C778 C779 C780 C781 C782 C783 C784 C785 C786 C787 C788 C789 C790 A- 3B A- 3A A- 3A A- 3A A- 3B A- 3A A- 4A A- 4A A- 4A A- 4B A- 5B A- 5B A- 4B A- 4B A- 4B A- 5B A- 4B A- 5A A- 5A C791 C792 C794 C795 C798 C801 C802 C805 C806 C807 C808 C812 C814 C815 C851 C852 C853 C905 C906 A- 4A A- 4A A- 4A A- 4A A- 4A A- 4A A- 4A A- 3A A- 4A A- 2A A- 5A A- 4A A- 4A A- 2B A- 2B A- 2B A- 2B A- 1A A- 2A C907 C908 C909 C910 C911 C912 C913 C914 C915 C970 C971 C981 C982 C983 C984 C985 C986 C989 C999 A- 2A A- 2A A- 2A A- 2A A- 1B A- 1B A- 1B A- 1B A- 1B A- 2A A- 2B A- 2A A- 2A A- 1A A- 1A A- 2A A- 1B A- 1A A- 1A OTHER X2 CN600 CP20 CP21 CP22 CP23 CP24 CP25 CP26 CP27 CP28 F600 F601 L600 L601 L700 L701 A- 1B A- 4B A- 1B A- 1A A- 1A A- 1B A- 2B A- 2B A- 3A A- 3A A- 4B A- 1B A- 5B A- 1B A- 5B A- 1B A- 2B L901 L902 L903 A- 1B A- 1B A- 2A D602 S+ S- C814 R816 C812 Q707 D601 D604 R604 R600 R608 Q605 Q600 Q604 Q716 R813 Q711 R805 R822 R810 C798 R814 CN709 R860 R723 C773 CP26 R811 C806 C779 C802 R812 R775 CN1 CVIN C624 R793 PTT/RXD Q708 R792 R817 R788 R780 R711 C778 C805 C766 DVCC C790 C801 C607 CN708 R774 R828 CN704 0-10 D702 R777 R803 C601 TXD CP27 HSDENC Q715 Q713 R809 R807 C789 R802 C795 C780 CN602 C794 R237 R804 CP28 C791 C792 Q714 IC706 C704 R794 IC708 C235 R242 R238 R243 C249 SB C226 C236 IC707 R800 C230 R241 IC200 R612 IC603 C787 C784 C785 C786 Q209 R244 R247 R246 Q210 C263 5C C774 R703 C772 R787 R786 C769 R825 F601 C606 C781 Q207 C252 R223 R987 R235 R988 X57-850 D703 C782 Q709 R796 Q205 R226 R248 5T C258 C225 C227 R228 D200 C775 R789 C777 R253 R795 33R Q706 J79-0400-09 R857 C853 CN402 R222 CN600 R230 C720 C218 R231 IC601 C600 R773 Q705 C763 R785 C723 CN600 M+ Q704 C765 C768 R852 R853 C852 R763 C751 C618 Q203 TEST RX R960 R798 R709 C982 R611 C764 C767 C760 C758 R762 R770 C750 R614 R705 C985 T1 CN903 CN904 R797 R702 C906 C909 CV CN2 CN703 DVSS C907 Q601 C700 R615 CN700 C984 C905 C908 C719 R606 5M C754 C749 R701 C630 CN400 R977 C999 C718 M- R984 R984 R772 CN901 CN902 CN905 R616 C983 IC606 R987 R790 RSSI C989 R710 R988 TEST TX R725 T2 IC717 R902 R901 C910 CN906 R708 OPT7 R784 IC602 C770 C771 BPF R757 C746 C971 SWO R726 CN702 R768 R826 R737 CN705 C970 CN907 R613 C629 RST IC605 D701 C851 CP22 C610 C815 L901 R740 R736 C912 C911 R978 SRST A R783 C761 C744 IC710 CP21 R760 C743 CP25 R715 IC700 D700 R769 TXD CN908 L902 IC700 C711 R759 IC705 C914 C732 R748 R903 R904 X2 C915 SWDIO L600 CP20 C740 R746 C735 C734 L701 R610 Q606 CN401 BUSY BATT F600 C986 C604 C759 R767 R764 CP23 Q602 R766 R718 C913 C615 C748 R765 R905 R979 R712 C756 C745 R744 IC713 C611 R983 C741 R907 SWCLK R752 C737 CN601 B C742 INT C609 D603 F600 C626 CP24 IC703 C730 R609 C747 R756 L700 C621 C605 R605 C612 IC604 R983 D600 IC600 R603 C602 TX-RX UNIT (X57-8500-10) --- Foil side view (J79-0400-09) --- C924 R9 R3 R2 TXO C89 TXI CP1 C13 C6 L4 C37 CN917 OPT1 R39 C32 C30 C9 OPT2 OPT3 C18 C19 R55 C22 C23 R16 OPT4 C28 R21 OPT5 C27 R17 C33 R24 CN918 R18 R19 R22 L3 R20 R27 C38 C29 Q3 Q1 C50 R33 L7 R782 C36 C706 R25 C34 C980 L13 C47 D8 D9 OPT6 C26 C48 D4 L10 D2 Q703 L11 D11 IC3 R26 C59 C84 C83 C86 C87 R13 L2 R53 L8 D12 CN920 R781 C809 L15 R52 OPT7 CN930 CN931 CN932 CN933 CN934 CN935 CN936 CN937 CN938 CN939 CN940 R51 C82 C85 R54 R58 C16 C41 C90 IC2 R56 D5 R31 TH400 C925 C400 C405 Q400 C15 L1 RXO L9 R30 Q2 Q8 C61 R36 C60 C200 Q6 D7 R10 RXI C88 R23 D3 D6 IC715 R412 C404 R454 R8 R4 C40 R37 C65 C54 C46 X1 R5 C58 D13 C49 R1 R11 R28 C45 R29 C43 C51 Q7 R34 R200 L16 L14 R32 R38 C64 C762 D10 C56 L23 C66 R35 L401 C407 R400 R455 R452 R450 R428 R425 C421 C35 L21 Q5 C71 R40 C57 C419 R414 C424 C422 R453 R451 R449 R409 L17 R41 Q9 C80 D15 C201 C68 R7 C8 Q4 L24 L26 C202 C72 C403 C11 Q10 C74 C78 C81 J601 C485 C73 C79 C207 R202 J601 R45 C75 R43 R46 R44 C77 L25 R210 CN915 C76 C431 R48 C257 C253 L221 R422 D14 L204 C487 B R401 C402 C7 CN921 TH200 C233 C228 C242 R426 C440 R460 CN916 R212 R211 C208 C211 C210 Q201 R213 Q206 C232 L222 C438 L205 R229 R240 C439 R417 L400 C486 L403 C213 L208 L213 Q208 C436 C444 L407 C212 R214 R215 L207 C216 L206 L405 C434 C453 R217 C220 R224 C224 C222 R232 L223 R225 C259 R236 R227 R219 L209 R239 C247 C219 C229 C264 L212 L412 C250 C489 C410 R850 C446 C492 R407 C413 C414 C409 C488 R408 C412 C445 C239 L402 R403 R405 R429 R421 C469 C432 C406 C447 C484 C442 C478 L406 Q404 C452 C437 L408 L411 C454 C450 C456 C441 C443 R436 R440 C458 C455 C461 R433 C468 C459 R437 C460 C466 R427 C465 R439 D401 R423 R420 D402 L414 R424 IC400 C430 C493 C491 R404 C433 R434 R438 L415 C470 C471 R448 C474 CP402 L409 D403 C475 L416 R250 C245 Q405 D404 R442 C457 C472 CP401 R252 R446 C240 C260 R435 C497 C464 C214 R249 C435 D201 D202 C270 C269 C274 R251 C262 C268 L216 C271 C273 C272 D204 D203 L218 L217 R413 C495 CN914 L404 C275 C425 C277 CN913 L219 C276 CN912 C494 S603 R824 R418 C496 R441 S602 L702 XF400 S601 C429 R970 C736 S603 C426 IC704 C739 R755 L220 S602 C428 R419 C278 C280 R751 S601 XF400 Q403 C279 C920 C921 C922 C923 R991 R992 A R993 R994 R995 R996 R997 R720 C31 C42 CN919 5 4 3 2 1 A-1C ADDRESS TABLE OF BOARD PARTS Each address may have an address error by one interval. Y axis X axis Side REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION IC IC2 IC3 IC400 IC704 IC715 B- 2A B- 2A B- 2B B- 4B B- 1B TRANSISTOR Q1 B- 2A Q2 B- 2A Q3 B- 2A Q4 B- 2A Q5 B- 3A Q6 B- 3A Q7 B- 2A Q8 B- 2A Q9 B- 3A Q10 B- 3A Q201 B- 3A Q206 B- 4A Q208 B- 4A Q400 B- 1B Q403 B- 2B Q404 B- 2B Q405 Q703 B- 3B B- 3A D403 D404 B- 4B B- 4B DIODE D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D201 D202 D203 D204 D401 D402 B- 3A B- 2A B- 3A B- 2A B- 3A B- 3A B- 2A B- 2A B- 2A B- 2A B- 3A B- 3A B- 3A B- 3A B- 4B B- 4B B- 5B B- 5B B- 3B B- 3B RESISTOR R1 B- 1B R2 B- 1B R3 B- 1B R4 B- 1A R5 B- 1B R7 B- 1B R8 B- 2B R9 B- 1B R10 B- 1A R11 B- 1B R13 B- 2A R16 B- 2A R17 B- 2A R18 B- 2A R19 B- 2A R20 B- 2A R21 B- 2A R22 B- 2A R23 B- 2A R24 B- 2A R25 R26 R27 R28 R29 R30 R31 R32 R33 R34 R35 R36 R37 R38 R39 R40 R41 R43 R44 R45 R46 R48 R51 R52 B- 2A B- 2A B- 2A B- 2A B- 2A B- 2A B- 2A B- 2A B- 3A B- 2A B- 2A B- 3A B- 2A B- 3A B- 2A B- 3A B- 2A B- 3A B- 3A B- 2A B- 3A B- 3A B- 1A B- 1A R53 R54 R55 R56 R58 R200 R202 R210 R211 R212 R213 R214 R215 R217 R219 R224 R225 R227 R229 R232 R236 R239 R240 R249 B- 2A B- 2A B- 2A B- 2A B- 2A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3B B- 3B B- 3B B- 3B B- 3B B- 4B B- 4B B- 4A B- 4B B- 4B B- 4B B- 4A B- 4B R250 R251 R252 R400 R401 R403 R404 R405 R407 R408 R409 R412 R413 R414 R417 R418 R419 R420 R421 R422 R423 R424 R425 R426 B- 5B B- 4B B- 4B B- 1B B- 1B B- 2B B- 2B B- 2B B- 2B B- 2B B- 2B B- 1B B- 1B B- 1B B- 1B B- 2B B- 2B B- 2B B- 2B B- 3A B- 2B B- 2B B- 2B B- 2B R427 R428 R429 R433 R434 R435 R436 R437 R438 R439 R440 R441 R442 R446 R448 R449 R450 R451 R452 R453 R454 R455 R460 R720 B- 2B B- 2B B- 2B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 2B B- 4B B- 4B B- 4B B- 2B B- 2B B- 2B B- 2B B- 2B B- 2B B- 2B B- 2B B- 1A R751 R755 R781 R782 R824 R850 R970 R991 R992 R993 R994 R995 R996 R997 B- 4B B- 4B B- 3A B- 3A B- 4B B- 2B B- 4B B- 1A B- 1A B- 1A B- 1A B- 1A B- 1A B- 1A CAPACITOR C6 B- 1A C7 B- 1B C8 B- 1A C9 B- 1A C11 B- 1B C13 B- 1A C15 B- 1B C16 B- 2A C18 C19 C22 C23 C26 C27 C28 C29 C30 C31 C32 C33 C34 C35 C36 C37 C38 C40 C41 C42 C43 C45 C46 C47 B- 1A B- 1A B- 2A B- 2A B- 1A B- 2A B- 2A B- 1A B- 2A B- 1A B- 2A B- 2A B- 2A B- 2A B- 2A B- 2A B- 3A B- 2A B- 2A B- 2A B- 2A B- 2A B- 3A B- 2A (No.RA002<Rev.001>) 2-2 C48 C49 C50 C51 C54 C56 C57 C58 C59 C60 C61 C64 C65 C66 C68 C71 C72 C73 C74 C75 C76 C77 C78 C79 B- 2A B- 3A B- 2A B- 2A B- 3A B- 2A B- 3A B- 2A B- 2A B- 3A B- 3A B- 3A B- 2A B- 3A B- 3A B- 2A B- 3A B- 2A B- 3A B- 2A B- 3A B- 3A B- 3A B- 3A C80 C81 C82 C83 C84 C85 C86 C87 C88 C89 C90 C200 C201 C202 C207 C208 C210 C211 C212 C213 C214 C216 C219 C220 B- 3A B- 3A B- 1A B- 1A B- 1A B- 1A B- 2A B- 2A B- 2A B- 2A B- 2A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3A B- 3B B- 3A B- 4B B- 3B B- 3B B- 3B C222 C224 C228 C229 C232 C233 C239 C240 C242 C245 C247 C250 C253 C257 C259 C260 C262 C264 C268 C269 C270 C271 C272 C273 B- 3B B- 4B B- 4A B- 4B B- 4A B- 4A B- 4B B- 4B B- 4A B- 4B B- 4B B- 4B B- 5A B- 5A B- 5B B- 5B B- 4B B- 5B B- 5B B- 4B B- 4B B- 5B B- 5B B- 5B C274 C275 C276 C277 C278 C279 C280 C400 C402 C403 C404 C405 C406 C407 C409 C410 C412 C413 C414 C419 C421 C422 C424 C425 2-2 (No.RA002<Rev.001>) B- 5B B- 5B B- 5B B- 5B B- 5B B- 5B B- 5B B- 1B B- 1B B- 1B B- 1B B- 1B B- 2B B- 1B B- 1B B- 2B B- 2B B- 2B B- 2B B- 1B B- 2B B- 2B B- 1B B- 2B C426 C428 C429 C430 C431 C432 C433 C434 C435 C436 C437 C438 C439 C440 C441 C442 C443 C444 C445 C446 C447 C450 C452 C453 B- 2B B- 2B B- 2B B- 2B B- 3A B- 2B B- 2B B- 3B B- 2B B- 3B B- 2B B- 3B B- 3B B- 2B B- 2B B- 2B B- 2B B- 2B B- 2B B- 2B B- 3B B- 3B B- 3B B- 3B C454 C455 C456 C457 C458 C459 C460 C461 C464 C465 C466 C468 C469 C470 C471 C472 C474 C475 C478 C484 C485 C486 C487 C488 B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 3B B- 4B B- 4B B- 4B B- 4B B- 4B B- 4B B- 3B B- 2B B- 1B B- 1B B- 1B C489 C491 C492 C493 C494 C495 C496 C497 C706 C736 C739 C762 C809 C920 C921 C922 C923 C924 C925 C980 B- 1B B- 1B B- 1B B- 1B B- 2B B- 2B B- 2B B- 2B B- 1A B- 4B B- 4B B- 3A B- 5A B- 1A B- 1A B- 1A B- 1A B- 1B B- 1B B- 1A OTHER X1 TH200 B- 1B B- 4A TH400 CN912 CN913 CN914 CN915 CN916 CN917 CN918 CN919 CN920 CN921 S601 S602 S603 CP1 CP401 CP402 J601 L1 L2 L3 L4 L7 L8 B- 1B B- 4B B- 3B B- 3B B- 4A B- 3B B- 2A B- 2A B- 2A B- 3A B- 3A B- 4B B- 3B B- 3B B- 1A B- 4B B- 3B B- 4A B- 2B B- 2A B- 2A B- 2A B- 3A B- 2A L9 L10 L11 L13 L14 L15 L16 L17 L21 L23 L24 L25 L26 L204 L205 L206 L207 L208 L209 L212 L213 L216 L217 L218 B- 2A B- 3A B- 2A B- 2A B- 3A B- 2A B- 3A B- 2A B- 3A B- 3A B- 2A B- 3A B- 3A B- 3A B- 3B B- 3B B- 3B B- 4A B- 4B B- 4B B- 4A B- 5B B- 4B B- 5B L219 L220 L221 L222 L223 L400 L401 L402 L403 L404 L405 L406 L407 L408 L409 L411 L412 L414 L415 L416 L702 XF400 B- 5B B- 5B B- 4A B- 5A B- 5B B- 1B B- 1B B- 2B B- 2B B- 2B B- 3B B- 2B B- 3B B- 2B B- 3B B- 3B B- 3B B- 3B B- 3B B- 4B B- 1B B- 2B SCHEMATIC DIAGRAM TX-RX UNIT (X57-8500-10) R53 0 C45 1000p C280 10p R253 82k 20p C278 3p 22p C275 2.2u L216 L217 R251 270 C269 ANT 1000p R249 270 C271 11p C273 10p 22p 12p C259 C260 C262 0.1u C247 0.1u C250 7p R:0V T:0.8V RN142S C270 4p RN142S D202 D201 C249 C263 1000p 100k 1000p Q209 RE1L002SN DC SW(POWER CONTROL) DC SW(APC) 1000p C258 C468 RX RF AMP R:2.4V Q405 R:4.2V T:0V R434 BB506CFS-E T:0V 0 R440 C469 27 8p C474 C478 R442 R446 7p (B) 0 0 L416 68n (-14) 30p C475 RX BPF TUNING RX BPF TUNING 1000p BPF1 1SV323F RK75HA1J474J 470k D404 33p L415 68n (-14) C470 2.5p D403 (B) C471 RX BPF TUNING R824 1k 0 R448 2.5p (B) 1SV323F CP401 1000p R435 470 C464 1000p C466 1000p R437 560k R439 150k 1SV323F 22p C460 C457 CP402 4.5p (B) C461 1.5p1.5p (B) (B) RX BPF TUNING 50M APCSW DCSW MOD1 0.1u C465 1000p R436 100k R438 100k 680 R433 (-14) L414 68n C456 C458 L411 68n (-14) C454 2.5p D401 C455 8p 1000p RK75HA1J474J 470k D402 C459 C453 1000p C450 C452 1000p 1000p C484 L409 270n (-53) 10p 0 1000p R427 100k C444 1000p L412 50R C446 1000p R:3.2VR:3.2V T:0V T:0V R429 C447 1ST MIXER R423 Q404 2.2k C437 BB506CFS-E R424 470 C441 0.01u C443 1000p R426 100k L408 150n (-53) R421 C433 1000p C435 0.01u 100 L404 680n (-39) 0.01u 2p R428 R425 56k C445 180n (-53) 56k C442 1p R:0V T:4.9V 1SV323F 68p 3p 13p C438 C440 10p C434 L403 DCSW APCSW PC BPF L406 C430 10p (B) 18p C429 C428 AsstSW TX/RX TH_DET R420 C432 270 2p 4.7k R417 680k NCP18WM224J03 BUSY 220K XF400 45.45MHz L71-0686-05 R:0.6V T:0V C426 R419 0.01u 330 Q403 KTC4075E(Y,GR) TH400 R413 -t 180k HSDDEC/MOD2 1000p C424 0.01u C431 C425 1000p 100 1.5u 1000p R412 10 1ST IF AMP SCLK SDATA DETo RSTN CSN AVSS2 PDN IFoUT R414 C419 IFIP 1 NC2 3 NC1 2 C494 0.22u 0.1u C495 AVDD 8 AVSS 7 VREFA 6 NC4 5 NC3 4 10u C496 82p C409 56k R409 C421 R418 330k 0.01u 0.033u 17 18 R450 0 19 R451 0 20 R452 0 21 R453 0 22 R454 0 23 R455 24 100k 680p R408 3.3k C414 50T 5TC R:0V T:3.3V C616 1000p L402 0.01u 270p 270p C410 C406 R403 MOD1 C413 CVADJ PLL_CLK PLL_LE PLL_DATA PLL_LD CVIN BATT 1800p C422 L407 L405 56n 56n (-71) (-71) C436 C439 2p 3p (B) (B) R422 50M R606 100k R405 C412 R407 470k 56p 3.3k R:4.9V T:0V L220 8T C279 D201,202 ANT SW Q210 LTA044EEBFS8 R247 470k (D) 7.5V C472 100k R601 3 5.0V R:0V T:4.9V Q601 SSM6L36FE EN1 EN3 EN4 EN2 MINVOL VOLOUT VOLIN C603 50T 50R 33MS 50C 1u C606 1u VOLTAGE REGULATOR(50M) R404 560k IF SYSTEM C4930.01u LoIN 32 C492 0.01u NRECTo LoCAP 31 C497 11 NAMPo C491 1u AK2365 AGNDIN 30 0.1u 12 C4891u NAMPI IC400 AGNDoUT 29 13 AUDIooUT R460 1M AVSS3 28 C488 DISCoUT C485 14 PDoUT VREFD 27 0.22u 1000p 15 RSSIoUT DVSS 26 C487 R449 220k16 DVDD 25 0.1u RSSI C486 10u R441 9 BIAS 47k (D) 10 2.2k MINVOL C620 1000p C625 1000p C628 1000p C631 1000p XC6209B502P-G IC601 4 VIN CE 3 VSS 2 5 VoUT NC 1 82p 2ND LOCAL AMP VOLIN EN2 EN4 EN3 EN1 7.4V 39p L401 100n C404 18p 47p C405 R400 330k 6p APC CONTROL SW R:4.9V T:0V 3.3V L219 9T C276 16p L218 R248 1M +B R246 470k DC SW(APC) Q207 LTC014EEBFS8 Q205 RE1C001UN R860 0 C407 6T C274 DC SW(POWER CONTROL) 8 7 6 5 R244 C252 56k 1000p 47p R241 R237 150k (D) R238 150k (D) 0V R:3.3V T:0V R:3.5V T:0V Q400 KTC4080E-P 1000p R615 390k (D) C630 1000p C623 1000p C613 820k (D) Q603 DC SW(MIN VOL) SSM3K127TUT 100 R603 B VOLGND EN2 EN4 GND EN3 EN1 0.1u C400 16.8MHz R614 BATT L400 R401 180n 1k C403 0.7V C402 1A RN141S R:0V T:4.9V 50R 50C VOLOUT VOLIN SB R250 C268 D203 C272 1000p RN141S 1000p 1000p 0 D204 C264 1u C245 C239 150p L212 150p C240 39p C253 56p C257 L213 9T 6T 1000p C242 39p L223 5T C277 -t 100k 1000p TH200 C233 R236 82 R232 56k C232 1000p R239 33k C229 R233 R243 10k IC200 BA2904FVM 1 oUT1 VCC 2 -IN1 oUT2 3 +IN1 -IN2 4 VEE +IN2 R242 470k (D) C236 10p C235 0.39 47p R235 1.8k C230 1000p 0.39 R230 0.39 4.7k C226 R222 0 R226 R231 D200 UDZW5.1(B) R228 33k C225 1000p C227 4.7u 0.1u R:0V T:3.3V 100k L222 3T H:1.4V Q208 L:0.8V RD07MUS2BT112 1000p C224 R229 1000p 390 L209 L208 R225 82k C222 1000p 18p C220 R215 560 R219 560 R214 560 L205 100n 1000p L206 R213 22 C213 C214 1000p OVER VOLTAGE PROTECTION R223 560 Q203 DISCHARGE SW LTC014TEBFS8 R:0V T:4.1V R39 100k R34 10u C56 R240 10 L221 50T 0.5p TX/RX VCO DC SW C51 1000p R32 1.5k D10 KDS160E-P C42 0.1u D203,204 ANT SW FINAL AMP R252 0 Q8 SSM3J36TUT Q8 CONTROL RIPPLE FILTER Q4 Q7 5.0V KTC4075E(Y,GR) L17 SSM6L36FE SPEED UP H:2.6V L:1.2V 1000p 1k R211 33n 30p H:4.2V L:1.9V C218 R35 L23 270 10u 5p 6p D13 L207 39n C228 68p R227 56k 0.22u C210 1000p C200 R:0V T:4.9V 10 39p C212 4.2V 39p R:0V T:1.7V 47p C216 R217 C219 Q201 2SC5455-A C207 39p C208 C202 0 L204 1SS390 1000p DRIVE AMP Q206 RFM01U7P R:0V T:0.9V C2111000p C201 R202 1SS390 R200 4.7k 22p C80 22p R48 D14 4.7k L26 C81 18n 18p (B) 1000p C77 0.1u R44 47 C76 R41 1k C71 R43 10k C75 1000p R45 270 R46 10k L25 C78100n 5p (B) C73 L24 1000p 100n R36 L21 390 10u C65 0.01u 18p R:2.1V T:2.1V D15 18p C66 1u 120k C54 C58 C61 D13 1SV305F 0.75p 0.7V R38 22 MODULATION C59 R33 R31 330k 0.01u C64 C57 10p L16 22n D12 C48 D11 BBY57-02V 7p L15 39n C50 33p L13 3.3u DC SW(MOD) C33 0.01u C60 C49 BBY57-02V 9p 27u L14 3.3u 47p R40 150k 1p 33p 15p (B) (B) 2.9V R212 1.5k R224 47 L9 27n R29 270 1000p 47p C43 L10 D2 C31 1SV323F D4 D3 1SV323F D5 1u R25 1M R26 1k C34 R21 1M 1000p C27 1000p 1SV323F +B SELECTOR B OPT1 OPT2 OPT3 OPT4 OPT5 OPT6 RXO RXI HSDDEC/MOD2 MOD1 50M INTSPMT 50V 0.01u C739 50M PTT/RXD MIC R807 18k R816 1k R812 47k C802 R814 27k TXD_OUT SB 0.1u C798 1000p PTT/RXD MICIN MICO OPTDET 50V AE TXD NC NC SPO J601 EXT-SP/MIC 1000p C814 270k R811 0.047u C790 C788R801 22u 100 2.2u R796 560 C783 1u C784 R795 47k R806 10k 1000p R810 330k R815 AF POWER AMP(EXT) AF SW AF SW R802 (EXT (EXT 100 DC SW SP) SP) IC707 470k (IC707 TA7368PL Q713 Q716 SB) 2SK3577-A 2SK3577-A C808 47u 1 NC1 Q710 PoUT 10 2SB1694 SB 2 VCC C809 47u PW-GND 9 3 NC2 PRE-GND 8 C789 4 VIN C781 PHASE 7 100p VOLOUT R794 5 RIPPLE OPTDET LOW & NF 6 0.1u 1.5k MUTE OFF:3.2V OPTDET LOW & MUTE ON:0V MUTE OFF:7.4V MUTE ON:0V C780 C806 1000p OPTDET WITHOUT 2PIN JACK:3.2V(H) INSERT 2PIN JACK:0V(L) TXD 220k Q715 UMG3N Q714 CONTROL R805 10k R822 Q711 LTC014EEBFS8 Q715 CONTROL C805 C801 1u MUTE OFF:5.5V MUTE ON:0V DC SW(IC709 SB) INTSPSW INT-SP 1000p 18k Q714 2SB1132(Q,R) OPTDET HIGH & MUTE OFF:3.2V MUTE ON:0V C812 0.22u 100p R804 120k 1000p R800 R803 390 C778 10u 1000p R793 R792 1.8k 470 TXD_OUT PTT/RXD OPTDET INTSPSW EXTSPSW 50M VOLOUT 0.068u C786 AF POWER AMP(INT) MUTE ON:0V IC709 NJU7089KV1 1 SD oUTB 8 C795 2 BYPASS GND 7 3 +IN 1u V+ 6 4 -IN oUTA 5 C794 R809 R813 82k 0.068u 10k OPTDET HIGH & PTT/RXD 10K CP28 C785 10u 1000p INT-MIC EXTSPSW C774 1000p 1000p BU7465HFV IC706 OPTDET HIGH & MUTE OFF:2.7V 0.1u IC708 BU7465HFV 1 IN+ VDD 5 2 VSS 3 INoUT 4 C792 SB C782 3.3V CP27 470K AF DETECTOR(VOX) VOLOUT R987 R988 0 0 C779 C777 C771 C770 1000p 1000p 2.2u 2.2u MIC AGC AMP R789 C775 R773 C763 0.047u 10k 0.1u Q705 10k D700 AF DETECTOR(MIC) 2SC4116(GR)F R784 C760 $R989 12k 0.47u RB706F-40 C761 R785 0.47u 12k Q706 D701 RB706F-40 2SA1586(Y,GR)F AF DETECTOR(MIC) MIC AGC AMP D703 MC2850 R790 R786 Q704 10k 100k KTC4075E(Y,GR) LIMITER MIC MUTE:3.3V MIC MUTE SW R787 1M MIC UNMUTE:0V C772 47p R774 C769 4 oUT DC AMP(VOX) 100 IN3 0.47u D702 5 VDD VSS 2 1SS372F IN+ 1 R783 2.7k D $R990 LEVEL SHIFT(TXD) R788 47k CP26 10K R782 47k C762 1000p LEVEL SHIFT(RXD) 1000p1000p C768 C767 R826 100k R769 100k R772 C759 150k 1u 100p R770 C758 120k 4.7u Q707 UPA672T-A Q703 UM6K34N C765 C764 270p 100p 100p R763 R762 100k 100k R767 100k LSDO HSDDEC/MOD2 CML_IRQ C C754 27k 33M C746 1000p DC SW(EXT PLL) 0.47u R760 47k Q708 LTC014EEBFS8 R765 R766 2.2k R764 0 C743 0.01u C744 10u C773 R756 10 DVSS3 MoD2 VDEC2 MoD1 XTAL/CLK AVSS1 IC705 CMX7141 BASEBAND SYSTEM SCLK TXENA SYSCLK2 DVSS2 SYSCLK1 CSN 24 23 22 MIC 21 MICFB 20 ALTFB 19 ALT 18 DISCFB 17 DISC 16 15 14 13 1u R781 6.8k 10k C751 C750 C749 C737 1u R768 C756 R780 470k C766 0.1u R984 0 HSDENC MIC_MT VOX 33M PTT/RXD SB A R755 560k IC704 BU7465HFV 1 IN+ 50C 2 VSS VDD 5 PC R751 3 INoUT 4 1M EPSI_CML EPSCLK_CML EPSO_CML DVDD IC713 SM5023CNDH-G R905 1 INHN XTN 6 470k 2 XT 3 VSS VDD 5 R904 Q 4 82 D CRYSTAL OSCILLATOR AMP D 1000p C732 R718 82 R903 22 C734 10u 37 38 39 40 XTALN 41 DVDD 42 CDATA R748 43 RDATA 0 44 SSoUT 45 DVSS4 46 47 48 1 EPSI 2 EPSCLK 3 EPSo CP25 4 EPSCSN 47K 5 BooTEN1 6 BooTEN2 7 DVSS1 8 IRQN 9 VDEC9 10 RXENA R757 47k 11 GPIoA 12 GPIoB L700 10u C735 NC 4 R746 10k 1u C730 3 CoNT C741 10u C740 0.1u C742 1000p OPTDET HIGH & MUTE OFF:3.3V MUTE ON:0V AF AMP C791 $R986 3.2V 5.0V R817 0 50M 33M VOLIN VOLOUT R983 0 36 R752 35 0 34 33 32 31 30 29 28 27 C815 R759 15k 26 C745 1u C747 25 0.1u 1500p VOLTAGE REGULATOR(33B) IC703 MM1856A33N 3.3V 1 VIN VoUT 5 2 GND $R985 AUXDAC4 AUXDAC3 AVSS2 DAC2 DAC1 AVDD ADC4 ADC3 ADC2 ADC1 AUDIo VBIAS 1K 33MD L901 0.1u C851 EXTSPSW TH_DET CML_CSN SCLK_CML SDATA_I_CML SDATA_O_CML PF2 PF1 CP24 27k 47k R828 VOLTAGE REGULATOR(33MD) OPTDET HIGH & MUTE OFF:5.5V MUTE ON:0V INTSPSW OPTDET C913 C915 0.01u 1u C925 1u R907 0 D OPT7 DETAF EXTSPSW C914 0.01u 2 GND oUTPUT 3 R725 INTSPMT TXO PTT/RXD1 TXD 1 VCoNT VCC 4 D 1500p R737 100 47K R853 12k C852 12k 10 R857 CP23 100u L902 C980 4.7u L903 10k C924 3.3V 1 IN+ 2 VSS VDD 5 3 INoUT 4 0 R901 47k R902 47k X2 L77-3129-05 19.2MHz 3.2V C853 R850 R852 7.4V 33MM R997 100 OPT7 0.1u IC717 BU7465HFV R736 100 R740 4.7k D IC715 MM1856A33N 7.4V 1 VIN 2 GND VoUT 5 D 3 CoNT NC 4 L702 0.1u 0 C807 R723 R798 R797 150k 330k (D) (D) R720 0 C981 C704 R705 PTT/RXD PF1 PF2 R777 100k R996 100 OPT6 TXD R744L701 15 1000p 100k R825 R703 15k 33M VOLOUT VOLIN TH_DET EN4 EN2 EN3 EN1 SSOUT_CML EPSCLK_CML EPSO_CML EPSI_CML BUSY PLL_LD TX/RX AsstSW 10k R979 0 R995 100 OPT5 DC AMP(BPF TUNE) AF AMP PF1 PF2 REDLED OPT2 OPT1 47K CP21 C912 2.2u D CN908 R775 R993 100 OPT3 R994 100 OPT4 C748 1u 1000p 1K 47K R712 47k CP20 0.1u C706 R715 1k C711 CP22 C986 1000p C911 0.1u C970 1000p C971 0.1u D CN901 CN902 CN912 CN913 CN914 CN915 CN916 CN917 CN918 CN919 CN920 CN921 R992 100 OPT2 R978 10k CML_SSOUT SWCLK 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 0.1u RXO 0.1u RXI C922 0.1u TXO C923 0.1u TXI R991 100 OPT1 1k R726 1k HSDENC GRNLED REDLED 33MA 33MD EMPTT C624 1000p 1000p C611 L601 OPT7 OPT6 OPT5 SRST SWO PLL_CLK PLL_LE PLL_DATA EEP_WP EEP_CLK EEP_CS EEP_DATAO EEP_DATAI CML_EPSI CML_EPSO CML_EPSCLK D GRNLED R:0V T:3.3V FM_RSTN CML_RDATA CML_CDATA CML_SCLK CML_CSN C920 C921 C736 1000p 100 99 98 97 96 95 94 93 92 91 CN905 90 CN906 89 88 87 86 85 84 83 82 81 80 79 78 77 76 VREF+ VDDA 5CC CVIN EMPTT DC SW(BLUE LED) 1000p C615 S601 S602 S603 Side2 MCU BLUE DC SW(RED LED) PTT D PLL_LD RXD TXD OPT3 EN4 EN2 EN3 EN1 FM_PDN PF2 PF1 PTT FM_SDATA FM_SCLK FM_CSN 1000p 50VC 33MSC 5RC 5TC BATT RSSI VDD5 VSS3 VCAP_2 SWDIO OPT2 IC710 2F405VGT6KFAA Q605 BLUE LED LTC014EEBFS8 ON:3.3V BLULED DC SW(BLUE LED) Side1 26 50VC SB SB Q604 LTC014EEBFS8 PTT Side1 Side2 GND 0 MINVOL DCSW APCSW TEST_1 TEST_2 R701 10k (D) R708 C700 HSDDEC CVIN BATT RSSI 33M INT BLULED CML_IRQ QTDQTIN VOX 5RC 5TC 0.01u VDD 2 C629 33MSC 50VC 50CC C982 1u C907 0.01u R960 C908 1u C906 0.01u C985 1000p 27 VSS2 C626 INT 1000p R710 1k R709 2.2k VSS C719 1000p 0.1u VCC D C718 7.4V 270 B30-1790-05 330 R608 D604 B30-2315-05 R604 D602 VoUT 1 4 GND 3 NC C610 1000p 0.1u C612 4 VSS 22k R605 1 oUT 2 IN C602 2.2u NC 3 220 R600 D601 B30-2314-05 RED (TX) Q600 LTC014EEBFS8 BLUE LED ON:3.3V 1000p C999 0.1u R702 10k (D) R711 10k (D) INT 3.3V 1k VOLTAGE DETECTOR(INT) GREEN (BUSY) 0 IC605 BU4830F VOLTAGE DETECTOR(RESET) R609 D RESET R616 R613 IC600 XC61CN4502N-G C983 DC SW(33MS) ON:0V 33MSC 100k CN904 C989 0.1u D 1u C621 100k R610 1u C605 7.2V CN903 1 2 3 4 5 6 VBAT 7 BLUELED 8 BSHIFT 9 INTSPMT 10 VSS1 11 VDD1 12 XIN 13 NC 14 NRST 15 LSDI 16 HSDDEC 17 VOX 18 OPT4 19 VDD2 20 VSSA 21 22 23 24 25 R970 0 5.0V CN907 VDD6 PDR_oN CML_IRQN INT GPIO7 GPIO6 BooT0 50V 1000p 0.1u D 28 VDD3 5.0V 1S VCC 8 2Q HoLD 7 3W C 6 4 VSS D 5 D EEPROM 30 HSDENC 31 5RC 32 5TC 33 BATT 34 RSSI 35 BUSY 36 TH_DET 37 33MSC 38 OPT1 39 OPTDET 40 GRNLED 41 REDLED 42 MIC_MT 43 EXTSPMT 44 ASSISW 45 TX/RX 46 INSPSW 47 TEST_TX 48 TEST_RX C910 49 VCAP_1 2.2u 50 VDD4 R612 C984 C905 C9090.1u29 LSDO 1u R611 100k 50VC ON:3.3V 50VC VOLTAGE DROP IC604 VOLTAGE REGULATOR(33M) D600 MM1856A33N 3.3V RB521S-30-TP 1 VIN 33M VoUT 5 2 GND 3 CoNT NC 4 Q606 3.3V SSM3J36TUT 33MS 2 OPT7 OPT6 OPT5 1u OPT4 INTSPMT APCSW DCSW 1u R977 10k 50CC ON:3.3V 50CC IC700 EX25064ATA00A D 5.0V VOLTAGE REGULATOR(50V) 3.3V 3.3V 50C C618 C600 1u 1u 4 VIN CE 3 50V 5 VoUT VSS 2 NC 1 NC 4 VOLTAGE REGULATOR(33R) 1u C601 C723 100k C720 3 CE IC603 XC6209B502P-G EN2 EN4 EN3 EN1 50C 50V INTSPMT PLL_LD 33M 50R 5RC R:3.3V T:0V IC606 XC6209B332M-G 3.3V 1 VIN VoUT 5 2 VSS 100k C604 1000p R602 100k R607 VOLTAGE REGULATOR(50C) IC602 MM1856A50N 1 VIN VoUT 5 2 GND 3 CoNT NC 4 C607 VOLIN R:4.9V T:0V Q602 SSM6L36FE OPT3 DC SW(50T) DC SW(50R) 1 TX VCO Q6 C47 TX ASSIST MCH3914(7)-H RF AMP Q10 2SC5636 BUFFER AMP Q9 2SC5636 C72 C74 C68 D8 1SV325F D9 Q1 SSM3J36TUT Q1 CONTROL Q3 R27 RE1C001UN 10k R24 470k RX VCO Q5 MCH3914(8)-H R37 22 R210 22 D14,15 TX/RX SW C79 3.2V R:4.2V T:0V 50C AsstSW +B 50T MOD2 F601 CN600 VOLUME 1 2 3 4 5 6 7 8 9 10 11 12 0.1u C36 C38 1000p D603 C609 2.5A 33p GN1G L600 B TH_DET 7.5V F600 VOLTAGE PREVENTION 7.5V GND DC AMP(CV) IC3 BD7542FVM 1 oUT1 VDD 8 2 IN1oUT2 7 3 IN1+ IN2- 6 4 VSS IN2+ 5 C28 PLL_LD PLL_DATA PLL_LE PLL_CLK 4 C46 RX ASSIST 1SV323F 1SV323F L11 27u L8 10u 1000p 10 CVIN CV MOD1 R9 2.2k 0 CVIN Freq R7 0 R3 1SV323F D7 1SV323F R22 10k L7 10u 0.1u 35 0.068u R18 L3 D3,5,8,9 TX VCO TUNE L2 R13 0.01u 1k C15 C23 0.01u 33MS 12k 0.3V PLL FIN AMP 1000p R11 C11 R20 0 470 C29 3.2V C22 10p (B) R19 C26 R8 C16 330 0.01u 0 0.47u 25 1.5k 0.01u C8 C7 R5 R16 R17 0 R2 R30 D2,4,6,7 RX VCO TUNE D6 CV(A) 100 L1 4.7u 10p (B) 0 22k 15p 68k 1000p Q2 2SC5636 C37 50C R58 10k R54 10k C85 0.047u C82 100p 3.3V R4 2 GND oUTPUT 3 0 R1 1k R10 1.7V 470 C41 15n PRE-DRIVE AMP R51 X1 L77-3127-05 15.3MHz 1 VCoNT VCC 4 L4 12 100p C9 C30 1000p 1.4V R28 0.01u LD 7 PDN2 8 PDN1 9 REFIN 10 TEST2 11 TEST3 PLL_DATA 100p C13 100p C6 5.0V C86 C40 5 CP1 100 R56 10 C87 1 PVDD 18 1000p 2 CPVDD RFINP 17 C88 3 TEST1 TEST4 RFINN 16 1000p IC2 4 LE C89 AK1541 VREF2 15 0.22u 5 DATA DVSS 14 C90 6 CLK VREF1 13 0.22u 47 470p C35 22p 24 23 22 21 20R55 19 27k CPVSS SWIN CPZ CP PVSS BIAS C83 1000p R23 C32 C19 C18 PLL SYSTEM 0.01u 1000p R52 10 5.0V C84 0.01u C787 0.1u Q709 LTC014EEBFS8 Q712 LTC044EEBFS8 Q710 CONTROL POP NOISE MUTE CONTROL D (No.RA002<Rev.001>) 2-3 E 2-3 (No.RA002<Rev.001>) F G LEVEL DIAGRAM Receiver Section IF1 (45.45MHz) RF (Center Frequency) AF (1kHz) IF2 (450kHz) 5 N : –114dBm N : –120dBm N : –117dBm BPF ANT G1 N : –109.5dBm LNA D BPF MCF D Mixer Q404 Q405 1 Q403 13 IC400 0.63Vrms 0.80Vrms 441mVrms Baseband Baseband IC IC 16 17 16 26 CML CML IC705 IC705 FM IC IF AMP XF400 90mVrms 4 IC707 Transmitter Section RF (Center Frequency) TX VCO AF (1KHz) 3 11.4dBm 17.6mVrms MIC C775 85.7mVrms –0.6dBm 93mVrms Baseband 20 IC CML 21 24 IC705 PRE DRIVE AMP C216 Q201 Q10 Q9 C74 H:19.2dBm L:14.6dBm 13.65dBm -3.7dBm C81 To make measurements in the AF section, connect the AC level meter. AG is set so that MIC input becomes 1.5kHz (Narrow) DEV at 1kHz MOD. Q206 H:5W L:1W FINAL FET DRIVE FET C219 H:32.75dBm L:25.35dBm C228 Q208 ANT C268 D203 D204 To make measurements in the RF section, connect the RF Wattmeter (50ohm). In the RF section, use a 1000pF coupling capacitor. 2 1 A B C J601 10 To make measurement in the AF section, connect the AC level meter. (ANT input: –53dBm, 1kHz FM, 1.5kHz Dev (Narrow).) The AF output level is adjusted for a 0.6Vrms/8ohm by the Volume knob. To make measurements in the RF section, connect the RF level meter. In the RF section, use a 0.01µF coupling capacitor. (The display shows the SSG input value required to obtain 12dB SINAD.) 4 15.9mVrms 92mVrms N : –100dBm N : –100.5dBm G1 81mVrms (No.RA002<Rev.001>) 2-4 D E 2-4 (No.RA002<Rev.001>) F G BLOCK DIAGRAM TX-RX UNIT (X57-8500-10) IC601 XC6209B502P-G AV R SB 5 PLL_DAT A PLL_CLK PLL_LE DC SW TX VCO RX VCO 1st LOCAL TX/RX 136.00~174.00MHz 181.45~219.45MHz 181.45~219.45MHz 136.00~174.00MHz Q2 2SC5636 IC2 AK1541 50M (5.0V) Q601 SSM6L36FE NX-240-K NX-240(V)-K NX-240-P RF AMP LPF TX/RX 50T (5.0V) BAT T PLL_LD Q602 SSM6L36FE 5TC DC SW X1 50C PLL 15.3MHz 50R (5.0V) Q9 2SC5636 Q10 2SC5636 D14,15 1SS390 TX VCO BUFFER AMP RF AMP T/R SW LOOP FILTE R MOD1 IC606 XC6209B332M-G TX VCO FREQ 5RC Q6 MCH3914(7)-H D3,5,8,9 1SV323F D11 BBY57-02V D13 1SV305F 50C 33MS 50C 33MS IC602 MM1856A50N DC SW 50CC IC3(1/2) BD7542FVM 50C (5.0V) AV R DC AMP Q208 RD07MUS2BT11 2 D201,202 RN142S D203,204 RN141S RF AMP RF AMP ANT SW RF AMP ANT LPF 50C RX VCO CVIN 50V (5.0V) 50T Q210 LTA044EEBFS 8 DC SW 1st Local 50CC AV R 50T 50T 50R Q8 SSM3J36TUT RX VCO IC603 XC6209B502P-G DC AMP D600 RB521S-30-TP DC SW INT 33MS (3.3V) IC3(2/2) BD7542FVM Q1 SSM3J36TUT Q3 RE1C001UN RIPPLE FILTE R DC SW RESET IC600 XC61CN4502N-G Q400 KTC4080E-P RESET IC400 AK2365 2nd LOCAL 45.9MHz B (7.5V) AV R IC703 MM1856A33N AV R LTC014EEBFS 8 APCSW 50T APCSW PC MONOLITHIC CRYSTAL FILTE R XF400 45.45MHz Q404 BB506CFS-E D401,402 1SV323F Q405 BB506CFS-E D403,404 1SV323F 1st MIXER BPF RF AMP BPF 1st IF 45.45MHz MCF 33MD (3.3V) 50R PROTECT 33B (3.3V) Q403 KTC4075E(Y,GR ) IF AMP TRIPLER IC605 BU4830F 50C DC SW TX/RX 50C CVAD J INT 33MSC D603 GN1G DC SW Q209 RE1L002SN B Q207 33M (3.3V) Q606 SSM3J36TUT B CURRENT DET Q203 LTC014TEBFS8 50VC AVR DC SW DCSW DC SW Q4 KTC4075E(Y,GR ) D10 KDS160E-P Q7 SSM6L36FE PROTECT IC200 BA2904FVM Q205 RE1C001UN Q5 MCH3914(8)-H D4 , D6 1SV323F D12 BBY57-02V IC604 MM1856A33N + BATT (7.5V) - Q206 RFM01U7P 33C (3.3V) AV R 4 Q201 2SC5455-A 33C RSSI IC715 MM1856A33N BUSY 50R 50R FM IF SYSTEM FM_SDAT A 3 IC717 BU7465HFV IC705 CMX7141 PWR SW / VOL PC SB (7.5V) FM_RSTN FM_CSN FM_SCLK FM_PDN AMP 33M BASEBAND Q603 SSM3K127TUT DC SW IC709 NJU7089KV1 IC708 BU7465HFV AF AMP AMP MINVOL DC SW + INT SP - SB 50M INTSPSW Q711 LTC014EEBFS8 Q714 2SB1132(Q,R) Q715 UMG3N IC706 BU7465HFV D702 1SS372F D703 MC2850 2 VOX 50C CH SW EN1 EN2 VOX EN3 IC710 2F405VGT6KFAA EN4 CML_SSOUT CML_EPSCLK CML_EPSI CML_RDAT A CML_IRQN LSDI HSDDEC PC CVAD J FREQ MOD1 33B PTT/RXD MICIN MICO TH_DET INT RESET XIN RXD OPTDET PLL_UL MINVOL DCSW APCSW BLUELED BSHIFT INTSPMT 5CC EMPTT 50VC LSDO HSDENC 50RC 33MSC GRNLED REDLED MIC_MT PTT PF1 PF2 EN1 EN2 EN3 EN4 EEP_DATA I CML_SSOUT CML_EPSCLK CML_EPSI CML _ RDATA CML_IRQN PTT 33M RXD EXTSPMT ASSISW TX/RX INSPSW TXD PLL_DAT A PLL_LE PLL_CLK FM_RSTN FM_CSN FM_SCLK FM_PDN EEP_DATA O EEP_CS EEP_SCLK EEP_WP CML_CSN CML_SCLK CML_CDAT A CML_EPSO EMPTT DC SW 33M 50M S602 SIDE1 33M FM_SDAT A 33MD Q708 LTC014EEBFS8 SPO Q713 , 716 2SK3577-A IC707 TA7368PL SB INT MIC MUTE SW Q703 UM6K34N LEVEL SHIFT 1 33M 50M TXD Q712 LTC044EEBFS 8 Q710 2SB1694 DC SW DC SW SB D601 B30-2314-05 AF AMP DC SW GRNLED Q600 LTC014EEBFS 8 PF2 SB D602 B30-2315-05 DC SW D604 B30-1790-05 DC SW REDLED Q604 LTC014EEBFS 8 BLUELED Q605 LTC014EEBFS 8 IC713 SM5023CNDH-G AMP BSHIFT 33MD IC700 EX25064ATA00A XIN 33MD EEP_DATA I EEPROM EEP_DATA O EEP_CS EEP_SCLK EEP_WP 33M EXTSPM Q709 LTC014EEBFS8 B C D (No.RA002<Rev.001>) 2-5 S603 SIDE2 X2 19.2MHz SB DC SW A S601 PTT PF1 OPTDET 50V AE TXD EXT SP/MIC PTT LEVEL SHIFT LSDI HSDDEC VOX CVIN BAT T RSSI BUSY MCU Q707 UPA672T-A J601 IC704 BU7465HFV 33C CML_CSN CML_SCLK CML_CDAT A CML_EPSO LSDO HSDENC XIN MIC MUTE Q704 KTC4075E(Y,GR) Q705 SC4116(GR)F Q706 2SA1586(Y,GR)F D700,701 RB706F-40 LSDO DC AMP E 2-5 (No.RA002<Rev.001>) F G

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