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DR-135 / DR-235 / DR-435
Service Manual
CONTENTS
SPECIFICATIONS
GENERAL ........................................................................................ 2 TRANSMITTER ................................................................................ 2 RECEIVER ....................................................................................... 2 Mechanical Parts ............................................................................ 43 Packing Parts ................................................................................. 43 ACCESSORIES .............................................................................. 43 ACCESSORIES(SCREW SET) ...................................................... 43 TNC(EJ41U) .................................................................................. 44 TNC (EJ41U) Packing Parts ........................................................... 45
CIRCUIT DESCRIPTION DR-135
1) Receiver System (DR-135) ........................................................... 3, 4 2) Transmitter System (DR-135) ....................................................... 4, 5 3) PLL Synthesizer Circuit (DR-135) ................................................. 5, 6 4) Receiver System (DR-235) ........................................................... 6, 7 5) Transmitter System (DR-235) ....................................................... 7, 8 6) PLL Synthesizer Circuit (DR-235) ................................................. 8, 9 7) Receiver System (DR-435) ......................................................... 9, 10 8) Transmitter System (DR-435) ......................................................... 10 9) PLL Synthesizer Circuit (DR-435) ................................................... 11 10) CPU and Peripheral Circuits(DR-135 DR-235 DR-435) ............. 11,12 11) Power Supply Circuit ....................................................................... 13 12) M3826M8269GP (XA0818) ....................................................... 14~16
DR-135 ADJUSTMENT
1) Adjustment Spot ............................................................................ 46 2) VCO and RX Adjustment Specification ........................................... 47 3) Tx Adjustment Specification ............................................................ 47 4) Rx Test Specification ....................................................................... 48 5) Tx Test Specification ....................................................................... 49
DR-235 ADJUSTMENT
1) Adjustment Spot ............................................................................ 50 2) VCO and RX Adjustment Specification ........................................... 51 3) Tx Adjustment Specification ............................................................ 51 4) Rx Test Specification ....................................................................... 52 5) Tx Test Specification ....................................................................... 53
SEMICONDUCTOR DATA
1) M5218FP (XA0068) ........................................................................ 17 2) NJM7808FA (XA0102) .................................................................... 17 3) TC4S66F (XA0115) ........................................................................ 17 4) TK10930VTL (XA0223) .................................................................. 18 5) BU4052BF (XA0236) ...................................................................... 19 6) TC4W53FU (XA0348) .................................................................... 19 7) M64076GP (XA0352) ..................................................................... 20 8) LA4425A (XA0410) ......................................................................... 21 9) M67746 (XA0412) .......................................................................... 21 10) M68729 (XA0591) .......................................................................... 22 11) M57788 (XA0077A) ........................................................................ 23 12) mPC2710T (XA0449) ..................................................................... 24 13) NJM2902 (XA0596) ........................................................................ 24 14) 24LC32A (XA0604) ........................................................................ 25 15) S-80845ALMP-EA9-T2 (XA0620) ................................................... 25 16) L88MS05TLL (XA0675) .................................................................. 25 17) AN8010M (XA0119) ....................................................................... 26 18) TK10489M (XA0314) ...................................................................... 26 19) Transistor, Diode, and LED Ontline Drawings .................................. 27 20) LCD Connection (TTR3626UPFDHN) ........................................... 28
DR-435 ADJUSTMENT
1) Adjustment Spot ............................................................................ 54 2) VCO and RX Adjustment Specification ........................................... 55 3) Tx Adjustment Specification ............................................................ 55 4) Rx Test Specification ....................................................................... 56 5) Tx Test Specification ....................................................................... 57
PC BOARD VIEW
1) CPU Unit Side A ............................................................................. 58 2) CPU Unit Side B ............................................................................. 58 3) Main Unit Side A DR-135 (UP 0400B) ............................................. 59 4) Main Unit Side B DR-135 (UP 0400B) ............................................. 59 5) Main Unit Side A DR-235 (UP 0414) ............................................... 60 6) Main Unit Side B DR-235 (UP 0414) ............................................... 60 7) Main Unit Side A DR-435 (UP 0415) ............................................... 61 8) Main Unit Side B DR-435 (UP 0415) ............................................... 61 9) Tnc Unit Side A (UP 0402) (DR-135TP only) .................................. 62 10) Tnc Unit Side B (UP 0402) (DR-135TP only) .................................. 62
SCHEMATIC DIAGRAM
1) CPU Unit DR-135 / DR-235 / DR-435 ............................................. 63 2) Main Unit DR-135 ........................................................................... 64 3) Main Unit DR-235 ........................................................................... 65 4) Main Unit DR-435 ........................................................................... 66 5) TNC Unit (DR-135TP only) ............................................................. 67
EXPLODED VIEW
1) Top and Front View ......................................................................... 29 2) Bottom View .................................................................................... 30 3) LCD Assembly ................................................................................ 31
PARTS LIST
CPU .......................................................................................... 32, 33 Main Unit(DR-135) .................................................................... 33~36 Main Unit(DR-235) .................................................................... 36~39 VCO Unit(DR-235) ......................................................................... 39 Main Unit(DR-435) .......................................................................... 42 VCO Unit(DR-435) ......................................................................... 42
BLOCK DIAGRAM
1) DR-135 ........................................................................................... 68 2) DR-235 ........................................................................................... 69 3) DR-435 ........................................................................................... 70
ALINCO,INC.
SPECIFICATIONS
General
Frequency coverage T,TG (U.S amateur) E,EG (European amateur) TA,TAG (Commercial) DR-135 118.000 ~ 135.995MHz (AM RX) 136.000 ~ 173.995MHz (RX) 144.000 ~ 147.995MHz (TX) 144.000 ~ 145.995MHz (RX.TX) 118.000 ~ 135.995MHz (AM RX) 136.000 ~ 173.995MHz (RX.TX) FM 16K0F3E (Wide mode) 8K50F3E (Narrow mode) 5,8.33,10,12.5,15,20,25,30,50 KHz 100 50 unbalanced 13.8V DC ±15% (11.7 to 15.8V) Negative ground 0.6A(Max.) 0.4A(Squelched) 8.0A max. 10.0A max. - 10 °C to 60 °C ±5ppm 142(w)×40(h)×174(d) mm ( 142×40×188mm for projection included) Approx. 1.0kg DR-235 216.000 ~ 279.995MHz (RX) 222.000 ~ 224.995MHz (TX) DR-435 350.000 ~ 511.995MHz (RX) 430.000 ~ 449.995MHz (TX)
430.000 ~ 439.995MHz (RX.TX)
Operating mode Frequency resolution Number of memory channels Antenna impedance Power requirement Ground method Current drain Receive Transmit 11.0A max. Operating temperature Frequency stability Dimensions Weight
Transmitter
Output power High:50W (144-148MHz) More than 33W (136-174MHz) Mid:10W Low:Approx.5W High:25W Mid:10W Low:Approx.5W High:35W Mid:10W Low:Approx.5W
Modulation system Maximum frequency deviation Spurious emission Adjacent channel power Noise and hum ratio
Microphone impedance
Variable reactance frequency modulation ±5kHz (Wide mode) ±2.5kHz (Narrow mode) -60dB -60dB -40dB (Wide mode) -34dB (Narrow mode) 2k
Receiver
Sensitivity Receiver circuitry Intermediate frequency Squelch sensitivity Adjacent channel selectivity Intermoduration rejection ratio Spurious and image rejection ratio Audio output power -16dBu for 12dB SINAD Double conversion superheterodyne 1st 21.7MHz 2nd 450kHz 1st 30.85MHz 2nd 455kHz 1st 30.85MHz 2nd 455kHz
-18dBu -65dB(Wide mode) -55dB(Narrow mode) 60dB 70dB 2.0W (8 ,10%THD)
! Note: All specifications are subject to change without notice or obligation.
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CIRCUIT DESCRIPTION DR-135/DR-235/DR-435
1) Receiver System (DR-135)
The receiver system is a double superheterodyne system with a 21.7 MHz first IF and a 450 kHz second IF .
1. Front End
The received signal at any frequency in the 136.000MHz to 173.995MHz range is passed through the low-pass filter (L116, L115, L114, L113, C204, C203, C202, C216 and C215) and tuning circuit (L105, L104 and D105, D104), and amplified by the RF amplifier (Q107). The signal from Q107 is then passed through the tuning circuit (L103, L102, and varicaps D103 and D102) and converted into 21.7 MHz by the mixer (Q106). The tuning circuit, which consists of L105, L104, varicaps D105 and D104, L103, L102, varicaps D103 and D102, is controlled by the tracking voltage form the VCO. The local signal from the VCO is passed through the buffer (IC112), and supplied to the source of the mixer (Q106). The radio uses the lower side of the superheterodyne system.
2. IF Circuit
The mixer mixes the received signal with the local signal to obtain the sum of and difference between them. The crystal filter (XF102, XF101) selects 21.7 MHz frequency from the results and eliminates the signals of the unwanted frequencies. The first IF amplifier (Q105) then amplifies the signal of the selected frequency.
3. Demodulator Circuit
After the signal is amplified by the first IF amplifier (Q105), it is input to pin 24 of the demodulator IC (IC108). The second local signal of 21.25 MHz (shared with PLL IC reference oscillation), which is oscillated by the internal oscillation circuit in IC116 and crystal (X103), is input through pin 1 of IC108. Then, these two signals are mixed by the internal mixer in IC108 and the result is converted into the second IF signal with a frequency of 450 kHz. The second IF signal is output from pin 3 of IC108 to the ceramic filter (FL101 or FL102), where the unwanted frequency band of that signal is eliminated, and the resulting signal is sent back to the IC108 through pins 5. The second IF signal input via pin 5 is demodulated by the internal limiter amplifier and quadrature detection circuit in IC108, and output as an audio signal through pin 12.
4. Audio Circuit
The audio signal from pin 12 of IC108 is amplified by the audio amplifier (IC104:A),and switched by the signal switch IC (IC111) and then input it to the de-emphasis circuit. and is compensated to the audio frequency characteristics in the de-emphasis circuit (R203, R207, R213, R209, C191, C218, C217) and amplified by the AF amplifier (IC104:D). The signal is then input to volume (VR1) . The adjusted signal is sent to the audio power amplifier (IC117) through pin 1 to drive the speaker.
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5. Squelch Circuit
The detected output which is outputted from the pin 12 of IC108 is inputted to pin 19 of IC108 after it was been amplified by IC104:A and it is outputted from pin 20 after the noise component was been eliminated from the composed band pass filter in the built in amplifier of the IC, then the signal is rectified by D106 to convert into DC component. The adjusted voltage level at VR101 is delivered to the comparator of the CPU. The voltage is led to pin 2 of CPU and compared with the setting voltage. The squelch will open if the input voltage is lower than the setting voltage. During open squelch, pin 30 (SQC) of the CPU becomes "L" level, AF control signal is being controlled and sounds is outputted from the speaker.)
6. AIR Band Reception(T only) When the frequency is within 118~135.995MHz, Q110 automatically turns ON, pin 14 of IC108 becomes "L" level and the condition becomes in AM detection mode. The receiver signal passed through the duplexer is let to the antenna switch (D107,D101). After passing through the band-pass filter, the signal is amplified by RF amplifier Q112. Secondly the signal is mixed with the signal from the first local oscillator in the first-mixer Q106,then converted into the first IF. Its unwanted signal is let to IC106, pin24. Then converted into the second IF. and is demodulated by AM decoder of IC106, and is output from pin13 as the AF signal. 7. WIDE/NARROW switching circuit The 2nd IF 450 kHz signal which passes through filter FL101 (wide) and FL102 (narrow) during narrow, changes its width using the width control switching IC103 and IC102.
2) Transmitter System (DR-135)
1. Modulator Circuit
The audio signal is converted to an electrical signal by the microphone, and input it to the microphone amplifier (Q6). Amplified signal which passes through mic-mute control IC109 is adjusted to an appropriate mic-volume by means of mic-gain adjust VR106. IC114:A and B consists of two operational amplifiers; one amplifier (pins 1, 2, and 3) is composed of pre-emphasis and IDC circuits and the other (pins 5, 6, and 7) is composed of a splatter filter. The maximum frequency deviation is obtained by VR107. and input to the signal switch (IC113) (9600 bps packet signal input switch) and input to the cathode of the varicap of the VCO, to change the electric capacity in the oscillation circuit. This produces the frequency modulation.
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2. Power Amplifier Circuit The transmitted signal is oscillated by the VCO, amplified by the drive amplifier (IC112) and younger amplifier (Q115), and input to the final power module (IC110). The signal is then amplified by the final power module (IC110) and led to the antenna switch (D110) and low-pass filter (L113, L114, L115, L116, C215, C216, C202, C203 and C204), where unwanted high harmonic waves are reduced as needed, and the resulting signal is supplied to the antenna. 3. APC Circuit
Part of the transmission power from the low-pass filter is detected by D111 and D112, converted to DC. The detection voltage is passed through the APC circuit (Q118, Q117, Q116), then it controls the APC voltage supplied to the younger amplifier Q115 and the final power module IC110 to fix the transmission power.
3) PLL Synthesizer Circuit (DR-135)
1. PLL
The dividing ratio is obtained by sending data from the CPU (IC1) to pin 2 and sending clock pulses to pin 3 of the PLL IC (IC116). The oscillated signal from the VCO is amplified by the buffer (Q134 and Q135) and input to pin 15 of IC116. Each programmable divider in IC116 divides the frequency of the input signal by N according to the frequency data, to generate a comparison frequency of 5 or 6.25 kHz.
2. Reference Frequency Circuit The reference frequency appropriate for the channel steps is obtained by dividing the 21.25 MHz reference oscillation (X103) by 4250 or 3400, according to the data from the CPU (IC1). When the resulting frequency is 5 kHz, channel steps of 5, 10, 15, 20, 25, 30, and 50 kHz are used. When it is 6.25 kHz, the 12.5 kHz channel step is used. 3. Phase Comparator Circuit The PLL (IC116) uses the reference frequency, 5 or 6.25kHz. The phase comparator in the IC116 compares the phase of the frequency from the VCO with that of the comparison frequency, 5 or 6.25kHz, which is obtained by the internal divider in IC116. 4. PLL Loop Filter Circuit If a phase difference is found in the phase comparison between the reference frequency and VCO output frequency, the charge pump output (pin 13) of IC116 generates a pulse signal, which is converted to DC voltage by the PLL loop filter and input to the varicap of the VCO unit for oscillation frequency control.
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5. VCO Circuit
A Colpitts oscillation circuit driven by Q131 directly oscillates the desired frequency. The frequency control voltage determined in the CPU (IC1) and PLL circuit is input to the varicaps (D122 and D123). This change the oscillation frequency, which is amplified by the VCO buffer (Q134) and output from the VCO area.
6. VCO Shift Circuit
During transmission or the AIR band Reception (118~136 MHz), the VCO shift circuit turns ON Q138, change control the capacitance of L123 and safely oscillates the VCO by means of H signal from pin 16 of IC116.)
4) Receiver System (DR-235)
The receiver system is a double superheterodyne system with a 30.85 MHz first IF and a 455 kHz second IF.
1. Front End
The received signal at any frequency in the 216.000MHz to 279.995MHz range is passed through the low-pass filter (L116, L115, L114, L113, C204, C203, C202, C216 and C215) and tuning circuit (L105, L104 and D105, D104), and amplified by the RF amplifier (Q107). The signal from Q107 is then passed through the tuning circuit (L103, L107, L102, and varicaps D103, D107 and D102) and converted into 30.85 MHz by the mixer (Q106). The tuning circuit, which consists of L105, L104, varicaps D105 and D104, L103, L107, L102, varicaps D103, D107 and D102, is controlled by the tracking voltage form the VCO. The local signal from the VCO is passed through the buffer (Q112), and supplied to the source of the mixer (Q106). The radio uses the lower side of the superheterodyne system.
2. IF Circuit
The mixer mixes the received signal with the local signal to obtain the sum of and difference between them. The crystal filter (XF102, XF101) selects 30.85 MHz frequency from the results and eliminates the signals of the unwanted frequencies. The first IF amplifier (Q105) then amplifies the signal of the selected frequency.
3. Demodulator Circuit
After the signal is amplified by the first IF amplifier (Q105), it is input to pin 24 of the demodulator IC (IC108). The second local signal of 30.395 MHz, which is oscillated by the internal oscillation circuit in IC108 and crystal (X104), is input through pin 1 of IC108. Then, these two signals are mixed by the internal mixer in IC108 and the result is converted into the second IF signal with a frequency of 455 kHz. The second IF signal is output from pin 3 of IC108 to the ceramic filter (FL101 or FL102), where the unwanted frequency band of that signal is eliminated, and the resulting signal is sent back to the IC108 through pins 5. The second IF signal input via pin 5 is demodulated by the internal limiter amplifier and quadrature detection circuit in IC108, and output as an audio signal through pin 12.
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4. Audio Circuit
The audio signal from pin 12 of IC108 is amplified by the audio amplifier (IC104:A), and switched by the signal switch IC (IC111) and then input it to the de-emphasis circuit. and is compensated to the audio frequency characteristics in the de-emphasis circuit (R203, R207, R213, R209, C191, C218, C217) and amplified by the AF amplifier (IC104:D). The signal is then input to volume (VR1) . The adjusted signal is sent to the audio power amplifier (IC117) through pin 1 to drive the speaker.
5. Squelch Circuit
The detected output which is outputted from the pin 12 of IC108 is inputted to pin 19 of IC108 after it was been amplified by IC104:A and it is outputted from pin 20 after the noise component was been eliminated from the composed band pass filter in the built in amplifier of the IC, then the signal is rectified by D106 to convert into DC component. The adjusted voltage level at VR101 is delivered to the comparator of the CPU. The voltage is led to pin 2 of CPU and compared with the setting voltage. The squelch will open if the input voltage is lower than the setting voltage. During open squelch, pin 30 (SQC) of the CPU becomes "L" level, AF control signal is being controlled and sounds is outputted from the speaker.)
6. AIR Band Reception(T only) If it is made air band receiving mode, IF signal is demodulated by AM decoder of IC106, and is output from pin13 as the AF signal. 7. WIDE/NARROW switching circuit The 2nd IF 455 kHz signal which passes through filter FL101 (wide) and FL102 (narrow) during narrow, changes its width using the width control switching IC103 and IC102.
5) Transmitter System (DR-235)
1. Modulator Circuit
The audio signal is converted to an electrical signal by the microphone, and input it to the microphone amplifier (Q6). Amplified signal which passes through mic-mute control IC109 is adjusted to an appropriate mic-volume by means of mic-gain adjust VR106. IC114:A and B consists of two operational amplifiers; one amplifier (pins 1, 2, and 3) is composed of pre-emphasis and IDC circuits and the other (pins 5, 6, and 7) is composed of a splatter filter. The maximum frequency deviation is obtained by VR107. and input to the signal switch (IC113) (9600 bps packet signal input switch) and input to the cathode of the varicap of the VCO, to change the electric capacity in the oscillation circuit. This produces the frequency modulation.
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2. Power Amplifier Circuit The transmitted signal is oscillated by the VCO, amplified by the drive amplifier (IC112) and younger amplifier (Q115), and input to the final power module (IC110). The signal is then amplified by the final power module (IC110) and led to the antenna switch (D110) and low-pass filter (L113, L114, L115, L116, C215, C216, C202, C203 and C204), where unwanted high harmonic waves are reduced as needed, and the resulting signal is supplied to the antenna. 3. APC Circuit
Part of the transmission power from the low-pass filter is detected by D111 and D112, converted to DC. The detection voltage is passed through the APC circuit (Q118, Q117, Q116), then it controls the APC voltage supplied to the younger amplifier Q115 and the final power module IC110 to fix the transmission power.
6) PLL Synthesizer Circuit (DR-235)
1. PLL
The dividing ratio is obtained by sending data from the CPU (IC1) to pin 2 and sending clock pulses to pin 3 of the PLL IC (IC501). The oscillated signal from the VCO is amplified by the buffer (Q504 and Q501) and input to pin 15 of IC501. Each programmable divider in IC501 divides the frequency of the input signal by N according to the frequency data, to generate a comparison frequency of 5 or 6.25 kHz.
2. Reference Frequency Circuit The reference frequency appropriate for the channel steps is obtained by dividing the 12.8 MHz reference oscillation (X103) by 2560 or 2048, according to the data from the CPU (IC1). When the resulting frequency is 5 kHz, channel steps of 5, 10, 15, 20, 25, 30, and 50 kHz are used. When it is 6.25 kHz, the 12.5 kHz channel step is used. 3. Phase Comparator Circuit The PLL (IC501) uses the reference frequency, 5 or 6.25kHz. The phase comparator in the IC501 compares the phase of the frequency from the VCO with that of the comparison frequency, 5 or 6.25kHz, which is obtained by the internal divider in IC501. 4. PLL Loop Filter Circuit If a phase difference is found in the phase comparison between the reference frequency and VCO output frequency, the charge pump output (pin 13) of IC501 generates a pulse signal, which is converted to DC voltage by the PLL loop filter and input to the varicap of the VCO unit for oscillation frequency control.
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5. VCO Circuit
A Colpitts oscillation circuit driven by Q503 directly oscillates the desired frequency. The frequency control voltage determined in the CPU (IC1) and PLL circuit is input to the varicaps (D503 and D504). This change the oscillation frequency, which is amplified by the VCO buffer (Q504) and output from the VCO area.
7) Receiver System (DR-435)
The receiver system is a double superheterodyne system with a 30.85 MHz first IF and a 455 kHz second IF.
1. Front End
The received signal at any frequency in the 430.00MHz to 439.995MHz range is passed through the low-pass filter (L115, L114, L116, C204, C203, C202, C216 and C215) and amplified by the RF amplifier (Q107). The signal from Q107 is then passed through the BPF circuit (L103, L102) and converted into 30.85 MHz by the mixer (Q106). The local signal from the VCO is passed through the buffer (Q503,Q504), and supplied to the source of the mixer (Q106). The radio uses the lower side of the superheterodyne system.
2. IF Circuit
The mixer mixes the received signal with the local signal to obtain the sum of and difference between them.The crystal filter (XF101) selects 30.85MHz frequency from the results and eliminates the signals of the unwanted frequencies. The first IF amplifier (Q105) then amplifies the signal of the selected frequency.
3. Demodulator Circuit
After the signal is amplified by the first IF amplifier (Q105), it is input to pin 20 of the demodulator IC (IC108). The second local signal of 30.85MHz (Crystal oscillator) is input pin 1 of IC108. Then, these two signals are mixed by the internal mixer in IC108 and the result is converted into the second IF signal with a frequency of 455 kHz. The second IF signal is output from pin 4 of IC108 to the ceramic filter (FL101 or FL102), where the unwanted frequency band of that signal is eliminated, and the resulting signal is sent back to the IC108 through pins 6. The second IF signal input via pin 6 is demodulated by the internal limiter amplifier and quadrature detection circuit in IC108, and output as an audio signal through pin 11.
4. Audio Circuit
The audio signal from pin 11 of IC108 is amplified by the audio amplifier (IC104:A), and switched by the signal switch IC (IC111) and then input it to the de-emphasis circuit. and is compensated to the audio frequency characteristics in the de-emphasis circuit (R203, R207, R213, R209, C191, C218, C217) and amplified by the AF amplifier (IC104:D). The signal is then input to volume (VR1) . The adjusted signal is sent to the audio power amplifier (IC117) through pin 1 to drive the speaker.
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5. Squelch Circuit
The detected output which is outputted from the pin 11 of IC108 is inputted to pin 13 of IC108 after it was been amplified by IC104:A and it is outputted from pin 14 after the noise component was been eliminated from the composed band pass filter in the built in amplifier of the IC, then the signal is rectified by D106 to convert into DC component. The adjusted voltage level at VR101 is delivered to the comparator of the CPU. The voltage is led to pin 2 of CPU and compared with the setting voltage. The squelch will open if the input voltage is lower than the setting voltage. During open squelch, pin 30 (SQC) of the CPU becomes "L" level, AF control signal is being controlled and sounds is outputted from the speaker.
6. WIDE/NARROW switching circuit The 2nd IF 455 KHz signal which passes through filter FL101 (wide) and FL102 (narrow) during narrow, changes its width using the width control switching IC103 and IC102.
8) Transmitter System (DR-435)
1. Modulator Circuit
The audio signal is converted to an electrical signal by the microphone, and input it to the microphone amplifier (Q6). Amplified signal which passes through mic. mute control IC109 is adjusted to an appropriate mic. volume by means of mic. gain adjust VR106. IC114:A and B consists of two operational amplifiers; one amplifier (pins 1, 2, and 3) is composed of pre-emphasis and IDC circuits and the other (pins 5, 6, and 7) is composed of a splatter filter. The maximum frequency deviation is obtained by VR107. and input to the signal switch (IC113) (9600 bps packet signal input switch) and input to the cathode of the varicap of the VCO, to change the electric capacity in the oscillation circuit. This produces the frequency modulation.
2. Power Amplifier Circuit The transmitted signal is oscillated by the VCO, amplified by the drive amplifier (Q131, Q125) and younger amplifier (Q115), and input to the final power module (IC110). The signal is then amplified by the final power module (IC110) and led to the antenna switch (D110) and low-pass filter (L116, L114, L115, C215, C216, C202, C203 and C204), where unwanted high harmonic waves are reduced as needed, and the resulting signal is supplied to the antenna. 3. APC Circuit
Part of the transmission power from the low-pass filter is detected by D111 and D112, converted to DC. The detection voltage is passed through the APC circuit(Q118, Q117, Q116), then it controls the APC voltage supplied to the younger amplifier Q115 and the final power module IC110 to fix the transmission power.
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9) PLL Synthesizer Circuit (DR-435)
1. PLL
The dividing ratio is obtained by sending data from the CPU (IC1) to pin 2 and sending clock pulses to pin 3 of the PLL IC (IC501). The oscillated signal from the VCO is amplified by the buffer (Q503 and Q501) and input to pin 15 of IC501. Each programmable divider in IC501 divides the frequency of the input signal by N according to the frequency data, to generate a comparison frequency of 5 or 6.25 kHz.
2. Reference Frequency Circuit The reference frequency appropriate for the channel steps is obtained by dividing the 21.25 MHz reference oscillation (X103) by 4250 or 3400, according to the data from the CPU (IC1). When the resulting frequency is 5 kHz, channel steps of 5, 8.33, 10, 15, 20, 25, 30, and 50 kHz are used. When it is 6.25 kHz, the 12.5 kHz channel step is used. 3. Phase Comparator Circuit The PLL (IC501) uses the reference frequency, 5 or 6.25kHz. The phase comparator in the IC501 compares the phase of the frequency from the VCO with that of the comparison frequency, 5 or 6.25kHz, which is obtained by the internal divider in IC501. 4. PLL Loop Filter Circuit If a phase difference is found in the phase comparison between the reference frequency and VCO output frequency, the charge pump output (pin 13) of IC501 generates a pulse signal, which is converted to DC voltage by the PLL loop filter and input to the varicap of the VCO unit for oscillation frequency control. 5. VCO Circuit
A Colpitts oscillation circuit driven by Q502 directly oscillates the desired frequency. The frequency control voltage determined in the CPU (IC1) and PLL circuit is input to the varicaps (D502 and D503). This change the oscillation frequency, which is amplified by the VCO buffer (Q503,504) and output from the VCO unit.
10) CPU and Peripheral Circuits (DR-135 DR-235 DR-435)
1. LCD Display Circuit
The CPU turns ON the LCD via segment and common terminals with 1/4 the duty and 1/3 the bias, at the frame frequency is 64Hz.
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2. Dimmer Circuit
The dimmer circuit makes the output of pin 13 of CPU (IC1) into "H" level at set mode, so that Q9 and Q3 will turn ON to make the lamp control resistor R84 short and make its illumination bright. But on the other hand, if the dimmer circuit makes pin 13 into "L" level, Q9 and Q3 will turn OFF, R84's illumination will become dimmer as its hang on voltage falls down in the working LED (D11, D2, D5, D3 and D6).
3. Reset and Backup
When the power form the DC cable increases from Circuits 0 V to 2.5 or more, "H" level reset signal is output form the reset IC (IC4) to pin 33 of the CPU (IC1), causing the CPU to reset. The reset signal, however, waits at 100, and does not enter the CPU until the CPU clock (X1) has stabilized.
4. S(Signal) Meter Circuit The DC potential of pin 16 of IC106 is input to pin 1 of the CPU (IC1), converted from an analog to a digital signal, and displayed as the S-meter signal on the LCD. 5. DTMF Encoder
The CPU (IC1) is equipped with an internal DTMF encoder. The DTMF signal is output from pin 10, through R35, R34 and R261 (for level adjustment), and then through the microphone amplifier (IC114:A), and is sent to the varicap of the VCO for modulation. At the same time, the monitoring tone passes through the AF circuit and is output form the speaker.
6. Tone Encoder
The CPU (IC1) is equipped with an internal tone encoder. The tone signal (67.0 to 250.3 Hz) is output from pin 9 of the CPU to the varicap (D122 and D123) of the VCO for modulation.
7. DCS Encoder
The CPU (IC1) is equipped with an internal DCS code encoder. The code (023 to 754) is output from pin 9 of the CPU to the varicap (D124) of the PLL reference oscillator. When DCS is ON, DCS MUTE circuit (Q126-ON, Q133-ON, Q132-OFF) works. The modulation activates in X103 side only.
8. CTCSS, DCS Decoder The voice band of the AF output signal from pin 1 of IC104:A is cut by sharp active filter IC104:B and C (VCVS) and amplified, then led to pin 4 of CPU. The input signal is compared with the programmed tone frequency code in the CPU. The squelch will open when they match. During DCS, Q108 is ON, C156 is working and cut off frequency is lowered.
12
11) Power Supply Circuit
When power supply is ON, there is a "L" signal being inputted to pin 39 (PSW) of CPU which enables the CPU to work. Then, "H" signal is outputted from the pin 41 (C5C) of CPU and drives ON the power supply switch control Q8 and Q7 which turns the 5VS ON. 5VS turns ON the PLL IC116, main power supply switch Q127 and Q122, AF POWER IC117 and the 8 V of AVR (IC115). During reception, pin 29 (R5) of CPU outputs "H" level, Q124 is ON, and the reception circuits supplied by 8 V. While during transmission, pin 28 (T5) of CPU outputs "L" level which is reverse by Q11 so that the output in Q128 will be "H" level, Q123 is ON, and the transmission circuit is supplied by 8 V. Or, in the case when the condition of PLL is UNLOCK, "H" level is outputted from pin 14 of IC106, UNLOCK switch Q129is ON, transmission switch Q128 is OFF which makes the transmission to stop.
1. ACC External Power Supply Terminal When optional power supply cord DEC-37 etc. is connected to the external power supply terminal JK101, with ACC power supply ON, switch Q101 will turn ON, 5 V of AVR IC101 pin 2 (STB) becomes "L" which makes C5V to turn ON. With this, it can turn the power supply of the radio ON.
13
12) M3826M8L269GP (XA0818) CPU Terminal Connection (TOP VIEW)
269
14
No. Pin Name Function 1 P67/AN7 SMT 2 P66/AN6 SQL 3 P65/AN5 BAT 4 P64/AN4 TIN 5 P63/SCLK22/AN3 BP1 6 P62/SCLK21/AN2 BP2 7 P61/SOUT2/AN1 DCSW 8 P60/SIN2/AN0 RE2 9 P57/ADT/DA2 TOUT 10 P56/DA1 DOUT 11 P55/CNTR1 SCL 12 P54/CNTR0 TBST 13 P53/RTP1 BP4 14 P52/RTP0 MUTE 15 P51/PWM3 CLK 16 P50/PWM DATA 17 P47/SROY1 TSTB 18 P46/SCLK1 STB 19 P45/TXD UTX 20 P44/RXD RTX BEEP 21 P43/ /TOUT 22 P42I/NT2 SEC 23 P41/INT1 RE1 24 P40 DSQ 25 P77 PTT 26 P7 SSTB 27 P75 W/N 28 P74 T5 29 P73 R5 30 P72 SQC 31 P71 C/S 32 P70/INTO BU 33 RESET RESET 34 Xcin Xcin 35 Xcout Xcout 36 Xin Xin 37 Xout Xout 38 Vss GND 39 P27 PSW 40 P26 SDA 41 P25 C5C 42 P24 AIR 43 P23 LOW 44 P22 EXP 45 P21 SW6 46 P20 SW5 47 P17 SW4 48 P16 SW3 49 P15/SEG39 SW2 50 P14/SEG38 SW1 51 P13/SEG37 DOWN 52 P12/SEG36 DUD 53 P11/SEG35 SCR 54 P10/SEG34 UP 55 P07/SEG33 S33
I/O PU Logic I A/D I A/D I A/D I A/D I A/D I A/D O Activ high I Activ low O D/A O D/A O Pulse O Pulse I I/O Activ low O Pulse I/O Pulse I/O - Activ low/Pulse O Pulse O Pulse I Pulse I/O - Pulse/Activ low I Activ high I Activ low I Activ high I Activ low O - Pulse/Activ low O Activ low O Activ low O Activ high O Activ low O Activ low I Activ low I Activ low I Avtiv low O Pulse O Activ high O Activ high O Activ high O Activ high I Activ low I Activ low I Activ low I Activ low I Activ low I Activ low I Activ low I I Active low I Active low O -
Description S-meter input Noise level input for squelch Battery voltage input CTCSS tone input/DSC code input Band plan 1 Band plan 2 DCS signal mute Rotary encoder input CTCSS tone output/DCS tone output DTMF output Serial clock for EEPROM Tone burst output Band plan 4 Microphone mute/Security alarm SW Serial clock output for PLL,scramble
Serial data output for PLL scramble/PLL unlock signal input Trunking board detection / Strobe signal to trunking board
Strobe for PLL IC UART data transmission output UART data reception output Beep tone/Band plan 3 Security voltage input Rotary encoder input Digital squelch input PTT input Strobe signal to scramble IC/Security mode Wide Narrow SW TX power ON/OFF output RX power ON/OFF output SQL ON/OFF Digital scramble ON/OFF Backup signal detection input Reset input Main clock input Main clock output CPU GND Power switch input Serial data for EEPROM C5V power ON/OFF output Air band SW / Tx middle power Tx low power Trunking data SW Key sw6 (SQL) Key sw5 (CALL) Key sw4 (TSQ) Key sw3 (MHz) Key sw2 (V/M) Key sw1 (FUNC) Mic down input Digital unit detect Scramble IC ready signal/Packet PTT Mic down input LCD segment signal
15
No. 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100
Pin Name P06/SEG32 P05/SEG31 P04/SEG30 P03/SEG29 P02/SEG28 P01/SEG27 P00/SEG26 P37/SEG25 P36/SEG24 P35/SEG23 P34/SEG22 P33/SEG21 P32/SEG20 P31/SEG19 P30/SEG18 SEG17 SEG16 SEG15 SEG14 SEG13 SEG12 SEG11 SEG10 SEG9 SEG8 SEG7 SEG6 SEG5 SEG4 SEG3 SEG2 SEG1 SEG0 Vcc Vref Avss COM3 COM2 COM1 COM0 VL3 VL2 C2 C1 VL1
Function S32 S31 S30 S29 S28 S27 S26 S25 S24 S23 S22 S21 S20 S19 S18 S17 S16 S15 S14 S13 S12 S11 S10 S9 S8 S7 S6 S5 S4 S3 S2 S1 S0 VDD Vref Avss COM3 COM2 COM1 COM0 VL3 VL2 I C1 VL1
I/O PU O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O I -
Logic A/D
Description
LCD segment signal
CPU power terminal AD converter power supply AD converter GND LCD COM3 output LCD COM2 output LCD COM1 output LCD COM0 output LCD power supply LCD power supply
16
SEMICONDUCTOR DATA
1) M5218FP (XA0068)
Dual Low Noise Operational Amplifiers
Output 1 1 8 Power Supply Plus
Inverting Input 1 2
7
Output 2
Non Inverting Input 1 3
6
Inverting Input 2
Power supply Minus 4
5
Non Inverting Input 2
2) NJM7808FA (XA0102)
Pin Assignment
1. OUTPUT 2. COMMON 3. INPUT
3
2
1
3) TC4S66F (XA0115)
Bilateral Switch
17
4) TK10930VTL (XA0223)
NOISE AMP OUTPUT + NOISE AMP INPUT
Narrow Band FM IF IC
51
COMP OUT RF INPUT Vcc COMP IN
1 F
1 F
AM LOW CUT
AM AGC
IF GND
AM SW
AM AF OUT
0.033
0.01
0.1
68K
IF IN 10.7MHz
RSSI OUT
1K +
GND
4.7K
30K 22
270K 19
+ -
+
AF OUTPUT (AM)
0.022
24
23
21
20
18
17
16
15
14
13
SQ
AMP
AM DET AGC OSC MIX IF AMP
S DET FM DET
10.245MHz OSC(B)
120p OSC(E)
1 33p
2
3
MIX OUT
4
Vcc
5
DECOUPLING AM IF INPUT
6
0.1 F
7
DECOUPLING FM IF INPUT 0.1 F
8
DECOUPLING 0.1 F
9
0.1 F
10
LIM OUT 30K 2.2K
11
7BRE-7437Z
QUAD IN
12 FM AF OUT AF OUTPUT (FM)
0.01
8.2K Vcc 3V
CFU455D
Parameter Supply voltage Power dissipation Storage temperature Operating temperature Operating voltage Operating frequency
Symbol Vcc max Pd Tstg Top Vop fop
Ratings 10.0 400 -55~+150 -30~+75 2.5~8.5 ~60
Unit V mV
V MHz Ratings
Ta=25
Unit Max 8.9 5.3 mA mA dB K DC Test No signal, AM ON No signal, AM OFF Condition
0.1 F
10 F
+
Vcc=3V
Parameter Supply Current 1 Supply Current 2 Mixer Coversion Gain Mixer Input Impedance FM Limiting Sensitivity Output Voltage Distortion Output Impedance Filter Gain Scan Control Hi Voltage Scan Control Low Voltage Squelch Hysteresis S meter Output Voltage S meter Output Voltage S meter Output Voltage S meter Output Voltage S meter Output Voltage S meter Output Voltage AM Sensitivity Output Voltage Distortion-1 Distortion-2 S/N AM OFF
Symbol Min lcc1 lcc2 Mg Mz
Typical 6.8 3.9 20 3.6
Limit Vo1 THD1 Zo Gf SH SL Hys S0 S1 S2 S3 S4 S5 0.05 0.7 1.2 1.6 1.8 30 2.3 85
2.0 150 1.0 800 38
8.0 230 2.0
V mVrms %
-3.0dB 10mVin +/-3kHz DEV 10mVin +/-3kHz DEV 10mVin
dB V 0.3 V mV 0.5 0.9 1.7 2.5 2.9 2.9 V V V V V V
Fin=30kHz, Vo=100mV Squelch input=2.5V Squelch input=0V
30 0.05 0.5 1.2 1.8 2.3 2.4
Vin=0mV, RS=68k Vin=0.01mV, RS=68k Vin=0.1mV, RS=68k Vin=1mV, RS=68k Vin=10mV, RS=68k Vin=100mV, RS=68k
required input level to get 20mV rms output
US Vo2 THD2 THD3 S/N Vo
20 60
15 120 1.0 2.0 160 2.0 4.0
V mVrms % % dB 0.3 %
1kHz, 30%, Vin=1mV 1kHz, 30%, Vin=1mV 1kHz, 30%, Vin=1mV 1kHz, 30%, Vin=1mV
40 -0.3
48
18
5) BU4052BF (XA0236)
Analog Multiplexer/Demultiplexer
6) TC4W53FU (XA0348)
Multiplexer/Demultiplexer
Function Table
Control input ON channel INH L L H A L H * ch0 ch1 NONE VSS A INH VEE ch0 ch1 COMMON VDD
* Don't Care
19
7) M64076GP (XA0352)
Dual PLL Synthesizer
Parameter Power supply voltage LPF supply voltage Local oscillator input level Local oscillator input frequency
Symbol Vcc VF Vin Fin
Condition Fin=80~520MHz Vin=-10dBm
Min. 2.7 -
Typ. 9 -
Max. 5.5 12 -4 520
Unit V V dBm MHz
Fin=80~520MHz Vin=-20~-4dBm Vcc=2.7~5.5V Vcc=2.7~5.5V Fxin=10~25MHz Sine wave Vcc=2.7~5.5V Vxin=0.4~1.4Vp-p
-20 80
Xin input level
Vxin
0.4
-
1.4
Vp-p
Xin input frequency
Fxin
10
-
25
MHz
Equivalent Circuit
20
8) LA4425A (XA0410)
5W Audio Power Amplifiers
Test Circuit
1000 F
+
Vcc 13.2V
LA4425
Input 2.2 F +
1
5 + 4 1000 F
SP 4
2
3
Vcc=13.2V RL=4
Po =5W Gain= 45dB
1 2 3 4 5
9) M67746 (XA0412)
144 ~ 148MHz 60W RF Power Module
Fin(Ground) Fin(Ground)
Rating
Supply voltage Total current Input power Output Power Operation case temperature
Symbol
Vcc Icc Pin(max) Po(max) Tc(op) Tstg
Ratings
17 20 600 70 -30 to + 110 -40 to + 110
Unit
V A mW W
Final DC supply terminal (12.5V)
Strage temperature
1st stage DC supply terminal(12.5V)
Output terminal (60W)
Input terminal (300mW)
Zg=Zl=50
21
10) M68729 (XA0591)
220 ~ 246MHz 30W RF Power Module
Fin(Ground) Fin(Ground)
ABSOLUTE MAXIMUM RATING(TC = 25°C)
Rating
Supply voltage Total current Input power Output Power Operation case temperature
Symbol
Vcc Icc Pin(max) Po(max) Tc(op) Tstg
Ratings
17 10 600 40 -30 to + 110 -40 to + 110
Unit
V A mW W
M68729
5
Final DC supply terminal (12.5V)
Strage temperature
1st stage DC supply terminal(12.5V)
Output terminal (60W)
Input terminal (300mW)
Zg=Zl=50
GND (FIN)
ELECTRICAL CHARACTERISTICS
Test conditions Limits Min Max
220 30 VCC1,2 = 12.5V Pin = 300mV ZG = ZL = 50 40 -30 -30 3
VCC1,2 = 15.2V Po = 30W(Pin = Controlled) No degradation Load VSWR = 20:1 (All phase), or destroy ZG = 50
Block Diagram
2 3
Symbol f Po
T
Parameter
Frequency range Output power Total efficiency 2nd. harmonic 3rd. harmonic Input VSWR
Load VSWR tolerance
Unit
246 MHz W % dBc dBc -
1
4 5
2fo 3fo in
-
PIN : 1 Pin
: RF INPUT
2 VCC1 : 1st. DC SUPPLY 3 VCC2 : 2nd. DC SUPPLY 4 PO : RF OUTPUT 5 GND : FIN
22
11) M57788M (XA0077)
23
12) µPC2710T (XA0449)
RF Amplifier
Parameter Supply voltage Circuit current Power gain Staturated output power Noise figure Upper frequency (-3dB) Isolation Input return loss Output return loss Gain flatness Symbol Vcc Icc GP Po(sat) NF fu ISL RL in RL out Gp Vcc=5V, no signa Vcc=5V, f=500MHz Vcc=5V, f=500MHz, Pin=-8dBm Vcc=5V, f=500MHz Vcc=5V, Reference freq. =100MHz Vcc=5V, f=500MHz Vcc=5V, f=500MHz Vcc=5V, f=500MHz Vcc=5V, f=0.1~0.6GHz Condition Ratings 5.0 22 33 +13.5 3.5 1000 39 6 12 0.8 Unit V mA dB dBm dB MHz dB dB dB dB
Test Circuit
Vcc
Top View GND Output GND Vcc
1000p L: 20.5T. 2mml.D. 0.25UEW 6 50 IN 1000p 2, 3, 5 1 4 1000p 50 OUT
GND Input
13) NJM2902 (XA0596)
Pin Assignment
1. A OUTPUT 2. A INPUT 3. A INPUT 4. V 5. B INPUT 6. B INPUT 7. B OUTPUT
8. C OUTPUT 9. C INPUT 10. C INPUT 11. GND 12. D INPUT 13. D INPUT 14. D OUTPUT
24
14) 24LC32A (XA0604)
PDIP
A0 A1 A2 Vss Vcc WP SCL SDA
Name A0..A2 Vss SDA SCL WP Vcc
Function User Configurable Chip Selects Ground Serial Address/Data I/O Serial Clock Write Protect Input 2.5V~6.0V Power Supply
15) S-80845ALMP-EA9-T2 (XA0620)
16) L88MS05TLL (XA0675)
5V Voltage Regulator With On/Off Function
Pin Assignment
1. VIN 2. STB 3. GND 4. Cn 5. VOUT
Reference voltage
Start-up circuit
Error amp
ON/OFF Control
Short circuit protector
Thermal protector
1 2 3 4 5
25
17) AN8010M (XA0119)
Voltage Regulator
Test Circuit
Vin 3 1 Vout
0.33µF
2
AN8010M
Output
CA
Common
Input
AN8010M
18) TK10489M (XA0314)
+
10µF
20
19 GND
18
Vcc
+
17
16
15
14 AMP
+
13 -
12 S DET
11
SQUELCH IF AMP OSC 1 2 MIX NC 3
Vcc
AMP QUAD DET
4
5
6
7
8
9
10
+
26
19) Transistor, Diode, and LED Outline Drawings Top View
RLS-73 XD0363 1SS355 XD0254 1SS356 XD0272 1SV214 XD0131 1SV237 XD0141 1SV262 XD0300 1SV268 XD0301
VD
TD
BB
A T1
DA204U XD0130
DAN235U XD0246
DSA3A1 XD0131
MA304 XD0299
MA729 XD0300
MA8100 XD0297
-8^2
MA742 XD0250
2B
K
MI407 XD0013
M
2SK508 XE0010
G K52
M1U
2SK880GR XE0021
G XG S D D
3SK131V12 XE0028
G1 G2 V12 S
2SA1036K XT0110
C HQ B E
2SA1576 XT0094
C FR B E
2SA1736 XT0099
LD B C E
2SB1132 XT0061
C
BA PQ
KQ
B1292
RE
B C E
2SC4215 XT0124
C QY B E
DTC144YU XU0029
C 64 B E
XP1215 XU0178
B2 E B1
9M
C2 C1
MI7
S
D
2SB1292F XT0112
2SC2954 XT0084
C
2SC3356 XT0030
C R24 B E
2SC3357 XT0048
C
2SC4081 XT0095
C BR
2SC4099 XT0096
C JP
BCE
B C E
B
E
B
E
B
E
2SC4226 XT0141
C R24 B E
2SC4245 XT0125
C HB B E
3SK184S XE0013
G1 G2
DTA114YU XU0112
C 54
DTC114EU XU0131
C 24
DTC144EUA XU0148
C 26
3RS
D S
B
E
B
E
B
E
FA1111C XL0069
FA1111C XL0077
UDZ5. 1B XD 0165
UMC3TR XU0047
E2 B1 E1
UMC5N XU0152
E2 B1 E1
U1BC44 XD0135
GC
A2
V12
C2 C1/B2 C2
C5
C1/B2
27
28
SEG
COM3 COM2 COM1 COM0 SEG32 SEG31 SEG30 SEG29 SEG28 SEG27 SEG26 SEG25 SEG24 SEG23 SEG22 SEG21 SEG20 SEG19 SEG18 SEG17 SEG16 SEG15 SEG14 SEG13 SEG12 SEG11 SEG10 SEG9 SEG8 SEG27 SEG7 SEG6 SEG5 SEG4 SEG3 SEG2 SEG1 SEG0
20) LCD Connection (TTR3626UPFDHN)
COM
EXPLODED VIEW
1) Top and Front View
AA0050
AV0006
FG0273 DR-135 : DP0127 DR-235 : DP0135 DR-435 : DP0136
AV0006
NK0072 NK0073
T. E. TA KZ0105 TG. EG. TAG KZ0120
29
2) Bottom View
AA0050
T. E. TA KS0068 TG. EG. TAG KS0070
AV0006 AV0006 UA0037Y
AV0006
UX1047
AW0001 ST0065 AZ0042 AE0029 ES0017 FG0320 (DR-135 / 435 only) UE0401
ST0066
AV0006
TG0034
UE0258
FF0015 UX1251
YZ0131
T. E. TA SS0093 TG. EG. TAG SS0095
30
3) LCD Assembly
CPU BOARD
FM0034 NUT (UE0035) FG0305
FF0017
ST0068 NUT TL0023
DG0037
TL0024
EL0049
ST0064
31
PARTS LIST
CPU
Ref. No. C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C28 C29 C30 C31 C32 CN1 CN2 CN3 D1 D2 D3 D4 D5 D6 D8 D9 D10 D11 D12 D13 D14 D15 D16 D17 D19 IC1 IC2 IC4 IC5 JK1 JP3 LCD1 Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 Q11 Q12 Q13 R1 R2 R4 R5 R6 R7 R8 R9 R10
Parts No. Description
Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip tantalum Chip tantalum Chip C. Chip C. Connector Connector Mic Connector Chip LED Chip LED Chip LED Chip LED Chip LED Chip LED Chip Diode Chip Diode Chip Diode Chip LED Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode CPU IC IC IC Jack MACL04GG Wire EL0049 LCD XU0029 Chip Transistor XU0131 Chip Transistor XT0110 Chip Transistor XU0131 Chip Transistor XU0131 Chip Transistor XT0095 Chip Transistor XT0061 Chip Transistor XU0029 Chip Transistor XU0148 Chip Transistor XU0131 Chip Transistor XU0112 Chip Transistor XU0112 Chip Transistor XU0112 Chip Transistor RK3054 Chip R. RK3001 Chip R. RK3054 Chip R. RK3050 Chip R. RK3050 Chip R. RK3023 Chip R. RK3023 Chip R. RK3038 Chip R. RK3032 Chip R. CU3111 CU3111 CU3049 CU3049 CU3111 CU3023 CU3023 CU3043 CU3111 CU3043 CU3043 CU3101 CS0049 CU3014 CU3014 CU3035 CS0372 CU3035 CU3111 CU3101 CU3047 CU3035 CU3047 CU3035 CU3035 CU3035 CU3035 CS0394 CS0049 CS0372 CU3047 CU3047 UE0398 UE0398 UE0035 XL0069 XL0077 XL0077 XL0069 XL0077 XL0077 XD0254 XD0291 XD0135 XL0077 XD0165 XD0165 XD0291 XD0165 XD0291 XD0291 XD0363 XA0818 XA0604 XA0620 XA0675 UJ0047
Parts Name
C1608JB1C104KT-N C1608JB1C104KT-N C1608JB1E153KT-NS C1608JB1E153KT-NS C1608JB1C104KT-N C1608CH1H101JT-AS C1608CH1H101JT-AS C1608JB1H472KT-NS C1608JB1C104KT-N C1608JB1H472KT-NS C1608JB1H472KT-NS C1608JB1C473KT-NS TMCSA1C105MTR C1608CH1H180JT-AS C1608CH1H180JT-AS C1608JB1H102KT-AS TMCMB1C106MTR C1608JB1H102KT-AS C1608JB1C104KT-N C1608JB1C473KT-NS C1608JB1H103KT-N C1608JB1H102KT-AS C1608JB1H103KT-N C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS TMCMB0J476MTR TMCSA1C105MTR TMCMB1C106MTR C1608JB1H103KT-N C1608JB1H103KT-N 20-5082-3010-17-100 20-5082-3010-17-100 FM214-8SMPY FA1111C-TR FA1111C-TR C,D,ERANK FA1111C-TR C,D,ERANK FA1111C-TR FA1111C-TR C,D,ERANK FA1111C-TR C,D,ERANK 1SS355 TE17 MA729-TX U1BC44 TE12R FA1111C-TR C,D,ERANK UDZSTE-17 5.1B UDZSTE-17 5.1B MA729-TX UDZSTE-17 5.1B MA729-TX MA729-TX RLS-73TE-11 M38267M8L269GP 24LC32AT-I/SN S-80845ALMP-EA9-T2 L88MS05TLL-TL HSJ2013-01-120 #30AH1-040-H1 TTR3626 UPTDHN DTC114YUA T106 DTC114EUA T106 2SA1036K T146Q DTC114EUA T106 DTC114EUA T106 2SC4081 T106R 2SB1132T 100Q DTC114YUA T106 DTC144EUA T106 DTC114EUA T106 DTA114YUA T106 DTA114YUA T106 DTA114YUA T106 MCR03EZHJ223 MCR03EZHJ000 MCR03EZHJ223 MCR03EZHJ103 MCR03EZHJ103 MCR03EZHJ560 MCR03EZHJ560 MCR03EZHJ102 MCR03EZHJ331
Qty
DR-135 DR-235 DR-435
Ver
Ref. No. R11 R13 R14 R15 R16 R19 R20 R21 R22 R23 R24 R25 R26 R27 R28 R29 R30 R31 R32 R33 R34 R35 R36 R37 R38 R39 R40 R41 R42 R43 R44 R45 R47 R48 R49 R50 R51 R52 R53 R54 R55 R56 R57 R58 R59 R60 R61 R62 R63 R64 R65 R66 R67 R68 R69 R70 R71 R72 R73 R74 R75 R76 R77 R79 R80 R82 R83 R84 R85 R86 R87 R88 R89 R90 R91 R92 R95 R96 R97 RE1 RL1
Parts No. Description
RK3046 RK3001 RK3048 RK3001 RK3001 RK3062 RK3046 RK3030 RK3038 RK3064 RK3050 RK3050 RK3050 RK3050 RK3038 RK3038 RK3038 RK3038 RK3044 RK3034 RK3047 RK3052 RK3062 RK3049 RK3050 RK3058 RK3062 RK3026 RK3050 RK3050 RK3026 RK3050 RK3038 RK3038 RK3038 RK3070 RK3038 RK3038 RK3062 RK3050 RK3074 RK3050 RK3066 RK3034 RK3026 RK3034 RK3074 RK3050 RK3026 RK3046 RK3026 RK3050 RK3026 RK3050 RK3046 RK3062 RK3072 RK3050 RK3032 RK3026 RK3046 RK3032 RK3028 RK3038 RK3038 RK3050 RK3038 RK0008 RK3046 RK3050 RK3054 RK3050 RK3058 RK3058 RK3050 RK3032 RK3062 RK4014 RK3050 UR0015 UL0020 Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Chip R. Dial Relay
Parts Name
MCR03EZHJ472 MCR03EZHJ000 MCR03EZHJ682 MCR03EZHJ000 MCR03EZHJ000 MCR03EZHJ104 MCR03EZHJ472 MCR03EZHJ221 MCR03EZHJ102 MCR03EZHJ154 MCR03EZHJ103 MCR03EZHJ103 MCR03EZHJ103 MCR03EZHJ103 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ332 MCR03EZHJ471 MCR03EZHJ562 MCR03EZHJ153 MCR03EZHJ104 MCR03EZHJ822 MCR03EZHJ103 MCR03EZHJ473 MCR03EZHJ104 MCR03EZHJ101 MCR03EZHJ103 MCR03EZHJ103 MCR03EZHJ101 MCR03EZHJ103 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ474 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ104 MCR03EZHJ103 MCR03EZHJ105 MCR03EZHJ103 MCR03EZHJ224 MCR03EZHJ471 MCR03EZHJ101 MCR03EZHJ471 MCR03EZHJ105 MCR03EZHJ103 MCR03EZHJ101 MCR03EZHJ472 MCR03EZHJ101 MCR03EZHJ103 MCR03EZHJ101 MCR03EZHJ103 MCR03EZHJ472 MCR03EZHJ104 MCR03EZHJ684 MCR03EZHJ103 MCR03EZHJ331 MCR03EZHJ101 MCR03EZHJ472 MCR03EZHJ331 MCR03EZHJ151 MCR03EZHJ102 MCR03EZHJ102 MCR03EZHJ103 MCR03EZHJ102 ERJ6GEYJ330V MCR03EZHJ472 MCR03EZHJ103 MCR03EZHJ223 MCR03EZHJ103 MCR03EZHJ473 MCR03EZHJ473 MCR03EZHJ103 MCR03EZHJ331 MCR03EZHJ104 ERJ12YJ100U MCR03EZHJ103 RH90N74E20-A90770 ATQ209
Qty
DR-135 DR-235 DR-435
Ver
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 T,TG,E,EG 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 E,EG 1 1 1 T,TG 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
32
Ref. No. SW1 SW2 SW3 SW4 SW5 SW6 SW7 VR1 W1 X1
Parts No. Description
UU0015Z UU0015Z UU0015Z UU0015Z UU0015Z UU0015Z UU0015Z RV0035 UX1270 XQ0131 TL0024 YZ0042 ST0068 FG0305 TL0023 DG0037 FM0034 FP0034 ST0064 Switch Switch Switch Switch Switch Switch Switch Variable Wire Xtal
Parts Name
EVQPPXA25 EVQPPXA25 EVQPPXA25 EVQPPXA25 EVQPPXA25 EVQPPXA25 EVQPPXA25 EVUF2JFK4B14 WIRE DR235 W1 CSA310/3.6864MHz DIFFUSION SHEET 135 CEMENT G17 / 1G DIAL FITTING LCD RUB.CONNECT. 135 REFLECTION DR135 LCD LIGHT DR135 MIC GND PLATE MIC SPACER DR110 LCD HOLDER DR135
Qty
DR-135 DR-235 DR-435
Ver
Ref. No. C173 C174 C175 C176 C177 C179 C180 C181 C182 C183 C184 C185 C186 C187 C188 C189 C190 C191 C192 C193 C194 C195 C196 C197 C198 C199 C200 C201 C202 C203 C204 C205 C206 C207 C208 C209 C210 C211 C212 C213 C214 C215 C216 C217 C218 C219 C220 C221 C222 C223 C224 C225 C226 C227 C228 C229 C230 C231 C232 C233 C234 C235 C236 C237 C238 C239 C240 C241 C242 C243 C244 C245 C246 C247 C248 C249 C250 C251 C252 C253 C254 C255 C256 C257 C258 C259 C260 C261 C262
Parts No. Description
CU3037 CU3029 CU3111 CU3018 CU3018 CU3111 CU3035 CU3035 CU3047 CU3035 CU3035 CS0232 CU3008 CU3035 CU3035 CU3011 CU3047 CU3102 CU3047 CU4033 CU3012 CU3012 CU3023 CU4003 CE0339 CE0339 CU3035 CU4014 CU4016 CU4016 CU4013 CU3035 CE0339 CU3002 CU3002 CU3035 CU3003 CU3003 CE0364 CU3035 CU3015 CU4016 CU4016 CU3051 CU3051 CU3035 CU3035 CU3047 CU3035 CE0364 CU3023 CU3035 CU3035 CS0049 CU3035 CU3101 CU3035 CU3035 CU3035 CU3035 CU3035 CU3014 CU3014 CU3035 CS0049 CS0049 CE0339 CU3022 CU3051 CE0339 CE0339 CS0049 CU3043 CU3111 CU3047 CU3038 CU3026 CE0339 CU3035 CU3111 CU3111 CE0364 CU3111 CE0339 CS0049 CU3035 CE0339 CU3035 CU3035 Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip tantalum Electrolytic C. Chip C. Chip C. Electrolytic C. Electrolytic C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Electrolytic C. Chip tantalum Chip C. Electrolytic C. Chip C. Chip C.
Parts Name
C1608JB1H152KT-AS C1608JB1H331KT-AS C1608JB1C104KT-N C1608CH1H390JT-AS C1608CH1H390JT-AS C1608JB1C104KT-N C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H103KT-N C1608JB1H102KT-AS C1608JB1H102KT-AS TMCMA1V474MTR C1608CH1H070CT-A C1608JB1H102KT-AS C1608JB1H102KT-AS C1608CH1H100DT-AS C1608JB1H103KT-N C1608JB1C333KT-NS C1608JB1H103KT-N GRM42-6X7R102K500PT C1608CH1H120JT-AS C1608CH1H120JT-AS C1608CH1H101JT-AS GRM42-6CK020C500PT 16MV 10SWB+TS 16MV 10SWB+TS C1608JB1H102KT-AS GRM42-6CH180J500PT GRM42-6CH270J500PT GRM42-6CH270J500PT GRM42-6CH150J500PT C1608JB1H102KT-AS 16MV 10SWB+TS C1608CH1H010CT-AS C1608CH1H010CT-AS C1608JB1H102KT-AS C1608CH1H020CT-AS C1608CH1H020CT-AS 16MV 47SWB+TS C1608JB1H102KT-AS C1608CH1H220JT-AS GRM42-6CH270J500PT GRM42-6CH270J500PT C1608JB1E223KT-NS C1608JB1E223KT-NS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H103KT-N C1608JB1H102KT-AS 16MV 47SWB+TS C1608CH1H101JT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS TMCSA1C105MTR C1608JB1H102KT-AS C1608JB1C473KT-NS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608CH1H180JT-AS C1608CH1H180JT-AS C1608JB1H102KT-AS TMCSA1C105MTR TMCSA1C105MTR 16MV 10SWB+TS C1608CH1H820JT-AS C1608JB1E223KT-NS 16MV 10SWB+TS 16MV 10SWB+TS TMCSA1C105MTR C1608JB1H472KT-NS C1608JB1C104KT-N C1608JB1H103KT-N C1608JB1H182KT-AS C1608CH1H181JT-AS 16MV 10SWB+TS C1608JB1H102KT-AS C1608JB1C104KT-N C1608JB1C104KT-N 16MV 47SWB+TS C1608JB1C104KT-N 16MV 10SWB+TS TMCSA1C105MTR C1608JB1H102KT-AS 16MV 10SWB+TS C1608JB1H102KT-AS C1608JB1H102KT-AS
Qty
DR-135 DR-235 DR-435
Ver
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
Main Unit (DR-135)
Ref. No. C101 C102 C103 C104 C105 C106 C107 C108 C109 C110 C111 C112 C113 C114 C115 C116 C117 C118 C119 C120 C121 C122 C123 C124 C125 C126 C127 C129 C130 C132 C133 C134 C135 C137 C138 C139 C140 C141 C142 C143 C144 C145 C146 C148 C149 C150 C151 C152 C153 C154 C155 C156 C157 C158 C159 C160 C161 C162 C165 C167 C168 C169 C171 C172
Parts No. Description
CU3047 CU3047 CS0049 CU3047 CS0394 CU3051 CU3111 CU3047 CS0216 CU3047 CU3047 CU3047 CU3047 CU3047 CU3047 CU3047 CU3047 CU3049 CU3051 CU3021 CU3005 CU3002 CU3015 CU3040 CU3044 CU3038 CU3041 CU3111 CS0049 CU3035 CU3005 CU3042 CU3044 CU3017 CS0049 CU3017 CU3017 CU3111 CU3111 CU3111 CU3047 CU3003 CE0339 CU3017 CU3017 CU3005 CU3047 CE0339 CU3035 CU3035 CU3007 CU3047 CU3035 CU3013 CU3035 CE0339 CU3111 CU3035 CU3111 CU3047 CU3111 CU3027 CU3111 CU3035 Chip C. Chip C. Chip tantalum Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C.
Parts Name
C1608JB1H103KT-N C1608JB1H103KT-N TMCSA1C105MTR C1608JB1H103KT-N TMCMB0J476MTR C1608JB1E223KT-NS C1608JB1C104KT-N C1608JB1H103KT-N TMCMB1A106MTR C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1E153KT-NS C1608JB1E223KT-NS C1608CH1H680JT-AS C1608CH1H040CT-AS C1608CH1H010CT-AS C1608CH1H220JT-AS C1608JB1H272KT-NS C1608JB1H562KT-NS C1608JB1H182KT-AS C1608JB1H332KT-NS C1608JB1C104KT-N TMCSA1C105MTR C1608JB1H102KT-AS C1608CH1H040CT-AS C1608JB1H392KT-NS C1608JB1H562KT-NS C1608CH1H330JT-AS TMCSA1C105MTR C1608CH1H330JT-AS C1608CH1H330JT-AS C1608JB1C104KT-N C1608JB1C104KT-N C1608JB1C104KT-N C1608JB1H103KT-N C1608CH1H020CT-AS 16MV 10SWB+TS C1608CH1H330JT-AS C1608CH1H330JT-AS C1608CH1H040CT-AS C1608JB1H103KT-N 16MV 10SWB+TS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608CH1H060CT-A C1608JB1H103KT-N C1608JB1H102KT-AS C1608CH1H150JT-AS C1608JB1H102KT-AS 16MV 10SWB+TS C1608JB1C104KT-N C1608JB1H102KT-AS C1608JB1C104KT-N C1608JB1H103KT-N C1608JB1C104KT-N C1608CH1H221JT-AS C1608JB1C104KT-N C1608JB1H102KT-AS
Qty
DR-135 DR-235 DR-435
Ver
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
33
Ref. No. C263 C264 C265 C266 C267 C268 C269 C270 C271 C272 C273 C274 C275 C276 C277 C278 C279 C280 C281 C282 C283 C284 C285 C286 C287 C288 C289 C290 C291 C292 C293 C294 C295 C296 C297 C298 C299 C300 C301 C302 C303 C304 C305 C306 C307 C308 C309 C310 C311 C312 C313 C314 C315 C316 C317 C318 C319 C320 C321 C322 C323 C324 C325 C326 C327
CN101 CN102 CN103 CN104 CN105 CN106 CN107 CN110
Parts No. Description
CE0100 CU3031 CU3035 CU3064 CU3035 CU3035 CU3035 CU3047 CU3035 CS0220 CS0220 CU3016 CU3047 CE0339 CE0343 CU3035 CU3051 CU3016 CU3009 CU3064 CU3027 CU3002 CU3035 CU3027 CS0063 CU3011 CU3051 CU3035 CU3011 CU3035 CU3035 CU3035 CU3047 CU3011 CU3035 CU3009 CU3047 CU3015 CU3023 CU3023 CU3023 CU3047 CU3047 CU3111 CU3047 CE0342 CU3051 CU3023 CU3035 CU3011 CU3035 CS0237 CS0237 CS0237 CS0237 CU3035 CS0237 CS0237 CS0220 CU3035 CU3018 CU3016 CU3018 CU3029 CU3034 UE0369 UE0397 UE0397 UA0037Y UE0394 UE0043 UE0393 UE0341 XD0246 XD0299 XD0299 XD0299 XD0299 XD0250 XD0246 XD0130 XD0301 XD0013 XD0250 XD0250 XD0254 XD0246 XD0254 XD0165 Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip tantalum Chip C. Chip C. Electrolytic C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Electrolytic C. Chip C. Chip C. Chip C. Chip C. Chip C. Chip tantalum Chip tantalum Chip tantalum Chip tantalum Chip C. Chip tantalum Chip tantalum Chip tantalum Chip C. Chip C. Chip C. Chip C. Chip C. Chip C. Connector Connector Connector Wire Connector Connector Connector Connector Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode
Parts Name
16MV 22UW C1608JB1H471KT-AS C1608JB1H102KT-AS C1608CH1H1R5CT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H103KT-N C1608JB1H102KT-AS TMCMA1C225MTR TMCMA1C225MTR C1608CH1H270JT-AS C1608JB1H103KT-N 16MV 10SWB+TS 16MV 1000HC+T C1608JB1H102KT-AS C1608JB1E223KT-NS C1608CH1H270JT-AS C1608CH1H080CT-A C1608CH1H1R5CT-AS C1608CH1H221JT-AS C1608CH1H010CT-AS C1608JB1H102KT-AS C1608CH1H221JT-AS TMCSA1V104MTR C1608CH1H100DT-AS C1608JB1E223KT-NS C1608JB1H102KT-AS C1608CH1H100DT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H102KT-AS C1608JB1H103KT-N C1608CH1H100DT-AS C1608JB1H102KT-AS C1608CH1H080CT-A C1608JB1H103KT-N C1608CH1H220JT-AS C1608CH1H101JT-AS C1608CH1H101JT-AS C1608CH1H101JT-AS C1608JB1H103KT-N C1608JB1H103KT-N C1608JB1C104KT-N C1608JB1H103KT-N 16MV 470HC+TS C1608JB1E223KT-NS C1608CH1H101JT-AS C1608JB1H102KT-AS C1608CH1H100DT-AS C1608JB1H102KT-AS TMCMA1A475MTR TMCMA1A475MTR TMCMA1A475MTR TMCMA1A475MTR C1608JB1H102KT-AS TMCMA1A475MTR TMCMA1A475MTR TMCMA1C225MTR C1608JB1H102KT-AS C1608CH1H390JT-AS C1608CH1H270JT-AS C1608CH1H390JT-AS C1608JB1H331KT-AS C1608JB1H821KT-AS AXN49301616 10-5082-3110-17-100 10-5082-3110-17-100 DC CABLE UA0037 PI28A15M PI22A02M PI28A11M PI28A02M DAN235UT 106 MA304-TX MA304-TX MA304-TX MA304-TX MA742 TX DAN235UT 106 DA204U T106 1SV268-TD MI407 MA742 TX MA742 TX 1SS355 TE17 DAN235UT 106 1SS355 TE17 UDZSTE-17 5.1B
Qty
DR-135 DR-235 DR-435
Ver
Ref. No. D117 D118 D119 D120 D121 D122 D123 D124 D125 D126 D127 D128 D129 D130 FL101 FL102 IC101 IC102 IC103 IC104 IC108 IC109 IC110 IC111 IC112 IC113 IC114 IC115 IC116 IC117 JK101 JK102 L101 L102 L103 L104 L105 L106 L107 L108 L111 L112 L113 L114 L115 L116 L117 L118 L119 L120 L121 L122 L123 L124 L125 L126 L127 L128 Q101 Q102 Q103 Q104 Q105 Q106 Q107 Q108 Q110 Q111 Q112 Q113 Q114 Q115 Q116 Q117 Q118 Q119 Q120 Q121 Q122 Q123 Q124 Q125 Q126 Q127 Q128 Q129 Q130 Q131 Q132
Parts No. Description
XD0254 XD0130 XD0254 XD0131 XD0274 XD0300 XD0300 XD0131 XD0272 XD0254 XD0165 XD0291 XD0291 XD0254 XC0070 XC0052 XA0675 XA0348 XA0348 XA0596 XA0223 XA0115 XA0412 XA0236 XA0449 XA0348 XA0068 XA0102 XA0352 XA0410 UJ0046 UJ0024Z QC0043 QA0084 QA0084 QA0084 QA0084 QC0067 QC0065 QC0065 QKA45E QKA35D QKA45E QKA45E QKA45E QKA45E QC0065 QKA95D QC0039 QC0063 QC0043 QC0040 QA0127 QC0442 QC0430 QC0040 QC0126 QC0125 XU0131 XU0131 XU0047 XU0131 XT0096 XE0028 XE0028 XU0131 XU0131 XE0021 XT0096 XU0047 XU0131 XT0084 XT0112 XT0095 XT0094 XU0148 XU0131 XU0178 XT0099 XT0061 XU0047 XE0021 XU0131 XT0095 XU0131 XU0148 XU0112 XE0010 XU0131 Chip Diode Chip Diode Chip Diode Chip Diode Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Chip Diode Ceramic Filter Ceramic Filter IC IC IC IC IC IC IC IC IC IC IC IC IC IC Jack Jack Chip Inductor Coil Coil Coil Coil Chip Inducto