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SERVICE MANUAL
COMMUNICATION RECEIVER FOR COMPUTER
iC-pcr100
INTRODUCTION
This service manual describe the latest service information for the IC-PCR100 COMMUNICATION RECEIVER FOR COMPUTER at the time of publication. MODEL VERSION Europe U.K. Canada U.S.A-1 Other SYMBOL EUR UK CAN USA-1 OTH
DANGER
NEVER connect the receiver to an AC outlet or to a DC
power supply that uses more than 16 V. Such a connection could cause a fire hazard and/or electric shock.
DO NOT expose the receiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when
connecting the receiver.
IC-PCR100
To upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation
DO NOT apply an RF signal of more than 20 dBm (100 mW) to the antenna connector. This could damage the receiver's front end.
ORDERING PARTS
Be sure to include the following four points when ordering replacement parts: 1. 10-digit order numbers 2. Component part number and name 3. Equipment model name and unit name 4. Quantity required
1130004200 S.IC TC4S66F IC-PCR100 MAIN UNIT 1 piece 8810008660 Screw PH B0 3 × 8 NI-ZU IC-PCR100 CHASSIS 4 pieces
REPAIR NOTES
1. Make sure a problem is internal before disassembling the receiver. 2. DO NOT open the receiver until the receiver is disconnected from its power source. 3. DO NOT force any of the variable components. Turn them slowly and smoothly. 4. DO NOT short any circuits or electronic parts. An insulated tuning tool MUST be used for all adjustments. 5. DO NOT keep power ON for a long time when the receiver is defective. 6. READ the instructions of test equipment thoroughly before connecting equipment to the receiver.
Addresses are provided on the inside back cover for your convenience.
TABLE OF CONTENTS
SECTION 1
SPECIFICATIONS
SECTION 2
INSIDE VIEWS
SECTION 3
DISASSEMBLY INSTRUCTIONS
SECTION 4
4-1 4-2 4-3 4-4
CIRCUIT DESCRIPTION
RECEIVER CIRCUITS............................................................................................................................ 4 - 1 . PLL CIRCUITS........................................................................................................................................ 4 - 4 POWER SUPPLY CIRCUITS.................................................................................................................. 4 - 5 CPU PORT ALLOCATIONS .................................................................................................................... 4 - 6
SECTION 5
5-1 5-2 5-3 5-4
ADJUSTMENT PROCEDURES
PREPARATION BEFOR SERVICING .................................................................................................... 5 - 1 . PLL ADJUSTMENTS .............................................................................................................................. 5 - 3 IF PEAK AND TOTAL GAIN ADJUSTMENTS ....................................................................................... 5 - 5 SOFTWARE ADJUSTMENTS ................................................................................................................ 5 - 7
SECTION 6
PARTS LIST
SECTION 7
MECHANICAL PARTS AND DISASSEMBLY
SECTION 8
SEMI-CONDUCTOR INFORMATION
SECTION 9
9-1
BOARD LAYOUTS
MAIN UNIT.............................................................................................................................................. 9 - 1
SECTION 10
BLOCK DIAGRAM
SECTION 11
11 - 1
VOLTAGE DIAGRAM
MAIN UNIT ............................................................................................................................................ 11 - 1
SECTION 1
M
SPECIFICATIONS
GENERAL
· Frequency range : Version U.S.A.-1 Europe, U.K. Canada Other · · · · · Mode Frequency stability Frequency resolution Power supply requirement Current drain (at 13.8 V DC) Frequency Range (MHz) 0.010 823.999* 849.001 868.999 894.001 1300.000 0.010 1300.000*
*Specifications guaranteed 0.51300 MHz only
· Usable temperature range · Antenna connector · RS-232C connector · Dimensions · Weight
: AM, FM, WFM : ±5 ppm (at 1300 MHz: ±0°C to +50°C; +32°F to +122°F) : 1 kHz (minimum) : 13.8 V DC ±15 % for receiver unit; or supplied AC adaptor (negative ground) : Power ON (PC power OFF) 0.1 A Max. audio 0.7 A Standby (squelched) 0.6 A : ±0°C to +50°C; +32°F to +122°F : BNC (50 ) : D-sub 9-pin (female) : 131(W)!35(H)!164.1(D) mm; 55/32(W)!13/8(H)!615/32(D) inch : approx. 0.5 kg; 1 lb 2 oz
M
RECEIVER
· Receive system · Intermediate frequency : Triple-conversion : 1st 2nd 3rd : Frequency 0.5 1.8 28.0 30.0 50.0 700.0 superheterodyne 266.7 MHz 10.7 MHz 450 kHz (except WFM) FM -- -- 0.5 µV 0.32 µV 0.4 µV 0.79 µV 1.0 µV WFM AM 2.5 µV 1.8 µV 1.0 µV 1.3 µV
· Sensitivity (typical)*
[MHz] 1.799 27.999 29.999 49.999 699.999 1300.000
*FM and WFM are measured at 12 dB SINAD; AM is measured at 10 dB S/N.; 230 kHz (for WFM), 15 kHz (for FM) and 6 kHz (for AM) passband widths are selected.
· Squelch sensitivity (at threshold)
:
Frequency [MHz] 0.5 1.799 1.8 27.999 28.0 29.999 30.0 49.999 50.0 699.999 700.0 1300.000
FM --
WFM
AM 1.8 µV
-- 0.63 µV 0.5 µV 0.63 µV 5.6 µV 10 µV
0.89 µV 0.71 µV 0.89 µV
: WFM 230 kHz/6 dB WFM/FM/AM 50 kHz/6 dB FM/AM 15 kHz/6dB FM/AM/SSB/CW 6 kHz/6 dB · Max audio output : Mono 200 mW (at 10% distortion with an 8 load) Stereo 100 mW · External speaker connector : 3-conductor 3.5(d) mm (1/8")/48
· Selectivity (typical)
1-1
SECTION 2
¡MAIN UNIT
7001300 MHz RF filter circuit 350700 MHz RF filter circuit 150300 MHz RF filter circuit 0.011.8 MHz RF filter circuit
INSIDE VIEWS
Top view
AM demodulator (D63: 1SS372) IF 6 kHz filter (FI6: CFWS450HT) IF 15 kHz filter (FI7: CFWS450E) FM discriminator (X2: CDBCA450CX24)
1.815 MHz RF filter circuit
1530 MHz RF filter circuit
VCO3 circuit FM 3rd LO signal (X1: CR-630 12.5 MHz)
VCO1, VCO2 circuits CPU (IC21: HD6433644A) Reference oscillator (X5: CR-629 12.8 MHz)
AF amplifier (IC23: M62429) AF power amplifier (IC25: NJM2073)
0.011.8 MHz RF filter circuit 3050 MHz RF filter circuit HF RF amplifier (Q12: 2SK2171) AGC control circuit AGC amplifier (Q45: 2SC4211) 50150 MHz RF filter circuit 1st mixer (IC4: µPC2721)
WFM demodulator IC (IC7: LA1832M) FM demodulator IC (IC10: TA31136) IF amplifier (Q29: 3SK131)
2nd mixer (IC5: µPC2721) PLL IC (IC8: MC145220)
EEPROM (IC20: X25020SI)
Bottom view
2-1
SECTION 3
· Removing the cover panel
DISASSEMBLY INSTRUCTIONS
· Removing the MAIN unit
1 Unscrew 7 screws from the MAIN unit, C (set screw, 3 mm), to separate the chassis and unit. 2 Remove the unit in the direction of the arrow.
C
1 Unscrew 4 screws, A. 2 Disconnect the speaker jack J8. 3 Remove the cover panel in the direction of the arrow.
C
Cover panel
J8
C
MAIN UNIT
A
A
Chassis
· Removing the antenna plug and shield U-plate
1 Unscrew the nut, B. 2 Remove the shield cover in the direction of the arrow.
· Removing the shield plate
1 Remove the shield plate in the direction of the arrow. 2 Unsolder 9 points, D, to separate the shield plate and MAIN unit.
Shield L-plate
Shield U-plate
B
D
Shield case
3-1
SECTION 4
CIRCUIT DESCRIPTION
The 1529.999 MHz signals pass through the low-pass filter (L10, L11, C33C37) and high-pass filter (L11, L12, C38C42) between the band switching diodes (D90, D91), and are then applied to the 1st mixer circuit via the RF amplifier circuit (Q12). The 3049.999 MHz signals pass through the high-pass filter (L14, L15, C45C49) between the band switching diodes (D8, D5), and are then applied to the 1st mixer circuit via the RF amplifier circuit (Q12). · Filters Receive freq. (MHz) 0.011.799 1.814.999 15.029.999 30.049.999 SW diode D6, D35 D3, D7 D90, D91 D8, D5 Filter select signal B0 B1 B2 B3 Components L3L5, C14C17 L6L9, C21C30 L10L13, C33C42 L14, L15, C45C49
4-1 RECEIVER CIRCUITS
4-1-1 RF ATTENUATOR CIRCUIT
The attenuator circuit attenuates the signal strength to approx. 20 dB to protect the RF amplifier from distortion when excessively strong signals are received. The RF signals from the antenna connector are passed through or bypass the "L" type attenuator (R1, R3). The signals are then applied to the RF filter circuit.
4-1-2 RF FILTER CIRCUIT
The applied signals pass through either the low-pass filter or the high-pass filter circuits via the band switching diodes. · RF signals below 50 MHz The RF signals below 50 MHz are passed through the lowpass filter (L1, L2, C7C11) via the band switching diode (D2). The filtered signals are applied to the HF RF circuit. · RF signals above 50 MHz The RF signals above 50 MHz are applied to the high-pass filter (L172, C477, C478) after passing through the band switching diode (D4). The filtered signals are then applied to the VHF/UHF RF circuit.
4-1-4 VHF/UHF RF CIRCUIT
The VHF/UHF RF circuit amplifies the received signals within the range 501300 MHz and filters out-of-band signals. The VHF/UHF RF circuit consists of 4 bands of filter circuits with an RF amplifier for each. The 50149.999 MHz signals from the RF filter pass through high-pass filter (D11, L17, C53C55, D12, D82, D83, L18, C57) via the band switching diode (D10), and are then amplified at the RF amplifier (Q8) between the tunable bandpass filters (D13, D80, L19L21, D14, D81, L23L25). The filtered signals are applied to the 1st mixer circuit (IC4) via the band switching diode (D15). For improving the characteristic of the bandpass filter circuit, the shift switch (Q31) shifts the cut off frequency of the highpass filter (D12, D82, D83, L18, C57). The shift switch (Q31) is controlled by the VCO 1 signal from the CPU (IC21).
4-1-3 HF RF CIRCUIT
The HF RF circuit amplifies the received signals within the range 0.0150 MHz and filters out-of-band signals. The HF RF circuit consists of three low-pass filters, three high-pass filters and one RF amplifier. The filtered signals below 1.8 MHz from the RF filter circuit are passed through the low-pass filter (L3, L4, C14C16) between the band swithing diodes (D6, D35), and are then applied to the 1st mixer circuit (IC4) directly. The 1.814.999 MHz signals pass through the low-pass filter (L6, L7, C21C25) and high-pass filter (L8, L9, C26C30) between the band switching diodes (D3, D7), and are then applied to the 1st mixer circuit after being amplified at the RF amplifier (Q12). · RF filter and amplifier circuits
0.011.8 MHz 0.0150 MHz
ATT LPF AGC
LPF LPF LPF HPF HPF HPF RF Amp. Tuned Q8 BPF RF Amp. Tuned Q9 BPF RF Amp. Tuned Q10 BPF RF Amp. Tuned Q11 BPF
RF Amp. Q12
1.815 MHz 1530 MHz 3050 MHz 50150 MHz
To 1st mixer circuit
501300 MHz
HPF
Tuned BPF BPF
150350 MHz Tuned 350700 MHz Tuned
BPF
7001300 MHz Tuned
BPF
4-1
The 150349.999 MHz signals from the band switching diode (D16) pass through the high-pass filter (L27L29, C69C74) and tunable bandpass filter (D18, L31L33), and are then amplified at the RF amplifier (Q9) and pass through another tunable bandpass filter (D19, L35L37). The filtered signals are applied to the 1st mixer circuit (IC4) via the band switching diode (D20). The 350699.999 MHz signals from the band switching diode (D21) pass through the high-pass filter (L40, C92 C94) and tunable bandpass filter (D22, D23, L41, L42). The filtered signals are then amplified at the RF amplifier (Q10) and pass through the tunable bandpass filters (D24, D77, L45L47). The filtered signals are applied to the 1st mixer circuit (IC4) via the band switching diode (D25). The 7001300 MHz signals from the band switching diode (D26) pass through the high-pass filter (L141, C110, C606) and 2-stage tunable bandpass filters (D27, D28, L163, D29, D30, L51L53). The filtered signals are then amplified at the RF amplifier (Q11) and pass through the tunable bandpass filters (D31, D32, L56, L178). The filtered signals are applied to the 1st mixer circuit (IC4) via the band switching diode (D33). The tunable bandpass filters employ varactor diodes to tune the center frequency of the RF passband for wide bandwidth receiving and good image response rejection. These diodes are controlled by TUNV signal from the CPU (IC21, pin 54) via the tune controller (IC22b). · Tunable bandpass filters Receive freq. (MHz) 50.0149.999 150.0349.999 350.0699.999 700.01300.0 BPF select signal B4 B5 B6 B7 Varactor diodes D11D14, D80D83 D18, D19 D22D24, D77 D27D32 RF amp. Q8 Q9 Q10 Q11
4-1-5 1ST MIXER CIRCUIT
The 1st mixer circuit converts the received RF signals into a fixed frequency of the 1st IF signal with a PLL output frequency. By changing the PLL frequency, only the desired frequency will pass through the bandpass filters at the next stage of the 1st mixer. The filtered RF signals are mixed with 1st LO signals at the 1st mixer circuit (IC4) to produce a 266.7 MHz 1st IF signal. The 1st IF signal is output from pin 5, and passed through the bandpass filter (FI1) to suppress unwanted harmonic components. The filtered 1st IF signal is applied to the IF circuit. The 1st LO signals are generated at the VCO 1 (Q14, Q15) or VCO 2 (Q18, Q19) circuit (according to the receiving frequency band) and are amplified at the buffer amplifier (IC26). The amplified signals are then applied to the 1st mixer (IC4, pin 2) directly or passed through the divider circuit (IC6).
4-1-6 1ST IF AND 2ND MIXER CIRCUITS
The 2nd mixer circuit converts the 1st IF signal into a 2nd IF signal. The filtered 266.7 MHz 1st IF signal from the bandpass filter (FI1) is amplified at the 1st IF amplifier (Q13) then mixed with the 2nd LO signal at the 2nd mixer circuit (IC5) to produce a 10.7 MHz 2nd IF signal. The 2nd IF signal is passed through either 2 bandpass filters (FI2 or FI3; depending on the selected mode and bandwidth). The filtered 2nd IF signal is amplified at the IF amplifier (Q29), then applied to the WFM demodulator or 3rd IF circuit.
· IF and demodulator circuits
IF Amp. 1st IF signal from 1st mixer (IC4) BPF Q13 2nd Mixer BW: 50 kHz FI2 IF Amp. 2nd LO IC5 BW: 230 kHz FI3 1 3 3rd LO Limiter 3rd Mixer 16 WFM WFM Detector IC7 to AF switch IC14 FM HPF AM detector D63 Buffer Amp. IF Amp. X2 450 kHz 11 10 Active filter FM Detector 9 IC10 5 7 8 Q29 IF Amp. X1 10.25 MHz FI7 FI6 Q38
AM
ANL Q44, D52
Q43
Q42
4-2
4-1-7 3RD MIXER CIRCUIT
The 3rd mixer circuit mixes the 2nd IF signal and 3rd LO signal to produce a 450 kHz 3rd IF signal (except WFM mode). The 10.7 MHz 2nd IF signal from the IF amplifier (Q29) is applied to the 3rd mixer section in the FM IF IC (IC10, pin 16). The applied signal is mixed with a 3rd LO signal generated by X1 (10.25 MHz) to produce a 450 kHz 3rd IF signal. The 3rd IF signal is output from pin 3, and passed through one of 2 bandpass filters (FI6 or FI7) or bypassed, according to the selected mode after being amplified at the IF amplifier (Q38). The filtered or bypassed signal is applied to the each demodulator circuit (except WFM mode). · Bandpass filter selection Modes AM FM Bandpass filter FI6 FI7 Passband width 6 kHz 15 kHz
(3) AM mode The filtered 3rd IF signal from the one of 2 bandpass filters (FI6 or FI7) is amplified at the IF and buffer amplifiers (Q42, Q43). The amplified IF signal is applied to the AM detector circuit (D63) to be converted into AF signals, and the AF signals are applied to the AF switch circuit.
4-1-9 AF SWITCH CIRCUIT
The demodulated AF signals from the demodulator circuits are applied to the AF switch (IC14). This consists of 4 analog switches which are selected with a mode signal from the CPU (IC21) via the I/O expander (IC3). The switched AF signals are applied to the AF circuit.
4-1-10 AF CIRCUIT
The AF signals from the AF switch circuit are passed through the AF mute switch and then amplified at the AF power amplifier circuit. The AF signals from the AF switch are applied to the electronic volume control circuit (IC23, pin 1). The level controlled AF signals are output from pin 2 and applied to the AF power amplifier (IC25, pin 6). The power amplified AF signals are applied to the internal speaker via the [EXT SP] jack. The electronic volume control circuit controls AF gain, therefore, the AF output level varies according to the [VOL] setting and also the squelch conditions.
4-1-8 DEMODULATOR CIRCUITS
The demodulator circuit converts the 2nd IF signal into AF signals. 3 separate demodulator circuits are employed for each mode. (1) WFM mode The 10.7 MHz 2nd IF signal from the IF amplifier (Q29) is applied to the WFM demodulator circuit (IC7, pin 1). The IF signal is applied to the quadrature detector section (IC7, pin 11) to demodulate AF signals. The demodulated AF signals are output from pin 14, 15, and are then applied to the AF switch circuit. (2) FM mode The filtered or bypassed 3rd IF signal is applied to the quadrature detector section in the FM IF IC (IC10, pin 10) then mixed with the signal generated by the discriminator (X2) to demodulate AF signals. The AF signals are output from pin 9 and applied to the AF switch circuit via the high-pass filter circuit (IC11).
4-1-11 SQUELCH CIRCUIT
A squelch circuit cuts out AF signals when no RF signal is received or when the S-meter signal is lower than the [SQUELCH] control setting level. By detecting noise components in the AF signals, the CPU controls the electronic volume control circuit. · NOISE SQUELCH Some noise components in the AF signals from pin 9 of the FM IF IC (IC10) are applied to the noise amplifier section in the IC (IC10, pin 8). The amplified signals are output from pin 7. The output signals are applied to the noise and buffer amplifiers (Q58, Q59) and rectified at the noise detector (D89) to be converted into DC voltage, then applied to the CPU (IC21, pin 60) as an NOIN signal.
· Squelch and AF amplifier circuits
IC10 FM Detector IC9 AWFL WFM Detector AWFR AM Detector D63 13 7 AM5 IC23 IC25 4 9 IC14 AFFM 11 10 12 FM5 8 6 3 5 WFM5 AFAM 1 2 1 2 6 3 WFM5 8
AF switch IC29 Electronic volume 7 7 AF power Amplifier 1 External SP jack SP J7
4-3
· S-METER SQUELCH The S-meter signal is applied to the CPU from the meter amplifier circuit (IC13a) via the SMAD line, and also the Smeter squelch setting level is applied to the CPU. The CPU compares these signals, then outputs a control signal to the electronic volume control circuit (IC23) to cut out AF signals.
AGC speed is controlled by changing the time constant at the AGC control line with resistors (R284, R290, R291) and capacitors (C372, C373, C905). R290 and C372 are used for AGC slow, and R284 and C905 are used for AGC fast mode's time constant. However, R291 and C373 are connected to the AGC control line while scanning to obtain the fastest AGC response.
4-1-12 AUTOMATIC NOISE LIMITER CIRCUIT
The ANL (Automatic Noise Limiter) circuit (D62, Q44, R381R384) reduces pulse noises. The ANL function activates only when AM mode is selected. The AM detector output signal from D63 is applied to the cathode of D62 passing through R381 where it is divided by R381 and R382. The signal is also applied to the anode of D62, passing through R383 and R384. When the ANL function is activated (Q44 is ON), C375 is grounded. The detector output, including pulse noise, is applied to the cathode of D62 only. If pulse noises are received, the cathode voltage of D62 becomes higher than the anode voltage and D62 turns OFF. Thus, while pulse noises are received, the detected signal is not applied to the AF switch(IC14). · Automatic noise limiter circuit
AF signal from D63
4-1-14 S-METER CIRCUIT
The S-meter circuit indicates the relative received signal strength while receiving and changes depending on the received signal strength. A portion of the AGC signal is applied to the meter amplifier circuit (IC13a). The amplified signal is then applied to the CPU (IC21, pins 64) as an SMAD signal to drive the Smeter. The SMAD signal is also used for noise and S-meter squelch operation by comparison with the [SQUELCH] control setting level and received signal strength at the CPU.
4-2 PLL CIRCUITS
4-2-1 GENERAL
Q44 ANL
R383
R375 +
The PLL circuit provides stable oscillation of the 1st and 2nd local frequencies. The PLL circuit consists of the PLL IC, charge pump, loop filter and reference oscillator and employs a pulse swallow counter.
C378
R381
R384
4-2-2 1ST LO LOOP
The 1st LO circuit generates the 1st LO frequencies, and the signals are applied to the 1st mixer circuit.
C377 R385 to AF switch IC14
D62
R382
The generated signal from VCO 1 (Q14, Q15) or VCO 2 (Q18, Q19) is applied to the prescaler section in the PLL IC (IC8, pin 8) after being amplified at the buffer amplifiers (IC26, Q27). The applied signal is prescaled in the PLL IC based on the divided ratio (N-data) to produce approx. 50 kHz signals which are applied to the phase detector section. The generated reference signal from the reference oscillator (X5; 12.8 MHz) is applied to the programmable divider section in the PLL IC (IC8, pin 1). The applied signal is prescaled in the PLL IC based on the divided ratio (1/256) to produce approx. 50 kHz phase signals. The reference phase signals are applied to the phase detector section. The phase detector section compares 2 of the applied phase signals. The phase detected signals are passed through the charge pump section and then output from pin 4 of the PLL IC. The output signals are applied to the loop filter circuit (Q25, Q26) to be converted into DC voltage as a PLL lock voltage. The lock voltage is applied to the CPU (IC22, pin 61) via the buffer amplifer (Q24) as an L1AD signal to control the VHF/UHF tunable bandpass filter.
4-1-13 AGC CIRCUIT
The AGC (Auto Gain Control) circuit reduces IF amplifier gain to keep the audio output at a constant level. An RSSI signal is used for AGC function from the WFM IF IC (IC7, pin 20) while in WFM mode, or used from the FM IF IC (IC10, pin 12) while in FM, AM (except WFM) mode. The RSSI output signal is amplified at the AGC amplifier (Q33) during WFM operation. In other modes, the RSSI signal is amplified at the AGC amplifier (Q45), and passes through the time constant circuit (Q46, Q47, R284, R290, R291, C372, C373, C905) and is then applied to the IF amplifiers (Q13, Q39). The AGC control signal is applied to the VHF/UHF tunable bandpass filters after being amplified at the VHF/UHF AGC amplifier (IC13b).
4-4
4-2-3 2ND LO LOOP
The 2nd LO circuit generates the 2nd LO frequencies, and the signals are applied to the 2nd mixer circuit. The generated signal at the VCO 3 (Q34) enters the PLL IC (IC8, pin 13) via the buffer amplifier (Q35), is divided ath the programmable divider seiction and is then applied to the phase detector section. The phase detector compares the input signal with a reference frequency, and then outputs the out-of-phase signal (pulse-type signals) from pin17 The pulse-type signal is converted into DC voltage (lock voltage) at the loop filter (Q36, Q37), and then applied to the VCO 3 to stabilize the oscillated frequency.
4-3 POWER SUPPLY CIRCUITS
4-3-1 VOLTAGE LINES
Line ACHV HV +5 +8 Description The voltage from a DC power supply. The same voltage as the ACHV line which is controlled by the [POWER] switch. Common 5 V line converted from the HV line by the +5 regulator circuit (IC16). Common 8 V line converted from the HV line by the +8 regulator circuit (IC17). Common 33 V line converted from the HV line by the 33 V DC-DC convertor circuit (IC18). The output voltage is applied to the PLL circuit. Common 5 V line converted from the ACHV line by the L+5 regulator circuit (IC15).
+33
L+5
· PLL circuit
Q24 VCO1 Buffer to 1st mixer circuit LPF 1st LO-freq.: 532.41066.65 MHz IC6 PLL IC (IC8) Phase detector Programmable counter Q18, Q19 D42, D43 Q27 Prescaler Amp.
Pdat Pck PSTB
L1AD to the CPU
Loop filter Q25, Q26
Q14, Q15 D39, D40 VCO2
IC26 Buffer
ATT
Q22 Amp. BPF
1/2
1st LO-freq.: 266.7532.35 MHz
Phase detector
Programmable counter
Prescaler VCO3
, ,,,,,, , ,,,,,,
X5 12.8 MHz
,,,,,, ,,,, ,,,,,, ,,,, ,,,,,, register/ Programmable,,,,,, Shift ,,,, ,,,,,, data latch divider ,,,,,, ,,,, ,,,,,, ,,,, ,,,,,, ,,,,
LPF
Loop filter Q36, Q37
Q34 D72D74
Q35 Buffer
to 2nd mixer circuit ATT LPF 2nd LO-freq.: 255257 MHz
4-5
4-4 PORT ALLOCATIONS
4-4-1 CPU (IC20)
Pin number 1 8, 9 10 17 Port name FMST OSC1, OSC2 RES POCO Description Input port from WFM IC (IC7, pin 7) for the stereo indicator. Input ports for the CPU system clock oscillator (X6; 9.8304 MHz). Input port for the reset signal. Outputs power switching circuit control signal. High : While turning power ON. Outputs attenuator control signals. Low : When attenuator function is ON. Outputs AGC time constant control signals. High : While scanning (fastest AGC speed). Outputs AGC time constant control signals. Low : When WFM or FM mode is selected (AGC-fast). Outputs ANL control signals. High : While ANL fuction is ON. (AM mode only) Outputs AF mixing control signal for the stereo audio. Outputs strobe signals for the output expander ICs (IC1, IC3). Outputs data signal for the electronic volume IC (IC23). Input port for serial signal from the EEPROM IC (IC20). Outputs data signal for the EEPROM IC (IC20) and output expander ICs (IC1, IC3). Outputs clock signal for the EEPROM IC (IC20) and output expander ICs (IC1, IC3). Outputs chip select signal to the EEPROM IC (IC20). Outputs 1st LO filter select signals. High : When frequencies from 0.01 to 265.699 MHz are displayed. Low : When frequencies from 265.7 to 1300.0 MHz are displayed. Outputs VCO1 shift signals. Outputs VCO2 shift signals. 39 41 42 43 48 DST1 PSTB Pdat Pck RXD 37, 38 VCO1, VCO2
CPU (IC20) -- continued
Pin number Port name Description Output VCO2/VCO1 select signals.
Display freq. Selected [MHz] VCO 0.01 108.299 108.3 265.699 265.7 266.699 266.7 267.699 267.7 483.299 483.3 799.999 800.0 1016.699 1016.7 1300.000 VCO1 VCO2 VCO1 VCO1 VCO1 VCO2 VCO1 VCO2 VCO freq. [MHz] 533.40 749.90 750.00 1064.70 533.40 534.35 532.40 533.35 534.40 749.95 750.00 1066.65 533.30 749.95 750.00 1033.300
18
ATTC
19
SCAN
20
AGCS
21 22 23, 24 25 26 27
ANL SWAF MST1, MST2 AFDT MSI MSO
Outputs strobe signals for reference frequency and VXO frequency. Outputs strobe signals for the PLL IC (IC8). Outputs serial data signals for the PLL IC (IC8). Outputs serial clock signal for the PLL IC (IC8). Input port for data signal from the connected PC via the RS-232C interface IC (IC9). Outputs data signal to the connected PC via the RS-232C interface IC (IC9). Outputs tunable bandpass filter control voltage. Input port for unlock signal from the PLL IC (IC8). Low : PLL unlock Input port signal strength detection signal (NOIN; pulse-type). Input port for 1st LO PLL lock voltage. Input port for the CTCSS decoded signal. Input port for S-meter signal.
49 54 59 60 61 62 63
TXD TUNE LCT NOIN L1AD CTAD SMAD
28 29
Mck ECS
34
PFL2
35 36
VSF1 VSF2
4-6
4-4-2 OUTPUT EXPANDER IC (1) IC1
Pin number 4 Port name B0C Description Outputs low-pass filter select signal. High: When frequencies below 1.8 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 1.8 to 14.999 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 15.0 to 29.999 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 30.0 to 49.999 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 700.0 to 1300.0 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 350.0 to 699.999 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 150.0 to 349.999 MHz are displayed. Outputs bandpass filter select signal. High: When frequencies from 50.0 to 149.999 MHz are displayed.
5
B1C
6
B2C
7
B3C
11
B7C
12
B6C
13
B5C
14
B4C
(2) IC3
Pin number Port name
SW signal
Description Output 450 kHz IF filter select signals.
Bandpass filter FI6 FI7 By-pass Passband width 6 kHz 15 kHz --
46
FL1FL3
FL1 FL2 FL3
Output 10.7 MHz IF filter select signals. 7, 14 FL4, FL5
SW signal FL4 FL5 Bandpass filter FI2 FI3 Passband width 50 kHz 230 kHz
11 12 13
AM5 FM WFM
Outputs AM mode select signals. High: When AM mode is selected. Outputs FM mode select signals. High: When FM mode is selected. Outputs WFM mode select signals. High: When WFM mode is selected.
4-7
SECTION 5
ADJUSTMENT PROCEDURES
M OPERATING INSTRUCTIONS The adjustment program window contains 3 panels; the Power Panel, Control Panel and Adjustment Panel. The Power Panel will appear at start up the program. q Connect IC-PCR100 and PC with an RS-232C serial cable. w Boot up Windows. e Click the "EX-2206 for IC-PCR100" in the program group `IC-PCR100' to start the program. · The Power Panel appears. r Click "POWER ON" on the Power panel. · Control Panel and Adjustment Panel appear. t Click "START" on the Adjustment Panel when starting the SOFTWARE adjustment. · Data panel appears at the bottom side of the Adjustment panel. y Click "Read ALL DATA" on the Adjustment Panel. · Application reads adjustment data of the connected receiver. u Set or modify adjustment data as desired. See the following SOFTWARE adjustments.
5-1 PREPARATION BEFORE SERVICING
The receiver (IC-PCR100) can be adjusted by sending adjustment data to the RS-232C port via a PC. Most of the adjustments in this section must use EX-2206, an adjustment program for IC-PCR100. The software that comes with the IC-PCR100 is not necessary for adjustments in this section. M SYSTEM REQUIREMENTS · IBM PC compatible computer · An RS-232C serial port (38400 bps or faster) · Microsoft Windows 95 or Windows 98 · Intel i486DX4 processor or faster (pentium 100 MHz or faster recommended) · At least 16 MB RAM · At least 10 MB of hard disk space · 640 ! 480 pixel display (800 ! 600 pixel display recommended) M SOFTWARE INSTALLATION NOTE: Before using the program, make a backup copy of the original disk. After making a backup copy, keep the original disk in a safe place. q Boot up Windows. - Quit all applications when Windows is running. w Insert the backup disk 1 into the appropriate floppy drive. e Select `Run' from the [Start] menu. r Type the setup program name using the full path name, then push the [Enter] key. (A:\ setup [Enter]) t Follow the prompts. y Program group `IC-PCR100' appears in the `Programs' folder of the [Start] menu.
IBM is a registered trademark of International Business Machines Corporation in the U.S.A and other countries. Microsoft and Windows are registered trademarks of Microsoft Corporation in the U.S.A and other countries. Screen shots produced with permission from Microsoft Corporation. All other products or brands are registered trademarks or trademarks of their respective holders.
M BASIC CONNECTION
External speaker
to an AC millivoltmeter or distortion meter
Personal computer to an RS-232C port to a power supply 13.8 V DC/1.0 A
Ground
to a standard signal generator 0.011500 MHz 17 to 125 dBm 0.13 µV to 32 mV
5-1
M PANEL DESCRIPTIONS i
ICPCR100 Control Panel
RX Frequency
u
!5
o
r t y
145.000000
UNLOCK MODE FILTER +0.000kHz VR AF Gain 80 SQL 48
TS 10k Center
Smeter 0 S 1 3 5 7 9 +20 +40
BUSY
LSB USB AM CW FM WFM
3.0kHz 6.0kHz 15.0kHz 50.0kHz 230.0kHz
ATT NB AGC VSC ANL
T-SQL OFF EXT-SP LINE OUT MONO
!6
!0
EX-2206 POWER ON
!1
!2
Adjustment Panel
EEPROM START RxSet Xtal VXO
!7
!8
!9
@0
@1
!3, !4
BPFtune
Smeter
BPF S
Noise SQL
@2
w e
COM Port Exit ICOM Inc.
Read ALL DATA
· POWER PANEL
q POWER button Turns IC-PCR100 on and off. w COM port button Used to select a COM port. e EXIT button Quits the program.
· CONTROL PANEL
r FREQENCY indication Indicates or inputs the receive frequency. t FREQUENCY scroll bar Used to change the receive frequency. Moving the button to the right increases the frequency; to the left decreases the frequency. y UNLOCK indicator Appears when the PLL is unlocked. u Tuning step button Used to change the tuning step. i BUSY indicator Appears when receiving a signal or when signal noise opens the squelch. o S-meter indicator Indicates the receive signal strength. !0 Receive mode buttons Select a receive mode. !1 FILTER (IF filter) buttons Change the IF filter in use. !2 Volume buttons Adjust the audio output, squelch level. !36 ATT (Attenuator) button Turns the attenuator on and off. !7 ANL (Automatic noise limiter) button Turns the ANL function on and off. The ANL removes noise components from an AM signal.
!5 T-SQL (Tone squelch) button Indicates or selects tone frequency for the tone squelch. !6 External speaker button Indicates or select external speaker. !7 AD1 indicator No function !8 AD2 (SMAD) indicator Indicates voltage level for the S-meter. !9 AD3 (CTAD) indicator Indicates voltage level for the CTCSS decoded signal. @0 AD4 (L1AD) indicator Indicates the 1st LO PLL lock voltage level. @1 AD5 (NOIN) indicator Indicates noise pulse voltage level for the noise squelch.
· ADJUSTMENT PANEL
@2 Item select buttons Used to select the adjustment items.
5-2
5-2 PLL ADJUSTMENTS
ADJUSTMENT ADJUSTMENT CONDITION : 800.0000 MHz MEASUREMENT UNIT REFERENCE 1 · Display freq. FREQUENCY 1 · Display freq. VXO FREQUENCY 2 · Display freq. 3 · Display freq. MAIN LOCATION Connect a frequen- 256.0000 MHz cy counter to check point CP4. Connect a frequen- 10.2510 MHz cy counter to check point CP6. 10.2525 MHz 10.2550 MHz Use the adjustment software. (see page 5-7) Use the adjustment software. (see page 5-7) VALUE ADJUSTMENT
: 100.0040 MHz : 100.0025 MHz : 100.0000 MHz
MAIN
4 Repeat steps 13 several times. 5 · Display freq. 6 · Display freq. 7 · Display freq. : 800.0000 MHz : 800.0025 MHz : 800.0040 MHz MAIN Connect a frequen- 10.2500 MHz cy counter to check point CP6. 10.2525 MHz 10.2540 MHz Use the adjustment software. (see page 5-7)
8 Repeat steps 57 several times. 1ST LO PLL LOCK VOLTAGE 1 · Display freq. 2 · Display freq. 3 · Display freq. 4 · Display freq. 5 · Display freq. 6 · Display freq. 7 · Display freq. 8 · Display freq. 2ND LO PLL LOCK VOLTAGE 1 · Display freq. 2 · Display freq. 3 · Display freq. LCT TERMINAL : 265.7000 MHz : 383.2000 MHz : 383.3000 MHz : 483.2000 MHz : 483.3000 MHz : 633.2000 MHz : 633.3000 MHz : 799.9000 MHz : 265.0000 MHz : 266.0000 MHz : 267.0000 MHz MAIN MAIN MAIN Connect a digital 1.55.5 V multi-meter or oscilloscope to check 13.517.7 V point CP1. 2.56.5 V 10.514.5 V 1.05.0 V 12.517.7 V 5.09.0 V 14.019.2 V Connect a digital 2.46.4 V multi-meter or oscilloscope to check 2.56.5 V point CP3. 2.36.3 V Connect a digital Less than 1.5 V multi-meter or oscilloscope to check point CP5. Verify Verify Verify
1 · Display freq. : Any frequency of the 1st LO and 2nd LO are locked.
5-3
DC power supply 13.8 V/1.0 A
to DC 13.8 V
to RS-232C port
Computer
CP4 Reference frequency check point
CP3 2nd LO lock voltage check point
CP6 VXO frequency check point
CP1 1st LO lock voltage check point
CP5 LCT voltage check point
5-4
5-3 IF PEAK AND TOTAL GAIN ADJUSTMENTS
ADJUSTMENT IF PEAK ADJUSTMENT CONDITION MEASUREMENT UNIT 1 · Display freq. : 130.0200 MHz · Mode : FM · AGC : ON · Filter : 15 kHz · R521, R523 : Center · Connect a standard signal generator to [ANT] and set as: Frequency : 130.0200 MHz Level : 50 µV* (73 dBm) Modulation : OFF · Receiving 2 · Display freq. : 149.9800 MHz · Set an SSG as : Frequency : 149.9800 MHz · Receiving TOTAL GAIN 1 · · · · Display freq. : 149.9700 MHz Mode : AM Filter : 6.0 kHz Set an SSG as : Frequency : 149.97000 MHz Level : 1.8 µV* (102 dBm) Modulation : 1 kHz Deviation : 70 % · Receiving Rear Panel Connect an AC Maximum AF level millivoltmeter to the [EXT SP] jack with an 8 dummy load. MAIN L112 LOCATION Maximum S-meter level VALUE ADJUSTMENT POINT UNIT ADJUST Use the adjustment software. (see page 5-7, Tuned BPF)
: FM 2 · Mode · Filter : 15.0 kHz · Set an SSG as : Mode : FM Level : 1.0 mV* (47 dBm) Modulation : 1 kHz Deviation : 3.5 kHz · Receiving : AM 3 · Mode · Filter : 6.0 kHz · Set an SSG as : Level : 1.0 mV* (47 dBm) Modulation : 1 kHz Deviation : 70 % · Receiving 4 · Set an SSG as : Level : 100 mV* (7 dBm) Modulation : 1 kHz Deviation : 70 % · Receiving Rear panel
Any AF level
Computer display
AF Gain
+1 dB of AF level difference as step 2
MAIN
R523
Connect a distortion 10 % distortion meter to the [EXT SP] jack with an 8 dummy load.
MAIN
R521
*This output level of a standard signal generator (SSG) is indicated as SSG's open circuit.
5-5
DC power supply 13.8 V/1.0 A Standard signal generator 0.011500 MHz 17 to 125 dBm 0.13 µV to 32 mV
to antenna connector to DC 13.8 V
External speaker
AC milivoltmeter
to external speaker jack
Computer
to RS-232C port
L112
R523 Total gain adjustment
R521
5-6
5-4 SOFTWARE ADJUSTMENT
ADJUSTMENT ADJUSTMENT CONDITION OPERATION
REFERENCE 1 · Click adjustment item [Xtal] on the Adjustment Panel. · Click "Y" or "Z" to set reference frequency to · Connect a frequency counter to check point CP4 on 256.0000 MHz. FREQUENCY the MAIN unit. · Display frequency : 800.0000 MHz 1 · Click adjustment item [VXO] on the adjustment panel. · Click "Y" or "Z" to set VXO frequency to 10.2510 VXO · Connect a frequency counter to check point CP6 on MHz. FREQUENCY the MAIN unit. · Display frequency : 100.0040 MHz 2 · Display frequency : 100.0025 MHz 3 · Display frequency : 100.0000 MHz 4 Repeat steps 13 several times. 5 · Display frequency : 800.0000 MHz 6 · Display frequency : 800.0025 MHz 7 · Display frequency : 800.0040 MHz 8 Repeat steps 13 several times. TUNED BPF 1 · Click adjustment item [BPFtune] on the Adjustment · Move the scroll bar at the bottom side of Panel. Adjustment Panel, and set maximum S-meter · Select "BPF 4-1" at the left side of Adjustment Panel. level on the Control Panel. · Manual/Auto Tune: Manual · Then, click "Write" switch to store into memory. · Set an SSG as : Frequency : 50.02 MHz Level : 50 µV* (73 dBm) Modulation : OFF · Receiving 2 · Same operation as step 1 for the listed frequencies. BPF 4-2 BPF 4-3 BPF 4-4 BPF 4-5 BPF 4-6 BPF 4-7 BPF 4-8 BPF 5-1 BPF 5-2 BPF 5-3 BPF 5-4 BPF 5-5 · Receiving S-METER 58.28 MHz 58.32 MHz 88.02 MHz 108.28 MHz 108.32 MHz 130.02 MHz 149.98 MHz 150.02 MHz 183.28 MHz 183.32 MHz 216.02 MHz 265.68 MHz BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF 5-6 5-7 5-8 6-1 6-2 6-3 6-4 6-5 6-6 6-7 6-8 6-9 265.72 300.02 349.98 350.02 383.28 383.32 433.32 483.28 483.32 558.32 633.28 633.32 MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF 6-10 699.98 MHz 7-1 700.02 MHz 7-2 750.02 MHz 7-3 799.98 MHz 7-4 800.02 MHz 7-5 916.68 MHz 7-6 916.72 MHz 7-7 1016.68 MHz 7-8 1016.72 MHz 7-9 1166.68 MHz 7-10 1166.72 MHz 7-11 1299.98 MHz · Click "Y" or "Z" to set VXO frequency to 10.2500 MHz. · Click "Y" or "Z" to set VXO frequency to 10.2525 MHz. · Click "Y" or "Z" to set VXO frequency to 10.2540 MHz. · Click "Y" or "Z" to set VXO frequency to 10.2525 MHz. · Click "Y" or "Z" to set VXO frequency to 10.2550 MHz.
1 · Click adjustment Panel. · Select "FM S0" at · Set an SSG as Frequency Mode Level Modulation · Receiving
item [Smeter] on the Adjustment · Click "Write" switch to store sampled data into memory. the left side of Adjustment Panel. : : 149.9700 MHz : FM : 0.5 µV* (113 dBm) : OFF
*This output level of a standard signal generator (SSG) is indicated as SSG's open circuit.
5-7
SOFTWARE ADJUSTMENT (continued)
ADJUSTMENT S-METER ADJUSTMENT CONDITION OPERATION
2 · Same operation as step 1 for the listed levels. · Set an SSG as: FM S3 : 1.3 µV* (105 dBm) FM S5 : 3.2 µV* (97 dBm) FM S7 : 13 µV* (85 dBm) FM S9 : 50 µV* (73 dBm) FM S9+20 : 180 µV* (62 dBm) FM S9+40 : 630 µV* (51 dBm) FM S9+60 : 2.5 mV* (39 dBm)
WFM WFM WFM WFM WFM WFM WFM WFM
S0 S3 S5 S7 S9 S9+20 S9+40 S9+60
: : : : : : : :
0.79 µV* (109 dBm) 1.6 µV* (103 dBm) 3.2 µV* (97 dBm) 13 µV* (85 dBm) 50 µV* (73 dBm) 180 µV* (62 dBm) 630 µV* (51 dBm) 2.5 mV* (39 dBm)
S-METER FLAT
· Receiving 1 · Click adjustment item [BPF S] on the Adjustment · Click "Write" switch to store sampled data into Panel. memory. · Select "BPF0" at the left side of Adjustment Panel. · Set an SSG as : Frequency : 1.02 MHz Level : 50 µV* (73 dBm) Modulation : OFF · Receiving 2 · Same adjustment as step 1 for the listed BPFs frequencies. BPF 1 7.02 MHz BPF 2 21.02 MHz BPF 3 40.02 MHz BPF 4-1 50.02 MHz BPF 4-2 58.28 MHz BPF 4-3 58.32 MHz BPF 4-4 88.02 MHz BPF 4-5 108.28 MHz BPF 4-6 108.32 MHz BPF 4-7 130.02 MHz BPF 4-8 149.98 MHz BPF 5-1 150.02 MHz BPF 5-2 183.28 MHz BPF 5-3 183.32 MHz · Receiving BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF 5-4 5-5 5-6 5-7 5-8 6-1 6-2 6-3 6-4 6-5 6-6 6-7 6-8 6-9 216.02 265.68 265.72 300.02 349.98 350.02 383.28 383.32 433.32 483.28 483.32 558.32 633.28 633.32 MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF BPF 6-10 699.98 MHz 7-1 700.02 MHz 7-2 750.02 MHz 7-3 799.98 MHz 7-4 800.02 MHz 7-5 916.68 MHz 7-6 916.72 MHz 7-7 1016.68 MHz 7-8 1016.72 MHz 7-9 1166.68 MHz 7-10 1166.72 MHz 7-11 1299.98 MHz
NOISE SQUELCH
1 · Click adjustment item [Noise SQL] on the Adjustment · Select "Thresh 15 k" and click "Write" switch for Thresh level. Panel. · Display frequency : 149.9700 MHz · Mode : FM · Filter : 15 kHz · Set an SSG as : Frequency : 149.9700 MHz Mode : FM Level : 0.16 µV* (123 dBm) Modulation : 1 kHz Deviation : 3.5 kHz · Receiving 2 · Set an SSG as Level · Receiving 3 · Filter · Set an SSG as Level Modulation Deviation · Receiving 4 · Set an SSG as Level · Receiving : : 0.5 µV* (113 dBm) : : : : : 6 kHz 0.16 µV* (123 dBm) 1 kHz 1.75 kHz · Select "Tight 6 k" and click "Write" switch for Tight level. · Select "Tight 15 k" and click "Write" switch for Tight level. · Select "Thresh 6 k" and click "Write" switch for Thresh level.
: : 0.5 µV* (115 dBm)
*This output level of a standard signal generator (SSG) is indicated as SSG's open circuit.
5-8
SECTION 6
[MAIN UNIT]
REF NO.
IC1 IC3 IC4 IC5 IC6 IC7 IC8 IC9 IC10 IC11 IC13 IC14 IC15 IC16 IC17 IC18 IC19 IC20 IC21
PARTS LIST
[MAIN UNIT]
DESCRIPTION REF NO.
Q47 Q48 Q49 Q51 Q52 Q54 Q55 Q56 Q57 Q58 Q59 Q61 Q64 Q66 Q67 Q70 Q71 Q72
ORDER NO.
1130007510 1130007510 1110004470 1110004470 1110004610 1190000920 1190000930 1120002570 1110003200 1110003800 1110003800 1130008090 1180000970 1180001070 1180001250 1110002350 1110004450 1130008340 1140007790 1140007780 1120002170 1110004490 1110003800 1110002420 1110004080 1130004200 1130004200 1110003690 1130004200 S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC S.IC
ORDER NO.
1510000880 1590001770 1530003280 1590002010 1590001330 1520000650 1590000430 1590001960 1590001960 1530003280 1530003280 1590002010 1590001960 1530003280 1530003280 1590000680 1530003280 1530003280 S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR
DESCRIPTION
2SA1622-6-TL XP1213 (TX) 2SC4211-6-TL XP1114 (TX) DTA114EUA T106 2SB1201-S-TL DTC144EUA T106 XP4311 (TX) XP4311 (TX) 2SC4211-6-TL 2SC4211-6-TL XP1114 (TX) XP4311 (TX) 2SC4211-6-TL 2SC4211-6-TL DTC114EUA T106 2SC4211-6-TL 2SC4211-6-TL
IC22 IC23 IC24 IC25 IC26 IC27 IC29 IC30 IC31
BU4094BCFV-E1 BU4094BCFV-E1 µPC2721GV-E1 µPC2721GV-E1 µPB1508GV-E1 LA1832M-TE-L MC145220DT-R2 µPD4723GS-GJG-E1 TA31136FN (EL) NJM2904V-TE1 NJM2904V-TE1 BU4066BCFV-E1 AN78L05M-(E1) TA7805F (TE16L) TA7808F (TE16L) BA6161F PST592DMT X25020SI-2.7T6 HD6433644A13H [USA-1] HD6433644A12H except [USA-1] M5223FP M62429FP 700C NJM2904V-TE1 NJM2073M-T1 µPC2709T-E3 TC4S66F (TE85R) TC4S66F (TE85R) M62354GP 75EC TC4S66F (TE85R)
Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 Q11 Q12 Q13 Q14 Q15 Q17 Q18 Q19 Q20 Q21 Q22 Q23 Q24 Q25 Q26 Q27 Q29 Q30 Q31 Q32 Q33 Q34 Q35 Q36 Q37 Q38 Q39 Q40 Q41 Q42 Q43 Q44 Q45 Q46
1530003280 1590000430 1590000720 1590002010 1590002010 1590002010 1590002010 1580000630 1580000630 1580000630 1580000630 1560000720 1580000540 1530003550 1530003550 1590000680 1530003550 1530003550 1590000680 1590001330 1530003450 1590000720 1560000540 1560000540 1530003000 1530003450 1580000540 1590002010 1530003450 1590000430 1530003000 1530003550 1530003450 1560000540 1530003000 1560000560 1590000430 1530003280 1590001650 1560000560 1530003280 1590000680 1530003280 1510000880
S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.FET S.FET S.FET S.FET S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.FET S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.FET S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR S.TRANSISTOR
2SC4211-6-TL DTC144EUA T106 DTA144EUA T106 XP1114 (TX) XP1114 (TX) XP1114 (TX) XP1114 (TX) 3SK228XR-TL 3SK228XR-TL 3SK228XR-TL 3SK228XR-TL 2SK2171-4-TD 3SK131-T2-LA 2SC5193-T1 2SC5193-T1 DTC114EUA T106 2SC5193-T1 2SC5193-T1 DTC114EUA T106 DTA114EUA T106 2SC4835-R (TX) DTA144EUA T106 2SK880-Y (TE85R) 2SK880-Y (TE85R) 2SC4117-BL (TE85R) 2SC4835-R (TX) 3SK131-T2-LA XP1114 (TX) 2SC4835-R (TX) DTC144EUA T106 2SC4117-BL (TE85R) 2SC5193-T1 2SC4835-R (TX) 2SK880-Y (TE85R) 2SC4117-BL (TE85R) 2SK882-GR (TE85L) DTC144EUA T106 2SC4211-6-TL XP4601 (TX) 2SK882-GR (TE85L) 2SC4211-6-TL DTC114EUA T106 2SC4211-6-TL 2SA1622-6-TL
D1 D2 D3 D4 D5 D6 D7 D8 D9 D10 D11 D12 D13 D14 D15 D16 D18 D19 D20 D21 D22 D23 D24 D25 D26 D27 D28 D29 D30 D31 D32 D33 D34 D35 D36 D37 D38 D39 D40 D41 D42 D43 D44 D46 D47 D48 D49 D50 D51 D53 D54 D56 D57 D58 D59 D60
1750000580 1750000580 1790000620 1750000580 1790000620 1790000620 1790000620 1790000620 1750000580 1750000580 1720000660 1720000660 1720000660 1720000660 1750000580 1750000580 1720000270 1720000270 1750000580 1750000580 1720000270 1720000500 1720000500 1750000580 1750000580 1720000500 1720000500 1720000500 1720000500 1720000500 1720000500 1750000580 1750000520 1750000580 1750000580 1790000620 1790000620 1750000580 1720000260 1750000580 1750000580 1720000260 1750000580 1790000620 1790000620 1720000500 1790000620 1790000620 1750000550 1750000550 1790000620 1750000630 1790000620 1790000620 1790000620 1790000620
S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.DIODE S.DIODE S.VARICAP S.VARICAP S.DIODE S.DIODE S.VARICAP S.VARICAP S.VARICAP S.DIODE S.DIODE S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.DIODE S.DIODE S.VARICAP S.DIODE S.DIODE S.DIODE S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE
1SV307 (TPH3) 1SV307 (TPH3) MA77 (TX) 1SV307 (TPH3) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) 1SV307 (TPH3) 1SV307 (TPH3) 1SV288 (TPH2) 1SV288 (TPH2) 1SV288 (TPH2) 1SV288 (TPH2) 1SV307 (TPH3) 1SV307 (TPH3) 1SV217 (TPH2) 1SV217 (TPH2) 1SV307 (TPH3) 1SV307 (TPH3) 1SV217 (TPH2) 1SV230 (TPH3) 1SV230 (TPH3) 1SV307 (TPH3) 1SV307 (TPH3) 1SV230 (TPH3) 1SV230 (TPH3) 1SV230 (TPH3) 1SV230 (TPH3) 1SV230 (TPH3) 1SV230 (TPH3) 1SV307 (TPH3) DAN222TL 1SV307 (TPH3) 1SV307 (TPH3) MA77 (TX) MA77 (TX) 1SV307 (TPH3) 1SV214 (TPH2) 1SV307 (TPH3) 1SV307 (TPH3) 1SV214 (TPH2) 1SV307 (TPH3) MA77 (TX) MA77 (TX) 1SV230 (TPH3) MA77 (TX) MA77 (TX) 1SS355 TE-17 1SS355 TE-17 MA77 (TX) HVU359TRF MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX)
S.=Surface mount
6-1
[MAIN UNIT]
REF NO.
D61 D62 D63 D64 D65 D68 D70 D72 D73 D74 D75 D77 D80 D81 D82 D83 D87 D88 D89 D90 D91 D92 D93 D94 D95 D96 D97 D98 D99 D100 D101 D102 D103 D104
[MAIN UNIT]
DESCRIPTION
S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.VARICAP S.VARICAP S.VARICAP S.DIODE S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.VARICAP S.DIODE S.VARICAP S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.DIODE S.ZENER S.DIODE S.DIODE S.DIODE DAN222TL 1SS355 TE-17 1SS372 (TE85R) 1SS355 TE-17 1SS355 TE-17 1SR154-400 TE25 1SS355 TE-17 1SV217 (TPH2) 1SV217 (TPH2) 1SV217 (TPH2) 1SV307 (TPH3) 1SV217 (TPH2) 1SV288 (TPH2) 1SV288 (TPH2) 1SV288 (TPH2) 1SV288 (TPH2) DAN222TL HVU359TRF 1SS372 (TE85R) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA77 (TX) MA8130-L (TX) 1SS355 TE-17 1SS355 TE-17 1SS355 TE-17
ORDER NO.
1750000520 1750000550 1790001560 1750000550 1750000550 1710000840 1750000550 1720000270 1720000270 1720000270 1750000580 1720000270 1720000660 1720000660 1720000660 1720000660 1750000520 1750000630 1790001560 1790000620 1790000620 1790000620 1790000620 1790000620 1790000620 1790000620 1790000620 1790000620 1790000620 1790000620 1730002540 1750000550 1750000550 1750000550
REF NO.
L32 L33 L34 L35 L36 L37 L38 L39 L40 L41 L42 L44 L45 L46 L47 L48 L49 L51 L52 L53 L54 L56 L58 L59 L60 L61 L63 L64 L65 L66 L67 L68 L69 L70 L71 L72 L73 L74 L75 L76 L77 L78 L79 L80 L81 L82 L83 L84 L85 L87 L90 L91 L92 L93 L95 L96 L102 L108 L110 L112 L124 L125 L126 L127 L128 L129 L130 L131 L138 L139 L141 L142 L143 L144 L145 L146 L147 L148 L149 L150 L152 L153
ORDER NO.
6200007070 6200007070 6200004770 6200005690 6200005690 6200007290 6200001620 6200005540 6200005690 6200005700 6200005700 6200001630 6200005650 6200005650 6200005700 6200005540 6200006980 6200005630 6200006770 6200005590 6200006980 6200005630 6200006980 6140000640 6200002240 6140001500 6200005740 6200005720 6200001620 6200005620 6200005650 6200001620 6200001620 6200005720 6200005680 6200005680 6200003300 6200006040 6200006070 6200006070 6200005700 6200003300 6200001630 6200006020 6200006040 6200006040 6200005660 6200001630 6200001620 6200007420 6200003950 6180002650 6200003520 6200007840 6200003950 6200003950 6200007410 6150004880 6200003230 6150004840 6200002520 6200006150 6200006140 6200002240 6200002240 6200005710 6200005720 6200005720 6200001620 6200006380 6200005690 6200005690 6200001620 6200001620 6200005500 6200005500 6200007420 6200005550 6200005550 6200005740 6200005680 6200005740 S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL COIL S.COIL COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL
DESCRIPTION
ELJND 15NKF ELJND 15NKF ELJNC R56J-F ELJRE 18NG-F ELJRE 18NG-F ELJND 56NJF ELJFC 1R0K-F ELJNC R47K-F ELJRE 18NG-F ELJRE 22NG-F ELJRE 22NG-F ELJNC R10K-F ELJRE 8N2Z-F ELJRE 8N2Z-F ELJRE 22NG-F ELJNC R47K-F ELJRE R10G-F ELJRE 5N6Z-F ELJRE 1N5Z-F ELJRE 2N7Z-F ELJRE R10G-F ELJRE 5N6Z-F ELJRE R10G-F LR-86 ELJFC 2R2K-F LR-171 ELJRE 47NG-F ELJRE 33NG-F ELJFC 1R0K-F ELJRE 4N7Z-F ELJRE 8N2Z-F ELJFC 1R0K-F ELJFC 1R0K-F ELJRE 33NG-F ELJRE 15NG-F ELJRE 15NG-F ELJNC R22K-F LQP11A 5N6C14 LQP11A 10NG14 LQP11A 10NG14 ELJRE 22NG-F ELJNC R22K-F ELJNC R10K-F LQP11A 3N9C14 LQP11A 5N6C14 LQP11A 5N6C14 ELJRE 10NG-F ELJNC R10K-F ELJFC 1R0K-F ELJFC 101K-F 100U HF50ACC 322513-T RCR-875D-472K ELJFB 102K-F LQN6C101M04 HF50ACC 322513-T HF50ACC 322513-T ELJFC 470K-F 47U LS-513 NL 322522T-181J LS-510 ELJNC R18K-F LQP21A 47NG14 LQP21A 39NG14 ELJFC 2R2K-F ELJFC 2R2K-F ELJRE 27NG-F ELJRE 33NG-F ELJRE 33NG-F ELJFC 1R0K-F ELJFC 150K 15U ELJRE 18NG-F ELJRE 18NG-F ELJFC 1R0K-F ELJFC 1R0K-F NL 322522T-471J NL 322522T-471J ELJFC 101K-F 100U ELJFC 100K-F ELJFC 100K-F ELJRE 47NG-F ELJRE 15NG-F ELJRE 47NG-F
FI1 FI2 FI3 FI6 FI7
2040001270 2020001440 2020001450 2020001460 2020001210
S.SAW CERAMIC CERAMIC CERAMIC CERAMIC
EFCH266MWNT1 SFE10.7MV SFT10.7MS2-A CFWS450HT CFWS450E
X1 X2 X3 X4 X5 X6
6050010600 6070000210 6060000710 6070000220 6050010590 6050009870
XTAL S.DISCRIMINATOR CERAMIC DISCRIMINATOR S.XTAL S.XTAL
CR-630 (10.250 MHz) CDBCA450CX24 CSB456F15 CDA10.7MG46-A CR-629 (12.8000 MHz) CR-567 (9.8304 MHz)
L1 L2 L3 L4 L5 L6 L7 L8 L9 L10 L11 L12 L13 L14 L15 L16 L17 L18 L19 L20 L21 L22 L23 L24 L25 L26 L27 L28 L29 L31
6200001920 6200002520 6200004900 6200004900 6200005500 6200005540 6200005200 6200007380 6200007830 6200003350 6200002920 6200005540 6200005540 6200003300 6200003350 6200005550 6200007820 6200001630 6200007340 6200007290 6200007280 6200002240 6200007290 6200007280 6200007300 6200005550 6200007280 6200007280 6200007280 6200007290
S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL
ELJNC R15K-F ELJNC R18K-F ELJFC 5R6K-F ELJFC 5R6K-F NL 322522T-471J ELJNC R47K-F ELJNC R68K-F ELJFC 8R2K-F ELJFC 4R7K-F ELJNC R27K-F ELJNC R33K-F ELJNC R47K-F ELJNC R47K-F ELJNC R22K-F ELJNC R27K-F ELJFC 100K-F ELJND R33J 0.33U ELJNC R10K-F ELJND R22J 0.22U ELJND 56NJF ELJND 47NJF ELJFC 2R2K-F ELJND 56NJF ELJND 47NJF ELJND 68NJF ELJFC 100K-F ELJND 47NJF ELJND 47NJF ELJND 47NJF ELJND 56NJF
S.=Surface mount 6-2
[MAIN UNIT]
REF NO.
L154 L155 L156 L157 L158 L160 L161 L162 L163 L167 L168 L169 L170 L171 L172 L173 L174 L176 L177 L178 L179 L180 L181
[MAIN UNIT]
DESCRIPTION
S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL S.COIL ELJRE 15NG-F ELJRE 15NG-F ELJRE 18NG-F ELJRE 18NG-F ELJRE 33NG-F ELJRE 22NG-F ELJFC 1R0K-F ELJFC 2R2K-F ELJRE 18NG-F ELJRE R10G-F ELJRE R10G-F NL 322522T-471J NL 322522T-471J NL 322522T-471J ELJNC R18K-F ELJRE 4N7Z-F ELJRE 3N3Z-F ELJRE 5N6Z-F ELJFC 220K-F ELJRE 5N6Z-F NL 322522T-471J ELJRE 22NG-F ELJRE 22NG-F MCR10EZHJ 390 (391) ERJ3GEYJ 102 V (1 k) MCR10EZHJ 56 (560) ERJ3GEYJ 103 V (10 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 102 V (1 k) MCR10EZHJ 1 (010) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 474 V (470 k) ERJ3GEYJ 560 V (56 ) ERJ3GEYJ 470 V (47 ) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 474 V (470 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 560 V (56 ) ERJ3GEYJ 470 V (47 ) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 474 V (470 k) ERJ3GEYJ 560 V (56 ) ERJ3GEYJ 470 V (47 ) ERJ3GEYJ 1R0 V (1 ) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 474 V (470 k) ERJ3GEYJ 560 V (56 ) ERJ3GEYJ 470 V (47 ) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 820 V (82 ) ERJ3GEYJ 1R0 V (1 ) ERJ8ENF 47R0V (47 ) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 100 V (10 ) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 273 V (27 k) ERJ3GEYJ 471 V (470 ) ERJ3GEYJ 681 V (680 ) ERJ3GEYJ 472 V (4.7 k) ERJ3GEYJ 100 V (10 ) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 152 V (1.5 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 180 V (18 ) ERJ3GEYJ 271 V (270 ) ERJ3GEYJ 271 V (270 )
ORDER NO.
6200005680 6200005680 6200005690 6200005690 6200005720 6200005700 6200001620 6200002240 6200005690 6200006980 6200006980 6200005500 6200005500 6200005500 6200002520 6200005620 6200005600 6200005630 6200002890 6200005630 6200005500 6200005700 6200005700
REF NO.
R96 R97 R98 R99 R100 R101 R102 R103 R104 R106 R108 R109 R110 R111 R112 R113 R114 R116 R122 R125 R126 R127 R128 R129 R130 R131 R132 R133 R134 R135 R136 R137 R138 R139 R140 R141 R145 R149 R150 R151 R152 R153 R154 R155 R156 R157 R158 R159 R160 R175 R176 R177 R179 R181 R182 R183 R184 R185 R197 R198 R199 R202 R204 R206 R207 R209 R219 R220 R221 R222 R223 R224 R225 R226 R227 R228 R229 R230 R231 R232 R233 R234
ORDER NO.
7030003440 7030003440 7030003460 7030003460 7030003440 7030003490 7030003490 7030003490 7030003400 7030003320 7030003480 7030003320 7030003320 7030003490 7030003490 7030003490 7030003380 7030003320 7030003360 7030003560 7030003640 7030003560 7030003580 7030003280 7030003560 7030003650 7030003360 7030003400 7030003600 7030003440 7030003440 7030003360 7030003280 7030003650 7030003500 7030003440 7030003440 7030003560 7030003560 7030003480 7030003320 7030003480 7030003480 7030003480 7030003320 7030003480 7030003480 7030003560 7030003560 7030003370 7030003500 7030003520 7030003520 7030003320 7030003610 7030004050 7030003520 7030003440 7030003680 7030003400 7030003400 7030003620 7030003400 7030003480 7030003480 7030003380 7030003520 7030003320 7030003640 7030003600 7030003520 7030003480 7030003320 7030003640 7030003600 7030003600 7030003640 7030003520 7030003460 7030003350 7030003700 7030003470 S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR
DESCRIPTION
ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ ERJ3GEYJ 102 V (1 k) 102 V (1 k) 152 V (1.5 k) 152 V (1.5 k) 102 V (1 k) 272 V (2.7 k) 272 V (2.7 k) 272 V (2.7 k) 471 V (470 ) 101 V (100 ) 222 V (2.2 k) 101 V (100 ) 101 V (100 ) 272 V (2.7 k) 272 V (2.7 k) 272 V (2.7 k) 331 V (330 ) 101 V (100 ) 221 V (220 ) 103 V (10 k) 473 V (47 k) 103 V (10 k) 153 V (15 k) 470 V (47 ) 103 V (10 k) 563 V (56 k) 221 V (220 ) 471 V (470 ) 223 V (22 k) 102 V (1 k) 102 V (1 k) 221 V (220 ) 470 V (47 ) 563 V (56 k) 332 V (3.3 k) 102 V (1 k) 102 V (1 k) 103 V (10 k) 103 V (10 k) 222 V (2.2 k) 101 V (100 ) 222 V (2.2 k) 222 V (2.2 k) 222 V (2.2 k) 101 V (100 ) 222 V (2.2 k) 222 V (2.2 k) 103 V (10 k) 103 V (10 k) 271 V (270 ) 332 V (3.3 k) 472 V (4.7 k) 472 V (4.7 k) 101 V (100 ) 273 V (27 k) 1R0 V (1 ) 472 V (4.7 k) 102 V (1 k) 104 V (100 k) 471 V (470 ) 471 V (470 ) 333 V (33 k) 471 V (470 ) 222 V (2.2 k) 222 V (2.2 k) 331 V (330 ) 472 V (4.7 k) 101 V (100 ) 473 V (47 k) 223 V (22 k) 472 V (4.7 k) 222 V (2.2 k) 101 V (100 ) 473 V (47 k) 223 V (22 k) 223 V (22 k) 473 V (47 k) 472 V (4.7 k) 152 V (1.5 k) 181 V (180 ) 154 V (150 k) 182 V (1.8 k)
R1 R2 R3 R5 R6 R8 R9 R14 R15 R17 R19 R20 R22 R23 R24 R26 R28 R29 R30 R33 R34 R35 R36 R38 R39 R43 R44 R45 R47 R48 R49 R50 R53 R54 R55 R57 R59 R72 R73 R74 R75 R76 R77 R79 R80 R81 R82 R83 R84 R87 R88 R89 R90 R92 R93 R94 R95
7030000330 7030003440 7030000230 7030003560 7030003440 7030003440 7030000020 7030003480 7030003480 7030003480 7030003480 7030003640 7030003640 7030003640 7030003760 7030003290 7030003280 7030003640 7030003440 7030003640 7030003760 7030003480 7030003290 7030003280 7030003640 7030003640 7030003760 7030003290 7030003280 7030004050 7030003640 7030003480 7030003640 7030003760 7030003290 7030003280 7030003640 7030003310 7030004050 7030007680 7030003480 7030003200 7030003320 7030003680 7030003610 7030003400 7030003420 7030003520 7030003200 7030003320 7030003440 7030003460 7030003440 7030003440 7030003230 7030003370 7030003370
S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR
S.=Surface mount 6-3
[MAIN UNIT]
REF NO.
R235 R240 R241 R242 R243 R245 R246 R247 R248 R249 R250 R251 R252 R253 R256 R257 R258 R259 R260 R261 R262 R263 R264 R266 R267 R268 R270 R271 R272 R274 R275 R277 R278 R279 R281 R282 R284 R285 R288 R289 R290 R291 R292 R293 R310 R311 R312 R313 R314 R315 R316 R319 R321 R328 R329 R330 R331 R332 R334 R335 R337 R345 R347 R349 R350 R351 R352 R353 R354 R355 R356 R357 R358 R359 R360 R361 R362 R363 R364 R365 R366 R367
[MAIN UNIT]
DESCRIPTION
S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR S.RESISTOR ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 222 V (2.2 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 103 V (10 k) ERJ3GEYJ 563 V (56 k) ERJ3GEYJ 392 V (3.9 k) ERJ3GEYJ 474 V (470 k) ERJ3GEYJ 154 V (150 k) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 223 V (22 k) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 472 V (4.7 k) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 223 V (22 k) ERJ3GEYJ 223 V (22 k) ERJ3GEYJ 223 V (22 k) ERJ3GEYJ 182 V (1.8 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 184 V (180 k) ERJ3GEYJ 221 V (220 ) ERJ3GEYJ 563 V (56 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 154 V (150 k) ERJ3GEYJ 333 V (33 k) ERJ3GEYJ 151 V (150 ) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 224 V (220 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 472 V (4.7 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 225 V (2.2 M) ERJ3GEYJ 472 V (4.7 k) ERJ3GEYJ 472 V (4.7 k) ERJ3GEYJ 223 V (22 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 103 V (10 k) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 823 V (82 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 333 V (33 k) ERJ3GEYJ 684 V (680 k) ERJ3GEYJ 123 V (12 k) ERJ3GEYJ 105 V (1 M) ERJ3GEYJ 225 V (2.2 M) ERJ3GEYJ 393 V (39 k) ERJ3GEYJ 153 V (15 k) ERJ3GEYJ 153 V (15 k) ERJ12YJ820H (82 ) ERJ1WYJ220H (22 ) ERJ1WYJ270H (27 ) ERJ8EN 1001V (1 k) ERJ3GEYJ 122 V (1.2 k) ERJ3GEYJ 472 V (4.7 k) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 104 V (100 k) ERJ3GEYJ 103 V (10 k) ERJ3GEYJ 393 V (39 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 153 V (15 k) ERJ3GEYJ 103 V (10 k) ERJ3GEYJ 103 V (10 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 333 V (33 k) ERJ3GEYJ 102 V (1 k) ERJ3GEYJ 473 V (47 k) ERJ3GEYJ 223 V (22 k) ERJ3GEYJ 152 V (1.5 k) ERJ3GEYJ 101 V (100 ) ERJ3GEYJ 1R0 V (1 ) ERJ3GEYJ 1R0 V (1 ) ERJ3GEYJ 184 V (180 k) ERJ3GEYJ 184 V (180 k) ERJ3GEYJ 105 V (1 M) ERJ3GEYJ 105 V (1 M) ERJ3GEYJ 184 V (180 k) ERJ3GEYJ 184 V (180 k)
ORDER NO.
7030003440 7030003480 7030003480 7030003640 7030003640 7030003560 7030003650 7030003510 7030003760 7030003700 7030003680 7030003320 7030003600 7030003680 7030003520 7030003680 7030003640 7030003600 7030003600 7030003600 7030003470 7030003440 7030003710 7030003360 7030003650 7030003640 7030003320 7030003680 7030003700 7030003620 7030003340 7030003320 7030003720 7030003440 7030003520 7030003440 7030003840 7030003520 7030003520 7030003600 7030003320 7030003560 7030003680 7030003670 7030003320 7030003620 7030003780 7030003570 7030003800 7030003840 7030003630 7030003580 7030003580 7030007990 7030006080 7030008380 7030007850 7030003450 7030003520 7030003680 7030003680 7030003560 7030003630 7030003320 7030003580 7030003560 7030003560 7030003320 7030003620 7030003440 7030003640 7030003600 7030003460 7030003320 7030004050 7030004050 7030003710 7030003710 7030003800 7030003800 7030003710 7030003710
REF NO.
R368 R369 R371 R375 R376 R377 R378 R380 R381 R382 R383 R384 R385 R386 R387 R388 R389 R390 R391 R392 R393 R395 R396 R397 R398 R399 R400 R401 R