SERVICE MANUAL VHF AIR BAND TRANSCEIVERS

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SERVICE MANUAL VHF AIR BAND TRANSCEIVERS S-20HZ-C May. 2005

INTRODUCTION This service manual describes the latest service information for the IC-A22/E and IC-A3/E VHF AIR BAND TRANSCEIVERS at the time of publication. 6 versions of the IC-A22/E and 5 versions of the IC-A3/E have been designed. This service manual covers each version. MODEL VERSION VERSION SYMBOL IC-A22 #0 U.S.A. USA #07 U.S.A. USA- #03 Europe EUR IC-A22E #0 Europe EUR- #05 Australia AUS #06 U.K. UK IC-A3 #0 U.S.A. USA #03 Europe EUR IC-A3E #0 Europe EUR- #05 Australia AUS #06 U.K. UK To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation. DANGER NEVER connect the transceiver to an AC outlet or to a DC power supply that uses more than 5 V. Such a connection could cause a fire or electric hazard. DO NOT expose the transceiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when connecting the transceiver. DO NOT apply an RF signal of more than 20 dbm (00 mw) to the antenna connector. This could damage the transceiver's front end. ING PARTS REPAIR NOTES Be sure to include the following four points when ordering replacement parts:. 0-digit order numbers 2. Component part number and name 3. Equipment model name and unit name. Quantity required <SAMPLE > 000360 IC SC303 IC-A22 RF unit 5 pieces 0000 Screw PH BT M2 29 ZK IC-A22 Chassis 0 pieces Addresses are provided on the inside back cover for your convenience.. Make sure the problem is internal before disassembling the transceiver. 2. DO NOT open the transceiver until the transceiver is disconnected from its power source. 3. DO NOT force any of the variable components. Turn them slowly and smoothly.. DO NOT short any circuits or electronic parts. An insulated turning tool MUST be used for all adjustments. 5. DO NOT keep power ON for a long time when the transceiver is defective. 6. DO NOT transmit power into a signal generator or a sweep generator. 7. ALWAYS connect a 0 db to 50 db attenuator between the transceiver and a deviation meter or spectrum analyzer when using such test equipment.. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver. Icom, Icom Inc. and logo are registered trademarks of Icom Incorporated (Japan) in the United States, the United Kingdom, Germany, France, Spain, Russia and/or other countries.

TABLE OF CONTENTS SECTION SPECIFICATIONS SECTION 2 INSIDE VIEWS SECTION 3 CIRCUIT 3 - RECEIVER CIRCUITS...............................................................3-3 - 2 TRANSMITTER CIRCUITS............................................................3-3 3-3 PLL CIRCUITS.....................................................................3-3 3 - POWER SUPPLY CIRCUITS...........................................................3-3 - 5 CPU PORT ALLOCATIONS...........................................................3 - SECTION ADJUSTMENT PROCEDURES - PLL AND TRANSMITTER ADJUSTMENTS............................................... - - 2 RECIEVER ADJUSTMENT............................................................ - 3 SECTION 5 PARTS LIST SECTION 6 MECHANICAL PARTS AND DISASSEMBLY SECTION 7 BLOCK DIAGRAM SECTION SEMICONDUCTOR INFORMATION SECTION 9 BOARD LAYOUTS 9 - PLL UNIT..........................................................................9-9 - 2 PRT UNIT.........................................................................9-9 - 3 VCO BOARD.......................................................................9-9 - RF UNIT...........................................................................9-2 9-5 MAIN UNIT........................................................................9-9 - 6 LOGIC UNIT [IC-A22/E]...............................................................9-6 9-7 LOGIC UNIT [IC-A3/E]................................................................9 - SECTION 0 VOLTAGE DIAGRAMS 0 - MAIN UNIT.......................................................................0-0 - 2 RF UNIT (inc. PRT UNIT and VCO BOARD).............................................0-2 0-3 LOGIC UNIT (inc. PTT UNIT).........................................................0-3

SECTION SPECIFICATIONS M GENERAL Frequency coverage (Unit; MHz) : IC-A22 IC-A22E IC-A3 IC-A3E TX Communications.000 36.975.000 36.975.000 36.975.000 36.975 Communications.000 36.975.000 36.975.000 36.975.000 36.975 RX Navigation 0.000 7.975 0.000 7.975 Weather 6.650 63.275 6.650 63.275 Mode : Tx/Rx AM (6K00A3E) Rx FM (6K0G3E; for weather channel/u.s.a versions only) Number of memory channels : 50 Channel spacing : 25 khz Frequency stability : ±20 ppm ( 0ºC to +50ºC; ºF to +22ºF) Antenna impedance : 50 Ω (Nominal) Power supply requirement : 2 5 V DC (negative ground) Operating temperature range : 0ºC to +50ºC; ºF to +22ºF Current drain : Transmitting.0 A typical (at 2 V DC ; approx.) Receiving (max. audio) 00 ma max. (stand-by) 55 ma typical Dimensions : 57 (W) 53 (H) 35 (D) mm; 2 / (W) 6 /32 (H) 3 / (D) in (Projections not included, battery pack included) Weight (Approx.) : 65 g (6 3 /32 oz) with battery pack and anntena M TRANSMITTER Output power (at 2 V DC)* Modulation Microphone impedance Spurious emissions* : 5.0 W typical (PEP power).5 W typical (Carrier power) : Low level modulation : 50 Ω : Less than 60 db M RECEIVER Receive system : Double conversion superheterodyne system Intermediate frequencies : st; 35. MHz, 2nd; 55 khz Sensitivity* : AM; Less than µv at 6 db S/N (with khz, 30% modulation) FM; Less than µv at 2 db SINAD (with khz, 70% modulation) Squelch sensitivity* : Less than 6.3 µv Selectivity* : More than khz/ 6 db Less than 25 khz/ 60 db Spurious response rejection* : Less than 60 db Hum and Noise : Less than 25 db Audio output power* (at 2 V DC) : More than 600 mw at 0% distortion with an Ω load Audio output impedance : Ω *Specifications guaranteed at a transceiver temperature of +25ºC (+77ºF). All stated specifications are subject to change without notice or obligation. -

SECTION 2 INSIDE VIEWS RF UNIT MAIN UNIT (BOTTOM) Rx amplifier (Q00: 3SK230) located under this side Rx BPF's st IF filters FI00: FL-22 [IC-A22/E] FL-203 [IC-A3/E] VCO board RF power amplifier (IC002: SC-303) PLL reference oscillator 2. MHz (X00: CR-56) Reference regulator (IC5006: S-250SG) AF power regulator (Q5006: 2SB20) FM IF IC (IC500: TA336F) AF selector (IC5002: TCW53F) Buffer amplifier/lpf (IC5005: TC75W5FU) PRT unit MAIN UNIT (TOP) LOGIC UNIT Reset IC (IC6003: S-075SL) AF power amplifier (IC5003: TA736P) 2nd IF filter (FI500: CFWS55D) CPU IC600: HD029B96TF except [IC-A3] HD0729TF [IC-A3] only Initial matrix CPU system clock 3.97 MHz (X600: CR-33) 2nd local oscillator 35.35 MHz (X500: CR-5) Discriminator (X5002: CDBM55C2) VOR circuit [IC-A22/E] only ALC amplifier (IC500: BA330F) 2 -

SECTION 3 CIRCUIT 3- RECEIVER CIRCUITS 3-- ANTENNA SWITCHING CIRCUIT (RF UNIT) The antenna switching circuit functions as a low-pass fi lter while receiving and a resonator circuit while transmitting. The circuit does not allow transmit signals to enter receiver circuits. Received signals enter the RF unit from the antenna connector (J300), and then pass through the low-pass fi lter (L00 L003, C00 C005) to suppress out-of-band signals. The fi ltered signals are passed through the λ / type antenna switching circuit (D00 D003) with a low-pass fi lter (L00, L005), and are then applied to the RF circuit. 3--2 RF CIRCUIT (RF UNIT) The signals from the antenna switching circuit are passed through the tunable bandpass fi lter (D006, D007, L00, L009) and amplified at the RF amplifier (Q00). The amplified signals are passed through the bandpass filter (D00, D009, L00, L0) again, and applied to the st mixer circuit. D006 D009 are varactor diodes and are controlled by the PLL lock voltage. The voltage is buffer-amplified at Q0 and is then applied to the varactor diodes. These varactor diodes tune the center frequency of an RF passband for wide bandwidth receiving and good image response rejection. For weather channel receiving, the tune voltage control circuit (Q07, Q09) supplies the bias voltage. 3--3 ST MIXER AND ST IF CIRCUITS (RF UNIT) The signals from the bandpass fi lter are mixed with a st LO signal from the VCO board, and are converted to a 35. MHz st IF signal. The st IF signal is applied to a pair of crystal fi lters (FI00) to suppress out-of-band signals, and is then amplifi ed at the st IF amplifi er (Q003). 3-- 2ND MIXER AND 2ND IF CIRCUITS (MAIN UNIT) The 2nd mixer circuit converts the st IF signal to a 2nd IF signal. A double-conversion superheterodyne system improves the image rejection ratio and obtains stable receiver gain. The st IF signal from the RF unit is applied to a 2nd mixer section of IC500 (pin 6). The signal is then mixed with a 2nd LO signal for conversion to a 55 khz 2nd IF signal. IC500 contains the 2nd mixer, local oscillator, limiter amplifier and quadrature detector. The local oscillator section generates 35.35 MHz using X500. The 2nd IF signal from the 2nd mixer (IC500, pin 3) passes through the ceramic filter (FI500) to remove unwanted heterodyned frequencies. It is then amplified at the 2nd IF amplifi er (Q5002). 3--5 AM DETECTOR CIRCUIT (MAIN UNIT) The AM detector circuit demodulates an AM signal on the communication band or navigation band. The 2nd IF signal from Q5002 is amplifi ed at IF amplifi ers (Q5003, Q5030) again, and applied to the AM detector (Q500). It is then detected for conversion to an AF signal. 3--6 FM DETECTOR CIRCUIT (MAIN UNIT) The FM detector circuit demodulates an FM signal for weather channel receiving. When receiving a weather channel, the 2nd IF signal from Q5002 is applied to the limiter amplifier section (IC500, pin 5). To demodulate into AF signals, the 2nd IF signal is then applied to the quadrature detector section (IC500, pins 0, ) and the discriminator (X5002). The AF signal (detector signal) is output from the FM IF IC (IC500, pin 9). 3--7 SQUELCH CIRCUIT (MAIN UNIT) The squelch circuit cuts out AF signals when no RF signal is received. A portion of the 2nd IF signal (from Q5002) is applied to the limiter amplifier section (IC500, pin 5). Then the FM IF IC (IC500) outputs a detected (IF level) signal from pin 2. This signal is applied to the comparator (IC5007), and is then compared with preset squelch voltage. Output from the comparator is applied to the AF selector (IC5002) as an "SQL" signal, and controls the AF signal line. BLOCK DIAGRAM OF RECEIVER CIRCUIT IN THE RF UNIT To MAIN unit IC500 pin 6 IF amp. Q003 FI00 st IF filter st mixer Q002 D00, D009 BPF RF amp. Q00 D006, D007 BPF D00 D003 Antenna switch LPF [ANT] From AGC From VCO through TX/RX switch From BPF control From RF-AGC 3 -

3-- AF CIRCUIT (MAIN UNIT) The AF circuit drives the speaker. AF signals from the detector circuit are selected at the AF selector (IC5002), and are passed through the AF filter (Q5026, Q5005) and volume control (R502). The signals are amplifi ed at the AF power amplifi er (IC5003) to a level needed to drive the speaker (SP300). 3--9 AGC CIRCUIT (MAIN UNIT) The AGC (Automatic Gain Control) circuit reduces signal fading and keeps the audio output level constant. AF signals from the AM detector circuit (Q500) are converted into DC voltage at integral circuits (R5030/C5026, R505/C5025), and are then applied to inversion amplifi ers (Q500/Q503). These amplifiers reduce the amplifier gain of IF amplifiers (Q5002, Q5003, Q003) and the RF amplifi er (Q00) while receiving a strong signal. 3--0 VOR CIRCUIT (LOGIC UNIT) [IC-A22/E only] The VOR circuit detects a variable signal (VORC) and reference signal (VORS) from a VOR station. The VOR circuit sends these signals to the CPU (IC600). When the transceiver is set in the navigation band (0.000 7.975 MHz), the NAV port (IC600, pin 3) becomes HIGH turning the VOR circuit ON via Q60. Q60 controls a 5 V power source for the VOR circuit. The signal from the AM detector (DETO) is buffer amplifi ed at the buffer amplifi er (IC605b). The 9960 Hz component passes through the 0 khz bandpass filter (IC605c). These components are FM modulated with 0 Hz deviation and 30 Hz modulation. Signals are then amplifi ed at a limiter amplifi er (IC606a), and detected at an FM detector (IC606b) to obtain a 30 Hz reference signal. The 30 Hz signal is compensated on phase at IC607a. This signal is passed through the 30 Hz low-pass fi lter (IC607b) and is converted to a square-wave signal at the VORS comparator (IC60b). This signal is applied to IC600 (pin 27) as a reference signal (VORS). A portion of output from IC605c is applied to the VOR sensor (Q609, Q60). When VOR signal level is low, the output from IC605c is reduced. Q60 cannot be turned ON, then IC600 (pin 29) receives HIGH to indicate OFF FLAG indicator. 3-- ANL CIRCUIT (MAIN UNIT) The ANL (Automatic Noise Limiter) circuit (D5003, Q500, R505 R50) reduces pulse noises. The AM detector output signal (DETO) from Q500 is applied to the cathode of D5003 passing through R505 where it is divided by R505 and R506. The DETO signal is also applied to the anode of D5003, passing through R507 and R50. When the ANL function is activated (Q500 is ON), C502 is grounded. The detector output, including pulse noise, is applied to the cathode of D5003 only. If pulse noises are received, the cathode voltage of D5003 becomes higher than the anode voltage and D5003 turns OFF. Thus, while pulse noises are received, the detected signal is not applied to IC5002. The DETO signal includes 30 Hz variable phase components and 9960 Hz reference phase components. The 30 Hz component passes through the 30 Hz bandpass fi lter (IC605d), and is converted to a square-wave signal at the VORC comparator (IC60a). The square-wave signal is then applied to IC600 (pin 2) as a variable signal (VORC). ANL CIRCUIT To IC5002 Q500 + C502 D5003 R50 00 k R507 330 k R505 220 k R506 00 k AF signal from Q500 VOR CIRCUIT BLOCK DIAGRAM VORC to IC600 pin 2 VORS to IC600 pin 27 Comparator IC60a Comparator IC60b LPF IC607b Phase shift IC607a FM detector IC606b Limiter amp. IC606a BPF IC605d 30 Hz BPF IC605c Buffer amp. IC605b DETO VORO to IC600 pin 29 30 Hz Inversion amp. Q60 VOR sensor Q609, D60 0 khz 3-2

3-2 TRANSMITTER CIRCUITS 3-2- MICROPHONE AMPLIFIER CIRCUIT (MAIN UNIT) AF signals from the microphone or from the [MIC] jack are applied to the ALC amplifi er (IC500, pin 9) through R507. R507 adjusts the microphone input level. The output signal from IC500 (pin 7) are amplified at the buffer amplifi er (lc5005b) and low-pass fi lter (IC5005a). The signal (MOD) is applied to the AM modulator (D02) on the RF unit. When using a headset, the SIDET signal from Q020 becomes HIGH, turning IC500 ON. Then a portion of amplified signal from IC5005b is applied to the AF power amplifi er (IC5003) as a monitor signal. 3-2-2 MODULATION CIRCUIT (RF UNIT) Using the MOD signal from the microphone amplifi er circuit, the modulation circuit modulates Tx LO signal from the VCO. During transmission, the LO signal from the VCO board is output through buffer amplifiers (Q00, Q005) and Tx/Rx switch (D00). This signal is then applied to the AM modulator (D02). Q006 amplifi es the LO signal with a gain controlled by an AF signal (MOD) to make low level modulation. 3-2-3 DRIVE/POWER AMPLIFIER CIRCUITS (RF UNIT) The modulated RF signal from Q006 is amplified by the pre-drive amplifi er (Q007) and the power amplifi er (IC002) in sequence to obtain 5 W (at 2 V DC) of transmit output power. The amplifi ed signal is passed through the antenna switching circuit (D003) and low-pass fi lter (L00 L003, C00 C005) and is then applied to the antenna connector (J300). 3-2- APC CIRCUIT (MAIN UNIT) The APC circuit protects the power amplifi er (IC002) from a mismatched output load. The APC detector circuit (D005, D00, L006) detects forward signals and rectified signals at D005 and D00 respectively. The combined voltage is at a minimum level when the antenna is matched at 50 Ω, and is increased when it is mismatched. The detected voltage is applied to one of the differential amplifier input (Q00) and a power setting voltage is applied to the other input. When the antenna impedance is mismatched, the detected voltage exceeds the APC output current via Q0 to decrease the output power. The current of the APC attenuator (D03) is controlled by the APC circuit to protect the power amplifier from a mismatched condition as well as stabilize the output power. 3-3 PLL CIRCUITS 3-3- GENERAL (RF UNIT) A PLL circuit provides stable oscillation of the transmitting frequency and the receiving frequency. The PLL output frequency is controlled by the divided ratio (N-data) of the programmable divider. 3-3-2 VCO CIRCUIT (VCO BOARD) The VCO (Q700, Q7002, D700) employs an oscillation circuit. Frequency shifting for transmitting (or weather channel receiving) and receiving is performed by changing the bias voltage of D7002. LO signals generated by the VCO are amplifi ed at the buffer amplifier (Q7003), and are then applied to the st mixer (Q002) or AM modulator (D02) through buffer amplifi ers (Q00, Q005) and Tx/Rx switch (D00, D02). Signals from Q7003 are also applied to the PLL IC (IC00) through a buffer amplifi er (Q05). 3-3-3 PROGRAMMABLE DIVIDER (RF UNIT) Signals from Q05 are input into the PLL IC (IC00, pin 2), and divided N times at the programmable divider section. The divided signals are detected on phase at the phase detector section using the reference frequency. The output signal from the phase detector is passed through the charge pump, and is output from pin. The output signal (error pulse) from pin passes through a loop fi lter (R06, R065, C02, C0) and changes DC voltage. This signal is applied to the VCO board as the PLL lock voltage (LV). The output signal from pin is also applied to the BPF control circuit (Q0, D09) to change the center frequency of the receiver bandpass fi lters. APC CIRCUIT RF signal from buffer amp. APC attenuator D03 Pre-drive amp. Reference voltage Q0 Q007 Current controller Power amp. IC002 D005 T +5 Differential amp. Q00 L006 To antenna D00 PLL CIRCUIT BLOCK DIAGRAM Q0 Data from the CPU PLL IC IC00 BPF control Loop filter Buffer amp. Q05 2 5 6 X00 2. MHz LV To Rx BPF (D006 D009) VCO Q700, Q7002 VCO board Buffer amp. Q00, Q005 D7002 Shift control Buffer amp. From the CPU SHIFT Q7003 OUT To st mixer (Q002) or AM modulator (D02) through Tx/Rx switch (D00, D02) 3-3

3- POWER SUPPLY CIRCUITS LINE HV +5 R5 T+5 PIN Voltage line from the attached battery pack or the [DC 2V] jack. The same voltage as the HV line which is controlled by [POWER] switch (R5052). Common 5 V converted from the line by the regulator circuit (Q50, Q505, D5005) using the reference regulator (IC5006) on the MAIN unit. Common 5 V converted from the line by the +5 regulator circuit (Q506, Q507, D5006) using line as the reference voltage. 5 V for receiver circuit converted from the line by the R5 regulator circuit (Q50, Q509, Q5020, D5007). R5 is controlled by Q50 using TRC signal from the CPU(IC600). 5 V for transmitter circuit controlled by the TMUT signal from the CPU (IC600). T+5 regulator circuit is located on the RF unit and consists of Q02, Q03 and D06. 3-5 CPU PORT ALLOCATIONS PORT NAME 2 LBATT 3 SQL LOK Input port for detecting the connected battery (or external DC input) voltage for "LOW BATT" or "OVER V" indication. Input port for the squelch condition. When squelch open: Low Input port for the PLL condition. When PLL in unlocked: High CLK Outputs a clock signal to the PLL IC (IC00). 5 DATA Outputs N-data to the PLL IC. 6 ENB Outputs a strobe signal to the PLL IC. 7 SCL Outputs a clock signal to the EEPROM (IC6002). SDA Outputs data to the EEPROM. 9 UP Input port for the tuning dial "UP" clock. 20 DOWN Input port for the tuning dial "DOWN" clock. 2 LIGHT Outputs a backlit control signal for the LCD and keypad. High: for lighting 22 BEEP Outputs beep signals. 23 CLONE Outputs clone data. 2 PTT Input port for the PTT switch. When PTT is pushed: High 25 CLONE Input port for the clone reading. 26 BACK UP Input port for the CPU backup signal. 27 VORS* Input port for the VOR reference signal. 2 VORC* Input port for the VOR variable signal. 29 VORO* Input port for the VOR level signal. PIN 30 33 3 37 3 PORT NAME R0 R3 Output ports for the key matrix. R20 R30 Input port for the key matrix. R3 R33 Input port for the initial matrix. 2 WX 3 NAV* ANL 6 AFON Outputs the WX control signal. High: when a WX channel is selected. Outputs the navigation channel signal. High: when a NAV channel is selected. Outputs the ANL signal. High: to activate the ANL function Outputs the AF power amplifier control signal. High: to activate the amplifi er 7 TRC Outputs a Tx/Rx control signal. High: for Tx TMUT Outputs a Tx mute signal. Low: for muting Outputs a "shift" signal for VCO oscillating 9 SHIFT frequency. Note: * for IC-A22/E only 3 -

SECTION ADJUSTMENT PROCEDURES - PLL AND TRANSMITTER ADJUSTMENTS ADJUSTMENT TUNE VOLTAGE REFERENCE FREQUENCY POWER MODULATION SIDE TONE ADJUSTMENT CONDITIONS Displayed frequency :.025 MHz Receiving Displayed frequency : 36.975 MHz Connect the RF power meter or a 50 Ω dummy load to the antenna connector. Transmitting Displayed frequency :.025 MHz Apply no AF signal to the [MIC] jack. Transmitting Displayed frequency : 36.975 MHz R507, R509 : Center Connect the AG to the [MIC] jack and set as; Frequency : khz Level : 200 mv Transmitting 2 Set the AG as; Level : 20 mv Connect the AG to the [MIC] jack and set as; Frequency : khz Level : 200 mv Transmitting ADJUSTMENT MEASUREMENT VALUE POINT UNIT LOCATION UNIT ADJUST RF Top pannel Top pannel Top pannel Top pannel Connect the digital multimeter or oscilloscope to CP2 (TUNE). Loosely couple the frequency counter to the antenna connector. Connect the RF power meter to the antenna connector. Connect the modulation analyzer to the antenna connector via an attenuator. Connect the AC millivoltmeter with an Ω dummy load to the [SP] jack...6 V RF R06 36.975000 MHz ±00 Hz.5 W (Carrier power) RF RF C0 R057 5% MAIN R509 30% MAIN R507 20 mw (0. V) MAIN R507 -

RF UNIT RF POWER METER 50 Ω/ 0 W ATTENUATOR 0 or 50 db MODULATION ANALYZER FREQUENCY COUNTER to [ANT] to [SP] DUMMY LOAD Ω to [MIC] AC MILLIVOLTMETER AUDIO GENERATOR 300 3000 Hz R057 Power adjustment CP2 R06 Tune voltage check point Tune voltage adjustment to [DC 2V] C0 Reference frequency adjustment DC POWER SUPPLY 2 V/2 A or more MAIN UNIT R507 R507 Modulation adjustment R509-2

-2 RECEIVER ADJUSTMENT ADJUSTMENT SENSITIVITY WEATHER CHANNEL SENSITIVITY (USA version only) SQUELCH VOR (IC-A22/E only) 2 ADJUSTMENT CONDITIONS Displayed frequency :.025 MHz Connect the SSG to the antenna connector and set as; Frequency Level :.025 MHz : 0 dbµ* ( 07 dbm) Modulation : AM, khz, 30% Receiving Displayed frequency Set the SSG as; Frequency FM deviation Modulation Receiving : 36.975 MHz : 36.975 MHz Displayed frequency : 62.550 MHz Weather ch. : 0 Connect the SSG to the antenna connector and set as; Frequency Level Receiving : 62.550 MHz : 0.56 µv* ( 2 dbm) : ±3.5 khz : khz Displayed frequency :.025 MHz Connect the SSG to the antenna connector and set as; Frequency :.025 MHz Level : 2.0 µv* ( 0 dbm) Modulation : AM, khz, 30% [SQL] control : Max.counterclockwise While pushing [] and [9], turn power ON to enter the VOR setting mode. Displayed frequency : 3.000 MHz Connect the SSG to the antenna connector and set as; Frequency : 3.000 MHz Level : 0.22 mv* ( 60 dbm) ADJUSTMENT MEASUREMENT VALUE POINT UNIT LOCATION UNIT ADJUST Top pannel Top pannel Top pannel Top pannel Connect the AC millivoltmeter with an Ω dummy load to the [SP] jack. Connect the distortion meter to the [SP] jack. Speaker Maximum audio output Minimum distortion Squelch just closes RF L00 L0 (Repeat two times) RF MAIN R06, L02 R067 R5 Function display "FROM, 90 " ±3 LOGIC R65 Modulation : 9960 Hz, 30% 30 Hz, 30% 2 Bearing R650 Receiving : "FROM, 90 " : Center "FROM, 90 " R650 3 set the SSG as; Level : 7. µv* ( 90 dbm) Modulation : 9960 Hz, 0% [#06] only 9960 Hz, 5% Except [#06] 30 Hz, 30% *This output level of the standard signal generator (SSG) is indicated as SSG's open circuit. Course indicator just appears. R635-3

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SECTION 5 PARTS LIST IC-A22/E [RF UNIT] REF IC00 3000760 S.IC µpd30gs-e (DS) IC002 000360 IC M672/SC303 Q00 50000650 S.FET 3SK230-T2 UB Q002 5000000 S.FET 3SK5-Y (TE5L) Q003 530002600 S.TR 2SC25-O (TE5R) Q00 530002560 S.TR 2SC03-3-TL Q005 530002560 S.TR 2SC03-3-TL Q006 530002560 S.TR 2SC03-3-TL Q007 53000330 S.TR 2SC3357-T RF Q00 5900060 S.TR XP0-(TX) AB Q0 590003270 S.TR UNR920J-(TX) Q02 53000320 S.TR 2SC2-6-TL Q03 52000060 S.TR 2SB32 T00 R Q0 53000320 S.TR 2SC2-6-TL Q05 530002560 S.TR 2SC03-3-TL Q06 590003270 S.TR UNR920J-(TX) Q07 5900030 S.TR UNR90J-(TX) Q0 59000650 S.TR XP60 (TX) Q09 590003270 S.TR UNR920J-(TX) Q020 59000650 S.TR XP60 (TX) Q02 53000250 S.TR 2SC6-BL (TE5R) D00 D002 D003 D00 D005 D006 D007 D00 D009 D00 D02 D03 D06 D07 D0 D09 D020 D02 D022 D025 790000620 S.DIO MA77 (TX) 790000620 S.DIO MA77 (TX) 790000620 S.DIO MA77 (TX) 790000660 S.DIO MA72 (TX) 790000660 S.DIO MA72 (TX) 79000290 S.VCP MA30 (TX) 79000290 S.VCP MA30 (TX) 79000290 S.VCP MA30 (TX) 79000290 S.VCP MA30 (TX) 790000620 S.DIO MA77 (TX) 75000060 S.DIO SV26-TL 75000060 S.DIO SV26-TL 7900020 S.DIO MA (TX) 730002300 S.ZEN MA02-M (TX) 79000050 S.DIO MA32WK (TX) 79000060 S.DIO MA33 (TX) 79000030 S.DIO SB30-03P-TD 790000620 S.DIO MA77 (TX) 79000330 S.ZEN MA036-L (TX) 79000030 S.DIO SB30-03P-TD FI00 2000030 FIL FL-22 (35.00000 MHz) X00 605000730 XTL CR-56 L00 620000220 S.COL LQW3HN7NJ0L L002 6200002390 S.COL LQW3HN6NJ0L L003 6200002390 S.COL LQW3HN6NJ0L L00 620000230 S.COL LQW3HN56NJ0L L005 620000220 S.COL LQW3HN7NJ0L L006 620000230 S.COL LQW3HN56NJ0L L007 620000520 S.COL MLF202D R2K-T L00 6300070 COL LB-70 L009 63000750 COL LB-72 L00 63000250 COL LB-326 L0 63000750 COL LB-72 L02 65000390 S.COL LS-92 L0 620000920 S.COL ELJNC R5K-F L05 620000920 S.COL ELJNC R5K-F L06 620000630 S.COL ELJNC R0K-F L07 6200002390 S.COL LQW3HN6NJ0L L025 620000290 S.COL MLF202A R7K-T L027 620000290 S.COL MLF202A R7K-T L02 6200003550 S.COL MLF60A R7K-T [RF UNIT] REF R00 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R0 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R02 703000320 S.RES ERJ3GEYJ 70 V (7 Ω) R03 703000320 S.RES ERJ3GEYJ 70 V (7 Ω) R0 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R05 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R06 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) [AUS], [UK], [USA-] only R07 7030003670 S.RES ERJ3GEYJ 23 V (2 kω) R0 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R09 7030003200 S.RES ERJ3GEYJ 00 V (0 Ω) R020 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R02 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R022 70300030 S.RES ERJ3GEYJ 56 V (560 Ω) R023 7030003770 S.RES ERJ3GEYJ 56 V (560 kω) [AUS], [UK], [USA-] only R02 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R025 7030003500 S.RES ERJ3GEYJ 332 V (3.3 kω) R027 7030003220 S.RES ERJ3GEYJ 50 V (5 Ω) R02 7030003220 S.RES ERJ3GEYJ 50 V (5 Ω) R029 703000360 S.RES ERJ3GEYJ 52 V (.5 kω) R030 703000360 S.RES ERJ3GEYJ 273 V (27 kω) R03 703000330 S.RES ERJ3GEYJ 5 V (50 Ω) R032 703000360 S.RES ERJ3GEYJ 273 V (27 kω) R033 703000330 S.RES ERJ3GEYJ 5 V (50 Ω) R03 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R035 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R036 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R037 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R039 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R00 703000350 S.RES ERJ3GEYJ 53 V (5 kω) R0 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R02 70300030 S.RES ERJ3GEYJ 02 V ( kω) R03 70300030 S.RES ERJ3GEYJ 02 V ( kω) R0 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R05 70300030 S.RES ERJ3GEYJ 02 V ( kω) R07 7030003290 S.RES ERJ3GEYJ 560 V (56 Ω) R05 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R056 7030003660 S.RES ERJ3GEYJ 63 V (6 kω) R057 73000660 S.TRI EVM-2WSX0 B5 (503) R05 7030003600 S.RES ERJ3GEYJ 223 V (22 kω) R059 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R060 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R06 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) R06 70300030 S.RES ERJ3GEYJ 02 V ( kω) R065 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R066 70300030 S.RES ERJ3GEYJ 02 V ( kω) R067 73000530 S.TRI EVM-2WSX0 B (03) R06 73000530 S.TRI EVM-2WSX0 B (03) R069 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R070 703000320 S.RES ERJ3GEYJ 6 V (60 Ω) R07 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R072 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R073 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R079 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R00 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) R0 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R06 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R07 7030003330 S.RES ERJ3GEYJ 2 V (20 Ω) R0 7030003330 S.RES ERJ3GEYJ 2 V (20 Ω) R09 7030003290 S.RES ERJ3GEYJ 560 V (56 Ω) R090 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R09 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R092 703000330 S.RES ERJ3GEYJ 2 V (20 Ω) R093 7030003300 S.RES ERJ3GEYJ 60 V (6 Ω) R09 7030003300 S.RES ERJ3GEYJ 60 V (6 Ω) R095 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R096 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R097 7030003770 S.RES ERJ3GEYJ 56 V (560 kω) R09 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R099 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R00 703000320 S.RES ERJ3GEYJ 70 V (7 Ω) R0 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R02 7030003770 S.RES ERJ3GEYJ 56 V (560 kω) R03 703000300 S.RES ERJ3GEYJ 05 V ( MΩ) [AUS], [UK], [USA-] only R00 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R00 7030003370 S.RES ERJ3GEYJ 27 V (270 Ω) R005 7030003370 S.RES ERJ3GEYJ 27 V (270 Ω) R006 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R007 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R00 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R009 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) C00 C002 C003 C00 C005 C006 030007050 S.CER C60 CH H 220J-T 03000690 S.CER C60 CH H 070D-T 03000560 S.CER C60 CH H 300J-T 03000690 S.CER C60 CH H 030C-T 03000700 S.CER C60 CH H 0J-T 03000660 S.CER C60 JB H 02K-T S.=Surface mount 5 -

[RF UNIT] REF C007 030007050 S.CER C60 CH H 220J-T C00 03000700 S.CER C60 CH H 390J-T C009 030007030 S.CER C60 CH H 50J-T C00 03000660 S.CER C60 JB H 02K-T C0 03000660 S.CER C60 JB H 02K-T C02 030007030 S.CER C60 CH H 50J-T C03 030007030 S.CER C60 CH H 50J-T C0 03000660 S.CER C60 JB H 02K-T C05 03000660 S.CER C60 JB H 02K-T C06 03000660 S.CER C60 JB H 02K-T C07 030006950 S.CER C60 CH H 00C-T C0 0300070 S.CER C60 CH H 60J-T C09 03000660 S.CER C60 JB H 02K-T C020 0300070 S.CER C60 CH H 60J-T C023 03000660 S.CER C60 JB H 02K-T C02 03000660 S.CER C60 JB H 02K-T C025 03000660 S.CER C60 JB H 02K-T C027 0300070 S.CER C60 CH H 60J-T C02 03000660 S.CER C60 JB H 02K-T C029 0300070 S.CER C60 CH H 60J-T C03 03000660 S.CER C60 JB H 02K-T C032 03000660 S.CER C60 JB H 02K-T C033 03000700 S.CER C60 CH H 390J-T C03 03000660 S.CER C60 JB H 02K-T C036 03000690 S.CER C60 CH H 070D-T C037 030006900 S.CER C60 JB H 03K-T C03 030006900 S.CER C60 JB H 03K-T C039 03000660 S.CER C60 JB H 02K-T C00 030006900 S.CER C60 JB H 03K-T C02 03000660 S.CER C60 JB H 02K-T C03 03000660 S.CER C60 JB H 02K-T C0 03000660 S.CER C60 JB H 02K-T C05 03000700 S.CER C60 CH H 0J-T C06 03000660 S.CER C60 JB H 02K-T C07 030007050 S.CER C60 CH H 220J-T C0 03000660 S.CER C60 JB H 02K-T C09 03000660 S.CER C60 JB H 02K-T C050 03000660 S.CER C60 JB H 02K-T C05 03000660 S.CER C60 JB H 02K-T C053 03000660 S.CER C60 JB H 02K-T C05 030006990 S.CER C60 CH H 00D-T C055 03000660 S.CER C60 JB H 02K-T C056 03000660 S.CER C60 JB H 02K-T C057 03000660 S.CER C60 JB H 02K-T C05 03000660 S.CER C60 JB H 02K-T C059 03000700 S.CER C60 CH H 390J-T C07 5000630 S.ELE ECEVCA00SR C00 5000560 S.ELE ECEVHA2R2SR C090 03000660 S.CER C60 JB H 02K-T C092 03000660 S.CER C60 JB H 02K-T C093 03000660 S.CER C60 JB H 02K-T C09 5000630 S.ELE ECEVCA00SR C095 03000660 S.CER C60 JB H 02K-T C096 03000660 S.CER C60 JB H 02K-T C097 03000660 S.CER C60 JB H 02K-T C09 03000660 S.CER C60 JB H 02K-T C099 03000700 S.CER C60 CH H 390J-T C00 030007000 S.CER C60 CH H 090D-T C0 6000200 S.TRI ECR-KN00 C6X C02 55000650 S.TAN ECSTCY05R C0 550006360 S.TAN ECSTVY0R C06 03000660 S.CER C60 JB H 02K-T C07 03000660 S.CER C60 JB H 02K-T C0 03000660 S.CER C60 JB H 02K-T C09 03000660 S.CER C60 JB H 02K-T C0 03000660 S.CER C60 JB H 02K-T C 03000660 S.CER C60 JB H 02K-T C2 03000660 S.CER C60 JB H 02K-T C3 03000700 S.CER C60 CH H 0J-T C 03000700 S.CER C60 CH H 390J-T [EUR-], [AUS], [USA-] only C5 03000660 S.CER C60 JB H 02K-T C6 03000660 S.CER C60 JB H 02K-T C 03000660 S.CER C60 JB H 02K-T C9 03000660 S.CER C60 JB H 02K-T C2 03000660 S.CER C60 JB H 02K-T C22 03000660 S.CER C60 JB H 02K-T C23 03000660 S.CER C60 JB H 02K-T C2 03000660 S.CER C60 JB H 02K-T C25 03000660 S.CER C60 JB H 02K-T C26 03000660 S.CER C60 JB H 02K-T C27 03000660 S.CER C60 JB H 02K-T C29 03000660 S.CER C60 JB H 02K-T C30 03000660 S.CER C60 JB H 02K-T C3 50000 S.ELE ECEVHA00SR C35 03000660 S.CER C60 JB H 02K-T C36 03000660 S.CER C60 JB H 02K-T C37 03000660 S.CER C60 JB H 02K-T C3 03000660 S.CER C60 JB H 02K-T C39 5000630 S.ELE ECEVCA00SR C0 03000660 S.CER C60 JB H 02K-T [RF UNIT] REF C C3 C C5 C6 C7 C C9 C50 C5 C52 C53 C55 C56 C5 C59 C60 C6 C62 C63 C6 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 550006220 S.TAN TEESVA 0J 56ML 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 03000950 S.CER C60 CH H 00B-T 030009520 S.CER C60 CH H 020B-T 030009570 S.CER C60 CH H 0R3B-T 03000950 S.CER C60 CH H 00B-T 030007070 S.CER C60 CH H 330J-T 03000070 S.CER C60 CH H 0J-T J002 65000300 CNR HEC0779-00030 J003 65000030 CNR HSJ02-0-50 J00 65000060 CNR HSJ93-0-00 J005 650007090 CNR PI2A-0M J006 65007720 S.CNR IL-FPR-30S-VF-E500 W00 703000360 S.RES ERJ3GE JPW V W002 703000360 S.RES ERJ3GE JPW V W003 703000360 S.RES ERJ3GE JPW V W00 703000360 S.RES ERJ3GE JPW V W005 703000360 S.RES ERJ3GE JPW V W006 703000360 S.RES ERJ3GE JPW V W007 72000030 JMP JPW 0 R-0 W0 900005320 FFC OPC-59 (N:30 L:55) W02 703000360 S.RES ERJ3GE JPW V W03 703000360 S.RES ERJ3GE JPW V W05 703000360 S.RES ERJ3GE JPW V EP002 950000 TUB SR tube 2.9 X CP (L=M) [USA-] only [MAIN UNIT] REF IC500 000390 S.IC TA336FN (D,EL) IC5002 3000560 S.IC TCW53F (TE2L) IC5003 0002330 IC TA736P IC500 0003670 S.IC BA330F-E2 IC5005 30007650 S.IC TC75W5FU (TE2L) IC5006 0002250 S.IC S-2C50AMC-C3E-T2 IC5007 000260 S.IC TA75S393F (TE5R) IC500 3000200 S.IC TCS66F (TE5R) Q5002 530002600 S.TR 2SC25-O (TE5R) Q5003 530002600 S.TR 2SC25-O (TE5R) Q500 53000320 S.TR 2SC2-6-TL Q5005 53000320 S.TR 2SC2-6-TL Q5006 520000650 S.TR 2SB20-S-TL Q5007 53000320 S.TR 2SC2-6-TL Q500 590003270 S.TR UNR920J-(TX) Q5009 590003270 S.TR UNR920J-(TX) Q500 50000520 S.TR 2SD9A (TX) R [AUS], [UK], [USA-] only Q503 5900090 S.TR XP35 (TX) Q50 52000060 S.TR 2SB32 T00 R Q505 53000320 S.TR 2SC2-6-TL Q506 52000060 S.TR 2SB32 T00 R Q507 53000320 S.TR 2SC2-6-TL Q50 5900030 S.TR UNR90J-(TX) Q509 52000060 S.TR 2SB32 T00 R Q5020 53000320 S.TR 2SC2-6-TL Q5026 53000320 S.TR 2SC2-6-TL Q5027 500000 S.TR 2SA622-6-TL Q502 52000060 S.TR 2SB32 T00 R Q5029 59000320 S.TR UNR92J-(TX) Q5030 530002600 S.TR 2SC25-O (TE5R) Q503 50000520 S.TR 2SD9A (TX) R [AUS], [UK], [USA-] only D5003 7900020 S.DIO MA (TX) D5005 7900020 S.DIO MA (TX) S.=Surface mount 5-2

[MAIN UNIT] REF D5006 7900020 S.DIO MA (TX) D5007 7900020 S.DIO MA (TX) D500 7900020 S.DIO MA (TX) D5009 79000060 S.DIO MA33 (TX) D500 7900020 S.DIO MA (TX) D50 79000330 S.ZEN MA036-L (TX) D503 7900020 S.DIO MA (TX) D50 7900020 S.DIO MA (TX) D505 79000060 S.DIO MA33 (TX) [AUS], [UK], [USA-] only FI500 202000070 CER CFWLA55KDFA-B0 (CFWS55D) X500 60500090 XTL CR-5 (35.35 MHz) X5002 607000030 DCR CDBLB55KCAY2-B0 R500 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R500 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R5009 7030003500 S.RES ERJ3GEYJ 332 V (3.3 kω) R500 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R50 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R502 7030003500 S.RES ERJ3GEYJ 332 V (3.3 kω) R503 7030003730 S.RES ERJ3GEYJ 27 V (270 kω) R50 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R505 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R506 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R507 703000370 S.RES ERJ3GEYJ 33 V (330 kω) R50 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R5020 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R502 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R5023 703000330 S.RES ERJ3GEYJ 20 V (2 Ω) R502 7030003200 S.RES ERJ3GEYJ 00 V (0 Ω) R5025 703000320 S.RES ERJ3GEYJ 6 V (60 Ω) R5026 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R5027 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R5029 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R5030 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) [AUS], [UK], [USA-] only R503 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) R5035 703000360 S.RES ERJ3GEYJ 52 V (.5 kω) R5036 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R5037 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R503 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R50 703000350 S.RES ERJ3GEYJ 392 V (3.9 kω) R505 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R507 73000530 S.TRI EVM-2WSX0 B (03) R509 7030003270 S.RES ERJ3GEYJ 390 V (39 Ω) R5050 703000350 S.RES ERJ3GEYJ 53 V (5 kω) R505 703000300 S.RES ERJ3GEYJ 05 V ( MΩ) R5052 703000360 S.RES ERJ3GEYJ 0 V (00 kω) [AUS], [UK], [USA-] only R5053 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R505 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R5055 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R505 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R5059 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R5060 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R506 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R5062 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R5063 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R506 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R5065 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R5066 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R5070 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R507 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R5072 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R507 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) R5075 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R5076 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R5077 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R507 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R502 720002670 VAR RV-29 (TP96D00N5F0KB0KA) R503 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R50 70300030 S.RES ERJ3GEYJ 02 V ( kω) R505 7030003600 S.RES ERJ3GEYJ 223 V (22 kω) R506 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R507 73000590 S.TRI EVM-2WSX0 B3 (02) R50 70300030 S.RES ERJ3GEYJ 02 V ( kω) R509 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R5090 70300030 S.RES ERJ3GEYJ 02 V ( kω) R509 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R5092 703000070 S.RES MCR0EZHJ Ω (0) R5093 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R5097 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R509 73000670 S.TRI EVM-2WSX0 B55 (50) R5099 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) R500 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) R50 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R502 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R503 7030003500 S.RES ERJ3GEYJ 332 V (3.3 kω) [MAIN UNIT] REF R50 703000350 S.RES ERJ3GEYJ 62 V (6. kω) R505 7030003700 S.RES ERJ3GEYJ 5 V (50 kω) R506 70300030 S.RES ERJ3GEYJ 2 V (20 kω) [AUS], [UK], [USA-] only R507 7030003700 S.RES ERJ3GEYJ 5 V (50 kω) R50 703000360 S.RES ERJ3GEYJ 52 V (.5 kω) R52 7030003700 S.RES ERJ3GEYJ 5 V (50 kω) R53 7030003600 S.RES ERJ3GEYJ 223 V (22 kω) [AUS], [UK], [USA-] only R5 7300050 S.TRI EVM-2WSX0 BQ (73) R55 7030003590 S.RES ERJ3GEYJ 3 V ( kω) [AUS], [UK], [USA-] only R56 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R57 703000330 S.RES ERJ3GEYJ 5 V (50 Ω) R5 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) R520 75000000 S.TMR TBPSR5K75H5Q [AUS], [UK], [USA-] only R52 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) [AUS], [UK], [USA-] only R523 750000990 S.TMR TBPSR62K0H5Q R52 703000360 S.RES ERJ3GEYJ 52 V (.5 kω) R525 703000370 S.RES ERJ3GEYJ V (0 kω) R526 703000370 S.RES ERJ3GEYJ V (0 kω) R527 703000300 S.RES ERJ3GEYJ 05 V ( MΩ) [AUS], [UK], [USA-] only R52 7030003660 S.RES ERJ3GEYJ 63 V (6 kω) R529 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) [AUS], [UK], [USA-] only R530 7030003770 S.RES ERJ3GEYJ 56 V (560 kω) [AUS], [UK], [USA-] only C500 030007030 S.CER C60 CH H 50J-T C5002 030007030 S.CER C60 CH H 50J-T C500 030006900 S.CER C60 JB H 03K-T C5005 03000660 S.CER C60 JB H 02K-T C5006 030006900 S.CER C60 JB H 03K-T C5007 030006900 S.CER C60 JB H 03K-T C500 030006900 S.CER C60 JB H 03K-T C500 03000670 S.CER C60 JB H 222K-T C50 030006900 S.CER C60 JB H 03K-T C502 03000660 S.CER C60 JB H 02K-T C503 50000 S.ELE ECEVHA00SR C50 500050 S.ELE ECEVHAR7R C505 03000650 S.CER C60 JB H 7K-T C506 5000570 S.ELE ECEVHA3R3SR C507 50005320 S.ELE ECEV0JA0SP C50 03000920 S.CER C60 JB H 73K-T C5020 50005370 S.ELE ECEVAA22P C502 5000560 S.ELE ECEVHA2R2SR C502 5000570 S.ELE ECEVHAR22SR C5025 5000630 S.ELE ECEVCA00SR C5026 500050 S.ELE ECEVHAR7R C5030 03000730 S.CER C60 CH H 0J-T C503 03000660 S.CER C60 JB H 02K-T C5032 03000660 S.CER C60 JB H 02K-T C5033 030006900 S.CER C60 JB H 03K-T C503 030006900 S.CER C60 JB H 03K-T C500 03000920 S.CER C60 JB H 73K-T [AUS], [UK], [USA-] only C503 550006220 S.TAN TEESVA 0J 56ML C505 5000560 S.ELE ECEVHA2R2SR C506 5000630 S.ELE ECEVCA00SR C50 03000650 S.CER C60 JB H 332K-T C509 030006900 S.CER C60 JB H 03K-T C5050 03000760 S.CER C60 CH H J-T C505 55000650 S.TAN ECSTCY05R C5052 50005630 S.ELE ECEVEA330SP C5053 03000660 S.CER C60 JB H 02K-T C505 03000660 S.CER C60 JB H 02K-T C5055 5000530 S.ELE ECEV0JA220SR C5056 5000530 S.ELE ECEV0JA220SR C5057 5000530 S.ELE ECEV0JA220SR C505 5000530 S.ELE ECEV0JA220SR C5059 5000530 S.ELE ECEV0JA220SR C5060 030006900 S.CER C60 JB H 03K-T C5062 5000630 S.ELE ECEVCA00SR C5063 030006900 S.CER C60 JB H 03K-T C506 03000660 S.CER C60 JB H 02K-T C5066 030006900 S.CER C60 JB H 03K-T C5067 030006900 S.CER C60 JB H 03K-T C506 03000660 S.CER C60 JB H 02K-T C5069 03000660 S.CER C60 JB H 02K-T C5070 03000660 S.CER C60 JB H 02K-T C507 03000660 S.CER C60 JB H 02K-T C5072 550006370 S.TAN ECST0JX226R C5073 03000660 S.CER C60 JB H 02K-T C507 03000660 S.CER C60 JB H 02K-T C5076 0300060 S.CER C60 JB H 72K-T [AUS], [UK], [USA-] only C5077 5000630 S.ELE ECEVCA00SR C5079 03000650 S.CER C60 JB H 7K-T C500 03000070 S.CER C60 JB H 7K-T C50 030006900 S.CER C60 JB H 03K-T C502 550006220 S.TAN TEESVA 0J 56ML C503 550006360 S.TAN ECSTVY0R C50 03000070 S.ELE ECEVCA0P C505 5000520 S.ELE ECEVCA0P C506 50000 S.ELE ECEVHA00SR C50 03000660 S.CER C60 JB H 02K-T S.=Surface mount 5-3

[MAIN UNIT] REF C509 C5090 03000660 S.CER C60 JB H 02K-T 5000650 S.ELE ECEVEAR7SR J500 65007700 S.CNR IL-WX-PB-VF-B-E900 J5002 65007700 S.CNR IL-WX-PB-VF-B-E900 J5003 65007730 S.CNR IL-FPR-30S-HF-E3000 J5005 65000700 CNR PI2A-02M S500 225000020 SW SW-57 (RH0970HH) W5002 W500 703000360 S.RES ERJ3GE JPW V 703000360 S.RES ERJ3GE JPW V [LOGIC UNIT] REF IC600 00060 S.IC HD029B96TF IC6002 90000260 S.IC 2LC0BTI/SN IC6003 0005930 S.IC S-05CLMC-B66-T2 IC600 30003920 S.IC TCS69F (TE5R) IC605 000370 S.IC NJM2902V-TE IC606 0003790 S.IC NJM2903V-TE IC607 000300 S.IC NJM290V-TE IC60 0003790 S.IC NJM2903V-TE Q600 590000 S.TR XN60 (TX) Q6002 53000320 S.TR 2SC2-6-TL Q6003 53000320 S.TR 2SC2-6-TL Q600 52000060 S.TR 2SB32 T00 R Q6005 53000320 S.TR 2SC2-6-TL Q6006 59000320 S.TR UNR92J-(TX) Q6007 500000 S.TR 2SA622-6-TL Q60 5900090 S.TR XP35 (TX) Q609 53000320 S.TR 2SC2-6-TL Q60 590003290 S.TR UNR923J-(TX) D600 7900020 S.DIO MA (TX) D6002 7900020 S.DIO MA (TX) D6003 7900020 S.DIO MA (TX) D600 7900020 S.DIO MA (TX) D6005 79000200 S.DIO MA6S2 (TX) D600 7900000 S.DIO MA32A (TX) D6009 60000050 S.DIO DAP202U T06 [IC-A22E] only D60 790000990 S.ZEN MA05-H (TX) D65 7900020 S.DIO MA (TX) D66 7900020 S.DIO MA (TX) X600 6050007390 XTL CR-33 (3.97 MHz) R600 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R6002 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R6003 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R600 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R6005 703000370 S.RES ERJ3GEYJ 33 V (330 kω) R6006 70300070 S.RES ERJ3GEYF 22 V (220 kω) R6007 7030000 S.RES ERJ3GEYF 33 V (3 kω) R600 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R6009 703000350 S.RES ERJ3GEYJ 392 V (3.9 kω) R600 703000330 S.RES ERJ3GEYJ 2 V (20 Ω) R60 703000330 S.RES ERJ3GEYJ 2 V (20 Ω) R602 703000330 S.RES ERJ3GEYJ 33 V (330 Ω) R603 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R606 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R607 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R60 703000350 S.RES ERJ3GEYJ 62 V (6. kω) R609 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R6020 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R602 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R6022 703000300 S.RES ERJ3GEYJ 05 V ( MΩ) R6023 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R602 703000300 S.RES ERJ3GEYJ 05 V ( MΩ) R6025 70000590 S.ARY EXB-VV 73JV (7 kω) R6026 703000320 S.RES ERJ3GEYJ 220 V (22 Ω) R6027 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R60 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R625 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) [LOGIC UNIT] REF R626 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R627 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R62 703000350 S.RES ERJ3GEYJ 62 V (6. kω) R629 7030003700 S.RES ERJ3GEYJ 5 V (50 kω) R630 703000370 S.RES ERJ3GEYJ 2 V (. kω) R63 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R632 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R633 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R63 7030003630 S.RES ERJ3GEYJ 393 V (39 kω) R635 7300050 S.TRI EVM-2WSX0 BQ (73) R636 7030003750 S.RES ERJ3GEYJ 39 V (390 kω) R637 703000370 S.RES ERJ3GEYJ 33 V (330 kω) R63 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R639 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R60 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R6 75000090 S.TMR TBPSR333K60H5Q R62 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R63 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R6 703000350 S.RES ERJ3GEYJ 53 V (5 kω) R65 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R66 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R67 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R6 703000370 S.RES ERJ3GEYJ V (0 kω) R69 7030003590 S.RES ERJ3GEYJ 3 V ( kω) R650 73000630 S.TRI EVM-2WSX0 B2 (203) R65 73000670 S.TRI EVM-2WSX0 B55 (50) R653 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R65 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R655 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R656 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R659 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R660 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R66 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R662 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R663 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) R66 7030003520 S.RES ERJ3GEYJ 72 V (.7 kω) C600 C6002 C6003 C600 C6005 C6006 C6007 C600 C6009 C60 C62 C63 C6 C65 C66 C67 C6 C69 C620 C62 C622 C623 C62 C625 C626 C62 C629 C630 C63 550006370 S.TAN ECST0JX226R 550006530 S.TAN ECST0JY65R 030007030 S.CER C60 CH H 50J-T 030007030 S.CER C60 CH H 50J-T 03000070 S.CER C60 CH H 0J-T 03000070 S.CER C60 CH H 0J-T 03000070 S.CER C60 CH H 0J-T 03000070 S.CER C60 CH H 0J-T 030006900 S.CER C60 JB H 03K-T 03000660 S.CER C60 JB H 02K-T 550006200 S.TAN ECST0JY06R 55000650 S.TAN ECSTCY05R 550006200 S.TAN ECST0JY06R 03000070 S.CER C60 CH H 0J-T 03000660 S.CER C60 JB H 02K-T 03000660 S.CER C60 JB H 02K-T 550006360 S.TAN ECSTVY0R 030006900 S.CER C60 JB H 03K-T 03000070 S.CER C60 CH H 0J-T 55000630 S.TAN ECSTAY335R 550006360 S.TAN ECSTVY0R 550006360 S.TAN ECSTVY0R 03000650 S.CER C60 JB H 7K-T 550006360 S.TAN ECSTVY0R 550006360 S.TAN ECSTVY0R 550006360 S.TAN ECSTVY0R 0300060 S.CER C60 JB H 72K-T 550006370 S.TAN ECST0JX226R 550006200 S.TAN ECST0JY06R J600 6500770 S.CNR IL-WX-SB-VF-H.75-B-E00 J6002 6500770 S.CNR IL-WX-SB-VF-H.75-B-E00 J6003 65007900 CNR 3-762-6 DS600 503000200 LCD TTR560 UPFDHW DS6002 50000020 S.LED LN37G-(TR) DS6003 50000020 S.LED LN37G-(TR) DS600 50000020 S.LED LN37G-(TR) DS6005 50000020 S.LED LN37G-(TR) DS6006 50000920 S.LED SML-0MT T6 DS6007 50000920 S.LED SML-0MT T6 MC600 770000230 MIC W60 EM-0 703000360 S.RES ERJ3GE JPW V EP6002 93005060 LCT SRCN-5-SP-N-W EP6003 950000 TUB SR tube 2.9 X CP (L=M) [USA-] only S.=Surface mount 5 -

[VCO UNIT] REF Q700 530002920 S.TR 2SC226-T R25 Q7002 530002920 S.TR 2SC226-T R25 Q7003 530002560 S.TR 2SC03-3-TL D700 D7002 79000290 S.VCP MA30 (TX) 790000620 S.DIO MA77 (TX) L700 620000520 S.COL MLF202D R2K-T L7002 60002990 COL LA-7 L7003 620000630 S.COL ELJNC R0K-F R700 7030003550 S.RES ERJ3GEYJ 22 V (.2 kω) R7002 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R7003 7030003550 S.RES ERJ3GEYJ 22 V (.2 kω) R700 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R7005 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R7006 703000360 S.RES ERJ3GEYJ 273 V (27 kω) R7007 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R700 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R7009 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) C700 030007090 S.CER C60 CH H 70J-T [USA-] only C7002 030009650 S.CER C60 CH H 20J-T C700 03000950 S.CER C60 CH H R5B-T C7005 03000950 S.CER C60 CH H R5B-T C7006 03000660 S.CER C60 JB H 02K-T C7007 03000660 S.CER C60 JB H 02K-T C700 030009500 S.CER C60 CH H 0R5B-T C7009 03000700 S.CER C60 CH H 0J-T C700 03000660 S.CER C60 JB H 02K-T C70 03000660 S.CER C60 JB H 02K-T C702 03000660 S.CER C60 JB H 02K-T C703 03000660 S.CER C60 JB H 02K-T C70 03000660 S.CER C60 JB H 02K-T J700 69000020 CNR IPS-323 J7002 69000020 CNR IPS-323 J7003 69000020 CNR IPS-323 J700 69000020 CNR IPS-323 [PTT UNIT] REF J900 65000 S.CNR 3-75637-6 S900 226000260 S.SW EVQ-PLM A5 S9002 22600060 S.SW SKQDPB S9003 22600060 S.SW SKQDPB S.=Surface mount 5-5

IC-A3/E [RF UNIT] REF IC00 3000760 S.IC µpd30gs-e (DS) IC002 000360 IC M672/SC303 Q00 50000650 S.FET 3SK230-T2 UB Q002 5000000 S.FET 3SK5-Y (TE5L) Q003 530002600 S.TR 2SC25-O (TE5R) Q00 530002560 S.TR 2SC03-3-TL Q005 530002560 S.TR 2SC03-3-TL Q006 530002560 S.TR 2SC03-3-TL Q007 53000330 S.TR 2SC3357-T RF Q00 5900060 S.TR XP0-(TX).AB Q0 590000 S.TR UN920 (TX) Q0 590003270 S.TR UNR920J-(TX) Q02 53000320 S.TR 2SC2-6-TL Q03 52000060 S.TR 2SB32 T00 R Q0 53000320 S.TR 2SC2-6-TL Q05 530002560 S.TR 2SC03-3-TL Q06 590000 S.TR UN920 (TX) Q06 590003270 S.TR UNR920J-(TX) Q07 5900030 S.TR UN90 (TX) Q07 5900030 S.TR UNR90J-(TX) Q0 59000650 S.TR XP60 (TX) Q09 590000 S.TR UN920 (TX) Q09 590003270 S.TR UNR920J-(TX) Q020 59000650 S.TR XP60 (TX) Q02 53000250 S.TR 2SC6-BL (TE5R) D00 790000620 S.DIO MA77 (TX) D002 790000620 S.DIO MA77 (TX) D003 790000620 S.DIO MA77 (TX) D00 790000660 S.DIO MA72 (TX) D005 790000660 S.DIO MA72 (TX) D006 79000290 S.VCP MA30 (TX) D007 79000290 S.VCP MA30 (TX) D00 79000290 S.VCP MA30 (TX) D009 79000290 S.VCP MA30 (TX) D00 790000620 S.DIO MA77 (TX) D02 75000060 S.DIO SV26-TL D03 75000060 S.DIO SV26-TL D06 7900020 S.DIO MA (TX) D07 730002300 S.ZEN MA02-M (TX) D0 79000050 S.DIO MA32WK (TX) D09 79000060 S.DIO MA33 (TX) D020 79000030 S.DIO SB30-03P-TD D02 790000620 S.DIO MA77 (TX) D022 79000330 S.ZEN MA036-L (TX) D025 79000030 S.DIO SB30-03P-TD FI00 2000060 FIL FL-203 X00 605000730 XTL CR-56 L00 620000220 S.COL LQW3HN7NJ0L (LQN A 7NJ0) L002 6200002390 S.COL LQW3HN6NJ0L (LQN A 6NJ0) L003 6200002390 S.COL LQW3HN6NJ0L (LQN A 6NJ0) L00 620000230 S.COL LQW3HN56NJ0L (LQN A 56NJ0) L005 620000220 S.COL LQW3HN7NJ0L (LQN A 7NJ0) L006 620000230 S.COL LQW3HN56NJ0L (LQN A 56NJ0) L007 620000520 S.COL MLF202D R2K-T L00 6300070 COL LB-70 L009 63000750 COL LB-72 L00 63000250 COL LB-326 L0 63000750 COL LB-72 L02 65000390 S.COL LS-92 L0 620000920 S.COL ELJNC R5K-F L05 620000920 S.COL ELJNC R5K-F L06 620000630 S.COL ELJNC R0K-F L07 6200002390 S.COL LQW3HN6NJ0L (LQN A 6NJ0) L025 620000290 S.COL MLF202A R7K-T L027 620000290 S.COL MLF202A R7K-T L02 6200003550 S.COL MLF60A R7K-T R00 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R00 7030003370 S.RES ERJ3GEYJ 27 V (270 Ω) R005 7030003370 S.RES ERJ3GEYJ 27 V (270 Ω) R006 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R007 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R00 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R009 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R00 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R0 703000360 S.RES ERJ3GEYJ 73 V (7 kω) [RF UNIT] REF R02 703000320 S.RES ERJ3GEYJ 70 V (7 Ω) R03 703000320 S.RES ERJ3GEYJ 70 V (7 Ω) R0 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R05 7030003720 S.RES ERJ3GEYJ 22 V (220 kω) R06 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) [AUS], [UK] 703000370 S.RES ERJ3GEYJ 6 V (60 kω) [EUR], [EUR-] R07 7030003660 S.RES ERJ3GEYJ 63 V (6 kω) [IC-A3] 7030003670 S.RES ERJ3GEYJ 23 V (2 kω) [AUS], [UK] 703000360 S.RES ERJ3GEYJ 0 V (00 kω) [EUR], [EUR-] R0 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R09 7030003200 S.RES ERJ3GEYJ 00 V (0 Ω) R020 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R02 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R022 7030003390 S.RES ERJ3GEYJ 39 V (390 Ω) R023 703000360 S.RES ERJ3GEYJ 0 V (00 kω) [IC-A3], [EUR], [EUR-] 7030003770 S.RES ERJ3GEYJ 56 V (560 kω) [AUS], [UK] R02 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R025 7030003500 S.RES ERJ3GEYJ 332 V (3.3 kω) R027 7030003220 S.RES ERJ3GEYJ 50 V (5 Ω) R02 7030003220 S.RES ERJ3GEYJ 50 V (5 Ω) R029 703000360 S.RES ERJ3GEYJ 52 V (.5 kω) [AUS], [UK] 7030003500 S.RES ERJ3GEYJ 332 V (3.3 kω) [IC-A3], [EUR], [EUR-] R030 703000360 S.RES ERJ3GEYJ 273 V (27 kω) R03 703000330 S.RES ERJ3GEYJ 5 V (50 Ω) R032 703000360 S.RES ERJ3GEYJ 273 V (27 kω) R033 703000330 S.RES ERJ3GEYJ 5 V (50 Ω) R03 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R035 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R036 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R037 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R039 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R00 703000350 S.RES ERJ3GEYJ 53 V (5 kω) R0 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R02 70300030 S.RES ERJ3GEYJ 02 V ( kω) R03 70300030 S.RES ERJ3GEYJ 02 V ( kω) R0 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R05 70300030 S.RES ERJ3GEYJ 02 V ( kω) R07 7030003290 S.RES ERJ3GEYJ 560 V (56 Ω) R05 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R056 7030003660 S.RES ERJ3GEYJ 63 V (6 kω) R057 730003600 S.TRI EVM-XSX50 B5 (503) [IC-A3], [EUR], [UK] 73000660 S.TRI EVM-2WSX0 B5 (503) [EUR-], [AUS] R05 7030003600 S.RES ERJ3GEYJ 223 V (22 kω) R059 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R060 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R06 7030003650 S.RES ERJ3GEYJ 563 V (56 kω) R06 70300030 S.RES ERJ3GEYJ 02 V ( kω) R065 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R066 70300030 S.RES ERJ3GEYJ 02 V ( kω) R067 73000360 S.TRI EVM-XSX50 B (03) [IC-A3], [EUR], [UK] 73000530 S.TRI EVM-2WSX0 B (03) [EUR-], [AUS] R06 73000360 S.TRI EVM-XSX50 B (03) [IC-A3], [EUR], [UK] 73000530 S.TRI EVM-2WSX0 B (03) [EUR-], [AUS] R069 7030003560 S.RES ERJ3GEYJ 03 V (0 kω) R070 703000320 S.RES ERJ3GEYJ 6 V (60 Ω) R07 703000360 S.RES ERJ3GEYJ 73 V (7 kω) [EUR], [EUR-] 703000360 S.RES ERJ3GEYJ 0 V (00 kω) [IC-A3], [AUS], [UK] R072 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R073 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) R079 703000360 S.RES ERJ3GEYJ 73 V (7 kω) R00 7030003760 S.RES ERJ3GEYJ 7 V (70 kω) R0 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R06 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R07 7030003330 S.RES ERJ3GEYJ 2 V (20 Ω) R0 7030003330 S.RES ERJ3GEYJ 2 V (20 Ω) R09 7030003290 S.RES ERJ3GEYJ 560 V (56 Ω) R090 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R09 7030003320 S.RES ERJ3GEYJ 0 V (00 Ω) R092 703000330 S.RES ERJ3GEYJ 2 V (20 Ω) R093 7030003300 S.RES ERJ3GEYJ 60 V (6 Ω) [AUS], [UK] 703000330 S.RES ERJ3GEYJ 20 V (2 Ω) [IC-A3], [EUR], [EUR-] R09 7030003300 S.RES ERJ3GEYJ 60 V (6 Ω) [AUS], [UK] 703000330 S.RES ERJ3GEYJ 20 V (2 Ω) [IC-A3], [EUR], [EUR-] R095 7030003330 S.RES ERJ3GEYJ 2 V (20 Ω) [IC-A3], [EUR], [EUR-] 7030003360 S.RES ERJ3GEYJ 22 V (220 Ω) [AUS], [UK] R096 70300030 S.RES ERJ3GEYJ 222 V (2.2 kω) R097 7030003770 S.RES ERJ3GEYJ 56 V (560 kω) R09 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R099 7030003620 S.RES ERJ3GEYJ 333 V (33 kω) R00 703000320 S.RES ERJ3GEYJ 70 V (7 Ω) R0 703000300 S.RES ERJ3GEYJ 7 V (70 Ω) R02 703000360 S.RES ERJ3GEYJ 0 V (00 kω) R03 703000300 S.RES ERJ3GEYJ 05 V ( MΩ) [AUS], [UK] 703000330 S.RES ERJ3GEYJ 5 V (. MΩ) [EUR], [EUR-] C00 030007050 S.CER C60 CH H 220J-T S.=Surface mount 5-6

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