HF/50 MHz TRANSCEIVER

Transcript

1 HF/0 MHz RANSCEIVER S-XZ-C March 0

2 INRODUCION SERVICE CAUION his service manual describes the latest technical information for the IC-00 HF/0 MHz RANSCEIVER, at the time of publication. NEVER connect the transceiver to a DC power supply that uses more than the specified voltage. his will ruin the transceiver. MODEL VERSION VERSION NUMER IC-00 USA EUR IR ESP PE KOR EXP #0 #0 #0 #0 #0 #0 # OPERAALE ANDS HF/0 MHz HF/0/0 MHz HF/0 MHz DO NO expose the transceiver to rain, snow or liquids. DO NO reverse the polarities of the power supply when directly applying power to the transceiver/circuit. DO NO apply an RF signal of more than 0 dm (00 mw) to the antenna connector. his could damage the transceiver s front-end. o upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation. ORDERING PARS REPAIR NOES e sure to include the following four points when ordering replacement parts:. Make sure that the problem is internal before disassembling the transceiver.. DO NO open the transceiver until the transceiver is disconnected from its power source.. DO NO force any of the variable components. urn them slowly and smoothly.. DO NO short any circuits or electronic parts. An insulated tuning tool MUS be used for all adjustments.. DO NO keep power ON for a long time when the transceiver is defective.. NEVER directly transmit power into any test equipment such as Standard Signal Generator or a Sweep Generator, otherwise the RF power may damage them.. ALWAYS connect a 0 d to 0 d attenuator between the transceiver and such test equipment.. READ the instructions of the test equipment thoroughly before connecting it to the transceiver.. 0-digit Icom part number. Component name. Equipment model name and unit name. Quantity required <ORDER EXAMPLE> XCAMR U-COVER IC-00 IC-00 MAIN UNI CHASSIS pieces piece Addresses are provided on the inside back cover for your convenience. Icom, Icom Inc. and the Icom logo are registered trademarks of Icom Incorporated (Japan) in Japan, the United States, the United Kingdom, Germany, France, Spain, Russia, Australia, New Zealand, and/or other countries.

3 ALE OF CONENS SECION SPECIFICAIONS SECION INSIDE VIEWS SECION CIRCUI DESCRIPION SECION PA UNI... - RF UNI... - MAIN UNI... - ADJUSMEN PROCEDURE PREPARAION... RECEIVE ADJUSMENS... X IDLING CURREN ADJUSMENS... X POWER ADJUSMENS... X AMPLIFIER ADJUSMENS... FREQUEY ADJUSMENS... SECION PARS LIS SECION MECHANICAL PARS SECION OARD LAYOUS SECION GENERAL WIRING SECION LOCK DIAGRAM SECION 0 SCHEMAIC DIAGRAM

4 SECION SPECIFICAIONS M General Frequency coverage (unit: MHz): Receiver ransmitter ~.00000* ~ 0.* ~ 0.*.000 ~ * ~ * ~ * ~.0000*.0000 ~.000* ~.0000*.0000 ~.0000* ~.00000* ~ * ~ * * Some frequency ranges are not guaranteed. * Depending on the transceiver version. Operating modes: Number of memory channels: Antenna connector: Power supply requirement: Operating temperature range: Frequency stability: Frequency resolution: Power consumption: Receive Standby Maximum audio ransmit Maximum power Dimensions (projections not included): Weight (approximately): US/LS (JE), CW (AA), RY (F), AM (AE) and FM (FE) 0 (including scan edges) SO- (antenna impedance: 0 Ω unbalanced). V DC (±%) 0 C to +0 C, + F to +0 F Less than ±0. ppm ( 0 C to +0 C, + F to +0 F) Hz (minimum) 0. A. A.0 A 0 (W) (H) (D) mm,. (W). (H). (D) in. kg,. Ib M ransmitter ransmit output power: HF and 0 MHz bands SS/CW/RY/FM AM 0 MHz band* SS/CW/RY/FM AM ~00 W ~ W ~0 W ~. W * Depending on the transceiver version. Modulation system: SS AM FM Spurious emission: Harmonics Out-of-band emission P.S.N. modulation Low power modulation Reactance modulation Less than 0 d (.~ MHz) Less than d (0 MHz band) Less than 0 d (0 MHz band*) Less than 0 d (.~ MHz) Less than 0 d (0 MHz band) Less than 0 d (0 MHz band*) * Depending on the transceiver version. Carrier suppression: Unwanted sideband suppression: Input impedance (microphone): More than 0 d More than 0 d 00 Ω -

5 M Receiver Receive system: Intermediate frequency: Sensitivity (Filter: SOF): SS/CW (at 0 d S/N). ~. MHz 0 MHz band 0 MHz band* Direct sampling superheterodyne khz Less than dm (0. μv) Less than dm (0. μv) Less than dm (0. μv) (P.AMP ON) (P.AMP ON) (P.AMP ON) * Depending on the transceiver version. AM (at 0 d S/N) 0. ~. MHz. ~. MHz 0 MHz and 0 MHz bands FM (at d SINAD).0 ~. MHz 0 MHz and 0 MHz bands Squelch sensitivity (threshold): SS FM Selectivity (Filter: SHARP): SS (W=. khz) CW (W=00 Hz) RY (W=00 Hz) AM (W= khz) FM (W= khz) Spurious and image rejection: Audio output power: Output impedance (Speaker): RI variable range: M Antenna tuner unable impedance range: uning accuracy: uning time (approximately): Less than dm (. μv) Less than 0 dm (.0 μv) Less than 0 dm (.0 μv) (P.AMP ON) (P.AMP ON) (P.AMP ON) Less than dm (0. μv) Less than dm (0. μv) (P.AMP ON) (P.AMP ON) Less than dm (. μv) Less than dm (0. μv) (HF band: P.AMP ON, 0 MHz band: P.AMP ON) More than. khz/ d Less than. khz/ 0 d More than 00 Hz/ d Less than 00 Hz/ 0 d More than 00 Hz/ d Less than 00 Hz/ 0 d More than.0 khz/ d Less than 0 khz/ 0 d More than.0 khz/ d Less than khz/ 0 d More than 0 d (except for ADC aliasing) More than. W (at 0% distortion into the Ω load, at the khz reference) Ω ±. khz.~0 Ω (unbalanced) (less than : VSWR) Less than.: VSWR ~ seconds (average) seconds (maximum) LAll stated speciications are typical and subject to change without notice or obligation. -

6 SECION INSIDE VIEWS MAIN UNI D/A CONVERER (IC) US HU (IC) DC AMP (IC) US HU CLOCK ( MHz) (X) DAA LINE UFFER (IC0) US RIDGE (IC) AF AMP (IC) ANALOG SW (IC) DC AMP (IC) D/A CONVERER (IC) AF AMP (IC) US CODEC (IC) AF LPF (IC00) A/D CONVERER (IC00) D/A CONVERER (IC) M SRAM (IC0) FPGA (IC) V REGULAOR (IC) LVDS DRIVER (IC) DC AMP (IC) CLOCK FILER (FI) M FLASH MEMORY (IC0) DC AMP (IC) DSP (IC0) DC AMP (IC) DSP CLOCK (. MHz) (X0) ADJUSALE SEP-DOWN CONVERER (IC) -it SHIF REGISER (IC) ADJUSALE SEP-DOWN CONVERER (IC) ADJUSALE SEP-DOWN CONVERER (IC0) M FLASH MEMORY (IC) CPU (IC0) EEPROM (IC) V REGULAOR (IC) V REGULAOR (IC) REAL IME CLOCK (IC) ADJUSALE SEP-DOWN CONVERER (IC). V REGULAOR (IC) ELECRIC DOULE-LAYER CAPACIOR (C) CPU CLOCK ( MHz) (X0) - ACKUP AERY (FOR HE REAL IME CLOCK) ()

7 RF UNI RF AMP (Q0) YGR AMP (IC0) ALC PIN DIODES (D0 and D0) V REGULAOR (IC0) PRE-AMP (Q) ALC AMP (IC0) DC AMP (IC0) -bit SHIF REGISER (IC0) -bit SHIF REGISER (IC0) -bit SHIF REGISER (IC0) -

8 PA UNI V REGULAOR (IC) DC AMP (IC) -bit SHIF REGISER (IC) CURREN MONIOR (IC) X POWER AMP (Q) X POWER AMP (Q) RF AMP (Q0) DRIVE AMP PRE-DRIVE AMP (Q) (Q) -

9 UNER UNI COMPARAOR (IC0) POWER DEECOR (D0) -bit SHIF REGISER (IC) -bit SHIF REGISER (IC) PHASE DEECOR (D and D) -bit SHIF REGISER (IC) DC AMP (IC0) -bit SHIF REGISER (IC) 0 d AENUAOR SWR DEECOR (D0) IMPEDAE DEECOR (D0) UNING CIRCUI -

10 SECION CIRCUI DESCRIPION - PA UNI he PA UNI is composed of the transmit power amplifier, harmonic filters, and sensing circuits for the transmit power and SWR. POWER AMPLIFIER he transmit signal from the drive amplifier (Q) is applied to the push-pull power amplifier (Q and Q) to be amplified up to 00 watts (for the HF/0 MHz band) or 0 watts (for the 0 MHz band). he idling current of the power amplifier is appropriately adjusted to compensate for variation in gain. () RECEIVE SIGNAL PROCESSING he received signal from the UNER UNI is passed through the X/RX SW (RL0), and applied to the RF UNI through the LPF whose cut-off frequency is MHz, and the X mute switch (Q, D and D). LPF he transmit signal from the power amplifier is filtered by one of the LPFs that is selected according to the transmit frequency. hese LPFs are the Chebyshev filters with sharp cut-off characteristics, to reduce the harmonic components in the transmit signal. o prevent abnormal oscillations caused by feedback of the transmit signal, the X mute switch connects the transmit line to ground while receiving. here are PFs with different cut-off frequencies. he LPFs are selected by the relays on both sides of each LPF, according the transmit frequency. () RANSMI SIGNAL PROCESSING DRIVE AMPLIFIER he transmit signal from the RF UNI is sequentially amplified by the RF amplifier (Q0), pre-drive amplifier (Q) and drive amplifier (Q). hese RF amplifiers are the high gain source-grounded amplifiers. he idling current of drive amplifier (Q) is appropriately adjusted to compensate for variation in gain. FORWARD AND LEC WAVES DEECION CIRCUI he transmit signal is passed through the SWR detection circuit, which is composed of the CM coupler and rectifier diodes (D and D). he forward and reflect waves are detected, resulting in the forward wave and reflect wave sensing voltages. he sensing voltages are amplified by the buffer (IC), and then applied to the CPU in the MAIN UNI for monitoring. he amplified transmit signal is applied to the antenna, through the UNER UNI. PA AND UNER UNIS (Receive circuits) HF/0 MHz/0 MHz RL0 From the X circuits Q D/D fc= MHz MUE LPF D,D PWR/SWR DE D D A UNE NE D0 SWR DE IC0 SWRL PHASE DE POWER DE X signal RX signal PHASEI IC0 D0 UFF PWRL IC0 D IMP DE PA UNI IMPI UNER UNI PA AND UNER UNIS (ransmit circuits) MHz LPF PA UNI UNER UNI.0-.0 MHz HF/ 0 MHz/ 0 MHz LPF Q0 RF AMP Q PRE DRIVE Q Q Q DRIVE AMP PWR AMP.0-. MHz LPF RL0 D,D PWR/SWR DE.-. MHz LPF SW SW D D A.-. MHz UNE NE D0 SWR DE IC0 SWRL PHASE DE LPF.-.0 MHz D0 LPF POWER DE.0- MHz IC0 UFF PHASEI PWRL IC0 D LPF IMP DE o the RX circuit - IMPI

11 - RF UNI he received signals of. MHz and below are passed through only "LPF (A)." he received signals of. MHz and above are passed through "HPF (A)," which is designed to prevent interference by strong MF band broadcast stations. he RF UNI is composed of the receive and transmit RF circuits. he received signal from the PA UNI is passed to the MAIN UNI through the attenuator, filter, and preamp. () RECEIVE SIGNAL PROCESSING his HPF is designed to obtain more than 0 d of isolation for. MHz and lower frequencies. he received signals of. MHz and above are also passed through one of the PFs, according to the selected operating band. he received signal from the PA UNI is passed through the RX mute switch (D00), passes through or bypasses the attenuator (D0 ~ D0) according to the Attenuator function setting, and is then applied to the filter circuit. he attenuator (D0 ~ D0) is controlled to change the attenuation level to between 0 d (bypass) and 0 d. he filtered signal is then applied to the preamp circuit. he received signal may be amplified by P.AMP (normal gain) or P.AMP (higher gain), or bypass both, according to the Preamp function setting. he received signal from the preamp circuit is then applied to the MAIN UNI. he transmit signal from the MAIN UNI is passed to the PA UNI through the filter, ALC circuit, and YGR AMP. he filter circuit is composed of filters. he received signal is passed through the filter that is selected according to the receive frequency. RF UNI (Receive circuits) D0~D0 D00 Q Q/Q LPF A MHz A PRE AMP LPF MUE HPF A.0-.0 MHz o the X AMP HPF MHz.0-. MHz LPF PF.00-. MHz PF.00-. MHz PF.0-. MHz PF.0-. MHz PF.00-. MHz PF MHz PF X signal RX signal MHz PF.00-. MHz PF MHz.0-. MHz PF MHz PF MHz PF RF UNI RF

12 - RF UNI (continued) () RANSMI SIGNAL PROCESSING he signal level is also adjusted by the ALC circuit (D0 and D0), which is located at the input and output of YGR AMP (IC0). he ALC circuit automatically adjusts the transmit signal level according to the transmit power sensing voltage. he level-adjusted transmit signal is then applied to the PA UNI. he transmit signal from the MAIN UNI is passed through one of the PFs in the filter circuit. he filtered signal level is adjusted by the gain controller (D0 and D0), which compensates the level difference in the band. he transmit signal is then amplified by the YGR AMP (IC0) to obtain the input level needed in the transmit amplifier circuit. RF UNI (ransmit circuits) Q MHz PRE AMP LPF D0 PIN A IC0 D0 YGR AMP PIN A D0 D0 A.0-.0 MHz HPF.00-. MHz MHz LPF PF.00-. MHz ALC PF ALC PF.00-. MHz PF.00-. MHz PF.0-. MHz PF RF UNI.0-. MHz MHz.0-. MHz PF PF.00-. MHz MHz(X) PF PF MHz PF X signal RX signal MHz(X) PF

13 - MAIN UNI In a traditional transceiver, the received signal level (gain) was controlled by the DSP prior to the external AGC circuit. he IC-00 uses the Direct Conversion system, which directly converts the received signal into a digital signal by the A/D converter. he digital signal is then converted into the khz IF signal by the FPGA, before being processed by the DSP. ut, this method will not work in the Direct Sampling system since the RF gain control cannot prevent over input to the A/D converter. his method has been replaced by adding an external AGC circuit, instead of using the DSP's internal AGC circuitry. he transmit signal is processed and converted into the transmit IF signal by the DSP. he transmit IF signal is converted into an RF signal by the FPGA, and then converted into an analog transmit signal. Since the IF signal is directly processed as a digital signal in the FPGA, any analog heterodyne circuits, such as IF circuits, are not needed. he level-adjusted received signal is applied to the A/D converter to be converted into a digital signal. he converted digital signal is applied to the FPGA (IC) where the received signal is converted into the khz IF signal. () RECEIVE SIGNAL PROCESSING External attenuator and A/D conversion he received signal from the RF UNI is passed through the X/RX switching diode (D) and applied to the external attenuator (PIN diode D). he attenuator is controlled by the AGC voltage from the D/A converter (IC) to adjust the received signal level so that the signal amplitude is within the input dynamic range of the A/D converter. MAIN UNI (Receive circuits) IC IC0 IC D/A LPF IC DACLK DSP XAL PF AMP.0 MHz FPGA D J0.V..HSEND.SAR.AND.ALC [ACC]..V.KEY 0.FSKK.MOD.AF.SQLS [EX-SP] J0 PIN A A/D 0 IC AGCV FPX_AGC/FPX_DE/FPR_MOD /FPCAL/CLK/FRM/MCLK D/A IC IC IC AAF Q SW L,L C~C LPF AF AMP IC AF AMP D/A LVDS DRIVE IC IC AF AMP. MHz D/A AMP Q0 Q0 UFF [SP] SP DISPLAY UNI MIC UNI MICE MIC AF OU +V P SQL MIC U/D J AFO PHONE UNI MAIN UNI J X signal RX signal - X0 (. MHz) D RF

14 - MAIN UNI (continued) Demodulator and D/A converter he khz IF signal is digitally demodulated and processed by the DSP (IC0), whose design is based totally on that of the IC-00. he internal AGC control, demodulation, noise reduction (N, NR and Notch filter) and squelch functions are also the same as those of the IC-00. FPGA FPGA (Field-Programmable Gate Array) is a device that can digitally configure the virtual circuit in the chip. he program that determines how it operates is written in the external EEPROM, and loaded when the transceiver power is turned ON. So the circuit can be reconfigured, even after the device is mounted on the PC, by reprogramming it. he demodulated and processed signal from the DSP (IC0) is applied to the D/A converter (IC) to be converted into an analog AF signal. he AF signal is then applied to the AF circuit. Using mathematical functions, the FPGA (IC) performs down conversion and filtering by controlling digital bits. he received signal from the RF UNI has been converted into a digital data stream by the A/D converter. he converted data is applied to the FPGA as a bit stream with the sampled signal spectrum, and then processed by manipulating the digital bits. he FPGA processes the signal mathematically to digitally obtain the oscillation and mixing (Image rejection mixer), as if the signal is processed in a hardware down conversion circuit. AF circuit he AF signal is amplified by the AF AMP (IC), and then by the D-class AF power AMP (IC) to obtain up to. watts (at ohms, khz, 0% distortion) of output power. he amplified signal is applied to the speaker through the LPF (L, L and C ~ C), which attenuates unwanted frequency components, and to the speaker SW (Q). he processed signal is applied to the DSP (IC0). When an external speaker is connected to the [EX-SP] jack, the audio output from the internal speaker (SP) is disconnected. FPGA LOCK DIAGRAM (Receive circuits) FPGA (IC) Mixer khz PF A A/D khz DSP (IC0) Image Rejection Mixer 0 Phase shift PF PF 0 Phase shift LO (DDS) AGC DE D/A - IF AMP DE D/A SP

15 () RANSMI SIGNAL PROCESSING FPGA he transmit IF signal is applied to the FPGA (IC). he FPGA mathematically processes the signal to digitally obtain the oscillation (X LO) and mixing (Image rejection mixer), as if the signal is processed in a hardware up conversion circuit. MIC AMP and A/D converter he audio signal from the [MIC] connector on the front panel is amplified by the MIC amplifier (IC00), and then applied to the A/D converter (IC00) to be converted into a digital signal. he audio signal from the [ACC] socket is applied to the A/D converter (IC00), through the mute SW (IC00) and LPF (IC00), and is also converted into a digital signal. he converted digital signal is then applied to the DSP (IC0) for audio processing. he processed signal is applied to the D/A converter to be converted in to an analog RF transmit signal. RF signal processing he transmit signal, that is processed and up-converted in the FPGA (IC), is applied to the D/A converter (IC) to be converted into an analog transmit signal. he transmit signal is passed through the LPF (L, L, C, C and C), which attenuates unwanted frequency components in the transmit signal, and is then applied to the RF UNI. Modulation and D/A converter he signal is digitally modulated in the DSP (IC0), resulting in the khz transmit IF signal, and then applied to the FPGA (IC). he audio signal from the microphone has been converted into a digital data stream by the A/D converter. he converted data is applied to the DSP (IC0), and digitally processed, resulting in a modulated khz transmit IF signal. MAIN UNI (ransmit circuits) IC IC0 IC L,L C,C,C LPF D/A IC DACLK J0.V..HSEND.SAR.AND.ALC [ACC]..V.KEY 0.FSKK.MOD.AF.SQLS 0 IF-DSP XAL PF.0 MHz D D PIN A A/D FPX_AGC/FPX_DE/FPR_MOD /FPCAL/CLK/FRM/MCLK AMOD LPF LVDS DRIVE A/D IC. MHz MIC AMP UFF X0 (. MHz) A/D MIC UNI J MICE MIC AF OU +V P SQL MIC U/D AMP Q0 Q0 IC00 MICI RF IC IC00 IC00 IC00 DISPLAY UNI X signal RX signal AMP FPGA MAIN UNI FPGA LOCK DIAGRAM (ransmit circuits) FPGA (IC) DSP (IC0) Mixer LPF MIC MIC AMP A/D PF khz khz ransmit IF PF MOD D/A Mixer 0 Phase shift LO (DDS) - LPF 0 Phase shift Image Rejection Mixer LPF ransmit RFsignal

16 SECION ADJUSMEN PROCEDURE - PREPARAION M REQUIRED EQUIPMENS EQUIPMEN GRADE AND RANGE EQUIPMEN GRADE AND RANGE Shunt plug Modified. mm (/ inch) monaural plug Dummy Loads (See the illustration below.) Attenuator Impedance: 0 Ω and 00 Ω/0 W Attenuation: 0 d/0 W RF power meter (0 Ω terminated) Measuring range: Frequency range: SWR: Standard signal generator (SSG) Frequency range: 0. 0 MHz Output level: 0 dµ to + dµ ( to dm) Frequency counter Frequency range: 0. 0 MHz Frequency accuracy: ± ppm or better Input level: Less than mw Audio generator (AG) Frequency range: Hz Output level: 00 mv AC Millivoltmeter Measuring range: 0 mv to 0 V 0 W 0. 0 MHz Less than. : M GENERAL CONNECION Front panel AC millivoltmeter Audio generator <Front view> MICE MIC [MIC] [MIC] Rear panel <Rear view> [DC.V] DC power supply (. V/0 A) Fuses A Red [AN] [REMOE] lack (Shunt) Supplied DC cable RF POWER MEER (0 W/0 Ω). mm (/ inch) monaural plug DUMMY LOAD (0 or 00 Ω/0 W) FREQUEY COUNER (0. 0 MHz) AENUAOR (0 d/0 W) SANDARD SIGNAL GENERAOR (0. 0 MHz) NEVER RANSMI while the SSG is connected. -

17 - PREPARAION (continued) M ENERING HE ADJUSMEN MODE ) Connect the shunt plug to [REMOE] (See page -). ) While holding down the [MENU] and [FUION] keys, turn ON the transceiver power. ) he main adjustment menu appears. <Main adjustment menu screen > X US <Sub adjustment menu screen example> FIL X.0.00 US FIL.0.00 ADJUS MODE ADJUS MODE == RX == FRON Preset X/ID UNER/ RX Gain S Meter Adjustment item Rotate to adjust Sub adjustment menu Push to exit the menu Sub adjustment menu M QUIING HE ADJUSMEN MODE ) Remove the shunt plug from [REMOE]. ) urn OFF the power. ) urn ON the power again. - RECEIVE ADJUSMENS ouch [RX] on the main adjustment menu screen. NOE: DO NO change the SSG output level until the second beep sounds. ADJUSMEN IEM PREPARAION RX OAL GAIN S-MEER OPERAION VALUE ) Connect the SSG to the antenna connector, and then set it as: Frequency :. MHz Modulation : None ) ouch [GAIN] to enter to the receive adjustment mode. Display: "otal Gain PRE OFF ref" Set the SSG as; ouch [SE]. Receive Level : + dµ ( dm) (A beep sounds, and then another beeps sound sec. later.) Display: "otal Gain PRE OFF set" Set the SSG as; ouch [SE]. Receive Level : OFF (A beep sounds, and then another beeps sound 0 sec. later.) Display: "otal Gain PRE ref" Set the SSG as; ouch [SE]. Receive Level : + dµ ( dm) (A beep sounds, and then another beeps sound sec. later.) Display: otal Gain PRE set" Set the SSG as; ouch [SE]. Receive Level : OFF (A beep sounds, and then another beeps sound 0 sec. later.) Display: "HF S Level" Set the SSG as; ouch [SE]. Receive Level : + dµ ( dm) (A beep sounds, and then another beep Display: "HF S+0 Level" Set the SSG as; sounds sec. later.) Receive Level : +0 dµ ( dm) Push [EXI] to return to the main adjustment menu. RANSCEIVER'S CONDIION -

18 - X IDLING CURREN ADJUSMENS ouch [X/ID] on the main adjustment menu screen. NOE: he transceiver automatically transmits when a X adjustment item is selected. ADJUSMEN IEM PREPARAION ADJUSMEN RANSCEIVER'S CONDIION OPERAION ) Connect the power meter (or dummy load) to the antenna connector. ) ouch [ID] to enter to the X idling current adjustment mode. Display: VDL IDL Set Receive Display: FINAL ID SE Receive Display: FINAL IDV ransmit (automatic) Display: FINAL IDV ransmit (automatic) Display: DRIVER ID SE ransmit (automatic) Display: DRIVER IDV ransmit (automatic) Push [EXI] to return to the X adjustment menu. - VALUE ouch [SE]. (A beep sounds, and then another beep sounds 0. sec. later.)

19 - X POWER ADJUSMENS ouch [X/ID] on the main adjustment menu screen. NOE: he transceiver automatically transmits when a X adjustment item is selected. ADJUSMEN IEM RANSCEIVER'S CONDIION Display: X POWER SE X POWER & Receive POWER MEER SEING (Preparation) (HF AND) Display: "X otal HF Gain" ransmit (automatic) Display: "POWER HF %" ransmit (automatic) Display: "POWER HF 0%" ransmit (automatic) Display: "POWER HF UNE" ransmit (automatic) Display: "POWER HF 0%" ransmit (automatic) Display: "POWER HF 00%" ransmit (automatic) AM CARRIER POWER (HF AND) Display: "POWER AM Ratio HF" ransmit (automatic) Display: "POWER 0M SE" ransmit (automatic) 0 Display: "X otal 0M Gain" X POWER & ransmit (automatic) POWER MEER SEING (0 MHz band) AM CARRIER POWER RAIO (0 MHz band) OPERAION ADJUS POIN VALUE ) Connect the AG with the millivoltmeter to [MIC], and then set it as; Frequency :. khz Level : 0 mvrms ) Connect the power meter to the antenna connector. ) ouch [Power] to enter to the X power adjustment mode. Adjust the X power by rotating [MAIN DIAL] 0 W [MAIN DIAL], and then touch [SE]. (A beep sounds, and then another beeps sound 0. sec. later.) W (A beep sounds, and then another beeps sound 0. sec. later.). W (A beep sounds, and then another beeps sound 0. sec. later.). W (A beep sounds, and then another beeps sound 0. sec. later.) 0 W (A beep sounds, and then another beeps sound 0. sec. later.) W ) ouch [SE]. (A beep sounds, and (Automatically starts to transmit.) then another beeps ) Adjust the X power by rotating sound 0. sec. later.) [MAIN DIAL], and then touch [SE]. ouch [SE]. Adjust the X power by rotating [MAIN DIAL], and then touch [SE]. 0 W (A beep sounds, and then another beeps sound 0. sec. later.) Display: "POWER 0M %" W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.) Display: "POWER 0M 0%". W ransmit (automatic) (A beep sounds, and then another beeps Display: "POWER 0M UNE" sound 0. sec. later.) ransmit (automatic) [MAIN DIAL] Display: "POWER 0M 0%". W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.) Display: "POWER 0M 00%" 0 W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.) W Display: "POWER AM Ratio 0M" ) ouch [SE]. (A beep sounds, and ransmit (automatic) (Automatically starts to transmit.) then another beeps ) Adjust the X power by rotating sound 0. sec. later.) [MAIN DIAL], and then touch [SE]. Display: "POWER 0M SE" ouch [SE]. Receive (Continued on the next page.) -

20 - X POWER ADJUSMENS (continued) ADJUSMEN IEM RANSCEIVER'S CONDIION OPERAION Display: "X otal 0M Gain" X POWER & ransmit (automatic) POWER MEER SEING (0 MHz band) AM CARRIER POWER (0 MHz band) Only for [#0, 0 and 0] ADJUS POIN VALUE W (A beep sounds, and then another beeps sound 0. sec. later.) Display: "POWER 0M %" W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.) 0 Display: "POWER 0M 0%". W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.) Display: "POWER 0M UNE" 0 W ransmit (automatic) (A beep sounds, and [MAIN DIAL] then another beeps sound 0. sec. later.) Display: "POWER 0M 0%". W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.) Display: "POWER 0M 00%". W ransmit (automatic) (A beep sounds, and then another beeps sound 0. sec. later.). W Display: "POWER AM Ratio 0M" ) ouch [SE]. (A beep sounds, and ransmit (automatic) (Automatically starts to transmit.) then another beeps ) Adjust the X power by rotating sound 0. sec. later.) [MAIN DIAL], and then touch [SE]. Push [EXI] to return to the main adjustment menu. - X AMPLIFIER ADJUSMENS ouch [X/ID] on the main adjustment menu screen. NOE: he transceiver automatically transmits when a X adjustment item is selected. ADJUSMEN IEM PREPARAION ALC MEER Only for [#0, 0 and 0] DRIVE AMP GAIN RANSCEIVER'S CONDIION OPERAION Display: X POWER SE ) Connect the AG with the millivoltmeter Receive to [MIC], and then set it as; Frequency :. khz Level : 0 mvrms ) Connect the power meter to the antenna connector. ) ouch [ALC] on the X adjustment menu, to enter to the X amplifier adjustment mode. Display: "ALC HF" ransmit (automatic) Display: "ALC 0M" ransmit (automatic) Display: "ALC 0M" ransmit (automatic) Display: "DRIVE HF" ransmit (automatic) Display: "DRIVE 0M" ransmit (automatic) Display: "DRIVE 0M" ransmit (automatic) SWR MEER Only for [#0, 0 and 0] Id APC Display: "SWR (HF)" ransmit (automatic) Display: "SWR (0M)" ransmit (automatic) 0 Display: "SWR (0M)" ransmit (automatic) Display: "ID-APC" ransmit (automatic) Connect the 0 Ω dummy load to the antenna connector. Push [EXI] to return to the main adjustment menu. - VALUE ouch [SE]. (A beep sounds, and then another beeps sound sec. later.) ouch [SE]. (A beep sounds, and then another beeps sound 0 sec. later.) ouch [SE]. (A beep sounds, and then another beeps sound sec. later.) ouch [SE]. (A beep sounds, and then another beeps sound sec. later.) ouch [SE]. (A beep sounds, and then another beeps sound sec. later.) ouch [SE]. (A beep sounds, and then another beeps sound sec. later.)

21 - FREQUEY ADJUSMENS ouch [UNER/] on the main adjustment menu screen. NOE: he transceiver automatically transmits when a X adjustment item is selected. ADJUSMEN IEM PREPARAION RANSCEIVER'S CONDIION OPERAION VALUE ) Connect the power meter to the antenna ouch [UNER/]. (Enters to the [UNER/ connector. ADJ.] menu.) ) ouch [UNER/]. (Enters to the [UNER/ ADJ.] menu.) ) ouch [UNER]. Display: "une IV HF 0M" ouch [SE]. UNER EREE ransmit (automatic) (A beep sounds, and VOLAGE ADJUSMEN then another beeps (HF and 0 MHz bands) sound sec. later.) (0 MHz band) Display: une IV HF 0M ouch [SE]. Only for [#0, 0 and 0] ransmit (automatic) (A beep sounds, and then another beeps sound sec. later.) EREE ) Connect the frequency counter to the FREQUEY antenna connector, through the 0 d attenuator. ) ouch [MENU] adjustment menu MHz Display: " OSC" ) Set the transmit frequency by rotating (±. Hz) ransmit (automatic) [MAIN DIAL]. (A beep sounds, and ) ouch [SE]. then another beeps sound 0. sec. later.) Push [EXI] to return to the main adjustment menu. -

22 SECION. PARS LIS [MAIN UNI] PARS IC IC IC IC IC0 IC IC IC IC IC IC IC IC IC IC0 IC IC IC IC IC IC IC IC IC IC IC IC IC0 IC IC IC0 IC0 IC IC IC IC IC IC00 IC00 IC00 IC IC IC IC IC IC0 IC IC IC IC IC IC IC [MAIN UNI] DESCRIPION S.DC S.REG S.REG S.DC S.REG S.REG S.DC S.DC S.REG S.REG S.REG S.REG S.REG S.REG S.REG S.REG NJM0CR-E-#HMZR NJM0CR-E-#HMZR SNAHCPWR NJM0CR-E-#HMZR PS0RSAR XCAMR-G XCAMR-G ADP0ACPZ-R <FE> LV00DCKR XCAMR-G PS0RSAR PS0RSAR NJM0DLA-E-#FZZ NJM0DLA-E-#FZZ RS000VCFP GC-ZLI-R <MSK> NJU0F-A-E-#ZZZH NJU0F-A-E-#ZZZH RX-0LC U ENQ-0HIP <MSK> XC0FMR-G US0IVFRG CP0-GMR <MAC> PCM0E/K SNAHCGDCKR CSFU(ELF) CWFU(ELF) VHC0F(E) MPDQ-LF-P<KC> NJM0CR-E-#HMZR MS0CDPPA ENQHA-0HIP <MSK> XC0F0MR-G PCMDQR NJM0CR-E-#HMZR PCMDQR SCP PCM0DR SCP CWFK(ELF) SNAHCGU0DCKR SNLVDSDVR SNLVCG0DCKR XC0F0MR-G RF ADC RF ADC SNLVDSDVR A0FP-E XC0FMR-G XC0FMR-G ISLIAZ <MAC> EPCEFIN <AL> LC0-I/SN <SEI> H/V M. LOCAION./0../../..0/../. 0.0/../0../../../../../../../..0/0.0 0./../0.0./. 0./.0 0./../..0/../../.0./../0../../../../../. 0./..0/0../.0./.0./..0/../../../. 0./. 0./../0../. 0./../0../0. 0./0../. 0./../. 0.0/.0./. Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q0 Q0 Q0 Q Q Q Q Q Q Q00 Q0 Q0 Q Q Q Q S.RA S.FE S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.FE S.FE S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA DSC00S0L RZR00P0L LDCZEG <SLVJ> LDCZEG <SLVJ> LDCZEG <SLVJ> LDCZEG <SLVJ> LDAEEG <SLVJ> LDAEEG <SLVJ> LDCZEG <SLVJ> LSC0RG <SLVJ> LSAARG <SLVJ> LSC0RG <SLVJ> LSAARG <SLVJ> PCF0(ELF) RUE00N0 L LDAEEG <SLVJ> LSC0RG <SLVJ> DSC00S0L LSC0RG <SLVJ> LDCZEG <SLVJ> LDAEEG <SLVJ> LDCZEG <SLVJ> LSC0RG <SLVJ> LSC0RG <SLVJ> LDCZEG <SLVJ> SCL--AE-R <SLVJ> LSAARG <SLVJ> LDCZEG <SLVJ> LDAEEG <SLVJ> LDCZEG <SLVJ> LDAEEG <SLVJ>./../..0/../.0./../../..0/../..0/. 0./. 0./..0/. 0./. 0.0/../../..0/../.0./../../../. 0./.0./..0/.0.0/.0./../../../. D D D D D0 D0 D0 D0 D LSS00G <SLVJ> LSS00G <SLVJ> LRV-0G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> Only [#] LSS00G <SLVJ> D0 D D0 D D D D D D D D D D D D D D D D D D D0 D D D D D D FI S.XA D D D D D Eqv.= his component is equivalent to the No. component listed above, and may be substituted on parts orders and repairs. - DESCRIPION D0 D0./../../. 00./. 0./. 0./../. 0./. 0./. PARS S.ZEN X S.XA X 0000 S.XA LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#] LSS00G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> [#0] LSS00G <SLVJ> LSS00G <SLVJ> Only [#0] LSS00G <SLVJ> LSS00G <SLVJ> Only [#0] LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> DZJ0M0L LSS00G <SLVJ> LSS00G <SLVJ> LSS00G <SLVJ> LR0F-0G <SLVJ> LR0F-0G <SLVJ> SV0LF( SV0LF( AP0Q <RYO> DSFSAF.0 MHz (FL-) H/V M. LOCAION 0./.0 0./.0 0./. 0./. 0./. 0./. 0./. 0./. 0./. 0./. 0./.0 0./.0./../..0/0../0../0..0/0../. 0./../../../../../../../. 0./../../.0./../. 0./. 0./. 0./../. X S.XA CR-0 SA.000 MHz <YOK> CR-0 S00A.000 MHz <YOK> CR-00 SA.000 MHz <YOK> CR-0 SA. MHz <YOK> CR- XCHH. MHz L L L L L L L L L L L L L L L L L L L L LQHPN00MP0L E0LA-RN-R-0 SLF0-00MR-PF LQHPN00MP0L LQHPN00MP0L SLF0-00MR-PF LQHPN00MP0L SLF-0MR-PF YC*0MS <VKH> YC*0MS <VKH> NLFV-0K-PF NLFV-0K-PF NLFV-0K-PF NLFV-0K-PF NLFV-0K-PF NLFV-0K-PF LR- KL LQWANRG00D LQWANRG00D LR- KL-S00./.0./../../../../0../. 0.0/../. 0./.0 0./. 0./. 0./. 0./. 0./. 0./. 0./../../../. R R0 R R R R R R R R R R R R R ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (00) ERJGEJ 0 X () ERJGEJ 0 X (00)./0../../../../00../0../0../0../../../../../.0./../. X 0000 S.XA X S.XA 0./../../. 0./. 0.0/. M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount

23 [MAIN UNI] R R0 R R R R R R R R R R R R R R R R0 R R R R R R R R R R0 R R R R R R0 R0 R0 R0 R0 R0 R0 R0 R0 R R R R R R R R R R R R R R R R R R R R R R R R R R R0 R0 R0 R0 R0 R R R R R R R R R R R R R R R R R R0 R0 R0 R0 R0 R0 R0 R R R R R R R R [MAIN UNI] PARS DESCRIPION ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ X (0) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X () ERJGEJ 0 X (00) ERJGEJ-JPW ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () EXVJX EXVJX ERJGEJ X (K) ERJGEJ 0 X (K) EXV0JX EXV0JX EXV0JX ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ X (0K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00K) ERJGEJ 0 X (00) ERJGEJ 0 X (00K) ERJGEJ 0 X (00) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ 0 X (K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ-JPW ERJGEJ 0 X (0K) ERJRHD 00X (00K) ERJRHD 0X (K) ERJGEJ-JPW ERJGEJ 0 X (0K) ERAYKD V (K) ERJRHD 00X (00K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ X (0) ERJGEJ-JPW ERJRKD 0X (0K) ERJRHD 0X (K) ERJRHD 00X (00K) ERJGEJ-JPW ERAYKD V (K) ERJGEJ-JPW ERJRKF0X (0K) LR0UZPJR LR0UZPJ00 ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ X (.K) ERJGEJ 0 X (0K) ERJGEJ X (0) ERJGEJ X (.K) ERJGEJ X (.K) H/V M. LOCAION./..0/../0.0./../../0../../../../../.0./.0./.0./.0./../../. 0./../../../../../..0/../../../../../../../../../. 0./. 0./0../..0/0../0../../../../. 0./0../../../../../0../. 0./../0../.0./../../../../0../../../../../. 0./../../../. 0./../../../0../0../../../../../.0./../../../../0..0/..0/..0/../../../../../../. 0.0/. 0.0/ /../..0/. 0./. 0./. 0./.0.0/../../../../. 0.0/. 0.0/. R R R R R R R R R R R R R0 R R R R R R R R R R R R R R R R R R R R0 R0 R0 R0 R0 R0 R0 R0 R R R0 R R R R R R R R R R0 R R R R R R R R R R R R R R R0 R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R Eqv.= his component is equivalent to the No. component listed above, and may be substituted on parts orders and repairs. - PARS DESCRIPION ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (K) EXVJX EXVJX EXVJX ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) EXV0JX ERJGEJ X (K) EXV0JX EXVJX EXV0JX EXV0JX ERJRKF 00X (K) ERJRKF 0X (.K) EXV0JX ERJGEJ 0 X (00K) ERJGEJ 0 X (0K) EXV0JX ERJGEJ X (K) EXV0JX ERJGEJ X (K) EXV0JX ERJGEJ X (K) EXV0JX EXV0JX ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (00K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ 0 X (M) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ X (K) ERJGEJ 0 X () ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ 0 X (0K) ERJGEJ X (.K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (M) ERJGEJ 0 X (K) ERJGEJ 0 X (M) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (00K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ X (K) ERJGEJ 0 X (0K) ERJYJRU (.) ERJYJRU (.) ERJGEJ X (K) ERJGEJ 0 X (K) ERJGEJ X (K) ERJGEJ X (K) H/V M. LOCAION./../0.0./0.0./../../. 00./. 00./. 00./0. 00./. 0./. 00./. 0./../0..0/.0./../. 0./0..0/0../.0 0.0/../../../0.0./../0.0./. 0./. 0./0. 0./. 0./../../../../../../../.0./../../../../../. 0.0/../../0../../. 0./.0 0./.0./../..0/.0./. 0.0/.0 0./../../../..0/../../. 0./../../../../../../../.0.0/.0./0..0/..0/../../../../0../0../../../../. 0./../../../../../. 0./..0/../../. 0./. 0./../..0/../../../../.0./../. 0./. M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount

24 [MAIN UNI] R0 R R R R R R R R0 R R R0 R R R R R R R R R R0 R0 R0 R0 R0 R0 R R R R R R R R R R R R R R0 R0 R0 R0 R0 R0 R0 R0 R R R R R R R R R R R R R R R R0 R R R R R R R R R R R R R0 R R R R R R R R R R R R000 R00 R00 R00 R00 R00 R00 R00 R00 R00 R00 R0 R0 R0 R0 R0 R0 [MAIN UNI] PARS DESCRIPION ERJGEJ 0 X (0K) ERJGEJ 00 X (0) ERJGEJ 00 X (0) ERJGEJ X (.K) ERJGEJ X (0K) ERJGEJ X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (K) ERJGEJ X (K) ERJGEJ X (0) ERJGEJ 0 X (K) ERJRHD 00X (00K) ERJGEJ 0 X (00) ERJRHD 00X (00K) ERJGEJ X (K) ERJRKD 0X (0K) ERJGEJ 0 X (00) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (K) ERJGEJ X (K) ERJGEJ 0 X (M) ERJGEJ 0 X (K) ERJGEJ 0 X (M) ERJGEJ 0 X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ X (.K) EXV0JX EXV0JX ERJGEJ 0 X () EXV0JX EXV0JX ERJGEJ X (K) EXV0JX EXV0JX ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (K) ERJGEJ X (K) ERJGEJ 0 X (K) EXV0JX ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJRHD 0X (K) ERJGEJ 0 X (00K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (00) EXV0JX ERJGEJ 0 X (00) ERJGEJ X (0) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ 0 X (00) ERJGEJ 0 X (00) EXV0JX ERJGEJ 0 X () ERJGEJ 0 X (00) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ X (.K) ERJGEJ X (K) ERJGEJ X (K) H/V M. LOCAION./../../../. 0./. 0./../. 0./.0 0./. 0./.0 0./../../../0../../../../.0./.0./.0./.0./../../../../../0../../../.0./.0./..0/.0./.0./..0/../../../.0.0/. 0./.0 0./. 0./.0 0./. 0./. 0./. 0./. 0./.0.0/../..0/. 0./. 0./../../0../.0./0../../. 0./. 0./../. 0./. 0./../../../../../../.0./0../..0/.0./../../.0./. 0./../../. 0./../../../.0./../.0.0/../..0/..0/..0/../..0/../../0../../../../. 0./. 0./../../../../. Eqv.= his component is equivalent to the No. component listed above, and may be substituted on parts orders and repairs. - PARS DESCRIPION H/V M. LOCAION R0 R0 R00 R0 R0 R0 R0 R0 R0 R0 R0 R0 R R R R R R R R R R R R R R R R R R R R R R R R R R0 R0 R0 R0 R R R R R R R R R R R R R R R R R R R R R R R R R R R0 R R R R R R R R R ERJGEJ X (K) ERJGEJ X (K) ERJGEJ-JPW ERJGEJ 0 X (K) ERJGEJ X (0) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ 0 X () ERJGEJ 0 X (0K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (0K) ERJGEJ 0 X (00) ERJGEJ-JPW ERJGEJ 0 X (00) ERJGEYJ V (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ X (0) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (0) ERJGEJ-JPW ERJGEJ X (0) ERJGEJ X (0) ERJGEJ 0 X (0K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ R X (.) ERJGEJ R X (.) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (00) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ X (0) ERJGEJ-JPW ERJYJ R U ERJYJ R U ERJGEJ 0 X (00) ERJRKF RX (.) ERJGEJ X (0) ERJGEJ X (.K) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) EXV0JX ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (00) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ X (K)./../../../..0/../../. 0./../.0.0/. 0./../..0/0..0/. 0./. 0.0/../..0/0../0../. 0./. 0./. 0./../../. 0./. 0./. 0./. 0./. 0./. 0./../0. 0./0../../../0../0../../../. 0./0. 0./..0/00../../../../../../../0.0./../0../0../0../0../0../../../../0../../..0/../../../.0 0./00.0./0../0../0../0../00../..0/00.0./../../. C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C S.ELE C00 J C 0K- C00 J C 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J C 0K- C00 J H 0K- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 J H 0K- CE 0 LX C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J H 0K- C00 J H 0K- C00 CH H 0J- C00 CH H 0J- C00 J H 0K-./../../../0../. 0./../../../.0./../../../00../0../0../0../..0/../../../../../../../../.0 M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount

25 [MAIN UNI] C C0 C C C C C C C C C C C C C C C C C C C C C C C0 C C C C C C C C C C C C0 C C C C C C C C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C C [MAIN UNI] PARS DESCRIPION S.ELE ELE S.ELE S.ELE C00 CH H 0J- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- CE 0 LX C00 J C 0K- C00 J E 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 J H 0K- C00 J H 0K- C00 CH H 0J- C00 CH H 0J- C00 J H 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- GRME0KAD C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- GRMC0KEL GRMC0KEL GRME0KAD GRMC0KEL GRMC0KEL GRMC0KEL GRMC0KEL C00 CH H 00C- GRME0KAD GRMCKED GRME0KAD GRMCKED GRMC0KEL GRMC0KEL GRMC0KEL GRME0KAD GRME0KAD GRME0KAD C00 J C 0K- DXN-RHU GRMECKEL GRME0KAD GRMECKEL GRMECKEL C00 CH H 00C- GRMECKEL CE 0 LX GRMC0KEL GRMC0KEL GRME0KAD GRMC0KEL GRMC0KEL GRMC0KEL GRMC0KEL C00 CH H 00C- GRMC0KEL GRMCKED C00 J C 0K- C00 J C 0K- CE 0 LX GRMC0KEL C00 J C 0K- GRMCKED C00 J C 0K- GRMC0KEL C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- GRMC0KEL C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- H/V M. LOCAION./../..0/..0/0../../../../../../.0./../../0../../../../../../0../../../../../../../../../0../../../../../../.0./.0./../..0/..0/0.0.0/0.0.0/../../../../../../0../../../../../../../. 0./../0..0/. 0./../../../../../. 0./.0./0../../..0/../0..0/../../. 0./../.0./../../../../0../0../../..0/../../../../../. 0.0/. 0.0/. 0.0/. 0.0/. 0.0/. 0.0/. 0.0/. 0./. 0./. 0.0/../.0./.0./../../.0./.0 C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C C C C C C C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C C C C0 C C C C C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C C C C C C0 C C C C C C C C C Eqv.= his component is equivalent to the No. component listed above, and may be substituted on parts orders and repairs. - PARS DESCRIPION C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 CH H 0J- C00 CH H 0J- C00 J C 0K- C00 J A K- C00 J C 0K- C00 J A K- C00 J C 0K- GRME0KAD C00 J C 0K- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 CH H J- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 J H 0K- GRMCKED GRME0KAD GRMC0KEL C00 CH H 0J- C00 J C 0K- C00 J C 0K- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 J C 0K- C00 CH H 0J- C00 CH H 0J- GRME0KAD GRME0KAD C00 J C 0K- GRMC0KEL C00 J C 0K- GRMC0KEL C00 CH H 0J- GRMC0KEL GRMC0KEL GRMC0KEL GRMC0KEL C00 J C 0K- C00 CH H 0J- C00 J C 0K- GRMC0KEL GRMC0KEL GRMC0KEL GRME0KAD C00 J C 0K- C00 J C 0K- GRMC0KEL GRMC0KEL H/V M. LOCAION./../.0./../..0/.0./../.0./..0/.0./.0./..0/../.0./.0./. 0.0/..0/..0/0..0/..0/..0/..0/..0/..0/../.0./../../../../../. 0.0/../../0.0./../. 0./. 0./0..0/..0/..0/..0/..0/..0/0. 0./.0.0/..0/0..0/../0..0/0../.0./0../.0./0../../../0../../../../../../../..0/../..0/../../0../.0./../0../../../../0../../../../../0../.0.0/.0./../../../../../../..0/..0/.0.0/../.0./.0./../. 0./. 0./../../../../../../0. M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount

26 [MAIN UNI] C C C0 C0 C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C C0 C C C C C0 C C C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C0 C C C C C C C C C C C C [MAIN UNI] PARS DESCRIPION S.ELE S.ELE S.ELE S.ELE S.AN S.AN S.AN S.AN S.AN S.AN S.AN S.AN C00 CH H 00C- C00 J C 0K- C00 J C 0K- CE 0 LX CE 0 LX GRME0KAD GRMCKED C00 CH H 0J- C00 J C 0K- GRMC0KEL GRMCKED C0 CH H J- C00 CH H J- C0 J H K AEX C00 J C 0K- C0 J E K- C0 J E K- CE 0 LX GRME0KAD C00 J C 0K- CE 0 LX C00 CH H 0J- C00 J E 0K- C00 J E 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J E 0K- C00 J H 0K- C00 J E 0K- C00 J C 0K- C00 J E 0K- GRMCKED GRMCKED C00 CH H 0J- F0JMAMA F0JMAMA C00 CH H 0J- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J E 0K- F0JMAMA F0JMAMA C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- F0JMAMA F0JMAMA C00 J C 0K- F0JMAMA C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- F0JMAMA C00 CH H 0J- GRMCKED GRMCKED GRMC0KEL C00 J C 0K- GRMC0KEL C00 CH H J- C00 CH H J- H/V M. LOCAION./../../../. 0./../. 0./../.0 0./../0../..0/../.0./../0../../. 0./. 0./. 00./../.0 0./.0 0./.0./../../0../../../.0.0/.0./../.0.0/0.0./..0/.0.0/.0./../..0/.0./../. 0./0../0. 0./. 0./../.0 0./. 0./. 0./. 0./0. 0./. 0./.0 0./. 0./. 0./. 0./. 0./. 0./. 0./. 0./. 0./../.0./../../../../../../../../../../../../../../../. 0.0/../. 0./../../../../../../0../../../../../../../../0../../../..0/.0./.0./.0./../../../. C C C C C C C C C C C C C000 C00 C00 C00 C00 C00 C00 C00 C00 C00 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C00 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C0 C C C C0 C C C C C C C C C C C C C C C C C C C C C C C C C C0 C C C C C C C C00 C0 C0 C0 C0 C0 C0 C C C C C C C C C C C C C C Eqv.= his component is equivalent to the No. component listed above, and may be substituted on parts orders and repairs. - PARS DESCRIPION S.ELE C00 J C 0K- C00 J C 0K- C00 J C 0K- GRMC0KEL C00 J C 0K- GRMC0KEL GRMC0KEL C0 CH H J- C0 CH H J- C00 J C 0K- C00 J C 0K- C00 CH H J- C00 CH H J GRMC0KEL GRMC0KEL C00 J C 0K- GRMC0KEL C00 J C 0K- C00 J C 0K- GRMC0KEL GRMC0KEL GRMC0KEL GRMCKED GRMCKED C00 CH H J- C00 CH H J- C00 J C 0K- GRMC0KEL GRMCKED CE 0 LX GRMC0KEL C00 J C 0K- GRMC0KEL C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- C00 J E 0K- C00 J C 0K- C00 J H 0K- C00 J C 0K- C00 J H 0K- C00 CH H 00C- C00 J E 0K- C00 CH H 0R- C00 J E 0K- C00 J H 0K- C00 J C 0K- C00 J E 0K- GRMCKED C00 J C 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- GRMCKED GRMCKED C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J C 0K- C00 J H 0K- C00 J H 0K- C00 J H 0K- C00 J C 0K- C00 J C 0K- GRMC0KEL C00 CH H 0J- C00 J C 0K- C00 J C 0K- C00 CH H 0J- C00 CH H 0J- C00 CH H 0J- GRMC0KEL C00 J C 0K- GRMC0KEL C00 J C 0K- C00 J C 0K- C00 J C 0K- GRMC0KEL C00 J C 0K- C00 J C 0K- C00 J E 0K- C00 J H 0K- C00 J H 0K- GRMCKED GRMCKED GRMCKED GRMCKED GRMCKED GRMCKED C00 J C 0K- C00 J C 0K- C00 J C 0K- GRMC0KEL H/V M. LOCAION./.0.0/../../../.0./../.0./../. 0./../../.0./../. 0./0. 0./. 0./..0/../../../../../.0.0/../../../../../..0/../../..0/. 0./.0 0./. 0./. 0./. 0./../../../../../0. 0./0../. 0./../..0/../.0./../..0/../../0../0. 0./../../. 0./../.0./.0.0/../. 00./. 0./0. 0./. 0./0. 0./../. 0./. 0./. 0./. 0./0. 0./0. 0./0. 0./0. 0./0../../../../../.0./..0/0../..0/0../0../0../0. 0./../0../../../../. 0./0../0. 0./../0. 0./. 0.0/../0.0./../../. M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount