HF/MHz TRANSCEIVER S-XZ-C Feb.
INTRODUCTION This service manual describes the latest service information for the IC- HF/MHz TRANSCEIVER at the time of publication. CAUTION NEVER connect the transceiver to an AC outlet or to a DC power supply that uses more than specifed. This will ruin the transceiver. MODEL IC- VERSION USA EUR FRA ITR ESP UK KOR 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 dbm ( mw) to the antenna connector. This could damage the transceiver s front-end. To upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation. Be sure to include the following four points when ordering replacement parts:. -digit Icom parts numbers. Component name. Equipment model name and unit name. Quantity required <ORDER EXAMPLE> ORDERING PARTS S.IC TAFNG IC- MAIN UNIT pieces Screw screw IC- Top cover pieces Addresses are provided on the inside back cover for your convenience. REPAIR NOTES. Make sure the problem is internal before disassembling the transceiver.. DO NOT open the transceiver until the transceiver is disconnected from its power source.. DO NOT force any of the variable components. Turn them slowly and smoothly.. DO NOT short any circuits or electronic parts. An insulated tuning tool MUST be used for all adjustments.. DO NOT keep power ON for a long time when the transceiver is defective.. DO NOT transmit power into a Standard Signal Generator or a Sweep Generator.. ALWAYS connect a db to db attenuator between the transceiver and a Deviation Meter or Spectrum Analyzer when using such test equipment.. READ the instructions of test equipment throughly before connecting a test 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.
CONTENTS SECTION SPECIFICATIONS SECTION INSIDE VIEWS SECTION CIRCUIT DESCRIPITON - RECEIVER CIRCUITS........................................................ - - TRANSMITTER CIRCUITS.................................................... - - FREQUEY SYNTHESIZER CIRCUITS........................................ - - MAIN CPU PORT ALS.............................................. - SECTION ADJUSTMENT PROCEDURES - PREPARATION............................................................. - - ADJUSTMENTS ON THE OSC UNIT AND PLL UNIT............................... - - ADJUSTMENTS ON THE RF UNIT............................................. - - ADJUSTMENTS ON THE PAW BOARD....................................... - - ADJUSTMENTS ON THE MAIN UNIT (including RF UNIT)........................... - - ADJUSTMENTS ON THE SCOPE UNIT.......................................... - - AUTOMATIC ADJUSTMENTS.................................................. - SECTION PARTS LIST SECTION MECHANICAL PARTS SECTION BOARD LAYOUTS SECTION GENERAL WIRING SECTION BLOCK DIAGRAM SECTION SCHEMATIC DIAGRAM FRONT UNIT............................................................... - LOGIC UNIT............................................................... - MAIN UNIT................................................................. - PLL UNIT.................................................................. - OSC UNIT................................................................. - ANT-SW UNIT.............................................................. - DIGISEL UNIT.............................................................. - RF UNIT................................................................... - NETWORK BOARD.......................................................... - CTRL BOARD.............................................................. - FILTER UNIT............................................................... - PAW BOARD............................................................ - SCOPE UNIT............................................................... - DC-DC UNIT............................................................... -
SECTION SPECIFICATIONS D General Frequency coverage (unit: MHz) : Receiver..* Transmitter..*,..*,.*,.*,.*,.*,.*,..*, *,..*,..*,..*,..*,..*,..* * Some frequency ranges are not guaranteed. * Depending on versions. * USA version only. Operating mode : USB, LSB, CW, RTTY, PSK, AM, FM Number of memory channels : ( regular, scan edges) Antenna connector : SO- (antenna impedance: ) Operating temperature range : C to + C; + F to + F Frequency stability : Less than ±. ppm (approx. min. after from turn the main power, [I/O], ON, C; F) Frequency resolution : Hz Power supply requirement : V AC (universal input) Power consumption : Receive Stand-by VA typical Max. audio VA typical Transmit at W VA Dimensions (projections not included) : mm; in Weight : Approx.. kg; lb ACC connectors : -pin DIN connector ACC connectors : -pin DIN connector Display* : -inch (diagonal) TFT color LCD ( ) EXT-DISPLAY connector : D-sub S CI-V connector : -conductor. (d) mm ( ) RS-C connector : D-sub -pin USB connector : USB (Universal Serial Bus)./. D Transmitter Transmit output power : SSB, CW, RTTY, PSK, FM AM Modulation system : SSB AM FM Spurious emission : Harmonics Unwanted emission (except Harmonics) Out of band emission Carrier suppression Unwanted side-band suppression TX variable range Microphone connector ELEC-KEY connector KEY connector RELAY connector ALC connector W W D.P.S.N. modulation Digital low power modulation Digital phase modulation More than db (HF bands) More than db ( MHz band) More than db (HF bands) More than db ( MHz band) More than db (HF bands) More than db ( MHz band) : More than db : More than db : ±. khz : -pin connector ( ) : -conductor. (d) mm ( ) : -conductor. (d) mm ( ) : Phono (RCA) : Phono (RCA) -
D Receiver Receive system : Double conversion superheterodyne system Intermediate frequencies : st. MHz nd khz Sensitivity (typical) : SSB, CW, RTTY (BW=. khz, db S/N). MHz. µv (pre-amp ON).. MHz µv (pre-amp ON).. MHz µv (pre-amp ON) AM (BW= khz, db S/N). MHz. µv (pre-amp ON).. MHz µv (pre-amp ON).. MHz µv (pre-amp ON) FM (BW= khz, db SINAD).. MHz. µv (pre-amp ON).. MHz. µv (pre-amp ON) Internal Modulate Distortion (typical) : Dynamic range db (at. MHz, khz separation, pre-amp OFF, CW mode; BW= Hz) Selectivity : SSB, RTTY (BW=. khz) More than. khz/ db Less than. khz/ db CW (BW= Hz) More than Hz/ db Less than Hz/ db AM (BW= khz) More than. khz/ db Less than. khz/ db FM (BW= khz) More than. khz/ db Less than. khz/ db Spurious and image rejection ratio : More than db Squelch sensitivity (pre-amp OFF) : SSB, CW, RTTY, PSK Less than. µv FM Less than µv RIT variable range : ±. khz Audio output power : More than. W at % distortion with an load PHONES connector : -conductor. (d) mm ( ) EXT-SP connectors : -conductor. (d) mm ( )/ D Antenna tuner Matching impedance range Minimum operating input Tuning accuracy Insertion loss (after tuning) :. to unbalanced (HF bands; VSWR better than :) to unbalanced ( MHz band; VSWR better than.:) : W (HF bands) W ( MHz band) : VSWR.: or less : Less than. db All stated specifications are typical and subject to change without notice or obligation. -
SECTION INSIDE VIEW (viewing from the bottom) MAIN UNIT RF UNIT PLL UNIT SCOPE UNIT DIGISEL UNIT (under the cover) OSC UNIT -
SECTION CIRCUIT DESCRIPTION - RECEIVER CIRCUITS ANT-SW UNIT Antenna switching relays (RL,,, ) select the RX signals which are from [ANT] [ANT], and the relays are controlled by relay controller (IC). RX signals from [ANT] [ANT] are applied to the CTRL BOARD, RX signals from [ANT] are applied to the RF UNIT directly. CTRL BOARD The CTRL BOARD has TX/RX switch which toggles the RF path between in TX and RX. RX signals from the ANT-SW UNIT are passed through the TX/RX switches (RL ), and applied to the RF UNIT. RF UNIT RF UNIT contains receive circuits; from RX BPF to nd RX IF AMP. The RX signals are filtered by BPFs to remove unwanted signals and amplified, then down-converted twice into nd IF signal. The received signals from the ANT-SW UNIT and CTRL BOARD are passed through some relays and attenuators, then filtered by BPFs which is assigned to filter the RX signals that desired to receive. The filtered RX signals are amplified by RF AMPs before being applied to the st mixer.. MHz SIGNALS The RX signals from the band SW (RL) are passed though one of the BPF or LPF. The filtered signals are entered to the DIGISEL UNIT, and gone through or by-passed the DIGISEL (Digital RF Selector Switch) filter. When the DIGISEL function is activated, the RX signals are passed through the DIGISEL SW (RL) and narrow bandwidth filter (D_SEL) which filters out unwanted signals with its sharpen frequency response. The filtered signals are amplified by the RF AMP (Q) which recovers the insert loss of the D_SEL filter, then backed to the RF UNIT via DIGISEL SW (RL). MHz SIGNALS RX signals from the band SW (RL) are passed though one of the BPFs (Fc= MHz or Fc= MHz) to remove unwanted signals. The filtered signals are amplified by one of (or both of) the Pre-AMPs (or by-passed; according to the setting). The amplified RX signals are then applied to the st mixer (Q, ) via the LPF. The RX signals are mixed with the st LO signals from PLL UNIT (the st LO signals are gone through LO AMP (Q), HPF and LPF before being applied.) to be converted into the st RX IF signal. A portion of st IF signal is applied to the SCOPE UNIT via buffer (Q). The converted st RX IF signal is then filtered by one of st IF filters on the MCF BOARDs (FI). Selecting of the filter to pass is carried out by IF SW (IC, ). The filtered st RX IF signal is amplified by two st IF AMPs (Q ), then splitted into two before being applied to the nd mixers; as a image rejection mixer (IC, ). Each divided st RX IF signal is mixed with nd LO signals from the PLL UNIT (gone through ATT, LO AMP (Q), buffer (IC) and another buffer (IC)), to be converted into the khz nd RX IF signal. One of the LO signal is degrees phase-shifted before being applied to the nd mixer (IC), and the converted nd RX IF is degrees phase-shifted too. These converted nd RX IF signals are buffer-amplified by buffer (IC/IC) and amplified by nd IF AMP (IC/IC). Then the nd RX IF signals whose phase is different each other are phase-shifted by the phase shifter (IC), then composed by the composer (IC). The composed nd RX IF signal is amplified by another nd IF AMP (IC), then entered to the MAIN UNIT. The RX signals from the DIGISEL UNIT are applied to or by-passed the Pre-AMP. When the Pre-AMP/ is activated, the RX signals are applied to the Pre-AMP (for all HF bands) or Pre-AMP (for MHz and above) via P.AMP SW (RL), and the amplified RX signals are applied to the st mixer (IC) via the P.AMP SWs (RL, ) and LPF. The RX signals are mixed with the st LO signals from the PLL UNIT (st LO signals are gone through LO AMPs (Q,, ) before being applied.) to be converted into the st RX IF signal. FREQUEY CONFIGURATION Signal Frequency Signal Frequency st RX IF. MHz st RX LO.. MHz nd RX IF khz nd RX LO. MHz st TX IF khz st TX LO.. MHz nd TX IF khz nd TX LO MHz rd TX IF (*) *; Refer to "SPECIFICATIONS." -
MAIN UNIT MIAN UNIT contains receive circuits; from demodulator to AF circuits. The nd IF signal is demodulated by digital audio processing circuits. DEMODULATOR CIRCUIT The khz nd RX IF signal from the MAIN UNIT is applied to the Analog to Digital Converter (ADC; IC) via the IF mute SW (IC) and unbalance-balance convert circuit (IC, ), to be converted into the -bit serial data. The serial data is applied to the DSP (IC) and processed as digital audio signals. The processed digital audio signals are then applied to the Digital Audio Converter (DAC; IC) to be converted into the analog audio signals; as recovered AF signals. The recovered AF signals are applied to the RX AF circuits via buffer (IC). RX AF CIRCUITS The recovered AF signals are amplified and level-adjusted, then output from the audio interfaces. (The destination of AF output signals is depends on the setting) SCOPE UNIT The st RX/TX IF signal from the buffer (Q) on the RF UNIT are passed through the scope IF SW (IC), scope ATT, LPF and BPF (dual tuned), and amplified by scope AMP (Q) then applied to the nd scope mixer (D). The st IF signal is converted into the MHz nd scope IF signal (SIF), and filtered to remove unwanted signals, then amplified by the nd scope IF AMPs (Q and Q). The amplified nd scope IF signal is applied to the rd scope mixer (D) to be converted into the khz rd scope IF signal. The converted signal is amplified by the rd scope IF AMP (IC), filtered by the active LPF (IC), level-limited by the saturation AMP (IC). The level-limited signal is applied to the ADC (IC) which samples the khz rd scope IF signal (. V) into digital signal, then applied to the DSP (IC) as the serial data. The DSP processes input data, then output to the CPU to display the frequency and relative signal strength of RX signals on the spectrum screen. <OUTPUT FROM Int./Ext. SPEAKER> The recovered AF signals from the buffer (IC) are passed through the SQL SW (Q), and applied to the AF AMP (IC). The amplified AF signals are splitted into two AF lines; one is bound for the headphones jack (J) on the FRONT UNIT, another is bound for the internal speaker (SP)/external speaker via the external SP jack (J) on the MAIN UNIT. Both of AF signals on each AF lines are applied to the -channel Voltage Controlled Amplifier (VCA; IC) whose gain is determined by applied control voltage to be adjusted its signal level. The level-adjusted AF signals are applied to the AF power AMP (IC) which power-amplifies to obtain audio output power, via LPF (Q/). The power-amplified AF signals are passed through the AF mute SW (RL), then applied to the internal speaker (SP) via the external SP jack (J), or an external speaker on the MAIN UNIT. When the headphones are connected to the headphones jack (J) on the FRONT UNIT, the power-amplified AF signals from the AF power AMP (IC) are applied to the connected headphones. <TO THE AUDIO STORAGE> When recording received audio, recovered AF signals from the buffer (IC) are also send to the audio storage (IC) on the LOGIC UNIT to be recorded. <OUTPUT FROM ACC PORT> The recovered AF signals from the buffer (IC) are amplified by AF AMPs (IC), the amplified AF signals are applied to the VCA (IC) to be adjusted its signal level. The level-adjusted AF signals are output from [ACC] socket. -
- TRANSMITTER CIRCUITS MAIN UNIT The MAIN UNIT contains transmit circuits; from MIC AMP to modulator cicuit. TX AF CIRCUITS The audio signals from the microphone (MIC signals) are amplified by MIC AMP (IC) and level-adjusted by VCA (IC). The level-adjusted MIC signals are passed through the MIC mute SW (IC) and MIC line selector (IC) which selects the MIC line; MIC signals from the microphone jack on the FRONT UNIT, or from [ACC] socket on the MAIN UNIT. The MIC signals are then applied to the limiter AMP (IC) which limits the amplitude of MIC signals. The amplitudelimited MIC signals are applied to the ADC (IC) via the unbalance-balance convert circuit (IC,, ), to be converted into the -bit serial data. The serial data is applied to the DSP (IC) and processed as digital audio signals. The processed digital audio signals are then applied to the Digital to Analog Converter (DAC; IC) to be converted into the analog audio signals; as the khz st TX IF signal. The st TX IF signal is entered to the RF UNIT. RF UNIT RF UNIT contains transmit circuits; TX mixers and AMPs. The khz st TX IF signal from the MAIN UNIT is applied to the st TX mixer (IC) to be mixed with the khz rd LO signal from the PLL UNIT, to be converted into the khz nd TX IF signal. The converted nd TX IF is amplified by the nd IF AMP (Q), filtered by nd TX IF filter (FI for BW= khz or FI for BW= khz). The filtered nd TX signal is amplified by nd IF AMP (Q), and applied to the nd TX mixer (D) to be mixed with the MHz nd LO signal from the PLL UNIT, to be converted into the. MHz rd TX IF signal. The converted rd TX IF signal is passed through the BPF (FI), amplified by rd IF AMP (Q), and filtered by the LPF. The filtered rd TX IF signal is applied to the rd TX mixer (D) to be mixed with the rd LO signal from the PLL UNIT, to be converted into the th TX IF signal (=TX signal). The converted TX signal is filtered by the LPF, amplified by RF AMP (Q), passed through one of BPFs, then applied to the YGR AMP (Q). CTRL BOARD The CTRL BOARD mainly contains circuits for parameter detection of TX signal; Forward Wave, Reflected wave, Reactance, Resistance, antenna current and voltage. TX signal from the FILTER UNIT is passed through several detection circuits in sequence, then applied to the antenna [ANT] [ANT]. FOR (Forward Wave) voltage detection circuit A portion of TX signal is rectified by current trans (L) and diode (D), and the produced DC voltage is composed by C, C and C to detect FOR voltage (Forward wave components). The detected voltage is amplified by IC and applied to the A/D port of CPU (IC). REF (Reflected Wave) voltage detection circuit A portion of TX signal is rectified by current trans (L) and diode (D), and the produced DC voltage is composed by C, C, C, C and C to detect REF voltage (Reflected wave components). The detected voltage is amplified by IC and applied to the A/D port of CPU (IC). Reactance components detection circuit A portion of TX signal which is detected by current trans (L) and TX signal which is divided by C and C are amplified by C-MOS IC. This AMP, as the first stage, employs a C-MOS type AMP to detect the low TX signal. The inverter AMP requires input level lower than others need, and provides high speed operation for stable high frequency operation with low TX signal. The amplified signal is adjusted its waveform, then applied to the IC and IC for phase comparison. The output signal is rectified by D and D, composed and amplified by IC, then applied to the A/D port of the CPU (IC). Resistance components detection A portion of TX signal which is detected by current trans (L) and TX signal which is divided by C, C and C are adjusted so that two of these are the same on the voltage. And two of these are rectified composed each other to detect the resistance components. When the detected voltage is increased, Q is activated to amplify the signal for high detection sensitivity. The amplified TX signal is entered to the PAW BOARD. PAW BOARD TX AMPLIFIERS The TX signal from the RF UNIT is amplified by the RF AMP (Q), Pre-drive (Q), drive (Q) and power (QA, B) amplifiers in sequence, to obtain TX output power. The power-amplified TX signal is entered to the FILTER UNIT. FILTER UNIT TX FILTERS The power-amplified TX signal from the PAW BOARD is passed through one of BPFs (according to the TX frequency) to remove unwanted signals including harmonic components. The filtered TX signal is then entered to the CTRL BOARD. -
- FREQUEY SYNTHESIZER CIRCUITS PLL UNIT PLL UNIT provides LO signals; st LO for TX/RX IF circuits, nd RX LO (. MHz), nd TX LO ( MHz), rd TX LO ( khz), marker frequency ( khz), reference frequency for the SCOPE UNIT ( MHz) and clock signal for the DSP UNIT (. MHz). These LO signals are generated by the reference signal from the OSC UNIT as reference. This transeiver employs the Direct Digital Synthesizer (DDS) which digitally creates arbitrary waveforms and frequencies from a fixed source frequency, to provide extremely high resolution and stability frequency and pure waveform. Reference frequency signal The MHz reference frequency signal generated on the OSC UNIT is applied to the th harmonic extractor (Q, L, ) via buffer (Q) to produce the MHz reference signal. st LO signals The MHz reference signal from the harmonic extractor is amplified by Q, and applied to the DDS (IC) as the clock signal. The DDS generates the.. MHz sine waves, and these are passed through the ceramic filter (FI; Fc=. MHz) to adjust the waveform, then applied to the PLL IC (IC) via buffer (Q). The PLL IC (IC) controls the oscillating frequency of VCOs (VCO to VCO) using the reference signal generated by the DDS as reference frequency. VCO Oscillator component Oscillating frequency VCO Q.. MHz VCO Q.. MHz VCO Q.. MHz VCO Q.. MHz VCO Q.. MHz VCO Q.. MHz The output signals of each VCOs (st LO signals) are buffer-amplified by Q, passed through the HPF and LPF, then amplified by the st LO AMPs (Q and Q). The amplified st LO signals are buffer-amplified by Q, passed through the LPF, HPF and ATT, then output to the RF UNIT as st LO signals (.. MHz). <nd TX LO signal> The VCO output signal from the hybrid divider is passed through the ATT, and applied to the nd LO AMP (Q). The amplified VCO output signal is passed through the BPF, then entered to the RF UNIT as the nd TX LO signal. <nd RX LO signal> The VCO output signal from the hybrid divider is passed through the ATT, and applied to the nd LO AMP (Q). The amplified VCO output signal is passed through the ATT and, applied to the nd LO mixer (D) and mixed with the khz rd TX LO signal from the rd TX LO oscillator (IC), to convert into the. MHz nd RX LO signal. The converted nd RX LO signal is passed through the ATT and BPF, and applied to the nd LO AMP (Q). The amplified signal is entered to the RF UNIT as the nd RX LO signal. rd TX LO signal The MHz reference signal from the harmonic extractor is amplified by IC, and applied to the DDS (IC) as the clock signal. Using the clock signal, the DDS directly generates the khz rd TX LO signal. The output signal of DDS is passed through the LPF and HPF, and applied to the buffer AMP (Q). The bufferamplified rd TX LO signal is entered to the RF UNIT via ATT. DSP system clock The MHz reference signal from the harmonic extractor is amplified by IC, and applied to the DDS (IC) as the clock signal. Using the clock signal, the DDS directly generates. MHz system clock signal. The system clock signal is passed through the LPF and HPF, and applied to the buffer (Q). The buffer-amplified system clock signal is entered to the MAIN UNIT via ATT. Scope clock The MHz reference signal from the harmonic extractor is amplified by Q, and entered to the SCOPE UNIT. nd LO signals The MHz reference signal from the harmonic extractor is amplified by IC, and applied to the DDS (IC) as the clock signal. The DDS generates the reference frequency which controls the oscillating frequency of MHz VCO (Q). The output signal of MHz VCO (Q) is buffer-amplified by Q, and applied to the hybrid divider. The hybrid divider divides the VCO output into two; nd TX LO and nd RX LO. -
- MAIN CPU (IC) PORT ALS Pin No. Description IN/ OUT Condtion Clock signal to /LMX (PLL UNIT). (DDS for st LO PLL-IC/DDS, nd TX LO DDS, rd TX LO) O "Serial data to /LMX (PLL UNIT). (DDS for st LO PLL-IC/DDS, nd TX LO DDS, rd TX LO) O N/C O Mode status (Lo or TLo) output. O Chip select siganl to PLL. I/O Strobe to the PLL. O Clock signal to units other than PLL and SCOPE. O Serial data (other than PLL, SCOPE and DSP). O N/C O CI-V format data (UART). O CI-V format data (UART). I Clock to the DSP IC. O Seral data (TXD/RXD) to the DSP. O START signal to the TUNER UNIT (UART, ). O Serial data to the DAC (BU) for ext. S-meter. O Clock (A-clock) to the DAC (BU) for ext. S-meter. O Clock (B-clock) to the DAC (BU) for ext. S-meter. O Power line for liner circuit control signal. O "H"=Power ON Forword wave detected voltage (A/D). I Refl ected wave detected voltage (A/D). I ALC fedback voltage (A/D). I Drain current (fi nal amp.). I Drain voltage (fi nal amp.). I PA UNIT temparature. I Cooling fan motor current. I Voltage from key pad (rear panel). I Serial data to the FRONT CPU (UART, ). O Serial data from the FRONT CPU (UART, ). I CW/RTTY keying signal to the DSP. O "L"=Key pushed Mute control signal. I "H"=Mute TX power line control signal. O "L"=TX Noise pulse. I RX power line control signal. O "L"=RX Serial communication with the scope DDS (AD) detect signal. O "H"=detected Serial data to the SCOPE UNIT DDS/PLL/DSP. O Strobe to the scope PLL (LMX). O Chip selet signal to the scope DDS (AD). O "L"=AD is slected Profi le (/) select signal to the scope DDS (AD). O "H"=Profi le is selected. Clock signal to the DDS/PLL/DSP. O DSP data (TXD/RXD). I Hand shake signal from SCOPE DSP. I Extra port for SCOPE DSP. I Serial data from SCOPE DSP. I N/C I Through signal from the TUNER UNIT. I "H"=Through Key input from the tuner UNIT. I "H"=Tuner ON Straight key input (A/D). I "L"=Key pushed -
- MAIN CPU (IC) PORT ALS (continued) Pin No. Description IN/ OUT Condtion Clock to the EEPRROM (HNXTI). O Serial data from the EEPRROM (HNXTI). I/O Clock signal to the EEPROM (DIGISEL UNIT; CATWC). O Serial data from/to the EEPROM (DIGISEL UNIT; CATWC). I/O RTTY keying. I "H"="space" is marked Transverter control signal from the [ACC] connector. I "L"= Transverter is activated. PLL unlock signal. I "L"=Unlocked Address bus lines. O Data bus lines. I/O WAIT signal (bus line control). I "L"=Wait. SEND signal. O "L"=TX Dual Port SRAM intrude signal. I "L" indicator control signal (bus control). O "L"= lights. "H" indicator control signal (bus control). O "H"= lights. READ data (bus contol). O Address data (bus contol). O PTT/ACC SEND input. I "H"=TX Squelch signal to the [ACC] connector. O "H"= Squelch open (RX LED lights) Squelch signal. O "L"= Squelch open (Mute OFF) External SEND (lead relay) signal output. O "H"=Relay ON External SEND (IC relay) signal output. O "H"=Relay ON Chip select signal to the Dual Port SRAM. O "L"=SRAM is selected. Chip select signal to the expander. O "L"= Expander is selected. -
SECTION ADJUSTMENT PROCEDURE - PREPARATION REQUIRED EQUIPMENTS EQUIPMENT SPECIFICATION EQUIPMENT SPECIFICATION Frequency range : At least MHz Input impedance : kω/dc or more Spectrum analyzer Digital multimeter Measuring range : Voltage: V Bandwidth : khz or more Current: A/A Measuring range : W Frequency range : MHz RF power Frequency range :. MHz Standard Signal Output level : µv to mv (terminated type) Impedance : Ω Generator (SSG) ( to dbm) SWR : Less than. : Frequency range : MHz Frequency Counter Frequency accuracy : ±. ppm or better AC Millivoltmeter Measuring range : mv to V Input level : Less than mw Modulation Frequency range : MHz Input impedance : Ω External Speaker Analyzer Measuring range : to ± khz Capacity : More than W Frequency range : Hz Power attenuation : or db Audio Generator Attenuator Output level : mv Capacity : More than W CAUTION!: BACK UP originally programmed contents (Memory channels, Common settings, etc.) in the transceiver before starting adjustment. When all adjustments are completed, these contents in the transceiver will be cleared. EXPOSING UNITS CAUTION: The transceiver weighs approx.. kg ( lb). Always have two people available to carry, lift or turn over the transceiver. ) Remove screws from the both sides. ) Remove screws from the bottom, then remove the bottom cover. Bottom cover OSC UNIT cover RF UNIT cover PLL/SCOPE UNITs cover ) Turn over the transceiver. ) Remove screws from the RF UNIT cover, screws from the PLL/SCOPE UNITs cover and screws from the OSC UNIT cover, then remove those covers. -
UNITS <Bottom view> SCOPE UNIT OSC UNIT PLL UNIT RF UNIT MAIN UNIT CONNECTIONS SSG RF power meter CAUTION! DO NOT select an TX adjustment item while an SSG is connected to the antenna connector. <Rear view> EXT-DISPLAY REMOTE RS-C AC I A ANT ANT ANT ANT OUT RX ANT IN X-VERTER DC OUT V MAXA METER EXT KEYPAD EXT-SP ACC RELAY ALC ALC ADJ S/P DIF OUT IN CW KEY REF I/O MHz -dbm SINAD METER SSG (for adjustments on the OSC UNIT) AC millvolt meter Audio generator <Front view> PTT [MIC] -
- ADJUSTMENTS ON THE OSC UNIT AND PLL UNIT ADJUSTMENT ADJUSTMENT CONDITION OPERATION REFEREE SIGNAL LEVEL REFEREE SIGNAL LEVEL (MHz) Reference signal source : External Receiving ) Connect an Standard Signal Generator to J ([EXT-REF I/O] terminal on the rear panel) and set as; Frequecy :. MHz Level :. dbm Modulation : None ) Connect a Spectrum Analyzer to J. ) Adjust the REF signal level with L and L. Receiving ) Connect a Spectrum Analyzer to CP (PLL UNIT). ) Adjust the REF signal ( MHz) level with L and L. HPL Frequency :. MHz LOCK VOLTAGE Mode : USB (VCO) Receiving (VCO) Frequency :. MHz Mode : USB Receiving (VCO) Frequency :. MHz Mode : USB Receiving (VCO) Frequency :. MHz Mode : USB Receiving (VCO) Frequency :. MHz Mode : USB Receiving (VCO) Frequency :. MHz Mode : USB Receiving st LO Frequency :. MHz OUTPUT LEVEL Mode : USB Receiving nd LO Frequency :. MHz LOCK VOLTAGE Mode : USB Receiving RX nd LO Frequency :. MHz LEVEL Mode : USB Receiving TX nd LO LEVEL Frequency :. MHz Mode : USB Transmitting ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Spectrum Analyzer to J "LO" (PLL UNIT). ) Adjust the output level with R. ) Connect a Digital multimeter to CP "LV" (PLL UNIT). ) Adjust the lock voltage with C. ) Connect a Spectrum Analyzer to J "RLO" (PLL UNIT). ) Adjust the output level with L and L. ) Connect a Dummy Load to [ANT]. ) Connect a Spectrum Analyzer to J "TLO" (PLL UNIT). ) Adjust the output level with L and L. ADJUSTMENT POINT L, L (OSC UNIT) (repeatedly) L, L (PLL UNIT) (repeatedly) C (PLL UNIT) C (PLL UNIT) C (PLL UNIT) C (PLL UNIT) C (PLL UNIT) C (PLL UNIT) R (PLL UNIT) C (PLL UNIT) L, L (PLL UNIT) (repeatedly) L, L (PLL UNIT) (repeatedly) VALUE Maximum level Maximum level.. V.. V.. V.. V.. V.. V.. dbm.. V Max. level (. dbm ±. db) Max. level (. dbm ±. db) -
- ADJUSTMENT AND CHECK POINTS - To RF voltmeter LV IC CP R R C R C EP MP H H H H H H H V R R C C C R C R R C Q R D C R Q Q C C IC C C C R C IC D H H H H H H H H H H H H H H H H H H H H H H H H H H H V x t=.() H BD PLL R R R C R Q EP C C R R R R TO LOGIC J R C D C C C R C C C C R J C C R R FI C R C R L J R C R R C C C C L R R C Q C R C EP R C C C EP C C Q CP HPL lock voltage check Q C C C C C R R J L C R R IC C C TO OSC J C R D R R C EP C Q C EP EP R C R C R L EP R R C L R L EP C R C R L C R D R IC C J EP C C C M C EP C C C C R C R Q C R R EP EP V C LV C R R L EP C C CP MP C EP BROWN C C C C IC C R L EP R C J TO DC-DC D C RL C C R EP C L C L R C X EP D C IC C C L L R R V R Q N C Q C L V R L R Q C C L L C L D R C L C L V D V Q R Reference signal level (MHz) adjustment C C R D V R R C C C L R C D C L L L L D R C R R C SAD R C D C R L C C J C L D MP MKR R C C C C R C C C L V C Q C C C R C C C R C C C C R C R C C C C C R C R C R C R C R C R C R C C IC C C V V C L C R Q C C R R C C C L D C C C R L R C R R D C D D C C C C C R R Q R C R R L L R C R C C C C C C C C C R C L C C R R C D C R J CP C C R R C C C MP IC C L L R R R C C R C R R C C C R C R C R C R V R R L L C C C R V V V C C C Q C C C R R C C V C C IC C IC C R C C D C C C C R C Q C C C C TO RF J C R R R L R R C C C C L R R R CP C R C R R CP L C R L C C Q C L IC C L C J R C Q C C C R R R C R R C C Q D R C IC R L C C C L C C C IC R C R C R V C R R R R C R C R C R C C Q D L nd LO lock voltage adjust R R R R C R R R R R R R C R R C R L C V C C C C C MP L C C TOMAINJ MP C Q R C R R R C C R R C C IC V R R R V Q R V J DACK C R C C C MP C TO SCOPE R L C C C R R L C C C L L R R LV R Q R L L D R R Q (VCO) (VCO) (VCO) (VCO) (VCO) (VCO) C R C C R R C CP C R R R R R C R R C Q C R L R C R C Q C R R R R C C Q R D R C R R R R Q C R L L C C C C R R C C IC R R C IC R C C R R C C C C C R R Q Q C HPL lock voltage adjustment Q C C C C V V V V C R R C R L C R R R C C C L C C R C R Q C C L C C C C C C C C L R C MP R C R R C V R Q V C R R R C Q C L R C R L C Q L R C R L C MP C C L L L FI C C R C L C C V V V R L C C Q BB V J C TO RF J C R R R R R H TO RF C L R L C H R C Q Q C C C L RL H R J R H L J J C L D H TLo R D D C H C R L IC Q - H Q C C J H C JJ J H L R R J C R R L J Lo EP Q R EP EP J H L Q TO RF J R C H RLo R DIP H J TLo L J TO RF J H st LO level adjustment J From SG OSC UNIT (TOP VIEW) H PLL UNIT (TOP VIEW) V TX nd LO level adjustment RX nd LO level adjustment H PLL UNIT (TOP VIEW) H
- ADJUSTMENTS ON THE RF UNIT ADJUSTMENT ADJUSTMENT CONDITION OPERATION PRERARATION (Preset) Frequency :. MHz Connect a Digital multimeter to Mode : USB CP" (RF UNIT). ANTENNA : [ANT] [P.AMP] : "ON" Connect a Digital multimeter to Receiving CP" (RF UNIT). Set R (RF UNIT) to center position. Center position (MCF-M) Set the L and L as below. rotations Core ADJUSTMENT POINT R (RF UNIT) R (RF UNIT) R (RF UNIT) L, L (MCF-M BOARD) VALUE.. V.. V Center position (MCF-W) Set the L and L as below.. rotations Core L, L (MCF-W BOARD) (MCF-N) Set the L and L as below.. rotations Core L, L (MCF-N BOARD) RECEIVE SENSITIVITY (HF BAND) Frequency :. MHz Mode : USB ANTENNA : [ANT] Receiving ) Connect an SSG to the [ANT] and set as; Frequecy :. MHz Level : dbµ Modulation : None ) Connect an AC Millivoltmeter to the [EXP-SP]. ) Adjust the sensitivity with L and L. L, L (repeatedly) (RF UNIT) Max. audio output level IMAGE RESPONSE Frequency :. MHz Mode : USB ANTENNA : [ANT] Receiving ) Connect an SSG to the [ANT] and set as; Frequecy :. MHz Level : + dbµ Modulation : None ) Connect an AC Millivoltmeter to the [EXP-SP]. ) Adjust the sensitivity with R and C. R, C (RF UNIT) Min. audio output level RECEIVE SENSITIVITY ( MHz BAND) Frequency :. MHz Mode : USB ANTENNA : [ANT] [PREAMP] : "ON" Receiving ) Connect an SSG to the [ANT] and set as; Frequecy :. MHz Level : dbµ Modulation : None ) Connect an AC Millivoltmeter to the [EXP-SP]. ) Adjust the sensitivity with L. L (RF UNIT) Max. audio output level IF THROUGH ( MHz) Frequency :. MHz Mode : USB Receiving ) Connect an SSG to the [ANT] and set as; Frequecy :. MHz Level : + dbµ Modulation : None ) Monitoring the S-METER on the display, adjust the swing width with C. C (RF UNIT) Min. swing width -
C C C R L L EP R C L C R MP C R D R C C C R R R R J J C C R D J W R C R C C C C C R R L C C C C IC IC J C C C R C R L R L L L L L IC M J TO PLL R L C C R C J L J R C R C L C EP EP EP EP EP EP C C C C C L C R C C C C L C L MP L EP EP EP L Q C C L L L C C L C R J L Q Q C R R C IC C R C C C RL J J J J TO SCOPE J J TO PLL J W I L L L L L J TO PLL J J TO RF J MP L L L L L RL MP L K C C R IC IC TO PLL J IC C D L U L L D L RL V C C MP C R R R BD RF J L RL J RL L L RL C RL TO SCOPE T G L L L L TO DIGISEL J J L D J R C L L L EP Q L RL L RL RL R J TO DIGISEL J MP C C J C R C C E RL L L L L L L C TO RF J Q R C R Q R R C Q L L C RL RL J TO CTRL J C R C C C C C C C L C R C R C R C R R C R C R R R R C R L C C L C L R R R R L L L L L C C C C C C C J RL R L R R R C R R C R C R C R R R R R R C D R L L L C C L L C C L L R R C C C C R R R C C R R C C R R R R C C C C L C C R L L C R R C C C C IC C C C C C C C C C R C C R C C R C C C C R C C C R R R R C C C C C C IC C C C C C R L TO J C D D C R C R IC IC IC R R C R R C R C L CP L R IC R R R EP C R C C C C C PLL J C C D D D D D C IC L L C RL F C C C C L L C C L L C C L L C C L L J R C L C C R R R R R R R L L L L L R C C R C RL IC L C R R R C C R C C C D D D R L L L L L F FUSE A J C C C C C C C Q C C R R C R C R C R V TO RF J CP R R D C C J J C C EP EP C C EP C EP EP TO PAW J J R R R R R R EP EP EP EP EP C EP C EP C EP C EP C EP J C C C C J H H L MCF-W H H H H H H H H H H V C V L BA L C WIDE FI C H IN H OUT H H H H H H C L NARROW L BA H C FI C OUT V V V V V V V V V V V V V V V V V V V VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV H Q C R C R R CP RL C R L L L L L F J RL TO RF J L MCF-N R RL R IN C RL RL H H H V L MIDDLE OUT V L BA C L L R XVRT C V FI C C RL C C RL R L R KEYPAD V L MCF-M L D D J L D L C C C L R METER IN R C R R C EP EP L RL Q TO ANT-SW J C L L RL RL R C J Q D EP L L C L R R C R CP R C R L R C R C C C C R L L L IC C Q R Q L R Q L L R R C C L R R L L L C C C C C C EP R Q L L EP C C C C C C C L R L R C C L C C R L C L L R C Q Q RL R R R IC RL C RL R RL R L RL RL L C C D R RXANT-IN MP C L L R RL J C C C RL R R R R R C W C R FI RL L TO MAIN J RXANT-OUT R L C C L MP MP J J RED R C C C L C L C L R C FI R R RL R R R R R R R R C L Q R R R IC D R FI C Q R C C R L Q Q L C R C C C C C C C C C C R C C C L L C C C C C L L C C R L R R EP C IC R C C C R R MCF-N BOARD Q RX sensitivity (MHz) adjustment MCF-M BOARD L IC MCF-W BOARD R C R IC R R C IC R Q L C R C TO DC-DC J C R C IC R C IC R V RF UNIT (TOP VIEW) HHHHHHHHHHHHHHHH H H H H H H H H H H H H H H H H H H H - R RX sensitivity adjustment R TX total gain adjustment R R R C R R R R C R R R R Preset C R L IC R C C IF through (MHz) adjustment C R L DIP R L J TO MAIN J TX output power adjustment Image response adjustment J DC-OUT - ADJUSTMENT AND CHECK POINTS - MCF-M BOARD (TOP VIEW) V L C C C Preset C C C MCF-N BOARD (TOP VIEW) V L C C Preset C C C MCF-W BOARD (TOP VIEW) V L C C Preset
- ADJUSTMENTS ON THE PAW BOARD ADJUSTMENT ADJUSTMENT CONDITION OPERATION IDLING (Preparation) IDLING (DRIVER AMP.) "IDLING" must be adjusted by cold-started. Mode : USB MIC gain : Minimum Connect an Audio Generator to the MIC jack (see the page -) and set it as; Frequency :. khz Level : mv ) Set variable resisters to the preset point. ) Disconnect the W from the PAW BOARD, and connect an Ammeter between the PAW BOARD and W. ) Measure the driving current, and note it as the initial value. Frequency :. MHz Adjust the driving current with R. Mode : USB Transmitting ADJUSTMENT POINT VALUE R, R, R R Max. counter clockwise +. A more than initial value IDLING (FINAL AMP.) Frequency :. MHz Mode : USB Transmitting Adjust the driving current with variable resisters. R (for main adjustment) R (for critical adjustment) R (for main adjustment) R (for critical adjustment) +. A more than initial value +. A more than initial value Apply slight vibration to the PAW BOARD, and verify that the current is stable against the vibration. -
C - ADJUSTMENT AND CHECK POINTS - PAW BOARD (TOP VIEW) V V V V V V V V V V V V V V V V V V V V V TO RF J C R J C R R C Q TO MAIN J J R R R C R R C R C C R L C C C C R R C C R R L J R R R D L L L L L R Q C C C C C R DIP BA C R C L C PAW L L C Q QB R R C C C L C C R Q R C R C C C R Q R R Q C IC R C C R R L C R C C C C R C R R C L Idling adjustment (Driver amp.) R R L C L C R C C C R R L C C D L R J R R C R L R C D C C C R R R C C C R D QA R R R J R R L D R C R R R R GRAY BLACK J TO DC-DC J R R D W R C Q R C R R C D C R R R C R EP C C C C C TO FILTER J J L L L Q R R R R R R R GRAY C Idling adjustment (Final amp.) R R W R R R EP C C C C C EP BLACK C C C C C H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H H Ammeter + +: Gray : Black W (from REG UNIT) -
- ADJUSTMENTS ON THE MAIN UNIT (including RF UNIT) ADJUSTMENT ADJUSTMENT CONDITION OPERATION PREPARATION (Preset) TRANSMIT OUTPUT POWER TRANSMIT TOTAL GAIN TRANSMIT HIGH POWER (HF) TRANSMIT HIGH POWER ( MHz) AM CARRYER POWER APC Vd (Drain-Volatge) APC Id (Drain-Current) Receiving ) Turn the power OFF. ) Push and hold [F-INP]+[MW] keys, and turn the power ON (All clear). Set the variable resister to the preset point. Set the variable resister to the preset point. Connect a Digital multimeter to the CP. Frequency :. MHz ) Connect an Audio Generator to the Mode : USB MIC jack (see the page -) and set Transmitting it as; Frequency :. khz Level : mv ) Connect an RF Power Meter to the [ANT]. ) Adjust the RF power. Frequency :. MHz ) Set the SSG as; Mode : FM Frequency : khz MIC gain Transmitting : Maximum Frequency :. MHz Mode : USB MIC gain : Center Transmitting Level : mv ) Connect an RF Power Meter to the [ANT]. ) Adjust the RF power. ) Connect an Audio Generator to the MIC jack (see the page -) and set it as; Frequency :. khz Level : mv ) Connect an RF Power Meter to the [ANT]. ) Adjust the RF power. Frequency :. MHz Mode : RTTY Transmitting Frequency : MHz Mode : RTTY Transmitting Frequency :. MHz Connect an RF Power Meter to the Mode : AM [ANT]. MIC input : OFF Transmitting Frequency :. MHz Connect the CP to the. Mode : RTTY Transmitting Turn the R max. counter clockwise. ADJUSTMENT POINT VALUE R R R L C L (RF UNIT) (in sequence, repeatedly) C (RF UNIT) R (RF UNIT) Max. CW o'clock position.. V Maximum output power Maximum output power W Connect an RF Power Meter to the [ANT]. R W Connect an RF Power Meter to the [ANT]. R W R CP R (CCW rotation) W to the Max. CCW Adjust the RF power with R. R W Disconnect the CP from the. Frequency :. MHz Connect the CP, CP to the Mode : RTTY. MIC : OFF Set the variable resister to the preset Transmitting point. (Center position) to CCW CP CP, CP R Disconnect from to the to CCW Disconnect the W from the PAW BOARD, and connect an Ammeter between the PAW BOARD and W. Disconnect the CP and CP from the. R (CW rotatioin) CP, CP. A Disconnect from -
R R R C L C C C D C C C C J R R R R C D C L R L D IC C R R C C TO DIGISEL J R R R R R DIP J TO OSC J R R R C L L BD SCOPE J L C R C L C C J C J C C R R L C L L Q R C L R R R R R s TO RF J C R C CP C R R C IC R R C C R C C R C MP L C L C L C L MP L C C R L C C R C R C L C R R R R C R IC C R R R FI R R C R L R C C D IC R V V V V V V V V V V V V V V V V R L C R R C Q R R L L C L L EP EP EP EP EP C C R R C R L R C R L R C Q MP Q C C R Q C R IC R R R C EP R C C R C R C R C C R R IC C R C C R R R C L C R C C R C R IC IC C R C R R R R R R R R R C R R R IC R IC L C IC C C FI IC C R C IC IC C C C R IC C IC R C L C C C R IC R J R R C R J C R R C IC C R C C C R R C IC C C IC TO RF J IC C J R C C C R R C IC R C C R R C C C IC IC C C H R L C C C C C R R L C C C R C C C Q R C R Q t C R R R C J Scope adjustment R C L HHHHHHHHHHHHHHHHH H H H H H H H H H H H H H H H H H H H C R C R Q C R R R C R R C C R C C L C C J C H V IC R R R R D L L C C R R C R R TO RF J Q C R R C C C L R C C R C R C C L R C R L C L R L C R R L C J L R R C C R D D C J C C R C R R C C C C R C IC C R C L R IC C R C R C CP C MP R R C IC C C C C C C R R R R C IC IC C IC FI R IC C R MP C C C R C L C C R R R C C C C R C C C R p C C R R C C R R R R R C C R C C C Q C C C L R R R R D Q R R R CP Q C R R R C IC R C R C R Q R J C R R C R R C R R R R IC R C R C R R C R EP R R R R R TO PLL J C J C R R J TO DISPLAY J TO VR-A J R R L R R R R R C C C EP C C R R C R L IC L R Q C Q R R R C R R R R R C C C R R L C C C C RL R C R Q R C R R IC R R R C C C L R R R R C R L C C L MP J TO LOGIC J R C R R R R R R C C IC C R IC EP EP V V V V V V V V V V V V V V V V V V V V R R R R R R C EP EP EP EP TO DC-DC J J BLUE R R R R R R R R R R J L J TO LOGIC R R R R R R R R SCOPE UNIT (TOP VIEW) HHHHHHHHHHHHHHHH H H H H H H H H H H H H H H H H H H H - L Scope Attenuation adjustment C R Q MP L Scope Gain adjustment R R C R C R R C R C R Q R C R R R R R R R R C R C R C R R R R R C R R C R R R R R R R C R C R R IC R R R R R R R R R R C R C R SLO LV adjustment C C R R R R R IC R IC R R R R R CP C C R C R C R R C R R C R R R R R L R Q IC R C R R C R R R C C C R R IC R IC C R C R C R R C R EP R J C IC R R IC R C R C R C C C Q R R R C EP R C R TO LOGIC J J C C EP R C C X R C R R R C C R R C J C R R TO LOGIC J R C R MAIN R EP C R C R C EP IC R R C BE R R R J C C R J C C IC R DIP R TO LOGIC J C R C J L C R C IC C R TX power adjustment C C C C C PLL J C J R C R CP C R C C R CP R R R IC CP C J R S TO R R R R C TO DC-DC J R R R C C J R CP CP CP C R C R C CP D R C C Q Q J R R R R Q N C C J R TO OSC J C C R R R R C C R CP CP R D C C J R R IC C C R D C C C TO RF J R R L IC J R C C C C C CP CP R R R C ORANGE C C R R R J C C R R R R C C D R C C C R R R R R EP C IC D R R C EP R IC IC R R R R EP C R R R Preset R C C D R C R C C R R R C R EP R J C R R R C C C R C R J D J C C TO PA J R J TO LOGIC J L J R R EP C R C RL C C Preset/APC(Vd) adjustment IC C R C Preset/APC(Id) adjustment L J J R J L J J MAIN UNIT (TOP VIEW) EP V - ADJUSTMENT AND CHECK POINTS -
- ADJUSTMENTS ON THE SCOPE UNIT ADJUSTMENT ADJUSTMENT CONDITION OPERATION PREPARATION (Common setting) rd LO LOCK VOLTAGE Frequency :. MHz Mode : CW [P.AMP] : "OFF" [SCOPE] : "ON" [SCOPE ATT] : "OFF" [SPAN] : ± khz ADJUSTMENT POINT VALUE ) Connect a Digital multimeter to the CP. ) Adjust the lock voltage. SCOPE Receiving Connect a Signal Generator to [ANT] and set as; Frequency :. MHz Modulation : None Level : + dbµ Receiving Connect a Signal Generator to J (SCOPE UNIT) and set as; Frequency :. MHz Modulation : None Level : + dbµ Receiving Connect a Signal Generator to [ANT] and set as; Frequency :. MHz Modulation : None Level : + dbµ SCOPE GAIN Receiving Adjust the waveform to set the peak of the wave spectrum reaches the th scale. SCOPE ATTENUATION [SCOPE ATT] : db Receiving Adjust the waveform to set the peak of the wave spectrum reaches the rd scale. C L L L L L C (in sequence) and L, L, C (repeatedly) C L, L (repeatedly).. V Maximum waveform on the SCOPE screen Minimum waveform on the SCOPE screen Maximum waveform on the SCOPE screen R (see fig. ). R (see fi g. ) <fig. > th scale <fig. > rd scale -
ALC - AUTOMATIC ADJUSTMENTS ENTERING AUTOMATIC ADJUSTMENT MODE ) Connect the short plug to the [REMOTE] terminal (see the illust bellow). ) Push and hold [SSB]+[CW] keys and turn the power ON, then the adjustment main menu appears. ) When the automatic adjustments are fi nished, turn the power OFF to quit the adjustment mode. <Main menu> TX RX SPLIT LOCK.. GENE F-INP ENT MP-W MW MP-R V/M A/B A=B XFC TS F- F- F- F- F- F- F- SSB CW RTTY/PSK AM/FM DATA M.SCOPE EXIT/SET AUTO TUNE LOCK REC PLAY DRIVE COMP MONI GAIN VOX GAIN ANTI VOX CONTRAST BRIGHT VOICE MEMORY Receiver adjustment (page -) Transmitter adjustment (page -) CAUTION: When a TX adjustment item is selected, the transceiver transmits automatically. Reference frequency adjustment (page -) Other adjustment (page -) CONNECTION <Rear view> Short plug EXT-DISPLAY REMOTE RS-C AC I A ANT ANT ANT ANT OUT RX ANT IN X-VERTER DC OUT V MAXA METER EXT KEYPAD EXT-SP ACC RELAY ALC ADJ S/P DIF OUT IN CW KEY REF I/O MHz -dbm Short plug. mm (/ ) monoral plug (Short) -
-- AUTOMATIC ADJUSTMENTS (TRANSMITTER) <TX adjustment screen> TX RX SPLIT LOCK.. GENE F-INP ENT MP-W MW MP-R V/M A/B A=B XFC TS F- F- F- F- F- F- F- SSB CW RTTY/PSK AM/FM DATA M.SCOPE EXIT/SET AUTO TUNE LOCK REC PLAY DRIVE COMP MONI GAIN VOX GAIN ANTI VOX CONTRAST BRIGHT VOICE MEMORY Adjustment value Adjusts Adjustment item Return to main menu Stores the adjustment value Selects the next adjustment item Selects the previous adjustment item CONNECTION FOR TX ADJUSTMENTS RF Power Meter ohm Dummy Load (SWR=) <Rear view> Short plug (see page -) EXT-DISPLAY REMOTE RS-C AC I A ANT ANT ANT ANT OUT RX ANT IN X-VERTER DC OUT V MAXA METER EXT KEYPAD EXT-SP ACC RELAY ALC ALC ADJ S/P DIF OUT IN CW KEY REF I/O MHz -dbm AC millvolt meter Audio generator <Front view> PTT [MIC] -
-- AUTOMATIC ADJUSTMENTS (TRANSMITTER) ADJUSTMENT ADJUSTMENT CONDITION OPERATION ADJUSTMENT ITEM VALUE PREPARATION ) Connect an Audio Generator to the MIC jack and set it as; Frequency :. khz Level : mv ) Connect an RF power meter to the [ANT]. ) Connect an terminator (SWR=) to the [ANT]. POWER METER Push [F-] key. [POWER HF/ (HF BAND) M W] <Preset> < W> Transmitting (Automatically) ) Adjust the transmit power using [POWER HF [MAIN DIAL]. W] W < W> Transmitting (Automatically) ) Push [F-] key. [POWER HF W] W < W> Transmitting (Automatically) [POWER HF W] W < W> Transmitting (Automatically) [POWER HF W] W < W> Transmitting (Automatically) [POWER HF W] W POWER METER ( MHz BAND) Transmitting (Automatically) ) Adjust the transmit power using [MAIN DIAL]. ) Push [F-] key. [POWER M W] < W> Transmitting (Automatically) [POWER M W] < W> Transmitting (Automatically) [POWER M W] < W> Transmitting (Automatically) [POWER M W] < W> Transmitting (Automatically) [POWER M W] [RESERVE POWER SET] (NO AJUSTMENT) W W W W W "RESERVE POWER SET" appears. Push [F-] key. POWER DOWN Transmitting (Automatically) ) Adjust the transmit power using [MAIN DIAL]. ) Push [F-] key. ALC METER Transmitting (Automatically) Push [F-] key. DRIVE LEVEL Transmitting (Automatically) Push [F-] key. DRAIN VOLTAGE METER DRAIN CURRENT METER Transmitting (Automatically) Push [F-] key. Transmitting (Automatically) Push [F-] key. [POWER for Power Down HF/M] [ALC] [DRIVE] [VdV] W (Automatic adjustment) (Automatic adjustment) (Automatic adjustment) [Id A] A A Transmitting (Automatically) Monitoring drain current on the display, adjust the current using [MAIN DIAL], then push [F-] key. A Transmitting (Automatically) Monitoring drain current on the display, adjust the current using [MAIN DIAL], then push [F-] key. SWR METER Transmitting (Automatically) Push [F-] key. (Returns to adjustment main menu) [Id A] [Id A] [SWR] A A (Automatic adjustment) -
+ + -- AUTOMATIC ADJUSTMENTS (RECEIVER) <RX adjustment screen> TX RX SPLIT LOCK.. GENE F-INP ENT MP-W MW MP-R V/M A/B A=B XFC TS F- F- F- F- F- F- F- SSB CW RTTY/PSK AM/FM DATA M.SCOPE EXIT/SET AUTO TUNE LOCK REC PLAY DRIVE COMP MONI GAIN VOX GAIN ANTI VOX CONTRAST BRIGHT VOICE MEMORY Adjustment item Adjustment value Return to main menu Selects next adjustment item Selects previous adjustment item CONNECTION FOR RX ADJUSTMENTS SSG <Rear view> Adjusts Stores the adjustment value Short plug (see page -?) EXT-DISPLAY REMOTE RS-C AC I A ANT ANT ANT ANT OUT RX ANT IN X-VERTER DC OUT V MAXA METER EXT KEYPAD EXT-SP ACC RELAY ALC ALC ADJ S/P DIF OUT IN CW KEY REF I/O MHz -dbm AC millivolt meter Speaker ( Ω). mm (/ ) monoral plug -
-- AUTOMATIC ADJUSTMENTS (RECEIVER) ADJUSTMENT ITEM VALUE Receiving ) Connect an AC millivoltmeter to [EXT-SP]. ) Connect an SSG to the [ANT] and set it as; Frequency :. MHz Modulation : None ADJUSTMENT ADJUSTMENT CONDITION OPERATION TOTAL GAIN (PREPARATION) HF (P.AMP OFF) Receiving ) Set the SSG as; Level : + dbµ ) Set the audio output level to db (Set it as reference). ) Set the SSG as; Level : "OFF" ) Adjust the AF output level using [MAIN DIAL], then push [F-] key. HF (P.AMP ON) Receiving Adjust the AF output level using [MAIN DIAL], then push [F-] key. MHz (P.AMP OFF) MHz (P.AMP ON) Receiving Adjust the AF output level using [MAIN DIAL], then push [F-] key. Receiving Adjust the AF output level using [MAIN DIAL], then push [F-] key. [Total Gain HF PRE OFF] [Total Gain HF PRE ON] [Total Gain M PRE OFF] [Total Gain M PRE ON] EXTERNAL AGC Receiving ) Set the SSG as; Level : + dbµ ) Push [F-] key. ) Wait until the beep "Pi!" [AGC] sounds (approx. sec.) NEVER CHANGE the SSG output level until the beep souds. HF S-METER Receiving ) Set the SSG as; HF (S LEVEL) Level : "OFF" ) Push [F-] key. (the beep "Pi!" sounds) ) Soon, another beeps "PiPi!" sound. [HF S LEVEL] NEVER CHANGE the SSG output level until the nd beep souds. HF (S LEVEL) Receiving ) Set the SSG as; Level : + dbµ ) Push [F-] key. (the beep "Pi!" sounds) ) Soon, another beeps "PiPi!" sound. [HF S LEVEL] NEVER CHANGE the SSG output level until the nd beep souds. HF (S+ dbu Receiving ) Set the SSG as; LEVEL) Level : + dbµ ) Push [F-] key. (the beep "Pi!" sounds) [ HF S+ ) Soon, another beeps "PiPi!" sound. LEVEL] NEVER CHANGE the SSG output level until the nd beep souds. MHz S-METER MHz (S LEVEL) MHz (S LEVEL) MHz (S+ dbu LEVEL) Receiving ) Set the SSG as; Frequency : MHz Modulation : None Level : "OFF" [M S LEVEL] ) Push [F-] key. (the beep "Pi!" sounds) ) Soon, another beeps "PiPi!" sound. NEVER CHANGE the SSG output level until the beep souds. Receiving ) Set the SSG as; Level : + dbµ ) Push [F-] key. (the beep "Pi!" sounds) [M S LEVEL] ) Soon, another beeps "PiPi!" sound. NEVER CHANGE the SSG output level until the beep souds. Receiving ) Set the SSG as; Level : + dbµ ) Push [F-] key. (the beep "Pi!" sounds) [MHz (S+ ) Soon, another beeps "PiPi!" sound. dbu LEVEL) NEVER CHANGE the SSG output level until the beep souds. ) (Returns to adjustment main menu) db (Automatic adjustment) (Automatic adjustment) (Automatic adjustment) -