VHF/UHF DIGIAL RANSCEIVER S-XZ-C Jan. 00
RODUCION his service manual describes the latest service information for the IC-ED VHF/UHF DIGIAL RANSCEIVER at the time of publication. MODEL VERSION SUPPLIED CHARGER IC-ED [EUR] C-D UNI AREVIAIONS: F=FRON UNI L=LOGIC UNI M=MA UNI R= UNI V=VCO UNI CAUION NEVER connect the transceiver to an AC outlet or to a DC power supply that uses more than specifed. his will ruin the transceiver. DO NO reverse the polarities of the power supply when connecting the transceiver. DO NO apply an 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. ORDERG PARS REPAIR NOES e sure to include the following four points when ordering replacement parts:. Make sure 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 S-Lowly 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.. DO NO transmit power into a Standard Signal Generator or a Sweep Generator.. ALWAYS connect a 0 d to 0 d 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.. 0-digit Icom parts numbers. Component name. Equipment model name and unit name. Quantity required <ORDER EXLE> 000 0000 SCREW SCREW IC-ED op cover AFNG IC-ED MA UNI pieces pieces Addresses are provided on the inside back cover for your convenience. logo are registered trademarks of Icom Incorporated (Japan) in the United States, the United Icom, Icom Inc. and Kingdom, Germany, France, Spain, Russia and/or other countries.
CONENS SECION SPECIFICAIONS SECION SIDE VIEWS SECION DISASSEMLY SRUCION SECION CIRCUI DESCRIPION SECION - RECEIVER CIRCUIS........................................................ - - RANSMIER CIRCUIS.................................................... - - FREQUEY SYNHESIZER CIRCUIS........................................ - - CPU POR ALLOCAION..................................................... - - VOLAGE DIAGRAMS........................................................ - ADJUSMEN PROCEDURES - PREPARAION............................................................. - - RANSMI LIFIER ADJUSMEN.......................................... - - FREQUEY ADJUSMEN.................................................. -0 - DEVIAION ADJUSMENS.................................................. - - RECEIVE ADJUSMENS.................................................... - - FREQUEY ADJUSMEN.................................................. -0 SECION PARS LIS SECION MECHANICAL PARS SECION OARD LAYOUS SECION LOCK DIAGRAM SECION 0 VOLAGE DIAGRAM
SECION P SPECIFICAIONS P GENERAL coverage Version EUR : (unit: MHz) A band band x:, 00 Rx: 0..0*, * x:, 00 Rx: *, 00* *Guaranteed 00 MHz only, *Guaranteed MHz only, Mode No. of memory channels : FM, FN-N, AM (Rx only), WFM (Rx only), DV : 0 (incl. 00 scan edges and call channels) Usable temp. range uning steps : 0 C to +0 C :,.,.,, 0,.,, 0,, 0, 0, 00, and 00 khz stability : ±. ppm (0 C to +0 C) Power supply : 0.0.0 V DC for external DC power, or specified Icom s battery pack Digital transmission speed :. kbps Voice coding speed :. kbps Current drain (at. V DC) : x High MHz. A typical 0/0 MHz. A typical x Mid. MHz. A typical 0/0 MHz. A typical x Low MHz 0. A typical 0/0 MHz 0. A typical x S-Low 0. A typical Rx Rated output 0 ma typical (single watch; FM) 0 ma typical (dualwatch; FM/FM) 00 ma typical (single watch; DV) 0 ma typical (dualwatch; FM/DV) Rx Power save ma typical Audio output power : More than 00 mw at 0% distortion with an Ω load Selectivity : More than 0 d FM (Wide), AM FM (Narrow), DV More than d WFM More than 00 khz/ d Less than 00 khz/0 d Ext. speaker connector : -conductor.(d) mm; ( )/ Ω Spurious and image rejection ratio : VHF More than 0 d UHF More than 0 d (Intermediate freq.; More than 0 d) Squelch Sensitivity (except spurious points): AM ( khz/0% Mod.) 0.. MHz. µv typ..000. MHz 0. µv typ..000.000 MHz 0. µv typ..000. MHz 0. µv typ..000. MHz µv typ. FM ( khz/. khz Dev.).. MHz 0. µv typ. 0.000. MHz 0. µv typ..000. MHz 0. µv typ..000. MHz 0. µv typ..000. MHz 0. µv typ. 0.000. MHz 0. µv typ. 0.000. MHz 0. µv typ. 0.000. MHz 0. µv typ. 00.000.0 MHz 0. µv typ. WFM ( khz/. khz Dev.).0000.000 MHz µv typ..000. MHz. µv typ. 0.0000.000 MHz. µv typ. (single watch; FM) (Duty :) standby Antenna connector Dimensions (at. V DC) ma typical (dualwatch; FM/FM) ma typical (single watch; DV) 0 ma typical (dualwatch; FM/DV) ma typical (single watch; FM) 0 ma typical (dualwatch; FM/FM) 0 ma typical (single watch; DV) 0 ma typical (dualwatch; FM/DV) : SMA (0 Ω) : (W) (H).(D) mm; (projections not included) Weight (approx.) P : g (with antenna and P-) RANSMIER Modulation system FM DV (Digital) Output power (at. V DC) (ypical) RECEIVER Receive system : Except WFM Double-conversion superheterodyne WFM riple-conversion superheterodyne Intermediate frequencies : st A band. MHz/. MHz (WFM only) band. MHz nd 0 khz/. MHz (WFM only) rd. MHz (WFM only) Sensitivity (except spurious points): AM ( khz/0% Mod.; 0 d S/N) 0.. MHz. µv typ..000. MHz 0. µv typ..000.000 MHz 0. µv typ..000. MHz 0. µv typ..000. MHz µv typ. FM ( khz/. khz Dev.; d SAD) VHF (Amateur band only) 0. µv typ. UHF (Amateur band only) 0. µv typ... MHz 0. µv typ. 0.000. MHz 0. µv typ..000. MHz 0. µv typ..000. MHz 0. µv typ. 0.000. MHz 0. µv typ. 0.000. MHz 0. µv typ. 0.000. MHz 0. µv typ. 00.000.0 MHz 0. µv typ. WFM ( khz/. khz Dev.; d SAD).0000.000 MHz µv typ..000. MHz. µv typ. 0.0000.000 MHz. µv typ. DV (digital/pn. kbps; ER %) VHF (Amateur band only) 0. µv typ. UHF (Amateur band only) 0. µv typ. : Variable reactance freq. modulation GMSK reactance freq. modulation : High.0 W, Mid.. W, Low 0. W, S-Low 0. W Max. frequency deviation : ±.0 khz (FM wide: approx.) ±. khz (FM narrow: approx.) Spurious emissions : Less than 0 dc at High/Mid. Less than dm at Low/Slow Ext. mic. impedance : kω Selectable depending on the operating frequency band. -
SECION SIDE VIEWS CPU (IC: HDF) LOGIC UNI CPU CLOCK (X: CR-) ANALOG ICH (IC0: CD0) AF PWR (IC00: NJM00) RS- DRIVER (IC: MAX) EEPROM (IC: LC) CPUV REGULAOR (IC00: R0H0) DAA I/O VERER (IC: CW0FU) AF ICH (IC0: CW) SHIF REGISER (IC: CD0) MODEM (IC0: CMX) AF FILER/IDC (IC0: LMV) AF UFFER (IC0: NJM) AF PWR REGULAOR (Q00: S0) LER CODEC (IC0: AD) DC-DC CONVERER (IC0: XCAPR) DC ICH (Q00: HA0R) ICHG REGULAOR (IC0: XC0C0) DSP CODEC (IC0: AME-00) -
MA UNI (OP VIEW) (OOM VIEW) ND IF FILER (A AND) (FI00: LWC0E) (-AND) DISCRIMAOR (X00: JM0) AF FILER (IC0: NJM0) AF FILER (IC0: NJM0) IF IC (A AND) (IC00: AFNG) ONE FILER (IC0: LM0) ( AND) DISCRIMAOR (X00: JM0) ONE SELECOR (IC0: CD0) ( AND) ND IF FILER (FI00: LWC0E) ( AND) ND IF FILER (FI0: LWC0E) RX VCOs ( AND) SHIF REGISER (IC0: CD0) SHIF REGISER (IC0: CD0) IF IC (A AND) (IC00: AFNG) ( AND) st IF FILER (FI0: FL-) D/A CONVERER (IC00: MFP) UNI (OP VIEW) (OOM VIEW) D/A CONVERER (IC: M) D/A CONVERER (IC0: M) VCO UNI (Under the cover) HEA SK for X POWER (MP00: PA HEASK) X POWER X DRIVE (Q00: SK) (Q0: SK) APC CONROLLER DC ICH (Q000: HA0) (IC0: NJM0) -
SECION DISASSEMLY SRUCION. Removing the front panel. Removing the FRON UNI q Unscrew screws from the CHASSIS. w Disconnect the flat cable between MA UNI and FRON assembly, and remove the FRON assembly from the CHASSIS. q Unscrew screws from the FRON UNI. w Unsolder points to remove the speaker leads, then remove the FRON UNI from the front panel. Unsolder points CHASSIS FRON UNI FRON assy Flat cable Front panel Speaker leads. Removing outer parts q Remove the dial knobs. w Remove the rubber cap, and unscrew the AN nut. e Unscrew the side screws, and remove the side panel. Dial knobs Side panel AN nut Rubber cap Side screws (Contiued to next page) -
. Removing MA UNI. Removing UNI q Unscrew screws from the MA UNI. w Unsolder points at the control dial, and remove the MA UNI. q Unsolder points at the contact pins. w Unsolder point at the bottom of AN connector. MA UNI UNI Unsolder points Unsolder points Unsolder point Control dial e Unscrew screws from the UNI, and remove the UNI from the CHASSIS. UNI Chassis -
SECION CIRCUI DESCRIPION. MHz he RX signals are passed through two LPFs, AN, A and band, then applied to the (Q00). he amplified RX signals are passed through the tuned PF, and applied to another (Q0). he amplified RX signals are passed through tuned PF, then applied to the st IF mixer (IC00) via the band. - RECEIVER CIRCUIS CIRCUIS ( UNI) RX signals from the antenna are sorted by its frequency by the filters and gone through circuits for each bands. And this transceiver also has two RX lines for two independent operating bands; A AND and AND. <A AND> MHz and below he RX signals are passed through two LPFs, AN, A, band and LPF. he RX signals are sorted by its frequency by band s.. MHz he RX signals are passed through the LPF, HPF, AN, A, band, HPF and another band insequence, then applied to the (Q00) via the tuned PF. he amplified RX signals are passed through another tuned PF, then applied to another (Q0). he amplified RX signals are applied to the st mixer (IC00) via the band. 0.. MHz he RX signals are passed through the band (D0) and LPF, and applied to tuned (Q00). he amplified RX signals are applied to the st mixer (IC00) via the band (D0). 0. MHz and 0. MHz he RX signals are passed through the LPF, HPFAN, A, AND and tuned PF in sequence, then applied to the (Q00). he amplified RX signals are passed through another pole tuned PF, and applied to another (Q0). he amplified RX signals are then applied to the st mixer (IC00) via the band. 0. MHz he RX signals are passed through the band (D0) and tuned PF, and applied to the (Q0). he amplified RX signals are passed through tuned PF, then applied to the st IF mixer (IC00) via the band (D). 0. MHz he RX signals are passed through the LPF, HPF, AN, A, band and HPF in sequence, then applied to the (Q00). he amplified RX signals are passed through the tuned PF, and applied to the (Q0). he amplified RX signals are passed through the PF, then applied to the st mixer (IC00) via the band.. MHz he RX signals are passed through two LPFs, AN, A, band, LPF and another band in sequence, then applied to the (Q00) via the tuned PF. he amplified RX signals are passed through another tuned PF, then applied to another (Q0). he amplified RX signals are applied to the st mixer (IC00) via the band (D). CIRCUIS A:0. 0MHz Q00 D0 D0 o st mixer (IC00) for A AND AND L0,0 C0- D0 AND LPF x:.000.000mhz L00,0 C0-0 D00 D AND LPF A AN L,C- L- C- LPF LPF Q,,D- D D, AND Q0 D PF D D D0 AND PF A:0 MHz L0,0 C0-0 D0 AND Q0 D D0-0 AND Q00 D0 PF D0 D0,0 Q0 D0 PF PF HPF L00,0 C0-0 D0 D0,0 L- C0- D AND LPF AN A Q,,0 D,,,0,,0 A: 0MHz D0 AND A: MHz D00 AND A: MHz D0 Q00 D00 PF AND : MHz o st mixer (IC0) for AND D D, PF Q0 D D0 PF D0,0 Q00 D0 A:0 0MHz A:0 00MHz D0 Q0 PF A:0 0MHz D0 AND D AND D0 AND D0,0 PF D, PF Q0 AM P Q0 D0 Q D D0,0 PF D0,0 PF D0,0 D00 PF AND Q00 L00,0 C00-0,0, A:0 0MHz D00 HPF AND D0 D 0 D00 L, C-0 PF A HPF D0, PF Q00 D0 :0 0MHz - A:00 000MHz HPF x:0.000 0.000MHz
< AND>. MHz he RX signals for AND are passed through LPFs, AN, A and band, then applied to the (Q00). he amplified RX signals are passed through the PF, and applied to the tuned (Q0). he amplified RX signals are passed through tuned -pole PF, then applied to the st mixer (M: IC0) via the band. 00.0 MHz he RX signals are passed through the HPF, band, A and tuned PF in sequence, then applied to the (Q00). he amplified RX signals are passed through the PF, and applied to another (Q0). he amplified RX signals are applied to the st mixer (IC00) via the band. he attenuation which reduces RX signal level to 0 d is carried out by D, D and D0, by turning these P diodes ON using "A" signal. 0. MHz he RX signals are passed through the LPF, HPF, AN, A, band and another HPF in sequence, then applied to the (Q00). he amplified RX signals are passed through -pole tuned PF, and applied to tuned (Q). he amplified RX signals are passed through another tuned PF, then applied to the st mixer (M: IC0) via the band. FREQUEY CONFIGULAION AND RX MODE A AND AND st IF st LO nd IF nd LO rd IF rd LO NFM/AM. MHz.. MHz (<00 MHz).. MHz (>00 MHz) 0 khz. MHz - - WFM. MHz.. MHz(0 MHz). MHz. MHz NFM/AM. MHz.. MHz (, 00 MHz) 0 khz. MHz. MHz. MHz - - S IF CIRCUI (MA UNI) <A AND> he RX signals from the circuits are applied to the st mixer (: IC00) to be converted into the st IF signal, by being mixed with the st Local Oscillator (LO) signals from the VCO UNI. he st LO signals from the VCO UNI are applied to the st mixer via the LO, or doubler (in receiving of 00 MHz and above). WFM MODE (Incl. nd IF circuit) When receiving in WFM mode, the st IF signal from the st mixer (: IC00) is entered to the MA UNI and passed through the PF, then applied to the st IF (Q). he amplified st IF signal is applied to the nd mixer (Q) to converted into the. MHz nd IF signal, by being mixed with the. MHz nd LO signal (generated by X0, tripled by Q). he converted nd IF signal is passed through the nd IF filter (FI) to remove sideband noise, then applied to the nd IF (Q00) via the IF (D). he amplified nd IF signal is applied to the rd IF circuit. he converted st IF signal is passed through the IF (D) which toggles the path of the st IF signal: WFM mode or other than WFM mode. FM/AM MODE he st IF signal from the st mixer (: IC00) is entered to the MA UNI, and passed through the st IF filter (FI) via IF s (D, ) to remove unwanted signals. he filtered st IF signals are applied to the st IF (Q00), and the amplified st signal is applied to the nd IF circuit. S IF CIRCUI (For FM/AM mode) AND ND IF CIRCUI (For WFM mode) (A AND) st IF filter 00 C R C FI R0 R0.K OU FM/AM mode C C D C C WFM mode R C R R D C C C 0.0 O FI I R C R R Q nd IF filter C R C L0 C nd mixer C C0 L R C0 0.0 st IF filter st IF C0 C0 L0 Q R D0 R C < AND> he RX signals from the circuits are entered to the MA UNI, and applied to the st mixer (IC0) to be converted into the st IF signal, by being mixed with the st Local Oscillator (LO) signals from the AND VCO (Q0, ) via the buffer (Q). he converted st IF signal is passed though the st IF filter (FI0) to remove unwanted signals, then applied to the st IF (Q00). he amplified st IF signal is applied to the nd IF circuits. st IF CIRCUI ( AND) C0 R0 L00 st IF filter EP0 R0 st mixer C0 R0 C Q00 C0 st IF C OU R C C0 R0 C0 C C0 - IC0 C X00 R FI0 IFO PS C0 C0 I LO C L0
< AND> he st IF signal from the st IF (Q00) is applied to the IF IC (IC00). he applied st IF signal is mixed with. MHz nd LO signal (generated by X0, tripled by Q) at the internal nd mixer, to be converted into the 0 khz nd IF signal. he converted nd IF signal is output from pin, then passed through one of the nd IF filters. ND IF AND DEMODULAOR CIRCUIS (MA UNI) <A AND> he st IF signal from the st IF (Q00) is applied to the IF IC (IC00). he applied st IF signal is mixed with the. MHz nd LO signal (generated by X0, buffered by Q0) at the internal nd mixer, to be converted into the nd IF signal. he converted nd IF signal is output from pin, then passed through the nd IF filter (FI00) via IF s (D0, 0). he nd IF signal is passed through FI00 in FM/AM mode, and passed through FI0 in FM-N mode. FM MODE he filtered nd IF signal is backed to the IF IC from pin, and saturation-amplified by the internal limit. he amplified nd IF signal is FM-demodulated by the discriminator (X00), and the recovered AF signals (RX AF signals) are output from pin, then applied to the AF circuits via the AF mute (IC00, pins, ). FM/FM-N/DV MODE he filtered nd IF signal is backed to the IF IC from pin, then saturation-amplified by the internal limit. he amplified nd IF signal is FM-demodulated by the discriminator (X00), and the recovered AF signals (RX AF signals) are output from pin, then applied to the AF circuits via the AF mute (IC00, pins, ). AM MODE he filtered nd IF signal is amplified by nd IF (Q0), then applied to the AM demodulator circuit (Q0, 0, D0) to be recovered to the AF signals. he demodulated AF signals are applied to the AF circuits. AM MODE he filtered nd IF signal is amplified by another nd IF (Q0), then applied to the AM demodulator circuit (Q0, 0, D0) to be AM-demodulated. he demodulated AF signals are applied to the AF circuits. AM DEMODULAOR CIRCUI (A AND) R C R. C C R0 Q0 I C R C D0 L0 C C R0 C R C C0 C C0 C R D0 R C R0 C R Q0 X00 C 0 C MIX N-REC N-DE RSSI IFOU QUAD AFOU OSC OSCOU MIXOU IF DEC FILOU FIL R D0 R IC00 C C R0 C C FI00 O D0 R R0 C R R nd IF for AM mode 0 C R K 00 C ND IF AND FM DEMODULAOR CIRCUIS (A AND) R C0 C R R R R R R0 AM demodulator C C RD IF CIRCUI (MA UNI) (FOR A AND, WFM MODE ONLY) he nd IF signal from the nd IF (Q00) is applied to the IF IC. IF IC (bypassing FI00). he rd IF signal is FM-demodulated by the discriminator (X00), and the recovered AF signals (RX AF signals) are output from pin, then applied to the AF circuits via the AF mute (IC00, pins, ). he applied nd IF signal is mixed with the. MHz rd LO signal (generated by X0, buffered by Q0), to be converted into the. MHz rd IF signal by the internal rd mixer. he converted rd IF signal is output from pin, and passed through the IF s (D0, 0), then backed to the ND IF AND FM DEMODULAOR CIRCUI ( AND) AM DEMODULAOR CIRCUI ( AND) 00 D0 R nd IF for AM mode C R R C R C 0. C 0. EP00 I O C FI00 R0 Q0 I R0 C C C R0 O C FI0 Q0 C IC00 R C D0 C R OSC OSCOU M IXOU IF DEC FILOU FIL MIX N -REC N-DE R SSI IFOU QUAD AFOU 0 X00 R0 R C0 C R R R R0 R C C K R0 R AM demodulator C C0 - R C C D0 C0 R C0 C0 C C R0 C C D0 C
RX AF CIRCUIS (LOGIC UNI) SQUELCH CIRCUI <A AND> he AF signals from the FM/AM demodulator circuits are passed through the mode (M: IC00D) and one of the AF filters (IC0 and Q0, or, Q0 only) whose audio frequency response is set as stable for each RX mode (FM/ AM or WFM). he squelch circuit cuts off the AF output signals when no signals are received. Detecting noise components (approx. 0 khz signals) in the demodulated AF signals, the squelch circuit stops audio signals being emitted. A portion of FM-demodulated AF signal from the IF IC (M: IC00/IC00) is passed through the DAC (M: IC00) for level (=threshould) adjustment. he level-adjusted AF signals are passed through the noise filter (IC00, pins, and R, C, /IC00, pins, and R, C, ) to filter the noise components (approx. 0 khz signals) only. he noise components are rectified to produce DC voltage corresponding to the noise level. FM/AM-demodulated AF signals are filtered by IC0, and FM (WFM)-demodulated AF signals are filtered by Q0. he filtered AF signals are passed through the D/A converter (DAC; IC00, pins, ;, ) for level adjustment. he level-adjusted AF signals are entered to the LOGIC UNI via the RX AF mute (M: IC00, pins, ), and applied to the AF power (IC00) to obtain audio output power. he power-amplified AF signals are applied to the internal speaker or output from [DAA/SP/MIC] jack. If the noise level is higher than the preset one, the internal comparator set the "ANOISE"/"NOISE" signal to the CPU to "High", then the CPU turns the "AFON" signal which controlls the AF power (L: IC00) to "Low," to inactivate the AF power (L: IC00). At the same time, the CPU turns the "ARMUE"/"RMUE" signal which controlls the RX AF mute (L: IC00) to "Low," to cut-off the RX AF line. < AND> FM MODE he FM-demodulated AF signals from the mute (M: IC00) are passed through the mode (IC00A) and AF filter (M: IC0). NOISE SQUELCH DIAGRAM (A AND) AM MODE he AM-demodulated AF signals from the AM detector (M: Q0, 0, D0) are directly passed through the AF filter (M: IC0, pin ). o RX AF circuits 0 DAC Noise From IF IC (IC00, Pin) DV MODE he FM-demodulated signals from the IF IC (M: IC00) are passed through the tone filter (M: IC0). he filtered signals are applied to the modem (IC0) via the tone selector (M: IC0) and buffer (IC0), to be converted into the DV data. he DV data is applied to the CPU (IC), and converted into the AME signals. he AME signal is then applied to the DSP CODEC IC (IC0) and decoded. he decoded AME signals are converted into the analog audio signal by liner CODEC IC (IC0). he converted AF signals are passed through the mode (M: IC00A) and AF filter (M: IC0). ANOIS Noise Comdetector parator IC00 Noise filter IC00 NOISE SQUELCH DIAGRAM ( AND) o RX AF circuits 0 DAC Noise From IF IC (IC00, Pin) NOIS Noise Comdetector parator IC00 Noise filter IC00 he filtered AF signals are passed through the D/A converter (DAC; M: IC00, pins, ;, ) for level adjustment. he level-adjusted AF signals are entered to the LOGIC UNI via RX AF mute (M: IC00C/D), and applied to the AF power (IC00) to obtain audio output power. he power-amplified AF signals are applied to the internal speaker or output from [DAA/SP/MIC] jack. RX AF CIRCUIS LOGIC UNI MA UNI [DAA/MIC/SP] CHASSIS SP IC00 AF,0 RX AF MUE IC00C/D:CD0 AFON POWER CONROLLER SP SP Q0-0 LPF IC0 Q00,0 IC0 IC0 ONE FILER ONE SEL LEAR CODEC IC0 0 ONE FILER IC00 DSP CODEC LPF IC0 AF FIL IC00A M ODE IC0 IC0 CPU D/A IC IC00D M ODE <-AND> FM-demodulated AF signals from MUE (IC00) <-AND> AM-demodulated AF signals from AM demodulator (D0) <A-AND> AM/FM-demodulated AF signals from AM demodulator (D0)/mute (IC00) Q0 IC0 0,, AF FIL <-AND> FM-demodulated AF signals from IF IC (IC00) MODEM AF FIL UFF IC0 - FM-demodulated AF signals from IF IC (IC00) -adjusted AF signals to IF IC (IC00) 0 FM-demodulated AF signals from IF IC (IC00) -adjusted AF signals to IF IC (IC00)
DV MODE he MIC signals from the microphone (MC00) are passed through the MIC gain (Q0) and applied to the MIC (Q0, 0). he amplified MIC signals are applied to the ALC (IC00) which automatically adjusts the level of MIC signals to stable for digital proccessing, via the mode (IC0). he level-adjusted MIC signals are applied to the IDC circuit (IC0) for amplitude-limitting. he amplitude-limited MIC signalsn are passed through the splatter filter (IC0) which cuts off the khz and higher audio signals. - RANSMI CIRCUIS X AF CIRCUIS (LOGIC UNI) FM MODE MIC signals from the internal/external microphone (MIC signals) are passed through the MIC gain (Q0), and applied to the MIC (Q0, 0). he amplified MIC signals are passed through the mode (IC0) which toggles the MIC line according to the operating mode; FM or DV. he MIC signals are applied to the IDC (Instance Deviation Controller; IC0) circuit which limits the amplitude of MIC signals (=deviation) to prevent over deviation. he frequency-limited MIC signals are applied to the liner CODEC IC (IC0) via the buffer (IC0A), and encoded into the digital audio signal. he digital audio signal is then applied to the DSP CODEC IC (IC0) and converted into the AME signal. he AME signal is applied to the modem IC (IC0) via the CPU (IC). he modem IC converts the AME signal into the analog signal, and output to the DAC (IC00, pin ) via the buffer (IC0D) and the mode (IC0). he tone signal is level-adjusted by DAC (M: IC00), then applied to the modulation circuits as the modulation signals. he amplitude-limited MIC signals are passed through the splatter filter (IC0) which cuts off the khz and higher audio signals. he frequency-limited MIC signals are entered to the MA UNI via the mode (IC0), then applied to the DAC (M: IC00) for level (deviation) adjustment. he level-adjusted MIC signals are applied to the modulation circuits. X AF CIRCUIS LOGIC UNI MA UNI Q0 MC00 GA MIC AM P IC0 Q0,0 IC0 Q0,0 IC0C MODE IC00 From ext. microphone ID C IC0A IC0 LPF UFF LEAR CODEC IC00 Q0 D/A ALC AM P LPF Modulation signals to the VCO UNI DSP CODEC IC0 CCSS? CPU IC0? IC0,0 IC IC0D MODEM UFF MODE MODULAION CIRCUIS (VCO UNI) X LIFIERS ( UNI) he modulation signals from the DAC (M: IC00, pin ) are entered to the VCO UNI, and applied to the variable capacitors of VCOs. X signal from VCO UNI is applied to the LO (IC00) via the LO (D00). he amplified X signal is passed through the A (D, ) which is a port of the APC circuit. he level-adjusted X signal is amplified by YGR (Q0), drive (Q0) and power (Q00) amplifiers in sequence, to obtain X output power. he power-amplified X signal is passed through the X filters, power detector and AN s. OPERAG ON VHF AND he modulation signals are applied to the D of the VHF VCO (Q, D, ) to obtain FM modulation. he FM-modulated VCO output is buffer-amplified by Q00, amplified by Q0 then entered to the UNI as X signal. OPERAION ON VHF AND he power-amplified X signal from the power (Q00) is passed though the LPF, power detector, AN and two LPFs (as a harmonic filter), then applied to the antenna via AN connector (CHASSIS; J). OPERAG ON UHF AND he modulation signals are applied to the D00 of the UHF VCO (Q0, D0, 0) to obtain FM modulation. he FM-modulated VCO output is buffer-amplified by Q00, amplified by Q0 then entered to the UNI as X signal. OPERAION ON UHF AND he power-amplified X signal from the power (Q00) is passed though the PF, power detector, AN, HPF and LPF (as a harmonic filter), then applied to the antenna via AN connector (CHASSIS; J). -
APC CIRCUI ( UNI) he output voltage is applied to the A (D, ) to control the attenuation level, to adjust the input level of the YGR (Q0) so that the X output power is stable. he APC (Automatic Power Control) circuit stabilizes transmit output power to prevent transmit output power level change which is caused by load mismatching or heat effect, etc. he setting of X power is carried out by applying voltage DSE to the APC controller (IC0A). he output voltage of the controller controls the bias of the drive and power s to reduce/increase the gain of these amplifiers to set the X output power to High, Mid., Low and S-Low. X signal is passed through the power detector (VHF; D /UHF; D0,,). he power detector rectifies a portion of the X signal and converts it into DC voltage which is in proportion to the transmit output power. he detected voltage is applied to the APC controller (IC0). he X power setting voltage PSE is applied to another input terminal as the reference voltage. X LIFIERS AND APC CIRCUI D 00,0 X/RX D, Q0 IC00 LO YGR AM P A Q0 DRIVE AM P GAE CRL APC CRL PSE L00.0. C00-0, Q00 PWR AM P UHF X signal PF D L,C- L- C- PWR DE AN HPF LPF Q D- L0,0 C0,0 DSE IC0A Q D0,, VHF X signal LPF D, PWR DE AN AN L- C0- LPF IC0 - FREQUEY SYNHESIZER CIRCUIS VCOs PLLs his transceiver has total of five VCOs; one RX VCO and RX/X VCOs on the VCO UNI, and two RX VCOs on the MA UNI. he PLL circuit provides stable oscillation for both of the transmit and st LO frequencies. y comparing the fedback VCO output and the reference frequency signal, the oscillating frequency is stabilized. he PLL output frequency is controlled by the serial data including divide ratio from the CPU. <A AND> C AND VCO (VCO UNI; Q, D,,, ) he C AND VCO generates the st LO for C band (0.. MHz) RX. <A AND> (VCO AND MA UNIS) A portion of output signals from each VCO are fedback to the PLL IC (M: IC00) via buffers (V: Q00, 0) and LPF. he applied VCO outputs are divided by the prescaler and programmable divider, then phase-compared with divided reference frequency from X0 (MA). he phase difference is output via the charge pump, and applied to the VCOs as lock voltage via the loop filter. VHF AND VCO (VCO UNI; Q, D, ) he VHF AND VCO generates the st LO for VHF band (. MHz) RX, and also X signal for the operation on the VHF band. UHF AND VCO (VCO UNI; Q0, D0, 0) he UHF AND VCO generates the LO for UHF band (. MHz) RX, and also X signal for the operation on the UHF band. When receiving 00 MHz and higher signals, the UHF AND VCO oscillates.. MHz st LO signals, and the output signal is doubled by the doubler (MA UNI; Q0, D) before being applied to the mixer (MA UNI; IC00). < AND> (MA UNI) A portion of output signals from each VCO are fedback to the PLL IC (IC00) via buffer (Q). he applied VCO outputs are divided by the prescaler and programmable divider, then phase-compared with divided reference frequency from X0. he phase difference is output via the charge pump, and applied to the VCOs as lock voltage via the loop filter. < AND> VHF AND VCO (MA UNI; Q0, D00, 0) he VHF AND VCO generates the st LO for VHF band ( MHz) RX for AND. When the oscillation frequency drifts, its phase changes from that of the reference frequency, causing a lock voltage change to compensate for the drift in the VCO oscillating frequency. UHF AND VCO (MA UNI; Q, D0, ) he UHF AND VCO generates the st LO for UHF band (00 MHz) RX for AND. FREQUEY SYNHESIZER CIRCUIS (A AND) UNI FREQUEY SYNHESIZER CIRCUIS ( AND) C:..MHz Q,,D-,, VCO Q00 UFF IC0 Q0 Q,,D0 LO Modulation signals Q0 UFF MODE VHF:.0-.MHz Q,,D,,, Q VHF:.0-0.0MHz X VCO Q00,0,D00,0 Q0 UHF:.-.MHz Q0,0,00-0,0 UFF Q,D VCO Q,D LPF X VCO VCO UNI LOOP FILER Q0,,D0,D IC00 IC00. MHz PLL IC X0,D.MHz reference frequency - PLL IC LOOP FIL VCO UHF:.0-.MHz UFF
- CPU POR ALLOCAION LE NAME POWER DESCRIPION /OU SAUS [POWER] key input. (Pull-up). L PKEY [PWR] key input (Pull-up). L CONDIION he key is pushed DICK [DIAL] input(phase A). DIUD [DIAL] input(phase ). P [P] key input (Pull-down). H he key is pushed SQL [SQL] key input (Pull-up). L he key is pushed I0I Initial matrix ports. Key detect signal. (Pushed bottom is detected according to the input voltage.) KR0KR KS0KS Key matrix ports. ESIO Serial data to the EEPROM. ECK Clock to the EEPROM. XC LED OU /OU OU line regulator (M: Q0) control signal. OU H While transmitting. [USY] LED driver (L: Q0) control signal. OU H RX(Squelch open) Lights ON. LIGH LCD/Key backlight driver (L: Q0) control signal. OU L LCDD Serial data to the LCD driver (L: DS). OU LCDCS Chip select signal to the LCD driver (L: DS). OU LCDCK Clock to the LCD driver (L: DS). OU LCDRS Strobe signal to the LCD driver (L: DS). OU LCDRES Reset signal to the LCD driver (L: DS). OU AMEC DSP IC power line regulator (L:IC0) control signal. OU H In DV mode operation. In DV mode operation. DVC Liner CODEC IC power line regulator (L: Q0,0) control signal. OU H X RS- data (XD). OU RX RS- data (RXD). XCK X clock to the modem (L: IC0). XD X data to the modem (L: IC0). OU RXCK RX clock to the modem (L: IC0). RXD RX data to the modem (L: IC0). ACQ ACQ signal to the modem (L: IC0). OU H Synchronized DCEL DCEL signal to the modem (L: IC0). OU H Synchronized AMERES Reset signal to the liner CODEC IC and DSP CODEC IC (L: IC0 and IC0). OU AMECLK AME clock signal to the DSP CODEC IC (L: IC0). OU AMES AME strobe signal to the DSP CODEC IC (L: IC0). OU AMEXD AME X data to the DSP CODEC IC (L: IC0). OU AMERXD AME RX data to the DSP CODEC IC (L: IC0). AMEEPR AME EPR signal to the DSP CODEC IC (L: IC0). CLSF Clock frequency shift signal to the clock oscillator (L:X, D). OU H DICK [DIAL] (VR) input (Phase A). DIUD [DIAL] (VR) input (Phase ). CHGC Charging control signal to the charge circuit (L:Q0, D0, ) OU H While charging. CHGH Charging current control signal to the charging controller (L: Q0, ). OU H Charging current increase. CPUHV Externalpower supply detection. L Exter nal power supply is connected. AFON Control signal to the AF power controller (L: Q00, 0). OU H AF power (L: IC00) is activated (Squelch open). A Power supply select signal to the power supply selector (L: IC0, Q). OU H/L H=Operated by the battery pack. L=O p e ra t e d by a n ex t e r n a l power source. SP Speaker select signal to the Internal speaker (L: Q00). OU ANOIS Noise detect signal from the A AND IF IC (M: IC00). NOIS Noise detect signal from the -AND IF IC (M: IC00). CK Common clock signal to the the PLL ICs and DAC (LMX/ MEE0SL/MAGP). OU DAA Common serial data to the PLL ICs and DAC (LMX/MEE0SL/ MAGP). OU -
- CPU POR ALLOCAION (continued) LE NAME DESCRIPION DAS /OU SAUS Strobe signal to the DAC (R: IC0). OU CONDIION DAS Strobe signal to the DAC (M: IC00). OU IOS Strobe signal to the expander (R: IC). OU IOS Strobe signal to the expanders (M: IC0, 0). OU Strobe signal to the expander (L: IC). OU APLLS IOS Strobe signal to the A AND PLL IC (M: IC00). OU PLS Strobe to the AND PLL IC (M: IC00). OU Power save mode control signal to the A/ AND PLL ICs (M: IC00/ IC00). OU L In power save mode. PLL is locked. PS UNLK Unlock signal from the A AND PLL IC (M: IC00). H CL Key detect signal. (Pushed bottom is detected by refering input voltage.) A/D AONE one signals; tone and WX A AND. A/D ONE one signals; tone and WX AND. A/D DC voltage divided by the voltage detect resisters (L: R and R0). (Remaining battery capacity detection.) A/D OPV External device detect. A/D EMP he voltage in proportion to the internal temperature. he voltage divided by R (thermistor; LOGIC) and R (LOGIC). A/D S-XV While operated by battery RSSI voltage from the IF IC (M: IC00). While perated by external power supply Current in X from the I-V converter (M: IC0). A/D RSSI RSSI voltage from the AND IF IC (M: IC00). A/D V CCOU CCSS/DCS signals. OU D/A DMF one signals; DMF, EUR tone, OU D/A RESE Reset signal from the reset IC (L:IC00). H - VOLAGE LOCK DIAGRAMS Voltage from the attached battery pack is routed to the whole of the transceiver via regulators and switches. Q000, D000, 00 DC- DC attery pack A IC0 REG IC00 +V REG IC0 +V REG Q0 CHG Q0 D0, +CPU CPU IC0,D0 + V XC Q00,0 AFV AFON REG LEDV Q00,0,0 VCOV AF PWR (IC00) CVCOC AVCOC VCOC D V AME REG AME䇭V DVC MODEMV CODEC V - MO D EM CODEC + V VCOA,, C LIGH MARV + V RC RV AMEC +.V Q0 PCO N CHGH CHGC DC-DC RV
SECION ADJUSMEN PROCEDURE - PREPARAION REQUIRED SRUMENS SRUMENS SPECIFICAION SRUMENS SPECIFICAION DC Cable OPC-L (Optional product) JIG cable (See the illust below) Power Supply Output voltages Current capacity :.0. V DC : More than A Multimeter Input impedance Measuring range : 0 kω : 0.0V/0.0 A Power Meter (terminated type) Measuring range range Impedance R : 0.0 W : 0000 MHz : 0 Ω : Less than. : Standard Signal Generator (SSG) range Output level : 0.000 MHz : 0.0 µv to mv ( du to 0 du) AC Millivoltmeter Measuring range : 0 mv to 0 V Attenuator Power attenuation : 0 d Capacity : More than 0 W Audio Generator range Output level range : 0.00 MHz Counter accuracy : ± ppm or better Input level : Less than mw range Measuring range Modulation Analyzer : 000 MHz : 0 to ±0 khz : 00000 Hz : 00 mv CAUION!: ACK UP originally programmed contents (Memory channels, Common settings, etc.) in the transceiver using optional RS- REMOE CONROL SOFWARE before starting adjustment. When all adjustments are completed, these contents in the transceiver will be cleared. JIG CALE CONNECION () [SP] kω -conductor. (d) mm plug OPC- JIG cables AUDIO GENERAOR (00000 Hz/00 mv) (CLONE) (Optional product) AC MILLIVOLMEER (0 mv to 0 V) () + P [MIC] -conductor. (d) mm plug k + (MIC). µf o the [DAA/MIC/SP] jack - +
M ENERG ADJUSMEN MODE q urn the power OFF. w Connect the JIG cable to the [DAA/SP/MIC] jack. e While pushing [SQL] and [] keys, turn the power ON. [SQL] Adjustment item Adjustment value ( and: Mode Adjustment frequency # (/ X power. [PWR] During adjustment mode, the display shows adjustment conditions as above. [] M KEY ASSIGNMENS FOR HE ADJUSMEN MODE Adjusts the value for the item Stores adjustment value Starts automatic adjustment Selects next adjustment item (without storing value) Selects previous adjustment item M QUIG ADJUSMEN MODE q urn the power OFF. w While pushing [VFO], [MR] and [AND] keys, turn the power ON. (All reset) -
- RANSMI LIFIER ADJUSMEN Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN OPERAION ADJUSMEN IEM VALUE ) Connect an power meter to the antenna connector. ) C o n n e c t a m u l t i m e t e r between the external power supply and transceiver. Adjust the current using [DIAL], then release the P and push [AND] to store the adjustment value. [KF] 0000 ma [Q] 00 mw ADJUSMEN CONDIION IDLG CURREN (@.0 V) [PREPARAION] 0 Supply voltage :.0 V [VHF AND] Displayed freq. : " " ransmitting [UHF AND] Displayed freq. : " " ransmitting RANSMI POWER (@.0 V) [VHF (AND LOW)] Displayed freq. : " " X power : "." ransmitting [VHF (AND HIGH)] Displayed freq. : " " X power : "." ransmitting [UHF (AND LOW)] Displayed freq. : " " X power : "." ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "." ransmitting Adjust the X power using [DIAL], then release the P and push [AND] to store the adjustment value. POWER MEER (0 W/0 Ω) JIG cable (See the page -).0 V e sure the polarity. MULIMEER (0 ma to A) DC power supply o the battery contact pins + Fusese (A) - +
- RANSMI LIFIER ADJUSMEN (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN OPERAION ADJUSMEN IEM VALUE ) Connect an power meter to the antenna connector. ) C o n n e c t a m u l t i m e t e r between the external power supply and transceiver. ADJUSMEN CONDIION IDLG CURREN (@. V) [PREPARAION] 0 Supply voltage :. V [VHF AND] (Hi power) Displayed freq. : " " X power : "*K" ransmitting (Mid power) Displayed freq. : " " X power : "/KF" ransmitting (Low power) Displayed freq. : " " X power : ".QY" ransmitting (S-Low power) Displayed freq. : " " X power : "." ransmitting [UHF AND] (Hi power) Displayed freq. : " " X power : "*K" ransmitting (Mid power) Displayed freq. : " " X power : "/KF" ransmitting (Low power) Displayed freq. : " " X power : ".QY" ransmitting (S-Low power) Displayed freq. : " " X power : "." ransmitting Adjust the current using [DIAL], then release the P and push [AND] to store the adjustment value... A 0000 ma 0000 ma [KF].. A 0000 ma 0000 ma POWER MEER (0 W/0 Ω) JIG cable (See the page -). V e sure the polarity. MULIMEER (0 ma to A) DC power supply o the battery contact pins lack White Fusese (A) - +
- RANSMI LIFIER ADJUSMEN (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN RANSMI POWER (@. V) [PREPARAION] 0 Supply voltage :. V (Hi power) [VHF (AND LOW)] Displayed freq. : " " X power : "*K" ransmitting [VHF (AND HIGH)] (Mid power) [VHF (AND LOW)] [VHF (AND HIGH)] (Low power) [VHF (AND LOW)] [VHF (AND HIGH)] (S-Low power) [VHF (AND LOW)] [VHF (AND HIGH)] OPERAION ADJUSMEN IEM VALUE ) Connect an power meter to the antenna connector. ) C o n n e c t a m u l t i m e t e r between the external power supply and transceiver. ADJUSMEN CONDIION Displayed freq. : " " X power : "*K" ransmitting Adjust the X power using [DIAL], then release the P and push [AND] to store the adjustment value... W Displayed freq. : " " X power : "/KF" ransmitting.. W Displayed freq. : " " X power : "/KF" ransmitting [Q] Displayed freq. : " " X power : ".QY" ransmitting 0.0. W Displayed freq. : " " X power : ".QY" ransmitting Displayed freq. : " " X power : "." ransmitting 00 mw Displayed freq. : " " X power : "." ransmitting POWER MEER (0 W/0 Ω) JIG cable (See the page -). V e sure the polarity. MULIMEER (0 ma to A) DC power supply o the battery contact pins lack White Fusese (A) - +
- RANSMI LIFIER ADJUSMEN (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN OPERAION ADJUSMEN IEM VALUE ) Connect an Power Meter to the antenna connector. ) C o n n e c t a m u l t i m e t e r between the external power supply and transceiver. ADJUSMEN CONDIION RANSMI POWER (@. V) [PREOARAION] 0 Supply voltage :. V (Hi power) [UHF (AND LOW)] Displayed freq. : " " X power : "*K" ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "*K" ransmitting (Mid power) [UHF (AND LOW)] Displayed freq. : " " X power : "/KF" ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "/KF" ransmitting (Low power) [UHF (AND LOW)] Displayed freq. : " " X power : ".QY" ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : ".QY" ransmitting (S-Low power) [UHF (AND LOW)] Displayed freq. : " " X power : "." ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "." ransmitting Adjust the X power using [DIAL], then release the P and push [AND] to store the adjustment value... W.. W [Q] 0.0. W 00 mw POWER MEER (0 W/0 Ω) JIG cable (See the page -). V e sure the polarity. MULIMEER (0 ma to A) DC power supply o the battery contact pins lack White Fusese (A) - +
- RANSMI LIFIER ADJUSMEN (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN OPERAION ADJUSMEN IEM VALUE ) Connect an Power Meter to the antenna connector. ) C o n n e c t a M u l t i m e t e r between the external power supply and transceiver. ) Set the item [Po] to "00." [Q] "00" ADJUSMEN CONDIION 0 Supply voltage :. V IDLG (supplying from [DC ]) CURREN (@. V) [PREOARAION] [VHF AND] (Hi power) Displayed freq. : " " X power : "*K" ransmitting (Mid power) Displayed freq. : " " X power : "/KF" ransmitting (Low power) Displayed freq. : " " X power : ".QY" ransmitting (S-Low power) Displayed freq. : " " X power : "." ransmitting [UHF AND] (Hi power) Displayed freq. : " " X power : "*K" ransmitting (Mid power) Displayed freq. : " " X power : "/KF" ransmitting (Low power) Displayed freq. : " " X power : ".QY" ransmitting (S-Low power) Displayed freq. : " " X power : "." ransmitting Adjust the current using [DIAL], then release the P and push [AND] to store the adjustment value. 00 ma 00 ma 0000 ma [KF] 00 ma 00 ma 0000 ma POWER MEER (0 W/0 Ω) JIG cable (See the page -). V MULIMEER (0 ma to A) o [DC ] DC power supply OPC-L lack White Fusese (A) - +
- RANSMI LIFIER ADJUSMEN (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN ADJUSMEN CONDIION ADJUSMEN IEM OPERAION RANSMI POWER (@. V) [PREOARAION] 0 Supply voltage :. V (supplying from [DC ]) Connect an Power Meter to the antenna connector. (Hi power) [VHF (AND LOW)] Displayed freq. : " " X power : "*K" ransmitting [VHF (AND HIGH)] Displayed freq. : " " X power : "*K" ransmitting Adjust the X power using [DIAL], then release the P and push [AND] to store the adjustment value. (Mid power) [VHF (AND LOW)] Displayed freq. : " " X power : "/KF" ransmitting [VHF (AND HIGH)] Displayed freq. :" " X power : "/KF" ransmitting (Low power) [VHF (AND LOW)] Displayed freq. : " " X power : ".QY" ransmitting [VHF (AND HIGH)] Displayed freq. :" " X power : ".QY" ransmitting (S-Low power) [VHF (AND LOW)] Displayed freq. : " " X power : "." ransmitting [VHF (AND HIGH)] Displayed freq. : " " X power : "." ransmitting VALUE.. W.. W [Q] 0.0. W 00 mw POWER MEER (0 W/0 Ω) JIG cable (See the page -). V MULIMEER (0 ma to A) o [DC ] DC power supply OPC-L lack White Fusese (A) - +
- RANSMI LIFIER ADJUSMEN (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN OPERAION ADJUSMEN IEM VALUE Supply voltage :. V (supplying from [DC ]) ) Connect an Power Meter to the antenna connector. ) Set the power supply voltage to. V. Adjust the X power using [DIAL], then release the P and push [AND] to store the adjustment value. ADJUSMEN CONDIION RANSMI POWER (@. V) [PREPARAION] 0 (Hi power) [UHF (AND LOW)] Displayed freq. : " " X power : "*K" ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "*K" ransmitting (Mid power) [UHF (AND LOW)] Displayed freq. : " " X power : "/KF" ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "/KF" ransmitting (Low power) [UHF (AND LOW)] Displayed freq. : " " X power : ".QY" ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : ".QY" ransmitting (S-Low power) [UHF (AND LOW)] Displayed freq. : " " X power : "." ransmitting [UHF (AND HIGH)] Displayed freq. : " " X power : "." ransmitting.. W.. W [Q] 0.0. W 00 mw POWER MEER (0 W/0 Ω) JIG cable (See the page -). V MULIMEER (0 ma to A) o [DC ] DC power supply OPC-L lack White Fusese (A) - +
- FREQUEY ADJUSMEN Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN EREE FREQUEY OPERAION ADJUSMEN IEM VALUE ) C o n n e c t a n R F t o t h e antenna connector. ) Loose couple a Counter to the antenna connector. ) Adjust the frequency using [DIAL], then release the P and push [AND] to store the adjustment value. [(] (Displayed frequency) ADJUSMEN CONDIION Displayed freq. : " " ransmitting FREQUEY COUNER (0.00 MHz) POWER MEER (0 W/0 Ω) (Loose Coupling) JIG cable (See the page -). V DC power supply e sure the polarity. o the battery contact pins + Fusese (A) - 0
- DEVIAION ADJUSMENS Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN FM DEVIAION [PREPARAION] OPERAION ADJUSMEN IEM VALUE ) C o n n e c t a M o d u l a t i o n A n a l y ze r t o t h e a n t e n n a connector through an Attenuator. ) Connect an Audio Generator to the JIG cable (see the page -). [(/].. khz [(/].0. khz ADJUSMEN CONDIION 0 Supply voltage :. V (@ khz) [VHF (AND LOW)] Displayed freq. : " " ransmitting [VHF (AND HIGH)] Displayed freq. : " " ransmitting [UHF (AND LOW)] Displayed freq. : " " ransmitting [UHF (AND HIGH)] Displayed freq. : " " ransmitting (@00 Hz) [VHF (AND LOW)] Channel ransmitting [VHF (AND HIGH)] Displayed freq. : " " ransmitting [UHF (AND LOW)] Displayed freq. : " " ransmitting [UHF (AND HIGH)] Displayed freq. : " " ransmitting : " " ) Set the Audio Generator as; : khz : 0 mvrms ) Adjust the deviation using [DIAL], then release the P and push [AND] to store the adjustment value. ) Set the Audio Generator as; : 00 Hz : 0 mvrms ) Adjust the deviation using [DIAL], then release the P and push [AND] to store the adjustment value. MODULAION ANALYZER (0.00 MHz) JIG cable (See the page -) AENUAOR (0 d/0 W) SEG HPF LPF De-emphasis Detector : OFF : 0 khz : OFF : (P-P)/. V DC power supply e sure the polarity. o the battery contact pins + Fusese (A) -
- DEVIAION ADJUSMENS (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN OPERAION ADJUSMEN IEM VALUE Connect a Modulation Analyzer to the antenna connector through an Attenuator. No audio signals are applied. [&].. khz [&] Minimum deviation ADJUSMEN CONDIION DIGIAL VOICE DEVIAION [PREPARAION] 0 Supply voltage :. V (VCO MODULAION) [VHF (AND LOW)] Displayed freq. : " " ransmitting [VHF (AND HIGH)] Displayed freq. : " " ransmitting [UHF (AND LOW)] Displayed freq. : " " ransmitting [UHF (AND HIGH)] Displayed freq. : " " ransmitting Adjust the deviation using [DIAL], then release the P and push [AND] to store the adjustment value. (. MODULAION) Displayed freq. : " " [VHF (AND LOW)] ransmitting [VHF (AND HIGH)] Displayed freq. : " " ransmitting [UHF (AND LOW)] Displayed freq. : " " ransmitting [UHF (AND HIGH)] Displayed freq. : " " ransmitting MODULAION ANALYZER (0.00 MHz) JIG cable (See the page -) AENUAOR (0 d/0 W) SEG HPF LPF De-emphasis Detector : OFF : 0 khz : OFF : (P-P)/. V DC power supply e sure the polarity. o the battery contact pins + Fusese (A) -
- DEVIAION ADJUSMENS (continued) Select an adjustment item using [] / [] keys, then set the adjustment value as specified using [DIAL]. ADJUSMEN DMF, European tone, CCSS, DCS DEVIAION [PREPARAION] 0 Supply voltage :. V [DMF] (VHF) Displayed freq. : " " ransmitting Displayed freq. : " " ransmitting (UHF) [European tone] (VHF) OPERAION ADJUSMEN IEM VALUE Connect a Modulation Analyzer to the antenna through an Attenuator. No audio signals are applied. Adjust the deviation using [DIAL], then release the P and push [AND] to store the adjustment value. [&/(] ADJUSMEN CONDIION.. khz Displayed freq. : " " ransmitting ['] Displayed freq. : " " ransmitting (UHF) Displayed freq. : " " ransmitting [CCSS] (VHF) [%] Displayed freq. : " " ransmitting (UHF) 0.0. khz Displayed freq. : " " ransmitting [DCS] (VHF) [&%] Displayed freq. : " " ransmitting (UHF) MODULAION ANALYZER (0.00 MHz) JIG cable (See the page -) AENUAOR (0 d/0 W) SEG HPF LPF De-emphasis Detector : OFF : 0 khz : OFF : (P-P)/. V DC power supply e sure the polarity. o the battery contact pins + Fusese (A) -
- RECEIVE ADJUSMENS SANDARD SIGNAL GENERAOR (0.000 MHz) CAUION: DO NO transmit while an SSG is connected to the antenna connector. JIG cable (See the page -). V DC power supply e sure the polarity. o the battery contact pins + P Fusese (A) WHOLE PROCEDURE OF RECEIVE ADJUSMENS ) Select an adjustment item using [] / [] keys. ) Set the SSG as specified (frequency, deviation and output level). ) Push the [AND] key to adjust (automatic) and store the adjustment value. ADJUSMEN ADJUSMEN CONDIION OPERAION A AND RECEIVE SENSIIVIY [PREPARAION] 0 Supply voltage :. V Connect an SSG to the antenna connector and set as; Modulation : khz Deviation :. khz [0. MHz] Displayed freq. : " " : 0. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [0. MHz] Displayed freq. : " " : 0. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [0. MHz] Displayed freq. : " " : 0. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ - ADJUSMEN IEM VALUE [#] Push the [AND] key. (Automatic adjustment)
RECEIVE ADJUSMEN (continued) ) Select an adjustment item using [] / [] keys. ) Set the SSG as specified (frequency, deviation and output level). ) Push the [AND] key to adjust (automatic) and store the adjustment value. ADJUSMEN ADJUSMEN CONDIION OPERAION [. MHz] Displayed freq. : " " :. MHz : dµ [. MHz] Displayed freq. : " " :. MHz : dµ [. MHz] 0 Displayed freq. : " " :. MHz : dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [0. MHz] Displayed freq. : " " : 0. MHz : 0 dµ [0. MHz] Displayed freq. : " " : 0. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [0. MHz] Displayed freq. : " " : 0. MHz : dµ [0. MHz] Displayed freq. : " " : 0. MHz : dµ [. MHz] Displayed freq. : " " :. MHz : dµ [0. MHz] 0 Displayed freq. : " " : 0. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ [00. MHz] Displayed freq. : " " : 00. MHz : 0 dµ [00. MHz] Displayed freq. : " " : 00. MHz : 0 dµ [. MHz] Displayed freq. : " " :. MHz : 0 dµ - ADJUSMEN IEM VALUE [#] Push the [AND] key. (Automatic adjustment)