VHF/UHF DIGIAL RANSCEIVER S-9XZ-C Apr. 009
INRDUCIN CAUIN his service manual describes the latest technical information for the ID-0H and ID-E0 VHF/UHF DIGIAL RANSCEIVER at the time of publication. NEVER connect the transceiver to an AC outlet or to a DC power supply that uses more than specified. his will ruin the transceiver. YPE F EMISSIN D N expose the transceiver to rain, snow or any liquids. MDEL VERSIN Max. X PWER (VHF/UHF) [PE] / D N reverse the polarities of the power supply when connecting the transceiver. [USA] ID-0H D N apply an RF signal of more than 0 dm (00 mw) to the antenna connector. his could damage the transceiver s front-end. [KR] [AUS] [CHN] FD, FE, FW [EXP] 0/0 [EUR] ID-E0 o upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation. [IR] [EUR-0] (ID-0H) RDERING PARS REPAIR NES e sure to include the following four points when ordering replacement parts:. Make sure that the problem is internal before disassembling the transceiver.. D N open the transceiver until the transceiver is disconnected from its power source.. D N force any of the variable components. urn them slowly and smoothly.. D N short any circuits or electronic parts. An insulated tuning tool MUS be used for all adjustments.. D N keep power N for a long time when the transceiver is defective.. D N 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 <RDER EXAMPLE> 0009 S.ID AFNG ID-0E/ID-0H MAIN UNI pieces 0000 Screw screw ID-0H/ID-E0 op cover 0 pieces Addresses are provided on the inside back cover for your convenience. Icom, Icom Inc. and IDM logo are registered trademarks of Icom Incorporated (Japan) in the United States, the United Kingdom, Germany, France, Spain, Russia and/or other countries.
ALE F CNENS SECIN SPECIFICAINS SECIN INSIDE VIEWS SECIN DISASSEMLY INSRUCIN SECIN CIRCUI DESCRIPIN SECIN - RECEIVER CIRCUIS........................................................ - - RANSMIER CIRCUIS.................................................... - - FREQUEY SYNHESIZER................................................. - - CPU (MAIN UNI; IC) PR ALLCAIN..................................... - - VLAGE LCK DIAGRAM.................................................. - ADJUSMEN PRCEDURE - PREPARAIN............................................................. - - FREQUEY AND RANSMI AMPLIFIER ADJUSMENS......................... - - ANALG DEVIAIN ADJUSMENS (VHF AND)................................ - - ANALG DEVIAIN ADJUSMENS (UHF AND)............................... - - DIGIAL DEVIAIN ADJUSMEN............................................ - - RECEIVE SENSIIVIY ADJUSMEN.......................................... - - S-MEER ADJUSMEN..................................................... - - SQUELCH ADJUSMEN.................................................... -9 SECIN PARS LIS SECIN MECHANICAL PARS SECIN ARD LAYUS SECIN 9 LCK DIAGRAM SECIN 0 VLAGE DIAGRAM CNRL UNI............................................................ 0- MAIN UNI................................................................. 0-
SECIN. SPECIFICAINS D RANSMIER D GENERAL coverage <For ID-0H> Version U.S.A. : : (unit: MHz) X RX, 0 0.99*, CHN EXP 00 9.99* KR AUS PE, 0 0, 0 0, 0.99*, 0 9.99*, 0.990*, 9.990*, 9 999.990*.99*, 0 9.99*, 0 999.990*, 0 0, 0 0, 0 Spurious emissions Microphone connector X RX EUR, 0 0 IA, 0 EUR-, 0 0 *Guaranteed.99*, 0 9.99*, 0 999.990*.99*, 0 9.99*, *, 0 999.990*, 0 0 : FM, AM (Receive only), DV : 0 (incl. 0 scan edges and calls) :,.,., 0,.,, 0,, 0, 0, 00,, 00 khz perating temperature range : 0 C to +0 C; + F to +0 F stability : ±. ppm ( 0 C to +0 C) Power supply requirement :. V DC ±% Current drain (at. V DC: approx.): ransmit at 0 W VHF:. A* UHF:. A* *.0 A (at W) only for the PE version Antenna connector Dimensions (proj. not included) Weight (approx.) : Double conversion superheterodyne : st:. MHz, nd: 0 khz DV Spurious and image rejection AF output power (at. V DC) Less than 0. μv Less than 0. μv : Less than 0. μv : More than 0 khz/ d Less than 0 khz/0 d More than khz/ d Less than 0 khz/0 d More than 0 d : More than 0 d : More than.0 W at 0% distortion with an Ω Ext. speaker connectors : -conductor. (d) mm ( )/ Ω Guaranteed Selectable depending on the operating frequency band. (simultaneous receive) : ±.0 khz (wide) ±. khz (narrow) : Less than 0 d : -pin modular (00 Ω) load *Guaranteed Receive Receive system Intermediate frequencies Sensitivity (amateur bands only): FM ( d SINAD) DV (ER %) Squelch sensitivity (threshold) Selectivity (typical) Wide Narrow MHz only, 0 0 MHz only *Guaranteed 0 MHz only, *Guaranteed MHz only *Not guaranteed ype of emission Number of memory channels resolution Variable reactance frequency modulation GMSK reactance frequency modulation : 0// W* (approx.) D RECEIVER (unit: MHz) Version : *// W only for the PE version. Max. frequency deviation *Guaranteed MHz only, *Guaranteed 0 0 MHz only, *Guaranteed 0 0 MHz only, *Not Guaranteed <For ID-E0> Modulation system FM DV (DIgital) utput power standby 0.9 A max. audio. A : S-9 (0 Ω) : 0(W) 0(H) 99.(D) mm 9 (W) 9 (H) (D) in :. kg; lb oz (not incl. cable) All stated specifications are subject to change without notice or obligation. - or MHz and 0 0 or 0 0 MHz ranges only.
SECIN. INSIDE VIEWS MAIN UNI SQUELCH AMP (IC) LEVEL CNVERER (IC) LEVEL CNVERER (IC00) ELECRIC VR (IC) RESE IC (IC) EEPRM (IC) AM_.V REGULAR (IC00) P+V REGULAR (IC00) MDEM (IC0) MDULAIN MUE ICH (IC9) D/A CNVERER AF UFFER (IC) (IC0) AF UFFER (IC9) DIGIAL/ANALG AF LINE (IC) LEVEL CNVERER (IC) ND IF FILERS (FI; L0HW, FI; L0EW) AF ICH (IC) UHF VC IF IC (IC) AF (IC) CLING FAN DRIVER (Q) AF (IC) S IF FILER (FI) VHF VC MIC MUE ICH (IC0) D/A CNVERER (IC) S IF MIXER CIRCUI -
CNRL UNI ACKLIGH DRIVER (Q) +C REGULAR (Q) LCD CNRAS ADJUSER (Q) LCD DRIVER (IC) RESE IC (IC) CPU CLCK (9.0 MHz) (X) FRN CPU (IC) +V REGULAR (IC) -
SECIN. DISASSEMLY INSRUCIN. REMVING P AND M CVERS. REMVING HE MAIN UNI (continued) ) Unscrew 0 screws from the MAIN UNI. ) Unscrew screws from the chassis. ) Disconnect the cooling fan cable from the MAIN UNI. ) Unsolder total of points, and take off the MAIN UNI. ) Unscrew total of screws; screws from the top cover, screws from the both sides and screws from the bottom cover. ) Remove the top cover and bottom cover as illustrated below. UNSLDER CLING FAN CALE Solder remover op cover MAIN UNI Screw x Screw x0 <ottom view> ottom cover. DISASSEMLE HE CNRL UNI ) Remove knobs from the front panel.. REMVING HE MAIN UNI ) Remove the IC clip from the chassis. ) Disconnect the speaker cable from the MAIN UNI, and remove the speaker from the chassis. SPEAKER CALE Front panel Knobs ) Unscrew screws from the rear panel. ) Remove the LCD plate. ) ake off the CNRL UNI from the front panel. IC clip Screw x Rear panel Speaker LCD plate CNRL UNI <op view> (Continued to right above.) Front panel -
SECIN. CIRCUI DESCRIPIN - RECEIVE CIRCUIS MHz AND ( MHz) he RX signals ( MHz) from the antenna are passed through two s and X/RX for VHF band (D9,,, ), and applied to the RF circuit. 00 M Hz AND (0 999 MHz) he RX signals (0 999 MHz) from the antenna are passed through the HPF, and applied to the RF AMP (Q). he amplified RX signals are filtered by the tuned PF (D, 0) to remove unwanted signals, then applied to the st mixer (IC) via the RX (D9). he RX signals are passed through the limiter (D, 9) and PF, and amplified by the RF AMP (Q). he amplified RX signals are filtered by tuned PF (D,, 0) to remove unwanted signals, then applied to the st mixer (Q). he pass-band frequency of tuned PF (D, 0) is tuned by the tuning voltage from the D/A converter controlled by the CPU (IC). he passband frequency of the tuned PF (D,, 0) is tuned by the tuning voltage from the D/A converter controlled by the CPU (IC). RF CIRCUIS RF CIRCUIS D9,,, X/RX From VHF X circuit 00 MHz AND (0 0 MHz) he RX signals (0 0 MHz) from the antenna are passed through the, HPF and X/RX for UHF band (D0,,,, ), and applied to the RF circuit. D0,,,, X/RX From UHF X circuit HPF UHF VHF he RX signals are passed through the RX (D) and filtered by the tuned PF (D, ) to remove unwanted signals, then applied to the RF AMP (Q). D,D,D0 D,D9 Q o the st IF mixer (Q) RF PF PF LIMIER <- - MHz PF,, he amplified RX signals are filtered by another tuned PF (D, ) to remove unwanted signals, and amplified by another RF AMP (Q). he RF AMP (Q) improves the isolation between the st mixer (IC) and the tuned PF. D,, D D Q9 o the st IF mixer (Q) PF RF RX PF <- 0-0 MHz PF,, PF he amplified RX signals are applied to the st mixer (IC). <- o the st IF mixer (IC) D Q he pass-band frequencies of the tuned PFs (D, : D, ) are tuned by the tuning voltage from the D/A converter controlled by the CPU (IC). RX RF D,D PF D, Q RF PF D RX <- 0-0 MHz PF PF, <- o the st IF mixer (IC) D9 0 MHz AND (0 0 MHz) he RX signals (0 0 MHz) from the antenna are passed through the, HPF and X/RX for UHF band (D0,,,, ), and applied to the RF circuit. D,D0 Q RX PF PF, he RX signals are passed through the RX (D) and tuned PF (D) to remove unwanted signals, and applied to the RF AMP (Q9). he amplified RX signals are filtered by another tuned PF (D,, ) to remove unwanted signals, then applied to the st mixer (Q). he pass-band frequencies of tuned PFs (D: D,, ) are controlled by the tuning voltage from the D/A converter controlled by the CPU (IC). - RF HPF <- 0-999 MHz
st IF CIRCUIS nd IF AND DEMDULAR (for FM and AM) CIRCUIS MHz AND ( MHz) he RX signals ( MHz) from the RF circuit are applied to the G terminal of Q (st IF mixer), and the st L signals "0_L" are applied to the G terminal of it. he st IF signal from the st IF circuits is applied to the IF IC (IC, pin 0). IC contains nd mixer, limiter AMP, noise AMP, quadrature detector, RSSI circuit and AM detector in its package. hese input signals are mixed to be converted into the.0 MHz st IF signal. he applied st IF signal is converted into the 0 khz nd IF signal by being mixed with tripled reference frequency signal (.9 MHz) from the PLL IC (IC) via the tripler (Q). 00 MHz (0 0 MHz) AND 00 MHz (0 999 MHz) ANDS he RX signals (0 0 MHz and 0 999 MHz) from the RF circuit are applied to the RX input terminal of IC (st IF mixer), and the st L signals "UHF_L" are applied to the L input terminal of it. he converted nd IF signal is output from pin, and passed through the ceramic filter (FI for FM narrow and AM modes, FI for FM and DV modes) to remove sideband noise, then applied to the IF IC (from pin ; FM/DV mode/ from pin ; AM mode) again. hese input signals are mixed to be converted into the.0 MHz st IF signal. ND IF CIRCUIS X 0MHz AND (0 0MHz) he RX signals (0 0MHz) from the RF circuit are applied to the G terminal of Q (st IF mixer), and the st L signals "0_L" are applied to the G terminal of it. Q o the AF filter circuits (FM/AM mode) IC DEEC SIGNAL SELECR FI is a -pole crystal filter contains two filters, and has adequate selectivity to extract wanted signal. he filtered st IF signal is applied to the st IF AMP (Q) via the limiter (D009), and the amplified st IF signal is applied to the IF IC (IC) via another limiter (D). S IF CIRCUIS From the 0 MHz band RF circuit 0_L D LIMI Q IF D009 LIMI FI From the 0 MHz band RF circuit 0_L XAL PF.MHz IC WIDE/NARRW SELECR X he st IF signal converted by the st mixer is passed through the st IF filter (FI) to remove unwanted signals. o the nd IF circuits CERAMIC PF. MHz o the digital demodulator circuits (DV mode) Q CERAMIC PF PLL IC CX hese input signals are mixed to be converted into the.0 MHz st IF signal. Q 0 khz nd IF filter FI FI (For wide) (For narrow) IC From the 00 MHz and 00 MHz bands RF circuit UHF_L -.9 MHz nd L X IC Pin (FM/DV mode) IF IC Pin (AM mode) From the st IF circuits
FM DEMDULAR CIRCUIS AF FILER CIRCUIS In the FM mode, the filtered nd IF signal input from pin is amplified by the internal limiter amplifier, and FMdemodulated at the internal quadrature detector. he demodulated AF signals are then output from pin and applied to the AF circuits via the AF switch (IC). he demodulated AF signals are applied to the AF filter (Q) via the digital/analog signal selector (IC), to obtain suitable audio response the for receive mode (FM, AM or DV). he frequency response of the filter is controlled by AFFIL_ SEL signal from the CPU (IC). AM DEMDULAR CIRCUIS he filtered AF signals are applied to the variable pass-band frequency audio filter circuit (IC9a; pins, ). he circuit reduces audible noises included in the demodulated AF signals. In the AM mode, the filtered nd IF signal input from pin is amplified by the internal limiter amplifier, and AMdemodulated at the internal AM detector. he demodulated AF signals are output from pin and applied to the AF filter circuits via the AF switch (IC). he filtered AF signals are applied to the electric volume IC (IC) which adjusts the loudness by AF_VL_DAA and AF_VL_CK signals from the CPU (IC). DIGIAL (DV) DEMDULAR CIRCUIS In the DV mode, the filtered nd IF signal input from pin is amplified by the internal limiter amplifier, and FM-demodulated at the internal quadrature detector. he demodulated AF signals are applied to the digital demodulator circuits via the AF switch (IC). he level-adjusted AF signals are applied to the AF power AMP (IC) via the AF mute (Q0). AF PWER AMPLIFIER he FM-demodulated AF signals from the AF switch (IC) are applied to the modem (IC0) via the two buffers (IC9b; pins, and IC0), and converted into the digital signal. he converted digital signal is applied to the DSP CDEC (IC) via the level converter (IC000, 00, 00), to be decoded into the AME signal. he decoded AME signal is then applied to the liner CDEC IC (IC00) to be converted into the analog audio signal. he converted AF signals are applied to the RX AF circuits. he AF signals from the AF mute (Q0) are applied to the AF power AMP (IC), and amplified to obtain AF output power. he power-amplified AF signals are applied to the internal speaker (CHASSIS; SP) via J. If an external speaker is connected to the external speaker jack (J), the power-amplified AF signals from the AF power AMP (IC) are applied to the connected speaker via J. DIGIAL (DV) DEMDULAR CIRCUIS From the FM demodulator circuits (DV mode) IC9b IC0 UFF UFF IC0 AF FILER CIRCUIS AND AF PWER AMPLIFIER MDEM [EXERNAL SPEAKER JACK] IC000,00,00 LEVEL CNV. IC IC00 DSP CDEC IC0 LINEAR CDEC J o the AF filter circuits (DV mode) AF Q0 SP MUE IC Volume control AF_VL_DAA AF_VL_CK SP Internal speaker IC9a AF FILER Q AF FILER IC From the FM/AM demodulator circuits (FM/AM mode) DIGI/AN SELEC From the digital demodulator circuits (DV mode) AFFIL_SEL -
- RANSMIER CIRCUIS X AF CIRCUIS he MIC signals from the AF (IC) are passed through the pre-emphasis and IDC (for amplitude-limitting) circuits (ICb), MIC level adjustment circuit (ICa) and the splatter circuit (ICd) which cuts off the khz and higher audio signals. he filtered MIC signals are applied to the modulation circuits via the AF (IC; pins, ). MIC signals from the connected microphone are passed through the HPF (Q), and amplified by the MIC AMP (IC). he amplified MIC signals are passed through the MIC gain (Q) which selects the MIC sensitivity from High or Low, and the MIC mute (IC0), then passed through or bypassed the ALC AMP (IC) via the AF s (IC9 and IC). In the DV mode, the filtered MIC signals are applied to the digital converter circuits before being applied to the modulation circuits via the AF (IC; pins, ). In the DV mode, the MIC signals are applied to the ALC AMP (IC) which automatically adjusts the level of MIC signals for digital processing, X AF CIRCUIS J Q MIC IC HPF IC0 Q MIC GAIN ICH MIC IC9 MIC MU E IC AF ICb AF ICa Pre-emphasis and IDC o the modulation circuits (FM mode) IC ICd Level ADJ. SPLAER AF o the digital converter circuits (DV mode) IC ALC From the microphone DA_SEL DIGIAL CNVERER CIRCUIS MDULAIN CIRCUIS he MIC signals from the X AF circuits are applied to the liner CDEC IC (IC0) via the buffer (IC0), and encoded into the digital audio signal. he encoded digital audio signal is then applied to the DSP CDEC IC (IC00) and converted into the AME signal. he AME signal is applied to the modem (IC0) via the level converter (IC000, 00,00). he modem IC converts the AME signal into the analog signal, and output to the modulation circuits via the buffer (IC0) and the digital/analog line (IC). he AF signals from the X AF circuits (in FM mode) or digital converter circuits (in DV mode) are applied to the AF AMP (ICc). he amplified modulation signals are passed through the D/A converter (IC) to be adjusted its level (=deviation), then applied to the VC (VHF VC: Q, D /UHF VC: Q, D, 9, 9) via the modulation mute s (IC9, VHF; Q09/UHF; Q) as the modulation signals. he modulated VC oscillating signal is passed through the buffer (VHF; Q/UHF; Q) and applied to the L AMP (IC) via the VC (VHF; D0, /UHF; D0). DIGIAL CNVERER CIRCUIS From the X AF circuits IC0 UFF IC0 IC00 LINEAR CDEC DSP CDEC IC0 MDEM he amplified VC output signals are applied to the X amplifier circuits. IC000,00,00 LEVEL CNV. IC0 UFF MDULAIN CIRCUIS IC Digi/Ana o the modulation circuits line VHF VC Q D- D0,D Q UFF VC IC o the X amplifer circuits L AMP Q09 D0 MD MUE IC9 MD MUE IC D/A From the X AF circuits (FM mode) ICc AMP From the digital converter circuits (DV mode) - Q VC UHF VC MD MUE Q UFF Q D,9,9
X AMPLIFIER CIRCUIS (VHF AND) X AMPLIFIERS (UHF AND) he output signal of VHF VC (Q, D ) is passed through the L (D), and A, then applied to the drive AMP (Q) via the limiter (D9), to obtain adequate input level for the power AMP (power MS-FE module; IC). he output signal of UHF VC (Q, D, 9, 9) is passed through the L (D0), HPF and A, then applied to the pre-drive AMP (Q). he amplified X signal is applied to the drive AMP (Q) via the limiter (D) and amplified to obtain adequate input level for the power AMP (power MSFE module; IC). he amplified X signal is power-amplified to 0 W (approx.; W for [PE] ver.) of output power (max.) by the power AMP (IC). he amplified X signal is power-amplified to 0 W (approx.; W for [PE] ver.) of output power by the power AMP (IC). he power-amplified X signal is passed through the which attenuates harmonic components to prescribed level, then applied to the antenna connector via the power detector (D9,, 00), X/RX (D9,,, ) and two s. he power-amplified X signal is passed through the which attenuates harmonic components to prescribed level, then applied to the antenna connector via the power detector (D,, 00), X/RX (D0,,,, ), HPF and. APC CIRCUIS (VHF AND) APC CIRCUIS (UHF AND) A portion of the X signal from IC is rectified at the power detector (D9,, 00), and converted into the DC voltage which is in proportion to the RF power, and applied to the operational amplifier (IC, pin ). IC is an APC amplifier for both of V/UHF bands. he X power setting voltage PCN_ V from the D/A converter (IC) is applied to the pin as a reference. IC is rolled as a differential amplifier which outputs voltage in inverse proportion to rectified one. A portion of the X signal from IC is rectified at the power detector (D,, 00), and converted into the DC voltage which is in proportion to the RF power, and applied to the operational amplifier (IC, pin ). IC is an APC amplifier for both of V/UHF bands. he X power setting voltage PCN_ U from the D/A converter (IC) is applied to the pin as a reference. IC is rolled as a differential amplifier which outputs voltage in inverse proportion to rectified one. When the X power increased, the rectified voltage also increased, that causes the decrease of output voltage of differential amplifier. he decrease of output voltage of differential amplifier causes the drop of the gate voltage of IC, hus the X power maintained to keep stable level. When the X power increased, the rectified voltage also increased, that causes the decrease of output voltage of differential amplifier. he decrease of output voltage of differential amplifi er causes the drop of the gate voltage of IC, hus the X power maintained to keep stable level. X AMPLIFIER AND APC CIRCUIS VHF band X signal -> D L D9 A From the frequency synthesizer circuits Q PRE DRIVE PW R D9,,, PWR DE X/RX D IC Q LIMIER D9,D,D00 IC Q DRIVE AMP LIMIER PWR DRIVE AMP UHF X signal -> D,,00 D0,,,, PWR DE X/RX IC D0 L HPF A APC CRL o VHF RX circuits PCN_U - PCN_V o UHF RX circuits HPF
- FREQUEY SYNHESIZER PLL VCs he PLL circuit provides stable oscillation of the transmit frequency and receive st L frequency. he PLL output frequency is controlled by control signals including divide ratio ( PLLCK, "PLLDAA and "PLLS") from the CPU (IC). VHF VC he VHF VC is composed by the oscillator circuit (Q, D,, ) and buffer AMP (Q), and generates both of st L signals and X signal for VHF band. he VC oscillating signals are buffer-amplified by Q, amplified by the L AMP (IC) to obtain adequate L level, then applied to the X amplifiers or st IF mixer via the L, A and filter. PLL (VHF VC) A portion of VHF VC output signals from the buffer (Q) are applied to the PLL IC (IC) via the VC switch (D). he applied signals are divided at the prescaler and programmable counter. While transmitting; he VC output signals from the L AMP (IC) are applied to the X amplifiers via the L (D) as the X signal. he divided signal is phase-compared with the. MHz reference frequency signal from the reference frequency oscillator (X), at the phase detector. While receiving; he VC output signals from the L AMP (IC) are passed through the L (D0), A and the, then applied to the st IF mixer (Q), as the st L signals for 0 MHz band. he phase difference is output from pin as a pulse type signal after being passed through the internal charge pump. he output signal is converted into the DC voltage (lock voltage) by passing through the loop filter (R9-9, C9). he lock voltage is applied to the variable capacitors (D, ), and locked to keep the VC frequency constant. he VC output signals from the L AMP (IC) are passed through the L (D0), A, RF and, then applied to the st IF mixer (Q), as the st L signals for 00 MHz band. UHF VC he UHF VC is composed by the oscillator circuit (Q, D, 9, 9) and buffer AMP (Q), and generates both of st L signals and X signal for UHF band. PLL (UHF VC) A portion of VHF VC output signals from the buffer (Q) are applied to the PLL IC (IC) via the VC switch (Q0). he applied signals are divided at the prescaler and programmable counter. he VC oscillating signals are buffer-amplified by Q, amplified by the L AMP (IC) to obtain adequate L level, then applied to the X amplifiers or st IF mixer via the L, A and filter. he divided signal is phase-compared with the. MHz reference frequency signal from the reference frequency oscillator (X), at the phase detector. While transmitting; he VC output signals from the L AMP (IC) are applied to the X amplifiers via the L (D0) as the X signal. he phase difference is output from pins and, and passed through the external charge pump (Q, ) to be converted into the pulse type signal. While receiving; he VC output signals from the L AMP (IC) are passed through the L (D0), A, doubler (HPF) and, then applied to the st IF mixer (IC), as the st L signals for 00 MHz band. he output signal is converted into the DC voltage (lock voltage) by passing through the loop filter (R,,, 9,, C,, ). he lock voltage is applied to the variable capacitors (D9, 9), and locked to keep the VC frequency constant. he VC output signals from the L AMP (IC) are passed through the L (D9), A and the, then applied to the st IF mixer (IC), as the st L signals for 0 MHz band. FREQUEY SYNHESIZER CIRCUIS D L o VHF X Aamplifier D0 L VHF VC Q UFF Q0, D- LP FIL o UHF X Aamplifier D0,D D 0 VC Q L A IC L AMP 0 MHz band st IF MIXER -> RX L signals for 0 MHz band (- MHz) -> D 9 IC IC0 Q Q, L PLLCK PLLDAA PLLS PLL IC VC SELEC LP FIL D0 X UHF VC Q.9 MHz X D IC A X (HPF) L -> RX L signals for 00MHz band (0-999 MHz) -> UFF IC D0 Q9 D0 Q 0 L IF IC 0 MHz band st IF MIXER -> RX L signals for 0 MHz band (0-0 MHz) -> L Q UFF Q D,9,9 D 0 VC.MHz CX A A RF -> RX L signals for 00 MHz band (0-0 MHz) -> - L 00 MHz and 00 MHz bands st IF MIXER
- CPU (MAIN UNI; IC) PR ALLCAIN PIN LINE NAME No. DESCRIPIN I/ Audio response select signal. "H"=FM mode. "L"=DV mode. DA_SEL Cut-off frequency shifting signal to the HPF (IC). MM_MUE MIC mute signal to the MIC mute switch (IC0). "H"=MIC mute. DCN ALC amplifier control signal to the AF switches (IC9 and IC). "H"=ALC amplifier N. 00_ 900SEL aud rate select signal to the packet modulation select switch (IC0). AN PIN LINE NAME No. DESCRIPIN I/ eep, DMF and european tone (E0 only) signals. Connected microphone detect signal. I DMF MIC_SEL MICUD [UP]/[DWN] key input from connected microphone (HM-). I AMRSSI Inputs RSSI signal (for AM mode) from the AGC line controller (Q). I RSSI While receiving; inputs RSSI signal from the IF IC (IC). I IDE Current level from the current detector (IC, D). I HVin Divided voltage of the HV line. I 9 WXAL Demodulated Weather alert signal from the AF filter. ([USA] only) I Microphone sensitivity select signal. "H"=High sensitivity. 0 DCS_IN Demodulated CCSS and DCS signals from the CCSS filter (Q). I ransceiver's internal temparature from the thermal detector circuit (R09). I 9 P_P Packet P detect signal. I 0 P_SQL Packet squelch control signal. MIC_SE DADJSEL Modulation mute signal to the digital modulation switch (IC). EMP SCL MD_DA Modulation line switching signal to the MD mute switches (IC9 and IC). "H"=Modulation enable. AF_VL_CK Serial clock signal to the electric volume IC (IC). AF_VL_ DAA Data signal to the electric volume IC (IC). 0 PWR Power control signal to the PWR controller (Q). "H"=While the transceiver power is N. SDA Data signal to the EEPRM (IC). I/ PLLS AMC DCS_SEL RC WN_SEL UX_C Strobe signal to the PLL IC ( IC). AM-demodulator circuit control signal. "L"=While receiving in AM mode (AMmodulator and AGC circuits are activated). o n e f i l t e r sw i t c h i n g s i g n a l t o t h e (Q00). "H"=DCS mode. "L"=CCSS mode. RX circuits control signal. "H"=RX circuits is activated. nd IF filter (Wide/Narrow) toggling signal. "H"=Narrow. "L"=Wide. ransmitting control signal to the U line regulator (Q, ). "H"=While transmitting in UHF band. VC oscillating frequency shift signal to the VHF VC switch (Q0). Clock signal to the PLL IC (IC). 9 VC_SHIF PLLCK PLLDAA Data to the PLL IC (IC). UNLCK PLL unlock signal from the PLL IC ( IC). I MMUE Modulation mute signal to the MD mute switch (Q). "H"=Modulation muted. VX_C ransmitting control signal to the V line regulator (Q, ). "H"=While transmitting in VHF band. 9 MIC_P I/ port for clock signal to the EEPRM I/ (IC). Input port for [P] key on the connected microphone. I 0 SQL 0 CL_SF Noise signal from the IF IC (IC). I Clock frequency shift signal. 0 ACQ ACQ signal to the modem IC (IC0). 0 9_DAA 09 XD X data (DV) to the modem IC (IC0). 0 XCK X clock signal (DV) to the modem IC (IC0). RXD RX data (DV) to the modem IC (IC0). I RXCK RX clock signal (DV) to the modem IC (IC0). I Communication signal to the connected I/ microphone (HM-). AMERES Reset signal to the DSP CDEC (IC00). AMECLK Clock signal to the DSP CDEC (IC00). AMEEPR EPR (Encode Packet Ready) signal to the DSP CDEC (IC00). AMES Strobe signal to the DSP CDEC (IC00). RX_DAA Data lines for the control unit. I X_DAA Data lines for the control unit. X Data bus for RS-C communication. RX Data bus for RS-C communication. I 9 DA_CK Serial clock signal to the D/A converter. PLL Lock-up time control signal to the loop filter. "H"=Fast lock-up time. UVC_SEL VC power control signal to the VC select switch (Q, ). "L"=UHF VC is activated. 0 DA_DAA Serial data to the D/A converter. VVC_SEL VC power control signal to the VC select switch (Right band VHF; Q, ). "H"=VHF VC is activated. AMEXD AME RX signal. I AMERD AME X signal. Power control signal for the digital converter circuits. DA_S Strobe signal to the D/A converter. Switching signal to the AF filter (Q). "H"=FM "L"=AM/DV DCS and CCS signals. DVC AFFIL_SEL DCS MD_MUE Packet modulation mute signal. FIL(pin) FIL(Pin) - AF filter circuits control signals.
- VLAGE LCK DIAGRAM Voltage from the power supply is routed to the whole of the transceiver via regulators and switches. MAIN UNI CNRL UNI IC HV NISE FILER X power amplifiers (IC, IC) HV + REG + REG IC, D CURREN IDE DEEC CPU (IC) (for current monitoring) +.V CPU (IC), EEPRM (IC), Reset IC (IC), etc. V CPU (IC), Regulator (Q, Q), Protector/uffer (IC), etc. IC V REG CPUV NISE FIL Q, D9 VS VS REG PLL IC (IC), D/A converter (IC), ALC IC (IC), etc. Q, D0 LV VS REG V Q Q PWR PWR CRL VCC REG DMF decoder (IC), Electric volume (IC), AF mixer (IC9), etc. Limitter (D D), etc. IC + REG V VCC AF filter (Q, Q0), MIC amplifier (IC), APC controller (IC), etc. AF power amplifier (IC) - Reset IC (IC9), LCD module, etc.
SECIN. ADJUSMEN PRCEDURE - PREPARAIN REQUIRED INSRUMENS INSRUMENS DC Cable SPECIFIDAIN INSRUMENS (Supplied with transceiver) utput voltages Power Supply Current capacity Measuring range RF Power Meter (terminated type) range Impedance R :. V DC and.0 V DC : More than A : 0. 0 W Except [PE] 0. 0 W [PE] : 00 00 MHz : 0 Ω : Less than. : SPECIFIDAIN JIG cable (See the illust below) Multimeter Input impedance Measuring range : 0 kω : 0. 0V/0.0 A range utput level : 0. 00 MHz : 0.0 µv to mv ( du to 90 du) Impedance : 0 Ω Measuring range : 0 mv to 0 V Standard Signal Generator (SSG) erminator counter AC Millivoltmeter range : 0. 00 MHz accuracy : ±0. ppm or better Input level : Less than mw Attenuator Power attenuation : 0 d Capacity : More than 00 W Modulation Analyzer range Measuring range range utput level : 0 00 MHz : 0 to ±0 khz Audio generator : 00 000 Hz : 00 mv M JIG CALE AUDI GENERAR -pin modular jack AC MILLIVLMEER (0 mv to 0 V) (00 000 Hz/ 00 mv) + + iuytrewq y (MIC) o [MICRPHNE CNNECR] q w e r t y u i V MICU/D EXMIC P MICE MIC MICIN - t (MICE) kω w (MICU/D) u () P r (P) u ()
M CNNECIN scilloscope Standard signal generator to dm (0. V to mv) Modulation analyzer (DC measurable) RF power meter 0 W Except [PE] 0 W [PE] Attenuator 0 d or 0 d CAUIN: D N transmit while SSG is connected to the antenna connector. counter to the antenna connector DC power supply. V / A erminator (0 Ω) to DC cable DC power supply.0 V / A to DC cable (For CURREN PREC REFEREE ) [DC.V] [AN] JIG CALE (See the page -) o [MICRPHNE CNNECR] M ENERING ADJUSMEN MDE q urn the transceiver power FF. w Connect JIG cable (See the page -) to the [MICRPHNE CNNECR]. e Push and hold [MNI] and [AND], turn the transceiver power N. Entering adjustment mode, the function display shows the adjustment item and conditions as below. Adjustment frequency, mode and X power AND MDE MENU VL S.MW SQL VF/MHz M/CALL DR CS LW MNI MW <Rotating> Adjusts the value for the item manually. Connects the JIG cable (See the page -) Adjustment item <Pushing> Store the set value. Adjusts the value for the item automatically. AENIN: NEVER change the value of the adjustment items that are not described in this ADJUSMEN PRCEDURES. therwise, the transceiver may not work properly. Selects next adjustment item. Selects previous adjustment item. M QUIING ADJUSMEN MDE Disconnect the JIG cable, then turn the transceiver power FF. -
- FREQUEY AND RANSMI AMPLIFIER ADJUSMEN Select an adjustment item using [VF/MHz] / [M/CALL], then set the adjustment value as specified using [DIAL]. ADJUSMEN ADJUSMEN IEM PERAIN REFEREE FREQUEY [REF] VHF AND RANSMI PWER Connect an RF power meter to the antenna connector. While transmitting, adjust the X power using [DIAL], then push [AND] to store the adjustment value. (AND HIGH) [PHH] [Mid power] (AND LW) [PML] (AND HIGH) [PMH] [Low power] (AND LW) [PLL] (AND HIGH) [PLH] UHF AND RANSMI PWER [Hi power] (AND LW) [PHH] [PHH] [Mid power] (AND LW) [PML] (AND HIGH]) [PMH] [Low power] (AND LW) [PLL] (AND HIGH) [PLH] ) ) W While transmitting, push [AND] to store the adjustment value. While transmitting, adjust the X power using [DIAL], then push [AND] to store the adjustment value. (Automatic adjustment) 0 W (Except [PE]) W ([PE]) W W [PHL] [PHH] ) Set the power supply voltage to.0 V. ) Connect an RF power meter to the antenna connector. (AND LW) (AND HIGH) Connect an RF power meter to the antenna connector. [PHL] 0 W (Except [PE]) W ([PE]) W [PHL] (AND HIGH) UHF AND CURREN PREC REFEREE ) Set the power supply voltage to.0 V. ) Connect an RF power meter to the antenna connector. [AND LW] [AND HIGH].0000 MHz) 0.0000 MHz) [PHL] [Hi power] (AND LW) VHF AND CURREN PREC REFEREE ) Connect an RF power meter to the antenna connector. ) Loose couple a frequency counter to the antenna connector. ) While transmitting, adjust the X frequency using [DIAL], then push [AND] to store the adjustment value. VALUE While transmitting, push [AND] to store the adjustment value. Except [USA], [AUS], [CHN], [EXP] [USA], [AUS], [CHN], [EXP] - (Automatic adjustment)
- ANALG DEVIAIN ADJUSMENS (VHF AND) Select an adjustment item using [VF/MHz] / [M/CALL], then set the adjustment value as specified using [DIAL]. ADJUSMEN ADJUSMEN IEM VHF AND FM DEVIAIN [FMS] [AND LW] (FM) PERAIN VALUE ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) Connect an audio generator and an AC millivoltmeter to the JIG cable (See the page -). ) Set the audio generator as; : khz Level : 0 mvrms [USA] : 0 mvrms Except [USA] ) While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. [AND LW] (FMN) [AND HIGH] (FM) [AND HIGH] (FMN) VHF AND MDULAIN ALAE ) No audio signals are applied. ) Connect an oscilloscope to the modulation analyzer. [AND LW] (FM) While transmitting, adjust the waveform using [DIAL], then push [AND] to store the adjustment value. [AND LW] (FMN) [FM] ±. khz ±. khz ±. khz ±. khz Set to square waves [AND HIGH] (FM) [AND HIGH] (FMN) DCS DEVIAIN ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) No audio signals are applied. While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. ±0.0 khz [MD] [VHF AND] (FM) [VHF AND] (FMN) Push [VF/MHz] to skip this item. CCSS DEVIAIN ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) No audio signals are applied. [VHF AND] (FM) While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. ±0. khz [VHF AND] (FMN) Push [VF/MHz] to skip this item. [MC] -
- ANALG DEVIAIN ADJUSMENS (UHF AND) Select an adjustment item using [VF/MHz] / [M/CALL], then set the adjustment value as specified using [DIAL]. ADJUSMEN ADJUSMEN IEM UHF AND FM DEVIAIN [FMS] [AND LW] (FM) VALUE ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) Connect an audio generator and an AC millivoltmeter to the JIG cable (See the page -). ) Set the audio generator as; : khz Level : 0 mvrms [USA] : 0 mvrms Except [USA] ) While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. [AND LW] (FMN) [AND HIGH] (FM) [AND HIGH] (FMN) ) No audio signals are applied. ) Connect an oscilloscope to the modulation analyzer. VHF AND MDULAIN ALAE [AND LW] (FM) [AND LW] (FMN) PERAIN [FM] ±. khz ±. khz ±. khz ±. khz While transmitting, adjust the waveform using [DIAL], then Set to square wave push [AND] to store the adjustment value. [AND HIGH] (FM) [AND HIGH] (FMN) DCS DEVIAIN ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) No audio signals are applied. [UHF AND] (FM) While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. ±0.0 khz [UHF AND] (FMN) Push [VF/MHz] to skip this item. CCSS DEVIAIN ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) No audio signals are applied. [UHF AND] (FM) While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. ±0. khz [UHF AND] (FMN) Push [VF/MHz] to skip this item. [MD] [MC] -
- DIGIAL DEVIAIN ADJUSMEN Select an adjustment item using [VF/MHz] / [M/CALL], then set the adjustment value as specified using [DIAL]. ADJUSMEN ADJUSMEN IEM VHF AND DV DEVIAIN [MDS] (AND LW) (AND HIGH) VHF AND DV MDULAIN ALAE [MD] (AND LW) UHF AND DV DEVIAIN [MDS] (AND LW) (AND HIGH) UHF AND DV MDULAIN ALAE [MD] (AND HIGH) VALUE Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. ±. khz ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) Connect an oscilloscope to the modulation analyzer. While transmitting, adjust the deviation using [DIAL], then Minimum deviation push [AND] to store the adjustment value. (AND HIGH) (AND LW) PERAIN Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ While transmitting, adjust the deviation using [DIAL], then push [AND] to store the adjustment value. ±. khz ) Connect a modulation analyzer to the antenna connector through an attenuator, and set is as; HPF : FF : 0 khz De-emphasis : FF Detector : (P-P)/ ) Connect an oscilloscope to the modulation analyzer. While transmitting, adjust the deviation using [DIAL], then Minimum deviation push [AND] to store the adjustment value. -
- RECEIVE SENSIIVIY ADJUSMEN ) Select an adjustment item using [VF/MHz] / [M/CALL]. ) Set the SSG as specified (frequency, deviation and output level). ) Push [AND] to adjust (automatic) and store the adjustment value. ADJUSMEN ADJUSMEN IEM RECEIVE SENSIIVIY [L] PERAIN VALUE Connect an SSG to the antenna connector and set as; Modulation : khz Deviation :. khz Level : 0 dµ ( 0 dm) Set the SSG as; [M] Set the SSG as; [H] Set the SSG as; [L] Set the SSG as; [M] Set the SSG as; [H] Set the SSG as; [L] Set the SSG as; [M] 9 Set the SSG as; [H] 0 Set the SSG as; [U] Set the SSG as; [L] Set the SSG as; [M] Set the SSG as; [H] Set the SSG as; [U] Set the SSG as; [L] Set the SSG as; [M] Set the SSG as; [H] Set the SSG as; ; his output level of a standard signal generator (SSG) is indicated as SSG s open circuit. - Push [AND] (Automatic adjustment)
- S-MEER ADJUSMEN ) Select an adjustment item using [VF/MHz] / [M/CALL]. ) Set the SSG as specified (frequency and output level). ) Push [AND] to adjust (automatic) and store the adjustment value. ADJUSMEN ADJUSMEN IEM S-MEER (S level) [VHF band ] (FM) PERAIN VALUE Connect an SSG to the antenna connector and set as; Modulation : None [S] Set the SSG as; Level : dµ ( 09 dm) (S level) [VHF band ] (FMN) [S] Set the SSG as; Level : dµ ( 09 dm) (Full scale) [VHF band ] (FM) [SF] Set the SSG as; Level : + dµ ( 9 dm) (Full scale) [VHF band ] (FMN) [SF] Set the SSG as; Level : + dµ ( 9 dm) (S level) [VHF band ] (FM) [S] Set the SSG as; Level : dµ ( 09 dm) (S level) [VHF band ] (FMN) [S] Set the SSG as; Level : dµ ( 09 dm) (Full scale) [VHF band ] (FM) [SF] Set the SSG as; Level : + dµ ( 9 dm) (Full scale) [VHF band ] (FMN) [SF] 9 Set the SSG as; Level : + dµ ( 9 dm) (S level) [UHF band ] (FM) [S] 0 Set the SSG as; : 00.00 MHz Level : dµ ( 09 dm) (S level) [UHF band ] (FMN) [S] Set the SSG as; Level : dµ ( 09 dm) (Full scale) [UHF band ] (FM) [SF] Set the SSG as; Level : + dµ ( 9 dm) (Full scale) [UHF band ] (FMN) [SF] Set the SSG as; : 00.00 MHz Level : + dµ ( 9 dm) (S level) [UHF band ] (FM) [S] Set the SSG as; Level : dµ ( 09 dm) (S level) [UHF band ] (FMN) [S] Set the SSG as; Level : dµ ( 09 dm) (Full scale) [UHF band ] (FM) [SF] Set the SSG as; Level : + dµ ( 9 dm) (Full scale) [UHF band ] (FMN) [SF] Set the SSG as; Level : + dµ ( 9 dm) (S level) [UHF band ] (FM) [S] Set the SSG as; Level : dµ ( 09 dm) (S level) [UHF band ] (FMN) [S] 9 Set the SSG as; Level : dµ ( 09 dm) ; his output level of a standard signal generator (SSG) is indicated as SSG s open circuit. - Push [AND]. (Automatic adjustment)
- S-MEER ADJUSMEN (continued) ) Select an adjustment item using [VF/MHz] / [M/CALL]. ) Set the SSG as specified (frequency and output level). ) Push [AND] to adjust (automatic) and store the adjustment value. ADJUSMEN (Full scale) [UHF band ] (FM) (Full scale) [UHF band ] (FMN) ADJUSMEN IEM PERAIN [SF] 0 Set the SSG as; Level : + dµ ( 9 dm) [SF] Set the SSG as; Level : + dµ ( 9 dm) VALUE Push [AND]. (Automatic adjustment) ; his output level of a standard signal generator (SSG) is indicated as SSG s open circuit. - SQUELCH ADJUSMEN ) Select an adjustment item using [VF/MHz] / [M/CALL]. ) Push [AND] to adjust (automatic) and store the adjustment value. ADJUSMEN SQUELCH [VHF band ] (FM) ADJUSMEN IEM [SQ] PERAIN VALUE Connect a terminator to the antenna connector. [VHF band ] (FMN) [SQ] [VHF band ] (FM) [SQ] [VHF band ] (FMN) [SQ] [UHF band ] (FM) [SQ] [UHF band ] (FMN) [SQ] [UHF band ] (FM) [SQ] [UHF band ] (FMN) [SQ] [UHF band ] (FM) [SQ] 9 [UHF band ] (FMN) [SQ] 0 Push [AND]. (Automatic adjustment) -9
SECIN. PARS LIS [CNRL UNI] REF PARS [CNRL UNI] DESCRIPIN H/V M. LCAIN IC IC IC IC 00099 0090 0090 0000 S.REG S-09CNMC-G9F-G UPDF0AGA(R)-GAM-AX LCW-E NJMF0-E-#ZZZ 9./..9/. 9./.9/. Q Q Q Q Q9 Q0 Q Q Q Q Q Q 000990 000990 000990 000990 000990 000990 000990 000990 000990 000990 0000 0000 S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SC-L(EL,F) SA-GR(EL,F) SA-GR(EL,F)./. 9./9. /. 9/. 0./../../../0../0. 0./../../0. D D D D9 D0 D D D D D D D D 900000 9000 9000 9000 9000 9000 9000 9000 9000 90000 90000 90000 90000 S.ZEN MAZ0GLL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL AVR-M00C0MAA AVR-M00C0MAA AVR-M00C0MAA AVR-M00C0MAA 0/../../../../9../9../.9./../../../../9../ X 000 S.XA CR-A(SMD-9/9.0 MHz) <JJE>./0../0../0../../../9../9./../0. /. 9./../. 9./../. 9./9. /. 9./9../../. 9./../. 0./../0. 9/9../. 0./9..9/../..9/. 9./.././.././. /../. /0../../../../../../0../9../../../9. 0./0./9../9../.././../. 9./../../..9/9. R R R R R R0 R R R R R R R R R R R R R9 R0 R R R R R R R R R9 R0 R R R R R R R R R9 R R00 R0 R0 R0 R R R R R R R R0 R R R R R R R 0000 00000 0000 00000 000000 00000 000090 00000 000000 000000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 000090 000090 00000 00000 00000 000000 00000 00000 00000 000000 00000 00000 000000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 000090 0000000 0000090 000000 VAR VAR R090N-0K L-0F 0K ERJGEJ 0 X (K) R090N-0K L-0F 0K ERJGEJ 0 X (K) ERJGEJ 0 X (0K) ERJGEJ 00 X (0) ERJGEJ 9 X ERJGEJ X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (M) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X () ERJGEJ 0 X () ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ X (.K) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X (0K) ERJGEJ X (0K) ERJGEJ 0 X (K) ERJGEJ 9 X (9K) ERJGEJ 0 X (0K) ERJGEJ X (K) ERJGEJ X (K) ERJGEJ 0 X (0K) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ X (0) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ X (.K) MCR0EZHJ JPW (000) ERJGEJ 0 X (00K) ERJGEJ 0 X (0K) REF PARS DESCRIPIN M. H/V LCAIN R R9 R0 R R R R R R R R R9 R0 R R R R R R9 R0 R R R R 000000 0000090 0000090 0000090 0000090 00000 00000 000000 000000 000000 000000 0000090 0000090 000000 000000 000000 000090 000090 000090 000090 00000 00000 00000 00000 ERJGEJ 0 X (0K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (0K) ERJGEJ 0 X (00K) ERJGEJ 0 X (00K) ERJGEJ-JPW ERJGEJ-JPW ERJGEJ-JPW ERJGEJ 9 X ERJGEJ 9 X ERJGEJ 9 X ERJGEJ 9 X ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ 0 X (K) ERJGEJ X (.K) 9./9. /./. 0.9/../../. 9./. 9./..9/../../../0../. /../.9/ 9/. 9./0../../../.9 0./9../9. 9./.9 C C C C C C0 C C 00090 00090 0000 0000 0000 0000 00090 000900./0../0../../../../0../. C C C C C9 C0 C C C C C C C C C C C C9 C0 C C C C C C C C C9 C0 C C C C C C 00090 00000 00090 0000 0000 00090 00090 00090 00090 00090 00090 00090 00090 00090 00090 00000 00000 0000 0000 0000 0000 0000 0000 0000 0000 0000 0000 ECJ0EC0K ECJ0EC0K ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0EC0K GRMA0KE (GRM0 ) ECJ0EC0K ECJ0EAK ECJ0EE0K GRME0KAD ECJ0EE0K ECJ0ECH0J ECJ0ECH0J ECJ0EC0K ECJ0EA0K ECJ0EA0K ECJ0EA0K ECJ0EE0K ECJ0EE0K ECJ0EE0K ECJ0EE0K ECJ0EE0K ECJ0EA0K ECJ0EE0K ECJ0EC0K ECJ0EC0K GRME0KAD ECJ0EC0K C0 J A 0K- ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J ECJ0ECH0J./9../.9./../../../././0. 0./../.9./../../.9/../. /. 9./../../. 0/0. 0./9.9./. 0/../. 0./../..9/.9./../. 0./. 0./../../../9../9../9.9 J J 000 CN 000 CN 00L-PC <KIN> FRN CNNECR <CCP> DS DS DS DS DS DS DS0 DS DS DS DS DS DS DS DS0 DS DS DS DS 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 000090 00000 00000 00000 00000 H-9UY/UYG <SH> H-9UY/UYG <SH> H-9UY/UYG <SH> H-9UY/UYG <SH> H-9UY/UYG <SH> H-9UY/UYG <SH> H-9UY/UYG <SH> H-9UY/UYG <SH> VYPYC-A VYPYC-A VYPYC-A VYPYC-A VYPYC-A VYPYC-A AK- <IAK> VYPYC-A VYPYC-A VYPYC-A VYPYC-A /0. 9./0../0../0../0. /0../0../0../././.9/.9/. 0/./ 9././../.9 S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED S.LED LCD S.LED S.LED S.LED S.LED M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount -
[CNRL UNI] REF PARS [MAIN UNI] DESCRIPIN S S S S S S S9 S0 S S 00090 00090 00090 00090 00090 00090 00090 00090 00090 00000 S.I S.I S.I S.I S.I S.I S.I S.I S.I E SKQYPAE00 SKQYPAE00 SKQYPAE00 SKQYPAE00 SKQYPAE00 SKQYPAE00 SKQYPAE00 SKQYPAE00 SKQYPAE00-0(ECD0) EP EP9 EP0 EP EP EP EP 90090 9000 9000 9000 9000 9000 9000 LCD S.EA S.EA S.EA S.EA S.EA S.EA SRCN--SP-N-W (SHJ) MMZ0Y 0 MMZ0Y 0 MMZ0Y 0 MMZ0Y 0 MMZ0Y 0 MMZ0Y 0 H/V M. LCAIN 0./..9/../../. 0./../. 9.9/../../9../9../. 9./. 0.9/.9./.9 0./0. REF PARS DESCRIPIN IC IC IC IC IC IC9 IC IC IC IC IC IC0 IC IC IC IC IC IC IC IC9 IC0 IC IC IC IC IC IC IC IC9 IC IC IC IC IC IC IC IC IC000 IC00 IC00 IC00 IC00 IC00 IC009 IC00 IC0 IC0 IC0 IC0 IC0 IC0 IC0 0000 000 000 00000 900000 0000 000 000 00099 00000 0000 0000 0000 0090 00099 000 0090 00090 000 000 000 0000 0000 00009 0000 0000 00000 0000 0000 000 000 00090 900000 0000 00090 00090 0000 000 000 000 0000 0000 00090 0000 0090 000 0000 00 00090 00090 000 0000 IC IC S.REG S.REG IC S.REG S.REG MGP EC S-AUAL(I,Q) S-AVA(I,Q) NJM0AV-E-#FMZ MFP-0C CSFU(EL,F) CWFU(EL,F) CWFU(EL,F) MA0PFV-G-ND-ERE NJMV-E-#ZZZ CSFU(EL,F) NJMF-E-#ZZZ NJMDL-0-E-#ZZZ LC-I/SM S-09CNMC-G9F-G A0F(EL,Q) HDF0FCDV (EMPY) LMVIDCKR ASF(EL,F) CWFU(EL,F) CD0PWR ANMS CSFU(EL,F) LAA-E CSFU(EL,F) UPC09-E MAXIPWR LM90PWR LMVIPWR CWFU(EL,F) CWFU(EL,F) LMVIDCKR ZXC0EA UPC-E LMVIDCKR M9FP 00C CSFU(EL,F) CVHCFK(EL,K) SNLVCG0DCK CVHCAFK(E,K) NJUF-E-#ZZZ NJUF-E-#ZZZ AME-00 CSFU(EL,F) SNLVCG0DCKR SNLVCGDCR CMX9AD/R ADARSZ <FE> NJMV-E-#ZZZ LMVIDCKR SNLVCGU0DCKR CSFU(EL,F) Q Q Q9 Q Q Q Q Q Q Q9 Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q Q0 Q Q Q Q Q9 Q Q Q Q Q Q Q Q Q9 Q Q Q Q Q Q Q Q90 Q9 Q9 9000 9000 9000 9000 90009 90009 000990 0000 0000 000000 000990 000 00000 00000 000000 9000 000090 0000 0000 9000 90000 9000 000990 9000 900090 90009 000990 9000 90009 9000 90009 0000 0009 90009 90000 000 90000 000 0000 90009 00000 9000 0000 0000 000990 000990 90009 90009 9000 90009 S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.FE S.RA S.RA S.RA S.RA S.FE S.RA S.FE S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA UNR9G0L UNR9G0L UNR9G0L UNR9G0L UNR9G0L UNR9G0L SC-L(EL,F) SA-GR(ER,F) SA-GR(ER,F) SKUG-L-E SC-L(EL,F) SC0-Y(ER,F) MS0P(EL,F) MS0P(EL,F) SKUG-L-E UNR9G0L SKY-L-E SC00- SC00- UNR9G0L XP0(X) UNR9G0L SC-L(EL,F) UNR9G0L XP0-(X).A UNR9G0L SC-L(EL,F) UNR9G0L UNR9G0L UNR9G0L UNR9G0L SA-GR(EL,F) SC-GR(ER,F) UNR9G0L XP0(X) SC0--L-E XP0(X) SCA--L-E SC00- UNR9G0L S 00 R UNR9G0L SA-GR(ER, F) SA-GR(ER, F) SC-L(EL,F) SC-L(EL,F) UNR9G0L UNR9G0L UNR9G0L UNR9G0L H/V M. LCAIN./9. 9./. 0./9. 99/. 0./9../9. 0./. /. 99./..9/./0../../.9./9.9./../9. 0.9/. 9./. 9/. 9./. 9./0.9 0.9/. 9./0../../../0. 9./. 9./.9./.9./.././../0. 9./. 9./. 9/../../0../. 0.9/00. 0.9/0. 0.9/. 9./9. 09./9. 9./99. 9./9. 00./9..9/9. 0./../..9/. 9.9/../../../../. 9/.9./../../../. /.././.././9. 9./.9./.9.9/0../../. 9/. /. 9./0. /0. 9./../../../0../0. 0./9. 0./9. 9./../../. 9./.9 9./. 9.9/. 9./../9../0. /0..9/9. 0./../. 9./. 90./../../0.9 M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount -
[MAIN UNI] REF [MAIN UNI] PARS DESCRIPIN Q9 Q9 Q9 Q99 Q00 Q0 Q09 Q0 Q Q Q Q Q Q Q Q Q Q00 Q00 Q00 Q00 Q00 Q00 Q00 Q009 Q00 Q0 Q0 Q0 Q0 Q0 Q0 0000 00000 000990 90000 90009 00009 90009 9000 000 000 90009 90009 90009 00000 000000 000000 00000 0000 90009 90009 000990 000990 90009 0000 0009 000990 0000 0000 90009 0000 000 90009 S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.FE S.FE S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA S.RA SA-GR(ER,F) S 00 R SC-L(EL,F) UMG9NR UNR9G0L SC-(ER,F) UNR9G0L UNR9G0L SCA--L-E SCA--L-E UNR9G0L UNR9G0L UNR9G0L S 00 R SKUG-L-E SKUG-L-E S 00 R SA-GR(EL,F) UNR9G0L UNR9G0L SC-L(EL,F) SC-L(EL,F) UNR9G0L SA-GR(EL,F) SC-GR(ER,F) SC-L(EL,F) SA-GR(EL,F) SA-GR(EL,F) UNR9G0L SA-GR(EL,F) SCA--L-E UNR9G0L 99.9/. 9./9. 9./. 9./../../. 0./. 0./9. 9./. 9.9/. 9./ 0./. 9./. /../0.9./. 0./00. 0./09. 0.9/0. 0/0 0.9/. 9./9. 0./90../../0../. /..9/../. 09/. 9./..9/. D D D D9 D D D D D D0 D D D9 D0 D D D9 D D D D D D9 D D D D D D D9 D0 D D D D D D D9 D D D D D D D D D9 D9 D9 D9 D0 D0 D0 D0 D0 D D D D9 D0 D D D 9000 9000 9000 9000 0000 0000 0000 9000 00000 00000 0000 9000 9000 9000 00000 9000 900009 0000 900009 0000 0000 900009 9000 0000 900009 9000 9000 0000 0000 0000 0000 9000 0000 0000 0000 00000 9000 9000 9000 9000 9000 9000 9000 00000 0000 00000 0000 0000 00000 9000 00000 00000 9000 00000 9000 9000 0000 9000000 9000 9000 9000 000 9000 9000 9000 9000 9000 9000 9000 9000 ZEN DI S.ZEN MAS0GL MAS0GL MAS0GL SV0(PL,F) HVCRF-E HVC0RF-E HVC0RF-E SV0(PL,F) SV0(PL,F) SV0(PL,F) HVC0RF-E MAS0GL MAS0GL SV0(PL,F) DANL SV0(PL,F) MAJ0GL HVCRF-E MAJ0GL HVCRF-E ECC0C-R MAJ0GL MAS0GL ECC0C-R MAJ0GL SV0(PL,F) SV0(PL,F) ECC0C-R HVC0RF-E L09CER (90) HVCRF-E SV0(PL,F) L09CER (90) HVURF-E HVURF-E HSCRF-E MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL DA L HVCCRU-E DA L HVCRF-E HVC0RF-E HSCRF-E MAS0GL HSCRF-E HSCRF-E SV0(PL,F) HSCRF-E MAS0GL MAS0GL MZJ- DSAA MAS0GL MAS0GL MAS0GL MAZ0GML MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL.9/../..9/9.9./ 9/0./. /0.9./0../../../. 9./../0../9../9../. /. 9./../../.././../../.9.9/. 0./../.9./. /.9./. /./0../0./..9/. 9./. 9.9/./. 00./9../0../. 9.9/. 0./. 0/. 00./../9. 00./9 00./0. 9./. 9./../. 9./. 9./9..9/. /0./0 /0../00 0.9/9.9./../9.9/9 D REF H/V M. LCAIN [EUR] [PE] [CHN] [EXP] [EUR-0] [PE] [KR] [AUS] D PARS DESCRIPIN D0 D D D D D D D0 D D D D D D D D D9 D0 D D D D D D D9 D0 D D D D D D000 D00 D00 D00 D00 D00 D00 D00 D009 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 9000 00000 9000 0000 0000 0000 00000 9000 00000 0000 0000 9000 9000 9000 9000 9000 9000 9000 00000 00000 9000 00000 00000 9000 9000 9000 9000 00000 9000 9000 9000 9000 9000 9000 9000 000 900009 900009 9000 90000 900009 MAS0GL [EUR] MAS0GL [IR] MAS0GL [EUR-0] MAS0GL [IR] MAS0GL [PE] MAS0GL [KR] MAS0GL [PE] MAS0GL [KR] MAS0GL [AUS] MAS0GL [EUR-0] MAS0GL [EUR] MAS0GL [IR] MAS0GL [PE] MAS0GL [USA] MAS0GL [KR] MAS0GL [AUS] MAS0GL [EUR-0] MAS0GL [EUR] MAS0GL [IR] MAS0GL [PE] MAS0GL [USA] MAS0GL [KR] MAS0GL [AUS] MAS0GL [EUR-0] DA L MAS0GL HVCCRU-E HVCCRU-E HVCCRU-E HSCRF-E SV0(PL,F) HSCRF-E HVCRF-E SVC-L-E MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAZ0GLL HSCRF-E DANL MAS0GL HSCRF-E HSCRF-E SV0(PL,F) MAS0GL SV0(PL,F) SV0(PL,F) HSCRF-E MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAS0GL MAZ0GML MAJ0GL MAJ0GL MAS0GL AVR-M00C0MAA MAJ0GL FI FI FI 000090 CER L0HW <JJE> 00000 CER L0EW <JJE> 0000000 S.MN MF.P.0 MHz (FL-09) X X 0000000 S.DIS 0000 S.XA X X000 0000 S.XA 0000 S.XA X00 0000 S.XA D D D D L L L L0 L9 L L L L9 L L L L L L L0 L L L L L L9 L0 0000 00000 00000 00000 0000 0000 00009 00009 0000 00000 0000 00000 0000 0000 0000 0000 00090 00000 00000 000000 00000 0000 000000 S.ZEN S.ZEN JM0CX <JJE> CR-(SMD9/9.0 MHz) <JJE> CR- SVS-A. MHz CR- SNSE-A. MHz CR- SNSE-A 9.0 MHz ELJRE NZFA ELJRE NGFA 0.0-0.9-L.N <CM> 0.0-0.9-L.N <CM> ELJRE 9NGFA ELJRE NGFA ELJRE NGFA ELJRE NGFA ELJRE 0NGFA 0.0-0.9-L.N <CM> ELJRE NGFA ELJRE NGFA ELJRE NGFA ELJRE 9NGFA LQWANNG00D ELJRE 0NGFA LQWAN9NG00D 0.0-0.9-L.N <CM> C0C-NG-A AS00-N ELJRE NZFA ELJRE N9ZFA AS000-0N H/V M. LCAIN./9./9./00. 0./9 9./9./0. 90/. 0./. 0./9. 99./. 0./.9 9./. 9.9/..9/../../0. 9/. 0./. 09./0. 0/. 0./../../../../. 9./. 9/../0../../. 0./../. /0../0../0../0. 09./09.9./. 9./00..9/0./9../.9./. 0./../9../. /. 0./9. 0./ 0./. 9./0. 9./. 0./. 0./9.9./0./../../../9. 0./0../../.9.9/. 0.9/0. /.9./.././. 0/../..9/../ /../. M.=Mounted side (: Mounted on the op side, : Mounted on the ottom side) S.=Surface mount -