FM TRANSCEVERS S-14315XZ-C1 Jan. 2007
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1 FM TRNSVRS S-45XZ- Jan. 007
2 INTRODUTION This service manual describes the latest service information for the I-V85, I-V85 and I-V85-T FM TRNSIVRS at the time of publication. MODL VRSION SYMOL U.S.. [US] [US-] [XP] I-V85 xport [XP-] [XP-] [TP] Taiwan [TP-] Korea [KOR] [UR] urope I-V85 [UR-] U.K. [UK] I-V85-T Thailand [TH] To upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation. UTION NVR connect the transceiver to an outlet or to a D power supply that uses more than 8 V. This will ruin the transceiver. DO NOT expose the transceiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when connecting the transceiver. DO NOT apply an RF signal of more than 0 dm (00 mw) to the antenna connector. This could damage the transceiver s front end. e sure to include the following four points when ordering replacement parts:. 0-digit Icom parts numbers. omponent part number and name. quipment model name and unit name 4. Quantity required <SMPL ORDR> ORDRING PRTS S.I T6FNG I-V85 RF UNIT 5 pieces Screw 48 screw I-V85 Top cover 0 pieces ddresses are provided on the inside back cover for your convenience. RPIR NOTS. Make sure a problem is internal before disassembling the transceiver.. DO NOT open the transceiver until the transceiver is disconnected from its power source.. DO NOT force any of the variable components. Turn them slowly and smoothly. 4. DO NOT short any circuits or electronic parts. n insulated tuning tool MUST be used for all adjustments. 5. DO NOT keep power ON for a long time when the transceiver is defective. 6. DO NOT transmit power into a signal generator or a sweep generator. 7. LWYS connect a 50 d to 60 d attenuator between the transceiver and a deviation meter or spectrum analyzer when using such test equipment. 8. RD the instructions of test equipment thoroughly before connecting equipment to the transceiver. Icom, Icom Inc. and logo are registered trademarks of Icom Incorporated (Japan) in the United States, the United Kingdom, Germany, France, Spain, Russia and/or other countries.
3 ONTNTS STION SPIFITIONS STION INSID VIWS STION DISSSMLY INSTRUTION STION 4 IRUIT DSRIPITON 4- RIVR IRUITS TRNSMITTR IRUITS FRQUNY SYNTHSIZR IRUITS POWR SUPPLY IRUITS PORT LLOTIONS STION 5 DJUSTMNT PRODURS STION 6 PRTS LIST STION 7 MHNIL PRTS ND DISSSMLY STION 8 SMIONDUTOR INFORMTION STION 9 ORD LYOUTS STION STION 0 LOK DIGRM VOLTG DIGRM - LOGI UNIT RF UNIT STION UT-08 (Optional product)
4 STION SPIFITIONS M GNRL Frequency coverage : TX: MHz/RX: 6 74 MHz* (US) TX: MHz/RX: 6 74 MHz* (urope, UK) TX/RX: MHz (Taiwan, Thailand, Korea) TX/RX: 6 74 MHz* (General; LM) * ; Guaranteed: MHz range only * ; Guaranteed: MHz range only : FM : 07 (incl. 6 scan edges and call) : 5, 0,.5, 5, 0, 5, 0, 50 khz Type of emission Number of memory channels Frequency resolution ntenna connector : N (50 Ω) Operating temperature range : 0 to +60 ; +4 F to +40 F Frequency stability : ±.5 ppm ( 0 to +60 ; +4 F to +40 F) Power supply requirement : Specified Icom s battery pack or.0 V ±5% external D power (negative ground) urrent drain (at 7. V D ; approx.) : Receiving 80 m (standby) 0 m (power save) 50 m (max. audio) Transmitting.6 (at 7 W).0 (at 4 W).0 (at 0.5 W) Dimensions (Projections not included) Weight (approx.) : 56(W) 0(H) 4.4(D) mm; 7 /(W) 4 (H) (D) in. (with P-7) : 0 g;.5 oz. (with P-7 and antenna) 65 g; 5.8 oz (without battery pack and antenna) M TRNSMITTR Output power (at 7. V D) Modulation system Maximum frequency deviation Spurious emissions Microphone connector M RIVR Receive system Intermediate frequencies Sensitivity Squelch sensitivity Selectivity Spurious and image rejection Intermodulation udio output power (at 7. V D) xternal speaker connector : 5.5 W (High)/4 W (Middle)/0.5 W (Low) [Thailand] 7 W (High)/4 W (Middle)/0.5 W (Low) [Others] : Variable reactance frequency modulation : ±5.0 khz : Less than 60 dc : -conductor.5 (d) mm ( 0 )/. kω : Double conversion superheterodyne : st: 46.5 MHz, nd: 450 khz : Less than 0. µv (at d SIND) : Less than 0.6 µv (at threshold) : More than 55 d : More than 60 d : More than 55 d : More than 0. W at 0% distortion with an 8 Ω load : -conductor.5 (d) mm ( 8 )/8 Ω ll stated specifications are subject to change without notice or obligation. -
5 STION INSID VIWS LOGI UNIT F POWR MPLIFIR (I: T768F) RGULTOR (I: S-850M) LD DRIVR (I: L7584W) PU LOK (X: R-86) PROM (I7: S4S64) PU (I8: M060) TX/RX F LPF (I: LMV4IPW) TX/RX F SWITH (I4: D4066PWR) RF UNIT (TOP VIW) RF UNIT (OTTOM VIW) nd IF filter (FI: LTW450) D switch (Q4: HT06) Power amp. (Q: RDMVS) Drive amp. (Q: RD0MUS) IF I (I: T6FNG) D/ converter (I0: M66FP) VO PLL I (I9: M50SL) Descriminator (X: JTM450X4) -
6 STION DISSSMLY INSTRUTION. Removing the front panel q Remove the knob and jack cap. w Unscrew the ntenna nut and 4 screws and D. e Disconnect the speaker connector. r Take off the chassis in the direction of the arrow.. Removing shield plate q Unscrew screws. w Unsolder points, and remove the shield plate from the RF UNT. hassis D Shield plate RF UNIT Speaker connector nt. nut Front panel. Removing the LOGI UNIT q Remove the rubber seal and dial nut. w Unscrew 5 screws. e Disconnect the flat cable from J7. r Remove the LOGI UNIT from the chassis in the direction of the arrow. 4. Removing the RF UNIT q Unscrew 5 screws. w Unsolder 4 points (contact spring). e Unsolder point (antenna connector), and remove the RF UNIT from the chassis. LOGI UNIT Jack plate Dial nut J7 Flat cable RF UNIT hassis hassis Rubber seal -
7 STION 4 IRUIT DSRIPTION 4- RIVR IRUITS NTNN SWITHING The antenna switching circuit toggles the receive (RX) line and transmit (TX) line. The received signals from the antenna are passed through a two-staged Low-Lass Filter (LPF; L, L, 5) and then applied to the antenna switch (D, D, D8, L5, L58, 5, 76, 56). While transmitting, the voltage on the T5V line is applied to D, D and D8, and these are ON. Thus the TX line is connected to the antenna. Simultaneously, the RX line is connected to the to prevent transmit signal entering. While receiving, no voltage is applied to the D, D and D8, and these are OFF. Thus the TX line and the antenna is disconnected to prevent received signals entering. Simultaneously, the RX line is disconnected from the and the received signals are passed through the LPF (L5, L58, 5, 76, 56). The fi ltered signals are applied to the RF circuits. RF IRUITS (RF UNIT) RF circuits fi lter and amplify the received signals within the frequency coverage. The received signals from the antenna switch are passed through a tuned andpass filter (PF; D9, L6, 8) and applied to the RF amplifier (Q) that received signals are amplified in low NF rate. The pass band frequency of the tuned PF (D9, L6, 8) is adjusted by the tuning voltage T from the D/ converter (I0, pin ), to suppress unwanted signals for high selectivity. The amplified received signals are passed through the tuned PF (D, D, L8, 9, 94, 96, 50), limiter (D7) and the tuned PF (D65, L57, 505, 507), then applied to the st mixer (Q). ST IF IRUITS (RF UNIT) The received signals are converted into the st IF signal, fi ltered and amplifi ed at the st IF circuits. The signals from the RF circuits are applied to the st mixer (Q) and converted into the fixed frequency of st IF signal by mixing with the st Local Oscillator (LO) signals from the VO (Q76, D59 D6). y changing the st LO frequency, only the desired frequency will pass through a pair of crystal filters at the next stage of the mixer. y changing LO frequency, the frequency of the st IF signal is fixed one for the receiving frequency. The converted st IF signal is passed through the PF (FI) and limiter (D6), then amplified by the st IF amplifier (Q4). The amplified st IF signal is applied to the IF I (I, pin 6). ND IF IRUITS (RF UNIT) The st IF signal is converted into the nd IF signal and demodulated. The st IF signal from the st IF circuits are converted into the nd IF signal at the nd mixer section of the IF I (I), by mixing with the nd LO signal which is generated at the reference frequency oscillator (X4) after being passed through the PLL I (I9, pins, ) and the tripler (Q8). The converted nd IF signal is output from pin and passed through the PF (FI) to remove the sideband noise, then applied to the nd IF amplifier section in I (pin 5). The amplified nd IF signal is then applied to the FM-detector section. The demodulated F signals are output from pin 9 and applied to the F circuits. F IRUITS (LOGI UNIT) The demodulated F signals from the IF I are amplified and fi ltered at the F circuits. F signals from the nd IF circuits are passed through the the HPF (I, pins 6, 7), and LPF (I, pins, 4) via the TX/RX F switches (I4, pins, ; 0, ). The switched F signals are passed through the D/ converter (RF UNIT; I0, pins, ) for audio level adjustment. The D/ converter is a level controller I which adjusts F signal level according to the control signals ( DT, STRO, LOK ) from the PU (I8). The level adjusted F signals are then applied to the F power amplifier (I, pin 4) to be amplified to obtain rated audio output power. The power-amplified F signals are output from pin 0, and then drive internal or external speaker. nd IF ND DMODULTOR IRUITS FI nd IF filter MHz Q8 PLL I (I9) 4 D/ converter (I0) Demodulated signals to the LOGI UNIT Quadrature detector 9 0 Filter amp. X Limiter amp. RSSI Noise amp. 4 - Noise detector Mixer 5. MHz IF I (I) 6 From the st IF amplifier (Q4) NOIS signal to the PU (LOGI UNIT: I8, pin 7) SD signal to the PU (LOGI UNIT: I8, pin 90) X4
8 SQULH IRUIT (RF ND LOGI UNITS) - NOIS SQULH - The noise squelch mutes the F output when no RF signals are received. y detecting noise components (around 0 khz signals) in the demodulated F signals, the squelch circuit toggles the mute switch and F power amplifier ON and OFF. portion of the F signals from the IF I (RF UNIT; I, pin 9) are passed through the D/ converter (RF UNIT; I0, pins, 4) for level adjustment. The level adjusted F signals are applied to the noise filter section (RF UNIT; I, pins 7, 8; R86 R88,, ) which allows only noise components to pass. The filtered noise components are amplified at the noise amplifier section, and rectified into the D voltage which is proportional to the noise signal level, at the noise detector section, then output from pin as the NOIS signal. The NOIS signal is applied to the PU (LOGI UNIT; I8, pin 7), and the PU compares the NOIS signal and set reference level (squelch threshold level). When the input NOIS signal is higher than reference level, the PU cuts off FON signal (from pin 4) to the F power amplifier control circuit (LOGI UNIT; Q4 Q6) to deactivate the F power amplifier (LOGI UNIT; I). - TON SQULH - The tone squelch circuit detects tone signals and opens the squelch only when receiving a signal containing a matched sub audible tone. When the tone squelch is in use, and a signal with a mismatched or no subaudible tone is received, the tone squelch circuit mutes the F signals even when the noise squelch is open. portion of the demodulated F signals is passed through the LPF (LOGI UNIT; Q5) to filters TSS/DTS signal. The filtered signal is applied to the PU (LOGI UNIT; I8, pin 9). The PU compares the applied signal and the set TSS/DTS, then the PU controls the status ( Low or High ) of FON signal as NOIS SQULH. F and MI amp. IRUITS Demodulated F signals From IF I (I, pin 9) F signals From the microphone I 6 7 HPF I 0 Preemph. 8 RMUT FON I 0 4 LPF I4 I4 MMUT MIS LOGI UNIT I0 D/ converter RF UNIT I 4 0 MP VO SP 4- TRNSMITTR IRUITS MIROPHON MPLIFIR IRUITS (LOGI UNIT) The F signals from the microphone (MI signals) are fi ltered and level-adjusted at microphone amplifi er circuits. udio signals from the microphone (M) are applied to I (pin 0) which combines a microphone amplifier and preemphasis circuit. The MI signals are amplified and filtered to obtain +6 d/oct of frequency characteristic by I. The amplified and emphasized MI signals are output from the pin 8, and passed through the splatter filter (I, pins, 4) which suppresses khz and higher audio components, via the TX/RX switch (I4, pins, 4; 8, 9). The filtered MI signals are then applied to the modulation circuit. MODULTION IRUITS (RF UNIT) - MI SIGNLS - The modulation circuits modulates the VO oscillating signal using the modulation signals. - TON SIGNLS - TSS/DTS signals are output from PU (LOGI UNIT; I8, pin ) and passed through the LPF (R4, R7, 9), then applied to the LPF (as the F mixerf UNIT; I, pin ) to be mixed with MI signals. The mixed TSS/DTS signals are applied to modulation circuits as MI SIGNLS. TRNSMIT MPLIFIRS (RF UNIT) The transmit signal from the buffer amplifier (Q74) is amplified to the transmit output level by the transmit amplifi ers. The buffer-amplified VO output signal is amplified by transmit amplifiers; pre-drive (Q), drive (Q) and power (Q) amplifiers in sequence, after being passed through the TX/RX switch (D). The power-amplified transmit signal is passed through the power detector (D, D), antenna switch (D) and LPF (as a harmonic filter ; L, L, 5), before being emitted from the antenna. The MI signals from F circuits are passed through the D/ converter (I0, pins, ) for level (deviation) adjustment. The level adjusted MI signals are applied to the variable capacitor (D6) in the VO (Q76, D59 D6), and modulate the VO oscillating signal by changing the reactance of D6. The modulated VO output are bufferamplified by Q75 and Q74, then applied to the transmit amplifier as a transmit signal. 4 -
9 P (utomatic Power ontrol) IRUIT (RF UNIT) The P (utomatic Power ontrol) circuit prevents the transition of the transmit output power level which is caused by load mismatching or heat effect, etc. t the power detector (D, D), a portion of the transmit signal is rectified into D voltage which is proportional to the transmit power level. The rectified voltage is applied to the inverted input terminal of the operational amplifier (I6, pin ). The voltage T from the D/ converter (I0, pin 0) is applied to the noninverted input terminal as the reference. The operational amplifier compares the rectified voltage and reference voltage T, and the difference of the voltage is output from the operational amplifier pin. The output voltage controls the bias of drive (Q) and power (Q) amplifiers for stable transmit output power. The change of transmit power is carried out by changing the reference voltage T, and transmit muting (deactivation of drive and power amplifiers) is carried out by TX switch (Q7) controlled by TX signal from PU (LOGI UNIT; I8, pin 59). P IRUITS VO output from bufffer-amp (Q74) TX/RX SW D Q Pre-drv. MP Q Drv. MP Q PWR MP Power detector LPF NT SW D LPF NT I6 OP MP + T TX 4- FRQUNY SYNTHSIZR IRUITS VO (RF UNIT) VO (Voltage ontrolled Oscillator) is a oscillator whose oscillating frequency is controlled by adding voltage (lock voltage). VO oscillates the both of transmit and st LO signals. The VO output signals are buffer-amplified by Q74 and Q75. While receiving, the VO output is passed through the TX/RX switch (D4) and the LPF (L9, L8, L59, 0, 45, 47, 59), then applied to the st mixer (Q) to be mixed with the received signals to produce the 46.5 MHz st IF signal. While transmitting, the buffer-amplified VO output is passed through the TX/RX switch (D) and applied to the transmit amplifiers. PLL (Phase Locked Loop) IRUIT (RF UNIT) The PLL circuit provides stable oscillation of the transmit frequency and receive st LO frequency. The PLL output frequency is controlled by the divided ratio (N-data) from the PU. portion of VO output is applied to the PLL I (I9, pin 8) via buffer amplifiers (Q5, Q75). The applied signal is divided at the pre-scalar and programmable counter according to the control signals PLLST, PLLDT and PLLK from the PU (L; I8, pins 6, 65 and 66). The divided signal is phase-compared with the reference frequency signal from the reference frequency oscillator (X4), at the phase detector. The phase difference is output from pin 5 as a pulse type signal after being passed through the internal charge pump. The output signal is converted into the D voltage (lock voltage) by passing through the loop filter (R445 R448, , 59). The lock voltage is applied to the variable capacitors (D59 and D60) of VO (Q76, D59 D6) and locked to keep the VO oscillating frequency constant. If the oscillated signal drifts, its phase changes from that of the reference frequency, causing a lock voltage change to compensate for the drift in the VO oscillating frequency. PLL IRUITS VO uffer Q75 uffer Q74 D D4 to transmitter circuits to st mixer (Q) Loop filter Q76, D59 D6 PLL I (I9 ) 5 harge Programmable 8 Prescaler pump divider uffer Q5 LPF 45.9 MHz nd LO signal to the FM IF I (I, pin ) Q8 Phase detector Shift register 9 0 PLLK PLLDT PLLST PLL control signals from PU (LOGI UNIT; I8) 5. MHz reference signal from reference frequency osciilator (X4) 4 -
10 4-4 POWR SUPPLY IRUITS D voltage from the battery or external D power supply is routed to whole circuit of the transciever via regulators. POWR SUPPLY IRUITS Q9, Q0, Q8, Q9 From the ext. D power From the battery RF UNIT LOGI UNIT Voltage line ontrol signal harger circuit V I PU5 Regulator Q4, D6, D7 Regulator PWRON Logical circuits; PU (I8), Reset I (I), PROM (I7), etc Q54 Regulator Q Regulator PS5 R5 Q T5V Regulator PU (I8) T5 Q VO5 Regulator VO5 PSVO T5V RF UNIT OMMON; PLL I (I9), D/ converter, etc. VO and UFFR amp.; VO (Q76, D59 D6), uffers (Q5, Q74, Q75), etc. TRNSMITTR IRUITS; Pre-driver (Q), etc. RIVR IRUITS; IF I (I), st mixer (Q), st IF amp. (Q4), etc. FOR POWR SV MOD; P amp. (I6), tone amp. (I6), etc. 4-5 PU PORT LLOTION Pin Pin No. Name Description I/O TON Tone signals (DTMF/P/750Hz). OUT TSS Tone signals (TSS/DTSS). OUT 4 FON F power amplifi er control signal. "High"=While the F poer amp. is activated. OUT 5 RMUT F line mute signal to the F switch. "Low"=While muting. OUT 9 SHIFT lock frequency shift control signal to the clock oscillator. OUT 0 RST PU reset signal. "Low"=PU reset. IN 6 PWRSW [PWR] Key. "Low"=When the key is pushed. IN 7 NOIS "NOIS" signal. IN 8 D external power supply connection detect. "Low"=Powered by external D. IN 9 HOUT Power supply detect. "Low"=Powered by battery. IN 0 PTT Input signal from [PTT] key. "High"=While the key is pushed. IN 4 KR0 KR Input signal from Key pads. "Low"=When the key is pushed. IN 5 LD acklight control signal to the LD driver. OUT DISD Serial data to the LD driver. IN 4 DISST hip-enable signal to the LD driver. IN 5 DISK Serial clock signal to the LD driver. IN 6 DISN Disable signal to the LD driver. IN 40 DIK IN Pulse signal from [ONTROL DIL]. 4 DIUD IN 4 MONISW [MONI] key. "Low"=When the key is pushed. IN 45 PWRON ontrol signal to the power regulator. OUT 48 5 KS0 KS4 Input signal from Key pads. "Low"=When the key is pushed. OUT 5 MIS F fi lter switching signal. OUT 54 MMUT MI line mute signal to the F switch. "low"=while muting. OUT 55 DDT Data signal to the D/ converter. OUT 56 DK lock signal to the D/ converter. OUT Pin Pin No. Name Description I/O 57 DST Strobe signal to the D/ converter. OUT 58 T5 T5 line control signal to the T5 regulator. "Low"=While transmitting. OUT 59 TX Transmit mute signal to the TX switch. "Low"=While TX muting. OUT 6 UNLK PLL unlock signal. "Low"=PLL is unlocked. IN 6 PLLST Strobe signal to the PLL I. OUT 64 PLPS PLL I power save mode switching signal. "Low"=While in power save mode. OUT 65 PLLDT Data signal to the PLL I. OUT 66 PLLK lock signal to the PLL I. OUT 68 PLLSW PLL loop fi lter characteristic toggle signal. OUT "High"=While the PLL is kicked-up. 69 PSVO VO regulator control signal. "Low"=While Vco is activated." OUT 70 HGIH harger circuit (High) control signal. "High"=While charging. OUT 7 HG harger circuit control signal. "High"=While charging. OUT 74 PS5 Power save line control signal to the regulator. OUT "Low"=While power save mode. 77 SI xternal MI key (/D) input. "High"=While the key is pushed. IN 78 OPSD Data signal to the attached optional unit. OUT 79 SK lock signal to the PROM. OUT 8 OPV Scramble unit detection signal. "Low"=DTMF unit is attached. IN 8 OPV Optional unit attachement detection signal. "Low"=DTMF unit is attached. IN 8 OPV DTMF unit detection signal. "Low"=DTMF unit is attached. IN 87 DIN xternal power supply's voltage detection. IN 88 LVIN Lock voltage. IN 90 SD "SD" signal (RSSI signal). IN 9 VIN Remining battery voltage detection. IN 9 TIN DTS and TSS signals. IN 4-4
11 STION 5 DJUSTMNT PRODUR RQUIRD TST QUIPMNTS When adjusting I-V85/V85/V85-T, following test equipments and JIG cables (see the illust below) are required. QUIPMNT GRD ND RNG QUIPMNT GRD ND RNG RF power meter (terminated type) Frequency counter Modulation analyzer udio generator Measuring range Frequency range Impedance SWR Frequency range Frequency accuracy Sensitivity Frequency range Measuring range Frequency range Output level : 0. 0 W : MHz : 50 Ω : Less than. : : MHz : ± ppm or better : 00 mv or better : 0 00 MHz : 0 to ±0 khz : Hz : 500 mv Standard signal generator (SSG) Frequency range Output level : MHz : 0 to 90 dµ ( 7 to 7 dm) millivoltmeter Measuring range : 0 mv to 0 V Oscilloscope xternal speaker ttenuator Frequency range Measuring range Input impedance apacity Power attenuation apacity : D 0 MHz : MHz : 8 Ω : More than W : 0 or 40 d : More than 0 W UTION!: K UP originally programmed contents (Memory channels, ommon settings, etc.) in the transceiver using optional S-V85 LONING SOFTWR before starting adjustment. When all adjustments are completed, these contents in the transceiver may be cleared. ONNTION Standard Signal Generator 0 to 90 dµ ( 7 dm to 7 dm) ttenuator 0 d or 40 d RF power meter 0. 0 W/50 Ω Modulation analyzer Frequency counter Oscilloscope JIG cable millivoltmeter To [MI] jack MI kω PTT udio generator 00 Hz to khz -conductor.5 (d) mm plug I-V85 I-V85 I-V85-T To [SP] jack JIG cable FOUT LOUT 68 kω -conductor.5 (d) mm plug Speaker (8 Ω) 5 -
12 M NTRING DJUSTMNT MOD q Turn the power OFF. w onnect the JIG cable to the [SP] jack (see page 5-). e While pushing [Y], [Z] and [LR] keys, turn the power ON. During adjustment mode, the function display shows adjustment item and frequency as below. (While rotating [ONTROL DIL], adjustment value is displayed instead of adjustment item.) djustment value djustment item Frequency M SSIGNMNTS FOR TH DJUSTMNT MOD [ONTROL DIL] djusts the value for the item manually. Selects next adjustment item without storing the value. PWR Selects previous adjustment item without storing the value. FUN Verifies the adjustment value. D FUN LL LR MR TON P.P T.SN NK DUP 4 SN SKIP PRIO ST H/M/L OPT NT LR Stores the adjustment value and move to next adjustment item. djusts the value for the item automatically. M QUITTING DJUSTMNT MOD Turn the power OFF. 5 -
13 DJUSTMNT DJUSTMNT DJUSTMNT ONDITION OPRTION VLU RFRN onnect a RF Power Meter or a dummy Rotate [ONTROL DIL] during transmit to MHz FRQUNY load to the antenna connector. adjust the frequency, then release the [PTT] and [Fr] Loosely couple a Frequency ounter to push [LR] key to store the adjustment value the antenna connector. and select the next adjustment item. Transmitting LOK onnect an RF Power Meter to the Push [LR] key during transmit, then push [Y] (automatic VOLTG [LU] antenna connector. Transmitting to select the next adjustment item. adjustment) TRNSMIT onnect an RF Power Meter to the Rotate [ONTROL DIL] during transmit 7.0 W OUTPUT antenna connector. to adjust the output power, then release the except [TH] POWR Transmitting [PTT] and push [LR] key during transmit to 5.5 W [Po] store the adjustment value and select the next [TH] (H; High) adjustment item. (M; Middle) Transmitting 4.0 W (L; Low) Transmitting 0.5 W DVITION [d] NOT: RFRN FRQUNY should be adjusted before DVITION. Otherwise, DVITION will not be adjusted properly. onnect an udio Generator and Rotate [ONTROL DIL] during transmit to millivoltmeter to the MI line (see page adjust the deviation, then release the [PTT] and 5-) and set as; Frequency : khz push [LR] key to store the adjustment value and select the next adjustment item. Level : 90 mvrms onnect a Modulation nalyzer to the antenna connector through an attenuator, and set as; HPF : OFF LPF : 0 khz De-emphasis : OFF Detector : (P P)/ Transmitting [dp]* Push [Y] to skip this item. DTS MODULTION LN [dt] NOT: "DVITION should be adjusted before DTS MODULTION LN. Otherwise, DTS MODULTION LN will not be adjusted properly. Set the Modulation nalyzer same as Rotate [ONTROL DIL] during transmit DVITION. to arrange the wave form, then release the onnect an Oscilloscope to the detector [PTT] and push [LR] key during transmit to output terminal of the Modulation store the adjustment value and select the next nalyzer. adjustment item. No audio signal is applied to the MI line. Transmitting ±4. khz Set to square wave form [bp]* Push [Y] to skip this item. RIV SNSITIVITY [tr] (and low) NOT: RFRN FRQUNY should be adjusted before RIV SNSITIVITY. Otherwise, RIV SNSITIVITY will not be adjusted properly. onnect an SSG to the antenna connector Push [LR] key to store the adjustment value and set as; and select the next adjustment item. Frequency : Displayed frequency Level : 0 dµ ( 07 dm) Modulation : khz Deviation : ±.5 khz Receiving (and center) Set the SSG as; Frequency : Displayed frequency Receiving (and high) Set the SSG as; Frequency : Displayed frequency Receiving SQULH onnect an 8 Ω spaeker to the FOUT [Sq] line (see page 5-). Set the SSG as; Level : 9 dµ ( 6 dm) Receiving Push [LR] key to store the adjustment value and select the next adjustment item. Push [LR] key to store the adjustment value and select the next adjustment item. Rotate [ONTROL DIL] to close the squelch once, then rotate [ONTROL DIL] to set the squelch level at the point where the audio signals just appear. Push [LR] key to store the adjustment value and select the next adjustment item. *; These items MUST NOT be modifi ed. Otherwise, the transceiver will not perform properly. (automatic adjustment) Squelch open 5 -
14 DJUSTMNT (continued) DJUSTMNT DJUSTMNT ONDITION OPRTION VLU S-meter [Sr] [df]* [t]* NOT: RIV SNSITIVITY should be adjusted before S-meter. Otherwise, S-meter will not be adjusted properly. Set the SSG as; Frequency : Displayed frequency Push [LR] key to store the adjustment value and select the next adjustment item. Level : 6 du ( dm) Receiving Push [Y] to skip this item. Push [Y] to skip this item. (automatic adjustment) TSS MPLITUD (f=5.00 khz) [5] (f=6.5 khz) [6] [dt]* to [D6]* NOT: DTS MODULTION LN (page 5-) should be adjusted before TSS MPLITUD. Otherwise, TSS MPLITUD will not be adjusted properly. Set the Modulation nalyzer same as Rotate [ONTROL DIL] during transmit to ±0.75 khz DVITION. No audio signal is applied to the MI line. Transmitting adjust the daviation, then release the [PTT] and push [LR] key to store the adjustment value. Skip these items. (The adjustment is completed. Turn the power OFF.) *; These items MUST NOT be modifi ed. Otherwise, the transceiver will not perform properly. 5-4
15 STION 6 PRTS LIST [LOGI UNIT] RF ORDR H/V NO. NO. DSRIPTION M. LOTION I S.I LMV4IPWR 5.6/. I S.I D4066PWR 4./8. I S.I S-4S640I-T8TG 5.5/6.7 I S.I M060FPGP D5.8/4.4 I S.I S-850M--G 8./75 I S.I D54G-TR 4.9/5. I S.I L7584W-TLM-.4/55.9 I 0008 S.I T768FG (5,R) 0./67. Q S.TR S T00 R T 5/6 Q S.TR S4-6-TL- 4.7/64.7 Q S.TR S467 TLS 5.8/9. Q S.TR S T00 R 8.7/84 Q S.TR S T00 R T 40.8/7. Q S.TR XP650-(TX). T 4.8/76.8 Q S.TR UNR9FJ-(TX) 8./70. Q S.TR S576 T06R 7.7/4. Q S.TR UNR90J-(TX) T 4.8/6. Q S.TR UNR9J-(TX) 7.7/47.6 Q S.TR XP460 (TX) 8/44. Q S.TR S576 T06R 5./0.4 Q S.TR S T00 R T 5.4/84.7 Q S.TR UNR9J-(TX) T 0.5/77.6 Q S.TR XP50-(TX). T 8./80. D S.ZN M808-M (TX) 7.4/.9 D S.DIO MS-(TX) 7./ D S.DIO M74 (TX) T 4./65.5 D S.ZN M8056-M (TX) 0.5/68.4 D S.DIO ISS400 T6 8./78. D S.DIO ISS400 T6 4.6/0. D S.DIO ISS400 T6 4.8/7 D S.DIO ISS400 T6 4./. D S.DIO ISS400 T6 6.5/5.5 D S.DIO ISS400 T6 5.4/6. D S.DIO ISS400 T6 except [US/-], [KOR] only 9.6/7.5 D S.DIO ISS400 T6 [TH], [XP/-/-] only 8.4/7.5 D S.DIO ISS400 T6 [UR/-], [XP/-/-], [UK] only 7./7.5 D S.DIO ISS400 T6 [XP/-/-], [KOR] only 6/7.5 D S.VP HV76TRF- 7./45 D S.DIO ISS400 T6 except [US], [US-], [XP/-/-] only 6/4.5 D S.DIO ISS400 T6 [UR/-], [US/-], [UK], [KOR] only 7./4.5 D S.DIO ISS400 T6 [TP], [TH], [KOR], [TP-] only 8.4/4.5 D S.DIO ISS400 T6 [TH], [XP/-/-] only 9.6/4.5 D S.DIO ISS400 T6 except [XP/-/-], [TH] only 40.8/4.5 X S.XTL R-86 (FTX9.804M6SM) 4.4/44. R S.RS RJGJ 5 X (50) 8/6.8 R S.RS RJGJ 7 X (.7 k) 8/6.7 R S.RS RJGJ 04 X (00 k).4/9.9 R S.RS RJGJ 7 X (.7 k) 8/64.6 R S.RS RJGJ 7 X (.7 k) 8./65.5 R S.RS RJGJ 7 X (.7 k) 5./6.5 R S.RS RJGJ 47 X (4.7 k).6/6.5 R S.RS RJGJ 0 X (00) /5. R S.RS MR0ZHJ 5.6 (5R6) T 4./74 R S.RS MR0ZHJ 5.6 (5R6) T 4./7. R S.RS RJGJ 04 X (00 k) 4.9/4.8 R S.RS RJGJ 0 X (0 k) 7.9/6.4 R S.RS RJGJ 0 X (0 k) 7/6.4 R S.RS RJGJ 0 X (0 k) 4.6/4. R S.RS RJGJ 7 X (7 k).4/5 R S.RS RJGJ 05 X ( M) 5.7/6.6 R S.RS RJGJ 55 X (.5 M) 4./6.6 R S.RS RJGJ 4 X (0 k) 0/8 R S.RS RJGJ 54 X (50 k) 9.9/9. R S.RS RJGJ 84 X (80 k) 7.5/9.8 R S.RS RJGJ 04 X (00 k) 4.8/9 R S.RS RJGJ 05 X ( M) 9./4. R S.RS RJGJ 00 X (0) 7./40. R S.RS RJGJ X ( k) 8.4/4.7 R S.RS RJGJ 04 X (00 k) 5.4/6 R S.RS RJGJ 54 X (50 k) 8.7/8.4 R S.RS RJGJ 4 X (0 k)./6.4 R S.RS RJGJ 04 X (00 k) 0./4.4 R S.RS RJGJ 05 X ( M) 7./5.4 R S.RS RJGJ 68 X (68 k) 0.8/9. R S.RS RJGJ 8 X (8 k) 7.5/6.4 R S.RS RJGJ 4 X (0 k) 8.7/6 R S.RS RJGJ 5 X (.5 k) 0/7. R S.RS RJGJ 47 X (47 k) T 4.5/75. R S.RS RJGJ 5 X (.5 k) T 44/77. R S.RS RJGJ 7 X (.7 k) T 40/76.7 R S.RS RJGJ 8 X (8. k) T 40.4/78.7 [LOGI UNIT] RF ORDR H/V NO. NO. DSRIPTION M. LOTION R S.RS RJGJ 68 X (6.8 k) T 40.4/78.7 R S.RS RJGJ 0 X (0 k).7/66.6 R S.RS RJGJ 4 X (0 k).7/66.6 R S.RS RJGJ 00 X (0) 5./67.9 R S.RS RJGJ 0 X () 5./67.9 R S.RS RJGJ 00 X (0) 4.9/67.9 R S.RS RJGJ 04 X (00 k) 0.7/70.7 R S.RS RJGJ 8 X (.8 k) 7.4/7.9 R S.RS RJGJ 47 X (470) T 44.4/78.7 R S.RS RJGJ 0 X (00) 4.5/4 R S.RS RJGJ 0 X (00) 7.5/7. R S.RS RJGJ 0 X (0 k) 9.4/5 R S.RS RJGJ X ( k) 7.4/68.4 R S.RS RJGJ 04 X (00 k) 8./44.5 R S.RS RJGJ 04 X (00 k) 4.4/7.4 R S.RS RJGJ 04 X (00 k) 6./6 R S.RS RJGJ 04 X (00 k).7/7.8 R S.RS RJGJ 474 X (470 k) 9./. R S.RS RJGJ 9 X (9 k).4/.6 R S.RS RJGJ 0 X (0 k) 0/. R S.RS RJGJ 5 X (5 k) T 4.8/6.6 R S.RS RJGJ 9 X (.9 k).4/4. R S.RS RJGJ 0 X ( k) 6.4/4. R S.RS RJGJ 4 X (0 k) 7.5/8.9 R S.RS RJRHD 04 X (00 k).5/44. R S.TMR NTG6 4LH 47JT.5/44 R S.RS RJGJ 56 X (56 k) 0./6.5 R S.RS RJGJ 56 X (56 k) 8.4/6.5 R S.RS RJGJ 56 X (56 k) 7.5/6.5 R S.RS RJGJ 0 X ( k) 6.6/6.5 R S.RS RJGJ 9 X (9 k) 4./48 R S.RS RJGJ 04 X (00 k) 9.7/6.5 R S.RS RJGJ 9 X (.9 k) 6./47. R S.RS RJGJ 0 X (0 k) 0.6/6.5 R S.RS RJGJ 0 X ( k)./40.5 R S.RS RJGJ 04 X (00 k) 4.4/0 R S.RS RJGJ 0 X (0 k) 9./44.8 R S.RS RJGJ 0 X (0 k) /.9 R S.RS RJGJ 47 X (47 k) 7.8/.4 R S.RS RJGJ 5 X (5 k) 4.5/7.8 R S.RS RJGJ 68 X (68 k) 7.9/4.6 R S.RS RJGJ 68 X (68 k) 6./4.8 R S.RS RJGJ 5 X (5 k) 6./45.4 R S.RS RJGJ 0 X (0 k) 8/46.4 R S.RS RJGJ 0 X (0 k) 7./46.4 R S.RS RJGJ X (. k) 8.9/46.4 R S.RS RJGJ 68 X (68 k) 9.8/4.8 R S.RS RJGJ 68 X (68 k)./4.6 R S.RS RJGJ 04 X (00 k) 9/46. R S.RS RJGJ 4 X (0 k) 5.4/8.5 R S.RS RJGJ 47 X (47 k) 6.9/0.6 R S.RS RJGJ 0 X (0 k) 8.7/77. R S.RS RJGJ 0 X (0 k) T 8./8. R S.RS RJGJ 68 X (6.8 k) T 8./78 R S.RS RJGJ 05 X ( M) T 9/78 R S.RS RJGJ 04 X (00 k) 7.9/4.5 R S.RS RJGJ 04 X (00 k)./4.8 R S.RS RJGJ 0 X (0 k) 4./9.5 R S.RS RJGJ 47 X (47 k) 4.8/7. R S.RS RJGJ 47 X (470).6/7.8 R S.RS RJGJ 04 X (00 k) 4.7/45 R S.RS RJGJ 0 X (00) 6./5.4 R S.RS RJGJ 47 X (47 k)./4. R S.RS RJGJ 0 X (0 k) 4./0.4 R S.RS RJGJ 0 X (0 k) 4./. R S.RS RJGJ 04 X (00 k).6/7.8 R S.RS RJGJ 04 X (00 k)./.6 R S.RS RJGJ 05 X ( M).4/4 R S.RS RJGJ 05 X ( M).4/. R S.RS RJGJ 05 X ( M).4/. R S.RS RJGJ 05 X ( M) 0./6. R S.RS RJGJ 0 X (0 k) 5.7/6.5 R S.RS RJGJ 0 X ( k) 6.5/4.8 R S.RS RJGJ 0 X ( k) 4.6/4.9 R S.RS RJGJ 0 X ( k) 0./47.6 R S.RS RJGJ 0 X ( k) 7./44.4 R S.RS RJGJ 4 X (0 k) 4.8/66. R S.RS RJGJ 0 X ( k) 9.9/5.5 R S.RS RJGJ 0 X ( k).4/8.7 R S.RS RJGJ 0 X ( k).7/40 R S.RS RJGJ 0 X ( k).9/4. R S.RS RJGJ 56 X (56 k) 7.5/59. R S.RS RJGJ 47 X (47 k).8/9.4 R S.RY X8V0JX 7.4/.6 R S.RS RJGJ 0 X ( k).8/. R S.RS RJGJ 04 X (00 k)./7.7 R S.RS RJGJ 47 X (47 k) 0.9/6.5 R S.RS RJGJ 47 X (47 k) 9./4.8 R S.RS RJGJ 47 X (47 k)./8.7 R S.RS RJGJ 47 X (4.7 k).6/6.6 R S.RY X8V0JX 6.4/8. R S.RS RJGJ-JPW 7./. R S.RS RJGJ-JPW 7.9/4.5 R S.RS RJGJ-JPW 6.6/4.7 R S.RS RJGJ-JPW 8.4/ S.R J004K 5.7/6. M.=Mounted side (T: Mounted on the Top side, : Mounted on the ottom side) S.=Surface mount 6 -
16 [LOGI UNIT] RF ORDR H/V DSRIPTION M. NO. NO. LOTION S.R J00K.9/ S.R J00K 4.4/ S.R J00K 6.9/ S.R J00K.6/ S.R J0HK.9/ S.R J0H7K 4./ S.R J004K 8./ S.TN TSV 55M8R 4./ S.R J00K 0.9/ S.R J056K 4.5/ S.R J0H8J./ S.R J07K 7.5/ S.R J0K 0./ S.R J00J05K T 44/ S.R J00K 4.4/ S.L 0WR 5/ S.R J047K 0.7/ S.R 608 J 05K-T 4/ S.TN TSV 06M8R.9/ S.R J047K 4.9/ S.L 0 50 SS 7.9/ S.TN TSV 0J 56M8R 0.4/ S.R J00K 9.4/ S.R J00K 8./ S.R J00K T 45/ S.R J00K T 44.6/ S.R J00K T 45./ S.R J0H470J T 45./ S.R J00K T 9/ S.R J00K T 4.7/ S.R J004K 5./ S.L 0WP 9.9/ S.L 0J0SR 4/ S.R J00K 5./ S.R J0H0R5 7.5/ S.R J0H080 7/ S.R J0H560J 9./ S.R J004K 45/ S.R J004K 7.9/ S.R J004K T 45.7/ S.R J00K 9/ S.TN TSV 5M8R 5.8/ S.R J0K 0.4/ S.R J0H9K 5.7/ S.R J004K 4.8/ S.R J0K 5./ S.R J07K 4.4/ S.R J004K.4/ S.R J00K 8.4/ S.R J00K 9.8/ S.R J00K 7./ S.R J0HK T 0./ S.R J047K.6/ S.R J00K 4.6/ S.R J047K T 4./ S.R J047K 5.9/ S.R J047K T 9/ S.R J0K 6.7/ S.R J0H8K 4.9/ S.R J0K 7.5/ S.R J068K 9.9/ S.R J0HK 8.4/ S.R J00K 6.9/ S.R J00K.5/ S.TN TSV 6M8R T 4.8/ S.R J004K T 6.9/ S.R J00K T 0./ S.L 0J0SR./ S.TN TSV 06M8R 0.9/ S.R J004K 6.6/ S.R J0K.5/ S.R J0HK T 9/ S.R J00K 4./ S.R J004K.4/ S.R J00K 5.7/ S.R J00K 0.9/ S.R J00K 0./ S.R 608 J 0J 5M-T 9.8/ S.R J004K 9./ S.R J00K 5.8/ S.R J00K 5./ S.R J00K 9.7/ S.R J00K 7.8/ S.R J0K 5.7/ S.R J0H68K 8.4/ S.R J00K 0.8/ S.R J00K / S.R J00K./ S.R J047K 7.5/ S.R J047K 8.4/ S.R J047K 9./ S.R J00K 8./ S.R J00K 4.8/ S.R J00K.8/ S.R J00K 0.7/ S.R J00K 9.8/ S.TN TSV 06M8R 9.4/ S.R J0H470J 0.7/ S.R J056K./7.4 J NR HSJ J NR T J S.NR XN00P 8./4.8 [LOGI UNIT] RF ORDR H/V DSRIPTION M. NO. NO. LOTION J S.NR M0-SRS-TF (LF) (SN) T 4.8/84.6 J S.NR (69) 9.6/8. DS S.LD LNJ0M6UR T 7/55. DS S.LD LNJ0M6UR T 40.6/55. DS S.LD RY-SP9UYG4-5M T.7/4.4 DS LD S0996 DS S.LD RY-SP9UYG4-5M T./4. DS S.LD RY-SP9UYG4-5M T.5/4.8 DS S.LD RY-SP9UYG4-5M T 4./4.8 DS S.LD RY-SP9UYG4-5M T./9.7 DS S.LD RY-SP9UYG4-5M T 4.4/9.7 M MI M607P-46-G S SW SKHLLF00 S R TP70N000-5F-90 S SW SKHLLF00 SP SP S0804- W L OP-9 W L OP- (P0.5,N6,L60) P LT SRN-964-SP-N-W P S. MMZ608Y 0T T 45.5/76.4 P S. MMZ005Y0-T T 45.7/7 P S. MMZ608Y T T 6.8/65. P S. MMZ005Y0-T T 44.9/68.6 P S. MMZ608Y T T 4.5/6. [RF UNIT] RF ORDR H/V NO. NO. DSRIPTION M. LOTION I S.I T6FNG (D,L) 9.6/6.5 I S.I M66FP /. I S.I M50SLPFV-G-ND- 0.4/4.8 I S.I SN74HG66HDV T 8.5/. I S.RG S-86M-Q-TG 7./6.5 I S.I W-460-FT.8/ I S.I LMV58IPWR T 0.4/0. Q S.FT RDMVS-T T.8/9.7 Q S.FT RD0MUS-T T.6/.4 Q 5000 S.TR S5085-Y (T85R,F) T 5.5/4.5 Q S.FT HT06R-L- T 4.5/46.4 Q S.TR S5006-T.9/5.7 Q S.TR UNR9J-(TX) T 7.9/9.6 Q S.TR S467 TLS T 6.6/4.9 Q S.TR XP460 (TX) 6./5.5 Q S.FT SK8Y-TL-.8/. Q S.FT SK8Y-TL- 9./4. Q S.TR S5006-T.7/. Q S.TR S588-GR (T85R, F) T 5./7.9 Q S.TR S0S-TL- 7./4.7 Q S.TR S576 T06R T 40.5/. Q S.FT SK069-4-TL- T 4.6/9. Q S.TR UNR9J-(TX) T 0.4/8 Q S.TR S58-TL- 6./.6 Q S.TR S58-TL- 7./6.8 Q S.TR S58-TL- 0.9/5.9 Q S.TR UNR9NJ-(TX) 9./9. Q S.TR S46-L (T85R,F) T 0.4/8.6 Q S.TR DT44U T06.6/8. Q S.TR S467 TLS T.4/0.7 D S.DIO HVUTRF- 4.6/4.4 D S.DIO M77 (TX) 9.5/44 D S.DIO SV7 (TPH,F) T 5.9/5.8 D S.DIO MS077-(TX) T 8.9/5. D S.DIO ISS400 T6 T 5./8. D S.DIO R060L-40 T-5 T.4/6.6 D S.DIO MS78-(TX) T 9.4/44.7 D S.DIO M77 (TX) 9.7/40. D S.VP HV75TRF- 9.7/4.8 D S.VP HV50TRF- 7./9. D S.VP HV50TRF- 7./4.6 D S.DIO ISS400 T6 T 4./5.6 D S.DIO M (TX) T.6/7.9 D S.DIO MS-(TX) T 5.5/4. D S.DIO S07-0-T- 7./49. D S.DIO M74 (TX) T 9.5/40.6 D S.DIO M74 (TX) T 0.8/47.6 D S.DIO MS077-(TX).9/9.6 D S.VP MS0400L 8./.7 D S.VP MS0400L 0.6/.7 D S.VP SV86 (TPH,F) 6.6/7 D S.DIO D TL 5./0.4 D S.DIO ISS400 T6 T 4./8. D S.VP HV50TRF- 7./.4 D S.DIO ISS400 T6 T 6/9.7 M.=Mounted side (T: Mounted on the Top side, : Mounted on the ottom side) S.=Surface mount 6 -
17 [RF UNIT] RF ORDR H/V DSRIPTION M. NO. NO. LOTION D S.DIO ISS400 T6.7/6 D S.DIO MS-(TX).8/9.6 FI S.XTL FL-9 (46.50 MHz) 0.6/ FI S.R LTW450 <JJ> 9./5. X S.DR JTM450X4 <JJ> T.5/6.9 X S.XTL R-78 (5. MHz) /5. L S.OL TL 45.5N 9./48 L S.OL TL 45.N 5.7/48.6 L S.OL TL 45.N./46. L S.OL TL 4.5N T 6./4. L S.OL LQWHN7NJ0L T 7.6/6 L S.OL LL608-FSL68NJ T.9/5.4 L S.OL TL 45.5N 5.7/4. L S.OL 0-56NG- 8./.4 L S.OL 0-68NG- 0.4/0. L S.OL 0-8NG- 5.9/6.4 L S.OL NLV5T-R56J 6.9/ L S.OL LJF R7K-F./9.9 L S.OL XL5U T./4. L S.OL LJR R5GF 9.9/.7 L S.OL TL 6.8N T 5.6/4.7 L S.OL LJR 56NGF T 4.8/8.4 L S.OL LJRF 9NJF.8/8. L S.OL LJR RGF 7.8/.5 L S.OL LJRF R0JF 7./5. L S.OL LJRF 56NJF 4.7/6.5 L S.OL LJR 8NGF T 9.6/5 L S.OL 0-NG- 7/.9 L S.OL 0-NG-.6/.9 L S.OL NLV5T-R0J 8.6/5.6 L S.OL TL 4.5N 9./44. L S.OL LJR 8NGF T 6.7/7.5 L S.OL LJR 8NGF T 4.8/8. L S.OL NLV5T-R56J 0./. L S.OL MLF608D R8K-T T 0.5/.7 L S.OL MLF608D RK-T T 0.6/0.5 L S.OL 0-68NG- 4.9/0. L S.OL 0-47NG- 5.4/7.8 L S.OL LJRF 9NJF 0.9/9.7 R S.RS RJGYJ 8 V (8 k) T 0.9/5.7 R S.RS RJGJ 04 X (00 k) T 8.8/46.9 R S.RS RJGYJ 0 V () T 6.6/9.7 R S.RS RJGJ X (0) T 5.4/.6 R S.RS RJRKF 54 X (50 k) T 4./8.4 R S.RS RJRKF 4 X (0 k) T 4.9/6.5 R S.RS RJGJ 0 X () T 6/.7 R S.RS RJGJ X (. k) T.8/. R S.RS RJGJ X (. k) T.4/.4 R S.RS RJGJ 0 X () T.4/4. R S.RS RJGJ 47 X (4.7 k) T.6/8.5 R S.RS RJGJ 50 X (5) T 4.8/0.6 R S.RS RJGJ X ( k) 4.7/4.7 R S.RS RJGJ X (. k) 4.6/.5 R S.RS RJGJ 0 X ( k) T 6.8/46.8 R S.RS RJGJ 47 X (470) T 6.8/44.4 R S.RS RJGJ 0 X ( k) T 7.4/7.9 R S.RS RJGJ 560 X (56) T 6.8/45.6 R S.RS RJGJ 8 X (.8 k) 4./.4 R S.RS RJRKF 4 X (0 k) T./5 R S.RS RJRKF 54 X (50 k) T./5. R S.RS MR0ZHJ 8 (80) T 8.9/4.5 R S.RS RJGJ 04 X (00 k) T 8/6.7 R S.RS MR0ZHJ 5 (50) T 7/4.5 R S.RS RJGYJ 47 V (470) T.7/40.5 R S.RS RJGJ 7 X (70) T 5.6/9.8 R S.RS MR0ZHJ 7 (70) T 5./4.5 R S.RS MR0ZHJ 7 (70) T./4.5 R S.RS MR0ZHJ JPW (000) 4.5/.7 R S.RS RJGJ 0 X (0 k).6/0.4 R S.RS RJGJ-JPW.6/7.7 R S.RS RJGJ 74 X (70 k).6/9.5 R S.RS RJGJ 04 X (00 k) T.6/4.6 R S.RS RJGJ 0 X (0 k) T.5/6.6 R S.RS RJGJ 84 X (80 k) T.8/.4 R S.RS RJGJ 4 X (0 k) 40.4/.7 R S.RS RJGJ 0 X (00).6/4. R S.RS RJGJ 00 X (0) 8./9.4 R S.RS RJGJ 4 X (0 k) 6.6/8 R S.RS RJGJ 4 X (0 k) 6.6/.5 R S.RS RJGJ 47 X (4.7 k).6/6.8 R S.RS RJGJ 0 X (00) /9. R S.RS RJGJ 84 X (80 k).9/. R S.RS RJGJ 47 X (470) 8.8/. R S.RS RJGJ 4 X (0 k) /6. R S.RS RJGJ X (0) 7.8/7.7 R S.RS RJGJ 0 X (00) 8.8/0.5 R S.RS RJGJ 47 X (470) 6./ R S.RS RJGJ 04 X (00 k) 4.5/ R S.RS RJGJ 47 X (470) 7.4/. R S.RS RJGJ 0 X ( k) T.5/.7 R S.RS RJGJ 47 X (470).5/0. R S.RS RJGJ 9 X T 8.8/5.5 R S.RS RJGJ 5 X (.5 k) T 7./5.4 R S.RS RJGJ 47 X (47 k) 7/0. R S.RS RJGJ X (. k) 8.8/0. R S.RS RJGJ X ( k) 9.7/0. [RF UNIT] RF ORDR H/V DSRIPTION M. NO. NO. LOTION R S.RS RJGJ X (. k) T 5.9/5.5 R S.RS RJGJ 47 X (470) 7./8. R S.RS MR0ZHJ 8 (80) 0./6.5 R S.RS RJGJ X ( k) T 0/4.6 R S.RS RJGJ X ( k) T 0.6/44.7 R S.RS RJGJ X (. k) T 9/45. R S.RS RJGJ 0 X (0 k) T 6.4/8.9 R S.RS RJGJ 0 X ( k) T 5.5/.4 R S.RS RJGJ 47 X (47 k) T 7./0.5 R S.RS RJGJ 04 X (00 k).9/8. R S.RS RJGJ 9 X (.9 k) T 0.9/6.4 R S.RS RJGJ 47 X (47 k) 5.7/. R S.RS RJGJ 04 X (00 k) 4.9/4.8 R S.RS RJGJ 4 X (0 k) T 0/4.6 R S.RS RJGJ 4 X (0 k) 6/ R S.RS RJGJ 84 X (80 k)./. R S.RS RJGJ 4 X (0 k) 6/0. R S.RS RJGJ X ( k) T 40.5/. R S.RS RJGJ 56 X (560) 6./.5 R S.RS RJGJ 55 X (.5 M) 6.7/. R S.RS RJGJ 47 X (4.7 k) T 7.8/9 R S.RS RJGJ 47 X (47 k) T 7.6/4.8 R S.RS RJGJ 5 X (5 k) T 7.4/. R S.RS RJGJ 7 X (7 k) T 6/0. R S.RS RJGJ 84 X (80 k) T 7.8/0. R S.RS RJGJ 47 X (47 k) T 7.8/9. R S.RS RJGJ 04 X (00 k) T 8/6.4 R S.RS RJGJ 474 X (470 k) T 8/8 R S.RS RJGJ-JPW 9.4/8.7 R S.RS RJGJ-JPW./5. R S.RS RJGJ-JPW.7/6.5 R S.RS RJGJ 0 X ( k).7/4. R S.RS RJGJ X (. k) T 7.4/4 R S.RS RJGJ-JPW 6.7/6. R S.RS RJGJ 47 X (470) 7.8/.4 R S.RS RJGJ 0 X (0 k) 6.5/0. R S.RS RJGJ 47 X (4.7 k) 6./ R S.RS RJGJ 0 X (00) 5.6/8. R S.RS RJGJ 47 X (470) 5.5/4.8 R S.RS RJGJ 0 X (0 k) 4./5.8 R S.RS RJGJ 9 X (.9 k) 4.6/7 R S.RS RJGJ X (0)./4.9 R S.RS RJGJ 0 X () 4./. R S.RS RJGJ 0 X (0 k).9/4. R S.RS RJGJ 55 X (.5 M) T 7.7/7 R S.RS RJGJ 470 X (47).8/4.6 R S.RS RJGJ 0 X (0 k) 9.4/6. R S.RS RJGJ 8 X (80).7/6.7 R S.RS RJGJ 9 X (9 k) 7.7/7. R S.RS RJGJ 47 X (4.7 k)./9.8 R S.RS RJGJ 0 X ( k) 9./0.8 R S.RS RJGJ 47 X (47 k) 0.7/9.7 R S.RS RJGJ 04 X (00 k) 6.5/5. R S.RS RJGJ 5 X (. M) 8.6/4.8 R S.RS RJGJ 0 X ( k) 7.7/4.8 R S.RS RJGJ X ( k) T 5.7/0.6 R S.RS RJGJ 0 X (0 k) T 6.6/.9 R S.RS RJGJ 56 X (5.6 k) T./. R S.RS RJGJ 68 X (680) T 7./8.9 R S.RS RJGJ 68 X (680) T.4/.6 R S.RS RJGJ X (. k) T.4/0.7 R S.RS RJGJ 0 X (00) T 7./5.5 R S.RS RJGJ 04 X (00 k).8/0. R S.RS RJGJ-JPW.8/0. R S.RS RJGJ 0 X (0 k) T 5.7/.9 R S.RS RJGJ 0 X (0 k) T 5.7/4.8 R S.RS RJGJ 0 X (0 k) T 5.7/6.6 R S.RS RJGJ 8 X (8 k) T 6.4/8.6 R S.RS RJGJ 684X (680 k) T.4/8.6 R S.RS RJGJ 0 X ( k) T.7/.5 R S.RS RJGJ 0 X ( k) 8.8/0.9 R S.RS RJGJ 4 X (0 k) 7.8/. R S.RS RJGJ 0 X ( k).8/0. R S.RS RJGJ X ( k) T 4./6.6 R S.RS RJGJ X ( k) T 4./4.8 R S.RS RJGJ X ( k) T 4./.9 R S.RS RJGJ 0 X (00) T.8/ R S.RS RJGJ X ( k) T 4./5.7 R S.RS RJGJ 5 X (50) 7.9/4. R S.RS RJGJ 470 X (47) T 4.8/0.4 R S.RS RJGJ 0 X (00) 8/.4 R S.RS RJGJ 4 X (0 k).9/4.6 R S.RS RJGJ 04 X (00 k) 0/6. R S.RS RJGJ 0 X (0 k) T 5.7/5.7 R S.RS RJGJ 04 X (00 k).8/8.5 R S.RS RJGJ 474 X (470 k) /7.8 R S.RS RJGJ 0 X (0 k) T 9.9/. R S.RS RJGJ 0 X (0 k) T 7.7/7. R S.RS RJG JPW V 5.5/5. R S.RS MR0ZHJ 8 (80).4/6.6 R S.RS MR0ZHJ JPW (000) T 8.8/ S.R 608 H H 070D-T 9./ S.R 608 H H 00-T 4.4/ S.R 608 H H 70J-T 5.7/ S.R 608 H H 050-T 6.4/ S.R 608 H H 0J-T 4.5/ S.R J00K T 0.7/ S.R 608 J H 0K-T 4.4/ S.R J004K T / S.R J00K T 9./ S.R J00K T 0.5/ S.R J00K T 8.5/4.6 M.=Mounted side (T: Mounted on the Top side, : Mounted on the ottom side) S.=Surface mount 6 -
18 [RF UNIT] RF ORDR H/V NO. NO. DSRIPTION M. LOTION S.R J00K T 7./ S.R 608 H H 470J-T T 5.7/ S.R J00K T 9.9/ S.R J00K T 5.4/ S.R J00K 7.4/ S.R J00K T 6.9/ S.R J00K T.5/ S.TN TSV 475M8R T 5./ S.R J0H0J T 6/ S.R J00K T 6/ S.R J00K T./ S.R J00K T 4.8/ S.R J00K T.9/ S.R J0K T 0.6/ S.R J0H470J./ S.R J0K T 0.9/ S.R J00K./ S.R J004K T./ S.R 608 J H 0K-T T 0.4/ S.R J00K T 0.6/ S.R J00K 5./ S.R J0H470J 4./ S.R J00K 40.4/ S.R J0HJ 40.4/ S.TN TSV 06M8R.5/ S.R 608 H H 90J-T 9./ S.R J00K 0/ S.R J00K.6/ S.R J004K T.6/ S.R J004K T 0/ S.R 608 H H 80J-T 6.4/ S.R J0H070 7./ S.R J0HJ 7.6/ S.R J00K 4/ S.R J00K.6/ S.R J00K.6/ S.R J00K.4/ S.R J00K 9.4/ S.R J0HJ 5/ S.R J00K 8.6/ S.R J0H00.8/ S.R J00K 8.8/ S.R J0H80J 5./ S.R J0H00 5/ S.R J00K / S.R J0H080 / S.R J00K 8/ S.R J00K 8/ S.R J0H80J 5./ S.R J00K 0./ S.R J00K./ S.R J0H / S.R J00K 7.7/ S.R J00K 4.5/ S.R J00K.5/ S.R J0K 4./ S.R J00K.9/ S.R J0H80J.9/ S.R J00K 4.6/ S.R J00K.5/ S.R J00J05K 4.6/ S.R J004K 4.6/ S.R J0HJ 6/ S.R J0HJ 7.9/ S.R J00K 4/ S.R J00K 6/ S.R J00K T 4.4/ S.L 0WP T 0./ S.R J00K 0./ S.R 608 J H 0K-T./ S.R J00K T 6.4/ S.R J00K T 6.4/ S.R J00K 8/ S.R J00K T.5/ S.R J00K 9./ S.R J00K T 0.6/ S.R J00K T.4/ S.R J0H680J 4./ S.R 608 H H 80J-T 9.7/ S.R 608 H H J-T 0./ S.R 608 H H 40J-T 8.9/ S.R 608 H H 0J-T / S.R J00K 0./ S.R J00K T.5/ S.R J004K T 6.4/ S.TN TSV 475M8R 7.8/ S.R J00K 5./ S.R J00K./ S.R J00K.9/ S.R J0H / S.R J0H070 T 6.6/ S.R J0H00 T 7.9/ S.TN TSV 475M8R T 6.4/ S.R J00K T.5/ S.R J00K 4.9/ S.R J004K 4.8/ S.R J004K 0.6/ S.R J00J05K 7/ S.R J00K 7/ S.R J0H80J T.7/ S.R J0H80J T 6/ S.R J0H50J.5/ S.R J0H50J 0.8/ S.R J00K 0.8/.4 [RF UNIT] RF ORDR H/V NO. NO. DSRIPTION M. LOTION S.R J0H00 T 4.4/ S.R J0H / S.R J00K T./ S.R J00K 6.4/ S.R J0H470J 7./ S.R J0H / S.R J0H0R5 4.9/ S.R J0H0J 7./ S.R J0H00 7./ S.R J0H00.6/ S.R J00K 4.6/ S.R J00K 5.5/ S.R J0H00.7/ S.R J0H040.4/ S.R J0H470J./ S.R J0H00 T 9.8/ S.R J0H00 T 8.6/ S.R 608 H H 80J-T.9/ S.R 608 H H 0J-T 0./ S.R J00K 0/ S.R J00K T 0.6/ S.R 608 H H 0J-T 7./ S.R J00K 9./ S.R J00K./ S.R J00K 8.6/ S.R 608 H H 0R5-T 5.9/ S.R J00K 6.5/ S.R 608 H H 680J-T 7.8/ S.R 608 H H 00D-T T 6./ S.R 608 J 04K-T T 5.6/ S.TN TSV 0J 685M8R T./ S.TN TSV V 4M8R T./ S.TN TSV V 04M8R T.4/ S.R J00K T.8/ S.R J00K T./ S.R J00K 7./ S.R J00K 5./ S.R J00K 0.4/ S.R J004K 9.4/ S.R J0H470J T.9/ S.R J047K T 4./ S.R J00K 7/ S.R J0H560J T 0./ S.R J0H040 T 8.8/ S.R J00K T 5/ S.R J00K T.7/ S.R J0H050 T 0.4/ S.R J0H00 / S.R J00J05K 7.9/ S.R J0H00.8/ S.R J0H00.8/ S.R J0H00.8/ S.R J0H0J 5/ S.R J00K 40/ S.R J0H00 6.6/ S.R J00K.4/ S.R 608 H H 80J-T T 7.5/ S.R J00K T 9./ S.R J00K T 9/ S.R 608 H H 50J-T 9./ S.R J00K T 9.7/ S.MLR PU04M5 6./ S.R J00K 8./ S.R J00J05K.6/ S.R J00J05K.6/ S.R J0H70J 0.9/ S.R 608 H H 00-T./ S.R 608 H H 00-T 9.7/ S.R J00K.4/ S.R J00K / S.R J0H470J./ S.R J00K 4.8/ S.R J0H470J T 6.4/ S.R J0H470J T 7.4/ S.R J0H470J T 9.6/ S.R J0H470J T./ S.R J0H470J T./ S.R J0H470J T.4/ S.R J0H470J T 0.5/ S.R J0H470J T 9.6/ S.R J0H470J T 8.7/ S.R J0H470J T 7.8/ S.R J0H470J T.8/ S.R J0H470J T.9/ S.R J0H470J T / S.R J00K / S.R J00K 9./ S.R J00K 7/ S.R J00K.8/5. J NR H J S.NR (69) T 7.6/6. J NR N-R69 P S. MPZ608S-T 4.9/6.8 P S. MPZ0S-T 7/5.8 M.=Mounted side (T: Mounted on the Top side, : Mounted on the ottom side) S.=Surface mount 6-4
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