IcomメーカーIC-FR3000の使用説明書/サービス説明書
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VHF FM REPEATER iC-fr3000 iC-fr 3100.
INTRODUCTION This service manual describes the latest service informa- tion for the IC-FR3000/IC-FR3100 VHF FM REPEATER. To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation. DANGER USE ONLY the specified AC voltage described on the AC power socket.
T ABLE OF CONTENTS SECTION 1 SPECIFICA TIONS SECTION 2 INSIDE VIEWS SECTION 3 CIRCUIT DESCRIPTION 3 - 1 RECEIVER CIRCUITS ................................................................................................... 3 - 1 3 - 2 TRANSMITTER CIRCUITS .
Measurement method Frequency range T ype of emission Channel spacing Frequency stability Number of channels Antenna connector Power supply requirement Current drain (approx.
2 - 1 JA CK1 unit* FRONT unit JA CK2 unit* TX unit RX unit P A unit REG unit LOGIC unit* SECTION 2 INSIDE VIEWS • BOARD LAYOUT *: Located under side of this point.
2 - 2 • LOGIC UNIT T op view Bottom view Splatter filter (IC4: NJM2902V) CTCSS decoder (IC29: FX805LG) D/A conv er ter (IC25: M62364) Mic mix amplifier (IC2: NJM2902V) Mic amplifier (IC1: NJM2902V) .
2 - 3 • TX UNIT T op view *: Located under side of this point. • RX UNIT T op view *: Located under side of this point. PLL reference oscillator 12.
SECTION 3 CIRCUIT DESCRIPTION 3 - 1 3-1 RECEIVER CIRCUITS 3-1-1 RF CIRCUIT (RX UNIT ) Received signals from the RX antenna connector enter the RX unit J1 and pass through a tuned bandpass filter (D3, D4, L2, L3, C5–C8, C12, C13, C205, C206, C220, 221) which is controlled by the D/A converter IC (LOGIC unit; IC25).
3 - 2 3-1-6 RECEIVER MUTE CIRCUITS (LOGIC UNIT) • NOISE SQUELCH The noise squelch circuit cuts out AF signals when no RF signals are received. By detecting noise components in the AF signals, the squelch circuit switches the AF mute switch.
3 - 3 The filtered signals are applied to the limiter amplifier (IC3), and are then mixed with the DTMF signal from the CPU (IC33, pin 43) via the TX-signal filter (IC3, pins 8, 10, 12, 14). The mixed signals are applied to the splatter filter (IC4), and are then applied to the P A unit.
3 - 4 detected voltage exceeds the power setting voltage. Then the output voltage of the APC amplifier IC (IC1, pin 4) con- trols the input current of the drive amplifier (Q4) and power amplifier IC (IC2, pin 2) to reduce the output power .
3 - 5 3-4 OTHER CIRCUIT S 3-4-1 TELEPHONE IF CIRCUIT (LOGIC UNIT) The signals from the telephone line (FRONT , J13) are applied to the ringer detect circuit (IC48, D1, D5, R131, R143, R145, C100, C103, C375). The detected signals are applied to the CPU (IC33, pin 73) via “RING” line.
Input port for the strobe signal. Input port for the clock signal. Outputs the serial data to the CPU (LOGIC unit; IC33). Input port for the received AF signal. Outputs the adjusted AF signal for the repeater output. Outputs the adjustment signal for the PLL reference frequency on the RX unit.
3 - 7 Outputs the strobe signal for the PLL IC on the RX unit. Outputs the strobe signal for the PLL IC on the TX unit. Input port for the unlock signal from the PLL IC on the TX unit. Outputs the TX mute signal for the TX unit. Outputs the TX mute signal for the P A unit.
3 - 8 Outputs the strobe signal for the port expander IC (LOGIC unit; IC41). Outputs the strobe signal for the port expander IC (LOGIC unit; IC40). Outputs the strobe signal for the port expander IC (LOGIC unit; IC39). Outputs the strobe signal for the D/A converter IC (LOGIC unit; IC25).
4 - 1 4-1 PREP ARA TION Some adjustments must be performed on the “ADJUSTMENT MODE”. CS-FR3000 CLONING SOFTW ARE , OPC-478 CLONING CABLE and OPC-592 ADAPTOR CABLE are required when entering the adjustment mode.
■ BEFORE ENTERING THE ADJUSTMENT MODE CAUTION!: Need to back up the original memory data using CS-FR3000 before cloning the adjustment frequencies. When program the adjustment frequencies into the repeate r , the repeate r ’ s memor ies channels will be overwritten the data and deleted original memory data at the same time.
4 - 3 ■ ENTERING THE ADJUSTMENT MODE 1 T urn the power OFF . 2 While pushing and holding both [CH-DN] and [CH-UP], turn ON. Never release [CH-DN] and [CH-UP] until 1 short beep sounds. 3 Push [CH-DN] button, then sounds 2 beep audio. ■ OPERA TING IN THE ADJUSTMENT MODE • Change the item (including frequency) (+1).
4 - 4 171.925 (RX) 171.725 (TX) 171.925 (RX) 171.725 (TX) 160.075 (RX) 160.275 (TX) 148.075 (RX) 148.275 (TX) 148.075 (RX) 148.275 (TX) 160.075 (RX) 160.275 (TX) 160.075 (RX) 160.275 (TX) 148.075 (RX) 148.275 (TX) 171.925 (RX) 171.725 (TX) 160.075 (RX) 160.
4 - 5 4-2 PLL ADJUSTMENT TX VCO LOCK VOL T AGE RX VCO LOCK VOL T AGE REFERENCE FREQUENCY 1 1 1 2 • LCD display : A01 LW TXREF 127 • T ransmitting • LCD display : A01 LW TXREF 127 • Receiving • W ait for 5 minutes after power ON.
4 - 6 *The output level of the standard signal generator (SSG) is indicated as the SSG ’ s open circuit. 4-3 SOFTW ARE ADJUSTMENT Select an item using [CH-UP] / [CH-DN] buttons, then set specified value using [RPT/BASE] / [MONI] buttons on the FRONT P ANEL.
4 - 7 SOFTW ARE ADJUSTMENT – continued Select an item using [CH-UP] / [CH-DN] buttons, then set specified value using [RPT/BASE] / [MONI] buttons on the FRONT P ANEL. 1 2 1 2 • LCD display : A06 HW POWER • Operating freq. : 160.2750 MHz [GEN74] 162.
4 - 8 *The output level of the standard signal generator (SSG) is indicated as the SSG ’ s open circuit. SOFTW ARE ADJUSTMENT – continued Select an item using [CH-UP] / [CH-DN] buttons, then set specified value using [RPT/BASE] / [MONI] buttons on the FRONT P ANEL.
[REG UNIT] [REG UNIT] IC1 1 180001320 IC NJM7809F A T IC2 1 180002290 S.IC NJM7809DL1A-TE B IC3 1 180001860 S.IC T A78M05F (TE16L) B IC4 1 180002480 S.REG T A78DL12AF (TE16L) T IC6 1 180001540 S.IC T A78L08F (TE12R) B IC7 1 1 10002860 S.IC T A75S393F (TE85R) T IC9 1 1 10002400 S.
[FRONT UNIT] Q1 1530002060 S.TRANSISTOR 2SC4081 T106 R T D1 1750000930 S.DIODE NNCD8.2C-T1 T D2 1750000930 S.DIODE NNCD8.2C-T1 T D3 1750000930 S.DIODE NNCD8.2C-T1 T L1 6200001620 S.COIL ELJFC 1R0K-F T R1 7030003400 S.RESISTOR ERJ3GEYJ 471 V (470 Ω ) T R2 7030003200 S.
[LOGIC UNIT] [LOGIC UNIT] Q48 1 160000150 S.TRANSISTOR IMZ4 T108 B Q49 1590001960 S.TRANSISTOR XP431 1 (TX) T Q50 1590001960 S.TRANSISTOR XP431 1 (TX) T Q51 1540000570 S.TRANSISTOR 2SD1760 TLQ [FR3100] B Q52 1530001950 S.TRANSISTOR 2SC2712-GR (TE85R) [FR3100] B D1 1730002650 S.
[LOGIC UNIT] [LOGIC UNIT] R148 7030003760 S.RESISTOR ERJ3GEYJ 474 V (470 k Ω ) T R149 7030003450 S.RESISTOR ERJ3GEYJ 122 V (1.2 k Ω ) T R150 7030003450 S.RESISTOR ERJ3GEYJ 122 V (1.2 k Ω ) T R151 7030003280 S.RESISTOR ERJ3GEYJ 470 V (47 Ω ) B R153 7030003560 S.
[LOGIC UNIT] [LOGIC UNIT] R373 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 k Ω ) B R375 7030003680 S.RESISTOR ERJ3GEYJ 104 V (100 k Ω ) B R376 7030003540 S.RESISTOR ERJ3GEYJ 682 V (6.8 k Ω ) B R382 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 k Ω ) B R385 7030003560 S.
[LOGIC UNIT] [LOGIC UNIT] C91 4030009490 S.CERAMIC C1608 JB 1H 821K-T T C92 4030008650 S.CERAMIC C1608 JB 1H 332K-T B C93 4030012610 S.CERAMIC C2012 JB 1C 474K-T B C94 4550006250 S.T ANT ALUM TEESVA 1A 106M8L B C95 4510004510 ELECTROL YTIC 25 MV 470 HC T C96 403001 1600 S.
[LOGIC UNIT] [LOGIC UNIT] C301 4510004630 S.ELECTROL YTIC ECEV1CA100SR T C302 4510004630 S.ELECTROL YTIC ECEV1CA100SR T C303 403001 1600 S.CERAMIC C1608 JB 1E 104K-T T C307 4030007050 S.CERAMIC C1608 CH 1H 220J-T B C308 4030017490 S.CERAMIC C1608 JB 1A 105K-T B C310 403001 1600 S.
[RX UNIT] [RX UNIT] IC1 1 190000450 S.IC GN201 1-Q (TX) T IC2 1 1 10003490 S.IC T A31136FN (D,EL) T IC3 1 180000420 S.IC T A78L05F (TE12R) T IC4 1 140002131 S.IC MB151 1PFV -G-BND-ER B IC5 1 1 10002750 S.IC T A75S01F (TE85R) B IC6 1 180000420 S.IC T A78L05F (TE12R) B IC7 1 180000430 S.
[RX UNIT] [RX UNIT] R158 7030003560 S.RESISTOR ERJ3GEYJ 103 V (10 k Ω ) T R159 7030003440 S.RESISTOR ERJ3GEYJ 102 V (1 k Ω ) T R160 7030003520 S.RESISTOR ERJ3GEYJ 472 V (4.7 k Ω ) T R166 7030003280 S.RESISTOR ERJ3GEYJ 470 V (47 Ω ) T R167 7030003740 S.
[RVCO UNIT] [RX UNIT] C201 4550006250 S.T ANT ALUM TEESV A 1A 106M8L B C202 4030006860 S.CERAMIC C1608 JB 1H 102K-T T C203 403001 1600 S.CERAMIC C1608 JB 1E 104K-T T C204 4550006250 S.T ANT ALUM TEESV A 1A 106M8L B C205 4030006940 S.CERAMIC C1608 CH 1H 030C-T T C206 4030006940 S.
[TX UNIT] [TX UNIT] IC1 1 180000420 S.IC TA78L05F (TE12R) B IC2 1 140002131 S.IC MB1511PFV -G-BND-ER B IC3 1 1 10002400 S.IC NJM2107F-TE1 B IC4 1 180000430 S.IC TA78L06F (TE12L) B IC5 1 190001350 S.IC M62364FP 600D B IC6 1 1 10002400 S.IC NJM2107F-TE1 T Q1 1530002380 S.
[TVCO UNIT] [TX UNIT] C74 4030006860 S.CERAMIC C1608 JB 1H 102K-T T C75 4030006860 S.CERAMIC C1608 JB 1H 102K-T T C76 4030006860 S.CERAMIC C1608 JB 1H 102K-T B C77 4030006860 S.CERAMIC C1608 JB 1H 102K-T T C78 4030006860 S.CERAMIC C1608 JB 1H 102K-T B C79 4030007170 S.
[P A UNIT] [P A UNIT] IC1 1 1 10002750 S.IC T A75S01F (TE85R) T IC2 1 1500021 10 IC S-A V33 (I) [FR3100] T 1 150002160 IC S-A V32 (I2) [FR3000] T IC3 1 1 10002400 S.IC NJM2107F-TE1 T IC7 1 180000420 S.IC TA78L05F (TE12R) T Q4 1560001 160 S.FET 2SK3475 (TE12L) T Q7 1590000680 S.
[JACK1 UNIT] [P A UNIT] T2 5910001000 TRANSFORMER TC-7 T W3 7030003860 S.RESISTOR ERJ3GE JPW V T EP1 6910014490 TERMINAL OP-100 M3 T EP2 6910014490 TERMINAL OP-100 M3 T EP3 0910056443 PCB B 5996C R1 72100031 10 V ARIABLE RK0971 1 10 10KA T R2 7210003120 V ARIABLE RK0971 1 10 10KB T J1 6510018950 S.
[JACK2 UNIT] D1 1750000930 S.DIODE NNCD8.2C-T1 T D2 1750000930 S.DIODE NNCD8.2C-T1 T D3 1750000930 S.DIODE NNCD8.2C-T1 T D4 1750000930 S.DIODE NNCD8.2C-T1 T D5 1750000930 S.DIODE NNCD8.2C-T1 T D6 1750000930 S.DIODE NNCD8.2C-T1 T D1 1 1750000930 S.DIODE NNCD8.
SECTION 6 OPTION UNIT INST ALLA TION 6 - 1 6-1 Opening the repeater ’ s case Follow the case and cover opening procedures shown here when an optional unit is installed or adjust the in- ternal units, etc. CAUTION: DISCONNECT the AC power cable and/or DC power cable from the repeater .
6 - 2 6-3 Duplexer and isolater installation q Remove the top and bottom covers (See page 6-1). w T ighten 4 screws, A , for installing the duplexer unit. 3 T ighten 4 screws, B , for installing the isolater unit. 4 Cut the RX ANT -RX unit cable and then modify it.
6 - 3 CONNECTION PA RX J1 DUP RX ISO PA DUP PA ISO ISO: ISOLATER DUP: DUPLEXER EXAMPLE 1 : ISOLATER CONNECTION EXAMPLE 3: DUPLEXER AND ISOLATER CONNECTION EXAMPLE 2 : DUPLEXER CONNECTION J1.
7 – 1 SECTION 7 MECHANICAL P AR TS AND DISASSEMBL Y Screw abbreviations B0, BT: Self-tapping PH: P an head FH: Flat head NI-ZU: Nickel-Zinc ZK: Black W2 8900011521 OPC-1049A (P ower SW cable) 1 W7 8.
7 – 2 MP19 MP101 MP101 MP27 W5 (L) W4 (L) MP69 EP3 (F) EP2 (F) EP4 (F) EP7 (F) EP6 (F) EP5 (F) MP68 MP68 MP68 MP84 W17 MP84 MP84 MP82 MP82 W2 MP67 MP67 MP66 MP66 MP14 MP15 W16 MP1 MP4 MP3 MP10 MP8 S.
7 - 3 W1 MP100 MP34 W5 MP83 MP35 MP35 MP59 J1 W12 W3 MP33 W10 W11 MP32 EP7 (R) EP8 (R) EP4 (R) EP9 (R) EP5 (R) EP3 (R) EP10 (R) EP6 (R) MP33 MP83 MP83 MP83 MP83 MP83 F6 (R) F2 (R) F4 (R) F5 (R) F1 (R).
7 - 4 MP1 8510014700 2368 RVCO case 1 REF ORDER DESCRIPTION NO . NO. QTY . [R VCO UNIT] MP1 8510014690 2368 TVCO case 1 REF ORDER DESCRIPTION NO . NO. QTY .
8 - 1 SECTION 8 SEMI-CONDUCT OR INFORMA TION 8 - 1 TRANSIST ORS AND FETS 2SC4116-Y (Symbol: LY) 2SC4215-O (Symbol: QO) 2SC5006-T1 (Symbol: 24) 2SA1362-Y 2SB1182 TL Q (Symbol: B1182, Q ) (Symbol: AEY) .
8 - 2 8 - 2 DIODES 1SS226 (TE85R) (Symbol: C3) A C 1SS268 (TE85R) (Symbol: BF) C A1 A2 1SS319 (TE85R) (Symbol: A4) A1 A2 C1 C2 A A C C 1SS355 TE-17 (Symbol: A) A C A C A AC C A C A C A C 1SV308 (TPL3).
9 - 1 GND A5V LCDV RS R/W ENA DB0 DB1 DB2 DB3 DB4 DB5 DB6 DB7 BLV GND GND LV GND V9V RX OUT GND to LCD DS7 J4 to RX UNIT VOLUME SQUELCH MODC 7 MOD LV GND TX OUT V9V J3 J1 J5 J6 J4 J2 J1 6 1 to TX UNIT.
9 - 2 VR UNIT ¡ BO TTOM VIEW TVCO UNIT ¡ BO TTOM VIEW R VCO UNIT ¡ BO TTOM VIEW DCL TXL BASEL D5V DB7 DB5 ENA RS GND PROG CHDN I R/B to LOGIC UNIT J3 to LOGIC UNIT J4 REMOTE MICE GND CLONE M MONI J.
9 - 3 J9 1 3456789 1 0 1 1 1 2 1 3 11 SPG SP to JA CK1 UNIT J3 –PTT +PTT –AFOUT +AFOUT –EXTMOD +EXTMOD +BUSY –BUSY GND J11 11 3 BUSY OUT TXOUT COAXSW M/SO M/SI D0 E R/B E PT2 E MONI D3/DT O D4.
9 - 4 DCL PROGL TXL RMTL BASEL BUSYL D5V D5V DB7 DB6 DB5 DB4 ENA R/W RS A5V GND GND PROG DISP CHDN CHUP I R/B I MONI J1 1 2 21 22 NDET SQL GND DISC GND GND GND GND GND GND TUNE R VCON RL V RSSI W/NS R.
9 - 5 to LOGIC UNIT J1 RX ANT J1 W12 J2 GND GND M9V M9V R9C GND RSSI GND RUNLK RLV SCK SDTO RPLSTB W/NS NDET GND GND DISC GND TUNE RVCON SQL 2 21 1 22 1 2 3 4 5 6 GND RX OUT V9V LV GND GND 9 - 6 RX UNIT ¡ ¡ T OP VIEW The combination of this page and the ne xt page shows the unit la yout in the same configuration as the actual P.
9 - 6 ¡ ¡ BO TT OM VIEW RX UNIT The combination of this page and the pre vious page shows the unit la yout in the same configuration as the actual P .
9 - 7 to LOGIC UNIT J2 to PA UNIT J2 21 J3 22 1 2 J5 to PA UNIT J1 10 M9V M9V TMUTE2 PCON PATEMP RVSWR FWSWR GND GND GND 1 J4 SCK SDTO DA1STB TPLSTB M9V M9V GND TUNLK W/NS TLV GND TMUTE1 GND FWSWR RVS.
9 - 8 ¡ ¡ BO TT OM VIEW TX UNIT The combination of this page and the pre vious page shows the unit la yout in the same configuration as the actual P .
9 - 9 to TX UNIT J1 W1 TXRFIN GND to TX UNIT J4 10 M9V M9V TMUTE2 PCON PATEMP RVSWR FWSWR GND GND GND 1 GND VCC1 to REG UNIT EP7 EP2 EP1 to REG UNIT EP8 TX ANT W13 IC2 9 - 8 P A UNIT ¡ ¡ T OP VIEW The combination of this page and the ne xt page shows the unit la yout in the same configuration as the actual P.
9 - 10 to TX UNIT J1 W1 TXRFIN GND GND VCC1 to REG UNIT EP7 EP2 EP1 to REG UNIT EP8 IC2 ¡ ¡ BO TT OM VIEW PA U N I T The combination of this page and the pre vious page shows the unit la yout in the same configuration as the actual P .
9 - 11 to LOGIC UNIT J5 to LOGIC UNIT J6 to PA UNIT EP2 to PA UNIT EP1 PS 0V PS 15V BATTERY – PS 15V BATTERY + PS 0V GND GND VCC1 VCC1 A5V REGTEMP M9C L9V M9V L9V A5V PSD M9V GND 1 9 2 10 1 2 W2 W2 .
9 - 12 JA CK1 UNIT ¡ BO TTOM VIEW JA CK2 UNIT ¡ BO TTOM VIEW to PA UNIT EP2 to PA UNIT EP1 PS 0V PS 15V BATTERY – PS 15V BATTERY + PS 0V to LOGIC UNIT J10 AF GND DISC OUT DC GND AF OUT AF GND E MO.
10 - 1 TX UNIT SCK,SDTO,DA1STB,TPLSTB I TONE TXAF PATEMP TLV TUNLK FWSWR RVSWR IC4D TX- TONE FIL Q1: XP1214 CTDTO from CPU IC4: NJM2902V SPLAT FIL IC4A, B, C IC3: NJM2902V LIMIT IC3A SIG MIX IC3B PRE-.
10 - 2 T5V M9V IC5: M62364FP T6V +6 REG +5 REG M9V IC1: TA78L05F IC4: TA78L06F V9V Q1: 2SK508 D5: 1SV305 D1: 1SV305 D2: 1SV305 D3: 1SV305 D4: 1SV305 Q6: 2SC3661 D4: MA2S111 TVCO UNIT Q2: 2SC4226 TX UN.
11 - 1 DISPLAY RX UNIT CHASSIS UNIT RVCO UNIT TX UNIT UNIT TVCO PA UNIT FRONT UNIT JACK1 UNIT VR UNIT REG UNIT LOGIC UNIT JACK2 UNIT MICE to SP MIC to LINE M PTT SPR CLONE L9V 1 2 3 4 5 6 7 8 J7 L9V R.
12 - 1 NOTE : Voltage line RX line 13 25 12 24 11 23 10 22 9 21 8 20 7 19 6 18 5 17 4 16 3 15 2 14 1 J1 L22 BLM21PG221SN1 L20 BLM21PG221SN10 L18 BLM21PG221SN1 D0 M/S IN M/S OUT COAXIAL SW TX OUT BUSY .
12 - 2 NOTE : Voltage line RX line C41 0.001 L33 0.39 µ H C182 56p C39 0.001 L9 458DB-1011 C40 0.001 R15 100 R17 100 R187 100 C35 0.001 C34 0.001 R14 100 G1 6 D1 5 D2 4 S2 3 S1 2 G2 1 IC1 GN2011-Q W2 L8 458DB-1011 W1 C22 18p C30 15p C31 0.001 L7 C6342A-R11J-A C18 0.
12 - 3 NOTE : Voltage line TX line MODC R95 100 TX OUT V9V V9V V9V GND GND MOD R1 18 R2 18 R3 18 C4 0.001 C77 0.001 R5 3.9k C2 0.001 R4 10k C10 8p C15 0.001 C16 0.001 L2 LQW2BHNR10J01L R6 100 L14 36CS-656LZ-09K=P3 L31 47nH C9 10p C17 0.001 L8 2.2 µ H C29 0.
12 - 4 NOTE : Voltage line TX line PA UNIT R63 1.5k [FR3000] 1k [FR3100] R58 1.5k D16 HSU88TRF C112 0.1 [FR3000] C57 0.1 C11 0.001 C83 1p C113 4p D13 HSU88TRF L15 BLM31PG121SN1 C109 1 [FR3100] R61 1.5k [FR3000] 1.2k [FR3100] C80 100p R29 56 C30 0.001 R32 120 R31 120 L8 36CS-656LZ-07K=P3 L19 68nH L14 1 µ F R22 22 R23 22 C12 0.
NOTE : Voltage line TX line RX line LOGIC UNIT Q52 2SC2712 Q51 2SD1760 C303 0.1 1 2 3 11 4 R32 22k R342 3.9k R340 10 A5V CP2 R313 100k R40 4.7k C7 0.1 C8 0.1 C9 0.1 C11 0.1 C10 0.1 8 9 10 7 6 5 R314 4.7k R26 15k R27 5.6k R28 680 R29 3.9k R30 2.2k R31 270 R312 6.
12- 6 Voltage line TX line RX line LOGIC UNIT to RX UNIT J2 to TX UNIT J3 L4 BLM31PG121SN1 1 2 3 4 5 6 J5 L9V VCC2 L1 BLM31PG121SN1 L2 BLM31PG121SN1 L3 BLM31PG121SN1 C249 47 C247 47 C248 10 C234 0.001 C235 0.001 C236 0.001 C237 0.001 C238 0.001 1 2 3 4 5 6 7 8 9 10 J6 C438 0.
12 - 7 1 2 3 4 J17 C36 0.001 C4 0.001 R17 22 R3 47k R66 22k M SW C15 0.001 S1 RXE160 R16 22 D7 FCH30A03L C34 22 R42 10 R27 680 R37 10 C51 0.01 C7 2200 F3 ATC-20 F1 F2 C6 2200 C5 0.001 1 2 3 4 EP3 1 2 3 4 EP10 PS 15V PS 15V PS 15V PS 15V PS 15V PS 15V CP5 1 2 3 4 EP4 PS 0V PS 0V PS 0V PS 0V M SW PS 0V W2 W2 W4 W4 PS 0V R23 12k R18 10k R19 10k R24 3.
Asia Icom Inc. 6F No.68, Sec. 1 Cheng-T eh Road, T aipei, T aiwan, R.O.C. Phone : +886 (02) 2559 1899 Fax : +886 (02) 2559 1874 URL : http://www .asia-icom.com Zac de la Plaine, 1, Rue Brindejonc des Moulinais BP 5804, 31505 T oulouse Cedex, France Phone : +33 (5) 61 36 03 03 Fax : +33 (5) 61 36 03 00 URL : http://www .
1-1-32, Kamiminami, Hirano-ku, Osaka, 547-0003, Japan S-14004MZ-C1- 1 © 2003 Icom Inc..
デバイスIcom IC-FR3000の購入後に(又は購入する前であっても)重要なポイントは、説明書をよく読むことです。その単純な理由はいくつかあります:
Icom IC-FR3000をまだ購入していないなら、この製品の基本情報を理解する良い機会です。まずは上にある説明書の最初のページをご覧ください。そこにはIcom IC-FR3000の技術情報の概要が記載されているはずです。デバイスがあなたのニーズを満たすかどうかは、ここで確認しましょう。Icom IC-FR3000の取扱説明書の次のページをよく読むことにより、製品の全機能やその取り扱いに関する情報を知ることができます。Icom IC-FR3000で得られた情報は、きっとあなたの購入の決断を手助けしてくれることでしょう。
Icom IC-FR3000を既にお持ちだが、まだ読んでいない場合は、上記の理由によりそれを行うべきです。そうすることにより機能を適切に使用しているか、又はIcom IC-FR3000の不適切な取り扱いによりその寿命を短くする危険を犯していないかどうかを知ることができます。
ですが、ユーザガイドが果たす重要な役割の一つは、Icom IC-FR3000に関する問題の解決を支援することです。そこにはほとんどの場合、トラブルシューティング、すなわちIcom IC-FR3000デバイスで最もよく起こりうる故障・不良とそれらの対処法についてのアドバイスを見つけることができるはずです。たとえ問題を解決できなかった場合でも、説明書にはカスタマー・サービスセンター又は最寄りのサービスセンターへの問い合わせ先等、次の対処法についての指示があるはずです。
