SERVIE MANUAL UHF TRANSEIVERS
INTRODUTION This ser vice manual descr ibes the latest ser vice information for the I-F/I-FS/I-F/I-FS UHF TRANSEIVER at the time of publication. MODEL VERSION SYMBOL H FREQUENY USA 0 US 6 00 70 MHz I F USA 0 US 6 0 MHz GEN 0 GE 6 0 70 MHz GEN 0 GE 6 0 0 MHz USA 0 USS 00 70 MHz I FS USA 0 USS 0 MHz GEN 0 GE 00 70 MHz GEN 0 GE 0 0 MHz I F EUR 0 EU 6 00 70 MHz I FS EUR 0 EUS 00 70 MHz To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation. DANGER NEVER connect the transceiver to an A outlet or to a D power supply that uses more than 8 V. Such a connection could cause a fire or electric hazard. 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 dbm (0mW) to the antenna connector. This could damage the transceiver's front end. ORDERING PARTS Be sure to include the following four points when ordering replacement parts:. -digit order numbers. omponent part number and name. Equipment model name and unit name. Quantity required <SLE ORDER> 600080 Switch SKHLLFA0 I-F Main unit pieces 890060 Lens 77 Lens I-F hassis pieces Addresses are provided on the inside back cover for your convenience. REPAIR NOTES. Make sure the problem is internal before disassembling the transceiver.. DO NOT open the transceiver until the transceiver is disconnected from its power source.. DO NOT force any of the variable components. Turn them slowly and smoothly.. DO NOT short any circuits or electronic parts. An insulated turning tool MUST be used for all adjustments.. 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. ALWAYS connect a 0 db to 0 db attenuator between the transceiver and a deviation meter or spectrum analyzer when using such test equipment. 8. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver. Icom, Icom Inc. and are registered trademarks of Icom Incorporated (Japan) in the United States, the United Kingdom, Germany, France, Spain, Russia and/or other countries.
TABLE OF ONTENTS SETION SPEIFIATIONS SETION INSIDE VIEWS SETION DISASSEMBLY INSTRUTIONS SETION IRUIT DESRIPITON - REEIVER IRUITS....................................................... - - TRANSMITTER IRUITS................................................... - - PLL IRUITS............................................................. - - OTHER IRUITS.......................................................... - - POWER SUPPLY IRUITS.................................................. - -6 PORT ALLOATIONS....................................................... - SETION ADJUSTMENT PROEDURES - PREPARATION............................................................. - - ONFIGURATION LISTS FOR ADJUSTMENTS................................... - - SOFTWARE ADJUSTMENTS................................................. - SETION 6 PARTS LIST SETION 7 MEHANIAL PARTS AND DISASSEMBLY SETION 8 SEMI-ONDUTOR INFORMATION SETION 9 BOARD LAYOUTS 9- MAIN UNIT................................................................ 9-9- ANT UNIT................................................................. 9-9- ONNET UNIT............................................................ 9- SETION SETION BLOK DIAGRAM VOLTAGE DIAGRAM - MAIN UNIT................................................................ -
SETION SPEIFIATIONS GENERAL Frequency coverage : 00 70 MHz [USA 0], [GEN 0], [EUR] 0 MHz [USA 0] 0 0 MHz [GEN 0] Type of emission : VERSION WIDE MIDDLE NARROW [USA], [GEN] N/A K0FE (. khz) 6K0FE (.0 khz) [EUR] K0FE (0.0 khz) 8K0FE (. khz) Number of conventional channels : ch (I-FS/FS), 6 ch (I-F/F) Antenna impedance : 0 Ω (nominal) Operating temperature range : 0 to +60 ( F to +0 F) [USA], [GEN] to + [EUR] Power supply requirement : 7. V D nominal (negative ground) urrent drain (at 7. V D ; approx.) : REEIVING TRANSMITTING Stand-by Max. audio High (at W) Low (at W) 7 ma 00 ma.6 A 0.8 A Dimensions (projections not included) Weight (Including BP-) : (W) 0(H) 8(D) mm; (W) (H) (D) in : Approximately 60 g (9 6 oz) TRANSMITTER Output power (at 7. V D) : W Modulation : Variable reactance frequency modulation Maximum permissible deviation : ±.0 khz (Wide), ±.0 khz (Middle), ±. khz (Narrow) Frequency error : ±. ppm Spurious emissions : 70 db (min.) [USA], [GEN] 0. µw ( GHz),.0 µw (> GHz) [EUR] Adjacent channel power : 70 db min. (7 db typical) for Wide 70 db min. (7 db typical) for Middle 60 db min. (68 db typical) for Narrow Audio harmonic distortion : % typical ( khz, 0% deviation) Hum and Noise ([USA], [GEN]) : 0 db min. (6 db typical) for Wide (without ITT filter) db min. (0 db typical) for Narrow Residual modulation ([EUR] only) : db min. ( db typical) for Wide (with ITT filter) db min. ( db typical) for Middle 0 db min. (0 db typical) for Narrow Limiting charact of modulator : 60 0% of maximum deviation Microphone impedance :. kω REEIVER Receive system : Double conversion superheterodyne system Intermediate frequencies : st IF: 6. MHz, nd IF: 0 khz Sensitivity : 0. µv ( 9 dbm) typical at db SINAD [USA], [GEN] dbµv ( dbm) emf typical at 0 db SINAD [EUR] Squelch sensitivity (at threshold) : 0. µv typical [USA], [GEN] dbµv emf typical [EUR] Adjacent channel selectivity : 70 db min. (7 db typical) for Wide 70 db min. (7 db typical) for Middle 60 db min. (6 db typical) for Narrow Spurious response : 70 db min. Intermodulation rejection ratio : 70 db min. (7 db typical) [USA], [GEN] 6 db min. (67 db typical) [EUR] Hum and Noise ([USA], [GEN] only) : 0 db min. ( db typical) for Wide (without ITT filter) db min. (0 db typical) for Narrow Hum and Noise ([EUR] only) : db min. ( db typical) for Wide (with ITT filter) db min. ( db typical) for Middle 0 db min. (0 db typical) for Narrow Audio output power : 0. W typical at % distortion with an 8 Ω load Output impedance (Audio) : 8 Ω Specifications are measured in accordance with EIA--/0D, TIA-60 or EN 00 086. All stated specifications are subject to change without notice or obligation. -
SETION INSIDE VIEWS MAIN UNIT TOP VIEW BOTTOM VIEW + Regulator (I9: NJM870) rystal filter (FI: FL-) FM IF I (I: TA6FN) IF amplifier (Q: S) EEPROM (I: BRL6FV) Pre-drive (Q: S6) Power amplifier (Q7: RD07MVS) Drive amplifier (Q8: RD0MUS) AF amplifier (I: TA768F) S Regulator Q: SB Q: XP60 Q: UNR9J T Regulator (Q: SA77) AP amplifier (I: T7SF) VO circuit D/A converter (I8: M66FP) PLL I (I: MBA0) R Regulator (Q: SA77) PU (I: HD6687A9FP) -
SETION DISASSEMBLY INSTRUTIONS REMOVING THE HASSIS UNIT Unscrew nut A, and remove knobs *B,. Unscrew screws D. Take off the chassis unit in the direction of the arrow. Unplug the connector E from the chassis unit. *B A E hassis unit D *: I-F/F only REMOVING THE MAIN UNIT (I-F/F) Unscrew nuts F, and remove the top plate G. Unsolder point H, and remove the earth plate. Unsolder points I, and remove the shield cover. Unscrew screws K, and remove the side plate L. Unscrew 7 screws M. 6 Unsolder points N, and take off the main unit in the direction of the arrow. Main unit F N M G I Shield cover N H Earth plate M K L M REMOVING THE MAIN UNIT (I-FS/FS) Remove the switch connector O. Unsolder nuts F, and remove the top plate G. Unsolder point H, and remove the earth plate. Unsolder points J, and remove the shield cover. Unscrew screws K, and remove the side plate L. 6 Unscrew 7 screws M. 7 Unsolder points N, and take off the main unit in the direction of the arrow. F Main unit G N M a I Shield cover N H Earth plate a M L K M hassis unit hassis unit -
SETION IRUIT DESRIPTION - REEIVER IRUITS -- ANTENNA SWITHING IRUIT The antenna switching circuit functions as a low-pass filter while receiving and a resonator circuit while transmitting. This circuit does not allow transmit signals to enter the receiver circuits. Received signals enter the antenna connector (HASSIS; J) and pass through the low-pass filter (L, L, L, 6, 7). The filtered signals are passed through the λ type antenna switching circuit (D, D, L) and then applied to the RF circuit. -- RF IRUIT The RF circuit amplifies signals within the range of frequency coverage and filters out-of-band signals. The signals from the antenna switching circuit pass through the bandpass filter (D, D, D7, D8, L7, L8,,, ). The filtered signals are amplified at the RF amplifier (Q) and then passed through the another bandpass filter (D9, D, 9, 0, ) to suppress unwanted signals. The filtered signals are applied to the st mixer circuit. D, D, D7 D employ varactor diodes, that are controlled by the PU via the D/A converter (I8), to track the bandpass filter. These varactor diodes tune the center frequency of an RF passband for wide bandwidth receiving and good image response rejection. -- ST MIXER AND ST IF IRUITS The st mixer circuit converts the received signal into fixed frequency of the st IF signal with the PLL output frequency. By changing the PLL frequency, only the desired frequency passes through a crystal filter at the next stage of the st mixer. The RF signals from the bandpass filter are mixed with the st LO signals, where come from the RX VO circuit via the BPF (L, L8, 9, 0, 0), at the st mixer circuit (Q) to produce a 6. MHz st IF signal. The st IF signal is passed through a monolithic filter (FI) in order to obtain selection capability and to pass only the desired signal. The filtered signal is applied to the nd IF circuit after being amplified at the st IF amplifier (Q). -- ND IF AND DEMODULATOR IRUITS The nd mixer circuit converts the st IF signal into a nd IF signal. The double-conversion superheterodyne system (which converts receive signals twice) improves the image rejection ratio and obtains stable receiver gain. The st IF signal from the IF amplifier (Q) is applied to the nd mixer section of the FM IF I (I, pin 6), and is mixed with the nd LO signal to be converted into a 0 khz nd IF signal. The FM IF I (I) contains the nd mixer, nd local oscillator, limiter amplifier, quadrature detector, active filter and noise amplifier circuits. The nd LO signal (.9 MHz) is produced at the PLL circuit by tripling it s reference frequency (. MHz). The nd IF signal from the nd mixer (I, pin ) passes through the ceramic filter (FI) to remove unwanted heterodyned frequencies. It is then amplified at the limiter amplifier section (I, pin ) and applied to the quadrature detector section (I, pins, ) to demodulate the nd IF signal into AF signals. The demodulated AF signals are output from pin 9 (I) as DET signal, and are then applied to the AF circuit. ND IF AND DEMODULATOR IRUITS 8 7 nd IF filter 0 khz FI.9 MHz Q9 X. MHz "SQL" signal from the D/A converter I (I8, pin ) To D/A converter I (I8, pin ) Active filter FM detector 9 Noise Limiter Noise detector RSSI Noise comparator Mixer I TA6FN 6 st IF signal from the IF amplifier (Q) "NOIS" signal to the PU (I, pin ) AF signal "DET" to the AF circuit X RV "RSSI" signal to the PU (I, pin 6) -
-- AF LIFIER IRUIT The AF amplifier circuit amplifies the demodulated AF signals to drive a speaker. The AF signals from the FM IF I (I, pin 9) pass through the high-pass filter (I6, pins and ) to suppress unwanted harmonic components. The signals pass through the RX mute switch (Q) which is controlled by RMUT signal from the PU (I, pin 6), and are then applied to another high-pass filter (I6, pins and ). The filtered signals pass through the low-pass filter (I6, pins 6 and 7) via the analog switch (I, pins and ). The signals are applied to the analog switch (I, pin ) again, and are then applied to the AF power amplifier (I, pin ) via the AF volume (R6). The amplified AF signals are output from pin, and are then applied to the internal speaker which is connected to J via the [SP] jack (J). TSS AND DTS The tone squelch circuit detects tone signals and opens the squelch only when the receiving signal contains matched subaudible tone (TSS or DTS). When tone squelch is in use, and a signal with a mismatched or no subaudible tone is received, the tone squelch circuit mutes the AF signals even when noise squelch is open. A portion of the DET signals from the FM IF I (I, pin 9) passes through the low-pass filter (I7, pins and 7) to remove AF (voice) signals, and are then applied to the amplifier (I7, pin ). The amplified signals are applied to the TSS or DTS decoder inside of the PU (I, pin 60) as the DE signal. The PU outputs AF mute control signal from pin 6, and is then applied to the RX mute switch (Q) and analog switch (I, pins and ) to control AF signals muting as RMUT signal. --6 REEIVE MUTE IRUITS NOISE SQUELH A 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. Some noise components in the AF signals from the FM IF I (I, pin 9) are applied to the D/A converter (I8, pin ) as DET signal, and are then output from pin. The signals are applied to the active filter section in the FM IF I (I, pin 8). The active filter section filters and amplifies noise components. The amplified signals are converted into the pulse-type signals at the noise detector section and output from pin as NOIS signal. The NOIS signal from the FM IF I is applied to the PU (I, pin ). Then the PU analyzes the noise condition and outputs the AF mute control signal from the PU (pin 6) as RMUT signal from pin 6. The signal is applied to the RX mute switch (Q) to control the AF signal muting. - TRANSMITTER IRUITS -- MIROPHONE LIFIER IRUIT The microphone amplifier circuit amplifies audio signals within +6 db/octave pre-emphasis characteristics from the microphone to a level needed for the modulation circuit. The AF signals from the microphone are passed through the microphone mute switch (Q), and are then applied to the amplifier (I6, pins 9 and 8) via the high-pass filter (I6, pins and ). The amplified signals are applied to the analog switch (I, pin ), and outputs from pin. The signals pass through the low-pass filter (I6, pins 6 and 7), then applied to the analog switch (I, pin 9) again and output from pin 8. The signals are applied to the D/A converter (I8, pin ). The converted signals output from pin, and applied to the modulation circuit (D8) as MOD signal. ANALOG SWITHING IRUITS "DET" AF signal from FM IF I (I, pin 9) I6 B LPF 9 8 I8 I6 A HPF D/A converter Analog SW (I) D8 Q RX MUTE I6 FM mod. AF volume R6 I6 D HPF I AF to TX VO circuit (Q, D7, D) Q MI MUTE Microphone Speaker "TSS/DTS" signal from D/A conveter I (I8, pin ) "TONE" signal from PU (I) via low-pass filters (I A / B pin 7) -
-- MODULATION IRUITS The modulation circuit modulates the VO oscillating signal (RF signal) using the audio signals from the microphone. The AF signals from the D/A converter (I8, pin ) change the reactance of varactor diode (D8) to modulate the oscillated signal at the TX VO circuit (Q, D7, D). The modulated VO signal is amplified at the buffer amplifiers (Q, Q) and then applied to the drive amplifier circuit via the T/R switch (D). The TSS/DTS signals ( EN0, EN, EN ) from the PU (I, pins ) pass through the low-pass filter (I, pins and ) via registers (R9 R9) to change its waveform. Then the signals are applied to the D/A converter (I8, pin 9). The output signals from the D/A converter (I8, pin ) pass through the low-pass filter (I6, pins 6 and 7) to be mixed with MOD signal, and then applied to the D/A converter again (I8, pin ) after passing through the analog switch (I, pins 8 and 9). -- TRANSMIT LIFIER IRUITS Transmit amplifiers amplify the TX VO oscillating signal to transmit power level. -- AP IRUITS The bias current of the drive (Q8) and power (Q7) amplifiers are controlled by the AP circuit. The AP circuit (I, D, D0) protects drive and power amplifiers from the reflected signal, and selects output power of HIGH, LOW or LOW. The power detector (D, D0) detects transmit output power and converts it into D voltage. The D voltage is at a minimum level when the antenna impedance is matched to 0 Ω, and increased when mismatched. The detected voltage is applied to the differential amplifier (I, pin ), and the T signal from the D/A converter (I8, pin ), controlled by the PU (I), is applied to pin for reference. When antenna impedance is mismatched, the detected voltage exceeds the power setting voltage. Then the output voltage of the differential amplifier (I, pin ) controls the input current of the drive (Q8), and power (Q7) amplifiers to reduce the output power. The modulated RF signal from the TX VO circuit passes through the T/R switch (D) and is amplified at the YGR (Q9), pre-drive (Q), drive (Q8), and power (Q7) amplifiers to obtain W (max.) of RF power (at 7. V D). The amplified signal passes through the low-pass filter (L,,, 6), antenna switch (D), the low-pass filter (L L,, 7, 76) and power detector (D, D0), then applied to the antenna connector (HASSIS unit; J). AP IRUITS V TV RF signal from Buffer Q9 Q Q8 Q7 YGR Pre-drive Drive Power LPF ANT SW D, D LPF to ANT T TMUT + I AP D0 D Power DET -
- PLL IRUITS -- PLL IRUIT A PLL circuit provides stable oscillation for the transmit frequency and the receive st LO frequency. The PLL output compares the phase of the divided VO frequency to the reference frequency. The PLL output frequency is controlled by the divided ratio (N-data) of a programmable divider. The PLL circuit contains the TX/RX VO circuits (TX: Q, D7, D8, D; RX: Q, D6, D). The oscillated signal is amplified at the buffer amplifiers (Q, Q) and then applied to the PLL I (I, pin 8) after being passed through the low-pass filter (L, 06, 08). -- VO IRUITS The VO circuit contains a separate RX VO (Q, D6, D) and TX VO (Q, D7, D). The oscillated signal is amplified at the buffer amplifiers (Q, Q) and is then applied to the T/R switch (D for TX, D for RX). Then the receive st LO (RX) signal is applied to the st mixer circuit (Q) and the transmit (TX) signal to the pre-drive amplifier (Q9). A portion of the signal from the buffer amplifier (Q) is fed back to the PLL I (I, pin 8) via the buffer amplifier (Q) and low-pass filter (L, 06, 08) as the comparison signal. The PLL I (I) contains a prescaler, programmable counter, programmable divider and phase detector, charge pump, etc. The entered signal is divided at the prescaler and programmable counter section by the N-data ratio from the PU. The divided signal is detected on phase at the phase detector using the reference frequency. The phase detected signal is applied to the charge pump to be converted into the D voltage, and output from pin. After passes through the loop filter (0, 8, 6, 7, R9 R97), the D voltage is applied to the TX/RX VO as the lock voltage. 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 oscillated frequency. PLL IRUITS Buffer Q8 "LVIN" signal to the PU (I, pin 6) Loop filter RX VO Q, D6, D TX VO Q, D7, D Buffer Q Buffer Q Buffer Q D D LPF to st mixer circuit to transmitter circuit I MBA0.9 MHz nd LO signal to the FM IF I (I, pin ) Tripler Q9 Phase harge Programmable 8 detector Prescaler pump counter Programmable divider Shift register 9 X. MHz LOK DATA PLST -
- OTHER IRUITS LED ONTROL IRUITS The LED control circuit is composed of the PU (I), LED driver (Q) and LED (DS). The PU outputs RLED and TLED signals from the pins and. The signals are applied to the LED driver (Q, pins and ). The driver outputs LED control signals to the LEDs (DS). ONDITION REEIVING (/-TONE ODE) LOW BATTERY (Nearly exhausted) - POWER SUPPLY IRUIT VOLTAGE LINE LINE V +V SV RV TV LOW BATTERY (Almost exhausted) LONING REEIVING/SQUELH OPEN TRANSMITTING OLOR ORANGE (Lighting) RED (Blinks Slowly) RED (Blinks Fast) ORANGE (Blinking) GREEN (Lighting) RED (Lighting) DESRIPTION The voltage from the connected battery pack. ommon V converted from the V line at the + regulator circuit (I9). The output voltage is supplied to the D/A converter (I8), analog SW (I), etc. ommon V converted from the V line at the S regulator circuit (Q Q). The output voltage is supplied to the ripple filter (Q7), PLL I (I), etc. Receive V converted from the SV line at the R regulator circuit (Q). The output voltage is supplied to the tripler (Q9), FM IF I (I), IF amplifier (Q), VO switch (Q, Q6), st mixer (Q), etc. Transmit V converted from the SV line at the T regulator circuit (Q). The output voltage is supplied to the YGR (Q9), pre-drive (Q), AP amplifier (I), etc. -6 PORT ALLOATION -6- D/A ONVERTER I (I8) Pin number Port name BAL LVA REF T T Description Outputs the modulation balance level control signal. The signal is applied to the reference frequency crystal oscillator (X, pin ). Outputs the PLL lock voltage control signal. The output signal is applied to the RX VO (Q, D6, D) and TX VO (Q, D7, D). Outputs the reference oscillator correcting voltage. The voltage is applied to the reference frequency crystal oscillator (X, pin ). Outputs the bandpass filter tuning signal. The output signal is applied to the bandpass filters (D, D, D7, D8). Outputs the bandpass filter tuning signal during receive. The output signal is applied to the bandpass filters (D9, D). Outputs the TX power control signal during transmit. The output signal is applied to the AP amplifier (I, pin ). -
-6- PU (I) Pin number Port name Description TEMP Input port for the transceiver s internal temperature detecting signal. BATV Input port for the detect signal for connecting battery pack s voltage. 7 RES Input port for power reset signal. SEN0 Output single tone encoder SEN signal. 6 DUSE Outputs DTS LPF control signal. 8 AFON Outputs AF power amplifier control signal. 9 SEN Output single tone encoder 0 SEN signal. BI0 BI Input ports for rotary selector. EN0 EN Output TSS/DTS signals. EN 6 BI 7 BI Input ports for rotary selector. 8 SK Outputs serial clock signal to the PLL I (I, pin 9), D/A convertor (I6, pin 7), etc. 9 SO Outputs serial data to the PLL I (I6, pin 8) and D/A convertor (I6, pin 8). 0 BEEP Outputs beep audio signals. ESDA I/O port for data signals from/to the EEPROM (I, pin ). ESL Outputs clock signal to the EEPROM (I, pin 6). UNLK Input port for unlock signal from PLL I. PLST Outputs strobe signals to the PLL I (I, pin ). 6 NW Output/input port for wide/ narrow control signal. 7 DAST Outputs strobe signals to the D/A convertor (I8, pin 6). Input port for the connecting battery type detect signal. 8 S Outputs power save control signal. 9 T Outputs T regurator control signal. Low: While transmitting Outputs R regurator control 0 R signal. Low: While receivinging Pin number Port name Description RLED Outputs receiving LED control signal. TLED Outputs transmitting LED control signal. OPT OPT I/O ports for option unit. 6 OPT 7 PTT Input port for the PTT switch detection signal. Low : While the PTT switch is pushed. 8 SI Serial Bus inputport. 9 LI Input port for the cloning data signal. 0 LO Outputs the cloning data signal. NOIS Input port for the noise signal from the FM IF I (MAIN unit; I, pin ). IRQ Input port for option unit detection. S Outputs chip select signal. 6 TMUT Outputs transmit mute signal. 7 Input port for AF mute signal from the RMUT RX circuit. 8 MMUT Outputs MI mute signal. 9 REMO Inputs key signal from remote mic. 60 Input port for TSS/DTS signal DE from the amplifier (I, pin 8). 6 Input port for single tone decode SDE signal from the LPF (I, pin 8). 6 KEY Inputs key input signal. 6 RSSI Input port for the S-meter signal from the FM IF I (I, pin ). 6 LVIN Input port for the PLL lock voltage. 6-6
SETION ADJUSTMENT PROEDURES - PREPARATION When adjusting I-F/F/S, the optional S-F ADJ ADJUSTMENT SOFTWARE (Rev..0 or later), JIG cable (see the illust below) and OP-78 (RS- type) or OP-78U (USB type) LONING ABLE are required. REQUIRED TEST EQUIPMENTS EQUIPMENT GRADE AND RANGE D power supply Output voltage : 7. V D urrent capacity : A or more FM deviation meter Frequency range : D 600 MHz Measuring range : 0 to ± khz Frequency range : 600 MHz Frequency counter Frequency accuracy : ± ppm or better Sensitivity : 0 mv or better Digital multimeter Input impedance : MΩ/V D or better Measuring range : W RF power meter Frequency range : 0 600 MHz (terminated type) Impedance : 0 Ω SWR : Less than. : SINAD meter Measuring range : 0 0 khz EQUIPMENT Audio generator Attenuator Standard signal generator (SSG) D voltmeter Oscilloscope A millivoltmeter GRADE AND RANGE Frequency range : 00 000 Hz Output level : 00 mv Power attenuation : 0 or 0 db apacity : W or more Frequency range : 0 600 MHz Output level : µv mv ( 7 to 7 dbm) (As open circuit.) Input impedance Frequency range Measuring range Measuring range : 0 kω/v D or better : D 0 MHz : 0.0 0 V : mv V SYSTEM REQUIREMENTS Microsoft Windows 98/SE/ME/000/XP RS/USB port BEFORE STARTING SOFTWARE ADJUSTMENT lone adjustment freqencies, TX power, TSS frequency, DTS code and IF bandwidth (see ADJUSTMENT ONFIGULATION on the next page) into the transceiver using with the S-F LONING SOFTWARE before starting SOFTWARE ADJUSTMENTS. Otherwise, the transceiver can not be adjusted. AUTION!: BAK UP the originally programmed memory data in the transceiver before programming the adjustment frequencies. When program the adjustment frequencies into the transceiver, the transceiver s memory data will be overwritten and lose original memory data at the same time. STARTING SOFTWARE ADJUSTMENT () onnect I-F/F/S and P with OP-78/U and JIG ABLE. () Turn the transceiver power ON. () Boot up Windows, and click the program group 'S-F ADJ in the Programs folder of the [Start] menu, then S- F ADJ s window appears. () lick onnect on the S-F s window, then appears I-F s up-to-date condition. () Set or modify adjustment data as desired. Microsoft and Windows are registered trademarks of Microsoft orporation in the U.S.A. and other countries. JIG ABLE ( SP + ) (SP ) (GND) -conductor.(d) mm plug JIG cable OP-78/U To I-F/F/S [SP] jack (LONE) -
- ONFIGULATION LIST FOR ADJUSTMENTS - I-F/F - [US]=USA-0, [GE]=GEN-0, [EU]=EUR-0, [US]=USA-0, [GE]=GEN-0 FREQUENY (MHz) FREQUENY (MHz) H. [US], [EU], [GE] [US], [GE] SETTING ONDITION H. [US], [EU], [GE] [US], [GE] SETTING ONDITION 00.000 0.000 Set TX power to High. 7.000 8.000 Set TX power to Low. Set DTS code to 007. Set IF bandwidth to Wide/Middle. (Middle : EUR only) 00.000 0.000 Set TX power to Low. 00.000 0.000 Set TX power to Low..000 8.000 Set TX power to Low. 8.000 8.000 70.000 0.000 Set TX power to Low. 9.000 8.000 6.000 8.000 Set TX power to Low. Set DTS code to 007. Set IF bandwidth to Narrow. Set TX power to Low. Set IF bandwidth to Narrow. Set TX power to Low. Set IF bandwidth to Wide/Middle. (Middle : EUR only).000 8.000 Set TX power to Low. Set IF bandwidth to Wide. Set TSS to.hz. 00.000 0.000 Set IF bandwidth to Wide. - I-FS/FS - Re-clone these settings every time each category is adjusted. ( 8)..PLL LOK VOLTAGE.REFERENE FREQENY FREQUENY (MHz) H. SETTING ONDITION [US], [EU], [GE] [US], [GE] 00.000 0.000 Set TX power to Low. 70.000 0.000 Set TX power to Low..TX POWER H. FREQUENY (MHz) [US], [EU], [US], [GE] [GE] SETTING ONDITION 00.000 0.000 Set TX power to High. 00.000 0.000 Set TX power to Low. 00.000 0.000 Set TX power to Low..FM DEVIATION H. FREQUENY (MHz) [US], [EU], [US], [GE] [GE].000 8.000.00 8.00 SETTING ONDITION Set TX power to Low. Set IF bandwidth to Narrow. Set TX power to Low. Set IF bandwidth to Wide/Middle. (Middle : [EUR] only).modulation BALANE H. FREQUENY (MHz) [US], [EU], [US], [GE] [GE].000 8.000.000 8.000 6.TSS/DTS DEVIATION H. FREQUENY (MHz) [US], [EU], [US], [GE] [GE].000 8.000 7.RX SENSITIVITY 8.SQUELH LEVEL H. FREQUENY (MHz) [US], [EU], [US], [GE] [GE] SETTING ONDITION Set TX power to Low. Set DTS code to 007. Set IF bandwidth to Narrow. Set TX power to Low. Set DTS code to 007. Set IF bandwidth to Wide/Middle. (Middle : [EUR] only) SETTING ONDITION Set TX power to Low. Set IF bandwidth to Wide. Set TSS to.hz. SETTING ONDITION 00.000 0.000 Set IF bandwidth to Wide. -
ONNETION A millivoltmeter To [MI] Audio generator Standard signal generator µv to mv ( 7 dbm to 7 dbm) DO NOT transmit while an SSG is connected to the antenna connector. to the antenna connector OP-78 (RS- type) to RS- port OP-78U (USB type) FM deviation meter Attenuator 0 db / 0 db to USB port P RF power meter W/0 Ω Frequency counter To [SP] connector To [SP] JIG cable (see page -) SINAD meter Speaker (8 Ω) I-F/F/S JIG ABLE ( SP + ) (SP ) (GND) -conductor.(d) mm plug JIG cable OP-78/U To I-F/F/S [SP] jack (LONE) -
P SREEN EXLE NOTE: The above screen is an example. Each transceiver has its own specific values for each setting. -
- SOFTWARE ADJUSTMENTS (TRANSMITTING) Select the operation using [ ] / [ ] keys, then set specified value using [ ] / [ ] keys on the connected computer keyboard. ADJUSTMENT PLL LOK VOLTAGE [LV (RX LVA)] [LV (TX LVA) REFERENE FREQUENY [REF] OUTPUT POWER [Power (Hi)] *For FS/FS adjustment. ADJUSTMENT ONDITION Operating H : H (*H) Receiving Operating H : H (*H) onnect an RF power meter or 0 Ω dummy load to the antenna connector. Transmitting UNIT P screen MEASUREMENT LOATION "LVIN" item on the S-F ADJ's screen. ONVENIENT: PLL LOK VOLTAGE can be adjusted automatically. Select "TX LVA"/"TX LVA" item on the S-F ADJ screen, and push [ENTER] key. Operating H : H (*H) Receiving Operating H : H (*H) onnect an RF power meter or 0 Ω dummy load to the antenna connector. Transmitting Operating H : H (*H) Transmitting Operating H : H (*H) Transmitting [Power (L)] Operating H : H (*H) Transmitting [Power (L)] Operating H : H (*H) Transmitting FM DEVIATION [MOD N] (Narrow) [MOD Ratio] (Middle; EUR only) [MOD Ratio] (Wide) MODULATION BALANE [BAL N] (Narrow) [BAL Ratio] (Middle; EUR only) [BAL Ratio] (Wide) Operating H : H8 (*H) Set the deviation meter as: HPF : OFF LPF : 0 khz De-emphasis : OFF Detector : (P_P)/ onnect the audio generator the [MI] connector and set as :.0 khz 0mV rms Transmitting Operating H : H9 (*H) Transmitting Operating H : H9 (*H) Transmitting Operating H : H6 (*H) No audio applied to the [MI] input. Set the deviation meter as: HPF : OFF LPF : 0 khz De-emphasis : OFF Detector : (P_P)/ Transmitting Operating H : H7 (*H) Transmitting Operating H : H7 (*H) Transmitting P screen Top panel Top panel Top panel Top panel "LVIN" item on the S-F ADJ's screen. Loosely couple the frequency counter to the antenna connector. onnect the RF power meter to the antenna connector. onnect the FM deviation meter to the antenna connector through the attenuator. onnect the FM deviation meter with the oscilloscope to the antenna connector through an attenuator. VALUE.0 V.0 V.. V (Verify).. V (Verify) 70.0000 MHz [US], [EU], [GE] 0.0000 MHz [US], [GE].0 W.0 W.0 W ±. khz ±.0 khz ±. khz Set to square wave form -
- SOFTWARE ADJUSTMENTS (REEIVING) Select an operation using [ ] / [ ] keys, then set specified value using [ ] / [ ] keys on the connected computer keyboard. ADJUSTMENT TSS/DTS DEVIATION [TS/DTS] RX SENSITIVITY [BPF T], [BPF T] SQUELH LEVEL [SQL] *For FS/FS adjustment. ADJUSTMENT ONDITION Operating H : H (*H) No audio applied to the [MI] input. Transmitting Operating H : H (*H) onnect a standard signal generator to the antenna connector and set as: Frequency : 00.000 MHz [US], [EU], [GE] 0.000 MHz [US], [GE] Level : +0 dbµ ( 87dBm) Modulation : khz Deviation : ±. khz Receiving UNIT Top panel Side Panel MEASUREMENT LOATION onnect the FM deviation meter to the antenna connector through the attenuator. onnect the SINAD meter with an 8 Ω load to the [SP] jack through the JIG cable. ONVENIENT: RX SENSITIVITY can be adjusted automatically. Select "BPF ALL" item on the S-F ADJ's screen, and push [ENTER] key. Operating H : H (*H) onnect an SSG to the antenna connector and set as: Frequency : 00.000 MHz [US], [EU], [GE] 0.000 MHz [US], [GE] Level : dbµ ( dbm) Modulation : khz Deviation : ±. khz Receiving Side pannel onnect a speaker to the [SP] jack through the JIG cable. VALUE ±0.68 khz Minimum distortion level Set SQL level to close squelch. Then set SQL level at the point where the audio signals just appears. - 6
SETION 6 PARTS LIST [MAIN UNIT] REF ORDER H/V NO. NO. DESRIPTION M. LOATION I 0000 S.I TA6FN (EL) B.8/9 I 000860 S.I T7SF (TE8L) T 68.9/ I 000990 S.I MBA0PFV-G-BND-ER T 8./.7 I 000 S.I NJM90V-TE T 9.7/.6 I6 000 S.I NJM0V-TE T.9/.6 I7 000 S.I NJM90V-TE T 9./.6 I8 900000 S.I M66FP-60 T 0./. I9 000 S.I NJM870F0-TE B 8./. I 00770 S.I D066BPWR T.9/.6 I 008 S.I TA768F (ER) T 89./. I 0060 S.I HD6F687FP [US], [GE] T./. 000 S.I HD6687A9FP [Others] I 00660 S.I BDG-TR T 6.6/.9 I 000 S.I BRL6FV-WE B 6/.6 Q 6000080 S.FET SK89 (TE8R) T 7/9.6 Q 8000070 S.FET SK9 (TE8L) B 76.8/7.9 Q 80000760 S.FET SK99-T U7 B 66./7.9 Q 000600 S.TR S-O (TE8R) B./. Q 00007 S.TR S6-TB S (R) T 7./. Q6 90000 S.TR UNR9J-(TX) T 7./9. Q7 60000 S.FET RD07MVS T 8.6/7 Q8 60000 S.FET RD0MUS T 76./7. Q9 000 S.TR S7-O (TE8R) T 67/0. Q 000 S.TR S7-O (TE8R) T 9./6. Q 000 S.TR S7-O (TE8R) B 6./7 Q 000 S.TR S7-O (TE8R) T 9/. Q 00090 S.TR S6-T R T.9/0.7 Q 00090 S.TR S6-T R T./7. Q 900000 S.TR XP (TX) B 6./.6 Q6 900090 S.TR UNR9J-(TX) B 9./.6 Q7 00080 S.TR S6-BL (TE8R) T./. Q8 600000 S.FET SK880-Y (TE8R) B./0. Q9 00080 S.TR S6-BL (TE8R) T./9.9 Q 00090 S.TR SA77 T6 Q T 7.9/6. Q 00090 S.TR SA77 T6 Q T.9/.9 Q 000060 S.TR SB T0 R T 8/. Q 900090 S.TR XP60-(TX).AB T 76./. Q 90000 S.TR UNR9J-(TX) T 7.7/.7 Q6 900090 S.TR UNR9J-(TX) T 9.7/8. Q7 900090 S.TR UNR9J-(TX) T.8/6.7 Q8 90000 S.TR UNR9HJ-(TX) B 6./.6 Q9 900070 S.TR UNR9J-(TX) B.7/9. Q0 0080 S.TR SA08 TLR T 9.9/8.6 Q 900090 S.TR XP60-(TX).AB T 9./. Q 900000 S.TR XP6-(TX) T 6./. Q 90000 S.TR UNR9J-(TX) T 9.9/. Q 600060 S.FET SK09 TL T.7/ Q 600060 S.FET SK09 TL T 9./6.6 D 700080 S.DIO RB886G TR B 90./8.7 D 7000080 S.DIO SV07 (TPH) B 9./. D 700007 S.VP HV0BTRF B 87./. D 700007 S.VP HV0BTRF B 87./.8 D 7900060 S.DIO MAS077-(TX) B 87./6.7 D6 790000 S.DIO MAS78-(TX) B 8/9.9 D7 700007 S.VP HV0BTRF B 8.8/. D8 700007 S.VP HV0BTRF B 8.8/.8 D9 700007 S.VP HV0BTRF B 7.6/.9 D 700007 S.VP HV0BTRF B 7./.9 D 7900060 S.DIO MAS077-(TX) T 6.8/. D 7900060 S.DIO MAS077-(TX) T 6.8/6.7 D6 700007 S.VP HV0BTRF T.6/8.9 D7 700007 S.VP HV0BTRF T 9./8. D8 7000070 S.VP MA68 (TX) B 9.6/6.9 D 700007 S.VP HV0BTRF T 0./.7 D 700007 S.VP HV0BTRF T 0./. D 790000 S.DIO MAS-(TX) T./9. D 790000 S.DIO MAS-(TX) T 70./0. D6 79000790 S.DIO RB876W TL B.7/7. D7 700000 S.DIO DANTL B./6 D8 7900060 S.DIO MAS077-(TX) B 8./. D9 7000090 S.DIO ISS00 TE6 B./ D0 700080 S.DIO RB886G TR T 88./6. D 79000 S.ZEN MA80-L (TX) B 7./9.9 only FI 000000 S.MLH FL- (6.0 MHz) B 6.8/7.7 FI 000080 ER ALFYM0F=K FI 00000 S.L NFEPTZE9L B 8./7.8 [US]=USA-0, [GE]=GEN-0, [EU]=EUR-0, [US]=USA-0, [GE]=GEN-0 S.=Surface mount [MAIN UNIT] REF ORDER H/V NO. NO. DESRIPTION M. LOATION X 607000090 S.DR DBB0KAY-R0 T./0 X 600090 S.XTL R-78 (. MHz) T 6.9/8.9 X 600070 S.XTL R-76 (9.6608 MHz) B /.9 L 600008700 S.OL 0.0-0.9-6TR 7.N B 9.7/6. L 6000080 S.OL 0.0-0.9-TL N B 9.8/.9 L 60000970 S.OL 0.0-0.9-TL B 9.9/6. L 60000970 S.OL 0.0-0.9-TL B 89.9/0.6 L 600009070 S.OL LQW8AN8NG00D B 89./6. 600080 S.OL LQW8ANNG00D [Others] L7 600007690 S.OL LQWBHN8NJ0L B 8./. 600007700 S.OL LQWBHNNJ0L [Others] L8 600007690 S.OL LQWBHN8NJ0L B 78.9/. 600007700 S.OL LQWBHNNJ0L [Others] L9 600007670 S.OL LQWBHNNJ0L B 7.9/. 600007680 S.OL LQWBHNNJ0L [Others] L 6000070 S.OL LQWBHNNJ0L B 70.6/7.8 [US], [EU], [GE], [USS], [EUS], [GES] 600007680 S.OL LQWBHNNJ0L [Others] L 6000070 S.OL ELJRE NG-F B 6./8.8 [US], [EU], [GE], [USS], [EUS], [GES] 6000070 S.OL ELJRE 9NG-F [Others] L 600000 S.OL ELJN R7K-F B 66.8/.9 L 6000080 S.OL NL 08T-R8J T 9./. L7 6000080 S.OL 0.0-.-TR N B 8./0.9 L8 600006770 S.OL ELJRE NZ-F B 8./0.9 L9 60000660 S.OL ELJRE NG-F T 76/. 60000670 S.OL ELJRE NG-F [Others] L0 60000680 S.OL ELJRE NG-F T 68.8/. 60000690 S.OL ELJRE 8NG-F [Others] L 600007880 S.OL ELJRF NJF () T 9./8.6 L 600007900 S.OL ELJRF NJF () T 9./. L 6000080 S.OL NL 08T-R8J T./8. L 60000890 S.OL 0.0-0.9-TR 7.N T 9./9.9 L6 600008 S.OL 0.0-0.9-TR.N T 9/7.9 L7 6000090 S.OL NL 08T-R8J B.8/9 L8 6000090 S.OL NL 08T-R8J B /6.6 L9 60000660 S.OL MLF608A R8K-T T.9/6. L0 600007880 S.OL ELJRF NJF () B 8./8.7 L 6000079 S.OL ELJRF 8NJF (8) B.9/. L 6000080 S.OL MLF608D R8K-T T./.9 L 600000 S.OL MLF608D RK-T T.7/.8 L8 600007 S.OL ELJRE 7NG-F B 6.6/0.7 L0 6000080 S.OL NL 08T-R8J T.6/.6 L 600007880 S.OL ELJRF NJF () B 8./8. L 6000090 S.OL NL 08T-R8J B 9./ L 6000090 S.OL NL 08T-R8J B 9./. L 600008700 S.OL 0.0-0.9-6TR 7.N B 9.9/9.6 R 7000090 S.RES ERJGEYJ 7 V (.7 kω) B 9.8/9.9 R 700000 S.RES ERJGEJ X ( kω) B 9./7.7 R 70000970 S.RES ERJGEJ 70 X (7 Ω) T 66.7/.7 [US], [EU], [GE], [USS], [EUS], [GES] 7000070 S.RES ERJGEJ 80 X (8 Ω) [Others] R 7000000 S.RES ERJGEJ X ( kω) T 7.8/0.8 R 7000000 S.RES ERJGEJ X ( kω) T 7./. [US], [EU], [GE], [USS], [EUS], [GES] 700000 S.RES ERJGEJ X ( kω) [Others] R6 70000090 S.RES ERJGEJ X (0 kω) T 66.7/8. R7 70000 S.RES ERJGEJ X (0 kω) T 68/7.7 R8 700000 S.RES ERJGEJ X (0 kω) T 7./. 7000070 S.RES ERJGEJ 7 X (70 kω) [Others] R9 70000880 S.RES ERJGEJ 7 X (70 Ω) T 7./. R 700000 S.RES ERJGEJ X ( kω) T 68./ R 70000090 S.RES ERJGEJ X (0 kω) T 8./6.7 R 700000 S.RES ERJGEJ 0 X ( Ω) T 77./7. R 70000090 S.RES ERJGEJ X (0 kω) T 8./.7 R 7000000 S.RES ERJGEJ X ( kω) T 8.9/6.7 R 700000 S.RES ERJGEJ 7 X (7 kω) B 79./9 R6 70000980 S.RES ERJGEJ X (0 Ω) B 7.8/9.9 R7 70000970 S.RES ERJGEJ 70 X (7 Ω) B 7/. R8 7000000 S.RES ERJGEJ X ( kω) T 78.8/6.7 R9 70000080 S.RES ERJGEJ 8 X (8 kω) T 78.8/8.7 R0 700000 S.RES ERJGEJ X ( kω) B 7.9/.7 [US], [EU], [GE], [USS], [EUS], [GES] 700000 S.RES ERJGEJ 7 X (7 kω) [Others] M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side) 6 -
[MAIN UNIT] REF ORDER H/V NO. NO. DESRIPTION M. LOATION R 70000 S.RES ERJGEJ X (0 kω) T 7./8.9 R 7000000 S.RES ERJGEJ X ( kω) T 69./8.9 R 70000 S.RES ERJGEJ X (0 kω) T 7./8.9 R 7000000 S.RES ERJGEJ X ( kω) T 6.6/8 R 7000000 S.RES ERJGEJ 7 X (.7 kω) B 68/7.8 R9 70000770 S.RES ERJGEJ X (0 Ω) B 6./. R0 700000 S.RES ERJGEJ X ( kω) B 67.7/.7 R 70000980 S.RES ERJGEJ X (0 Ω) B 6./. R 70000980 S.RES ERJGEJ X (0 Ω) B 66./. R 70000770 S.RES ERJGEJ X (0 Ω) B./. R 70000 S.RES ERJGEJ X (0 kω) B./. R 70000980 S.RES ERJGEJ X (0 Ω) B 0./. R6 70000700 S.RES ERJGEJ X (. kω) T./. R7 7000090 S.RES ERJGEJ 7 X (.7 kω) T 0.7/6. R8 70000090 S.RES ERJGEJ X (0 kω) T 6./ R9 70000970 S.RES ERJGEJ 70 X (7 Ω) B.8/. R0 70000770 S.RES ERJGEJ X (0 Ω) B 6./. R 70000970 S.RES ERJGEJ 70 X (7 Ω) B 7./. R 70000090 S.RES ERJGEJ X (0 kω) B.8/. R 70000070 S.RES ERJGEJ 68 X (68 kω) B.8/.7 R6 70000000 S.RES ERJGEJ 7 X (70 Ω) B.8/.7 R8 70000000 S.RES ERJGEJ 7 X (70 Ω) B./. R0 70000980 S.RES ERJGEJ X (0 Ω) T 66./8 R 70000670 S.RES ERJGEYJ 8 V (8 kω) B 96./7. R 70000990 S.RES ERJGEJ X (0 Ω) T 9./.9 R 70000970 S.RES ERJGEJ 70 X (7 Ω) T 80/. R 700000 S.RES ERJGEJ 0 X ( Ω) T 80/. [US], [EU], [GE], [USS], [EUS], [GES] 700007 S.RES ERJGEJ X (0 Ω) [Others] R 70000060 S.RES ERJGEJ X ( kω) T 8./. R 7000000 S.RES ERJGEJ 7 X (.7 kω) T 80/0.9 R6 70000860 S.RES ERJGE JPW V T 78/. R7 70000970 S.RES ERJGEJ 70 X (7 Ω) T 7./. R8 70000060 S.RES ERJGEJ X ( kω) T 7./ only R9 7000000 S.RES ERJGEJ 7 X (.7 kω) T 7./ R6 70000970 S.RES ERJGEJ 70 X (7 Ω) T 7.8/6. R6 700000 S.RES ERJGEJ X ( kω) T 7./ R6 70000980 S.RES ERJGEJ X (0 Ω) T 69./. R66 7000070 S.RES ERJGEJ X ( kω) T 67.8/. R67 70000980 S.RES ERJGEJ X (0 Ω) T 67.8/. R68 7000000 S.RES ERJGEJ X ( kω) T 69./. R69 7000000 S.RES ERJGEJ 7 X (.7 kω) T 6./. R70 700000 S.RES ERJGEJ 0 X ( Ω) B 7.6/0. R7 70000070 S.RES ERJGEJ 68 X (68 kω) T 8./8.6 R7 70000980 S.RES ERJGEJ X (0 Ω) B 7.7/0. R7 70000 S.RES ERJGEJ X (0 kω) B 8./6. R76 70000980 S.RES ERJGEJ X (0 Ω) B 7.6/9. R77 7000000 S.RES ERJGEJ X ( kω) B 6.7/0. R78 70000090 S.RES ERJGEJ X (0 kω) T 7.8/. R79 70000600 S.RES RR0P-68-D (6.8 kω) T 6./9. R80 700000 S.RES ERJGEJ X ( kω) B.6/.8 70000870 S.RES ERJGEJ 6 X (60 Ω) [Others] R8 7000090 S.RES ERJGEJ R7 X (.7 Ω) T.6/ R8 70000600 S.RES RR0P-68-D (6.8 kω) T./.6 R8 70000600 S.RES RR0P-68-D (6.8 kω) T./8.6 R8 70000600 S.RES RR0P-68-D (6.8 kω) T.7/9. R86 700000 S.RES ERJGEJ 0 X ( Ω) B 8./8.8 R87 70000 S.RES ERJGEJ X (0 kω) B 8./. R88 700000 S.RES ERJGEJ 68 X (680 Ω) B.6/ 70000870 S.RES ERJGEJ 6 X (60 Ω) [Others] R89 7000000 S.RES ERJGEJ X ( kω) B 9./. R90 7000070 S.RES ERJGEJ 7 X (70 kω) B 6.9/. R9 70000 S.RES ERJGEJ X (0 kω) B 6.9/6. R9 700000 S.RES ERJGEJ X ( kω) T 9.8/9. R9 700000 S.RES ERJGEJ X (0 kω) T.8/0.8 R9 700000 S.RES ERJGEJ X ( kω) B 9.9/6. R96 700008 S.RES ERJGEJ 9 X (.9 kω) B 9./ [US], [EU], [GE], [USS], [EUS], [GES] 7000090 S.RES ERJGEJ 7 X (.7 kω) [Others] R97 700000 S.RES ERJGEJ X ( kω) B 9./8. R98 70000790 S.RES ERJGEJ X (. kω) T./. R0 7000000 S.RES ERJGEJ 7 X (.7 kω) B.9/8.8 R 70000000 S.RES ERJGEJ 7 X (70 Ω) B./. R 700000 S.RES ERJGEJ 7 X (7 kω) T./7.8 R 700000 S.RES ERJGEJ X (0 kω) T./6.9 R 7000070 S.RES ERJGEJ 7 X (70 kω) T.6/9. R6 7000000 S.RES ERJGEJ X ( kω) T 7./ R7 7000080 S.RES ERJGEJ 60 X (6 Ω) B.9/. R8 70000600 S.RES ERJGEJ 7 X (7 kω) T.9/ [US], [EU], [GE], [USS], [EUS], [GES] 70000890 S.RES ERJGEJ 8 X (8 kω) [Others] R9 70000090 S.RES ERJGEJ X (0 kω) T.9/ R 700000 S.RES ERJGEJ 7 X (7 kω) B.8/. R 70000090 S.RES ERJGEJ X (0 kω) T 7./8.7 R 7000066 S.RES ERJGEJ 9 X (90 kω) B 6.9/. R 700000 S.RES ERJGEJ X (0 kω) B 6.9/9. R 70000770 S.RES ERJGEJ X (. kω) T 0./ R6 700007060 S.RES ERJGEJ 68X (680 kω) T./.7 R7 7000000 S.RES ERJGEJ 7 X (.7 kω) T./ R8 7000000 S.RES ERJGEJ 7 X (.7 kω) T 7./ [USS]=FS USA-0, [GES]=FS GEN-0, [EUS]=FS EUR-0 [USS]=FS USA-0, [GES]=FS GEN-0 S.=Surface mount [MAIN UNIT] REF ORDER H/V NO. NO. DESRIPTION M. LOATION R 70000800 S.RES ERJGEJ 8 X (.8 kω) T 7./7.7 R 7000070 S.RES ERJGEJ 7 X (70 kω) T 7.7/0. R 70000 S.RES ERJGEJ X (0 kω) T 7./8.9 R 70070 S.TMR ERTJOEP 7J T 0.9/8. R 7000080 S.RES ERJRHD X (0 kω) T 0.9/7. R 7000000 S.RES ERJGEJ X ( kω) T 8./. R 7000000 S.RES ERJGEJ 7 X (.7 kω) T 7/. R 7000000 S.RES ERJGEJ X ( kω) T./ R6 7000000 S.RES ERJGEJ 7 X (.7 kω) T.8/ R7 7000000 S.RES ERJGEJ X ( kω) T 69.8/.7 R8 7000000 S.RES ERJGEJ 7 X (.7 kω) T 69.8/6.7 R 70000000 S.RES ERJGEJ 7 X (70 Ω) T 7/9.9 R 70000000 S.RES ERJGEJ 7 X (70 Ω) T /9.9 R 7000070 S.RES ERJGEJ X ( kω) T 7./. R 7000000 S.RES ERJGEJ X ( kω) B 6./.7 R 70000090 S.RES ERJGEJ X (0 kω) T./8. R6 70000090 S.RES ERJGEJ X (0 kω) T.6/8. R7 7000070 S.RES ERJGEJ 9 X (9 kω) T./6. R8 70000080 S.RES ERJGEJ 8 X (8 kω) T.6/6. R9 7000066 S.RES ERJGEJ 9 X (90 kω) T./.9 R0 70000800 S.RES ERJGEJ 8 X (80 kω) T./.9 R 7000000 S.RES ERJGEJ X (. kω) T./.9 R 700000 S.RES ERJGEJ X ( kω) T./9.6 R 700000 S.RES ERJGEJ X ( kω) T 9.9/9. R 700000 S.RES ERJGEJ X ( kω) T 8./ R 70000090 S.RES ERJGEJ X (0 kω) T 9.8/. R6 7000070 S.RES ERJGEJ 7 X (70 kω) T 9.8/ R7 70000790 S.RES ERJGEJ X (. kω) T./9. R9 7000080 S.RES ERJGEJ X ( kω) T.7/8.8 R60 70000980 S.RES ERJGEJ X (0 Ω) B./ R6 7000000 S.RES ERJGEJ 7 X (.7 kω) T.9/7. R6 7000000 S.RES ERJGEJ X ( kω) T 8.7/9. R6 7000000 S.RES ERJGEJ X ( kω) T./9.8 R6 700008 S.RES ERJGEJ 9 X (.9 kω) T.7/7.8 R6 700008 S.RES ERJGEJ 9 X (.9 kω) T.6/.9 R66 700000 S.RES ERJGEJ 7 X (7 kω) T.6/6. R67 70000990 S.RES ERJGEJ 6 X (.6 kω) T.7/9.8 R68 70000000 S.RES ERJGEJ 7 X (70 Ω) T 6./ R69 700000 S.RES ERJGEJ X (0 kω) T 8/. R70 7000080 S.RES ERJGEJ X ( kω) T.9/9. R7 700000 S.RES ERJGEJ X (0 kω) T.6/6. R7 70000700 S.RES ERJGEJ 7 X (70 kω) T 8/9. R7 70000 S.RES ERJGEJ X (0 kω) T 9./6.8 R7 70000090 S.RES ERJGEJ X (0 kω) T 9./8.8 R7 70000 S.RES ERJGEJ X (0 kω) T 9./7.8 R76 700000 S.RES ERJGEJ X (0 kω) T 7.7/7.8 R77 70000060 S.RES ERJGEJ X ( kω) T 7.7/8.8 R78 700007 S.RES ERJGEJ X (0 Ω) T 9./0.7 R79 700000 S.RES ERJGEJ X ( kω) B./6.8 R80 7000060 S.RES ERJGEJ X ( MΩ) T.7/ R8 700000 S.RES ERJGEJ 7 X (7 kω) T./ R8 70000090 S.RES ERJGEJ X (0 kω) T.7/9. R8 70000600 S.RES RR0P-68-D (6.8 kω) B 7./9. R8 7000080 S.RES RR0P-6-D (.6 kω) B 7.7/0. R8 70000 S.RES ERJGEJ X (0 kω) B 8.7/0. R86 70000080 S.RES ERJGEJ 8 X (8 kω) T 9./9.8 R87 700000 S.RES ERJGEJ X ( kω) B 9/8. R90 70000780 S.RES ERJGEJ X (0 Ω) T.7/8.9 R9 70000800 S.RES ERJGEJ 8 X (80 kω) T 8/. R9 7000070 S.RES ERJGEJ 6 X (6 kω) T 8/. R9 700000 S.RES ERJGEJ X ( kω) T 8/6. R9 700000 S.RES ERJGEJ X ( kω) T.9/.9 R9 7000000 S.RES ERJGEJ X ( kω) T 9.7/. R96 700000 S.RES ERJGEJ 7 X (7 kω) T.9/.9 R97 700000 S.RES ERJGEJ 7 X (7 kω) T.9/.9 R98 700000 S.RES ERJGEJ 7 X (7 kω) T.7/.9 R00 7000000 S.RES ERJGEJ 7 X (.7 kω) T.7/.9 R0 700000 S.RES ERJGEJ 7 X (7 kω) T.9/.9 R06 70000 S.RES ERJGEJ X (0 kω) T./. R07 70000090 S.RES ERJGEJ X (0 kω) T./. R08 700000 S.RES ERJGEJ 7 X (7 kω) T.6/. R09 700000 S.RES ERJGEJ X ( kω) T.6/6. R 7000080 S.RES ERJGEJ X ( kω) T.6/. R 70000070 S.RES ERJGEJ 68 X (68 kω) T 7./. R 70000070 S.RES ERJGEJ 68 X (68 kω) T 7./. R 70000070 S.RES ERJGEJ 68 X (68 kω) T 7./6. R 70000070 S.RES ERJGEJ 68 X (68 kω) T 9./7. R 70000070 S.RES ERJGEJ 68 X (68 kω) T /6. R0 70000980 S.RES ERJGEJ X (0 Ω) B.9/. R 70000000 S.RES ERJGEJ 7 X (70 Ω) B 66./.7 R 70000080 S.RES ERJGEJ 8 X (8 kω) B 6.9/8. R 70000060 S.RES ERJGEJ X ( kω) B 6/. R 70000000 S.RES ERJGEJ 7 X (70 Ω) B 7./. R 70000980 S.RES ERJGEJ X (0 Ω) B.9/7. R6 70006 VAR TP76N00N-F-A-A R7 7000000 S.RES ERJGEJ X ( kω) T 9.9/.9 R8 700000 S.RES ERJGEJ X ( kω) T 9./. R9 700000 S.RES ERJGEJ 0 X ( Ω) T 86/9.7 R0 700000 S.RES ERJGEJ 0 X ( Ω) T 87./7. R 700000 S.RES ERJGEJ X ( kω) T 90.6/.8 R 70000700 S.RES ERJGEJ X (. kω) T 9./. R 70000700 S.RES ERJGEJ X (. kω) T 9.7/.8 R 700000 S.RES ERJGEJ X (0 kω) B./6. M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side) 6 -
[MAIN UNIT] REF ORDER H/V NO. NO. DESRIPTION M. LOATION R 70000090 S.RES ERJGEJ X (0 kω) B 0./. R6 700000 S.RES ERJGEJ X (0 kω) B./. R7 7000000 S.RES ERJGEJ X ( kω) T./9. R8 7000 S.ARY EXB8VJX B 0.9/9. R0 7000090 S.RES ERJGEJ 680 X (68 Ω) T 99.7/. R 700000 S.RES ERJGE-JPW T 9./6. [USS], [USS], [EUS], [GES], [GES] only R 700000 S.RES ERJGE-JPW T./6. [USS], [USS], [EUS], [GES], [GES] only R 7000080 S.RES ERJGEJ X ( kω) B.9/9. R 700000 S.RES ERJGEJ 0 X ( Ω) B.7/9. R 7000080 S.RES ERJGEJ X ( kω) B 9./ R 7000080 S.RES ERJGEJ X ( kω) B 7.6/ R6 7000000 S.RES ERJGEJ X ( kω) T 6/8.6 R7 700000 S.RES ERJGEJ X ( kω) T 9/. R8 7000 S.ARY EXB8VJX T 6.6/0.6 R9 700000 S.RES ERJGEJ X ( kω) T.6/. R60 70000090 S.RES ERJGEJ X (0 kω) T./ R6 7000 S.ARY EXB8VJX T 9./9.9 R6 70000090 S.RES ERJGEJ X (0 kω) T./.9 R6 7000000 S.RES ERJGEJ X ( kω) T./.9 R6 700000 S.RES ERJGEJ 7 X (7 kω) T./.9 R6 7000 S.ARY EXB8VJX T 9.7/9. R66 7000070 S.RES ERJGEJ X ( kω) T.7/8.8 R7 7000060 S.RES ERJGEJ X ( MΩ) B /9. R7 7000060 S.RES ERJGEJ X ( MΩ) B /9. R7 7000060 S.RES ERJGEJ X ( MΩ) B /9. R7 70000070 S.RES ERJGEJ 68 X (68 kω) B /9. R7 70000090 S.RES ERJGEJ X (0 kω) B /9. R76 70000090 S.RES ERJGEJ X (0 kω) B 8/9. R77 70000090 S.RES ERJGEJ X (0 kω) B 9/9. R78 70000090 S.RES ERJGEJ X (0 kω) B /9. R80 7000000 S.RES ERJGEJ X ( kω) B 6./6. R8 70000980 S.RES ERJGEJ X (0 Ω) B 6./7 R87 70000780 S.RES ERJGEJ X (0 Ω) T 8./ R88 7000000 S.RES ERJGEJ X (. kω) T.7/.7 R9 70000090 S.RES ERJGEJ X (0 kω) B.9/. R9 70000090 S.RES ERJGEJ X (0 kω) B 7.6/. R9 70000890 S.RES ERJGEJ 8 X (8 kω) T 6./. R9 70000600 S.RES ERJGEJ 7 X (7 kω) T 60./. R9 700000 S.RES ERJGEJ 7 X (7 kω) B 9./. R96 7000090 S.RES ERJGEYJ 7 V (.7 kω) B 9.8/. R97 700000 S.RES ERJGEJ X ( kω) T 9./6. R0 700000 S.RES ERJGE-JPW B 9./. R0 70000990 S.RES ERJGEJ X (0 Ω) T 9./.9 R0 7000000 S.RES ERJGEJ 7 X (.7 kω) T.6/0.7 000790 S.ER EJ0EH070 B 9./. 0007600 S.ER EJ0EH080 [Others] 00070 S.ER EJ0EH00B B 9./6 [US], [EU], [GE], [USS], [EUS], [GES] 00070 S.ER EJ0EHRB [Others] 000790 S.ER EJ0EH070 B 96./.9 0007600 S.ER EJ0EH080 [Others] 000760 S.ER EJ0EHRB B 9.9/.9 000760 S.ER EJ0EH00B B 9.6/0. 000770 S.ER EJ0EH00B [Others] 6 000760 S.ER EJ0EBEK B 9.8/. 7 000760 S.ER EJ0EBEK B 9.9/9.6 8 000770 S.ER EJ0EHRB B 9./8. [US], [EU], [GE], [USS], [EUS], [GES] 000780 S.ER EJ0EH060 [Others] 00006980 S.ER 608 H H 070D-T B 9./.9 [US], [EU], [GE], [USS], [EUS], [GES] 000090 S.ER 608 H H 00B-T [Others] 00007000 S.ER 608 H H 090D-T B 88./0.8 0000700 S.ER 608 H H 0J-T [Others] 000770 S.ER EJ0EH00B B 86.8/8.7 6 0000860 S.ER 608 H H 00J-T B 86./. 7 0007 S.ER EJ0EH680J B 8./8.7 8 00006860 S.ER 608 JB H K-T T 8.6/. 9 000760 S.ER EJ0EBEK B 86/7.7 0 000790 S.ER EJ0EH070 B 8./7.7 000700 S.ER EJ0EH0J B 8.8/. 0007 S.ER EJ0EH0J [Others] 0007600 S.ER EJ0EH080 B 8./6.7 00070 S.ER EJ0EH00B B 8/7.7 000760 S.ER EJ0EHRB [Others] 000700 S.ER EJ0EH0J B 79.7/. 0007 S.ER EJ0EH0J [Others] 0007600 S.ER EJ0EH080 B 80./6. 7 000760 S.ER EJ0EBEK T 8.9/.7 8 000760 S.ER EJ0EBEK T 8.9/7.7 0 000790 S.ER EJ0EH070 B 79.6/7.8 000760 S.ER EJ0EBEK T 80./7. [US]=USA-0, [GE]=GEN-0, [EU]=EUR-0, [US]=USA-0, [GE]=GEN-0 S.=Surface mount [MAIN UNIT] REF ORDER H/V NO. NO. DESRIPTION M. LOATION 000760 S.ER EJ0EBEK B 7.8/9.9 000760 S.ER EJ0EBEK T 77./8.7 00070 S.ER EJ0EH70J T 77./9.7 000690 S.ER EJ0EBAK T 78.8/7.7 6 000760 S.ER EJ0EBEK B 7.8/. 7 000760 S.ER EJ0EBEK B 7./. 8 00070 S.ER EJ0EH00B B 7.8/7.7 [US], [EU], [GE], [USS], [EUS], [GES] 00070 S.ER EJ0EHRB [Others] 9 000760 S.ER EJ0EH0 B 7./8.8 0 00070 S.ER EJ0EH0RB B 7./9.8 000780 S.ER EJ0EH00B B 68./9. 000760 S.ER EJ0EBEK T 68./7.7 000760 S.ER EJ0EBEK T 70./8.9 00070 S.ER EJ0EH0B B 69/7.8 [US], [EU], [GE], [USS], [EUS], [GES] 00070 S.ER EJ0EHRB [Others] 000760 S.ER EJ0EH0 B 7./8.8 000760 S.ER EJ0EH0J [Others] 6 000760 S.ER EJ0EBEK T 68./8.9 8 000700 S.ER EJ0EH0J B 6./7. 9 00070 S.ER EJ0EH00B B 6./0 000780 S.ER EJ0EH00B [Others] 0 000760 S.ER EJ0EBEK B 6./6. 000760 S.ER EJ0EBEK B 66./. 00070 S.ER EJ0EH70J B 66./.7 0006790 S.ER EJ0EBK B 6./. 000760 S.ER EJ0EBEK B 6./. 6 000700 S.ER EJ0EH0J B 6./. 7 000760 S.ER EJ0EBEK T 6./6.8 8 000760 S.ER EJ0EBEK B.9/. 9 000760 S.ER EJ0EBEK B 9./. 60 000760 S.ER EJ0EBEK B./6.9 6 00070 S.ER EJ0EHJ B 9./.7 6 0007680 S.ER EJ0EH80J B 7./7.6 6 00070 S.ER EJ0EH70J B 6./0.7 6 0006790 S.ER EJ0EBK T 9.7/6. 6 000760 S.ER EJ0EBEK B 6./8.9 66 000760 S.ER EJ0EBEK B 7./.7 67 000760 S.ER EJ0EBEK B.9/. 68 00070 S.ER EJ0EHJ B.8/.7 69 000770 S.ER EJ0EBE7K B.8/. 70 000770 S.ER EJ0EBE7K B.8/.7 7 000690 S.ER EJ0EBAK B 6./7. 7 00070 S.ER EJ0EH70J T 69.8/8.7 7 000760 S.ER EJ0EBEK T 69./ 7 000760 S.ER EJ0EBEK T 9./7 7 000980 S.TAN TEESVA A 7M8L B./9.9 76 0006790 S.ER EJ0EBK T 66.7/. 77 000760 S.ER EJ0EBEK T 6.7/.7 78 000760 S.ER EJ0EBEK T 7.8/0.8 79 0008890 S.ER EJ0EB0JK T 7./. 80 0007780 S.ER EJ0EBE7K T 68/8.7 8 0006790 S.ER EJ0EBK B 77./. 8 000760 S.ER EJ0EBEK B 78./. 8 000760 S.ER EJ0EH0 T 8./. 000700 S.ER EJ0EH0J [Others] 8 00070 S.ER EJ0EH70J T 8./0. 86 00070 S.ER EJ0EH70J T 78.7/. [US], [EU], [GE], [USS], [EUS], [GES], 000760 S.ER EJ0EH70J [Others] 88 000760 S.ER EJ0EBEK T 7./ 89 000770 S.ER EJ0EH00B T 7./. [US], [EU], [GE], [USS], [EUS], [GES] 9 0060 S.ELE EEVEAR7SR B 69.7/0. 9 000760 S.ER EJ0EH0J T 7.6/0.9 9 000780 S.ER EJ0EH00B T 70.9/. [US], [EU], [GE], [USS], [EUS], [GES] 0007600 S.ER EJ0EH080 [Others] 9 000770 S.ER EJ0EBE7K T 70./ 96 000760 S.ER EJ0EBEK T 7.8/6 only 97 00070 S.ER EJ0EH70J T 7.8/6 98 000780 S.ER EJ0EH00B T 66./.9 [US], [EU], [GE], [USS], [EUS], [GES] 000760 S.ER EJ0EH0 [Others] 99 000760 S.ER EJ0EBEK T 68./6. 0 000760 S.ER EJ0EH0 B 6./6. 000780 S.ER EJ0EH00B T 9./. 00070 S.ER EJ0EH00B B 8./. 000760 S.ER EJ0EBEK T 8.9/9. 000760 S.ER EJ0EBEK B 8.6/7. 6 00070 S.ER EJ0EH70J B 70./.9 7 000760 S.ER EJ0EBEK T 70.6/6. 8 0006790 S.ER EJ0EBK T 69.7/6. 9 000760 S.ER EJ0EBEK B 7.6/. 000770 S.ER EJ0EBE7K B.7/0. 00070 S.ER EJ0EH70J B 6./. 000760 S.ER EJ0EBEK T 60./8.6 00070 S.ER EJ0EH0RB T 6./.6 M.=Mounted side (T: Mounted on the Top side, B: Mounted on the Bottom side) 6 -