DUAL BAND FM TRANSCEIVER. ic-2800h
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1 DUAL AND FM TRANSCEIVER ic-00h

2 INTRODUCTION This service manual describes the latest service information for the IC-00H FM TRANSCEIVER at the time of publication. MODEL VERSION SYMOL IC-00H Europe Italy U.S.A. S. E. Asia C. S. America EUR ITA USA SEA CSA To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation. DANER NEVER connect the transceiver to an AC outlet or to a DC power supply that uses more than V. Such a connection could cause a fire hazard and/or electric shock. 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. IN PARTS e sure to include the following four points when ordering replacement parts:. 0-digit order numbers. Component part number and name. Equipment model name and unit name. Quantity required <SAMPLE > 0000 S.IC TAS0F IC-00H MAIN UNIT piece 0000 Screw M ZK IC-00H CHASSIS pieces Addresses are provided on the inside back cover for your convenience. REPAIR NOTES. 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.. DO NOT short any circuits or electronic parts. An insulated tuning tool MUST be used for all adjustments.. DO NOT keep power ON for a long time when the transceiver is defective.. DO NOT transmit power into a signal generator or a sweep generator.. ALWAYS connect a 0 d or 0 d attenuator between the transceiver and a deviation meter or spectrum analyser when using such test equipment.. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver.

3 TALE OF CONTENTS SECTION SPECIFICATIONS SECTION INSIDE VIEWS SECTION DISASSEMLY INSTRUCTIONS SECTION CIRCUIT - RECEIVER CIRCUITS... - TRANSMITTER CIRCUITS... - PLL CIRCUIT... - POWER SUPPLY CIRCUITS... - CPU PORT ALLOCATIONS... SECTION ADJUSTMENT PROCEDURES - PREPARATION... - PLL AND TRANSMITTER ADJUSTMENTS... - RECEIVER ADJUSTMENT... SECTION PARTS LIST SECTION MECHANICAL PARTS AND DISASSEMLY SECTION SEMI-CONDUCTOR INFORMATION SECTION OARD LAYOUTS - CONTROL UNIT... - MAIN UNIT... SECTION 0 LOCK DIARAM SECTION VOLTAE DIARAM - CONTROL UNIT... - MAIN UNIT...

4 SECTION SPECIFICATIONS M ENERAL Frequency range : Version EUR MHz band 0 MHz band * uaranteed MHz only * uaranteed MHz only; * uaranteed MHz only Mode : FM, AM (.0.; Rx only) Nomber of memory channel : (incl. pairs of scan edges, 0 log, 0 repeater and call channels) Usable temperature range : 0 C to 0 C; F to 0 F Frequency resolution :, 0,.,, 0,, 0 and 0 khz Frequency stability : ±0 ppm ( 0 C to 0 C; F to 0 F) Power supply requirement :. V DC ± % (negative ground) Current drain (at. V DC) : Receive Standby (squelched). A Max. audio. A Transmit at VHF 0 W/UHF W.0 A/.0 A at W/ W (TPE version).0 A Antenna connector : SO- (0 Ω) DATA connector : Mini DIN pin External VIDEO input : PHONO [RCA ( Ω)] Dimensions : Controller 0(W) 0(H) (D) mm; (W) (H) (D) inch (projections not included) Main unit 0(W) 0(H).(D) mm; (W) (H) (D) inch Weight : Controller 0 g; 0. oz Main unit. kg; lb oz M TRANSMITTER Output power : High VHF 0 W/UHF W Mid-H approx. 0 W Mid-L approx. 0 W Low approx. W Modulation system : Variable reactance frequency Maximum frequency deviation : ±.0/±.* khz *[EUR] and [ITA] versions only Spurious emissions : Less than 0 d Microphone connector : -pin modular (00 Ω) M RECEIVER Rx: * Rx: * Tx: * Tx: * Rx: * Tx: * * Rx: * Tx: * Rx: * Rx: * Tx: * Tx: * Receive system : Double-conversion superheterodyne Intermediate frequency : VHF st IF. MHz nd IF 0 khz UHF st IF.0 MHz nd IF 0 khz Sensitivity (at d SINAD) : Less than 0. µv Squelch sensitivity (threshold) : Less than 0. µv Selectivity (wide/narrow) : More than /* khz at d Less than /* khz at 0 d *[EUR] and [ITA] versions only Spurious and image rejection : More than 0 d Intermodulation rejection ratio : More than 0 d Audio output power (at. V) : More than. W at 0% distortion with an Ω load External SP connector : -conductor.(d) mm ( ")/ Ω External SP connector : -conductor.(d) mm ( ")/ Ω All stated specifications are subject to change without notice or obligation. ITA USA SEA CSA -

5 SECTION INSIDE VIEWS CONTROL UNIT * : Located underside of this point Q Q SU CPU (IC0: HD0SK) CFL drive (Q, Q, Q*, Q0*) Q Q0 CPU reset IC* (IC: S-0ANMP-DD) LCD controller (IC: SEDF0A) R-data buffer amplifier* (Q: SA) T-data buffer amplifier* (Q: SC0) MAIN UNIT VHF antenna switching (D*, D, D) VHF APC DET* (D, D: R0F) VHF RF amplifier (Q: SK) VHF power module* (IC: M) High/Low control IC (IC: TAS0F) VHF st mixer (Q: SK) AF amplifier (IC: LA) V-VCO circuit VHF FM IF IC* (IC: TAFN) UHF antenna switch (D*, D, D, D) UHF APC DET* (D, D: R0F) UHF power module* (IC: SC-) UHF st mixer (Q, Q, D) PLL IC* IC M0AP PLL reference oscillator (X: CR-. MHz) U-VCO circuit UHF FM IF IC* (IC: TAFN) Main CPU (IC: HDN) EEPROM* (IC: X0SI) MIC amplifier* (Q: SC0) * : Located underside of this point -

6 SECTION DISASSEMLY INSTRUCTIONS Removing the MAIN unit q Unscrew screw, A, and remove the cover. w Unplug J to separate the fan motor from the MAIN unit. e Remove main shield,, and TR-A clip, C in the direction of the arrow. Removing the CONTROL unit q Unscrew screws, A, and remove the cover. w Unplug J to separate the speaker and front panel. e Remove rear panel in the deirection of the arrow. A Cover A Rear panel A C J Front panel J r Unsolder points, D, and unscrew nut, E. t Remove the MAIN unit in the direction of the arrow. E E r Remove knobs,. t Unscrew screws, C, and remove the CONTROL unit in the direction of the arrow. y Unscrew screws, D, when remove the LCD. C D D C E D CONTROL UNIT MAIN UNIT E LCD Chassis -

7 SECTION CIRCUIT - RECEIVER CIRCUITS -- DUPLEXER CIRCUIT The transceiver has a duplexer (low-pass and high-pass filters) on the first stage from the antenna connector to separate the signals into VHF and UHF signals. The low-pass filter (L, L, L, C0 C) is for VHF signals and the highpass filter (L, L, L, C, C0, C) is for UHF signals. The separated signals are applied to each RF circuit. -- VHF ANTENNA SWITCHIN CIRCUIT The antenna switching circuit functions as a low-pass filter while receiving. However, its impedance becomes very high while transmitting by turning ON diode (D). Thus transmit signals are blocked from entering the receiver circuits. The antenna switching circuit employs a /λ type diode switching system. The passed signals are then applied to the VHF RF amplifier circuit. The tunable bandpass filters (D D, D) employ varactor diodes to tune the center frequency of the RF passband for wide bandwidth receiving and good image response rejection. The PLL lock voltage is used for control voltage of these varactor diodes. The PLL lock voltage is amplified at the DC-amplifier (Q) and then applied to the CPU (IC, pin ). The CPU outputs the control signal to the varactor diodes via the D/A converter (IC). -- VHF ST MIXER CIRCUIT The st mixer circuit converts the received signal to a fixed frequency of the st IF signal with a st LO (V-VCO output) frequency. The signals from the VHF RF circuit are mixed with the st LO signal at the st mixer circuit (Q) to produce a. MHz st IF signal. -- VHF SQUELCH ATTENUATOR CIRCUIT The attenuator circuit attenuates the signal strength to a maximum of 0 d to protect the RF amplifier from distortion when excessively strong signals are received. The current flow of the antenna switching circuit (D) is controlled by the [SQL] control via Q. When the [SQL] control is rotated clockwise deeper than o clock, the current of D is increased. In this case, D acts as an attenuator. -- VHF RF CIRCUIT 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 tunable bandpass filter (D, L, L, C C). The filtered signals are amplified at the VHF RF amplifier (Q) and are then enter another -stage tunable bandpass filter (D D, L0 L, C, C C0) to suppress unwanted signals. and improve the selectivity. The filtered signals are applied to the VHF st mixer circuit (Q). -- VHF ST IF CIRCUIT y changing the PLL frequency, only the desired frequency will pass through a pair of crystal filters at the next stage of the mixer. The st IF signal from the VHF st mixer circuit is applied to a pair of crystal filters (FI) to suppress out-of-band signals via a matching circuit (R, C). The filtered signal is amplified at the IF amplifier (Q0) and is then applied to the VHF nd mixer circuit (IC). -- VHF ND IF AND DEMODULATOR CIRCUITS The nd mixer circuit converts the st IF signal to a nd IF signal. A double superheterodyne system (which converts receive signals twice) improves the image rejection ratio and obtains stable receiver gain. The FM IF IC (IC) contains the nd local oscillator, nd mixer, limiter amplifier, quadrature detector, and noise detector circuits, etc. VHF nd IF AND DEMODULATOR CIRCUITS Squelch level adjustment R AF signal nd IF filter 0 khz FI (FI) Active filter FM detector Limiter amp. 0 X Noise detector RSSI VRV Mixer (. MHz) PLL IC IC X. MHz IC TAF st IF (. MHz) from Q0 "VSQL" signal to the CPU pin -

8 The st IF signal from the nd IF amplifier is applied to the nd mixer section of IC (pin ), and is mixed with a. MHz nd LO signal generated by the reference oscillator circuit (X, IC) to produce a 0 khz VHF nd IF signal. The nd IF signal from the nd mixer passes through the nd IF filter (FI) (during wide channel spacing selection, or passes through FI during narrow channel spacing selection; [EUR], [ITA] versions only), where unwanted signals are suppressed. It is then amplified at the limiter amplifier section (IC, pin ) and applied to the FM detector section (X, IC, pins 0, ) for demodulation the nd IF signal into AF signals. The FM detector circuit employs a quadrature detection method (liner phase detection), which uses a ceramic discriminator (X) for phase delay to obtain a non-adjusting circuit. The detected signal from IC (pin ) is applied to the AF circuit. -- VHF AF AMPLIFIER CIRCUIT The AF amplifier circuit amplifies the detected signals to drive a speaker. The AF circuit includes an AF mute circuit for the squelch. AF signals from FM IF IC (IC, pin ) pass through the AF selector (IC, pins, ), and are then applied to the lowpass (Q, R0 R, C0 C0) and high-pass (Q, R R, C C) filters. The filtered signals are level adjusted at the volume control IC (IC0), and are amplified at the AF power amplifier (IC, pin ) passing through the V-AF mute switch (Q0). The output signal from IC (pin ) drives the external or internal speaker. -- VHF SQUELCH CIRCUIT NOISE SQUELCH A noise squelch circuit cuts out AF signals when no RF signals are received. y detecting noise components in the AF signals, the squelch circuit switches the AF mute switch. Some of the noise components in the AF signals from the FM IF IC (IC, pin ) are passed through the active filter section (IC, pin, ), and then applied to the noise detector section (IC). The variable resister (R) adjusts the input level of the active filter, and the level is used for squelch threshold reference. The detected noise signals are applied to the CPU (IC pin ) via the VSQL line. The [SQL] (CONTROL unit; R) controls the input level of the sub-cpu (CONTROL unit; IC0, pin ) in DC voltage. The sub-cpu reads the angle of the [SQL] rotation, then send the squelch data to the CPU incorporated in the RDATA line. Then the CPU controls V-AF mute switch (Q0) via the VAMUTE line. Even when the squelch is closed, the V-AF mute switch (Q0) opens at the moment of emitting beep tone. TONE SQUELCH The tone squelch circuit detects AF signals and opens the squelch only when receiving a signal containing a matching subaudible tone (CTCSS). 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 AF signals from the FM IF IC (IC, pin ) passes through the active filter (IC0) to remove AF (voice) signals via the AF selector (IC, pins, ), and is then applied to the CTCSS decoder inside the CPU (IC, pin ) via the TONEIN line to control the AF mute switch. AF amplifier circuit VAMUTE Q0 VMUTE IC IC0 IC IC VHF FM Detector VDET Q, Q PF VAF J AF selector VDMUTE Volume controller IC, Q Common MUTE AF power Amplifier SP IC UHF FM Detector UDET Q, Q PF UAF J Q UDMUTE UAMUTE UMUTE -

9 --0 UHF RF CIRCUIT The UHF RF signals are passed through part of a duplexer (high-pass filter; L, L, L, C, C0, C). The signals are then passed through the low-pass filter (L, L, C, C), antenna switching circuit (D, D, D), and then amplified at the RF amplifier (Q). A bandpass filter (FI) is used at the next stage of the RF amplifier. The RF switch (D, D) turns on the UHF RF circuit when UHF signals are received. -- UHF ST MIXER AND ST IF CIRCUITS The filtered signals from the bandpass filter (FI) are applied to the st mixer circuit (Q). The applied signals are mixed with a st LO signal which comes from the U-VCO circuit (Q0, Q) to produce a.0 MHz st IF signal. The st IF signal passes through the st IF filter (FI) to suppress out-of-band signals via a matching circuit (R, C). The filtered signal is amplified at the st IF amplifier (Q) and is then applied to the nd mixer circuit (IC). -- UHF ND IF AND DEMODULATOR CIRCUITS The st IF signal from the IF amplifier is applied to the nd mixer section of the FM IF IC (IC, pin ). The signal is mixed for producing a 0 khz nd IF signal with a. MHz nd LO signal whitch generated by the tripler circuit (L, L, C0 C) using the PLL reference frequency. The nd IF signal from IC (pin ) is passed through the nd IF filter (FI), and is then applied to the limiter amplifier section in IC (pin ). The signal is applied to the FM detector section in IC to demodulate into AF signals. -- UHF AF AMPLIFIER CIRCUIT AF signals from IC (pin ) pass through the AF selector (IC, pins, ), low-pass filter (Q, R R, C C) and high-pass filter (Q, R R0, C C). The filtered signals pass through the volume control IC (IC0). And the level adjusted signals are applied to the AF power amplifier (IC, pin ) via the U-AF mute switch (Q). The output signal from IC (pin ) drives the external speaker (connected at J), or it is fed back to the input line of the AF power amplifier (IC, pin : VHF AF line). -- UHF SQUELCH CIRCUIT A portion of the AF signals from the FM IF IC (IC, pin ) are applied to the active filter section (IC, pin, ). The active filter section amplifies and filters noise components. The filered signals are applied to the noise detector section. The variable resister (R) adjusts the input level of the active filter, and the level is used for squelch threshold reference. The detected noise signals are output from pin as the USQL signal, and are then applied to the CPU (IC, pin ). - TRANSMITTER CIRCUITS -- MICROPHONE AMPLIFIER CIRCUIT The microphone amplifier circuit amplifies audio signals from the microphone to a level needed at the modulation circuit. The microphone amplifier circuit is commonly used for both the VHF and UHF bands. The AF signals from the microphone pass through the MIC sensitivity control circuit (IC, D) and MIC mute switch (IC), and are then amplified at the microphone amplifier (Q). The amplified signals are applied to the IDC limiter amplifier (ICb, pin ). The output signals from the IDC limiter amplifier (ICb, pin ) are passed through the splatter filter (ICa, pin, ) and then applied to each VCO circuit via the deviation adjustment pot. -- VHF MODULATION CIRCUIT The modulation circuit modulates the VCO oscillating signal (RF signal) using the microphone audio signals. The audio signals (MOD) from the splatter filter (ICa) change the reactance of D to modulate the oscillated signal at the V-VCO circuit (Q, Q) after passing through the frequency deviation control (R). The modulated signals are amplified at the buffer amplifiers (Q, Q), and are then applied to the drive amplifier circuit via the T/R switching circuit (D). -- VHF DRIVE AMPLIFIER CIRCUIT The drive amplifier circuit amplifies the VCO oscillating signal to a level needed at the power amplifier. The RF signals from the buffer amplifier (Q) pass through the low-pass filter (L, C, C), T/R switch (D) and attenuator (R R). The Tx signal from the attenuator is amplified at the pre-drive (Q) and drive (Q, D, D) amplifiers to obtain an approximate 00 mw signal level. The amplified signal is then applied to the RF power amplifier (IC). -- VHF POWER AMPLIFIER CIRCUIT The power amplifier circuit amplifies the driver signal to an output power level. IC is a power module which has amplification output capabilities of about 0 W. The RF signal from the drive amplifier (Q) is applied to IC (pin ). The amplified signals from the power amplifier (IC, pin ) pass through the APC detector (D, D), antenna switching circuit (D) and low-pass filter (L, L, L, C0 C), and is then applied to the antenna connector. Collector voltage for the driver (Q) and control voltage for the power amplifier (IC, pin ) are controlled by the APC circuit to protect the power module from a mismatched condition as well as to stabilize the output power. The [SQL] (CONTROL unit; R) controls the input level of the sub-cpu (CONTROL unit; IC0, pin ) in DC voltage. The sub-cpu reads the angle of the [SQL] rotation, then send the squelch data to the CPU incorporated in the RDATA line. Then the CPU controls U-AF mute switch (Q) via the UAMUTE line. -

10 -- VHF APC CIRCUIT The APC circuit protects the power amplifier from a mismatched output load and stabilizes transmit output power. The APC detector circuit (L, D, D) detects forward signals and refrection signals at D and D respectively. The combined voltage is at a minimum level when the antenna impedance is matched at 0 Ω and is increased when it is mismatched. The detected voltage is applied to the APC amplifier (IC, pin ) and compared with a reference voltage which is supplied from the CPU (IC, pin pin ) as a D/A control signal. When antenna impedance is mismatched, the detected voltage exceeds the reference voltage. The output voltage of the APC amplifier (IC, pin ) controls the bias voltage of the power module (IC) and drive amplifeir (Q) to reduce the output power via the APC controller (Q0, Q). -- UHF MODULATION CIRCUIT Audio signals from the splatter filter (ICa) pass through the frequency deviation control (R), and are then applied to the modulation circuit (D0) to change the reactance of D0 and modulate the oscillated signal at the U-VCO circuit (Q0, Q). The VCO output is amplified at the buffer amplifiers (Q, Q), and is then applied to the T/R switching circuit (D) via the low-pass filter (L, C, C). -- UHF DRIVE AMPLIFIER CIRCUIT The VCO signals from the T/R switch (D) are amplified at the buffer-amplifier (Q), pre-drive amplifier (Q) and drive (Q, D) amplifier to obtain an approximate 00 mw signal level. The amplified signal is then applied to the RF power amplifier (IC). -- UHF POWER AMPLIFIER CIRCUIT IC is a power module which has amplification output capabilities of about 0 W. -- UHF APC CIRCUIT The APC detector circuit (D and D) detects forward signals and refrection signals respectively. The combined voltage is at a minimum level when the antenna is matched at 0 Ω and increases when it is mismatched. The combined voltage is applied to the APC amplifier (IC, pin ), and the power setting voltage from the CPU (IC, pin pin ) as a D/A control signal is applied to the other input (IC, pin ) for the reference. The output voltage from IC (pin ) is applied to the APC control circuit (Q0, Q) to control the bias voltage of the PA module (IC) and drive amplifier (Q). - PLL CIRCUITS -- ENERAL A PLL circuit provides stable oscillation of the transmit frequency and the receive local frequency. The PLL circuit compares the phase of the divided VCO frequency to the reference frequency. The PLL output frequency is controlled by a crystal oscillator and the divided ratio of the programmable divider. IC is a dual PLL IC which controls both VCO circuits for VHF and UHF. -- VHF LOOP The generated signal at the V-VCO (Q, Q, D) enters the PLL IC (IC, pin ) via buffer-amplifiers (Q, Q) and is divided at the programmable divider section and is then applied to the phase detector section. The phase detector compares the input signal with a reference frequency, and then outputs the out-of-phase signal (pulse-type signal) from pin. The pulse-type signal is converted into DC voltage (lock voltage) at the loop filter (Q, Q00, R, C C), and then applied to the V-VCO to stabilize the oscillated frequency. The RF signal from the drive amplifier (Q) is applied to IC (pin ). The amplified signal from the power amplifier (IC, pin ) is passed through the antenna switching circuit (D) and is then applied to the antenna connector via a bandpass filter (L L, L, C C0, C, C). VHF APC circuit RF signal from PLL circuit POWC Q Pre-drive APC amplifier IC Q Drive APC control Q IC Power module Q0 APC D L APC detector D antenna switch D to antenna VTX Q HV -

11 -- UHF LOOP The generated signal at the U-VCO (Q0, Q, D0, D) enters the PLL IC (IC, pin ) via buffer-amplifiers (Q, Q) and is divided at the programmable divider section and is then applied to the phase detector section. The phase detector compares the input signal with a reference frequency, and then outputs the out-of-phase signal (pulse-type signal) from pin. The pulse-type signal is converted into DC voltage (lock voltage) at the loop filter (Q0, Q0, R, C, C), and then applied to the U-VCO to stabilize the oscillated frequency. - POWER SUPPLY CIRCUITS VOLTAE LINE Line HV.V CV Description The.V external DC power from the power connector. The same voltage as the HV line which is controlled by the power switching circuit (Q, Q). When the [POWER] switch is pushed, the CPU outputs the PCTRL control signal to the power switching circuit to turn the circuit ON. Common V for the CPU converted from the HV line by the CV regulator circuit (IC). The circuit outputs the voltage regardless of the power ON/OFF condition. PLLV V VTV UTV VRV RV URV Common V produced from the CV at the PLLV regulator circuit (Q, Q) using control signal from V line. Common V converted from the.v line by the V regulator circuit (IC). VHF transmit V converted from the V line at the VTV regulator circuit (Q, Q0). UHF transmit V converted from the V line at the UTV regulator circuit (Q, Q). Receive VRV produced from the V line at the V-IAS selector (Q, Q). Receive RV produced from the V line at the U-IAS selector (Q, Q). Receive URV produced from the RV line at the URV switching circuit (D, D). PLL circuit Q, Q00 Loop filter V-VCO Q, Q, D Q uffer Q uffer D to VHF transmitter circuit to VHF st mixer circuit PLL IC (IC) Q uffer X. MHz Phase detector Programmable divider Phase detector Q0, Q0 Loop filter Programmable counter Programmable counter U-VCO Q0, Q D0, D Prescaler Shift register/ data latch Prescaler Q uffer Tripler PF DATA CK PLST. MHz. MHz Q uffer Q uffer to the FM IF IC (IC) to the FM IF IC (IC) D to UHF st mixer circuit D to UHF transmitter circuit -

12 - PORT ALLOCATIONS -- CPU (MAIN UNIT; IC) Pin number, 0 Port name TONEIN OSC, OSC RES CLONEC PLST ST CK DATA RXD TXD ESCK ESI ESO ECS MICIN EXTMIC ETONE PCTRL VCK VDATA PTTP PTTM VUNLK UUNLK RX RX W/N Description Input port for the decoded CTCSS signals. Input ports for the CPU system clock oscillator (X: MHz). Input port for the reset signal. I/O port for the cloning signal. Outputs strobe signals for the PLL IC (IC). Outputs strobe signals for the D/A convertor (IC). Outputs serial clock signal for the PLL IC (IC) and D/A convertor (IC). Outputs serial data signals for the PLL IC (IC) and D/A convertor (IC). Input port for serial signal from the sub-cpu (CONTROL unit; IC0) Output port for serial signal to the sub- CPU (CONTROL unit; IC0) Outputs clock signal for the EEPROM IC (IC). Input port for serial signal from the EEPROM IC (IC). Outputs data signal for the EEPROM IC (IC). Outputs chip select signal for the EEP- ROM IC (IC). Input port for microphone serial signal via the MDATA controller (IC). Input port to detect remote microphon connection. Low : HM-0/ is connected. Outputs 0 Hz Europe tone signal. Outputs power switching circuit (Q, Q) control signal. High : While turning power ON. Outputs serial clock signal for the electronic volume IC (IC0). Outputs data signal for the electronic volume IC (IC0). Input port for packet PTT signal. High : Packet PTT switch is ON. Input port for the PTT switch. High : While PTT switch is pushed. PLL unlock signal input port for VHF band. High : PLL unlock on VHF band. PLL unlock signal input port for UHF band. High : PLL unlock on UHF band. Outputs control signal for the V-IAS selector (Q, Q). High : While receiving on VHF band. Output control signal for the U-IAS selector (Q, Q). High : While receiving on UHF band. Outputs Rx/Tx pass-bandwidth control signal. High : While narrow bandwidth is selected. () Pin number SU-CPU (CONTROL UNIT; IC0) Pin number 0, 0,,, Port name VTX UTX MMUTE POWC0 POWC FUNK UAMUTE VAMUTE UDMUTE VDMUTE OPD Q Q CTCSS DTMF Port name LRES TXD RXD VSQLV, VVOLV USQLV, UVOLV VDLA, VDL VDLA, VDL RITV CONTV Description Outputs transmit signal for VHF band. High : While transmitting on VHF band. Outputs transmit signal for UHF band. High : While transmitting on UHF band. Outputs MIC mute control signal. Low : While DTMF signals are output, etc. Output ports for output power control signal. Outputs cooling fan control signal. High : While transmitting or after transmission for minute. Outputs mute control signal for UHF AF signals. High : While UHF squelch is activate. Outputs mute control signal for VHF AF signals. High : While VHF squelch is activate. Outputs mute control signal for UHF demodulated signals. High : While UHF demodulated signals are muted. Outputs mute control signal for VHF demodulated signals. High : While VHF demodulated signals are muted. Input port for detection signal from the DTMF unit. Low : While DTMF unit is connected. Input ports for the decoded DTMF signal from the DTMF unit. Outputs CTCSS signals. Outputs DTMF signals. Description Outputs reset signal for the LCD controller (IC). Input port for serial signal from the main-cpu (MAIN unit; IC) Output port for serial signal to the main-cpu (MAIN unit; IC) Squelch/volume setting level input ports for VHF band. Squelch/volume setting level input ports for UHF band. Input ports for the up/down signals from the VHF main dial. Input ports for the up/down signals from the VHF main dial. Outputs brightness control signal for the display backlight. Outputs control signal for the contrast of display. -

13 SECTION ADJUSTMENT PROCEDURES - PREPARATION All adjustments in this section must be performed on wide bandwidth condition unless specified otherwise. (Narrow bandwidth is selectable for Europe and Italy vertions only.) REQUIRED TEST EQUIPMENT EQUIPMENT DC power supply RF power meter (terminated type) Frequency counter FM deviation meter DC voltmeter RADE AND RANE Output voltage :. V DC Current capacity : 0 A or more Measuring range : 0 W Frequency range : MHz Impedance : 0 Ω SWR : Less than. : Frequency range : MHz Frequency accuracy : ± ppm or better Sensitivity : 00 mv or better Frequency range : 0 00 MHz Measuring range : 0 to ±0 khz Input impedance : 0 kω/v DC or better EQUIPMENT Audio generator Standard signal generator (SS) Oscilloscope AC millivoltmeter External speaker Attenuator Frequency range Measuring range Frequency range Output level Frequency range Measuring range Measuring range Input impedance Capacity Power attenuation Capacity RADE AND RANE : Hz : 00 mv : MHz : 0. µv mv ( to dm) : DC 0 MHz : V : 0 mv 0 V : Ω : W or more : 0 or 0 d : 00 W or more CONNECTION FM DEVIATION METER ATTENUATOR 0 d or 0 d POWER SUPPLY. V, 0 A or more RF POWER METER 0 Ω, 0 W STANDARD SINAL ENERATOR MHz to dm (0. µv to mv) CAUTION! DO NOT transmit while an SS is connected to the antenna connector. to the antenna connector pin (MICE). pin (MIC) AUDIO ENERATOR 00 Hz to khz pin (ND) pin (PTT) to the microphone connector Controller unit -

14 - PLL AND TRANSMITTER ADJUSTMENTS ADJUSTMENT PLL LOCK VOLTAE PLL REFEREE FREQUEY UHF OUTPUT POWER VHF OUTPUT POWER FREQUEY DEVIATION ADJUSTMENT CONDITION VHF displayed freq. :.000 MHz Receiving UHF displayed freq. : MHz [USA] MHz other Output power : Low Transmitting UHF displayed freq. :.000 MHz [USA].000 MHz other Output power : High Transmitting Output power : Low Transmitting Output power : Mid-L Transmitting Output power : Mid-H Transmitting VHF displayed freq. :.000 MHz [EUR].000 MHz other Output power : High Transmitting Output power : Low Transmitting Output power : Mid-L Transmitting Output power : Mid-H Transmitting UHF displayed freq. :.000 MHz [USA].000 MHz other Output power : Low Connect an audio generator to the [MIC] connector and set as: khz/ 0 mv [USA] khz/ 0 mv other TONE : OFF Set an FM deviation meter as: HPF : 0 Hz LPF : 0 khz De-emphasis: OFF Detector : (P P)/ Transmitting VHF displayed freq. :.000 MHz [EUR].000 MHz other Output power : Low Transmitting IF bandwidth : Narrow [EUR, ITA] only Transmitting ADJUSTMENT MEASUREMENT VALUE POINT UNIT LOCATION UNIT ADJUST MAIN Rear panel Rear panel Rear panel Rear panel Connect a digital multi-meter or oscilloscope to the check point CP-LV. Loosely couple the frequency counter to the antenna connector. Connect an RF power meter to the antenna connector. Connect an RF power meter to the antenna connector. Connect an FM deviation meter to the antenna connector through an attenuator.. V MHz [USA] MHz other W W W W 0 W W W W ±. khz ±. khz ±.0 ±. khz MAIN MAIN MAIN MAIN MAIN L C R Verify R Verify R R Verify -

15 DC power supply. V / 0 A R UHF output power adjustment CP-LV PLL lock voltage check point L PLL lock voltage adjustment R VHF deviation adjustment R VHF output power adjustment C Reference frequency adjustment R UHF deviation adjustment Controller -

16 - RECEIVER ADJUSTMENTS The receiver adjustments must be performed after PLL ADJUSTMENTS. ADJUSTMENT ADJUSTMENT CONDITION OPERATION SENSITIVITY Turn into sensitivity setting mode. Connect a JI to the [MIC] connector, then turn power ON. Select an adjustment channel by pushing st or nd switch from the top on the left side. Connect an SS to the antenna connector and set as: Frequency : Same as displayed Level :. µv* ( dm) Deviation : ±. khz Modulation : khz Receiving Push upper switch on the right side to store sampling data into memory. Same adjustments as step for another channels. Push upper switch on the right side to store sampling data into memory at each adjustment. Verify the display color will change after adjustment the last channel, then turn power OFF and disconnect a JI from the [MIC] connector. S-METER Turn into S-meter setting mode. Connect a JI to the [MIC] connector, then turn power ON. Select an adjustment channel by pushing st or nd switch from the top on the left side. Displayed frequency :.00 MHz Mode : AM Connect an SS to the antenna connector and set as: Level :. µv* ( 0 dm) Modulation : khz / 0 % Receiving Verify that S-meter shows S ( dots), then push upper switch on the right side to store sampling data into memory. Displayed frequency Mode Set an SS as: Level Deviation Modulation Receiving :.00 MHz : FM :.0 µv* ( 0 dm) : ±. khz : khz Displayed frequency : 0.00 MHz Mode : AM Set an SS as: Level :. µv* ( 0 dm) Modulation : khz / 0 % Receiving Displayed frequency Mode Set an SS as: Level Deviation Modulation Receiving : 0.00 MHz : FM :.0 µv* ( 0 dm) : ±. khz : khz Displayed frequency :.00 MHz [USA].00 MHz other Mode : FM Receiving Displayed frequency Set an SS as: Level Deviation Modulation Mode Receiving : MHz :. µv* ( dm) : ±. khz : khz : FM Verify that S-meter shows S ( dots), then push upper switch on the right side to store sampling data into memory. Verify the display color will change after adjustment the last channel, then turn power OFF and disconnect a JI from the [MIC] connector. *This output level of a standard signal generator (SS) is indicated as SS s open circuit. -

17 RECEIVER ADJUSTMENTS (continued) ADJUSTMENT SQUELCH (UHF) (VHF) ADJUSTMENT CONDITION UHF displayed freq. :.000 MHz [USA].000 MHz other Set the squelch level to % using the HM- microphone. R : Max clockwise set an SS as: Level : µv* ( dm) Receiving VHF displayed freq. :.000 MHz [EUR].000 MHz other Set the squelch level to % using the HM- microphone. R : Max clockwise set an SS as: Level : µv* ( dm) Receiving *This output level of the standard signal generator (SS) is indicated as SS s open circuit. MEASUREMENT ADJUSTMENT VALUE POINT UNIT LOCATION UNIT ADJUST Speaker At the point where the MAIN R signal just appears. R DC power supply. V / 0 A JI CONNECTOR JI (Sensitivity) R UHF squelch adjustment R VHF squelch adjustment. kω or JI (S-meter). kω Controller to the microphone connector -

18 SECTION PARTS LIST [CONTROL UNIT] REF IC 0000 S.IC MN IC 0000 S.IC TCSF (TEL) IC 0000 S.IC MFP IC 0000 S.IC MFP IC 0000 S.IC TCWFU (TEL) IC S.IC SEDF0A (QFP-PIN) IC 0000 S.IC LHAS-0A IC S.IC HD0SKF IC 0000 S.IC S-0ANMP-DD-T IC S.IC TAL0F (TER) IC 0000 S.IC TALF (TEL) IC S.IC M0FP [EUR], [ITA] 0000 S.IC M0FP other IC S.IC TAL0F (TER) IC 0000 S.IC TCW0FU (TEL) IC S.IC TCS0FU (TER) IC 0000 S.IC TCACF (EL) IC S.IC TAL0F (TER) IC S.IC TAL0F (TER) Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR SCS-TD Q S.TRANSISTOR SCS-TD Q S.TRANSISTOR SA-R (TER) Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR S T00 R Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR SA-R (TER) Q S.TRANSISTOR S-T DK D S.DIODE SS TE- D S.VARICAP SV (TPH) D 0000 S.DIODE S0-0PCP-TD D S.DIODE SS TE- D S.ZENER MA00-H (TX) D 0000 S.ZENER MA00-H (TX) D S.ZENER MA0-L (TX) D S.ZENER MA0-L (TX) D 0000 S.ZENER MA0-M (TX) X S.XTAL CR- (. MHz) [EUR], [ITA] S.XTAL CR-0 (. MHz) other X S.XTAL CR- (. MHz) X S.CERAMIC CSTCV.MXJ00 L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-RJ L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL SLF0T-MR- L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL SLF0T-0MR L 0000 S.COIL XN- [CONTROL UNIT] REF R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR MCR0EZHJ Ω (00) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) [EUR], [ITA] S.RESISTOR ERJEYJ V (0 Ω) other R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) S.=Surface mount -

19 [CONTROL UNIT] REF R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R VARIALE EVU-FKFK (0K) R S.RESISTOR ERJEYJ V ( kω) R VARIALE EVU-FKFK (0K) R S.RESISTOR ERJEYJ V ( kω) R VARIALE EVU-FKFK (0K) R S.RESISTOR ERJEYJ V ( kω) R VARIALE EVU-FKFK (0K) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) [CONTROL UNIT] REF R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR MCR0JZHJ 0 Ω () R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) [EUR], [ITA] S.RESISTOR ERJEYJ V (. kω) other R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ R V (. Ω) R S.RESISTOR MCR0EZHJ. Ω (R) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR MCR0EZHJ. Ω (R) R S.RESISTOR MCR0EZHJ. Ω (R) C 0000 S.ELECTROLYTIC ECEV EA 00SR C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A S.=Surface mount -

20 [CONTROL UNIT] REF C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVEA0UP C 0000 S.ELECTROLYTIC ECEVCA0WR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVEARSR C 0000 S.CERAMIC C0 J C K-T-N [EUR], [ITA] S.CERAMIC C0 J E 0K-T-A other C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C 0000 S.ELECTROLYTIC ECEVEARSR C 0000 S.ELECTROLYTIC ECEVCA00SR C 0000 S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEV EA 00SR C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.ELECTROLYTIC ECEVCA00SR C S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A [CONTROL UNIT] REF C MYLAR 00 SMC K C 0000 S.CERAMIC HM0 SL 0J KV C 0000 S.ELECTROLYTIC ECEVCA0WR C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVEA0UP C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA0WR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 J A 0M-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 CH H 0J-T-A [EUR], [ITA] S.CERAMIC C0 CH H 0J-T-A other C S.CERAMIC C0 CH H 0J-T-A [EUR], [ITA] S.CERAMIC C0 CH H J-T-A other C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C Z-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 JF C Z-T-A J 000 S.CONNECTOR IL-FPR-S-HF-E000 J 000 CONNECTOR 0- J CONNECTOR 0-EH-S J 0000 CONNECTOR JPJ-0-0 J 000 S.CONNECTOR -ZR-SM-TF S.=Surface mount -

21 [CONTROL UNIT] REF DS LCD EDTCAQ0 DS CFL HM S AIW N/AZ ASSY S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S 0000 S.SWITCH EVQ-PPX A S S.SWITCH EVQ-PPX A S EODER EVQ-VENF0 S EODER EVQ-VENF0 SP SPEAKER VS--0 W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V WS 0000 M.OTHER FX0 P0CO EP 0000 PC C EP 000 S.EAD MMZ0Y 0T [MAIN UNIT] REF IC 0000 IC M-0 IC 0000 S.IC M0AP 00C IC 0000 S.IC MP EC IC 0000 IC MMR/SC- IC 0000 S.IC TAS0F (TER) IC 0000 S.IC TCWF (TEL) IC 0000 S.IC TCWF (TEL) IC 0000 S.IC TAFN (D,EL) IC 000 S.IC µpc-t IC S.IC MFP 00C IC 0000 S.IC TCSF (TER) IC 0000 IC LA IC S.IC U0CFV-E IC 0000 S.IC TA0F (TEL) IC S.IC TA0F (TEL) IC 0000 S.IC S-0ALMP-DA-T IC 0000 S.IC X0SI-.T IC 0000 S.IC HDN0H [USA] 0000 S.IC HDNH other IC S.IC NJMM-T IC S.IC U0CFV-E IC S.IC NJMM-T IC 0000 S.IC TASF (TER) IC S.IC TCSFU (TER) IC S.IC U0CFV-E IC S.IC NJMM-T IC 0000 S.IC TAFN (D,EL) IC 0000 S.IC U0CFV-E Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC- (TER) Q S.TRANSISTOR DTCEUA T0 Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC-T Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SA-R (TER) Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR SC-T Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR DTEK T Q S.FET SKA--T Q S.FET SKA--T Q S.TRANSISTOR SC0 T0 R Q S.FET SK0-R (TER) Q S.TRANSISTOR SC- (TER) Q S.TRANSISTOR SC (M) -T R Q 0000 S.TRANSISTOR SC (M) -T R Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR SC0-Y (TER) Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SA-R (TER) Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR SC-T Q S.TRANSISTOR SP (DS) -(TX) Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.TRANSISTOR DTCZUA T0 Q S.TRANSISTOR SC0 T0 R Q 0000 S.TRANSISTOR UMN TL Q S.TRANSISTOR DTEK T Q S.TRANSISTOR DTEK T Q 0000 S.TRANSISTOR UMN TL Q S.TRANSISTOR DTEK T Q S.TRANSISTOR DTEK T Q S.TRANSISTOR SC-O (TER) Q 0000 S.TRANSISTOR SC-T Q S.TRANSISTOR DTCEUA T0 Q S.FET SK-S (TX) Q S.FET SKA--T Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q 0000 S.TRANSISTOR SC-T R Q 0000 S.TRANSISTOR SC-T R Q S.TRANSISTOR DTCEUA T0 Q S.FET SK-S (TX) S.=Surface mount -

22 [MAIN UNIT] REF Q 0000 S.TRANSISTOR SC0-Y (TER) Q 0000 S.TRANSISTOR SC-L (TER) Q S.TRANSISTOR DTCEUA T0 Q S.FET SK (TER) Q 0000 S.FET SJ-R (TER) Q S.TRANSISTOR SC0 T0 R Q S.FET SK0-R (TER) Q S.TRANSISTOR DTAEUA T0 Q S.FET SK0-R (TER) Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR DTCEUA T0 Q 0000 S.FET SJ-R (TER) Q S.TRANSISTOR SC0 T0 R Q S.FET SK0-R (TER) Q S.FET SK0-R (TER) Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR SC0 T0 R Q 0000 S.TRANSISTOR SC0-Y (TER) Q S.TRANSISTOR SC- (TER) Q S.TRANSISTOR SC- (TER) Q S.TRANSISTOR SC- (TER) Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR DTCEUA T0 Q 0000 S.TRANSISTOR DTCXU T0 Q S.TRANSISTOR S0-S-TL Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR S T00 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR SC0 T0 R Q 0000 S.TRANSISTOR SC-L (TER) Q S.TRANSISTOR SD-T CK Q S.TRANSISTOR DTAEUA T0 Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR DTCEUA T0 Q S.TRANSISTOR SC0 T0 R Q S.TRANSISTOR DTCTU T0 Q 0000 S.TRANSISTOR SC-R (TER) Q S.FET SK0-Y (TER) Q S.TRANSISTOR SC-R (TER) Q S.FET SK0-Y (TER) Q S.TRANSISTOR DTCEUA T0 D S.DIODE SS TE- D S.DIODE MA (TX) D S.VARICAP HVU0TRF D S.DIODE MA (TX) D S.DIODE DA TL D S.DIODE SS TE- D 0000 S.DIODE R0F-0T0 D 0000 S.DIODE R0F-0T0 D S.DIODE UM0F D S.DIODE DAN0U T0 D S.VARICAP HVU0TRF D S.VARICAP HVU0TRF D S.VARICAP HVU0TRF D S.DIODE SS TE- D S.VARICAP HVU0TRF D S.DIODE SS TE- D S.DIODE UM0F D S.DIODE SS TE- D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D S.DIODE MA (TX) D S.DIODE MA (TX) D S.DIODE DA TL D 0000 S.DIODE R0F-0T0 [MAIN UNIT] REF D 0000 S.DIODE R0F-0T0 D S.DIODE UM0F D S.DIODE SS TE- D S.DIODE DAN0U T0 D S.DIODE MA (TX) D 0000 S.DIODE R0F-0T0 D S.DIODE DAN0U T0 D S.DIODE MA (TX) D S.DIODE SS TE- D S.DIODE MA (TX) D S.DIODE SS TE- D S.DIODE UM0F D S.ZENER MA0-M (TX) D 0000 S.DIODE R0F-0T0 D 0000 S.ZENER MA0-M (TX) D 0000 S.DIODE R0F-0T0 D 0000 S.ZENER MA0-L (TX) D DIODE DSAA D ZENER RD0E D S.DIODE SS TE- D S.DIODE SS TE- except [USA] D S.DIODE DA T0 [EUR], [ITA] S.DIODE DAN0U T0 [CSA] D S.DIODE SS TE- [USA], [SEA] D S.DIODE SS TE- except [ITA], [CSA] D S.DIODE SS TE- except [ITA], [CSA] D S.DIODE DA T0 [EUR], [ITA] S.DIODE DAN0U T0 [SEA] D S.DIODE SS TE- [ITA], [SEA] D S.DIODE SS TE- except [EUR] D DIODE SS [EUR] D DIODE SS except [USA] D S.ZENER MA0-L (TX) D S.DIODE SS TE- D 0000 S.ZENER MA0-M (TX) D 0000 S.ZENER MA0-M (TX) D S.DIODE SS TE- D S.DIODE SS TE- D S.DIODE MA (TX) D 0000 S.DIODE R0F-0T0 D S.ZENER MA0-L (TX) D S.DIODE SS TE- D S.DIODE HVUTRF D S.DIODE SS TE- D S.DIODE DA0U T0 D S.DIODE DA0U T0 D S.DIODE MA (TX) D S.DIODE MA (TX) D S.DIODE MA (TX) D S.DIODE SS TE- D S.DIODE SS TE- FI MONOLITHIC FL- (.0 MHz) FI S.MONOLITHIC FL-00 (.0 MHz) FI S.SAW EFCHMWNP [USA], [CSA] S.SAW EFCHMWNP other FI CERAMIC ALFY0F=K FI CERAMIC CFWS0HT FI CERAMIC CFWS0F X XTAL CR- (. MHz) X DISCRIMINATOR CD0C X DISCRIMINATOR CD0C X S.XTAL SMD- (0.000 MHz) L S.COIL NL 0T-RJ L 0000 S.COIL L-0 L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L 0000 COIL LA- L 0000 COIL LA- S.=Surface mount -

23 [MAIN UNIT] REF L COIL LW- L 0000 COIL LA- L 0000 COIL LA- L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL LQNA NJ0 L S.COIL LQNA NJ0 L S.COIL LQNA NJ0 L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL LQNA NJ0 L 0000 COIL LA- L S.COIL NL 0T-RJ L S.COIL LQN A NJ0 L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE 0N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L COIL LA- L COIL LW- L 0000 COIL LA- L 0000 COIL LA- L 0000 COIL LA- L 0000 COIL LA- L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL MLF0A R0K-T L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE N-F L 0000 COIL LA- L S.COIL ELJRE N-F L S.COIL ELJRE N-F L S.COIL ELJRE NZ-F L S.COIL ELJRE N-F L S.COIL ELJRE NZ-F L S.COIL ELJRE NZ-F L S.COIL ELJF K-F L S.COIL ELJF K-F L S.COIL LQH N RM 0 L S.COIL ELJFC RK-F L S.COIL ELJFC RK-F L S.COIL NL 0T-RJ L S.COIL NL 0T-RJ L S.COIL LQH N RM0 (Q0) L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL LQH N RM0 (Q0) L S.COIL MLF0A RK-T L S.COIL NL 0T-RJ L S.COIL MLF0A RK-T L 0000 COIL LA- L S.COIL ELJRE N-F L S.COIL ELJRE 0N-F L S.COIL ELJRE 0N-F L 0000 COIL LA- R S.RESISTOR ERJEYJ V (. kω) R 0000 S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) [MAIN UNIT] REF R S.RESISTOR ERJEKF 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR MCR0EZHJ Ω (0) R S.RESISTOR MCR0EZHJ Ω (0) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR MCR0JZHJ Ω (0) R S.RESISTOR MCR0EZHJ 0 Ω () R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR MCR0JZHJ 00 Ω (0) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. MΩ) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R 0000 S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.THERMISTOR NTCCM0 LH 0KC R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEKF 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) S.=Surface mount -

24 [MAIN UNIT] REF R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR MCR0EZHJ Ω (0) R S.RESISTOR MCR0EZHJ Ω (0) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR MCR0JZHJ Ω (0) R S.RESISTOR ERJEYJ V ( kω) R 0000 S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEYJ V ( kω) R 0000 S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR MCR0JZHJ 0 Ω () R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR MCR0JZHJ 00 Ω (0) R S.RESISTOR MCR0EZHJ 0 Ω () R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR MCR0EZHJ 0 Ω () R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (. MΩ) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) [MAIN UNIT] REF R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) [EUR], [ITA] S.RESISTOR ERJEYJ V ( kω) other R 0000 S.THERMISTOR NTCCM0 NH KC R 0000 S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) [EUR], [ITA] S.RESISTOR ERJEYJ V (. kω) other R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) [EUR], [ITA] S.RESISTOR ERJEYJ V (. kω) other R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R 0000 S.THERMISTOR NTCCM0 NH KC R 0000 S.TRIMMER EVM-XSX0 (0) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEKF 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) S.=Surface mount -

25 [MAIN UNIT] REF R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR MCR0EZHJ. Ω (R) R S.RESISTOR MCR0EZHJ. Ω (R) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR MCR0EZHJ 0 Ω () R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR MCR0EZHJ Ω (00) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (. MΩ) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEKF 0 V (0 kω) R S.RESISTOR RR0R--D (0 kω) R S.RESISTOR RR0P--D ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEKF 0 V (0 kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) [MAIN UNIT] REF R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( MΩ) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR MCR0EZHJ Ω (00) R S.RESISTOR MCR0JZHJ Ω (0) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) [USA] S.RESISTOR ERJEYJ V (. kω) other R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (00 Ω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (. MΩ) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEKF 0 V (0 kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEKF 0 V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) S.=Surface mount -

26 [MAIN UNIT] REF R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V ( kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V (00 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V ( kω) [USA] S.RESISTOR ERJEYJ V ( kω) other R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (. kω) R S.RESISTOR ERJEYJ V (0 kω) R S.RESISTOR ERJEYJ V (0 Ω) [MAIN UNIT] REF R S.RESISTOR MCR0JZHJ Ω (0) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V (0 kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ 0 V ( kω) R S.RESISTOR ERJEYJ V (0 Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ 0 V ( Ω) R S.RESISTOR ERJEYJ V ( kω) C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.TANTALUM TESVA V 0M-L C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H RC-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.TANTALUM TEMSVA C M-L C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C ELECTROLYTIC MV 0 C C S.CERAMIC C0 J H 0K-T-A C 0000 S.CERAMIC RM- CH 0J 00PT C S.CERAMIC RM- CH 00J 00PT C S.CERAMIC RM- CK 00C 00PT C 0000 S.CERAMIC RM- CH 0J 00PT C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC RM- CK 00C 00PT C S.CERAMIC RM- CK 00C 00PT C S.CERAMIC RM- CH 00D 00PT C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.TANTALUM ECSTCCR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.CERAMIC RM- WR K 00PT C 0000 S.CERAMIC RM- CH 0J 00PT C 0000 S.CERAMIC RM- WR 0K 00PT C S.CERAMIC RM- CH 0J 00PT C S.CERAMIC RM- CH 00J 00PT C 0000 S.CERAMIC RM- CH 0J 00PT S.=Surface mount -

27 [MAIN UNIT] REF C S.CERAMIC C0 J H 0K-T-A C S.TANTALUM TESVA V 0M-L C S.TANTALUM TESVA V M-L C S.TANTALUM TESVA V M-L C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC RM0 RH 0J 0PT C S.CERAMIC C0 CH H 00J-T-A C S.CERAMIC RM0 RH 0J 0PT C 0000 S.TRIMMER CTZS-0C-W-AF C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C 0000 S.ELECTROLYTIC ECEVCA0UP C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.TANTALUM TESVA V M-L C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H R-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 CH H RC-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.TANTALUM TEMSVA C M-L C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A [MAIN UNIT] REF C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA0SP C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC RM- CH 00D 00PT C S.CERAMIC RM- CK 00C 00PT C 0000 S.CERAMIC RM- CH 0J 00PT C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC RM- CK 00C 00PT C 0000 S.CERAMIC RM- CH 0J 00PT C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.CERAMIC RM- WR K 00PT C 0000 S.TANTALUM ECSTCCR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.CERAMIC RM- WR K 00PT C S.CERAMIC RM- CH 00D 00PT C S.CERAMIC RM- CH 00D 00PT C S.CERAMIC RM- CH 00C 00PT C S.CERAMIC RM- CH 00C 00PT C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 0RC-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0RC-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC RM- CH 00D 00PT S.=Surface mount - 0

28 [MAIN UNIT] REF C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.ELECTROLYTIC ECEV0JA0SR C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C 0000 S.CERAMIC C0 CH H J-T-A C 0000 S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 CH H J-T-A [EUR], [ITA] S.CERAMIC C0 CH H 0J-T-A other C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C 0000 S.ELECTROLYTIC ECEV0JA0SR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.CERAMIC C0 CH H J-T-A C 0000 S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 CH H J-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H RC-T-A C S.CERAMIC C0 CH H RC-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00D-T-A [MAIN UNIT] REF C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.ELECTROLYTIC ECEVHA00SR C 0000 S.ELECTROLYTIC ECEVHA00SR C 0000 S.ELECTROLYTIC ECEVHARR C 0000 S.ELECTROLYTIC ECEVHARR C 0000 S.ELECTROLYTIC ECEVHARR C 0000 S.ELECTROLYTIC ECEVCA0SP C 0000 S.ELECTROLYTIC ECEVCAP C 0000 S.ELECTROLYTIC ECEVCA0SP C 0000 S.ELECTROLYTIC ECEVCA0UP C 0000 S.ELECTROLYTIC ECEVCA0UP C S.ELECTROLYTIC ECEVAAUP C 0000 S.ELECTROLYTIC ECEVAAUP C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C 0000 S.ELECTROLYTIC ECEVCAP C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C 0000 S.ELECTROLYTIC ECEVCA0SP C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C 0000 S.ELECTROLYTIC ECEVCA0UP C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA0SP C ELECTROLYTIC MV 00 HC C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A S.=Surface mount -

29 [MAIN UNIT] REF C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J C K-T-A C 0000 S.ELECTROLYTIC ECEVHA00SR C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 JF C 0Z-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 CH H 0J-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J E 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C 0000 S.CERAMIC C0 J A K-T-N C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC RM- CH 00D 00PT C S.CERAMIC C0 J E 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C 0000 S.CERAMIC C0 J A K-T-N C 0000 S.CERAMIC C0 J A K-T-N C S.CERAMIC C0 J H 0K-T-A C 0000 S.TANTALUM TEMSVA A 0M-L C 0000 S.TANTALUM TEMSVA A 0M-L C S.CERAMIC C0 J C 0KT-N C 0000 S.CERAMIC C0 J A K-T-N C S.CERAMIC C0 CH H 0J-T-A C 0000 S.TANTALUM TEMSVA C M-L C 0000 S.TANTALUM TEMSVA C M-L C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J A 0M-T-A C S.CERAMIC C0 CH H 00C-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J A 0M-T-A C S.CERAMIC C0 JF C 0Z-T-A C S.CERAMIC RM- CH 00D 00PT C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A [MAIN UNIT] REF C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 J H 0K-T-A C 0000 S.ELECTROLYTIC ECEVCA00SR C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J C K-T-A C S.CERAMIC C0 J H 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C J E 0K-T-A C S.CERAMIC C J E 0K-T-A C S.CERAMIC C J E 0K-T-A C S.CERAMIC C J E 0K-T-A C S.CERAMIC C J E 0K-T-A C S.CERAMIC C0 J C 0KT-N C S.CERAMIC C0 J H K-T-A C S.CERAMIC C0 CH H 0R-T-A C S.CERAMIC C0 CH H 00D-T-A C S.CERAMIC C0 CH H 0J-T-A C S.CERAMIC C0 J H K-T-A J 0000 CONNECTOR HSJ J CONNECTOR HSJ J 000 CONNECTOR 0- J 000 S.CONNECTOR -ZR-SM-TF J 000 CONNECTOR 0- J 000 S.CONNECTOR 0FM-.0P J 0000 CONNECTOR TCS--0 W JUMPER ERDST0 W S.JUMPER ERJE JPW V except [EUR], [ITA] W S.JUMPER ERJE JPW V except [EUR], [ITA] W CALE OPC- W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W JUMPER ERDST0 except [EUR] W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V W S.JUMPER ERJE JPW V except [EUR], [ITA] EP 0000 PC E EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T S.=Surface mount -

30 SECTION MECHANICAL PARTS AND DISASSEMLY [CHASSIS PARTS] REF J 0000 Antenna connector MR-DS-E 0 QTY. [MAIN UNIT] REF W Cable OPC- QTY. MF Fan motor MF0D-H-00 MP Chassis MP 0000 Screw PH T M NI-ZU MP 0000 Screw PH T M NI-ZU MP 0000 Screw PH T M NI-ZU MP Cover MP 0000 ind screw M ZK MP 0000 Fan cover MP Screw PH No.0 M. ZK MP 000 Thermally sheet (C) MP 000 Thermally sheet (C) MP 000 TR-A clip MP 0000 VCO case MP 000 M-holder MP Spacer MP RF plate MP IC plate MP MAIN-A shield MP MAIN- shield Screw abbreviations: PH: Pan head FH: Flat head T, A0: Self-tapping ZK: lack NI-ZU: Nickel-Zinc [ACCESSORIES] REF QTY. F Fuse F 0 A W Optional product Cable OPC- W Cable *OPC- ACC [CONTROL UNIT] REF DS LCD EDTCAQ0 DS CFL HM S AIW N/AZ ASSY MP Front panel MP L-front key MP R-front key MP Key cap MP 0000 Knob N- MP Knob N-0 MP Rear panel MP Nut MP SP net MP LCD plate MP Reflector MP 000 Sponge (A) MP A-sheet MP sheet MP Jack cover MP 0000 Screw PH T M 0 ZK MP 0000 Screw FH T No.0 M NI-ZU MP 0000 Screw PH T M 0 ZK MP Screw PH T No. 0 M NI-ZU MP Screw PH M ZK MP C-sheet MP CPU plate MP LCD shield MP 0000 Isolating plate (FR) MP 000 Sponge (E) MP 000 0S.W. sheet MP0 000 Non-woven sheet SP Speaker VS--0 WS 0000 M. OTHER FX0 P0CO QTY. MC Optional product Micropone HM- MP 0000 Mobil bracket () MP Frange bolt M NI MP Screw PH M (/ ) MP Screw PH A0 M MP Flat washer M NI S MP Spring washer M MP Nut M MP Mic-hanger except [CSA] MP racket MP Screw MP 0000 Screw PH A0 M MP 000 Non-woven sheet *OPC- ACC: OPC- (incl. female-female plug) is supplied as option. MP MP W MP MP MP MP W F MC MP0 MP MP MP -

31 MP (CO) MP (CO) SP (CO) MP0 (CO) MP0 (CO) MP (C) MP0 (C) MP (CO) MP (CO) J (C) MP (CO) MP (C) MP (C) CONTROL unit MP0 (CO) MP (CO) MP (CO) WS (CO) MF (C) MP (C) MP (CO) DS (CO) MP (CO) MP (CO) MP (C) MP (CO) MP (CO) MP (CO) MP (C) MP (C) DS (CO) IC (M) MP (CO) MP (CO) MP (CO) IC (M) MP (CO) MP (CO) MP (CO) MP (M) MP (M) W (M) MP (CO) MP (M) MP (CO) MAIN unit MP (CO) MP (CO) MP (CO) MP (CO) MP (CO) MP (C) MP (C) MP (C) MP (CO) MP (CO) MP (C) MP (C) Note (M) : MAIN unit (CO) : CONTROL unit (C) : CHASSIS MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) -

32 SECTION PARTS SEMI-CONDUCTOR LIST INFORMATION - TRANSISTORS NAME SYMOL INSIDE VIEW NAME SYMOL INSIDE VIEW - DIODES NAME SYMOL INSIDE VIEW NAME SYMOL INSIDE VIEW C C SA-R SAA R AE FA SJ-R V DA AV SS MA A A A C E S D A C S0-S SP- M C C E C E SKA--T K D S DA AU A SS yellow A C S T00 R S-T DK AR DK C C E SK0-R SK0-Y X XY S D DAN0U N A C, C A MA00-H ^0 MA0-L _ MA0-L _ MA0-M _ MA0-L _ MA0-L _ MA0-M A C SC-R SC0 R SC-L SC- SC-O SC SC SC0-Y SC-T SC-T SC-T SCS-TD SD-T CK C R LL A OY R R MCY T QK RK CC CK DTAEUA DTEK F C C C C C E E E SK SK-S UMN TL KI R D C D E S S C DA0U K DA TL K MA MP R0F-0 J RD0E 0 MA MI C, A A C C A C C A A MA HVUTRF P UM0F A A A C C C C DTCEUA DTC-XU DTC-ZUA E SV TD SV TL HVU0TRF A C S0-0PCP SA A C -

33 SECTION OARD LAYOUTS - CONTROL UNIT TOP VIEW from CFL ACK LIHT The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. oard. CFL CFL J MP VVOL UVOL CFL CFL J EXT. VIDEO IN VSQL J USQL COM A VDIAL UDIAL A COM J HV TDATA RDATA ND SP SPE to MAIN UNIT J -

34 CONTROL UNIT OTTOM VIEW from SPEAKER (SP) The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. oard. J SPE SP UVOL R R R VVOL R from CFL ACK LIHT (DS) EXT. VIDEO IN J J J CFL CFL J CFL CFL J HV RDATA SP USQL R TDATA ND SPE R J R VSQL R to MAIN UNIT J S A COM UDIAL S VDIAL S COM MP A J VL STV U/D CPV OEV STV VDD VH VCOM VEE STH RL V R ND CPH CPH CPH OH OEH STH 0 0 from LCD DISPLAY DS -

35 MAIN UNIT CLONE I/O EXT SP W HV IN ANTENNA TOP VIEW The combination of this page and the next page shows the unit layout in the same configuration as the actual P.C. oard. from FAN MOTOR MF J E M FV 0 STD Q Q Q Q TOE CV DETO ND OPD J to OPTIONAL UNIT PSQL DATAOUT ND AFOUT PTTP DATAIN HV TDATA RDATA ND SP SPE J to CONTROL UNIT J MDATA E MIC MICE PTT EXTMIC MU/D MV J EXT MIC INPUT - J DATA I/O

36 MAIN UNIT OTTOM VIEW from EXT SP J CLONE I/O J The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.C. oard. MV MU/D EXTMIC PTT MICE MIC E MDATA EXT MIC INPUT SPE SP ND RDATA TDATA HV from CONTROL UNIT AFOUT PSQL PTTP DATAOUT DATAIN ND J DATA I/O -

37 SECTION 0 LOCK DIARAM INPUT POWER DC. V W POWER SW CTRL Q DTCXU Q S0 V RE IC TA0F V V RE IC TALF CTRLV DC-DC CONVERTER IC MFP Q S D S0-0PCP.V CTRL HV SW Q SA Q DTCEU V RE A//C IC, IC, IC TAL0F VA V VC CFL DRIVE Q, Q SC Q DTCEU Q0 SA CFL ACK LIHT.V VC V MF (CHASSIS) FAN CONTROL Q SC0 Q S D MA0 V IAS SEL Q UMN / Q DTEK U IAS SEL Q UMN / Q DTEK VRV RV.V V VTV RE Q SC0 Q0 SA VTV UTV RE Q SC0 Q SA RESET IC S-0ANMP-DD RES CTRLV RE Q S IC TAL0F PWRS IN/EXT VC PD AMP IC TCSF D SV V RE D MA0 TFT CONTROLLER IC MN IC TCWFU D SS TFT COLOR LCD DS EDTCAQ0 STH, DEH, QH, CPH, CPH, CPH, CPV, STV UV SW D SS D DAN0U F- F- F- KV CPU IC0 HD0SK CONTV RITV M/ESW R VC V MIC SENS. CTRL IC TCSFU D SS MIC MUTE 00 bps SW IC U0CFV Q DTCEU F- CH/L VVOL VSQL CHK VVOLV VSQLV WR, RD, FAI CS, WR, RD, FAI MA0 MA OCTAL US UFFER IC0 TCS0FU IC TCACF D-RAM IC LHAS-0A MD0 MD R TFT LCD INTERFACE IC MFP D SS VCOM DIAMOND AMP Q, Q SC0 Q, Q SA VC V VL DIAMOND AMP Q, Q SC0 Q, Q SA MIC INPUT J MDATA E MIC MICE PTT EXTMIC MU/D MV MICV SW Q0 SD Q DTAEU Q DTCEU D MA0 D SS MIC SEL D SS VDIAL F- F- F- UVOL USQL UDIAL VDLA VDL KV PWRK UVOLV USQLV UDLA UDL XTAL EXTAL X CR-. MHz CLKI X CSTC.MXJ00 R NTSC/PAL VIDEO CHROMA IC M0FP [EUR], [ITA] M0FP Other V RE F- TCW0FU INVERTER D0 IC MA00 X CR- (. MHz) [EUR], [ITA] CR-0 (. MHz) Other POWER A0 A D0 D RXD LRES WAIT TXD COLOR RAPHICS LCD CONTROLLER IC SEDF0A TDATA UFFER AMP Q SC0 RDATA UFFER AMP Q SA V CTRLV CONTROL UNIT VIDEO AMP Q SC0 SP V RE D MA00 V EXTV VA V RE D MA0 V RE D MA0 HV TDATA RDATA ND SP SPE J J J HV TDATA RDATA ND SP SPE CV RE IC TA0F R DATA UFFER AMP Q0 SC0 T DATA UFFER AMP Q SA MU/D PROTECTER D MA0 MDATA CONT IC TAS0F D MA0 PTTM CTRL Q SC0 D SS CV RESET IC S-0ALMP-DA X SMD MHz INITIAL MATRIX EEPROM IC X0SI EXTMIC MU/D MICIN PTTM RES OSC OSC IS0, IS, IS II0, II, II, II ESI,ECS, ESCK ESO PCTRL FA RX RX CP IC HD HD COMPLETE VIEW 0 -

38 HV POWER SW CTRL Q DTCXU Q S0 V RE IC TA0F PROTECTER D DSAA D RD0E V_MOD MUT Q SC VRV.V V VTV VVCOV CV PLLV V_SHIFT Q DTCEU D MA V IAS SEL Q UMN / Q DTEK VTV RE Q SC0 Q0 SA V_VCOS RE Q SC0 D SS PLLV Q DTCEU Q DTEK RV UTV UVCOV U IAS SEL Q UMN / Q DTEK UTV RE Q SC0 Q SA U_VCOS RE Q SC0 D SS URV UV SW D SS D DAN0U MIC AMP Q SC0 IDC AMP IC NJMM / Q SC LPF ICA NJMM / MIC SENS. CTRL IC TCSFU D SS MIC MUTE 00 bps SW IC U0CFV Q DTCEU 00 bps AMP IC NJMM / MU/D PROTECTER D MA0 MICV SW Q0 SD Q DTAEU Q DTCEU D MA0 D SS MIC SEL D SS EXTMIC PCTRL FA RX RX MMUTE, DTMUTE, MRIPT DTMF, ETONE CTCSS W/N LIMIT UMMUTE 00 bps LIMIT ICA NJMM / D MA D R0F LV U_MOD MUTE Q SC VAM VTX UTX MDATA CONT IC TAS0F D MA0 VMMUTE VSHIFT PTTM CTRL Q SC0 D SS MU/D MICIN PTTM DATA, CK, PLST, ST PO CTRL ( it) USQL CV USOUT UAM PSEL PSQL RESET IC S-0ALMP-DA RES CPU IC HDN 0H [USA] HDN H PTTP VUNLK VSQL VSOUT OSC UUNLK X SMD MHz OSC TONEIN RXDF CLONEC, TMAIN, TXDF INITIAL MATRIX IS0, IS, IS II0, II, II, II VDMUTE, UDMUTE, DMAIN STD, Q, Q, Q, Q, OPD EEPROM IC X0SI ESI,ECS, ESCK ESO VDATA, VCK UAMUTE VAMUTE COMPLETE VIEW

39 V_MOD MUTE Q SC V_VCO Q, Q SC0 D HVU0 UFF AMP Q SC0 V_VCO FREQ. [EUR] RX. 0. MHz TX MHz [ ITA] RX 0.. MHz TX MHz [USA] RX 0.. MHz TX MHz [SEA], [CSA] RX 0.. MHz TX 0 0 MHz TX/RX FREQ. [EUR] RX/TX MHz RX/TX 0 0 MHz [ITA] RX/TX MHz RX 00 0 MHz TX 00 MHz HV [USA] RX MHz TX MHz RX/TX 0 0 MHz [SEA] RX MHz TX 0 0 MHz RX/TX 0 0 MHz [CSA] RX MHz TX 0 0 MHz RX/TX 0 0 MHz ANT V_SHIFT Q DTCEU D MA V_DC-AMP Q SK0 V_LOOP FIL. Q SC Q00 SK0 V_DET SW Q DTCEU Q SJ Q SC0 UFF AMP Q SC LPF UFF AMP Q SC0 W/N CHENER Q SK NOISE FIL LPF V nd Lo :. MHz V_ LO SW D MA V-st Lo VRV VAC V_IF AMP Q0 SC D0 MA ATT V-st Lo [EUR]. 0. MHz [ITA], [USA], [SEA], [CSA] 0.. MHz CRYSTAL FIL FI FL- V_PRI DRIVE Q SC V_MIX Q SK V_DRIVE Q SC D DA D SS VRV LPF PF D, D, D HVU0 D SS V_PA IC M VRV VAC V_RF AMP Q SK V_APC DET D, D R0F PF D HVU0 D SS V_ANT SW D UM0F D SS D UM0F V_ATT CTRL Q SC0 LPF / V_AM DET Q, Q SK0 D R0F VAC SW VSQL VSOUT CERAMIC FIL FI ALFY0F-K V_MIX, OSC, IFAMP, FMDET, SDET, NOISEAMP, SQLSW, AFFIL IC TAFN SW X CD0C V_IFV D0 MA0 W/N CHANER Q SC VRV. MHz D/A CTRL IC MP VATT UATT LVO LVO LVO LVO POW CTRL D/A Q DTCXU RX TX HI/LOW CTRL IC TAS0F VTX UTX HV APC CTRL Q0 SP Q SC0 D0 DAN0U HPF V_AC Q DTCEU Q0 SC0 D SS ICA IC TCWF CERAMIC FIL FI CFWS0HT IC ICA TCWF W/N CTRL Q DTAEU DATA, CK, ST PO CTRL ( IT) U_VCO FREQ. [EUR], [SEA] RX.. MHz TX 0 0 MHz [ITA] RX.. MHz TX 00 MHz [USA], [CSA] RX. 0. MHz TX 0 0 MHz RX/TX DATA US HV U_ATT CTRL Q SC0 LPF U_VCO Q0,Q SC D0,D SV U_LOOP FIL Q0 SC Q0 SK0 PLL IC M0AP UFF AMP Q SC0 UFF AMP Q SC X CR-. MHz UFF AMP Q SC0 UAC U_AC Q DTCEU Q SC0 D0 SS LPF PF U_DET SW Q DTCEU Q SJ Q SC0 U_LO SW D MA D MA USQL USOUT NOISE FIL U_LO UFF Q SC0 U_MIX, OSC, IFAMP, FMDET, SDET, NOISE AMP, SQLSW, AFFIL IC TAFN HPF U_ANT SW U_DRIVE U_PRI DRIVE U_PA U_APC DET D UM0F Q SC LPF Q SC IC SC- D, D D SS D DA R0F D UM0F U st Lo D HVUTRF U st Lo [EUR], [SEA] URV UAC URV.. MHz [ITA].. MHz RV U_IF AMP Q SC D R0F URV U_MIX Q DTCEU Q SK D DAN0U U_CRYSTAL FIL FI FL-00.0 MHz U_RF SW D, D, D, D MA U_PF FI EFCH MWNP EFCHMWNP [USA], [CSA] only U_RF AMP Q SK D SS U_RF SW D MA U_AM DET Q, Q SK0 D R0F CERAMIC FIL FI CFWS0F X CD0C U_IFV RE D MA0 DATAIN PACKET DET SELECTOR IC U0CFV Q DTCEU PSQL SW Q DTCEU PTTP CTRL Q SC0 D SS AFOUT PSQL DATAOUT PTTP J DATA I/O TONE FIL IC0 NJMM TONE, DATA SELECTOR IC U0CFV CLONE UFF Q DTCTU D,D DA0U U_MON AMP Q SC0 U_AF FIL Q, Q SC0 VOL CTRL IC0 MFP U_MUTE Q SC.V AF AMP IC LA J DTMF DEC UNIT (UT-) OPTION DETO DET SELECTOR IC U0CFV Q DTCEU V_MON AMP Q SC0 V_AF FIL Q, Q SC0 COM_MUTE IC TCSF Q SC J EXT SP V_MUTE Q0 SC CLONE I/O MAIN UNIT COMPLETE VIEW

40 SECTION 0 LOCK DIARAM V F- F- F- F- CH/L VVOL VSQL VDIAL F- F- F- UVOL USQL UDIAL V RE IC TALF RESET IC S-0ANMP-DD KV CHK VVOLV VSQLV VDLA VDL KV PWRK UVOLV USQLV UDLA UDL CPU IC0 HD0SK DC-DC CONVERTER IC MFP Q S D S0-0PCP CTRLV RE Q S IC TAL0F XTAL EXTAL M/ESW MA0 MA X CR-. MHz D-RAM IC LHAS-0A CLKI CTRL HV SW Q SA Q DTCEU PD AMP IC TCSF D SV MD0 MD X CSTC.MXJ00 TFT LCD INTERFACE IC MFP D SS R NTSC/PAL VIDEO CHROMA IC M0FP [EUR], [ITA] M0FP Other V RE F- TCW0FU INVERTER D0 IC MA00 X CR- (. MHz) [EUR], [ITA] CR-0 (. MHz) Other POWER RES CTRLV WR, RD, FAI A0 A D0 D RXD PWRS IN/EXT CONTV RITV CS, WR, RD, FAI LRES WAIT TXD.V VC OCTAL US UFFER IC0 TCS0FU IC TCACF COLOR RAPHICS LCD CONTROLLER IC SEDF0A TDATA UFFER AMP Q SC0 RDATA UFFER AMP Q SA V RE D MA0 V CTRLV R V RE A//C IC, IC, IC TAL0F TFT CONTROLLER IC MN IC TCWFU D SS VA V CONTROL UNIT VC VIDEO AMP Q SC0 SP CFL DRIVE Q, Q SC Q DTCEU Q0 SA.V VC V R V RE D MA00 TFT COLOR LCD DS EDTCAQ0 STH, DEH, QH, CPH, CPH, CPH, CPV, STV VC EXTV V VCOM DIAMOND AMP Q, Q SC0 Q, Q SA VC V VL DIAMOND AMP Q, Q SC0 Q, Q SA V CFL ACK LIHT VA V RE D MA0 V RE D MA0 HV TDATA RDATA ND SP SPE J J INPUT POWER DC. V W MF (CHASSIS) MIC INPUT J J MDATA E MIC MICE PTT EXTMIC MU/D MV HV TDATA RDATA ND SP SPE FAN CONTROL Q SC0 Q S D MA0 CV RE IC TA0F R DATA UFFER AMP Q0 SC0 T DATA UFFER AMP Q SA MU/D PROTECTER D MA0 MDATA CONT IC TAS0F D MA0 PTTM CTRL Q SC0 D SS POWER SW CTRL Q DTCXU Q S0 V IAS SEL Q UMN / Q DTEK U IAS SEL Q UMN / Q DTEK CV X SMD MHz INITIAL MATRIX EEPROM IC X0SI MIC SENS. CTRL IC TCSFU D SS RESET IC S-0ALMP-DA VRV RV EXTMIC MU/D MICIN PTTM RES OSC OSC IS0, IS, IS ESI,ECS, ESCK ESO V RE IC TA0F.V V MIC MUTE 00 bps SW IC U0CFV Q DTCEU MICV SW Q0 SD Q DTAEU Q DTCEU D MA0 D SS MIC SEL D SS II0, II, II, II VTV RE Q SC0 Q0 SA UV SW D SS D DAN0U PCTRL FA VTV UTV RE Q SC0 Q SA RX RX UTV MIC AMP Q SC0 PROTECTER D DSAA D RD0E V_VCOS RE Q SC0 D SS URV MMUTE, DTMUTE, MRIPT DTMF, ETONE CPU IC HDN 0H [USA] HDN H U_VCOS RE Q SC0 D SS VVCOV IDC AMP IC NJMM / Q SC CTCSS W/N LIMIT UVCOV UMMUTE PLLV Q DTCEU Q DTEK DATA, CK, PLST, ST 00 bps AMP IC NJMM / USOUT UUNLK UAMUTE VAMUTE LPF ICA NJMM / 00 bps LIMIT ICA NJMM / D MA D R0F LV HV PO CTRL ( it) USQL PTTP VUNLK TONEIN CV RXDF CLONEC, TMAIN, TXDF VDMUTE, UDMUTE, DMAIN STD, Q, Q, Q, Q, OPD VDATA, VCK U_MOD MUTE Q SC VAM VTX UTX VMMUTE VSHIFT UAM PSEL PSQL VSQL VSOUT PLLV V_MOD MUTE Q SC V_SHIFT Q DTCEU D MA V_DC-AMP Q SK0 U_VCO Q0,Q SC D0,D SV U_LOOP FIL Q0 SC Q0 SK0 TONE FIL IC0 NJMM V_VCO Q, Q SC0 D HVU0 V_LOOP FIL. Q SC Q00 SK0 V_AM DET Q, Q SK0 D R0F VAC V_AC Q DTCEU Q0 SC0 D SS PLL IC M0AP V_DET SW Q DTCEU Q SJ Q SC0 UFF AMP Q SC0 UFF AMP Q SC X CR-. MHz TONE, DATA SELECTOR IC U0CFV UFF AMP Q SC0 UFF AMP Q SC LPF SW ICA IC TCWF VSQL VSOUT V_VCO FREQ. [EUR] RX. 0. MHz TX MHz CERAMIC FIL FI ALFY0F-K CERAMIC FIL FI CFWS0HT UFF AMP Q SC0 W/N CHENER Q SK UFF AMP Q SC0 UAC U_AC Q DTCEU Q SC0 D0 SS CLONE UFF Q DTCTU D,D DA0U DTMF DEC UNIT (UT-) OPTION DETO [ ITA] RX 0.. MHz TX MHz NOISE FIL LPF V nd Lo :. MHz V_MIX, OSC, IFAMP, FMDET, SDET, NOISEAMP, SQLSW, AFFIL IC TAFN SW IC ICA TCWF LPF PF X CD0C U_DET SW Q DTCEU Q SJ Q SC0 U_LO SW D MA D MA U_AM DET Q, Q SK0 D R0F DET SELECTOR IC U0CFV Q DTCEU USQL USOUT [USA] RX 0.. MHz TX MHz V_ LO SW D MA V-st Lo VRV VAC V_IF AMP Q0 SC D0 MA V_IFV D0 MA0 W/N CHANER Q SC W/N CTRL Q DTAEU DATA, CK, ST PO CTRL ( IT) NOISE FIL CERAMIC FIL FI CFWS0F U_MON AMP Q SC0 V_MON AMP Q SC0 [SEA], [CSA] RX 0.. MHz TX 0 0 MHz ATT V-st Lo [EUR]. 0. MHz [ITA], [USA], [SEA], [CSA] 0.. MHz VRV U_LO UFF Q SC0 CRYSTAL FIL FI FL-. MHz U_MIX, OSC, IFAMP, FMDET, SDET, NOISE AMP, SQLSW, AFFIL IC TAFN X CD0C V_PRI DRIVE Q SC D/A CTRL IC MP U_AF FIL Q, Q SC0 V_MIX Q SK U_IFV RE D MA0 V_AF FIL Q, Q SC0 VATT UATT LVO LVO LVO LVO U_VCO FREQ. [EUR], [SEA] RX.. MHz [ITA] RX.. MHz [USA], [CSA] RX. 0. MHz HPF MAIN UNIT URV V_DRIVE Q SC D DA D SS VRV U_IF AMP Q SC D R0F TX/RX FREQ. [EUR] RX/TX MHz RX/TX 0 0 MHz POW CTRL D/A Q DTCXU TX 0 0 MHz TX 00 MHz TX 0 0 MHz U_CRYSTAL FIL FI FL-00.0 MHz LPF U_MIX Q DTCEU Q SK D DAN0U PF D, D, D HVU0 D SS VOL CTRL IC0 MFP PSQL SW Q DTCEU HV V_PA IC M VRV RX TX RX/TX VAC V_RF AMP Q SK DATA US U_RF SW D, D, D, D MA HV U_MUTE Q SC COM_MUTE IC TCSF Q SC V_MUTE Q0 SC V_APC DET D, D R0F U_PF FI EFCH MWNP PF D HVU0 D SS EFCHMWNP [USA], [CSA] only HI/LOW CTRL IC TAS0F U_ATT CTRL Q SC0 [SEA] RX MHz TX 0 0 MHz RX/TX 0 0 MHz V_ANT SW D UM0F D SS D UM0F VTX V_ATT CTRL Q SC0 UTX.V HV APC CTRL Q0 SP Q SC0 D0 DAN0U U_ANT SW U_DRIVE U_PRI DRIVE U_PA U_APC DET D UM0F Q SC LPF Q SC IC SC- D, D D SS D DA R0F D UM0F U st Lo D HVUTRF U st Lo [EUR], [SEA] URV UAC URV.. MHz [ITA].. MHz RV PACKET DET SELECTOR IC U0CFV Q DTCEU [ITA] RX/TX MHz RX 00 0 MHz TX 00 MHz PTTP CTRL Q SC0 D SS [USA] RX MHz TX MHz RX/TX 0 0 MHz U_RF AMP Q SK D SS AF AMP IC LA [CSA] RX MHz TX 0 0 MHz RX/TX 0 0 MHz LPF LPF U_RF SW D MA HPF DATAIN AFOUT PSQL DATAOUT PTTP ANT J J J DATA I/O EXT SP CLONE I/O LEFT SIDE 0 - CENTER RIHT SIDE

41 SECTION VOLTAE DIARAM CONTROL UNIT R 0k R 0k R k R k L 0 H R 0k C 0. W W IC TCW0FU EP MMZ0Y0T C 0.0 R0 M R D0 MA00 H X CSTCV.MXJ00 C0 0.0 C 0.0 C 0.0 DS EDTCAQ0 LCD 0 0 J STH OEH QH CPH CPH CPH ND R V RL STH VEE VCOM VH VDD STV OEV CPV U/D STV VL L 0 H L 0 H L 0 H L 0 H R.k C p C p C p C0 p C p C p R 00 R 00 R 00 R 00 R 00 R0 00 R 00 R 00 R 00 R 00 R 00 IC TCWFU C 0p 0 ZOOM VPOS VPOS 0 VPOS U/D POL INT/EXT CPV OEV OEV OEV STV OEH OH STH CPH CPH CPH CPH CPH. IC TAL0F C 0 C 0. C 0 C 0. C 0 C 0. C 0. R.k C 0 C 0. C0 0 C 0. C p C p C p C p C p FPDAT FPDAT FPDAT FPDAT FPDAT 0 FPDAT0 FPDAT FPDAT FPDAT DACCLK LANK # DACRD # IOVDD FPDAT FPDAT FPDAT FPDAT FPDAT FPDAT FPDAT FPDAT0 FPDAT FPDAT 0 FPDAT FPDAT FPDAT FPSHIFT FPFRAME MD COREVDD MD MD DACP0 MD MD DACWR# MD 00 MD DACRS0 MD 0 0 MD DACRS MD 0 MD HRTC MD 0 MD VRTC MD 0 IC LHAS-0A MD0 MD0 0 MD CLK I MD VCC 0 MD MD0 MD SUSPEND# MD I/O I/O 0 MD MD MD TESTEN MD I/O I/O 0 MD MD MD USCLK MD I/O I/O 0 MD MD 0 MD MD I/O I/O 0 MD MD IOVDD I/O I/O 0 MD MD0 A0 LCAS# I/O I/O IC MD MD A UCAS# I/O I/O0 SEDF0A MD MD A WE# I/O I/O A 0 A RAS# A R A IOVDD A 00k A MA A A MA VCC A MA A MA UW CAS A 0 A MA0 LW OE A 0 MA A MA RAS A0 0 MA0 MA0 A0 MA0 A0 JP A MA MA MA A MA A A MA MA MA A MA A A A MA MA 0 MA A MA A A A MA MA MA A MA A A A MA A MA VCC A MA A MA A A COREVDD A A A0 CS# M/R# S# RD# WE0# WE# RD/WR# RESET# PIO0 WAIT# IOVDD VS S D D D D D D0 D D D D D D D D D D0 FPDAT FPDAT FPDAT0 DRDY HSY VSY LCDPWR 0 FPLINE MD MD0 MD R0 k R0 k R0 k R k R k MD MD0 MD R 00k C0 0.0 R 00k C C 0. O I.0 JP R0 k R k R k FPDAT0 FPDAT FPDAT 0.. R 00 Q SC0 R R 00 Q SA R Q SC0 R R0 00 Q SA R R 0k R 0k R0 0k R 0k.0 R 00 R 0k R 0 R k.. 0. R k Q SA R R k Q SC0 R Q SA R R k Q SC0 R C 0p 0.. FPDAT FPDAT FPDAT R k R 0k R 00k R k R0 0k C0 R 0k R 0k R 0k C R 0k R 0. R 0 C 0. C 0. C 0p D MA00 H C 0 C 0. FPDAT FPDAT FPDAT L 0 H. L 0 H R 0k R 0k R 0k R 0k R k R 0k R 0 R k R k C 0p R R0 00 R 00 R 00 C 0. C 0p C 0. C 0. C 0. C 0p C0 0. C 0. C0 0p C0 0.0 C 0p C 0p C 0.0 C 0p C 0p R.k C0 0.0 C R 0p k RITV CONTV C C 0p 0.0 R k R k C 0.0 IC M OUT SU IAS 0 OUT SU IAS R R OUT FRP IN RIHT CONTRAST AM AM EXT IN R SU CONT R EXT IN 0 SU CONT EXT IN VCC R. 0 C R C 0.0 k D D D D D D D 0 D0 C0 0.0 C 0p C 0p R k C0 0 R 0 A A A0 CS A RD WR LRES WAIT R 00k COMPLETE VIEW

42 R 00. C p R 00 R 00 R 00 R 00 R 00 R0 00 R 00 R 00 R 00 R 00 R 00 IC TCWFU R 0k C 0. C 0p 0 U/D W W ZOOM VPOS VPOS 0 VPOS LK VDO HOUT VDIN SIDE SIDE HDIN SYIN POL INT/EXT CPV OEV OEV OEV STV OEH OH STH CPH IC MN CPH CPH CPH CPH CPH HALFSHIFT CPHSEL QHSEL PD / VDD VCOI 0 VDD PN HPOS HPOS HPOS HPOS UONS HDOT RESET VCOO 0 C 0p W W0 C 0. L 0 H C 0. D SS W C 0. L. H R 0k C 0 R k C. D SV R 0k D MA0 L R M C 0p C 0.. IC TCSF C 0. R k L 0 H C C 0 0p C0 p R k.. R k R0 k R 0k R k. CP Q SC0 R R k C 0. R.k R.k C 0. R. D MA0 M C 0 L 0 H L0 0 H C 0. C 0p C 0.. C. C 0 IC TA O IC TA O. C 0 C p C 0p R0 0 C. R00 0k.. R0 0 R0 0k R0.k C 0. C 0 R0.k R0 0 L 0 H C 0 R 0. R 0k R 0k C 0p C 0.0 IC0 TCS0FU C 0p R0 k C 0. C 0p C 0. C 0. C 0. C0 0. C 0. C0 0.0 C 0p C 0p 0 0 IC MFP OUT ND SU IAS IAS COUNT OUT COM OUT SU IAS R COM AIN R OUT FRP IN FRP IN VEE 0 RIHT VCC CONTRAST CP CONT AM HD IN AM SW EXT IN R CLAMP SU CONT R MAIN IN EXT IN CLAMP SU CONT MAIN IN EXT IN CLAMP R VCC MAIN IN R C 0p R.k C 0. C 0. C 0. C 0p W C 0. C0 0. C 0. IC M0FP : Other M0FP : [EUR, ITA] V IN VCC SY IN VCXO OUT ACC FIL VCXO MON SY OUT VCXO IN HD COLOR 0 PED CAP TINT C TRAP KILLER FIL Y OUT APC FIL CONT S.W. 0 R OUT KILLER OUT OUT PIX CONT OUT ND C p R 0 : Other 0 : [EUR], [ITA] X CR- CR- R.k : O.k : [E C 0p : O 00p : C 0p R C0 0p C 0p C 0.0 C0 0.0 R.k R k R k C 0.0. R 0 R k C 0.0 C 0p C 0p C 0p C 0p C00 0p D MA0 L. C 0.0 R k R k C. R M R k R k R k C 0.0 C 0.0 C C 0. R k RITV C 0p R k C C 0p 0.0 C 0.0 C 0.0 C0 0.0 R0 k C 0p CONTV C 0p R k C0 0 R 0 R 00k R k D SS R 00k C0 0 R.k PA PA PA PA COMPLETE VIEW

43 EXT V E J VIDEO IN J CFL DS HMS AW N/AZ Assy 0p. F L R k C0 p R k.. R k R0 k R 0k R k CP R k C 0. R.k R.k C 0. C 0 L 0 H L0 0 H C 0. C 0.. C. C 0 IC TAL0F O IC TAL0F O C 0 I C I. Q DTCEU R.k R.k. Q0 SA R C 0p.0 L SLF0T-0MR R.k C 0. C 0.0 Q SC S. Q SC S L XN-. 0. C C P IC TALF O C Q S DK I 0. C L.0 R 0 R.k C D S0-0PCP.0 SLF0T-MR- CS ES CT ND.. IC MFP. R. k C CD SI V INVIN R0 0k C0. R C. R0. R0. Q SA R R.k..0 R.k Q DTCEU. R 0k. C Q SC0 R R.k C R0.k C 0 IC TAL0F O W I. C 0p Q S R R. C C 0 C p C 0p R 0k C p C 0p C0 0. C 0p C 0p CFL CFL. HV TDATA RDATA ND SP SPE SP SPE C 0p J J TO MAIN UNIT J SP VS--0 L 0 H. R. P UVOL C 0p Q SC0 R D MA0 M C 0p. C 0.00 R k R 0k R0 0 C. R00 0k.. R0 0 R0 0k R0.k C 0. C 0 R0.k R0 0 L 0 H C 0 R 0. R 0k R 0k R 00k D0 D D D D D D D R0 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R k LRES P R k P PA PA R k C 0p R k C 0p C p C 0.00 C p R k C 0p S A COM USQL R 0k S EVQ-VENF0 C 0.0 IC0 TCS0FU R0 k C p 0 ENA A Y A Y A Y A Y VDD EN YA YA YA YA 0 IC TCACF CS WR RD C 0.0 R 0k R 0k R0 0k R 0k R 0k R 0k R 0k 0 0 P/D P/D P/D P/D P/D P/D P/D P0/D0 P/SCK/IRQ P/RXD P0/TXD P/TP/ADTR P/TP P/TP/TOCX P/TP/TOCXA P/TP/TIOC P/TP0/TIOCA P/TP/TIOC P0/TP/TIOCA R k R 00k R k R.k Q SA R R 0k P C 0.00 R.k R.k S S S F- F- F- UDIAL EODER R M C0 0 C. R.k C 0.0 IC M0FP : Other M0FP : [EUR, ITA] V IN VCC SY IN VCXO OUT ACC FIL VCXO MON SY OUT VCXO IN HD COLOR 0 PED CAP TINT C TRAP KILLER FIL Y OUT APC FIL CONT S.W. 0 R OUT KILLER OUT OUT PIX CONT OUT ND R k R k C0 0.0 PA R k R0 k C 0.0 C 0.0 C R 0 : Other 0 : [EUR], [ITA] C 0. R k X CR-0 : Other CR-: [EUR], [ITA] C p : Other p :[EUR], [ITA] R.k : Other.k : [EUR], [ITA] C 0p : Other 00p : [EUR], [ITA] C 0p C 0.0 : Other 0.0 : [EUR], [ITA] A0 A A A A A A A A A A0 A A A A A A A A R 0k R 0k R 0k R 0k R 0k R00 0k R0 0k R0 0k R0 0k R0 0k R0 0k R 0k 0 0 VCC P0/A0 P/A P/A P/A P/A P/A P/A P/A P0/A P/A P/A0 P/A P/A P/A P/A P/A P0/A P/A C0 0.0 JP WAIT C0 0.0 P/A IC S-0ANMP-DD OUT CD VDD IC0 HD0SKF P/A P0/WAIT MD0 MD FA I STY RES NMI EX TAL XT AL VCC P/AS P/RD P/WR RESO A.. 0. R 0k 0 C 0.0 R00.k R k P0/AN0 P/AN 0 R 0k C p X CR- R k C p PA/TP/TIOC PA/TP/TIOCA PA/TP/TIOC PA/TP/TIOCA PA/TP/TIOC0 PA/TP/TIOCA0 PA/TP/TCLK PA0/TP0/TCLKA P/IRQ P/IRQ P/IRQ P0/IRQ0 AVCC VREF P/AN P/AN P/AN P/AN P/AN P/AN 0 0 R k R 0 R 0k R0 k R k R k R k R k R k R k R0 k R k R k R k R k R k R k R k PA PA PA PA PA PA PA PA0 P0 P P P P P P P0 P C 0p P0 P P P0 PA0 PA R k R k R.k R0.k C 0p R k C0 p C 0.00 R k C C C p R k R.k R.k R k C 0p W R k R k S S S S S S S0 S A COM F- F- F- F- F- POWER CHANE R 0k R 0k VVOL VSQL S EVQ-VENF0 VDIAL EODER COMPLETE VIEW

44 SECTION VOLTAE DIARAM EXT V E J VIDEO IN CONTROL UNIT IC TCW0FU EP MMZ0Y0T C 0.0 R0 M R D0 MA00 H MD COREVDD MD MD DACP0 MD MD DACWR# MD 00 MD DACRS0 MD 0 0 MD DACRS MD 0 MD HRTC MD 0 MD VRTC MD 0 IC LHAS-0A MD0 MD0 0 MD CLK I MD VCC 0 MD MD0 MD SUSPEND# MD I/O I/O 0 MD MD MD TESTEN MD I/O I/O 0 MD MD MD USCLK MD I/O I/O 0 MD MD 0 MD MD I/O I/O 0 MD MD IOVDD I/O I/O 0 MD MD0 A0 LCAS# I/O I/O IC MD MD A UCAS# I/O I/O0 SEDF0A MD MD A WE# I/O I/O A 0 A RAS# A R A IOVDD A 00k A MA A A MA VCC A MA A MA UW CAS A 0 A MA0 LW OE A 0 MA A MA RAS A0 0 MA0 MA0 A0 MA0 A0 JP A MA MA MA A MA A A MA MA MA A MA A A A MA MA 0 MA A MA A A A MA MA MA A MA A A A MA A MA VCC A MA A MA A A COREVDD A A A0 CS A RD WR FPDAT LRES C0 0.0 WAIT FPDAT FPDAT FPDAT FPDAT FPDAT FPDAT FPDAT FPDAT0 A A A0 CS# M/R# S# RD# WE0# WE# RD/WR# RESET# PIO0 WAIT# IOVDD VS S D D D D D D0 D D D D D D D D D D0 FPDAT X CSTCV.MXJ00 FPDAT FPDAT FPDAT FPDAT 0 FPDAT0 FPDAT FPDAT 0 DACCLK LANK # DACRD # IOVDD FPDAT FPDAT C FPDAT FPDAT FPDAT FPDAT 0 C 0.0 FPDAT FPDAT0 R 00k FPSHIFT DRDY HSY VSY LCDPWR 0 FPLINE FPFRAME MD 0 D D D D D D D D0 MD0 MD C0 0.0 R0 k R0 k R0 k R k R k MD MD0 MD R 00k. C0 0.0 R 00k C C 0. IC TAL0F O I.0 JP DS EDTCAQ0 R0 k R k R k LCD FPDAT0 FPDAT FPDAT 0.. R J R 0k STH OEH QH CPH CPH CPH ND R V RL STH VEE VCOM VH VDD STV OEV CPV U/D STV VL Q SC0 R R 00 Q SA R Q SC0 R R0 00 Q SA R R 0k R 0k R0 0k R 0k.0 R 00. R 0k R 0 R k. 0. R k R k R 0k R k Q SA R Q SC0 R Q SA R R k Q SC0 R C 0p 0.. FPDAT FPDAT FPDAT R k C 0 C 0. R k R 0k R 00k R k R0 0k L 0µH C 0 L 0µH C 0. C 0 C0 R 0k R 0k R 0k C R 0k R 0 C 0.. L 0µH R 0 C 0. C 0. C 0. R.k C 0p L 0µH R.k C 0 C 0. D MA00 H C 0 C 0 FPDAT FPDAT FPDAT L 0µH. C0 0 L 0µH. L 0µH R 0k R 0k R 0k R 0k C p C 0. R k C p C p R 0k R 0 R k C p C p R k C0 p C p C 0p C p C p R R0 00 R 00 R 00 C p C p R 00 R 00 R 00 R 00 R 00 R0 00 R 00 R 00 C 0. C 0p C 0. C 0. C 0. C 0p C0 0. C 0. C0 0p C0 0.0 C 0p C 0.0 C 0p R 00 R 00 R 00 C 0p C 0p C 0p C0 0.0 RITV CONTV C 0p R.k IC TCWFU R k C 0p C 0p C 0.0 R 0k R k R k C 0.0 C 0. C 0p R k C 0.0 U/D W W ZOOM VPOS VPOS 0 VPOS LK VDO HOUT VDIN SIDE SIDE HDIN SYIN POL INT/EXT CPV OEV OEV OEV STV OEH OH STH CPH IC MN CPH CPH CPH CPH CPH HALFSHIFT CPHSEL QHSEL PD / VDD VCOI OUT SU IAS OUT SU IAS R R OUT FRP IN RIHT CONTRAST AM AM EXT IN R SU CONT R EXT IN SU CONT EXT IN VCC. C0 0 0 IC MFP R 0 R k R 0 C 0.0 VDD PN HPOS HPOS HPOS HPOS UONS HDOT RESET VCOO ND IAS COUNT COM OUT COM AIN FRP IN VEE 0 VCC CP CONT HD IN SW CLAMP MAIN IN CLAMP MAIN IN CLAMP R MAIN IN R C 0p C 0p R 00k 0 C 0p C 0p W W0 R k C 0. L 0µH C 0. D SS C 0p C 0p C 0p W C 0. L.µH D SS R 0k R 00 C 0 R k C00 0p R.k PA C C 0. C 0. C 0.. C 0p R D SV R 0k D MA0 L R M C 0p C 0. IC TCSF C 0. W C 0. C0 0. C 0. D MA0 L.. PA C 0.0 PA. C 0p R k R0 0 L 0µH C C 0 0p R 00k R k R k R M C0 0 C0 p R00 0k C. R k. C. R k R0 k R0 0 R 0k R k CP Q SC0 R.. R.k C 0.0. R k C 0. R0 0k R.k R.k C 0 C 0. R. D MA0 M R0.k C 0. R0.k R0 0 C 0 L 0µH L0 0µH C 0. C 0p L 0µH C 0 R 0 IC M0FP : Other M0FP : [EUR, ITA] V IN VCC SY IN VCXO OUT ACC FIL VCXO MON SY OUT VCXO IN HD COLOR 0 PED CAP TINT C TRAP KILLER FIL Y OUT APC FIL CONT S.W. 0 R OUT KILLER OUT OUT PIX CONT OUT ND R k R k. C0 0.0 PA R k R0 k C 0.0 C 0.0 IC0 TCS0FU C 0.0 C 0. R0 k C p C C... R 0k C 0 R 0 : Other 0 : [EUR], [ITA] IC TAL0F O R 0k C 0. R k IC TAL0F O. C 0 R 00k 0 IC TCACF X CR-0 : Other CR-: [EUR], [ITA] C p : Other p :[EUR], [ITA] R.k : Other.k : [EUR], [ITA] C 0p : Other 00p : [EUR], [ITA] I C I C 0p ENA A Y A Y A Y A Y VDD EN YA YA YA YA 0. Q DTCEU C 0.0 : Other 0.0 : [EUR], [ITA] R.k R.k. CS WR RD C 0.0 Q0 SA R C 0p D0 D D D D D D D A0 A A A A A A A A A A0 A A A A A A A A.0 L SLF0T-0MR R.k C 0. R0 0k C 0.0 Q SC S R 0k R 0k. Q SC S R 0k R 0k R 0k R0 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R 0k R00 0k R0 0k R0 0k R0 0k R0 0k R0 0k R 0k L XN- R 0k C R 0k VCC P0/A0 P/A P/A P/A P/A P/A P/A P/A P0/A P/A P/A0 P/A P/A P/A P/A P/A P0/A P/A C0 0.0 C P R 0k JP WAIT IC TALF O C R 0k C0 0.0 Q S DK I 0 P/D P/D P/D P/D P/D P/D P/D P0/D0 P/SCK/IRQ P/RXD P0/TXD P/TP/ADTR P/TP P/TP/TOCX P/TP/TOCXA P/TP/TIOC P/TP0/TIOCA P/TP/TIOC P0/TP/TIOCA P/A 0. C L IC S-0ANMP-DD OUT CD VDD 0 IC0 HD0SKF C 0.0 P/A P0/WAIT MD0 MD FA I STY RES NMI EX TAL XT AL VCC P/AS P/RD P/WR RESO A.. 0. R 0k.0 R 0 R.k C D S0-0PCP 0 R00.k.0 SLF0T-MR- R k CS ES CT ND.. IC MFP. R. k C P0/AN0 P/AN 0 R 0k C p CD SI V INVIN R0 0k X CR- C0. R k C p R C. R0. R0. PA/TP/TIOC PA/TP/TIOCA PA/TP/TIOC PA/TP/TIOCA PA/TP/TIOC0 PA/TP/TIOCA0 PA/TP/TCLK PA0/TP0/TCLKA P/IRQ P/IRQ P/IRQ P0/IRQ0 AVCC VREF P/AN P/AN P/AN P/AN P/AN P/AN R k LRES Q SA R R.k R.k Q DTCEU. P R k R k R k R 0 R 0k R0 k R k R k R k R k R k R k R0 k R k R k R k R k R k R k R k PA PA PA PA PA PA PA PA0 P0 P P P P P P P0 R 00k R 0k R k. C Q SC0 R R.k R.k Q SA R R 0k C R0.k C 0 IC TAL0F O P P PA PA P P C 0p P0 P P P0 PA0 PA W I. C 0p R k R k Q S R R. C R.k R0.k R k C 0p C 0.00 C 0p C 0 C p R k R k C0 p C 0p R 0k C 0p C p C 0.00 C p R k C C C p C 0p C0 0. C 0.00 C 0.00 C p R.k R.k R k R.k R.k R k C 0p C 0p W C 0p R k R k C 0p R k R k CFL CFL. HV TDATA RDATA ND SP SPE SP SPE C 0p J S J S A COM S S S S S S S S S S0 J A COM F- F- F- F- F- F- F- F- POWER CHANE R 0k R 0k CFL DS HMS AW N/AZ Assy TO MAIN UNIT J UVOL R 0k USQL R 0k SP VS--0 S EVQ-VENF0 UDIAL EODER VVOL VSQL S EVQ-VENF0 VDIAL EODER LEFT SIDE CENTER - RIHT SIDE

45 CLONE V MAIN UNIT HV VTX R.k Q VSHIFT D SS HV TDATA RDATA ND R k SP SPE R.k C0 0.0 R0 k CONTROL UNIT J J D SS OUT VDD C p R.k R k R 0k IC S-0ALMP-DA-T C 0 CS SO WP CD IC X0SI-... R 0k R 0k Q0 SC0 R k R k Q SA C VCC HOLD SCK SI. C 0.0 R k TXDF 0.0 RXDF C0 p. R.k R.k R.k R 00k Q SC0 0. R 0k C p C p PTTM PTTP R k R0 k MICUD C C DMAIN p X p SMD MHz R R EP 0k k POWC MMZ0Y0T P0/AN0 P/SE0 EP R k A P/SE MMZ0Y0T R k TEST P/SE C R0 k X P/SE R 0k X P/SE 0 R 0k P/SE R 0k OSC P/SE R.M RESET OSC IC P0/SE R k UMMUTE 0 RES P/SE HDN0H [USA] R k VMMUTE CLONEC R k NMI [Other] P/SE DTMUTE PLST P0/IRQ/ADTR HDNH R k R k P/SE0 R k MMUTE ST R k P/SCK P/SE R0 k PSEL CK R k P/SI P/SE Rk PSQL DATA R k P/SO P/SE R k UTX P/SCK P/SE 0 R k VTX RXD P/RXD P0/SE R k W/N UDMUTE TXD P/TXD P/SE MW/N VDMUTE P/IRQ0 P/SE R k VSHIFT 0 P/IRQ/TMIF P/SE R k L P/IRQ P/SE R k P/IRQ P/SE0 R k RX P P/SE R k P/TMI P/SE C0 R k RX C0 P/TMOFH P0/SE 0p 0p P/TMOFL P/SE C0 C0 R C0 k W 0p R k R0 UAM ETONE k R k VAM PCTRL ETONE R R00 k DMAIN k R0 k TMAIN CTCSS R k UUNLK R k VUNLK DTMF C0 C R k MRIPT 0. R C R R0 k VCK 0k k VDATA DTMUTE C R0 k MMUTE 0 MRIPT LIMIT SP C p R 00k R k R M DTMF UNIT (OPTION). MICIN R C 0. R.k Q SC0 R 00k J 0 D SS R k R 0k R 00k OPD ND DETO CV TOE Q Q Q Q STD R 00k EXTMIC R 00k 0. R 00k R 00k OPD Q Q Q Q STD P/AN P/AN P/AN P/AN P/AN P/AN P/AN AVREF VTREF TONED TONEM AVCC PE/SE/CL PE/SE/CL PE/SE0/DO PE0/SE/M PD/SE PD/SE PD/SE PD/SE PD/SE PD/SE PD/SE PD0/SE VCC P0/TMOW V V V VCC PA/COM PA/COM PA/COM PA0/COM P0/WKP0/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P0/SE P/SE0 P/SE P/SE P/SE P/SE P/SE R0 k R0 k R0 k R0 k E II II II II0 D0 D R0 k PTTP D PTTM R0 k IS0 R0 k D D D D IS R k W D D D D0 IS D R00 k R k R k R k R k R k R k R0 k R0 M R k R k R k R0 k R k R k R0 k R k R k R k C 0.. R 0k IC TCSF. D SS C. PTTP LIMIT LV TONEIN VSQL VSOUT USQL USOUT DTMF CTCSS Q Q Q Q STD OPD VDMUTE UDMUTE VAMUTE UAMUTE FA R 0k R 0k D MA0 CLONEC TXDF RXDF TMAIN TONEIN. R 0k R k R0.. D MA0 IC0 NJMM C 00p. Q0 SD C. 0.0 C 0.0 R0 C 0 R0 0 Q C DTAEU Q DTC EU D SS. R M R 0k R 00k C 0. R 0k R0 0k C. R0 00k Q DTCEU C 0. Q DTCEU R k IC R TCSFU 00 R.k C 0 R 0k C C 0. IC0A NJMM C R.k C0 0. C R 00k R 0k R 0k R k R k C 0. C R 0k R 0k R 00k R0 0k R k C 0.0 R 00k R 0k R 0k R k C R k other k [USA] only R.k Other k [USA] CP R.k C 0.0 R 0 R M R k R0 k R 0k C0 0. R.k R 0k C C 0. C0 R 0k C C 0. C VDD CONT.A CONT.D I/O O/I O/I I/O I/O O/I O/I I/O CONT. CONT.C VEE R 0k IC U0CFV VDD CONT.A CONT.D I/O 0 O/I O/I I/O I/O O/I O/I I/O CONT. CONT.C VEE C0 0 R k 0. VDD Y X X X0 A 0 C Y Y0 Z Z Z0 INH VEE C 0. C0 Q SC0 R 00 R 00k. R IC U0CFV R 0 R.k C 0. R0 k R 0 R k R 0k 0. C 0. R 0k C 0. R 00k R 00k IC U0CFV. W R k C0 0.0 R k C 0.0. C 0.0 C R 0k R k C0 0.0 R k C 0.0 R0 0k C p R 0k R 0k C0 0.0 C0.0 R 0k C 0.0 C. R 0k R 0k IC R k NJMM.00 R k R 0 Q SC0 R.k R 0 R0.M D DA0U Q DTCEU Q SC IC NJMM R k R 0k R 0k R 0k R 0k C R.k C0 0.0 C 0.00 R k C 0.0 C R k R0 0k C Q SC D MA C 0. C00 0. C 0. C 0 R k R k [EUR], [ITA] only R k [EUR], [ITA] only. C 0.00 R k C R k R 0k R 0k R k Q SC0.... C 0. R k C 0p R M R 0k R 0k R.k R0 0k R.k R0 M R0 0k C 0. R k C 0.00 R k D DA0U R k R.k Q SC0 Q SC0. R0.k C 0. R k C0 0. C C C C. C p R k R0 k R0 k R k Q SC0 R0 k R0 00 ICA NJMM D ICA R0F-0 NJMM C0 00p R k. R 0k MOD C 0 UAFO VAF UDET UAF MW/N CV VMMUTE ST DATA CK PLST VUNLK UUNLK UTX LV UMMUTE RX RX POWC VDET L VDET C R.k C0 R 00k Q DTCEU D SS C C C W R0 0 W R 0 D0 MA0 C R 00k C R 0 C 0. X CD0C R 0 Q DT Q SC0 Q Q Q, : UMN VR. C 00 Q, C 0.00 VR. VR R0.k Other.k [EUR], [ITA ] VR 0 C 0.0 R J VAFO MIC INPUT MV MU/D EXTMIC PTT MICE MIC E MDATA L0. H L. H L. H L. H L. H L. H L 0. H L. H C C p p C C p p C0 p D MA0 C p D SS C 0 DATAIN R 00k Q DTCEU AFOUT C I/O O/I O/I I/O CONT. CONT.C VEE VDD CONT.A CONT.D I/O 0 O/I O/I I/O IC U0CFV C C DATAOUT C Q DTCEU R 0k PSQL PSEL PSQL CV VSQL COMPLETE VIEW

46 CLONE V HV SC0 R M D DA0U R k R.k VTX VSHIFT CV VMMUTE ST DATA CK PLST VUNLK UUNLK D SS Q R DTEK 00. Q. UTX SC0 R.k C R 00k Q DTCEU C R 0k Q SC0 R k C C 0 R 0k R0 0k C C Q SC R.k R.M C 0. R.k Q DTCEU C L C 0. H 0. C C R.k C 0.0 C 0. R.k R 0k C 0. D MA C0 L L-0 R k C 0. C0 R 0k R0 0k C p C 0.p D R HVU0 0 C C 0.p 0 XO SI CPS RST VCC FIN LOCK PD VT VF C R k R 0 Q SC0 IC M0AP ND 0 XIN XOUT OP OP FIN LOCK PD VT ND C 00p VV 0. R k R 0 Q SC0 W R 0 CP C0 p R C 00 C p VV. W C p C0 C 0p R k C p R 00 L 0. H R C 0k p Q SC0 VV 0. X CR- C 0p R 0k Q SC0 R 0k R.k Q SC0 R0 0k C0 0. C C.. C R0 k R0 k. R k VAF LV UMMUTE RX RX POWC R.k D SS C C C W R 00k Q Q Q, : UMN C 00 C C Q SC R k R0 0k C R NTCCM0LH Q Q Q Q Q,,, : DTEK Q SK0 C00 Q SC C 0 VR. C0 D DAN0U C0 C0 C0 L. H C0 p L. H C0 p L 0. H C 0.p Q0 UV 0. SC C 0.p Q SC C C 0.p 0.p UV. UV 0. Q0 SK0 Q00 SK0 R R L0 R R.nH k C R.k k C R R0 0k.k.k C0 C C R 0.0 R C R C C 0k R p 0. 0k C D0 C C SV D p SV R.k R.k R C C 0 UR. R R R R C0 C R0 D 0 C0 0 k C k SS R W R C0 0 p 0k p Q SC0 C R.k R0 M R0 0k. R0.k C 0.. Q SC0 R0 k UDET VDET L C R 0 W C C p C R0 Q0 00k SC VR.0 W VR. C C00 L. H R 0 R 00 C C R k VR. D0 MA C0 p C0 p C0 0.p L C. H p C p L. H W0 UR. C L R p 0. H C C C0 UR 0. Q SC R R C 0 00k R 0 UAF k 0p C 0.. R k C 0.00 R k R k R], [ITA] only R k C p R0 00 ICA NJMM D ICA R0F-0 NJMM...0 C0 00p R k. R 0k MOD C 0 UAFO VAFO MW/N PSEL VDET C0 R0 0 R 0 VR. C 0. D0 MA0 X CD0C C R0.k Other.k [EUR], [ITA ] VR 0. VR. VR. VR. VR 0. C 0. C 0.0 OSCIN OSCOUT MIXOUT VDD IFIN IAS FILOUT FILIN MIXIN VR 0. R0 0k IC TAFN NOUT NDET C 0.0 VR 0. SOUT IFOUT 0 QUADIN C 00p C 0.0 VR.0 C AFOUT C VR 0. C 0p R 0k C 0p C R 0 C C0 R0.k Q SC C 00p C 0. R 0 C R00 k R0 k R0 k W except [EUR], [ITA] R 0k R k Other k [EUR], [ITA] R0 M R NTCCM0NHKC R k C 0p Q SK VFM. Q SJ R0 M R.k Other.k [EUR], [ITA] C 00p Other 0p [EUR,ITA] Q0 DTCEU R0 k Q DTCEU IC TCWF C 0. R0 0k VR. W except [EUR], [ITA] ICA TCWF Q SC0 R k VAM.0 R0 0k Q SK0 FI ALFY0F=K FI CFWS0HT R 00k R 0k C R 00k C0 0. R k CP-SMV C 0.0 C 0. R 00 ICA TCWF [EUR], [ITA] only W except [EUR], [ITA] IC TCWF C 0.0 D R0F-0 VAM. C 0p R 0k L 0 H D SS C 0. [EUR], [ITA] only Q DTA EU C 0.0 R 0k Q SK0 C R0 k C VR Q0 SC0 R 0k Q DTCEU C PSQL VSQL VSOUT W/N VAM USQ Q DTCEU CV PSQL COMPLETE VIEW

47 R0 0k U0 C p R k C 0.p C 0.p 0 C C p C0 0.p L. H XO SI CPS RST VCC FIN LOCK PD VT VF C R k R k R 0 L 0. H L. H R0 0k ND 0 XIN XOUT OP OP FIN LOCK PD VT ND C R 0k R 0 IC TCWF C 0. VR. R0 0k C0 0.0 C0 p C p C p W0 W except [EUR], [ITA] R k C C ICA TCWF Q SC0 Q SK0 Q SC0 IC M0AP C 00p C p R 0 FI CFWS0HT R 00k R 0k D0 SV C 0.p Q0 UV 0. SC C 0.p VAM.0 C VV 0. R 00k C R k CP-SMV C FI ALFY0F=K C0 0. R k L0.nH R k R 0 Q SC0 R 0k C 0.0 C 0. R 0k R 00k R 00 R 0 Q SC W R 0 CP C 0.p D SV UR. C0 p C 0.0 D R0F-0 C 0p R C 00 C p C0 R 0k C p C0 ICA TCWF [EUR], [ITA] only W except [EUR], [ITA] IC TCWF VAM. Q DTCEU UR 0. VV. C R W C p C L 0 H C0 C 0p R k C C p L 0. H C 0. [EUR], [ITA] only C 0.0 R 0k R.k C C 0.p 0.p UV. UV 0. Q SK0 D SS R 00 L 0. H R C 0k p Q SC0 VV 0. Q0 SK0 C 0.0 R.k Q DTA EU C R.k R 0 R0 R 0k R 0 R0 k C X CR- C 0p Q SC0 R.k C. Q SC USQL L nh R 0 R k C R 00 C UR. R 0 VR. Q0 SC0 C p UR. UR. D MA0 C p R 0 C 0. R.k C R 0 R C C R0 C 0. Q0 SC C. UR. X CD0C R R k USOUT L 0. H C C p p Q SC0 R 0 R k C.p R k R 0 L nh C.p R 0 R D R0F-0 FI CFWS0F OSCIN OSCOUT MIXOUT VDD IFIN IAS FILOUT FILIN UR 0. C R MIXIN R 0k NOUT C0 0.0 R C p NDET SOUT IFOUT 0 C C0 p Q SC0 QUADIN C 0p IC TAFN AFOUT UR 0. R k C C 0.0 C p C FI FL-00 C C C0 C p Q SC Q SC UR. UR. C 0. R 0k UR 0. C C p C 0p R0 0 UR 0. C 0p C UFM. VT 0. C p R00 k C 0p R 0 C0 C R0.k C C 00p UAM Q SC0 R k R 0 C 0.p L nh L nh C 0p R 0k R k C p R k C C0 R NTCCM0NH R 0k C C p R0 0 R.k C0. FI FL- C0 Q SC0 Q DTCEU Q SJ C p R0 0k R0.k C. R k R.k UDET D MA R.k D0 DAN0U R.k C 00p VT. Q0 SA C R0 00k FIA FL- C Q SA D MA R0 D 00k MA UR. R0 00k R 00k R k C 0p UR. Q SC0 R 0k Q SK0 R.k C UT. R0 k C C R 00k C C 0p R0 0 D DAN0U W R 0k R 00k C 0p C C C UAM. R 00k C C VT. R 0 R L 0. H R 0 L 0. H R 00 C 0p R0 R0.k UT 0. L nh C R 0 C C C p Q SC0 R 00 R.k UR. R0 0 L H C 0. Q DTCEU VR. C0 p C0 C0 C p R 0 C Q DTCEU C 0. C 00p UR. R0 k R 00 C 0.0 L nh CP-SMU L nh C p R Q SK UT. C 0.0 DO LD CLK DI AO AO ND R 0 L nh R0 C 0p C0 p R 0k R C 0.0 C p R.k R 0 R k L nh VCC VDD AO AO AO AO 0 R C C R 0 L 0 H C 0.0 C p R D DA C 0p L 0. H R 0 L 0nH R0 0 W C p C p R.k L0 nh C R 0.0 0k D R0F-0 Q R SK0 k R 0k VR. UAM. IC MP Q SK UR. UFM 0. D0 SS Q SC UR. Q SC0 C R R.k L nh UR 0 VT. VT. R 0k C D SS R 00k LV0 LV0 LV0 LV0 C UATTC VATTC C p Q SC D MA L nh C D HVU0 R.k R k VDATA VCK VAMUTE UAMUTE VAF UAF C 00p D UT. DA UT. UT 0. R 00k D MA C0 P R.k C p R k R0.k R 0 R k C C0 L 0nH C L nh C p C C C p C p C p L0 nh R 00k R.k R 0 L nh V C p L0 nh C p D HVU0 C00 p C0 R C 0 C p C C0 p L nh C C L p nh R 0 C C p p Q SC R0.k C Q SC C0 VR. UR. FI EFCHMWNP D MA D MA R 0k C C p VR. VR. C. VIN VOUT ND DATA C0 p C 0 O C 0.p C C00 0.p Q SC0 R 0k R.k IC TA0F VR. R 00k C R 0 C0 p C0 p PCTRL C0 p D SS L nh C p Q SK R L0 0nH C p IC0 MFP I R C p VIN VOUT VCC CLK C C 0.0 IN VCC C0 0 C L nh C p R 00k IN C 0. C D HVU0 C0 00p C0 VCC C R 00 C C C VCC OUT VCC VCC R 00k R 0 C 0. R k C0 C R. k C0 R0 k R 0k L nh L 0. H C0 OUT C p. C p C 0. C p R k R 00 C0 R k L Q Q nh SC SC R C0 L nh R R0.k C0 0. VH. VMH. VHL. VL. UH.0 UHL.0 UMH.0 UL.. IC M-0 IC SC- UR. UR. C.. Q S0 Q DTCXU L LA- C 0p D SS C R k C0 p R.k C0 C0 p C C C0 L nh R0 00k IC R0 TCSF k. C 0. R k C 0. CV C p C C p R k C p C C p R k C 0. C 0 O 0. VR. C 0p C0 C C R k R 00 R0 k C L LA- C R 00k L0 LA- R k D R0F-0 FA C C p R 00k C C UR. R.k UR. D C MA R 00k R 0k I D R0F-0 R 0K Q0 SC R k R 0k Q DTCEU R 0k R 0 0. Q SC 0. IC TA0F C 00 C C 0. R VR. VR. Q SK C C R.k R 0 C R0 0k C R.k UR. R k C R 00 C p R k R 00k C C p W D SS C p L. H R 0k R k R0 k C0 0p R L 0. H C C R 00k C R 00k R 00k D R0F-0 R R D0 Q0 MA0 SK C0 p C 0p C p C C 00p D HVU0 R 00 L LW- C L nh R 0k IC TAS0F R 00 C 0p R k D MA0 C p C L LW- D HVUTRF C 0. D R0F-0 D SS C0 C C0 R p p k R L k.nh Q SC IC LA 0. C 0 C 0p C 0 R 0 C C 00 Q SC0 UT. C0 0 C 0. R. C R 0k Q S C 0 C 0. R. D UM0F C. C0 C 00 R k C 0. C C p C0 C D UM0F C C C D SS R 0 C 0p C p L LA- C p D UM0F C C p L 0. H R.k R 00 C R 00 C p C p R k VH. VMH. VHL. VL. UH. UMH. UHL. UL. L LA- R IC PC VT. D DSAA C p VH. VMH. L0 nh R 0k C 0. C C 00 C C Q SC0 VHL 0. VL 0. C C 0 C0 p L LA- D UM0F C R k R 0k L LA- C p R 0 C D RD0E R 0k R k Q SC0 U = 0 MHz and V = MHz and None = COMMON L LA- C p L LA- SP C0 0. R k L LA- C 0p R.M R.k C p C p L LA- L.nH L LA- C p Q0 SP Q DTCZU UH. UHL 0. UMH.0 UL 0. Q SC0 Q SC0 R0 0k R 0 Q SC0 C.p C C C C C p C0 p L LA- C.p L.nH C C C C 0. PTT P CHASSIS UNIT W J R k HV EXT. SP J CLONE I/O DATA I/O J PTTP W DC. V FV E J J MF M PSQL DATAOUT C DATAIN AFOUT C CHASSIS UNIT COMPLETE VIEW

48 CLONE HV TDATA RDATA ND R k SP SPE R.k C0 0.0 R0 k CONTROL UNIT J MAIN UNIT C 0 J D SS OUT VDD CS SO WP R 0k R 0k C p R.k R k R 0k IC S-0ALMP-DA-T CD IC X0SI-... Q0 SC0 R k R k Q SA C VCC HOLD SCK SI. C 0.0 R k TXDF 0.0 RXDF C0 p. R.k R.k R.k R 00k Q SC0 0. R 0k C p C p PTTM PTTP R k R0 k MICUD C C DMAIN p X p SMD MHz R R EP 0k k POWC MMZ0Y0T P0/AN0 P/SE0 EP R k A P/SE MMZ0Y0T R k TEST P/SE C R0 k X P/SE R 0k X P/SE 0 R 0k P/SE R 0k OSC P/SE R.M RESET OSC IC P0/SE R k UMMUTE 0 RES P/SE HDN0H [USA] R k VMMUTE CLONEC R k NMI [Other] P/SE DTMUTE PLST P0/IRQ/ADTR HDNH R k R k P/SE0 R k MMUTE ST R k P/SCK P/SE R0 k PSEL CK R k P/SI P/SE Rk PSQL DATA R k P/SO P/SE R k UTX P/SCK P/SE 0 R k VTX RXD P/RXD P0/SE R k W/N UDMUTE TXD P/TXD P/SE MW/N VDMUTE P/IRQ0 P/SE R k VSHIFT 0 P/IRQ/TMIF P/SE R k L P/IRQ P/SE R k P/IRQ P/SE0 R k RX P P/SE R k P/TMI P/SE C0 R k RX C0 P/TMOFH P0/SE 0p 0p P/TMOFL P/SE C0 C0 R C0 k W 0p R k R0 UAM ETONE k R k VAM PCTRL ETONE R R00 k DMAIN k R0 k TMAIN CTCSS R k UUNLK R k VUNLK DTMF C0 C R k MRIPT 0. R C R R0 k VCK 0k k VDATA DTMUTE C R0 k MMUTE 0 MRIPT LIMIT SP C p R 00k R k R M DTMF UNIT (OPTION) MIC INPUT. MICIN R C 0. R.k Q SC0 R 00k J 0 J R k R 0k R 00k OPD ND DETO CV TOE Q Q Q Q STD MV MU/D EXTMIC PTT MICE MIC E MDATA D SS R 00k EXTMIC R 00k 0. R 00k R 00k OPD Q Q Q Q STD P/AN P/AN P/AN P/AN P/AN P/AN P/AN AVREF VTREF TONED TONEM AVCC PE/SE/CL PE/SE/CL PE/SE0/DO PE0/SE/M PD/SE PD/SE PD/SE PD/SE PD/SE PD/SE PD/SE PD0/SE VCC P0/TMOW V V V VCC PA/COM PA/COM PA/COM PA0/COM P0/WKP0/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P/WKP/SE P0/SE P/SE0 P/SE P/SE P/SE P/SE P/SE R0 k R0 k R0 k R0 k E II II II II0 D0 D R0 k PTTP D PTTM R0 k L0. H L. H L. H L. H L. H L. H L 0. H L. H IS0 R0 k D D D D IS R k W D D D D0 IS D R00 k R k R k R k R k R k R k R0 k R0 M R k R k R k R0 k R k R k R0 k R k R k R k C C C C C0 p p p p p C 0. R 0k IC TCSF D SS D MA0.. C. PTTP LIMIT LV TONEIN VSQL VSOUT USQL USOUT DTMF CTCSS Q Q Q Q STD OPD VDMUTE UDMUTE VAMUTE UAMUTE FA R 0k R 0k D MA0 CLONEC TXDF RXDF TMAIN TONEIN. R 0k R k R0 D MA0 C p.. IC0 NJMM C 00p. Q0 SD C. 0.0 C 0.0 R0 C 0 R0 0 Q C DTAEU Q DTC EU D SS. R M R 0k R 00k C 0. D SS R 0k R0 0k C. R0 00k Q DTCEU C 0. Q DTCEU R k IC R TCSFU 00 R.k C 0 R 0k C C 0. IC0A NJMM C R.k C0 0. C R 00k R 0k R 0k R k R k C 0. C R 0k R 0k R 00k R0 0k R k C 0.0 R 00k R 0k R 0k R k C R k other k [USA] only R.k Other k [USA] CP R.k C 0.0 R 0 R M R k R0 k R 0k C0 0. R.k R 0k C C 0 C 0. C0 R 0k C C 0. C VDD CONT.A CONT.D I/O O/I O/I I/O I/O O/I O/I I/O CONT. CONT.C VEE R 0k IC U0CFV DATAIN VDD CONT.A CONT.D I/O 0 O/I O/I I/O I/O O/I O/I I/O CONT. CONT.C VEE C0 0 R k 0. VDD Y X X X0 A 0 C Y Y0 Z Z Z0 INH VEE C 0. C0 Q SC0 R 00 R 00k. R 00k R IC U0CFV Q DTCEU R 0 R.k AFOUT C 0. R0 k R 0 R k R 0k 0. C 0. C R 0k C 0. R 00k R 00k IC U0CFV. W R k C0 0.0 R k C 0.0. C 0.0 C R 0k R k C0 0.0 R k C 0.0 R0 0k C p R 0k I/O O/I O/I I/O CONT. CONT.C VEE R 0k C0 0.0 C0.0 R 0k C 0.0 C. R 0k R 0k IC R k NJMM.00 VDD CONT.A CONT.D I/O 0 O/I O/I I/O R k R 0 Q SC0 R.k R 0 IC NJMM IC U0CFV R0.M D DA0U Q DTCEU Q SC R k R 0k R 0k R 0k R 0k C R.k C0 0.0 C 0.00 R k C 0.0 C R k R0 0k C Q SC D MA C 0. C00 0. C 0. C 0 R k R k [EUR], [ITA] only R k [EUR], [ITA] only C C DATAOUT. C 0.00 R k C R k R 0k R 0k R k Q SC0.... C 0. R k C 0p R M R 0k R 0k R.k R0 0k R.k R0 M R0 0k C 0. R k C 0.00 R k C D DA0U R k R.k Q SC0 Q SC0. R0.k C 0. R k C0 0. C C C C. C p R k R0 k R0 k R k Q SC0 R0 k R0 00 ICA NJMM D ICA R0F-0 NJMM.. Q DTCEU..... R 0k PSQL.0 C0 00p R k. R 0k MOD C 0 UAFO VAFO VAF UDET UAF MW/N PSEL PSQL V HV VTX VSHIFT CV VMMUTE ST DATA CK PLST VUNLK UUNLK UTX LV UMMUTE RX RX POWC VDET L VDET CV C R.k R.k R 00k D SS C C R 0 R0.k Other.k [EUR], [ITA ] VR 0. VSQL D SS Q DTCEU C0 C W R0 0 W D0 MA0 C R 00k C R 0 C 0. X CD0C R 0k C C C 0 R 0k R0 0k C 0.0 C 00 C R k R0 0k R0 0k C 0.0 C C C C C C VH. VT 0. C Q0 Q Q VMH. SC VT. SA SC VHL. Q VL. SC0 R C D MA C R 00 R C C R R VT. Q DTCEU R C.k R0 k C C IC M-0.k p C0 C R R C R R R C R 0 0 0k 0k C C0 L R0 00 R.k R k C0 D C L 0. H C C R R DA L VT. VT. 0k C0 R 00p 0. H.k C LA- C0 R C p.k R. D MA C 0 0 L L L C R L L-0 k k nh 0p C C C p nh C 0. H 0.p C 0k C 0p VV 0. L L0 0. D C L C R C L p C 0. nh nh R C R R C C C R HVU0 C p C nh nh Q Q VV. Q R0 p R0 R p p D.k k 0 R C 0 C C 0.p p p R R R R C0 C SC0 SC0 SC0 R 00k SS k C C 0 p VV 0..k 00k Q p k p p R SC0 R 0 0 C R R0 VR. C IC M0AP R C C0 k D C C C0.k C0 C0 p p p p XO ND 0.p C DAN0U p SI XIN W W C 0. p C C C D CPS XOUT L R p W C HVU0 RST OP D C C0 D C X L R 0. H C VCC OP HVU0 p p HVU0 nh C0 R R p.k R CR- Q FI FL- FIA FL- R 00p L R p.k 0 CP SC Q 0.k FIN FIN C SK 0. H 00k C C L D C LOCK LOCK C C R 0p R0 00p PD PD p L C0 R p nh SS R0 R 0. 0 VT VT C C0 VF ND 0. H 0 R R 00k k C C0 0p.k.M C 0 0k L0 R 0. p R L C C0 C nh C00 00k p 00p 0. H C k p p 0. C C R 00 C C R0 Q0 00k SC VR.0 W VR. VR. VR. VR 0. C 0. OSCIN OSCOUT MIXOUT VDD IFIN IAS FILOUT FILIN R k Q R DTEK 00 Q. SC0 Q Q Q, : UMN VR. Q SC0 MIXIN Q SC IC TAFN NOUT NDET VSOUT SOUT IFOUT 0 QUADIN C 00p C 0.0 AFOUT Q SC R NTCCM0LH Q Q Q Q Q,,, : DTEK VR 0. VR 0. VR.0 Q SK0 C C00 VR. VR 0. C 0p R 0k C 0p C R 0 C C0 R0.k Q SC C 0. C p R 0 C C 0 C0 C C00 Q SC VR. C 00p R00 k R0 k R0 k C0 L. H R 0 W except [EUR], [ITA] R 0k C0 R0 M C C R k VAM D SS C0 R 00 R k C 0p W R0 M L. H C0 p D0 MA R 0 R.k Other.k [EUR], [ITA] L. H C0 p C0 p C0 p C 00p Other 0p [EUR,ITA] R0 k C0 0.p L. H R k L 0. H Q00 SK0 R R L0 R.k R C.nH k R.k k C R R0 0k.k.k C0 C C R 0.0 R C R C C 0k R p 0. 0k C D0 C C SV D p SV R.k R.k R C. C 0 UR. C0 D DAN0U R k Other k [EUR], [ITA] W/N Q SK VFM. R NTCCM0NHKC Q SJ VR. Q0 DTCEU Q DTCEU L. H R0 0k R 0 IC TCWF C 0. R0 0k VR. C0 p C p C p W0 W except [EUR], [ITA] R k C p C 0.p Q0 UV 0. SC C 0.p ICA TCWF Q SC0 VAM.0 Q SK0 R 0 FI ALFY0F=K FI CFWS0HT R 00k R 0k C R 00k C C0 0. R k CP-SMV R k C 0.0 C 0. R 00k R 00 R 0 Q SC UR. C 0.0 D R0F-0 C 0p C0 R 0k C p C0 ICA TCWF [EUR], [ITA] only W except [EUR], [ITA] IC TCWF VAM. Q DTCEU UR 0. C L 0 H C C C 0.p 0.p UV. UV 0. L 0. H C 0. [EUR], [ITA] only C 0.0 R 0k Q SK0 D SS Q0 SK0 Q DTA EU C R0 R 0k Q SC0 Q SC R 0 R0 k C USQL L nh R 00 C UR. C p R k R 0 VR. Q0 SC0 UR. UR. D MA0 Q0 SC C. R 0 UR. C 0. X CD0C R.k C C R C C R R k USOUT C.p R k R 0 R 0 L nh R D R0F-0 FI CFWS0F OSCIN OSCOUT MIXOUT VDD IFIN IAS FILOUT FILIN UR 0. MIXIN R 0k NOUT C0 0.0 R C p NDET SOUT IFOUT 0 C0 p Q SC0 QUADIN C 0p IC TAFN AFOUT UR 0. C C 0.0 C p Q SC C FI FL-00 C 0. C C UR. UR. R 0k UR 0. C p C 0p R0 0 UR 0. C 0p UFM. R00 k C C 0p R 0 C0 C 00p UAM R 0 C 0.p L nh C 0p R k R 0k R k C0 R NTCCM0NH R 0k C0 Q SC0 Q DTCEU R0 0 Q SJ R0 0k R0.k C. R k UDET R.k C 00p C Q SA D MA R0 D 00k MA UR. R0 00k R 00k R k C 0p UR. Q SC0 R 0k Q SK0 UT. R0 k C C C 0p R0 0 D DAN0U W R 0k R 00k C 0p C C UAM. R 00k C C 0p R0 R0.k UT 0. L nh C C p Q SC0 R 00 R.k UR. L H C 0. Q DTCEU VR. C0 p C p R 0 C Q DTCEU C 0. UR. R0 k UT. R 00 C 0.0 L nh UAM. CP-SMU DO LD CLK DI AO AO ND R 0 L nh R0 C 0p C0 p R 0k VCC VDD AO AO AO AO 0 R C C R 0 L 0 H L 0nH C 0.0 R0 0 C p C p L0 nh C R 0.0 0k D R0F-0 Q R SK0 k R 0k IC MP Q SK UR. UFM 0. D0 SS UR. Q SC0 C R R.k L nh UR 0 C LV0 LV0 LV0 LV0 C UATTC VATTC C p Q SC D MA R.k D UT. DA UT. UT 0. R 00k D MA C0 P R.k R k C p VDATA VCK VAMUTE UAMUTE VAF UAF R k C C0 L 0nH C R.k R 0 L nh V C0 C C C L p nh R 0 C C p p Q SC R0.k C C0 VR. UR. FI EFCHMWNP D MA D MA R 0k C C p VR. VR. C. VIN VOUT ND DATA C0 p C 0 O C 0.p C C00 0.p Q SC0 R 0k R.k IC TA0F VR. R 00k C L nh C p Q SK R L0 0nH C p IC0 MFP I R C p VIN VOUT VCC CLK C C 0.0 C L nh C p PCTRL IN VCC IN C 0. C0 VCC C R 00 C C C VCC OUT VCC C VCC R 00k R 0 R k C0 C R. k R 0k C0 OUT. C p C 0. C p R k R 00 C0 R k L Q Q nh SC SC R C0 L nh R R0.k C0 0. UH.0 UHL.0 UMH.0 UL.. IC SC- UR. UR... Q S0 Q DTCXU D SS C R.k C0 C0 p R k C C0 L nh R0 00k IC R0 TCSF k. C 0. R k C 0. CV C p C C p R k C p C C p R k C 0. C 0 O 0. VR. C 0p C0 C C R k R 00 R0 k C L LA- C R 00k L0 LA- R k D R0F-0 FA C C p R 00k C C UR. R.k UR. D C MA R 00k R 0k I D R0F-0 R 0K Q0 SC R k R 0k Q DTCEU R 0k R 0 0. Q SC 0. IC TA0F C 00 C C 0. R VR. VR. Q SK C C R.k R 0 C R0 0k C R.k UR. R k C R 00 C p R k R 00k C C p W D SS C p L. H R 0k R k R0 k C0 0p R L 0. H C C R 00k C R 00k R 00k D R0F-0 R R D0 Q0 MA0 SK C0 p C 0p C p C C 00p D HVU0 R 00 L LW- C L nh R 0k IC TAS0F R 00 C 0p R k D MA0 C p C L LW- D HVUTRF C 0. D R0F-0 D SS C0 C C0 R p p k R L k.nh Q SC IC LA 0. C 0 C 0p C 0 R 0 C C 00 Q SC0 UT. C0 0 C 0. R. C R 0k Q S C 0 C 0. R. D UM0F C. C0 C 00 R k C 0. C C p C0 C D UM0F C C C D SS R 0 C 0p C p L LA- C p D UM0F C C p L 0. H R.k R 00 C R 00 C p C p R k VH. VMH. VHL. VL. UH. UMH. UHL. UL. L LA- R IC PC VT. D DSAA C p VH. VMH. L0 nh R 0k C 0. C C 00 C C Q SC0 VHL 0. VL 0. C C 0 L LA- D UM0F C R k R 0k L LA- C p R 0 C D RD0E R 0k R k Q SC0 U = 0 MHz and V = MHz and None = COMMON PSQL L LA- C0 p C p L LA- SP C0 0. R k L LA- C 0p R.M R.k C p DATAOUT C p L LA- L.nH L LA- C p Q0 SP Q DTCZU UH. UHL 0. UMH.0 UL 0. Q SC0 Q SC0 R0 0k R 0 Q SC0 C.p C C C C C p C0 p L LA- C.p L.nH C C C C 0. PTT P C CHASSIS UNIT W J DATAIN R k AFOUT HV C PTTP W J EXT. SP CLONE I/O DATA I/O J DC. V FV E J J M CHASSIS UNIT MF LEFT SIDE - CENTER RIHT SIDE

49 --, Kamihigashi, Hirano-ku, Osaka -000, Japan Phone : 0 0 Fax : 0 00 <Corporate Headquarters> 0 th Avenue N.E., ellevue, WA 00, U.S.A. Phone : () - Fax : () -0 URL : <Customer Service> Phone : () - A Division of Icom America Inc. 0 # Road, Unit, Richmond,.C., VX T, Canada Phone : (0) -00 Fax : (0) -00 A.C.N Albert Street, runswick, Victoria, 0, Australia Phone : 0 0 Fax : 0 00 URL : F No., Sec. Cheng-Teh Road, Taipei, Taiwan R.O.C. Phone : (0) Fax : (0) Communication Equipment Himmelgeister Str. 00, D-0 Düsseldorf, ermany Phone : 0 0 Fax : 0 URL : Crta. de racia a Manresa Km.,0 00 Sant Cugat del Valles arcelona, SPAIN Phone : () 0 0 Fax : () 0 URL : Unit, Sea St., Herne ay, Kent, CT LD, U.K. Phone : 0 Fax : 0 URL : Zac de la Plaine, Rue rindejonc des Moulinais P 0, 0 Toulouse Cedex, France Phone : 0 0 Fax : 0 00 URL :

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