SERVICE MANUAL VHF FM TRANSCEIVER

SERVIE MANUAL VHF FM TRANSEIVER

INTRODUTION This service manual describes the latest service information for the I-V000 VHF FM TRANSEIVER at the time of publication. VERSION Asia.S.America U.S.A. SYMOL SEA SA SA- USA- USA- SUPPLIED MIROPHONE HM-N HM-TN HM-V HM-TAN To upgrade quality, any electrical or mechanical parts and internal circuits are subject to change without notice or obligation. DANGER NEVER connect the transceiver to an A outlet or to a D power supply that uses more than V. This will ruin the transceiver. DO NOT expose the transceiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when connecting the transceiver. DO NOT apply an RF signal of more than 0 dm (00mW) to the antenna connector. This could damage the transceiver's front end. ORDERING PARTS e sure to include the following four points when ordering replacement parts:. 0-digit order numbers. omponent part number and name. Equipment model name and unit name. Quantity required <SAMPLE ORDER> 00000 S.I TAFN I-V000 MAIN UNIT pieces 00000 Screw Icom screw E I-V000 hassis 0 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 turning 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 to 0 d attenuator between the transceiver and a deviation meter or spectrum analyzer when using such test equipment.. READ the instructions of test equipment thoroughly before connecting equipment to the transceiver.

TALE OF ONTENTS SETION SPEIFIATIONS SETION INSIDE VIEWS SETION DISASSEMLY AND OPTION INSTRUTIONS SETION IRUIT DESRIPTION - REEIVER IRUITS.....................................................- - TRANSMITTER IRUITS..................................................- - PLL IRUITS...........................................................- - POWER SUPPLY IRUITS................................................- - PORT ALLOATIONS.....................................................- SETION PARTS LIST SETION MEHANIAL PARTS AND DISASSEMLY - I-V000...............................................................- - HM-V...............................................................- SETION SEMI-ONDUTOR INFORMATION SETION OARD LAYOUTS - HM-V...............................................................- - LOGI OARD...........................................................- - MAIN UNIT..............................................................- SETION LOK DIAGRAM SETION 0 VOLTAGE DIAGRAM 0- MAIN UNIT..............................................................0-0- LOGI OARD...........................................................0-0- HM-V...............................................................0-

SETION SPEIFIATIONS GENERAL Frequency coverage : Usable temperature range Dimensions (projections not included) Weight Version [USA] [SEA] [SA] Receiving Receive.000.000 MHz* Transmit.000.000 MHz 0.000 0.000 MHz*.000.000 MHz* *Specifications Guaranteed: MHz only Type of emission : FM (FD / FE) Frequency stability : ± 0 ppm ( 0 to +0 ; + F to +0 F) Tuning steps :, 0,.,, 0,, 0 or 0 khz Antnna connector : - (0 Ω) Power supply requirement :. V D (Operable voltage range:. to. V) (negative ground) Number of memory channel : 0 channels (including scan edges and call channel) all channel : channel Scanning mode : Full, Program, Priority, Memory, hannel, Skip, Tone, DTS, ank and WX urrent drain (approx.) : High ( W) A Middle High ( W).0 A Transmit Middle Low (0 W).0 A Low ( W).0 A Max. audio Stand-by.0 A 0. A : 0 to +0 ; + F to +0 F : 0(W) 0(H) 0(D) mm; (W) (H) (D) in. :.0 kg;. oz.;. oz TRANSMITTER RF output power (at. V D) : W / W / 0 W / W (High / Middle High / Middle Low / Low) Modulation system : Variable reactance frequency modulation Maximum frequency deviation : Narrow: ±. khz*; Wide: ±.0 khz Spurious emissions : Less than 0 d Microphone connector : -pins modular (00 Ω) REEIVER Receive system : Double conversion superheterodyne system Intermediate frequencies : st. MHz nd 0 khz Sensitivity : 0. µv at d SINAD (typical) Squelch sensitivity : 0.0 µv at threshold (typical) Selectivity : Narrow; More than ±.0 khz at d, Less than ±.0 khz at d* Wide; More than ±.0 khz at d, Less than ±.0 khz at 0 d Spurious and image rejection : 0 d (typical) Audio output power (at. V D) : More than.0 W at 0% distortion with an Ω load Ext. speaker connector : -conductor.(d) mm ( )/ Ω *[USA] version only All stated specifications are subject to change without notice or obligation. -

SETION INSIDE VIEWS MAIN UNIT AF power amplifier (Q: RD0HVF) Antenna switching circuit (D, D: XA0, D: XA0, D: HVUTRF) VO circuit nd IF filter (FI: FWS0F, FI: FWS0HT) Reference oscillator (X: R-) st IF filter (FI, FI: FL-0) LOGI OARD System clock (X: R-) PU (I: HDH) Speaker EEPROM (I: HNXTI) Reset I (I: S-0ANMP-DD) LOGI board -

SETION DISASSEMLY AND OPTION INSTRUTIONS REMOVING THE OVER Unscrew screws, MP0. Remove the cover in the direction of the arrow. REMOVING THE MAIN UNIT Unscrew screws, MP, and screws, MP, and screws, MP. Unsolder points, A, to remove the antenna connector. Remove the Main unit in the direction of the arrow. over MP0 MP MP MP MP A J Main unit hassis REMOVING THE FRONT PANEL Unscrew screws, MP. Unplug J to separate front panel and chassis. Remove the front panel in the direction of the arrow. Unplug J to separate fan and chassis. Unscrew screws, MP, to separate MP and chassis. OPTIONAL UNIT INSTALLATION Install the optional unit as illustrated below. Insert it tightly to avoid bad contact. J (MF) MP MP J (SP) Front panel hassis MP -

SETION IRUIT DESRIPTION - REEIVER IRUITS -- ANTENNA SWITHING IRUIT (MAIN UNIT) Received signals passed through the low-pass filter (L, L, L, L, 0,, 0, 0, 0,, ). The filtered signals are applied to the / λ type antenna switching circuit (D, D). The antenna swtiching circuit functions as a low-pass filter while transmitting. However, its impedance becomes very high while D and D are turn ON. Thus transmit signals are blocked from entering the receiver circuits. The antenna switching circuit employs a / λ type diode swtiching system. The passed signals are then applied to the RF amplifier circuit. The signals from the RF circuit are mixed at the st mixer (Q) with a st LO signal coming from the VO circuit to produce a.0 MHz st IF signal. The st IF signal is applied to two crystal filters (FI and FI) to suppress out-of-band signals. The filtered st IF signal is applied to the IF amplifier (Q), then applied to the nd mixer circuit (I, pin ). -- ND IF AND DEMODULATOR IRUITS (MAIN UNIT) The nd mixer circuit converts the st IF signal to a nd IF signal. A double conversion superheterodyne system (which converts receive signal twice) improves the image rejection ratio and obtain stable receiver gain. -- RF IRUIT (MAIN UNIT) The RF circuit amplifies signals within the range of frequency coverage and filters out-of-band signals. The signals from the antenna switching circuit are applied to the limitter (D), and are then passed through the bandpass filter (D, L,, ). The filtered signals are amplified at the RF amplifier (Q), then applied to the st mixer circuit after out-of-band signals are suppressed at the bandpass filter (D D). D D, D employ varactor diodes that track the bandpass filters and are controlled by the T T signals from the D/A convertor (I, pins 0,, ). These diodes tune the center frequency of an RF passband for wide bandwidth receiving and good image response rejection. -- ST MIXER AND ST IF IRUITS (MAIN UNIT) The st mixer circuit converts the received signal to a fixed frequency of the st IF signal with a PLL output frequency. y changing the PLL frequency, only the desired frequency will pass through two crystal filters at the next stage of the st mixer. ND IF AND DEMODULATOR IRUITS R R R The st IF signal from the IF amplifier is applied to the nd mixer section of the FM IF I (I, pin ), and is mixed with the nd LO signal to be converted to a 0 khz nd IF signal. The FM IF I contains the nd mixer, limiter amplifier, quadrature detector and active filter circuits. A. MHz nd LO signal is produced at the PLL circuit. The nd IF signal from the nd mixer (I, pin ) passes through a ceramic filter (FI; When wide is selected, F; When Narrow is selected. (Narrow is [USA] version only.)) to remove unwanted heterodyned frequencies. It is then amplified at the limiter amplifier (I, pin ) and applied to the quadrature detector (I, pins 0, ) to demodulate the nd IF signal into AF signals. -- AF IRUIT (MAIN AND LOGI UNITS) The AF amplifier circuit amplifies the demodulated AF signals to drive a speaker. AF signals from the FM IF I (I, pin ) are applied to the analog swtich (LOGI UNIT; I, pin ) via the high pass filter (Ic, pins, ). The output signals from pin are applied to the volume adjustment pot (LOGI UNIT; R). The signals are applied to the AF power amplifier (I, pin ) after passing through the AFmute swtich (Q). nd IF filter 0 khz FI LPF PLL I I "SQLIN" signal from the D/A convertor (I, pin AF signal "" R Active filter FM detector 0 Noise detector Limiter amp. R Noise comp. RSSI Mixer X. MHz I TAF st IF from the IF amplifier (Q) "NOIS" signal to the PU pin 0 0 X R RV "" signal to the PU pin -

The AF signals are applied to the AF power amplifier circuit (I, pin ) to obtain the specified audio level. The amplified AF signals, output from pin, are applied to the internal speaker (HASSIS UNIT; SP) via the speaker jack (J) when no plug is connected to the external speaker jack (J). -- SQUELH IRUIT (MAIN AND LOGI UNITS) A squelch circuit cuts out AF signals when no RF signals are received. y detecting noise components in the AF signals, the squelch switches the analog swtich. A portion of the AF signals from the FM IF I (I, pin ) are applied to the D/A converter (I, pin ) as the signal. The signals from the D/A converter (I, pin ) are applied to the FM IF I active filter section (I, pin ) where noise components are amplified and detected with an internal noise detector via the SQLIN line. The trigger circuit converts the detected signals to a HIGH or LOW signal and applies this (from pin ) to the PU (LOGI UNIT; I, pin ) as the NOIS signal.the PU controls the analog swtich I (LOGI UNIT; I) via the expander I (LOGI UNIT; I). When the PU receives a HIGH level NOIS signal, the PU controls the RMUT line to cut the AF signals at the analog swtich I (LOGI UNIT; I). At the same time, the AFON line controls the AF mute circuit (Q) to cut out the VOLOUT signal for the AF power amplifier (I). - TRANSMITTER IRUITS -- MIROPHONE AMPLIFIER IRUIT (LOGI AND MAIN UNITS) The microphone amplifier circuit amplifies audio signals with + d/octave pre-emphasis from the microphone to a level needed for the modulation circuit. The AF signals from the microphone pass through the MI switch (I, D) and high-pass filter (Ia, pin ), and are then applied to the microphone amplifier circuit (Id, pin ) via the R and for + d/octave pre-emphasis. The amplified AF signals are applied to the analog swtich (I, pin ), and are then applied to the D/A converter (MAIN UNIT; I, pin ) via the signal. The AF signals are applied to the modulator circuit via the MOD signal. -- MODULATION IRUIT (MAIN UNIT) The modulation circuit modulates the VO oscillating signal (RF signal) using the microphone audio signals. The audio signals (SHIFT) change the reactance of D to modulate an oscillated signal at the VO (Q, D). The oscillated signal is amplified at the LO (Q) and buffer (Q) amplifiers, then applied to the TX/RX switch circuit (D, D). -- DRIVE/POWER AMPLIFIER IRUITS (MAIN UNIT) The signal from the VO circuit passes through the TX/RX swtiching circuit (D) and is amplified at the pre-drive (Q), drive (Q, Q0) and power (Q) amplifiers to obtain W of RF power (at. V D/typical). The amplified signal passes through the low-pass filter (L, L,,,,,, ), and then applied to the antenna swtiching circuit (D). The signal is applied to the antenna connector (HASSIS UNIT; J) after being passed through the low-pass filter (L, L, L, L, 0,, 0, 0, 0,, ). The bias current of the drive (Q, Q0) and power (Q) amplifiers is controlled by the AP circuit to stabilize the output power. -- AP IRUIT (MAIN UNIT) The AP (Automatic Power ontrol) circuit (Ia, Q) protects drive and power amplifiers from excessive currents and selects HIGH or LOW output power. The output voltage from the power detector circuit (D, D) is applied to the differential amplifier (Ia, pin ), and the T signal from the D/A converter (I, pin ) is applied to the other input for reference. When the driving current increases, the input voltage of the differential amplifier (Ia, pin ) will be increased. In such cases, the differential amplifier output voltage (pin ) is decreased to reduce the drive current. Q is controlled by the TX signal from the expander I (I, pin ) to select HIGH or LOW output power. AP IRUIT HV SWHV RF signal from PLL I (I) Q Driver amp. Q0 Driver amp. Q Power amp. ANT SW L, 0,,, LPF to antenna +V D D TX T Q Ia + Power detector circuit (D, D) AP control circuit -

- PLL IRUITS -- PLL IRUIT (MAIN AND LOGI UNITS) A PLL circuit provides stable oscillation of the transmit frequency and receive st LO frequency. The PLL output compares the phase of the divided VO frequency to the reference frequency. The PLL output frequency is controlled by the divided ratio (N-data) of a programmable divider. An oscillated signal from the TX and RX-VO circuits passes through the LO and buffer amplifiers (Q, Q) is applied to the PLL I (I, pin ) and is prescaled in the PLL I based on the divided ratio (N-data). The reference signal is generated at the reference oscillator (X) and is also applied to the PLL I. The PLL I detects the out-of-step phase using the reference frequency and outputs it from pin. The output signal is passed through the loop filter(q) and is then applied to the TX and RX-VO circuits as lock voltage. The lock voltage is also used for the receiver tunable bandpass filters to match the filter s center frequency to the desired receive frequency. The lock voltage is passed through the loop filter (Q), and then applied to the D amplifier (Q0). The amplified signal is applied to the PU (LOGI unit; I, pin ) via the signal. The signal is analyzed at the PU, and then applied to bandpass filters (D D, D) as T, T, T signals via the D/A converter. -- VO IRUIT (MAIN UNIT) The VO circuit contains a separate TX-VO (Q, D, D) and RX-VO (Q, D). The oscillated signal is amplified at the LO (Q) and buffer (Q) amplifiers, and is then Tx/Rx switching circuit (D, D). Then Tx and Rx signals are applied to the pre-driver (Q) and st mixer circuit (Q) respectively. - POWER SUPPLY IRUITS VOLTAGE LINE LINE HV SWHV V +V +V T RV DESRIPTION The voltage from the power supply. The same voltage as HV line which is controlled by the HVSW circuit (Q, Q0, Q). When the [POWER] switch is pushed, the PU outputs the control signal via the expander I (I). The signal is applied to the HVSW circuit to turn the circuit ON. The output voltage is applied to the drive amplifier (Q), +V regulator circuit (I), etc. ommon V for the PU converted from the HV line by the V regulator circuit (I). The circuit outputs the voltage regardless of the power ON/OFF condition. The output voltage is applied to the EEPROM (LOGI UNIT; I), PU (LOGI UNIT; I), etc. ommon V converted from the. V line by the +V regulator circuit (I). The output voltage is applied to the LO (Q) and buffer (Q) amplifiers, etc. ommon V converted from the + V line by the +V regulator circuit (Q, Q). Transmit V controlled by the TV regulator circuit (Q, Q) using the TX signal from the I/O expander I (I). Receive V controlled by the RV regulator circuit (Q) using RX signal from the I/O expander I (I). The output voltage is applied to the FM I I (I), IF (Q) and RF (Q) amplifiers, etc. A portion of the signal from LO amplifier (Q) is amplified at the buffer amplifier (Q) and is then fed back to the PLL I (I, pin ) as the comparison signal. PLL IRUIT Loop filter Q TX VO Q, D, D RX VO Q, D LO Q I (PLL I) Q uff. Q uff. D D TX/RX switch to transmitter circuit to st mixer circuit (Q) X. MHz Phase Programable Prescaler detector divider Reference divider Shift register PLLK PLLDATA PLLST. MHz nd LO signal to the nd IF I (I, pin ) -

- PORT ALLOATIONS -- PU (LOGI UNIT: I) Pin number Port name Description Input port for the weather alert signal detection. Pin number Port name E Description Outputs EEPROM (LOGI unit; I, pin ) clock signal. RESET SHIFT PTT LIN LOUT NOIS Input port for reset signal. Outputs reference oscillator for the PU control signal. Outputs serial clock signal to the expander I (MAIN unit; I, pin ), D/A convertor I (MAIN unit, I, pin ), etc. Outputs serial signals to the D/A convertor I (MAIN unit; I, pin ),etc. Input port for the [PTT] switch. High : While [PTT] switch is pushed. Input port for the cloning signal. Outputs the cloning signal. Input port for noise signals (pulse type). 0 EA SEG SEG T TONE SQLV MIUD I/O port for the data signals from/to the EEPROM (LOGI unit; I, pin ). Output LD driver signals. Outputs TSS and DTS tone signal. Outputs DTMF, EEP and 0 Hz tone signal. Input port for the squelch level detection. Input port for the microphone up/down signal while connecting the microphone. Input port for the RSSI detection. Input port for the PLL lock voltage. 0 OLOR DIM DIM0 Outputs LD back light color control signal. Low : While choosing umber color. Outputs LD contrast control signal. 00 Input port for the power detector voltage. Input port for the transceiver s internal tempareture detection. REMO Input port for the remote signals from a remote microphone (HM-V) via the [MI] jack. Input port for PLL unlock signal from the PLL I (MAIN unit; I, pin ). OM OM Outputs LD common signals. KR KR0 Input port for initial matrix. Low : While keys are pushing. 0 EXTMI Input port for the remote control microphone (HM-V) connecting detection. Low : While HM-V is connected. OPV Input port for the optional unit detection signal. PLLST Outputs strobe signals to the PLL I (I, pin ). PLLK Outputs PLL I (I, pin ) clock signal. OPV Outputs strobe signal to the expander I (I, pin ). Input port for the optional unit detection signal. OPT OPT I/O port for optional unit control signal. DUSE Outputs low-pass filter cut-off frequency control signal when DTS is activated. -

-- D/A ONVERTOR I (MAIN UNIT: I) Pin number 0, Port name MOD SQLATT T T, T SQLIN DT F Description Outputs transmit devetion control signal. Outputs attenuator control signal. Outputs tunable bandpass filter control signal while receiving. Outputs TX power control signal while transmitting. Output tunable bandpass filter control signals. Outputs squelch control signal. Outputs DTS s gradient control signal. Outputs reference frequency control signal to X. -- I/O EXPANDER I (MAIN UNIT: I) Pin number Port name FAN FAN FAN Description Outputs cooling fan control signal. The fan speed is depended as shown below. Fan speed Hi Middle Low FAN H H H FAN H L H FAN H H L AFMUTE SHIFT RX TX Outputs AF mute circuit control signal. High : While AF mute is ON. Outputs TX and RX VO s regulator control signals. High : While receiving. Low : While transmitting. Outputs R regulator control signal. Low : While receiving. Outputs TX power control signal. High : While transmitting. -

SETION PARTS LIST [LOGI OARD] REF NO. I 0000 S.I TASF (TER) I 00000 S.I TSF (TER) I 0000 S.I NJM0V-TE I 0000 S.I S-0ANMP-DD-T I 0000 S.I HNXTI I 00000 S.I U0FV-E I 00000 S.I HDH (FX-0A) I 0000 S.I U0FV-E Q Q Q Q Q Q Q Q Q Q ORDER NO. DESRIPTION 0000 S.TRANSISTOR S-GR (TER) 00000 S.TRANSISTOR DTEUA T0 0000 S.TRANSISTOR XP0 (TX) 00000 S.TRANSISTOR DTEUA T0 00000 S.TRANSISTOR DTTU T0 00000 S.TRANSISTOR SAA T0R 0000 S.TRANSISTOR S-GR (TER) 0000 S.TRANSISTOR S-GR (TER) 00000 S.TRANSISTOR DTEUA T0 0000 S.TRANSISTOR S-GR (TER) D 0000 S.ZENER MA0-M (TX) D 0000 S.DIODE MAS-(TX) D 0000 S.ZENER MA0-M (TX) D 00000 S.DIODE DANTL D 00000 S.DIODE DA TL D 00000 S.DIODE DANTL D 00000 S.DIODE DANTL D 00000 S.DIODE DANTL D 0000 S.DIODE MAS-(TX) [SEA], [USA] only D 0000 S.DIODE MAS-(TX) [USA] only D0 00000 S.DIODE DANTL D 00000 S.DIODE DANTL D 0000 S.DIODE MAS-(TX) [SEA] only D 0000 S.DIODE MAS-(TX) [SEA] only D 0000 S.DIODE MAS-(TX) X 00000 S.XTAL R- (.00 MHz) R 00000 S.RESISTOR ERJGEYF V ( kω) R 00000 S.RESISTOR ERJEKF 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 0000 S.RESISTOR ERAYKD V R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 000000 S.RESISTOR ERJGEYJ V ( kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 0000 VARIALE EVU-FAF0 (0K) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R0 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) R 0000 VARIALE EVU-FAF0 A (0KA) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) [LOGI OARD] REF NO. ORDER NO. DESRIPTION R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 000000 S.RESISTOR ERJGEYJ V (0 Ω) R 000000 S.RESISTOR ERJGEYJ V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.ARRAY EX-VV 0JV R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 00000 S.RESISTOR ERJGEYJ V ( kω) R0 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 000000 S.RESISTOR ERJGEYJ 00 V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V (. MΩ) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) [SEA], [SA] only R 000000 S.RESISTOR ERJGEYJ R0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 000000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 000000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.ARRAY EX-VV 0JV R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R00 00000 S.RESISTOR ERJGEYJ V (0 Ω) R0 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ V (0 Ω) R0 000000 S.RESISTOR ERJGEYJ V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) [SEA], [SA] 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] R0 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R0 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A S.=Surface mount -

[LOGI OARD] REF NO. ORDER NO. DESRIPTION 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 0000 S.ELETROLYTI EEVA00SR 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H K-T-A 000000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J E 0K-T-N 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J H K-T-A 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J E 0K-T-N 0 00000 S.ERAMI 0 H H J-T-A 00000 S.ERAMI 0 J H K-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J H K-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVA00SR 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J E 0K-T-N 0 000000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H K-T-A 0000 S.ELETROLYTI EEVHARSR 00000 S.ERAMI 0 J H K-T-A 0000 S.ERAMI 0 H H J-T-A 000000 S.ERAMI 0 J H K-T-A 0000 S.ELETROLYTI EEVHARSR 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H J-T-A J 0000 ONNETOR 0- <AI> J 0000 ONNETOR - J 0000 ONNETOR - J 000 S.ONNETOR AXN00P DS 00000 S.LED SE DS 00000 S.LED SE DS 00000 S.LED SE DS 00000 S.LED SE DS 00000 S.LED SE DS 00000 S.LED SE DS0 00000 S.LED SE DS 00000 S.LED SE DS 00000 S.LED SML-0MT T DS 00000 S.LED SML-0MT T DS 00000 S.LED SML-0MT T DS 00000 S.LED SML-0MT T DS 00000 S.LED SML-0MT T DS 00000 LD L-0TAM [LOGI OARD] REF NO. ORDER NO. DESRIPTION S 00000 ENODER EVQ-VENF0 SP 0000 SPEAKER 0P00 <KS> WS 0000 FX0 P0LO EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 LD ONTAT SRN-0-SP-N-W EP0 000 P 0 [MAIN UNIT] REF NO. ORDER NO. DESRIPTION I 0000 S.I LV0V-TLM I 00000 S.I U0F-T I 00000 S.I TAFN (EL) I 00000 S.I MFP-0 I 0000 S.I NJM0V-TE I 0000 S.I TA0F (TEL) I 00000 S.I TAL0F (TER) I 00000 I LAA Q 0000 S.TRANSISTOR S-L (TER) Q 0000 S.TRANSISTOR XP0 (TX) Q 0000 S.TRANSISTOR S-L (TER) Q 0000 S.TRANSISTOR S-L (TER) Q 0000 S.TRANSISTOR S-L (TER) Q 0000 S.TRANSISTOR S-T R Q 0000 S.TRANSISTOR S-T R Q 00000 S.TRANSISTOR DTAZU T0 Q 0000 S.TRANSISTOR S0--TL Q0 00000 S.FET SK0--TL Q 0000 S.TRANSISTOR S0--TL Q 0000 S.TRANSISTOR S0--TL Q 00000 S.TRANSISTOR DTAEUA T0 [USA] only Q 00000 S.TRANSISTOR SA (TER) Q 0000 S.TRANSISTOR S-L (TER) Q 0000 S.TRANSISTOR S0--TL Q 00000 S.TRANSISTOR S-T Q 00000 S.FET SK0 (TEL) Q 00000 S.FET SK-(TX) Q0 00000 S.FET SK0 (TEL) Q 00000 S.TRANSISTOR DTZK T Q 00000 S.TRANSISTOR DTEUA T0 Q 0000 FET RD0HVF Q 00000 S.TRANSISTOR DTZK T Q 00000 S.TRANSISTOR DTAEUA T0 Q 00000 S.FET SK-(TX) Q 0000 S.TRANSISTOR S (TER) Q 00000 S.TRANSISTOR S- (TER) Q0 00000 S.TRANSISTOR DTATU T0 Q 0000 S.TRANSISTOR DTZUA T0 Q 0000 S.TRANSISTOR S-L (TER) Q 00000 S.TRANSISTOR S T00 R Q 0000 S.TRANSISTOR S-L (TER) D 0000 S.DIODE MAS-(TX) D 00000 S.VARIAP HVTRF D 00000 S.VARIAP HVTRF D 00000 S.VARIAP HVTRF D 00000 S.VARIAP HVTRF D 00000 S.DIODE MA (TX) D 00000 S.DIODE MA (TX) D 00000 S.VARIAP HV0TRF S.=Surface mount -

[MAIN UNIT] REF NO. ORDER NO. DESRIPTION D0 00000 S.VARIAP HV0TRF D 00000 S.VARIAP HV0TRF D 00000 DIODE XA0 D 00000 S.VARIAP HV0TRF D 00000 S.DIODE MA (TX) D 00000 S.DIODE SS TE- D 00000 S.DIODE HVUTRF D 00000 S.DIODE MA (TX) D 0000 S.DIODE MAS-(TX) D 00000 DIODE XA0 D0 00000 ZENER RD0E D 000000 DIODE DSAA D 0000 S.ZENER MA0-L (TX) D 0000 S.DIODE MAS-(TX) [USA] only D 0000 S.DIODE MAS-(TX) [USA] only D 0000 S.DIODE MAS-(TX) [USA] only D 0000 S.DIODE MAS-(TX) [USA] only D 00000 DIODE XA0 D 00000 S.DIODE MA (TX) D 00000 S.DIODE DA TL FI 00000 ERAMI FWLA0KFFA-0 (FWS0F) FI 00000 ERAMI FWLA0KHFA-0 (FWS0HT) [USA] only FI 00000 MONOLITH RA (FL-0) FI 00000 MONOLITH RA (FL-0) X 000000 S.XTAL R- (. MHz) X 0000000 DISRIMINATOR DLA0KAY-0 L 00000 S.OIL MLF0D RK-T L 00000 S.OIL NL 0T-RJ L 00000 S.OIL ELJF R0K-F L 00000 S.OIL 0-R0G L 00000 S.OIL A-NG-A L 00000 S.OIL ELJF RK-F L 00000 S.OIL ELJF RK-F L0 00000 S.OIL ELJF R0K-F L 00000 S.OIL ELJRE R0G-F L 00000 S.OIL ELJRE R0G-F L 00000 S.OIL ELJRE R0G-F L 00000 S.OIL ELJRE NG-F L 0000000 S.OIL ELJRE NG-F L 00000 S.OIL ELJRE NG-F L 00000 S.OIL MLF0A RK-T L0 00000 S.OIL ELJRE NG-F L 00000 S.OIL ELJRE R0G-F L 00000 S.OIL ELJRE NG-F L 00000 S.OIL ELJRE NG-F L 00000 S.OIL EXLU L 00000 S.OIL NL 0T-RJ L 00000 S.OIL NL 0T-RJ L 00000 S.OIL EXLU L 00000 S.OIL 0.0-.-TL 0N L0 00000 S.OIL 0.0-0.-TR.N L 00000 S.OIL 0-NG L 00000 S.OIL 0-NG L 000000 OIL EX-ELDR L 000000 OIL EX-ELDR L 0000 OIL LA- L 000000 S.OIL AS000-0N L 00000 S.OIL 0-R0G L 000000 S.OIL AS00-N L0 00000 OIL LW- L 00000 S.OIL ELJF RK-F L 00000 S.OIL 0.0-.0-TL N L 000000 S.OIL AS00-N L 00000 S.OIL 0.-.-TL N L 000000 S.OIL AS00-N L 000000 S.OIL AS00-N L 000000 S.OIL AS00-N L0 00000 S.OIL NL 0T-RJ L 000000 S.OIL AS00-N L 00000 S.OIL NL 0T-RJ L 00000 S.OIL ELJRE NG-F R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) [MAIN UNIT] REF NO. ORDER NO. DESRIPTION R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 000000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 0000 S.THERMISTOR NTM0AGJ-T R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 000000 S.RESISTOR ERJGEYJ 0 V ( MΩ) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 000000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 000000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 000000 S.RESISTOR ERJGEYJ 00 V (0 Ω) R 000000 S.RESISTOR ERJGEYJ 00 V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 000000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 000000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 000000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) [SEA], [SA] 00000 S.RESISTOR ERJGEYJ V (. kω) [USA] R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 000000 S.RESISTOR ERJGEYJ V (0 Ω) R0 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 000000 S.RESISTOR MR0EZHJ Ω (0) R 000000 S.RESISTOR MR0EZHJ 0 kω R 00000 S.RESISTOR ERJRSJRU S.=Surface mount -

[MAIN UNIT] REF NO. ORDER NO. DESRIPTION R0 00000 S.RESISTOR ERJGEYJ V (0 kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R0 00000 S.RESISTOR ERJGEYJ V (0 kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R0 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V (0 kω) R0 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ V (. kω) R0 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R0 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 000000 S.RESISTOR MR0JZHJ 0 Ω (00) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 0000000 S.RESISTOR MR0EZHJ. Ω (R) R 00000 S.RESISTOR ERJGEYJ V (. kω) R 00000 S.RESISTOR ERJGEYJ V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R0 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R0 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R0 000000 S.RESISTOR ERJYJ0U (00 Ω) R 00000 S.RESISTOR ERJRSJRU R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ V (. kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 000000 S.RESISTOR MR0EZHJ Ω (0) R 000000 S.RESISTOR MR0EZHJ Ω (0) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) R 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( Ω) R0 00000 S.RESISTOR ERJGEYJ V (0 Ω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) [USA] only R 00000 S.RESISTOR ERJGEYJ 0 V (00 kω) [USA] only R 00000 S.RESISTOR ERJGEYJ 0 V (0 kω) R 00000 S.RESISTOR ERJGEYJ 0 V (00 Ω) R 00000 S.RESISTOR ERJGEYJ V ( kω) R 00000 S.RESISTOR ERJGEYJ 0 V ( kω) 0000 S.TANTALUM ESTVYR 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVHA00SR 00000 S.ERAMI 0 J E 0K-T-N 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 0000 S.ELETROLYTI EEVA0SP [MAIN UNIT] REF NO. ORDER NO. DESRIPTION 0000 S.TANTALUM TEMSVA A 0M-L 0000 S.TANTALUM TEMSV A M-R 00000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00D-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 0000 S.TANTALUM ESTAYR 00000 S.ERAMI 0 H H 00D-T-A 000000 S.ERAMI 0 H H 00D-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00D-T-A 0 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0R-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0R-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 00D-T-A 0 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000000 S.ERAMI 0 H H 00D-T-A 0000 S.ELETROLYTI EEVA00SR 0 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 000000 S.ERAMI 0 H H 0J-T-A 0 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVA00SR 00000 S.ERAMI 0 J A 0M-T-A 00000 S.ERAMI 0 H H J-T-A 00000 S.ERAMI 0 H H J-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 0R-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00-T-A 000000 S.ERAMI 0 J H K-T-A 00 00000 S.ERAMI 0 H H 0J-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 0 0000 S.ELETROLYTI EEVA0UP S.=Surface mount -

[MAIN UNIT] REF NO. ORDER NO. DESRIPTION 0 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 0 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00J-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVA0SP 0 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00-T-A 0000 S.ELETROLYTI EEVA00SR 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 0 000000 S.ERAMI 0 H H 0J-T-A 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 H H 0J-T-A 0 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVA0UP 00000 S.ERAMI 0 H H 00J-T-A 00000 S.ERAMI 0 J E 0K-T-N 0 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ERAMI ERFX H 0J D0L (GRM) 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H 0K-T-A 000000 S.ERAMI 0 J H 0K-T-A 0000 S.ERAMI ERFX H 0J D0L (GRM) 0000 S.TANTALUM ESTX0R 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ERAMI ERFX H 0J D0L (GRM) 0 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVA0UP 0000 S.ERAMI GRMMH0JV0L (GRM- H) 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ERAMI GRMMH0JV0L (GRM- H) 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVAUP 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0000 S.ELETROLYTI EEVA00SR 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVHA00SR 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVHA00SR 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI GRMMHR0YL (GRM- K) 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVAUP 00000 S.ERAMI 0 J 0K-T-A 00000 S.ERAMI GRMMHR0YL (GRM- K) 000000 S.ERAMI 0 H H 0J-T-A 00000 S.ERAMI 0 J H 0K-T-A [MAIN UNIT] REF NO. ORDER NO. DESRIPTION 00 00000 S.ERAMI 0 J H 0K-T-A 0 000000 S.ERAMI 0 H H 0J-T-A 0 0000 S.ERAMI ERFX H 0J D0L 0 0000 S.ELETROLYTI EEVAAUP 0 00000 S.ERAMI 0 J H 0K-T-A 0 00000 S.ERAMI GRMMHR0YL (GRM- J) 0 00000 ELETROLYTI MV 00 H 0 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0 00000 S.ERAMI 0 J E 0K-T-N 0 0000 S.ERAMI GRMMH0JV0L (GRM- H) 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J H 0K-T-A 0000 S.ELETROLYTI EEVA0SP 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J E 0K-T-N 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0000000 S.ERAMI 0 H H 00D-T-A 000000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI GRMRJ0KY0L (GHM00 R) 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0000 S.ERAMI GRMMH0JV0L (GRM- H) 0 0000 S.ELETROLYTI EEVA00SR [USA] only 00000 S.ERAMI 0 J H 0K-T-A [USA] only 00000 S.ERAMI 0 J E 0K-T-N [USA] only 00000 S.ERAMI 0 H H J-T-A 00000 S.ERAMI 0 H H J-T-A 00000 S.ERAMI 0 H H 00-T-A 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 0 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 J H 0K-T-A 00000 S.ERAMI 0 H H 00D-T-A 00000 S.ERAMI 0 J E 0K-T-N 00000 S.ERAMI 0 JF 0Z-T-A J 0000 ONNETOR 0- J 0000 ONNETOR 0- J 0000 ONNETOR PJ-000P- <AI> J 000 S.ONNETOR -ZR-SM-TF J 000 S.ONNETOR -ZR-SM-TF W 00000 S.JUMPER ERJGE JPW V [SEA], [SA] only W 00000 S.JUMPER ERJGE JPW V [SEA], [SA] only W 00000 S.JUMPER ERJGE JPW V W 00000 JUMPER ERDST0 W 00000 ALE OP- EP 000 S.EAD MMZ0Y 0T EP 000 S.EAD MMZ0Y 0T EP 000 P 00 S.=Surface mount -

SETION MEHANIAL PARTS AND DISASSEMLY - I-V000 [HASSIS PARTS] REF. NO. ORDER NO. DESRIPTION QTY. J 0000 onnector MR-DSE-0 MF 00000 Fan DF00H MP 0000 0 hassis- MP 0000 0 Fan holder MP 0000 0 over MP 0000 Screw T M x NI-ZU (T) MP 0000 Screw T M x NI-ZU (T) MP 0000 Screw T M x NI-ZU (T) MP 00000 Screw H M. x MP 0000 Hex socket bolt M x 0 ZK MP0 0000 Screw M. x ZK MP 000 Thermally sheet () MP 0000 Screw M x 0 ZK MP 0000 0 Shield plate MP 000 Rubber sheet (A) MP 000 Sheet (Z) [AESRIES] REF. NO. ORDER NO. DESRIPTION QTY. F 000000 Fuse (0A) M 000000 Microphone HM- A [SA-], [USA-] 000000 Microphone HM-TN A [SA] 000000 Microphone HM-N A [SEA] 000000 Microphone HM-TAN A [USA-] W 00000 able OP- A MP 0000 0 Mobil bracket MP 000 Felt MP 00000 Flange bolt M x MP 00000 Screw A0 M x MP 00000 Flat washer M SUS MP 000000 Spring washer M SUS MP 00000 Screw M x (+/ ) MP 00000 Nut M SUS MP 00000 MI hanger [USA] only [LOGI OARD] REF. NO. ORDER NO. DESRIPTION QTY. DS 00000 L-0TAM F M* W MP S 00000 Encoder EVQ-VENF0 SP 0000 Speaker 0P00 WS 0000 FX0 P0L0 MP EP 000 LD contact SRN-0-SP-N-W MP 000 0 Front panel MP 0000 0 LD filter MP 000 0 Reflectort MP 000 0 A-keyboard MP 000 0 -keyboard MP 000 0 -keyboard MP 000 0 Front plate MP 0000 Knob N-- MP 000 Knob N- MP 0000 Screw 0 M x NI-ZU (T) [MAIN UNIT] MP Screw abbreviations MP MP MP MP MP *The illustration is the HM-V. A0, 0, T: Self-tapping NI-ZU: Nickel-Zinc ZK: lack SUS: Stainless REF. NO. ORDER NO. DESRIPTION QTY. W 00000 able OP- MP 0000 Heatsink MP 000 0 VO case MP 000 0 VO cover -

J () MP () MP () MP () MP () MP () MP () MP (L) LOGI unit MP (L) MP () MP (L) MF () MP (L) DS (L) EP (L) MP (L) MP (L) MP (L) MP () MP () MP (L) MAIN unit MP () MP (L) MP () MP () W (M) SP (L) WS (L) MP () I (M) MP () MP (L) MP () MP (L) MP () MP () MP () MP () UNIT abbreviations (): HASSIS PARTS, (L): LOGI OARD, (M): MAIN UNIT MP0 () MP0 () -

- HM-V [HASSIS PARTS] REF. NO. ORDER NO. DESRIPTION QTY. W 0000 able OP- [MAIN UNIT] REF. NO. ORDER NO. DESRIPTION QTY. M 00000 Microphone EM-0 MP 000 Front panel 000 Front panel (A) 000 Front panel () MP 000 Rear panel MP 000 PTT button MP 000 LED lens MP 000 SW rubber MP 000 Keyboard 000 Keyboard (A) 0000 Keyboard () MP 0000 Screw 0 M x ZK (T) MP 0000 Screw 0 M x ZK (T) Screw abbreviations 0, T: Self-tapping ZK: lack MAIN unit MP () MP () MP () MP () MP () MP () M (M) MP () MP () MP () W () HM-V UNIT abbreviations (): HASSIS PARTS (M): MAIN UNIT -

SETION SEMI-ONDUTOR INFORMATION TRANSISTOR AND FET S DIODES SA R (Symbol: FR) SA (Symbol: L) SA GR (Symbol: S0) S R (Symbol: AR) S L (Symbol: L0) SS (Symbol: Yellow line) yellow SS (Symbol: A) DA (Symbol: K) DAN (Symbol: N) DSAA (Symbol: ) green E E E E E A A A S (Symbol: R) S L (Symbol: LL) S GR (Symbol: LG) S (Symbol: A) S R (Symbol: R) HV0 (Symbol: O) HV (Symbol: ) HV (Symbol: ) HVUTRF (Symbol: P) MAS (Symbol: A) E E E E S0 (Symbol: JT) S (L) (Symbol: -A) SK0 (Symbol: FJ) SK0 (Symbol: UW) SK0 (Symbol: U F) MAS (Symbol: ) MA (Symbol: MU) MA (Symbol: ) MA0M (Symbol: -) MA0 L (Symbol: -) E E S D G G S D G S D A SK (Symbol: K) DTA ZU (Symbol: ) DTA EU (Symbol: ) DTA TUA (Symbol: ) DTA EU (Symbol: ) MA0 M (Symbol: -) RD0E (Symbol: 0) XA0 (Symbol: T) XA0 (Symbol: None) G S G D E E E E K A DT ZK (Symbol: G) DT EU (Symbol: ) DT ZU (Symbol: ) DT EU (Symbol: ) DT TU (Symbol: 0) E E E E E RD0HVF (Symbol: RD0HVF) D XP0 (Symbol: ) D E S G G S E -

SETION OARD LAYOUTS - HM-V TOP VIEW OTTOM VIEW R D Q Q D R Q R0 R 0 D Q Q EP EP D EP L I S D R R Q Q X R R R0 R Q R Q R R R EP L J J to Logic board J MU/D PTT MI MDATA MV MVSW MIE E R R0 R - 0 R R D D D R D D D0 R R R R R D D D R R R R R D R R I R R I D R0 R R R D D DS DS DS DS M DS DS DS DS DS0 DS

- LOGI OARD TOP VIEW DS EP I J R D R Q R0 R DS DS DS DS DS DS DS DS DS0 DS DS R R R R R DS S J From External Microphone MIIN MI MIE PTT EXTMI MIUD V -

- OTTOM VIEW D D D R00 R R R R R R D0 R R R R0 Q Q Q Q Q Q R R R0 D R R R R R R R0 R R R Q I R R 0 R0 Q D J R R R X R R0 R 0 0 I I R R R0 R R R R R 0 R 0 D D D D R D D D D R R D J R0 P EP 0 R0 EP R0 R R R 0 P R0 R Q R R R0 R0 J R D R R R R R R R R R R R R R R R0 I D I R R P R0 R0 R R R R0 I EP EP EP D R R R R R R I R0 EP EP R D R R R R J to Main unit J LONE POWON VOLOUT V +V PLLK PLLST QS J to Main unit J OPV AFE +V TSS NOIS J to Optional unit 0 OPV OPV OPT OPT/S OPT MIIN MIOUT SI OPT/S AFOUT +V

- MAIN UNIT TOP VIEW R 0 W 00 D0 J J - 0 J D J (SP) J (FAN) I R 0 Q Q R Q R R R R L R L R L D D R0 0 D L 0 0 L R R0 R 00 R L J R R0 HASSIS MP R L Q L R R Q R R Q R R Q R Q L L FAN R R L Q0 R 0 Q R R R L L0 R R R0 R0 R L L Q 0 R0 R0 R0 Q MP 0 R R R R L FI FI X X FI I J L L0 Q R R L L0 R L L D 0 0 R R D 0 0 L L L D L D 0 D R 0 R R R R R Q 0 L 0 D R L W FI L D D L 0 L L J to Logic board J LONE VOLOUT V +V PLLK PLLST QS J to Logic board J OPV +V TSS NOIS J to Logic board SP SP J to hassis unit MF FAN

- R R L0 R R R 0 R Q R0 D 0 L R D R0 W D D R R R R L I D W Q R R R R R 00 R R R R0 0 0 R Q R D 0 W R R R R0 D R0 D0 0 R R0 L D R 0 R L R L0 Q R0 L R R R R R D Q 0 EP R R R R R R R R Q R 0 R I R I R EP R L D 0 D R R R R L R R R R0 0 R R0 R R 0 L 0 R R D I R0 R0 0 0 R R L R0 R 0 L Q Q L 0 R R R R R Q0 R D Q R Q Q Q Q R Q0 R R Q R R I R0 R Q Q R I D Q MP OTTOM VIEW

SETION LOK DIAGRAM +V REF OS I: LV0V P PLL I OUT (LOOP-SW) LOOP FIL SHIFT Q: XP0 VO REG Q: S Q: S Q: S Q: DTAZU Q: S D: HV D: HV LO AMP MOD Q: S0 UFF Q: S0 D: MA D: MA TX/RX SW T PRE DRIVE Q: S SWHV Q: SK0 DRIVE AMP Q0: SK0 DRIVE AMP HV HV Q: RD0HVF PWR AMP D: MA LPF D: XA0 D: XA0 D: XA0 D: HVUTRF ANT SW LPF ANTENNA Q: S D: HV X: R- Q0: SK0 D AMP Q: S D: HV UFF LPF AP TRL AP TRL PWR DET RV Q: S0 Ia: NJM0V Q: DTAEU D: MA D: MA LPF I: TAFN IF DET-I (nd-mix, IF-AMP, NOISE-AMP, FMDET, RSSI, SQLSW) W/N SW X: D0 Q: DTAEU Q: S D D: MAS X RV IF AMP Q: S0 [USA] ONLY FI: FL-0 FI: FL-0 XTAL PF Q: SK SQLIN D: HV0 D0: HV0 D: HV0 PF T T T RV RF AMP Q: SK D: HV0 RV PF T T Ia: NJM0V D: MAS SQLATT ATT D: SS LIMIT +V +V SWHV V HV ERAMI PF FI: FWS0F ERAMI PF FI: FWS0HT DT/F D/A Q: DTZK R REG RX TX T REG Q: S Q: S + REG Q: DTZK Q: DTEU + REG I: TA0F V REG I: TAL0F MAIN UNIT LOGI OARD EXT MI MI JAK MOD I: TSF D: DAN MI SW I: TASF D: MA0 MIDATA UFF Q: S D: MAS PTT/ UP/DN SW Ia: NJM0V HPF Ic: NJM0V HPF Id: NJM0V MI AMP Q: XP0 LPF ANALOG SW I: U0FV EXP PORT I: U0F LD VOLIN DS: L-0TAM I: HDH RXAF/MODOUT TSS/EEP DIMMER Ib: NJM0V LPF Q: SA Q, Q, Q: S X Q: DTEU D0: DAN DS, DS, DS, DS, DS, DS, DS0, DS: SE X DS, DS, DS DS: SML-0MT X INT/KEY MATRIX D D, D: DAN X D: SS D D, D, D: MAS X EXP PORT I: U0F VOLOUT AF MUTE Q: S HVSW Q: S Q0: DTATUA Q: DTZU FAN// Q: S Q: S D: MA0 SWHV I: LAA AF AMP FUN TRL AF OUT SP LONE J: 0- HASSIS MF J: EXT SP-JAK 0- X: R- Q: DTEU LOK SHIFT PU LONE UFF Q: DTTU D: DA VOL SQL DIAL SP TX /NOIS V RX RESET I: S-0ANMP-DD EEPROM I: HNXTI OMMON DATA/ONTROL/US, ets -

SETION 0 VOLTAGE DIAGRAM 0- LOGI OARD From the Microphone J 0- MIIN MI MIE PTT EXTMI MIUD V EP MMZ0Y0T EP MMZ0Y0T EP MMZ0Y0T EP MMZ0Y0T EP MMZ0Y0T EP MMZ0Y0T EP MMZ0Y0T EP MMZ0Y0T D NA 0 M 0 P D DAN R k R 0 k R 0 k R 0 k 0.0 D MA0 M R 00 k I TASF 0 R 00 R R. k 0 k 0. R0 k R0 k I TSF R 00 k P 0. R0 k I NJM0V R0 0 k 0 P MIIN P R 00 MIOUT 0.0 R0 k 0.0 0.00 R 00 k V+ I NJM0V R 0 0. I NJM0V 0 0 P R 0 k R. k 0.00 0.0 R k 0.00 R0 M R. M 0 I NJM0V RMUT R I/O O/I O/I I/O ONT. ONT. VEE VDD ONT.A ONT.D I/O 0 O/I O/I I/O I U0FV to the optional unit J AXN 00P to Main unit J J - to Main unit J 0 0 J - 0 0 0 +V AFOUT MIIN MIOUT NOIS TSS +V AFE OPV QS PLLST PLLK +V V VOLOUT POWON LONE R k R 00 0.0 R 0 k R0 0 k P D MAS OPV OPV OPT OPT OPT/S SI R 00 k R0 00 k OPV NOIS PLLK PLLST AFE +V R k VOLOUT V R0. k R0 k :. V R k 0.00 R 0 k 0.0 0.0 D DA MIUD R k R k R k Q DTEU R EVU-FAF 0 0K :. V 0.0 0.0 DUSE SQLV R k Q DTTU VOLIN D MAS R k MIIN MIOUT SQLV TSS VOLIN I S-0ANMP-DD R EVU-F AF0A 0KA N VSS VDD D OUT 0 0.0 VOLOUT R k R0 0 k R k R. k 0.0 R 0 k R 0 k R 00 k Q S GR :.0 V Q XP0 PTT MIUD R. k R 00 k R k I HNXTI A0 A A VSS R0 0 k R k V WP SL A 0. 0.0 R0 k 0. R 00 k P 0.00 R 00 k R k S V PWRSW E EA TIN V D SS D MAS D MAS D MAS D MAS AND AND AND AND D MA S OMEXP D D D MAS TXFREE RXEXP SRAM S-MW/MW MONI/ANM S0 S SET/LOK S S DTMF S D DAN S V-MHz/SAN M-ALL/PRIO TONE/T-SAN LOW/DUP PWRSW D DAN KS KS IS VSS Q Q Q Q LK D 0 QS QS Q Q Q Q QE VDD QS MIS MMUT AFON RMUT S D DAN STR D DAN 0.0 S I U0FV IS MIS MMUT RMUT AFON NOIS EXTMI R 00 k Q DTEU SI R k R k R k P P OLOR DIM DIM0 X R- R M TSS T TIN VOLIN AFON REMO PTT MIUD SQLV P R 0 DIK DIUD REMO MIS MMUT PTT MIS MMUT P0/AN0 AVSS TEST X X VSS XIN OS XOUT OS RESET 0 RES SHIFT NMI P0/IRQ/ADTRG P/ SI P/SI P/ PTT P/ LIN LOUT P/RXD P/TXD PWRSW P/IRQ0 P/IRQ/TMIF OLOR 0 P/IRQ DIM P/IRQ DIM0 REMO P P/TMIG DIUD P/TMOFH DIK P/TMOFL R0 k R k TIN R k R k 0 P 0 P LIN LOUT +V PWRSW RESET 0 -