HF TRANCEIVER. ic-718

Transcript

1 HF TRANIVR i-

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3 INTRODUTION This service manual describes the latest service information for the I- HF TRANIVR at the time of publication. To upgrade quality, all electrical or mechanical parts and internal circuits are subject to change without notice or obligation. DANGR NVR 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. MODL I- VRSION U.S.A. urope Italy France Spain Other Korea U.S.A. SYMBOL USA UR ITA FRA SP OTH KOR USA- DO NOT reverse the polarrities of the power supply when connecting the tranceiver. DO NOT apply an RF signal of more than 0 dbm (00 mw) to the antenna connector. This could damage the transceiver s front end. ING PARTS Be sure to include the following four points when ordering replacement parts:. 0-digit order numbers. omponent part number and name. quipment model name and unit name. Quantity required <SAMPL > 0000 S.I TAF I- MAIN UNIT piece 0000 Screw FH BT M NI-ZU I- HASSIS pieces Addresses are provided on the inside back cover for your convenience. RPAIR NOTS. Make sure a problem is internal before disassembling the transceiver.. DO NOT open the transceiver until the transceiver is disconnected from its power source.. DO NOT force any of the variable components. Turn them slowly and smoothly.. 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 db or 0 db attenuator between the transceiver and a deviation meter or spectrum analyser when using such test equipment.. RAD the instructions of test equipment thoroughly before connecting equipment to the transceiver.

4 TABL OF ONTNTS STION STION SPIFIATIONS INSID VIWS STION DISASSMBLY INSTRUTIONS STION IRUIT RIVR IRUITS... TRANSMITTR IRUITS... PLL IRUIT... LOGI IRUITS... RGULATOR IRUITS... STION ADJUSTMNT PRODURS PRPARATION BFOR SVIING... PLL ADJUSTMNTS... TRANSMITTR ADJUSTMNTS... RIVR ADJUSTMNTS... ST MOD ADJUSTMNT... STION STION STION PARTS LIST MHANIAL PARTS AND DISASSMBLY SMI-ONDUTOR INFORMATIONS STION BOARD LAYOUTS MAIN UNIT... PLL UNIT... LOGI UNIT... PHON BOARD... MI BOARD... VR BOARD... FILTR UNIT... PA UNIT... STION 0 STION STION BLOK DIAGRAM WIRING DIAGRAM VOLTAG DIAGRAMS

5 STION SPIFIATIONS GNRAL Frequency coverage : Receive MHz* Transmit.00. MHz*.00. MHz* MHz MHz MHz.0. MHz MHz.0.0 MHz MHz * Guaranteed range: 0.. MHz. * Varies accoding to version. Mode : USB, LSB, W, AM, RTTY (FSK) No. of memory h. : 0 ( regular, scan edges) Freq. resolution : Hz Frequency stability : Less than ±00 Hz from min. to 0 min. after power ON. After that rate of stability less than ±0 Hz/hr at ( F). Temperature fluctuations 0 to 0 ( F to F) less than ± 0 Hz. Power supply requirement:. V D ± % (negative ground) urrent consumption : Transmit max. power 0.0 A Receive stand-by. A max. audio.0 A Usable temp. range : 0 to 0 ( F to 0 F) Antenna connector : SO- (0 Ω) Dimensions : 0 (W) (H) (D) mm (projection not included) (W) (H) (D) in Weight :. kg ( lb oz) A connector : -pin RMOT connector : -conductor.(d) mm ( ") RIVR Receive system : Double-conversion superheterodyne Sensitivity (0 db S/N) : SSB, W, RTTY AM * Pre-amp ON Squelch sensitivity Selectivity : SSB, W, RTTY 0. µv* (.. MHz) µv (0.. MHz).0 µv* (.. MHz) : Less than. µv (SSB) More than. khz/ db Less than. khz/ 0 db AM More than.0 khz/ db Less than 0.0 khz/ 0 db Spurious and image rejection ratio: More than 0 db (.. MHz) Audio output power : More than.0 W (at. V D) at 0 % distortion with an Ω load RIT variable range : ±00 Hz PHONS connector : -conductor.(d) mm ( ") XT SP connector : -conductor.(d) mm ( ") Ω TRANSMITTR Modulation system : SSB Balanced modulation AM Low level modulation Output power : SSB/W/RTTY/FM 00 W AM 0 W Spurious emission : Less than 0 db below peak output power * spurious frequency ; below 0 MHz: 0 db, above 0 MHz: 0 db arrier suppression : More than 0 db Unwanted sideband suppression: More than 0 db Mic. connector : -pin connector (00 Ω) KY connector : -conductor.(d) mm ( ") connector : Phono (RA) AL connector : Phono (RA) All stated specifications are subject to change without notice or obligation. -

6 STION INSID VIWS Top view (PA AND FILTR UNITS) PA unit Filter unit Predrive amplifier (Q: S) Tx/Rx switching relay (RL: AG0) SWR detector (L: LR-) Drive amplifier (Q, Q: S) Power amplifier (Q, Q: S0) Tx low-pass filters (L: LR-) Bottom view (MAIN AND PLL UNITS) nd mixer circuit (D0: HSBWSTR, Rx; khz, Tx;. khz) MAIN unit Rx st IF amplifier (Q0: SK) MI amplifier (I0: µp0) FAN control- (I0: NJM0M) Rx RF preamplifier (Q0, Q0: SK) Tx khz Modulator (I0: M) Tx Mixer (Q0, Q0: SK) USB, LSB, W, RTTY filter (FI: FL-) Tx st IF amplifier (Q: SK) Rx nd IF amplifier (Q0: SK) st Lo amplifier (Q0: S) FAN control- (Q0: SD) Rx st mixer circuit (. MHz) Tx nd IF amplifier (Q0: SK) DDS gate allay I (I: S-A) Reference oscillator circuit (Q: S, X: R-,.000 MHz) PLL unit V Reg. (I: TA0) BFO DDS (I: S-) -

7 STION DISASSMBLY INSTRUTIONS Removing the covers Remove screws from the top and bottom covers. How to connect the coaxial cable onnect the coaxial cable as shown in below. J0 J to MAIN unit FILTR unit J PA unit J Removing the Front unit Remove screws from the front panel. J from PA unit PLL unit MAIN unit J from FILTR unit J0 J -

8 STION IRUIT - RIVR IRUITS -- RF SWITHING IRUIT (FILTR AND MAIN UNITS) The RF switching circuit leads receive signals to bandpass filters from the antenna connector while receiving. While transmitting, this circuit leads signals from the RF power amplifier to the antenna connector. This circuit includes a 0 db RF attenuator circuit to prevent distortion from very strong signals. RF signals from the antenna connector pass through the transmit/receive switching relay (RL), and low-pass filter (L, ), and are then applied to the MAIN unit via J (MAIN unit; J0). The signals from the FILTR unit are either bypassed or are attenuated at the 0 db attenuator (D0, R0). The signals are then applied to RF filters. -- RF BANDPASS FILTR IRUIT (MAIN UNIT) RF bandpass filters pass only the desired band signals and suppress any undesired band signals. The RF circuit has RF bandpass filters (BPF) for signals above. MHz and low-pass filter (LPF) for signals and suppress any undesired band signals. () 0.0. MHz The signals pass through the low-pass filter (L, L, ) to suppress unwanted frequencies. The filtered signals are bypassed a pre-amplifier by a BPF control signal (B0) and preamp control signal (PROF), and are then applied to the st mixer circuit (Q0 Q0). ()..0 MHz The signals pass through a bandpass filter (L L, L, L,, 0) to suppress unwanted frequencies. The filtered signals are then applied to the pre-amplifier circuit. () MHz The signals pass through a high pass filter (L L, ) to suppress excessively strong signals below.0 MHz, such as from broadcasting stations. The filtered signals are applied to a low-pass filter and one of bandpass filters depending on their frequencies and are then applied to the pre-amplifier circuit. Used RF filter ontrol Band signal 0.0. MHz B0. MHz B MHz B MHz B Input diode D0 D0 D0 D0 Band MHz MHz MHz 0 MHz ontrol signal B B B B Input diode D0 D D0 D -- PR-AMPLIFIR IRUIT (MAIN UNIT) The pre-amplifier circuit uses two SKs to obtain 0 db of gain over a wideband frequency range. When the preamplifier is turned ON, the signals above. MHz are applied to the pre-amplifier circuit. Q0 and Q0 are connected in parallel to easily match the impedance to 0 Ω. I00 (pins, ) switches the signals from a bandpass filter, either to be bypassed, or to be applied to the pre-amplifier, depending on the [PRAMP] switch condition. Amplified or bypassed signals are applied to the st mixer circuit (Q0 Q0) -- ST MIXR IRUIT (MAIN UNIT) The st mixer circuit mixes the receive signals with the st LO signal to convert the receive signal frequencies to a. MHz st IF signal. RIVR ONSTRUTION ANT AM detector st mixer Q0 Q0 FI0A/B rystal filter. MHz nd mixer D0 eramic BPF khz SSB, W, RTTY eramic BPF FI I00 AF selector to AF amplifier st LO nd LO AM SSB-N, W-N, RTTY-N rystal BPF BFO SQL controll (OPTION) -

9 The signals from the pre-amplifier circuit, or signals which bypass the pre-amplifier, pass through a low-pass filter (L0, L0, 0 0). This low-pass filter suppresses signals above 0 MHz to eliminate direct receiving of signals at. MHz and image interference at 0 0 MHz. The signals are then applied to the st mixer (Q0 Q0). The st LO signal (.. MHz) enters the MAIN unit from the PLL unit via J0 (PLL unit; J). The LO signal is amplified at Q0 and then applied to the st mixer. The st mxer (Q0 Q0) uses four SK0s to produce high level mixing with a high intercept point. -- ST IF IRUIT (MAIN UNIT) The st IF circuit filters and amplifies the st IF signals. The st IF signals from the st mixer circuit are applied to MF (Monolithic rystal Filter: Fl0) to suppress out-of-band signals. The passband width of FI0 is ±. khz/ db. The filtered signals are applied to the st IF amplifier (Q0). AG voltage is supplied to the nd gate of Q0. xact st IF frequency Mode LSB USB W AM, W-N -- ND MIXR IRUIT (MAIN UNIT) The nd mixer circuit mixes the amplified st IF signals and nd LO signal (.00 MHz) to convert the st IF signals into a nd IF signal. The amplified st IF signals from Q0 are converted into khz nd IF signal at the nd mixer (D0). D0 is a DBM (Double Balanced Mixer). The nd LO level is approx. 0 dbm. The nd IF signals are applied to FI0 to suppress undesired signals such as the nd LO signal, and are then applied to the NB circuit. xact nd IF frequency Mode LSB USB W AM, W-N Frequency (MHz)....0 Frequency (khz) NOIS BLANKR IRUIT (MAIN UNIT) The noise blanker circuit detects pulse type noise, and turns OFF the signal line when noise appears. The nd IF signals from FI0 are applied to the noise blanker gate (D0, D0). A portion of the signals from FI0 is amplified at the noise amplifiers (Q0, Q0, Q0), then detected at the noise detector (D0). The detected signal from the noise detector is applied to the noise blanker control (Q0, Q0). A portion of the detected signals from the noise detector is applied to the noise AG circuit (Q0, Q0, R, R, ) to control the bias voltage of the noise amplifier (Q0, Q0). The threshold level of the noise blanker switch (Q0) is set at 0. V. When the detected voltage exceeds the threshold level, Q0 outputs a blanking signal to close the noise blanker gate (D0, D0), depending on the pulse noise period. When the operating frequency is changed, the DN_ signal line becomes LOW, turning Q0 ON through D0. In this case, the noise blanker gate prevents PLL click noise. -- ND IF IRUIT (MAIN UNIT) The signals passed through the noise blanker gate (D0, D0) are amplified at Q0. AG voltage is supplied to the nd gate of Q0. When SSB, W or RTTY mode is selected, the amplified signals pass through FI (FL-). When an optional W narrow filter is installed and W-N mode is selected, the signals pass through the W narrow filter. When AM mode is selected, the signals bypass the nd IF filter. The filters are selected with mode selecting signals (SSB/W, AM, W-N) and the TV voltage line. The filtered signal is amplified at Q0 Q0 to obtain a detectable level. AG voltage is supplied to the nd gate of Q0. Two thermistors (R, R), connected to the gate of Q0, improves the temperature characteristics of the receiver gain. R adjusts the receiver gain. While in SSB, W or RTTY mode, outputs signal from Q0 is applied to the product detector (I00). In AM mode, output signals from Q0 are shared between the AM detector (D0) and AG detector (D0). -- BFO IRUIT (PLL UNIT) BFO (Beat Frequency Oscillator) frequency is used at the SSB/W detector and the balanced modulator. The I- uses a DDS I for the BFO circuit. Output signals from the DDS I (I) are filtered by the lowpass filter (L, L, 0 ), and applied to the product detector (MAIN unit; I00) for receive demodulation. BFO frequency in each mode Mode Frequency (khz) Receive Transmit LSB USB W W-N AM....0 No output

10 --0 SSB/W DMODULATOR IRUITS (MAIN UNIT) In SSB or W mode, the nd IF signal from the IF amplifier (Q0) is mixed with the BFO signal from the PLL unit at the product detector (I00) to demodulate the nd IF signal into AF signals. The detected signals (AF) from I00 (pin ) are applied to the AF input mode selector switch (I0). -- AM DMODULATOR IRUITS (MAIN UNIT) In AM mode, the nd IF signal from the buffer amplifier (Q0) passes through 0 and is detected at D0. The detected signal (AF) is then applied to the AF input mode selector switch (I0). -- AF INPUT MOD SLTOR SWITH (MAIN UNIT) The AF signal from one of the detector circuits is applied to the AF input mode selector switch (I0). I0 consists of analog switches which are selected with a mode signal and the squelch control signal. The AF signal is output from I0 (pin ) and then applied to the AF amplifier circuit. When the strong signal disappears, 0 and R0 release the AG line voltage in W or RTTY mode to obtain a fast AG release time. While in SSB or AM mode, 0, 0, R0 and 0, R0 are connected in parallel to obtain a appropriate AG characteristics (middle or slow AG release time), respectively. -- S-MTR IRUIT (MAIN UNIT) The S-meter circuit indicates the relative received signal strength while receiving by utilizing the AG voltage which changes depending on the received signal strength. The AG bias voltage (time constant line) is applied to a differential amplifier (I0, pin ) where the difference between the bias and reference voltage is detected. The S-meter signal is applied to the A/D converter section in the PU (LOGI unit; I, pin ) and the S/RF indicator displays the relative signal strength. -- SQULH IRUIT (MAIN UNIT) The squelch circuit mutes audio output when the S-meter signal is lower than the [SQL] control setting level. -- AG IRUIT (MAIN UNIT) The AG (Automatic Gain ontrol) circuit reduces IF amplifier gain to keep the audio output at a constant level. The voltage on the AG line (Q0, collector) determines the receiver gain. The voltage is usually set by D0 and the resistance ratio of R and R. The nd IF signal from the buffer amplifier (Q0) is detected at the AG detector (D0) and is then applied to the D amplifier (Q0). V is applied to the Q0 emitter to activate the AG line with minus voltage. When receiving strong signals, the detected voltage increases and the voltage of the AG line decreases via the D amplifier (Q0). As the AG line is used for the bias voltage of the IF amplifiers (Q0, Q0, Q0), IF amplifier gain is decreased. AG IRUIT R RFGV (RF/SQL control) nd IF signal V AG det. D0 R R D0 R Q0 R0 RST R0 Q0 AG SLOW 0 R0 Q0 The S-meter signal from I0d (pin ) is applied to the PU (LOGI unit; I) to be compared with the threshold level set by the [SQL] control. When the S-meter signal is lower than the threshold level, the PU outputs control signal to the AF input mode selector switch (I0, pin ) via the D/A converter (I00). This cuts the AF signal OFF. The PU also controls turning OFF the [RX] indicator, and PU (pin ) outputs SQLS signal to the [MI] connector (pin ) and [A] connector (pin ). -- AF AMPLIFIR IRUIT (MAIN UNIT) The AF amplifier amplifies the AF input signal to a suitable driving level for the speaker. The AF signal from the AF input mode selector switch is applied to the AF pre-amplifier (I0a). The W side tone signal is also applied to I0a. The amplified signal is applied to the VA (I0), and then volume controlled AF signal is power-amplified at the AF power amplifier (I0) to drive the speaker. The AF signal is applied to the speaker. AG MIDDL 0 R0 Q0 0 AG FAST 0 R R0 R0 I0d Meter amp. R0 AG line SM S-meter signal V SAN SSB W/RTTY AM -

11 - TRANSMITTR IRUITS -- MIROPHON AMPLIFIR IRUIT (FRONT AND MAIN UNITS) The microphone amplifier circuit amplifies microphone-input signals and outputs the amplified signal to the balanced modulator. Audio signals from the [MI] connector are applied to the MI amplifier I (I0). I0 consists of the microphone amplifier, microphone gain control, speech compressor and VOX function. xternal modulation input from the [A] socket (pin ) is also applied to I0. The microphone bias voltage is supplied from the V line via R and R0. In AM mode, the AL circuit (Ib, D) limits maximum level of the I0 output. The maximum modulation level is set by R (MAIN unit). -- BALAND MODULATOR (MAIN UNIT) The balanced modulator converts the AF signal from the microphone amplifier to a khz IF signal with a BFO signal. Output signals from the microphone amplifier and the W keying signal are applied to the balanced modulator (I0, pin ). The BFO signal from the PLL unit is applied to I0 (pin 0) as a carrier signal. 0 is a doubled balanced mixer I and outputs a double side band (DSB) signal with 0 db carrier suppression. R0 adjusts the balanced level of I0 for maximum carrier suppression. In W mode, the W keying signal upsets the balance to create a carrier signal. In AM mode, Q0 and R upset the balance to create an AM carrier signal. -- W KYING IRUIT (MAIN UNIT) When the W key is closed, control signal is output from PU (LOGI unit) and controls break-in operation, the side tone signal. The input signal (DOT or DAS) from W keyer is applied to the PU (LOGI unit; I, pins, 0) and then PU outputs W control signal (KDS) from pin. The W control signal is applied to the balanced modulator (I0) via Q0, Q0, D0 to unbalance the I0 input bias voltage and create a carrier signal. R0 determines the transmit delay timing. -- IF AMPLIFIR (MAIN UNIT) The SSB/W/RTTY khz IF signal passes through FI (FL-) to suppress unwanted sideband signals, then the signal is applied to a transmit IF amplifier (Q0). The optional W narrow filter is not used in transmitting. The amplified signal from Q0 is mixed with the nd LO signal and converted to a. MHz IF signal at D0. D0 is used in receiving and transmitting. The AM signal bypasses FI, and is amplified at Q0 and is then applied to D0. The. MHz IF signal is filtered at FI0, amplified at the IF amplifier (Q) and is then converted to the displayed frequency at the balanced mixer (Q0, Q0) with the st LO signal. The gates of the IF amplifiers (Q, Q0) are controlled by AL bias voltage from the AL circuit. A thermistor (R0), connected to the gate of Q0, improves the temperature characteristics of the transmitter gain. R0 adjusts the total transmitter gain. -- RF IRUIT (MAIN AND PA UNITS) The displayed frequency signal converted at the balanced mixer (MAIN unit; Q0, Q0) is applied to the bandpass filter (L0 L0, 0 0) where unwanted LO signal emission is reduced. The filtered signal is attenuated at R R and amplified at I, and is then applied to the PA unit via the attenuator (R R). The signals from the MAIN unit are amplified at the predrive amplifier (Q), drive amplifier (Q, Q) and power amplifier (Q, Q) in the PA unit to obtain a stable 00 W of RF output power. The predrive amplifier is a class-a amplifier with a V of. V. The drive amplifier is a class-ab push-pull amplifier with a V of. V. D controls bias voltage to the drive amplifier. The impedance of the signal from the drive amplifier is converted at L, and then the signal is applied to the power amplifier (Q, Q). The power amplifier is a class-ab pushpull amplifier and amplifies the input signal to 00 W. D and D control bias voltage to the power amplifier. The signal from the power amplifier is applied to one of the low-pass filters in the FILTR unit. -- LOW-PASS FILTR IRUIT (FILTR UNIT) The low-pass filter circuit consists of hebyschev lowpass filters to suppress the higher harmonic components. The signal from the power amplifier (Q, Q) is applied to one of the low-pass filters (depending on its frequency). The filter switching voltage from the MAIN unit (J00) is applied to the FILTR unit via J. The filtered signal passes through the SWR detector circuit (L) and is then applied to the antenna connector. -- AL IRUIT (MAIN UNIT) The AL (Automatic Level ontrol) circuit controls the gain of IF amplifiers in order for the I- to output a constant RF power set by the [RF PWR] control even when the supplied voltage shifts, etc. The FOR voltage from the FILTR unit is applied to I0c (pin ) in the MAIN unit. The POV voltage from the D/A converter (I0, pin ), determined by the RF power setting, is applied to I0c (pin 0) as the reference voltage. -

12 When the FOR voltage exceeds the POV voltage, AL bias voltage from I0c (pin ) controls the IF amplifiers (Q, Q0). This adjusts the output power to the determined level by the RF power setting until the FOR and POV voltages are equalized. In AM mode, Q0 turns ON and 0, 0 are connected to the FOR voltage line to obtain an averaging AL operation. Q0 turns ON and the POV voltage is shifted for 0 W AM output power (maximum) through R0. An external AL input from the [A] socket or the [AL] jack is applied to the buffer amplifier (Q0). xternal AL operation is identical to that of the internal AL. -- AP IRUIT (MAIN UNIT) The AP (Automatic Power ontrol) circuit protects the power amplifiers on the PA unit from high SWR and excessive current. A reflected wave signal appears and increases on the antenna connector when the antenna is mismatched. D of the SWR detector circuit (L, D, D) in the FILTR unit detects the signal and applies it to I0b in the MAIN unit as the signal. When the signal level increases, I0b decreases the AL line voltage via R to activate the AL. For the current AP, the power transistor current is obtained by detecting the voltage ( IH and IL ) which appear at both terminals of a 0.0 Ω resistor (PA unit; R). The detected voltage is applied to the differential amplifier (I0a, pins, ). When the current of the final transistors is more than A, I0a controls the AL line via D0 to prevent excessive current flow. During tuning of an antenna with an optional AH-, The PODN signal turns Q ON. As a result, the POV voltage is shifted for approx. 0 W output power. -- TMPRATUR PROTTION IRUIT (MAIN UNIT) A cooling fan (HASSIS; MF) is activated while transmitting or if the temperature of Q (PA unit) exceeds the preset value. AL IRUIT FOR voltage AMS RF power setting V D0 D0 Q0 0 D0 R 0 I0 R0 D/A converter Q0 R0 D0 R0 D0 R voltage R V POV line R0 R0 R0 V While transmitting, PAT voltage is provided to MF via R0. Thermistor R0 on the PA unit detects the temperature of Q. If the Q temperature is more than 0 ( F), R0 becomes very low impedance. Then TMP signal from PA unit is applied to the A/D converter section of the PU (I, pin ) in the LOGI unit as PATL signal. And the PU outputs control signal to rotate the cooling fan at high speed via the I/O expander (I0) even when the transceiver condition has changed from transmit to receive. --0 RF MTR IRUIT (MAIN UNIT) The FOR voltage from the FILTR unit is applied to the RF meter amplifier (Ia, pin ) via the AL amplifier (I0c). The amplified voltage is output from Ia (pin ) and then applied to the A/D converter section of the PU (I, pin ) in the LOGI unit. - PLL IRUITS -- GNRAL The PLL unit contains DDS circuits for generating a st LO signal (.. MHz variable) and a BFO frequency (.. khz). The st LO PLL employs a loop DDS PLL whose reference oscillator is also used as the nd LO signal (.00 MHz fixed). The DDS (Direct Digital Synthesizer) circuit performs signal-sampling, generation of digital sine wave and digital phase detection. -- ST LO IRUIT (PLL UNIT) The PLL contain one VO circuit (Q, D) for all HF band coverage within Hz step. The VO oscillation signal is buffer-amplified at Q and is then amplified at Q, Q and Q0. The resulting signal is applied to the DDS I (I). The DDS I outputs pulse-type signals. The signals are applied to the loop filter to be converted into D voltage (lock voltage). The lock voltage is applied to the varactor diode (D) in the VO circuit to change the capacitance of this diode and control the oscillation frequency. The VO oscillating signal is then buffer-amplified at the buffer amplifier (Q), amplified at Q, and finally applied to the MAIN unit as a st LO signal. R I0b AL amp. R0 0 I0 AL amp. R R D0 AL (external AL) Q0 R R AL -

13 -- RN OSILLATOR IRUIT (PLL UNIT) The reference oscillator circuit consists of Q and X. A.00 MHz reference frequency is oscillated to produce a nd LO signal, DDS reference frequency and BFO DDS clock signal. The.00 MHz reference frequency is doubled at Q0 to obtain the nd LO signal. The resulting.00 MHz signal is filtered at the bandpass filter and is then applied to the MAIN unit via J as the nd LO signal. - LOGI IRUITS -- BAND SLTION DATA (MAIN UNIT) To selection the correct bandpass filter and low-pass filter, the PU outputs the following band selection data from the I/O expander (MAIN unit; I00) depending on the displayed frequency. Band selection data Band 0.0. MHz.. MHz.0. MHz.0. MHz.0 0. MHz.0. MHz.0. MHz MHz BPF B0 B B B B B B B Band voltage. V.0 V.0 V 0 V.0 V. V.V LPF L L L L L L -- RIT ONTROL (FRONT UNIT) The [RIT] control shifts the RIV voltage in order to shift the receive frequency. The voltage is applied to the A/D converter section of the PU (I, pin ). The PU shifts the N- data for the DDS I. -- PU (LOGI UNIT) The PU (I) contains an -bit MOS PU, a 0 k-byte ROM, a k-byte RAM. A.0 MHz clock is used for rapid operation. The PU controls the operating frequency, mode, function display, etc. The memory channel information is stored in the PROM (I). The Icom I-V network system allows the I- to be remotely controlled by a personal computer using an RS- I/O port. - RGULATOR IRUITS ither V, V or V D is supplied from a corresponding regulator circuit. V, V and V D are regulated at the following circuits using. V D. () V RGULATOR (FRONT UNIT) V D is provided by a three-terminal voltage regulator (I). () V RGULATOR (MAIN UNIT) V D is provided by a three-terminal voltage regulator (I). () V RGULATOR (MAIN UNIT) I generates a negative pulse-type voltage by converting the D input to A voltage (approx.. khz) as a multivibrator. The voltage is rectified at D0 and D, regulated by a Zener diode (D) and, and is then applied to the MAIN and PLL units. FRQUNY ONSTRUTION ANT st mixer Q0 Q0. MHz rystal filter nd mixer D0 MAIN unit khz BPF Demodulator to AF circuit st LO.. MHz nd LO.0 MHz BFO.. khz BPF BPF PLL unit LPF Q I Loop filter DDS Reference oscillator X:.0 MHz Q Q0 DDS I -

14 STION ADJUSTMNT PRODURS - PRPARATION BFOR SRVIING RQUIRD TST QUIPMNT QUIPMNT GRD AND RANG QUIPMNT GRD AND RNG D power supply Output voltage :. V D Frequency range : At least 0 MHz Spectram analyzer urrent capacity : 0 A or more Spectraum bandwidth : 00 khz or more Measuring range : 0 00 W Frequency range : MHz Standard signal RF power meter Frequency range :. 0 MHz Output level : 0. µv mv generator (SSG) (terminated type) Impedance : 0 Ω ( to dbm) SWR : Less than. : A millivoltmeter Measuring range : 0 mv 0 V Frequency range : MHz Frequency counter Frequency accuracy : ±0. ppm or better D voltmeter Input impedance : 0 kω/v D or better Sensitivity : 00 mv or better D ammeter Measurement capability: A and 0 A RF voltmeter Modulation analyzer Distortion meter Oscilloscope Frequency range : MHz Frequency range : Hz Measuring range : V Audio generator Measuring range : 00 mv Frequency range : At least 0 MHz Power attenuation : 0 or 0 db Measuring range : 0 00 % Attenuator apacity : 0 W or more Frequency range : khz ±0 % Input impedance : Ω Measuring range : 00 % xternal speaker apacity : W or more Frequency range : D 0 MHz Resistance : 0 and 0 Ω Measuring range : V Terminator apacity : 0 W or more Digital multimeter Imput impedance : 0 MΩ/D or beter ONNTIONS Standard signal generator Attenuator Modulation analyzer AUTION! DO NOT transmit while an SSG is connected to the antenna connector. D power supply Distortion meter Ammeter to [XT SP] to [D. V] to the antenna connector Spectrum analyzer RF power meter Speaker I- Microphone connector (Front panel view) Audio generator,. Pin Pin Pin Pin PTT -

15 - PLL ADJUSTMNTS ADJUSTMNT RN FRQUNY ADJUSTMNT ONDITION Display frequency: Any Set as illustration at below. Receiving ADJUSTMNT MASURMNT VALU POINT UNIT LOATION UNIT ADJUST PLL onnect a frequency counter to check point P. Turn L, L on the PLL unit to downside for presetting until the frequency counter reads frequency MHz PLL L onnect an RF voltmeter to check point P. Maximum level L, L VO LOK VOLTAG Display frequency:. MHz Receiving PLL onnect a digital multimeter or oscilloscope to check point P.. V PLL Display frequency: MHz Receiving More than 0. V Verify ST LO OUTPUT LVL Display frequency:. MHz Mode : USB Receiving PLL onnect an RF voltmeter to check point P. dbm to dbm Verify Display frequency: MHz Mode : LSB Receiving ND LO OUTPUT LVL Display frequency:.0000 MHz Mode : USB Receiving PLL onnect an RF voltmeter to check point P. dbm to dbm Verify BFO OUTPUT Display frequency:.0000 MHz Mode : USB Receiving PLL onnect an RF voltmeter to check point P. dbm to dbm Verify onnect a frequency counter to check point P.. khz Mode Receiving : AM No output PLL unit (bottom view) P P VO lock voltage check point -

16 PLL unit BFO P BFO check point J nd LO P J P Reference frequency check point L Reference freauency adjustment Reference OS level adjustment Reference frequency pre-setting st LO P st LO output level check point J P VO lock voltage adjustment -

17 - TRANSMITTR ADJUSTMNTS ADJUSTMNT IDLING URRNT (for driver) (for final amplifier) SWR DTTOR TRANSMITTR TOTAL GAIN ADJUSTMNT ONDITION Display frequency:.0000 MHz Mode : USB RF power : Minimum (L) Mic gain : Minimum (0) Disconnect J0 (MAIN unit) and preset R, R (PA unit) to max. counter clockwise. Transmitting Transmitting Display frequency:.0000 MHz Mode : USB RF power : Maximum (H) Mic gain : enter (0) R0 (MAIN unit): enter onnect an audio generator to [MI] connector and set as: Frequency :. khz Level : mvrms Transmitting Transmitting ADJUSTMNT MASURMNT VALU POINT UNIT LOATION UNIT ADJUST PA After adjustment, connect J0 on the MAIN unit. Display frequency:.0000 MHz Rear Mode : USB panel RF power : Maximum (H) onnect J (FILTR) unit to. onnect an audio generator to [MI] connector and set as: Frequency :. khz Level : 0 mvrms Transmitting Transmitting FILTR Rear panel onnect an ammeter ( A) between power supply and the I-. onnect an RF power meter to [ANT] connector. onnect a digital multimeter or oscilloscope to J. After adjustment, disconnect J on the FILTR unit from. onnect an RF power meter to [ANT] connector. At the point where the Tx current Increases 00 ma. At the point where the Tx current Increases 00 ma. 00 W Minimum voltage Maximum output power 0 W PA Front panel FILTR MAIN R R Mic gain control in the quick set mode L0, L, L0, L0, L0, L0 R0 OUTPUT POWR Display frequency:.0000 MHz Mode : USB RF power : Maximum (H) MI gain : enter (0) onnect an audio generator to [MI] connector and set as: Frequency :. khz Level : 0 mvrms Transmitting Rear panel onnect an RF power meter to [ANT] connector. 00 W MAIN R0 Ic AP Display frequency:.000 MHz Mode : USB onnect P00 (MAIN unit) to. RF power : Maximum (H) Mic gain : enter (0) onnect an audio generator to [MI] connector and set as: Frequency :. khz Level : 0 mvrms Transmitting Rear panel onnect an ammeter (0A) between power supply and the I-. A MAIN R0 After adjustment, disconnect P00 on the MAIN unit from. -

18 PA unit FILTR unit R Idling current adjustment (Driver) R Idling current adjustment (Final) J SWR detector check point J SWR detector pre-setting SWR detector adjustment MAIN unit P00 Ic AP pre-setting L0 L L0 L0 Tx total gain adjustment L0 L0 R0 J0 Idling current pre-setting R0 Ic AP adjustment R0 Output power adjustment R0 Tx total gain pre-setting -

19 TRANSMITTR ADJUSTMNTS continued ADJUSTMNT ARRIR SUPPRSSION AM ARRIR AM MODULATION W ARRIR ADJUSTMNT ONDITION Display frequency:.0000 MHz Mode : USB Mic gain : Minimum (0) Apply no audio signals to [MI] connector. Transmitting Display frequency:.0000 MHz Mode : AM RF power : Maximum (H) Mic gain : Minimum (0) R (MAIN unit): enter R (MAIN unit): enter Apply no audio signals to [MI] connector. Transmitting Display frequency:.0000 MHz Mode : AM RF power : Maximum (H) Mic gain : enter (0) R (MAIN unit): enter onnect an audio generator to [MI] connector and set as: Frequency : khz Level : 0 mvrms Transmitting Set an AG as: Frequency : khz Level : mvrms Transmitting Display frequency:.0000 MHz Mode : W RF power : Maximum (H) onnect a keyer to the [KY] jack. Key down (transmitting) ADJUSTMNT MASURMNT VALU POINT UNIT LOATION UNIT ADJUST Rear panel Rear panel Rear panel MAIN onnect a spectrum analyzer to the [ANT] connector through an attenuator. onnect an RF power meter to [ANT] connector. onnect a modulation analyzer to the [ANT] connector through an attenuator. onnect an oscilloscope to P0 and [ANT] connector. Minimum carrier level 0 W 0% modulation 0% modulation Adjust as follows: Keying (P0) MAIN MAIN MAIN MAIN R0 R0 R Verify R0 0 msec. -

20 MAIN unit P0 W carrier check point R0 arrier suppression adjustment R0 W carrier adjustment R0 AM carrier adjustment R AM modulation adjustment (or AM carrier pre-setting) R AM carrier and AM modulation pre-setting -

21 - RIVR ADJUSTMNTS Receiver total gain adjustment must perform after transmitter total gain adjustment. ADJUSTMNT RIVR TOTAL GAIN NOIS BLANKR ADJUSTMNT ONDITION R0 (MAIN unit): enter Turn R (MAIN unit) to 0 counter clockwise from center position. Display frequency:.0000 MHz Mode : USB [RIT] : OFF (enter) [NB] : OFF [P.AMP] : ON [ATT] : OFF onnect an SSG to [ANT] connector and set as: Frequency :.00 MHz Level Modulation: OFF Receiving :.0 µv* ( 0 dbm) [P.AMP] : OFF [ATT] : OFF Set an SSG as: Level :.0 mv* ( dbm) and OFF Receiving Display frequency:.0000 MHz Mode : USB [P.AMP] : ON [NB] : OFF onnect an SSG to [ANT] connector and set as: Frequency :.00 MHz Level :. µv* ( dbm) Modulation: OFF and apply following signal to [ANT] connector. 00 msec. ADJUSTMNT MASURMNT VALU POINT UNIT LOATION UNIT ADJUST Rear panel MAIN onnect an A millivolt meter to [XT SP] connector with an Ω load. onnect an oscilloscope to check point P0. Maximum audio output level 0 db of AF level difference Maximum noise waveform MAIN MAIN MAIN L0, L0, L0, L, R L0, L0 Receiving [NB] Receiving msec. : ON The noise must be blanked Verify *This output level of a standard signal generator (SSG) is indicated as SSG s open circuit. -

22 MAIN unit L0 L0 L0 L0 Noise blanker Rx total gain adjustment L0 adjustment P0 Noise blanker check point L L R0 Rx total gain pre-setting -

23 - ST MOD ADJUSTMNT ADJUSTMNT ADJUSTMNT ONDITION DISPLAY OPRATION NTRING ST MOD ADJUSTMNT FOR RX VOLUM NTR nter set mode adjustment for RX: Turn power OFF. Terminate the [RMOT] jack with a.(d) mm mini-plug. While pushing [MOD] and [TS] keys, turn power ON. Set the [RIT] and [SHIFT] controls to center. Push [ST] key to enter the RX setting. Or push [UP] key to skip the set mode adjustment for RX. Push and hold [ST] key to set the volume center positions. Verify the display shows GooD, then push [UP] key to enter the S MTR adjustment. S MTR ST MOD ADJUSTMNT FOR TX onnect a standard signal generator to [ANT] and set as : Frequency :.0 MHz Level : OFF Receiving Set an SSG as : Level : 0 µv ( dbm) Modulation : OFF Receiving Set an SSG as : Level : 0 mv ( dbm) Modulation : OFF Receiving Push [UP] to enter the set mode adjustment for TX. Push [ST] key to set the "S0 level". Push [ST] key to set the "S level". Push [ST] key to set the "0 db level". Push [UP] key to return the set mode adjustment for RX. Push [ST] key to enter the TX setting. FILTR ALIBRATION onnect an RF power meter to [ANT] connector. Push [ST] key to make the calibration. Transceiver transmits for a while. POWR MTR onnect an RF power meter to [ANT] connector. onnect an audio generator to [MI] jack and set as: Frequency :. khz Level : 0 mvrms Push [ST] key to transmit. Transceiver transmits automatically. Set to 0 W using [MAIN DIAL], then push [ST] key while transmitting. Set to 0 W using [MAIN DIAL], then push [ST] key while transmitting. Set to 0 W using [MAIN DIAL], then push [ST] key while transmitting. Push [UP] key to enter the AL MTR adjustment. AL MTR onnect an RF power meter to [ANT] connector. onnect an audio generator to [MI] jack and set as: Frequency :. khz Level : 0 mvrms Push [ST] key to set AL reference level. Transceiver transmits automatically. Push [UP] key to enter the SWR MTR adjustment. - 0

24 ST MOD ADJUSTMNT continued ADJUSTMNT ADJUSTMNT ONDITION DISPLAY OPRATION SWR MTR onnect a 0 Ω dummy load or power meter to [ANT] connector. Transmit using an external PTT switch to set SWR reference level after pushing [ST]. onnect a 00 Ω dummy load or power meter to [ANT] connector. Transmit using an external PTT switch to set SWR level after pushing [ST]. The display returns to the same as the set mode adjustment for TX. -

25 STION PARTS LIST [FRONT UNIT] SP SPAKR VS-0-0 W ABL OP- W ABL OP- W ABL OP- WS 000.OTHR SX IOM SHILD ()/FR P 000.OTHR RMS0-0-0-R P 0000.OTHR HLJ0-0-0 [LOGI BOARD] I 0000 S.I HDSDH I 0000 S.I X0SI-.T I 0000 S.I S-0ANMP-DD-T I S.I TAL0F (TR) I S.I TA0F (TL) I 0000 S.I HD00F I S.I TWF (TL) I S.I TW0F (TL) Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR S0 T0 R Q 0000 S.TRANSISTOR DTAUA T0 Q S.TRANSISTOR SD-T-TD Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR XP0 (TX) Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR DTAUA T0 D S.DIOD DAN0K T D S.DIOD DAN0K T D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D S.DIOD SS T- D S.DIOD DAN0K T D 0000 S.ZNR NND.G-T D S.DIOD SS T- D S.DIOD SS T- [USA], [SP], [KOR] D S.DIOD SS T- [UR], [ITA] D S.DIOD SS T- [ITA], [FRA], [SP] D S.DIOD SS T- [KOR], [USA-] D S.DIOD SS T- D S.DIOD SS T- D S.DIOD SS T- D S.DIOD SS T- D S.DIOD DA TL D S.DIOD DA TL D S.DIOD DA TL [LOGI BOARD] D S.DIOD DA TL D S.DIOD DA TL X S.XTAL R- (.0 MHz) L S.OIL NL T-00J L S.OIL NL T-00J L S.OIL NL T-0J L S.OIL NL 0T-0J L S.OIL NL 0T-0J L S.OIL HF0A -T L S.OIL LJPA 00KF 0U L S.OIL HF0A -T L S.OIL HF0A -T L S.OIL HF0A -T L S.OIL NL T-0J L S.OIL HF0A -T L S.OIL HF0A -T L S.OIL HF0A -T L S.OIL HF0A -T R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJYJ0U ( Ω) R S.RSISTOR RJYJ0U ( Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 00 V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) S.=Surface mount -

26 [LOGI BOARD] R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJWYJ0U ( Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) [LOGI BOARD] R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB 0K-T-A S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VHA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0K-T-A S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H 0K-T-A S.RAMI JB K-T-A J 0000 S.ONNTOR SB-PH-SM-TB J 000 S.ONNTOR 0FMN-BMTTR-TBT J 000 S.ONNTOR 0FMN-BMTTR-TBT J 000 S.ONNTOR 0FMN-BMTTR-TBT J 000 S.ONNTOR 0FLT-SM-TB J 000 S.ONNTOR 0FLT-SM-TB J S.ONNTOR FMN-BMTTR-TBT DS LD A00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 DS LD TLYU00 W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V S.=Surface mount -

27 [LOGI BOARD] P 0000 PB B P 000 S.BAD MMZ0Y 0BT P0 000 S.BAD MMZ0Y 0BT P 000 S.BAD MMZ0Y 0BT P 000 S.BAD MMZ0Y 0BT P0 000 LD ONTAT SRN--SP-N-W P 000 S.BAD MMZ0Y 0BT P 000 S.BAD MMZ0Y 0BT P 000 S.BAD MMZ0Y 0BT P 000 S.BAD MMZ0Y 0BT [PHON BOARD] L S.OIL HF0A -T R S.RSISTOR RJYJ0U (00 Ω) R S.RSISTOR RJYJ0U (00 Ω) R S.RSISTOR RJGYJ 0 V ( kω) S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A J 0000 ONNTOR HLJ J 000 S.ONNTOR 0FMN-BMTTR-TBT P 000 PB B [VR BOARD] R VARIABL TPD-F-0KBX-0 R VARIABL TPD00-F-0KBX-0 R S.RSISTOR RJGYJ V (. kω) J 0000 S.ONNTOR 0FM-.0SP-.-TF P 000 PB B D [MI BOARD] J ONNTOR FM-SS (P) J 000 S.ONNTOR 0FMN-BMTTR-TBT P 000 PB B [MAIN UNIT] I S.I µp0t- I S.I NJM0M-T I S.I NJM0M-T I S.I TA0F (TL) I S.I NJM0M-T I S.I TWF (TL) I S.I µp0gs-0- I S.I NJMV-T I S.I NJM0M-T I S.I MFP 0D I S.I TAF (TP) I S.I TSF (TR) I I LAA I S.I BU0BF-T I S.I TDAF (TP) I S.I TDAF (TP) I S.I BU0BF-T I S.I TDAF (TP) I S.I BU0BF-T I S.I MGP I I TA0S I S.I µpg-t Q S.FT SK-T MAS Q S.FT SK-T MAS Q S.FT SK-GR (TL) Q S.TRANSISTOR SD-TD Q S.TRANSISTOR DT TL Q S.FT SK-GR (TL) Q S.TRANSISTOR DT TL Q 0000 S.TRANSISTOR DT TL Q S.TRANSISTOR DT TL Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR DT TL Q S.FT SK0-TA Q S.FT SK0-TA Q S.FT SK0-TA Q S.FT SK0-TA Q S.FT SK-T MAS Q S.FT SK-T MAS Q S.FT SK--TD Q S.FT SK--TD Q S.FT SK-GR (TL) Q S.FT SK-GR (TL) Q S.FT SK-GR (TL) Q S.TRANSISTOR S0 T0 R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR DT TL Q S.TRANSISTOR S0 T0 R Q S.TRANSISTOR S0 T0 R Q S.TRANSISTOR DTA TL Q S.TRANSISTOR S0 T0 R Q S.FT SK-GR (TL) Q S.FT SK-T MAS Q S.TRANSISTOR S0 T0 R Q S.TRANSISTOR SAA T0R Q S.TRANSISTOR DT TL Q S.TRANSISTOR DT TL Q S.TRANSISTOR UMDN TR Q S.TRANSISTOR UMDN TR Q S.TRANSISTOR UMDN TR Q S.TRANSISTOR S0 T0 R Q S.TRANSISTOR DT TL Q S.TRANSISTOR S0 T0 R Q 0000 S.TRANSISTOR DT TL Q 0000 S.TRANSISTOR DT TL Q S.TRANSISTOR DT TL Q S.TRANSISTOR SD T00Q Q S.TRANSISTOR DT TL Q S.TRANSISTOR DTA TL Q S.TRANSISTOR DT TL Q S.TRANSISTOR DTA TL Q S.TRANSISTOR SD-T-TD Q S.TRANSISTOR DT TL D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) S.=Surface mount -

28 [MAIN UNIT] D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD HSBWSTR D S.DIOD DAN0K T D S.DIOD MAS-(TX) D S.DIOD DAN0K T D S.DIOD DAP0K T D S.DIOD DAN0K T D S.DIOD DAP0K T D S.DIOD DAN0K T D S.DIOD DAP0K T D S.DIOD DAN0K T D S.DIOD DAP0K T D S.DIOD DAN0K T D S.DIOD SV (TL) D S.DIOD SV (TL) D S.DIOD SV (TL) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD MA (TX) D S.DIOD SS-TL D S.DIOD MAS-(TX) D S.DIOD MAS-(TX) D S.DIOD DAN0K T D S.DIOD MA (TX) D S.ZNR MA0-H (TX) D S.ZNR MA0-H (TX) D S.DIOD MAS-(TX) D S.DIOD DAP0K T D S.DIOD DAP0K T D S.DIOD MAS-(TX) D S.DIOD MAS-(TX) D S.DIOD SS-TL D S.DIOD MAS-(TX) D S.DIOD SS-TL D S.DIOD SS-TL D S.DIOD MAS-(TX) D S.DIOD DA TL D S.DIOD DA TL D S.DIOD MAS-(TX) D 0000 S.DIOD SS-TL D S.DIOD DAP0K T D S.DIOD DAN0K T D S.DIOD DAN0K T D S.DIOD DA TL D S.ZNR MA0-M (TX) D S.DIOD DAN0K T D S.DIOD MAS-(TX) D S.DIOD MAS-(TX) FI XTAL FL- (.00 MHz) FI RAMI FJK (FL-) FI RAMI FWSHT L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL MLF0D RK-T L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ L S.OIL NL T-0J L S.OIL LR- [MAIN UNIT] L OIL LS-A (-) L 0000 OIL LS-B (-) L S.OIL NL T-0J L S.OIL MLF0A RK-T L S.OIL NL T-00J L S.OIL NL T-RJ- L OIL LS-B (-) L OIL LS-B (-) L OIL LS-B (-) L S.OIL LR- L OIL LR- L OIL LS- (-) L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL ALS-M-T L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL NL T-RJ L S.OIL NL T-RJ L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-R0J- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL NL T-RJ- L S.OIL LR- L OIL LR-0 L OIL LS-A (-) L S.OIL NL T-0J L OIL LS-B (-) L OIL LS-B (-) L OIL LS- (-) L OIL LS- (-) L OIL LS- (-) L S.OIL ALS-M-T L OIL LR- L OIL LR- L0 000 OIL LS-0 L0 000 OIL LS-0 L S.OIL ALS-M-T L0 000 OIL LS-0 L 000 OIL LS-0 L 000 OIL LS-0 L S.OIL NL T-0J L S.OIL NL T-0J L OIL LW- L OIL LAL 0NA 0K S.=Surface mount -

29 [MAIN UNIT] L OIL LAL 0NA 0K L S.OIL HF0A -T L S.OIL HF0A -T L S.OIL NL T-00J L S.OIL HF0A -T L S.OIL HF0A -T L S.OIL NL T-00J L S.OIL NL T-00J L S.OIL NL T-0J L S.OIL NL T-00J L S.OIL NL T-00J L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL HF0A -T L S.OIL NL T-R0J- L S.OIL NL T-R0J- R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R 0000 S.THRMISTOR NTM00 BH K-T R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJYJ0U ( Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ 00 V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.TRIMMR RV-0 (RH0AASX0AA) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.THRMISTOR NTM0 NH 0K-T R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (. kω) [MAIN UNIT] R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJYJU (0 Ω) R S.RSISTOR RJYJU (0 Ω) R S.RSISTOR RJYJU (0 Ω) R S.RSISTOR RJYJU (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR MR0ZHJ Ω (0) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. MΩ) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) S.=Surface mount -

30 [MAIN UNIT] R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R 0000 S.THRMISTOR NTM0 FH K-T R 0000 S.TRIMMR RV- (RH0AASX0DA) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R 0000 S.THRMISTOR NTM00 BH K-T R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V (0 kω) R 0000 S.THRMISTOR NTM00 BH K-T R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.TRIMMR RV-0 (RH0AAX0A) 0 R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (. MΩ) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (. MΩ) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.TRIMMR RV-0 (RH0AAX0F) 0 R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.TRIMMR RV-0 (RH0AAX0A) 0 R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V (. MΩ) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (. MΩ) R S.RSISTOR RJGYJ V (. MΩ) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) [MAIN UNIT] R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.TRIMMR RV- (RH0AAJ) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.TRIMMR RV- (RH0AASX0DA) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.THRMISTOR NTM00 BH K-T R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.TRIMMR RV- (RH0AAJ) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R 0000 S.TRIMMR RV-0 (RH0AAX0F) 0 R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.TRIMMR RV- (RH0AASX0DA) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V ( kω) S.=Surface mount -

31 [MAIN UNIT] R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RR0P--D (0 Ω) R S.RSISTOR RR0P--D (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 kω) R S.RSISTOR RJGYJ 0 V (00 kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.TRIMMR RV-0 (RH0AAJX0BA) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A [MAIN UNIT] S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H 00D-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 H H 00D-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 UJ H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.LTROLYTI VHARR S.RAMI 0 JB H K-T-A S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.LTROLYTI VHA00SR 0000 LTROLYTI MV 00 H S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A 0000 S.LTROLYTI VHA00SR S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A 0000 S.RAMI 0 H H J-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.=Surface mount -

32 [MAIN UNIT] S.RAMI 0 JB 0KT-N 0000 S.RAMI 0 H H J-T-A S.RAMI 0 H H 0J-T-A 0000 S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A 0000 S.RAMI 0 H H J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H J-T-A 0000 S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H J-T-A 0000 S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H J-T-A S.RAMI 0 H H 00D-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H 00-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 H H 00D-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 00D-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.LTROLYTI VA0SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 H H J-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N [MAIN UNIT] 0000 S.RAMI 0 H H J-T-A 0000 S.LTROLYTI VHA00SR 0000 S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VHA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.LTROLYTI VVARNR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.LTROLYTI VVARNR S.LTROLYTI VVARNR S.RAMI 0 JB 0KT-N S.LTROLYTI VHARR S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A 0000 S.LTROLYTI VA00SR S.RAMI 0 H H J-T-A S.TANTALUM TMSVA M-L S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 H H 0J-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.LTROLYTI VHA00SR S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.LTROLYTI VHA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.LTROLYTI VHA00SR S.RAMI 0 H H 0J-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB K-T-A S.RAMI 0 H H J-T-A S.LTROLYTI VHA00SR S.RAMI 0 H H J-T-A 0000 S.LTROLYTI VA00SR 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VHA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB K-T-A 0000 S.LTROLYTI VHARR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.LTROLYTI VA00SR S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VHARR S.RAMI 0 JB 0KT-N S.=Surface mount -

33 [MAIN UNIT] S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VHARR S.RAMI 0 JB H K-T-A 0000 S.RAMI 0 H H J-T-A 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR 0000 S.LTROLYTI VHA00SR S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.TANTALUM TMSVA M-L S.LTROLYTI VA00SR S.RAMI 0 H H J-T-A S.LTROLYTI VA00SR S.LTROLYTI VA00SR S.LTROLYTI VA00SR S.LTROLYTI VA00SR S.LTROLYTI VA00SR S.LTROLYTI VA00SR S.LTROLYTI VVARNR S.RAMI 0 JB 0KT-N 0000 LTROLYTI MV 00 H 0000 S.LTROLYTI VA0SP 0000 S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.RAMI 0 JB K-T-A S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N LTROLYTI MV 000 H LTROLYTI MV 0 H S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N LTROLYTI MV 0 H LTROLYTI MV 0 H S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N LTROLYTI MV 00 H S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N LTROLYTI MV 00 H S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.LTROLYTI VA0SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.LTROLYTI VA0SP S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA0SP S.RAMI 0 JB 0KT-N S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.TANTALUM TMSVA M-L S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A [MAIN UNIT] S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A RL RLAY AHY0 J ONNTOR TMP-J0X-V J0 000 S.ONNTOR BB-PH-SM-TB J0 000 S.ONNTOR BB-PH-SM-TB J ONNTOR TMP-J0X-V J S.ONNTOR BB-PH-SM-TB J0 000 S.ONNTOR -0 J0 000 S.ONNTOR BB-PH-SM-TB J0 000 S.ONNTOR 0FMN-BMTTR-TBT J ONNTOR B0B-H-S J S.ONNTOR 0FMN-BMTTR-TBT J S.ONNTOR FMN-BMTTR-TBT J0 000 S.ONNTOR 0FLT-SM-TB J0 000 S.ONNTOR 0FLT-SM-TB J ONNTOR HSJ J0 000 S.ONNTOR BB-PH-SM-TB J 0000 ONNTOR TS0-0- S.=Surface mount -

34 [MAIN UNIT] J ONNTOR JPJ0-0-0 J ONNTOR HSJ J ONNTOR HLJ W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V WS 000.OTHR SX IOM SHILD ()/MA WS 000.OTHR SX J LAD ST ()/MA P 0000 PB B F P0 000 S.BAD MMZ0Y 0BT [PLL UNIT] I S.I TA0F (TL) I 0000 S.I MFP/S I 0000 S.I S-A (T0G0AF-00-Z) I 0000 S.I TSUF (TR) Q 0000 S.TRANSISTOR S-O (TR) Q S.TRANSISTOR S-O (TR) Q 0000 S.TRANSISTOR S-O (TR) Q S.TRANSISTOR S0 T0 R Q S.FT SK0 K TB Q 0000 S.TRANSISTOR S-O (TR) Q 0000 S.TRANSISTOR S-O (TR) Q 0000 S.TRANSISTOR S-O (TR) Q S.TRANSISTOR S-O (TR) Q 0000 S.TRANSISTOR S-O (TR) Q S.TRANSISTOR DTUA T0 Q S.TRANSISTOR S0 T0 R Q S.TRANSISTOR S0 T0 R D S.VARIAP KV0TL D S.DIOD SS (TR) D S.DIOD SS (TR) D 0000 S.DIOD MAS-(TX) X XTAL R- (.000 MHz) L S.OIL LJPA 00KF 0U L S.OIL NL T-00J L OIL LW- L 0000 OIL LS- (-0) L S.OIL NL T-00J L 0000 OIL LS-A (-) L 0000 OIL LS-A (-) L S.OIL NL T-00J L S.OIL MLF0A R0K-T L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL NL T-0J L 0000 OIL GN-0 L S.OIL NL T-00J L OIL LW- L OIL LW- L S.OIL NL T-00J L S.OIL NL T-RJ- L S.OIL NL T-R0J L S.OIL NL T-RJ- [PLL UNIT] L S.OIL NL T-R0J L S.OIL NL T-0J L S.OIL NL T-R0J L S.OIL NL T-RJ- L S.OIL NL T-00J L S.OIL NL T-RJ- L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL NL T-0J L S.OIL NL T-00J L S.OIL NL T-RJ- L S.OIL MLF0D RK-T L S.OIL MLF0D RK-T R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJWYJ0U ( Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) S.=Surface mount - 0

35 [PLL UNIT] R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-B ( kω) R S.RSISTOR RR0P-0-D ( kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V (00 Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ 0 V ( MΩ) R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ V (0 Ω) 0000 S.LTROLYTI VA0UP S.TANTALUM TMSVB 0M-L S.RAMI 0 JB H K-T-A S.TANTALUM TMSVB 0M-L 0000 S.LTROLYTI VA0P 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N 0000 S.LTROLYTI VA00SR 0000 S.LTROLYTI VA00SR S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 PH H 0J-T-A S.RAMI 0 UJ H 0J-T-A S.TRIMMR TZBXR00B0T S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A 0000 S.LTROLYTI VA0UP S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0RB-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 PH H J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A [PLL UNIT] S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A 0000 S.LTROLYTI VA0UP S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 00-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0RB-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 00-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 00D-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 00-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 H H 0J-T-A 0000 S.TRIMMR TZBXN00BA0T00 0P S.TANTALUM TSVA 0M-L S.RAMI 0 JB H K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A 0000 S.RAMI 0 H H J-T-A 0000 S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.=Surface mount -

36 [PLL UNIT] S.RAMI 0 JB 0KT-N S.RAMI 0 H H 00-T-A S.RAMI 0 H H 00-T-A S.RAMI 0 H H 0J-T-A J 000 S.ONNTOR BB-PH-SM-TB J S.ONNTOR FMN-BMTTR-TBT J 000 S.ONNTOR BB-PH-SM-TB W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V WS 00.OTHR SX 0.D OAXIAL TUB ()/PL WS 000.OTHR SX IOM SHILD ()/PL P 0000 PB B [PA UNIT] Q TRANSISTOR S Q TRANSISTOR S Q TRANSISTOR S Q TRANSISTOR S0 Q TRANSISTOR S0 Q TRANSISTOR SDK Q 0000 S.TRANSISTOR UN (TX) D VARISTOR MAB D VARISTOR MAB D VARISTOR MAB D DIOD DSAA D DIOD DSAA D S.DIOD DAP TL D S.ZNR RD0M-TB L 0000 OIL LR- (RIBXX A) L 0000 OIL LR- L OIL LR-0 L 0000 OIL LR-00 L 0000 OIL LR- (SK-0M-YY(0) L OIL BL0RN-A-00 L OIL BL0RN-A-00 L OIL BL0RN-A-00 L 0000 OIL LAL 0NA RK L S.OIL MLF0D RK-T L OIL BL0RN-A-00 L OIL BL0RN-A-00 L OIL X-LDR L OIL X-LDR L S.OIL NL T-J L S.OIL NL T-J L S.OIL HF0A 00-T L S.OIL HF0A 00-T L 0000 OIL LR- [UR], [ITA], [FRA], [SP] L 0000 OIL LR- [UR], [ITA], [FRA], [SP] L OIL X-LDR L OIL X-LDR R S.RSISTOR RJGYJ 0 V ( Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJYJRU (. Ω) R S.RSISTOR RJYJU (0 Ω) R S.RSISTOR RJGYJ V (0 Ω) [PA UNIT] R S.RSISTOR MR0ZHJ Ω (0) R S.RSISTOR MR0ZHJ Ω (0) R S.RSISTOR RJWYJU (0 Ω) R S.RSISTOR RJWYJU (0 Ω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJWYJRU (. Ω) R S.RSISTOR RJWYJRU (. Ω) R S.RSISTOR RJYJ00U (0 Ω) R S.RSISTOR RJYJ00U (0 Ω) R S.RSISTOR RJYJ0U (00 Ω) R 0000 TRIMMR VN-AA00 B (0) R S.RSISTOR RJWYJ00U (0 Ω) R S.RSISTOR RJYJU (0 Ω) R 0000 TRIMMR VN-AA00 B (0) R RSISTOR SI 0.0 Ω (J) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ 0 V ( kω) R S.RSISTOR RJGYJ R V (. Ω) R S.RSISTOR RJGYJ V (0 Ω) R THRMISTOR RT-DFHL S R S.RSISTOR RJGYJ V (. kω) R S.RSISTOR RJWYJ00U (0 Ω) R S.RSISTOR RJWYJ00U (0 Ω) R S.RSISTOR RJWYJRU (. Ω) R S.RSISTOR RJWYJRU (. Ω) R S.RSISTOR RJWYJRU (. Ω) R S.RSISTOR RJWYJRU (. Ω) S.RAMI 0 JB H K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB K-T-A 0000 S.RAMI GRM- SL J 00PT 0000 S.RAMI GRM- SL J 00PT 0000 S.RAMI GRM- WR 0K 00PT 0000 S.RAMI GRM- WR 0K 00PT RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V DIP MIA KD0 0J DIP MIA KD J S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.LTROLYTI VA0UP S.RAMI 0 JB K-T-A S.RAMI 0 JB H 0K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A 0000 S.LTROLYTI VA0UP LTROLYTI MV 000 H S.RAMI 0 JB H K-T-A S.RAMI 0 JB 0KT-N S.RAMI 0 H H J-T-A S.RAMI 0 JB K-T-A LTROLYTI MV 000 H S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A S.RAMI JB 0K-T-A [USA/-], [OTH], [KOR] S.RAMI 0 JB 0KT-N S.RAMI 0 JB K-T-A LTROLYTI MV 000 H S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI JB 0K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A 0000 S.LTROLYTI VA00SR [UR], [ITA], [FRA], [SP] S.RAMI 0 JB H K-T-A [UR], [ITA], [FRA], [SP] S.=Surface mount -

37 [PA UNIT] S.RAMI 0 JB H K-T-A [UR], [ITA], [FRA], [SP] S.RAMI JB 0K-T-A [UR], [ITA], [FRA], [SP] 0000 S.LTROLYTI VA00SR [UR], [ITA], [FRA], [SP] 0000 S.RAMI GRM- H 0J 00PT 0000 S.RAMI GRM- H 0J 00PT S.RAMI 0 H H J-T-A 0000 S.RAMI GRM- H 0J 00PT 0000 S.RAMI GRM- H 0J 00PT 0000 S.RAMI GRM- SL J 00PT 0000 S.RAMI GRM- SL J 00PT 0000 S.RAMI GRM- SL J 00PT 0000 S.RAMI GRM- SL J 00PT RL RLAY ALD [FILTR UNIT] L S.OIL NL 0T-0J L S.OIL NL 0T-0J L S.OIL NL 0T-00J L S.OIL NL 0T-0J L S.OIL NL 0T-00J L S.OIL NL 0T-0J R ABSORBR SRYH-0L R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJYJ0U ( Ω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ 0 V (0 kω) R S.RSISTOR RJGYJ V (0 Ω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) R S.RSISTOR RJGYJ V ( kω) J S.ONNTOR FMN-BMTTR-TBT J ONNTOR TMP-J0X-V J ONNTOR TMP-J0X-V F FUS FGB A F HOLDR S-N0 #0 F HOLDR S-N0 #0 WS 0000.OTHR SX J0 PA WS 0000.OTHR SX J PA P BAD FSOH00RN0 P BAD FSOH00RN0 P BAD FSOH00RN P BAD FSOH00RN P 0000 PB B 0F P 0000 TUB IRRAX 0. (d) L=0 mm P 0000 TUB IRRAX 0. (d) L=0 mm P 0000 TUB IRRAX 0. (d) L=0 mm P 000 PB B B [FILTR UNIT] D S.DIOD DAN0K T D S.DIOD MA (TX) D S.DIOD MA (TX) L 0000 OIL LR- (T-) L OIL LR- (T-) L 0000 OIL LR- (T0-) L 0000 OIL LR- (T0-) L OIL LR- (T0-) L OIL LR- (T0-) L OIL LR- L OIL LR- L 0000 OIL LA-0 L OIL LA- L 0000 OIL LA- L OIL LA- L 0000 OIL LR- L 0000 OIL LR-0 (TRXX A) L S.OIL NL 0T-0J L S.OIL NL 0T-0J L S.OIL NL 0T-0J L S.OIL NL 0T-0J L S.OIL NL 0T-0J L S.OIL NL 0T-00J L S.OIL NL 0T-00J L S.OIL NL 0T-0J L S.OIL NL 0T-0J L 0000 OIL LR- (T0-0) L 0000 OIL LA S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H 0J-T-A S.RAMI 0 H H 00D-T-A S.RAMI 0 H H 0J-T-A 0000 TRIMMR R-LA00 A S.RAMI 0 H H J-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 H H J-T-A 0000 S.RAMI 0 H H J-T-A RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V 0000 S.RAMI GRM- H J 00PT RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL 0J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HM0SJ SL 0J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V 0000 S.RAMI GRM- H J 00PT RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HM0SJ SL 0J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL 0J 00V RAMI HM0SJ SL 0J 00V 0000 S.RAMI GRM- H 0J 00PT RAMI HMSJ SL J 00V S.RAMI GRM- H 0J 00PT 0000 S.RAMI GRM- H 0J 00PT 0000 S.RAMI GRM- H 0J 00PT RAMI HM0SJ SL 0J 00V RAMI HMSJ SL J 00V 0000 S.RAMI GRM- H 0J 00PT RAMI HM0SJ SL 0J 00V 0000 S.RAMI GRM- H 0J 00PT RAMI HM0SJ SL 0J 00V 0000 S.RAMI GRM- H 0J 00PT S.RAMI 0 JB H K-T-A RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V S.=Surface mount -

38 [FILTR UNIT] RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V RAMI HMSJ SL J 00V S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A S.RAMI 0 JB H K-T-A 0000 S.RAMI GRM- H 0J 00PT RAMI HMSJ SL J 00V S.RAMI GRM- H 0J 00PT S.RAMI GRM- H 0J 00PT S.RAMI GRM- H 0J 00PT RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AJS RL 0000 RLAY AG 0 [HASSIS PARTS] J ONNTOR MR-DS MF FAN SB0H-IOM-00 W ABL OP-A W 0000 ABL OP-0A W 0000 ABL OP-0A W 0000 ABL OP-A W 0000 ABL OP-A WS 000.OTHR SX.D OAXIAL TUB ()/H WS 000.OTHR SX.D OAXIAL TUB ()/H WS 0000.OTHR SX.D OAXIAL TUB ()/H P 0000 PLUG DOMD PLUG DP-00 P PLAT BD INSULATION WASHR P SHT P0 KD INSULATION SHT J 000 ONNTOR 0FMN-BTRK J ONNTOR TMP-J0X-V J ONNTOR TMP-J0X-V J ONNTOR IPS- J ONNTOR IPS- W JUMPR IPS-0- W JUMPR IPS-0- W S.JUMPR RJYJ0R00U W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V P 0000 PB B S.=Surface mount -

39 STION MHANIAL PARTS AND DISASSMBLY [FRONT UNIT] SP Speaker VS-0-0 P 000 Sensor RMS0-0-0-R P 0000 Snap plate HLJ0-0-0 MP 000 front panel (A) MP key (A) MP key MP 0000 power key MP 0000 lock key MP sub chassis assembly MP 0000 Knob N MP Knob N MP 0000 Knob N MP 0000 Knob N MP 0000 Knob spring No.00 MP 0000 Knob spring No.00 MP 0000 Knob N assembly MP 0000 Knob N- cover MP Knut M B-H MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 000 Non-woven sheet MP 000 Sponge (DZ) [MAIN UNIT] MP 0000 mixer case MP 000 D-A case [LOGI UNIT] DS LD A00 QTY. QTY. QTY. [HASSIS PARTS] J ANT connector MR-DS MF Fan SB0H-IOM-00 P 0000 Domed plug DP-00 P BD insulation washer P P0 KD insulation sheet MP Bottom cover L-cover MP Top cover U-cover MP chassis MP 0000 grounding plate- MP Rubber foot (A) SKA MP Stand () MP 0000 olor foot (A) for stand MP olor foot (B) for stand MP0 000 TR clip (A) MP 000 TR clip (A) MP 0000 Screw FH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP 0000 Screw PH BT M x NI-ZU MP Set screw A M x MP ap bolt M x ZK MP 0000 Bind M x ZK MP Frange bolt M x NI MP Flat washer M NI BS MP Spring washer M NI MP 000 sheet MP 0000 Screw FH BT M x NI-ZU MP 0000 grounding spring MP 0000 Non-woven sheet B MP 000 Sponge (DF) Screw abbreviations: PH: Pan head FH: Flat head BT, A0: Self-tapping ZK: Black NI-ZU: Nickel-Zinc QTY. P0 000 LD contact SRN--SP-N-W MP 000 reflector MP 0000 LD holder MP 0000 LD filter W M [ASSORIS] QTY. F Fuse FGB 0A F Fuse FGB A M Optional product Microphone HM- W Optional product D power cable OP-0 A F F -

40 MP () MP () MP () MP () MP () MP0 () MP0 () P () MP () MP (L) MP0 () P () MP0 () MP () MP () MP (L) P0 (L) MP () MP (F) MP (F) MP () SP (F) MP () MP (L) MP (F) DS (L) MI BOARD PHON BOARD MP (F) LOGI UNIT MP (F) MP (F) PA UNIT MP () MP () FILTR UNIT P () J () MP () MP () P (F) MP (F) MP (F) MP () MP (F) VR BOARD MP (F) MP (F) MP () MP () MP () MP (F) MP0 (F) P (F) MP (F) MP() MP () MP () MP (F) MP (F) MP (F) MP () MP () MP (F) MP (F) MP (F) MP () MP () MP () MP0 () MP () MP () MAIN UNIT MP () MP () MP () MP () MP () MP () MP () MP () MP () MP () MF () PLL UNIT MP (M) MP (M) MP () MP () MP () MP () Unit abbreviations: (F): FRONT UNIT, (M): MAIN UNIT, (L): LOGI UNIT (): HASSIS PARTS MP () MP () -

41 STION SMI-ONDUTOR PARTS LIST INFORMATIONS - TRANSISTORS NAM SYMBOL INSID VIW NAM SYMBOL INSID VIW - DIODS NAM SYMBOL INSID VIW NAM SYMBOL INSID VIW S SAA R FR SK-GR TG SS DAN0K B N MAB Y B D G A A A S S None None B B SK- KM G S G D SS SS-TL DA TL FH K A MA B A S-O S0 R QO BR B SK-T MAS V G G SS MAS MAS A A B A MA0-H ^ MA0-M (TX) - A S0 None B B D S DTA TL DTAUA T0 SV BB NND.G-T G SD-TD O B A A SDK None B B B DT TL DTUA UN (TX) A B DAP0K T DAP TL P P A RD0M-TB 0 A B SD-T-TD SD T00Q DB DA B XP (TX) X B HSBWSTR Silver line G B SK0 SK0-TA K IJ S D XP0 (TX) B KV0TL F -

42 STION BOARD LAYOUTS - MAIN UNIT TOP VIW to FILTR unit J 0 TV J00 L FOR L L L L L to PA unit J P W P J W HASSIS st LO from PLL unit P J0 LO LO to FILTR unit J P W W0 P J0 HASSIS AL L-KY V BDT.V AFO MOD SQLS FSKK KY BAND AL 0 A J 0 BFO from PLL unit P J00 BFO BFO J0 0 The combination of this page and the next page shows the unit layout in the same configuration as the actual P.. Board. Optional unit UT-0 DINT MDAT V DRS DSST MK DSPS XT SP J0 SPO SP SPO SP RMOT SPAKR SP SP SPO IV 0 SPO SPO SP IV Optional unit UT-0 SPH J0 V SP SBSY M MDA SST TV FOR L L 0 L L L L LO LO TMP STRT IH IL V KY V V PWS J0 HV TMP KY STRT PAT HV IH V PAT IL V V V V V V PWS to PA unit J J0 DOUT DO LO LO DO DOUT J J0 MDAT POWS BSTB MK MSTB FSTB DRS ASTB SSTB DINT DSPS DSST SBSY KDS RXS TXS BP DNB FORL PATL ALML L AVXL SML DASK VOXL DOTK to LOGI unit J 0 J0 KY N IV ALMS IV PHO PHO PHO SPS PHO SQLS MI FSKK MI V V HV V SNDS V STRT V to LOGI unit J 0 J0 LO LO from PLL unit P nd LO J0 RD BLAK FAN FAN FAN MOTOR MF -

43 - PLL UNIT TOP VIW BFO to MAIN unit J00 P BFO BFO J nd LO to MAIN unit J0 P LO LO MAIN UNIT BOTTM VIW The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.. Board. J V V DNB to MAIN unit J DSTB PDAT ON FSKK N V V PSTB PK ON ON0 SRST J P W0 st LO to MAIN unit J0 P LO LO J P -

44 - LOGI BOARD TOP VIW The combination of this page and the next page shows the unit layout in the same configuration as the actual P.. Board. - PHON BOARD TOP VIW - MI BOARD TOP VIW - VR BOARD TOP VIW RIT SHIFT AF RF/SQL J 0 AF AFO AFO AF AF AFO SPO SPO SPO to LOGI unit J VL VL SFTL RITL 0 VL VL RFGL AFGL 0 J VL SFTL RITL RFGL AFGL to LOGI unit J -

45 J MI MI AFO SQLS V UD to LOGI unit J to VR board J J AF AFO AFO SPO AF AF AFO SPO SPO to PHON board J VL SFTL RITL RFGL AFGL SN SN SNSOR V 0 J J V SQLS AFO MI UD MI to MI board J DOTK DASK VOXL AVXL SML ALML L FORL PATL BP DNB RXS TXS SBSY KDS DSPS DSST SSTB DINT DRS ASTB MSTB FSTB BSTB MK MDAT POWS FSKK MI MI SQLS SPS PHO PHO PHO PHO IV IV ALMS N KY V V V HV STRT V SNDS V FSKK ON PDAT DSTB DNB V V 0 J 0 to MAIN unit J0 J SRST ON0 ON PK PSTB V V N LOGI UNIT BOTTOM VIW to MAIN unit J0 MI BOARD BOTTOM VIW The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.. Board. PHON BOARD BOTTOM VIW -

46 - FILTR UNIT TOP VIW The combination of this page and the next page shows the unit layout in the same configuration as the actual P.. Board. P W W P to PA unit J to MAIN unit J0 P W0 W P J HASSIS HASSIS J 0 J F F FOR 0 TV F F F F ANTNNA J to LOGI unit J00 -

47 FILTR UNIT BOTTOM VIW The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.. Board. -

48 - PA UNIT TOP VIW J P P W W HASSIS to FILTR unit J VARISTOR BOARD J to MAIN unit J0 PWS V V V V IL IH STAR TMP V PAT HV KY J P P W to MAIN unit J W HASSIS 0 D B B B B B R0 B BROWN KY ORANG RD YLLOW STAR V J The combination of this page and the next page shows the unit layout in the same configuration as the actual P.. Board. BLAK RD RD BLAK J -

49 PA UNIT BOTTOM VIW VARISTOR BOARD The combination of this page and the previous page shows the unit layout in the same configuration as the actual P.. Board. -

50 STION 0 BLOK DIAGRAM below. M Q0 S0 Q0 DTA LPF ATT TO MI AFGV I0 TAF AF AMP I0 MFP VA OPTION UT-0 I0A NJM0 AF AMP SID TON/BP OPTION UT-0 NBS Q0 DT NB SW Q0 S0 NB LVL NBLV GAT TRL D0 SS NB DT AG AMP Q0 S0 Q0 SA Q0 SK NOIS AMP Q0 SK NOIS AMP Q0 SK NOIS AMP MAIN UNIT. M BPF M LPF M BPF HPF 0 db ATT ATT SW ATTS MIGV MI MI KDS IH IL I0 T I0 LA POV I0B NJM0 AL AMP AF MUT PWR AMP IB NJM0 AL DT I0 UP0 ANALOG MASTR I0A NJM0 AL AMP I0 TW AF SLT IA NJM0 LPF IA NJM0 MTR AMP I00 TA0 D0 SS AM DT SQL ONT I0 M W AM arrier ST arrier ST Q0 S0 BUFF D0 SS AG DT Q0 SK Q0 S0 AG AMP IF AMP I0D NJM0 MTR AMP AG Q0 SK IF AMP PLL UNIT Q0 S USB, LSB, W, RTTY RAMI BPF FI FL- AM SSB-N RTTY-N W-N XTAL BPF (OPTION) FL-A FL-A FL Q S Q S Q0 SK IF AMP D0 D0 MA IF Q0 AMP SK Q S LO AMP Q S LPF AMP AMP AMP BUFF NB GAT BPF FI0 FWHT RAMI BPF Lo Q0 DT W KYING ATT KDS D0 HSBWS RF GAIN Q0 SK IF AMP.. MHz FI0A, FI0B FL- XTAL BPF Q0 S LO AMP Q SK IF AMP ATT Q0, Q0 Q0, Q0 SK0 Q0, Q0 SK LPF PROS PRS PA UNIT LPF BPF ATT Q S PR DRIV I00 PRAMP SW Q0, Q0 SK PR AMP ATT I µp YGR AMP Q,Q S DRIV AMP BIAS D MAB Q,Q S0 PWR AMP BIAS D,D MAB Q SD M BPF M BPF M BPF 0 M BPF M LPF.0.0 M LPF.0.0 M LPF I00 TD LPF D,D SS SWR DT RX TX FOR Q0 DT Q0 DTA I0 NJM0 AL AMP I TSUF AMP I S-A DDS LOOP FIL Q SK0.. MHz I0 M FANV FAN TRL Q0 SD I0D NJM0.0.0 M LPF.0.0 M LPF M FILTR UNIT TXS RXS V FSKK KYJAK T RG I00 TD T RG I00 TD R RG I00 TD R RG I00 TD RG I00 TD PAT RG I0 UP V D-D TV TV RV RV V PAT V BFO LO LPF Q S0 BUFF LPF DDS I S- Q0 S BPF Q S BUFF V Q S I TA0 RG X R-.000 MHz V BPF LPF IF FIL I 00 TD I00 TD I00 TD I0 TW DATA SW PTT BUFF BUFF BUFF VA,etc MOD DATA D/A I00 BU0 SRI PARA I00 BU0 SRI PARA I00 BU0 SRI PARA DATA SMV FOR AL Q DT Q S0 SW FRONT UNIT I HDH A/D A/D A/D A/D PU A/D A/D A/D A/D DISPLAY AF VOL RF/SQL VOL I0 TW WAV FORMR POWR SW I-V I/F I00 W0 I HD00F LD DRIV LPF DS LD MAIN DIAL SHIFT RIT HV SW V 0KY OMMON LIN I TAL0 RX LIN RMOT HV RG I TA0 PROM I X0S TX LIN V RG 0 -

51 - 0 J W 0 J J0 HASSIS J W FRONT UNIT V SN SN J S LOGI UNIT P SNSOR V SN SN MAIN UNIT V V V HV V V MI MI FSKK SQLS PHO PHO PHO PHO IV IV ALMS STRT SPS SNDS N PWS V V V V IL IH HV STAR KY TMP V P P W W J PAT PA UNIT J J P PWS V V V V V IL IH STAR KY TMP PAT J J J KY STAR V HV HV AS AS FILTR UNIT TV L FOR L L L L L 0 J W W P J W 0 J00 TV L FOR L L L L L KY DOTK DASK VOXL AVXL SML ALML L FORL PATL BP DNB RXS TXS SBSY KDS J0 AFGL RFGL RITL SFTL VL J W V V V HV V V MI MI FSKK SQLS PHO PHO PHO PHO IV IV ALMS STRT SPS SNDS N KY DOTK DASK VOXL AVXL SML ALML L FORL PATL BP DNB RXS TXS SBSY KDS 0 J W 0 J AFGL RFGL RITL SFTL VL VR BOARD MI BOARD PHON BOARD J 0 J W W 0 J 0 J MI MI AFO SQLS UD V W DSPS DSST SSTB DINT DRS ASTB MSTB FSTB BSTB MK MDAT POWS AFO AF AF AF DSPS DSST SSTB DINT DRS ASTB MSTB FSTB BSTB MK MDAT POWS UT-0 (OPT) P P W0 W J0 W J J R ANT FAN FAN- J0 FAN P AL SQLS MOD.V V J0 AL BDT AFO A FSKK KY BAND AL 0 J J0 P0 J0 0 J0 PLL UNIT J st LO nd LO BFO J00 J J0 J0 J P P P P P W0 W0 W0 W0 W0 W0 V V V V DNB PSTB DSTB PK PDAT ON ON ON0 FSKK SRST LO LO LO LO BFO BFO LO LO LO LO BFO BFO 0 J N AFO AFO SPO SPO SPO 0 J V V V V DNB PSTB DSTB PK PDAT ON ON ON0 FSKK SRST N AFO AF AF AF AFO AFO SPO SPO SPO SP W, W SP J0 P UT-0 (OPT) SP SPH V DRS DINT DSST MDAT MK DSPS SP MDA SBS SST M SPO J0 DOUT DO DOUT DO J00 J0 RMOT DASK IV IV SPO SP XT SP J0 L-KY DOTK 0 0 HV J UD V MI MI AFO SQLS 0 J STION WIRING DIAGRAM

52 STION - FILTR, PA and MAIN unit R 0 R L00 µh L0 µh L0 0µH L0 µh RL AJS RL AJS RL AJS RL AJS L LA- L LR- 00p 0 0p PA UNIT 0p 0p 0p 0p L LR- 0p 0p 00p L LR- 0 0p 00p VOLTAG DIAGRAM 0p L0 0µH RL 00p p AJS L0 µh Tx:.V Rx: 0V R 0 W 0.0 RL AJS 0.00 Q S R L BL0RNA R. Tx:.V Rx:.V Tx: 0.V Rx: 0V R p Tx: 0.V Rx: 0V L LR- Tx: 0.V Rx: 0V L BL0RNA--00 0p p R 0 0 0p R R0 00 D MAB 0. L LR- R R 0p 0 0p P/P L LR- 0p L LA-0 0p Q S Q S Tx:.V Rx:.V W 0 R VN-AA00B 00 F S-N0 F FGB L LA- p p F S-N0 L0 BL0RN-A-00 p 0p Tx:.V Rx:.V 0.0 p R 0 0 p 0p 0p 0p 0 p 0p 0p p L X-LDR L LR- p L L X-LDR BL0RNA--00 R Tx:.V Rx:.V L LR- Tx: 0.V Rx: 0V Tx:.V Rx:.V 0.0 D DAP D RD0M B L LR- 0 p 0 p L LR- 0p L LA- 0 p L LR- L0 LA- p 0p 0p p 0p 0p 00p 0p R. 0p p 0p 0.00 R. R. Q SDk D MAB R R L0 X-LDR L X-LDR RL ALD Q µn R.k Tx:.V R Rx: 0V VN-AA00B k R 0 R0 RT-DFHLS 0.0.V - RL AJS RL AJS RL AJS RL AJS RL0 AJS RL AJS FILTR UNIT Tx: 0.V Rx: 0V Tx: 0.V Rx: 0V W VARISTOR BOARD L.µH R 0 R 0 R. L µh Q S0 0.0 D MAB L BL0-RN0-A-00 00p L µh W L µh L0 0µH W L µh W L 0µH 0.00 Q S0 R. 0p R k p Tx:.V Rx:.V L LR-00 00p Tx:.V Rx:.V W 000 0p P0 D DSAA L LR- R-LA00A 0p 0p 0.00 D MA R 0k R k R 0k 0.00 R k D DSAA 0 0p L 00µH R R 0k 0p L 00µH W L LR- 0p D MA R 0 R k L LR-0 W P R 0 L LR- 000 D DAN0k L 00µH PAI PAO R L 0µH RL AG0 L 0.µH 0 p p L LR- 0. L HF0A00-T L 0µH p 000 R k R k 0 00p R. P P R0 k L HF0A00-T L LR-0 0p R SRYH-0L W R 0.0 R k 00p J J WA W0A W W0 W W WA WA L L L L L FOR L TV 0 PAO J J RX PAI J P P J J J J 0 Version number USA, USA- KOR, OTH UR, ITA, FRA, SP, DN PWS V V V V V IL PAT IH HV STAR KY TMP P P W J : LLR-0 J LLR-0 J W0 W to ANT W W W P P W onnected terminals KY STAR V WA, W0A WA, WA W, W0 W, W W PAI J0 0 0 RX J J0 J00 L L L L L FOR L TV PWS V V V V V IL PAT IH HV STRT KY TMP 0 HASSIS Q0 SD P R R0 k R00. R00. R00. R00. R00. R R0 0 IB NJM0M W ON KY UP: 0V KY DOWN:.0V FAN STRT KY PAT R0 k ARR R00 k R00 k W0 R0 0k I0D R0 NJM0 k FANV While rotating the fan:.v While stopping the fan: 0V Tx:.V Rx: 0V HV R0 RV-0 TV R0 00 R 0 FAN 0 0. D0 DAN0K J0 R0 00k R0.k FAN Q0 DT KDS TX_ Q0 DT POWS V IL PAT IH R Q0 DTA Q0 DTA FILTR P00 R 0 WNT L L L L L FOR L M P00 MF SB0H-IOM-00 p BST MDA M DR L 0.µH R0 0 L0 00µH I µp0t 0 0. Q0 DT STR D LK O I00 BU0BF PROS PRS ATT ON:.V ATT OFF: 0V 0 0. D0 SV L 00µH ATT L0 00µH R0 0 D0 SV L 00µH R L.µH R R R 0 L 00µH NOT: *LIN ON and LIN OFF ach line is ON when the frequency is displaied in the table below. VS IN IN IN IN IN IN IN IN 0 O O O O O O O O PROF PRON L L L L L L Display frequency (MHz) I00 TDAF Q Q Q Q Q Q Q Q QS QS 0 D00 DAN0K V D00 DAN0K *LIN name B0 B B B B B B B B0S BS BS BS BS BS BS BS L.µH L0 00µH 0 0. L0 00µH R R L0 0.µH 0 p 0 p R0 0 D0 SV D0 MA D0 MA D0 MA D MA D0 MA D MA 00p L0 0.µH 0 p 0 0p *LIN ON:.V LIN OFF: 0V R00 k R00 k R00 k R00 k R00 k R00 k R00 k R00 k 00 0 Tx:.V Rx: 0V B0 B B B B B B B B0 B T MP 0 p R L 00µH L0 00µH *LIN ON:.V LIN OFF: 0V p L0.µH R R L.µH L 00µH L00 0. µh R 0 0. R 0 B L 00µH L 0.µH 0. R 0 B L 00µH L.µH 0. R 0 B L 00µH B B L 00µH L 0.µH R 0 L 0.µH L 00µH R 0 R 0 *LIN ON:.0V LIN OFF: 0V L 0.µH B p R 0 L.µH 0p 0.00 *LIN ON:.V LIN OFF: 0V *LIN ON:.0V LIN OFF: 0V *LIN ON:.0V LIN OFF: 0V *LIN ON:.0V LIN OFF: 0V 0p R 0 R0 00 L.µH 0.00 L.µH p 0p L µh p 0p L 0.µH p 0p L 0.µH p 0p *LIN ON:.0V LIN OFF: 0V L 0.µH p 0p I00 TDAF IN O B IN O B IN O B IN O B IN O B IN O B IN O B IN O B0 VS 0 R0 00k Q0 SK R0 00k Q0 SK L.µH 0p p L.µH 0p p 0.00 L 0.µH 0p 0p 0.00 L 0.µH 0p 0p 0.00 L 0.µH 0p 0p L 0.µH p 0.00 *LIN ON:.V LIN OFF: 0V L.µH 0.0 L.µH p 0p L.µH R k 0p R k 0p R k 0p R k 00p 0p R k R0.k I00 BU0BF FST STR. MDA D M LK DR O R0 00k *LIN ON:.V LIN OFF: 0V R0 k p 0 0. L0 LR L.µH R k *LIN ON:.V LIN OFF: 0V 0p *LIN ON:.V LIN OFF: 0V L.µH 0. L.µH 0. L0 LS-A L0 0µH R0 0 R0.k W0 D0 MA D MA 0 0. D0 MA D MA *LIN ON:.V LIN OFF: 0V D0 MA 0. *LIN ON:.V LIN OFF: 0V L 0.µH *LIN ON:.V LIN OFF: 0V L 0.µH D MA D0 MA D MA *LIN ON:.V LIN OFF: 0V L 0.µH Q Q Q Q Q Q Q Q QS QS 0 SK STH SOP PRS PROS ATTS IFS 0 0. ATT R0 k p PR ON: 0V PR OFF:.V PROF PRON FOR POV IH IL BPI TX RX R0 0 L0 00µH 0 0. L LS-B 0 0. D0 MA D0 MA L0 LR- R R 0k D0 MAS D0 MAS D0 MA0H AMS AMS.V R0 0 Q0 DT R0 00k R Tx: 0.V 0 Rx: 0V R 00 p R0 0 D0 MA R0 0k R0 00k R0 0k R k T Tx:.V Rx: 0V L 00µH 0 R.k R K Q SK V D0 MA L0 0.µH Q0 SK Q0 SK R0 R00 k Q0 0 DT D0 MA0H D0 MAS 0 R0 00k R0 k I00 TDAF IN O IN O IN O IN O IN O IN O IN O IN O VS R0 00k Tx:.V Rx: 0V PR ON:.V PR OFF: 0V.V R0 k PR ON:.0V PR OFF: 0V 0V 0 0. R k Q00 SA R0. L0 LR- 0 R0 00k R k R k R k R00 k L0 0.µH 0 0p R0 k 0 0. R0 00k R0 0k R 00k R 0k R0 0k 0 0. RV D0 MA D0 MA R0 k Q00 DT L0 0.µH 0 0p 0 p 0 0. RV 0 0p R0 0 R0 k R0.M I0 NJM0M 0 L0 LR-0 R0 00 Q0 SK R0 0 R.M I0B NJM0M R k R k.v I0B NJM0M R0.k R0 R0 0 R0 NK R0 NTH NOP R0 ATT TV RV PAT Tx:.V Rx: 0.V Tx: 0.V Rx: 0.V Tx:.V Rx:.0V PAT R0.k BPO.0V R M.V 0.V R0 L0 0µH R R0 0 V R0.k V L0 LR- 0 0 Q0 S L0 0 R0 0.µH 0p 0 R 0 L0 LS R0 00 R0 Q0 SK0 Q0 SK0 R0 k Q0 SK D0 DAP0K 0 Q0 SA Tx:.V Rx:.V R R 00k J0 L0 00µH P R0 k Q0 SK0 LO LO 0 p R0 Q0 0 SK AL R0 00 R0 0 R 0k L0 LS R 0k LO LO st Lo D0 MA 0 D0 MA R R0 k R0 R 0 I0A 0 0 NJM0M W R MDA SBS V Tx:.V Rx:.V Tx: 0.V Rx:.V J0 OPTION UT-0 I00 00 BU0BF 0. MST STR. Q AMS MDA D Q AFS M LK Q AFMS DR O Q AGSS Q AGRS Q AGMS Q NBS Q OMS QS QS 0 Display frequency (MHz) V R 0k D0 DAP0K SST M SP SPH SPO AL R0 k 0 0. Q0 DT B 0.V AST M MDA DOUT W0 DO N N R0 00k R0 0 Voltage (V) V 0 L0 LS-A R.M I0A NJM0 R0.k I0 NJM0 R0 k P L0 LS-B L0 0µH PLL unit J 0 0p R0 0 0 p R0 k L0 LS-B 0 SS Q0 SK 0. R k IA NJM0M R0 0k OPTION UT-0 J0 BPI 0 R0.k R0 00k.0V 0.V P BPV BANV DOUT DO N N 0 0. Display frequency (MHz) Tx:.V Rx: 0V Tx: 0V Rx:.V Tx:.V Rx: 0V ALM FI0A FL- 0 p R0.k 0 0. D0 SQLS W0 0 R 00k SM R0 k D0 MAS R0 0k 0 J0 V AO AO DO LD LK DI AO AO R0 k L.µH R0.k 0 R0 k D0 SS L0 LS-B W0 0 0p P0 0p R0.k R k I0 TWF VDD 0 AO0 AO AO AO AO AO AO AO I0 MGP R0 R0 R0 R0 R0 R FI0B FL- AG R0 M.V.V 0 0 p Q0 SK R 0 R k Q0 S0 R0.M 0 I0D NJM J0 W0 DOUT DOUT DO DO W0 Voltage (V).0.. 0V k k k k k k Tx: 0V Rx:.V SSBAF AFS AMAF R0 k R0 k DR DIN DSS MDA M DSP R R0 00k 0 0. L0 LS-B 0 0p R0.k R0 0k R0.M R0 00k 0 R0 00 R0 0 0 D0 MA D0 MA R0 k 0 Q0 UMD R0 k L0 LS-B AGRS Tx:.V Rx: 0V R0 k D0 MA D0 MA R0 k 0 Q0 S0 Q0 SA R k R.M Tx: 0V Rx:.V J0 R0 R0 0 0 R0 k L0 LS RV Q0 UMD L0 LR- R0 M AGSS LO LO R0 0 Q0 S0 D0 MAS Q0 DT R 00 R k R.k NBLV NBS Tx:.V Rx:.V R 0 R0 k R0.k SPO BPO Tx: 0V Rx:.V R0 0 MI MI VOX AVX PHO R0 0 R0 0k R0.k R0 00k V V V TV RV R0 0k R0 0k p R0 00k FANV NBLV MIGV RFGV AFGV POV BAND R0 00k R0 00k W0 R k V V IN VAOUT IN TL 0 OUT VAIN N I0 MFP P Tx: 0V Rx:.V R0.k R0.k nd Lo D0 HSBWS FI0 FWSHT 0. R00 00k 0 0p D0 MAS 0 L0 LR- R0.k L0 LS- Tx: 0V Tx: 0V Rx:.V Rx: 0.V Q0 DTA R0.k Q0 UMD R k DN AGMS R0 0k R0 0k 0 0p p AAFO p 0.V.0V I0 TA0S LO LO Tx: 0V Rx:.V I O G 0 00 P 0. D0 MAS PLL unit J R0 k N AVI AVO MUT VOXO VOXI BUO BUI AMPO AMP AMP 0. 0 R Q0.k DT R k R0 00 R.k D0 MA D0 MA R 0 V R0 M I0 µp0 AFGV R0 00 R0 k R0.k 0 0 MP L0 M 0 0. V SW VA 0 VAO VAI SWO BUO BUI SWI MPO MPI N R0 0k R0.k R0 0 R0 0 R k D0 DAN0K R L0 LS R0 k 0 R0 0 k R AG R k R 0k R 0 R0 0k V Q0 S0 R0 k R0 0 D0 MAS R.k V.V.V R k.v Q0 S0 00p R 0k R k R k 0.0 R0 k 0. R.k R k Q 00 DT V V TV AL R WNT.k R0 R0 00 k Q0 DT L0 LS-.V 0 0. R 00 L0 LS-0 R.k 0. R k R 0k D0 SS 0 R0 k R0.k R0.k R0.k Q0 SK R.k R0 0.k 0 0. Q0 R0 SK 0KT R 0k Q S0 0 D0 DA R.k R 0k 0. I0 00 TAF N POUT 0 V PW N PR VIN PHAS RIPPL NF 0. Tx: 0V Rx: 0.V.V 0 Tx: 0V Rx:.V OMS R0 0k R0 00k 0 0. RFGV Tx: 0V Rx:.V MIGV AMOD D0 DA PHO VONT VTH DISHARG V R.k R 0. L0 0µH R0 0k 0 0. R0 0k R KT R K 0p AMAF R0 0k R.k R0 0k 0. PHO I0 µpg Rx:.V W Q0 SK Tx: 0V Rx:.V SSBAF R 00k R k 0 R k 0 0. R R0 k R 0k I0 TSF TRG OUT RST TALM R0.k.V 0 0. R0 0k 0 0. Tx:.V Rx: 0V L LS-0 0. R0 R0 k 0 W IB NJM0M 0.V R0 k 0 Tx: 0V 0 0. R0 0k R0 k R0 k D0 DAN0K R0 0k R 00 R.k 0 R k SPS R k D0 DAP0K D0 DA Tx: 0V Rx:.V Tx: 0V Rx:.V R K 0.00 AFMS R R0.k R0.k R0 0k R 0 Q0 SK R0 00k R0 k R0 k D SS AG 0 0. RV D0 SS IA.V NJM0M R k 0P R0 00 R0 00 R0 0k I0 0 LAA Tx: 0V Rx:.0V 0 D0 MA0 R 0k L0 LW D0 DAP0K D0 DAN0K D0 DAP0K D0 DAN0K V R 0k R 0k R V 00 00p R 0k R.k R.k R.k R 0k R.k L LS FI FL- BAS BAS OLT SSBAF 0 R0 R R 0k 0k Q Q DT DT 0 0..V 0 0 OP FILTR Select:.V Unselect: 0.V.0V.V AM ON: 0V V Tx: 0V Rx:.V R0 0 L0 M P 0. R00 k R 00 R 00 R k R 00 R 0k 0. I00 TA0F.k 0. Q S0R AMS SPO R AM ON: 0.V except AM:.V V I 0. BAS OSIN V IFOUT L0 00µH O OP FILTR Select:.V Unselect: 0.V R 0k P 0. R 0k 0. D DAN0K V V V V V AL R R0 k SP Tx: 0V Rx:.V V 0 0. R k AM Tx:.V except AM Rx: 0V.V D0 DAP0K D0 DAN0K R0 0k R.k 0. R 0k L00 00µH R 0 V ARR AM ON: 0.V except AM:.V D0 DAP0K D0 DAN0K R 0 R0 k D0 MAS AMS V TV Tx:.V Rx: 0V 00 0 RV NK NOP NTH 0 0. R0.k.V R0 K R V.V WNT R 00k R00 00 R00 0 R00 0 R0 k R0 k FOR DOT DAS VOX AVX SM ALM FOR PAT B DN RX TX SBS KDS DSP DSS SST DIN DR AST MST FST BST M MDA POWS M M M M M M V V TV R00.k R00.k R0.k D MA R R 0k AMS R 0k I0 NJMV VS V VS N VS VO VS N BIAS V VO N N V 0 Q0 AM ON: 0V DT except AM:.V TX MDA MDA MDA MDA MDA MDA AMS SPO SP V DR DR DR DR STRT V AAFO AMOD SQLS FSK KY BAND SNDS DAS DOT AL TV 0 0. RV TV V V V R 0k V TV 0 0. R0 k 0. 0 R k R0 k R0 k R0 k R0 k R0 k R0 k R0 k R0 k R0 k R0 k Q0 SDT Q0 DT L 0µH D0 MAS MAIN UNIT L L0 HF0A-B L HF0A-B HF0A-B L HF0A-B L 0µH L 0µH RL0 AHY0 D0 MAS V STRT V SNDS V FSK MI MI SQLS SQLS SPS PHO PHO KY KY R k R k R.k R k R k R k R0 k R k R k R k W R k R k R k 00 0 V 0. HV 0 0 HV W0 0 L 00µH L 0µH 0 0 L0 0µH 0 0 L 00µH L0 µh L0 µh L0 00µH P0 L0 HF0A-B p 0 p 0 p 0 p 0 p 0 p 0 p 0 p 0 p 0 p 0 0 SPO SP J0 SPO SP V BDT.V AFO MOD SQLS FSKK 0 KY BAND AL AL J00 BFO BFO,, STRT V SNDS V V HV V V FSKK MI MI SQLS SPS PHO PHO PHO PHO IV IV ALMS N KY IV IV DOTK DASK VOXL AVXL SML ALML L FORL PATL BP DNB RXS TXS SBSY KDS DSPS DSST SSTB DINT DRS ASTB MSTB FSTB BSTB MK MDAT POWS J J0 P P J0 J0 XT SP J 0 J0 to LOGI unit J J00 to LOGI unit J AL BFO BFO BFO PLL unit J SP A L-KY RMOT

53 - VR BOARD RIT SHIFT R 0k-B SQL/RF AF R 0k-B R.k SFTL VL RITL RFGL AFGL J J UD V MI MI AFO SQLS 0 J MI BOARD PHON BOARD J AF AF AF SPO SPO SPO AFO AFO AFO L HF0A-B R 00 R 00 R k J PHONS V SNSOR SN SN DAN0K MI MI AFO SQLS UD V AFO AFO SPO SPO SPO AF AF AF L Q0 DTU P 0. POWR SFTL VL RITL RFGL AFGL AFO LD DS0 TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS A00 R 00k R M 00k L0 00µH I0A TWF P R 00k R 0k 0 00p R 0 J S P R0 00k R 0k 00p D NND.G W W R 00k R M R 00k R k R k I0B TWF P P0 P V Y0 Y 00 N 0 V V V V L N SHL L 0 DI DO N M N V N N N Y Y Y Y Y Y Y Y Y 0 Y0 Y Y Y Y Y Y Y Y I HD00F S S S S L 0µH P P P P R k R.k R 0 R.k D Q S0 R0 k P R 00k R 00k R 00k R 00k R k Q DTU P P P P V V V PB PB PB PB0 PB P P P0 PB PB PB P S S S0 S S S S S S S S V R 0k L 00µH L 00µH MI PB0 P0 P PB PB PB 0 0 J J J R.k L HF0A-B P MMZ0Y0BT P MMZ0Y0BT L HF0A-B L HF0A-B L HF0A-B D SS L 00µH MI PHO P p p X R-.0 MHz V PHO V PHO SP P P/AN P/SG0/L A TST X X OS RS MD0 0 P0/IRQ/ADTRG P/UD P P P P P P P0/SK P/SI 0 P/SO P/SK P/SI P/SO P/STRB P/SG P0/SG P/SG P/SG P/SG0 P/SG P/SG P/SG P/SG P0/SG 0 P/SG P/SG P/SG P/SG P/SG0 P/SG P/SG P0/SG P/SG P/SG 0 P/SG P/SG/M P/SG/D0 P/SG/L I HDSDH R M R0 k R k R k 0. P P P 0 0. 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P P0 P P P P P P P0 P P P P P P P P P P P P0 P P P P P P0 P P R k R k R k R k R 0k R k Q DTAU P0 MOD FIL TS R k D0 DAN0K D SS D SS D DAN0k D DAN0K D DAN0K P P0 P P P D SS D SS D D D0 D D DAN0K D DAN0K P0 P P P R k R k P P V V V OM OM OM OM R 0k R 0k R 0k W OUT VDD N D I S-0ANMP R k R k R0 k R0 k R k P P P D SS D0 SS D D SS D SS D SS D DAN0K D DAN0K P P P P D SS D DAN0k W0 W0 R k R k P P/IRQ/TMI P/IRQ/TMIB P/IRQ/TMIF P0/SK P/RXD P/TXD P/IRQ0 AV PB0/AN0 PB/AN PB/AN PB/AN PB/AN PB/AN PB/AN PB/AN P0/AN P/AN P/AN0 P/PWM P/TMIG P/TMOFH P/TMOFL P0/TMOW V P/WKP/SG P0/SG P/WKP/SG PP/WKP/SG P/WKP/SG P/WKP/SG P/WKP/SG P/WKP/SG P0/WKP0/SG PA0/OM PA/OM PA/OM PA/OM V V V V P/S P/SG0 P/SG P/SG P/SG P/SG P/SG R.k PB R P0 P R 0 R 0 R 0 R 0 R 0 R 0 R 0 R 0 R 0 P P P P P P P P0 P P P0 P P P0 P P P P P0 P P P0 P P P0 P P P P0 P P P P Y Y0 Y Y Y Y Y Y Y Y Y0 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y0 Y Y0 Y Y Y Y Y Y Y Y Y Y0 Y Y Y Y Y Y Y Y Y0 Y Y Y Y Y Y Y Y Y S S S S S S S S S S S S0 S S S S S S S S0 S S S S S S S0 S S S S0 S S S S S S S S S S S S S S S S S0 S S S S S S S0 S S S S S S S S S S S S S S S S S0 S S S S S S S S0 S S S S S S S S S S S S0 S S S S0 S S S S S S S S S S S S S S S S S0 S S S S S S S S S S OM OM OM OM SG SG SG0 SG SG SG SG0 SG SG SG SG SG SG SG SG SG SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG SG SG OM0 OM OM OM SG0 SG SG SG SG SG SG SG SG SG SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG SG R 0 R k Q DT U Q DT U R0 0 R Q0 SD T R 0 R.k P P TLYU00 TLYU00 TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS TLYU00 DS0 TLYU00 W0 DS TLYU00 DS TLYU00 DS TLYU00 DS DS0 DS R00 00k L00 00µH P P R0.k R0 k R0 00k I0 TW0F Q0 XP0 D0 SS IV IV R0 k R0 k I0B TW0F I0A TW0F R R0 00k R0 k 0 0. P R 00k R 00k R 00k R0 00k HV V V 0. O I G O I G 0 0 I TA0F R I TAL0F LOGI UNIT P st Lo MAIN unit J0 P P P P P P P P P0 P0 P0 P0 SRST FSKK FSKK ON0 ON ON PDAT PK DSTB PSTB DNB DNB V V 0 J V V FSKK DNB V V V N P0 P0 P0 P0 nd Lo LO LO J L 0.µH L nh p p p 0.00 W L0 0µH L 0.µH 0 R.k 0 Q S R R 0 R 0 V 0 L LW- 0p W R k R k 0p Q S0 R L 0µH V V L 0µH R0 0 R 0k 00p Q S R k R k R0 k R k R k R k R k VDD 0 DA0 DA DA DA DA DA DA 0 DA DA UL P TR P VDD 0 STRB DATA ON LK I S- R 0 R R 00 0p D KV0 TZBXN00BA0T 0p 0.00 L LW- p Q SK0 L GN-0 R.k R 00 L µh R.k 0 p R 0 R 0 L 0.µH L 0µH L 0.µH R 00 R 0 R0 0 R k R 00 R 0k R.k 0 R 00 L 0.µH L 0.µH R0 k p p L 0.µH RST PST DT K DST ON ON ON0 K DT R k p p Q S R k R0 k R0 0k L 0µH 0 R R Q0 S DT K ON0 ON ON DST R k R k R 0 R k 0.00 P W P0 V LFO R 0k R.k D SS 0 P P P0 PST K DT RST R k R k R k R k R k R k R k R k R0 k R k R k R k L 00µH 00 R k R k Q S0R R0.k R.k R k R k R k R k R k R k R k R k R k R k 0. D MAS L 0µH 0 V V SYSLKO VDD VDD DA0 DA DA DA 0 DA DA DA DA DA DA DA0 DA 0 VDD T T T VDD PD PD VDD PD0 PDTRI VDD OS R FK 0 QMA QMA VDD TO TO TO TO 0 TO TO TO TO0 I S-A D SS R.k R 0 R0 k R0 k R0 k R0 k R k R0 k R0 k Q S0 ON0 ON ON K DST DT PST 0.0 W0 0 R k R0 k R k R k R k R0 k R k R k R k W0 V L LW- TZBXR00BA0T00 0p p Q S R k R 0 R.k p L 0µH 0p X R- 00 L 0µH R 00 L LS- R k L µh L µh p p p L µh L µh R M p p p R I TSUF p p R k R 0 R0 0 R M W R k R k R k R k R k R k R k R k R k W K RST RST DST PST DT ON0 ON ON 0. 0 P0 Q DTU 0 0 R0 0. V R 0 00p I TA0F V V V LFO Q0 S R k R 0 R 0k 00p R 0 0 p p 0.p p L L 0.µH L0 0.µH LS-A L LS-A J P P W0, W0 LO LO LO LO PLL UNIT R 0 R k Q S R 0 0 R k Q S VDD FSK FSK0 T0 T VDD SYS LK NUM0 NUM NUM VDD DATA ONTLK BUSY ON0 ON ON STRB SYS LK DVV BUNO BUNO BUNO VDD BUNI BUNI BUNI VDD VDD TOUTH0 TOUTH TOUTH TOUTH TOUTH VDD VDD SYSRST VDD OSI OSF VDD OSO PDIN IN DIVOUT VDD DA VDD ROM RST VDD PDM0 PDM PDM Q I 0 0 J STRT V V V HV V V FSKK MI to MAIN unit J0 to MAIN unit J0 MI SNDS J SQLS SPS PHO PHO PHO PHO IV IV ALMS KY DOTK DASK VOXL AVXL SML ALML L FORL PATL N BP DNB RXS TXS KDS DSPS DSST SSTB DINT DRS ASTB MSTB FSTB BSTB MK MDAT POWS SBSY 0µH Q0 DTAU R0 0 V P MI MI P L0 HF0A-B L0 HF0A-B L0 HF0A-B L0 HF0A-B R 0 R 0 R 0 R 0 R0 0 R 0 R 0 R 0 R J R 0 IV IV R k R k D DA D DA R0 k R k R k R k R k R k R k R k R R 0k R 0k R k R k R0 k R k P P P P P PB PB P0 SQLS PHO PHO P0 P P PB R R P P0 P P P P P P0 P P0 P P P P P P P R R R R R R R R R R 0k R R R R R0 0 R 0 R 0 R 0 R 0 R 0 R0 0 R 0 R 0 R 0 R 0 D0 DA D DA Q0 DTU D DA R.k P P P P k P0 L µh L µh R 0 J P BFO MAIN unit J00 MAIN unit J0 BFO P0 BFO R.k R.k P0 p p p 0.p 0 p O G I R k k k k k k k k k k k k k k k k LOK NT TUNR NB OMP P.AMP ATT ST DN H UP 0.V Hi :.V Lo :.0V OFF:.0V Hi :.0V Lo :.V OFF:.V Hi :.V Lo :.V OFF:.V.V 0 0.µS.. 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