SERVICE MANUAL COMMUNICATIONS RECEIVER
Μέγεθος: px
Εμφάνιση ξεκινά από τη σελίδα:

Download "SERVICE MANUAL COMMUNICATIONS RECEIVER"

Transcript

1 SRVIC MANUAL COMMUNICATIONS RCIVR

2 INTRODUCTION This service manual describes the latest service information for the IC-R 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 receiver to an AC outlet or to a DC power supply that uses more than V. Such a connection could cause a fire hazard and/or electric shock. DO NOT expose the receiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when connecting the receiver. DO NOT apply an RF signal of more than 0 dm (00mW) to the antenna connector. This could damage the receiver s front end. ORDRING PARTS e sure to include the following four points when ordering replacement parts:. 0-digit order numbers. Component part number and name. quipment model name and unit name. Quantity required <SAMPL ORDR> 0000 S.IC AKC0A IC-R LOGIC UNIT pieces 0000 Screw T M x ZK IC-R Chassis 0 pieces Addresses are provided on the inside back cover for your convenience. RPAIR NOTS. Make sure a problem is internal before disassembling the receiver.. DO NOT open the receiver until the receiver is disconnected from its power source.. DO NOT force any of the variable components. Turn them slowly and smoothly.. DO NOT short any circuits or electronic parts. An insulated turning tool MUST be used for all adjustments.. DO NOT keep power ON for a long time when the receiver is defective.. RAD the instructions of test equipment thoroughly before connecting equipment to the receiver.

3 TAL OF CONTNTS SCTION SPCIFICATIONS SCTION INSID VIWS SCTION DISASSMLY INSTRUCTIONS SCTION CIRCUIT DSCRIPTION - RCIVR CIRCUITS PLL CRICUITS FM-TV CIRCUIT POWR SUPPLY CIRCUITS PORT ALLOCATIONS SCTION ADJUSTMNT PROCDURS - PRPARATION PLL ADJUSTMNT RCIVR ADJUSTMNTS TFT LCD AND FM-TV UNIT ADJUSTMNT SCTION PARTS LIST SCTION MCHANICAL PARTS AND DISASSMLY SCTION SMI-CONDUCTOR INFORMATION SCTION OARD LAYOUTS - VCO AND RF- UNITS FM-TV UNIT LOGIC UNIT RF UNIT SCTION 0 C- OPTIONAL DSKTOP CHARGR INFORMATION 0 - PARTS LIST DISASSMLY INFORMATION VOLTAG DIAGRAM OARD LAYOUTS SCTION LOCK DIAGRAM SCTION VOLTAG DIAGRAM - VCO UNIT RF- UNIT FM-TV UNIT LOGIC UNIT RF UNIT

4 SCTION SPCIFICATIONS M GNRAL Frequency range Mode No. of memory channel Frequency stability : MHz : F, A, CF (TV) : 0 channels : ± ppm max. ( 0 C to +0 ) Tuning steps :,., 0,.,, 0,, 0, 0, and 00 khz Anntena connector : NC (0 Ω) Power supply requirement : attery Voltage alkaline cell DC. V AA(R) Ni-Cd DC. V Li-ion DC. V xternal DC supply DC.. V Polarity : Negative ground Frequency resolution : khz,. khz Current drain (at. V) : (Typical) Receiving condition xcept converter Converter area Rated audio 0 ma 0 ma Standby 0 ma 0 ma Power saved (:) ma ma TV reception LCD lighting 0 ma 0 ma TV sound receiving 0 ma Usable temperature range Dimensions (projections not included) Weight (w/ antenna and battery) xternal SP connector Video/Audio OUT connector M RCIVR Receiver system Intermediate frequencies AM, FM ST IF 0. ND IF.0 RD IF 0.0 : 0 C to +0 C ( F to +0 F) : (W) 0(H).(D) mm; (W) (H) (D) in : 00 (g); 0. (oz) : -conductor.(d) mm ( )/ Ω : -conductor.(d) mm ( )/ Ω : Tripple super heterodyne : (Unit; MHz) WFM * 0. MHz and 0. MHz range * MHz and MHz range Converter frequency :, 0 or MHz (More than 0 MHz) Sensitivity* Frequency (MHz) All stated specifications are subject to change without notice or obligation. * FM and WFM are measured at d SINAD; AM is measured at 0 d S/N. Squelch Sensitivity : FM µv µv µv µv µv µv µv 0 ma Frequency (MHz) 0.. CF (TV).*,.*. Selectivity : AM / FM WFM : (except spurious points) FM WFM AM 0. µv. µv. µv 0. µv 0. µv 0. µv µv. µv. µv. µv more than khz/ d less than 0 khz/ 0 d more than 0 khz/ d Audio output power : 00 mw typical at 0% distortion with an Ω load Audio output impedance : Ω. µv. µv WFM 0.0 µv 0.0 µv 0.0 µv. µv. µv AM. µv. µv. µv. µv -

5 SCTION INSID VIWS RF, RF-, VCO AND FM-TV UNITS RF UNIT RF- UNIT nd IF circuit (FI: FL-) FM-TV UNIT ([OTH-] only]) VCO UNIT LOGIC UNIT PLL converter circuit (IC: TA0F) Power amplifier (IC: XCFP00MR) CPU system clock (X: CR-) CPU (IC: MML-GP) DC-DC converter IC0: MAPFV Q0: SK T: TO- -

6 SCTION DISASSMLY INSTRUCTIONS RMOVING TH RAR PANL Unscrew screws, A. Unscrew screw,. Remove the rear panel in the direction of the arrow. Unplug speaker connector to separate front panel and rear panel. RMOVING TH RF UNIT Remove the knob and unscrew nuts. Unscrew screws,, and unsolder points, F. Unsolder points, H ([OTH-] only). Remove the shield plate. Unsolder points, G, and remove the RF unit. Rear Panel A F F H Knob Shield plate Nuts F Speaker connector RF unit G RMOVING TH LOGIC UNIT Unscrew screw, D. Remove the LOGIC unit in the direction of the arrow. D LOGIC unit -

7 SCTION CIRCUIT DSCRIPTION - RCIVR CIRCUITS -- RF SWITCHING CIRCUIT (RF UNIT) () elow 0 MHz The RF signals from the antenna connector pass through the band switching diode (D) and an attenuator (D, D). The signals are then applied to the RF circuit which suppress out-of-band signals via the band switching diode (D). The signals below. MHz pass through a low-pass filter (C C, L, L0) between the band switching diode (D, D), and are then applied to the RF amplifier circuit (Q). The. MHz. MHz signals pass through the band switching diode (D) and bandpass filter (C C, L L), and are then applied to the RF amplifier circuit (Q) via the band switching diode (D). () Above 0 MHz The RF signals from the antenna connector pass through the limitter (D), band switching diode (D0) and high-pass filter (C C, C, C, L, L, L). The filtered signals are applied to the AF amplifier (IC, pin ), and are then applied to the convertor circuit (IC, pin ). Above 0 MHz RF signals are mixed with CONLO signal from CONV VCO circuit for convertion into below 0 MHz RF signals at the converter circuit (IC). The converted signals are output from IC (pin ), and are then applied to the RF circuit which suppress out-of-band signals. -- RF CIRCUIT (RF AND RF- UNITS) The RF circuit amplifies the received signals within the range of frequency coverage and filters out-of-band signals. () 0. MHz. MHz RF signals (0. MHz. MHz) from the RF switching circuit pass through a low-pass filter (C C, L, L). The filtered signals are amplified at an RF amplifier (Q) passing through each low-pass, bandpass, high-pass filter depending on the receiving frequency. The amplified signals are then applied to the st mixer circuit (IC) via the band switching diode (D0). RF CIRCUIT 0. 0 MHz 0 MHz Q RF Q0, Q0, Q0, Q0 RF LPF D D ANT SW D0, D0 D0, D0 D0, D0 D0, D0 ANT SW The MHz. MHz signals pass through the band switching diode (D) and high-pass filter (C C0, L, L) and are then applied to the RF amplifier circuit (Q) via the band switching diode (D). () 0 MHz. MHz (RF- UNIT) RF signals (0 MHz. MHz, MHz 0. MHz, 0 MHz. MHz, MHz. MHz) from the RF switching diode (RF unit; D) are passed through the low-pass filter (RF unit; C C, L L). The filtered signals pass through the each bandpass filters and RF amplifier depending on the receiving frequency. The signals are then applied to the st mixer circuit (RF unit; IC). The 0 MHz. MHz signals pass through the band switching diode (D0) and bandpass filter (D0), and are then amplified at the RF amplifier (Q0). The amplified signals pass through the bandpass filter (D0) and band switching diode (D0). LPF LPF D, D0 ANT SW RF- UNIT D ANT SW Above 0 MHz RF signals "CONLO" signal from the CONV VCO circuit IC D0, D ANT SW D, D ANT SW elow 0 MHz RF signals ANT to the nd mixer circuit D0 st LO IC FM-TV UNIT D to the FM-TV circuit 0 0 MHz 0 00 MHz Q0, Q RF 0 MHz, 00 0 MHz ANT SW Q RF D0, D0 D, D Q, Q RF LPF D, D ANT SW D0 ANT SW D, D, D ANT SW CONVRTD RF FRQUNCY LIST Displayed frequency RF frequency

8 The MHz 0. MHz signals pass through the band switching diode (D0) and bandpass filter (D0), and are then amplified at the RF amplifier (Q0). The amplified signals pass through the bandpass filter (D0) and band switching diode (D0). The 0 MHz. MHz signals pass through the band switching diode (D0) and bandpass filter (D0), and are then amplified at the RF amplifier (Q0). The amplified signals pass through the bandpass filter (D0) and band switching diode (D0). The MHz. MHz signals pass through the band switching diode (D0) and bandpass filter (D0), and are then amplified at the RF amplifier (Q0). The amplified signal pass through the bandpass filter (D0) and band switching diode (D0). () 0 MHz. MHz RF signals (0 MHz. MHz) from the RF switching circuit pass through the band switching diode (D) and a bandpass filter (C C, L L, L). The filtered signals are amplified at an RF amplifier (Q), and then passed through the bandpass filter (D, D). The filtered signals are then applied to the st mixer circuit (IC) via the band switching diode (D). () 0 MHz. MHz RF signals (0 MHz. MHz) from the RF switching circuit pass through the band switching diode (D0) and a low-pass filter (C C, L, L). The filtered signals are passed through each bandpass filter and RF amplifier depending on the receiving frequency. The amplified signals are then applied to the st mixer circuit (IC) via the band switching diode (D0 or D) respectively. The 0 MHz. MHz signals pass through the band switching diode (D0) and bandpass filter (D0), and are then amplified at the RF amplifier (Q0). The amplified signals pass through the bandpass filter (D0) and band switching diode (D0). The 00 MHz. MHz signals pass through the band switching diode (D) and bandpass filter (D), and are then amplified at the RF amplifier (Q). The amplified signals pass through the bandpass filter (D) and band switching diode (D). () MHz. MHz AND 00 MHz. MHz RF signals ( MHz. MHz and 00 MHz. MHz) from the RF switching circuit pass through the band switching diode (D). The signals are passed through each bandpass filter and RF amplifier depending on the receiving frequency. The amplified signals are then applied to the st mixer circuit (IC) via the band switching diodes (D or D) respectively. The MHz. MHz signals pass through the bandpass filter (C0 C, C, C, L, L), and are then amplified at the RF amplifier (Q). The amplified signals pass through the band switching diode (D). The 00 MHz. MHz signals pass through the bandpass filter (C C, C C, L L), and are then amplified at the RF amplifier (Q). The amplified signals pass through the band switching diode (D). -- ST MIXR CIRCUIT (RF UNIT) The st mixer circuit converts the received RF signals to a fixed frequency of the st IF signal with a PLL output frequency. y changing the PLL frequency, only the desired frequency will pass through the bandpass filters at the next stage of the st mixer. The filtered or amplified RF signals from each RF circuit are mixed with st LO signal at the st mixer circuit (IC) to produce each st IF signal depending on the receiving frequency. The st IF signal is output from pin, and passed through the bandpass filter (FI0) to suppress unwanted harmonic components. The filtered st IF signal is applied to the nd mixer circuit. ST IF FM, AM, WFM 0. MHz * 0. MHz and 0. MHz range * MHz and MHz range CF (TV).*,.* MHz The st LO signals are generated at the st VCO (VCO unit; Q, Q, D) and are applied to the st mixer (IC, pin ) directly or passed through the doubler circuit (Q) after being amplified at the buffer amplifier (VCO unit; IC). ST MIXR CIRCUIT (RF UNIT) "RFO" signals from the each front-end circuit C C "st IF" signal to the nd mixer circuit st mixer IC (IC) "st IF" signal to the FM-TV unit C C0 "RV" signal from the LOGIC unit R R R "st VCO" signal from the st VCO circuit (VCO unit) -

9 -- ST IF AND ND MIXR CIRCUITS (RF UNIT) The nd mixer circuit converts the st IF signal to a nd IF signal. The filtered each st IF signal from the bandpass filter are mixed with the nd LO signal at the nd mixer circuit (IC0, pin ) to produce each nd IF signal depending on the receiving frequency. In AM and FM mode, the nd IF signal (. MHz) passes through the band switching diode (D) and bandpass filter (FI). The filtered signals are then amplified at the nd IF amplifier (Q), and are applied to the demodulator circuit. In WFM mode, the nd IF signal (. MHz) passes through the band switching diode (D) and bandpass filter (FI). The filtered signal is then amplified at the nd IF amplifier (Q), and is applied to the demodulator circuit. In TV mode, the nd IF signal (. MHz) passes through the band switching diode (D0) and is then applied to the nd IF amplifier (Q). The amplified signal passes through the bandpass filter (FI0), and is applied to the demodulator circuit. -- DMODULATOR CIRCUITS (RF UNIT) The demodulator circuit converts the nd IF signal into AF signals or video signals. AM MOD The rd IF signal is output from FM IF IC (IC, pin ) and passes through the ceramic bandpass filter (FI). The filtered signal is applied to the AM detector circuit (Q, Q) to convert into AF signals, and the signals are applied to the AF circuit (LOGIC unit). FM MOD The rd IF signal is output from FM IF IC (IC, pin ) and passes through the ceramic bandpass filter (FI). The filtered signal is fed back and amplified at the limiter amplifier section (pin ), then demodulated AF signals at the quadrature detector section (pins 0, ) with detector coil (L). The demodulated AF signals are output from pin and are applied to the AF circuit (LOGIC unit). WFM MOD The rd IF signal from the rd mixer bypasses the ceramic filter (FI) and fed back to the limiter amplifier section (pin ). The amplified signal is demodulated at the quadrature detector section (pins 0, ) with detector coil (L). The AF signals are output from pin and are applied to the AF circuit (LOGIC unit). y connecting R to R in parallel, the output characteristics of pin, RSSI, change gradually. Therefore, the FM IF IC can detect WFM components. () AM, FM AND WFM MOD The each nd IF signals from the nd IF amplifier (Q) are applied to the rd mixer section of the FM IF IC (IC, pin ) and are then mixed with the rd LO signal for conversion into a 0 khz rd IF signal. IC contains the rd mixer, limiter amplifier, quadrature detector and S-meter detector, etc. A frequency from the PLL reference oscillator (VCO unit; IC) is used for the rd LO signal (.0 MHz). RD IF AND DMODULATOR CIRCUITS (RF UNIT) R R C R C C R "FMAF" or "AMAF" signal to the AM/FM switch circuit (LOGIC unit; D, D) Active filter FM detector 0 Limiter amp. C0 RSSI rd IF filter 0 khz R0 R RX C0 C R C C0 Noise detector L D R Q FI Noise comp. C D rd Mixer WFM Q D D IC TAFN nd IF signal from the IF amplifier (RF unit; Q) "SDT" signal to the CPU (Logic unit; IC, pin ) "RSSI" signal to the CPU (Logic unit; IC, pin ) "rd LO" signal from IC, pin (VCO unit) -

10 () TV MOD The amplifed signals at the nd IF amplifier (Q) are applied to the bandpass filter (FI0). The filtered signals are applied to the TV IF IC (IC0) as audio IF signal and the video IF signal, separately. IC0 is the video/audio detector IC of the PLL sprit type, which contains the video IF amplifier, PLL video detector, voice IF detector, IF and RF AGC, etc. The audio IF signal from FI0 (pin ) is applied to the TV IF IC (IC0, pin ) as the SIF signal, and is amplified and phase detected in the IC. The phase detected signal is output from pin, and is fed back to pin via FI0. The filtered signal is applied to the limitter amplifier section and FM detector section in the TV IF IC. The demodulated AF signals are output from pin and are applied to the AF circuit (LOGIC unit). The video IF signal from FI0 (pin, ) is applied to the TV IF IC (IC0, pin, ) as VIF signal, and is then amplified at the video IF amplifier in the TV IF IC. The amplified signal is compared with the VCO frequency (L0, C0), and is then applied to the phase detector section in the TV IF IC. The detected signal is output from pin as the video signal, and then passed through the bandpass filter (FI0). The filtered signal is amplified at Q, and applied to the buffer amplifier (Q). The amplified signal is applied to the TFT LCD circuit (LOGIC unit). -- AF AMPLIFIR CIRCUIT (LOGIC UNIT) The AF amplifier circuit amplifies the demodulated AF signals to drive a speaker. While in FM and TV mode, AF signals ( FMAF signal) from the demodulator circuit (RF unit) are passed through the deemphasis circuit (R, C, C) with frequency characteristics of d/octave, and are then applied to the preamplifier (Q) via the bandpass filter (Q0). While in AM mode, AF signals ( AMAF signal) are pass through the bandpass filter (Q0) and are then applied to the pre-amplifier (Q). While in WFM mode, AF signals ( WFM signal) are applied to the pre-amplifier (Q) directly. The pre-amplified AF signals pass through the AF mute circuit (Q) and are then applied to the electronic volume control circuit (IC, pin ). The level controlled AF signals are output from pin and applied to the AF power amplifier (IC, pin ) via the buffer amplifier (Q). The power amplified AF signals are applied to the internal speaker via the [XT SP] jack. The electronic volume control circuit controls AF gain, therefore, the AF output level is according to the [VOL] setting and also the squelch conditions. The AF mute and electronic volume control circuits are controlled by CPU (IC) via each AMUT and VRC signal lines. When connecting [A/V OUT] jack (RF unit; J) on TV mode, AF signals from demodulator circuit (RF unit; IC0, pin ) are applied to the [A/V OUT] jack directly. On AM, FM, WFM mode, AF signals from demodulator circuit (RF unit; IC, pin ) are applied to the RF amplifier (FM- TV unit; Q) via J (pin ) on RF unit. The amplified signals are applied to the [A/V OUT] jack via the J (pin ). -- TFT LCD CIRCUIT (LOGIC UNIT) The amplified video signal from Q on MAIN unit is amplified at the buffer amplifier (Q0, Q0), and is then applied to the OSD (On Screen Display) IC (IC0, pin 0). The OSD IC produces LCD screen display data, and then outputs video signals to the TFT driver (IC0). The TFT driver contains the procesing of RG signal circuit, color control circuit, etc. The TFT driver controls the TFT LCD (DS) using the video signals from the OSC IC. -- SQULCH CIRCUIT (LOGIC AND RF UNITS) NOIS SQULCH The noise squelch circuit cuts out AF signals when no RF signals are received. y detecting noise components in the AF signals, the squelch circuit switches the AF mute switch. TV DMODULATOR CIRCUIT AF signal from the FM IF IC (IC, pin ) D "FMAF" signal to the AF amplifier circuit nd IF signal from the nd mixer circuit (IC0, pin ) D0 IF amp. Q IC0 TV IF IC audio signal video signal uff. Q A/V OUT (RF unit; J) RF UNIT Amp. uff. FI0 FI0 Q Q LOGIC UNIT "VIDO" signal to the TFT driver circuit (IC0) OSD IC0 uff. Q0, Q0 -

11 A portion of the AF signals from the FM IF IC (RF unit; IC, pin ) are applied to the active filter section (IC, pin ). The active filter section amplifies and filters noise components. The filtered signals are applied to the noise detector section and output from pin as the SDT signal. The SDT signal from IC (pin ) is applied to the CPU (LOGIC unit; IC, pin ) directly. The CPU analyzes the noise condition and outputs the AMUT signal to the AF mute switch (Q). ven when the squelch is closed, the AF mute switch (Q) opens at the moment of emitting beep tones. TON SQULCH The tone squelch circuit detects AF signals and opens the squelch only when receiving a signal containing a matching subaudible tone (CTCSS). When tone squelch is in use, and a signal with a mismatched or no subaudible tone is received, the tone squelch circuit mutes the AF signals even when noise squelch is open. A portion of the AF signals from the FM IF IC (RF unit; IC, pin ) passes through the low-pass filter (LOGIC unit; IC) via the FMAF signal to remove AF (voice) signals and passes through the tone filter (LOGIC unit; IC, Q). The filtered signal is applied to the CTCSS decoder inside CPU (LOGIC unit; IC, pin ) via the RTON line to control the AF mute switch. - PLL CIRCUITS -- PLL CIRCUIT (VCO UNIT) A PLL circuit provides stable oscillation of the receive st/nd LO frequencies. The PLL circuit compares the phase of the divided VCO frequency to the reference frequency. The PLL output frequency is controlled by the divided ratio (N-data) of a programmable divider. PLL CIRCUIT "RF" signal to the FM IF IC (IC, pin ) Loop filter 0 IC (Converter PLL IC) PCK PDA PST Q Amp. RF UNIT Converter VCO Q uff. Q RF Q RF "CONLO" signal to the converter mixer circuit (IC, pin ) Q, D Loop filter Q, Q VCO UNIT st VCO Q, Q, D nd VCO Q, D0 Loop Q0, filter Q Phase detector Q uff. IC uff. IC (PLL IC) LPF Programmable counter Q Amp. Prescaler D D D D D D "st LO" signal to the st mixer circuit (IC, pin ) "nd LO" signal to the nd mixer circuit (IC0, pin ) X. MHz D VXO Programmable divider Shift register PST PCK PDA -

12 An oscillated signal from the st VCO passes thorough the buffer amplifiers (IC, Q), is applied to the PLL IC (IC, pin ) and is prescaled in the PLL IC based on the divided ratio (N-data). The PLL IC detects the out-of-step phase using the reference frequency and outputs it from pin. The output signal is passed through the loop filter (Q, Q) and is then applied to the st VCO circuit as the lock voltage. -- CONVRTR PLL CIRCUIT (RF AND VCO UNITS) An oscillated signal from the converter VCO is applied to the buffer and RF amplifiers (Q, Q). The amplified signal passes through the bandpass filter (VCO unit; C C, C, C, L L), and is then amplified at the RF amplifier (VCO unit; Q) and LO amplifier (RF unit; Q). The amplified signal is applied to the converter PLL IC (RF unit; IC, pin ) and is prescaled in the converter PLL IC based on the divided ratio (N-data). The converter PLL IC detects the out-of-step phase using the reference frequency and outputs it from pin 0. The output signal is passed through the loop filter (RF unit; C C, R, R) and is then applied to the converter VCO circuit as the lock voltage. An oscillated signal from the nd VCO is applied to the buffer amplifier (Q). The amplified signal passes through the low-pass filter (C, C0 C, L), and is applied to the PLL IC (IC, pin ), and is then output from pin. -- CONVRTR VCO CIRCUIT (VCO UNIT) The converter LO circuit generates the converter LO frequencies, and the signals are applied to the converter mixer circuit. The converter VCO circuit (Q, D) oscillates.. MHz signal. The oscillated signal is applied to the buffer amplifier (Q), and is then amplified at the RF amplifier (Q) to double the oscillating frequency. The MHz signal is applied to the RF amplifier (Q) via the bandpass filter (C C, C, C, L L). The amplified signal is applied to the converter mixer (RF unit; IC, pin ), and is then mixed with the above 0 MHz RF signal. An oscillated signal from the converter VCO is applied to the LO amplifier (RF unit; Q). The amplified signal is applied to the converter PLL IC (RF unit; IC, pin ). -- RFRNC OSCILLATOR CIRCUIT (VCO UNIT) The reference oscillator circuit (X, IC) generates a. MHz reference frequency which is stabilized within the temperature range 0 C (+ F) to +0 C (+0 F). The reference frequency is applied to the PLL IC (IC, pin ) and the signal is output from pin, and is then applied to the converter PLL IC (RF unit; IC, pin ) and FM IF IC (RF unit; IC, pin ). -- ST VCO CIRCUIT (VCO UNIT) The oscillated signal is applied to the buffer amplifier (IC). The amplified signal is applied to the st mixer circuit (RF unit; IC, pin ) via the RX LO swtich circuit (RF unit; D D) and doubler circuit (RF unit; Q). The st VCO circuit (Q, Q, D) oscillates 0. MHz. MHz (Low) and. MHz 0.0 MHz (High) respectively by switching the SHIFT switch (Q, D). A portion of the signal from IC is amplified at the buffer amplifier (Q) and is then fed back to the PLL IC (IC, pin ) as the comparison signal. -- ND VCO CIRCUIT (VCO UNIT) The nd LO circuit generates the nd LO frequencies, and the signals are applied to the nd mixer circuit. The nd VCO circuit (Q, D0) oscillates.. MHz signal. The oscillated signal is applied to the nd mixer (RF unit; IC0, pin ), and is then mixed with the st IF signal. - FM-TV CIRCUIT -- FM-TV CIRCUIT (FM-TV UNIT) ([OTH-] only includes this unit) The.0 MHz st IF signal from the st mixer (RF unit; IC, pin ) passes through the IF switching diode (D) via the J on the RF unit. The signal is passed through the bandpass filter (FI) to suppress unwanted signal, and then applied to the IF amplifier (IC, pin ). The amplified signal is applied to the FM-TV detector IC (IC, pins and ). The FM-TV detector IC contains the AGC amplifier, loop amplifier, video amplifier, etc. The video and audio signals are output from the FM-TV detector separately. VIDO SIGNAL The detected video signal from the FM-TV IC (IC) is amplified at the buffer amplifier (Q), and then applied to the amplifier (IC, pin and ). The amplified signal is applied to the video selector IC (IC, pin and ) to obtain d amplification. The amplified signal is output from the video selector IC (pin ), and is then applied to the buffer amplifier (RF unit; Q) via the VIDO signal. The amplified signal is applied to the TFT LCD circuit on the LOGIC unit. AUDIO SIGNAL The oscillator (Q, C C, C, D, D) oscillates MHz signal.the detected audio signal from the FM- TV IC (IC) is amplified at the buffer amplifier, and is then applied to the mixer (Q). The signal is mixed with oscillated MHz signal to produce the. MHz IF signal at the mixer. The IF signal passes through the band switching diode (RF unit; D) and bandpass filter (RF unit; FI). The filtered signal is amplified at the nd IF amplifier (RF unit; Q), and is applied to the FM IF IC (RF unit; IC, pin ). The detected signal is applied to the AF circuit (LOGIC unit) for speaker, and applied to the A/V OUT jack (RF unit; J) via the RF amplifier (Q). -

13 FM-TV DTCTOR CIRCUITS (FM-TV UNIT) "IFIN" signal from the st mixer circuit (RF unit; IC, pin ) FI IF amp. IC C R FMTV R C 0 CP R R C AGC amp. IF amp. DC amp. PD IC (FM-TV DTCTOR IC) VCO VIDO amp. Loop amp. 0 R R D R D R C R R R C L L L R The detected signal R -

14 - POWR SUPPLY CIRCUITS VOLTAG LIN LIN ATV VCC HV +V V RV.V V V V DSCRIPTION The voltage from the attached battery. The same voltage as the ATV line (battery voltage). Common V converted from VCC line by the +V converter circuit (LOGIC unit; Q, Q) using the POWRC signal from the CPU (LOGIC unit; IC, pin ). Common V converted from the VCC line by the +V regulator circuit (LOGIC unit; IC). The output voltage is applied to the RST circuit (LOGIC unit; IC, pin ). Receive V controlled by the RV regulator circuit (LOGIC unit; Q, Q) using the +SC signal from the CPU (LOGIC unit; IC, pin ). Common.V converted from the VCC line by the DC-DC converter (LOGIC unit; IC0). The output voltage is applied to the TFT driver (LOGIC unit; IC0) and the TFT back light driver (LOGIC unit; Q). Common V converted from the VCC line by the DC-DC converter (LOGIC unit; T). The output voltage is applied to the OSD IC (LOGIC unit; IC0), etc. Common V converted from VCC line by the DC-DC converter (LOGIC unit; T). The output signal is applied to the TFT driver (LOGIC unit; IC0). Common V converted from the VCC line by the DC-DC converter (LOGIC unit; T). The output signal is applied to the TFT LCD (LOGIC unit; DS). - PORT ALLOCATIONS -- XPANDR IC (RF UNIT; IC) Pin number 0 Port name C C C MC 0MC SHIFT DL DL 0MC 00MC Description Outputs low-pass filter select signal. Low : When frequencies 0. to. MHz are displayed. Outputs bandpass filter select signal. Low : When frequencies. to MHz are displayed. Outputs bandpass filter select signal. Low : When frequencies to 0 MHz are displayed. Outputs bandpass filter select signal. Low : When frequencies to 0 MHz are displayed. Outputs bandpass filter select signal. Low : When frequencies 0 to MHz are displayed. Outputs control signal for the VCO shift circuit (VCO unit; Q, D). High : While the st VCO is shifting. Outputs control signal for the doubler circuit (RF unit; Q, D, D). Outputs control signal for the doubler circuit (RF unit; Q, D, D). Outputs low-pass and bandpass filters select signal. Low : When frequencies 0 to 00 MHz are displayed. Outputs low-pass and bandpass filters select signal. Low : When frequencies 00 to 0 MHz are displayed. -

15 -- CPU (LOGIC UNIT; IC) Pin number Port name THRMC Description Input port for the receiver s internal temperature detection. Pin number Port name CS Description Outputs chip select signal for the PROM (LOGIC unit; IC, pin ). 0 C FST TCON VRC CHGC Outputs tracking control signal. Outputs control signal for the RIT frequency. Outputs control signal for the CTCSS regulator circuit (LOGIC unit; IC, pin ). Low : While the CTCSS is ON. Outputs level control signal for the AF volume. Outputs battery charger control signal. High : While charging battery. PST OSST TGST DATA UHFVC I/O port for strobe signal from/to the PLL IC (VCO unit; IC, pin ). Outputs chip select signal for the color LCD. Outputs color LCD load signal. Outputs color LCD control signal. Outputs serial data for the LCD controllor. Outputs bandpass filter select signal. Low : When frequencies 0 to 0 MHz are displayed. AMUT Outputs the AF mute switch (LOGIC unit; Q) control signal. High : While squelched. MC Outputs bandpass filter select signal. Low : When frequencies to MHz are displayed. 0 CLOUT CLIN P POWRC Outputs the cloning signal. Input port for the cloning signal. Outputs beep audio signals. Outputs the +V regurator control signals. Low : Power switch is pushed. 0MC HFC Outputs bandpass filter select signal. Low : When frequencies 0 to MHz are displayed. Outputs control signal for the HF band receiver regurator circuit (RF unit; Q). Low : When frequencies 0. to 0 MHz are displayed. AFON RXC DCDC_C Outputs control signal for the AF amplifier regurator circuit. High : Activates the AF amplifier circuit. Outputs control signal for the receiver regulator circuit. Outputs the DC-DC converter (LOGIC unit; IC0, pin ) control signal. Low : While color LCD is displayed. 0 ATT ATT ATT AM WFM Outputs attenuater control signal. High : While attenuater is ON. Outputs AM mode select signals. Low : When AM is selected. Outputs WFM mode select signals. Low : When WFM is selected. +SC Outputs the +S regurator control signal. CONVC Outputs control signal for the converter circuit. Low : When frequencies above 0 MHz are displayed. 0 TVC Outputs control signal for the TV receive circuit. Low : While TV band receiving. LIGHT Outputs key and LCD backlight control signal. High : Lights ON. CPUHV Input port for connecting the external power supply detection. Low : While connecting the external power supply. RST Input port for the RST signal. CK I/O port for the PROM (LOGIC unit; IC, pin ) serial clock. -

16 SCTION ADJUSTMNT PROCDURS - PRPARATION RQUIRD TST QUIPMNT QUIPMNT GRAD AND RANG DC power supply Output voltage :. V DC Current capacity : A or more Digital multimeter Input impedance : 0 MΩ/DC or better Oscilloscope Frequency range : DC 0 MHz Measuring range : V Audio generator Frequency range : 000 Hz Measuring range : V QUIPMNT Frequency counter Standard signal generator (SSG) Digital DC voltmeter GRAD AND RANG Frequency range : MHz Frequency accuracy : ± ppm or better Sensitivity : 00 mv or better Frequency range : MHz Output level : 0. µv mv ( to dm) Input impedance : 0 MΩ/DC or better NTRING ADJUSTMNT MOD q Turn power OFF. w Input the square wave (as illustration at page -) to the [SP] jack (RF unit; J). e Push and hold the [FUNC] key, and then turn power ON. NOT: When turning power OFF disconnecting the square wave, cancelled the adjustment mode. OPRATING ON TH ADJUSTMNT MOD Change the adjustment item or channel : [Ω] or [ ] Change the value : [DIAL] FM-TV FRQUNCY ADJUSTMNT ([OTH-] ONLY) When adjusting FM-TV FRQUNCY, need to remove the FM-TV unit from the IC-R as follow. q Unsoldering points A and points. w Pull up the FM-TV unit. RMOVING FM-TV UNIT unsoldering here A unsoldering here -

17 CONNCTION Standard signal generator /" (. mm) -conductor plug CLON Audio generator When entering the adjustment mode, input the square wave as below from the audio generator. V V 0 Hz DC POWR CAL CONNCTION Power supply. V / A -

18 - PLL ADJUSTMNT TV RCIVING SYSTM, RFRNC FRQUNCY AND DTCTOR OUTPUT VOLTAG adjustments must be performed at ADJUSTMNT MOD. ADJUSTMNT ST VCO LOCK VOLTAG (SHIFT ON) (SHIFT OFF) ND VCO LOCK VOLTAG CONVRTR VCO LOCK VOLTAG TV MOD RFRNC FRQUNCY TV RCIVING SYSTM RFRNC FRQUNCY DTCTOR OUTPUT VOLTAG ADJUSTMNT CONDITION Displayed frequency :. MHz Receiving Displayed frequency : 0. MHz Receiving Displayed frequency : 0. MHz Receiving Displayed frequency : MHz Receiving Displayed frequency :. MHz Mode :TV Connect an SSG to the antenna connector and set as: Level : mv* (0 dµ) Modulation : OFF Receiving Displayed TV receiving system adjustment menu (TV ch). Displayed frequency : (FR ch) MHz Receiving Displayed frequency : (TL ch) 0.00 MHz Connect an SSG to the antenna connector and set as: Level : mv* (0 dµ) Modulation : OFF Receiving ADJUSTMNT MASURMNT VALU POINT UNIT LOCATION UNIT ADJUST VCO VCO VCO RF DISPLAY RF RF Connect the digital multi-meter to the check point CP. Connect the digital multi-meter to the check point CP. Connect the digital multi-meter to the check point CP. Connect the frequency counter to the check point CP. Connect the frequency counter to the check point CP. Connect the digital multi-meter to the check point CP.. V. V. V. V 0. V. V MHz.0 V VCO VCO VCO RF Top panel Top panel RF L L Verify L L0 [DIAL] [DIAL] L *This output level of the standard signal generator (SSG) is indicated as SSG s open circuit. -

19 CP Detector output voltage check point L Detector output voltage adjustment CP st VCO lock voltage check point CP nd VCO lock voltage check point CP Converter VCO lock voltage check point L0 TV mode reference frequency adjustment CP TV mode reference frequency check point L st VCO lock voltage (shift off) adjustment L st VCO lock voltage (shift on) adjustment -

20 - RCIVR ADJUSTMNTS The following adjustment must be peformed at the ADJUSTMNT MOD. The S-MTR adjustment must be performed after RCIVR SNSITIVITY ADJUSTMNT. ADJUSTMNT RCIVR SNSITIVITY S-MTR ADJUSTMNT CONDITION Displayed frequency : (TL ch) 0.00 MHz Connect an SSG to the antenna connector and set as: Level : µv* ( 0 dm) Modulation : OFF Receiving Displayed frequency : (TL ch).00 MHz Connect an SSG to the antenna connector and set as: Level : µv* ( 0 dm) Modulation : OFF Receiving Displayed frequency : (SM ch).0 MHz Mode : FM Connect an SSG to the antenna connector and set as : Level : 0. µv* ( dm) Modulation : OFF Receiving ADJUSTMNT MASURMNT VALU POINT UNIT LOCATION UNIT ADJUST LOGIC Connect the digital multi-meter to the check point SD. Same adjustments as step for following frequencies : MHz (TL ch).00 MHz (TH ch) 0.00 MHz 0 MHz (TL ch) 0.00 MHz (TH ch).00 MHz MHz (TL ch).00 MHz (TH ch).00 MHz 0 MHz (TL ch) 0.00 MHz (TH ch).00 MHz 0 MHz (TL ch) 0.00 MHz (TH ch).00 MHz 00 MHz (TL ch) MHz (TH ch).00 MHz NOT: DO NOT change the SSG output level. Maximum voltage Same adjustments as step for following frequencies and SSG S output level : Top panel [DIAL] Push the [MOD] key, and verify that S-Meter shows S ( dots). S-Meter Adj. Freq..00 MHz (SM ch).00 MHz (SM ch).00 MHz (SM ch) 0.0 MHz (SM ch).0 MHz (SM ch).00 MHz (SM ch).0 MHz (SM ch) 0.00 MHz (SM ch) MHz (SM ch) 0.00 MHz (SM ch) SSG Level 0.0 µv* ( dm) 0. µv* ( dm) 0.0 µv* ( dm) 0. µv* ( dm) 0. µv* ( dm) 0. µv* ( dm) 0. µv* ( dm) 0. µv* ( dm) 0. µv* ( dm) 0. µv* ( dm) S-Meter Adj. Freq MHz (SM ch) 0.00 MHz (SM ch).0 MHz (SM ch) 0.0 MHz (SM ch) 0.00 MHz (SM ch) MHz (SM ch).00 MHz (SM ch) 0.00 MHz (SM ch).00 MHz (SM ch) 0.00 MHz (SM ch) SSG Level µv* ( 0 dm) 0. µv* ( dm) 0. µv* ( 0 dm) 0. µv* ( 0 dm) 0.0 µv* ( dm) 0. µv* ( dm) 0. µv* ( 0 dm) 0. µv* ( 0 dm). µv* (0 dm) 0. µv* ( 0 dm) *This output level of the standard signal generator (SSG) is indicated as SSG s open circuit. -

21 SD Receiver sensitivity check point -

22 - TFT LCD AND FM-TV UNIT ADJUSTMNTS ADJUSTMNT LCD LIGHT ON DC-DC VOLTAG VIDO SYNCHRO- NOUS ADJUSTMNT CONDITION Displayed frequency : channel Mode : TV mode Push and hold [FUNC] key, and then push [Y] or [Z] key. Displayed frequency : channel Mode : TV mode Receiving Displayed frequency : channel Mode : TV mode Receiving ADJUSTMNT MASURMNT VALU POINT UNIT LOCATION UNIT ADJUST Front panel LOGIC LOGIC Display Connect the digital voltmeter to the check point V. Connect the oscilloscope to the check point CP. The LCD lights ON. V Set the waveform as below same width LOGIC LOGIC Verify R0 R0 OSD FRQUNCY Displayed frequency : channel Mode : TV mode Receiving Front panel Display Set the same space both left side and right side on the display as below sample display LOGIC C same width FM-TV FRQUNCY ([OTH-] only) Remove the FM-TV unit. Solder CP to short the junction point (as shown next page). Connect a V power supply to the [FMTV] terminal (J, pin ) Connect an SSG to the [IFIN] terminal on the PC and set as : Frequency :.0 MHz Level : mv* ( dm) Modulation : OFF Receiving FM-TV Connect the digital voltmeter to the CP.. V FM-TV L *This output level of the standard signal generator (SSG) is indicated as SSG s open circuit. -

23 LOGIC UNIT C OSD frequency adjustment CP Video synchronous check point R0 Video synchronous adjustment R0 DC-DC voltage adjustment V DC-DC voltage check point FM-TV UNIT TOP VIW OTTOM VIW Power supply V/ A J, pin Standard signal generator R R L FM-TV frequency adjustment R R R CP FM-TV frequency check point (Need to solder as shown right) CP Solder CP -

24 SCTION PARTS LIST [RF UNIT] RF ORDR NO. NO. DSCRIPTION IC S.IC µpct- IC S.IC TAFN (L) IC 0000 S.IC U0FV- IC S.IC µpct- IC 0000 S.IC µpct- IC 0000 S.IC µpct- IC 0000 S.IC TFN (L) IC S.IC MFP 00C Q 0000 S.TRANSISTOR SC0 T0 S Q S.TRANSISTOR SC-O (TR) Q 0000 S.TRANSISTOR DTA TL Q S.TRANSISTOR DTAJ TL Q S.TRANSISTOR XP (TX) Q 0000 S.TRANSISTOR UPA0T-T Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR SCC-TL Q 0000 S.TRANSISTOR FH0-TL Q S.TRANSISTOR XP (TX) Q S.TRANSISTOR SC-O (TR) Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR XP (TX) Q 0000 S.TRANSISTOR XP0-(TX).A Q 0000 S.TRANSISTOR XP0-(TX).A Q 0000 S.TRANSISTOR XP (TX) Q S.TRANSISTOR XP (TX) Q S.TRANSISTOR DTAJ TL Q S.TRANSISTOR XP (TX) Q S.TRANSISTOR SC-O (TR) Q S.TRANSISTOR UN (TX) Q S.TRANSISTOR SA-GR (TR) Q S.TRANSISTOR XP (TX) Q S.TRANSISTOR SA-GR (TR) Q S.FT SK (TL) Q S.FT SK (TL) Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.TRANSISTOR SC0--TL Q 0000 S.TRANSISTOR SC0 T0 S Q S.TRANSISTOR SA-GR (TR) Q S.TRANSISTOR SA-GR (TR) Q S.TRANSISTOR XP (TX) Q S.TRANSISTOR DTAJ TL Q S.TRANSISTOR XP (TX) Q 0000 S.TRANSISTOR DTA TL Q S.FT SK0-Y (TR) Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR UN (TX) D S.VARICAP SV (TL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD SV0 (TPL) D S.DIOD MAWK (TX) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD MAS (TX) [RF UNIT] RF ORDR NO. NO. DSCRIPTION D 0000 S.DIOD MAS (TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D S.DIOD MAWK (TX) D S.DIOD MAWK (TX) D S.DIOD MA (TX) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD MAS0-(TX) D S.DIOD MAS-(TX) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D S.DIOD MAS0-(TX) D S.DIOD SV0 (TPL) D S.DIOD SV0 (TPL) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D 0000 S.DIOD MAS0-(TX) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS-(TX) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) D S.DIOD SV0 (TPL) D 0000 S.DIOD SV0 (TPL) D 0000 S.DIOD MAS0-(TX) D S.DIOD MA (TX) D S.DIOD MAWK (TX) FI CRAMIC CFWM0 FI S.XTAL FL- FI S.CRAMIC SFCV.MAS FI SAW WFSTSD FI S.CRAMIC SFSCC.MC-TC0 FI S.LC LFSCN00 FI S.CRAMIC TPSCC.M-TC0 L S.COIL LJR NZ-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL MLF0K 0K-T L S.COIL MLF0K 0K-T L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR 0NG-F L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LJR NZ-F L 0000 S.COIL LS-0 L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NZ-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NZ-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR 0NG-F S.=Surface mount -

25 [RF UNIT] RF ORDR NO. NO. DSCRIPTION L S.COIL LJR NZ-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LJR NG-F L S.COIL LQNA NJ0 L S.COIL LQNA NJ0 L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL MLF0D RK-T L S.COIL MLF0D RK-T L S.COIL MLF0D RK-T L S.COIL MLF0D RK-T L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL MLF0D RK-T L S.COIL MLF0D RK-T L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL NL 0T-0J L S.COIL MLF0A RK-T L S.COIL MLF0A RK-T L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LQNA R0J0 L S.COIL LJR 0NG-F L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LJR NG-F L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LQNA R0J0 L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL NL 0T-RJ L S.COIL LS- (KMH) L S.COIL NL 0T-0J L S.COIL LJR NG-F L S.COIL NL 0T-0J L S.COIL LQNA R0J0 L S.COIL LQNA R0J0 L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LJR NG-F L S.COIL LJR 0NG-F R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X ( kω) R 0000 S.THRMISTOR NTCCM0 H KC R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (0 kω) [OTH-] only R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) [RF UNIT] RF ORDR NO. NO. DSCRIPTION R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 00 X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.THRMISTOR NTCCM0 H 0KC R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) S.=Surface mount -

26 [RF UNIT] RF ORDR NO. NO. DSCRIPTION R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) [OTH], [OTH-] only R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N [RF UNIT] RF ORDR NO. NO. DSCRIPTION C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH00CQ C S.CRAMIC CUH00CCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH0JCQ C S.CRAMIC CUHRCQ C S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH0JCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CU0KQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.TANTALUM CST0JXR C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C00 J C 0K-T-A C S.TANTALUM CST0JY0R C S.CRAMIC C0 J A K-T-N C S.CRAMIC C00 J C 0K-T-A S.=Surface mount -

27 [RF UNIT] RF ORDR NO. NO. DSCRIPTION C S.CRAMIC CUH0JCQ C S.CRAMIC CUH00CCQ C S.CRAMIC CU0KQ C S.CRAMIC CUKQ C S.CRAMIC CUKQ C S.CRAMIC C00 J 0J 0K-T-N C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC C0 J A K-T-N C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.LCTROLYTIC FCD 0J 0R C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUHRCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C S.TANTALUM CST0JYR C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C S.CRAMIC CUHRCQ C S.CRAMIC CUHRCQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUHJCQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CUHRCQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUHJCQ C S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUHKQ [RF UNIT] RF ORDR NO. NO. DSCRIPTION C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CUHKQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CJ0AK C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUHJCQ C S.CRAMIC CUKQ C 0000 S.CRAMIC CUHJCQ C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CUKQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUKQ C 0000 S.CRAMIC C00 J H K-T-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUH00CQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CUH0JCQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CUH0JCQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0RCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CCQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CUH0JCQ C S.CRAMIC CUH0JCQ C S.CRAMIC CUH0JCQ C S.TANTALUM CSTYR C S.TANTALUM CST0JY0R C S.CRAMIC CUKQ C 0000 S.TANTALUM CSTYR C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC JMKJMG-T C S.CRAMIC JMKJMG-T S.=Surface mount -

28 [RF UNIT] RF ORDR NO. NO. DSCRIPTION C S.CRAMIC JMKJMG-T C S.TANTALUM CST0JY0R C 0000 S.CRAMIC CU0KQ C 0000 S.TANTALUM TMSV 0G 0MR C S.CRAMIC JMKJMG-T C 0000 S.TANTALUM TMSVA 0G MR C 0000 S.TANTALUM TMSVA 0G MR C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CUHJCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUHJCQ C S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH00CCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUHRCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C S.CRAMIC JMKJMG-T C S.CRAMIC JMKJMG-T C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUKQ C 0000 S.CRAMIC CUKQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUKQ C S.CRAMIC CUHRCQ C S.TANTALUM CST0JY0R C 0000 S.CRAMIC CUKQ C 0000 S.TANTALUM CST0JYR C S.CRAMIC C0 J C 0KT-N C S.TANTALUM TSVA V 0M-L C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUKQ C 0000 S.TANTALUM TMSVA A 0M-L C 0000 S.TANTALUM TMSV A M-R C S.CRAMIC CUHRCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUKQ C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ J 000 S.CONNCTOR AXN0C00P J 0000 CONNCTOR HSJ-0-0 J 0000 CONNCTOR HSJ-0-0 J 0000 CONNCTOR 0-0A-0KA J 000 S.CONNCTOR IMSA--0Y [OTH-] only J 000 CONNCTOR IMSA-0--0Z-T [OTH-] only J 000 CONNCTOR IMSA-0--0Z-T [OTH-] only S NCODR TP0N000-F- W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V W S.JUMPR RJG JPW V P 000 S.AD MMZ0Y 0T P 000 S.AD MMZ0Y 0T P 0000 PC 0D [RF- UNIT] RF ORDR NO. NO. DSCRIPTION Q S.FT SK (TL) Q S.FT SK (TL) Q S.FT SK (TL) Q S.FT SK (TL) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) D S.DIOD MAS0-(TX) D S.DIOD MAS0-(TX) L S.COIL LJND RJ 0.U L S.COIL LJND RJ 0.U L S.COIL LJND R0J U L S.COIL LJND RJ 0.U L S.COIL LJND RJ 0.U L S.COIL LJND NJF L S.COIL LQNA RJ0 L S.COIL LJND R0J U L S.COIL LQNA RJ0 L S.COIL LJND NJF L S.COIL LJND NJF L S.COIL LQNA R0J0 L S.COIL LJND R0J U L S.COIL LQNA NJ0 L S.COIL LJND NJF L S.COIL LJND NKF L S.COIL LQNA NJ0 L S.COIL LJND R0J U L S.COIL LQNA NJ0 L S.COIL LJND NKF R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 00 X (0 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 kω) S.=Surface mount -

29 [RF- UNIT] RF ORDR NO. NO. R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( Ω) C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CUH00CCQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ J 000 CONNCTOR IMSA-0--0Z-T J 000 CONNCTOR IMSA-0--0Z-T P 0000 PC D [LOGIC UNIT] RF NO. ORDR NO. DSCRIPTION DSCRIPTION IC 0000 S.IC AKC0AF- IC 0000 S.IC XCFP00MR IC S.IC S-0ALMP-DAN-T IC S.IC NJM0V-T IC S.IC XCAPR IC 0000 S.IC MML-GP RX-0 IC 0000 S.IC MFP 00C IC S.IC TA0F (TP) IC S.IC MAPFV-G-ND-R IC S.IC LVW IC S.IC M0-00FP IC S.IC TCS0FU (TR) Q 0000 S.TRANSISTOR XP0 (TX) Q 0000 S.TRANSISTOR UN (TX) Q S.TRANSISTOR SA-GR (TR) [LOGIC UNIT] RF ORDR NO. NO. DSCRIPTION Q 0000 S.TRANSISTOR XP0-(TX).A Q S.TRANSISTOR SA-GR (TR) Q 0000 S.TRANSISTOR UN (TX) Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR UN (TX) Q 0000 S.FT SJ-Y (TR) Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR DTC TL Q S.TRANSISTOR S T00 R Q 0000 S.TRANSISTOR SC0 T0 S Q S.TRANSISTOR XP0-(TX).A Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.FT SJ-Y (TR) Q 0000 S.TRANSISTOR SC0 T0 S Q 0000 S.TRANSISTOR XP0-(TX).A Q S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR XP0-(TX).A Q 0000 S.TRANSISTOR XP0 (TX) Q S.FT SK (TR) Q S.TRANSISTOR SA-GR (TR) Q S.TRANSISTOR UN (TX) Q 0000 S.TRANSISTOR DTA TL Q S.TRANSISTOR S0-S-TL Q S.TRANSISTOR UN (TX) Q S.FT HAT0R-L Q S.TRANSISTOR S T00 R Q S.TRANSISTOR SC TLQ Q S.FT SK (TL) Q S.TRANSISTOR UMYN TR Q S.FT SK (TL) Q S.TRANSISTOR SA-GR (TR) Q S.TRANSISTOR S0-S-TL Q 0000 S.TRANSISTOR SC0 T0 S Q S.TRANSISTOR SC0--TL Q S.TRANSISTOR SA T0 S Q S.TRANSISTOR SC0 T0 S Q S.TRANSISTOR UN (TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD SS (TR) D S.DIOD MA (TX) D 0000 S.DIOD SS (TR) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD SS (TR) D S.DIOD MAWK (TX) D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS (TX) D 0000 S.DIOD SS (TR) D S.DIOD SS (TR) D S.DIOD R00L-0 T- D S.DIOD MAS-(TX) D S.DIOD MA (TX) D S.DIOD S0-0C-T D S.DIOD MAS-(TX) D S.DIOD MA-(TX) D S.DIOD MA-(TX) D S.DIOD MA-(TX) D S.DIOD R00L-0 T- D S.DIOD R00L-0 T- D S.DIOD MAS0-(TX) D S.DIOD MAS-(TX) D S.VARICAP SV (TPH) D S.DIOD MAS-(TX) X S.XTAL CR- (. MHz) X S.XTAL CR- (. MHz) L S.COIL CD-0KC L S.COIL NL 0T-0J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J L S.COIL NL 0T-00J S.=Surface mount -

30 [LOGIC UNIT] RF ORDR NO. NO. DSCRIPTION L S.COIL NL 0T-0J L S.COIL NL 0T-00J R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( MΩ) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X ( MΩ) R S.RSISTOR RJGJ 0 X ( MΩ) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( MΩ) R S.RSISTOR RJGJ 0 X ( MΩ) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 00 X (0 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 00 X (0 Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) [LOGIC UNIT] RF ORDR NO. NO. DSCRIPTION R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR MCR0ZHJ. Ω (R) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR MCR0ZHJ. Ω (R) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.TRIMMR VM-XSX0 (0) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJRSJRU R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RR00R--D ( kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJRSJRU R S.TRIMMR VM-XSX0 (0) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RR00R--D ( kω) S.=Surface mount -

31 [LOGIC UNIT] RF ORDR NO. NO. DSCRIPTION R S.RSISTOR RR00R-0-D (00 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X ( kω) R 0000 S.THRMISTOR NTCCM0AGJ-T R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) C S.CRAMIC CUH0JCQ C S.CRAMIC C0 J C 0KT-N C 0000 S.TANTALUM CST0JYR C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH00CCQ C S.TANTALUM CST0JYR C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CJ0AK C S.CRAMIC C0 J C 0KT-N C S.CRAMIC CUHKQ C 0000 S.LCTROLYTIC CVCA0SP C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.TANTALLUM TMSV M-R C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 JF C 0Z-T-A C S.TANTALUM CST0JY0R C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CU0KQ C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.TANTALUM CST0JYR C 0000 S.TANTALUM CST0JYR C S.CRAMIC C0 J C 0KT-N C 0000 S.LCTROLYTIC CVAAP C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CJ0CK C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC C00 J H K-T-N C 0000 S.CRAMIC C00 J K-T-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C K-T-A C S.CRAMIC CUH0JCQ C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.LCTROLYTIC 0 SV M C 0000 S.TANTALUM TMSVA A 0M-L C S.CRAMIC C00 J K-T-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC CJ0CK C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 J C 0KT-N C 0000 S.TANTALUM CST0JYR C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.TANTALUM TMSVA 0G MR [LOGIC UNIT] RF ORDR NO. NO. C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C 0000 S.TANTALUM CSTYR C 0000 S.TANTALUM CST0JXR C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.TANTALUM CST0JYR C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.LCTOR CVAA0WR C S.LCTROLYTIC FCD 0R C S.CRAMIC C0 J H K-T-A C S.CRAMIC CU0KQ C S.LCTROLYTIC FCD 0J 0R C S.LCTROLYTIC 0 SV M C S.LCTROLYTIC 0 SV 0 M C S.LCTROLYTIC SV M C S.LCTROLYTIC SV M C S.LCTROLYTIC 0 SV M C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H K-T-A C S.LCTROLYTIC FCD 0J 0R C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CUH00CCQ C S.CRAMIC CUH0JCQ C S.CRAMIC CUHJCQ C S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J H K-T-A C S.TANTALUM CST0JYR C S.TANTALUM CSTYR C S.CRAMIC C00 J A K-T-N C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC CUKQ C 0000 S.CRAMIC C00 J A K-T-N C 0000 S.LCTROLYTIC CVCA00SR C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C0 J C K-T-N C 0000 S.CRAMIC C0 J A K-T-N C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC C00 J A K-T-N C 0000 S.CRAMIC C00 J A K-T-N C 0000 S.CRAMIC C00 J A K-T-N C S.CRAMIC C00 J C 0K-T-A C 0000 S.LCTROLYTIC CVCA00SR C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.LCTROLYTIC CVCA00SR C S.CRAMIC C00 J C 0K-T-A C 0000 S.LCTROLYTIC CVCA00SR C S.CRAMIC C0 J C 0KT-N C 0000 S.LCTROLYTIC CVARSR C 0000 S.TRIMMR CTZ-0C-W C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC C00 J K-T-N C S.CRAMIC JMKJMG-T C S.CRAMIC JMKJMG-T C S.CRAMIC C00 J C 0K-T-A C 0000 S.LCTROLYTIC CVCA00SR C S.CRAMIC CUH00CQ C S.CRAMIC C0 JF C 0Z-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC JMKJMG-T C 0000 S.CRAMIC CUH0JCQ J J DSCRIPTION 000 S.CONNCTOR AXN0C0P 0000 S.CONNCTOR M0-ASRS-TF S.=Surface mount -

32 [LOGIC UNIT] RF ORDR NO. NO. J0 000 S.CONNCTOR DS LCD A000 DS S.LD CL-00YG-C-TS DS S.LD CL-00YG-C-TS DS LCD ALP0CXX0 DS CFL ATKL00Y AIC S S.SWITCH JPM0-0R T T TRANSFORMR TO TRANSFORMR TO- W S.JUMPR MCR0ZHJ JPW (000) W S.JUMPR MCR0ZHJ JPW (000) W S.JUMPR RJG JPW V WS 000.OTHR RX0 J LAD ST () /LO P 000 LCD CONTACT SRCN-0-SP-N-W P PC D [VCO UNIT] RF NO. ORDR NO. DSCRIPTION DSCRIPTION IC 0000 S.IC µpd0gs- (DS) IC 0000 S.IC µpct- Q 0000 S.TRANSISTOR DTC TL Q 0000 S.TRANSISTOR SC00-T Q 0000 S.TRANSISTOR SC00-T Q 0000 S.TRANSISTOR SCC-TL Q S.FT SK0-Y (TR) Q S.TRANSISTOR SC-GR (TR) Q 0000 S.TRANSISTOR SC TLS Q 0000 S.TRANSISTOR UPA0T-T Q 0000 S.TRANSISTOR SCC-TL Q 0000 S.TRANSISTOR SC00-T Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR SC-T Q 0000 S.TRANSISTOR SC-T Q S.FT SK0-Y (TR) Q S.TRANSISTOR SC-GR (TR) D S.VARICAP HVU0TRF D 0000 S.DIOD MAS-(TX) D 0000 S.DIOD MAS0-(TX) D S.VARICAP SV (TPH) D S.DIOD MAS-(TX) D S.VARICAP SV (TPH) D S.VARICAP SV0 (TPL) [VCO UNIT] RF ORDR NO. NO. DSCRIPTION L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LJR NZ-F R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJG X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJG X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (0 Ω) X S.XTAL CR- (. MHz) L S.COIL TR N L 000 S.COIL AC0M-00-T L S.COIL TL N L S.COIL TL N L S.COIL LJR NG-F L S.COIL LJR R0G-F L S.COIL LJR NG-F L S.COIL LJR R0G-F L S.COIL LJR NZ-F L S.COIL TL N L S.COIL LJR NZ-F L S.COIL LJR NZ-F L S.COIL LJR NZ-F C S.TANTALUM TSVA V 0M-L C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C S.TANTALUM CST0JY0R C S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.TANTALUM CSTVYR C 0000 S.TANTALUM TMSVA 0M-L C 0000 S.TANTALUM CSTVYR C S.CRAMIC C00 J C 0K-T-A C S.TANTALUM TMSVA 0M-L S.=Surface mount -

33 [VCO UNIT] RF ORDR NO. NO. DSCRIPTION C 0000 S.TANTALUM TMSVA 0M-L C S.CRAMIC C0 J C 0KT-N C 0000 S.CRAMIC C0 J A K-T-N C 0000 S.CRAMIC C0 J A K-T-N C 0000 S.CRAMIC CU0KQ C S.TANTALUM TSVA V 0M-L C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.TANTALUM CST0JY0R C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CCQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH00CCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C 0000 S.CRAMIC CUKQ C 0000 S.TANTALUM CST0JXR C 0000 S.CRAMIC CUKQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CCQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH00CCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC CUKQ C 0000 S.CRAMIC CUH00CQ C S.CRAMIC CUH00CCQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC CUHRCQ C S.CRAMIC CUHRCQ C 0000 S.CRAMIC CUH00CQ C S.CRAMIC CUHRCQ C S.CRAMIC CUH00CQ C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUKQ C S.CRAMIC CUH00CQ C 0000 S.TANTALUM TMSVA 0M-L J 000 CONNCTOR IMSA-0--0Z-T J 000 CONNCTOR IMSA-0--0Z-T P 0000 PC C P S.AD MMZ0Y 0T P0 000 S.AD MMZ0Y 0T [FM-TV UNIT] [OTH-] only RF ORDR NO. NO. DSCRIPTION IC 0000 S.IC µpcg-t IC 0000 S.IC ANSS- IC 0000 S.IC µpcgv- IC S.IC NJMM-T Q Q Q Q Q 0000 S.TRANSISTOR SC0 T0 S 0000 S.TRANSISTOR UN (TX) S.TRANSISTOR SC-O (TR) S.TRANSISTOR SC-O (TR) 0000 S.TRANSISTOR SC0 T0 S D 0000 S.DIOD MAS0-(TX) D S.VARICAP MA-(TX) D 0000 S.DIOD MAS-(TX) D S.VARICAP MA-(TX) D 0000 S.DIOD MAS0-(TX) D S.VARICAP SV (TPH) D S.VARICAP SV (TPH) FI S.LC LFSCN0 L S.COIL LJR NZ-F L S.COIL TR.N L S.COIL LJR R0G-F L S.COIL LJFC R0K-F L S.COIL LJFC R0K-F L S.COIL LJFC 0K-F 00U L S.COIL NL 0T-RJ R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 00 X (0 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJG X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X ( Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X ( kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ 0 X (00 kω) R S.RSISTOR RJGJ 0 X (00 Ω) R S.RSISTOR RJGJ X (0 kω) R S.RSISTOR RJGJ 0 X ( kω) R S.RSISTOR RJGJ X (0 Ω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ X (. kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 0 X (0 kω) R S.RSISTOR RJGJ 00 X (0 Ω) S.=Surface mount - 0

34 [FM-TV UNIT] [OTH-] only RF ORDR NO. NO. DSCRIPTION C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH0JCQ C 0000 S.CRAMIC CU0KQ C S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C S.CRAMIC CUH00CQ C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC CU0KQ C S.CRAMIC CU0KQ C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.CRAMIC CUHJCQ C 0000 S.TANTALUM TMSVA 0G M-L C 0000 S.TANTALUM TMSVA 0G M-L C 0000 S.TANTALUM TMSV 0J ML C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.TANTALUM CST0JYR C S.TANTALUM CST0JYR C 0000 S.CRAMIC CU0KQ C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC CU0KQ C S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC CUH0JCQ C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CUHJCQ C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C 0000 S.CRAMIC C00 J 0J 0K-T-N C S.CRAMIC C0 JF C 0Z-T-A C 0000 S.TANTALUM CST0JYR C 0000 S.TANTALUM TMSVA 0G M-L C 0000 S.CRAMIC CUH0JCQ C S.CRAMIC C00 J C 0K-T-A C S.CRAMIC CJ0CK J 000 S.CONNCTOR IMSA-S-0Y0 P 0000 PC D S.=Surface mount -

35 SCTION MCHANICAL PARTS AND DISASSMLY [CHASSIS PARTS] RF. NO. ODR NO. DSCRIPTION QTY. J 0000 Connector NC-R SP Speaker K0NA00-A MP front panel MP rear panel MP ATT. Cover MP Lock plate MP Jack cap MP SP cap MP Key MP FUNC. utton MP A-terminal MP terminal MP C-terminal MP C-terminal MP D-terminal MP FUNC. utton plate MP shaft MP Nut FX- MP 0000 Screw T M x NI-ZU MP Screw T M x NI-ZU MP Screw M x ZK MP 0000 Screw T M x ZK MP 0000 Screw T M x ZK MP 000 Knob N-- MP L-R Plate MP A-sub shassis MP SP sheet MP arth sheet [RF PARTS] RF. NO. ODR NO. DSCRIPTION QTY. MP RF Shield MP 000 Insulating plate MP 00 0 A-RF shield- [VCO PARTS] RF. NO. ODR NO. DSCRIPTION QTY. MP VCO case [ACCSSORIS] RF. NO. ODR NO. DSCRIPTION QTY. P 0000 Antena FA-0R P attery P-0 ACC [OTH-], [OTH-] P 0000 Charger C-D [OTH-], [OTH-] MP 000 Clip 0 elt clip MP Spacer P P MP MP P [LOGIC PARTS] RF. NO. ODR NO. DSCRIPTION QTY. DS LCD A000 DS LCD ALP0CXX0 DS ATKL00Y P 000 LCD Contact SRCN-0-SP-N-W MP M-LCD Holder MP Reflector MP S-LCD Holder MP Terminal MP M-LCD Plate MP ATT. Spring MP 0000 Screw T M. x NI-ZU MP Logic shield MP M-LCD shield MP A-DC-DC shield MP DC-DC shield MP INV. TR. shield MP 00 0 F-terminal- MP A-Logic sheet MP Logic sheet MP C-Logic sheet MP 0000 Sponge Screw abbreviations A, 0, T: Self-tapping PH: Pan head FH: Flat head ih: ind head SUS: Stainless NI: Nickel ZK: lack -

36 MP (L) MP (L) MP (L) MP (L) MP (L) MP (L) MP (L) MP (L) MP (L) MP (L) DS (L) MP0 (L) MP (L) MP0 (C) MP (L) DS (L) MP (L) MP (C) MP (L) DS (L) MP (C) MP (L) MP (L) MP (L) MP (L) MP (L) J (C) LOGIC unit MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) P (L) J (C) MP (RF) MP (C) SP (C) MP (C) RF- unit MP (RF) MP (C) MP (C) MP (RF) MP (C) MP (C) MP (C) MP (V) RF unit FM-TV unit VCO unit MP (C) MP (C) MP (C) MP (C) MP0 (C) MP (C) UNIT abbreviation (C): CHASSIS PARTS, (L): LOGIC UNIT, (RF): RF UNIT (V): VCO UNIT MP (C) -

37 SCTION SMI-CONDUCTOR INFORMATION TRANSISTOR AND FT S SA GR (Symbol: AG) C SA S (Symbol: FS) C SA GR (Symbol: SG) C S R (Symbol: AR) C S Q (Symbol: ) C C DIODS SS (Symbol: N) SV (Symbol: ) SV (Symbol: T) SV (Symbol: TJ) A pink C SV0 (Symbol: TV) S0 S (Symbol: 0) SC0 S (Symbol: S) SC GR (Symbol: DG) SC O (Symbol: QO) SC0 (Symbol: LY) SV0 (Symbol: TX) DWA00 (Symbol: W) HVU0 (Symbol: ) MAWK (Symbol: MU) MA (Symbol: MP) SC Q (Symbol: Q) C C SC S (Symbol: S) C SC00 (Symbol: ) C SC (Symbol: ) C SC C (Symbol: C) C MAS0 (Symbol: S) A A MAS (Symbol: A) C C MA (Symbol: C) A A MAS (Symbol: MN) C MA (Symbol: MZ) C C C C C SJ Y (Symbol: VX) S D SK (Symbol: UF) G SJ (Symbol: L) G S DTA (Symbol: ) G D D S SK0 Y (Symbol: XY) S D DTAJ (Symbol: ) G SK (Symbol: K) C DTA (Symbol: ) SK (Symbol: K) G S DTC (Symbol: ) D G D S MA (Symbol: A) A C MA (Symbol: ) R00L-0 (Symbol: ) S0-0C (Symbol: J) S0-0P (Symbol: SC) D G C C C C S G DTC (Symbol: ) FH0 (Symbol: 0) HAT0R (Symbol: 0) UMYN (Symbol: Y) UN (Symbol: C) C C C S S S G D D D D C C C UN (Symbol: A) UPA0T (Symbol: T) UPA0T (Symbol: T) XP (Symbol: Q) XP0 (Symbol: AC) C C C C C XP (Symbol: L) XP0 A (Symbol: R) XP (Symbol: T) XP0 (Symbol: C) XP0 A (Symbol: N) C C C C C C C C C C -

38 SCTION OARD LAYOUTS - - VCO AND RF- UNITS -- TOP VIW VCO UNIT RF- UNIT C R R C C CONLO LV CONV RV ndlo PDA PCK PST +V LV stlo SHIFT VP FST RF R0 C0 C R C L Q L0 Q C C L R R0 C R C D C R R0 C C R R R C0 C R C R C0 C R0 C R R R R D0 D0 C0 C Q Q L Q L L C D L Q Q L Q L IC C L L Q D C C C C0 C R C C R R0 C C C R C0 R R R0 R C0 R0 C D R C R C R C C R C C R R C C C C0 C0 R0 C0 C0 C R0 C0 C0 R0 C0 R0 C0 R0 R0 R0 C0 R0 C0 R0 R0 R0 C0 C0 C0 R0 R0 C0 C0 D0 D0 D0 D0 D0 D0 C0 C0 D0 D0 C L0 L0 L0 L0 L0 L0 Q0 L0 L0 L0 R L0 Q0 C0 R0 C0 R0 R C0 R0 C0 R0 RFI AGC 0M 0M RFO M M R0

39 -- OTTOM VIW VCO UNIT X C C C R R C R Q Q R C C0 C P0 P00 C C00 R R C C R R R R C Q C J R R C IC D R R R C C R C C R R C R R0 Q0 R C C Q C C R J C R L L C C Q C C C C C C R0 L R C C C C L L RF FST VP SHIFT stlo LV +V PST PCK PDA ndlo RV CONV LV CONLO J to RF unit J to RF unit RF- UNIT R0 C R0 D0 D0 J C L0 L0 L0 C0 C0 R0 D0 C0 C0 R0 R0 C0 L0 C0 D0 C0 R0 C0 C0 C0 L0 L0 R0 C0 Q0 Q0 R0 R0 C0 C0 R0 C0 R0 R0 C0 C0 R0 R0 C0 D0 R0 R0 D0 L0 L0 L0 L0 C0 C0 C0 D0 R0 R0 D0 J J to RF unit 0M 0M RFO M M J to RF unit RFI AGC -

40 - FM-TV UNIT TOP VIW VIDO AFOUT IC C C0 C C R R R R C R C R R C L L R R R R C R R R0 R C R C C0 C CP SIFOUT IFIN R C D -

41 - OTTOM VIW C R0 D C R C C C R C R C R R R R C0 R C R C R R C R R R R C R R C C R C C D C D C C R C C C C C0 C C R0 R R R R C C J IC L C D D Q IC FI Q L C IC Q C D L L D L Q R R C0 R C Q R R AFIM FMTV J to RF unit VIDO AFOUT SIFOUT IFIN

42 - - LOGIC UNIT TOP VIW R R R R R R R R R R R R D0 R R C R0 R0 C0 R R C R C R C C C C R R0 R R R C C0 C0 R0 R R C C C C R R R R R R R R R R0 R0 R0 R0 R0 C0 C0 C0 C C00 C0 R0 R0 R0 R0 R R0 R R R R R R0 R0 R R C R0 C C C R R C C R0 R C C0 R R C0 C R0 R R R R R C C0 D R R R R R R C C C Q L0 C C0 C C Q C C C C Q C C Q Q Q0 Q0 C Q Q C C L0 L0 L00 CP D0 L0 D0 D0 D0 D0 D00 Q C C IC IC L0 L0 C Q0 IC0 IC0 J0 R C C0 Q0 IC0 L0 D IC0 C0 C0 D C C C D C C R R C D0 C D C C0 C IC0 C R R0 C C0 C0 C D C D Q C Q0 Q R Q C0 R0 R R0 D0 Q Q0 C0 J R R R C C0 IC Q0 R R D0 C0 R R R0 Q0 D0 R0 R0 R0 C0 D0 Q0 C0 D0 R Q0 Q0 R R D0 DS DS NC COM CKV CKV V STV XSTV CSV N XN PCD R G VSS PCG PCG CSH XSTH STH CKH CKH V NC J0 To TFT LCD (DS) INTSP J To speaker

43 - OTTOM VIW D C R R R R R R R R R C C0 C C R R R0 R R D D R C R D R0 R0 R0 R0 R C C R0 D D0 D D D R R C R R0 R R0 R C R C IC Q Q C0 C C Q Q0 Q C0 Q0 Q C0 Q R R R0 R R R00 X IC T Q0 Q C R0 IC Q C C0 J Q C R Q C C C Q D C C C C0 C0 C0 C C0 C0 Q0 C C0 X0 S C L C R C R0 Q0 D0 C0 C C0 T C0 R0 R W C C W W C C C C C C R R R R C Q C C C IC Q0 C C C C C C C C C C R R R R0 R R C0 R0 R C C C R R R C R C R R R0 D R R0 C R0 R R R R HV VH NC RSSI FMAF CONVC SDT AMAF SPG PGST DLOFF MC 0MC 0MC FST VP VIDO J to RF unit J DCK DUD RV RXC TVIF LVC PST PCK PDA +V XPST HFC CLON ATT INTSP AFO WFM AM 0 0

44 - - RF UNIT TOP VIW C0 R C0 C Q Q D D D C C0 C C L L L L L C D0 R R R R R0 R R C C C C C C0 C C C C C C R C C R0 R R R R C C C C C C C C C C0 C C C C D L C Q L L L0 L0 L L0 0M 0M RFO M M RFI AGC L L0 L0 L L L Q W W Q0 Q Q Q L0 L0 L L Q L L L0 IC Q Q Q Q L0 W Q Q Q IC0 C C Q Q S J CP CP J J J CP FI FI J 0 FI0 J J L FI0 IC FI0 FI0 L0 C C C R R0 R0 R R R R C C0 C0 C C0 C0 C C R R C C C R D0 C C C C C C C C R R C C Q C C R R R0 R D R0 R0 C0 C0 R R R R R R0 R R R R0 D D D D0 D0 D0 D D D D R C C C C C C C C0 C0 C C C0 C C C C C C C C C0 D C C0 C C0 C C0 C0 R0 C0 C C0 C0 C0 C C C C C0 D C C C C R R R R0 R0 R R R0 R0 R0 R R R R R R R R0 R R0 R0 R00 R R C R R C C R D D0 D D0 D D0 D0 VIDO VP FST 0MC 0MC MC DLOFF PGST SPG AMAF SDT CONVC FMAF RSSI NC HV HV J to LOGIC unit J AM WFM AFO INTSP ATT CLON HFC XPST +V PDA PCK PST LVC TVIF RXC RV DUD DCK 0 0 VIDO AFOUT J FMTV J to FM-TV unit J to FM-TV unit SIFOUT IFIN J to FM-TV unit AFIN C RF RST VP SHIFT stlo LV +V RST PCK PDA ndlo RV CONV LV CONLO

45 - OTTOM VIW R R R R C C R R C0 R R R0 R C C C C0 C R00 R0 R0 C0 C0 R R R C0 R0 R R R0 R R R R C0 R R C C C C0 C0 C C C0 C0 C0 R R R C0 C R R R C R R C R0 R R0 R0 R0 R0 R R R R R D P P C00 Q0 Q C D D Q0 Q0 Q0 C0 R C C C D D R R R C R R R0 R0 R0 R0 C C0 C0 R R R C C C C R R R R C C C C C R R C C C C C C R R C0 D D D R0 R R R R R R R R C R R R C R R C C C0 C C C C C C C C C0 C R R0 C0 C C R C C C C L L IC IC L0 L C0 C0 L L C L L L C Q Q R C C R R C R C0 R0 R R R R R C0 R C C C0 C C C C C C C00 R L L0 L L L C C Q Q IC L L L Q Q Q0 Q C Q C C L L Q Q L L L D L L C L C L0 L L L L L C C0 C C C C C C R R C C C C C C C C C C C L L C L L L0 L0 L0 L0 C0 C IC W C IC0 C C C Q C C L0 Q Q Q FI L Q Q C0 C0 C0 C C C C0 C C C C R C C C C C C0 R R0 C C R D D L Q L C D D D D D0 D D0 C C C C R R R0 C C00 C C C C C C C C C C C C C C0 C R C C C R0 R0 R C R0 R C C C C C R0 R R R C R L C C C C C C C R R R D D D D D D D D D D D D D D D C C D0 C0 C0 R0 R0 R0 RF FST VP SHIFT stlo LV +V PST PCK PDA ndlo RV CONV LV CONLO 0M 0M RFO M M RFI AGC

46 SCTION 0 C- OPTIONAL DSKTOP CHARGR INFORMATION 0- PARTS LIST [TANSHI OARD] RF NO. ODR NO. DSCRIPTION D DIOD SS R RSISTOR RGL R R THRMISTOR RT-DFHL 0S C CRAMIC DSXSJ YF Z RL 0000 RLAY A-W-K J 0000 CONNCTOR S0-H-S P 000 PC P TU IRRAX 0. (d) L=0 mm [MAIN UNIT] RF NO. ODR NO. DSCRIPTION IC S.IC MMV IC S.IC NJM0M-T Q S.TRANSISTOR S TL Q Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR UN (TX) Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR DTA TL Q 0000 S.TRANSISTOR DTA TL Q S.FT SJ (TR) Q 0000 S.TRANSISTOR DTC TL D S.DIOD S0-0P-TD D S.DIOD S0-0P-TD D 0000 S.DIOD MAS-(TX) D S.DIOD MAWK (TX) D S.DIOD DWA00-T D S.DIOD S0-0P-TD [MAIN UNIT] RF ODR NO. NO. DSCRIPTION C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J H 0K-T-A C S.TANTALUM TSVA V M-L C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C 0000 S.LCTROLYTICCVCA0SP C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 J H 0K-T-A C 0000 S.TANTALUM CSTCYR J CONNCTOR HC F FUS FG A F HOLDR S-N0 F HOLDR S-N0 DS LD VRPGS- WS 0000 CAL X0 P0*J0MA P 000 PC [CHASSIS PARTS] RF. NO. ODR NO. DSCRIPTION QTY. MP Holder MP Cover MP 0000 Screw T M x ZK MP 000 Leg cushion(a) MP Terminal holder MP Terminal MP 000 Case(D) 0- DISASSMLY INFORMATION MP (C) MP (C) MP (C) MP (C) MAIN unit L 0000 COIL HK-0S00-00 MP (C) MP (C) R S.RSISTOR RJGYJ V (0 ) R S.RSISTOR RJGYJ V (0 ) R S.RSISTOR RJGYJ 0 V (0 k ) R S.RSISTOR RJGYJ V (0 k ) R S.RSISTOR RJGYJ V (0 k ) R S.RSISTOR RR0P--D ( k ) R S.RSISTOR RR0P--D (. k ) R S.RSISTOR RJGYJ 0 V (00 k ) R S.RSISTOR RJGYJ V (0 k ) R S.RSISTOR RJGYJ V ( k ) R S.RSISTOR RJGYJ V (0 ) R S.RSISTOR RJGYJ 0 V ( k ) R S.RSISTOR RJWRSJRU (0. ) R S.RSISTOR RJGYJ V (0 ) R S.RSISTOR RR0R--D ( k ) R S.RSISTOR RJGYJ 00 V (0 ) MP (C) TANSHI board MP (C) MP (C) MP (C) MP (C) MP (C) C S.CRAMIC C0 JF C Z-T-A C 0000 LCTROLYTIC MV 0 HC C S.CRAMIC C0 J H K-T-A C 0000 LCTROLYTIC MV 0 HC C S.CRAMIC C0 J 0K-T-A C S.CRAMIC C0 J C 0KT-N C S.CRAMIC C0 JF C Z-T-A C 0000 LCTROLYTIC 0 SA 00M C S.CRAMIC C0 JF C Z-T-A C S.CRAMIC C0 J H 0K-T-A C 0000 LCTROLYTIC MV 0 HC C S.CRAMIC C0 J H 0K-T-A MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) MP (C) S.=Surface mount 0 -

47 0- VOLTAG DIAGRAM MAIN OARD F S-N0 F FG A F S-N0 J DC INPUT -V C 0. D S0-0P C 00 C 0. C 0 R k R 0. R 0 k C 0 C 0. Q SJ R k R 0 CD SI V+ INVIN IC NJM0M R 0. V C0 CS S CT C. V D S0-0P L HK-0S00-00 C 0 P CHG ON C 0 Q DTA G. ms CHG OFF. V R 0 D MAS DS VRPGS- R 0 k R R 0 k CP.0 Vpp 0. Vpp Q UN C 0.0 R 0 C Q R DTA 0 R 0 k Q SQ D S0-P C 0. IC MMV C 0 OSC F OSC OUT LD R LD G VOUT ADJ VCC CNT CF CS AT AT CHGSW RST TP TP VRF ADJ ADJ ADJ ADJ THD 0 R k C 0. R 00 k R. k C U C. CHGOUT DT ATT DT ATT+ V CONT THD C 0. C C 0. C C 0. C C 0. C 0. C C0 0. D MAWK Q DTA CHG ON:. V CHG OFF: 0 V C 0. C0 R k C C 0. Q DTA Q DTC D DWA00 C C 0. C WS J RL ON: 0 V RL OFF:. V CHGOUT DT ATT DT AT+ V CONT THD R 0. TANSHI OARD RL A-W-K SATT+ SATT DT CP CP CP R RT-DFHL0S D SS C 0.0 ATT+ ATT CP CP DT CP 0 -

48 0- OARD LAYOUTS 0-- MAIN OARD DS J to TANSHI board J CHGOUT NC DT ATT DT ATT+ V CONT THD C C C C D C C C C C C C C0 C C C J C C D Q D Q Q Q Q R C R R R R C C0 R C C F C IC R Q Q R R R D CP R C C C R R R IC R C R FUS A C Q C0 D F L C C C C D C J 0 -

49 0-- TANSHI OARD C D R J to MAIN unit J THD CONT V ATT+ DT ATT DT NC CHGOUT RL R J 0 -

50 SCTION LOCK DIAGRAM D: SV0 D: SV0 RF UNIT D: SV0 D0: SV0 D: SV0 LOGIC UNIT +V Q0: S R Q0: SC Q IC0: XAPR D: MA D: SS D: SS D: SS D: SS D0: SS DC-DC RG DC-DC X LIM D: SV LPF LPF D: SV0 LPF VCC +V CONT D0: SV0 D: MAS0 D: MAS0 D: MAS0 ATT D: SV0 D: SV0 HPF 0.. MHz. MHz D: MAS0 D: MAS0 0 0 MHz 0 00 MHz D0: MAS MHz IC: µpct RF AMP RF AMP RF AMP RF AMP RF AMP RFI RF AMP D: MAS0 D: SV Q: SK Q: SA GR Q: XP0 A POWRC Q: SA GR Q: XP0 A RV CONT LPF 0 MHz +SC HPF D0: SV 0 MHz 00 0 MHz RV RIPPL VP FIL Q: SC0 S D: MAS0 Q: UPA0T Q0: SK + RG D: SV0 Q: SC RF AMP Q: SC C Q: SC IC: XCFP00MR IC: µpct D0: SV0 D: MAS0 D0: MAS0 D0: SV D0: MAS0 D0: SV D0: MAS0 D0: SV D0: MAS0 D0: SV D: SV D: SV D0: SV D: SV RST IC: S-0ALMP ATV D: MAS0 D: SV0 D0: SV0 D: SV0 D: SV0 D: SV0 P-0 RST ATT ATT CHCK 0 MHz RF AMP Q0: SK 0 MHz RF AMP Q0: SK 0 MHz RF AMP Q0: SK MHz RF AMP Q0: SK KY IC: µpct RF- UNIT D0: MAS0 D0: SV D0: MAS0 D0: SV D0: MAS0 D0: SV D0: MAS0 D0: SV ATT D0: MAS0 D: MAS0 stlo FI: LFSCN0 IC: MML-GP IF AMP CONLO RFO FI0: LFSCN00 FM-TV UNIT IC: µpc CPU CLON CLSW X: CR-. MHz Q: UN IC0: µpct Q: SC LO AMP D: MAS0 D: MAS0 D: MAS0 SIF OUT IC: ANS FM-TV DT D: MAS0 D: MAS0 D0: MAS0 D: MAS0 AMP UFF Q: SC RF AMP Q: SC O IC: TFN IF AMP Q: SC0 S PROM INITIAL MATRIX x x PLL IC FI: FL- D: MAS0 D: MAS0 D: MAS0 D: MAS0 FI: SFCV.MAS FI0: TSD Q: SC0 IC0: MFP IC: AKC0A Q0: DTA D: MAS D: MAS D: MAS D: MAS D0: MAS D: MAS D: MAS D: MAS0 IF IC IF IC LOOP FIL Q: SC RF AMP D: MAS0 IF AMP AMP ndlo D: MAS0 Q: SC AMP UFF CONV VCO (, 0 or MHz) RD LO (. MHz or. MHz) FI0: SFSCC.MC Q: SC O D: SV D: SV D: SV0 Q: SC00 LV Q: SC FI: D: CFW0 MAWK Q: SC O A/V OUT FI0: TPSCC.M IC: UPCGV LIGHT IC: TAFN J IF IC Q: SC0 S VIDO SLCT LIGHT Q: SC0 S SWITCH LIGHT LD DS: CL-00YG DS: CL-00YG x IC: NJMM RF UFF UFF LV D: MAWK Q: SC0 S Q: SC0 S Q: XP0 A Q: XP0 A AM DT D: MAWK VIDO RF AMP Q: SC0 S Q: SC C AMP AMP LOOP FIL Q: UPA0T D0: SV Q: SC C AMAF FMAF UFF RIPPL FIL LPF Q0: SA S Q0: SC0 S st VCO Q0: SK0 Y Q: SC GR Q: SC S D0: MAS D: MAWK Q: DTA AMFM SW DFIL OSD RV nd VCO (.0 MHz or. MHz) * IC: µpct UFF IC: µpd0gs PLL IC RF AMP VXO D: HVU0 IC: TA0F Q: SA GR Q0: XP0 A WFIL X0: CR- (NTSC). MHz (PAL). MHz IC0: M0 D: MAS WN SW D: SV Q: SC00 Q: SC00 Q: SJ Y TFT DRIVR IC0: LVW TFT ACK LIGHT DRIVR IC0: TCS0FU Q0: SK Q0: UMYN Q0: S0 S Q: SC0 S D0: MAS T: TO- LOOP FIL Q: S R Q: XP0 A AFRG UFF Q: SC0 S WSW SHIFT Q: SK0 Y Q: SC GR RF AMP X: CR- Q: SC0 S IC: NJM0V Q: DTA TFT LCD TFT LIGHT SHIFT Q: DTC D: MAS0 PDAUL, PCK_IS, PST VCO UNIT IC: MFP TON FIL VR IC MUT DS: ALP0CXX0 DS: ATKL00Y.V V V IC0: MAPFV Q0: SK T: TO- Q: SJ Y V DC-DC AFON VRC AM AMUT WFM TCON RTON * : ST VCO FRQUNCY LISTS Displayed frequency (MHz) st VCO frequency (MHz) Displayed frequency (MHz) st VCO frequency (MHz) VCC -

51 SCTION VOLTAG DIAGRAM - VCO UNIT C P D SV0 R0 k C 0.0 R. k L nh R. k CP C 0 P C R L 0. µh C 0 P C P Q SC00 C 0 P C P C0. P 0. V C. V. V R 0 k R 0 R 00 C 0 P L. nh C P Q SC R 0 k R 00. V 0. V Q SC L0. nh. V C P C P L. nh C. P C P L. nh C. P L. nh C P C. P C 0 P L. nh C. P C P R0 0 k 0. V C P R 00 L. nh. V C P Q SC R CONV CONLO LV LV SHIFT +V PST PCK PDA R. k C P R 00 Q DTC C P C 0. L AC0M-00 C00 P R 00 C P C C C0 R 0 k R 00 R 00 k R k R k C 0. L nh D MAS0 C L nh C C 0. MMZ U P00 MMZ U P0 0 IN VCC X XI XO CP FI FO IC µpd0gs VCC IN N CLK DATA T LOK CP FI FO 0 R 0 C 0.0 D MAS C R0. k R 0 R 0 C 0.0 D SV R. k R0. k R. k C 0.0 Q SK0 Y C 0.0 Q0 SK0 Y R. k C. P 0. V R 0 C. P C C R0. k R 0 k C R. k R. k C R. k Q SC00 C0.0 V R 0 C Q SC GR C Q SC GR. V R k C C R 0 R 0 Q SC00 C R CP R0 k. V. V C 0. R0 00 k C L nh R R 0.0 V C R 00 R 00 k C P D HVU0 C C0 0.0 C 0 R 00 k Q SC C 0 P 0. V X CR- R C0 IC UPCT C C P C R FST VP RV C R stlo RF FST VP SHIFT LV +V PST PCK PDA ndlo RV CONV LV CONLO J J To RF unit To RF unit R. V R0 k ndlo RV C0 CP R. k C 0.. V R 0 D0 MAS C Q SC S C 0 L nh D0 SV C0 P C P R0. k. V. V 0. V C R. k C Q UPA0T 0. V R R 0.0 V 0. V R 0 C P. V R 00 k C.0 V L 00 µh C L P nh C0 P Q SC C C C P C P -

52 - RF- UNIT RFI RFI D0 MAS0 RFI. V C0 0.0 L0 0. µh C0 0.0 R0 0 k.0 V Q0 SK. V L0 µh C0 0.0 C0 0.0 L0 0. µh C 0.0 D0 MAS0 AGC RFO R0. k D0 MAS0 RFI R0. k D0 MAS0 RFI R0. k D0 MAS0 RFI 0 MHz. V C0 0 MHz. V C0 0 MHz. V C0 L0 0. µh D0 SV L0 0. µh L0 nh D0 SV L0 0. µh L0 nh D0 SV L0 nh C0 0.0 C0 C0 R0 k R0 00 k C0 R0 00 k C0 0 P R0 k R0 00 k C0 R0 k C0 0.0 R0 k R0 0 k.0 V C0 R0 0 k.0 V R0 k C0 R0 k R0 0 k.0 V C0 0.0 Q0 SK Q0 SK Q0 SK R0 00 C0 R0 00 C0 R V. V 0. V. V C0 0.0 C0 0.0 L0 µh C0 C0 R 0 R V. V C0 C0 R L0 µh R0 R0 00 k 00 C0 R0 00 k R0 00 L0 µh C0 P R0 R0 00 k 00 C0 C0 C0 C0 D0 SV C0 0.0 D0 SV C0 D0 SV C0 L0 0. µh L0 nh L0 nh L0 0. µh L0 nh L0 nh C C C R0. k R0. k R0. k D0 MAS0 D0 MAS0 D0 MAS0 RFO RFO RFO AGC AGC AGC 0M M 0M R0. k MHz L0 nh D0 SV C0 R0 k R0 00 k C0 R0 k C0 R V C0 C0 R0 00 k R0 00 D0 SV C0 L0 nh R0. k M To RF unit J RFI AGC To RF unit J 0M 0M RFO M M -

53 - FM-TV UNIT R. k C D MAS0 FI LFSCN0 C C0 C IF MONI IC µpc R 0 CP R C C 0. C 00 P R C R. k R 0 k C 0. 0 IC ANS 0 R 0 R0 0 R. k R 00 R 00 D MA C P D MA R 0 k R 0 L 0. µh C P R. k.0 V C. V C 0. C0 C C 0. L. nh L. nh R R 00 To RF unit J To RF unit J IFIN SIFOUT VIDO AFOUT R 00 k R 0 Q SC0 S C R 00 C 0 P L µh. V L µh C 0. C 00 P R k C 0. R0. k R 0 C P L 00 µh.0 V. V Q SC O C P. V R. K C R 0 R 00 C R k R. k C C 0 P C 0 P R 00 C 0. R. k C0 0. C R P 0 k IN G V- OUT R 0 k IC µpcgv C 0.0 L 0. µh R 0 k IN GA V+ OUT D D SV SV R 00 k C 0. C. C0. C 0.0 R 0 k Q UN VIN SW VIN SW R0 k D MAS C VOUT V+ VIN IC NJMM R 0 R 0 AFIN FMTV J To RF unit J. V R. k R 0. V R 0 C 0.0 C 0.0 Q SC O. V C 0.0 R. k D MAS0 R. k C. V C 0. C Q SC0 S 0. V R k C. R 0 k C 0. R 0 k. V R 0 C

54 - LOGIC UNIT COM0 COM COM COM SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG DS A COM0 COM COM COM SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG R 00 k R 0 k C C 0. R 0 k R k R k SG SG SG0 SG SG SG SG SG SG SG SG SG SG0 COM COM COM COM0 R k R0 00 k R k THRMC C 0.0 SG SG SG SG SG SG SG SG0 SG SG SG WFM AM ATT ATT ATT HFC 0MC MC UHFVC DLOFF DATA CK TGST OSST 0 0 LVI IC MML-GP 0 0 K K VIN ATT RSSI RTON C FST TCON SDT KFUNC KSQL VRC DCK CHGC AMUT CLOUT CLIN P DUD POWR AFON RXC KS0 KS XPST PDA PCK PST PGST I CS CK DISO DOSI RST CPUHV LIGHT TVC CONVC POWRC +SC DCDC_C R00 0 k SDT LVI Q SK R M ATT C 0.0 C 0 P R. k ATT X CR- R. k CD NC OUT VDD VSS ATT C0 C 0 P R. k LVC R0 0 k R 0 k IC S-0ALMP-DAN V(CPUV) IC Q0 AKC0A DTA C0 ATT R k LAMP ON:.0 V R 0 k R k CS CK DISO DOSI Q SC0 S R DS CL-00YGC-TS R 00 k LAMPS LAMP ON:. V R0 DS CL-00YGC-TS R 0 k CPUHV C 0 D MAS C R. k C Q XP0 A C R k Q0 UN IC XCFP00MR 0. V O G R 0 I D0 MAS C C C Q SA GR C D MAS R 0 k C0 HV C0 C 0. Q SA GR Q XP0A VCC +SC R 0 RV +V RV VIN VIN X G O IC0 XCAPR DC-DC CONV R0 00 k D MA VCC C VCC R0 0 k CP CP C0 0 C C0 T D SS C R0 0 k C Q0 SK C. V R 00 D SS C. V C C0 D SS C Q0 S R. V Q0 SC Q CFL ON:.0 V R 0. C D0 MAS Q0 S0 S D SS C C L CD-0KC D0 MAS C0. V Q0 UMYN TR R. k D0 SS C0 R k C C W CFL ON:. V Q SC0 S C0 R0 0 k. V Q SC0 S R k C. C 0. C CFL ON:. V R0 0 k R k C VCC. V IC0 TCS0FU.V C 0.0 ATT ATV R k AFON V V +V RV J0 To TFT LCD (DS) 0 0 COM CKV CKV V STV XSTV CSV N XN PCD R G VSS PCG PCG CSH XSTH STH CKH CKH V S MOD S UP S SQL S V/M S DN S POWR S JPM0-0R FUNC S S0 RIGHT LFT KYS C C0 0.0 R 0 k R0 0 k R 0 k R0 00 k R 0 k C 0. RTON KSQL POWR VRC CLON D MAS AMK D0 MAS R 0 k R k R 00 k D MAS D MAS R 0 k R k D MAS RXF AMUT P CLIN CLOUT COM V R 0 k R k D MAS 0 RXF0 D MAS R 0 k R k PCK PST PGST I Q UN KS0 KS C R 0 R0 M D MAS RTON R 0 k TCON R k R 00 k C 00 P R 00 k IC NJM0V R 0 k C 0. R 0 k C 0. R k C TCON C 0. R k C 0.0 Q DTA R0 k R M R 0 k C 0. AMUT AFON R. k C 0. Q SA GR AFO CLON C 0 R0 0 C 0. Q XP0 A Q S R C 0 IC TA0F IN VCC VRF T NF OUT COMP C 00 P P VCC C C. RV C 0. C 0. C. C V R 00. V Q SC0 S R. k R k AMUT FMAF VRC R 0 k C. V R k C 0. IC MFP OUT IN COM R. k R k VCC OUT IN VC C 0..0 V R k R k Q SJ Y R k C 0. C0 0. C C 0. R 0 k R 0 k R0 M. COMPLT VIW -

55 D SS 0 C. V C C0 D SS C Q0 S R. V Q0 SC Q CFL ON:.0 V R 0. C D0 MAS Q0 S0 S D SS C C L CD-0KC C0. V D0 MAS Q0 UMYN TR R. k D0 SS C0 Q. V SC0 S. V C C W CFL ON:. V Q SC0 S R k C0 R0 0 k R k C. C 0. C CFL ON:. V R0 0 k R k C VCC. V IC0 TCS0FU.V R k R k R k V C. D0 MAS0 C 0 P V R0 0 k R0 0 k XSTH STH CKH CKH PCG PCG XSTV STV CKV CKV XN N R G PCD C0 0.0 D0 SV R0 00 R0 00 R 00 R 00 R 00 R 00 R0 00 R0 k C R 00 R 00 R 0 k VP VCC V.V V C0 0 P R0 k C0. C 0. R0 00 R0 00 R 00 R 00 R 00 R 00 R 00 R 00 L0 0 H C0 P C. XSTH STH CKH 0 CKH PCG PCG HD PANL XSTV STV CKV CKV XN 0 N VSS VD CP DUTY 0 C 0. L0 0 H C0 0. R 0 VDD CK0 CK VSS RPD CSV CSH VDIN XT XTG XTR S.SPIN H.FILOUT SYNCIN TRAP IC0 LVW SCLK DATA LOAD TST FPCD PCD PCD VCCPCD OUT F GOUT FG ROUT FR VCC 0 C 0.0 C 0.0 R0 0 L00 00 H C P PWRST FOADJ PICT YIN STARTUP 0 CIN VRG VXOIN VXOOUT APC LKLIM COUT RYIN YIN SIGCNTR 0 VCC C 0.0 C 0.0 C00 P R k C 0.0 R 0 k C 0.0 C 0 C0 0 P C 0 C 0.0 L0 0 H C0 0.0 C0 C0 C 0.0 C0 0 C 0. C 0.0 C 0.0 R k R 0 k L0 0 H W C0 0.0 R k C 0. C 0.0 R k X0 CR- C P R k C 0..V L0 0 H C 0 VP VCC V V.V (W) NTSC JUMPR PAL P (X0) NTSC.MHz PAL.MHz.V V D00 MA C0 Q0 UN C 0. R0. k C D0 MA Q DTA IC0 MAFFV W R0 0 R0 0. C0 TVC +V R0 Q k R0 UN 0 T VCC D0 R00L-0 R0 k R. k R0 k TV MOD:.0 V C0 Q0 SA GR TV MOD:. V D0 R00L-0 D0 MA C0 0 Q0 SK R0 k C0 C0 0. TVIF VP VCC +V DCDC_C V TVC +V HV DCK DUD RV RSSI RXC FMAF TVIF CONVC LVC SDT PST AMAF PCK PDA SPG +V PGST XPST DLOFF HFC MC CLON ATT UHFVC INTSP 0MC AFO WFM FST AM VP VIDO J To RF unit J S R k AMUT FMAF R 0 k C. V R k C 0. IC MFP OUT IN COM R. k R k VCC OUT IN VC C 0..0 V R k R k Q SJ Y R k C0 0. C C 0. C 0. R 0 k R 0 k R0 M. V C 0. R 0 R. k 0. V C 0. R 0 k C 0. Q SC0 S R0. k C V V C R0 0 k C 0.00 R k Q0 XP0 A D MAS. V C 0. R 0 k R k C 0. C 0.00 R 0 k Q DTC R k R k R 0 R 0 k C0 0.0 R k Q SJ Y WFM C 0.0 R 0 k TGST OSST CK DATA D MAWK R0 M D MAS R 0 k Q XP0 Q UN Q DTA R0 0 k C 0. R 0 k R 0 k R 0 k C 0 P ( MHz) C 0. C 0.0 C 0.0 L0 H C P R k R0 k R k R k C 0. C 0. C VIDO C 0. R. k R. k FMAF AMAF AM OSC OSC ST CK DATA RST V VOUT CHAL 0 VIN V 0 VD HD FSC LPF PHIN P P P0 IC0 M0-00FP C 0.0 R k C0 0.0 TFT ON:. V C 0.0 C0 0.0 C 0.00.V V V R0 k R 00 k Q0 SC0 TFT ON:. V TFT ON: 0. V C P R. k Q0 SC0 S Q0 SA S TFT ON:. V Q0 HAT0R D0 S0-0C R0 00 k R 0 k R. k Q0 S0 S R0. k R0. C0 C 0.0 C. R0. k C 0 C. R 00 k R 00 k R0. TFT ON:. V D0 MAS D0 MA ATV VCC HV D0 R00L-0 CHGC Q0 UN L0 0 H.V V C0 V Q XP0 R 00 k R k VP C C0 VIDO INTSP J To Speaker To Li-ion attery + VRC COMPLT VIW

56 - LOGIC UNIT J0 To TFT LCD (DS) COM0 COM COM COM SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG 0 0 DS A COM CKV CKV V STV XSTV CSV N XN PCD R G VSS PCG PCG CSH XSTH STH CKH CKH V COM0 COM COM COM SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG SG SG SG SG SG SG SG0 SG SG SG R 00 k R 0 k C S MOD S UP S SQL C 0. S V/M S DN S POWR R 0 k R k R k SG SG SG0 SG SG SG SG SG SG SG SG SG SG0 COM COM COM COM0 R k R0 00 k S S0 RIGHT LFT R k S JPM0-0R FUNC KYS THRMC C 0.0 C 0.0 C C0 0.0 R 0 k R0 0 k R 0 k SG SG SG SG SG SG SG SG0 SG SG SG WFM AM ATT ATT ATT HFC 0MC MC UHFVC DLOFF DATA CK TGST OSST 0 0 LVI R 0 k R0 00 k C 0. IC MML-GP 0 0 K K VIN ATT RSSI RTON C FST TCON SDT KFUNC KSQL VRC DCK CHGC AMUT CLOUT CLIN P DUD POWR AFON RXC RTON KSQL POWR VRC CLON AMK ATT D MAS D0 MAS KS0 KS XPST PDA PCK PST PGST I CS CK DISO DOSI RST CPUHV LIGHT TVC CONVC POWRC +SC DCDC_C R00 0 k R 0 k R k SDT ATV R k R 00 k D MAS D MAS R 0 k LVI R k AFON D MAS RXF AMUT P CLIN CLOUT COM V Q SK R M R 0 k C 0.0 C 0 P R k ATT D MAS 0 RXF0 D MAS R. k ATT X CR- R 0 k R k R. k CD NC OUT VDD VSS ATT C0 C 0 P PCK PST PGST I R. k LVC R0 0 k R 0 k IC S-0ALMP-DAN Q UN KS0 KS C V(CPUV) R 0 R0 M IC Q0 AKC0A DTA C0 D MAS RTON R 0 k ATT TCON R k R k LAMP ON:.0 V R 00 k C 00 P R 0 k R k CS CK DISO DOSI Q SC0 S R 00 k IC NJM0V R DS CL-00YGC-TS R 0 k C 0. R 00 k R 0 k C 0. R k C LAMPS LAMP ON:. V R0 DS CL-00YGC-TS TCON C 0. R k C 0.0 R 0 k C 0 D MAS C Q DTA R0 k CPUHV R. k C Q XP0 A C R M R 0 k R k Q0 UN IC XCFP00MR 0. V C 0. O G R 0 AMUT I D0 MAS C C C Q SA GR C D MAS R 0 k C0 AFON R. k C 0. C0 C 0. Q SA GR Q XP0A +SC Q SA GR AFO CLON HV C 0 VCC R0 0 R 0 C 0. RV +V RV VIN V V +V RV Q XP0 A VIN IC0 XCAPR Q S R C 0 X G DC-DC CONV IC TA0F IN VCC VRF T NF OUT COMP C 00 P O R0 00 k P VCC C C. D MA VCC C RV C 0. C 0. C. VCC R0 0 k CP CP C0 0 C V C C0 T D SS C R0 0 k R 00 C Q0 SK. V C. V R 00 D SS C Q SC0 S R. k. V C C0 D SS C Q0 S R. V Q0 SC Q CFL ON:.0 V R 0. C R k D0 MAS Q0 S0 S AMUT FMAF VRC R 0 k C D SS C C L CD-0KC D0 MAS C0 Q0 UMYN TR. V R k C 0.. V IC MFP OUT IN COM R. k R. k D0 SS C0 R k Q. V SC0 S. V C C W CFL ON:. V Q SC0 S R k C0 R0 0 k VCC OUT IN VC C 0..0 V R k R k Q SJ Y R k C. C 0. C CFL ON:. V R0 0 k R k C IC0 TCS0FU R k C0 0. C C 0. C 0. VCC. V.V R 0 k R 0 k R0 M. V C 0. R 0 R. k 0. V R k R k R k V C. C 0. D0 MAS0 R 0 k C 0 P C 0. Q SC0 S R0. k C V V C C 0.00 R0 0 k R k Q0 XP0 A D MAS R0 0 k. V V C 0. R 0 k R0 0 k XSTH STH CKH CKH PCG PCG XSTV STV CKV CKV XN N R G PCD R k C 0. C0 0.0 D0 SV R0 00 R0 00 R 00 R 00 R 00 R 00 R0 00 C 0.00 R 0 k R0 k C R 00 R 00 R 0 k Q DTC R k R k VP VCC V.V V C0 0 P R 0 R 0 k C0 0.0 R k Q SJ Y R0 k C0. C 0. R0 00 R0 00 R 00 R 00 R 00 R 00 R 00 R 00 WFM L0 0 H C0 P C. XSTH STH CKH 0 CKH PCG PCG HD PANL XSTV STV CKV CKV XN 0 N VSS VD C 0.0 R 0 k TGST OSST CK DATA CP DUTY 0 C 0. D MAWK R0 M L0 0 H C0 0. R 0 VDD CK0 CK VSS RPD CSV CSH VDIN XT XTG XTR S.SPIN H.FILOUT SYNCIN TRAP IC0 LVW SCLK DATA LOAD TST FPCD PCD PCD VCCPCD OUT F GOUT FG ROUT FR VCC 0 D MAS R 0 k C 0.0 C 0.0 R0 0 L00 00 H C P PWRST FOADJ PICT YIN STARTUP 0 CIN VRG VXOIN VXOOUT APC LKLIM COUT RYIN YIN SIGCNTR 0 VCC C 0.0 C 0.0 Q XP0 Q UN Q DTA R0 0 k C 0. R 0 k R 0 k R 0 k C 0 P ( MHz) C 0. C00 P R k C 0.0 R 0 k C 0.0 C 0.0 C 0.0 C 0 L0 H C0 0 P C 0 C 0.0 C P R k R0 k R k R k L0 0 H C 0. C 0. C0 0.0 C0 C0 C 0.0 C0 0 C VIDO C 0. C 0. C 0.0 C 0.0 R. k R. k FMAF AMAF AM R k R 0 k L0 0 H OSC OSC ST CK DATA RST V VOUT CHAL 0 VIN W C0 0.0 R k C 0. V 0 VD HD FSC LPF PHIN P P P0 C 0.0 R k IC0 M0-00FP C 0.0 X0 CR- C P R k C 0..V R k C0 0.0 TFT ON:. V L0 0 H C 0 VP VCC V V.V (W) NTSC JUMPR PAL P (X0) NTSC.MHz PAL.MHz C 0.0 C0 0.0 C 0.00.V V V R0 k R 00 k.v V Q0 SC0 D00 MA C0 Q0 UN C P C 0. R0. k C TFT ON:. V TFT ON: 0. V D0 MA Q DTA IC0 MAFFV R. k W R0 0 Q0 SC0 S Q0 SA S Q0 D0 S0-0C R0 0. C0 TFT ON:. V HAT0R R0 00 k R 0 k R. k Q0 S0 S R0. k R0. TVC +V R0 Q k R0 UN 0 T VCC D0 R00L-0 R0 k C0 R. k R0 k C 0.0 C. C0 R0. k C 0 C. R 00 k R 00 k R0. TV MOD:.0 V TFT ON:. V D0 MAS D0 MA Q0 SA GR TV MOD:. V D0 R00L-0 D0 MA C0 0 Q0 SK ATV VCC HV D0 R00L-0 CHGC Q0 UN L0 0 H.V V C0 R0 k C0 C0 0. TVIF VP VCC +V DCDC_C V V Q XP0 R 00 k R k TVC +V VP C C0 VIDO HV DCK DUD RV RSSI RXC FMAF TVIF CONVC LVC SDT PST AMAF PCK PDA SPG +V PGST XPST DLOFF HFC MC CLON ATT UHFVC INTSP 0MC AFO WFM FST AM VP VIDO INTSP J To Speaker To Li-ion attery + J To RF unit J LFT SID - RIGHT SID

57 - RF UNIT J To FM-TV unit ANT To RF- unit J To RF- unit J 0M 0M RFO M M RFI AGC L. nh D SV SIFOUT IFIN C P D0 SV0 R0 k C 0. C D SV0 R k f 0 MHz D0. v SV0 C. P C P L. nh R0. k C P C P L. nh R k C0 0. R. k C 0 P C C IC UPCT IC UPCT LO PS VCC RFI IFO CONLO C P L0. nh C P D0 MAS0 D MAS0 C R. k L. nh R0. k C P L. nh D SV W W W C. P C0.0 V C P L nh L0 nh C 0. P C 0 P R. k C P L0. nh D0 SV C P C 0 P R 00 k D SV0 L0. nh R0. k. V C L H D SV0 D SV0 C 0. L H C 0 P C f 0 MHz. V C0 P C 0. R. k C0 R0 00 k C 0 P C D MAS0 R00 k MHz:.0 V R0 k MHz:. V D MAWK C C C 0. R 0 C 0. R 0 Q SC0 R k D SV MHz:.0 V 0 00 MHz:. V R 0 k R k C C P R0 k C P L nh R k C 0. R0 0 k C C Q SK C C P C 0. Q SC0 R 0 k D SV0 R k Q0 SA L 0. H R 0 R NTCCM0H KC R k R k C P Q0 SK C0 C C0 L 0 nh R 00 C P C P ATT OFF: 0. V :. V :.0 V :. V :. V C P R k D MAS C R k RV CONVC D MAS R 0 L 0. H C P C 0 P 0 00 MHz:. V 0 00 MHz: 0. V R0 00 L0 0. H C MHz:. V C0 L 0. H MHz: 0. V C L. nh C P R C L nh C0 P R0 0 R0 C R 00 k L nh C. P C 00 P C 00 0 MHz: 0. V C C P L. nh C P C0 R0 00 k L. nh C 0 P D SV C0 C P C P D MAS0 R. k C 0. D MAS0 C P C 0. L0 0 nh C0 P D0 SV C0 D MAS0 C 0.0 C 0.0 L. H C 0 P R. k C L. nh R0. k R0 00 k L.nH R0. K C Q SC C C 0.0 L. H C L0. nh C P L0 nh C 00 P C 0 P C L 0. H L. H C 0 P C C 0.0 R. k D0 SV0 R0. k D SV0 R C 00 P C P R k R. k L 0. H C P C 0 P C C0 0.0 L 0. H C L0. H C 0 P C 0.00 L 0. H C P C0 0 P D MAS0 D MAS0 C 0 P D MAS0 C 0. R k R k R0. k R 00 C 0. L 00 H Q DTA C R. k C0 0. D0 SV0 Q f<0 MHz:.0 V f<0 MHz:.0 V SC O f<0 MHz: 0. V R R Q XP. k. k _V _V R L nh R 0 MHz:. V C 00 0 MHz:.0 V 00 0 MHz: 0. V 0M 00M 0 MHz: 0. V C00 P C 0.0 R 0 R0 C 0.0 R. k C P R0 0 R 0 C M D SV0 0 MHz:. V D SV0 C 00M R. k D MAS C 0. C C D MA RFO D SV0 Q SC RFO 0M 0M M M AGC RFI SIFOUT IFIN AGC C 0. AGC C RV ATT CONVC C Q DTAJ HFC C P R. k C R D SV0 C C R D SV0 C P C0 P L nh +V CONVC SHIFTC PST C C CONLO C 0 P C C P L nh C. P C P C R 0 C0 0 P C L 0 nh R k Q SC L nh L nh C P C P C P R 0 L nh C P 0 0 MHz:. V 0 0 MHz:. V M 0M 0M Q SA R k Q DTA C. P C0 L nh C P C L nh C P R. k R0 C P Q XP C C R 0 R k RV Q DTAJ IC TFN FIN CP 0 S CLK LD DATA VCC ST XIN L nh C P MC C 0 0MC 0MC C 0 P 0 0 MHz: 0. V Q UPA0T C0 C MHz:.0 V R. k LVC C R k VP Q SK0 R k R. k Q UN C C 0 P R 0 C0 C L nh R 0 C C R k C C R 0 k C P D SV C MHz:. V R00 0 k +V D MAS R. k C 0. C L0 nh C C CONLO + C 0. R k C D SV 0M 0M RFO RFI D MAS0 R. k RFO RFI C C PGST PDA PCK SFIOUT IFIN TVIF RXC C0. P RV SFIOUT IFIN C 0. R 0 R k C L0 0. H R k D0 MAS L0 0. H Q SC0 C 0 P C 0 R0. k D0 IC0 MAS UPCT RFI IFO VCC LO PS C TV Mode: 0. V R 0 C0 0 P D MAS0 R. k R 0 D MAS0 IC UPCT RFI IFO VCC LO PS R R C 0.0 COMPLT VIW

58 CONV CONV RFO RFI D MAS0 R. k RFO RFI C C PGST PDA PCK SFIOUT IFIN TVIF RXC C0. P RV SFIOUT IFIN C 0. R 0 R k C L0 0. H R k D0 MAS L0 0. H Q SC0 C 0 P R0. k IC0 UPCT RFI IFO VCC LO PS C TV Mode: 0. V R 0 D MAS0 R. k Q0 UN R0 C 0 P C 0.0 D0 MAS0 C0 0 P D MAS0 IC UPCT RFI IFO VCC LO PS R R C0 0.0 Q0 SA R0 k R0. k C0 C TV Mode:.V C0 0.0 C 0.0 FI0 TSD C0 0. C0 0. L0 0. H R0. k + C0 0 R0 k CP FS R0 k Q0 XP R0 k C0 0.0 R0 k R0 0 k IC0 MFP VP RF SHIFT VL +V PSTV LV TVIF ndlo CONLO FMTV Q0 SA R0. k C0 R0 0 k R 0 k FM, AM Mode: 0. V FM, AM Mode:. V R 0 k FI L R C FL-. H C0 0.0 R 0 k R. k R k C R k Q SC R0 0 k L. H C C0 C 0.0 P D C MAS0.0 V WFM:. V WFM:. V V C0 C 0.0 stlo + L. H C 00 P D0 MAS0 C R. k C0 0 P FI SFCV.MAS C 0 P D0 MAS0 0 R. k R 0 k R. k DLAY AFT AGC VIF VIF SIF AGC FIL NF AFO C C 0.0 R 0 k C 0.0 C Q APC FIL VIDO RG RG VCO VCO VCC VCC QIF SW LIM + C + 0 D MAS0 0 R 0 k D0 MAS0 FI0 LFSCN00 C L0 nh C0 P R0 k R 0 C. R k C0 P C0 FI0 SFSCC.MC R C R 0 C C P C 0. V TV Mode:. V D MAS L0 H FI0 TPSCC. C0 P C C0 00 P R k SDT RSSI RV R 00 Q SC0 C0 P C. R 0 k TV Mode:. V R k C0 0.0 L0 H RX R 00 C. L0 LS- R 0 k R C. C. R k + C 0. R0 C0 IC TAFN 0 MIXIN OSCIN OSCOUT N-RC MIXOUT N-DT VCC RSSI IFIN IFOUT DC 0 QUAD FILOUT AFOUT FILIN C0 0 P C0 R R k. k L LS-0 R0 0 k Q DTA C C C TV Mode:. V C 0. R k R 0 k R0 NTCCM0H0KC R0 0 k WFM TV Mode:. V TV Mode. V CP QUAD R 0 C 0. C0 0. R 0 k C0 Q SC0 C0 0 P R. k C 0.0 C R0 k TV Mode:. V C. C0 0. R0 00 k R k R k R k R 0 R k + D MAWK FMAF R 0 VIDO R 0 R 0 Q SC0 R k C0 0 P R 00 R. k C0 0. C 0.0 C 0.0 Q XP C0 AFIN TV Mode. V R 0 k R k AM TV Mode. V DL:. V D MAS0 DL:.0 V TV Mode. V D MAS0 C 0.0 C 0.0 xcept WFM. V C 0. R WFM: 0. V R0. k C DL L. H R k R 0 k R D k MAWK WFM:.0 V AMAF AM: 0. V C C P L nh Q SC C 0.0 FI CFWM0 C 0.0 C0 R 0.0 k C C0 C L nh C P C P R 0 k R 0 k L. H R k DL Q XP0 R k R DL: 0. V R k C0 C P C 0.0 D MAWK C 0. R k R 00 DL R 0 R 00 R k C 0.0 L0 nh Q FH0 D MAS0 D MAS0 R 0 k L. nh Q XP R 0 k R 0 k R DL: 0. V WFM:. V xcept WFM:. V xcept WFM:. V AM:.0 V C C Q XP0 C 0.0 C R k C0 P C P C P L 0 nh R. k C0 0.0 AM: 0. V C AM:. V + C VP RF RF VIDO SHIFT LV stlo +V PSTV LV ndlo RV CONLO FMTV DL Through:. V DL:. V DL:. V R 0 R 0 D MAS0 C. P C C P L nh C P L. nh C P C P C P L nh C P R 0 k C. P stlo VIDO AFOUT D MAS0 R L k nh C P C P C P L DL:. V. nh C. P RX M 0M C 00M C. P C C C D MAS0 D MAS0 R k R0 0 k Q XP RXC MC 0M Q DTAJ 00MC 00MC Q XP Q XP C C VIDO AFIN AFIN FST DLOFF DL RV DL RXC WFM AFIN FMTV C HV VIDO AFOUT C + C C + C Q XP P R WFM:.0 V. k 0M 0MC C VIDO M MC WFM C P R0. k R 0 k R k D MA stlo R0 0 k PDA PCK XPST C C C MC 0MC SHIFTC DL. V 0 VSS DATA CLK LCK Q0 Q Q Q Q Q VDD Q Q Q0 Q Q Q NC NC Q 0 IC U0FV Q DTA RV P +V 00MC 00MC 0MC MC DL DL DCK DUD C P C P VP C FST AM WFM 0MC AFO 0MC INTSP ATT MC CLON DLOFF HFC PGST XPST SPG +V PDA P AMAF PCK SDT PST CONVC LVC FMAF TVIF RSSI RXC RV HV C SPG CLON INTSP AFO + C C0 0 HV RF FST VP SHIFT stlo LV +V PSTV PCK PDA ndlo RV CONV LV CONLO AFIN FMTV C A/V OUT C DUD DCK To VCO unit J To VCO unit J J To FM-TV unit J J J To FM-TV unit J J To LOGIC unit J J S UP DN - COMPLT VIW

59 - RF UNIT J To FM-TV unit ANT To RF- unit J To RF- unit J 0M 0M RFO M M RFI AGC L. nh D SV SIFOUT IFIN C P D0 SV0 R0 k C 0. C D SV0 R k f 0 MHz D0. v SV0 C. P C P L. nh R0. k C P C P L. nh R k C0 0. R. k C 0 P C C IC UPCT IC UPCT LO PS VCC RFI IFO CONLO C P L0. nh C P D0 MAS0 D MAS0 C R. k L. nh R0. k C P L. nh D SV W W W C. P C0.0 V C P L nh L0 nh C 0. P C 0 P R. k C P L0. nh D0 SV C P C 0 P R 00 k D SV0 L0. nh R0. k. V C L H D SV0 D SV0 C 0. L H C 0 P C f 0 MHz. V C0 P C 0. R. k C0 R0 00 k C 0 P C D MAS0 R00 k MHz:.0 V R0 k MHz:. V D MAWK C C C 0. R 0 C 0. R 0 Q SC0 R k D SV MHz:.0 V 0 00 MHz:. V R 0 k R k C C P R0 k C P L nh R k C 0. R0 0 k C C Q SK C C P C 0. Q SC0 R 0 k D SV0 R k Q0 SA L 0. H R 0 R NTCCM0H KC R k R k C P Q0 SK C0 C C0 L 0 nh R 00 C P C P ATT OFF: 0. V :. V :.0 V :. V :. V C P R k D MAS C R k RV CONVC D MAS R 0 L 0. H C P C 0 P 0 00 MHz:. V 0 00 MHz: 0. V R0 00 L0 0. H C MHz:. V C0 L 0. H MHz: 0. V C L. nh C P R C L nh C0 P R0 0 R0 C R 00 k L nh C. P C 00 P C 00 0 MHz: 0. V C C P L. nh C P C0 R0 00 k L. nh C 0 P D SV C0 C P C P D MAS0 R. k C 0. D MAS0 C P C 0. L0 0 nh C0 P D0 SV C0 D MAS0 C 0.0 C 0.0 L. H C 0 P R. k C L. nh R0. k R0 00 k L.nH R0. K C Q SC C C 0.0 L. H C L0. nh C P L0 nh C 00 P C 0 P C L 0. H L. H C 0 P C C 0.0 R. k D0 SV0 R0. k D SV0 R C 00 P C P R k R. k L 0. H C P C 0 P C C0 0.0 L 0. H C L0. H C 0 P C 0.00 L 0. H C P C0 0 P D MAS0 D MAS0 C 0 P D MAS0 C 0. R k R k R0. k R 00 C 0. L 00 H Q DTA C R. k C0 0. D0 SV0 Q f<0 MHz:.0 V f<0 MHz:.0 V SC O f<0 MHz: 0. V R R Q XP. k. k _V _V R L nh R 0 MHz:. V C 00 0 MHz:.0 V 00 0 MHz: 0. V 0M 00M 0 MHz: 0. V C00 P C 0.0 R 0 R0 C 0.0 R. k C P R0 0 R 0 C M D SV0 0 MHz:. V D SV0 C 00M R. k D MAS C 0. C C D MA RFO D SV0 Q SC RFO 0M 0M M M AGC RFI SIFOUT IFIN AGC C 0. AGC C RV ATT CONVC C Q DTAJ HFC C R D SV0 C P R. k C C R D SV0 C P C0 P L nh +V CONVC SHIFTC PST C C CONLO C 0 P C C P L nh C. P C P C R 0 C0 0 P C L 0 nh R k Q SC L nh L nh C P C P C P R 0 L nh C P 0 0 MHz:. V 0 0 MHz:. V M 0M 0M Q SA R k Q DTA C. P C0 L nh C P C L nh C P R. k R0 C P Q XP C C R 0 R k RV Q DTAJ IC TFN FIN CP 0 S CLK LD DATA VCC ST XIN L nh C P C 0 MC 0MC 0MC C 0 P 0 0 MHz: 0. V Q UPA0T C0 C MHz:.0 V R. k LVC C R k VP Q SK0 R k R. k Q UN C C 0 P R 0 C0 C L nh R 0 C C R k C C R 0 k C P D SV C MHz:. V R00 0 k +V D MAS R. k C 0. C L0 nh C C CONLO + C 0. R k C D SV 0M 0M RFO RFI D MAS0 R. k RFO RFI C C PGST PDA PCK SFIOUT IFIN TVIF RXC C0. P RV SFIOUT IFIN C 0. R 0 R k C L0 0. H R k D0 MAS L0 0. H Q SC0 C 0 P R0. k IC0 UPCT RFI IFO VCC LO PS C TV Mode: 0. V R 0 D MAS0 R. k Q0 UN R0 C 0 P C 0.0 D0 MAS0 C0 0 P D MAS0 IC UPCT RFI IFO VCC LO PS R R C0 0.0 Q0 SA R0 k R0. k C0 C TV Mode:.V C0 0.0 C 0.0 FI0 TSD C0 0. C0 0. L0 0. H R0. k + C0 0 C0 0 P R0 k CP FS R0 k Q0 XP R0 k C0 0.0 R0 k R0 0 k IC0 MFP +V PSTV LV TVIF ndlo CONLO C0 CONV VP RF SHIFT VL FMTV Q0 SA R0. k R0 0 k R 0 k FM, AM Mode: 0. V FM, AM Mode:. V R 0 k FI L R C FL-. H C0 0.0 R 0 k R. k R k C R k Q SC R0 0 k L. H C C0 C 0.0 P D C MAS0.0 V WFM:. V WFM:. V V C0 C 0.0 stlo + L. H C 00 P D0 MAS0 C R. k FI SFCV.MAS C 0 P D0 MAS0 0 R. k R 0 k R. k DLAY AFT AGC VIF VIF SIF AGC FIL NF AFO C C 0.0 R 0 k C 0.0 C Q APC FIL VIDO RG RG VCO VCO VCC VCC QIF SW LIM + C + 0 D MAS0 0 R 0 k D0 MAS0 FI0 LFSCN00 C L0 nh C0 P R0 k R 0 C. R k C0 P C0 FI0 SFSCC.MC R C R 0 C C C P 0. V TV Mode:. V D MAS L0 H FI0 TPSCC. C0 P C C0 00 P R k SDT RSSI RV R 00 Q SC0 C0 P C. R 0 k TV Mode:. V R k C0 0.0 L0 H RX R 00 C. L0 LS- R 0 k R C. C. R k + C 0. R0 C0 IC TAFN 0 MIXIN OSCIN OSCOUT N-RC MIXOUT N-DT VCC RSSI IFIN IFOUT DC 0 QUAD FILOUT AFOUT FILIN C0 0 P C0 R R k. k L LS-0 R0 0 k Q DTA C C C TV Mode:. V C 0. R k R 0 k R0 NTCCM0H0KC R0 0 k WFM TV Mode:. V TV Mode. V CP QUAD R 0 C 0. C0 0. R 0 k C0 Q SC0 C0 0 P R. k C 0.0 C R0 k TV Mode:. V C. C0 0. R0 00 k R k R k R k R 0 D MAWK R k + FMAF R 0 VIDO R 0 R 0 Q SC0 R k C0 0 P R 00 R. k C0 0. C 0.0 C 0.0 Q XP C0 AFIN TV Mode. V R 0 k R k AM TV Mode. V DL:. V D MAS0 DL:.0 V TV Mode. V D MAS0 C 0.0 C 0.0 xcept WFM. V C 0. R WFM: 0. V R0. k C DL L. H R k R 0 k R D k MAWK WFM:.0 V AMAF AM: 0. V C C P L nh Q SC C 0.0 FI CFWM0 C 0.0 C0 R 0.0 k C C0 C L nh C P C P R 0 k R 0 k L. H R k DL Q XP0 R k R DL: 0. V R k C0 C P C 0.0 D MAWK C 0. R k R 00 DL R 0 R 00 R k C 0.0 L0 nh Q FH0 D MAS0 D MAS0 R 0 k L. nh Q XP R 0 k R 0 k R DL: 0. V WFM:. V xcept WFM:. V xcept WFM:. V AM:.0 V C C Q XP0 C 0.0 C R k C0 P C P C P L 0 nh R. k C0 0.0 AM: 0. V C AM:. V + C CONV VP RF RF VIDO SHIFT LV stlo +V PSTV LV ndlo RV CONLO FMTV DL Through:. V DL:. V DL:. V R 0 R 0 D MAS0 C. P C C P L nh C P L. nh C P C P C P L nh C P R 0 k C. P stlo VIDO AFOUT D MAS0 R L k nh C P C P C P L DL:. V. nh C. P RX M 0M C 00M C. P C C C D MAS0 D MAS0 R k R0 0 k Q XP RXC MC 0M Q DTAJ 00MC 00MC Q XP Q XP C C VIDO AFIN AFIN FST DLOFF DL RV DL RXC WFM AFIN FMTV C HV VIDO AFOUT C + C C + C Q XP P R WFM:.0 V. k 0M 0MC C VIDO M MC WFM C P R0. k R 0 k R k D MA stlo R0 0 k PDA PCK XPST C C C MC 0MC SHIFTC DL. V 0 VSS DATA CLK LCK Q0 Q Q Q Q Q VDD Q Q Q0 Q Q Q NC NC Q 0 IC U0FV Q DTA RV P +V 00MC 00MC 0MC MC DL DL DCK DUD C P C P VP C FST AM WFM 0MC AFO 0MC INTSP ATT MC CLON DLOFF HFC PGST XPST SPG +V PDA P AMAF PCK SDT PST CONVC LVC FMAF TVIF RSSI RXC RV HV C SPG CLON INTSP AFO + C C0 0 HV RF FST VP SHIFT stlo LV +V PSTV PCK PDA ndlo RV CONV LV CONLO AFIN FMTV C A/V OUT C DUD DCK To VCO unit J To VCO unit J J To FM-TV unit J J J To FM-TV unit J J To LOGIC unit J J S UP DN LFT SID - RIGHT SID

60 --, Kamiminami, Hirano-ku, Osaka -000, Japan Phone : 0 0 Fax : 0 00 URL : Icom America Inc. <Corporate Headquarters> 0 th Avenue N.., ellevue, WA 00, U.S.A. Phone : () - Fax : () -0 URL : <Customer Service> Phone : () - Icom Canada Glenwood Centre #0- Highway Delta,.C., VK, Canada Phone : (0) - Fax : (0) -000 URL : Icom (Australia) Pty. Ltd. A..N Albert Street, runswick, Victoria, 0, Australia Phone : 0 0 Fax : 0 00 URL : Icom New Zealand A Harris Road, ast Tamaki, Auckland, New Zealand Phone : 0 0 Fax : 0 0 Asia Icom Inc. F No., Sec. Cheng-Teh Road, Taipei, Taiwan, R.O.C. Phone : (0) Fax : (0) Icom (urope) GmbH Communication quipment Himmelgeister Str. 00, D-0 Düsseldorf, Germany Phone : 0 0 Fax : 0 URL : Icom Spain S.L Crta. de Gracia a Manresa Km.,0 00 Sant Cugat del Valles arcelona, SPAIN Phone : () 0 0 Fax : () 0 URL : Icom (UK) Ltd. Unit, Sea St., Herne ay, Kent, CT LD, U.K. Phone : 0 Fax : 0 URL : Icom France S.a Zac de la Plaine, Rue rindejonc des Moulinais P 0, 0 Toulouse Cedex, France Phone : 0 0 Fax : 0 00 URL :

Σχετικά έγγραφα

SERVICE MANUAL MULTIBAND FM TRANSCEIVER

SERVICE MANUAL MULTIBAND FM TRANSCEIVER SRVIC MANUAL MULTIBAND FM TRANSCIVR INTRODUCTION This service manual describes the latest service information for the IC-TA/ at the time of publication. MODL IC-TA IC-T VRSION U.S.A. Australia S..Asia

Διαβάστε περισσότερα

SERVICE MANUAL COMMUNICATIONS RECEIVER

SERVICE MANUAL COMMUNICATIONS RECEIVER SERVICE MANUAL COMMUNICATIONS RECEIVER This service manual describes the latest service information for the IC-R at the time of publication. VERSION U.S.A. Europe U.K. S.E.Asia Other INTRODUCTION SYMBOL

Διαβάστε περισσότερα

RT-178 / ARC-27 All schematics

RT-178 / ARC-27 All schematics RT / ARC All schematics J I K P0 L A B M C P N D O E H G F P0 RT /ARC F L P0 A C D G J M P S B E K R H N SQ OFF GUARD REC MOD I k I B E i DRVR I g FINAL I g I ant SQ OFF MAIN REC SENS PHONE METER MIC SENS

Διαβάστε περισσότερα

SERVICE MANUAL MULTIBAND FM TRANSCEIVER

SERVICE MANUAL MULTIBAND FM TRANSCEIVER SRVI MANUAL MULTIAND FM TRANSIVR INTRODUTION This service manual describes the latest service information for the I-TA/ at the time of publication. MODL VRSION U.S.A. Australia S..Asia urope U.K. Italy

Διαβάστε περισσότερα

SERVICE MANUAL. DUAL BAND FM TRANSCEIVER i2725e

SERVICE MANUAL. DUAL BAND FM TRANSCEIVER i2725e SERVIE MANUAL DUAL AND FM TRANSEIVER i7e INTRODUTION This service manual describes the latest service information for the I-7E DUAL AND FM TRANSEIVER at the time of publication MODEL I-7E VERSION Europe

Διαβάστε περισσότερα

SERVICE MANUAL. HF TRANSCEIVER if7000

SERVICE MANUAL. HF TRANSCEIVER if7000 SERVICE MANUAL HF TRANSCEIVER if7000 INTRODUCTION This service manual describes the latest service information for the IC-F7000 HF TRANSCEIVER at the time of publication. DANGER NEVER connect the transceiver

Διαβάστε περισσότερα

SERVICE MANUAL. MF/HF MARINE TRANSCEIVER im802

SERVICE MANUAL. MF/HF MARINE TRANSCEIVER im802 SERVICE MANUAL MF/HF MARINE TRANSCEIVER im0 INTRODUCTION This service manual describes the latest service information for the IC-M0 MF/HF MARINE TRANSCEIVER at the time of publication. MODEL IC-M0 VERSION

Διαβάστε περισσότερα

SERVICE MANUAL. HF/ 50MHz ALL MODE TRANSCEIVER i703

SERVICE MANUAL. HF/ 50MHz ALL MODE TRANSCEIVER i703 SERVICE MANUAL HF/ 0MHz ALL MODE TRANSCEIVER i0 INTRODUCTION This service manual describes the latest service information for the IC0 HF/0MHz ALL MODE TRANSCEIVER. MODEL IC0 VERSION Europe France Spain

Διαβάστε περισσότερα

Studio Transmitter Link

Studio Transmitter Link UHF STL TRANSMITTER BPT-V/UHF TRANSMITTER SPECIFICATIONS TYPE solid state direct FM frequency synthesised crystal referenced thermal compensated FREQUENCY STABILITY better than 4 ppm0 -------------------------------------------+40

Διαβάστε περισσότερα

DUAL BAND FM TRANSCEIVER. ic-2800h

DUAL BAND FM TRANSCEIVER. ic-2800h DUAL AND FM TRANSCEIVER ic-00h INTRODUCTION This service manual describes the latest service information for the IC-00H FM TRANSCEIVER at the time of publication. MODEL VERSION SYMOL IC-00H Europe Italy

Διαβάστε περισσότερα

SERVICE MANUAL. VHF AIR BAND TRANSCEIVER ia110

SERVICE MANUAL. VHF AIR BAND TRANSCEIVER ia110 SRVI MANUAL VHF AIR AND TRANSIVR ia0 INTRODUTION This service manual describes the latest service information for the I-A0 VHF AIR AND TRANSIVR at the time of publication. L VRSION SYMOL General GN I-A0

Διαβάστε περισσότερα

HF/VHF/UHF ALL MODE TRANSCEVER

HF/VHF/UHF ALL MODE TRANSCEVER HF/VHF/UHF ALL MODE TRANSCEVER S-XZ-C June. 00 INTRODUCTION CAUTION This service manual describes the latest service information for the IC-0MKIIG HF/VHF/UHF ALL MODE TRANSCEVER at the time of publication.

Διαβάστε περισσότερα

SERVICE MANUAL. ic-f3 ic-f3s. ic-f4 ic-f4s VHF FM TRANSCEIVERS UHF FM TRANSCEIVERS

SERVICE MANUAL. ic-f3 ic-f3s. ic-f4 ic-f4s VHF FM TRANSCEIVERS UHF FM TRANSCEIVERS SERVICE MANUAL VHF FM TRANSCEIVERS ic-f ic-fs UHF FM TRANSCEIVERS ic-f ic-fs INTRODUCTION This service manual describe the latest information for the IC-F/IC-FS and IC-F/IC-FS at the time of publication.

Διαβάστε περισσότερα

SERVICE MANUAL SURVIVAL CRAFT 2-WAY RADIO

SERVICE MANUAL SURVIVAL CRAFT 2-WAY RADIO SRVI MANUAL SURVIVAL RAFT -WAY RADIO INTRODUTION This service manual describes the latest service information for the I-GM00/ VHF MARIN TRANSIVR at the time of publication. MODL VRSION TX Hi-POWR I GM00

Διαβάστε περισσότερα

NEC Silicon RFIC Amplifiers Low Power, Wideband & SiGe/SiGeC

NEC Silicon RFIC Amplifiers Low Power, Wideband & SiGe/SiGeC NEC Silicon RFIC Amplifiers Low Power, Wideband & SiGe/SiGeC Low Power Amplifiers ELECTRICAL CHARACTERISTICS (TA = 25 C) Range VCC ICC NF Gain RLIN RLOUT PdB ISOL @ 3dB (V) (ma) (dbm) Part down Package

Διαβάστε περισσότερα

SERVICE MANUAL VHF/UHF FM TRANSCEIVER VHF/UHF DIGITAL TRANSCEIVER

SERVICE MANUAL VHF/UHF FM TRANSCEIVER VHF/UHF DIGITAL TRANSCEIVER SERVIE MANUAL VHF/UHF FM TRANSEIVER VHF/UHF DIGITAL TRANSEIVER S-0HZ- May. 00 INTRODUTION This service manual describes the latest service information for the I-9A VHF/UHF FM TRANSEIVER, I-9AD VHF/UHF

Διαβάστε περισσότερα

AKC Spectrum Analyzer User s Manual.

AKC Spectrum Analyzer User s Manual. AKC-1291 Spectrum Analyzer User s Manual u ano un ao Prohibiting to removal the cover e m Keep the power insert clean RF in/output rating oae o n DC Power nt Restore this instrument 1. Introduction 2.

Διαβάστε περισσότερα

Technical Specifications

Technical Specifications FLX-8X8A Chassis Technical Specifications Modular Input Cards... FLX-BI4, FLX-DI4, FLX-HI4, FLX-RI4 Analog Audio... Balanced or Unbalanced Stereo Audio (20 Hz to 20 khz) Supported Outputs Modular Output

Διαβάστε περισσότερα

ΜΕΛΕΤΗ ΚΑΙ ΠΡΟΣΟΜΟΙΩΣΗ ΙΑΜΟΡΦΩΣΕΩΝ ΣΕ ΨΗΦΙΑΚΑ ΣΥΣΤΗΜΑΤΑ ΕΠΙΚΟΙΝΩΝΙΩΝ.

ΜΕΛΕΤΗ ΚΑΙ ΠΡΟΣΟΜΟΙΩΣΗ ΙΑΜΟΡΦΩΣΕΩΝ ΣΕ ΨΗΦΙΑΚΑ ΣΥΣΤΗΜΑΤΑ ΕΠΙΚΟΙΝΩΝΙΩΝ. Τµήµα Ηλεκτρονικής ΜΕΛΕΤΗ ΚΑΙ ΠΡΟΣΟΜΟΙΩΣΗ ΙΑΜΟΡΦΩΣΕΩΝ ΣΕ ΨΗΦΙΑΚΑ ΣΥΣΤΗΜΑΤΑ ΕΠΙΚΟΙΝΩΝΙΩΝ. Σπουδαστής: Γαρεφαλάκης Ιωσήφ Α.Μ. 3501 Επιβλέπων καθηγητής : Ασκορδαλάκης Παντελής. -Χανιά 2010- ΠΕΡΙΛΗΨΗ : Η παρούσα

Διαβάστε περισσότερα

COMMUNICATIONS RECEIVERS. ic-r1500 ic-r2500

COMMUNICATIONS RECEIVERS. ic-r1500 ic-r2500 COMMUNICATIONS RECEIVERS ic-r ic-r S-MZ-C Jun. INTRODUCTION This service manual describes the latest service information for the IC-R and IC-R COMMUNICATIONS RECEIVERS at the time of publication. MODEL

Διαβάστε περισσότερα

SMD AVR AVR-M AVRL. Variable resistor. 2 Zener diode (1/10) RoHS / / j9c11_avr.fm. RoHS EU Directive 2002/95/EC PBB PBDE

SMD AVR AVR-M AVRL. Variable resistor. 2 Zener diode (1/10) RoHS / / j9c11_avr.fm. RoHS EU Directive 2002/95/EC PBB PBDE (1/1) SMD RoHS AVR AVR-M AVRL Variable resistor 2Zener diode Current(A) Positive direction 1 1 1 2 1 3 1 4 1 5 Zener diode /Vz:6.8V Chip varistor /V1mA:12V 2 Zener Diodes A capacitance content 18 14 1

Διαβάστε περισσότερα

VHF/UHF DIGITAL TRANSCEIVER

VHF/UHF DIGITAL TRANSCEIVER VHF/UHF DIGITAL TRANSCEIVER S-48XZ-C Apr. 009 INTRODUCTION This service manual describes the latest technical information for the IC-80AD and IC-E80D VHF/UHF DIGITAL TRANSCEIVER at the time of publication.

Διαβάστε περισσότερα

SERVICE MANUAL. HF/50MHz ALL MODE TRANSCEIVER. i756pro

SERVICE MANUAL. HF/50MHz ALL MODE TRANSCEIVER. i756pro SERVICE MANUAL HF/0MHz ALL MODE TRANSCEIVER ipro INTRODUCTION This service manual describes the latest service information for the IC-PROII HF/0MHz ALL MODE TRANSCEIVER. VER. # # # # # #0 VERSION U.S.A.

Διαβάστε περισσότερα

Capacitors - Capacitance, Charge and Potential Difference

Capacitors - Capacitance, Charge and Potential Difference Capacitors - Capacitance, Charge and Potential Difference Capacitors store electric charge. This ability to store electric charge is known as capacitance. A simple capacitor consists of 2 parallel metal

Διαβάστε περισσότερα

High Performance Voltage Controlled Amplifiers Typical and Guaranteed Specifications 50 Ω System

High Performance Voltage Controlled Amplifiers Typical and Guaranteed Specifications 50 Ω System High Performance Voltage Controlled Amplifiers Typical and Guaranteed Specifications 50 Ω System Typical and guaranteed specifications vary versus frequency; see detailed data sheets for specification

Διαβάστε περισσότερα

HIS series. Signal Inductor Multilayer Ceramic Type FEATURE PART NUMBERING SYSTEM DIMENSIONS HIS R12 (1) (2) (3) (4)

HIS series. Signal Inductor Multilayer Ceramic Type FEATURE PART NUMBERING SYSTEM DIMENSIONS HIS R12 (1) (2) (3) (4) FEATURE High Self Resonant Frequency Superior temperature stability Monolithic structure for high reliability Applications: RF circuit in telecommunication PART NUMBERING SYSTEM HIS 160808 - R12 (1) (2)

Διαβάστε περισσότερα

HF TRANCEIVER. ic-718

HF TRANCEIVER. ic-718 HF TRANIVR i- 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

Διαβάστε περισσότερα

COMMUNICATIONS RECEIVER

COMMUNICATIONS RECEIVER COMMUNICATIONS RECEIVER S-XZ-C-q Oct. This service manual describes the latest service information for the IC-R COMMUNICATIONS RECEIVER at the time of publication. MODEL VERSION FREQUEY COVERAGE (MHz)

Διαβάστε περισσότερα

Monolithic Crystal Filters (M.C.F.)

Monolithic Crystal Filters (M.C.F.) Monolithic Crystal Filters (M.C.F.) MCF (MONOLITHIC CRYSTAL FILTER) features high quality quartz resonators such as sharp cutoff characteristics, low loss, good inter-modulation and high stability over

Διαβάστε περισσότερα

Current Sensing Chip Resistor SMDL Series Size: 0201/0402/0603/0805/1206/1010/2010/2512/1225/3720/7520. official distributor of

Current Sensing Chip Resistor SMDL Series Size: 0201/0402/0603/0805/1206/1010/2010/2512/1225/3720/7520. official distributor of Product: Current Sensing Chip Resistor SMDL Series Size: 0201/0402/0603/0805/1206/1010/2010/2512/1225/3720/7520 official distributor of Current Sensing Chip Resistor (SMDL Series) 1. Features -3 Watts

Διαβάστε περισσότερα

Installer ar505eng.exe

Installer ar505eng.exe GUIDE FOR CD ) COMPOSION PCR_ PCR_.pdf FYC PCR Aformat.pdf PCR Aformat.pdf PCR MANUAL.pdf Installer areng.exe README.txt ) DESCRIPTION PCR_.pdf The service manual for IC-PCR and IC-PCR including all service

Διαβάστε περισσότερα

VHF MARINE TRANSCEIVER

VHF MARINE TRANSCEIVER VHF MARINE TRANSCEIVER S-499XZ-C April 203 INTRODUCTION CAUTION This service manual describes the latest technical information for the IC-M73, IC-M73EURO VHF MARINE TRANSCEiVER, at the time of publication.

Διαβάστε περισσότερα

[1] P Q. Fig. 3.1

[1] P Q. Fig. 3.1 1 (a) Define resistance....... [1] (b) The smallest conductor within a computer processing chip can be represented as a rectangular block that is one atom high, four atoms wide and twenty atoms long. One

Διαβάστε περισσότερα

SERVICE MANUAL. VHF TRANSCEIVER i2200h

SERVICE MANUAL. VHF TRANSCEIVER i2200h SERVICE MANUAL VHF TRANSCEIVER i00h INTRODUCTION This service manual describes the latest service information for the IC-00H VHF TRANSCEIVER at the time of publication. MODEL VERSION Europe Taiwan U.S.A.

Διαβάστε περισσότερα

SPBW06 & DPBW06 series

SPBW06 & DPBW06 series /,, MODEL SELECTION TABLE INPUT ORDER NO. INPUT VOLTAGE (RANGE) NO LOAD INPUT CURRENT FULL LOAD VOLTAGE CURRENT EFFICIENCY (TYP.) CAPACITOR LOAD (MAX.) SPBW06F-03 310mA 3.3V 0 ~ 1500mA 81% 4700μF SPBW06F-05

Διαβάστε περισσότερα

Electrical Specifications at T AMB =25 C DC VOLTS (V) MAXIMUM POWER (dbm) DYNAMIC RANGE IP3 (dbm) (db) Output (1 db Comp.) at 2 f U. Typ.

Electrical Specifications at T AMB =25 C DC VOLTS (V) MAXIMUM POWER (dbm) DYNAMIC RANGE IP3 (dbm) (db) Output (1 db Comp.) at 2 f U. Typ. Surface Mount Monolithic Amplifiers High Directivity, 50Ω, 0.5 to 5.9 GHz Features 3V & 5V operation micro-miniature size.1"x.1" no external biasing circuit required internal DC blocking at RF input &

Διαβάστε περισσότερα

Surface Mount Multilayer Chip Capacitors for Commodity Solutions

Surface Mount Multilayer Chip Capacitors for Commodity Solutions Surface Mount Multilayer Chip Capacitors for Commodity Solutions Below tables are test procedures and requirements unless specified in detail datasheet. 1) Visual and mechanical 2) Capacitance 3) Q/DF

Διαβάστε περισσότερα

DIGITAL VOICE REPEATER. id-rp4000v

DIGITAL VOICE REPEATER. id-rp4000v DIGITAL VOI RPATR id-rp4v S-1439XZ-1 Dec. 26 INTRODUTION This service manual describes the latest service information for the ID-RP4V DIGITAL VOI RPATR at the time of publication. To upgrade quality, any

Διαβάστε περισσότερα

Smaller. 6.3 to 100 After 1 minute's application of rated voltage at 20 C, leakage current is. not more than 0.03CV or 4 (µa), whichever is greater.

Smaller. 6.3 to 100 After 1 minute's application of rated voltage at 20 C, leakage current is. not more than 0.03CV or 4 (µa), whichever is greater. Low Impedance, For Switching Power Supplies Low impedance and high reliability withstanding 5000 hours load life at +05 C (3000 / 2000 hours for smaller case sizes as specified below). Capacitance ranges

Διαβάστε περισσότερα

SERVICE MANUAL. VHF MARINE TRANSCEIVER im602

SERVICE MANUAL. VHF MARINE TRANSCEIVER im602 SERVIE MANUAL VHF MARINE TRANSEIVER im0 INTRODUTION This service manual describes the latest service information for the I-M0 VHF MARINE TRANSEIVER at the time of publication. MODEL I-M0 VERSION USA USA-

Διαβάστε περισσότερα

HF/50 MHz ALL BAND LINEAR AMPLIFIER

HF/50 MHz ALL BAND LINEAR AMPLIFIER HF/0 MHz ALL BAND LINEAR AMPLIFIER ic-pw INTRODUCTION This service manual describes the latest service information for the IC-PW HF/0 MHz ALL BAND LINEAR AMPLIFIER at the time of publication. MODEL VERSION

Διαβάστε περισσότερα

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE SPECIFICATION ORDER NO. LDD-00L LDD-0L LDD-00L LDD-00L LDD-700L CURRENT RANGE 00mA 0mA 00mA VOLTAGE RANGE Note. ~ VDC for LDD-00~700L/LW ; ~ 8VDC for LDD-00~700LS CURRENT ACCURACY (Typ.) ±% at VDC input

Διαβάστε περισσότερα

Data sheet Thick Film Chip Resistor 5% - RS Series 0201/0402/0603/0805/1206

Data sheet Thick Film Chip Resistor 5% - RS Series 0201/0402/0603/0805/1206 Data sheet Thick Film Chip Resistor 5% - RS Series 0201/0402/0603/0805/1206 Scope -This specification applies to all sizes of rectangular-type fixed chip resistors with Ruthenium-base as material. Features

Διαβάστε περισσότερα

DIGITAL VOICE REPEATER. id-rp2000v

DIGITAL VOICE REPEATER. id-rp2000v DIGITAL VOI RPATR id-rp000v S-4308XZ- Dec. 006 INTRODUTION This service manual describes the latest service information for the ID-RP000V DIGITAL VOI RPATR at the time of publication. AUTION NVR connect

Διαβάστε περισσότερα

Downloaded from

Downloaded from 200GTL ALIGNMENT REVISION: 1.0 BURKE ALIGNMENT PROCEDURE Downloaded from www.cbradio.nl MODEL: 200GTL REVISION: 1.2 DATE: 02/14/06 PREPARED BY: BURKE Total Pages: 6 pages Page:1 print date: 9/23/09 200GTL

Διαβάστε περισσότερα

SERVICE MANUAL VHF AIR BAND TRANSCEIVERS

SERVICE MANUAL VHF AIR BAND TRANSCEIVERS SERVICE MANUAL VHF AIR BAND TRANSCEIVERS S-20HZ-C May. 2005 INTRODUCTION This service manual describes the latest service information for the IC-A22/E and IC-A3/E VHF AIR BAND TRANSCEIVERS at the time

Διαβάστε περισσότερα

Digital motor protection relays

Digital motor protection relays Digital motor protection relays Specification DMP -S & DMP -Sa DMP -T & DMP -Ta Model No. DMP06-S/Sa DMP60-S/Sa DMP06-T/Ta DMP60-T/Ta Wiring Screw type Tunnel type Panel mount Unit or Extension Note1)

Διαβάστε περισσότερα

Multilayer Chip Inductor

Multilayer Chip Inductor Features -Monolithic structure for high reliability -High self-resonant frequency -Excellent solderability and high heat resistance Construction Applications -RF circuit in telecommunication and other

Διαβάστε περισσότερα

PLL Synthesizer. Variable Type. Fixed Type (ROM Included)

PLL Synthesizer. Variable Type. Fixed Type (ROM Included) Excellent Phase Noise Low Spurious ~5V DC Voltage Supply Different Types of Package Available FractionalN & IntegerN PLL IC Custom Design Available PS6 x x 6.5 mm x x.7 mm Ref In Loop Filter CP PD VCO

Διαβάστε περισσότερα

Instruction Execution Times

Instruction Execution Times 1 C Execution Times InThisAppendix... Introduction DL330 Execution Times DL330P Execution Times DL340 Execution Times C-2 Execution Times Introduction Data Registers This appendix contains several tables

Διαβάστε περισσότερα

3%26)#% -!.5!, COMMUNICATIONS RECEIVERS ic-pcr1500 ic-pcr2500

3%26)#% -!.5!, COMMUNICATIONS RECEIVERS ic-pcr1500 ic-pcr2500 %)#% -!.!, COMMUNICAIONS RECEIVERS ic-pcr ic-pcr S-MZ-C Jun. INRODUCION CAUION his service manual describes the latest service information for the IC-PCR and IC-PCR COMMUNICAIONS RECEIVERS at the time

Διαβάστε περισσότερα

High Frequency Chip Inductor / CF TYPE

High Frequency Chip Inductor / CF TYPE High Frequency Chip Inductor / CF TYPE.Features: 1.Closed magnetic circuit avoids crosstalk. 2.S.M.T. type. 3.Excellent solderability and heat resistance. 4.High realiability. 5.The products contain no

Διαβάστε περισσότερα

38BXCS STANDARD RACK MODEL. DCS Input/Output Relay Card Series MODEL & SUFFIX CODE SELECTION 38BXCS INSTALLATION ORDERING INFORMATION RELATED PRODUCTS

38BXCS STANDARD RACK MODEL. DCS Input/Output Relay Card Series MODEL & SUFFIX CODE SELECTION 38BXCS INSTALLATION ORDERING INFORMATION RELATED PRODUCTS DCS Input/Output Relay Card Series STANDARD RACK MODEL 38BXCS MODEL & SUFFIX CODE SELECTION 38BXCS MODEL CONNECTOR Y1 :Yokogawa KS2 cable use Y2 :Yokogawa KS9 cable use Y6 :Yokogawa FA-M3/F3XD32-3N use

Διαβάστε περισσότερα

Prepolarized Microphones-Free Field

Prepolarized Microphones-Free Field Prepolarized Microphones-Free Field MP0 / MP3 / MP / MP / MP / MP / MP8 MP0 MP3 MP MP MP MP MP8 Standards (IEC7) I I I.3 ~ 0k 3 ~ 0k 0 ~.k 0 ~.k 0 ~ 70k 0 ~ k 0 ~ k Open-circuit Sensitivity (mv/pa) (±db)

Διαβάστε περισσότερα

Potential Dividers. 46 minutes. 46 marks. Page 1 of 11

Potential Dividers. 46 minutes. 46 marks. Page 1 of 11 Potential Dividers 46 minutes 46 marks Page 1 of 11 Q1. In the circuit shown in the figure below, the battery, of negligible internal resistance, has an emf of 30 V. The pd across the lamp is 6.0 V and

Διαβάστε περισσότερα

ΚΥΠΡΙΑΚΗ ΕΤΑΙΡΕΙΑ ΠΛΗΡΟΦΟΡΙΚΗΣ CYPRUS COMPUTER SOCIETY ΠΑΓΚΥΠΡΙΟΣ ΜΑΘΗΤΙΚΟΣ ΔΙΑΓΩΝΙΣΜΟΣ ΠΛΗΡΟΦΟΡΙΚΗΣ 19/5/2007

ΚΥΠΡΙΑΚΗ ΕΤΑΙΡΕΙΑ ΠΛΗΡΟΦΟΡΙΚΗΣ CYPRUS COMPUTER SOCIETY ΠΑΓΚΥΠΡΙΟΣ ΜΑΘΗΤΙΚΟΣ ΔΙΑΓΩΝΙΣΜΟΣ ΠΛΗΡΟΦΟΡΙΚΗΣ 19/5/2007 Οδηγίες: Να απαντηθούν όλες οι ερωτήσεις. Αν κάπου κάνετε κάποιες υποθέσεις να αναφερθούν στη σχετική ερώτηση. Όλα τα αρχεία που αναφέρονται στα προβλήματα βρίσκονται στον ίδιο φάκελο με το εκτελέσιμο

Διαβάστε περισσότερα

HF/VHF ALL MODE TRANSCEIVER

HF/VHF ALL MODE TRANSCEIVER HF/HF ALL MO TRANIR -0XZ- Jul. 00 INTROUTION This service manual describes the latest technical information for the I-00 HF/HF ALL MO TRANIR at the time of publication. AUTION NR connect the transceiver

Διαβάστε περισσότερα

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110 Replacement Parts List

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110 Replacement Parts List 9800-86 2-0-0 (REV:0) RYOBI 48 Volt Lawn Mower Model No. RY0 Replacement Parts List RYOBI RY0 48 volt lawn mower 3 38 39 44 39 36 34 36 42 38 39 3 4 37 34 3 43 2 32 0 8 9 2 4 33 8 7 6 3 6 7 22 8 20 3 30

Διαβάστε περισσότερα

ΨΗΦΙΑΚΟ ΠΕ ΙΟΜΕΤΡΟ TRIMAX SM 2500

ΨΗΦΙΑΚΟ ΠΕ ΙΟΜΕΤΡΟ TRIMAX SM 2500 ΨΗΦΙΑΚΟ ΠΕ ΙΟΜΕΤΡΟ TRIMAX SM 2500 ΤΕΧΝΙΚΟ ΕΓΧΕΙΡΙ ΙΟ www.trimaxmeters.com Παρακαλούµε διαβάστε το εγχειρίδιο αυτό προσεκτικά πριν χρησιµοποιήσετε το πεδιόµετρο για πρώτη φορά. Τα τεχνικά χαρακτηριστικά

Διαβάστε περισσότερα

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110A Replacement Parts List

(REV:01) RYOBI 48 Volt Lawn Mower Model No. RY14110A Replacement Parts List 9000-7 9-- (REV:0) RYOBI 4 Volt Lawn Mower Model No. RY0A Replacement Parts List RYOBI RY0A 4 VOLT LAWN MOWER 3 3 39 44 39 3 34 3 42 3 39 3 4 37 34 3 43 2 0 37 2 33 32 3 9 7 22 30 4 7 3 20 9 3 2 2 27 2

Διαβάστε περισσότερα

6.003: Signals and Systems. Modulation

6.003: Signals and Systems. Modulation 6.003: Signals and Systems Modulation May 6, 200 Communications Systems Signals are not always well matched to the media through which we wish to transmit them. signal audio video internet applications

Διαβάστε περισσότερα

65W PWM Output LED Driver. IDLV-65 series. File Name:IDLV-65-SPEC

65W PWM Output LED Driver. IDLV-65 series. File Name:IDLV-65-SPEC ~ A File Name:IDLV65SPEC 07050 SPECIFICATION MODEL OUTPUT OTHERS NOTE DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE VOLTAGE TOLERANCE PWM FREQUENCY (Typ.) SETUP TIME Note. AUXILIARY DC OUTPUT Note.

Διαβάστε περισσότερα

MAX-QUALITY ELECTRIC CO; LTD Thin Film Precision Chip Resistors. Data Sheet

MAX-QUALITY ELECTRIC CO; LTD Thin Film Precision Chip Resistors. Data Sheet Data Sheet Customer: Product: Size: Current Sensing Chip Resistor CS Series 0201/0402/0603/0805/1206/1010/2010/2512 1225/3720/7520 Issued Date: Edition : 12-Nov-10 REV.C5 Current Sensing Chip Resistor

Διαβάστε περισσότερα

SPEEDO AQUABEAT. Specially Designed for Aquatic Athletes and Active People

SPEEDO AQUABEAT. Specially Designed for Aquatic Athletes and Active People SPEEDO AQUABEAT TM Specially Designed for Aquatic Athletes and Active People 1 2 Decrease Volume Increase Volume Reset EarphonesUSBJack Power Off / Rewind Power On / Fast Forward Goggle clip LED Status

Διαβάστε περισσότερα

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE

DC-DC Constant Current Step-Down LED driver LDD-300L LDD-350L LDD-500L LDD-600L LDD-700L CURRENT RANGE SPECIFICATION ORDER NO. LDD-00L LDD-0L LDD-00L LDD-00L LDD-700L CURRENT RANGE 00mA 0mA 00mA 00mA VOLTAGE RANGE Note. ~ VDC for LDD-00~700L/LW ; ~ 8VDC for LDD-00~700LS CURRENT ACCURACY (Typ.) ±% at VDC

Διαβάστε περισσότερα

COMPONENTS LIST BASE COMPONENTS

COMPONENTS LIST BASE COMPONENTS ITLIN TEHNOLOGY grifo PPENIX : R SSEMLY The GP F can be ordered in two different mode: completely mounted, tested and ready to use or in assembly kit. In this final condition the user can directly use

Διαβάστε περισσότερα

the total number of electrons passing through the lamp.

the total number of electrons passing through the lamp. 1. A 12 V 36 W lamp is lit to normal brightness using a 12 V car battery of negligible internal resistance. The lamp is switched on for one hour (3600 s). For the time of 1 hour, calculate (i) the energy

Διαβάστε περισσότερα

CSK series. Current Sensing Chip Resistor. Features. Applications. Construction FAITHFUL LINK

CSK series. Current Sensing Chip Resistor. Features. Applications. Construction FAITHFUL LINK CSK series Current Sensing Chip Resistor Features» 3 Watts power rating in 1 Watt size, 1225 Package» Low TCR of ±100 PPM/ C» Resistance values from 1m to 1 ohm» High purity alumina substrate for high

Διαβάστε περισσότερα

ALUMINUM ELECTROLYTIC CAPACITORS LKG

ALUMINUM ELECTROLYTIC CAPACITORS LKG Lug / Snap-in Terminal Type, For Audio Equipment Disigned for high grade audio equipment, giving priority to high fidelity sound quality. The variation expansion of the. TYPE-: The low profile high tone

Διαβάστε περισσότερα

RoHS 555 Pb Chip Ferrite Inductor (MFI Series) Engineering Spec.

RoHS 555 Pb Chip Ferrite Inductor (MFI Series) Engineering Spec. RoHS 555 Pb Chip Ferrite Inductor (MFI Series) Engineering Spec. PRODUCT DETAIL Electrical Characteristics μh L (Min) Q MHz (Min) SRF Ω DCR IDC ma TEST FREQ: MHz TEST LEVEL: 100 mv Test Instruments HP4291

Διαβάστε περισσότερα

Multilayer Ceramic Chip Capacitors

Multilayer Ceramic Chip Capacitors FEATURES X7R, X6S, X5R AND Y5V DIELECTRICS HIGH CAPACITANCE DENSITY ULTRA LOW ESR & ESL EXCELLENT MECHANICAL STRENGTH NICKEL BARRIER TERMINATIONS RoHS COMPLIANT SAC SOLDER COMPATIBLE* Temperature Coefficient

Διαβάστε περισσότερα

RSDW08 & RDDW08 series

RSDW08 & RDDW08 series /,, MODEL SELECTION TABLE INPUT ORDER NO. INPUT VOLTAGE (RANGE) NO LOAD INPUT CURRENT FULL LOAD VOLTAGE CURRENT EFFICIENCY (Typ.) CAPACITOR LOAD (MAX.) RSDW08F-03 344mA 3.3V 2000mA 80% 2000μF RSDW08F-05

Διαβάστε περισσότερα

HF/50MHz TRANSCEIVER S-14407XZ-C1 Feb. 2008

HF/50MHz TRANSCEIVER S-14407XZ-C1 Feb. 2008 HF/MHz TRANSCEIVER S-XZ-C Feb. INTRODUCTION This service manual describes the latest service information for the IC- HF/MHz TRANSCEIVER at the time of publication. CAUTION NEVER connect the transceiver

Διαβάστε περισσότερα

SSB RADIO TELEPHONE ic-m700pro

SSB RADIO TELEPHONE ic-m700pro SSB RADIO TPHONE ic-m00pro S-0XZ-C June. 00 INTRODUCTION CAUTION This service manual describes the latest service information for the IC-M00PRO SSB RADIO TPHON at the time of publication. NEVER connect

Διαβάστε περισσότερα

Data sheet Thin Film Chip Inductor AL Series

Data sheet Thin Film Chip Inductor AL Series Data sheet Thin Film Chip Inductor AL Series Scope - 0201 and 0402 and 0603 series inductor is a photo lithographically etched single layer ceramic chip. This design provides high SRF, excellent Q, and

Διαβάστε περισσότερα

SMD Power Inductor-VLH

SMD Power Inductor-VLH SMD Power Inductor-VH Dimensions Unit: mm Type A B C E F H I J 252010 2.5±0.2 2.0±0.2 1.0max. 0.4±0.2 1.0min. 2.1 0.90 0.8 252012 2.5±0.2 2.0±0.2 1.2max. 0.4±0.2 1.0min. 2.1 0.90 0.8 321618C 3.2±0.3 1.6±0.2

Διαβάστε περισσότερα

Overview: Relay Modules

Overview: Relay Modules 20 Overview: Relay Modules 859 Series 857 Series 788 Series 858 Series 288 and 287 Series 286 Series 789 Series Relays with Changeover Contacts 1 changeover contact Item No. Page Item No. Page Item No.

Διαβάστε περισσότερα

Multilayer Ceramic Chip Capacitors

Multilayer Ceramic Chip Capacitors FEATURES X7R, X6S, X5R AND Y5V DIELECTRICS HIGH CAPACITANCE DENSITY ULTRA LOW ESR & ESL EXCELLENT MECHANICAL STRENGTH NICKEL BARRIER TERMINATIONS RoHS COMPLIANT SAC SOLDER COMPATIBLE* PART NUMBER SYSTEM

Διαβάστε περισσότερα

Summary of Specifications

Summary of Specifications Snap Mount Large High CV High Ripple 85 C Temperature The series capacitors are the standard 85 C, large capacitance, snap-in capacitors from United Chemi-Con. The load life for the series is 2,000 hours

Διαβάστε περισσότερα

No item Digit Description Series Reference (1) Meritek Series SI Signal Inductor LI: Leaded Inductor PI: Power Inductor

No item Digit Description Series Reference (1) Meritek Series SI Signal Inductor LI: Leaded Inductor PI: Power Inductor PART NUMBERING SYSTEM SI F 0805 K 780 F (1) (2) (3) (4) (5) (6) No item Digit Description Series Reference (1) Meritek Series SI Signal Inductor LI: Leaded Inductor PI: Power Inductor (2) Type F Ferrite

Διαβάστε περισσότερα

LS series ALUMINUM ELECTROLYTIC CAPACITORS CAT.8100D. Specifications. Drawing. Type numbering system ( Example : 200V 390µF)

LS series ALUMINUM ELECTROLYTIC CAPACITORS CAT.8100D. Specifications. Drawing. Type numbering system ( Example : 200V 390µF) Snap-in Terminal Type, 85 C Standard Withstanding 3000 hours application of rated ripple current at 85 C. Compliant to the RoHS directive (2011/65/EU). LS Smaller LG Specifications Item Category Temperature

Διαβάστε περισσότερα

No Item Code Description Series Reference (1) Meritek Series CRA Thick Film Chip Resistor AEC-Q200 Qualified Type

No Item Code Description Series Reference (1) Meritek Series CRA Thick Film Chip Resistor AEC-Q200 Qualified Type Qualified FEATURE Excellent Mechanical Strength and Electrical Stability Ideal for Pick and Place Machinery Stable High Frequency Characteristics Miniature, High Board Density Equivalent Specification

Διαβάστε περισσότερα

Power Inductor LVS Series

Power Inductor LVS Series RoHS Compliant Halogen Free REACH Compliant Part Numbering LVS 6645 L - 1R M - AU Series Name Dimensions Code Inductance Internal Code (mm) (uh) Tolerance 4412 4.x4.x1.2 L Low DCR R47.47 M ±% 4418 4.x4.x1.8

Διαβάστε περισσότερα

INDEX HOESUNG COIL PARTS

INDEX HOESUNG COIL PARTS 1. Metal Molding High Current SMD Power Inductor PART NO DEMINSION(mm) Inductance Range Rated DC Current Page MMI 06518 SERIES 6.5 7.1 1.8 1.0uH ~ 4.7uH 9.8A ~ 5.0A 5 MMI 06524 SERIES 6.5 7.1 2.4 0.47uH

Διαβάστε περισσότερα

Thin Film Chip Inductor

Thin Film Chip Inductor Scope -Viking s 0201 and 0402 series inductor is a photo lithographically etched single layer ceramic chip. Viking s design provides high, excellent Q, and superior temperature stability. This highly stable

Διαβάστε περισσότερα

SMD Power Inductor-VLH

SMD Power Inductor-VLH SMD Power Inductor-VH PAD AYOUT Dimensions Unit: mm Type A B C E F H I J 252010 2.5±0.2 2.0±0.2 1.0max. 0.4±0.2 1.0min. 2.1 0.90 0.8 252012 2.5±0.2 2.0±0.2 1.2max. 0.4±0.2 1.0min. 2.1 0.90 0.8 252510 2.5±0.2

Διαβάστε περισσότερα

MAX4147ESD PART 14 SO TOP VIEW. Maxim Integrated Products 1 MAX4147 EVALUATION KIT AVAILABLE ; Rev 1; 11/96 V CC V EE OUT+ IN+ R t SENSE IN-

MAX4147ESD PART 14 SO TOP VIEW. Maxim Integrated Products 1 MAX4147 EVALUATION KIT AVAILABLE ; Rev 1; 11/96 V CC V EE OUT+ IN+ R t SENSE IN- -; Rev ; / EVALUATION KIT AVAILABLE µ µ PART ESD TEMP. RANGE - C to +5 C PPACKAGE SO TOP VIEW V EE V CC SENSE+ SENSE- R t R t R t R t MAX SENSE OUT SENSE+ SENSE- N.C. SHDN N.C. 3 5 R f R G R f 3 VDSL TRANSFORMER

Διαβάστε περισσότερα

Metal Oxide Varistors (MOV) Data Sheet

Metal Oxide Varistors (MOV) Data Sheet Φ SERIES Metal Oxide Varistors (MOV) Data Sheet Features Wide operating voltage (V ma ) range from 8V to 0V Fast responding to transient over-voltage Large absorbing transient energy capability Low clamping

Διαβάστε περισσότερα

Accu-Guard II. SMD Thin-Film Fuse ELECTRICAL SPECIFICATIONS

Accu-Guard II. SMD Thin-Film Fuse ELECTRICAL SPECIFICATIONS Accu-Guard II is a version of Accu-Guard fuses for a wider range of current and voltage ratings. Con struct ed on alumina substrates, Accu-Guard II fuses display superior electrical, mechanical and en

Διαβάστε περισσότερα

Thin Film Chip Resistors

Thin Film Chip Resistors FEATURES PRECISE TOLERANCE AND TEMPERATURE COEFFICIENT EIA STANDARD CASE SIZES (0201 ~ 2512) LOW NOISE, THIN FILM (NiCr) CONSTRUCTION REFLOW SOLDERABLE (Pb FREE TERMINATION FINISH) Type Size EIA PowerRating

Διαβάστε περισσότερα

Thin Film Chip Inductor

Thin Film Chip Inductor Scope -Calchip s 0201 and 0402 series inductor is a photo lithographically etched single layer ceramic chip. Calchip s design provides high, excellent Q, and superior temperature stability. This highly

Διαβάστε περισσότερα

SERVICE MANUAL. VHF MARINE TRANSCEIVER ic-m422

SERVICE MANUAL. VHF MARINE TRANSCEIVER ic-m422 SERVICE MANUAL VHF MARINE TRANSCEIVER ic-m S-MZ-C-q Jul. 00 INTRODUCTION This service manual describes the latest service information for the IC-M VHF MARINE TRANSCEIVER at the time of publication. MODEL

Διαβάστε περισσότερα

YJM-L Series Chip Varistor

YJM-L Series Chip Varistor Features 1. RoHS & Halogen Free (HF) compliant 2. EIA size: 0402 ~ 2220 3. Operating voltage: 5.5Vdc ~ 85Vdc 4. High surge suppress capability 5. Bidirectional and symmetrical V/I characteristics 6. Multilayer

Διαβάστε περισσότερα

SMB SERIES Subminiature Coaxial Connectors

SMB SERIES Subminiature Coaxial Connectors SERIES Subminiature Coaxial Connectors FEATURES Subminiature coaxial connectors with 50Ω impedance for applications up to 4GHz. Suited for cables with dielectric diameters of up to 1.5mm. The connectors

Διαβάστε περισσότερα

IDPV-45 series. 45W PWM Output LED Driver. File Name:IDPV-45-SPEC S&E

IDPV-45 series. 45W PWM Output LED Driver. File Name:IDPV-45-SPEC S&E IDPV5 series S&E ~ A File Name:IDPV5SPEC 0805 IDPV5 series SPECIFICATION MODEL OUTPUT INPUT OTHERS NOTE DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE VOLTAGE TOLERANCE PWM FREQUENCY (Typ.) SETUP TIME

Διαβάστε περισσότερα

65W PWM Output LED Driver. IDPV-65 series. File Name:IDPV-65-SPEC

65W PWM Output LED Driver. IDPV-65 series. File Name:IDPV-65-SPEC IDPV65 series ~ A File Name:IDPV65SPEC 07060 IDPV65 series SPECIFICATION MODEL OUTPUT OTHERS NOTE DC VOLTAGE RATED CURRENT RATED POWER DIMMING RANGE VOLTAGE TOLERANCE PWM FREQUENCY (Typ.) SETUP TIME Note.

Διαβάστε περισσότερα

CSR series. Thick Film Chip Resistor Current Sensing Type FEATURE PART NUMBERING SYSTEM ELECTRICAL CHARACTERISTICS

CSR series. Thick Film Chip Resistor Current Sensing Type FEATURE PART NUMBERING SYSTEM ELECTRICAL CHARACTERISTICS FEATURE Operating Temperature: -55 ~ +155 C 3 Watts power rating in 1 Watt size, 1225 package High purity alumina substrate for high power dissipation Long side terminations with higher power rating PART

Διαβάστε περισσότερα

15W DIN Rail Type DC-DC Converter. DDR-15 s e r i e s. File Name:DDR-15-SPEC

15W DIN Rail Type DC-DC Converter. DDR-15 s e r i e s. File Name:DDR-15-SPEC DIN Rail Type DC-DC Converter ± : DIN Rail Type DC-DC Converter SPECIFICATION MODEL OUTPUT INPUT PROTECTION ENVIRONMENT SAFETY & EMC (Note 5) OTHERS NOTE DC VOLTAGE RATED CURRENT CURRENT RANGE RATED POWER

Διαβάστε περισσότερα

Current Sense Metal Strip Resistors (CSMS Series)

Current Sense Metal Strip Resistors (CSMS Series) Features: Range: 1mΩ to 100mΩ Low TCR as low as 75PPM High power rating Custom Values available RoHS Compliant and Halogen Free Operating Temperature: -55 C to +170 C Part Number Structure CSMS 0805 -

Διαβάστε περισσότερα

LR Series Metal Alloy Low-Resistance Resistor

LR Series Metal Alloy Low-Resistance Resistor Tel : 881745 Fax : 881749 LR Series Metal Alloy LowResistance Resistor This specification is applicable to lead free, halogen free of RoHS directive for metal alloy lowresistance resistor. The product

Διαβάστε περισσότερα
2024 © DocPlayer.gr Πολιτική Απορρήτου | Όροι Χρήσης | Σχόλια