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Ic 2 Gxat

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164 views47 pages

Ic 2 Gxat

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arielect
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fe) ICOM SERVICE MANUAL 144 MHz FM TRANSCEIVER IC—2GXAT IC—-2GXET IiC—2GXA I1C—-2GXE Downloaded by RadioAmateur.EU Icom Inc. INTRODUCTION This service manual describes the latest service information for the IC-2GXA/GXE, IC-2GXAT/2GXET VHF FM TRANSCEIVER at the time of publication, MODEL VERSION No. VERSION SYMBOL IC-2GXA, Australia #12 Europe EUR #13 United Kingdom UK IC-2GXE a4 Italy TA #16 Thailand THA #19 Denmark DEN #31 Asia SEA IC-2GXAT #35 USA, USA #37, ‘Australia AUS #32 Europe EUR #33 United Kingdom UK IC-2GXET #34 Italy ITA Thailand Denmark DANGER NEVER connect the transeaiver to an AC outlet or to. a DC power supply that uses more than 16 ¥. This will ruin the transceiver. DO NOT expose the transceiver to rain, snow or any liquids. DO NOT reverse the polarities of the power supply when connecting the transceiver. DO NOT apply an RF signal of more than 20 dBm (100 mW) to the antenna con- nector, This could damage the transceiver's front end. ORDERING PARTS. Be sure to include the follo four 's when ordering replacement parts: 1. 10-digit order numbers. 2. Component part number and name 3. Equipment model name and unit name 4, Quantity required 1180000530 IC SC-81250HG IG-2GXAT MAINUNIT 5 pieces: 8810005720 Screw TappingB02x20ZK ICG-2GXET Aearpanel 10 pieces Addresses are provided on the inside back cower for your convenience. REPAIR NOTES 1. Make sure a problem is internal before disassembling the transceiver, 2. DO NOT open the transceiver until the transceiver is disconnected from its power source. 3. DO NOT force any of the variable components. Turn them slowly and smoothly. 4. DO NOT short any circuits, An insulated tuning tool MUST be used for all adjustments. 5. DO NOT keep power ON for a long time when the transceiver is defective, 6. DO NOT transmit power into a signal generator or a sweep generator. 7. ALWAYS connect a 40 dB or 50 dB attenuator between the transceiver and a deviation meter or spectrum analyzer when using such test equipment. 8. READ the instructions of test equipment thoroughly before connecting equip- ment to the transceiver. TABLE OF CONTENTS SECTION 1 — SPECIFICATIONS 1-1 SECTION 2 _ INSIDE VIEWS 2-1 2-1 LOGIC UNIT we BA 2-2 RFUNIT we 2A 2-3 MAINUNIT ... 2-4 SECTION 3 DISASSEMBLY INSTRUCTIONS 3-1 SECTION 4 CIRCUIT DESCRIPTION ... concn bed 5 4-1 RECEIVER CIRCUITS 44 4-2 TRANSMITTER CIRCUITS 4-2 4-3 PLLCIRCUITS .... 4-3 4-4 VOLTAGE LINES 4-4 4-5 — OTHERCIRCUITS 4-4 4-6 — PORT ALLOCATIONS ... 4-8 SECTION 5 ADJUSTMENT PROCEDURES . 5-1-4 5-1 PLLADJUSTMENT .... 51 5-2 RECEIVER ADJUSTMENT S-1 5-3 TRANSMITTER ADJUSTMENT 5-3 SECTION 6 PARTS LIST nnn BVT SECTION 7 MECHANICAL PARTS AND DISASSEMBLY .... 7-1-2 7-1 CHASSIS PARTS 7-2 ACCESSORIES SECTION BOARD LAYOUTS 8 8-1 LOGIC-B UNIT (IC-2GxW—E) 8-1 8-2 — MAINUNIT AND MAIN-A UNIT (IC-2GXAVE) snes B= 3 8-3 RFUNIT . —— 8-5 ‘APC, DCJ AND VCO BOARD, CONNECT UNIT .. 8-7 VR, SW AND PTT BOARD .. 8-8 8-4 — MAIN-BUNIT (IC-2GXATIET) 8-3 8-5 —LOGIC-AUNIT (IC-2GXATIET) 7 SECTION 9 — OPTIONAL UNITS....... 9-1-2 =1 — UT-86 TSQL UNIT .. 9-1 9-2 — UT-49 DTMF DECODER UNIT 9-2 SECTION 10 BLOCK DIAGRAM 10-1 SECTION 11 VOLTAGE DIAGRAM 1-4 To upgrade quality, all electrical or mechanical pars and intrnal cuits are subject to change aa notice or obligation. con tle) ia ECIFICATIONS MGENERAL ¢ Frequency coverage + | MODEL VERSION FREQUENCY COVERAGE Ic20xa 144-148 MHz (TXIRX) IC-2GxaT 140-148 MHz (TH) 140-150 MH2" (AX) I Europe, Uniiad Kingdom| IC-2GXE Fraland, ‘Denmark eee IG-2GKET | ay 144-148 MHz (TX) 136-174 MHz" (RX) * Spaccatons guaranteed 14-148 Mi ¢ Mode 2 F3 (16KOF3E) «Tuning steps + 8,10, 125, 15, 20, 25, 30 or 50 KHz + Dial select steps 2 100 kH2 or 1 MHz ‘© Number of memory channels: 43 channels (40 regular channels, 1 call channel, and 2 scan edge channels) '¢ Antenna impedance : 50 Q (nominal) + Usable battery packs : BP-132A, BP-157A, BP-160 BATTERY PACKS, BP-130A BATTERY CASE with six R6 (AA) size dry cell or Ni-Cd batteries ‘* External DC power supply 6-16 V DC (negative ground) + Current drain (typical at 13.5 V) ‘igh SOK Transmit eooma Rocowe | Reted audio ouput 250 mA Power saved. 35 mA (averag * Usable temperature range ‘* Frequency stability “10°C to 460 °C (+14 °F to +140 °F} +415 ppm (at 0°C to +60 °C; +32 °F to +140 °F) + Dimensions with BP-160A, {projections not includes) BP-157A or BP-1908| 57 (W) x 125 (H) x 95 (D) mm; 2.2 (W) x4.9 (H) x 1.4 (0) in [wih BP-1928 B7 Wx 163.2 (H) x35 (Dmmia2 (W)x60H)xi4 O)in ‘© Weight *[1C-2GXA | 355 g; 12.5 oz (with BP-160) (with flexible antenna) IC-2GXE | 340 g: 12.0 02 (wth BP-130A and cells) IG-2GXAT| 965 g; 12.9 o7 (with BP-160) IC-2GXET| 350 g: 12.3 oz (with BP-130A and cels) WTRANSMITTER © Output power (atDC13.5 Vv): 7 W (HIGH), 1 W (LOW) (@tDC 7.2V) — : 3W(HIGH), 1 W(LOW) * Modulation system Variable reactance frequency modulation ‘* Max. frequency deviation 2 45.0 KHz (at 25 °C; +77 °F) + Spurious emissions + Less than -60 dB (at 25 °C; +77 °F) '* Microphone impedance 2 1kQ RECEIVER Downloaded by ‘¢ Receive system Double-conversion superheterodyne RadioAmateur.EU «Intermediate frequencies 5 fst 21,700 MHz 2nd 455 kHz «© Sensitivity Less than 0.18 nV for 12 dB SINAD © Squelch sensitivity Less than 0.16 nV (at threshold) * Selectivity More than 15 kHzi-6 dB Less than 30 kHz/~60 dB © Spurious and image rejection ratio More than 60 dB (at 25 °C; +77 °F) ++ Auio output power More than 350 mW at 10 % distortion wit an 8 2 load and DC 13.5 V. ‘* Audio output impedance 80 All stated specifications re subject to change without notice or obligation. SECTION 2_ INSIDE VIEWS + LOGIC UNIT cPu (C1; HD404618B10H) CPL system clock 1: CSBBOOJ220 ) Initial matrix 792.506 — 807.263 kHz Reset IC {IC3: MNN1382) EEPROM icz: x2a0ne5) Speaker (SP1: SU36WO8011G) Microphone (MC1; KUC2123) ¢ MAIN-B UNIT + RF UNIT Current amplifier Antenna DCJ board (08: 2881201) switching circuit Discriminator (Xt: CDBMa55C24) 2nd IF circuit AF amp. and mute 2nd IF filter coil irouit (bottom side) Fi1: CDBM455C24° 455 kHz Foterenos = crystal for i 2nd LO signal the TSQL ! crystal x1: CR-446 z 2; CR-468 3.5795 MHz 21.245 Miz TSQL cireul : crystal —? om (Fl2:FL-208) VEO circuit (¥CO board) PLL relerence M3: CR-A74 15.4 MHZ ‘AF circuit Microphone amplifier . APC circuit circuit (APC board) Pewer module {IC3: SC-1257) * This picture shows ine IC-2GXET Europe version, SECTION 3 DISASSEMBLY INSTRUCTIONS Fig. 1 Front pare! ® Remove 3 screws, ® (black, 2 x3 mm), and 2 screws, ® (black, 2 x 20 mm), to open the front panel, Fig. 3 ® Remove 4 stand-otfs © and 2 screws, @ (nickel, 2 x 35 mm). Fig. 2 Rear panel @® Pu} of the connector J1 and unplug the flexible lead to separate the front and rear panels, then remove 4 screws, © (nickel, 2 x 3 mm), and 2 nuts, ©. Unplug J2 and J3 under the MAIN unt, then remove the MAIN unit Fig. 4 Front pane! @® Remove 6 screws, @ (nickel, 1.4 x 3.5 mm), SECTION 4 CIRCUIT DESCRIPTION 4-1 RECEIVER CIRCUITS 4-1-1 ANTENNA SWITCHING CIRCUIT (RF UNIT) Received signals pass through a low-pass fier (L9, L8, C36 - C41). The fitered signals are applied to the 1/44 type antenna switching circuit (L7, C95, C34, L6, DS, C105). ‘The antenna switching circuit functions as a low-pass fiter while receiving. However, its impedance becomes very high while DS is turned ON. Thus, transmit signals are blocked from entering the receiver circuits. The antenna ‘switching circuit employs a 1/42, type diode switching sys- tem. The passed signals are then applied to the RF ampli- er circuit, 4-1-2. RF CIRCUIT (RF UNIT) ‘The RF circuit ampities signals within the range of frequen- cy coverage and fies out-of-band signals. ‘The signals from the antenna switching circuit pass through a band-pass filter (L5, 4), and are then applied to the RF amplifier (23). The amplified signals are passed through the band-pass filter (L2 ~ L4, D1 ~ D3, C22 ~ C29) to suppress unwanted signals. D1 ~ Dé employ varactor diodes that track the band-pass filters and are controlled by the PLL lock voltage. These diodes tune the center frequency of an RF passband for wide bandwidth receiving and good image response rejec- tion, 4-1-3. 1ST MIXER AND 1ST IF CIRCUITS (RF UNIT) The 1st mixer circuit converts the received signal to a fixed frequency of the 1st IF signal with a PLL output frequency. By changing the PLL. frequency, only the desired frequency will be passed through a pair of crystal filters at the next stage of the 1st mixer. ‘The signals from the RF circuit are mixed at G2 with a ist LO signal (122.9 — 128.3 MHz) coming from the VCO board to produce a 21.70 MHz 1st IF signal After passing through the matching circuit (L1), the 1st IF signal is applied to a pair of crystal filters (FI2) to suppress out-of-band signals. The 1st IF signal is ampified at the IF amplifier (Q1) and applied to the 2nd mixer circuit (IC1 pin 16). 4-1-4 2ND IF AND DEMODULATOR CIRCUITS (RF UNIT) ‘The 2nd mixer circuit converts the 1st IF signal to a 2nd IF signal. A double supetheterodyne system (which converts receive signals twice) improves the image rejection ratio and obtains stable receiver gain, ‘The 1st IF signal from Qt is applied to the 2nd mixer sec- tion of IC1 (pin 16), and is mixed with the 2nd LO signal to be converted to a 455 kHz 2nd IF signal. IC1 contains the 2nd mixer, 2nd local oscillator, limiter amplifier, S-meter and quadrature detector circuits. The 2nd local oscillator section and X2 generate 21.245 MHz for the 2nd LO signal. The 2nd IF signal (455 kHz) from the 2nd mixer (IC1 pin 3) passes through the ceramic fiter (FI1) where unwanted sig- als are suppressed. It is then amplified at the limiter ampitier section (1C1 pin 5) and applied to the quadrature detector section (IC1 pin 10 and ceramic discriminator Xt) to demodulate the 2nd IF signal into AF signals. See Figure 1 AF signals output from IC1 (pin 8) are applied to the de- emphasis circuit (C104, AGB). This de-emphasis circuit is an integrated circuit with frequency characteristics of ~6 dBioctave. The resulting signals are applied to the AF active filter (MAIN unit Q12, Q11). The signals are also applied to the DTMF decoder (IC-2GXAT/ET) or optional tone squelch circuits (TSQL unit; -2GXA/E), ‘The _S-meter output signal from IC1 (pin 12) is applied to the CPU (LOGIC unit; ICt pin 9) US an er Ena Pacey ae 21.245 Mi " poche + les Ls t aie = a le ee] | Ke a Maer Ty he Fe ss 270 mie| : fr ar xt 4 pieotminator 2 ICt TAST196FN S.meis onal berupne eusy tana cru pn es Fig. 12ND IF amplifier circutt 4-1-5 AF AMPLIFIER CIRCUIT (MAIN UNIT) ‘The AF amplifier circuit, including an AF mute switch, ampi- fies the demodulated signa to drive a speaker AF signals are applied to Q12 and Qtt on the MAIN unit 12 is an active fiter that functions as a high-pass fiter to suppress subaudible tone signals for tone squelch opera tion, 11 is also an active fiter that functions as a low-pass filer to suppress higher noise signals. ‘The filtered signals pass through the AF mute switch (Q10) ‘and [VOL] control (VR board Fit) and are then applied to the AF power amplifier (IC4 pin 4). AF signals are power- amplified at the AF power amplifier (IC) to drive the speak- cer. AF signals output from IC4 (pin 10) pass through the ‘external speaker jack (RF unit J2) and are applied to the speaker (LOGIC unit). ‘When the squelch is closed, Q10 cuts the AF signal as the AF mute switch. The AF amplifier regulator (Q8, Q9) supplies sufficient volt age to drive the AF power amplifier. The AFON signal from the data expander (IC3) controls Q9 to reduce the current rain while the squelch is closed. MAIN UNIT RF UNIT 2 extemal ‘specker Loic UNIT Diterental amp. Fig. 2 AF SIGNAL LINE 4-1-6 SQUELCH CIRCUIT (RF UNIT) Anoise squeich circuit cuts out AF signals when no RF sig nal is received. By detecting noise components in the AF signal, the squelch circuit switches the AF mute switches. ‘Some of the noise components in the AF signal from FM IF IC (ICt pin 9) are applied to C1 pin 8 via C103. The SQL control (VR board R1) adjusts the pin 8 input level. ‘The active fiter section in IC1 amplifies noise components Of frequencies 20 kHz and above. Output signals are recti- fied and are converted to DC voltage in the noise detector section. ‘The signal is applied to the CPU (ICt pin 29) on the LOGIC. unit through the BUSY signal fine and the CPU outputs an ‘AF MUTE signal via the VO expander (IC3) and a BUSY LED signal via pin 97. 4-2 TRANSMITTER CIRCUITS 4-2-1 MICROPHONE AMPLIFIER (MAIN UNIT) The microphone amplifier circuit amplifies audio signals with +6 dBloctave pre-emphasis from the microphone to a level needed for the modulation circuit. ‘The AF signals from the built-in condenser microphone (LOGIC unit), or from the [MIC} jack on the RF unit, are applied to IC1 (pin 16), and are pre-emphasized to +6 dBloctave. IC! functions as the microphone amplifier and the limiter. ‘The output signals from 1C1 (pin 8) pass through the fre- quency deviation pot (R8) and are applied to the modula- tion circuit on the VCO board. Q15 on the LOGIC unit is the PTT control circuit, and out- puts “High” to the CPU when transmitting. 4-2-2 MODULATION CIRCUIT (VCO BOARD) ‘The modulation circuit modulates the VCO oscilating signal (RF signal) using the microphone audio signals. ‘The “MOD” signal changes the reactance of a diode (D2) to modulate the oscillated signal at the VCO circuit (Q1, Q2, D1). The oscillated signal is butter-amplified at G3, and Q12 on the RF unit. The amped signal passes through the transmitreceive witching circuit (D10, D8) on the RF unit and is then applied to the drive amplifier circu. 4-2-3. DRIVE AMPLIFIER CIRCUIT (RF UNIT) ‘The rive ampitier circuit amplifies the VCO oscillating sig- nal to the needed level at the power ampitier. ‘The signal from the transmitireceive switching circuit (010) is amplified at the pre-drive amplifier (Q13) and is then amplified again at a drive amplifier (Q14) to obtain approx. 20 mW of driving power. 4-2-4 RF POWER AMPLIFIER (RF UNIT) C1 is @ power module which provides a stable 7 W (at DC 135 V) of output power. The RF signal from the drive amplifier (Q14) is applied to the power amplifier (IC3, Pl). The amplifier signal is output {rom IC3 (PO). The output signal is applied to the antenna connector through the APC detector circuit, the antenna switching circuit and the low-pass fiter circuit. 4-2-5 APC CIRCUIT (RF UNIT AND APC BOARD) The APC circuit protects the power module (IC3) from a mismatched output load and selects HIGH and LOW output ower, The output power from the power module (IC3, PO) is applied to the APC detector circuit (L14, D11, D12) to obtain a mismatched voltage. When the antenna impedance is matched at 50 0, the detected level is at its minimum, However, when antenna impedance is mismatched, the detected voltage is higher than when itis matched. The detected voltage is applied to a differential amplifier cir- ‘cuit (Q4b) on the APC board. The APC reference voltage is determined by the power output control circuit (MAIN unit Q16), The APC reference voltage is applied to the base of (4a on the APC board. When the antenna impedance is mismatched, the base voltage of Q4b exceeds the reference voltage. The collec- tor voltage of Q4b decreases. The current from the diferential ampiifir circuit (Q4a, Q4b) is amplified at Q5, then controls the bias voltage of the power module (IC3) until the base voltage of Q4b reaches the same level as the voltage of Q4a. AA thermistor (3) controls the APC reference voltage and adjusts the output power to compensate for temperature fluctuations. RF UNIT APC BOARD, Fig.3 APC CIRCUIT 4-26 POWER OUTPUT CONTROL CIRCUIT (MAIN UNIT) The power output control circuit (Q16, R54) selects the output levels (HIGH, LOW) and controls the RF output power with the APC reference voltage. ‘The “HLOUT” signal from the VO expander (IC) is used as ‘a power selection signal 4-2-7 ANTENNA SWITCHING CIRCUIT (RF UNIT) The antenna switching circuit applies received signals to the receiver circuit and the transmitter signals to the antenna con- noctor. When transmitting, D5 and D8 are turned ON. The RF out- Put signal is not permitted to enter the receiver circuit. The signal passes through the low-pass filter (L8, L9, C97 — C41) and is then applied to the antenna connector. The low-pass filter suppresses high harmonic components. 4-3 PLL CIRCUITS 4-3-1 GENERAL A PLL circuit provides stable oscillation of the transmit fre- quency and the receive local frequency. The PLL circuit compares the phase of the divided VCO frequency to the reference frequency. The PLL output frequency is con- trolled by a crystal oscillator and the divided ratio (N-data) of a programmable divider. 4-3-2 PLL CIRCUIT (RF UNIT) ‘The PLL circuit, using a one chip PLL IC (IC2), directly gen- crates the transmit frequency and receive 1st LO frequency with a VCO. The PLL IC sets the divided ratio based on seri al data from the CPU on the LOGIC unit and compares the phases of a VCO signal and the reference oscillator frequency. The PLL IC detects the outof-step phase and outputs it from pin7. 4-3-3 REFERENCE OSCILLATOR CIRCUIT (RF UNIT) ‘A 15.4 MHz stable frequency is oscillated at X3 and 17. The frequency is adjusted with C112. The frequency is divided by 3080 to obtain the PLL reference frequency (5 KH). 4-3-4 PROGRAMMABLE DIVIDER AND PHASE DETECTOR CIRCUITS (RF UNIT) ‘The VCO generated signal (PLL LO signal) is amplified at Q9, and is applied to a PLL IG (IC2 pin 5). The PLL LO sig- nal is divided at the programmable divider section and is then applied to the phase detector section. ‘The phase detector compares the input signal and a refer- tence frequency and outputs the out-of-phase signal (pulse type signal) from pin 7. | SS tne sus" LT veo Boar 1 nx ! veo Butor | Butlers tstinier 1 1 ao we Ly BEHOL>Hpy 1 ance 1 Preaiver po ee Sa oe; <| z 5 [Phase [Progranmab detecor [| “Souner [Prescaber| pulice 7 Ba font HER wooo — feo” | “sain Fig. 4 PLL CIRCUIT 4-3-5 CHARGE PUMP AND LOOP FILTER CIRCUITS (RF UNIT) ‘The phase detected signal is applied to the active loop fiter (Qs, 5, C54 - C58) and the lag-lead loop filter (R34, C53). These loop fitters convert the pulse signal to DC voltage while increasing the DC voltage range 4-3-6 VCO CIRCUIT (VCO BOARD) The VCO circuit (Q1, G2, D2, L2) generates the transmit frequency and the receive 1st LO frequency. The varactor diode (D2) provides frequency control. While transmitting, the SHIFT signal (SHIFT) from RSS becomes *HIGH" to tum Dt OFF and while receiving, the SHIFT signal (SHIFT) from RSS becomes "LOW" to tur D1 ON. The output sig- nal from the collector of Qt is butfer-amplified at Q3 and is then applied to the PLL IC (IC2 pin 5) through Q9. On the ‘other hand, the output signal from the collector of Q3 is butfer-amplfied at Q12 on the AF unit. These butter ampli- fiers amplify VCO oscillation and do not permit subsequent circuits to affect the VCO oscillation. The amplified signal is applied to the transmitrecelve switching circuit (09/010). 4-4 VOLTAGE LINES __LINE DESCRIPTION HV | This voltage is suppliod from a battery pack or extemal DC power supply (OCs board ‘VEC | This voltage passes through the power switch with [VOL] contrat (At) on the VR board and is then applied to the SV regulator circuit (25: MAIN unit}, This VCC is used for the transmitter circuit. ‘Common 5V converted from the VCC line by the SV regulator circuit (4, Q5) using the reference regu: lator (102) on the MAIN unit RSS| Receive SV contolled a G7 using the “ASSO” sig ral from IC3 on the MAIN unit. This voltage is used for power saver control in the receiver circuit. 'V for tansmitter Grout controlled by the “TSC” sig: ral from the CPU (LOGIC unit). The “T45" regula tor ireuit located on the APC board and consists ot 1, 02 and O14 TS Downloaded by Amateur.EU 4-5 OTHER CIRCUITS 4-5-1 SUBAUDIBLE TONE ENCODER CIRCUIT (IC-2GXA, MAIN-A UNIT) The IC-2GXA (U.S.A) has a subaudible tone encoder cir- cuit to access a repeater requiring a subaudible tone, 1C6 encodes the subaudible tone frequency signals of 67.0 Hz to 250.3 Hz. The serial data from CPU (IC1) on the LOGIC unit passes through J4 on the MAIN unit and is then applied to a serialparallel converter (IC6) to set the tone signals. C6 supplies the 6-bit parallel data to pins 8~ 13 of Ics. ‘The 6-it parallel data from ICB passes through the pro- (grammable counter section of IC5. A 3.579540.5 MHz re erence frequency from Xt is applied to a programmable ‘counter section of IC5, The divided signal is output from ICS (pin 1) and is then applied to RES for tone deviation adjustment. The signal is applied to IC1 (pin 2) on the MAIN unit and modulates the microphone signal 4-5-2 TONE SQUELCH CIRCUIT (IC-2GXAT/ET, MAIN-B UNIT) ‘The IC-2GXATIET has a tone squelch circuit on the MAIN-B Unit, The tone squelch circuit provides pocket beep, tone squelch and programmable tone encoder functions. 1C6 encodes and decodes the subaudible tone frequency sig- nals of 67.0 Hz ~ 250.3 Hz. ENCODER FUNCTION The serial data from IC3 (pin 10) on the MAIN unit is applied to IC6 (pin 11) through the SDATA line, The tone signal reply to the serial data signal is output from IC6 (pin 21) and is applied to the microphone amplifier (IC1 pin 2) through R79, which adjusts the deviation level DECODER FUNCTION The received signal from the DETO signal line is applied to the low-pass fter (C54, C61, R65, R66) and then to pin 1 of IC6. The filtered signal is compared with the pro- ‘grammed tone signal. Pin 14 of IC6 becomes *LOW" when the received signal includes the same tone as the pro- grammed tone frequency. The CPU on the LOGIC unit detects agreement with the tone signal when pin 14 of IC6 becomes "LOW." 4-5-3 DTMF DECODER CIRCUIT (Optional for IC-2GXAT/ET) The UT-49 DTMF DECODER unit provides pager and code squelch functions. ‘The “DETO" signal from the MAIN unit is applied to the DTMF decoder IC (IC1 pin 2) on the optional UT-49. The input signal passes through the filter circuit in IC1 and is then applied to the signal detector circuit in IC1. When the double tone signal is detected, pin 15 of IC1 becomes “HIGH.” Therefore, the CPU (IC! pin 22) on the LOGIC unit becomes “LOW" and then decodes the received DTMF code. The data expander IC3 on the MAIN unit outputs an enable signal to read out the 4-bit binary outpiits (Q1 - Q4: terminal number) trom the UT-49 DTMF DECODER unit. The CPU (Ct pins 70, 71) on the LOGIC unit outputs a DTMF code signal. The output signal is applied to R50 on the MAIN unit for DTMF deviation adjustment. The signal is applied to the [MIC] amp section in IC1 on the MAIN unit. 4-6 PORT ALLOCATIONS 4-6-1 CPU (LOGIC UNIT IC1) =| FoR - uwaen | Rane DESCRIFTION wena me BESSAPTION +] —PLSTB | Ouputesvebe sna for saval dala “ Sir eras fora fete buLie(eajen tno ut 7475 Gk eicatrTonal or @PU 2 | 1STB | Outputs strobe signals for serial data a ea aiaal iE tothe dala expander (C2) an he ee tone IG (68) on he MAIN un. : 77 | TONED [Outputs 1750 Ha tone cal signal 3] BIALUP input port or the up signal atthe ede rari loon main dial on the SW board. —+- SUS LED a Ome LED signal 4 [BAL OWN input pont forthe down signa of the 79 | 6K | Ouipus eck signal or sei dala iain al on he SW boar c0 | DATA | Outputs sere data syncroniz with 5 ERCK | Outputs clock signals to the EEP- the OK signal FROM (102) during data sondeceve & | EROATA [10 pon for seria data to the EEP- OM (1G) for memory readiwrte. 4-6-2. DATA EXPANDER (MAIN UNIT IC3) 7 TT | np pot for the [PTT] eth “HIGH: vans wha | hae GESCRPTON Bowles 1 “STAB | Input port for a strobe signal from the VEREF | Reerenc vlogs inp emia cou. METER input port for an s-meter dotection Z| BATA input por for serial data fom the sal : cou. 70 | KEY | Input port for (FUNG). [LAMP] and 3 [GLK | ingut portor the clock signal tom the [MONI switch wit fee vatages, | Pu. 1878, | RGD RES | input pos ory eu signal fom 4 [TOE Outputs an enable signal forthe 21,22 tho kaybows DMF decoder (C-2GXATIED, 78 | _tAWPO | Output pon or the LOD bakit 3 | WMUTE | Oupis a mirophone mute sia 20 TSC ‘Outputs a TS control signal. When } HIGH rele muta, tis por "HIGH, TS volage Is pro: & | AFON | Octuts the AF power amplifier con duced in the APC bead wel signal HIGH AF amp actvats. 25-28 | KiO=KIS | Output ports orth Keyboard. KIO 13 are also used for DTMF decoder LOW": AF amp deactivates. data ouput 7] RFMITE | Ouput por orth resive mating Si 29 | BUSYAINLK | Detects squelch and PLL unlock sig- fal which mutes aucio power. nals This pr becomes LOW when 7 | SDATA | Outputs serial data for the tone the equeleh is closed or PLL Te | encoder noes “iz | RSC Oupuis a power sve cota signal 30 =] Bates a signal forthe tay made whan reeting. Sac aetneioaneeesene 18 3586 | Outputs a power save control signal by mode when the port Becomes puis @ pom Low" en ranting : SE cer Ta | RLOUT | Outpts the cont sigaais for ho SES 6 ese mem sed ste eee ‘output power selection circuit, These 70,71 = ‘Outputs a OTMF code signal | signals are converted into the APC Teterance votage wih R54 the MAIN unt SECTION 5 ADJUSTMENT PROCEDURES 5-1 PLL ADJUSTMENT | ADJUSTMENT MEASUREMENT aouustuent | ADJUSTMENT CONDTIONS VALUE POT __| | Punt [LOCATION [unr Tabuust Lock 1 | Displayed frequency: 144.000 MHz RF | Connectthe digi | 12Ve02V veo rey VOLTAGE Receiving talvolimeter or | after a fills To raneniting cosciloscope to | attached. — 2 | e Transmitting fo Verity 3 | Repeat steps t and 2 several times when the lock voltage Is changed, REFERENCE | 1 | eDispiayod froquoncy: 146.000 MHz Top pane! | Loosely couple the] 146.000 MHz BF en2 FREQUENCY | | eConnect the RF power meter or a 50.0 ‘requeney counter ‘dummy load tothe antenna connector. fo the antenna Transmiting connector. 5-2 RECEIVER ADJUSTMENT T ‘ROJUSTMENT ADJUSTMENT ‘ADJUSTMENT CONDITIONS. MEASUREMENT VALUE POINT unit [LOCATION unrr_| adJUST ‘SENSITIVITY | 1 | «Displayed frequency: 145.000 MHz MAIN. | Connectihe OC | Maximum RF [Adustin ‘°(SQL] control: Max. CCW volimetertothe | OC voltage sequence ‘*Connoct the $SG tothe antenna connector ‘S-metorline of J4. 1s, 4,b3 and set as: | Bu Level 1.0 nV" (-107 dBm) ‘Modulation :1 kHz Deviation 243.5 kHe |__| eReceiving I | ‘SMETER ‘*Displayed frequency: 145.000 MHz Front | Logic unit $3(3d00) | AF | Fe ‘*Connect the SSG tothe antenna connector} panel | LCD display and sot as Level :05V" (-11968m) Modulation $1 kHz | Deviation :43.5 kHz Recoivi = 1 * Tie ouput love ofthe standard signal generator (SSG) is inicated asthe SSGis open cout. ‘STANDARD SIGNAL GENERATOR (SSG) F POWER METER 100 200 Mie Aero w ison ~127 10-17 dBm (0.1 uV to 32 mV} CAUTION: 000 135 Vi [ oo POWER SUPPLY DO NOT connect 138V/3A, the signal generator while transmitting tothe aa Sonus FREQUENGY COUNTER ‘oo van ite soon teat 0 rT Or C21 ks s-moter adjustment us —Ti, = J _ (RF unit) uy tll b Senstity TIL adjustment L3 ae Tilt en u a G—— LV Lock vottage check point ll (RF unit) L2_ Lock voltage check adjustment (VCO board) MAIN unit C112. Reterence frequency adjustment (RF unit Note: BF unit adjustment can be performed through openings fon the Main unit side. Connect the DC voltmeter 5-3 TRANSMITTER ADJUSTMENT MEASUREMENT ae (ADJUSTMENT ‘ADJUSTMENT CONDITIONS ‘VALUE PORT. war_[__cocanon ia | Ab00ST cura |: |eopayestemercy acco mie [Ter paal] Cometne ar |7.0W wan | Ase owen |" |ocpepower ragn power nero Staroniing una comer these power sua stages 185 2 | oupapower stom os-aw veal sae | FREGUENGY | 1 [oDapayesteqnmoy usacoureYeppara Gomoanorw [aesuu | wan | ne DewaTIOn | | sougutpor’ ctgh power nox sonaton rt ‘Came ne aud gona he MC) bemowa are inka necro be ‘aan oh (5A ven vat Tomar (A er vlons) sat FM deat mtr ee cove zone eenphace OFF Dewar ea 7 GTuFTONE [1 |eOmpayestoasney vsacowre [Teppma] Comeainora [osu | WAN | AGO Deviation. | | ¢PucnD}tey le vronting svat el tezaxa omora cre maHen recor teh re air Tonecat [1] oisioyedtoqnny:48000ure [Toppan Gommartorw [saswe | wan | hab beviarion | | usn(OuPyomch who ronan, conus att tezexe omer ane] nocor tough be aout SUBAIDLE|1 | coupayedveaony tecor0 ue [roppanal| Coweco rw [aovsume | Maw | pee tone Shope ogra te mene ome senate Deviaron | | Seer e renonay an b0ste moausrecm poser | | ssernercovaun noire recor teh he Usavesta| [wee ore eon iaoue Doonphass. OFF bese er repo dna eG] comactr otras Tonesa || depeyectoneny aso mie [oppanal| Comectnora [so7ewe | wan | Are bewarion | | ape oe soveten metro woz | | ter cathe bomen cr 2GHEn| | Deonphais Lor necor twee he Deer Pry oats eroeteqey e8sHe “Toph ale Me corecer stoning RF POWER METER to [DC 13.5 V) DC POWER SUPPLY 10W/502. Ney ai to the antenna ATTENUATOR ‘connector to [MIC] | AUDIO GENERATOR Dero Sone 8 FM DEVIATION METER 0 aso Mie - R73 Tone SOL deviation iescenen || la R66 subaudible tone deviation (IC-2GXA U.S.A. version only) MAIN unit R54 Output power adjustment IC-2GXW/E R46 Tone call deviation (IC-2GXE only) RB _Frequency deviation acustment + 7 R54 Output power adjustment =( o go cy R46 Tone cal deviation (IC-2GXET ony) IC-2GXAT/ET OW RB Frequency deviation adjustment R50 DTMF tone deviation SECTION 5 ee [LOGIC-B UNIT] (IC-2GXA/E only) Fer ‘ORDER [LOGIC-B UNIT] (IC-2GXA/E only) Fer ‘ORDER aad ROE DESCRIPTION na a DESCRIPTION rer | sr40002520 | sic HosorssraH cre |assoooez0 | sTanTatum —EosTrcxt06R ics | rr40003680 | suc Hoso4618810H cr |osoooseso | S.cERAMIC — C1e08.JB 1HATIKT-A tc2 | rao00a610 | sic x24c0456.27 18 |aosocoseso | S.cERAMIC — Ce08 JB 1Ha7IKTA 1c | rs90007470 | sie YMN1S82NCTX) cre |aosocoseso | S.cERAMC C1608 JB 1HATIKTA 20 |oaooos7t0 | s.ceRaic Ceo st IH aTOu-T-& et |oaoooeri0 | S.ceRAMIC — Cle08 SL IHA7ONT-A ar | 1ss000s100 | S:TRANSISTOR asce2nt7-7R G22 |4oao0oe710 | s.ceRAMc — cte08 st HaTOs-T-A a2 | rss000st80 | S.TRANSISTOR 28c4201-7-7R 23 |aosocoeeso | S.ceRAMIC — Ce0BJB 1H ATIKT-A ‘as | 1890001050 | S.TRANSISTOR OTCIIaTUTIO7 26 Jaoso0osr10 | S.cERAMIC C808 SL IN A7OU-T-A aro | 1500000800 | STRANSISTOR OTCraaTU TiO” 625 |4oao0oeeso | S.CERAMNC C1608 JB IHATIKT-A ars | 1se0000e60 | S.TRANSISTOR DTCVeeTU TIO? 628 |4oao0oseso | S.cERAMIC Ceo JBIMATIKT A 214 | 1390000000 | S.TRANSISTOR OTCr4aTUTIO7 zr Jaosoooe710 | S.ceRAMIC — creo8SL IH A7O-T-A ars | 1st0000880 | s.TRANSISTOR 25A1622-6-7R 28 |osoooeeso | S.CERAMIC C1008 JB HA7IKT-A (018 | 1500001050 | STRANSISTOR OTCIiéTU TIO” c2a |aosooou710 | s.ceRawic — CreoeSL I a7Ou-T-A ca |aoaoooeczo |S.cERANC CED JB IC AIIKT-A ca |oaooee710 | s.ceRAMc — Creo8 SL IH 470-7. ps | 1790000500 | s.0100e mariocrw) 32 |4oaoooe7i0 | s.cERAMc crane SL IH 7OW-T-A ba | 1780000120 | s.0100 DwAo10-TE: 3s [aosooes710 | s.ceRaisic creo st mH a70u-7-& io | 1700000500 | s.0100e mario) cat |acaoooert0 | s.ceRAINc Coos SL IN 7Ou-T-A Dir | r1e0000080 | s.0100€ ap2o2u T107 635 |osoooe7i0 | s.cERAMIG — caoeSL IH A70UT-A Diz__| 1750000220 | s.01008 Darisw Tio7 23 |oaoooeri0 | s.ceRaMic — cre08 SL IN 4704.T-A 1a | 1750000220 | s 0100 DantsW Tio7 csr |éosoooeri0 | S.cERAMIC —Cte08 SL IN 470u-T-A ia | 1780000860 | s.0100€ marrorrw 638 |osocoesso | S.ceRaMic — Cisos Je a aTIK-T-A 1s | 1700001200 | s.0100 vanes21(T%) 632 faosocoeeso | s.ceRAwic C808 JB 1H A7IKTA cao |4osocoseso | S.cERAMIC C6088 IH A7IKTA x1 [eosocoease | ceramic csBaooi220 spr | 51000080 | SPEAKER sU-seWox0116. rr | ros0000690 | SRESISTOR _ERIDGEYS 399. (29 4a) Ra | 7os0002880 | SRESISTOR _ERIIGEYS 562 V (58 KO) Wi | roso00ss60 |suumpeR nus JPW re | zos0003800 | SRESISTOR —ERISGEYS 105V (1 MO) we | oso00sse0 | suumpER —_—ERISGE JPW Rs | 7os0003500 | SRESISTOR ERJSGEYS 183 (18 k2) wa | Yoaooesee0 | SuuMPER —-ERISGE JPW Fe | 7030003570 | S.RESISTOR —ERINGEYS 129 (124) fr | Foaoooasso | SAESISTOR —ERISGEYS 151 V (150 0), ro | ros0003s80 | SRESISTOR —_ERIBGEYS 331 V (30 2) St} z2s0000800 | s.swrrch ——_spaasgo0-2019R rit | 7os0003380 | SRESISTOR —ERUSGEYS331 V 30 0) ea | Toaoooaeso | SRESISTOR _ERISGEYJ 104 V (100 kQ) Rae | 7oa0005820 | SRESISTOR —ARDBTER34.0 390 KD) ge1 Jostooaa7sa | pce Baco1e as | 7os000ss10 | S.RESISTOR _AROBIeP-903.0 (200) EP2 jooteodceeo | FPc 8 3050 ar | roso0ose00 | SRESISTOR _ERISGEYJ 105 V (1 MO) EPs |seaooscs00 | LCD CONTACT sACN14s25@ Ree | res0005500 | SRESISTOR — AROBTAR.124.0 (120 KO) Fas | rar0000860 | SARRAY EXB.VAV 4745V (470 4) ae | Toa0003880 | SRESISTOR —ERIIGEYS104v 100K2) | | O51 |sca0001020 | .co. uyt2488 Fa | 7410000500 | SARRAY EXB.VAV 4735V (47 &Q) 052 |sorococ070 | s.teD UTHE798 ae | 7020000560 | SRESISTOR _ERISGEYJ 102 V (10 KO) bss |sorococ070 | s.LED UTE798 Rao | 7os000a720 | SRESISTOR — ERUSGEY 224 220K2) | | Ds4 |sodovotti0 | S.LED SUM-23VMWS T97B, rat |osoooatso | SRESISTOR —ERISGEYI 102 V (1 Ka) az |T0s0008510 | S.RESISTOR —_ROBTEP-303.0 (30 2) 4s | 7030008810 | SRESISTOR —_AROS18P.909-0 (30 2) free | roao00ss00 | SRESISTOR — RAORIAR-124.0 (120 KO) as | 7020005470 | SRESISTOR RAOBIOR244.0 (240 KO) ras | 700005400 | S.RESISTOR _RADBIER. 363.0 (56 2) rar | ros000se20 | S.RESISTOR _ERISGEY 339 V 2340) aa | roa0005390 | SRESISTOR RROSTEP-102.0(1 ka) sz | 7020002400 | SRESISTOR —_ERIBGEY471V 470 0) sa | roaooossto | SRESISTOR —_RAORTEP-202-0 (20K), se | 7000008320 | SRESISTOR RAOBYEP-108-0 {10 ka) ss | 7030003800 | S.RESISTOR ERISGEYJ 105V (1 MO) rise | rosovosseo | SRESISTOR —ERISGEYJ 104 V (100 KD) ce |a0soc0r170 | s.ceRAWe —crsoa cH M2219 7-8 63 |aosoo07i70 | S.CERAMIC C1608 CH TH 2210-7-A cio |aosooceseo | S.CERAMIC C1608 JB IHA7ZKeT.A 11 |aoaocese0 | SCERAMIC — Cte0RJB 1H 102K". cr2|4ssoo0ea10 | S.TANTALUM —ECSTICKIOeR (613 |oso008020 | SceRAWIC —Cte08JB IC A7SKTA cra | coso00eeso | SCERAWIC C1608 JB IH A7IKTA crs | oa00re070 | S.CERAMIC —C1608X7S1C 104K-T-A ‘3 =Surface mount GX GX IMAIN-A UNIT] (IC-2GXAIE only) IMAIN-A UNIT] (IC-2GXAVE only) FEF | ORDER Fer | ORDER ned coal DESCRIPTION all aned DESCRIPTION cr }rnton0s410 | suc uPC50296R.043-6/6-T2 nse | roaoooaeso |SRESISTOR —_ERIDGEYS479 V 47K) cz |1180000830 | suc $.61250H6.R0-T1 rps [030003560 | SRESISTOR ERISGEYS 103 V(10 KO) tea | sta0008810. | sic Busoo8BF-t p60 | 7030009800 | S.RESISTOR ERISGEYS 228 V (22 KO) ics |rntop01810 | suc ‘TArA68F(TPI) fRe1 | 7030008820 | S.ESISTOR —ERIDGEYS 101 V 100 2) ics | 1a0000050. 16 seriiea wusay | | R63 |roso00s720 | S.ReSisTOR — ERISGEYJ 224 V (220 KO) tes fris000ss10 | Sic Busoosr TY SA) (except USA) res |rovoo0ss40 | SRESISTOR —ERJSGEYJ 102 V (1 k9) (usa) ar | rsa00011s0 | s.TRANSISTOR UNoZN1TX) ree |ratoo00sso | S:TRIMER —-MVRSQHXBRNATS (USA), ‘a2 |1580000720 | STRANSISTOR OTAL4EU TiOT 3 | 690000880 /S:TRaNSISTOR DTCraaTu Tio7 04 —|tss0001170 | STRENSISTOR xPI501.) 48 cz |assoooerso | STaNTALUM — EcSTICYIOSR fas | 520000480 | STRANSISTOR 2561132 T100 a ca |4oa000e870 |s.ceranic — cre08 JB 1H 220K-7-8 7 — | s00001060 | STRANSISTOR OTANATUTIO7 cs |oaoo07140 |S.ceRAMIc — cigoe CH IH 121J-TA 0 |1520000850 | STRANSISTOR 2581201S-TR ce |f0ao008770 |S.ceRANNC C1608 JB IH SEAKTA 29 |ts80001170 | STRENSISTOR xPISOL(TALAS 7 |assoooe140 |S.TANTALUM — ECSTIEVATAR, ‘aro | 500001200 | sFeT 25J144-¥ TEBSR) 2 |aaoo0r1so | SceRAMC C608 CHIH SIT ‘011 |1ss0000160 | STRANSISTOR 2Sc4211-7-TR co |4oa000e030 |s.ceRmiic — cz01248 1c saIKT-A t2 | sa000a160 | STRANSISTOR 25ce211-7-7R (except USA) 14 [1500000680 | STRANSISTOR DTCissTU rior ce |scaooesi00 |sceraiic — ca012 JB IH Z7IKT-A ‘15 | tseo000430 | STRANSISTOR DTCraseu T1O7 (usa) (eceest USA) 10 |aasoor0070 |s.ceRaiic C1608 x75 16 104K-T-8 are [1500000820 | s.tRansIsTOR DTCraEU Tro7 cir |aa00080¢0 |s.cermic — cz012 48 1c aaK-T A | cr2 [4550000030 |S TANTALUM —TEMSVAOJ 75m ¢19 | 40s0008080 | S.CERAMIG C1808 JB 1M 102K TA 01 |17s0000380. | s.D100e 188957 (TPHRD) 14 |aoaoo0ea80 | S.CERANIC C1608 IB TH OAKT-A C1 |aos0006000 | S.CERAMIC C1608 JB IH 102-T-A x1 }eosoo0sr20 | xTAL RF-AA3 FAA NKD cre fastovoree0 | ELecTROLITIC ie mss 33UF fastesasm) (usa) | | c17 | 4osoo0eaa0 | s.ceRAMIC C1808 JB 1H 102K-T-A cis |4ssoo08rso |S TANTALUM —EcSTiCYIOsR 1a |aaano0ea80 | S.CERAMIC C1608 18 1H 102KT-A fR5 | roa000s030 | SRESISTOR _ERISGEYS 398V (99) 20 fassooosrs0 |S TaNTALUM — ECSTICYIOSR. fre | 7020000630 | S.AESISTOR ERUSGEY 305 (30 2) 21 [aos000e020 |sceRAMIC C1608 JB 1C.47aK-T-A fh |Toso003630 | SRESISTOR _ERISGEYS 398 (39S) 22 Jastovossro |S eLEcTROLMIC ECEVIAAZZIP Re |atoo0ass0 | STRIMMER — MVRS2HXBR NaS 2 |soa0000020 |S.ceRAMIC C1608 4B 10473K-T-A Ro |7eaoo03700 | SRESISTOR —ERIIGEYJ158V(150KQ) | | c25 |4ss0008200 | STANTALUM —ECSTOVYI08R fro |7020003580 | SRESISTOR —ERJSGEYS 108 (10 KC) 26 [assonoss4o |S TANTALUM —ECSTIAYSSSR. (excopt USA) car |aoaoooase0 |S.CERAMIC C1608 JB 1H 102K, rio |7020003000 | SRESISTOR _ERISGEYJ 225 (222) cae |aoaooose80 |S.CERAMIC C1608 JB 1H 102K-T-A Wsa) cae |aos0000020 |S.cERAMIC C1608 JB 10473KT-A far | 02000520 | SRESISTOR ERIIGEWAT2V (4.7 9) 30 faston0sszo | SELECTROLTIC ECEVOJAIOISP ria |roaoooaea |SRESISTOR — ERIIGEYI 104 (100%) | | C32 _|eas001I0070 | S.CERAMIC C1608 X7S 10 10EKT-A iia |roao008029 | SRESISTOR —EAIIGEYG 243 V 4 ka} ca |eoaoo0ee80 |S.cERAMIC C1608 J8 TH 102K-T-A fis |70390033¢0 | SRESISTOR _ERISGEY, 301 V (090 2) cca |aoaoooa890 |S.CERAMIC C1608 UF 1c 104z-T-A Reo |Posoo03s20 | SAESISTOR — ERISGEYIaT2V (47 KO) 35 |4oa0000080 |S.CERAMIC C1606 JB TH 102K-T-A frei |7030003560 | SAESISTOR ERISGEYJ 103V (102), faos000sa70 | S.CERAMIC C1608 JB IH222KT-A aa [7090003440 | SARESISTOR —ERISGEYS 102V (1 k2) Jso20008000 | S.CERAMIC C1808 JB TE 103K-T-A Fes |roan00a200 | SRESISTOR —ERIAGEYS 100 (10 0) 4090008000 | S.CERAMIC C1608 JB TE 103K-T-4 Res |7030003340 | SRESISTOR ERISGEY 151 V (150 2 cat [foaooro070 |S.CERAMIC 100875 10 T04K-TA, Ree | 7oao00as80 | SAESISTOR —ERISGEYI 153 (15 xO) ca |aoso00%920 |S.cERAMIC C1608 JB 1C473K-T-A ay |roso00se40 | SESISTOR —ERISGEYS 102 (1 KO) cee |aos0008860 |S.CERAMIC C1608 JB IH TOK TA ee [7020000470 | SRESISTOR —ERIIGEYS 182 (1.849) 4s |aoaoooa710 |S.CERAMIC C1408 SL 1H470I-T.4 free |roao00ase0 | SRESISTOR — ERIGGEYS 108 (1040) cas [assoooea20 |S TANTALUM — ECSTOUYA7SA free |7eao00a720 | S.AESISTOR —ERIIGEW22sv 22042) | | car | 4ss0008200 |S TANTALUM —ECSTOWYI08R frat |rozoooae00 | SRESISTOR —ERISGEYS 105 V(1 MO) 48 |4oa0010070 |S.CERAMIC C1608 X75 10 104K-T-A as [7020003480 | SRESISTOR —ERISGEYS 222 (2.2kO) 650 Jassonoe140 |S TANTALUM © ECSTIEVa74R_— (USA) ee |roao00ae30 | SRESISTOR —ERIOGEYs 393 (0 #0) test |oaooo7080 |SCERAMIC — CIKoB CHIH A7Os-8 far |7030002690 | SRESISTOR —_ERIGGEYS 308 V (30 KO) (usa) ae |7020009580 | S.RESISTOR ERJSOEYS 108 (100) ce52 |aosooo7080 |s.cenamic C1608 cH 1H 300874 rae |rosoooa4e0 | SRESISTOR ERIIGEYS 222 V 2.249) (Usa) ao |roso00a7e0 |SRESISTOR —ERUBGEYI474V 470K) | | css |eosn008e80 |S.CERAMIC C1088 1H 02K-T-A far |7oa000a700 | S.RESISTOR — ERMGEYI 154 (1509) usa) fiz |7020009580 | S.RESISTOR —_ERJGOEYS 159 V (15 40) 670 |aosooron7a |s.ceERAMIc —C1608X7S 10 104K TA ras [roio00sso | S.TRIMMER ——MVRS2HXBR NE73, {except USA) (except USA) crs |aaaoo10070 |ScERAMIc C1608 X75 16 104K-T-8 rar |roao00ve40 | SRESISTOR —ERISGEYS 473 (47 KO) (except USA) ws — |rosoooss60 |SuuMPER — ERISGE JPW rae |roao00arz0 |SAESISTOR —ERISGEY 224 @20ka) | | we | osd003060 |SuUMPER ERISGEJPWV USA) (excep: USA) Ws }7oao00s860 |SuUMPER —-ERIGGE JPW reo |roaoooar2a | SRESISTOR —_ERISGEY 224_V (220 K9) st |7oa0000440 |S.RESISTOR —ERUSGEYS 102 (1 KO) 21 |estooreeso |s.coNNecTOR 53307-1491 (excep! USA) sz |roaoooaeeo |SAESISTOR —ERNBGEYS 04 V(100k2) | | 12 —_festootee2o |S.cONNECTOR 4-175838-2 se [210002580 | STRIMMER —_MVRS2HXBR NA73 Be [estoorerzo | s.coNNECTOR 4175e00-2 Rss |7os0003580 | S.RESISTOR —_ERISGEYS 882 V (8842) 4 Jestootstoo |s.connecTon 52204-2500 se |roaoooaseo | S.AESISTOR — ERISGEYS 103 V (10 KO) sr |7030009500 | SAESISTOR ERISGEYS 185 (18 KO) ep! Jootoosro02 | pcs pane L ‘S=Surface mount IRF UNIT] IRF UNIT] Ter] ORDER REF] ORDER ns nai DESCRIPTION nae Aas DESCRIPTION tor | rrt0p0s490 | sic ‘TAONTSBFND.EL) fry |ros000s280 | SRESISTOR —_ERIIGEYI470V (47 2) cz [rst0a0se20 | ste M64073GP- 7000 Ris |os0003680 | SRESISTOR _ERISGEYS 104 V (100 K2) tea | 1480008400 | 16 sci2ss Rts | roa000a460 | SRESISTOR —ERIIGEYS 152 (1540), fis | Toaoo0a280 | SRESISTOR —_ERISGEYI470V (47 0) frie |rosoo0aseo | SRESISTOR —ERIBGEYI472 V8.7 42) 01 | ssa0002600 | STRANSISTOR 25¢4215.0 crEASR) Ri |oso00a280 | SRESISTOR —_ERIOGEYIA7OV 447 2) 2 | 1860000800 | SFET 225xse01G0-7R frre |Toso00a480 | SRESISTOR — ERMSGEYS 152 (1540) 3 | 1560000800 | s FET 2SKSE01GD-7R frie |Tox0003680 | SRESISTOR —_ERISGEYS 104 V (100 kD) G4 | ts80009010 | S.TRANSISTOR 25C417-GR (TE85R) R20 | 7030003680 | SRESISTOR _ERKSGEYJ 104 V (100 k2} 65 | tsaa00a010 | STRANSISTOR | 25C4117-GR (TE8SR) frei |ros0o0s680 | SRESISTOR —_ERJSGEYJ 104 V (1002) ce | rse0000540 | s.FET 25Kaao-y (TESSR) free | oso00sa80 | SRESISTOR — ERUSGEYS331 V (330 @) = | 1S00000420 | STRANSISTOR DTCra4EUTIO? rex |roso0ose80 | SAESISTOR ERISGEYJ 108 V (100 k2) 22 | ts30002560 | STRANSISTOR 2sc40s-3-7R Ret | Tos0000220 | §RESISTOR —ERIIGEYS 150 (15 2) sia000410 | STRANSISTOR 2802345/TX)S ae |Toso000440 | SRESISTOR —_ERUSGEYS 102 V (1 ka} s520002se0 | STRANSISTOR 25C4403.2.7R zt | Tos000s700 | SRESISTOR ERISGEYS 824 V (820 k2) fot2 | 1520002670 | STRANSISTOR 75C4405.9.TR Ree |oaoooa4g0 | SRESISTOR —ERMGEYS 222 V 2740) 14 | 530002570 | STRANSISTOR 25Ce405.9-TR R20 |Toa0000320 | s.RESISTOR —ERUSGEYS 101 V 100 2), 16 | 1590001080 | STRANSISTOR DTAINATUTIO7 Ro} |Tos0003460 | SRESISTOR —_ERISGEYS 222 V (2240), fr? | tsao009010. | S TRANSISTOR 25C4117.GR (TE85R) fez | roaoo0a4e0 | SRESISTOR —_ERISGEYS 152¥ (15 42), fas |rosoooss00 |sResisTOR — ERUSGEYS332V (33 40), fret | roaoooasso | SRESISTOR —ERIIGEYI422V (8240), br | rrz0000a70 | svanicaP —HYUSSOTRF fas | Toao00a480 | SRESISTOR —ERUSGEYS222V (27 KO), 02 | 1720000870 | SVaRICAP ——-HVUSDOTRF Fae | Toso00a560 | SRESISTOR _ERISGEYI 103 V (10 ka) Da | 1720000870 | Saricap —— HvUsSOTRF Rar | roa0000880 | SRESISTOR _ERISGEYS 108 v 1100 x0) be |1720000370 | SVARICAP ——-HVUSSOTRF faz | Toa0003570 | SRESISTOR —ERUSGEYS 125V (12 *2) Ds | 780000450 | s DIODE ass2iTx), fas | 7030000320 | SRESISTOR —_ERISGEYI 101 V (100 2) Be | t780000620. | s DIODE ATT) as | 020000890 | RESISTOR —ERISGEYI305V 120 He) be | 1790000820. | s DDE arrcw) ras |Tos0000400 | SRESISTOR —ERISGEYI4T1 V (270 2) Dio |+780000820 | § DIODE Narrow) us | 7oa0000520 | SRESISTOR — ERNGEYS472 V8.7 KO), bt | 720000380 | s DIODE HsusaTRF ar | 7020000860 | SRESISTOR — ERISGEYS a5 V (63 2) biz | 720000380 | s DIODE HsuBeTRF ras |oso00s360 | S.RESISTOR —_ERISGEYJ221 V (220 2) Dia | 1720000380 | s DIODE HsuseTAr fas | Tosoo0as20 | SAESISTOR ERISGEYS472 V4.7 2), pis | 700001030 | s.0I00E 3630-03-70 so | roa0003520 | SRESISTOR — ERIIGEYI4TZV 147 HO} re |1790001030 | s DIODE 5830-09-70 st | Toaop0ae20 | SRESISTOR — ERURGEYS 101 V 160 0) pir |1750000840 | s.01006 185357 (TPHAS) sz | roa000a600 | S.RESISTOR — ERUSGEYS 209 [22 Ka) bre | 1799000880 | s.01008 nario rsa | ros000s260 | SRESISTOR — ERUSGEYS 330 (33 0) Rot | Toaoooae90 | SRESISTOR —ERIGEYS272 V2.7 KO) Rss | oao00a400 | SRESISTOR —ERNSGEYS 102 V(r xO) Fi | 2020000080. | cenamic Kor assps.asage free | 7020000250 | SRESISTOR —_ERISGEYS270V 27 2) Fla |oro00ves0 | oNOLITH ——_21415BE 21 700000K fasr | Toa0000500 | SAESISTOR —_ERISGEYSS32V 9.8 KQ) (L206) ree | Toao00ss70 | SRESISTOR — ERJOGEYS 129 V (12 #2) se | roao00ae40 | SRESISTOR — ERISGEYS 102 (142) eo | ros0003570 |S RESISTOR — ERISGEYS 128 (120) x1 |ecrooee1a0 | oiscal ccoamassces et | Toaoooae4o |SRESISTOR — ERIOGEYS 102 (1 Ka) x2 |60soo0a7e0 | xTAL (oF 468 UN ea | roa0000200 | S RESISTOR NCRICEZHJ 100 2 (101) (21 245¢00MH) et | Toao00q040 | S.RESISTOR — NCRIOEZHU 470 0 (471) xa |eosoo0aea0 | xTAL Raza UNA a7 | 7020002720 | SRESISTOR ERIOGEY 224 V (220 x2) ("5.dooe00Nt2) ea | 7090009540 | SRESISTOR ERISGEYI6#2 (6.840) ee |7os000%220 | SRESISTOR —ERIGGEYS 180 (16 0) ra |roa000aa70 | SRESISTOR — ERJIGEYI271V 270 0), ur | siso00a210 | con sare Rit | rosoo0a400 | S RESISTOR — ERUSGEYIa71 V (4700), t2 | s1so00a120 | coi isazt fra | ros0009s40 | SRESISTOR —ERISGEYS 682 (6.340), ta | s1s000a120. | con isa ra |Toao00a470 |S RESISTOR — ERIDGEYS 182.840) te | is0003120 | com saat ra | ros000s4e0 | S.RESISTOR — EAISOEYS152V (1549) ts [ersoooar20 | cow tae {8 | 6200002820 | s.con, LON 1447Nv04 U7 |rrooez970 | con, tazer cr |aoa000740 | s.ceRamic —_cr608 cH AH 21seT ts — | sir0002000 | cow izes 2 |assooos200 | S TANTALUM — ECSTOUY 08 ts | sir0002070 | con zr 3 |osoo0see0 | ScERAMIC C1608 8 1H 102KT-A Lio | 6200001080 | s.con. Murz0120 «7NMT ce |osoo0sae0 | S.cERAMIC —cis08 18 1H 10aK-T-A Lr | 200001500 | s.coit Mrz0120 RI2KT cs |aoao0oeee0 | ScERAMIC C1608 18 1H I02K.T-A Lz | 6200003290 | s.coit LING RIQKF ce faoa000se60 | s.cERAMic C1608 98 1H 102K T-A 13 | 200001830 | s.coit EUINC RIOK FE cx |4oso008880 | ScERAMIG C1608 18 1H 102K-7-A La | 6200001770 | s.coit ELING 47H ce |osoor0070 | s.ceRamIc C1608 x75 10 108K-T-A Lis | 200001820 | s.co1t 1MUF20120 Re2KT ce |oso007100 | s.ceRAMIc C1608 CH 1H ss0J-T-A Lis | 200001280 | s.coit MLFZON2A 1RON-T cto |4oa0007000 | SCERAMIC C1808. CH 1H 4703-78 cr |4osoo08ss0 | scenamic — cre08 JF 10 104z-T-8 C12 |aoaooro070 | ScERAMIG C1608 x75 1C 104K.T 8 1 |voao00s4so | SRESISTOR — ERVIGEYY 122 Vin.2Ka), cra |oaoooaseo | SCERAMIC — Cie08 JB 1H 102K-T-A ra | roso00a400 | SRESISTOR —ERMBGEYSA71 V 4700) cr |oadooe000 | S.CERAMIC C1608 JB IE 09K.T-A 3 | 7030003500 | SRESISTOR _ERJSGEYJ 183 V (18 2) cre |4os0000820 | scERAMic — Cieoa cH 1H os0B-T-A fe | Posn003400 | SRESISTOR — ERIIGEYI272 V2.7 x2) ci |aosoaori00 | S.ceRamic —ciso8 cH IM ss0s-T-A Rs | 7oa00a7e0 | SRESISTOR —ERJSGEYI 224 v 220 x2) | | cre | aos000%e60 | SCERANIC C1608 JB 1H 102K-T-A 7 | 7oao0oat00 | S.RESISTOR —ERIBGEYS471 V 470 0), cre |aosooose70 | s.cenamic creo SL IH a2700.T-A ra | rat000%800 | S.TRIMMER —_MVRS2HXBR No22 (2.2K) 21 |4oso00se60 | S.ceRAMic C1608 98 1H 102KT-A Fo | rosoos610 | SRESISTOR —ERISGEYS278V (27 KC) zz |4osoo0e7i0 | scenatic eos SL IH 4704.T-A ‘S=Surace mount GXT [RF UNIT] [RF UNIT] REF | ORDER REF | ORDER na ne DESCRIPTION ei a DESCRIPTION ces |oao000s60 | S.cenamic —_cteos cH 1H ATSBT-A cree |aoao007120 |s.ceRAMic 1608 CH 1H a20u-7-A Ges |4aaoo0er10 | S.cERAMIC —CrB08 SL IHATOI-T-A 110 |aoao007120 |S.CERAMIC C1608 CH 1Hazou-T-A ‘Gee |40a0008030 | S.CERAMIC C1808 CH 1H 0200-7. city |eoao007030 | S.cERAMIC C1608 CH TH rs0u-TA Bed | cer [4020000560 | s.cenamic — creos cH 1H ATSB TA cr2 [astooore00 |sTaMMER —cTZ3E20c-ws FB] | czs|sosoo0e710 | s ceramic SLIHATONTA e113 |eoso00see0 | S.cERAMIC C1608 JB TH T02K-T-A 20 |40aoo00510 | S.cERAMIC C1808 CH 1H o108-T-A 114 |aoaoo0ee80 |S.CERAMIC C1608 J 1H 102K-T-A 620 [4020008860 | s.ceRAMIC ——Cre08 JB 1H 102K-T-A crs [4sso008s20 |S Tanratum — ecsrosva7sR 631 [4020008710 | S.cERAMIC tao SLIMATOU-T-A rte |oso0oss60 |S.ceRAMIC C1608 8 1H 102K-T-A sz |4oan000510 | S.cERAMIC C1808 CH 1H o108-7-4 cr17 |4osooro070 |S.CERAMIC C1608 X75 1C 104K 7-8 Te | 22 |os000s060 | sceRamic Creo st Mzz00-7-A cre |eoao0.0860 |S.CERAMIC C1608 8 1H 102K-T-A BR | cas |soa0007050 | s. ceramic e118 [fosoooss60 |S.cERAMIC — C16088 1H 102K-T-A FB} | cos |oso0ora10 | s ceramic 120 |toaoooes40 |S.CERAMIC C1608 CH 1H O30C-T.A 26 |oa000080 | SCERANIC ——CteDs JB 1H 10aKT-A cr21 |eos0o10070 |S.cERANIC C1608 X75 10 104K-T-A sr |4oso007020 | SceRamIC —Cre08 CH IH 1200-7-A 122 |assooosszo |S TANTALUM — EOSTOUYATSA az |40a0006se0 | S.CERAMIC —CrB0ast tH.a70D-T-8 123 |aoaooo7070 |SCERAMIC C1608 CH TH 3s04-T-A 639 |4aao007060 | ScERAMIC —Cr60s CH IH 2703-7-8 cr24 [eosoo1e070 |s.ceRamic C1608 x75 10 104K-7-8 G40 |4030000550 | S.cERAMIC C1808 CH 1H 2RSBT-A #1 [4030006690 | S.cERAMIC —Cre08 SL IH 1s0W-7-A G44 |doaoo06a60 | S.CeRANIC — Cre08 JB 1H 102K-T-A wr |r120000000. | suMPER sPwor Ror G45 |oapo0ea80 | S.cERAMIC C1808 JB 1H 102KTA 48 |4030008860 | SCERAMIC —Cte08 JB 1H 102KT-A 650 |4os000e860 | S.CERANIC C1608 JB 1H 10aK TA 41 |e4soo001s0 | coNNEcTOR —Hss1102-01-540 52 |40a0006860 | S. CERAMIC C1808 JB 1H 102K-T-A 42 |sesoootos [CONNECTOR — Hsvi499-01-010, 53 [4580008360 |S TANTALUM ECSTVYI0eR tn [sstootesi |S.coNNECTOR 41767582 Get [4550006100 | STANTALUM —EcsTOGYIOeR st |estooieaio |s.connecton 4-176756.2 658 |4550000190 | STANTALUM — EcsTOGYI06R se |dosooraoro | S.CERAMIC —Cto08 X7S 1C 10¢K7-A cs |4oao008e20 | S.CERAMIC Creo SLIM 1504-7-& EP: Josro0soses feces 29450 58 |40a0008630 | S.CERAMIC —Cte08 SL IH 1500-7-A 660 |4oa0008860 | SceRANic —Cte0s JB 1H 102K 7-4 81 |osoe0e86o | S.CERAMIC —Cre08 JB 1H 102K-T-A [Dc-s BOARD] ez | 4030007020 | SCERAMIC —Cr608 CH IM 1200-7-8 ce |4oa00%0070 | S.cERAMIC C1808 X7S.1C 104KT-A REF] ORDER Ges |4oao008860 | S.CERAMIC —Cre08 JB 1H 102K-T-A NO. NO. pescaeoN 655 [4550000200 | STANTALUM —ECSTOUYTO6R ee |4030008500 | S.CERAMIC —CTe08SL 1Has0c-T-A cr |eosooosseo |s.cenamic — cre08 ya 1H 102K-T-A 667 |4os0000520 | SceRaNIC —Creoa ch 1H 0208-78 ces |4020008620 | s.ceRamic C1808 SLIM 1200-7-4 41 |4so001080 |conNecTOR —HECsa00.01.010 ‘cee |4030000860 | S.CERAMIC 1808.48 1H 102K. G70 |4aaoo0ess0 | SCERAMIC —_Cte0s CH 1H 0200-7-A EP1_Jooreosora0_|ece 8.4080 Gr |40ap006820 | S.CERAMIC Creo SLIM 1207-8 72 |4oa0008a60 | S.ceRAMIC — Cre08 J8 1H 1O2K-T-A 13. [4880008180 | STANTALUM — EcSTICYTOSR [APC BOARD] 74 |4oa0000860 | SCERAMIC —Cre08 48 1H 102KT-A 75 |40a00088¢0 | S.cERAMIC —Cr608.J8 1H 102K TA REF | ORDER 76 |¢0a0000840 | SCERAMIC —Cre08 SLIM TaOL-T-A NO. NO. pescrurnony c77 [4020000860 | S.ceRANIC ——Cte08 JB 1H 102K-T-A 7a |4030008880 | S.CERAMIC C1808 JB 1H 102K-TA 1 |1ss000s180 | S-TRANSISTOR asciait7-7A ra |4st00se00 | SeLecTROLC ECEvrcsi00sR G2 —_|520000480 | S-TRANSISTOR 2861192 T1000 ceo |4si000se00 | SELECTROLITIC. ECEVICSi003R 3 |150000040 |S.TRANSISTOR OTCHssEU Tio7 er |4oa0008860 | SCERAMIC — Cre08.J8 1H 102K-T-A fo | 580000820 | STRANSISTOR FSI TH48 cce2 | 4a20007040 | ScERAMIC —CY60a CH IH ra0s-T-A 05 [1540000410 | STRANSISTOR 2s02345(Tx)S ces |4oa000e860 | S.cERAMIC C1808 JB 1M 10aKT-A ces [4030007040 | SCERAMIC C1808 CH 1H 1a0s-7-8 ces | 4020008860 | SCERAMIC —Cte08 JB 1M 10ZKT-A 1 | 799000500. | s o10pe manorw cer |40a000¢a80 | S.CERAMIC C1808 JB 1H 102K. 2 | 180000080 | 5.0100 AN2ozUT107 cee | 4090006860 | S.CERAMIC C1808 46 1H 102K TA eo [4030008820 | S.CERAMIC C1809 JB 1H 102K TA ceo |4030000860. | S CERAMIC C1808 JB 1H 102K T-A i |rosooosseo |S.RESISTOR —ERISGEYS 103 V (10k) cet |toao00ea60 | SceRamic —Cre08 48 1H 102K TA 2 |7090003540 |SRESISTOR —ERISGEYS 682 V (8.8 KO) coz |402000e860 | s.ceRamic 1808 JB 1H 102K TA 2 | 7510000200 |S-THEAMISTOR TN20.9U4731T ea [4090006800 | S.CERAMIC C1808 JB 1H 102K-TA Re |ros0003610 | S.RESISTOR —ERISGEYI 278 27 KO} Gas | 4030008860 | SCERAMIC C1608 JB 1H 102K-TA Re |Tos000040 |SRESISTOR —ERIOGEYI 102 V(1 KO} coe [4380006130 | S TANTALUM EcSTIVYZ24R Re | 700009850 | SRESISTOR —ERISGEYS 563 V (98 k2) ca? |4020006860 | SCERAMIC C1808 JB 1H 102KT-A io |7030009580 |S.RESISTOR —ERJSGEYS 153 (15 2) cee [4020008860 | ScERAMIC C1808 48 1H 102K TA iz |oaoooae00 |SRESISTOR — ERIOGEVS 229 V (2 xO) 58 |4oaoo0ea60 | SceRANIC —Cre08 JB 1H 102K -A is |7030003680 |SRESISTOR —ERJOGEYS 563 V (0 KO) 100 [4020008860 | S.cERAMIC C1808 JB 1H 102K-T.A e101 |4oa0008ee0 | s.cERAMIC ‘e102 |4aa0008860 | 5 CERAMIC cr |eoao0o8e8o |s.ceramic 1608 19 1H 102K-T-A tea |4090010070 | S.CERAMIC C1808 X7S.1¢ 104KT-A 2 |assoooerso |S-TANTALUM —EcSTIVYzz4R 104 [4090010070 | SCERAMIC —Cte08 X75 16 104K T-A 63 |oaoooaes0 |ScERAMIC C1608 JF 1C TO4Z-T-A 6105 |aaoo07010 | S.cERAMIC ca |eosoo0sa80 |ScERAMIc C1608 18 1H 102K-T-A 108 | 030008860. | s.cERAMIC 5 |aosoooaseo /S.cERAMIC C1608 8 1H 102K T-A 107 |40a0008860 | S.cERAMIC 180848 1H 102K ce |4oso000800 |S.CERAMIC ° cie0B JB 1H IO2K-T-A toa [4020008900 | S.cERAMIC C1908 JB 1E 109KT-A cr |osooosss0 |s.ceRAMic C1608 8 1H 102K T-A ‘S=Surface mount IAPC BOARD} [CONNECT UNIT] Ter] — ORDER TE] ORDER a DESCRIPTION REF, | ONDE DESCRIPTION co | soaceceee0 | scenamic c1e00s0 1H soaK-ra ar | rszoco0sso | sraaisiston aseita2 i000 Gro |oaoeeeeeo | ScERAMIC C1008 6 1H 10RK-TA 2 | ssocente0 | StaansistOR ascaani7-T8 cer |ostooscess | poe asec 1 |r7s000a100 | szener —oacz5.1.2reasm) be | veooooere | S.o100e © ——Sbor-oue-ta bs | e0000880. | §bloDe wartort) [veo BOARD} bs | oeeeese0. | S.b1008 wartorra) WEF] ORDER ouscnprow no | ono 1 | rose00a250 | snesiston eRIGEYJ 270 27 0} Fe [rosoooses0 | SRESISTON — ERIOGEYI 270V (27 O} a1 | rseooeas2o | sTRansisTOR 2scezae-T2 Res a [Foaooossno | SAESISTOR —ERWIGEYJ 01 Va40 2) G2 | tesooozean | SRaNsisTOR s6caaze-T2 Ras fa |Fosooosero | SrEsieTOR —ERIGEY, 182 V (1840) 3 | se0002800 | StRawsisTOR ascasoaacTA fs [yosoooeseo | SesisTon — ERMGEVI47E V7 40} fe |rosoooseao |SAESISTOR —ERvacFY 102 (TKO), fr [rosoooseso |SmesisTOR — ERWaGEYs 102 (KO) 01 | s7e0000820 | s.p1008 warner fa | Fosoooae00 | SAESISTOR — ERWIGEYI 229 V 22h) bz |ivzoooosro | Svanicap —— HWUSEOTR fo |Fosoooss2n | SAESISTOR —ERWICEYs 101 (100 2) fio |rosooeseso | SResistoR — MemoEZH9.9 2 (Ro) tr |ezcooots20 | s.con ur20120 ReoK-r i |eraooeeree | scent bore cr |aosoooesso | s.ceramc _cre08 18 1H 10aK-4 1a Jezooooteso | s.co1t ELING ROK F| G2 [osoooeeso | Sceramc cre08 JB 1H 1oak-r-A © |fosoooseno | S.ceramc C1008 6 1H 1oanTA i |rosoonaran | sesiston —_enuscevs224-v @z0 Ko) fe |fosoooseen | Snesiston — EnuscEvs 01100 2), | | wi |rosooos880 | ssuMPER —_ERNOEVPW'V fa |fosooose8o | SmEsisTOR — ERIIGEYS 291 V 090 0} ma |rosoooareo | SAESISTON — ERWOGEYS<74V (7OKD) fe |rosoooasso |Sresiston ercevsezevezta) | | cpr [ootoosoers | ce soe Re 7030003360 | S.RESISTOR ERJOGEYJ 221 V (220 2) fr | Yosconasso | SmesisYon — ERlaGevdazeV (022) fre [Yosooess00 | Smesisvon — ERUsGEW 1 V (120.01 Re 7030003320 | S.RESISTOR ERJSGEYJ 101 V (100 9) IVR BOARD] fio [osooeaeso | SResisToR ERIOGEY) 502 (6a) St fir [Yoscooaero | Smesisvon — ERMAGEW aN V(270 0] re DESCRIPTION fiz [Yoscooses0 | SmResisvon — ERIaGEW! 150 (199) mis |fosooose2o | SRESISTOR — ERINGEYS 1504 (15 0} iii 7e10002000 | VARIABLE _TPoeDoowt5F-10KB10KA mis |re2000ae20 | SRESISTOR —ERIBGEYI 50 (35 9} ttaseyvOUSaL) fis [osooosee0 | Smesisvon — ERIOGEVI 1921540) | cr |4esecere60 | s.cenaic 08 cH sH 2002-74 Ge |Seacooceeo | Scemamic — Gteoae 1H 102K T-A € —|fosooueeeo | Scenamic Goad oan TA [SW BOARD] 4 —|foaoooseeo | Scemaitic — Chooe de 1 o2K-T-8 €& —[Sekoveece | SSeramG Groce 1 teateTA REF ]_onoeR DESCRIPTION & —|essoessto | Scename — Gieos cn moreD-T r —|foacooesio | Scenaic Gteos ct ior08-74 1 |aovoor00re | eceRawe creoe x79 v6 woxKTA | escooseeo | Scenamic Choos so rH eax Ta 1 |aosootoore | SceRame Croce xrs 48 104K Gio |feacooeeeo | Scemainc — Goada teak si |22s0001400 | enconen —_sw.128rkoe7100H) Gir |osceessoo | Scenamic — Sheoe CHIN onseTA joay iz |eacooeeeo | Scemaisic — Gteoa 1H raaKTA Gia |feacoorece | SceRamc Cheon cH 1H raDI-- eri fosioosree | ree sare ss Jecrocesezo | connector 1s.1020 Frum Fer] ORDER eer Josteosora2 | pcs 840008 ne ne DESCRIPTION i |ro2000seeo | SRESISTOR —AROeI0R 204-0 200.) fe |rosooossoo | SRESISTOR — AROSIOR-I24. (20 Ka) | si | 2eecotes0 | sswircn sxaora_erT) | s2 | Eeeo00ten0 | Sswiren —— SoP-r2Hsr [on $3 |eeocoto00 | Sswircn — SoP-t2HST (FUNC) | St |Eeeocoteso | Sswiren — Sop-itansr uci) ex: Jobtoosorse | poe paoree 'S =Surlace mount cer. [chase GXT [LOGIC-A UNIT] (IC-2GXATIET only) [LOGIC-A UNIT] (IC-2GXATIET only) Re] ORDER ner] ORDER ra a DESCRIPTION races DESCRIPTION ter | rreo00ae40 | suc Hosous 08108 ott [anaooeeeeo |s.ceRAmic c1608J8 1H 102K-T-& ice | rr4000a6t0. | S16 yaaco«se27 iz |assoooeato |S.TaNTALUM —ECSTICXIO8R tea |rra0007e70. | 5.16 naeeNncr) Gis Jacaoooes20 |sceRAMC — c108JB 1C-473KT-A + |oaososeso /SCERAMIC — CI60a JB 1HaTIR TA cots |toaooteore | s.ceRamic —ct608 x75 16 100K 7-4 ar |rsso00are0 | stransistOR zscaatr7-TR Gta assocoezt0 |S TANTALUM ECSTICXIOSR 2 | tssoooste0 | STRANSISTOR _25C42117-7R tr Jacaocoeeso | s.ceRamic C1608 JB IHaTIK-T-A 05 | tse00o10s0 | S TRANSISTOR OTCIW4TUTIO7 cre |aoasooesso |Scerame — Creoe JB 1HaTIKcTA ‘to |rssoodeeee | stransistOR OTCLAATU TIO? cio |aozcoosaso |S.ceRamic — cro0e JB HATIK:TAA rt |1s00000860 | straNsistOR OTCLasTU TIE? 20 |aosoo0e710 | S.cERAMIC — Cre09 SL 1H4700-T-A ‘12 | tse0000ee0 |S TRANSISTOR OTCIAsTUTIOT cat |aosoo0e710 | S.cERAMIC Cra08 SL 1H4700-7A fats |sse0000ee0 | StRaNsisTOR DTot4eTU TiOr Cee fataooosri0 | S.ceRAMC —Cieos SL 1Ha7OETA fate | rs000008€0 | S TRANSISTOR DTCH4sTUTIOT os |aoxo00eeso |SCERAMIC C1608 JB IH STIKTA ‘ts |isroce0ee® | STRANSISTOR 25A16220.7R coe [020000710 |S.CERAMIC C1608 SL Ha7ON-TA Gre |rsecoorese |STRANSISTOR DTor4TUTIO7 ces |ecsoooseso |S.ceRawic — Cieoe JB HATIKT-A coe |zos000eeso |S.CERAMIC C1608 JB IH ATIKTA Ger facaooosrre |S.ceRavic —CieoaSt tharos. os | 700000500 | 80100 MastorTw) 2s |aoso00saso |S.CERAMIC —C1s08JB IM S7IK-T-A be |r7s0000120 | 5. DIODE Dwaoro-7E cao |aaso00ers0 |S.CERAMIC C1608 SLIM a7O.-T-A ba |rzs000%200 | s0100E maosi21000 20 |4as000e020 |S.CERAMIC C1808 JB IC7IKTA 10 |1750000120 | § DIODE Dwac1o-TE car |aeso0cers0 | S.cERAMIC —C1e08 SL IH a7au-T-4 Bit | r1e0000050 |. 010DE Darzozu ior wen) | | cae faooooeers0 | s.cenamic Coos SL IH a7Os-T-A bit |1750000220 | §O100E Dasiaw T107 33 |aoanoosr10 |S.cERAMIC —Cieo8 SLIM a7as-T-A (UK. AUS, THA) cau aazoooerv0 | S.CERAMIC —C1e08 SLIM a7as-TA pir frrs0000240 | s.1008 Dante Tier 2s |aosooeente |siceramic —Cteoa st marosT-A (USA. EUR) Gee |avaoooerta |scenamic — Cteoast HarosT A p12 | r7s0000a40 | s100€ bare Tio7 Car |ansoooert0 [S.ceRamic —cieoe SLIM a701-T-A Dia |r7s0000220 | s 0100 DatiaW ior a0 |aaaoooeeso |S.ceRAIMC — Cre08JB IH ATIKT-A (AUS, DEN) oie |s700000500 | so1008 wassocrw (Sea, EUR UK. use. aus, | | ser 2510000080 | SPEAKER ——_SU.s8¥080116 ben) pis | rr20001200 | s 0100 mnas5120(7%) | ws |reaeoossso | suumpeR _enuace Pw ‘we resoooseeo | SsuMPER —-ERIIGE PWV x1 |eoao000a60 |cenamic ——_csesooi2z0 ‘ws [rosoooseeo | SiuNpcR —ERIOGE PWV | we /roaoooaeeo | SsuMPEA —-ERIOGE JPW fr |ros000se30 | SRESISTOR —ERLOGEYI 209 v (90 K2) F2 | roaoo008s0 | SRESISTOR — ERIDGEYI s63.V 50K2) 41 Jestootaeie |s.connecroR 1oF¥-1.08° fa |roaoooaeea |SRESISTOR — ERUSGEWS 05 (1M) As |roaoo0as00 | SRESISTOR — ERIOGEYS 109 V (18 KO) Fe |roaocoas70 | SRESISTOR —ERIDGEYI 123 12 KO) st |22s0000000 |sswircn —_ Jemre50-20138 fr frosoooaase |SRESISTOR —ERISGEWS 151 V 150 0) io |r0a0000380 | SRESISTOR —ERISGEYI 391 V 390 0) it [roaoo0sa8 | SRESISTOR — ERISGEYI 331 V (390 9) eet fooroososes | pce Boose fh2arosooosea0 | SRESISTOR — ERIaGEYA Yoav nooKa) | | EP2 jootoososso | FC 53050 Fes |oa000ss20 | SRESISTOR — RADBIGR-I34-0 (330 KO) Epa [asaooaosoo |icocontact SAcN4s256 es reaooossio | S.RESISTOR —RADBI6P 303-0 20 Ka) er |os000sa00 | SRESISTOR —ERIOGEY, t05,V (1 MO} Fee |Poso00sso0 | SRESISTOR — RROBIGR-126.0 (12042) st |soso001020 | tco we12408 fos | 74to000s60 | S. ARRAY EXB.VAV 474,V 470 KO} sz |soro000070 | s.te0 Imieraa Lie675) fae [rosoooseeo |smesisvor —eERIsGEYI av ooxa) | | Oss |soroo0007e |S LED Lriersa Leas) for |resoooseso |smesioTon — ERINcEYJ oev oka) | [os« _|so4ooorr10 | s.teD Suzavmws 1978 fae |retoo0oseo. | sanray EXB.VAV 47350 47 KO) Fae |oso003560 | SRESISTOR ERISGEVI 103,V (10 K2) Fao [roaoooar20 | SRESISTOR ERIAGEYJ 24 V (220 KO) 7 : Fat |roxo0os4s0 | SRESISTOR — ERIDGEY) 02 (1 K2) Ca ee ULL faz |rosooossto | SREsisTOR —RROBI6P903-0 20 ka) REF] ORDER fas [rosooossta. | SRESISTOR —RROBIOP-303.D 00 KO) No. | °NO. poscraey rea |os000ss00 | SRESISTOR — RROBIGR-126-D (120 KQ) Fras |ros000sa70 | SRESISTOR —RROSIGR-244-D (240 2) cr |rrro003si0. | sic yPcs0296R-043-010-T2 fae | 7030005400 | SRESISTOR _AROBIER-363.0 (2642) tz |rvao000si0 | ste S.21250H6-R0-T1 ar |roaooosea0 | SRESISTOR — ERIIGEY99V 5942) tes |rrao00ssio | sie sudoose-T1 Fae |roaooosae0 | SRESISTOR —AROSIP-102 (1x2) ice |rvto00ra10 [sic TaraeerTPH) 2 |rosooosaoo | SmesisTOR — ERISGEWaTTV (470.0) te |riaooo%az0 | sic anaoeieT Fis |roanoossto | RESISTOR —RROaI8P-203.0 [0 KG) ss |roa000se20 | S.RESISTOR —AROBIEP-105.0 10 K<) fas | 7030000000 | SRESISTOR —ERISGEYS 105 V (1 Mo) ar | rsoo001150 | sTRANSISTOR UNe211 7%) se |rosoooseeo |Sinesiston — ERssGeVI tor (1004m) | | a2 1590000720 |S TRANSISTOR DTAIS4EU 107 sr [rosoooseeo |Smesiston — ERIaGEWI 1o4v 00K) | |a3 [1390000860 |S TRANSISTOR DTCI4sTU ior 4 | rss0001170 | STRANSISTOR XP1S01-(K)AB 5 |rseoooouso |S TRANSISTOR 251132 T1000 cz |soseoorr70 |scename —_cre08 cH aH 2aisTA 7 | rsoo001060 |S TRANSISTOR OTAIIsTU TIO7 cs |foaooori70 |SceRamc — Cre08 cH IH 2213-7. 28 | szoo000s0 | STRANSISTOR 2981201.6-7R Gia aoaoo0eeeo | SceRatc — Cre08 JB THATZKT-A 2 frsoooors70. | STRANSISTOR —XPISOTATH).AB ‘S=Surlace mount [MAIN-B UNIT] (IC-2GXATIET only) [MAIN-B UNIT] (IC-2GXAT/ET only) FEF] ORDER EF] ORDER aa i DESCRIPTION a nal DESCRIPTION x0 | 1590001300 | ser 2snnae-y (TeBSR cz |assoo081s0 | STANTALUM — ECSTICYI05R ait |sa00031e0 | S TRANSISTOR 28c42117-7R. 63 | 4030008870 | SCERAMIC C1608 JB 1H 222K-T-8 ar2 | tsa000s1e0 | S TRANSISTOR 2sceait7-TR. cs |4oso007140 | SCERAMIC Cres CH IH TaIsT-A 214 | 1590000800 | S TRANSISTOR DTCIAATU TiO? c2 — |4020008770 | S.CERAMIC C1608 JB 1H S02KT-A 015 | 1590000830 | S.TRANSISTOR DTCIa4EU TIO7 cr |assovoer40 | s.TaNTALUM —ECSTIEYATAR ‘aie | 1500000820 | STRANSISTOR | DTCIAAEU TIO7 Ce |aoaoooris0 | SceRAMc — Creo8cH 1H 1514-78 co |aoaoooston | ScERAMIC C2012 JB 1H 273KT-A cre |aoaooi0070 | SCERAMIC 1608x7816 108K TA 01 | 1750000880 | s.0100€ 188957 TPHRS) cr |oa0000040 | SceRAMIc — cao12 48 1c 6aaKT-A rz [4550009030 | S-TANTALUM —TEMSVAOJ 475K cra |aosooose60 | S.cERAIC —C1608.8 1H 102K TA x1 | eosoo0e720 | xTAL (cR4ae AT-38 3. e084M2 cre |aoso00se80 | S.ceRAMIG ——Cs08 48 1H 102K-TA crs |aaaoooeee0 |S.cERAINC C1608 48 1M 102K TA cre Jastooote00 | ELECTROUIC 16 mss a3UF ns | roxo00a020 | SRESISTOR _ERISGEYI 395 (302) 17 |4os0008080 | s.ceRAMic C1808 J8 1H 102K Re | ros0003820 | SAESISTOR —ERISGEYJ 305 V (30 KO) cra fassooostso | s.TaNTALUM — EcSTICYI0sR 7 | 7030003800 | SRESISTOR _ERISGEYJ 303 V (29 2) cre |aoao0o8e60 | S.cERAIMC C1608 J8 1H 102K. re | ratoo0a550 | TRIMMER MVRO2HXOR Na73 20 |assoooeiso | S.TANTALUM —EcSTICYI05R Fe | roaoo0a700 | SRESISTOR ERUSGEYJ158V(150K2) | | car | aosoo08e20 | s.cERAMIC cie08JB 1C473K-T-A fio | roaoooaseo | SRESISTOR —ERI3GEYJ 03 (10K) 22 fastooossro | SELECTROLITIC ECEVIAAz2IP fit | roaoooase0 | SRESISTOR ERISGEWAT2 VAT Ka) cee |aoaoooa020 | SceRAMIC C1608 48 1C 473K-T-A fi | roaoeoaeeo | SRESISTOR —ERIIGEVI 104 V (1002) | | c25 | 4ssoo0s200 | s.TaNTALUM — ECSTOJY 06R. fri | Toaooos020 | SARESISTOR ERISGEYG 243 V 24 9), cae [4550008340 | STANTALUM —ECSTIAYSI5R fis | roaoo03390 | SRESISTOR ERISGEY 301 v (260 @) 27 |4oa0000000 | S.cERAMC C1608 48 1H 102K. ie | roso00s560 | SRESISTOR — ERISGEYI 103 (102) 2 |aoaoooses0 | S.ceRAMic — Ce08 JB 14 102K ree | 7oaoooase0 | SRESISTOR ERIIGEWAT2 VAT AO) 28 |aoaoooae20 | S.cERAMIC Cleo 8 1C.47SKTA Rat | Toaoo00560 | SAESISTOR ERISGEYJ 103 V (10 x2) 20 |astooosa2o | SELECTROLITIC EcevoUAI01SP aa | Toaoo0a4eo | SRESISTOR _ERISGEY 102V(1 ko) x2 |aoaoo1o070 | s.cERAMIC C1608 x7 1¢ 104K-TA es | Toa0003200 | SRESISTOR —_ERJSGEY 100V (10 2), 633 |4oao005e80 | S.ceRaitic —c1s08 Je 1H 102K-T- ae | Toa0003340 | SRESISTOR —ERJSGEYJ 191 V (150 2) 634 [aosoo.8es0 | S.ceRAMic C1808 JF 1¢ 1042-7-8 Fee | 7oao000580 | SRESISTOR —ERIIGEYJ 159 (15 42), 635 |oaooo8e60 | SceRAMIC C1808 JB 1H 102K-7-A Rar | roaoo03s40 | SRESISTOR —ERSGEYI 102V(1 ko) 636 |4os0006870 | S.ceRaitic —c1e08 Je 1H 220K TA ae | oao000870 | SRESISTOR ERJIGEYI 182 V1.8 2), 637 |4oao006000 | s.ceRaitc C1808 48 1E 103K 7-4 2 | 7030009500 | SAESISTOR ERISGEY, 109 (10 KO) 628 [4020000000 | s.ceRaMc 180848 1E 109K T-A sz | osooosreo | SRESISTOR —ERJAGEWa7ev 70 Ka) | | car |soso0r0070 | S.cERAMIC —C1608X7S 10 104KT-A Fes | 7020003900 | SRESISTOR — ERJIGEY 105 V (1 MO) 43 [oaoooab20 | S.ceRAMIC —C1808J8 16 473K-T-A ras | 7020003420 | SAESISTOR —ERJIGEYJ222V (2242), cas |4oao008060 | S.ceRAMc Creo JB 1H 102K-T-A rae | 7030000690 | SRESISTOR ERISGEYJ 303 V (59 KO) cas [oao008710 | s.ceRanic teva st rHaTOsT-A rar | 030003690 | SRESISTOR _ERISGEYI 303 V (30 2) 4s |4ss0008920 | STANTALUM —ECSToLYA75R. es | 7oaoo0as60 | SRESISTOR —ERISGEYJ 103 V (10 KO) car [4550000200 | STANTALUM — ECSTOUYI06R. fra | 7020003480 | SRESISTOR —ERVSGEYJ222V (22 K2) 48 |aoaoorao7e | S.ceRAMIC — CreD8 X75 1¢ 104K TA Fao | Po20o0a7e0 | SRESISTOR — ERIBGEVI47AV7OKA) | | cso | so0007080 | s.cERAMIC —Cis0B.CH 1H 150-8 ar |osoo0s7e0 | SRESISTOR —ERISGEYI 154 V (1502) | | cst | 4oao00z030 | s.ceRAMIC C1608 CH 1H 1503-7 faz |Po200095¢0 | SAESISTOR —ERLSGEY) 153 V (15 KO) ces2 |oaoor0070 | s.ceRaMic —ra09 x75 1¢ 100K Res [7210003550 | STANMER —MVRSZHXBR Na73 653 |4550000200 | STANTALUM —ECSTosYi06R. rar |osoo0asa0 | SRESISTOR ERJSGEYJ 473 V (47 KQ) cst |oaoo008s0 | S.CERAMIC —Ci808J8 IHATIK-TA as | 7090003720 | SRESISTOR —ERISGEYJ22eV (220K2) | | css | aos00087s0 | S.ceRAMIc — cis0a SL IH 1O1L-T-A fas |7os0008720 | SRESISTOR —ERJBGEYJ22« v 220 ka} | | cs6 | sso00s320 | S.TANTALUM — ECSTOIVATSR fRs0 | 73to0095s0 | S.TRIMNER —MVRSZHXOR N47 esr |4ssoo081so | STANTALUM — EcSTICYIOSR frst |Po2000340 | SIRESISTOR — ERJSGEY, 102V (1 Ko) 638 |4s80008150 | STANTALUM — ECSTICYI05R R52 | 7020003860 | SRESISTOR —ERUSGEYJ 104 V(ta0ka) | | cs | oso010070 |S.CERAMC C1808 X7S1C 108K-T-A fess | raio003ss0 | S.TAMMMER ——-MVRGZHXBR N473 661 |4020008000 | S.ceRAMIC C1808 JB 1E 103K-T-A frss | Poa000a540 | SRESISTOR _ERUOGEY a82'V (6.80) cee |4s80008150 | STANTALUM —ECSTICYIOSR frsé | 7030009560 | SRESISTOR ERVSGEY, 103V (10 KO), e70 Jcsoo10070 | SceRamic C1608 x75 10 ro4KT-A frst | Poao003se0 | SRESISTOR —ERVIGEYJ 183 V (1a K2) 71 Jaesooteore | S.ceRAMIC C1008 x78.1¢ 104K. se | roaoooae40 | S.RESISTOR —ERISGEYS 473 (47 KO) frs9 | 7030009560 | SRESISTOR ERJSGEY, 103V (10k), reo | roao002600 | S.RESISTOR ERSIGEYS 225 (22 KO) wi |r020003960 | ssuMPER —-ERIIGE spy ot | roso00ss20 | S.RESISTOR —ERUSGEYI 101 V(100 2) we |r000003960 | SJUMPER —ERUSGE JPW fea | rosoooa720 | SRESISTOR — ERUSGEYs 224 220K9) | | ws | 7030003860 | SJUMPER —ERUIGE JPW es | roao0oa730 | SRESISTOR — EuSGEYS 274 V (270 KG) ree | 7030003770 | S.RESISTOR ERJSGEYI 584 V (560 k2) fer | Toaoooa5e0 | S.RESISTOR ERISGEYY 15015 ko) 42 |estootedzo | sconNectOR 4.175638-2 ee | 7os0003700 | SRESISTOR —ERusGesev(isoKa) | | 43 |estootsaz0 | S.CONNECTOR 4.17508-2 reo | roao00%720 | SRESISTOR ERUSGEYJ274v 270K0) | | 4s —_esioorsag0 | S.CONNECTOR 52204-2500 fro | 7oa000%530 | S.RESISTOR ERIIGEYISe2V(5.8K2), iri | roso0ose00 | RESISTOR ERISGEYI 228 V (22k) rz | Toao0a510 | SRESISTOR _ERUSGEYI 982 V9.9 KO), ep: |ostoosiors | pce Bartec ra | 7s10003550 | STRIMMER —-MVRS2HAR NA73 firs | roaoooaeoo | SRESISTOR ERISGEYI 223 V (22 ka) rs | roso0ox740 | RESISTOR — ERISGEYS 334 V (330 KQ) faze | 7os000s800 | SRESISTOR ERJSGEYJ 105 V (1 M2) rrr | roaoooa770 | SRESISTOR ERISGEYJ 504 V (5602) ‘S =Surface mount GXT

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