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Summary of Contents for 193

Page 1: ...2200 TWX 910 335 2007 THIS DOCUMENT CONTAINS INFORMATION PROPRIETARY TO WAVETEK AND IS SOLELY FOR INSTRUMENT OPERATION AND MAINTENANCE THE INFORMATION IN THIS DOCUMENT MAY NOT BE DUPLICATED IN ANY MAN...

Page 2: ...es requiring return to Wavetek products must be returned to a service facility designated by Wavetek Buyer shall prepay shipping charges taxes duties and insurance for products returned to Wavetek for...

Page 3: ...ion 3 4 3 2 2 Manual Function Generator Basic Operation 3 4 3 2 3 Voltage Controlled Main Generator Operation 3 4 3 2 4 Manual Auxiliary Generator Operation 3 6 3 2 5 Voltage Controlled Auxiliary Gene...

Page 4: ...8 SECTION 6 TROUBLESHOOTING 5 1 FACTORYREPAIR 5 1 5 2 REQUIREDTESTEQUIPMENT 5 1 5 3 COVERREMOVAL 5 1 5 4 CALIBRATION 5 1 SECTION 5 CALIBRATION 4 4 12 Preamplifier 4 9 4 4 13 Output Amplifier 4 9 4 4 1...

Page 5: ...SYNCOUT Distorted or Missing 6 21 6 5 4 loop Will Not Oscillate 6 21 6 5 5 Abnormal Waveforms At AUX OUT 6 21 6 5 6 Waveform Symmetry Out of Specification 6 22 6 5 7 Incorrect Frequencies 6 22 6 5 8 l...

Page 6: ...vi 7 1 DRAWINGS 7 1 7 2 ADDENDA 7 1 7 3 ORDERINGPARTS 7 1 SECTION 7 PARTS AND SCHEMATICS CONTENTS Continued...

Page 7: ...Do not alter this connection Reference or ffi stamped inside the rear panel near the safety earth terminal MAINTENANCEmay require power on with the instrument covers removed This should be done only...

Page 8: ...Model 193 20 MHz Sweep Modulation Generator viii...

Page 9: ...Waveforms Selectable sine triangle I y square L AM sineft and dc Symmetry Symmetry of all waveform outputs is continuously adjustable from 1 19 to 19 1 Varying symmetry pro vides variable duty cycle p...

Page 10: ...IL level pulse coincident with AUX GEN output Duty cycle varies with symmetry control AUX VCG Input Rear Panel BNC Up to 33 1 frequency change with external 5Vsignal Upper frequency limited to max imu...

Page 11: ...nd with SYM control OFF SYMMETRY and VERNIERcontrols affect frequency calibration Maximum possible asymmetry is a function of frequency setting NOTE When SYMMETRYcontrol is used indicated frequency is...

Page 12: ......

Page 13: ...nge in rear panel fuse holder voltage card position and fuse figure 2 1 according to the following procedure NOTE Unless otherwise specified at the time of purchase this instrument was shipped from th...

Page 14: ...t as the dc offset is rotated cw the clipping of the negative peak disappears and eventually the positive peak begins to clip Table 2 1 Checkout Procedure Figure 2 2 Main Generator Check Setup HORIZ S...

Page 15: ...10 o clock Notice relationships between Channels 1 and 2 waveforms as the TRIGGER LEVEL is rotated 13 MODE Select TRIG CH1 A single triggered recurring at the 200 Hz trigger rate Set up trigger sourc...

Page 16: ...ries with in stantaneous amplitude of AUX OUT waveform on CH2 22 AUX GEN FUNC Select 1 and full ccw rotation Ramp s instantaneous amplitude controls and SYMMETRY sweep A slow sweep up and fast return...

Page 17: ...GEN MODE M AUX GEN FUNC AUX GEN FREO 10013K AUX GEN FREO 9 o clock VERNIER 29 WIDTH F M Adjust for 4 Vp p sine wave CH1 4 Vp p sine wave 30 AUX GEN MODE AM CH1 Modulation envelope varies with instan t...

Page 18: ...REAR 23 24 11 16 1 18 2...

Page 19: ...ering In the gated modes the generator will run continuously when the control is cw of 12 o clock 7 SEcnON3 OPERATION 3 1 CONTROLS AND CONNECTORS The generator front panel controls and connectors are...

Page 20: ...7 5V Vv 7 5V n lL 7 5V lS J ov t 7 5V _ J__ o DC OFFSET 3 2 10 MAN TRIG Pushbutton Triggers or gates the output signals when main generator mode is TRIG or GATE9 In trigger mode one waveform cycle is...

Page 21: ...0 and is 180 outof phasewith the squarewave AUXSYNC OUTdutycycle varies with SYMMETRYcontrol21 19 AM CARRIER LEVEUNULL Control In the AM function FUNC 12 with the MODE switch 20 set to SET CARRIER thi...

Page 22: ...paragraph 3 2 1 Select CONT Extended Set to desired range of frequency Set to desired frequen cy within the range Select desired wave form Set as desired Limit offset to prevent clip ping See figure...

Page 23: ...E STARTED IS COMPLETED SYNC OUT TIL FUNC v 1_ TRIGGER LEVEL I I I I I FUNC FUNC 1 J FUNC OUT TRIG IN EXTERNAL SIGNAL MAIN GEN MODE GATE TRIGGERS ONE FUNCTION GENERA TOR CYCLE FOR EACH POSITIVE GOING T...

Page 24: ...Select desired wave form 6 WIDTH aF aM 20 Select desired ampli tude at AUX OUT NOTE Step Control Connector Setting 1 AUX GEN MODE 20 Set to AUX OUT only 2 AUX OUT 3 Connect to circuit under test sourc...

Page 25: ...ain generator fre quency between two preset frequency limits Figure 3 8 The following steps demonstrate setting up the controls for frequency sweep of the main generator Bold numbers are keyed to figu...

Page 26: ...an actual exercise in operation perform steps 27 through 30 of table 2 1 Selects modulation func tion Sets amplitude modula tion rate 7 AUX GEN FREQNERNIER 22 8 AUX GEN FUNC 21 Select AM Select the va...

Page 27: ...rcuit elements and their functional relationships which paragraphs 4 2 and 4 4 describe Figure 4 3 shows the Sweep Modulation Generator circuit elements and their functional relationships which paragr...

Page 28: ...e output amplifier provides up to 70 dB of attenuation to the selected waveform or DC offset This signal is con nected directly to the FUNC OUT BNC 4 2 On the X1M and X1OMranges the dc loop delay com...

Page 29: ...YNC 23 15 POWER SUPPLY 15 5 5 23 _ 1 HYSTERESIS SWITCH I SYNC r SYNC SELECT r ZEROCROSSING 1IIIIt _t _ J DETECTOR TRIG BASELINE TRG RST TRIG I 1 COMPENSATION lIIIIr __J IN ___ l TRIGGER1 __ R U N 1 MA...

Page 30: ...FUNCTION SWITCH MAIN GENERATOR FIG 4 1 11 ru ru 1 4 MODULATION AMPLITUDE f AMPLITUDE MODULATION MODULATION NOUT FUNC CONTROL AMPLITUDE r I FUNCTION MODULATION MODULATION GENERATOR GENERATOR SWITCHING...

Page 31: ...e square wave from the modulation generator loop to a TIL square wave 0 to 5Vopen circuit that drives the AUX SYNC BNC 4 3 SWEEP MOD GENERATOR BLOCK DIAGRAM ANALYSIS As shown in figure 4 3 the modulat...

Page 32: ...this time current from the negative current source sinks from the timing capacitor producing a negative going ramp 4 6 4 4 2 Current Switch Refer to sheet 3 The current switch is driven by the On the...

Page 33: ...harge C55 and increasing the amount of current being shunted to U11 pin 12 by a factor of 10 for each lower frequency range 4 4 6 Capacitance Multiplier Refer to schematic diagram sheet 5 The capacita...

Page 34: ...enced to pin 12 causing pin 15 to also go high When either U12 pin 3 or pin 15 go high U4 pin 3 goes low because these outputs are wire ORed to U4 pin 7 U4 pin 3 is connected to pins 4 and 10 Because...

Page 35: ...put voltage to hold the node at 0 volts The ac amplifier gain is also R223 R218 16 25 This is divided by 2 at the output terminal due to the 500 source impedance resistors R222 and R224 providing the...

Page 36: ...equalsthe collector current U2 pin 12 flows to the current switch in the modulation generator loop seeparagraph 4 5 2 1 TheRCnetwork R12 and C1 across U1 pins 12 and 13 provide loop stabiIization 4 10...

Page 37: ...current from the current sources The triangle buffer U12 pin 6 a unity gain non invert ing amplifier follows the voltage across the timing capacitor 4 5 2 1 Current Switch The current switch selects...

Page 38: ...erenced to the 10V supply A tempera ture sensing device RT1 adjusts the gain of the 10V supply which gives the 10V supplies a negative temperature coefficient 4 12 4 5 4 Sine Converter Refer to Sweep...

Page 39: ...d by the function switch to be routed through the Mode switch of the modulation control switching to the WIDTH F M control The WIDTH F M control varies the level of the auxiliary output signal The out...

Page 40: ...esult current 14 increases but the modulator demands less current 16 therefore the current 15flowing through R103 equals the difference between 16and 17 Thus E2 swings negative amplitude modulator U7...

Page 41: ...ite polarity the modulator demands less current 17 at U7 pin 2 and more current 16 at U7 pin 14 This decreased current 17decreases the voltage E1 which decreases the current 14 But now the modulator o...

Page 42: ......

Page 43: ...od board calibration points SECTION 5 CALIBRATION 5 4 CALIBRATION After referringto the following preliminarydata perform calibration as necessary per table 5 1 5 2 If perform ing partial calibration...

Page 44: ...I I I I I I I 2 o a I I I I co I I I I Kl a o z 1 II e E o Co c Cb g rn Ol Ol co enE o 0 II I s III Ol a II _ 1 _ NN a a o N a I II N a N o s N N I I I I I I Ul Ol II E ono 1 Ul E II It rn rn E Ol Q...

Page 45: ...J JO LLO 2 0 J U c J x O x C J 0 rr C 0 a t co a C a J o s I Q t 0 111 0 0 II rn Q l o o o U Q l o o o U Q l 2 I a_ C oU J o C 0 U ell rn ro E e 2 Q l Q l O 1 Q 2 jfi t t r O g I I I I I I I I II U 0...

Page 46: ...a Q Zoo N o II Q U l a a E 04 Q c en 4 Z 0 0 a s U Q o c Q Qj s E 5 1 Q c en C Q CIl CIl Q C c Q 0 3 o ZI C J J0 u O III III I N I o o C III C lii C III U CJc a aIL C a Q E Q Q en 4 Z CIl a Q E Q Q en...

Page 47: ...5 5 Figure 5 1 Generator Board Calibration Points I I I I I I I 5 re IIII l I 6W I...

Page 48: ...5 6 Figure 5 2 Sweep Mod Board Calibration Points LUI 9 LZII 81 1 ZII ZII3 8 LII tl l 5ZII 611 LLI I 9ZII 1 1 51 1 tZI I...

Page 49: ...UBLESHOOTING Table 6 1 gives an index of common generator board symptoms For each symptom a troubleshooting guide is referenced Paragraphs 6 3 1 through 6 3 15 that when correctly followed will lead t...

Page 50: ...NT SWITCH GUIDE 6 4 4 CHECK ATTENUATOR OUTPUT CONNECTOR AND CABLE REFER TO OUTPUT AMPLIFIER GUIDE 6 4 15 REFER TO TRIANGLE BUFFER GUIDE 6 4 6 REFER TO TRIG BASELINE GUIDE 6 4 11 REFER TO CURRENT SOURC...

Page 51: ...refer to figure 6 1 Functional block isolation 1 Verify power supply voltages are within 5 of nominal with less than 100 mVp p of ac ripple If not refer to paragraph 6 4 1 2 Check for a nonlinear tri...

Page 52: ...ripple If not refer to paragraph 6 4 1 2 Check the triangle for nonlinearity at FUNC OUT If it is nonlinear but only on one range check for a leaky capacitor on that range If the triangle is nonlinea...

Page 53: ...REFER TO TRIANGLE BUFFER GUIDE 6 4 6 NO IF THE PROBLEM IS FREQUENCY RELATED SET UNIT TO THAT FREQUENCY NO Figure 8 3 Sine Output Troubleshooting CHECK OUTPUT ATTENUATOR REFER TO OUTPUT AMPLIFIER GUID...

Page 54: ...within 5 of nominal with less than 100 mVp p of ac ripple If not refer to paragraph 6 4 1 6 3 8 Excessive High Frequency Sine or Triangle Roll Off Improperly set controls 1 Excessive dc offset overdr...

Page 55: ...e above conditions apply refer to figure 6 7 Functional block isolation 1 Verify power supply voltages are within 5 of 6 3 11 Frequency Accuracy and FREQ START FREQ Dial Response Problems Improperly s...

Page 56: ...th less than 100 mVp p of ac ripple If not refer to paragraph 6 4 1 2 If the trigger baseline cannot be calibrated within specification set MODEto GATEand monitor the emitter of 019 With TRIG IN disco...

Page 57: ...s properly check R67 R6B R69 and associated circuitry but if not refer to paragraph 6 3 11 6 3 14 DC Offset Not Functioning Correctly Improperly set controls 1 Signal peak plus offset exceeding or 7 S...

Page 58: ...mal replace the voltage regulator Current Source 6 4 2 Loop Delay Compensation 6 4 3 Current Switch 6 4 4 Hysteresis Switch 6 4 5 Triangle Buffer 6 4 6 Zero Crossing Detector 6 4 7 Sync 6 4 8 Capacita...

Page 59: ...cross resistors R84 R85 R86 R87 R93 and R97 The measured voltages should read 0 38 04V U8 pin 6 6 05 61 Vdc Measure across R83 5 9 59 Vdc Measure across R99 Desired Results 8 2 82 Vdc Test Point Table...

Page 60: ...I or BASE I I I I 2 2V I oe BASE 1 8V US PIN 3 __ 1 8V I I I 0 8V 1 US PIN 2 1 8V _ 2 8V 6 12 07 and 08 emitters 2 8 28 Vdc Peak reference U10pin9 0 9 09 Vdc Peak reference U10pin4 Desired Results 3 0...

Page 61: ...BV O BV U10 PIN 12 U10 PIN 14 U10 PIN 15 U10 PIN 13 2 0 1K Off CaNT FREO START FREO FREO MULT SYM MODE Settings Controls Set the controls as shown then take waveform measurements Refer to figure 6 13...

Page 62: ...RIG or CaNT 1V 1 kHz Square wave FREO STARTFREO FREO MULT MODE TRIG IN Settings Controls 6 4 10 Trigger Guide TRIG or CONT Check Set the controls as shown then take the waveform measurements Refer to...

Page 63: ...TRIG ONLy 1V O BV 1V JB TRIG IN TRIG IN TRIG LEVEL 2 0 10K Off TRIG or GATE Depends on symp tom GATE pre ferred Approximately centered 1V 10kHz Square wave FREQ START FREQ FREQ MULT SYM MODE Settings...

Page 64: ...REO MULT SYM MODE FUNCTION Settings Controls 6 4 13 Sine Converter Guide Set the controls as shown then perform the checks in table 6 13 and take waveform measurements Refer to figure 6 20 Desired Res...

Page 65: ...fier Waveforms __ 1 6V 029 EMITTER _ 0 9V ____ 1 6V 029 BASE ____ 2 3V 2 0 1K Off CONT Square FREO START FREO FREO MULT SYM MODE FUNCTION Settings Controls Function Problems Set the controls as shown...

Page 66: ...ack of this manual In all problems 1 Double check for proper control settings 2 Calibrate or rule out calibration as a problem 3 Inspect components wiring and circuit boards for heat damage 4 Recalibr...

Page 67: ...D SW3 A REFERTO AMPLITUDE MODULATION LEVEL SHIFTER GUIDE 6 6 8 MAIN GENERATOR BOARD REFER TO AMPLITUDE MODULATOR GUIDE 6 6_6 CHECK J1 PIN 10 CHECK FUNCSWITCH GENERATOR BOARD SW5 D REFER TO SINE CONVER...

Page 68: ...ANGLE AND INSTALL R46 NO YES NO 6 20 REFER TO MODULATION GENERATOR LOOP U13 6 6 2 REMOVE SHORT U13 PIN 3 Figure 6 24 Oscillator Loop Failure REFER TO AMPLITUDE MODULATOR 6 6 6 CHECK U1 ANDU2 REFER TO...

Page 69: ...ne normal Check function switch Sweep Mod board SW2 A 6 5 4 Loop Will Not Oscillate Improperly set controls 1 AUX GEN frequency set too low 2 AUX GEN MODE incorrectly set to SET FREQor SETWIDTH Functi...

Page 70: ...trols 1 AUX GEN FUNC switch incorrectly set to n_or 1 2 Signal incorrectly connected to AUX VCG input 3 WIDTH dF dM incorrectly set full ccw Functional block isolation If the frequencies are still inc...

Page 71: ...SOURCE GUIDE 6 4 2 REFER TO AUXILIARY OUTPUT AMPLIFIER 6 6 9 CHECK MODE SWITCH SWEEP MODE BOARD SW3 B R123 AND R124 GENERATOR BOARD YES YES NO CHECK MODE SWITCH SWEEP MOD BOARD SW3 D CHECK FUNC SWITC...

Page 72: ...24 Modulation Generation VCG System Modulation Generator Loop Square Wave Limiter Modulation Gen Sync Out Amp Sine Converter Amplitude Modulator Amplitude Modulation Receiver Amplitude Modulation Leve...

Page 73: ...erter Checks Figure 6 30 Sine Converter Waveforms U6 PIN 6 O 4V O S5V 2 5V 2 5V U4 PIN 8 U4 PIN 1 O S5V O 4V O 4V O 7V U4 PIN 5 O 7V O 4V U4 PIN 4 O 25V O 25V Y I I I I I I I I I I 1 J I I I I I I I I...

Page 74: ...I as COLLECTOR I I I I 2 0V 3 0V I I I I 06 COLLECTOR 10 0V 12 0V I I I O 9V I I I O 9V Figure 6 32 AM Receiver Waveforms 6 26 Test Point Desired Results U8 pin 3 14 7 1 4 Vdc U8 pin 4 1 25 12 Vdc U8...

Page 75: ...is defective 3 If the output voltage stays at maximum positive the I I input voltage should be more positive than II input voltage or vice versa otherwise the operational amplifier is defective 6 7 2...

Page 76: ......

Page 77: ...List Rear Panel Assembly Rear Panel Parts List Sweep Mod Board Schematic Sweep Mod Board Assembly Sweep Mod Board Parts List Sweep Mod Switch Detent Sweep Mod Switch Parts List Generator Board Schemat...

Page 78: ...TEK PROCESS I I I I _ f _ E9 l I I I I A5 sWEEP MOD BOARD PI Jf AM SIGNAL PI 00 00 0947 2 COM 2 3 5 3 4 COM I 5 f5 5 6 5 6 7 COM 7 6 16 8 CCNt 9 CARllleR Sl5AJAL 9 I 10 10 I P4r r J4 AUx OUT P4 1 COM...

Page 79: ...SELl LOCKING SCRE WS t REQ O P SE EDETAIL A c 2 0 __ HO 4 40 8HPANJI AD SELF LOCKING SCREW INITII FLAT WASIIER 4P1CS REAR PAN L A REF f NI Of OO 09ti12 o GENERATOR BD A4 REF P N IIOO 00 09 DO ATTACH T...

Page 80: ...CW ORlt GEN BD E4 FRONTPANEL R56 W YEL GEN BD E5 FRONTPANEL R56 CCW GRIt 11 4 GEN BD E19 FRONTPANEL JI0 BLK GEN BD E20 FRONTPANEL JI0 115 GEN BD Ell FRONTPANEL J9 BLK GEN BD E18 FRONTPANEL J9 W6 GENBD...

Page 81: ...00 5010 2 NONE COVER BOTTOM 180 300 2 WVTK 1400 00 5030 1 9 GUIDE PIN 191 4983 WVTK 1400 01 4883 7 COAX KNOB SET RB 67 1 SB 0 M 9 ROQAN 2400 01 0009 6 S KNOB SMALL 0 M 9 ROOAN 2400 01 0010 1 10 STAND...

Page 82: ...OMTAB 5 SIP S ARE R12 470 R24 680 R124 680 4 ALL DlODES ARE FD6666 3 ALL CAPACITORS ARE IN MICROFARADS 2 ALL RESI STORS ARE 1 8W AND ARE I N OHMS 1 PARTIAL REFERENCE DESIGNATORS SHOWN USE ASSEMBLY REF...

Page 83: ...C RZ3 IK 5V 5V 9 1 12 I I RZZ 4 1D4K L Ar 5V 5V I l_ J9 Cl9 10 25V CZID o t ISWCMP 3 BB r i ISWCTRL 3C8 r CZ 6 I 5ns N 1 0 I FRONT PANEL A2 I 1 0 DULSETRI6 OUT FB3 FB I TRIBUFB 302 5V SYNCSEL 0 Bi ZD...

Page 84: ...44 4cD 4 C I IOOPF SV R 5 249 NOTE UNLESS OTHERWISE SPECIFIED DSEE NOTES SHEET 1 12 41 499 I5WCMP If 2B2 EeN C40 o 15V 38 0 1 10 R45 E VV r G R4 IK I5V TRIANGLE BUFFER 1 0 N 1 0 LOOP STOP t581 f FREQl...

Page 85: ...3904 J4 o R75A R77 IOI 5 65K I IBF V CV I OUT IN I __L_0_G_C_O_N_V 19 2_A_U_X_B_D 15V 201 FRONT PANEL A2 _j l FRONT PANEL I A2 R7f MODEL 193 ONLY I 1 R 4 R70 r2 JRVVV7 Z vR 3 I K CY 4 l9 K ZOOLf1 04 r...

Page 86: ...IO O p MULT ZERO c C57 J 0 47 1 POLYC 50V o EeN 10 14 RII 3 1 2 Rloe 1 2 3 4 RI05 4 9 lK 2K __ 1 102 CAP MULT FREQ MULTIPLIER CAPACITANCE 5 6 12101 909 RIOO 4 99 6 7 DSEE NOTESSHEET 1 NOTE UNLESS OTHE...

Page 87: ...5 B RI7Go 464 c o 5 g CA30lQ 00 R170 12 IK 5 1 143 RI44 121 200 1 30PF 1 140 RI41 IK 4 c 4 K 8 7 3 6 DC RIGA A LWR ENBL J2 10 1 135 51 h Ch HYS PAP RI3 D HY5 f 1 2C2 Sl n E3 LJ ens 1 8 ECN r 2 4 SINO...

Page 88: ...PRIETARY INFOR MATION AND DESIGN RIGHTS BELONGING TO WAVETEK AND MAY NOT BE REPRODUCED FOR ANY REASON EXCEPT CALIBRATION OPERATION AND MAINTENANCE WITHOUT WRITTEN AUTHORIZATION 3 4 1 1 MA AMPL Lt 203...

Page 89: ...GENERATOR BOARD AVETEK SAN OlIGO CALifORNIA REMOVE ALL BURRS AND BREAK SHARP EDGES MATERIAL PROJ ENGR MADE FROM 0100 00 0834 3H RV1 OEB I I I L l THIS DOCUMENT CONTAINS PROPRIETARY INFOR MATION AND DE...

Page 90: ...C25 C60 CbB C69 CI07 C94 CI7 C59 REFERENCE DESIQNA ORS A B REV M 2 2 7 2B 4 2100 03 0064 ROBNU I IOLEX 2100 02 012B 2 AMP 10160 10123N 21 tO OO1 1116 430 25 HEATS I TR_IPAD TERM SOCKET PIN VARI 3 S I...

Page 91: ...RES f1F l ew 1x 4 b4M RN 5D 4b4IF TRW 4701 03 4641 3 U8 IC CA3083 FAIR 7000 3IHI3QO I CR7 DIODE 1N52B2 FAIR 4801 01 2B2 I WAVETEK TITLE ASSEMBL V NO REV WAVETEK TITLE ASSEMBLY NO REV WAVETEK TITLE AS...

Page 92: ...NS AS SHOWN F120M CCW FIXED STOP BEFORE INS7AUING ADDED STOP B c o 4 09 7 03 9 T M m E WII ES OBTAINED F120M CHASSIS CABLE KIT IBO 7 00 09 4 ALL BUSS WIRE Z4 4WG TYPICAL SWITCH HARDWARE STACK UP EeN S...

Page 93: ...7 WAFER 147 400 WIlT 104 02 001 3 SWITCH STOP 211 33 001 CTS 04 07 000 1 3 4 SWITCH STOP 212 33 006 eT6 04 07 0002 3 5 DETENT MOD 04 99 0062 WIlT 04 99 0062 1 FROM 04 01 0010 6 DETENT HOD 04 99 0063...

Page 94: ...S C36 DIODE CRI3 TRA JSISTDRS GHD CONNEC OR5 J5 SWITC HE5 SW x c s UI3 T E RMI5TOI RTI E NO 5 Ell B N PK SAL ADJ c RIM t03 4K Jl 1Z1 J 30 IK 15Y 604 C R13 IN4148 BOD 5YM BAL ADJ CAP MUL SAL ADJ E 4791...

Page 95: ...MN 7 L __ TP2 R7E 100 i t 15 CW 10 R7 _ __JVVV rJVR S IZ lOOK 499 I 13 PRE AMP GND 1 80 I Q Z 2IK 18 I I 3 II R54 IDV 15V SIN 6AIN ADJ 200 oZ lOOK SIN ZERO ADJ tl5 1 RoO 1 32K R4 l tlOV SINE CONVERTER...

Page 96: ...GEN FRoNT l 1 C40 I BO I PANEL I s _j _ 3 1 lJ4 I A4 I JI3 A2 I RIOe I LM 5___ _ r _ __ _ J I I r l t IAU OUTIII 10K z 13 D 1 DO4 I E141 1 J rv C r Ji r 1I4 r 15 9 1 I 101 9 J4 z R11 3 L __ L RIIO 3 3...

Page 97: ...R76 R77 0 co I I I TPI R42 I R67 C12 I R74 CI8 TTY 1 REC VER r i fj I C7 TP U60 I_ 3_ __ R72 hTP2 I J R4Sro J r 0 I 0 l I I t U3 l ____J RI08 I L O R20 I I OR18 I I 0 UI2 IMOD GEN VCG SYSTEM I _ 6fa...

Page 98: ...PTION REFERENCE DESIGNATORS c U2 US U3 U4 U7 UI0 U5 Ull UI2 U13 U6 U9 Ul RT NONE SW4 01 eM 05 G3 CRII CRI2 CR13 CRI4 CRI5 CR4 CR5 CRb CR7 REFERENCEDESIIlNATORB SHEET 1 GTY PT GTY PT REV II REV o c 10...

Page 99: ...a 0 T c 2Yz TVEw T c 0 eN 5 6 7 NOTE UNLESS OTHERWISE SPECIFIED 3 24 AWG BU55 WIRE 2 AI L WAr Cr S SHOWN IN CCW POSITION ID PLACE DETENT 3 POSITIONS AS SHOWN BE ORE INSTil L LING ADDEO STOP TYPICAL SW...

Page 100: ...K 4609 71 0317 1 FROPI 4600 01 0312 I 2 WAFER 147 400 WYTK 5104 12 0015 9 3 SWITCH STOP 211 33 001 I04 07 0001 I CTS 3 4 DETENT I IOD 190 313 IIVTK 5104 99 0024 1 FROPI 5104 01 0010 5 DETENT I IOD 510...

Page 101: ...J AI ER CONN 3 PIN 640440 3 NIP 2100 02 0117 I 7 RECEPTACLE 6Y 1 CORC 100 03 0026 1 14 SOLDERLUG 1497 BlUTH 2100 04 0012 2 C 6 BOLDERLUO IIA144 HER 2100 04 0025 3 C B FUSE 3 4A 2 5OV S B 313 7 50 LITF...

Page 102: ...NO A 3119 8 NOTE UNLESS OTHERWISE SPECIFIED NOTE P NZIOO OI OOO BNC SJlELL OBTAINED t ROM CJlASSIS CABLE KIT P N IZ07 00 09 4 2 NO_4 40x i1 82 FLAT I IEADSCRE N APPL Y A DROP Of LOCTITE eso ADHESIVE...

Page 103: ...3 5 1 tO G_ ACCUfIIlEIS 2 THIS SHEET IS INTENDED TO SHOWMECHANICAL ASSEMBLYONLY REFERENCESHEET 2 OF 2 FOR WIRING 1 SEE PARTS LIST NO 1101 00 0962 B 2 2 c S7AMP 70 BE IN THIS AREA OF REAR PANE L USE B...

Page 104: ...BLK 43 4 Tl J15 E 24 GRY LI 3 4 Tl J15 D 24 fHT GRY 4 314 Tl J15 F 22 WHT 3 1 4 J15 P SWl 3 22 RED 5 lIq J15 S SWH 22 BRN 3 lIq L5 R SWl 2 22 BLU j 1 L1 J15 L SWl 1 22 BUSS J15 B J15 H 18 GRN YEL 6 3...

Page 105: ...1 12 BUSHING NYLINERll B 2L2FF THOIIN 2800 01 0005 1 14 WASHER SHOULDER 2668 BlUTH 2800 27 0004 13 13 NYLONFLAT WASHER 2264 N 385 Al lTDIt 2B00 28 000 1 NOtE WASHER WAVE SPRING 904 133 1 SEA za00 28 0...

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