Tektronix 7D15, Instruction Manual

Page 1: ...97077 INSTRUCTION M ANUAL Serial Number First Printing SEP 1974 Scans by ArtekMedia 2007 Tektronix Inc P O Box 500 Beaverton Oregon 97077 070 1433 00 TEKTRCNI 7015 UNIVERSAL COUNTER TIMER INSTRUCTION MANUAL Serial Number First Printing SEP t974 ...

Page 2: ...etails This can often be done very reasonably in consideration for adding your manual to our library Typically the scans in our manuals are done as follows 1 Typed text pages are typically scanned in black and white at 300 dpi 2 Photo pages are typically scanned in gray scale mode at 600 dpi 3 Schematic diagram pages are typically scanned in black and white at 600 dpi unless the original manual ha...

Page 3: ...ONIX Field Office or representative in your area This will assure you the fastest possible service Please include the instrument Type Number or Part Number and Serial Number with all requests for parts or service Specifications and price change privileges reserved Copyright t 1974 by Tektronix Inc Beaverton Oregon Printed in the United States of America All rights reserved Contents of this publica...

Page 4: ...e 1 1 1 1 1 7 1 7 Scans by ArtekMedia 2007 7015 TABLE OF CONTENTS SECTION 1 SPECIFICATION Page Introduction 1 1 Electrical Characteristics 1 1 Environmental Characteristics 1 7 Physical Characteristics 1 7 SECTION 2 OPERATING INSTRUCTIONS Installation 2 1 Front Panel Controls and Connectors 2 2 Modes of Operation 2 7 Operation and Checkout 2 10 SECTION 3 CIRCUIT DESCRIPTION Introduction 3 1 Block ...

Page 5: ... DISPLAYlO WlV fORM jjj IO 1ii XI lli POSinON WID T H OIlTPUT iii TOO_ X IO iii uoo I iiI X100 IiiiI n t U Iln iii Io X IOGG Iii TTlIIIGIoT U 1 ClOC K IN IDC_ OUT I II T iii OUT 0 111 OUT INPIIT_ OUTII OUT IL fToiiiil t n 0 IQ 0 II O I o A V l I ZZ5 MHz UNIVERSAL COUNTER TIMER 7015 Fig 1 1 701 5 Universal Counter Timer 1432 ...

Page 6: ...raging depends on signal to noise ratio and statisticaldistribution factors Scans by ArtekMedia 2007 Section 1 7015 SPECIFICATIONS Introduction The 7D15 is a digital counter plug in designed for use with all readout equipped 7000 Series Oscilloscope mainframes It will function in any plug in compartment however in the vertical compartment a selectable display is internally con nected to the oscill...

Page 7: ...s 10 nanoseconds 200 volts DC linearly derated to 20 volts at 200 megahertz Scans by ArtekMedia 2007 Specifications 7D15 Characteristics Frequency Ratio CH B EXT clock Range Totalize CH B Range Manual Stop Watch Range TABLE 1 1 conti Performance Requirement 10 7 to 104 oto 108 counts Manual ON OFF control or electrical control from CH A oto 105 seconds NOTE Formulas given where TB dec is the time ...

Page 8: ...switch selectable 0 8 volt peak to peak sine wave or pulse with 30 to 70 duty cycle AC Scans by ArtekMedia 2007 Specifications 7D15 TABLE 1 1 cont Characteristics Performance Requirements Supplemental Information Minimum Signal Period in 10 nanoseconds PE R Mode Minimum CH A Input Pulse 10 nanoseconds Width in FREQ B CH A Gate Mode Triggering Preset Position Automatically triggers at a volts Level...

Page 9: ... 5 volt or less 2 500 nanoseconds 10 volts to 10 volts 100 nanoseconds or less 15 volts Scans by ArtekMedia 2007 Specifications 7D15 TABLE 1 1 cont Characteristics Performance Requirements Supplemental Information Maximum Input Voltage 50 volts DC 20 volts peak to peak Frequency Range 1 megahertz 5 Phase Lock Opera tional 10 nanoseconds 100 nanoseconds clock available 20 hertz to 5 megahertz Phase...

Page 10: ...n True Gate 20 nanoseconds Pseudo Gate x 18 nanoseconds CH B x 16 nanoseconds Scans by ArtekMedia 2007 Specifications 7D15 TABLE 1 cont Characteristics Performance Requirements Supplemental Information INTERNAL TIME BASE Crystal Oscillator Frequency 5 megahertz Accuracy O C to 50 C Within 0 5 part per million Long Term Drift 1 part or less in 107 per month OUTPUT SIGNALS Monitor Signals Clock Out ...

Page 11: ...nosecondswith 50 ohm load Front panel switch allows selection of readout follow or store Scans by ArtekMedia 2007 Specifications 7D15 TABLE 1 1 cont Characteristics Performance Requirements Supplemental Information Displayed gate width to Matches to within 1 nanosecond depends effective gate width on correct calibration of horizontal time base used In Freq or events 1 nanosecond operation lead tim...

Page 12: ...ERISTICS Size Weight Fits all 7000 Seriesplug in compartments 3 1 Pounds 1 4 kilograms Scans by ArtekMedia 2007 Specifications 7D15 TABLE 1 1 cont Characteristics Performance Requirements Supplemental Information Readout 8 digits of display the four most signifi cant digits have zero suppression Overflow by arrow Legend located on Channel 2 of readout system Resolution Minimum Frequency 0 1 hertz ...

Page 13: ...t t If t t SI X MO NTHS 0 0 1 INSTRUMENT OPERATING WITHIN OoC TO 50 o C RANGE TRIGGER RECOGNITION OCCURS ONLYATDESIREDPOINTON WAVEFORM NO FALSE TRIG z t _ rr _t t_H t t H GE RING I IIII f t kT r OO r t f t H H H 0 1 __ I KHz 10 KHz 100 KHz 1 MHz 10 MHz 100 MHz 1 GHz INPUT FREQUENCY Fig 1 2_ 7015 Frequency mode accuracy stated in percent_ ...

Page 14: ...n hertz Scans by ArtekMedia 2007 1000 Hz I 100 Hz TIME 10 ms til V til a 0 a a w I 10 Hz z w 2 w a V V TIME 100 ms I J til I w CONDITIONS 2 w til I U I til 1 Hz a USING INTERNAL OSCILLATOR INSTRUMENT CALIBRATED WITHIN TIME 1 s SIX MONTHS 0 INSTRUMENT OPERATING WITHIN o 0 OCTO 50 C RANGE 0 1 Hz TRIGGER RECOGNITION OCCURS 1 ONLY AT DESIRED POINT ON WAVEFORM NO FALSE TRIG 1 GERING II I I 1111111 I I ...

Page 15: ... II I I o 0 1 1 o C 9t a 1 V 1 9t C k 0 0 0 O II I 0 1 I 0 0 1 Ii I II I I 1 l 1li l II 1 o C 9 I r 0 0 0 O t I I I I i 1 I f 1 0 1 0 9t o o 9t 0 I I 9t O 0 I Ii Iilll CONOITIONS 1 0 i IlI USING INTERNAL OSCILLATOR I 00 i r INSTRUMENT CALIBRATEO WITHIN O SIX MONTHS INSTRUMENT OPERATING WITHIN OOC TO 50 o C RANGE II1II IIIio II1II PEAK NOISE LEVEL OOES NOT 1111 l 1li l 1li l 1li EXCEEO EFFECTIVE CO...

Page 16: ... AVERG X10 100 J lS CLOCK 10 J lS AVERG X1 CLOCK 1 J lS AVERG X1 1 J lS CLOCK 100 ns AVERG X1 100 ns CLOCK 10 ns AVERG X1 10 ns 1 ns AVERG X10 CLOCK 10 ns 100 ps CLOCK 10 ns AVERG X100 CLOCK 10 ns AVERG X1000 10 ps 10 ns 100 ns 1 J lS 100J ls 1 ms INPUT PERIOD Fig 1 5 7015 Period mode accuracy stated in time 81 Iii CONDITIONS USING INTERNAL OSCILLATOR INSTRUMENT CALIBRATED WITHIN SIX MONTHS INSTRU...

Page 17: ... 0 1 1 1 1 9t 1 1 1 5 9t 91 9t 9t 9 1 Q Q 0 91 110 Q 1l 5 5 5 1l o 0 0 0 0 00 0_ 0 o t I 111 0 00 w I Z w 2 w CC w 2 01 w U l CC 0 001 0001 I I CONDITIONS I II JI 1 1 f 1 l1li I l1li I I USING INTERNAL OSCILLATOR 1 4 I INSTRUMENT CALIBRATED WITHIN SIX MONTHS I r I l I t I STRUME T OPERATING WITHIN I I I 0 C TO 50 C RANGE I l t I PEAK NOISE LEVEL DOES NOT I EXCEED EFFECTIVE COUNTER HYSTERESIS N I S...

Page 18: ...1 ms AVERG X1 CLOCK 1 ms AVERG X10 11111111 I IIll Ill I 11111 CLOCK 1 ms AVERG X100 CLOCK 10 j LS AVERG X1 CLOCK 1 j LS AVERG X1 CLOCK 100 ns AVERG X1 CLOCK 10 ns AVERG X1 CLOCK 10 ns AVERG X10 CLOCK 10 ns AVERG X100 II iII CLOCK 10 ns AVERG X1000 100 ns 1 j LS 10 j LS 100 j Ls 1 ms INPUT TIME INTERVAL Fig 1 7 7015 Time Interval mode accuracy stated in time i oIIII I CONDITI ONS 0 ffiO W INSTRUME...

Page 19: ... and the 7015 will unlatch Continue pulling to slide the 7D15 out of the oscilloscope Scans by ArtekMedia 2007 OPERATING INSTRUCTIONS GENERAL The 7015 Universal Counter Timer plug in unit operates with the readout system of Tektronix 7000 series Oscilloscopes to measure frequency or frequency ratio and to totalize count number of events _ To effectively use the 7015 the operation and capabilities ...

Page 20: ... trigger level 1432 8 Figure 2 1 Scans by ArtekMedia 2007 Operating Instructions 7D15 FRONT PANEL CONTRO LS ANO CONNECTORS _ G TE aIS y TIME _ O M I I III o LoU Oil Iii Iii S iii fil I Iii iI I 11 iii r I Iii iii 2 f _ __ jL r U6MH UN I VERSAl COUNTER TIMER A TRIGGER 7015 2 2 A Input Connector When selected provides a means for connecting the trigger signal A ARM Jack Gates the A Input A 10gicai L...

Page 21: ...emains connected t o the A trigger amplifier 1432 9 Figure 2 2 Scans by ArtekMedia 2007 ro Operating Instructions 7D15 8 TRIGGER FRONT PANEL CONTROLS AND CONNECTORS OI PLAV TIME iii iii il iii iiI iii 1 U1 CliICI g Uu TAIGGE ct t _ B 7015 B Input Connector When selected provid 11 means for connecting the trigger signal B ARM Jack Gales the B Input A logical Hi glltes the B Input off and a logical ...

Page 22: ...play is held indefinitely 1432 10 Figure 2 3 Scans by ArtekMedia 2007 Operating Instructions 7015 FRONT PANEL CONTROLS AND CONNECTORS lijIIC DISPLAYED WAVEFORM 7015 _ OM _ iii iii Ii liI q iii jJ 22SMH UNIVERSAL COUNTER TIME iii OUTPUT Connector Provides an output for monitoring the PSEUDO GATE CH B signal or TRUE GATE Displayed Waveform Selector TRUE GATE The main gate waveform The repetition rat...

Page 23: ...the 7D15 counts events present at the B Input connector 1432 1 1 Figure 2 4 Scans by ArtekMedia 2007 FRONT PANEL CONTROLS AND CONNECTORS l I n t fe l Operating Instructions 7015 RESET and CLOCK 225 MH UNIVEASAL COUNTEA TIMUI 7 0 15 GATE RESET Pushbutton The momentary pumbotton switch initializes the instrument All counters are affected includ ing the averaging circuits RESET Connector Provides a m...

Page 24: ...00 ns 1ps 1 0ps 1ms Pushbuttons Selects the clock rates t o be used Figure 2 5 Scans by ArtekMedia 2007 Operating Instructions 7D15 MODE FRONT PANEL CONTROLS A ND CONNECTORS 7015 22SMtb UNIVUISAL COUNTEII TIMEII PERIOD A The 701 5 triggers on the slope and level selected by the A TRIGGER section to measure periods of 10 ns to l OS s TIM WIDTH A The 7015 starts on the slope and level selected by th...

Page 25: ...ERVAL TIM A B INTERVAL Fig 2 6 Measurementintervals I I J t b B INPUT 4 Scans by ArtekMedia 2007 MODES OF OPERATION Manual Stop Watch This mode uses the GATE ON OFF switches to manually turn the counter main gate on and off The counting rate is determined by the CLOCK switches Times of up to 105 s can be measured in this mode Event Counter In the EVENTS mode the 7015 counters accept information fr...

Page 26: ... gate on until 1 10 100 or 1000 periods are counted see Fig 2 7b Time Interval Averaging Averaging makes possible time interval measurement as short as six nanoseconds with a usable resolution up to 0 1 nanosecond This increased resolution is achieved by statistically reducing the 1 count error inherent in single shot time interval measurements The probability of obtaining the true value increases...

Page 27: ...robability distribution graph for the previous example where the time interval is 11 ns is shown in Figure 2 9 Compare this graph with the probability distribution graphs for 10 1 ns and 15 ns The probability range for a time interval of 10 1 ns is narrower than for a time interval of 11 ns or 15 ns Readings in the shaded area of the graph represent the range of answers that may be given 50 of the...

Page 28: ...perating Instructions 7D15 f iii 0 c f til 0 c f 0 c 500 AVERAGES 10 450 TIME INTERVAL 11 ns 0400 CLOCK RATE 10 ns 350 300 250 200 150 100 050 I 000 9 0 10 0 11 0 12 0 13 0 14 0 15 0 16 0 17 0 18 0 19 0 20 0 RANGE OF ANSWE RS ns 180 AVERAGES 100 160 TIME INTERVAL 11 ns 140 CLOCK RATE 10 ns 120 100 080 060 040 020 000 lOA 10 5 10 6 10 7 10 8 10 9 11 0 11 1 11 2 11 3 1104 11 5 RANGE OF ANSWERS ns 05...

Page 29: ...utton to reset the counter CLOCK switch to the desired resolution Scans by ArtekMedia 2007 Operatinglnsttuc tions 701S r VALJ l i I______ J I I___ GATED OUTPUT C TOCOUNT J J REG ISTER _ 3COUNTS 3COUNTS ANSWER GIVEN IS 30 ns Fill 2 10 Rot iults of pure synchronization between the cloc k rate n d mput time interval Set the 7015 controls as follows A and B TR IGGER SLOPE COUPl SENS lEVEL SOURCE DISPL...

Page 30: ...cted triggering readout is 10 00000 1 Fig 2 11 InternallExternal clock switch Scans by ArtekMedia 2007 Operating Instructions 7D 15 2 Set the STORAGE switch to ON and the DISPLAY TIME control to the desired repetition rate 3 Connect the signal to be measured to the A Input connector and adjust the A TRIGGER controls for proper triggering Observe the PSEUDO GATE display on the CRT NOTE The CLOCK OU...

Page 31: ...ts 1OX f calibrator accuracy Corrected Readout 0 0000 1 ooo oo I ooo ooo I ooo oooo 1 Scans by ArtekMedia 2007 TABLE 2 1 Frequency Ratio Decimal Point Chart TIME AVERG Switch 7015 Correction Corrected Position Readout Factor Readout Xl 0 0000 Xl01 0 0000 1 Xl0 00 00 Xl03 000 00 1 Xl00 0 000 Xl03 000 000 1 Xl000 0 0000 Xl03 000 0000 1 TIM WIDTH and TIM WIDTH Averaging Measure ments 1 Set the 7D15 M...

Page 32: ...ecade counters to provide the 1 ps lops 1 ms and 10 ms Clock signals The 100 Scans by ArtekMedia 2007 L i L Section 3 7015 CIRCUIT DESCRIPTION INTRODUCTION This section of the manual contains a description of the circuitry used in the 7D15 Universal Counter Timer plug in The circuitry starts with a block diagram discussion Following the block diagram discussion is a detailed discussion of the indi...

Page 33: ...etector is a dc errorvoltage and is presented to the Voltage Controlled Oscillator to correct any drift After amplification and level selection the signals are shaped in the A and B Shapers The signals are then connected to the A Arm and B Arm circuitry bywayofthe Slope circuits This circuitry can with the proper com mand inhibit the signal from any further travel A LO or ground connection to the ...

Page 34: ... the EXT CLOCK connector Refer to the discussion of the clock circuitry Scans by ArtekMedia 2007 Gate also flips the Initiate Generator and in turn generates the Mono Update command This starts the Timer The signal to the Mono Update causes the information in the 8 Decade Counters to be stored and converted into the proper row and column set by the Display Time Control a reset command is generated...

Page 35: ...to channel B The signal to be counted is connected to the main gate U386A via U386B U360A and U390D The main gate is enabled by placing the GATE switch to ON This clears U374B and sets U374A This causes pins 12 and 13 of U386D to be La pin 15 goes HI anG the D input of U390 goes HI The signal to be counted clocks U390 pin 3 goes La and U386A is enabled When the GATE switch is set to OFF the signal...

Page 36: ...Gate Generator LO and in turn sets the AND Gate LO thus closing the Main Gate The initiate command is given and the storage read and reset cycles are completed PERIOD The period of a waveform is measured by counting the number of clock pulses that occur within the period The clock is connected to the main gate U386A via U371A and U386B The period waveform is connected to U374A and U475B via U287C ...

Page 37: ...tor via the Bypass Amplifier The signal also flips the Arm Gate Generator HI which in turn opens the Main Gate to allow the clock pulses to be counted TIM A B Refer to Fig 3 5 for signal flow The TIM A B mode in effect opens the Main Gate with a trigger from the A Input then closes the Main Gate with the a trigger from the B Input The procedure is as follows The A signal is processed through the a...

Page 38: ... is the Gate Generator output This waveform represents the time that the Main Gate would be open if the Arm Gate Generator would allow it The True Gate waveform is the actual time that the main Gate is open The CH B output of the Displayed Waveform Amplifier is the B signal after it has been processed through the attenuators amplifiers shaper slope amplifier and B Arm circuit COUNTERS AND READOUT ...

Page 39: ...he One Megahertz Standard to pass directly through to the Clock Out circuit Scans by ArtekMedia 2007 Circuit Description 7D15 TRIGGER INPUT AMPLIFIERS Refer to Diagram 1 Connectors J1 and J101 provide a means for connecting the A and 8 signals to the 7D15 With the A COUPL switch in the DC position the signal connected to the CH A input is connected to the A SENS switches through C4 and R4 With the...

Page 40: ...496B U499A and U499B U409A is also set The RESET which occurs a few Scans by ArtekMedia 2007 Selection of the 10 j1S position of S699 presents a LO to U678C and a HI to U6768 This enables U6768 and allows the output of decade counter U665 to pass The output of U665 is the One Megahertz Standard divided by 10 Selection of the 1 ms position of S699 presents a LO to U678D and a HI to U676A This enabl...

Page 41: ...ut of U762 so that it is compatible to the oscilloscope readout system Scans by ArtekMedia 2007 Circuit Description 7D15 nanoseconds after RESET is delayed even longer through U264B and U530C The delayed RESET pulse is then differentiated by C532 and LR532 and used to clear U409A U409A was just set by the RESET pulse The RESET line is also connected to U264D which provides a LO to pin 1 of U421A a...

Page 42: ... R 0 1 I I C il R 0 2 SHIFT ADD ADO SHIFT PREFIX ON TWO PREFIX IDENTIFY ZERO ZEROS AND ADO ONE ZERO R4 0 3 n p X K M G T R R 6 0 SKIP S V A W H d 8 c n E R 0 U N L Z Y P F J a 0 R 7 0 DECIMAL DECIMAL OECIMAL OECIMAl DECIMAL POINT POINT PO INT POINT POINT LOCATION LOCATION LOCATION LOCATION LOCATION NO 3 NO 4 NO 5 NO 6 NO 1 R 0 7 R 0 R 1O 0 ADD SPACE N DISPLAY D UNUSED LOCATIONS AVAILABLE FOR fUTUR...

Page 43: ...VE SIX U890 SEVEN U898 EIGHT NINE TEN ELEVEN TWELVE A B C D 14 15 17 16 Scans by ArtekMedia 2007 Circuit Description 7D15 CH 2 COLUMN ROW DATA Refer to Diagram 6 Column converter U890 and Row converter U898 provide appropriate column and row currents when one or more inputs pins 1 through 13 and pin 20 receive a low and in turn are interrogated by time slot pulses applied to pins 14 15 16 and 17 V...

Page 44: ...nhibited At the same time U409A is clocked and the initiate commands are given Scans by ArtekMedia 2007 gate with TS9 pins 12 and 3 of U890 providing the inputs These three lines are low during time slot 9 which turns off 0896 and raises its collector up This causes a 100 JiA current drop across R897 subtracting it from the column output line Thus no current is available during time slot 9 and the...

Page 45: ...the output will not raiseabove6 2 volts C997 provides high frequency filtering Scans by ArtekMedia 2007 Circuit Description 7D15 TIM AVERAGING TIM averaging is achieved by mak ing 10 100 or 1000 measurements before resetting the counters This is accomplished by holding the initiate generator U409A until after 10 100 or 1000 measurements are made In the TIM averaging mode the D input of U409A is he...

Page 46: ...n the 7D15 are color coded to facilitate tracing a wire from one point to another in the unit Scans by ArtekMedia 2007 Section 4 7015 MAINTENANCE INTRODUCTION This section of the manual contains maintenance infor mation for use in preventive maintenance corrective maintenance and troubleshooting of the 7D15 Further maintenance information relating to general maintenance can be found in the instruc...

Page 47: ...be checked for an open or shorted condition by measuring the resistance between Scans by ArtekMedia 2007 Maintenance 7D15 TROUBLESHOOTING EQUIPMENT The following equipment is useful for troubleshooting the7D15 1 Semiconductor Tester Some means of testing the transistors and diodes used in this instrument is helpful A transistor curve tracer such as the Tektronix 576 will give the most complete inf...

Page 48: ...nding beyond the circuit board Clean off any residual flux with a flux removing solvent Scans by ArtekMedia 2007 terminals With an ohmmeter scale having an internal source of between 800 millivolts and 3 volts the resistance should be very high in one direction and very low when the leads are reversed Do not use an ohmmeter scale that has a high internal current High currents may damage the diodes...

Page 49: ... the operation to meet the Performance Requirements listed in Section 1 Scans by ArtekMedia 2007 Maintenance 7D15 METAL TERMINALS When soldering metal terminals potentiometers etc use 60 40 tin lead solder and a 15 to 50 watt soldering iron Observe the following precautions when soldering metal terminals 1 Apply only enough heat to make the solder flow freely 2 Apply only enough solder to form a s...

Page 50: ... your measurement requirements the item and corresponding step s can be deleted Scans by ArtekMedia 2007 Section 5 7015 CALIBRATION INTRODUCTION To ensure instrument accuracy check the calibration of the 7D15 every 1000 hours of operation or every six months if used infrequently Before complete calibration thoroughly clean and inspect this instrument as outlined in the Maintenance section TEKTRONI...

Page 51: ...5 Used for step 12 1 Tektronix FG 501 Func tion ene era tor Generator Scans by ArtekMedia 2007 v Calibration 7D15 Description 1 Oscilloscope 2 Vertical Plug In Unit 3 Time Base Plug In 4 Digital Voltmeter DVM 5 Sine Wave Generator 6 Square Wave Generator 7 Pulse Generator TABLE 5 1 REQUIRED TEST EQUIPMENT Minimum Specifications Usage Tektronix 7000 series main Used throughout procedure frame with ...

Page 52: ... 12 Used for step 12 1 Tektronix Part Number 017 0502 00 1 General Radio Type 874 WN Scans by ArtekMedia 2007 Calibration 7D15 TABLE 5 1 cont Examples of Applicable Description Minimum Specifications Usage Test Equipment 8 Low Frequency Frequency range 2 Hz to 20 Hz Used for steps 8 and 9 1 Tektronix FG 501 FUnc Sine Wave Generator amplitude 100 mV to 800 mV tion Generator peak to peak n FG Sc 7 2...

Page 53: ...OCK 1 ms turn on and allow 20 minutes warmup before proceeding STORAGE ON Scans by ArtekMedia 2007 Calibration 70 15 CALIBRATION PROCEDURE GENERAL The following procedure is arranged so that the 7015 can be calibrated with the least interaction of adjustments and reconnection of equipment The control settings and test equipment setup throughout this procedure con tinue from the preceding step s un...

Page 54: ...DURE Y1 Trigger Level Range Check 2 Trigger Preset Check Adjust 3 Trigger Amplifier Compensation Check Adjust Y4 Attenuator Accuracy Check 5 Input Compensation Check Adjust Y6 Trigger Range Check Y7 Trigger Slope Check Y8 AC Coupling Check Y9 External Clock Check 10 Phase Lock Voltage Check Adjust Y11 Period A Accuracy Check Y12 TIM Width A and TIM A B Accuracy Check Y13 Input Trigger Sensitivity ...

Page 55: ...MEP REvvI QUENCY d T UNDEI Fig 5 1 Location of Adjustments and Test Points Scans by ArtekMedia 2007 Calibration 1D15 5 6 CLOCK FREOU ENCV AOJUSTM ENT UNDER SC REW Fig 5 1 Location of Adjustm nU lind Test Points 10J 1 ...

Page 56: ...07 ADJUST FOR EQUAL DISTANCE Calibration 7D15 1433 8 Fig 5 2 Method for adjusting trigger preset h Adjust R149 to center the aberrations about the center of the sine wave see Figure 5 2 i Disconnect the Sine Wave Generator Leave 10X Probe connected for step 3 3 TRIGGER AMPLIFIER COMPENSATION CHECK ADJUST a Connect the Square Wave Generator to the A Input connector through 10X Attenuator and a Feed...

Page 57: ...lly counterclockwise positions DISPLAYED WAVEFORM to CH B Scans by ArtekMedia 2007 Calibration 7D15 TABLE 5 2 Channel B Compensation Set 7D15 Adjust Pulse Adjust for Long Term Ch B Generator Best Flat Rolloff and P P SENS Amplitude for 2 Waveform Spiking 1 V 4 div 0 32 div 1 V 4 div C112 C113 0 32 div 10V 4 div C109 C110 0 32 div Remove one 10X attenuator Both 10X attenuators removed 5 INPUT COMPE...

Page 58: ...e Low Frequency Sine Wave Genera tor y 9 EXTERNAL CLOCK CHECK a Connect a 0 8 V peak to peak 20 Hz sine wave from the Low Frequency Sine Wave Generatorto the 7015 EXT CLOCK IN connector using one of the cables supplied with the 7015 Calibration 7D15 b Connect the 7015 CLOCK OUT to the Vertical Plug In using one of the cables supplied with the 7015 and a 50 Feed Through Termination c Set the Vertic...

Page 59: ... 0 250 V ADAPTER SHORT CIRCUIT ADAPTER e Check for a display readout of 10 00 ns l ns 1433 9 Scans by ArtekMedia 2007 Calibration 7D15 PULSE GENERATOR OUT 7015 o o o 00 A INPUT SHORT CIRCUIT ADAPTER 1433 9 Fig 5 3 Equipment setup used to check TIM WIDTH A accuracy V12 TIM WIDTH A AND TIME A B ACCURACY CHECK a Connect the positve going output of the Pulse Generator to the Vertical Plug In through a...

Page 60: ...readout is approximately 225 MHz g Disconnect all test equipment Scans by ArtekMedia 2007 PULSE GENERATOR OUT T CONNECTOR 7015 D D o 00 A INPUT 1433 10 Fig 5 4 Equipment setup used to check TIM A B accuracy NOTE Use the Vertical Plug In unit to set the output amplitude of the Sine Wave Generator V13 INPUT TRIGGER SENSITIVITY CHECK a Connect a 225 MHz 150 mV peak to peak signal from the Sine Wave G...

Page 61: ... c j Disconnect all test equipment This completes the calibration for the 7D15 Scans by ArtekMedia 2007 Calibration 7D15 15 A AND B ARM CHECK a Set 7015 A and B pop SENS to 1 V b Connect the Sine Wave Generator to the 7015 B FREQ connector and note a displayed readout of ap proximately 225 MHz c Connect the 4 V dc level from the Oscilloscope Calibrator to the 7015 B ARM Use one of the cables suppl...

Page 62: ...REQUENCY SELECTED SEMICONDUCTOR SENSITIVE VARIABLE WIREWOUND TRANSFORMER CRYSTAL Scans by ArtekMedia 2007 REPLACEABLE ELECTRICAL PARTS PARTS ORDERING INFORMATION Replacement parts are available from or through your local Tektronix lnc Field Office or representative Changes to Tektronix instruments are sometimes made to accommodate improved components as they become available and to give you the be...

Page 63: ...rtekMedia 2007 Electrical Parts Llst 7D15 CROSS INDEX MFR CODE NUMBER TO MANUFACTURER MFR CODE 01121 01295 02735 03508 04713 07263 07910 08806 09353 12040 12954 13715 14433 14936 18324 22229 24931 25403 28480 56289 71400 72982 74868 75042 80009 80294 81073 90201 91637 94091 98291 99942 6 2 MANUFACTURER Allen Bradley Co Texas Instruments Inc Semiconductor Group RCA Corp Solid State Division General...

Page 64: ...B030000 ATTENUATOR FXD 100X 80009 307 1014 01 C10 C12 307 1013 00 B010100 B029999 ATTENUATOR FXD 10X 80009 307 1013 00 C13 C12 307 1013 01 B030000 ATTENUATOR FXD 10X 80009 307 1013 01 C13 c18 283 0000 00 CAP FXD CER DI 0 001UF 100 0 50OV 72982 831 S16E102P C25 283 0000 00 CAP FXD CER DI 0 001UF 100 0 500V 72982 831 516E102P C27 290 0136 00 CAP FXD ELCTLT 2 2UF 20 20V 56289 162D225X0020CD2 C33 283 ...

Page 65: ...56289 20C374 C285 283 0076 00 CAP FXD CER DI 27PF 10 500V 56289 40C287A2 C310 283 0000 00 CAP FXD CER DI 0 001UF 100 0 50OV 72982 831 516E102P C313 283 0003 00 CAP FXD CER DI 0 01UF 80 20 150V 72982 855 547E103Z C316 281 0700 00 CAP FXD CER DI 3 3PF 10 200V 72982 374 001S3B03391 C322 283 0003 00 CAP FXD CER DI 0 01UF 80 20 150V 72982 855 547E103z C323 283 0000 00 CAP FXD CER DI 0 001UF 100 0 500V ...

Page 66: ...3 00 CAP FXD CER DI 0 OIUF 80 20 IS0V 72982 8SS S47EI03Z C936 290 0530 00 CAP FXD ELCTLT 68UF 20 6V 90201 TDC686M006FL C939 290 0527 00 CAP FXD ELCTLT lSUF 20 20V 90201 TDClS6M020FL C940 290 0530 00 CAP FXD ELCTLT 68UF 20 6V 90201 TDC686M006FL C941 290 0534 00 CAP FXD ELCTLT IUF 20 3SV 56289 196DI0SX003SHAI C944 290 0532 00 CAP FXD ELCTLT lS0UF 20 6V 90201 TDClS7M006CL C94S 283 0003 00 CAP FXD CER...

Page 67: ...0141 02 SEMICOND DEVICE SILICON 3OV 1s0MA 07910 1N41s2 CRs16 152 0075 00 SEMICOND DEVICE GE 2sV 40MA 14936 GD238 CRs29 152 0141 02 SEMICOND DEVICE SILICON 30V 1s0MA 07910 1N41s2 CRs31 152 0075 00 SEMICOND DEVICE GE 2sV 40MA 14936 GD238 CR603 152 0141 02 SEMICOND DEVICE SILICON 3OV 1s0MA 07910 1N41s2 CR604 152 0141 02 SEMICOND DEVICE SILICON 30V 1s0MA 07910 1N41s2 CR619 152 0071 00 SEMICOND DEVICE ...

Page 68: ...7910 IN4152 CR87S 152 0141 02 SEMICOND DEVICE SILICON 3OV IS0MA 07910 1N41S2 CR876 152 0141 02 SEMICOND DEVICE SILICON 30V IS0MA 07910 IN41S2 CR878 152 0141 02 SEMICOND DEVICE SILICON 30V IS0MA 07910 1N41S2 CR879 152 0141 02 SEMICOND DEVICE SILICON 30V 150MA 07910 IN4152 CR880 152 0141 02 SEMICOND DEVICE SILICON 3OV IS0MA 07910 1N41S2 CR881 152 0141 02 SEMICOND DEVICE SILICON 30V IS0MA 07910 1N415...

Page 69: ...00 LR936 108 0537 00 COIL RF 200UH 80009 108 0537 00 LR939 108 0537 00 COIL RF 200UH 80009 108 0537 00 LR944 108 0537 00 COIL RF 200UH 80009 108 0537 00 Q25 151 1025 00 TRANSISTOR SILICON JFE N CHANNEL 01295 SBA8129 Q32 151 0402 00 TRANSISTOR SILICON NPN SEL FROM 3571TP 01295 SKA6S14 Q38 151 0271 00 TRANSISTOR SILICON PNP 01295 SKA4504 Q60 151 0206 00 TRANSISTOR SILICON NPN 94091 2SC2S8A Q65 151 0...

Page 70: ...25 00 TRANSISTOR SILICON NPN 07910 CS23365 Q529 151 0188 00 TRANSISTOR SILICON PNP 04713 2N3906 Q551 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q571 151 0282 00 TRANSISTOR SILICON NPN 02735 2N5179 Q574 151 0225 00 TRANSISTOR SILICON NPN 07910 CS23365 Q584 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q592 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q606 151 0192 00 TRANSISTOR SILICON NP...

Page 71: ...LICON NPN 04713 2N3904 Q870 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q874 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q875 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q879 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q880 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q884 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q896 151 0190 00 TRANSISTOR SILICON NPN 04713 2N3904 Q980 1...

Page 72: ...l02 315 0180 00 RES FXD COMP 18 OHM 5 0 25W 01121 CB1805 Rl06 317 0102 00 RES FXD COMP 1K OHM 5 0125W 01121 BB1025 Rl07 317 0102 00 RES FXD COMP 1K OHM 5 0125W 01121 BB1025 Rl15 315 0100 00 RES FXD COMP 10 OHM 5 0 25W 01121 CB1005 Rl17 321 0481 00 RES FXD FILM LM OHM 1 0 125W 75042 CEATO 1004F Rl18 315 0274 00 RES FXD COMP 270K OHM 5 0 25W 01121 CB2745 Rl25 315 0101 00 RES FXD COMP 100 OHM 5 0 25W...

Page 73: ...1500F R205 315 0750 00 RES FXD COMP 750HM 5 0 25W 01121 CB7505 R207 315 0821 00 RES FXD COMP 820 OHM 5 0 25W 01121 CB8215 R208 315 0330 00 RES FXD COMP 330HM 5 0 25W 01121 CB3305 R209 315 0821 00 RES FXD COMP 820 OHM 5 0 25W 01121 CB8215 R211 315 0510 00 RES FXD COMP 510HM 5 0 25W 01121 CB5105 R214 315 0100 00 RES FXD COMP I0 OHM 5 0 25W 01121 CBI005 R216 321 0034 00 RES FXD FILM 22 10HM 1 0 125W ...

Page 74: ...40 315 0241 00 RES FXD COMP 240 OHM 5 0 25W 01121 CB2415 R342 315 0620 00 RES FXD COMP 620HM 5 0 25W 01121 CB6205 R343 315 0620 00 RES FXD COMP 620HM 5 0 25W 01121 CB6205 R344 315 0471 00 RES FXD COMP 470 OHM 5 0 25W 01121 CB4715 R346 315 0121 00 RES FXD COMP 120 OHM 5 0 25W 01121 CB1215 R347 315 0471 00 RES FXD COMP 470 OHM 5 0 25W 01121 CB4715 R348 315 0151 00 RES FXD COMP 150 OHM 5 0 25W 01121 ...

Page 75: ... 25W 01121 CB4725 R423 315 0103 00 P S FXD COMP 10K OHM 5 0 25W 01121 CB1035 R425 315 0102 00 RES FXD COMP 1K OHM 5 0 25W 01121 CB1025 R426 315 0103 00 RES FXD COMP 10K OHM 5 0 25W 01121 CB1035 R42S 315 0510 00 RES FXD COMP 510HM 5 0 25W 01121 CB5105 R430 315 0391 00 RES FXD COMP 390 OHM 5 0 25W 01121 CB3915 R432 315 0101 00 RES FXD COMP 100 OHM 5 0 25W 01121 CB1015 R434 315 0271 00 RES FXD COMP 2...

Page 76: ...COMP 510 OHM 5 11 0 25W 01121 CB5115 R549 315 0391 00 RES FXD COMP 390 OHM 5 11 0 25W 01121 CB3915 R551 315 0362 00 RES FXD COMP 3 6K OHM 5 11 0 25W 01121 CB3625 R552 315 0152 00 RES FXD COMP 1 5K OHM 5 11 0 25W 01121 CB1525 R554 315 0182 00 RES FXD COMP 1 8K OHM 5 11 0 25W 01121 CB1825 R571 315 0102 00 RES FXD COMP 1K OHM 5 11 0 25W 01121 CB1025 R573 315 0471 00 RES FXD COMP 470 OHM 5 11 0 25W 01...

Page 77: ...1 CB2235 R684 315 0102 00 RES FXD COMP 1K OHM 5 0 25W 01121 CB1025 R685 315 0392 00 RES FXD COMP 3 9K OHM 5 0 25W 01121 CB3925 R688 315 0101 00 RES FXD COMP 100 OHM 5 0 25W 01121 CB1015 R691 315 0391 00 RES FXD COMP 390 OHM 5 0 25W 01121 CB3915 R692 315 0471 00 RES FXD COMP 470 OHM 5 0 25W 01121 CB4715 R695 315 0241 00 RES FXD COMP 240 OHM 5 0 25W 01121 CB2415 R696 315 0101 00 RES FXD COMP 100 OHM...

Page 78: ... COMP 22K OHM 5 0 25W 01121 CB2235 R791 315 0222 00 RES FXD COMP 2 2K OHM 5 0 25W 01121 CB2225 R792 315 0103 00 RES FXD COMP 10K OHM 5 0 25W 01121 CB1035 R793 315 0154 00 RES FXD COMP 150K OHM 5 0 25W 01121 CB1545 R795 321 0323 00 RES FXD FILM 22 6K OHM 1 0 125W 75042 CEATO 2262F R796 315 0153 00 RES FXD COMP 15K OHM 5 0 25W 01121 CB1535 R797 321 0289 00 RES FXD FILM 10K OHM 1 0 125W 75042 CEATO 1...

Page 79: ...0 670 2170 00 120 0444 00 120 0444 00 120 0459 00 120 0444 00 120 0444 00 1 20 0459 00 120 0784 00 156 0223 00 156 0223 00 Serial Model No Eff Dscont 1Furnished as a unit with S89 Furnished as a unit with R57 Furnished as a unit with S6 4Furnished as a unit with S189 urnishofd as a unit with R157 6 1S Mfr Name Description Code Mfr Part Number RES FXD COMP 10K OHM 5 0 25W RES FXD COMP 7 5K OHM 5 0 ...

Page 80: ...156 0079 00 156 0180 00 156 0252 00 156 0091 00 156 0124 00 156 0266 00 156 0230 00 156 0230 00 156 0079 00 156 0079 00 156 0091 00 156 0091 00 156 0091 00 156 0057 00 156 0058 00 156 0057 00 156 0097 00 156 0040 00 156 0040 00 155 0088 00 155 0090 00 155 0090 00 156 0030 00 155 0087 00 155 0086 00 152 0278 00 152 0279 00 152 0514 00 Serial Model No Eff Dscont Nome Description MICROCIRCUIT DI QUAD...

Page 81: ...Z ADJ 80009 119 0262 00 Scans by ArtekMedia 2007 Electrical Parts Llst 7D15 Tektronix Serial Model No Mfr Ckt No Part No Eff Dscont Name Descri tion Code Mfr Part Number VRl36 152 0278 00 SEMlCOND DEVICE ZENER 400MA 3V 5 07910 1N4372A VRl67 152 0279 00 SEMlCOND DEVICE ZENER 0 4W 5 1V 5 07910 1N751A VRl69 152 0514 00 SEMlCOND DEVICE ZENER 0 4W 10V 99942 R4763 VR259 152 0280 00 SEMICOND DEVlCE ZENER...

Page 82: ...or non repairable integrated circuit etc Electron tube Voltage regulator zener diode etc Crystal Scans by ArtekMedia 2007 Section 7 7015 SECTION 7 DIAGRAMS AND CIRCUIT BOARD ILLUSTRATIONS Symbols and Reference Designators Electrical components shown on the diagrams are in the following units unless noted otherwise Capacitors Values one or greater are in picofarads pF Values less than one are in mi...

Page 83: ...22 26 CRl20 R125 C125 Q125 R126 CR122 CR123 R189 N U U C R118 Cll8 cn C12 C10 C9 R115 Rl17 C113 C1l2 C110 ClOg NOTE S11 S11 R57 S57 and 5157 araloclII d on back side 01 board Fig 7 1 AS Allenualor circulI bo rd L j 89 so R7 R6 J 95 Cl05 Rl06 R107 5189 J J r ...

Page 84: ...ing point for spring loadedprobe tips alligator clips etc Scans by ArtekMedia 2007 r L L I L L L r I r IL I l L L il 7015 VOLTAGE AND W VEFORM TEST CONDITIONS Typical voltage measurements were obtained under the following conditions unless noted otherwise on the individual diagrams MEASUREMENT INTERVAL TRIGGER A and B P P SENS Voltmeter Type Input Impedance Range Recommended type as used for volta...

Page 85: ...lC 997 1 US T I M U4CSAP AVER U418BC u4a1 I A ARM SWITCHIN6 4 4 4 5 4 4 5 1 Q447 U 2Lb6 U421B U31ID A ARM XI TIM CHAlNRT do U l b 8 8 lorn5 CLMK A SUAPER 9 6 0 Q L 5 10 U b 1 4 FREP k U 1A PERIOD 4 5 0 AVLRG U 1 8 1C D U LWC 2 CLOCK U4ll A 6 u4qq RESET Q 4 l q 4 4 6 1 U468A 5 5 9 9 A SLOPE 5W ITCH Q71 461 Q14 9 0 1 1 19 T75 U 6 7 8 F Y b l l 5MHr Ub 1 5 25 A Y lnvrrrG DETECTOR QL55 QLLO UC54A s I ...

Page 86: ... DE CO ER S C OUlJTE R 5oTO 6 Q OI Q 7IJ RE I IoT CiaA TE Q O Q l Q 050 Q I ft U 8 C D D l o t Cl711 I Q 11 V u 7IA MAIN g U 72 c Ui 41 U r AT q U I FREQ C Ul2 a ll U1 1 c o C oc k __ f o y 100 5 U O I U11S8 Ui loa I U Ji 8 I Ui 2 U 7 1 U 7 1 I 0 If olSo 4 TltE ItJITIIIo T T SLOT C PUL I U1l i lo U4 q _ I OI PLA i I U 8 Q t DI IoPL V r GAU INVER TER UPDATE 0 14 t Q 11 OVE R FLOW CH I ROW Q Io14 DE...

Page 87: ...OOmS Scans by ArtekMedia 2007 l l G L o L 500mV 0100 500 01 l I I S I I r KHZ 100mS o o 500mV 0100 500 01S 200mV 0100 500 olS I 10 l i 1 r KHZ 100mS KHZ 100mS o 2oo mV 0100 500iJS I t 1 1 KHZ 100mS L 1433 11 ...

Page 88: ... ArtekMedia 2007 T i i y I S v i ll U 0 II I Co LO OOT OIC T I e C o T T c O O C O T T 0 C o T T AJI L 0 O 0 S rTc ow I po T O OtIT A I I I I I I I I I I I I I i I t 1 s oJ lOIS I u o q u T II 1Io t N IT IVITY 1 1 1 1 1 1 Ulf Ij 10 r cw I I I I I I I I 1 I I I d 11 1 110 0 11 1 I 00 1 1_ C U 11 1 1 11 1 Q1 I S Q O C1 1 to II U 001 51 1 0 l L 2 0 rf lr 1 4 00 U U l2 l f 001 JJ Q 2 I o 0 I J ...

Page 89: ...Scans by ArtekMedia 2007 A 1 1 II Qj u J i1 I 1 ol t Io v l ffilm m VI r 1 u _ lA p lr I 0 r _ V t I 5 Y 1 0 1 1 U 1 Uo4 O _ o OV O 4 m y i r Q o 3 f i n ti Q fo c tr u w U ov I _ n m n nil no Ilr 1 ru c I 00 0 1 n 0 I SEE PARTS LIST FOR SEMICONDUCTOR Types 1 10 SEE PARTS LIST fOR EAR LIER VALUES AND SERIAL NUMBER RANGES Of PARTS MAR ItEO WITH BLUE OUTLINE TRI c E R INPUT AMPS 0 o m z S ...

Page 90: ...00 5001t l i i I It I S o 200mS 0100 50m l I S l i 1 KHZ lOOmS KHZ lOOmS o 2V 0100 50mS 200mV 0100 50mS i 1 o 1 to I KHZ lOOmS KHZ lOOmS o 200mV 0100 20mS o 200mV 0100 50mS KHZ lOOmS KHZ lOOmS o 200mV 0100 50m r lV 0100 5mS S o 1 1 0 1 I I KHZ lO0 rS KHZ lOOmS o 200mV 0100 50mS lV 0100 50mS f_ KHZ lOOmS KHZ lOOmS 1433 12 ...

Page 91: ... A386 0990 A535 U 89 T395 Al93 96 0393 Q A394 um U360 A359 A293 U374 A379 A378 U A513 a A501 A358 Q 0375 2 A419 H Q g M a U 0312 A310 A333 C310 A313 C313 A311 J323 c C322 CA322 A323 A338 cm 0331 T320 Q 0319 A321 0316 C323 A339 A319 U 90 A549 A397 A340 Al18 Al92 A6 5 C316 0694 Q696 o A461 o Q30 U371 0 g t g AS14 u A464 U 6 A4S6 C458 A436 U287 36 A288 CA372 A289 U290 A439 C28S U280 P300 VA493 x a us...

Page 92: ...2 C284 0427 A176 C 061 079 A426 C169 A175 A169 R2e4 0174 am T175 C174 U63 U 0161 0 A283 Aleo A183 A278 0277 A162 A279 R275 CA275 0275 C273 R274 A273 I ce clrcun board I 60 A353 C40 R471 0354 CA167 A355 C192 CAl68 C191 L169 A173 A171 A178 OU7 C A187 A165 VA169 C931 A162 cm A163 A160 A145 TP141 A142 CA169 Al28 0 0 0 R13l L14l VAl36 C140 C136 L139 0132 A139 0 A138 U U A475 A243 U244 A597 a a CA328 R4...

Page 93: ...Scans by ArtekMedia 2007 0 7DI5 j 1 U Q2 77 uu J 68Q f J uauB _ __ 1 Cl ii j i lO52 CT V Wl _ Q 4 9 j u u lOo f 0 t un f o ...

Page 94: ...NOTE SEE PARTS LISTS FOR SEMICONDUCTOR TYPES ALL VOLTAGES ALE DECOVPLED SEE DIAGP FOR DETAILS to l GATING t CON1K LOGIC 0 Scans by ArtekMedia 2007 GATI NG 01 CONTROL l061C ...

Page 95: ...LS 1433 17 5v GATING CONTROL LOGIC 0 9 E 774 C SEE PARTS LIST FOR EARLIER VALUES AND SERIAL NUMBER RANGES OF PARTS MARKED WITH BLUE OUTLINE Scans by ArtekMedia 2007 1 U 3 GATIt J6 LOGIC CONTROL o Ie TA L y 1400 H OO OO HO Ot 0 O U U 0 0 t 0 0 l 0 QU1 YO u n_ 100 I 1111 _ w OWl S_ e e U eo g nz o z c C e ...

Page 96: ...0 1 J J __ _ TI L 2 I l Ilt215 MOl WITC M olD I 1 I I m UK IIll 0 1 611 0 m J PUliDO 1 00 1 _____ O 1 I 1_____ J L fl WID Iwi I 1 II _ m 1 1 0 II m I I Q LL I L l m L __ tjU 1D15 I V 1 1015 TIME I 2 56 J CLOe EO W tl L DISPL V TIM W ls ULLYCW M 52 Sb I Y IllSI vltU9 6 2 V Q258 7 000 C I 61 0 0 roo U6 l 100 ...

Page 97: ...RE DECOUPLED SEE DIAGRAM FOR DETA LS 0 774 R E C Scans by ArtekMedia 2007 Y TIME I C LO EO W MEt I OI PL Y TIME POT 1 ULLY CW e16S V 0 V1I 1 9 rU621 6 2 1 U61 7 2 00 0 II UlT 11 168 00 VUIID 74 0 1 SWITCH ING 1 1 I I I 1 y U l ps P U L 1 TIt ll vt IlMoE SWITCH M lI b SEE D NOTU I SH Pu TS LI T roll SEMKONDUCTOII TYpts 2 5 T o Li ON 6R M roll Ie l IfOIl M T IO N A LlVOLT o GES IIo U DECOUPLE SEE 0 ...

Page 98: ... co i CAI54 I Ii CRIIO i I CRISt I 0 CRII2 e i CRII II II CR 0 E J Ii D2J i RII 21 i D D Air Ii A 12 C E U E D COin i CA175 1 0 E RITt a E CA171 I il Ron o n CAI7 R RU AI12 CRUI Rm RIIO CR R C R co I I R 0 R R11 CAIn S R I I i el17 CR CRI10 LR CAUl C II RW RI15 lIS CR CR E I I CRMl I f RIS3 R7A i 0 R 51 CM4 i f I I c ii l _ t IiID L a ...

Page 99: ...182 U712 U75 U IO CRHO 10 no OIM R712 s uuu I m CR761 a onlll u u u U c eM 00 0 QMt c Re91 0811 circulI bGe d A711 en A7eo C761 I 5 u 0 O7Ot MHZ A743 0 0711 R757 C753 A701 0701 om 0 CA7 um Q713 A714 Qn Uu U728 ii coso 0132 U 32 J C741 A141 U741 U735 Q117 A717 5 A718 E 071 u A711 p A715 20 5 m ...

Page 100: ... 500nS r r 1 1 r 1 1 I to KHZ 100mS 1V 0100 5 S 1V 0100 200 S I I o o l I KHZ 100mS KHZ 100mS o 1V 0100 500nS Ir I I I I I KHZ 100mS r 1 1V 0100 50nS J II II I II II j o o 500mV 0100 200 S r r r r r V V V V V KHZ 100mS KHZ 100mS o 1V 0100 200 S KHZ 100mS 1433 13 ...

Page 101: ...Scans by ArtekMedia 2007 1 e 4 G t i to 4 6 U l Uc 1 S I I 8 1 1 l o I 0 0 I I 0 I I f I I Yfo2 1 S H XHL f n 0 0 I __________________________ _________________ l M OA 1015 ...

Page 102: ... Wo 04 u eF 1404 ry 7401 740 1 74 O e29 t IOI 1 cS G 1 16 SEE PARTS LIST FOR SEMICONDUCTOR TVPES _ ____________________1e____io f 1 D O 1 140 TO Isee PARTS LIST FOR EARUER o l I1 0 _ 7 TO 11 _ O Q641 s VALUES AND SERIAL NUMSER 01 Do OIACO O HOo t _____________ RANGES Of PARTS MARKED j WITH BlUEQUTUNE I 1 r 1 eo l t t t r 11 I I I I J f L I I I I TIME BASE ...

Page 103: ...Scans by ArtekMedia 2007 o 200mV 4 I 4 ft o 200mV o 1V i r 1 0100 50mS 4 KHZ100mS 0100 50mS r KHZ100mS 010 Om KHZ 100mS 1433 14 n z ...

Page 104: ...Scans by ArtekMedia 2007 ItT 1 _ I NT JtLI 7DIs Ill 1 no kll O Ql _ 1 S 0 1 al t Q7 1S I w M 1 voo T lAE So ltl P c ou LIO O l U Il 0 1 SEE PARTS LIST FOR SEM CONDUCTOR TYPES SEE PARTS UST FOR EARLIER VALUES AND SERIAL IUI 18ER RANGES Of PARTS MARKED WITH SlUE OUTLINE C U I 1 J 4 01 i V 0 P S l 5 J l l 0 u O lO OO 0 0 U 1 1 t761 L I U 1 760 0 DO U Itt C C7 0 6 ...

Page 105: ...CH I COLUMN ROWDATA 0 Scans by ArtekMedia 2007 Y J 1t C O I 4 UHI 6 0 6 0 01 T S T 0 06 0 7 0 0 TV t 1 400 40 1 H1 1 0 FROM O l __ 7 n CH I COLUM Row DATA ...

Page 106: ...5 jI t a O 0 05 f Y Qa 1l1 Q J JL Il n __ 0 1 j i 1 Ul lO L r t _l ll r o _lt r_t j_ ir qci t QM I I t 1 1 t 1 r Q Q a 7 4 f j t 1f j j Q 4 0 Oll __I __I I __ I ____________ I________ _t Y 1 04 j f j 1f j 1 f l o o a Qa J 1 j u o_ a1 0 1 r r r r ar __ 1 i I I 15II 10lS ...

Page 107: ... ArtekMedia 2007 CH 2 COLUMN ROW DATA 0 l J j I I I I I Il I I I 1 JJill O U i C i r r _ f I S If t I to t 0 il K 0 _ a 0 I I _ r t 0 1 If M r m t J i 1 1 1 1 l It I l I n rl l ll l 1t I 1 j J I 0 T r CI r r l 1 I I Q j o J N U l w j i I iH y of o 41 t O t g 0 0 8 j t l L t t t r t ot I g f o I l j f jL fl i J _ I f I _ ...

Page 108: ...Media 2007 7D15 VR995 T994 It rl L r f on U 0993 r l a L J 0980 l 0984 0982 I rIT N 0986 a t on C981 a TP997 a C992 a R981 C996 C980 a a C997 y r _ fI I I 1 F980 Q n I c iii 0 W Fig 7 4 A8 Power Supply circuit board ...

Page 109: ...I I I I KHZ 100mS I l l Scans by ArtekMedia 2007 o 2V 0100 20ILS r Ij i KHZ100mS 0 i SOOmV 0100 20ILS I I J I LI U L u U KHZ 100mS 0 5V 0100 20ILS 1 1 j I oo 0 I I 10 10 KHZ 100mS 1433 15 ...

Page 110: ... t LIGtIfrt I eo I TRiGo OU i I 1 0 It DI Gt 12 G I II 5 IGtN t l OUT F o q I 01 00 e 00 I I TS5 31 I T5 1 7 30 I T 5 I 729 I I I I I 4 I HOLD I OU 2 2 Z I P A 21 AUK j TItI i IN _TIUG 720 To Q l lIo I D 4 ISV 11 I 07 I I I W EP Rt Y T 715 TO U 47 6 p I DI AoCio i 1 TI G OUT 1 0 713 01 I NO I t _ L OU _ t 1 0 47 11 D 1i V IO x y I c OMP ATION 5 1 LIGoNT 9 I I 8 5v 8 I I 7 7 I I 1 I I 5 5 I I 4 4 I...

Page 111: ... 1 48 ike IX PL I 1 11 144 01 10 re 1 1110 14 0 o v 1 kc pc 1 l yF J 1 4 l u _ Iv c It 15 I t 1 DePL T 0AIl1 ou I T _ ITC I I I I n L I I Ij U i 8 l j Ipl c P iqa u tlAl TlME V IU Ii WITC H aO D C J Pr u r D 1U FII f Q I I AAT L 2 HOM WITtH _I Yoll l C J 1 10 1 nr i I l I I LOC IC SWITeH OARO I 4 _____ __ cow V SEe PARTS LIST fOR SEMICONDUCTOR TYPES POWER DISTRIBUTION 4 7 MAINFRAME CONNECTOR ...

Page 112: ... TENSION TAPPING TRUSS HEAD VOLTAGE VARIABLE WITH WASHER TRANSFORMER TRANSISTOR Scans by ArtekMedia 2007 L I L L Section 8 7015 REPLACEABLE MECHANICAL PARTS PARTS ORDERING INFORMATION Replacement parts are available from or through your local Tektronix Inc Field Office or representative Changes to Tektronix instruments are sometimes made to accommodate improved components as they become available ...

Page 113: ...NY 10544 Scans by ArtekMedia 2007 Mechanical Parts List 7D15 CROSS INDEX MFR CODE NUMBER TO MANUFACTURER MFR CODE 00779 08261 09353 13257 22526 23499 24618 24931 42838 45722 70276 71279 73743 74445 74868 77250 78189 79807 80009 81073 83385 83501 86445 87308 97464 98291 8 2 MANUFACTURER AMP Inc Spectra Strip Corp C and K Components Inc Amerace Ltd Berg Electronics Inc Gavitt Wire and Cable Division...

Page 114: ... 1054 00 105 0075 00 358 0029 05 210 0590 00 210 0012 00 25 131 0955 00 26 131 1315 00 27 210 0255 00 28 260 1206 00 29 210 0583 00 210 0223 00 210 0940 00 XB124000 30 358 0464 00 31 260 0735 00 210 0008 00 XB124000 32 358 0378 00 33 131 0156 00 34 131 0372 00 35 352 0324 00 36 386 1447 65 37 213 0192 00 38 136 0387 00 39 40 211 0156 00 41 211 0156 00 2 SHIELD ELEC SIDE 1 KNOB GRAY W SETSCREW 1 KN...

Page 115: ...155 00 71 361 0238 00 72 73 211 0116 00 74 407 1048 00 75 76 77 78 79 80 81 82 131 1030 00 131 1031 00 210 0779 00 136 0252 00 136 0252 04 260 1227 01 260 1132 00 220 0455 00 211 0116 00 83 200 1390 00 84 211 0008 00 85 210 0004 00 8 4 CKT BOARD ASSY INCLUDES 2 CONTACT ELEC 0 365 INCH LONG 1 CKT BOARD ASSY AVERAGE SEE A3 EPL ATTACHING PARTS 2 SCREW MACHlNE 1 72 X 0 25 82 DEG FLH STL CKT BOARD ASSY...

Page 116: ...1 00 2 CPLG SHAFT RDG FOR 0 08 TO 0 125 DIA SHAFT 80009 376 0141 00 COUPLING INCLUDES 213 0075 00 1 SETSCREW 4 40 X 0 094 INCH HEX SOC STL 70276 OBD 93 384 0247 00 2 EXTENSION SHAFT 4 375 INCH LONG 80009 384 0247 00 94 354 0391 00 2 RING RETAINING 0 395 FREE ID X 0 025 STL 97464 3100 43 CD 95 214 1139 00 SPRING FLAT GOLD COLORED 80009 214 1139 00 214 1139 02 SPRING FLAT GREEN COLORED 80009 214 113...

Page 117: ...K 80009 352 0163 00 141 352 0164 00 3 HOLDER TERM CON 6 WIRE BLACK 80009 352 0164 00 Scans by ArtekMedia 2007 Meohanlcal Parts Llst 7D15 FIGURE 1 EXPLODED CONT Fig Index Tektronix Serial Model No Qty Mfr No Part No Eff Dscont 1 2 3 4 5 Name Description Code Mfr Part Number 1 130 210 0775 00 4 EYELET METALLIC 0 126 00 X 0 23 INCH L BRS 80009 210 0775 00 131 175 0825 00 FT WIRE ELECTRICAL 2 WIRE RIB...

Page 118: ...Scans by ArtekMedia 2007 121 ...

Page 119: ...7D15 UNIVERSAL COUNTERITIMER Scans by ArtekMedia 2007 50 JJo _ 1 58 59 7D15 UNIVERSAL COUNTER TIMER m X r o C m C ...