manualshive.com logo in svg

Tektronix 5D10, Service Manual

The Tektronix 5D10 service manual is a comprehensive resource for troubleshooting and repairing this exceptional product. Available for free download from manualshive.com, this manual provides in-depth guidance to ensure optimal performance. Take advantage of this fantastic opportunity to access the manual and unleash your technical prowess.

Share
Download
background image

Summary of Contents for 5D10

Page 1: ...NTAINED IN OPERATING INSTRUCTIONS UNLESS YOU ARE QUALIFIED TO DO SO Tektronix Inc P O Box 500 Beaverton Oregon 97077 Serial Number COMMITTED TO EXCELLENCE PLEASE CHECK FOR CHANGE INFORMATION AT THE REAR OF THIS MANUAL 5D10 AVEFORM DIGITIZER WITH OPTIONS SERVICE Volume 1 INSTRUCTION MANUAL 070 3697 00 First Printing MAY 1982 Product Group 52 Revised NOV 1985 ...

Page 2: ... price change privileges Eve reserved INSTRUMENT SERIAL NUMBERS Each instrument haooserial number onapar e insert tag or stamped on the chassis The first number or letter designates the country of manufacture The last five digits of the serial number are assigned sequentially and are unique to each instrument Those manufactured in the United States have six unique digits The country of manufacture...

Page 3: ...RIGGERING 2 19 TRIGGERING SOURCE 2 21 JOIN DOTS ACQUISITION AND DISPLAY 2 21 LEFT PLUG IN CHANNEL SWITCH LOGIC 3 17 TRIGGERING 3 20 SOURCE SELECT COUPLING AND INPUT BUFFER 3 20 COMPARATORS AND ONE SHOT 3 20 OPERATION AND INTERACTION OF SLOPE SELECT 3 21 SAVE AND SAVE REFERENCE 2 22 THRESHOLD LEVEL 3 21 MEASUREMENT CONSIDERATIONS 2 22 TRIGGERED INDICATOR 3 21 ERASE CONDITIONS 2 23 UNDERSAMPLING IND...

Page 4: ...STATIC SENSITIVE DEVICE CLASSIFICATION 4 6 MULTI PIN CONNECTOR IDENTIFICATION 4 6 TROUBLESHOOTING EQUIPMENT 4 6 TROUBLESHOOTING TECHNIQUES 4 8 1 CHECK CONTROL SETTINGS 4 8 2 CHECK ASSOCIATED EQUIPMENT 4 8 3 VISUAL CHECK 4 8 4 ISOLATE TROUBLE TO A CIRCUIT 4 10 5 CHECK INSTRUMENT ADJUSTMENT 4 10 6 CHECK VOLTAGES AND WAVEFORMS 4 10 7 CHECK INDIVIDUAL COMPONENTS 4 10 8 REPAIR AND ADJUST THE CIRCUIT 4 ...

Page 5: ... following support related publications CHECK INDEX TO PART II ADJUSTMENT AND PERFORMANCE CHECK ADJUSTMENT AND PERFORMANCE CHECK INITIAL SETUP AND POWER UP SEQUENCE 5 34 5 34 5 34 DIAGRAM CPU ROM RAM CLOCK AND I 0 CONTROL 1 CONTROLLER INPUTS 2 CONTROLLER INPUTS AND SELF TEST ANNUN CATOR 3 A DISPLAY 5 36 SIGNAL ACQUISITION CH 1 AND CH 2 4 B INPUT COMPENSATION AND DIGITIZER 5 ACQUISITION 5 44 TIME B...

Page 6: ...state transition commands 3 28 Simplified output block diagram shown on Schematics 11 and 12 Only the Y channel is shown the X channel is identical 3 29 Simplified output circuitry in the vector and dot modes 3 30 Figure Page No 3 24 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 4 10 4 11 4 12 4 13 4 14 4 15 4 16 4 17 4 18 4 19 4 20 4 21 4 22 4 23 4 24 4 25 5 1 5 2 5 3 Page Waveforms for the output circuitr...

Page 7: ...REF on ACQUISITION AND DISPLAY 2 22 2 2 Measurement Frequency Limitations 2 23 4 1 Self Test Routine Mode Selection 4 4 4 2 Relative Susceptibility to Damage from Static Discharge 4 6 4 3 Display Output Signals 4 14 4 4 Common Circuit Signals Voltage values given are approximate 4 14 5 1 Calibration Procedure Electives 5 1 5 2 Performance Check Summary 5 2 5 3 Test Equipment 5 7 5 4 CH 1 and CH 2 ...

Page 8: ...nd AS MARKED ON EQUIPMENT DANGER High voltage Protective ground earth terminal L ATTENTION refer to manual POWER SOURCE GROUNDING THE PRODUCT DANGER ARISING FROM LOSS OF GROUND SAFETY SUMMARY TERMS WARNINGS This product is intended to operate in a mainframe connected to a power source that will not apply more than 250 volts rms between the supply conductors or between either supply conductor and g...

Page 9: ...TH POWER ON 51310 Service Volume 1 Dangerous voltages exist at several points in this product To avoid personal injury do not touch exposed connections and components while power is on Disconnect power before removing protective panels soldering or replacing components DO NOT OPERATE IN EXPLOSIVE ATMOSPHERES To avoid explosion do not operate this product in an atmosphere of explosive gases ...

Page 10: ... storage crt and allows viewing information which occurred prior to a triggering event Acquisition may be halted by a triggering event and automatically restarted at the end of the user adjustable viewtime A complete numerical display of cursor measurement values and time base and amplitude settings is generated by the 51310 a readout equipped m 3inframe is not required The front p nel XY plot out...

Page 11: ...IED SERVICE PERSONNEL ONLY TO AVOID PERSONAL INJURY DO NOT PERFORM ANY SERVICING UNLESS YOU ARE QUALIFIED TO DO SO Section 1 5D10 Volume 1 The Service Manual is divided into 2 volumes Volume 1 contains the following Section 1 General Information contains content descriptions of the Operators and Service manuals mainframe and plug in compatibility packaging instructions and instrument specification...

Page 12: ...ntenance section of this manual If the 51310 is used in the 5111 5111A 5113 5115 or the 5441 Storage Oscilloscope the mainframe should be operated only in the non storage mode If the 51310 is used in the 5115 Storage Oscilloscope the Enhance control must be rotated fully counterclockwise When the 51310 is installed in the 5223 Digitizing Oscilloscope the mainframe is used only for real time displa...

Page 13: ...st be selected for proper XY display However cursor operation is somewhat difficult especially if SAVE REF is selected PACKAGING FOR SHIPMENT If this instrument is to be shipped for long distances by commercial transportation we recommend that the instrument be packaged in the original manner The carton and packaging material in which your instrument was shipped should be saved and used for this p...

Page 14: ...t locations TABLE 1 3 Plug in Compatibility TABLE 1 4 Shipping Carton Test Strength Operating Plug in Conditions Symptom Cause 5A1 8N Dual Trace Waveforms Plug in channel SN belovi 5D10 Sec Div distorted switch settling 13128131 1 ms or faster time too slow 5A1 8N and 5A26 5A26 may be updated SN belovi with kit Tektronix 13051662 Part 040 0963 01 5A1 8N or kit 040 0964 00 5A26 51312N Dual Sweep Wa...

Page 15: ...TION TABLE 1 5 Electrical Characteristics VERTICAL SYSTEM Performance Requirement General Information 5D11 Volume 1 eflection Factor Calibrated Steps 1 mV to 20 V per div 14 steps in a 1 2 5 sequence Additional position of Channel 2 VOLTS DIV switch selects signal from Left Plug In Variable Range Uncal Continuously variable between steps Accuracy Input to Readout Numbers 1 mV Div 2 mV Div 2 5 mV D...

Page 16: ...2 Resolution X Y and Y T 0 04 div 8 bit digitizer Time Base Calibra ed Rates 0 1 ms to 50 sec div 18 steps in a 1 2 5 sequence UncaliErated Continuously variable between steps Accura y 1 to readout numbers External Input Allows external pulse generator to determine acquisition rate Sampling occurs on negative going edge of input pulse Voltage TTL levels Frequency Max 1 MHz Resolution X Y 0 04 div ...

Page 17: ...eater than 1 s Bi Slope Trigger Amplitude frequency and pulse width of or specifications apply to absolute value of signal i e rectified External Input R and C 1 MQ 2 47 pF approximately Voltage Max 250 V dc peak ac 250 V p p ac at 1 kHz or less TRIG D Indicator Indicator lights when triggering signal passes through threshold Penlift Logic Isolated floating switch SPST normally open or normally cl...

Page 18: ... Operatirg 0 C to 45 C Storage 55 C to 75 C Altitude Operatirg To 15 000 feet 4 500 m Maximum operating temperature decreases 1 C per 1 000 feet above 5 000 feet Storage To 50 000 feet 15 000 m Humidity Operatirg and Storage 5 days per MIL STD 810C method 507 1 Procedure 4 except 90 95 RH Vibration Operatirg Tested to MIL T 288008 SECT 4 5 5 3 1 Type 2 Class 5 Style E F Shock Tested to MIL T 28800...

Page 19: ...Figure 1 2 Dimensional drawing General Information 5131 C Volume 1 ...

Page 20: ......

Page 21: ...first time user followed by a systematic demonstration of all front panel controls CONTROLS CONNECTORS AND INDICATORS All controls connectors and indicators required for the normal operation of the 5D10 Waveform Digitizer unit are located on the front panel however recorder pen lift control can be altered by positioning the internal Link Plug jumper J1050 on the A3 Output circuit board refer to Se...

Page 22: ...riable Volts Div Provides continuously variable deflection factors between the calibrated settings of the VOLTS DIV switch and extends the deflection factor range to approx 50 volts division VOLTS DIV CH 1 CH 2 Volts per major graticule division This control selects the calibrated deflection factors from 1 mV to 20 V DIV 14 steps in a 1 2 5 sequence The LEFT PLUG IN may be selected as the amplifie...

Page 23: ... triggering recognizes signal excursion away from zero in either direction VIEWTIME Controls the time the waveform is displayed before being erased and new data acquired and displayed Viewtime is variable from 1 second to infinity Infinite viewtime provides single shot trigger and save capability PUSWERASE Push to erase the display before end of timer cycle without disturbing the setting of the vi...

Page 24: ...ted by the 51310 MAINFRAME CRT READOUT FIELDS The 51310 provides the readout information to the mainframe circuitry The scale factor readout fields generated by the 51310 are shown in Figure 2 2 The cursor readout fields generated by the 51310 are shown in Figure 2 3 Each value or symbol in the illustrations are identi led with a circled number Following each illustratior are definitions numbered ...

Page 25: ...VE REF was pressed is displayed The field will be blank for all other settings of the SECONDS DIV switch 10 ps is displayed if the SWP MFG switch is pressed in and CURSORS switch is not in the OFF position CH 2 Scale Factor Readout Field NOTE In addition to the conditions given after each value or symbol the following condition will also apply The ACQUISITION AND DISPLAY switch is in CH 2 ADD DUAL...

Page 26: ...d when a data point at which a cursor is to be displayed is off screen is displayed if the cursor value see number 12 is below center screen or negative with respect to ground reference NOTE See Setting the Ground Reference under Part l1 Detailed Checkout Procedure later in this section 0 72 cursor value a If CURSORS is in C1 position the cursor value relative to ground reference or center screen ...

Page 27: ...en in the ADD mode DY is displayed when X CHl Y CH2 ACQUISITION AND DISPLAY is pressed and CURSORS switch is in C2 C1 position A is displayed when CURSORS switch is in the C2 C1 position Y is displayed when X CHl Y CH2 ACQUISITION AND DISPLAY is pressed and CURSORS switch is in C1 position is displayed when a data point at which a cursor is to be displayed is off screen is displayed if the cursor ...

Page 28: ... Oscilloscope Type Used TEKTRONIX 5110 Oscilloscope See Mainframe and Plug In Compatibility considerations in Section 1 General Information 2 Function Generator Description Frequency range 1 Hz to 10 kHz output amplitude 15V p p into 50 O Type Used TEKTRONIX FG501A 2 MHz Function Generator used with TM501 Power Module 3 Amplifier Plug In Unit OPERATORS CHECKOUT 5 T Connector Description Connectors...

Page 29: ...rt will be displayed on the screen as follows Operating Instructions 5131 C Volume 1 a If all self tests pass 51310 READ will be displayed at the top of the screen and the firmware version i e VER 10 will big displayed at the bottom of the screen b If any test fails all operation halts To continue the tests press the PUSKERASE button this will allow the tests to either achieve completion or halt a...

Page 30: ...unctions as determined by front panel control settings Such features include scale factor readout signal acquisition not required for scale factor readout stored displays on the crt point to point cursor measurements with values displayed on crt readout etc SETUP Perform the Operators Checkout Power Up Sequence Set the 51310 controls as follows TRIGGERING POSITION FREE RUN 2 SELECTING THE TRIGGERI...

Page 31: ...red on the crt SAVE mode to delimit or identify portions of the waveform to be measured The cursors can be positioned to the desired points on the display by use of the appropriate front panel controls The cursor values are displayed on the crt readout Operating Instructions 51310 Volume 1 SETUP Set the 51310 controls as follows TRIGGERING POSITION CTR TRIG CURSORS C2 C1 SECONDS DIV 1 m SAVE Off b...

Page 32: ...out Increase the function generator amplitude for a 4 division display vertically centered on the crt SETUP Engage the SAVE button to store the display on the crt Move cursor C1 to the top of square wave step OBSERVE The channel 1 cursor field readout of approximately 2 OOD divisions relating to 2 divisions from center screen When the ground reference has not been set the CH 1 cursor field readout...

Page 33: ... reference so a new ground reference should be acquired sifter each position adjustment NOTE The 5D10 will not acquire aground reference more than 5 divisions from center scre gin The readout will display DJivisions rather than VJofts if the ground reference is inwJid Sweep Functions NORMAL SWEEP Perform the following procedure to obtain a normal sweep and to demonstrate the function of the relate...

Page 34: ...he input signal MAGNIFIED HORIZONTAL SWEEP S WP MGF 20 Switch SECONDS DIV to 1 m 21 Switch CURSORS to the C1 position 22 Press SAVE then press the SWP MGF button button in Observe that approximately 1 cycle is magnified to about 10 divisions 2 1 4 The part of the unmagnified display that will be enlarged is that IDortion immediately preceding 1 8 and following 7 8 the position of cursor C1 Refer t...

Page 35: ...rve that the display is freerunning not triggered and the TRIG D light remains on Press CTR TRIG EXTERNAL TRIGGERING Operating Instructions 5D1 C Volume 1 32 Apply a 1 volt 1 kilohertz signal from the Function Generator to the EXTernal SOURCE connector 33 Press in the EXT TRIGGERING SOURCE button 34 Set the SLOPE control to BISLOPE both SLOPE buttons in Turn the LEVEL SENSITIVITY control to the MA...

Page 36: ...on 3 Applications for more information ahout the XY inode Obtaining a Multiple Trace Display Perform the following procedure to demonstrate dual trace displays and use of the Left Plug In 2 1 6 NOTE The maximum frequency thal call he reconstructed accurately is limited by the number of traces to be displayed at any one time Refer to Table 2 2 Measurement Frequency Limitations at the end of this se...

Page 37: ... CH 2 GNP REV APR 1985 Operating Instructions 51311 Volume 1 68 Center the trace with the CH 2 POSition control Do not disturb this section throughout the remainder of the Two Trace Display procedure 69 Switch CH 2 VOLTS DIV to LEFT PLUG IN Notice that LEFT is displayed in the scale factor readout position on the screen Set the amplifier unit controls dual amplifier unit installed in the left vert...

Page 38: ...mplitude is attenuatoc by a factor of 10 by the probe and the scale factor readout is switched to indicate the correct scale factor Probe Compensation Maladajustment of probe compensation is one of the sources of measurement error Mast attenuator probes are equipped with a compensEition adjustment To ensure optimum measurement accuracy always compensate the oscilloscope probe before making measure...

Page 39: ...ering Logic Modes Operating Instructions 5D10 Volume 1 The operation of the triggering logic mode can he modified TRIGGERING not set to FREERUN by moving the Link Plug jumper J106 on the A4 Data circuit board The two Link Plug jumper positions are First Trig and Full Dspy First Trigger and Full Display In First Trig position acquisition stops after recognition of the first trigger event following ...

Page 40: ...E SWEEP TRIGGERS HERE When the SLOPE selector is set to BISLOPE both pushbuttons in the LEVEVSENSITIVITY control functions as a SENSITIVITY control The counterclockwise extreme is MAXimum sensitivity and the clockwise extreme is MINimum sensitivity The adjustable sensitivity threshold level performs two functions 1 allows the operator to view a signal which exceeds a selected positive or negative ...

Page 41: ...l when the input signal is time related multiple or submultiple to the line frequency It is also useful for providing a stable display of a line frequency component in a complex waveform EXTernal The EXT position connects the signal from the EXT input connector to the trigger circuit An external trigger signal can be used to provide a triggered display when the internal signal is either too low in...

Page 42: ...E REF is pressed button in The ACQUISITION AND DISPLAY mode switch setting where the signal was acquired and SAAVd 2 22 NOTE TABLE 2 1 Interaction of SAVE and SAVE REF on ACQUISITION AND DISPLAY When the SAVE button is out SAVE REF button is in and CURSORS is OFF changes in the scale factor settings will cause the associated scale factor readout field to be blanked When CURSORS is in C1 or C2 C1 p...

Page 43: ...SETTING THE PENLIFT POLARITY J1050 The position of jumper J1050 determines logic polarity at the front panel PENLIFT jacks Jumper J1050 is preset at the factory to the UP OP position pins 1 arid 2 linked together this means the recorder pen will lift UP when the relay contacts open OPen Refer to illustration in Figure 2 9 Normally closed contacts can be obtained by moving the jumper to the UP CL p...

Page 44: ...f displaying color such as the TEKTRONIX 5116 Oscilloscope the 5D10 provides the signals for a three color display orange cyan and neutral See the 5D10 Waveform Digitizer Operators manual for color operating instructions color applications and color rules using an XY recorder 2 24 ADD APR 1985 ...

Page 45: ... refer to the schematic number where the circuitry is shown Refer to Figure 3 1 for the following discussion The 51310 samples the input signal voltage at a specific instant in time This sample voltage is digitized converted to an eight bit binary number and stored in the Waveform Memory During display the binary REV APR 1985 Figure 3 1 Overall block diaciram Section 3 51310 Volume 1 number that r...

Page 46: ...Triggered Indicator Loadstop Logic and Undersampling Indicator The TRIG D light on the front panel illuminates when the pulse output roil lie uiieshot multivihratur is present_ The Triggered Indicator circuitry increases the duration of the triggering pulse to illuminate the lamp for short duration trigger pulses The POSSIBLE UNDERSAMPLING light illuminates when less than eight sample pulses per w...

Page 47: ...REV APR 1985 cc cc CC CC 00 I t t C9 X x W F Figure S 2 Signal anquisition block diagram Theory of Operation 5131 C Volume 1 W J a a Cn Q m a M r M 3 3 ...

Page 48: ...NG H DIGITIZER CONTROL LEFT PLUG IN CHANNEL SWITCH LOGIC SUCCESSIVE APPROX 1 IMATION REGISTER TO DIGITIZER OUTPUT REGISTER T_ w DIGITAL TO ANALOG CONVERTER COMPARATOR FROM CHANNEL SWITCH TO SAMPLE AND HOLD CHANNEL SWITCH AND WRITE ADDRESS COUNTER 3697 315 3 4 Figure 3 3 Digitizer block diagram ...

Page 49: ...ata from the Waveform Memory passes to the X and Y Display Registers The Y Display Register is an eight bit REV APR 1985 Theory of Operation 5D10 Volume 1 register and the X Display Register is a 10 bit register as more data points are included in the X axis The X And Y Register Clocks update the contents of the display registers Outputs from the Display Registers feed the D to A Converters The D ...

Page 50: ... O Q LLI Z vJ w F Cn H cps 7 I cc OU T Q 0 cc CO Q W L F W w Z n Y m w w O w QC7 U O Q cc H OWC w U IJJ F IJJ i m cc SDo 0 Q2 Figure 3 4 Memory system block diagram F Q wF Cr Qw0 _ d W F nw n m O U w O X m w w WoWo 2F CC w 0 J w J W 0 y Q F n n ww cc cc 00 D QH F CC it Cc i H u d J 0 N F w Z o O U m m M OC w y w J cc 0t0 0 N _ CC OLU W c F Z O Q a CC 0 e O m Y J w O U NU U o a O m N 0 0 N yE H i U...

Page 51: ...major stages of the circuits to conveniently locate the components mentioned in the following discussions The name of each stage is shown in a shaded box on the diagram and appears as a sub heading in the discussion of that schematic diagram Detailed circuit discussion is not provided where signature analysis is used to diagnose circuit faults See the Maintenance section of this manual and the 5D1...

Page 52: ...k diagram CPU ROM CONTROLLER OUTPUTS 3697 314 Microprocessor U230 is clocked at a 10 MHz rate The clock signal at 10 MHz is buffered by U322A and U322C The microprocessor has eight data lines and sixteen ad dress lines Addresses AO through A7 are multiplexed with the eight data lines DBO through DB7 The lower eight ad dress and data lines are demultiplexed by U121 When ALE pin 30 of the microproce...

Page 53: ...cc H U w U cc cc cc LLI ZO CC M Uv Z Ow O Z H Figiorr 3 7 Power supply block diagram Theory of Operation 51310 Volume 1 w Z O H U H z 1 w_ w h Q w 0 cc J U C7 a dr O Q cc aO w0 0I w O OC0 7 r w O w U w Z Q w J a a O 1 4 M U Q m O ...

Page 54: ... from the digitizer and data memory The M bus provides addresses from the Waveform Memory 3 10 CONTROLLER OUTPUTS AND SELF TEST ANNUNCIATOR CONTROLLER OUTPUTS The registers are controlled by the microprocessor via the I 0 Control decoders shown on schematic 1 The register outputs are control lines to various parts of the instrument SELF TEST ANNUNCIATOR These LEDs located at the rear of the instru...

Page 55: ...10 R620 8720 Theory of Operation 5D1 1 Volume 1 30 V 3697 300 Figure 3 8 Simplified block diagram of CH 1 Preamp and Intermediate Amplifier channel 2 amplifier is similar See text CH 1 INTERMEDIATE AMPLIFIER The signal current and the positioning current are mixed at transistor Q710 The single ended output from U720 drives the emitter of common base transistor Q710 The gain is calibrated by 8620 a...

Page 56: ... the addition of invert switch S740 This switch connects to the collectors of Q730 and Q731 When pressed it switches tie minus output from the collector of Q730 to the minus input of U640 The collector of Q731 then connects to the plus input of 0640 3 12 CH 2 INTERMEDIATE AMPLIFIER This circuitry operates in a manner similar to the CH 1 Intermediate Amplifier except in the ADD mode In the ADD mode...

Page 57: ...p flop This action progresses to the LSB flip flop U130A as the counter increments DIGITAL TO ANALOG CONVERTER This circuitry consists of constant current transistors Q121 C Q226C Q121 E Q226E Q210 Q220 Q222 and Q224 The current steering transistors are Q121 D Q226D Q121 A Q121 B Q226A Q226B Q211 Q312 Q221 Q320 Q223 Q323 Q225 and Q324 Bias voltage for eight of the current steering transistors and ...

Page 58: ...m 0 n w F 2in0 p O Z 3 W OJ a O Q O SU_N C7 mr w C7 DO 2 2 07 UZZ FO w a m Fza mCl Z z0 aw FaN aww 000 3697 301 wo E Ia u m am w o o 0 0 m 0m UU N O O a ccM o F m F 0 M O M O M O M m FO O M m ON F n ON F M n Nitl J N O Q7 N 0 Q7 N 6 O r 0 a tD O r N OO O M Q r O j Oh 0 Iw U N 7 2 a l 0 21 N N 0N o INO m O 2 2 0 O o U F F F F F 9 o m a m G a a Q 4 G Q a a a a a a a a a a a a ...

Page 59: ...ts U441 U540 and U541 divide the clock signal in decade steps The output from U541A in the clock signal divided by 100 0X 0 The outputs from this decade counter feed n the inputs of U440 a data selector When the ERASE line goes high the decade counters reset and all outputs go ow The Y output from the data selector U440 s the clock frequonoy for U541 B a divide by two pin 13 and divido bv five pin...

Page 60: ... 2 J x s 2 Z N M a II a a X W IM J 0 Q S S J J J S 2 2 S J a a F U el D to cc 2 N I Nat SJJx2 x2s F 4 W F W 0 Z cc 41 v o W W ED EN a v J 2 2 x _Z F r J O 2 2 2 f f1 cc 11 w F F X Ln100 W w O Z F aJxxsx xxx Z NIN W 0 M II U Oc Z a M o a _O I W M 2 F O M Ow F U Z N1Q N 0 F F 0 _ 01 In M In y a O 0 a m Q 00 Q m M M F O O as a vv a l M J IN O N N N N M O 2 2 7 7 O 7 w Q 00 n t0 M d M N O 2 S O J J a ...

Page 61: ...t on U705A Pin 5 of U705A is now low and pin 6 high selecting channel 2 Flip flop U505A generates the Last and the reset signal for 117n0A Thic action through 11700A prevents TS 7 Theory of Operation 5D10 Volume 1 from ending the digitizing sequence after one cycle in the dual or X Y mode In the single trace mocle pin 4 of U505A is low This presets U505A generating the Last at pin 6 In the dual tr...

Page 62: ...Theory of Operation 51310 Volume 1 3 13 Figure 3 12 51310 Left plug in channel switching new mainframes F a F O O F U W J J V Z W d O a 0 0 0 r W F O Z 3697 330 ...

Page 63: ...Theory of Operation 5D10 Volume 1 REV APR 1985 Figure X1J 51310 Left Oun in channel switching old mainframes CL D 0 cc 0 L4 j 0 Y z LU M 0 LU z 4 0 0 0 LU 0 z 3 1 9 ...

Page 64: ...ach digitizing cycle begins U800A changes state driving Plug in Channel Switch to select the other channel of the Left Vertical plug in for the next sampling and digitizing cycle 3 2 0 The reset input of U1020A is low causing the Q output to be low disabling lie output of open collectoi gale U1000C This prevents the output of U800A from being shorted The input of U1000E is low disabling its open c...

Page 65: ...ors are enabled Figure 3 14 Triggering block diagram Theory of Operation 5D10 Volume 1 THRESHOLD LEVEL This circuitry provides the plus and minus comparison voltage for the trigger comparators Comparison voltage for the plus comparator is provided by U410B Comparison voltage for negative comparator is provided by U410A As the LEVEL control is varied from stop to stop when either the plus or minus ...

Page 66: ...6 V and starts toward ground The time constant for this discharge is determined by R340 R250 and C25a The collector commences toward 5 V operating as an integrator When the collector reaches about 3 8VQ140stops conducting andthoTR O Dlight goes out I the triggering signal occurs more frequently Figure 3 15 Typical triggering waveforms THRESHOLD _ o 1 _ 1 vmpeo vm 3w 3z3 than about one third second...

Page 67: ...R 1985 SLOPE SLOPE BI SLOPE VA Theory of Operation 5D1 1 Volume 1 V13 A A Figure 3 16 Simplified diagrams and equivalent circuit for Threshold Level circuitry SIMPLIFIED DIAGRAM EQUIVALENT CIRCUIT 3H700A 3 23 ...

Page 68: ...PUISE The Erase pulse is generated by U225D The jP Erase pulse generates the Erase pulse by causing Q910 to conduct The Save All pulse inhibits the Viewtimer by raising the emitter voltage to Q910 TRIG13ER U610 pin 3 _ SAMPLE PULSES COUNTER STATE U627 U610 pin 4 J U610 pin 5 3 24 LIGHT OFF GREATER THAN EIGHT SAMPLES SINCE LAST TRIGGER LOADSTOP LOGIC This circuitry stops tho loading of data into th...

Page 69: ...1 and W2 asserted The above conditions cause the Group signal to go high Flip flop U 520A is clocked at the end of wril e group by S7 If the Fault is unasserted U525C is enabled and the Write Address Counter increments If the Fault signal is low U525C is disabled stopping the Wri ie Address Counter from incrementing The Fault goes low when the Plug In Channel Switch signal at pin 2 of U900A is low...

Page 70: ...controller block diagram X AND Y REGISTER CLOCKS This circuitry provides clock signals to update the contents of the display registers X DISPLAY REGISTER These flip flops store the binary word representing the X dimension for application to the D to A Converter The Time register is the data source for YT displays Waveform memory is the data source for XY displays Y DISPLAY REGISTER These flip flop...

Page 71: ...d X and Y registers compute next read address and update R register IDLE C COUNT Fiqure 3 19 Memory controller state transition diagram theory of Operation 51D10 Volume 1 Write digitizer output into wave iorm mem ory update scratchpads compute load stop lest 3697 307 ...

Page 72: ...the voltage to current converters is a comparator U610C This is used only for self test during power up The output of this comparator tells the microprocessor that the DACs are working SD AND WR AND RR S10 AND FETCH AND NP not finished reading M or F COUNTS IF IDLE AND WAIT AND JO AND J4 AND J8 AND J12 S 7 AND RR AND TR OR S11 AND WR AND WW OR S15 AND WR AND WW from table with redundancy S7 AND RR...

Page 73: ...lly subtracts the output of the D to A Converter from the output of U330 During the vector mode sample interval the output signal from operational amplifier U550 passes through U435A This integrated circuit functions as a switch When the Vector signal is high this switch is closed See Figure 3 23 and Figure 3 24 Other waveforms for this circuitry are shown on schematic 12 This action spplies the o...

Page 74: ... to A Converter U410 D to A Converter Current to Voltage Converter Operational Amplifier VECTOR MODE A SAMPLE INTERVAL 0 U350A C230 TO 77 Sample and Hold B INTEGRATION INTERVAL DOT MODE Figure 3 23 Simplified output circuitry in the vector and dot modes Q326 C34t U330 Integrator OUTPUT OUTPUT OUTPUT 3 7 311 ...

Page 75: ...MPLIFIER OUTPUT pins 6 of U550 and U430 OV SAMPLE OUTPUT Pins 6 of U445 and U450 OV INTEGRATOR OUTPUT pins 6 of U330 and U230 OV REV APR 1985 SAMPLE INTERNAL BEAM BLANKED B I A I B INTEGRATION INTERVAL BEAM ON B Figure 3 24 BNaveforms for the output circuitry shown on Schematics Theory of Operation 5D10 Volume 1 3697 312A 3 3 1 ...

Page 76: ...gh the output of U610D is high 7 V This action turns on Q326 in the Y channel a id Q225 in the X channel The purpose of these switches is discussed under the Y Output heading 3 3 2 When either the Plot Out or the Disp Join Dots signals or both are high pin 5 of U610B is low This causes a low at pin 7 of U610B This action opens switches U350A and U350D placing the sample and hold circuitry in opera...

Page 77: ...ower supply 7 5 7 5 and 5 volt supplies is limited by operational amplifiers U740D A and B respectively VOLTAGE REGULATOR Theory of Operation 5D10 Volume 1 A sense line from each secondary winding is connected to a current sense voltage divider at the negative input of each current limit operational amplifier Thq switching supply normally regulates to the mainframe 5 volt reference However when th...

Page 78: ...microprocessor has finished reading the memory address or data EN 56 Enables a front panel control input multiplexer EN 78 Enables a front panel control input multiplexer EN 9 Enables a front panel control input multiplexer N1 CK Clocks the N bus register N2 CK Clocks register 0450 in the Self Test Annunicator and initiates the display sequence in the Read and Write Control machine and display tim...

Page 79: ... DIG DUAL SINGLE is lov Digitizes channel 1 then channel 2 when DIG DUAL SINGLE is high XY SHIFT Displaces display on screen horizontally 012 div in X Y display mode 20 and 2L and LD Channel 2 is on being acquired and CH 2VOLTS D Vswitch is at LEFT PLUG IN position and left plug in is operating in the dual ace mode Controls channel switch logic uP SAMPLE Microprocessor stimulates digitizer cycle s...

Page 80: ...TRIO Channel 1 triggering signal to Source Select Coupling and Input Buffer CH 2 SIGNAL Channel 2 output signal from Sample and Hold circuitry to Channel Switch CH 2 TRIO Channel 2 triggering signal to Source Select Coupling and Input Buffer CH 1 PROBE CODING Channel 1 probe coding information to Front Panel Switches and Machine Status CH 2 PROBE CODING Channel 2 probe coding information to Front ...

Page 81: ... Enables data input to Waveform Memory during write cycle WO W10 Write addresses Theory of Operation 5D10 Volume 1 ERASE Stops display of previously acquired waveform and begin acqusition of new waveform LOADSTOP Stops digitizing and writing to Waveform Memory Indicates waveform acquisition is GROUP S7 High during State 7 of the memory controller at the end of the write group XY RO Low if read add...

Page 82: ...ke of e chamser Control was machine Y Y axis analog voltage output from D to A converters X X axis analog voltage output from D to A converters DAC COMP X and Y compared X Y or Y X Used in the self test mode READ NEXT Asserted by the display timer to cause memory controller to begin another read cycleand update X Y registers to next values XY and FUO True in XY display vvbh oven read address VECTO...

Page 83: ...properly installed not firmly seated in the rails CLEANING The 51310 should be cleaned as often as operating conditions require Accumulation of dirt in the instrument can cause overheating and component breakdown Dirt on components acts as an insulating blanket and prevents efficient heat dissipation It also provides an electrical conduction path which can result in instrument failure MAINTENANCE ...

Page 84: ...accurate measurments check the electrical adjustment of this instrument after each 2000 hours of operation car every twelve months if used infrequently In addition replacement of components may necessitate adjustment of the affected circuits Complete adjustment TROUBLESHOOTING Apply lubricant to the drum journals and mating surface in the mounting bearings Apply lubricant to the wear surface of th...

Page 85: ...ine is executed The 51310 has three basic self test routine modes individually selectable via internal Link Plugs jumpers These three modes function as follows REV APR 1985 1 Normal Mode This self test is to be exercised as a function of normal operation and provides the operator with a condition report display on the screen i e 51310 READY or ERROR The 51310 is shipped from the factory with the L...

Page 86: ...S 1 2 OPEN OPEN OPEN 3 4 OPEN OPEN OPEN 5 6 OPEN OPEN OPEN 7 8 OPEN OPEN OPEN 9 10 OPEN OPEN OPEN 11 12 OPEN OPEN OPEN 13 14 OPEN OPEN OPEN 15 16 LINK PLUG LINK PLUG LINK PLUG 17 18 LINK PLUG LINK PLUG LINK PLUG 19 20 LINK PLUG LINK PLUG LINK PLUG A2 J440 PINS 1 2 LINK PLUG LINK PLUG LINK PLUG 3 4 LINK PLUG LINK PLUG LINK PLUG 5 6 LINK PLUG LINK PLUG LINK PLUG 7 8 LINK PLUG LINK PLUG LINK PLUG 9 1...

Page 87: ...OR FIGURES MULTIPLIER TOLERANCE MULTIPLIER TOLERANCE VOLTAGE OHMS pF OVER 10pF UNDER 10pF RATII G BLACK 0 1 1 20 2pF 4VDC BROWN 1 10 1 10 1 0 1pF 6VDC RED 2 102 or 100 2 102or 100 2 10VDC ORANGE 3 103or 1 K 3 103 or 1000 3 15VDC YELLOW 4 104 or 10K 4 104 or 10 000 100 0 20VDC GREEN 5 105 or 100 K 1 2 10 or 100 000 o 0 5pF 25VD1 BLUE 6 106 or 1 M 1 4 106 or 1 000 000 35VDC VIOLET 7 1 10 107 or 10 0...

Page 88: ... the Static Control Mat Tektronix Part 006 3414 00 and Wrist Strap Tektronix Part 006 3415 00 4 Nothing capable of generating or holding a static charge should be allowed on the work station surface 5 Keep the component leads shorted together whenever possible 6 Pick up components by the body never by the leads 7 Do not slide the components over any surface 8 Avoid handling components in areas tha...

Page 89: ...J L PLASTIC POWER I L SIGNAL DIODE _J TRANSISTOR TRANSISTOR LIGHT EMITTING DIODE L E D G Maintenance 510110 Volume 1 PLASTIC POWER DIODE INDEX 1 INDEX 1 INDEX IC PINS ARE NUMBERED COUNTERCLOCKWISE FROM THE INDEX VIEWED FROM THE TOP INDEX INTEGRATED CIRCUITS Figure 4 3 Semiconductor lead configuration PIN NUMBER SEQUENCE PATH 3697 51 ...

Page 90: ...ONIX 308 Data Analyzer TROUBLESHOOTING TECHNIQUES This troubleshooting procedure is arranged to check the simple trouble possibilities before proceeding with extensive troubleshooting The first few checks ensure proper connection and operation of associated equipment If the trouble is not located by these checks the remaining steps aid in locating the defective component When the defective compone...

Page 91: ...LYSIS TROUBLESHOOTING P45 PIN 1 BRN RD OR YEL GRN BLU Maintenance 51311 Volume 1 P23 PIN 1 CONNECTS TO J23 BOTTOM OF A3 PIN 1 BROWN TO REAR OF INSTRUMENT PLACE PLASTIC JOINER STRIPS HERE TO FORM CRADLE 3697 53 Figure 4 5 Proper connection of the 067 1068 00 board extender cable set and 067 0645 03 plug in extender set 4 9 ...

Page 92: ...given in Section 8 Diagrams and Circuit Board Illustrations are not absolute and may vary slightly between 51310 Waveform Digitizers To obtain operating conditions used to take these readh7gs see the Voltage and Waveform Cond tions adjacent to the schematic The Voltages and Waveforms aid in troubleshooting even if the circuit is not operating to produce a time voltage signal Observe the voltage an...

Page 93: ...its_ Figure 4 6 Location of fuses in the 51310 Maintenance 5D10 Volume 1 A good understanding of the circuit operation is essential to troubleshooting circuits using integrated circuits if a signature analyzer is not available Operating conditions and other information for the Integrated circuits are given in Section 3 Theory of Operation and Section 8 Diagrams and Circuit Board Illustrations Diod...

Page 94: ...ble then the other b If the fault is in the 51310 vertical module isolate the fault to the A1 or A3 board by disconnecting A3 P13 and Al P13 If the fault is in the horizontal module isolate the fault to the A5 or A6 board by disconnecting A5 P56 and A6 P56 Remember the short circuit might be in the interconnecting cables c On each board remove decoupling inductors or resistors or other low impedan...

Page 95: ...power supply at A6 P90 Observe waveforms shown opposite diagram 13 for the case of A6 P90 open If A6 Q831 triggers and latches in this condition the defect is probably in the protection circuit itself d Try operating the mainframe from 3 variable transformer at reduced line voltage Compare observed waveforms with illustrations opposite diagram 13 look for correct shape wish reduced amplitude Check...

Page 96: ...t 0 V in Vector Mode TABLE 4 3 Display Output Signals TABLE 4 4 Common Circuit Signals Voltage values given are approximate 4 Vector Mode Check Vector Mode on schematic diagram 12 as follows a Switches U435A and U435D should be open in Dot Mode In Vector Mode they should be closed when the Vector signal line is low and open when it is high b The signal on pin 6 of voltage followers U445 and 0450 s...

Page 97: ... the interface board wire from J603 pin B11 to U640 pin 1 As a last resort a mainframe of opposite type may be used by following the procedures suggested below New Mainframes Used with the 5D10 If a new mainframe is used with the 5D10 operation of parts required to work with old mainframes may be checked by applying small pieces of tape to interface contacts B21 and A6 on the A6 Trigger Board and ...

Page 98: ...099 BELOW D Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 rnS 51 10 Test Point A3 U440 pin 2 A Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 rnS 5D10 Test Point A3 U530 pin 6 Figure 4 7 Display output waveforms C Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 rnS 5D10 Test Point A3 1 1445 on 6 E Test Oscilloscope VOLTS DIV 2 V TIME DIV 2 rnS 5D10 Test Point A3 U330 pin 6 REV APR 1985 ...

Page 99: ... BELOW G Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 rnS F F Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 rnS 5D10 Test Point A3 U425 pin 6 H H Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS J 5D10 Test Point A3 U450 pin 6 Figure 4 7 Display output waveforms cent Maintenance 5D10 Volume 1 J Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS 5D10 Test Point A3 U230 pin 6 369T15 4 1 7 ...

Page 100: ...OR WAVEFORMS A THROUGH E SN B020100 UP I A Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS 5010 Test Point A3 U530 pin 6 U Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS C Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS ED10Test Point A3 U445 pin 6 E Figure 4 7 Display output waveforms 5010 Test Point A3 U330 pin 6 E Test Oscilloscope VOLTS DIV 2 V TIME DIV 2 mS REV APR 1985 ...

Page 101: ... pin 6 G Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS I Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS 51310 Test Point A3 U440 pin 10 H J Figure 4 7 Display output waveforms cont Maintenance 51311 Volume 1 H Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS 51310 Test Point A3 U450 pin 6 J Test Oscilloscope VOLTS DIV 500 mV TIME DIV 2 mS 51310 Test Point A3 U230 pin 6 3697 326 4 1 9 ...

Page 102: ...in this instrument have been manufactured by Tektronix Inc To determine manufacturer of parts refer to Parts List Cross Index Mfr Code Number to Manufacturer WAVEFORMS FOR OLD MAINFRAMES WAVEFORMS FOR NEW MAINFRAMES CORRECTIVE MAINTENANCE ORDERING PARTS 1 Instrument type 2 Instrument serial number 4 Tektronix part number f igure 4 8 Test points and waveforms for checking operation of components un...

Page 103: ...iros on back non component side of Interface Board as shown in Figure 4 11 The two wires connect the I ft vertical plug in connector J601 pins A13 and E13 to the right vertical plug in connector J602 pin A17 and A16 respectively c Install one 2 3 4 inch 26gaugewire on back of Interface Board as shown in Figure 4 11 This wire connects the horizontal plug in connector J603 pin B11 to U640 pin 1 d Pr...

Page 104: ... A5 U627 PIN 15 A5 U627 PIN 10 A5 U610 PIN 4 H SET SE C DIV TO 1 m CAL FULLY CLOCKWISE 1J A5 U610 PIN 5 IS HIGH AND POSSIBLE UNDERSAMPLING LIGHT IS OFF SET SEC DIV TO 2m CAL FULLY CLOCKWISE A5 U610 PIN 5 IS LOW AND POSSIBLE UNDERSAMPLING LIGHT IS ON Figure 4 10 Troubleshooting waveforms for the Possible Undersampling circuits 7 t 3697 147 REV APR 1985 ...

Page 105: ...ONNECTED BETWEEN J601 PINS A13 A14D A14 R691 470 Kit 5 0 25 W CONNECTED BETWEEN J601 PINS B13 AND B14 R692 470 Kit 5 0 25 W CONNECTED BETWEEN J602 PINS A13 A14D A14 R693 470 Kit 5 0 25 W CONNECTED BETWEEN J602 PINS B13 AND B14 3697 144 Figure 4 11 Modifications necessary on the early 5100 series Mainframe Interface boards to achieve compatibility with the soldering iron tip properly tinned to ensu...

Page 106: ...drawing associated with the Replaceable Mechanical Parts list located at the rear of this manual may be helpful in the disassembly procedures that follow 4 24 Figure 4 12 Recommended desoldering sequence SEMICONDUCTORS Semiconductors should not be replaced unless actually defective If removed from their sockets during routine maintenance return them to their original sockets Unnecessary replacemen...

Page 107: ...couplers U213 28 PIN IC SOCKET LOCATED ON THE A2 MICROPROCESSOR BOARD Note A 24 pin ROM is used for 5D10 SN B020099 below a 28 pin ROM is used for 5D10 SN B020100 up 3 4 5 6 7 Unplug the 4 cables Maintenance 5D11 Volume 1 Unsolder the wires to the front panel bnc connectors at the bnc not at the board NOTE If a new A 1 board is to be installed remove the 4 wires and 2 lamps from the board after re...

Page 108: ...mplifier board removal procedure 2 Remove 2 screws then remove the shield 4 26 Figure 4 14 Securing screw and connector locations Install the A2 Microprocessor board as follows A3 Output board replacement 3697 60 3 Separate the multipin connector by pulling the A2 board vertically away from the A3 board 1 Reverse the removal procedure Care should be exercized in aligning the board to board multipi...

Page 109: ...15 Board to bnc connections A1 Maintenance 511310 Volume 1 8 Install a cam switch contact protector if available otherwise place the board on a tray or other flat uncluttered surface to avoid damage NOTE If the A3 Output board is to be replaced with a new board save the front panel pushbutton knobs cam switches and shields i hese components will be needed for the new board If new components are de...

Page 110: ...Maintenance 51310 Volume 1 BOARD TO BOARD MULTI PIN CONNECTORS P23 P32 51310 SHOWN WITH A1 AMPLIFIER BOARD REMOVED 4 28 Figure 4 16 A2 board replacement REV APR 1985 ...

Page 111: ...sitions 7 Solder the 4 wires to the front panel plotter output jacks 9 Plug in 10 connectors 6 harmonica 4 ribbon cable Refer to Figure 4 19 for harmonica location 10 Connect the plug in halves Install joiner strips and retainer screws_ Figure 4 17 Separating the frame sections After the plug in halves are joined together check the ribbon wire cables for tight connection The ribbon cables may be v...

Page 112: ...ith washer and ribbon cable Align the index on the cable plug housing with the index on the board Observe the dress and fold see Fig 4 21 3 Join the 2 plug in halves Refer back to Figure 4 17 After the plug in halves are joined together check the ribbon wire cables for tight connection The ribbon cables may be viewed from the rear through the top ventilating holes A5 Control board replacement Remo...

Page 113: ...of parts mentioned in the following removal and installation procedures REV APR 1985 Figure 4 20 A4 board removal MULTI PIN CONNECTOR 1 Remove the A4 and A5 boards Maintenance 5131 Q Volume 1 PLASTIC CABLE CLAMP 3697 65 2 Unsolder 3 wires at the bnc connectors EXT TRIGGERING EXTERNAL SEC DIV NOTE If a new A6 board is to be installed savs the support posts screws and push button knobs remove the bu...

Page 114: ...stall tha A6 Trigger board as follows 1 Reverse the order of removal see Fig 4 23 4 32 Figure 4 21 Cabling configuration and dress between A3 P34 and A4 P34 Use care when installing the cam switch actuator drum The individual switch wipers could be damaged NOTE The long pegs on the connected bearings engage the A6 board INTERCONNECTING PINS 3697 56 Two methods of interconnection are used in this i...

Page 115: ... N TWO WIRES FOR TOP 1 WIRE FOR BACK REV APR 1985 F j Figure 4 22 A5 board securing hardware P60 BOARD SECURING SCREWS BACK CAM SWITCH SECURING SCREWS Figure 4 23 A6 board securing hardware and connector locations Maintenance 5D10 Volume 1 GREEN d BLACK P95 3697 6 4 33 ...

Page 116: ...loded view of a coaxial end lead connector assembly 4 14 CABLE EYELET RECEPTACLE Figure 4 24 Coaxial end lead connector assembly C1986 71 Circuit Board Pins A circuit board pin replacement kit including necessary tools instructions and replacement pins with attached ferrules is available from Tektronix Inc Order Tektronix Part 040 0542 00 NOTE All circuit boards in the 51310 are multi layer boards...

Page 117: ...n the hole on the side of the holder and slide the extended portion under the holder This wi I allow the wire to be removed from the holder Some of the pin connectors are grouped together and mounted in a plastic holder the overall result is that these connectors are removed and installed as a multi pin connector see Troubleshooting Aids If the individual end lead pin connectors are removed from t...

Page 118: ......

Page 119: ...trols indicators and connectors on the 5D10 e g TRIGGERING Initial capitals identify all the associated test equipment controls indicators and connectors e g Amplitude used in the procedures Initial capitals also identify internal adjustments of the 5D10 P 9 1 1 Gain CALIBRATION TABLE 5 1 Calibration Procedure Electives Section 5 5D1a Volume 1 These procedures are divided into subsections by major...

Page 120: ...e Performance Requirement VERTICAL SYSTEM 4 INTERACTION indicates that the adjustment described in the preceding instruction interacts with other circuits The nature of the interaction is described and reference is made to the step s affected PERFORMANCE CHECK SUMMARY Table 5 2 Performance Check Summary lists the electrical specifications that are checked in Part I and Part II of this section Tabl...

Page 121: ...Check Adjust X and Y to CRT Centering and Gain Centering and Gain Bandwidth Single Channel Suitable for do to C2 Check Bandwidth X Y C2 Check Bandwidth X Y 100 kHz Phase Shift and CMR Phase Shift and CMR Dual Channel Suitable for do to 50 kHz Input R and C 1 MQ within B2 Check Input Compen B4 Check Adjust Input 0 5 47 pF sation Compensation approximately Voltage Maximum 250 V dc peak Specification...

Page 122: ...eck Bandwidth X Y C2 Check Bandwidth X Y degree phase Phase Shift and CMR Phase Shift and CMR shift between Ch 1 and Ch 2 do to 100 kHz Resolution X Y anc Y T 0 04 div 8 bit Customer verification normally not required digitizer Satisfactory operation is substantiated by e other tests in the procedures Time Base Calibrated Rates 0 1 ms to 50 sec F2 Check Timing Accuracy F2 Check Timing Accuracy div...

Page 123: ... sample Update Update pulses occur during interval between successive threshold crossings of triggering signal Depends on Trigger SOURCE LEVEL and SLOPE control settings Sources Channel 1 Channel Customer verification normally not required 2 Left Plug in via Satisfactory operation is substantiated by other mainframe Line tests in the procedures External Coupling Dc ac G2 Check Left Plug in G2 Chec...

Page 124: ...ned with appropriate testing bridge if necessary Penlift Logic Isolated switch H2 Check Plot Output H2 Check Plot Output SPST floating normally open or H3 Alternate Check H3 Alternate Check normally closed Plot Output Plot Output contacts select able by internal jumper Voltage Max 5 V do or rms Customer verification normally not required Current Max 50 mA do or rms Pen up 180 ms 20 H2 Check Plot O...

Page 125: ...check the Minimum Specifications column carefully to see if any other equipment might suffice Then check the Purpose column to see why this item is used If used for a Performance Check or Adjustment that is of little or no importance for your measurement requirements the item and corresponding step s can be deleted 5 7 Examples of Minimum Applicable Description Specifications Purpose Test Equipmen...

Page 126: ...ektronix Part 012 0057 01 required length 42 inches connectors bnc male 11 Terminator Impedance 50 S2 Terminate output of calibration a Tektronix Part 011 0049 01 connectors bnc generator power 2 W maximum 12 Alignment Tbo12 Nonconductive shaft Adjust internal variable resistors a Tektronix Part 003 0675 00 and screwdriver tip and capacitors 13 Dual Input Coupler Impedance 50 Sl Inserting identica...

Page 127: ... bilities and have when XY recorder is not Oscilloscope Z axis input 5 available step 3 volts turns beam b TEKTRONIX 5441 on from totally Storage Oscilloscope off display 18 Cable Connectors tip Used to check plot output a Tektronix Part 175 1178 00 plugs on one end when XY recorder is not 20 inch four required and male bnc on available step 3 other end 19 Power Supply Output voltage 5 Used to che...

Page 128: ...Signal Isolation 5 19 E TRIGGERING LEVEL AND SENSITIVITY 5 21 1 Triggering Level and Sensitivity Preliminary Setup 5 21 2 Check Triggering Level Range 5 21 3 Check Triggering Sensitivity and Ground Refererce Update 5 22 F TIME BASE ACCURACY 5 24 1 Time Base Accuracy Preliminary Setup 5 24 2 Check Timing Accuracy 5 24 3 Check External Sec Div Input 5 25 G LEFT PLUG IN FUNCTIONS 5 27 1 Left Plug In ...

Page 129: ...oubleshooting information in Section 4 Maintenance 7 Switch on the appropriate test equipment and allow 20 minutes warmup before proceeding Calibration Part I 5D10 Volume 1 Performance Check To prevent instrument damage switch oscilloscope mainframe off before installing or removing plug in units ...

Page 130: ...IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIfllllllll III II ililll a CHECK the 2nd and 10th displayed vertical lines correspond to the 2nd and 10th crt graticule lines adjust the front panel screwdriver HORIZ CTRG adjustment as necessary All displayed vertical lines must correspond to their respective crt graticule lines within 0 1 div...

Page 131: ...E Off released All other pushbuttons Off released IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII Shaded lines identify Performance Requirement CHECK IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 132: ... MEASUREMENT Figure 5 1 Measurement of waveform aberrations Illlllllilllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll I CHECK that pulse aberration rolloff and overshoot is less than 0 1 division peak and less than 0 15 division peak to peak IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 133: ...throughout its range and check that the signal display moves completely off screen at each extreme setting of the CH 1 POS control III111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111 n Return the CH 1 CAL control to the calibraled position in detent o Disconnect the cali...

Page 134: ...111111111111111111111111111111111IV11111IIIIVIIIIIIIIII1111111V11111111111111IIII hh CHECK the CH 1 LVoltage readout display reads 100 0 volts within the limits of 98 0 to 102 0 volts IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIII I ii Set the CH 1 VOLTS DIV control t...

Page 135: ...on at the back of this manual for any changes which may affect this procedure c Set the 51310 controls as follows ACQUISITION AND DISPLAY CH 1 On pressed in VOLTS DIV CH 1 and CH 2 0 2 TRIGGERING POSITION FREERUN SLOPE pressed in SOURCE CH 1 CURSORS OFF SECONDS DIV 5 m STORAGE VIEWTIME MIN Coupling CH 1 and CH 2 AC pressed in All other pushbuttons Off released Calibration Part I 51310 Volume 1 Per...

Page 136: ... j Set the ACQUISITION AND DISPLAY to X CH 1 Y CH 2 k EXAMINE the CH 1 POS control should move the display horizontally and the CH 2 POS control should move the cisplay vertically I If necessary readjust the low frequency oscillator Var Attenuator control to display 6 divisions vertically IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 137: ...ON PRELIMINARY D2 CHECK DISPLAY RELATED AND SETUP INPUT RELATED SIGNAL ISOLATION a Perform the Performance Check Initial Setup and NOTE Power Up Sequence procedure which appears at the First beginning of Part IPerformance Check perform step D1 then proceed Calibration Part I 5D10 Volume 1 Performance Check D2 SETUP CONDITIONS 5D10 Controls Make no changes to the control settings Low Frequency Osci...

Page 138: ...IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII p CHECK that the displayed signal amplitude is 1 division or less IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII q Release the CH 2 GND button r Press the CH 1 GND butt...

Page 139: ...n and the POSITION to CTR TRIG 111111111111111111111V111111IIVIIIIIV11111IIIIIIIIIIIIIIIIIIIVIIIIIV111111IIVIIIV1111111111111111111111VIIIIIV111111111111111111111111111111111111111111111111IIIIIV111111111111111111111111 Shaded lines identify Performance Requirement CHECK 111111111111111111111 IT IIIII IIIIIII111111111111111111111111111111111111Till IIIIIII IIIIIII III 11111111111111111111111111111...

Page 140: ...IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII r Set the TRIGGERING SLOPE to button in I IIIIIIII IIIIIIIIIIIIIIIIIIII IIIIIIIIIII 1111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111 IIIIIIIIIIIIIIII...

Page 141: ...111111111111111111111111111111111111111111111111111111111111111111111111111111111 s CHECK that a stable display can be obtained in both SLOPE and SLOPE rotate the TRIGGERING LEVEL control as necessary 111111111111111111111111111111111111111111111111111111111111111111111111111111111IIIIIIIIIIIIIIIIII111111111111111111111111111111111111111111111111111111111111111111111111111111111 t Remove all cable...

Page 142: ...lllllllllllllllllllllllllllllllllilllllllllllllllllllllllllllllllllll llll F1 TIME BASE ACCURACY PRELIMINARY F2 CHECK TIMING ACCURACY SETUP NOTE a Perform the Performance Check Initial Setup and First perform step F1 then proceed Power Up Sequence procedure which appears at the beginning of Part I Performance Check F2 SETUP CONDITIONS 50110 Controls SECONDS DIV 0 1 m CURSORS C2 C1 Time Mark Genera...

Page 143: ... display changes from 1 ms to 100 is and the displayed Time markers are 5 divisions apart IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII1IIIIIII n Release the JOIN DOTS pushbutton o EXAMINE the time markers are displayed with dots F3 CHECK EXTERNAL SEC DIV INPUT If the prece...

Page 144: ...to 248 Hz 1 m 1 ms 7 92 to 8 08 ms 126 to 124 Hz 2 m 2 ms 15 84 to 16 16 ms 63 1 to 61 9 Hz 5 m 5 ms 39 60 to 40 40 ms 25 3 to 24 8 Hz 11 m 10 ms 79 2to80 8ms 12 6to12 4Hz 21 m 20 ms 158 4 to 161 6 ms 6 31 to 6 19 Hz 51 m 50 ms 396 0 to 404 0 ms 2 53 to 2 48 Hz 1 100 ms 792 to 808 ms 1 26 to 1 24 Hz 0 2 200 ms 1 584 to 1 616 s 631 to 619 mHz 0 5 500 ms 3 960 to 4 040 s 253 to 248 mHz 1 1 s 7 92 to...

Page 145: ...C2 C1 SECONDS DIV 0 1 m STORAGE VIEWTIME MIN All other pushbuttons Off released IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII Shaded lines identify Performance Requirement CHECK IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 146: ...d in IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII i CHECK that both Channel 1 and Channel 2 traces are displayed on the screen IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 147: ...IG SLOPE pressed in SOURCE CH 1 STORAGE VIEWTIM E MIN CURSORS OFF All other pushbuttons Off released 16 Ramp Generator 17 Test Storage Oscilloscope 18 Cable 4 required 19 Power Supply 20 Adapter IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII Shaded...

Page 148: ...f 4 divisions at 1 kHz b Set the X Y recorder controls as recommended by the manufacturer refer to the X Y recorder manufacturer s instruction manual c Press the STORAGE SAVE button in d Press the SAVED DISPLAY PLOT button in Notice the screen will blank until the first channel of the plot is com pleted then display the message CHANGE PEN COLOR IF DESIRED RELEASE THEN PUSH PLOT TO CONTINUE When PL...

Page 149: ...ion Part I 5D10 Volume 1 Performance Check JUMPER J1050 UP CI A3 OUTPUT BOARD PENLIFT POLARITY r A 3 UP CL The X Y recorder pen will lift UP where the relay contacts close CL UP OP The X Y recorder pen will lift UP where the relay contacts open OP 3697 136 ...

Page 150: ...out Enhance Control Off a Center the oscilloscope mainframe waveform display on the screen and adjust the TRIGGERING LEVEL control for a stable display b Press the 51310 SAVE button in c Center the test storage oscilloscope dot display on the screen position to graticule center using both dual trace amplifier Channel 1 Position controls d Rotate the test storage oscilloscope Intensity control full...

Page 151: ...H3 PENLIFT JUMPER LOCATION Calibration Part I 5D1t Volume 1 Performance Check FRONT OF INSTRUME A3 OUTPUT BOARD PENLIFT JUMPER J1050 UP CL A3 3697 133 ...

Page 152: ...1 Input Compensation and Acquisition Preliminary Setup 5 44 2 Adju t Acquisition Timing A6R61 5 44 5 Check Adjust Amplifier Gain A1 R620 A1R63 I 5 50 C BANDWIDTH X Y PHASE SHIFT AND CMR 5 53 1 Bandwidth X Y Phase Shift and CMR Preliminary Setup 5 53 2 Check Bandwidth X Y Phase Shift and CMR 5 53 D CHANNEL ISOLATION 5 55 1 Channel Isolation Preliminary Setup 5 55 2 Check Display Related and Input R...

Page 153: ...omfortable viewing level 7 Set the front panel HORIZ CTRG and VERT CTRL screwdriver adjustments to center the display on the screen Calibration Part II 5D10 Volume 1 Adjustment and Performance Check 8 Observe a graticule pattern display on the screen with the readout 5D10 READY at the top of the screen NOTE If the graticule pattern does not appear or the readout displays 5D10 ERROR refer to the tr...

Page 154: ...illoscope Mainframe IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII Shaded lines identify Performance Requirement CHECK IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 155: ...A2 ADJUSTMENT LOCATIONS Calibration Part II 51310 Volume 1 Adjustment and Performance Check ...

Page 156: ...OFFSET I A3R551 A3R 552 NOTE If the preceding step was not performed first perform step A1 then proceed A3 SETUP CONDITIONS 5D10 Controls SAVE On pressed in Oscilloscope Mainframe 7 5D10 Test Equipment Controls Oscilloscope Mainframe Intensity 2 O clock 3697 101 b ADJUST X S H Offset R551 and Y S H Offset R552 on Output Board A3 to superimpose the graticule dots on the graticule vectors ...

Page 157: ...A3 ADJUSTMENT LOCATIONS Calibration Part II 51 10 Volume 1 Adjustment and Performance Check ...

Page 158: ...hin 0 1 division of their corner dots If the preceding step was not performed first perform step A 1 then proceed A4 SETUP CONDITIONS 51310 Controls Make ro changes in the control settings Oscilloscope Mainframe n Test Equipment Controls Oscilloscope Mainframe Intensity 2 O clock 3697 102 b ADJUST JN Trng R501 on Trigger Board A6 to align the upper right and lower left intensified portions with th...

Page 159: ...A4 ADJUSTMENT LOCATIONS Calibration Part II 51310 Volume 1 Adjustment and Performance Check ...

Page 160: ...I b ADJUST X Gain adjustment R352 on Output Board A3 and the front panel HORIZ CTRG adjustment so that the 2nd and 10th displayed vertical graticule lines match the 2nd and 10th crt graticule lines All displayed vertical lines must match their respective crt graticule lines within 0 1 division 111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111...

Page 161: ...5 ADJUSTMENT LOCATIONS Calibration Part II 51310 Volume 1 Adjustment and Performance Check O 0 1 0 1 0 1 0 1el o FRONT OF INSTRUMENT R351 R352 Y GAIN X GAIN BOTTOM VIEW OF 51310 A3 OUTPUT BOARD 3697 126 ...

Page 162: ...INIE MIN All other pushbuttons Off released 5 44 9 Attenuator 10 Coaxial Cable 42 inch 11 Terminator 500 12 Alignment Tool 14 Probe IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII Shaded lines identify Performance Requirement CHECK IIIIIIIIIIIIIIIII...

Page 163: ...and Performance Check a EXAMINE the frequency counter readout should be b ADJUST ACQ TMG adjustment R612 on Trigger 1 0000 MHz within the range of 1 0100 to 0 9900 Board A6 for a frequency counter readout of 1 0000 MHz 132 ADJUSTMENT LOCATIONS 5 45 ...

Page 164: ...ts Div readout information is multiplied by a factor of 10 k Set the ACQUISITION AND DISPLAY to CH 2 I Rotate the CH 2 POS control to center the trace on the screen m EXAMINE the vertical trace shifts less than 1 5 divisions as the CH 2 VOLTS DIV switch is rotated throughout its range n ADJUST 2 Bal adjustment R940 on Amplifier Board A1 for minimum vertical trace shift as the CH 2 VOLTS DIV switch...

Page 165: ... gg EXAMINE both CH 1 and CH 2 Volts Div Voltage 5 3 displays the Voltage information from C1 Cursor 1 readouts appear and that both read approxirriately 0 00 mV within 0 08 mV ee Set the ACQUISITION AND DISPLAY to DUAL 133 ADJUSTMENT LOCATIONS R920 1 BAL Calibration Part 11 5D1 C Volume 1 Adjustment and Performiince Check A1 AMPLIFIER BOARD 3697 12 8 ...

Page 166: ...o display 7 divisions of signal amplitude centered on the screen f If necessary adjust the TRIGGERING LEVEL control for a stable display g ADJUST 1 CX1 adjustment C1120 on Amplifier Board Al for optimum flat top on the waveform h Set the CH 1 VOLTS DIV switch to 0 5 i Set the calibration generator Pulse Amplitude control to display 5 divisions of signal amplitude centered on the screen j ADJUST 1 ...

Page 167: ...f signal amplitude centered on the screen 134 ADJUSTMENT LOCATIONS x ADJUST 2 CX100 C1032 and 2 Comp C1030 on Amplifier Board A1 for minimum aberrations and flat top on the waveform y Repeat part q of this step Calibration Part II 5D10 Volume 1 Adjustment and Performance Check A1 AMPLIFIER BOARD FRONT OF INSTRU 3697 129 ...

Page 168: ...IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII h CHECK that the displayed waveform amplitude is 7 5 divisions within the limits of 7 35 to 7 65 divisions IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 169: ...IIIIIIIIIIIIIIII r Set the CH 2 VOLTS DIV switch to 0 2 o Return the CH 1 CAL control to the calibrated position in detent s Set the calibration generator Amplitude control to 2 volts p Disconnect the calibration generator signal from the CH 1 input and reconnect it through the attenuator to t If necessary adjust the TRIGGERING LEVEL control for the CH 2 input connector a stable display E35 ADJUST...

Page 170: ...ECK rotate the CH 2 POS control throughout its range and check that the signal display moves completely off screen at each extreme setting of the CH 2 POS control IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII ee Return the CH 2 CAL control to the calibrated positio...

Page 171: ...ance Requirement CHECK III 11111111111 111111 111111111111111111111111111111111111111111111111111111111111111111111111111 11111111111 1111111111111 11111111111111 1111111111111111111 111111111111111111111111111111111111111 Calibration Part II 5D10 Volume 1 Adjustment and Performance Check C BANDWIDTH X Y PHASE SHIFT AND CNIR C1 BANDWIDTH X Y PHASE SHIFT AND C2 CHECK BANDWIDTH X Y PHASE NOTE First ...

Page 172: ...lllllllllllllllllllllll j Set the ACQUISITION AND DISPLAY to X CH 1 Y CH 2 k EXAMINE the CH 1 POS control should move the display horizontally and the CH 2 POS control should move the display vertically I If necessary readjust the low frequency oscillator Var Attenuator control to display 6 divisions vertically IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 173: ...11111111111111111IIIIIIIIIIII1111111111 Shaded lines identify Performance Requirement CHECK IIIIIIIT111111111T1111111T1111111IT111 11111111111111 111111111111IT1111111111111111111111111111111111111111111111111111111111111 11111111111111111111111111111111111111IT11111111111111 Calibration Part II 5D10 Volume 1 Adjustment and Performance Check D2 SETUP CONDITIONS 5D10 Controls Make no changes to the...

Page 174: ...IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII p CHECK that the displayed signal amplitude is 1 division or less IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 175: ...ce Requirement CHECK 111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111111M11111111111111111111111111111111111111111111 111111111111111111111111111111111111111111 Calibration Part II 5D10 Volume 1 Adjustment and Performance Check Low Frequency Oscillator D Low Frequency Oscillator Frequency Hz 1 Multiplier X1K Step Attenuator All buttons relea...

Page 176: ...o 0 1 p Rotate tr e TRIGGERING LEVEL control fully clockwise 111111 IIIII1111111111111111111111 Ill111111111111Tll11111111 111111111111111111111111111111111111111111111111111111IIIIIIIIIIIIIII IIIIIIIIIIIIIIII11IIIIIIIIIIIII111111IIIIIIII q CHECK that the display is not triggered 1111111 IDIIIIIIIIIIIgIIIIPllll1111111111111111111111111111111111111111111111111IIIIII1ill1111111IIIIIIIIIIIIIIIIll1111...

Page 177: ...1111111 IIIIIIIIIIIIIIIIIIIIIIIIIIIIII r Set the low frequency oscillator to display a signal amplitude of 2 divisions at 50 kHz 1111IIVIIIV111111111111111111111111111111111111 IIIIIIIIIIIII 11111IIV111111111111111VII1111Ii 111111111111111111111111111111111111111111111111111111111111111111111111IiIIII11 s CHECK that a stable display can be obtained in both SLOPE and SLOPE rotate the TRIGGERING LEV...

Page 178: ...IIIIIIII 1111111IIIIIIIIIIIIIIII IIIIIIIIIIII 1111111 Shaded lines identify Performance Requirement CHECK IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IlllllllllllllllliIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII F2 CHECK TIMING ACCURACY NOTE First perform step F1 then proceed 51310 Controls SECONDS DIV 0 1...

Page 179: ...k j Set the time mark generator Marker Sec switch to 0 5 Ms I Position CURSORS C1 and C2 to the top of two adjacent time markers III IIIIIIIIIIIII I JII1111111111111111111 I 111111111111111111111111111111111111111111111111111111111111111111111111l1111111111111111111 11111111111111111111111111 IIIIIIIIIIIII m CHECK that when the SWP MG1 sweep magnification is pressed in the Seconds Div readout disp...

Page 180: ...itude of 5 divisions at 100 hertz b If necessary adjust the TRIGGERING LEVEL control for a stable display c Press the STORAGE SAVE REF in d Set the SECONDS DIV switch to EXT NOTE If there is no acquired waveform adjust the Ramp Generator Triggering Level control as necessary VIII II IIIIIIIIIIIIIIIIIIIIIIiIIIIIIIIIIIIINI IIIIIIIPIIIIIIIIIIIIIIIIII 111111 IIIIIIIIIIIIIIIIIPIIIIII III IIIIIIIIIIIIUI...

Page 181: ...IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII Shaded lines identify Performance Requirement CHECK IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIUIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIpllllllllllllllllllIIIIIIllllll111111llllllllllllllllllllllllllllllllllll Low Frequency Oscillator Calibration Part 11 5131C Volume 1 Adjustment and Performance Check G1 LEFT PLUG...

Page 182: ... pressed in IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII i CHECK that both Channel 1 and Channel 2 traces are displayed on the screen IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII...

Page 183: ... PRE TRIG SLOPE pressed in SOURCE CH 1 STORAGE VIEWTIME MIN CURSORS OFF All other pushbuttons Off released 16 Ramp Generator 17 Test Storage Oscilloscope 18 Cable 4 required 19 Power Supply 20 Adapter IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII ...

Page 184: ...ommended by the manufacturer refer to the X Y recorder manufacturer s instruction manual c Press the STORAGE SAVE button in d Press the SAVED DISPLAY PLOT button in Notice the screen will blank until the first channel of the plot is com pleted then display the message CHANGE PEN COLOR IF DESIRED RELEASE THEN PUSH PLOT TO CONTINUE When PLOT is released the next message PUSH PLOT TO CONTINUE appears...

Page 185: ...I 51310 Volume 1 Adjustment and Performance Check PENLIFT POLARITY JUMPER 13 J1050 UP CL A3 OUTPUT BOARD UP OP r UP CL The X Y recorder pen will lift UP when the relay contacts close CL UP OP The X Y recorder pen will lift UP when the relay contacts open OP 3697 137 ...

Page 186: ...n out Enhance Control Off a Center the oscilloscope mainframe waveform display on the screen and adjust the TRIGGERING LEVEL control for a stable display b Press the 51310 SAVE button in c Center the test storage oscilloscope dot display on the screen position to graticule center using both dual trace amplifier Channel 1 Position controls d Rotate the test storage oscilloscope Intensity control fu...

Page 187: ...H3 PENLIFT JUMPER LOCATION FRONT OF INSTRUMENT I Calibration Part II 5D10 Volume 1 Adjustment and Performance Check JUMPER J1050 UP CL A3 OUTPUT BOARD PENLIFT UP OP 3697 134 ...

Page 188: ......

Page 189: ...ENT OPTIONS No options were available at the time of this printing Section 6 5D10 Volume 1 Information about any subsequent options will be included in the CHANGE INFORMATION section at the roar of this manual ...

Page 190: ......

Page 191: ...act you concerning any change in part number Change information if any is located at the rear of this manual SPECIAL NOTES AND SYMBOLS X000 Part first added at this serial number 00X Part removed after this serial number ITEM NAME In the Parts List an Item Name is separated from the description by a colon Because of space limitations an Item Name may sometimes appear as incomplete For further Item...

Page 192: ...E SCHADOW INC 8081 WALLACE ROAD EDEN PRAIRIE MN 55343 32997 BOURNS INC TRIMPOT PRODUCTS DIV 1200 COLUMBIA AVE RIVERSIDE CA 92507 34649 INTEL CORP 3065 BOWERS AVE SANTA CLARA CA 95051 50157 MIDWEST COMPONENTS INC P O BOX 787 1981 PORT CITY BLVD MUSKEGON MI 49443 50434 HEWLETT PACKARD COMPANY 640 PAGE MILL ROAD PALO ALTO CA 94304 51642 CENTRE ENGINEERING INC 2820 E COLLEGE AVENUE STATE COLLEGE PA 16...

Page 193: ...00 CAP FXD ELCTLT 15UF 20 20V 90201 TDC156MO20NFL AlC526 281 0819 00 CAP FXD CER DI 33PF 5 50V 72982 803513COG330 AlC601 281 0819 00 CAP FXD CER DI 33PF 5 50V 72982 803513COG330 A1C636 290 0177 00 CAP FXD ELCTLT 1 UF 20 50V 56289 173D I05XO050V A1C640 281 0775 00 CAP FXD CER DI 0 1UF 20 50V 04222 MA2C15E104MAA AlC641 281 0785 00 CAP FXD CER DI 68PF 10 100V 04222 MA1C11A680KAA A 1 C647 290 0177 00 ...

Page 194: ...56 0106 00 MICROCIRCUIT LI MONOLITH IC 6 DIODE ARRAY 02735 CA3039 AlCR434 152 0141 02 SEMICOND DVC DI SW S1 30V 150MA 30V DO 35 12969 NDP0263 1N4152 AlCR440 152 0141 02 SEMICOND DVC DI SW SI 30V 150MA 30V DO 35 12969 NDP0263 1N4152 A1CR505 152 0141 02 SEMICOND DVC DI SW S1 30V 150MA 30V DO 35 12969 NDP0263 1N4152 AlCR507 152 0141 02 SEMICOND DVC DI SW S1 30V 150MA 30V DO 35 12969 NDP0263 1N4152 Al...

Page 195: ...I TO 92 04713 SPS7969 A1Q332 151 0190 00 TRANSISTOR NPN SI TO 92 04713 SPS7969 A10400 151 0188 00 B010100 6020099 TRANSISTOR PNP S1 TO 92 04713 SPS6868 A10400 151 0221 00 B020100 TRANSISTOR SILICON PNP 04713 SPS246 AlQ401 151 0188 00 8010100 B020099 TRANSISTOR PNP SI TO 92 04713 SPS6868 A10401 151 0221 00 6020100 TRANSISTOR SILICON PNP 04713 SPS246 A10410 151 1049 00 TRANSISTOR SILICON JFE N CHANN...

Page 196: ...NTR25J EO4K7 A1 R205 321 0116 00 RES FXD FILM 158 OHM I 0 125W 91637 CMF55116G158R0F A1 R206 321 0116 00 RES FXD FILM 158 OHM 1 0 125W 91637 CMF55116G158R0F A1 R239 321 0116 00 RES FXD FILM 158 OHM I 0 125W 91637 CMF55116G158R0F AlR300 321 0281 00 RES FXD FILM 8 25K OHM 1 0 125W 91637 CMF55116G82500F A1 R301 321 0118 04 RES FXD FILM 165 OHM 0 1 0 125W 91637 MFF1816D165R0B Al R303 321 0281 00 RES F...

Page 197: ...224 00 RES VAR NONWIR 5000HM 20 0 50W 32997 3386 7 TO4 501 Al R621 315 0103 00 RES FXD CMPSN 10K OHM 5 0 25W 57668 NTR 5J El 0KO Al R624 321 0318 00 RES FXD FILM 20KOHM 1 0 125W 91637 MFF1816G20001F AlR626 321 0274 00 8010100 6020099 RES FXD FILM 6 98K OHM 1 0 125W 91637 CMF55116G69800F AlR626 321 0271 00 8020100 RES FXD FILM 6 49K OHM 1 0 125W 91637 MFF1816G64900F A18626 321 0272 00 8020100 RES F...

Page 198: ...637 CMF55116G49R90F AlR930 321 0612 03 RES FXD FILM 5000HM 0 25 0 125W 91637 MFF1816D500ROC AlR932 321 0774 03 RES FXD FILM 4 5K OHM 0 25 0 125W 91637 MFF1816D45000C Al R940 311 1222 00 RES VAR NONWIR 1000HM 20 0 50W 32997 3386F TO4 101 AlR941 321 0068 00 RES FXD FILM 49 9 OHM t 0 125W 91637 CMF55116G49R90F AlR943 321 0612 03 RES FXD FILM 5000HM 0 25 0 125W 91637 MFF1816D500ROC AlR945 321 0774 03 ...

Page 199: ...NEG EDGE TRIG FF 01295 SN74LS112 A1U330 156 1324 00 MICROCIRCUIT LI COMPARATOR 27014 LM361N A t A1U510 156 1149 01 B010100 B010319 MICROCIRCUIT LI OPER AMPL JFET BURN IN 27014 AL11i0307 Al U510 156 1156 01 B010320 MICROCIRCUIT LLOPERATIONAL AMPL 27014 LF3E 6N A Al U520 156 1149 01 B010100 B010319 MICROCIRCUIT LLOPER AMPL JFET BURN IN 27014 AL160307 AIU520 156 1156 01 B010320 MICROCIRCUIT LI OPERAT...

Page 200: ...XD CMPSN 10K OHM 5 0 25W 57668 NTR25J E10K0 A2R257 315 0101 00 RES FXD CMPSN 100 OHM 5 0 25W 57668 NTR25J E 100E A2R340 307 0446 00 RES NTWK FXD FIAOK OHM 20 9 RES 91637 MSP10A01 103M A2U101 156 1461 00 MICROCIRCUIT DI 1024 X 4 SRAM 34649 D2114AL 4 S7127 A2U111 156 1461 00 MICROCIRCUIT DI 1024 X 4 SRAM 34649 D2114AL 4 S7127 A2U121 156 1065 01 MICROCIRCUIT DI OCTAL D TYPE TRANS LATCHES 04713 SN74LS...

Page 201: ...75 00 CAP FXD CER DI 0 1UF 20 50V 04222 MA2 5E104MAA A3C530 281 0799 00 CAP FXD CER DI 62PF 2 100V 04222 MAt 1A620GAA A3C531 281 0762 00 CAP FXD CER D1 27PF 20 100V 96733 R272 7 A3C541 281 0763 00 CAP FXD CER DI 47PF 10 100V 04222 MA1 1A470KAA A3C543 281 0785 00 CAP FXD CER DI 68PF 10 100V 04222 MA101A680KAA A3C550 281 0762 00 CAP FXD CER DI 27PF 20 100V 96733 R2717 A3C630 283 0421 00 CAP FXD CER ...

Page 202: ...D FILM 14 OK OHMJ 0 125W 24546 NE55E1402F A3R302 321 0603 07 RES FXD FILM 15K OHM 0 1 0 125W 91637 MFF1816C150018 A3R304 315 0332 00 RES FXD CMPSN 3 3K OHM 5 0 25W 57668 NTR25J EO3K3 A3R320 321 0926 07 RES FXD FILM 4K OHM 0 1 0 125W 91637 MFF1816C40000B A3R324 321 0993 07 RES FXD FILM 90KOHM 0 1 0 125W 91637 MFF1816C90001B A3R325 321 0222 07 RES FXD FILM 2K OHM 0 1 0 125W 91637 CMF55116C200006 A3R...

Page 203: ...A3R553 321 0207 07 RES FXD FILM 1 4K OHM 0 1 0 125W 24546 NE5EE140L8 A3R630 307 0446 00 RES NTWK FXD FI 10K OHM 20 9 RES 91637 MSPIOA01 103M A3R640 307 0446 00 RES NTWK FXD FIaOK OHM 20 9 RES 91637 MSPIOA01 103M A3R650 315 0102 00 RES FXD CMPSN IKOHM 5 0 25W 57668 NTR 5JE01KO A3R710 315 0512 00 RES FXD CMPSN 5 1K OHM 5 0 25W 57668 NTR 5J EO5K1 A3R711 315 0102 00 RES FXD CMPSN IKOHM 5 0 25W 57668 N...

Page 204: ...74LS399 A3U830 156 0529 02 MICROCIRCUIT DI DATA SELECTOR SCRN 01295 SN74LS257 NP3 A3U840 156 0529 02 MICROCIRCUIT DI DATA SELECTOR SCRN 01295 SN74LS257 NP3 A3U900 156 0388 03 MICROCIRCUIT DI DUAL D FLIP FLOP 07263 74LS74A A3U910 156 0529 02 MICROCIRCUIT DI DATA SELECTOR SCRN 01295 SN74LS257 NP3 A3U920 156 1388 00 MICROCIRCUIT DI QUAD 2 INP MUX W STOR SCRN 04713 SN74LS399 A3U930 156 1111 02 MICROCI...

Page 205: ...A4U250 156 0383 02 MICROCIRCUIT DI QUAD 2 INP NOR GATE 01295 SN74 LS02 A4U260 156 0985 01 MICROCIRCUIT DI DUAL 5 INPUT NOR GATE SCRN 04713 SN7 LS260 A4U310 156 0452 02 MICROCIRCUIT DI 4 WIDE 2 INP AOI SCREENED 01295 SN74 LS54 NP3 JP4 A4U320 156 0480 02 MICROCIRCUIT DI QUAD 2 INP GATE 01295 SN74 LS08NP3 A4U330 156 1172 01 MICROCIRCUIT DI DUAL 4 BIT CNTR 01295 SN7 LS393 A4U340 156 0385 02 MICROCIRCU...

Page 206: ... LATCH W CLEAR 01295 SN74LS174 A4U810 156 0530 02 MICROCIRCUIT DI QUAD 2 INP MUX SCRN 01295 SN74LS157P3 A41 1820 156 0530 02 MICROCIRCUIT DI QUAD 2 INP MUX SCRN 01295 SN74LS157P3 A4U840 156 0480 02 MICROCIRCUIT DI QUAD 2 INP GATE 01295 SN74LS08NP3 A4U850 156 0382 02 MICROCIRCUIT DI QUAD 2 INP HAND GATE 01295 SN74LS00 A4U900 156 0530 02 MICROCIRCUIT DI QUAD 2 INP MUX SCRN 01295 SN74LS157P3 ...

Page 207: ...D CMPSN 2K OHM 5 0 25W 57668 NTR 5J E02KO A5R134 315 0102 00 RES FXD CMPSN 1KOHM 5 0 25W 57668 NTR25JE01KO A5R200 315 0102 00 RES FXD CMPSN IKOHM 5 0 25W 57668 NTR25JE01KO A5R500 315 0271 00 RES FXD CMPSN 270 OHM 5 0 25W 01121 CB21 15 A5R610 315 0102 00 RES FXD CMPSN IK OHM 5 0 25W 57668 NTR25JE01KO A5R720 307 0446 00 RES NTWK FXD FI 10K OHM 20 9 RES 91637 MSPIOA01 103M A5R800 307 0446 00 RES NTWK...

Page 208: ... 2 INP NAND GATE 01295 SN74LS00 A5U425 156 0383 02 MICROCIRCUIT Dl QUAD 2 INP NOR GATE 01295 SN74LS02 A5U430 156 1059 01 MICROCIRCUIT DI DUAL J K EDGE TRIGGERED 01295 SN74LS109A A5U500 156 0865 02 MICROCIRCUIT DI OCTAL D TYPE FF W CLEAR 01295 SN74LS273NP3 A5U505 156 0388 03 MICROCIRCUIT DI DUAL D FLIP FLOP 07263 74LS74A A5U515 156 0388 03 MICROCIRCUIT DI DUAL D FLIP FLOP 07263 74LS74A A5U520 156 0...

Page 209: ...50V 04222 MA2C1C103KAA A6C751 281 0773 00 CAP FXD CER DI 0 1UF 20 50V 04222 MA2C1C103KAA A6C820 290 0846 00 CAP FXD ELCTLT 47UF 10 75 35 WVDC 54473 ECE A35V47LU A6C830 281 0626 00 CAP FXD CER DI 3 3PF 1 500V 59660 301000COJO339B A6C831 281 0773 00 CAP FXD CER DI O lUF 20 50V 04222 MA2C1C103KAA A6C840 281 0773 00 CAP FXD CER DI 0 1UF 20 50V 04222 MA2C1C103KAA A6C848 281 0772 00 CAP FXD CER DI 0 004...

Page 210: ...41 05828 GP10G 020 A6CR1031 152 0066 00 SEMICOND DVC DI RECT SI 400V 1A D0 41 05828 GP10G 020 A6F940 159 0025 00 FUSE CARTRIDGE 3AG 0 5A 250V FAST BLOW 71400 AGC CW 1 2 A6F1040 159 0025 00 FUSE CARTRIDGE 3AG 0 5A 250V FAST BLOW 71400 AGC CW 1 2 A61 630 108 0245 00 COIL RF 3 9UH 76493 B6310 1 A6L640 108 0245 00 COIL RF 3 9UH 76493 B6310 1 A6L710 108 1116 00 COIL RF FIXED 97UF POT CORE 80009 108 111...

Page 211: ...5J E 30K A6R241 315 0104 00 RES FXD CMPSN 100K OHM 5 0 25W 57668 NTR25J E100K A6R242 315 0512 00 RES FXD CMPSN 5 1K OHM 5 0 25W 57668 NTR25J EO5K1 A6R250 315 0104 00 RES FXD CMPSN 100K OHM 5 0 25W 57668 NTR25J E100K A6R301 315 0624 00 RES FXD CMPSN 620K OHM 5 0 25W 57668 NTR25J E 620K A6R310 315 0751 00 RES FXD CMPSN 750 OHM 5 0 25W 57668 NTR25J E750E A6R311 315 0751 00 RES FXD CMPSN 750 OHM 5 0 2...

Page 212: ...D FILM 5 23K OHM 1 0 125W 91637 MFF1816G52300F A6R620 315 0101 00 RES FXD CMPSN 100 0HM 5 0 25W 57668 NTR25J E 100E A619621 311 1403 00 RES VAR NONWlR 5K OHM 20 0 50W 01121 18M651 A6R630 315 0513 00 RES FXD CMPSN 51K OHM 5 0 25W 57668 NTR25J E51 KO A6R631 315 0202 00 RES FXD CMPSN 2K OHM 5 0 25W 57668 NTR25J EO2KO A6R632 315 0102 00 RES FXD CMPSN IK OHM 5 0 25W 57668 NTR25JE01KO A6R633 321 0330 00...

Page 213: ... 5 0 25W 57668 NTR25J E02KO A6S130 260 2107 00 SWITCH TOGGLE SPDT 0 4VA 20V MOM OFF MOM 15605 A12732Y9AV2BE A6S140 260 2107 00 SWITCH TOGGLE SPOT 0 4VA 20V MOM OFF MOM 15605 A127 32Y9AV2BE A6S210 260 1771 00 SWITCH PUSH DPDT 1 BUTTON 2 POLE 59821 2KAE010000759 A6S211 260 1424 00 SWITCH PUSH 5 STA INTERLOCK NON SHORT 59821 2KBC050000607 A6S621 311 1403 00 RES VAR NONWIR 5K OHM 20 0 50W 01121 18M651...

Page 214: ... 06A 6835 AXIAL LEAD 52043 6835AS15 DS3 150 1031 00 LT EMITTING DIO RED 650NM 40MA MAX 53184 XC209R DS4 150 0049 00 LAMP INCAND 5V 0 06A 6835 AXIAL LEAD 52043 6835AS15 DS5 150 1029 00 LT EMITTING DIO GREEN 565NM 35MA 53184 XC209G R1 311 0467 00 RES VAR NONWIR 100K OHM 20 0 50W 01121 W77058 5310 263 1208 00 SW CAM ACTR AS VOLTS DIV 80009 263 1208 00 S320 263 1207 00 SW CAM ACTR AS TIME DIV 80009 26...

Page 215: ...s switch closure Etched Circuit Board Outlined in Black A r Component Values Section 8 5D10 Volume 1 Y14 15 1966 Drafting Practices Y14 2 1973 Line Conventions and Lettering Y10 5 1968 Letter Symbols for Quantities Used in Electrical Science and Electrical Engineering American National Standard Institute 1430 Broadway New York New York 10018 Electrical components shown on the diagrams are in the f...

Page 216: ...1 NOTE LEAD CONFIGURATIONS AND CASE STYLES ARE TYPICAL BUT MAY VARY DUE TO VENDOR CHANGES OR INSTRUMENT MODIFICATIONS IC PINS ARE NUMBERED COUNTERCLOCKWISE FROM THE INDEX VIEWED FROM THE TOP G HIGHEST PIN NUMBER INDEX INTEGRATED CIRCUITS INDEX INDEX I INDEX INDEX PIN NUMBER SEQUENCE PATH 3697 51 Figure 8 1 Semiconductor Lead Configurations ...

Page 217: ... Number Board Name Assembly Number Diagram Number A1 Amplifier 2 4 5 13 14 Amplifier A1 2 4 5 13 14 A2 Microprocessor 1 13 14 Control A5 1 2 3 5 6 7 8 9 10 11 12 13 14 A3 Output 1 2 3 4 5 6 8 9 10 11 12 13 14 15 Data A4 3 7 8 9 10 13 14 A4 Data 3 7 8 9 10 13 14 Microprocessor A2 1 13 14 A5 Control 1 2 3 5 6 7 8 9 10 11 12 13 14 Output A3 1 2 3 4 5 6 8 9 10 11 12 13 14 15 A6 Trigger 1 2 5 6 7 11 12...

Page 218: ...sis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts List Figure 8 3 A2 Microprocessor circuit board assembly A2 Microprocessor Board Shown on Diagrams 1 13 14 1697 317 A B C D E I U101 I v U201 m C MI 1 i U111 t f U N N Q c v U213 a U121 3 U223 U322 i U123 y 0 C130 R130 CR131 a U230 ro v U130 83140 C133 R133 P32 P23 8261 VR251 15L QI65 8256 8267 A2 ...

Page 219: ...l21 El B2 U322E F4 D3 Q151 C4 B5 U123 E3 A3 U322F F4 D3 0155 C4 B5 U130A E4 B4 VR251 C4 C5 ASSEMBLY A6 Figure 8 8 illustrates circuit board A6 CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION CR510 A3 F2 Q511 A2 F2 R513 A2 E2 CR511 A3 F2 R514 A2 E2 R501 A2 F1 P56 82 E4 R503 A3 F1 U630A A2 F3 P620 A2 F3 R504 A3 F1...

Page 220: ...ET LOCATED ON THE A2 MICROPROCESSOR BOARD Note A 24 pin ROM is used for 5D10 SN B020099 below a 28 pin ROM is used for 5D10 SN B020100 up 3697 852A Figure 8 4 Proper insertion of U213 24 pin ROM into the 28 pin I C socket ...

Page 221: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 222: ...5D10 m WHO ull6 i X05 lio 0 0 7 IR 0 p1 I IS O SNW20099 BELow CPU ROM RAM CLOCK AND 1 0 CONTROL ...

Page 223: ...0 C2 D2 R133 C2 84 U213 E3 C2 P410 C3 D2 R2218 C3 C3 U223A C3 C3 P410 D3 D2 R221 C El C3 U223B El C3 P410 D3 D2 R221 D D3 C3 U223D E1 C3 P410 D4 D2 R221 E E3 C3 U223F D3 C3 P410 E4 D2 R251 C4 85 U230 02 C4 P410 E4 D2 R255 C4 B5 U322A C2 D3 P410 E4 D2 R257 C4 C5 P410 F4 D2 R340 D1 C4 VR251 C4 C5 P440 E1 D4 R340J C3 C4 ASSEMBLY A6 Figure 8 8 illustrates circuit boardA6 CIRCUIT SCHEM BOARD CIRCUIT SC...

Page 224: ... 5D10 xl IX m M i o m M Ix0 11153 IgIHI z Z 4 o uwru O A0 ro uws u 0 Ma ro usvo ar a m m FO O ura I I rMnr A6 sow m IpIH O uur leu u a AS I nw r aom urau S55010Im6ABOVE CPU ROM RAM CLOCK AND I 0 CONTROL ...

Page 225: ...0000 0 00500001 0000000 U740 000000001 U810 1 0 ust0 P U1010 C1000 OOa 00 I00 _ 00001 L a000a0 JOj a 0o000pool U720 0 0 U820 7000000 o aooooaoo 000000g 0000000 1Cid0Q000o oj U800 00000 00040 0 0 0 0 0 aooooaooo U830 0 Lgo0000o0 0 0 0 0 0 44j6 00 040004000 040000 7 0000000c 0000000 0 R51F01 40000000 U9200 ao_oooooj 0 ooooo0000001 5oaoooaool5o000000 1 U840 U940 45000000 0005000 0 0 00000o4tiS3000000...

Page 226: ...NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION 1100 C3 Al S900A B3 K1 S920B B3 K4 J101 C3 Al S900A B3 K1 S920B B3 K4 S900B B3 K1 S920C B3 K4 P35 D1 D1 S900B B3 K2 S920C B3 K4 P56 B1 G5 S9000 B3 K1 S935 B2 J4 59000 B3 K2 51020 B2 K4 R720 C2 H4 S900D B3 K2 RBOO C3 J2 S900D B4 K1 U720 D2 H3 R830 C1 J5 S920A B3 K4 U800 D3 J2 S920A B3 K4 U820 01 H4 ASSEMBLY Al Figure 8 7 ill...

Page 227: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 228: ...T s NOTES t 5621 IS CLOSED VHER THE SECDIO5 DIV VARIABLE CCNTRDL IS IN THE UNCALIBRAIE0 POSITION 15610 AND 5635 ARE CLOSED WHENEVER TAE TS DI I VARIABLE CONTROLS FOR TIER RESPECTIVE CHANNELS IS IN THE CALIBRATED POSITION 3697 MI REV APR 1985 E RSERIES NTERGACE 1e CONTROLLER INPUTS 2 3 6 e Ls e bs B SnS IAs za s s SF5 en 0 SS IS 26 IBs zBs ses EXT MMMMEMMMM bV SAV MOM B SV II sv I rr LEn mom I v 6F...

Page 229: ...A S 2d e o z o o g g 2 Gt ao a g caa oarx A G o u2e j o GO g2 j u Ȏ o j u o o j tea 2 02 a o 0 2c y u eJoo 02 o o go e eo eoesso oeeeoco e ooce eze c2 ecee ce aoooo u2o u a d a ono o r o o i o e ooU3 c Joo U oae e e oo o oe ooo e e U o oooz e ec o _ __ a _______ eeeo eo o ae e o oooo oeeeoco ceooeeoo 0 ooo eo e u o Ȏse ȎQ eȎ 0 G u o e Lgizmo aaaz 03 ag amooJ g aGO o oS J a X02 oocococ c o goE000 o...

Page 230: ...R LOCATION LOCATION NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION DS140 E2 A3 P54 E3 E4 U340F E3 C3 U440 D2 D3 J100 D1 A2 R107 El A2 U450 D3 D4 R108 D1 A2 U460 D4 D5 P34 F1 F1 R450 C1 D4 U560D E3 E5 P45 E3 84 P54 C1 E4 U340C D4 C3 Partial A4 also shown on diagrams 7 8 9 10 and 13 ASSEMBLY A5 Figure 8 9 illustrates circuit boardA5 CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD NUMB...

Page 231: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 232: ...56 2306 UA29 I0o0 11205 121 f EN SET TO 0310 110 f EN CLR TO 0505 I IA1B 1500 U2l5 IB W__ SET TO U310 500 YE SET ISAI TO UGIl 107 9E NLR TO U310 100 0205 I USIS I2 I YE CLR ISAI TO P56 33 70 35 0 TP120 015P CYCLE TRIG ioioi i wrnunxw 11 1ME 3 4 SD10 3697 002 CONTROLLER OUTPUTS AND SELF TEST ANNUNCIATOR w ...

Page 233: ...PLE Component Number A23 A R1234 Assembly schematic Number Subassembly Cucue Number if used Number Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts List 000000000000000 OOOOO81300000000 A1 Amplifier Board Shown on Diagrams 2 4 5 13 14 Figure 8 7 A7 Amplifier circuit board assembly 1 3697 858 ...

Page 234: ...J4 CR520 F3 E2 R525 F3 E3 R1047 C4 J5 CR523 G4 E2 R527 F4 E3 R1120 B1 J3 CR542 E5 E5 R528 E4 E3 R1122 B1 K3 CR601 F1 El R529 E4 E3 R1140 B4 J5 CR604 F1 El R532 F4 E3 R1142 B4 K5 CR605 F1 F1 R536 E3 E4 R1225 B1 K3 CR607 E2 F1 R537 F3 E4 R1226 B1 K3 CR622 E4 E3 R538 F3 D4 R1240 84 K5 CR623 E4 E3 R539 F5 E4 R1241 B4 K5 CR625 El F3 R543 E5 D4 CR630 E3 E4 R544 F5 E4 S310 63 H2 CR640 D5 F4 R545 F5 E4 S3...

Page 235: ...D10 controls as follows Push the GND pushbuttons for both channels and mechanically center both vertical channel POS controls Check that 25 V to ground is present at the wiper contacts of the POS controls If not adjust the controls for 25 V Static Sensitive Devices See Maintenance Section COMPONENT NUMBER EXAMPLE Component Number TR1234 Assembly chemahc s Circuit Number Subassembly Number Number i...

Page 236: ... CnRe Le Ie 2 nI O R NI LIB Ie T2 C I y RI IM is 0 I I I I I I I I I I I II 11 II II II II II 2 211 A9R9 CRINI Rlw z z1 01040B R7As zl n II II I I II II I I II II I I I I I I I I I I I I I I M7 REV APR 1985 SIGNAL ACQJ SITICN CH1 AND CH2 a 0 n TRIC 1 0 rousmly 6171 a IE by IYV 74v e 7v e N IV I SV IN bV e I e IIIII sv mr alllsla911 CI II IIBII ...

Page 237: ...5 Q121C E1 B2 R122B E3 83 U230 C3 B4 Q121D E1 B2 R122C E3 83 U230 D1 B4 Q121E E2 B2 R122D E3 83 U240A D3 B5 0210 E3 B2 R122E E2 B3 U240B D3 B5 0211 E3 C2 R122F E2 B3 U240 C3 B5 Q220 E3 B2 R122G E1 B3 U245A D3 C5 0221 E3 C2 R122H E1 83 U245B D4 C5 0222 E3 B2 R122J E1 83 U245 C3 C5 Q223 E3 C3 R123 F1 A3 U330 G3 C4 Q224 E4 B3 R124 F1 A2 U330 G3 C4 0225 E4 C3 R140 C1 B5 Q226A E2 B2 R200 E4 B1 Partial ...

Page 238: ...acitance probe such as the P6106 probe connected to a 7A13 Differential Comparator Amplifier with a 7B50A Time Base and a 7603 Mainframe The Differential Comparator Amplifier permits the voltage offsets shown by the photographs An ac coupled vertical amplifier can be substituted with possible light low frequency changes in the waveform pictures The multiple trace photographs can betaken using a 7A...

Page 239: ...5D10 va7r c vnvuwn coaliloxs SEF TKgr W ild C 3 Fd TK7f Y VCi0M5 P73 78 O iAT P35 7 II I P7n7 REV APR 1985 DIDITIZER ...

Page 240: ...0 0 5210 R212 R310 0 R410 0 R510 Cam 8213 CR210 R311 R312 CR410 CR411 w 0 R511 0 R512 D D LO X X0 Q611 Ex c QIU10 r 0 C211 CR211 R313 Q410 R408 R513 Q510oo a CR61 r _ r Cllo 8211 R514 a R61 r NM Q511 R612 P9 o T810 o r wV V O co m O r I S211A rr wwwmK rwunnLncn a N ro h N n 0 N C f c u O N N S 320 4 4420 Wa F 621 OI N C c j ro 0520 i 0 S211E3 21NN QQ620cv Ln N1Z21 N L10200 N ti i S211C R 3 b30 743...

Page 241: ... P56 F3 E4 8900 G4 K2 U1000A G4 L1 R1000 H4 K2 U10008 H4 L1 0150 B4 B5 R1001 H3 Ll U1000C G4 L1 0610 A2 G2 R1002 H3 Ll U1000E H4 L1 Q611 A2 G2 R1010 H4 L2 U1020A G3 K2 Q1010 H4 K2 R1012 G4 L2 U1020B G4 K2 R1013 G4 L2 R141 A4 B5 R1020 G4 L3 VR600 A2 G2 R142 A4 85 R1021 H4 L3 Partial A6 also shown on diagrams 1 2 5 7 11 12 and 13 CIRCUIT NUMBER SCHEM LOCATION BOARD LOCATION CIRCUIT NUMBER SCHEM BOAR...

Page 242: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 243: ...SD10 u REV JUL 1982 TIM BASE A JC kll 64 ...

Page 244: ...8 9 A5 Control circuit board lassembly 3697 851 A B C D E F G H J K L I I I Do I I 0 I I I I tiff s 0 r S900 A 409 1 _ f1 0000 0 o o D o Ln Q 0 0 0 _ j OD _ t9o1 A ssoo e 1 E i Ln _g O O O In 0 __ 58b0 C k j s 0 0 U Lf G S90a D 0 c 12 C I S 0 U 0 0 j j 00 t3 _ i31 f E H 00 I i0 00 N u J 0 vwn O n a r i v 0 0 o o n O Ln 0 to o Ln 0 cu N 0 4 19 0_ 0 _ C I 3 9 Cy N I U 3 V 0 C 0 Ull 1 A C 0 110 0 n _...

Page 245: ... NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION Clio 81 82 0410 D3 D2 R406 C3 El C140 A2 84 0500 B3 El R407 C3 El C200 C1 B1 R408 C3 E2 C211 82 B2 R100 82 81 R410 C3 D2 C220 Bl C3 R110 B1 B2 R500 81 El C221 D2 C3 Rill B2 B2 8510 C3 E2 C250 El C5 R140 Fl B5 R511 83 E2 C251 Al C5 R200 B2 Cl R512 84 E2 C300 C1 Dl R201 C1 C2 8620 81 G3 C400 84 El R202 C2 C2 R950 Al K5 C502 ...

Page 246: ...shbutton To obtain the Viewtimer Waveforms trigger the test oscilloscope on the Loadstop signal at U520 pin 9 Press the LINE SOURCE and CTR TRIG pushbuttons Set the SECONDS DIV switch to the 0 1 seconds position Turn the VIEWTIME control fully ccw 4 9 V 1so mS il It 220 mS 40 DS5 A OFF ON OFF 0 6 V TTL ERASE A5U225 10 TTL NOTE VIEWTIME VARIES FROM APPROXIMATELY ONE SECOND MINIMUM FULLY CCW TO INFI...

Page 247: ...TIW E 31 IER ME E cun w u e Ell RIIB 3s WA a sus 8203 I WX 1 srE 7 svE 7 BV 0 7 III oz0e 351 1 r 5Y0 7 svB 300 3 9 REV JUL 1982 IQN WA SVAB 0140 n OS TRIGGERING Po5310LE uuxsAroLlw sel A P9I 30 LsN s sRR czW 7 G I SIItB CRI 7 IW T01 CHI 7R1G F RRBR ruo unc RszelcsW I R u IR WT el sy qMW ...

Page 248: ...10 P45 A1 84 U350A B3 C4 U720 P45 A3 B4 U350B B4 C4 U730 P54 A2 E4 U350C B3 C4 U740 U410 C3 D2 U750 R160 C1 A5 U420 C4 02 U810 R830 D3 H3 U430 C4 03 U820 R830 F5 H3 U510 E3 E2 U840A U520 E4 E2 U840C U210C B3 82 U530 E4 E3 U840D U220B C3 82 U610 B1 F2 U850A U220C F4 B2 U620 B1 F2 U850B U240A C1 83 U630 82 F3 U850D U250C C2 B4 U640 84 F3 U900 Partial A4 also shown on diagrams 3 7 9 10 and 13 ASSEMBL...

Page 249: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 250: ...SC10 u MEMORY ACCRESS ...

Page 251: ...iagrams 1 2 3 4 5 6 8 10 11 12 and 13 ASSEMBLY A4 figure 8 6 illustrates circuit board A4 CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION P45 D1 84 U210D E2 B1 U320B E3 C2 P45 D3 84 U230A E4 B3 U320C E3 C2 P54 D1 E4 U230B F4 B3 U330A D3 C3 U240B E4 B3 U330B E3 C3 U210A E2 81 U310 E2 C2 U560B F1 E5 U210B E2 B1 U3...

Page 252: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 253: ...5D10 3697 BBB WRITE ADDRESS COUNTER ...

Page 254: ...lustrates circuit boardA5 CIRCUIT SCHEM BOARD I CIRCUIT SCHEM BOARD NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION J102 E3 B1 U110C D2 B3 J103 E3 81 Ul15 F1 B3 J104 E2 B1 U120A E2 B4 J105 E2 81 U120B F4 84 J106 E2 B1 U125A B1 84 U125B B2 84 P35 A1 D1 U125D F3 84 P35 A3 D1 U125E F4 B4 P53 A2 C1 U125F F3 84 U200A E3 C2 R100 C1 A2 U200B D4 C2 R110 E1 A2 U200D C1 C2 U205A C2 C2 U100A C3 B2 U205B B1...

Page 255: ...nance Section COMPONENT NUMBER EXAMPLE Component Number AP A R 1234 Assembly Circuit Schematic Number Subassembly Number Number if used Chassis mounted components have no Assembly Number prefix see end of Replaceable Electrical Parts list ...

Page 256: ...T R I I Ww I 5 515 TO uR71 I to U3500 U36 0C 1 I6 LLM S e P t0 1165e e09 ze To o6se 0 J540C 7 23 0 I15M 12 UIFI eo IIW 3 U260B 7N67w R G R SFL YIR lo o a o U340C 74LSe4 71 Sw SR K526e I 14 U540C 74LSw U360A eLsle U360B 7ALSIe dD 56 14 TO ufile 00 PAS r s e Ts usze so U4258 7KSe KwR 14 74LLSN I KSre e KSn 14 74LSZe 7K6 i 7NS es 7e_Slw Is 7N59 16 sle To uese z t s e n I To oezs z1 1 w 61 w To u I IF...

Page 257: ... U710D D1 R506 E2 F1 U710F D3 R230 84 C3 R507 E2 F1 U720 C3 8231 B4 C3 R508 E2 F1 U810 C1 R301 D1 D1 R512 E3 F2 U820 C2 R302 F3 131 R513 E3 F2 U920 C2 R351 C1 D5 R521 G2 F3 R352 C3 D5 R522 G2 F3 VR224 B4 R402 F3 El R532 F1 F4 R403 F2 E1 R533 F1 F4 R404 F1 E1 R711 C1 H2 Partial A3 also shown on diagrams 1 2 3 4 5 6 8 9 10 12 and 13 CIRCUIT NUMBER SCHEM LOCATION BOARD LOCATION CIRCUIT NUMBER SCHEM L...

Page 258: ... 12 This component is located on the A3 Output board To view the waveform drawings trigger the oscilloscope on the YClock signal at U215 pin 6 located on the A5Control board All waveform diagram levels are TTL DISPLAY TIMER WAVEFORMS Y CLOCK A5U215 6 X CLOCK A5U215 8 2QD A5U130 9 1QB A5U130 5 1 QC A5U130 6 1QD A5U130 7 1QA A5U130 3 J A5U235 3 A5U235 8 READ NEXT 10 4D A5U235 6 VECTOR A51 1725 11 RE...

Page 259: ...5D10 REV APR 1985 DISPLAY REGISTERS DACS AND TIMER B i Z AA15 i0 SN mF ES XAINRRA E ...

Page 260: ...5 C320 C4 D3 R154 F3 B5 U350B E2 05 C331 E3 D3 R155 F2 134 U350C E4 D5 C332 C2 D3 R200 01 C1 U350D B4 D5 C340 E2 D4 R220 E4 C2 U350 C5 D5 C349 C3 C4 R221 04 C3 U430 B4 E3 C350 C2 D5 R222 D4 C3 U430 85 E3 C351 C4 D5 R223 E4 C3 U435A 83 E4 C440 E2 D4 8239 E4 134 U435B C3 E4 C451 C2 E5 R240 E4 C5 U435C C4 E4 C531 B4 F4 8241 E4 C5 U435D B4 E4 C541 C4 F5 8242 E3 C5 U435 C5 E4 C543 C4 F5 R250 E3 C5 U440...

Page 261: ... iLW e new r V 10 o 10 V div 0V 90 DISP JOIN DOTS 5 V div A3U710 6 0 V 50 VECTOR 10 V div A31 1620 5 Mfg A3U230 6 BOX PATTERN PARTIAL DURING JOIN DOTS DISPLAY NOTE TRANSITION TIMES OF 4 NS 0 V 50 0 V 50 BOX PATTERN PARTIAL DURING DOT DISPLAY NOTE FAST TRANSITIONS ...

Page 262: ...E BOX PATTERN PORTION OF DISPLAY 450 mV 51310 DISPLAY OUTPUT WAVEFORMS IN THE PLOT MODE DOTS DURING THE BOX PATTERN PORTION OF DISPLAY 180 mS 450 mV 500 mV 500 mV 450 mV 500 mV 0V 50 mV 66 V TTL 6 5 V 7 0 v Static Sensitive Devices See Maintenance Section COMPONENT NUMBER EXAMPLE Component Number A2 3 A2 R12 34 Assembly Scbemabc Number Subassembly Circuit Number Number if used Chassis mountedcompo...

Page 263: ...85 U350B 131 6 v n s v v A sz3E __ I IPER IFt IA MN LIFT _ F P35 35 0 0710A 7ws R 55 seA avA 0 79 is PsE P99 I III ii 11 11 8 3 DISPLAY DUTPJT olsvuv s1 olsPUY sly REF GtpM REF 3RdM TO 5i SERIES A KRAIE 30 519p SERIES RAIKAAM ...

Page 264: ...HEM CIRCUIT SCHEM SCHEM NUMBER NUMBER LOCA ION NUMBER NUMBER LOCATION NUMBER NUMBER LOCATION DS1 4 A DS5 7 Hl J3 6 A4 DS2 4 A J4 7 A2 DS3 7 H 11 4 Al DS4 7 A J2 4 A4 ASSEMBLY A1 Figure 8 7 illustrates circuit board Al CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD CIRCUIT SCHEM BOARD NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION NUMBER LOCATION LOCATION C140 H2 A5 C647 Hl F5 L441 Hl D5 C141 H2 84 C74...

Page 265: ...form pictures All waveforms except 51 are shown in normal operation and with P90 removed P90 is located on the A6 Trigger board At 51 with P90 removed the waveform is a constant do level equal to the 38V unregulated supply NORMAL P90 OPEN A6Q841 B 0V 10 A6Q800 D 0 V 30 SAME NONE Static Sensitive Devices See Maintenance Section COMPONENT NUMBER EXAMPLE Component Number A23 A2 R1234 Assembly J T S C...

Page 266: ...SB B n L630 3 9PN i 3BV SVA FB46 B SA SEE PARTS LIST FOR SEPICRUILTOR TYPES CRIBM U740D 324 e LIB2B B2RN PS6 PART IAL A6 TRIGGER BOARD PARTIAL A5 CONTROL BOARD zel I S SPARE i ll SPARE POWER SUPPLIES AND POWER DISTRIBUTION 15411 P54 I sY L 2 1 SV L I TBAo n C110 L 33B C Me C73B C62B csee L31B C620 c33e cne c34e c73e C420 0750 C510 CB20 CSm CB40 ...

Page 267: ...Y YT 3 10 DISP CHAR 3 30 CHAR Z 11 11 SPARE 11 31 DT6 2 12 SPARE 11 32 EOC 10 13 GND 11 33 DT7 2 14 GND 11 34 DTO 2 15 Y CK 11 35 PEN LIFT 3 16 EN 34 10 36 HORIZ CTRG 12 17 F EN 8 37 SPARE 3 18 F SEL 8 38 CLR 3 19 X CK 11 39 DISP JOIN DOTS 3 I 20 I TRACE SEP 11 40 PLOT OUT 3 P34 A3 TO 4 PIN NO LINE NAME DIAG NO PIN NO LINE NAME DIAG NO 1 NO 8 18 T9 8 11 2 1 8 19 MO 8 3 2 8 20 M1 8 4 3 8 21 M2 8 5 ...

Page 268: ...0 8 9 CLOCK 8 22 T CLR l 8 10 R T 3 23 WAC CK 9 11 INTL MEM 8 24 M EN 8 12 DISP REF NEW 8 25 S9 10 13 ERASE 7 P54 A4 TO A5 PIN NO LINE NAME DIAG NO PIN NO LINE NAME DIAG NO 1 DT0 3 14 OPN R 3 2 DT1 3 15 DISP CHAR 3 3 DT2 3 16 GND 13 4 DT3 3 17 5 VL 13 5 DT4 3 18 SPARE 13 6 DT5 3 19 DISP CHAR 3 7 DT6 3 20 GND 13 8 DT7 3 21 5 VL 13 9 OPN FETCH 3 22 S10 S11 10 10 N2 CK 3 23 910 10 11 N1 CK 3 24 GROUP...

Page 269: ...D 13 24 SEC 10 2 5 5 Vi 13 25 DIG 4 5 6 5 VL 13 26 SPARE 2 7 5 VL 13 27 BI SLOPE 7 8 5 VL 13 28 SEC 2 2 9 PICS 6 29 SLOPE 7 10 7 5 V 13 30 SEC 4 2 11 SEC CAL 2 31 SLOPE 7 12 30 V 13 32 SAMPLE 6 13 CLOCK 1 33 WE CLR 7 14 Z AXIS ON OFF 11 34 ERASE 6 15 CLOCK 1 35 TRIGGER 7 16 SPARE 6 36 HORIZ CTG 12 17 HOLD 6 37 CUR 1 2 18 20 2L LD 6 38 CUR 2 2 19 r2O DIG CK SEC 5 2 39 40 CUR 1 CUR 2 2 2 ...

Page 270: ...5D1 D 3697 813 CABLE DISTRIBUTION ...

Page 271: ...19 19 18 MULT TRACE DISPLAY ON I TO R9510 30V 17 LEFT 17 TO S24B 2 4 40 1 LEFT I6 IS 15 14 REF 6110 REF CND H 14 TO P98 30 d P96 40 TO P98 30 6 P96 40 12 13 i DISPLAY SIC DISPLAY SIC 13 FROM P96 2 FROM P IA 12 13 T ROM SIG DISPLAY SIG 13 FROM P l0 FROM P95 2 12 11 11 FROM P35 380 FROM U1000 10 O CHAN SW DISABLE 11 IB 10 8 SVP Z AXIS IB FROM RIM 80 I 9 9 9 E F A SWP Z AXIS INTENSIFY FROM R1040 FROM...

Page 272: ...t be purchased separately unlesa otherwise specified In the Parts List an Item Name is separated from the description by a colon Because of space limitations an Item Name may sometimes appear as incomplete For further Item Name identification the U S Federal Cataloging Handbook H6 t can be utilized where possible ITEM NAME Section 9 5D 10 INCH ELCTRN ELECTRON NUMBER SIZE ELEC ELECTRICAL ACTR ACTUA...

Page 273: ...WAY NEW CUMBERLAND PA 17070 24931 SPECIALITY CONNECTOR CO INC 2620 ENDRESS PLACE GREENWOOD IN 46142 71159 BRIS rOL SOCKET SCREW DIV OF AMERICAN CHAIN AND CABLE CO INC P O BOX 2244 40 BRISTOL ST WATERBURY CT 06720 71279 CAMBRIDGE THERMIONIC CORP 445 CONCORD AVE CAMBRIDGE MA 02138 73743 FISCHER SPECIAL MFG CO 446 MORGAN ST CINCINNATI OH 45206 75915 LITTELFUSE INC 800 E NORTHWEST HWY DES PLAINES IL 6...

Page 274: ...D ELEC SIDE 80009 337 1399 04 21 366 1559 00 5 PUSH BUTTON SIL GY 0 18 SO X 0 43 80009 366 1559 00 22 384 0490 00 1 EXTENSION SHAFT 0 123 OD X 5 93 INCH LONG 80009 384 0490 00 672 1023 00 1 CKT BOARD ASSY OUTPUT 80009 672 1023 00 ATTACHING PARTS 23 213 0146 00 2 SCR TPG THD FOR 6 20 X 0 313 INCH PNH STL 83385 OBI END ATTACHING PARTS CKT BOARD ASSY INCLUDES 24 1 CKT BOARD ASSY AMPLIFIER SEE A1 REPL...

Page 275: ...84 0878 17 1 SHAFT CAM SW OUTER CNCTR W DRVR VOLTS DI 80009 384 0878 17 72 105 0927 00 1 ACTUATOR CAM SW VOLTS DIV CHAN 2 80009 105 0927 00 73 210 0406 00 4 NUT PLAIN HEX 4 40 X 0 188 INCH BRS 73743 12161 50 74 401 0178 00 1 BEARING CAM SW CENTER 80009 401 0178 00 75 1 CKT BOARD ASSY OUTPUT SEE A3 REPL ATTACHING PARTS 76 211 0292 00 4 SCR ASSEM WSHR 4 40 X 0 29 BRS N1 PL 78189 OBD END ATTACHING PA...

Page 276: ... 20 X 0 5 TYPE B PNH STL 83385 OBD END ATTACHING PARTS 103 384 0490 00 2 EXTENSION SHAFT 0 123 OD X 5 93 INCH LONG 80009 384 0490 00 104 426 1885 00 1 FR SECT PLUG IN TOP 80009 426 1885 00 105 214 3316 00 2 CPLR PL IN UNIT 80009 214 3316 00 ATTACHING PARTS 106 213 0054 00 2 SCR TPG THD FOR 6 32 X 0 312 INCH PNH STL 93907 OBD END ATTACHING PARTS 107 426 1884 00 1 FR SECT PLUG IN BOTTOM 80009 426 18...

Page 277: ......

Page 278: ...SEE END OF RMPL FOR WIRE ASSEMBLIES ...

Page 279: ...SEE END OF RMPL FOR WIRE ASSEMBLIES ...

Page 280: ... 80009 361 0143 00 END ATTACHING PARTS 21 386 4797 00 1 SUBPANEL FRONT 80009 386 4797 00 ATTACHING PARTS 22 213 0229 00 4 SCR TPG THD FOR 6 20 X0 375 100 DEG FLH ST 93907 OBD END ATTACHING PARTS 23 337 2967 00 1 SHIELD ELEC STORAGE 80009 337 2967 00 24 337 1399 04 1 SHIELD ELEC SIDE 80009 337 1399 04 25 1 CKT BOARD ASSY DATA SEE A4 REPL 26 131 0993 09 1 LINK TERM CONNE 2 WIRE WHITE 00779 530153 1 ...

Page 281: ...GER SEE A6 REPL ATTACHING PARTS 66 211 0097 00 3 SCREW MACHINE 4 40 X 0 312 INCH PNH STL 83385 OBD END ATTACHING PARTS CKT BOARD ASSY INCLUDES 67 131 0604 00 5 CONTACT ELEC CKT BD SW SPR CU BE 80009 131 0604 00 68 376 0029 00 1 CPLG SHAFT RGD 0 128 ID X 0 312 00 X 0 5 80009 376 0029 00 69 361 0515 00 1 SPACER SWITCH PLASTIC 80009 361 0515 00 70 136 0728 00 1 SKT PL IN ELEK MICROCKT 14 CONTACT 0992...

Page 282: ...45 00 1 CA ASSY SP ELEC 34 28 AWG 5 0 L RIBBON OOOEO OBD __ A1P13 TO A3P13 175 4546 00 1 CA ASSY SP ELEC 34 28 AWG 6 6 L RIBBON OOOEO OBD _ _____ A4P34 TO A3P34 175 4547 00 1 CA ASSY SP ELEC 40 28 AWG 3 0 L RIBBON OOOEO OBD A3P35 TO A5P35 175 4548 00 1 CA ASSY SP ELEC 40 28 AWG 6 0 L RIBBON OOOEO OBD A6P56 TO A5P56 179 2857 00 1 WIRING HARNESSANTER CONNECT CABLE 80009 179 2857 00 214 2629 00 4 PIN...

Page 283: ...1 1 1 i 1 1 r i 1 1 1 1 1 1 ...

Page 284: ...o Part No Eff Dscont Qty 1 2 3 4 5 Name Description Code Mfr Part Number 070 3696 00 1 NANUAL TECH OPERATORS 80009 070 3696 00 070 3697 00 1 NANUAL TECH SERVICE 80009 070 3697 00 070 4323 00 1 NANUAL TECH SERVICE DIAGNOSTICS 80009 070 4323 00 ...

Page 285: ......

Page 286: ...to printing and shipping requirements we can t get these changes immediately into printed manuals Hence your manual may contain new change information on following pages A single change may affect several sections Sincethe change information sheets are carried in the manual until all changes are permanently entered some duplication may occur If no such change pages appear following this page your ...

Page 287: ...t t 1 i 1 1 1 1 1 1 1 r ...

Reviews:

No comments

Related manuals for 5D10

Hach Ultra ORBISPHERE 3624 Operator'S Quick Manual preview
ORBISPHERE 3624
Brand: Hach Ultra Pages: 12
Unico SQ Series Service Manual preview
SQ Series
Brand: Unico Pages: 96
IFM LW2720 Quick Start preview
LW2720
Brand: IFM Pages: 2
National Instruments PXIe-5665 Calibration Manual preview
PXIe-5665
Brand: National Instruments Pages: 85
National Instruments PXIe-5622 Getting Started Manual preview
PXIe-5622
Brand: National Instruments Pages: 12
National Instruments PXIe-4163 Manual preview
PXIe-4163
Brand: National Instruments Pages: 18
National Instruments USB-5683 Getting Started Manual preview
USB-5683
Brand: National Instruments Pages: 12
Raymarine ST40 Wind Owner'S Handbook Manual preview
ST40 Wind
Brand: Raymarine Pages: 42
Energic Plus MPD-1007E Manual preview
MPD-1007E
Brand: Energic Plus Pages: 12
janitza UMG 96-PA User Manual preview
UMG 96-PA
Brand: janitza Pages: 85
Xtralis IntrusionTrace Quick Start Manual preview
IntrusionTrace
Brand: Xtralis Pages: 13
Tektronix RF Scout Quick Start User Manual preview
RF Scout
Brand: Tektronix Pages: 124
SellEton Scales SL-7510 Series User Manual preview
SL-7510 Series
Brand: SellEton Scales Pages: 30
Clavia Nord C1 Service Manual preview
Nord C1
Brand: Clavia Pages: 13
HANLA HGS-100 Technical Manual preview
HGS-100
Brand: HANLA Pages: 12
Xylem WTW SensoLyt 900 Operating Manual preview
WTW SensoLyt 900
Brand: Xylem Pages: 12
Falcon F-Test Owner'S Manual preview
F-Test
Brand: Falcon Pages: 25
janitza MRG 512 PQ Flex Operation Manual preview
MRG 512 PQ Flex
Brand: janitza Pages: 9

Brands by name

Popular brands

Load more brands