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Tektronix 067-0521-00, Instruction Manual

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Circuit  Description— 0 6 7 -0 5 2 1 -0 0

scope  vertical  amplifier.  When  using  the  LOW  LOAD  or 
HIGH  LOAD  positions,  an  external  signal  applied  to  the 

INPUT  connector  is  ac  coupled  through  C22  to  pin  1  of 

the  interconnecting  plug.  Since  the  signal  is  applied  to  pin 
1  only,  it  provides  signle-ended  drive  to  the  vertical  am pli­
fier.  Front-panel  VARIABLE  control  R ll,  connected  be­

tween  the  junction  of  R10/C10  and  ground,  controls  the 
amount  of  input  signal  applied  to  pin  1.  RIO  and  CIO  pro­
vide  some  input  signal  frequency  compensation.  Vertical 

positioning  of  the  trace  is  provided  by  the  voltage  applied 
to  pin  3  of  the  interconnecting  plug  through  the  vertical 
position  network.

An  internal  trigger  signal  is  applied  from  the  junction  of 

R12  and  R14  to  pin  5  of  the  interconnecting  plug.  For 

oscilloscopes  that  can  trigger  directly  from  the  plug-in  unit, 
this  signal  simulates  the  internal  trigger  signal  from  a  dual­
trace  plug-in  preamplifier,  such  as  the  Tektronix  Type  1A1.

In  all  positions  of  the  TEST  FUNCTION  switch  except 

C O M M O N   MODE,  -fPULSE,  and  — PULSE,  two  separate 
voltage  dividers  set  the  dc  voltages  at  pins  1  and  3  of  the 
interconnecting  plug  at  +67.5  volts  with  the  trace  centered 
and  no  signal  applied.  This  voltage,  which  simulates  the 
nominal  output  voltage  of  a  plug-in  preamplifier,  is  essential 
at  the  input  of  the  oscilloscope  for  linear  operation  of  the 
vertical  amplifier.  The  voltage  at  pin  1  is  set  by  voltage 
divider  R16,  R17,  R18  and  R19.  The  voltage  at  pin  3  is  set 
by  voltage  divider  R84,  R85,  R86,  vertical  positioning  net­

work  R80A,  B,  C,  D,  R81,  and  VERTICAL  POSITION  control 

R82.  The  VERTICAL  POSITION  control  varies  the  divider 

voltage  applied  to  pin  3  of  the  interconnecting  plug  and 
thus  controls  the  vertical  position  of  the  display  in  all  posi­
tions  of  the  TEST  FUNCTION  switch  except  C OM M ON 
MODE.

In  the  G A IN   SET  position  of  the  TEST  FUNCTION  switch, 

a  precision  250-to-l  divider  consisting  of  R17  in  series  with 

parallel  resistors  R18  and  R19  sets  the  amount  of  input  cali­
brator  signal  applied  to  the  oscilloscope  vertical  amplifier. 
Thus,  if  a  100-volt  peak-to-peak  calibrator  signal  is  used, 

the  divider  dc  couples  a  0.4-volt  signal  to  pin  1  of  the  inter­
connecting  plug.  This  signal  results  in  a  4-cm  deflection 
on  the  crt  if  the  gain  of  the  oscilloscope  vertical  amplifier 

is  set  correctly.

In  the  C O M M O N   MODE  position  of  the  TEST  FUNC­

TION  switch,  a  signal  applied  to  the  INPUT  connector  is 
ac  coupled  through  C22  and  applied  equally  through  R25 
and  R26  to  pins  1  and  3  of  the  interconnecting  plug.  The 
TEST  FUNCTION  switch  disconnects  the  AMPLITUDE  and 
VERTICAL  POSITION  controls.  In  this  position,  voltage  di­
vider  R16,  R17,  R18  and  R19,  sets  the  dc  voltage  at  both 

pin  1  and  pin  3.  Since  the  same  signal  is  applied  in  phase 

to  both  sides  of  the  oscilloscope  vertical  amplifier,  the 

signals  w ill  cancel  if  the  rejection  ratio  of  the  amplifier 
is  high.  The  position  of  the  trace  on  the  crt  is  the  dc  bal­
ance  point  of  the  oscilloscope  vertical  amplifier,  whether 
or  not  a  signal  is  applied  to  the  input.

DUAL-TRACE  SWITCHING  CIRCUIT

 

General 

Operation

The  Dual-Trace  Switching  Circuit  consists  of  plate-coupled 

switching  m ultivibrator  V95A/V95B  and  steering  diodes

V102A/V102B.  Under  normal  conditions,  the  circuit  performs 
five  general  functions:

1.  When  the  TEST  FUNCTION  switch  is  set  to  ALTERNATE, 

the  switching  multivibrator  operates  in  a  bistable  configura­
tion.  An  alternate-trace  sync  pulse  from  the  oscilloscope 
at  the  end  of  each  sweep  is  applied  via  pin  16  on  the  inter­

connecting  plug,  switching  the  multivibrator  from  one  state 
to  the  other  by  turning  on  the  steering  diode  that  was  cut 
off.  The  output  of  the  m ultivibrator  is  a  sequence  of  two 
dc  levels  for  each  complete  cycle  of  operation.  The  two 

levels  produce  two  alternate  traces  on  the  crt.  A  signal  ap­

plied  to  the  EXT  INPUT  connector  also  appears  at  pin  1 
of  the  interconnecting  plug,  and  is  displayed  by  the  lower 
trace,  simulating  the  Channel  1  operation  of  a  dual-trace 
preamplifier  plug-in  unit.  The  upper  trace,  which  simulates 
Channel  2,  displays  essentially  no  signal.

2.  In  the  alternate  mode  of  operation,  a  portion  of  the 
applied  signal  is  picked  off  and  used  as  an  internal  trigger 
signal  at  pin  5  of  the  interconnecting  plug.  If  the  oscillo­
scope  is  capable  of  internally  triggering  on  the  signal  at  pin 
5,  a  stable  display  of  the  applied  signal  can  be  obtained.

3.  In  the  alternate  mode  of  operation,  if  the  oscilloscope  has 
two  time  bases  that  can  be  operated  alternately,  a  “ slave 

pulse"  signal  is  applied  from  the  oscilloscope  via  pin  7  of 
the  interconnecting  plug  through  the  steering  diode  stage  to 
the  switching  multivibrator.  The  slave  pulse  sets  the  state  of 
the  m ultivibrator  so  the  upper  trace  w ill  be  displayed  when 

Time  Base  B  generates  its  sweep.  At  the  end  of  the  Time 

Base  B  sweep,  a  sync  pulse  applied  through  pin  16  and  the 

steering  diode  causes  the  multivibrator  to  switch  states 
so  the  lower  trace  w ill  be  displayed  while  Time  Base  A 

generates  its  sweep.

4.  When  the  TEST  FUNCTION  switch  is  set  to  the  CHOPPED 

position,  the  switching  m ultivibrator  is  in  an  astable  configu­

ration.  The  free-running  rate  of  the  circuit  is  approximately 

lOOkc.  The  output  of  the  circuit  is  a  sequence  of  two  dc 

levels  which  produces  a  display  of  two  traces  chopped  into 

off-on  segments  at  the  lOOkc  rate.  A  signal  applied  to  the 

INPUT  of  the  067-0521-00  is  ac  coupled  to  pin  1  of  the  inter­
connecting  plug  and  is  displayed  by  the  “ on"  segments  of 
the  lower  trace.  The  upper  and  lower  traces  simulate  the 

operation  of  Channels  2  and  1  respectively  of  a  dual-trace 

preamplifier  operated  in  the  chopped  mode.

5.  W ith  the  067-0521-00  set for  chopped  mode,  the  switching 

multivibrator  produces  blanking  pulses  that  are  applied 
through  pin  16  of  the  interconnecting  plug  to  the  oscillo­
scope  blanking  circuit.  The  blanking  pulses  cause  the  crt 

beam  to  be  blanked  during  the  time  the  beam  is  being 
switched  from  one  trace  to  the  other.

Detailed  Operation

When  the  TEST  FUNCTION  switch  is  set  to  the  ALTERNATE 

position,  the  voltage  in  the  grid  circuit  of  the  switching  multi­

vibrator  is  set  at  a  level  that  causes  the  circuit  to  operate  as 
a  bistable  multivibrator.  Basic  operation  of  the  circuit  is 
illustrated  in  Fig.  3-2.  To  show  the  operation  of  the  circuit, 
assume  that  V95A  is  initially  conducting  and  V95B  is  cut 
off.  W ith  current  through  V95A,  V102A  is  reverse  biased 
and  non-conducting  due  to  the  voltage  drop  across  R94. 

D89  and  D90  are  forward  biased  by  current  through  V95A.

3-2

Summary of Contents for 067-0521-00

Page 1: ...e electrically similar instruments The Type designation was changed from TU 7 to Type 1M1 at S N 500 and changed to 067 0521 00 at S N 1387 067 0521 00 CALIBRATION FIXTURE Tektronix Inc S W M illikan W ay P O Box 500 Beaverton Oregon 97005 Phone 644 0161 Cables Tektronix 070 0407 01 366 ...

Page 2: ...e field therefore all requests for repairs and re placement parts should be directed to the Tektronix Field Office or representative in your area This procedure will assure you the fastest possible service Please include the instrument Type and Serial or Model Number with all requests for parts or service Specifications and price change privi leges reserved Copyright 1964 new material 1966 by Tekt...

Page 3: ...tion Abbreviations and Symbols Parts Ordering Information Section 7 Electrical Parts Section 8 Mechanical Parts List Diagrams Abbreviations and symbols used in this manual are based on or taken directly from IEEE Standard 260 Standard Symbols for Units MIL STD 12B and other standards of the elec tronics industry Change information if any is located at the rear of this manual ...

Page 4: ...LSER FOR 530 540 550 SERIES SERIAL 1 16 AMP 225 V VERTICAL POSITION VARIABLE LOAD POSITIONS ONLY 4 6 AMPLITUDE 4 6 TEST FUNCTION V l _______ l l 0 0 PULSE REPETITION RATE MED LOW T E K T R O N IX IN C HIGH PORTLAND OREGON U S A Fig 1 1 067 0521 00 Plug In Test Unit ...

Page 5: ...tical amplifier ALTERNATE Checks operation of the alternate mode synchronizing circuits in the oscilloscope Also permits checking for proper sweep slaving in oscilloscopes having two time bases that can be displayed alternately Any external signal applied A sine wave bandpass check of the system cannot be made by applying an external high frequency sine wave through the plug in test unit to the EX...

Page 6: ...tor for applying external signals to the oscilloscope vertical system through the 067 0521 00 Useful for applying the calibrator signal when setting the gain of the oscillo scope vertical amplifier and for inserting signals for cali brating the time base generator s trigger circuit s and trace geometry MECHANICAL Construction Aluminum alloy chassis with anodized front panel Circuit board sub chass...

Page 7: ...o center the display 4 Adjust the oscilloscope Vertical Gain control for exactly 4 cm vertical distance between the two traces Keep the display centered vertically on the crt while making this adjustment 5 Turn off the Calibrator and disconnect the signal lead Oscilloscope Vertical Amplifier Balance The amount of vertical amplifier dc unbalance must be small for optimum common mode rejection ratio...

Page 8: ...Time Cm switch to 5 xSec Cm 3 Adjust the oscilloscope triggering controls for a stable chopped waveform display Fig 2 2 4 Set the oscilloscope Crt Cathode Selector switch to the Chopped Blanking position and check that the fast rising and falling portions switching portions of the display are blanked so that only the on segments of each trace are visible Fig 2 3 5 If your oscilloscope has two time...

Page 9: ...k of an oscilloscope pre amplifier system use a 1 series or letter series plug in unit rather than the plug in test unit When using the 067 0521 00 to couple an input signal to the oscilloscope vertical amplifier the deflection factor of the unit is about 0 5 volt cm with the TEST FUNCTION switch set to LOW LOAD or HIGH LOAD and the VARI ABLE control turned fully clockwise LOW LOAD is the normal p...

Page 10: ...NOTES ...

Page 11: ...T FUNCTION switch operate the dual trace switching circuit or the pulse generator circuit and will be discussed under those headings Detailed Description When TEST FUNCTION SW10 is set to the LOW LOAD position the main load on the 150 volt supply is provided through R125 with slight additional loading through the dual trace switching multivibrator circuit The 100 volt supply is loaded primarily by...

Page 12: ...tching multivibrator V95A V95B and steering diodes V102A V102B Under normal conditions the circuit performs five general functions 1 When the TEST FUNCTION switch is set to ALTERNATE the switching multivibrator operates in a bistable configura tion An alternate trace sync pulse from the oscilloscope at the end of each sweep is applied via pin 16 on the inter connecting plug switching the multivibr...

Page 13: ... From Vertical Position Network 225 v n 150 v R89 R90 V102A R101 R100 i r V D 1 0 2 C101 D90 V O R92 R96 f W v t A A v D89 V R93 4 150 v R99 R95 150 v Fig 3 2 Simplified schematic of Dual Trace Switching circuit showing basic operation with TEST FUNCTION switch at ALTERNATE 3 3 ...

Page 14: ... from 0 2 volt to approximately ground set by R88 R89 Any signal now applied to the EXT INPUT connector is attenuated by the 1000 1 attenuator at the input and applied through C22 to the vertical amplifier of the oscilloscope The lower trace with the waveform is then displayed on the crt At the end of the sweep another sync pulse arrives through pin 16 and Cl 05 and is directed to the cathode of V...

Page 15: ...ill cut off V95B turning on V95A and resetting the multivibrator to be ready to display the upper trace Thus the upper trace always slaving operation of oscilloscopes capable of alternate sweep switch occurs immediately following the negative slave pulse and is locked to the Time Base B sweep When the TEST FUNCTION switch is set to the CHOPPED position the voltage in the grid circuit of the switch...

Page 16: ...Circuit Description 067 0521 00 3 6 D Fig 3 5 Dual Trace Switching circuit showing operation with TEST FUNCTION switch at CHOPPED ...

Page 17: ...CIRCUIT General Operation The Pulse Generator circuit consists of rate generator multivibrator Q45 Q55 constant voltage transistor Q33 current switching transistors Q64 Q74 and disconnect diodes D64 D65 D74 and D75 Fig 3 7 is a simplified schematic of the circuit When the TEST FUNCTION switch is set to the PULSE or PULSE position the rate generator operates as an astable circuit One complete multi...

Page 18: ...Circuit Description 067 0521 00 Fig 3 7 Simplified schematic of the Pulse Generator circuit with TE ST FUNCTION switch at PULSE and AMPLITUDE control fully clock wise 3 8 ...

Page 19: ...f current through Q74 the disconnect diodes are forward biased and are conducting current from the supply voltages through R62 R64 R66 and R72 R74 R76 Current through the disconnect diode circuit and thus through the output resistors R66 R76 is adjusted by ganged AMPLI TUDE controls R62 R72 The output voltages are applied to pins 1 and 3 of the interconnecting plug and produce the baseline voltage...

Page 20: ... rises through the output resistors the output voltages to the oscilloscope return to 67 2 and 67 8 volts and the displayed pulse returns to its baseline The next pulse is started when Q55 turns on again The switching rate of the rate generator multivibrator is determined by the supply voltages and the resistor capacitor combinations in the base and emitter circuits The front panel REPETITION RATE...

Page 21: ...bles not apparent during regular operation may be revealed and corrected during calibration CORRECTIVE MAINTENANCE General Information Removal or replacement procedures for most parts in the 067 0521 00 are obvious However some parts require special procedures Removal and replacement of these parts are discussed in the following paragraphs Many components in the 067 0521 00 are mounted in a partic...

Page 22: ...gested that circuit conditions be checked first to be certain that a replacement tube or transistor will not be immediately de stroyed In some cases these checks will also show whether or not the tube or transistor is at fault When circuit conditions are known to be safe install a tube or transistor that is known to be good and check for proper operation If the original tube or transistor proves a...

Page 23: ...MODE f PULSE PULSE 39 k 1000 9 HIGH LOAD 2 4 k 1000 9 ALTERNATE CHOPPED 35 k 1000 10 LOW LOAD GAIN SET COMMON MODE ALTERNATE CHOPPED 12 1 k 1000 10 HIGH LOAD 1 5 k 1000 10 PULSE PULSE 4 4 k 12 k 1000 11 LOW LOAD GAIN SET COMMON MODE 4 PULSE PULSE 15 5 k 1000 11 HIGH LOAD 2 35 k 1000 11 ALTERNATE CHOPPED 10 3 k 1000 12 All Positions except HIGH LOAD Infinite 100 000 12 HIGH LOAD 14k 1000 13 All Pos...

Page 24: ...NOTES ...

Page 25: ...nge voltage 1 volt or more For example Simpson Model 262 7 Standard amplitude calibrator Amplitude accuracy 0 025 signal amplitude 0 5 volt to 100 volts output signal frequency 1 kc Tektronix calibration fixture 067 0502 00 recommended 8 Flexible plug in extension Length 30 inches Tektronix Part No 012 0038 00 9 Cable Impedance 50 ohms Type RG58A U length 42 inches connectors BNC Tektronix Part No...

Page 26: ...nce Reading 15 X I00 12 450 12 to 55012 12 xi ka 12 5 k 2 to 15 5 k 2 l l 1 xi ka 1 3 k 2 to 1 6 k 2 101 XI k 2 2 k 2 to 2 5 k 2 9 xi ka 2 2 ka to 2 6 ka d Install the 067 0521 00 test oscilloscope and tighten the securing rod Turn the test oscilloscope power switch to on Allow at least 20 minutes warm up at 25 C 5 before checking the instrument to the given accuracies 1When measuring pins 10 and ...

Page 27: ...race which displays the standard amplitude calibrator signal b Set the test oscilloscope Horizontal Display to A Alt B Main Time Base B Triggering Source to Plug in Time Base A Time Cm to 5 ms c Check That rotation of the test oscilloscope Trace Separation control changes the vertical position of the trace with the calibrator signal on it Two traces only should appear four traces indicate malfunct...

Page 28: ... HIGH 600 kc 20 b Set AMPLITUDE control for a 4 cm display Set test oscilloscope Time Base A Time Cm to 0 2 ms and Triggering Level for stable display Set 067 0521 00 REPETITION RATE switch to LOW c Check 7 5 tol2 5 cycles per 10 cm must be displayed See Fig 5 4 d Set REPETITION RATE switch to MED and Time Cm to 10 JLS e Check 9 to 15 cycles per 10 cm See Fig 5 5 f Set REPETITION RATE switch to HI...

Page 29: ...itude controls for a 4 Volt output c Properly terminate the Type 191 and apply its output to the 067 0521 00 EXT INPUT d Change the TEST FUNCTION switch to HIGH LOAD and turn the VARIABLE control fully clockwise e Check The signal amplitude should be 2 5 cm or more See Fig 5 8 Fig 5 8 Typical 50 Me response VARIABLE control maximum f Turn the VARIABLE control fully counterclockwise Fig 5 9 Typical...

Page 30: ...ompartment must be manually operated To operate the switch manu ally pull the plastic plunger froward to the stop position d Connect the GR pigtail from pin 1 of the modified rigid plug in extension through a 2 ns cable and a coupling capacitor to Input A of the dual trace sampling amplifier e Connect the GR pigtail from pin 3 of the modibied rigid plug in extension to Input B of the dual trace sa...

Page 31: ...ust be 1 volt 8 Oscilloscope sampling type dual trace 50 ohm inputs with GR connectors at least 10 to lOOmv cm input de flection factor bandpass to 0 825 gc gigacycle 109 cps capable of operating in differential mode This instrument and the following two items are required only for checking the risetime of the Pulse Generator output 9 Two 50 ohm coupling capacitors 874 K with GR con nectors for sa...

Page 32: ...LE Control a Reset the 067 0521 00 controls to the positions given under Preliminary Instructions b Set the Time Base A triggering control to free run the sweep c Adjust the Focus and Intensity controls for a proper display d Connect a 50 ohm coaxial cable from the Calibrator to the 067 0521 00 EXT INPUT connector e Set the Calibrator for an output amplitude of 0 5 volt f Turn the 067 0521 00 VARI...

Page 33: ...per trace is locked to Time Base B 10 Check Chopped Operation a Remove the Calibrator signal b Set the TEST FUNCTION switch to CHOPPED c Set the indicator oscilloscope Horizontal Display switch to Time Base A Time Cm switch to lO tSec and the Triggering Source switch to Internal d Trigger the display and check the chopped wave form for 1 cycle cm lOOkc 20 11 Check Chopped Blanking a Set the indica...

Page 34: ...der Equipment Required in the plug in jack e Plug the 067 0521 00 into the extender f Turn on the indicator oscilloscope power If the indicator oscilloscope has a plug in sensing switch in the plug in compartment pull forward on the switch plunger g Place the coupling capacitors item 9 under Equip ment Required on the Input connectors of the sam pling oscilloscope h Connect the coaxial cable from ...

Page 35: ...I PMC paper metal cased EMT electrolytic metal tubular poly polystyrene e epsilon 2 71828 or of error prec precision equal to or greater than PT paper tubular equal to or less than PTM paper or plastic tubular molded ext external pwr power F or f farad Q figure of merit F 1 focus and intensity RC resistance capacitance FHB flat head brass RF radio frequency FHS flat head steel RFI radio frequency ...

Page 36: ...art number instrument type or number serial or model number and modification number if applicable If a part you have ordered has been replaced with a new or improved part your local Tektronix Inc Field Office or representative will contact you concerning any change in part number X000 00 X 000 0000 00 Use 000 0000 00 o d SPECIAL NOTES AND SYMBOLS Part first added at this serial number Part removed...

Page 37: ... 0004 00 0 02 xF Cer 150 V 100 1409 C48 285 0683 00 0 022 xF PTM 100V 5 1410 up C49 283 0026 00 0 2 xF Cer 25 V 100 1409 C49 285 0623 00 0 47 xF PTM 100V 1410 up C50 283 0026 00 0 2 fiF Cer 25 V 100 1409X C52 281 0525 00 470 pF Cer 500 V C55 281 0518 00 47 pF Cer 500 V C65 281 0505 00 12 pF Cer 500 V 10 C66 281 0547 00 2 7 pF Cer 500 V 10 C67 281 0601 00 7 5 pF Cer 500 V 5 C68 283 0059 00 1 fiF Ce...

Page 38: ...2219 Replaceable by 2N2501 Replaceable by 2N2501 2N955 Selected from 2N2475 Selected from 2N964 Resistors Resistors are fixed composition 10 unless otherwise indicated R10 302 0103 00 io kn y2w Rll 311 0395 00 2 5 kn Var R12 316 0105 00 1Mn A W R13 302 0564 00 560 kn 2w R14 316 0104 00 100 kfl A W R15 316 0223 00 22 kn A W R16 301 0335 00 3 3 Mn 2W 5 R17 323 0668 00 1 442 Mn 2W Prec A R18 323 0670...

Page 39: ... 2 MO 2 w R721 Use 311 0007 00 1 kO Var R74 323 0633 00 801 O 2 w Prec 1 R76 321 0068 00 49 9 0 y w Prec 1 R78 321 0289 00 10 kO y w Prec 1 R79 302 0225 00 2 2 MO 2 W R80A Use 315 0104 00 lOOkO A W 5 R80B Use 315 0104 00 lOOkO A W 5 R80C Use 315 0104 00 lOOkO A W 5 R80D Use 315 0104 00 100 kO A W 5 R81 Use 301 0433 00 43 ka 2 w 5 R81 324 0306 00 15 kO 1 W Prec 1 R82 311 0152 00 2 x 500 kO Var R83 ...

Page 40: ...0024 00 15 kO 10W w w 5 308 0108 00 15 kn 5 W w w 5 100 199 Use 308 0093 00 12 kn 8 W w w 5 200 up 308 0044 00 3 8 kn 25 W w w 5 306 0822 00 8 2 kn 2 W 5 308 0059 00 2 25 kn 10W w w 5 308 0018 00 2 5 kn 10W w w 5 324 0603 00 27 8 kn 1 W Prec 1 100 1719X 308 0025 00 20 kn 10W W W 5 100 199 308 0027 00 30 kn 10W W W 5 200 up 312 0642 00 500 n 20 W WW 1 301 0623 00 62 kn y2 w 5 303 0433 00 43 kn 1 w ...

Page 41: ...n 225 V mounting hardware not included w switch WASHER flat V4 ID x inch OD NUT hex y4 32 x 5 1 6 inch SOCKET banana jack mounting hardware not included w socket WASHER insulating charcoal not shown LUG solder V4 ID x 7 r6 inch OD SE NUT hex y4 32 x x 3 32 inch KNOB charcoal VERTICAL POSITION knob includes SCREW set 6 32x78 inch HSS RESISTOR variable mounting hardware for each not included w resis...

Page 42: ...nch OD NUT hex i3 8 3 2 xy2 inch SWITCH wired FUNCTION switch includes SWITCH unwired FUNCTION mounting hardware not included w switch LOCKWASHER internal ID x y2 inch OD WASHER flat 0 390 ID x 9 1 6 inch OD NUT hex i3 8 3 2 xy2 inch NUT keps 4 40 x y 4 inch BRACKET switch mounting mounting hardware not included w switch NUT keps 6 32 x 5 u inch COUPLING coupling includes SCREW set 8 32 x inch HSS...

Page 43: ...0234 00 1 RING socket mounting 65 348 0006 00 1 GROMMET rubber inch 66 210 0201 00 3 LUG solder SE 4 mounting hardware for each not included w lug 67 213 0044 00 1 SCREW thread forming 5 3 2 x 3 u inch PHS 68 131 0017 00 1 CONNECTOR 16 contact mounting hardware not included w connector 69 211 0008 00 2 SCREW 4 40 x y4 inch PHS 70 210 0201 00 2 LUG solder SE 4 71 210 0406 00 2 NUT hex 4 40x 3 1 5 i...

Page 44: ...387 0900 00 1 PLATE sub panel front 83 179 0850 00 1 CABLE HARNESS chassis 84 179 0851 00 1 CABLE HARNESS switch 85 124 0148 00 2 STRIP ceramic 7 1 6 inch h w 20 notches each strip includes 355 0046 00 2 STUD plastic mounting hardware for each not included w strip 361 0009 00 2 SPACER plastic 0 406 inch long 86 124 0145 00 4 STRIP ceramic 7 u inch h w 9 notches each strip includes 355 0046 00 2 ST...

Page 45: ...ions CONTROLS SETTINGS VARIABLE centered VERTICAL POSITION centered AMPLITUDE centered REPETITION RATE MED Input Signal none Pulse Gen ckt All other ckts TEST FUNCTION PULSE CHOPPED Test Oscilloscope Bandpass 30 Me Triggering Internal DC Voltmeter Impedance 20 000 volt ...

Page 46: ...CIRCUIT DIAGRAM x x r s 3 O z z l ...

Page 47: ...J 067 0521 00 CALIBRATION FIXTURE ...

Page 48: ...it and component improvements to our instruments as soon as they are developed and tested Sometimes due to printing and shipping require ments we can t get these changes immediately into printed manuals Hence your manual may contain new change inform ation on follow ing pages If it does not your manual is correct as printed ...

Page 49: ......

Page 50: ...TYPE 067 0521 00 TENT SN 2600 PARTS LIST CORRECTION CHANGE TO D80 152 0282 00 1N972B 0 4 w 30 V Mil 191 1167 ...

Page 51: ...I ...

Page 52: ...TYPE 0 6 7 0 5 2 1 0 0 CHANGE R5 f PARTS LIST CORRECTION 321 0152 00 37 Q 1 8 w M12 536 967 ...

Page 53: ......

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