Tektronix 2335 Instruction Manual
  1. Manuals
  2. Brands
  3. Tektronix Manuals
  4. Test Equipment
  5. 2335
  6. Instruction manual
Tektronix 2335 Instruction Manual

Tektronix 2335 Instruction Manual

Hide thumbs
Table of Contents

Advertisement

Quick Links

Download this manual
T ektronix, Inc.
P.O. Box 500
Beaverton, Oregon
97077
070-4115-00

Advertisement

Table of Contents
loading

Related Manuals for Tektronix 2335

Summary of Contents for Tektronix 2335

  • Page 1 T ektronix, Inc. P.O. Box 500 Beaverton, Oregon 97077 070-4115-00...
  • Page 2 Tektronix COMMITTED TO EXCELLENCE PLEASE CHECK FOR CHANGE INFORMATION AT THE REAR OF THIS MANUAL- INSTRUCTION MANUAL First Printing DEC 1980 Serial Number _______________________Revised JUL 1981...
  • Page 3 Products of Tektronix, Inc. and its subsidiaries are covered by U.S. and foreign patents and/or pending patents. TEKTRONIX, TEK, SCOPE-MOBILE, and I l f are reg­ istered trademarks of Tektronix, Inc. TELEQUIPMENT is a registered trademark of Tektronix U.K. Limited.
  • Page 4 H O R IZ O N T A L..............10 A T R IG G E R ..............12 A S T IG M A T IS M .............. 34 VERTICAL GAIN C H E C K ..........35 REAR P A N E L ..............15 2335 Operators...

  • Page 5: Table Of Contents

    STANDARD ACCESSORIES INCLUDED....87 Time C om parison............51 OPTIONAL POWER CORDS......... 87 DELAYED-SWEEP M A G N IFIC ATIO N ......53 APPENDIX A ................88 Magnified Sweep Runs After Delay......53 CHANGE INFORMATION Pulse Jitter Time Measurement........55 2335 Operators REV JUL 1981...
  • Page 6 LIST OF ILLUSTRATIONS The 2335 Oscilloscope................ viii LINE VOLTAGE SELECTOR switch, line fuse, and power cord . Optional power cords................. Power and display controls and ind ica to rs........Vertical controls, connectors, and indicators and calibrator output Horizontal controls and in d ica to r............
  • Page 7 Pulse jit t e r ..................Time duration using delayed sweep......................56 B DELAY TIME POSITION control settings..........Rise time, differential time method.....................5 8 Time difference between repetitive p u ls e s ...................60 Time difference between tw o time-related pulses................62 2335 Operators...
  • Page 8 Page Line Voltage and Fuse Selection............Option 03 Line Voltage and Fuse Selection ............. Equipment Required fo r Instrument Familiarization Procedure............21 Electrical Characteristics........................65 Environmental Characteristics................Physical Characteristics............. Option Electrical Characteristics........86 2335 Operators...
  • Page 9 Protective ground {earth} terminal. DANGER indicates a personal injury hazard immedi­ ately accessible as one reads the marking. ATTENTIO N — Refer to manual. 2335 Operators...
  • Page 10 (including knobs and controls To avoid personal injury, do not remove the product that may appear to be insulating) can render an electric covers or panels. Do not operate the product w ithout the shock. covers and panels properly installed. 2335 Operators...
  • Page 12 "Acces­ measurements. A X10 magnifier circuit extends the maxi­ sories'' page at the back o f this manual. Your Tektronix mum sweep speed to 5 ns per division when the SEC/DIV representative or local Tektronix Field Office can also switch is set to 0.05 fis per division.
  • Page 13 Refer to the Safety Summary at the fro n t o f this manual fo r power source, grounding, and other safety considera­ tions pertaining to the use of the 2335. Before connecting The 2335 operates from either a 115-V or a 230-V the instrument to a power source, read the following infor­...

  • Page 14: Line Voltage Selector Switch, Line Fuse, And Power Cord

    INPUT BEFORE REPLACING FUSE. RANGE mv-asy lE K IM W X INC. BEAVERTON. OREGON. USA. - r - r r - * ? * CORD-SET- LINE SECURING FUSE CLAMP 4115-15 Figure 1. LINE VOLTAGE SELECTOR switch, line fuse, and power cord. 2335 Operators...
  • Page 15 3. V erify proper fuse value {see Tables 1 and 2). 90 to 115 V 1.0 A, 250 V, Fast-blow 100 V Nominal 0.5 A, 250 V, Fast-blow 180 to 230 V 200 V Nominal 2335 Operators REV JUL 1981...

  • Page 16: Optional Power Cords

    Figure 2, and th eir part numbers are listed on the "Accessories" page at the back of this manual. North ANSI C73.20a b American Contact your Tektronix representative or local Tektronix 240V NEMA 6-15-P 240V/ Field Office for additional power-cord information.
  • Page 17 It does w ith the instrument's serial number. The Mod slot not require readjustment during norma! operation contains the option number that has been installed in of the instrument. the instrument. 2335 Operators...
  • Page 18 AC—Input signal is capacitiveiy coupled to the vertical amplifier. The dc component o f the input signal is blocked. Low-frequency lim it (—3 db point) is approximately 10 Hz. Figure 3. Power and display controls and indicators. 2335 Operators...
  • Page 19 VO LTS/DIV switches when rotated clockwise out of the detent position. Channel 1 VO LTS/D IV VAR control is inoperative when X-Y Figure 4, Vertical controls, connectors, and indicators and VE R TIC A L MODE is selected. calibrator output. 2335 Operators...
  • Page 20 0.5 ms per division to 0,5 s per division. moves the display vertically (Y-axis), and the Hori­ AD D — Selects the algebraic sum of the Channel t zontal POSITION control moves the display hori­ and Channel 2 input signals fo r display. zontally (X-axis). 2335 Operators...
  • Page 21 B DELAY TIME POSITION Control-Selects the amount o f delay time between the start of the A Sweep and the start o f the B Sweep. Delay time is variable from 0.05 times to 10.0 times the A SEC/ DIV switch setting. 2335 Operators...
  • Page 22 4115 Figure 5. Horizontal controls and indicator.
  • Page 23 1.25 s per division). To operate this control, pull Sweep by a time determined by the settings of the out the VAR knob and rotate it counterclockwise A SEC/DIV switch and the B DELAY TIME out o f the detent. POSITION control. 2335 Operators...
  • Page 24 ( 2 ji) x iO MAG Switch— When pressed in, increases the displayed sweep speed by a factor of 10. Extends fastest sweep speed to 5 ns per division. Push button must be pressed in a second time to release it and regain the X I sweep speed.
  • Page 25 SGL SWP—Press in the spring-return push button momentarily to arm the A Sweep circuit fo r a CH 1— The signal applied to the CH 1 input single sweep display. This mode operates the same connector is the source o f the trigger signal. 2335 Operators...
  • Page 26 (3 3 )COUPLING Switch—Determines the method used to couple the trigger signal to the input o f the trigger circuit. AC—Signals above 20 Hz are capacitively coupled, blocking any dc components o f the signal. Signals below 20 Hz are attenuated. 2335 Operators...
  • Page 27 LF REJ— Signals are capacitively coupled. The dc component is blocked, and signals below approximately attenuated. This position is useful for providing a stable display of the high-frequency components o f a complex waveform. HF REJ— SignaSs are capacitively coupled. The dc component is blocked, and signals below approximately 20 Hz and above approximately...
  • Page 28 5-V p-p signal w ill produce noticeable modulation. Z-axis signals must be time- ^5)G N D Connector—Provides direct connection related to the display to obtain a stable presentation on the crt. instrument chassis ground. 2335 Operators...
  • Page 29 INPUT BEFORE REPLACING FUSE. 1 B 0 V T 3 W a c v z s e v POWER MAX WATTS SO MAX VA 75 FREQ 48-WSHz TEKTRWK, INC.. BEAVERTON, OREGON USA..?353BB wsMiii 4115-14 Figure 7. Rear-panei connectors. 2335 Operators...
  • Page 30 Also, percentage marks for the measurement o f rise and fall times are located on the left side of the graticule. GROUNDING The most reliable signal measurements are made when Figure 8. Graticule measurement markings. the 2335 and the unit under test are connected by a 2335 Operators...
  • Page 31 The following procedure should be used whenever the accuracy o f a displayed waveform. To maintain the original probe tip is connected to a signal source having a different 2335 Operators...
  • Page 32 NOTE can be measured in the normal manner. The outer shells o f the A EXT, CH 7 OR X, and CH 2 OR Y connectors are attached to the 2335 chassis ground. INSTRUMENT COOLING 2. Touch the probe tip to the oscilloscope chassis ground.
  • Page 33 The procedures in this section are designed to assist you Should the malfunction persist, refer the instrument to in quickly becoming familiar with the 2335. It provides qualified service personnel fo r repair or adjustment. inform ation which demonstrates the use o f all the controls, connectors, and indicators and w ill enable you to e ffi­...
  • Page 34 O L E L v l w I t Adapter Connectors, bnc female-to-bnc female. CH 2 INVERT O ff (push button out) BW LIM IT N ot limited (push button Termination Impedance, 50 J2; connectors, bnc. o u tj POSITION Midrange 2335 Operators...
  • Page 35 1. Connect the calibration generator standard-amplitude 2. Press in the POWER switch button (ON) and allow output to both the CH 1 and CH 2 inputs as shown in the instrument to warm up fo r 20 minutes. Figure 9. 2335 Operators...
  • Page 36 AMPL OUTPUT 4 1 1 5 -2 6 Figure 9. in itial setup for instrument familiarization procedure. 2335 Operators...
  • Page 37 "A stigm atism " adjust­ Using the Vertical Section ment procedure under "Operator's Checks and Adjust­ ments." The ASTIG adjustment is used in conjunction 1. Set the Channel 1 AC-GND-DC switch to GND. 2335 Operators...
  • Page 38 Observe that maximum vertical deflection occurs when the VO LTS/DIV VAR control is fu lly clockwise. 16. Set the CH 2 V O LTS/D IV switch to 50 m (IX ). 2335 Operators...
  • Page 39 A TRIGGER Select CH 2 VER TICAL MODE and position the COUPLING switch position and fo r every A TRIG­ Channel 2 trace tw o divisions below the center graticule GER SOURCE switch position except VERT MODE. line. 2335 Operators...
  • Page 40 X I 0 MAG selected. Select AUTO VER TICAL MODE by simultaneously Press in the X I 0 MAG push button again to release pressing in both A L T and CHOP push buttons. it for X I sweep. 2335 Operators...
  • Page 41 12. Return the TIME (PULL) VAR control to its cali­ 7. Select the A HORIZ MODE and set the A and B SEC/ brated detent (fully clockwise) and push in the knob. DIV switches to 0.5 ms. 2335 Operators REV JUL 1981...
  • Page 42 11. Remove the calibration signal from the CH 1 input connector. 5. Select the A TRIGGER NORM mode. 12. Press in the A TRIGGER SGL SWP push button 6. Rotate the A TRIGGER LEVEL control between momentarily fo r single-sweep operation. its maximum clockwise and counterclockwise positions. 2335 Operators...
  • Page 43 Horizontal POSITION control and vertically w ith the Channel 2 POSITION control. Note that the dots are separated by 5 horizontal divisions 18. Set the A TRIGGER SOURCE switch to EXT-M O . and 5 vertical divisions. 2335 Operators...
  • Page 44 This 4. Observe that the positive peaks o f the waveform are indicates a decrease in the frequency response o f the blanked, indicating intensity modulation (adjust INTEN vertical amplifier. control as necessary). 2335 Operators...
  • Page 45 Warm-up time required to meet all the adjust the TRACE ROTATION control (see Figure 3) instrument's specification is 20 minutes. and align the trace with the center horizontal graticule line. 2335 Operators...
  • Page 46 7 fo r the Channel 2 probe. Select CH 1 VERTICAL MODE and insert the tip of the probe connected to the Channel 1 input connector to the AMPL CAL output. 10. Disconnect the probes from the instrument. 2335 Operators...

  • Page 47: Probe Compensation

    However, it may be necessary Preset instrument controls and obtain a Normal to reset the FOCUS control slightly when the Sweep Display (refer to “ Instrument Familiarization''}. IN TEN control setting is changed. 2335 Operators...
  • Page 48 4. Adjust the INTEN control fo r desired brightness and adjust the FOCUS control for best defined display. 4 1 1 5 -1 8 5. Adjust the A TRIGGER LEVEL control for a stable display o f the AMPL CAL signal. Figure 11. Vertical display accuracy. 2335 Operators...

  • Page 49: Basic Applications

    BASIC APPLICATIONS A fter becoming familiar w ith all the capabilities of the 1. Preset instrument controls and obtain a Normal 2335 Oscilloscope, the operator can then adopt a con­ Sweep Display. venient method fo r making a particular measurement. The following information describes the recommended pro­...
  • Page 50 4.6 divisions (see Figure 12) with a VO LTS/DIV switch setting o f 0.5, using a 10X probe. Substituting the given values: Volts (p-p) = 4.6 div x 0.5 V/div x 10 = 23 V. Figure 12. Peak-to-peak waveform voltage. 2335...

  • Page 51: Instantaneous Dc Voltage

    Adjust the A TRIGGER LEVEL control to obtain crt, the voltage is negative. a stable display. 2335 Operators...

  • Page 52: Algebraic Addition

    Algebraic Addition W ith the VERTICAL MODE switch in the ADD posi­ tion, the waveform displayed is the algebraic sum o f the signals applied to the Channel 1 and Channel 2 inputs Figure 13. Instantaneous voltage measurement. 2335 Operators...
  • Page 53 4 volts. Select ADD VERTICAL MODE to place the resultant c. Use Channel 1 and Channel 2 POSITION control display w ithin operating range vertical settings which most nearly position the signal on each POSITION controls (see Figure 14C). 2335 Operators...

  • Page 54: Common-Mode Rejection

    The precautions given under the preceding 1. Preset instrument controls and obtain a Normal "Algebraic A d d itio n " procedure should be observed. Sweep Display. 2335 Operators...

  • Page 55: Time Duration

    CANCELED Time Duration To measure time between two points on a waveform, use the following procedure: (B) RESU LTAN T SIG N AL. 1738-19 1. Preset instrument controls and obtain a Normal Figure 15. Common-mode rejection. Sweep Display. 2335 Operators...
  • Page 56 (see Fig­ ure 16). Measure the horizontal distance between the time- measurement points. 7. Calculate time duration, using the following formula: horizontal A SEC/DIV distance switch Time (divisions)_______ setting Duration magnification factor 2335 Operators...

  • Page 57: Frequency

    Rise Time Rise-time measurements use the same methods as time 5. Adjust vertical positioning so that the zero reference duration, except that the measurements are made between o f the waveform touches the 0% graticule line and the top 2335 Operators...

  • Page 58: Rise Time

    EXAMPLE: The horizontal distance between the 10% and 90% points is 5 divisions {see Figure 17), and the A SEC/DIV switch is set to 1 jus/division. A magnification factor o f 1 is used. REV JUL 1981 2335 Operators...

  • Page 59: Time Difference Between Two Time-Related Pulses

    The calibrated sweep speed and dual-trace features o f display (signals may be o f opposite polarity due to 180° the 2335 allow measurement of the time difference phase difference; if so, note this fo r use later in the final between tw o separate events.

  • Page 60: Phase Difference

    In a similar manner to "Tim e Difference," phase com­ parison between tw o signals o f the same frequency can be made using the dual-trace feature o f the 2335. This method Substituting the given values in the formula: o f phase difference measurement can be used up to the frequency lim it o f the vertical system.
  • Page 61 (X10 MAG push button in), the Measure the horizontal difference between corre­ magnified horizontal graticule calibration would be sponding points on the waveforms at a common horizontal 4 5 ° /division divided by 10 (or 4 .5 ° /division). Figure 20 2335 Operators...

  • Page 62: Amplitude Comparison

    To accomplish this, a reference signal of known formula: amplitude is first set to an exact number of vertical divisions by adjusting the VO LTS/DIV switch and VAR control. Phase Difference = 6 div x 4.5° /div = 27° 2335 Operators...
  • Page 63 EXAMPLE: The reference signal amplitude is 30 volts. Conversion vertical VO LTS/DIV with a VO LTS/DIV switch setting o f 5 and the VOLTS/ Factor deflection switch DIV VAR control adjusted to provide a vertical deflec­ (divisions) setting tion o f exactly 4 divisions. 2335 Operators...

  • Page 64: Time Comparison

    (e.g., on assembly line test) may be easily Substituting these values in the vertical conversion factor formula: and accurately measured w ith the 2335. To accomplish this, a reference signal o f known time duration is first set Vertical...
  • Page 65 2.19 ms, the A SEC/DIV switch setting is 0.2 ms, and the TIM E (PULL) VAR control is adjusted to provide Frequency — 2.083 kHz 480 jus a horizontal distance o f exactly 8 divisions. 2335 Operators...
  • Page 66 Pulse jitte r includes not only the inherent uncertainty of triggering the delayed sweep at exactly the same trigger The delayed-sweep feature of the 2335 can be used to point each time, but also jitte r that may be present in provide higher apparent magnification than is provided by the input signal.

  • Page 67: Delayed-Sweep M A G N Ific Atio N

    Select the B HORIZ MODE to magnify the inten­ sified portion o f the A Sweep (see Figure 21B). The apparent sweep magnification can be calculated from the follow ing formula: Apparent A SEC/DIV switch setting Delayed Sweep B SEC/DIV switch setting Magnification 2335 Operators...
  • Page 68 INTENSIFIED ZONE {A} A INTENSIFIED TRACE 4 1 1 5 - 2 0 Figure 21. Delayed-sweep magnification.

  • Page 69: Pulse Jitter Time Measurement

    Point A and Point B in divisions and calculate the pulse jitte r time using the following formula: Operating the 2335 Oscilloscope w ith HORIZ MODE set to either A INTEN or B w ill permit time measurements to...

  • Page 70: Time Duration

    D IV switch to the fastest sweep speed that provides a usabie (visible) intensified zone. Adjust the B DELAY TIME POSITION control to move the start o f the intensified zone so that it just touches Figure 23. Time duration using delayed sweep. 2335 Operators...

  • Page 71: Rise Time

    10% and 90% points on the leading edge o f the wave­ form . Fail time is measured between the 90% and 10% Set the appropriate VO LTS/DIV switch and VAR points on the trailing edge o f the waveform. control fo r an exact 5-division display. 2335 Operators...
  • Page 72 (left-hand edge) until it just touches the intersection of the signal and the 10% graticule line (see Figure 25, Point A). 9. Record the B DELAY TIME POSITION control dial setting. Figure 25. Rise time, differential tim e method. 2335 Operators...

  • Page 73: Time Difference Between Repetitive Pulses

    Set the appropriate VO LTS/DIV switch to produce a clockwise until the second pulse is positioned to the same display o f approximately 5 divisions in amplitude and vertical reference line (see Figure 26B). vertically center the display. 2335 Operators...
  • Page 74 ( 1 7 3 8 - 2 3 ) 4 1 1 5 - 2 4 formula: Time Difference = {8 .8 1 -1 .3 1 } (0.2 jus) = 1.5 jus Figure 26. Time difference between repetitive pulses. 2335 Operators...

  • Page 75: Time Difference Between Two Time-Related Pulses

    POSITION control. Select the A INTEN HORIZ MODE and set the B SEC/DIV switch to the fastest sweep speed that provides Record the B DELAY TIME POSITION control a usable (visible) intensified zone. dial setting. 2335 Operators...
  • Page 76 Substituting the given values in the time difference formula: EXAMPLE: With the A SEC/DIV switch set to 50 fis, the B DELAY TIME POSITION dial reading fo r the Time Difference = (7.10 — 2.60) (50 jus) = 225 jus 2335 Operators...

  • Page 77: Options

    Option 03 {100-V/200-V Power Transformer) permits There is presently only one option available fo r the 2335. A brief description of this option is given in the operation o f the instrument from either a 100-V or a 200-V following discussion.
  • Page 78 The following electrical characteristics {Table 4) are valid for the 2335 when it has been adjusted at an ambient temper- ature between +20° C and +30°C, has had a warmup period o f at least 20 minutes, and is operating at an ambient temperature between —...
  • Page 79 25-f2 source; centered vertically, w ith VO LTS/DIV VAR control in cali­ brated detent. — 15° C to +40° C Dc to at least 100 MHz. Reduces to 88 MHz at 2 mV per division.3 Perform ance requirement not checked in manual. 2335 Operators...
  • Page 80 25-0 source; centered vertically w ith VO LTS/DIV VAR control in cali­ brated detent. BW LIM IT push button must be out for fu ll bandwidth operation. Performance requirement not checked in manual. 2335 Operators...

  • Page 81: Sp Ec Ific Atio N

    (Excluding ADD Mode) +3%, — 3%, 3% p-p or less. 5 mV per division to 0.2 V per division Add 2% to all positive-going step Negative-Going Step specifications; checked at 5 mV per division. Performance requirement not checked in manual. 2335 Operators...
  • Page 82 10 mV per division at 50 kHz; mode signals o f 6 divisions or less. checked at 10 mV per division. Channel 2 Invert Trace Shift Less than 0.4 division from center screen when switching from normal to inverted. 2335 Operators...
  • Page 83 10 mV per division. Check for less than 4 divisions of signal. POSITION Control Range A t least +12 and —12 divisions from graticule center. Perform ance requirement not checked in manuat. 2335 Operators...
  • Page 84 400 V (dc + peak ac) or 500 V p-p ac at 1 kHz or less.3 AC Coupled 400 V (dc + peak ac) or 500 V p-p ac at 1 kHz or less.3 Performance requirement not checked in manual. 2335 Operators...
  • Page 85 20 Hz ±4 Hz to 50 kHz ±10 kHz. 20 Hz and 50 kHz). DC Coupled Signal 0.3 division internal or 50 mV external from dc to 20 MHz; increasing to 1.1 divisions internal or 150 mV externa! at 100 MHz. 2335 Operators...
  • Page 86 1 MLi ±10%.3 Input Capacitance 20 pF ±30%,a LEVEL Control Range A t least ± 1 V, 2 V p-p. EXT -r 10 A t least ± 10 V, 20 V p-p.a Performance requirement not checked in manual. 2335 Operators...
  • Page 87 3 ns ±2 ns. 5-division signal w ith 5-ns rise time or Delay Difference less from 25-0 source, centered vertically; equal cable length from signal source to vertical channel and external trigger inputs, terminated in 50 O at each input. 2335 Operators...
  • Page 88 Exclude the firs t and last ±2% ±3% +20° C to +30° C 40 ns o f the sweep on all sweep speeds w ith X10 MAG on and off. ±3%a ±4%a —15°C to +55°C Performance requirement not checked in manual. 2335 Operators...
  • Page 89 Checked at 1 ms per division. POSITION Control Range Start o f sweep must position to right of graticule center. End o f sweep must position to left o f graticule center. Performance requirement not checked in manual. 2335 Operators...
  • Page 90 X-Y OPERATION Deflection Factor Range 5 mV per division to 5 V per division No X-axis variable. in a 1, 2, 5 sequence. Performance requirement not checked in manual. 2335 Operators REV JUL 1981...
  • Page 91 20 pF ±10%.a Phase Difference Between < 3° from dc to 200 kHz, X- and Y-Axis Amplifiers Accuracy X-Axis 0°C to +40°C ±5% of indicated deflection. —15°C to +55°C ±8% o f indicated deflection.3 Performance requirement not checked in manual. 2335 Operators...
  • Page 92 Waveshape Positive-going square wave. Duty Cycle 50% ±10%. Output Voltage 0°C to +40°C 0.2 V±1% . —15°C to +55°C 0.2 V±1.5% .a Repetition Rate 1 kHz ±25%. Output Impedance 200 £2 ±1%. Performance requirement not checked in manual. 2335 Operators...
  • Page 93 Capacitance Less than 15 pF. Maximum Input Voltage ±25 V {dc + peak ac) dc to 10 MHz, derate above 10 MHz.a V (dc + peak ac) f {in MHz) Input Coupling Performance requirement not checked in manual. 2335 Operators...
  • Page 94 35 W a t 115 V, 6 0 H z .a Maximum 60 W at 132 V ,4 8 H z .a Measured at worst-case load and frequency. V A Maximum 75 V A .a Performance requirement not checked in manual. 2335 Operators...
  • Page 95 Nominal Accelerating Voltage 18 kV.a Electrode Voltages to Ground Heater Voltage Between CRT 6.3 Vrms ±0.3 V; elevated to Pins 1 and 14 -1 9 6 0 V. Performance requirement not checked in manual,. 2335 Operators...
  • Page 96 1 mV +10 V ±0.9% 1 mV +40 V ±0.2% 1 mV +102 V ±2.0% High-Voltage Supply Accuracy (+20° C to +30° C) -1 9 6 0 V (cathode) ±1.0% 400 mV +16 kV (anode) ±4.0% 500 mV 2335 Operators...
  • Page 97 (4 g at 55 Hz), w ith frequency varied from 10 Hz to 55 Hz to 10 Hz in 1-minute sweeps. Hold 10 minutes at each major resonance, or if none exists, hold 10 minutes at 55 Hz (procedure differs from MIL-T-28800B). 2335 Operators...
  • Page 98 Will meet MIL-STD-461A requirements using procedures outlined in MiL-STD- 462, except where 10 V/m is used in place o f 1 V /m . Meets the lim its o f National Safe Transit Association test procedure 1A-B Transportation w ith a 36-inch drop. 2335 Operators...
  • Page 99 W ithout Pouch 135 mm (5.3 in). Width With Handle 315 mm (12.4 in). W ithout Handle 274 mm (10.8 in). Depth W ith Front Cover 432 mm (17.0 in). W ith Handle Extended 527 mm (20.8 in). 2335 Operators...
  • Page 100 48 Hz to 440 Hz.a Power Consumption Typical 35 W at 100 V, 60 Hz.a Maximum 60 W a t 115 V, 48 Hz a Measured at worst-case load and frequency. V A Maximum 75 VA.a Performance requirement not checked in manual. 2335 Operators...

  • Page 101: Accessories

    161-0104-08 1 Service Manual 070-4116-00 2 Fuses, 1.0 A, AGC, Fast-Blow 159-0022-00 1 Fuse, 0.5 A, AGC, Fast-Blow 159-0025-00 1 Crt Filter, Blue Plastic (installed) 337-2760-00 337-2781-00 1 Crt Filter, Clear Plastic 1 Detachable Power Cord (installed) 161-0104-00 2335 Operators...
  • Page 102 (marked on cabinet) 100 V 0.5 A,FB, JAPAN 100 V/200 V 200 V AGC/3AG 180 V to 230 V AGC/3AG (marked on cabinet) 200 V ‘ Line cord plug fuse is 13 A Type C. 2335 Operators @ JUL 1981...

Table of Contents