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General Safety Summary

vi

TDS 500D, TDS 600B & TDS 700D Performance Verification and Specifications 

To avoid fire or shock hazard, observe all ratings and markings on the product.
Consult the product manual for further ratings information before making
connections to the product.

Product Damage Precautions

Do not operate this product from a power source that applies more than the
voltage specified.

To prevent product overheating, provide proper ventilation.

If you suspect there is damage to this product, have it inspected by qualified
service personnel.

Clean the probe using only a damp cloth. Refer to cleaning instructions.

Safety Terms and Symbols

These terms may appear in this manual:

WARNING.

 Warning statements identify conditions or practices that could result

in injury or loss of life.

CAUTION.

 Caution statements identify conditions or practices that could result in

damage to this product or other property.

These terms may appear on the product:

DANGER indicates an injury hazard immediately accessible as you read the
marking.

WARNING indicates an injury hazard not immediately accessible as you read the
marking.

CAUTION indicates a hazard to property including the product.

Observe All Terminal

Ratings

Use Proper Power Source

Provide Proper Ventilation

Do Not Operate With

Suspected Failures

Do Not Immerse in Liquids

Terms in This Manual

Terms on the Product

Summary of Contents for TDS 500D

Page 1: ...Technical Reference TDS 500D TDS 600B TDS 700D Digitizing Oscilloscopes Performance Verification and Specifications 071 0135 00...

Page 2: ...tents issued and pending Information in this publication supercedes that in all previously published material Specifications and price change privileges reserved Printed in the U S A Tektronix Inc P O...

Page 3: ...any other locations This warranty shall not apply to any defect failure or damage caused by improper use or improper or inadequate maintenance and care Tektronix shall not be obligated to furnish ser...

Page 4: ......

Page 5: ...22 TDS 794D Test Record 1 26 Signal Acquisition System Checks 1 29 Time Base System Checks 1 46 Trigger System Checks 1 49 Output Signal Checks 1 62 Option 05 Video Trigger Checks Not Available on TD...

Page 6: ...48 Figure 1 14 Initial test hookup 1 50 Figure 1 15 Measurement of time accuracy for pulse and glitch triggering 1 51 Figure 1 16 Initial test hookup 1 53 Figure 1 17 Measurement of trigger level acc...

Page 7: ...duty cycle test 1 84 Figure 1 39 Sync duty cycle test one div neg pulse waveform 1 85 Figure 1 40 Sync duty cycle test critically adjusted pulse 1 86 Figure 1 41 Sine wave generator leveling equipment...

Page 8: ...2 Record length and divisions per record vs TDS model 2 4 Table 2 3 Nominal traits Signal acquisition system 2 11 Table 2 4 Nominal traits Time base system 2 12 Table 2 5 Nominal traits Triggering sys...

Page 9: ...rminal This product is grounded through the grounding conductor of the power cord To avoid electric shock the grounding conductor must be connected to earth ground Before making connections to the inp...

Page 10: ...p cloth Refer to cleaning instructions Safety Terms and Symbols These terms may appear in this manual WARNING Warning statements identify conditions or practices that could result in injury or loss of...

Page 11: ...ER High Voltage Protective Ground Earth Terminal ATTENTION Refer to Manual Double Insulated Certifications and Compliances CSA Certification includes the products and power cords appropriate for use i...

Page 12: ...General Safety Summary viii TDS 500D TDS 600B TDS 700D Performance Verification and Specifications...

Page 13: ...TDS 724D TDS 754D TDS 784D and TDS 794D This document also contains the technical specifications for these oscilloscopes Related Manuals The following documents are related to the use or service of th...

Page 14: ...acific time Or contact us by e mail tm_app_supp tek com For product support outside of North America contact your local Tektronix distributor or sales office Service Support Contact your local Tektron...

Page 15: ...Performance Verification Procedures...

Page 16: ......

Page 17: ...o the brief procedures under Functional Tests that begin on page 1 7 Advantages These procedures require minimal additional time to perform require no additional equipment other than a standard access...

Page 18: ...0B 680B and 724D Ch 1 Ch 2 Aux 1 and Aux 2 Conventions Throughout these procedures the following conventions apply H Each test procedure uses the following general format Title of Test Equipment Requi...

Page 19: ...STOP notation at the left is accompanied by information you must read to do the procedure properly H Refer to Figure 1 1 Main menu refers to the menu that labels the seven menu buttons under the displ...

Page 20: ...Performance Verification Procedures 1 4 TDS 500D TDS 600B TDS 700D Performance Verification and Specifications...

Page 21: ...ernal diagnostics pass Do the following substeps to verify passing of internal diagnostics a Display the System diagnostics menu H Press SHIFT then press UTILITY H Repeatedly press the main menu butto...

Page 22: ...ress the side menu button OK Compensate Signal Paths g Wait Signal path compensation may take five minutes on the TDS 500D 700D and fifteen minutes on the 600B to run While it progresses a clock icon...

Page 23: ...refore when the instructions in the functional tests that follow call for you to verify that a signal appears on screen that is about five divisions in amplitude or has a period of about six horizonta...

Page 24: ...TDS 600B shown b Initialize the oscilloscope H Press save recall SETUP H Press the main menu button Recall Factory Setup H Press the side menu button OK Confirm Factory Init 2 Verify that all channel...

Page 25: ...1 on page 1 3 to locate the readout H The vertical POSITION knob moves the signal up and down the screen when rotated H Turning the vertical SCALE knob counterclockwise decreases the amplitude of the...

Page 26: ...he front panel connect the probe ground to PROBE COMPENSATION GND See Figure 1 3 on page 1 8 b Initialize the oscilloscope H Press save recall SETUP H Press the main menu button Recall Factory Setup t...

Page 27: ...ialize the oscilloscope H Press save recall SETUP H Press the main menu button Recall Factory Setup H Press the side menu button OK Confirm Factory Init c Modify default settings H Set the vertical SC...

Page 28: ...the following statements are true H The trigger level readout for the delayed trigger system changes as you turn the general purpose knob H As you rotate the general purpose knob the square wave probe...

Page 29: ...nsert the floppy disk in the floppy disk drive to the left of the monitor H Position the disk so the metal shutter faces the drive H Position the disk so the stamped arrow is on the top right side In...

Page 30: ...e hd0 or the external Zip drive Zip Then use the general purpose knob to select the file to save Save the file as in step e H Press the side menu button Save To Selected File 2 Verify the file system...

Page 31: ...rise an extensive valid confirmation of perform ance and functionality when the following requirements are met H The cabinet must be installed on the oscilloscope H You must have performed and passed...

Page 32: ...0 Various Accuracy Tests 7 Connector BNC T Male BNC to dual female BNC Tektronix part number 103 0030 00 Checking Trigger Sensitivity 8 Coupler Dual Input Female BNC to dual male BNC Tektronix part nu...

Page 33: ...tion 05 Equipped Instruments Only 24 Generator Optical Im pulse 850 nm optical impulse Tektronix OIG501 Optical Impulse Generator2 Checking Option 3C 25 Generator Optical Im pulse 1300 nm optical impu...

Page 34: ...75 6 mV 756 mV __________ __________ __________ __________ __________ __________ 2 1 mV 75 6 mV 756 mV DC Voltage Measurement Accuracy Averaged CH1 5 mV Vert scale setting 5 Div position setting 1 V o...

Page 35: ...ion setting 10 V offset 11 7835 V __________ __________ 11 4165 V CH3 1 01 V Vert scale setting or AX1 5 Div position setting 10 V offset 17 102 V __________ __________ 18 899 V CH3 1 01 V Vert scale...

Page 36: ...________ 10 137 V Main Trigger DC Coupled Negative Slope 9 863 V __________ __________ 10 137 V Delayed Trigger DC Coupled Positive Slope 9 863 V __________ __________ 10 137 V Delayed Trigger DC Coup...

Page 37: ...of Calibration Technician TDS 600B Performance Test Maximum Outgoing Incoming Minimum CH 3 or AX1 SIGNAL OUTPUT 1 M Pk Pk 80 mV __________ __________ Pk Pk 120 mV CH 3 or AX1 SIGNAL OUTPUT 50 Pk Pk 4...

Page 38: ...Offset 1 mV 101 mV 1 01 V 1 6 mV 25 1 mV 251 mV __________ __________ __________ __________ __________ __________ 1 6 mV 25 1 mV 251 mV DC Voltage Measurement Accuracy Averaged CH1 5 mV Vert scale set...

Page 39: ...position setting 10 V offset 11 6805 V __________ __________ 11 5195 V CH3 1 01 V Vert scale setting or AX1 5 Div position setting 10 V offset 17 621 V __________ __________ 18 379 V CH3 1 01 V Vert s...

Page 40: ...gger DC Coupled Negative Slope 9 8853 V __________ __________ 10 1147 V Delayed Trigger DC Coupled Positive Slope 9 8853 V __________ __________ 10 1147 V Delayed Trigger DC Coupled Negative Slope 9 8...

Page 41: ...of Calibration Technician TDS 500D 700D Performance Test Maximum Outgoing Incoming Minimum CH 3 or AX 1 SIGNAL OUTPUT 1 M Pk Pk 88 mV __________ __________ Pk Pk 132 mV CH 3 or AX 1 SIGNAL OUTPUT 50 P...

Page 42: ...__ 2 5 mV 25 1 mV DC Voltage Measurement Accuracy Averaged CH1 10 mV Vert scale setting 5 Div position setting 5 V offset 0 5755 V __________ __________ 0 5845 V CH1 10 mV Vert scale setting 5 Div pos...

Page 43: ...on setting 5 V offset 5 6655 V __________ __________ 5 5345 V CH3 1 V Vert scale setting 0 Div position setting 2 5 V offset 5 289 V __________ __________ 5 711 V CH3 1 V Vert scale setting 0 Div posi...

Page 44: ...__________ __________ 5 1047 V Delayed Trigger DC Coupled Positive Slope 4 8953 V __________ __________ 5 1047 V Delayed Trigger DC Coupled Negative Slope 4 8953 V __________ __________ 5 1047 V CH1...

Page 45: ...s CLEAR MENU to remove the menus from the screen b Modify the default settings H Press SHIFT then press ACQUIRE MENU H On the TDS 600B press the main menu button Mode then press the side menu button A...

Page 46: ...mV 0 2 1 mV 1 6 mV 101 mV 0 75 6 mV 25 1 mV 1 01 V 0 756 mV 251 mV TDS 794D offset accuracy limits 10 mV 0 2 5 mV 101 mV 0 25 1 mV 1 Vertical position is set to 0 divisions and vertical offset to 0 V...

Page 47: ...ubsteps b through f until all vertical scale settings listed in Table 1 2 are checked for the channel under test Align the active cursor over the waveform 1 Read the measurement results 2 Figure 1 4 M...

Page 48: ...oscope must meet the prerequisites listed on page 1 15 See Input Channels vs Model on page 1 2 1 Install the test hookup and preset the instrument controls a Hook up the test signal source H Set the o...

Page 49: ...since CH 1 is already selected from step 1 a Select an unchecked channel H Press WAVEFORM OFF to remove the channel just confirmed from the display H Press the front panel button that corresponds to t...

Page 50: ...5345 V to 5 6655 V 0 5 V 5 6 V 5 6655 V to 5 5345 V 1 V 0 2 5 V 5 5 V 5 289 V to 5 711 V 0 2 5 V 5 5 V 5 711 V to 5 289 V d Display the test signal H Press VERTICAL MENU Press the main menu button Pos...

Page 51: ...peat substep d reversing the polarity of the position offset and generator settings as is listed in the table H CHECK that the Mean measurement readout on screen is within the limits listed for the cu...

Page 52: ...and 18 Prerequisites See page 1 15 1 Install the test hookup and preset the instrument controls a Initialize the oscilloscope H Press save recall SETUP Press the main menu button Recall Factory Setup...

Page 53: ...with the generator used Refer to the Sine Wave Generator Leveling Procedure on page 1 88 if your sine wave generator does not have automatic output amplitude leveling c Hook up the test signal source...

Page 54: ...ds to the channel you are to confirm H Move the leveling output of the sine wave generator to the channel you selected b Match the trigger source to the channel selected H Press TRIGGER MENU Press the...

Page 55: ...ator cannot output 6 divisions of amplitude set it to its maximum output The 3 db limit can be calculated as 0 707 reference amplitude e Display the test signal Do the following subparts to first disp...

Page 56: ...Press SET LEVEL TO 50 as necessary to trigger the signal H Read the results at the CHx Pk Pk readout which will automatically measure the amplitude of the test signal See Figure 1 9 Set the generator...

Page 57: ...setting have not changed h Check remaining vertical scale settings against limits optional H If desired finish checking the remaining vertical scale settings for the channel under test by repeating s...

Page 58: ...ot adjust the vertical position of any channel during this procedure H Set the horizontal SCALE to 500 ps H Press SHIFT then press ACQUIRE MENU H Press the main menu button Mode and then press the sid...

Page 59: ...ve CH 3 AX1 on some TDS models waveform H Move the coupler from CH 2 to CH 3 AUX1 on some TDS models so that CH 1 and CH 3 are driven Press WAVEFORM OFF Press CH 3 Be sure the vertical scale factor is...

Page 60: ...ss SELECT to switch between the two cursors See Figure 1 11 on page 1 44 H Read the measurement results at the D cursor readout not the readout on screen Locate the time reference points for these wav...

Page 61: ...he second CH1 to CH2 skew measurement and divide the result by 2 Use Table 1 5 m Add the first CH1 to CH3 AX1 on some TDS models skew measure ment to the second CH1 to CH3 skew measurement and divide...

Page 62: ...up 1 Install the test hookup and preset the instrument controls a Hook up the test signal source Connect through a 50 W precision coaxial cable the output of the generator to CH 1 H If using a time ma...

Page 63: ...gure 1 13 b Measure the test signal H Set the horizontal SCALE of the D delayed time base to 500 ns for the TDS 600B or to 100 ns for the TDS 500D 700D H If using a time mark generator align the trigg...

Page 64: ...s and delay time accuracies against limits 4 Align the trigger T to the center graticule line 1 Set horizontal mode 2 Set horizontal scale and delayed time 3 Figure 1 13 Measurement of accuracy Long t...

Page 65: ...e recall SETUP H Press the main menu button Recall Factory Setup H Press the side menu button OK Confirm Factory Init b Modify the default setup H Set the horizontal SCALE to 10 ns on the TDS 600B and...

Page 66: ...at ensure triggering See Figure 1 15 H Press the main menu button Type then repeatedly press the same button until Pulse is highlighted in the menu that pops up H Press the main menu button Class then...

Page 67: ...ring H Press the side menu button Upper Limit then use the general purpose knob to slowly decrease the Upper Limit readout until triggering is lost H CHECK that the Upper Limit readout after the oscil...

Page 68: ...ubparts in the order listed H Press the side menu button Lower Limit H Use the general purpose knob to increase Lower Limit readout until triggering is lost H CHECK that the Lower Limit readout after...

Page 69: ...erator to 0 volts H Connect the output of the DC calibration generator through a dual banana connector followed by a 50 W precision coaxial cable to one side of a BNC T connector H Connect the Sense o...

Page 70: ...ar on screen See Figure 1 17 b Measure the test signal H Press SET LEVEL TO 50 H Press TRIGGER MENU H Read the measurement results from the readout below the label Level in the main menu not the trigg...

Page 71: ...limits for Trigger level Threshold accuracy a Select the Delayed time base H Press HORIZONTAL MENU H Press the main menu button Time Base H Press the side menu buttons Delayed Only and Delayed Trigge...

Page 72: ...10 137 V TDS 500D 700D 9 8853 V 10 1147 V TDS 794D 4 8953 V 5 1047 V H Enter voltage on test record H Press the main menu button Slope then press the side menu button for negative slope See icon at l...

Page 73: ...H Press the side menu button Delayed Only then press the side menu button Delayed Triggerable H Set the horizontal SCALE for the D delayed time base to 20 ns on the TDS 600B or 25 ns on the TDS 500D 7...

Page 74: ...ss the side menu button Amplitude H Press SET LEVEL TO 50 H Press CLEAR MENU H Set the test signal amplitude for about three and a half divisions on screen Now fine adjust the generator output until t...

Page 75: ...and negative slopes Use the side menu to switch between trigger slopes use the TRIGGER LEVEL knob to stabilize the trigger if required H Enter pass fail result for main trigger on the test record H Le...

Page 76: ...e Base Press the side menu button Main Only H Press CLEAR MENU 3 Confirm the AUX Trigger input a Display the test signal H Remove the 10X attenuator and reconnect the cable to CH 1 H Set the test sign...

Page 77: ...s the main menu button Time base then press the side menu button Delayed Triggerable H Press the side menu button Delayed Only H Set the horizontal SCALE to 500 ps for the D Delayed time base Press th...

Page 78: ...hannels vs Model on page 1 2 1 Install the test hookup and preset the instrument controls 50 coaxial cables To MAIN TRIGGER OUT Calibration Generator Oscilloscope Figure 1 20 Initial test hookup a Hoo...

Page 79: ...thin limits for logic levels a Display the test signal H Press WAVEFORM OFF to turn off CH 3 H Press CH 2 to display that channel H Set the vertical SCALE to 1 V H Use the vertical POSITION knob to ce...

Page 80: ...See Figure 1 21 H Move the precision 50 W cable from the rear panel Main Trigger Output BNC to the rear panel Delayed Trigger Output BNC H CHECK that the Ch2 High readout is 1 0 volt and that the Ch2...

Page 81: ...nu button more until Pk Pk appears in the side menu its icon is shown at the left Press the side menu button Pk Pk H Press CLEAR MENU b Check against limits Skip the first four subparts of this subste...

Page 82: ...stall the test hookup and preset the instrument controls a Hook up test signal H Connect one of the 50 W cables to CH 1 See Figure 1 22 H Connect the other end of the cable just installed to the femal...

Page 83: ...erages with the keypad or the general purpose knob 2 Confirm that the Probe Compensator signal is within limits for frequency a Measure the frequency of the probe compensation signal H Press MEASURE t...

Page 84: ...To Ref 1 to save the probe compensation signal in reference 1 H Disconnect the cable from CH 1 and the clips from the probe compensation terminals H Press MORE then press the main menu button Ref 1 t...

Page 85: ...the probe compensation signal H Press SHIFT then press ACQUIRE MENU Press the side menu button AVERAGE then enter 16 using the keypad or the general purpose knob H Adjust the output of the DC calibra...

Page 86: ...ent of probe compensator amplitude g Check against limits H Subtract the value just obtained base level from that obtained previously top level H CHECK that the difference obtained is within 495 mV to...

Page 87: ...oscope to factory defaults by completing the following steps a Press save recall SETUP b Press the main menu Recall Factory Setup c Press the side menu OK Confirm Factory Init d Wait for the Clock Ico...

Page 88: ...hen ENTER 3 Check Jitter vs Signal Amplitude a Set up equipment for Jitter Test See Figure 1 26 H Connect one of the rear panel composite outputs marked COMPST on the TSG121 through a 75 W cable and a...

Page 89: ...It should be already set to 16 f Press the main menu Create Limit Test Template g Press the side menu V Limit h Use the keypad to set V Limit to 180 mdiv press 180 SHIFT m then ENTER i Press the side...

Page 90: ...irm that the oscilloscope successfully makes 100 acquisitions If not successful the oscilloscope bell will ring When the word Run in the top left corner of the display changes to STOP the test is comp...

Page 91: ...g Press the side menu RUN STOP button only h Press the main menu Mode i Press the side menu Sample j Press RUN STOP k Press VERTICAL MENU l Use the keypad to set fine scale to 300 mV press 300 SHIFT m...

Page 92: ...e waveform on the screen has one positive pulse and a number of negative pulses See Figure 1 30 Positive pulse Negative pulses Figure 1 30 Triggered signal range test 75 mV p Disconnect all test equip...

Page 93: ...gnal generator H Connect the output of the signal generator to the CH2 input through a 50 W cable See Figure 1 31 Oscilloscope 50 cable Signal Generator Output Figure 1 31 60 Hz Rejection test hookup...

Page 94: ...et fine scale to 500 mV press 500 SHIFT m then ENTER H Connect another composite signal connector of the PAL signal source labeled COMPST on the TSG 121 through a 75 W cable and a 75 W terminator to t...

Page 95: ...MENU H Press the main menu Record Length H Press the side menu more until you see the appropriate menu H Press the side menu 5000 points in 100divs H Press the main menu Horiz Scale div H Use the key...

Page 96: ...inator Output Figure 1 35 Line count accuracy test hookup H Press the main menu Trigger Position H Press the side menu to Set to 50 H Press the main menu to Horiz Pos H Press the side menu to Set to 5...

Page 97: ...H Press the side menu V Bars H Using the General Purpose knob place the left cursor directly over the trigger T icon H Press SELECT H Turn the General Purpose knob to adjust the right cursor for a cu...

Page 98: ...and finally Off from the side menu 7 Check the Sync Duty Cycle a Set up oscilloscope for Sync Duty Cycle Test H Press TRIGGER MENU H Press the Standard pop up to select FlexFmt Trigger Type should alr...

Page 99: ...ENTER H Press the main menu Type pop up to select Edge H Press HORIZONTAL MENU H Press the main menu Record Length H Select the side menu 1000 points in 20div If needed first press the side menu more...

Page 100: ...erminator to the oscilloscope CH1 input See Figure 1 38 Pulse Generator Oscilloscope 50 cable 50 terminator Output Figure 1 38 Setup for sync duty cycle test H Turn the pulse generator OUTPUT VOLTS co...

Page 101: ...s 10 ns H Turn the HORIZONTAL SCALE knob to set the oscilloscope time base to 5ms div H Turn the pulse generator PERIOD variable control to adjust the period until the oscilloscope CH1 Period measurem...

Page 102: ...iod measurements are adjusted correctly See note above CONFIRM that the setup is correct and the oscilloscope will trigger H CONFIRM that the TRIG D LED is lighted and the waveform is stable H Disconn...

Page 103: ...t the signal source from CH1 wait a few seconds then reconnect the signal H CONFIRM that the TRIG D LED is lighted and the waveform is stable H Disconnect all test equipment from the oscilloscope H Pr...

Page 104: ...ine wave generator Equipment required Sine wave generator Item 14 Level meter and power sensor Item 15 Power splitter Item 16 Two male N to female BNC adapters Item 17 One precision coaxial cable Item...

Page 105: ...w frequency H Input the correction factor and or the new frequency into the level meter H Adjust the sine wave generator amplitude until the level meter again reads the value noted in step 3 The signa...

Page 106: ...easured by the oscilloscope 3 Record the reference level H Disconnect the sine wave generator from the oscilloscope H Connect the sine wave generator to the power sensor H Note the level meter reading...

Page 107: ...then selecting Masks from the Measure pop up menu Table 1 8 lists the available vertical scale factors for each option Tables 1 9 1 10 and 1 11 list the available filters and their specifications Tab...

Page 108: ...pt FC1063 filter Up to 1 5X the data rate for FC1063 filter Table 1 11 Available receivers Option 4C1 Option 3C2 OC14 OC3 OC12 FC10633 FC133 FC266 FC531 FC10633 OC3 OC12 TDS 520D n n n n TDS 540D n n...

Page 109: ...al Attenuator Fiber optic cable Figure 1 43 Reference receiver performance verification set up a Initialize the oscilloscope H Press SAVE RECALL SETUP H Press the main menu button Recall Factory Setup...

Page 110: ...ERTICAL SCALE of the oscilloscope to either 10 W 20 W or 50 W division NOTE These are the only scale settings for which the reference receivers have calibrated filters f Set the trigger type to edge H...

Page 111: ...when SHIFT is lighted H Adjust the HORIZONTAL POSITION to move the 20 trigger point onto the display see Figure 1 44 Figure 1 44 Optical impulse of Ch1 input from OA5022 Optical Attenuator OIG501 OIG5...

Page 112: ...e right of the vertical scale factor see Figure 1 45 H Press TRIGGER MENU then select Edge from the Type pop up menu 3 Turn on an FFT of the optical impulse the Impulse Response or Frequency Response...

Page 113: ...in Table 1 12 for the standard being verified H Adjust the HORIZONTAL SCALE and VERTICAL SCALE to view the frequency response of the BT filter The large spike around DC is due to DC offset in the sign...

Page 114: ...622 MHz 4 MHz Also note that the reference receiver RR designation is beside the 20 W vertical scale factor f Next move the cursor currently positioned at the beginning of the record until the cursor...

Page 115: ...ta frequency is 584 MHz because the right cursor is no longer referenced to DC The delta attenuation from the zero dB level to the 622 MHz Cursor is 5 6 dB 6 Repeat steps 5d through 5f starting on pag...

Page 116: ...15 279 9 1 32 1 02 0 72 373 2 2 16 1 86 1 56 466 7 3 31 3 00 2 71 5 60 0 5 15 4 51 3 87 622 08 6 58 5 71 4 84 653 2 7 35 6 37 5 39 746 5 9 86 8 54 7 22 839 8 12 59 10 93 9 27 933 1 15 41 13 41 11 41...

Page 117: ...0 1 0 4 38 440 0 9 0 4 0 1 59 765 1 5 1 0 0 5 79 690 2 4 1 9 1 4 99 610 3 5 3 0 2 5 119 53 5 5 4 5 3 5 132 81 7 03 5 7 4 37 139 45 7 9 6 4 4 9 159 37 10 5 8 5 6 5 179 29 13 4 10 9 8 4 199 22 16 4 13...

Page 118: ...4 159 38 0 9 0 4 0 1 239 06 1 5 1 0 0 5 318 76 2 4 1 9 1 4 398 44 3 5 3 0 2 5 478 12 5 5 4 5 3 5 531 24 7 03 5 7 4 37 557 82 7 9 6 4 4 9 637 50 10 5 8 5 6 5 717 18 13 4 10 9 8 4 796 88 16 4 13 4 10 4...

Page 119: ...Specifications...

Page 120: ......

Page 121: ...n ea of 2 ch TDS 644B 2 5 GS s on ea of 4 ch TDS 620B 2 5 GS s on ea of 2 ch TDS 580D TDS 784D TDS 794D 4 GS s TDS 540D 754D 2 GS s TDS 520D 724D 1 GS s Analog bandwidth TDS 794D 2 GHz TDS 580D TDS 68...

Page 122: ...front panel knob Set a function you change less often such as vertical coupling or horizontal mode indirectly using a selected menu Pressing one sometimes two front panel button s such as vertical men...

Page 123: ...forms and four reference wave forms are available for display A math waveform results when you specify dual waveform operations such as add on any two channels A reference waveform results when you sa...

Page 124: ...ivs 5 000 100 divs 10 divs 15 000 300 divs 10 divs TDS 500D TDS 700D All channels 50 000 1 000 divs 10 divs el i p i 1 Rec r le Divisions per record Models with Option 1M Record length FTS1 Off2 FTS1...

Page 125: ...e models two for others See Table 2 1 and its footnote Trigger System The triggering system supports a varied set of features for triggering the signal acquisition system Trigger signals recognized in...

Page 126: ...displayed Presets of 10 50 and 90 of pretrigger data can be selected in the horizontal menu or the general purpose knob can be assigned to set pretrigger data to any value within the 0 to 100 limits A...

Page 127: ...Paired cursors measure both amplitude and time simultaneously These are delta measurements that is measurements based on the difference between two cursors Both H Bar and V Bar cursors can also be us...

Page 128: ...channels to any REF memory or move a stored reference from one REF memory to another Reference waveforms may also be written into a REF memory location via the GPIB interface I O The oscilloscope is...

Page 129: ...S 684B and TDS 700D Waveforms readouts graticule and variable persistence with color coding H Intensity waveforms readouts and graticule H Style of waveform display s vectors or dots intensified or no...

Page 130: ...Specifications 2 10 TDS 500D TDS 600B TDS 700D Performance Verification and Specifications...

Page 131: ...D Volts Div setting Offset range All except TDS 794D 1 mV div 100 mV div 101 mV div 1 V div 1 01 V div 10 V div 1 V 10 V 100 V Ranges Offset TDS 794D only 10 mV div 50 mV div 50 5 mV div 99 5 mV div...

Page 132: ...els to 1 GSample sec when acquiring 3 or 4 channels TDS 540D Opt 1G 5 Samples sec to 1 GSample sec when acquiring 1 to 4 channels TDS 754D 5 Samples sec to 2 GSamples sec when acquiring 1 or 2 channel...

Page 133: ...es second at which a digitizer samples signals at its inputs and stores the samples in memory to produce a record of time sequential samples 2 The range of waveform rates for interpolated or equivalen...

Page 134: ...bers mean a data transition after the clock edge and negative means a transition before the clock edge Setup Hold Time is the algebraic sum of the Setup Time and the Hold Time programmed by the user R...

Page 135: ...b s DS4NA CMI 139 26 Mb s STS 1 AMI 51 84 Mb s STS 3 CMI 155 52 Mb s FC133 NRZ 132 8 Mb s FC266 NRZ 265 6 Mb s FC531 NRZ 531 2 Mb s FC1063 NRZ 1 0625 Mb s D2 NRZ 143 18 Mb s D1 NRZ 270 Mb s FDDI NRZ 1...

Page 136: ...deo VGA video output with levels that comply with EIA RS 343A standard DB 15 connector Logic Polarity for Main and Delayed Trigger Outputs Negative TRUE High to low transition indicates the trigger oc...

Page 137: ...te Cabinet is aluminum and is clad in Tektronix Blue vinyl material Weight Standard Oscilloscope 14 1 kg 31 lbs with front cover 24 0 kg 53 lbs when packaged for domestic shipment Rackmount Oscillosco...

Page 138: ...Nominal Traits 2 18 TDS 500D TDS 600B TDS 700D Performance Verification and Specifications...

Page 139: ...ated above this section lists only warranted characteristics A list of typical characteristics starts on page 2 27 Performance Conditions The performance limits in this specification are valid with th...

Page 140: ...cy 0 06 div x V div TDS 600B 1 5 reading 0 1 div V div 0 3 mV TDS 500D 700D 1 0 reading 0 1 div x V div 0 3 mV Accuracy Offset All except TDS 794D Volts Div setting TDS 600B Offset accuracy TDS 500D 7...

Page 141: ...ly on TDS 794D Input Impedance DC 50 Coupled 50 1 with VSWR 1 3 1 from DC 500 MHz 1 5 1 from 500 MHz 1 GHz Input Impedance DC 50 Coupled TDS 794D 50 1 25 with VSWR 1 5 1 from 100 MHz 1 GHz VSWR 1 7 1...

Page 142: ...ion at 1 GHz TDS 794D 0 35 division from DC to 50 MHz increasing to 1 division at 1 5 GHz TDS 600B 250 mV from DC to 50 MHz increasing to 500 mV at 100 MHz TDS 500D 724D 754D 400 mV from DC to 50 MHz...

Page 143: ...ms or slower 2 For Slew Rate Triggering this is the minimum transition time defined to be the time the user s signal spends between the two trigger threshold settings Table 2 13 Warranted characterist...

Page 144: ...uding hard disk drive To 3048 m 10 000 ft operating including hard disk drive To 12190 m 40 000 ft nonoperating Dynamics Random vibration floppy disk not installed 0 31 g rms from 5 to 500 Hz 10 minut...

Page 145: ...the Instrument to meet these standards The test will pass with LCOM part CTL3VGAMM 5 2 The GPIB cable connected to the instrument for certain of the emissions tests must be low EMI having a high qual...

Page 146: ...following standards in accordance with the Electromagnetic Compatibility Framework AS NZS 2064 1 2 Class A radiated and Conducted Emissions EC Declaration of Conformity TDS 600B Meets intent of Direct...

Page 147: ...500 MHz 20 mV div 49 8 mV div DC 500 MHz 10 mV div 19 9 mV div DC 450 MHz P6243 DC 500 MHz P6245 Analog Bandwidth DC 50 Coupled i P6245 Pr be a Volts Div as read out on screen TDS 580D TDS 784D with...

Page 148: ...sample interval and Tr is the displayed rise time TDS 600B For the averaged condition 1 4 Tr Wi 40 where Wi is the Waveform Interval as described elsewhere in these specifications TDS 600B Extra erro...

Page 149: ...on the right gives the typical e e ti e its o a si e a e a ste Input frequency 1 GS s 10 MS s HiRes effective bits for a sine wave adjusted to i isio s at MH m i 1 MHz 9 2 divs 6 8 bits 9 7 bits to 9...

Page 150: ...signal That is the measured rise time RTm is determined by the instrument rise time RTi and the rise time of the test signal source RTgen according to the following formula TDS 600B Rise Time ns 450 B...

Page 151: ...om DC to 500 MHz at vertical settings 10 mV div and 1 V div at the BNC input Sensitivities Pulse Type Trigger Width and Glitch6 1 0 division at vertical settings 10 mV div and 1 V div at the BNC input...

Page 152: ...play triggered on the selected slope The trigger point must not switch between opposite slopes on the waveform and the display must not roll across the screen on successive acquisitions The TRIG D LED...

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