Tektronix DPO5000 Series Technical Reference Download Page 64

Page: 64 / 352

<4 GHz models

Total:

<1 ps rms for record durations less than 10 μs.

<2.5 ps rms for record durations less than 30 ms.

<65 parts/trillion for record durations less than 10 s.

Jitter noise floor, typical, ≥4 GHz
models

Applies to time periods as long as 10.0 μs. Typical jitter noise floor is measured at the maximum,
BWE enabled bandwidth:

MSO/DPO70000DX models

MSO/DPO73304DX
MSO/DPO72504DX
MSO/DPO72304DX

<323 fs
<364 fs
<378 fs

Calculate the jitter noise floor (JNF) for a given instrument setting using the following formula:

Ntyp = typical input-referred noise spec (volts rms)

FN = 1.3 for instrument bandwidth ≤9 GHz; 1.5 for instrument bandwidth ≥10 GHz

SR = slew rate around the measurement

FI = (1.7 x 10–2)/sqrt(2) = 1.2 x 10–2

tr = rise time of the measurement edge

tj = timebase jitter or aperture uncertainty

TBA = timebase accuracy (2 ppm)

JNF

RMS

= (N

typ

× F

)

(

)

+ F

× t

+ t

seconds

RMS

The interpolated sample rate of the waveform must be at least 25 times the bandwidth of the signal
being measured.

MSO/DPO70000C models

MSO/DPO72004C at 20 GHz

400 fs

MSO/DPO72004C,
MSO/DPO71604C
at 16 GHz

300 fs

MSO/DPO71254C at 12.5 GHz

300 fs

MSO/DPO70804C
MSO/DPO70604C
MSO/DPO70404C

450 fs

Calculate the jitter noise floor (JNF) for a given instrument setting using the following formula:

FS = full-scale setting (volts)

A = signal amplitude as a fraction of full-scale

trm = 10 - 90% displayed (or measured) rise time (seconds)

N = input-referred noise (volts rms)

tj = short term timing jitter (seconds rms)

JNF

RMS

FS × A

× t

+ t

seconds

RMS

Specifications (MSO70000C/DX, DPO70000C/DX, and DPO7000C series) Horizontal and acquisition system
(cont.)

MSO70000C/DX, DPO70000C/DX, DPO7000C, MSO5000/B, DPO5000/B Series

Summary of Contents for DPO5000 Series

Page 1: ...MSO70000C DX DPO70000C DX DPO7000C MSO5000 B and DPO5000 B Series Oscilloscopes Specifications and Performance Verification Technical Reference P077006314 077 0063 14...

Page 2: ......

Page 3: ...l Reference www tek com 077 0063 14 Warning The servicing instructions are for use by qualified personnel only To avoid personal injury do not perform any servicing unless you are qualified to do so R...

Page 4: ...publication supersedes that in all previously published material Specifications and price change privileges reserved TEKTRONIX and TEK are registered trademarks of Tektronix Inc Pinpoint TekLink and...

Page 5: ...taxes and any other charges for products returned to any other locations This warranty shall not apply to any defect failure or damage caused by improper use or improper or inadequate maintenance and...

Page 6: ......

Page 7: ...ronmental specifications 76 Specifications MSO DPO5000 B Series Analog channel input and vertical specification 77 Horizontal and acquisition system specifications 86 Trigger specifications 88 Digital...

Page 8: ...trigger baud rate limits 271 Check serial trigger clock recovery range 4 GHz models 277 Sine wave generator leveling procedure 281 Method 1 281 Method 2 283 Performance verification MSO DPO5000 B ser...

Page 9: ...d safe operation of the product it is essential that you follow generally accepted safety procedures in addition to the safety precautions specified in this manual The product is designed to be used b...

Page 10: ...d voltage or current rating of the lowest rated individual component of a product probe or accessory Use caution when using 1 1 test leads because the probe tip voltage is directly transmitted to the...

Page 11: ...omic standards Consult with an ergonomics professional to avoid stress injuries Use care when lifting and carrying the product This product is provided with handles for lifting and carrying WARNING Th...

Page 12: ...ccessible 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 Symbols on the prod...

Page 13: ...4C 2 5 GHz 7104C 1 GHz 7054C 500 MHz 4 GHz 20 GHz models Includes the MSO70000C and DPO70000C Series instruments unless noted otherwise Table 2 Instrument Model Numbers 4 GHz 20 GHz MSO DPO 70404C 4 G...

Page 14: ...ctor 4 GHz models TekConnect Power supply compatible with VPI 4 GHz models BNC and VPI probe Input coupling 20 GHz models DC 50 to a programmable termination voltage and GND GND coupling disconnects t...

Page 15: ...B decade to 9 VRMS above 200 kHz 1 M AC coupled or GND coupled The maximum input voltage at the BNC between center conductor and ground is 400 V peak The RMS voltage is limited to 150 V for arbitrary...

Page 16: ...r nonlinearity typical 1 0 DL digitization level differential 1 DL integral independently based Sensitivity range 20 GHz models 50 62 5 mVFS to 6 VFS 4 GHz 20 GHz models 50 100 mVFS to 5 VFS Below 100...

Page 17: ...DC measurement accuracy Average acquisition mode 16 averages 100 mVFS to 995 mVFS 2 reading net offset 0 35 net offset 1 5 mV 0 014 FS 1 VFS to 5 VFS 2 reading net offset 0 35 net offset 7 5 mV 0 014...

Page 18: ...the appropriate volts div Specification applies to any sample and to the High Low Max Min Mean Cycle Mean RMS and Cycle RMS measurements Delta volts specification applies to subtractive calculations...

Page 19: ...mV div 0 430 V 16 mV div 0 420 V 18 mV div 0 410 V 19 9 mV div 0 4005 V 20 mV div 0 400 V 30 mV div 0 350 V 40 mV div 0 300 V 49 8 mV div 0 251 V 50 mV div 0 250 V 60 mV div 0 200 V 70 mV div 0 150 V...

Page 20: ...perature variation 10 mV div to 99 5 mV div 0 35 net offset 1 5 mV 1 x Full Scale 100 mV div to 0 5 V div 0 35 net offset 7 5 mV 1 x Full Scale 0 45 offset C 4 GHz models SCALE range Offset accuracy 1...

Page 21: ...Frequency TC dB C DC 5 GHz 0 005 dB C 10 GHz 0 010 dB C 15 GHz 0 025 dB C 20 GHz 0 045 dB C 25 GHz 0 065 dB C 30 GHz 0 115 dB C 33 GHz 0 160 dB C Analog bandwidth 4 GHz 20 GHz models DC 50 coupling fu...

Page 22: ...straint BWE DC to 8 GHz 45 C No BWE DC to 8 GHz 45 C MSO DPO70604C BW Settings Bandwidth Temp constraint BWE DC to 6 GHz 45 C No BWE DC to 6 GHz 45 C MSO DPO70404C BW Settings Bandwidth Temp constrain...

Page 23: ...4 99 mV div DC to 500 MHz typical 1 mV div to 1 99 mV div DC to 200 MHz typical DPO7054C SCALE range Bandwidth 5 mV div to 1 V div DC to 500 MHz 2 mV div to 4 99 mV div DC to 400 MHz typical 1 mV div...

Page 24: ...04DX Step settings Temperature constraint 62 5 mVFS 100 mVFS 200 mVFS 500 mVFS 1 VFS 2 VFS and 5 VFS 0 5 dB from DC to 50 of nominal bandwidth 1 5 dB from 50 to 80 of nominal bandwidth At 25 C All oth...

Page 25: ...19 ps 14 ps NA NA MSO DPO72004C at 18 GHz 22 ps 15 ps NA NA MSO DPO71604C 24 5 ps 17 ps 30 ps 20 ps MSO DPO71254C 32 ps 22 ps 33 ps 23 ps MSO DPO70804C 49 ps 34 ps 47 ps 32 ps MSO DPO70604C 65 ps 45...

Page 26: ...DSP off Instrument Gain setting FS Settling Error Time MSO DPO73304DX 62 5 mV 100 mV 200 mV 6 150 ps 400 ps MSO DPO72504DX 500 mV 1 V 1 2 V 1 4 V 5 5 5 400 ps 3 ns MSO DPO72304DX 2 V 4 V MSO DPO73304...

Page 27: ...150 ps 600 ps 3 ns 1 ms DSP on Instrument Gain setting FS Step amplitude Settling Error Amount Time MSO DPO72004C MSO DPO71604C MSO DPO71254C 100 mV 200 mV 500 mV 1 V 2 V 5 V 100 FS 50 FS overdrive 6...

Page 28: ...e instrument uses conventional sampling The minimum single pulse widths for 50 or greater amplitude capture for pulses greater than 2 divisions in magnitude Sample rate setting Minimum pulse width 10...

Page 29: ...ts 5 1 bits 5 5 bits 5 0 bits 5 5 bits 11 GHz 4 9 bits 5 1 bits 4 9 bits 5 4 bits 4 9 bits 5 4 bits 12 GHz 5 0 bits 5 2 bits 5 0 bits 5 5 bits 5 0 bits 5 5 bits 13 GHz 4 9 bits 5 1 bits 4 9 bits 5 4 b...

Page 30: ...bits 11 GHz 4 7 bits 5 0 bits 4 7 bits 5 1 bits 4 7 bits 5 2 bits 12 GHz 4 7 bits 5 1 bits 4 7 bits 5 2 bits 4 7 bits 5 3 bits 13 GHz 4 7 bits 4 7 bits 4 7 bits 5 1 bits 4 7 bits 5 2 bits 14 GHz 4 8...

Page 31: ...2 8 bits 5 5 bits 5 7 bits 5 6 bits 5 8 bits 11 GHz 3 9 bits 3 9 bits 5 4 bits 5 6 bits 5 6 bits 5 8 bits 12 GHz 4 8 bits 5 0 bits 5 4 bits 5 6 bits 5 6 bits 5 7 bits 13 GHz 4 5 bits 4 7 bits 5 2 bits...

Page 32: ...s 13 GHz 4 5 bits 4 5 bits 4 5 bits 4 5 bits 4 5 bits 4 8 bits 14 GHz 4 7 bits 4 7 bits 4 7 bits 4 7 bits 4 7 bits 4 9 bits 15 GHz 4 6 bits 4 6 bits 4 6 bits 4 6 bits 4 6 bits 4 7 bits 16 GHz 4 5 bits...

Page 33: ...bits 2 0 bits 5 0 bits 2 0 bits 10 GHz 4 0 bits 2 0 bits 3 5 bits 2 0 bits 5 1 bits 2 0 bits 11 GHz 4 1 bits 2 0 bits 4 1 bits 2 0 bits 5 2 bits 2 0 bits 12 GHz 3 8 bits 2 0 bits 3 5 bits 2 0 bits 5...

Page 34: ...6 bits 5 8 bits 6 1 bits 6 2 bits 2010 MHz 5 8 bits 6 0 bits 6 1 bits 6 2 bits 2510 MHz 5 6 bits 5 7 bits 5 8 bits 3010 MHz 5 7 bits 5 7 bits 3510 MHz 5 5 bits 10 GS s Analog bandwidth setting Input...

Page 35: ...510 MHz 5 6 bits 2010 MHz 5 2 bits 2510 MHz 4 6 bits 10 GS s Analog bandwidth setting Input Frequency 2 5 GHz 0 5 GHz 0 25 GHz 0 02 GHz 10 MHz 5 9 bits 6 3 bits 6 5 bits 6 6 bits 510 MHz 5 8 bits 6 3...

Page 36: ...6 8 bits 7 1 bits 510 MHz 6 1 bits 6 3 bits 6 8 bits 7 1 bits 1010 MHz 5 8 bits 6 1 bits 6 8 bits 1510 MHz 6 0 bits 6 3 bits 2010 MHz 6 1 bits 6 3 bits 2510 MHz 5 6 bits 10 GS s Analog bandwidth sett...

Page 37: ...02 GHz 10 MHz 5 9 bits 6 3 bits 6 5 bits 6 6 bits 510 MHz 5 9 bits 6 3 bits 1010 MHz 5 6 bits 1510 MHz 5 6 bits 2010 MHz 5 2 bits 2510 MHz 4 5 bits 10 GS s Analog bandwidth setting Input Frequency 2...

Page 38: ...GS s Analog bandwidth setting Input Frequency 1 0 GHz 0 5 GHz 0 25 GHz 0 02 GHz 10 MHz 6 4 bits 6 4 bits 6 6 bits 6 7 bits 510 MHz 6 1 bits 6 4 bits 1010 MHz 5 7 bits 10 GS s Analog bandwidth setting...

Page 39: ...GS s Analog bandwidth setting Input Frequency 0 5 GHz 0 25 GHz 0 02 GHz 10 MHz 6 5 bits 6 6 bits 6 7 bits 510 MHz 6 4 bits 5 GS s Analog bandwidth setting Input Frequency 0 5 GHz 0 25 GHz 0 02 GHz 10...

Page 40: ...mV 1 19 mV 200 mV 2 49 mV 2 52 mV 2 28 mV 2 49 mV 2 10 mV 2 29 mV 400 mV 2 92 mV 2 52 mV 2 80 mV 3 08 mV 2 58 mV 2 29 mV 500 mV 3 55 mV 2 52 mV 3 35 mV 3 75 mV 2 65 mV 2 67 mV 600 mV 4 86 mV 4 86 mV...

Page 41: ...V 21 83 mV 21 83 mV 18 78 mV 17 36 mV 16 91 mV 16 91 mV 4 5 V 24 41 mV 24 41 mV 21 30 mV 19 44 mV 18 97 mV 18 97 mV 5 0 V 26 99 mV 26 99 mV 23 59 mV 21 51 mV 21 02 mV 21 02 mV Enhanced bandwidth samp...

Page 42: ...V 1 20 mV 1 16 mV 1 10 mV 400 mV 1 63 mV 1 59 mV 1 67 mV 1 49 mV 1 43 mV 1 39 mV 500 mV 1 92 mV 1 85 mV 1 80 mV 1 78 mV 1 72 mV 1 65 mV 600 mV 2 35 mV 2 27 mV 2 42 mV 2 18 mV 2 12 mV 1 99 mV 700 mV 2...

Page 43: ...21 mV 2 11 mV 2 01 mV 1 88 mV 1 76 mV 1 59 mV 800 mV 2 21 mV 2 11 mV 2 01 mV 1 88 mV 1 76 mV 1 59 mV 900 mV 2 86 mV 2 74 mV 2 61 mV 2 45 mV 2 29 mV 2 08 mV 1 0 V 3 55 mV 3 36 mV 3 18 mV 2 99 mV 2 77 m...

Page 44: ...V 0 91 mV 0 82 mV 700 mV 1 45 mV 1 27 mV 1 06 mV 0 95 mV 800 mV 1 76 mV 1 51 mV 1 10 mV 1 10 mV 900 mV 1 88 mV 1 63 mV 1 35 mV 1 22 mV 1 0 V 2 38 mV 2 02 mV 1 57 mV 1 31 mV 2 0 V 4 43 mV 4 12 mV 3 42...

Page 45: ...mV 2 73 mV 2 58 mV 2 41 mV 2 23 mV 1 99 mV 800 mV 3 34 mV 3 17 mV 2 99 mV 2 77 mV 2 55 mV 2 29 mV 900 mV 3 70 mV 3 56 mV 3 34 mV 3 12 mV 2 90 mV 2 55 mV 1 0 V 4 28 mV 3 99 mV 3 83 mV 3 46 mV 3 38 mV 3...

Page 46: ...1 50 mV 1 23 mV 1 10 mV 700 mV 1 76 mV 1 44 mV 1 28 mV 800 mV 2 02 mV 1 65 mV 1 45 mV 900 mV 2 24 mV 1 89 mV 1 67 mV 1 0 V 2 59 mV 2 03 mV 1 65 mV 2 0 V 5 08 mV 4 19 mV 3 66 mV 2 5 V 6 32 mV 5 20 mV...

Page 47: ...3 1025 mV 2 7795 mV 2 737 mV 2 465 mV 800 mV 4 704 mV 4 165 mV 3 536 mV 3 196 mV 2 9155 mV 2 839 mV 900 mV 5 296 mV 4 5135 mV 3 8845 mV 3 536 mV 3 196 mV 3 0515 mV 1 0 V 8 688 mV 7 0975 mV 6 783 mV 4...

Page 48: ...2 499 mV 2 193 mV 2 1335 mV 1 989 mV 800 mV 2 7455 mV 2 635 mV 2 89 mV 2 533 mV 2 465 mV 2 363 mV 900 mV 2 9835mV 2 8815mV 3 0855 mV 2 7795mV 2 669 mV 2 567 mV 1 0 V 3 621 mV 3 587 mV 3 4765 mV 3 4425...

Page 49: ...mV 5 7545 mV 4 0 V 11 0585mV 10 54 mV 10 0385 mV 9 4095 mV 8 8145 mV 8 0835 mV 4 5 V 12 325 mV 11 73 mV 11 1945 mV 10 489 mV 9 8005 mV 8 959 mV 5 0 V 13 583 mV 12 92 mV 12 3505 mV 11 5685 mV 10 778 mV...

Page 50: ...71254C 3 GHz 2 GHz 1GHz 500 MHz 5 0 V 9 18 mV 8 0835 mV 6 851 mV 6 12 mV Specifications MSO70000C DX DPO70000C DX and DPO7000C series Vertical system analog channels cont 38 MSO70000C DX DPO70000C DX...

Page 51: ...55 mV 0 435 mV 10 mV div 0 625 mV 0 55 mV 0 475 mV 0 425 mV 0 31 mV 0 24 mV 5 mV div 0 415 mV 0 415 mV 0 415 mV 0 415 mV 0 215 mV 0 16 mV 2 mV div 0 19 mV 0 19 mV 0 19 mV 0 19 mV 0 185 mV 0 185 mV 1...

Page 52: ...V 0 63 mV 0 595 mV 10 mV div 0 605 mV 0 38 mV 0 32 mV 0 3 mV 5 mV div 0 4 mV 0 24 mV 0 18 mV 0 151 mV 2 mV div 0 19 mV 0 18 mV 0 115 mV 0 065 mV 1 mV div 0 12 mV 0 12 mV 0 115 mV 0 045 mV 10 GS s Step...

Page 53: ...V div 2 0 mV 1 65 mV 1 25 mV 1 05 mV 20 mV div 0 855 mV 0 71 mV 0 52 mV 0 425 mV 10 mV div 0 515 mV 0 42 mV 0 295 mV 0 235 mV 5 mV div 0 34 mV 0 345 mV 0 21 mV 0 155 mV 2 mV div 0 135 mV 0 135 mV 0 13...

Page 54: ...mV div 2 25 mV 1 65 mV 1 55 mV 1 45 mV 20 mV div 0 94 mV 0 68 mV 0 63 mV 0 49 mV 10 mV div 0 56 mV 0 37 mV 0 325 mV 0 295 mV 5 mV div 0 38 mV 0 225 mV 0 175 mV 0 145 mV 2 mV div 0 19 mV 0 195 mV 0 12...

Page 55: ...V 2 38 mV 50 mV div 1 53 mV 1 05 mV 20 mV div 0 625 mV 0 441 mV 10 mV div 0 350 mV 0 24 mV 5 mV div 0 236 mV 0 16 mV 2 mV div 0 135 mV 0 135 mV 1 mV div 0 095 mV 0 095 mV 5 GS s Step gain 1 0 GHz 0 5...

Page 56: ...50 mV div 1 7 mV 1 6 mV 1 45 mV 1 4 mV 20 mV div 0 7 mV 0 64 mV 0 58 mV 0 55 mV 10 mV div 0 38 mV 0 35 mV 0 3 mV 0 285 mV 5 mV div 0 25 mV 0 21 mV 0 17 mV 0 14 mV 2 mV div 0 15 mV 0 15 mV 0 1 mV 0 06...

Page 57: ...mV div 0 11 mV 1 mV div 0 09 mV 2 5 GS s Step gain 0 5 GHz 500 mV div 15 0 mV 200 mV div 6 2 mV 100 mV div 3 35 mV 50 mV div 1 56 mV 20 mV div 0 63 mV 10 mV div 0 375 mV 5 mV div 0 205 mV 2 mV div 0 1...

Page 58: ...55 mV 10 mV div 0 34 mV 0 3 mV 0 277 mV 5 mV div 0 21 mV 0 165 mV 0 141 mV 2 mV div 0 13 mV 0 1 mV 0 062 mV 1 mV div 0 096 mV 0 097 mV 0 04 mV 2 5 GS s Step gain 0 5 GHz 0 025GHz 0 02 GHz 500 mV div 1...

Page 59: ...wo channels at any gain setting at 25 C 5 C Derate linearly to 3 ps at 5 C and 45 C Delay between channels full bandwidth equivalent time typical 20 GHz models 3 ps between any two channels at any gai...

Page 60: ...ime base settings 4 GHz models Up to 5 TS s and 0 2 ps trigger placement resolution 4 GHz models Up to 4 TS s Maximum record length sample mode 4 GHz models The maximum record length depends on the in...

Page 61: ...4 channels 50 000 000 points 2 channels only 125 000 000 points 1 channel only DPO7054C 2 5 GS s 5 GS s or less 10 GS s or less 25 000 000 points 3 or 4 channels 50 000 000 points 2 channels only 125...

Page 62: ...s 200 s 2 5 ns 1ks 50 ns 1 ks 500 ns 1 ks 5 us 1 ks 10 us 1 ks Manual 25 ps 40 s 250 ps 400 s 2 5 ns 4ks 25 ns 40 ks 250 ns 400 ks 2 5 us 4Ms 5 us 8 Ms Acquisition update rate typical 4 GHz models Fas...

Page 63: ...enabled bandwidth Total 250 fs rms for record durations less than 10 s 350 fs rms for record durations less than 100 s 650 fs rms for record durations less than 1 ms 15 parts trillion for record dura...

Page 64: ...surement edge tj timebase jitter or aperture uncertainty TBA timebase accuracy 2 ppm JNFRMS Ntyp FN 2 1 SR 2 FI 2 tr 2 tj 2 secondsRMS The interpolated sample rate of the waveform must be at least 25...

Page 65: ...rise time of second edge tj sample jitter aperture uncertainty about 250 fs for time durations less than 10 s treading delta time measurement seconds Peak peak based on statistical accumulation of 10...

Page 66: ...0 ns measurement interval 19 49 GHz amplitude 80 FS 0 577 ps rms 5 77 pspk pk MSO DPO72504DX at 100 GS s BWE off typical 6 25 mV div 10 ns measurement interval 15 53 GHz amplitude 80 FS 0 108 ps rms 1...

Page 67: ...s 12 80 pspk pk 50 mV div 10 ns measurement interval 9 94 GHz amplitude 80 FS 1 172 ps rms 11 72 pspk pk 100 mV div 10 ns measurement interval 9 94 GHz amplitude 80 FS 1 186 ps rms 11 86 pspk pk MSO D...

Page 68: ...1 82 pspk pk 100 mV div 10 ns measurement interval 9 94 GHz amplitude 80 FS 1 234 ps rms 12 34 pspk pk MSO DPO72004C MSO DPO71654C at 500 GS s IT mode 16 GHz BWE on 10 mV div 10 ns measurement interva...

Page 69: ...48 GHz amplitude 80 FS 1 478 ps rms 14 78 pspk pk Delta time measurement accuracy 4 GHz models For signals having amplitude greater than 5 divisions reference level 50 filter set to sin x x acquired...

Page 70: ...FS from DC to instrument bandwidth typical enhanced trigger on auto mode only for frequencies above 6 GHz Auxiliary input 250 mV from DC to 50 MHz increasing to 350 mV at 1 GHz 4 GHz models Trigger S...

Page 71: ...coupled limits for frequencies 100 Hz attenuates signals 100 Hz HF REJ Same as DC coupled limits for frequencies 20 kHz attenuates signals 20 kHz LF REJ Same as DC coupled limits for frequencies 200 k...

Page 72: ...nge for time qualified triggers 4 GHz models Setup Hold Violation Setup time Hold time Setup hold time 100 ns to 100 ns 1 ns to 100 ns 500 ps minimum Timeout 400 ps to 1 s Time qualified window outsid...

Page 73: ...each type for vertical settings from 10 mV div to 1 V div at the input connector 4 GHz models 1 0 division at input connector Runt trigger minimum timing requirements A runt event occurs at the end o...

Page 74: ...eld 1 or field 2 for interlaced systems any field specific line or any line for interlaced or non interlaced systems Supported systems include NTSC PAL SECAM and HDTV 1080 24sF 1080p 25 1080i 50 1080i...

Page 75: ...ent the transition event occurs minus the setup time plus the hold time Rearm time is the time below the lower threshold and the time above the upper threshold Neither time can be violated 4 GHz model...

Page 76: ...e width Minimum rearm time Setup time Hold time Pattern type 150 ps 200 ps N A N A Time qualified pattern type 150 ps 300 ps N A N A State type 1 7 GHz N A 25 ps 100 ps Period trigger sensitivity typi...

Page 77: ...0 s 4 GHz models 1 5 ps RMS typical Serial trigger specifications Low speed serial trigger 4 GHz models Number of bits 128 bits Baud rate limits 10 Mbits s High speed serial trigger number of bits 4 G...

Page 78: ...3 00 GBd 3 125 GBd 3 2 GBd 4 25 GBd 4 80 GBd 5 00 GBd 5 4 GBd 6 00 GBd 6 25 GBd Serial trigger baud rate limits 4 GHz models Up to 1 25 GBd Option PTM adds protocol trigger to DPO7000C Series Error de...

Page 79: ...reduced by half 28 psRMS 1 25 Unit interval RMS for 25 transition density 30 psRMS 1 25 Unit interval RMS for 12 5 transition density Clock recovery tracking acquisition range 4 GHz models 2 of reque...

Page 80: ...l 3 of threshold setting 75 mV Single acquisition displayed timing uncertainty between digital channels with P6780 probe typical Without deskew 160 ps After deskew 80 ps Number of digital channels ava...

Page 81: ...igger threshold accuracy typical 3 of setting 125 mV relative to the probe tip input 20 mV C from the operating temperature at which SPC was run Low speed serial trigger threshold range 2 to 4 5 V wit...

Page 82: ...V div 20 into a 50 load High speed serial data output baud rate range 4 GHz models Fbaud 1250 MB Output swing of 1010 repeating pattern at this baud will be at least 200 mV into 50 High speed serial c...

Page 83: ...ation output step frequency 4 GHz models 1 kHz 20 4 GHz models 1 kHz 5 Probe calibration output step rise time 4 GHz models 300 ps 10 to 90 directly into an input channel To deskew a probe use a 50 te...

Page 84: ...de 10 ppm High tracking mode 1 4 GHz 20 GHz models Low stable jitter mode 100 ppm High tracking mode 1 Running SPC is required whenever the external reference is more than 0 1 1000 ppm different from...

Page 85: ...net External audio ports External audio jacks for microphone input and line output USB ports 20 GHz models Four rear panel and 2 front panel USB 2 0 connectors On DX models two of the rear panel conne...

Page 86: ...21 8 kg 48 lbs when packaged for domestic shipment Rackmount kit 0 9 kg 2 lbs 2 2 kg 5 lbs kit packaged for domestic shipment 4 GHz non MSO models Benchtop configuration 23 kg 50 6 lbs oscilloscope on...

Page 87: ...m 13 in with feet extended 451 mm 17 75 in width 432 mm 17 02 in depth 4 GHz models Rackmount configuration With rack handles Without rack handles 267 mm 10 5 in height 502 mm 19 75 in width 489 mm 19...

Page 88: ...low 60 C 140 F noncondensing Upper limit derated to 20 relative humidity at 60 C 140 F Humidity 4 GHz models Operating 8 to 80 relative humidity at up to 32 C 90 F 5 to 45 relative humidity above 32 C...

Page 89: ...the Signal Path Compensation SPC operation before evaluating the instrument s performance to the specifications See page 4 32 Self Test If the operating temperature changes by more than 10 C 18 F perf...

Page 90: ...DL per division 10 24 divisions dynamic range DL is the abbreviation for digitization level A DL is the smallest voltage level change that can be resolved by an 8 bit A D Converter This value is also...

Page 91: ...offset accuracy 0 1 division Refer to DC Gain Accuracy for temperature derating information Delta Volts between any two averages of 16 waveforms acquired with the same oscilloscope setup and ambient...

Page 92: ...4 B DPO5104 B 5 mV div 9 98 mV div 2 mV div 4 98 mV div 1 mV div 1 99 mV div DC to 1 00 GHz DC to 350 MHz DC to 175 MHz MSO5054 B DPO5054 B 5 mV div 9 98 mV div 2 mV div 4 98 mV div 1 mV div 1 99 mV d...

Page 93: ...MHz Lower frequency limit AC coupled typical 10 Hz when AC 1 M coupled The AC coupled lower frequency limits are reduced by a factor of 10 when 10X passive probes are used Upper frequency limit 250 M...

Page 94: ...B I ns I ns 2 ns Peak detect or envelope mode pulse response typical Instrument Sample Rate Maximum Minimum pulse width MSO5204 B DPO5204 B MSO5104 B DPO5104 B 100 ps MSO5054 B DPO5054 B MSO5034 B DP...

Page 95: ...130 V 8 0 of Volts div setting 130 V 8 0 of Volts div setting 250 MHz bandwidth 100 V 6 0 of Volts div setting 100 V 6 0 of Volts div setting 20 MHz bandwidth 100 V 4 0 of Volts div setting 100 V 4 0...

Page 96: ...75 0 60 1 00 0 80 0 80 50 mV div 2 00 1 90 1 50 2 30 2 00 1 90 100 mV div 4 5 3 7 3 0 4 5 3 8 4 0 1 V div 40 0 38 0 30 0 45 0 37 5 35 0 MSO DPO5054B 50 termination Vertical Setting Full BW 250 MHz BW...

Page 97: ...interface allows installing powering compensating and controlling a wide range of probes offering a variety of features The interface is available on all front panel inputs including Aux In Aux In onl...

Page 98: ...2RL MSO DPO5000 Series Standard MSO DPO5000B Series 3 or 4 25 M 25 M 25 M 25 M 1 or 2 50 M 50 M 25 M 25 M Option 5RL 3 or 4 50 M 50 M 50 M 50 M 1 or 2 125 M 125 M 50 M 50 M Option 10RL 3 or 4 125 M 12...

Page 99: ...e rate Maximum triggered acquisition rate 250 000 wfm s Aperture uncertainty 3 ps 0 1 ppm record duration RMS for records having 1 minute duration Long term sample rate and delay time accuracy 5 ppm o...

Page 100: ...ceed 1 year Trigger specifications Aux in external trigger input impedance typical 1 M 1 in parallel with 13 pF 2 pF Aux in external trigger maximum input voltage The maximum input voltage at the BNC...

Page 101: ...All models Line Fixed Trigger jitter 100 fs using enhanced trigger placement 1 ps rms for low frequency fast rise time signal A edge time holdoff 30 s 100 psRMS for non edge type trigger modes Edge ty...

Page 102: ...efers to the length of time a logic state derived from more than one channel must exist to be recognized For events the time is the minimum time between a main and delayed event that will be recognize...

Page 103: ...e time it takes the signal to cross the two trigger thresholds again Transition time trigger delta time range 4 ns to 8 s Time range for glitch width timeout or time qualified runt 4 ns to 8 s Time ac...

Page 104: ...ta Trigger On Start Repeated Start Stop Missing Ack Address Data or Address and Data Maximum Data Rate 10 Mbps SPI Data Trigger 1 to 16 bytes of user specified data Trigger On SS Active MOSI MISO or M...

Page 105: ...oltage at the P6616 probe tip 10 Vp p for fin 200 MHz centered around the DC threshold voltage at the P6616 probe tip Failure to meet this input signal requirement will compromise the AC performance o...

Page 106: ...rface Available as an optional accessory that connects to the USB Device and USB Host ports with the TEK USB 488 GPIB to USB Adapter The control interface is incorporated into the instrument user inte...

Page 107: ...frequency or reference at which SPC was last run The time base changes in correspondence to the fluctuations in the external reference External reference input sensitivity Vin 1 5Vp p for input freque...

Page 108: ...GB Waveforms and setups are stored on the hard disk Solid state disk drive standard for MSO DPO5000B Series optional for MSO DPO5000 Series The 2 5 inch solid state disk drive capacity is 300 GB Wavef...

Page 109: ...m wet bulb temperature of 40 C at or below 60 C upper limit derates to 29 8 relative humidity at 60 C Non condensing Operating With solid state drive High 40 C to 50 C 104 F to 122 F 10 to 60 relative...

Page 110: ...ight 8 6 in 218 mm Width 19 2 in 488 mm from outside of handle to outside of handle Depth 15 1 in 384 mm from outside of handle to back of slide Weight 14 9 lbs 6 8 kg standalone instrument without fr...

Page 111: ...n be used as a quick check before making a series of important measurements To further check functionality first do the Self Tests just mentioned then do the brief procedures under Functional Tests Ad...

Page 112: ...bparts are sequenced as follows 1 First Step a First Substep First Subpart Second Subpart b Second Substep 2 Second Step In steps and substeps the lead in statement in italics instructs you what to do...

Page 113: ...or menu bar See Figure 1 Toolbar and menu bar 4 GHz models shown Item numbers in the equipment required lists refer to the equipment See Equipment required on page 116 Figure 1 Toolbar and menu bar 4...

Page 114: ...instrument is in toolbar mode put the instrument into menu bar mode Pull down the Utilities menu and select Instrument Diagnostics This displays the diagnostics control window b Run the System Diagno...

Page 115: ...all for you to verify that a signal appears on screen that is about five divisions in amplitude or has a period of about six horizontal divisions etc do NOT interpret the quantities given as limits Op...

Page 116: ...ignal source Connect the equipment as shown in the following figure to the channel input you want to test beginning with Ch 1 Figure 2 Universal test hookup for functional tests Ch 1 shown 3 Turn off...

Page 117: ...Vertical settings on page 105 Table 4 Vertical settings Setting 4 GHz models 4 GHz models Without probe Without probe Scale 500 mV 100 mV Waveform amplitude 2 divisions 4 divisions The front panel ver...

Page 118: ...n screen with the noise displayed NOTE Default setup enables enhanced triggering Enhanced triggering can cause a slower acquisition rate that can be noticed in waveform database mode As waveform datab...

Page 119: ...ls 5 Set the time base Set the horizontal Scale to 200 s div The time base readout is displayed at the bottom of the graticule 6 Verify that the time base operates Confirm the following statements One...

Page 120: ...upper multipurpose knob to change the horizontal delay setting Verify that the rising edge shifts horizontally Rotate the front panel horizontal Position knob Verify that this knob has the same effect...

Page 121: ...y that the main trigger system operates Confirm that the following statements are true The trigger level readout for the A main trigger system changes with the trigger Level knob The trigger Level kno...

Page 122: ...gered Leave the signal triggered c Verify the delayed trigger counter Double click the Trig Delay control to pop up a numeric keypad for that control Click the keypad to enter a trigger delay time of...

Page 123: ...Hz models or 120 mV div 20 GHz models 5 Set the time base Set the horizontal Scale to 1 ms div The time base readout is displayed at the bottom of the graticule 6 Save the settings a Pull down the Fil...

Page 124: ...s by noticing the horizontal SCALE is again 1 ms and the waveform shows ten cycles just as it did when you saved the setup 9 Remove the test hookup Disconnect the test hookup from the instrument Perfo...

Page 125: ...nect the probe compensation or fast edge output to the D0 input as shown in the following figure Figure 7 Setup for the digital channels test 2 Set up the instrument Push the front panel Default Setup...

Page 126: ...t Main Trigger Setup 11 From the Source list select D0 12 Verify that the both the iCapture and the digital channel are triggered 13 Rotate the Vertical SCALE knob counter clockwise 14 Verify that the...

Page 127: ...ment performs as warranted The procedures are arranged in logical groupings Signal Acquisition System Checks Time Base System Checks Triggering System Checks Output Ports Checks and Serial Trigger Che...

Page 128: ...4DX instruments if the humidity is 60 and must be operating at an ambient temperature as listed in the specifications See Environmental specifications on page 76 The warm up requirement is usually met...

Page 129: ...erator DC Calibration Instrument bandwidth 20 GHz Variable amplitude to 7 V accuracy to 0 1 Fluke 9500B 1 Checking DC offset gain measurement accuracy probe compensation out and maximum input voltage...

Page 130: ...instrument bandwidth Variable amplitude from 60 mV to 2 0 Vp p into 50 Frequency error 2 0 Anritsu MG3690C RF Microwave Signal Generator 10 Meter Level and Power Sensor Frequency range 50 MHz to the...

Page 131: ...le to BNC female adapter Tektronix part number 015 0554 00 4 GHz or 015 1018 00 Signal interconnection measurement accuracy delay time time qualified trigger trigger sensitivity DC gain offset bandwid...

Page 132: ...me measurement accuracy pulse trigger accuracy time qualified trigger trigger sensitivity and channel isolation 27 Digital Multimeter Ohms 60 Ohms Keithley 2700 Checking input impedance 28 Cable coaxi...

Page 133: ...Measure 1 A and 5 V Keithley 2400 SourceMeter with Model 8605 test leads Checking TekProtect 35 Instrument controller GPIB controller PC with GPIB or Ethernet interface Checking TekProtect Test record...

Page 134: ...56 V 1 51856 V 516 56 mV 22 25 mV 981 45 mV 1 01856 V 3 4012 V 2 4032 V 2 49345 V 1 49945 V 501 45 mV Ch1 10 mV Vert scale setting 0 Div position setting 3 5 V termination 3 4 V offset 2 4 V offset 1...

Page 135: ...5725 V 570 5 mV 66 5 mV 927 5 mV 1 0725 V 3 4397 V 2 4417 V 2 5415 V 1 5475 V 549 5 mV Ch1 50 mV Vert scale setting 0 Div position setting 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V terminatio...

Page 136: ...offset 0 5 V offset 0 V termination 0 V offset 1 V offset 1 V offset 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V termination 2 5 V offset 1 5 V offset 0 5 V offset 3 7197 V 2 7217 V 2 8215 V 1...

Page 137: ..._______ __________ __________ __________ __________ __________ __________ __________ 3 4363 V 2 4343 V 2 52456 V 1 51856 V 516 56 mV 22 25 mV 981 45 mV 1 01856 V 3 4012 V 2 4032 V 2 49345 V 1 49945 V...

Page 138: ...5725 V 570 5 mV 66 5 mV 927 5 mV 1 0725 V 3 4397 V 2 4417 V 2 5415 V 1 5475 V 549 5 mV Ch2 50 mV Vert scale setting 0 Div position setting 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V terminatio...

Page 139: ...offset 0 5 V offset 0 V termination 0 V offset 1 V offset 1 V offset 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V termination 2 5 V offset 1 5 V offset 0 5 V offset 3 7197 V 2 7217 V 2 8215 V 1...

Page 140: ..._______ __________ __________ __________ __________ __________ __________ __________ 3 4363 V 2 4343 V 2 52456 V 1 51856 V 516 56 mV 22 25 mV 981 45 mV 1 01856 V 3 4012 V 2 4032 V 2 49345 V 1 49945 V...

Page 141: ...5725 V 570 5 mV 66 5 mV 927 5 mV 1 0725 V 3 4397 V 2 4417 V 2 5415 V 1 5475 V 549 5 mV Ch3 50 mV Vert scale setting 0 Div position setting 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V terminatio...

Page 142: ...offset 0 5 V offset 0 V termination 0 V offset 1 V offset 1 V offset 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V termination 2 5 V offset 1 5 V offset 0 5 V offset 3 7197 V 2 7217 V 2 8215 V 1...

Page 143: ..._______ __________ __________ __________ __________ __________ __________ __________ 3 4363 V 2 4343 V 2 52456 V 1 51856 V 516 56 mV 22 25 mV 981 45 mV 1 01856 V 3 4012 V 2 4032 V 2 49345 V 1 49945 V...

Page 144: ...5725 V 570 5 mV 66 5 mV 927 5 mV 1 0725 V 3 4397 V 2 4417 V 2 5415 V 1 5475 V 549 5 mV Ch4 50 mV Vert scale setting 0 Div position setting 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V terminatio...

Page 145: ...setting 0 Div position setting 3 5 V termination 3 4 V offset 2 4 V offset 1 5 V termination 2 5 V offset 1 5 V offset 0 5 V offset 0 V termination 0 V offset 1 V offset 1 V offset 3 5 V termination 3...

Page 146: ...75 mV Ch1 50 mV Vert scale setting 5 Div position setting 0 25 V offset 636 75 mV __________ __________ 663 25 mV Ch1 50 mV Vert scale setting 5 Div position setting 0 25 V offset 663 25 mV _________...

Page 147: ...75 mV __________ __________ 535 25 mV Ch3 10 mV Vert scale setting 5 Div position setting 0 45 V offset 535 25 mV __________ __________ 524 75 mV Ch3 20 mV Vert scale setting 5 Div position setting 0...

Page 148: ...803 V __________ __________ 2 697 V Ch4 500 mV Vert scale setting 5 Div position setting 0 V offset 3 394 V __________ __________ 3 606 V Ch4 500 mV Vert scale setting 5 Div position setting 0 V offs...

Page 149: ...875 V __________ __________ 4 725 V Ch1 500 mV Vert scale setting 2 Div position setting 5 0 V offset 4 345 V __________ __________ 4 655 V Ch1 500 mV Vert scale setting 2 Div position setting 5 0 V o...

Page 150: ...4 725 V __________ __________ 4 875 V Ch2 200 mV Vert scale setting 2 Div position setting 4 6 V offset 4 875 V __________ __________ 4 725 V Ch2 500 mV Vert scale setting 2 Div position setting 5 0...

Page 151: ...et 4 854 V __________ __________ 4 746 V Ch3 200 mV Vert scale setting 2 Div position setting 4 6 V offset 4 725 V __________ __________ 4 875 V Ch3 200 mV Vert scale setting 2 Div position setting 4...

Page 152: ...746 V __________ __________ 4 854 V Ch4 100 mV Vert scale setting 0 Div position setting 4 5 V offset 4 854 V __________ __________ 4 746 V Ch4 200 mV Vert scale setting 2 Div position setting 4 6 V o...

Page 153: ...offset 1 192 V __________ __________ 1 248 V Ch1 90 mV Vert scale setting 5 Div position setting 0 5 V offset 1 248 V __________ __________ 1 192 V Ch1 100 mV Vert scale setting 0 Div position settin...

Page 154: ...offset 916 19 V __________ __________ 883 81 mV Ch2 90 mV Vert scale setting 5 Div position setting 0 5 V offset 1 192 V __________ __________ 1 248 V Ch2 90 mV Vert scale setting 5 Div position sett...

Page 155: ...offset 883 81 mV __________ __________ 916 19 mV Ch3 50 mV Vert scale setting 5 Div position setting 0 5 V offset 916 19 V __________ __________ 883 81 mV Ch3 90 mV Vert scale setting 5 Div position s...

Page 156: ...mV Vert scale setting 5 Div position setting 0 5 V offset 668 38 mV __________ __________ 651 62 mV Ch4 50 mV Vert scale setting 5 Div position setting 0 5 V offset 883 81 mV __________ __________ 91...

Page 157: ...__________ __________ __________ __________ __________ __________ __________ __________ __________ __________ __________ __________ __________ 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38...

Page 158: ...22 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV Ch1 50 mV Vert scale setting 0 V termination 0 Div position setting 0 V offset 0 Div position...

Page 159: ...osition setting 1 5 V offset 0 Div position setting 0 5 V offset 3 4 V termination 5 Div position setting 3 4 V offset 5Div position setting 2 4 V offset 3 4 V termination 5 Div position setting 3 4 V...

Page 160: ...__________ __________ __________ __________ __________ __________ __________ __________ __________ __________ 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV...

Page 161: ...22 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV Ch2 50 mV Vert scale setting 0 V termination 0 Div position setting 0 V offset 0 Div position...

Page 162: ...sition setting 1 5 V offset 0 Div position setting 0 5 V offset 3 4 V termination 0 Div position setting 3 4 V offset 0 Div position setting 2 4 V offset 3 4 V termination 0 Div position setting 3 4 V...

Page 163: ...__________ __________ __________ __________ __________ __________ __________ __________ __________ __________ 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV...

Page 164: ...22 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV Ch3 50 mV Vert scale setting 0 V termination 0 Div position setting 0 V offset 0 Div position...

Page 165: ...sition setting 1 5 V offset 0 Div position setting 0 5 V offset 3 4 V termination 0 Div position setting 3 4 V offset 0 Div position setting 2 4 V offset 3 4 V termination 0 Div position setting 3 4 V...

Page 166: ...__________ __________ __________ __________ __________ __________ __________ __________ __________ __________ 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV 38 76 mV...

Page 167: ...22 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV 122 4 mV Ch4 50 mV Vert scale setting 0 V termination 0 Div position setting 0 V offset 0 Div position...

Page 168: ...et 0 Div position setting 1 V offset 0 Div position setting 1 V offset 1 5 V termination 0 Div position setting 2 5 V offset 0 Div position setting 1 5 V offset 0 Div position setting 0 5 V offset 3 4...

Page 169: ...sition setting 0 25 V offset 372 40 mV 372 40 mV 372 40 mV __________ __________ __________ __________ __________ __________ 387 60 mV 387 60 mV 387 60 mV Ch1 100 mV Vert scale setting 0 Div position...

Page 170: ...tting 0 V offset 5 Div position setting 0 4 V offset 5 Div position setting 0 4 V offset 148 96 mV 148 96 mV 148 96 mV __________ __________ __________ __________ __________ __________ 155 04 mV 155 0...

Page 171: ...3 876 V 3 876 V 3 876 V DC gain accuracy averaged 4 GHz 20 GHz models Instrument performance test Minimum Incoming Outgoing Maximum Ch1 10 mV Vert scale setting 0 Div position setting 0 V offset 5 Div...

Page 172: ...iv position setting 0 V offset 5 Div position setting 1 25 V offset 5 Div position setting 1 25 V offset 1 49 V 1 49 V 1 49 V __________ __________ __________ __________ __________ __________ 1 55 V 1...

Page 173: ...____ __________ 387 60 mV 387 60 mV 387 60 mV Ch4 100 mV Vert scale setting 0 Div position setting 0 V offset 5 Div position setting 2 0 V offset 5 Div position setting 2 0 V offset 744 80 mV 744 80 m...

Page 174: ...V offset 0 V termination 0 V offset 0 V termination 6 V offset 0 V termination 6 0585 V 22 5 mV 5 9415 V __________ __________ __________ __________ __________ __________ 5 9415 V 22 5 mV 6 0585 V Ch...

Page 175: ...0 V termination 3 4 V offset 3 5 V termination 3 4 V offset 3 5 V termination 3 13 mV 3 3831 V 3 4169 V __________ __________ __________ __________ __________ __________ 3 125 mV 3 4169 V 3 3831 V Ch...

Page 176: ..._ __________ __________ __________ __________ 3 5 mV 3 4173 V 3 3827 V Ch4 20 mV Vert scale 0 Div position setting 0 V offset 0 V termination 3 4 V offset 3 5 V termination 3 4 V offset 3 5 V terminat...

Page 177: ...sition setting 2 0 V offset 2 474 V 2 526 V __________ __________ __________ __________ 2 526 V 2 474 V Ch1 200 mV Vert scale setting 5 Div position setting 1 5 V offset 5 Div position setting 1 5 V o...

Page 178: ...mV Vert scale setting 5 Div position setting 0 V offset 5 Div position setting 0 V offset 2 434 V 2 566 V __________ __________ __________ __________ 2 566 V 2 434 V Ch4 10 mV Vert scale setting 5 Div...

Page 179: ..._ __________ __________ __________ __________ N A N A N A N A N A N A N A N A Ch3 1 V 500 mV 200 mV 100 mV 50 mV 20 mV 10 mV 5 mV 3 535 V 2 12 V 848 V 424 mV 212 mV 84 8 mV 42 4 mV 21 2 mV __________...

Page 180: ...___ __________ __________ __________ __________ __________ N A N A N A N A N A Ch3 250 mV 100 mV 50 mV 20 mV 10 mV 1 061 V 424 mV 212 mV 84 8 mV 42 4 mV __________ __________ __________ __________ ___...

Page 181: ..._______ __________ __________ __________ N A N A N A N A N A N A N A N A N A Ch3 400 mV 200 mV 140 mV 120 mV 100 mV 50 mV 20 mV 10 mV 6 25 mV 1131 mV 848 mV 594 mV 509 mV 424 mV 212 mV 84 8 mV 42 4 mV...

Page 182: ...__________ __________ __________ __________ N A N A N A N A N A N A N A N A Ch3 1 V 500 mV 200 mV 100 mV 50 mV 20 mV 10 mV 5 mV 2 83 V 1 41 V 566 mV 283 mV 141 4 mV 56 6 mV 28 3 mV 21 2 mV __________...

Page 183: ...Ch3 2 2 V Ch3 2 2 V Ch3 65 mA Ch3 65 mA Ch4 2 2 V Ch4 2 2 V Ch4 65 mA Ch4 65 mA NA 100 A NA 3 42 V NA 100 A NA 3 42 V NA 100 A NA 3 42 V NA 100 A NA 3 42 V __________ __________ __________ __________...

Page 184: ...__________ __________ 1 304 ps 13 04 ps 1 201 ps 12 01 ps 1 205 ps 12 05 ps MSO DPO70804C BWE off 10 mV rms 10 mV pk pk 50 mV rms 50 mV pk pk 100 mV rms 100 mV pk pk N A N A N A N A N A N A _________...

Page 185: ...0 889 ps 8 89 ps 0 666 ps 6 66 ps 0 677 ps 6 77 ps MSO DPO72004C BWE on 10 mV rms 10 mV pk pk 50 mV rms 50 mV pk pk 100 mV rms 100 mV pk pk N A N A N A N A N A N A __________ __________ __________ ___...

Page 186: ...1 674 ps 16 74 ps 1 437 ps 14 37 ps 1 478 ps 14 78 ps Trigger system accuracy Instrument performance test Minimum Incoming Outgoing Maximum Time accuracy for time qualified triggers 4 GHz models time...

Page 187: ...i 20 GHz Vout Lo 20 GHz 1 0 V 0 5 V __________ __________ __________ __________ __________ __________ __________ __________ 0 25 V 0 125 V Probe compensation output signal Voltage difference 4 GHz mod...

Page 188: ...acquisition system and are listed as checked under Warranted Characteristics in Specifications See Equipment required on page 116 for test equipment specifications Performance verification MSO DPO7000...

Page 189: ...p and preset the instrument controls a Hook up the test signal source Set the output of a DC calibration generator to off or 0 volts Connect the output of a DC calibration generator See Figure 8 DC vo...

Page 190: ...oltages supplied by your generator are not calibrated verify those generator voltages using a digital multimeter item 27 c Set the vertical scale Set the vertical Scale to one of the settings listed i...

Page 191: ...o 3 4803 V 3 5 V 2 4 V 2 46 V 2 4417 V to 2 4783 V 1 5 V 2 5 V 2 56 V 2 5415 V to 2 5785 V 1 5 V 1 5 V 1 56 V 1 5475 V to 1 5725 V 1 5 V 0 5 V 560 mV 549 5 mV to 570 5 mV 0 V 0 V 60 mV 53 5 mV to 66 5...

Page 192: ...1 5 V 1 8 V 1 8285 V to 1 7715 V 1 5 V 0 5 V 800 mV 826 5 mV to 773 5 mV 120 mV 3 5 V 3 4 V 3 76 V 3 7197 V to 3 8003 V 3 5 V 2 4 V 2 76 V 2 7217 V to 2 7983 V 1 5 V 2 5 V 2 86 V 2 8215 V to 2 8985 V...

Page 193: ...table for the current vertical scale setting The baseline level may move off screen Set the generator to the level and polarity indicated in the table for the vertical scale termination voltage and of...

Page 194: ...ent vertical scale setting and termination offset generator settings Enter the value on test record Repeat substeps 2 c through 2 f until all vertical scale settings are checked for the channel under...

Page 195: ...ut of a DC calibration generator See Figure 10 DC voltage accuracy test hookup 20 GHz models b Initialize the instrument Press DEFAULT SETUP c Modify the default settings From the button bar touch Hor...

Page 196: ...Output On key Press the Trig Pulse soft key to trigger the pulse this will generate a pulse with 25 seconds duration Use the normal DC output for generator settings 5 V at termination setting 50 and...

Page 197: ...5 81 mV to 574 19 mV 20 mV 5 0 5 V 660 mV 651 62 mV to 668 38 mV 5 0 5 V 660 mV 668 38 mV to 651 62 mV 50 mV 5 0 5 V 900 mV 883 81 mV to 916 19 mV 5 0 5 V 900 mV 916 19 mV to 883 81 mV 90 mV 5 0 5 V 1...

Page 198: ...stics Mean measurement readout See the following figure Figure 11 Measurement of DC accuracy at maximum offset and position f Check against limits CHECK that the readout for the measurement Mean reado...

Page 199: ...z models set the DC Calibration generator to drive a load impedance of 1 M Repeat substeps 2 a through 2 g with the instruments termination set to 1 M 3 Disconnect the hookup a Set the generator outpu...

Page 200: ...eset the instrument controls a Hook up the test signal source Set the output of a DC calibration generator to off or 0 volts Set the DC impedance of the generator to 50 Connect the generator to Ch 1 t...

Page 201: ...the mean of the current channel Press the X Close button c Set the vertical scale Set the vertical Scale to one of the settings in the following table that is not yet checked starting with the first...

Page 202: ...V 1 03 V 58 8 mV to 61 2 mV 970 mV 0 1 V 970 mV 58 8 mV to 61 2 mV 1 03 V 1 5 V 0 2 5 V 2 53 V 58 8 mV to 61 2 mV 2 47 V 0 1 5 V 1 53 V 58 8 mV to 61 2 mV 1 47 V 0 0 5 V 530 mV 58 8 mV to 61 2 mV 470...

Page 203: ...mV to 122 4 mV 440 mV 3 4 V 0 3 4 V 3 46 V 117 6 mV to 122 4 mV 3 34 V 0 2 4 V 2 46 V 117 6 mV to 122 4 mV 2 34 V 3 4 V 0 3 4 V 3 34 V 117 6 mV to 122 4 mV 3 46 V 0 2 4 V 2 34 V 117 6 mV to 122 4 mV 2...

Page 204: ...25 V 294 mV to 306 mV 2 55 V 1 5 V 0 2 5 V 2 35 V 294 mV to 306 mV 2 65 V 0 1 5 V 1 35 V 294 mV to 306 mV 1 65 V 0 0 5 V 350 mV 294 mV to 306 mV 650 mV Ch1 100 mV 0 V 0 0 V 300 mV 588 mV to 612 mV 30...

Page 205: ...734 4 mV 640 mV 0 1 V 640 mV 705 6 mV to 734 4 mV 1 36 V 1 5 V 0 2 5 V 2 86 V 705 6 mV to 734 4 mV 2 14 V 0 1 5 V 1 86 V 705 6 mV to 734 4 mV 1 14 V 0 0 5 V 860 mV 705 6 mV to 734 4 mV 140 mV 3 4 V 0...

Page 206: ...V 0 V 0 0 3 V 900 mV 2 352 V to 2 448 V 1 50 V 0 0 V 1 20 V 2 352 V to 2 448 V 1 20 V 0 0 3 V 1 50 V 2 352 V to 2 448 V 900 mV Ch2 6 25 mV 0 V 0 0 V 19 mV 37 24 mV to 38 76 mV 19 mV 0 1 V 1 019 V 37 2...

Page 207: ...V 1 03 V 58 8 mV to 61 2 mV 970 mV 0 1 V 970 mV 58 8 mV to 61 2 mV 1 03 V 1 5 V 0 2 5 V 2 53 V 58 8 mV to 61 2 mV 2 47 V 0 1 5 V 1 53 V 58 8 mV to 61 2 mV 1 47 V 0 0 5 V 530 mV 58 8 mV to 61 2 mV 470...

Page 208: ...mV to 122 4 mV 440 mV 3 4 V 0 3 4 V 3 46 V 117 6 mV to 122 4 mV 3 34 V 0 2 4 V 2 46 V 117 6 mV to 122 4 mV 2 34 V 3 4 V 0 3 4 V 3 34 V 117 6 mV to 122 4 mV 3 46 V 0 2 4 V 2 34 V 117 6 mV to 122 4 mV 2...

Page 209: ...25 V 294 mV to 306 mV 2 55 V 1 5 V 0 2 5 V 2 35 V 294 mV to 306 mV 2 65 V 0 1 5 V 1 35 V 294 mV to 306 mV 1 65 V 0 0 5 V 350 mV 294 mV to 306 mV 650 mV Ch2 100 mV 0 V 0 0 V 300 mV 588 mV to 612 mV 30...

Page 210: ...734 4 mV 640 mV 0 1 V 640 mV 705 6 mV to 734 4 mV 1 36 V 1 5 V 0 2 5 V 2 86 V 705 6 mV to 734 4 mV 2 14 V 0 1 5 V 1 86 V 705 6 mV to 734 4 mV 1 14 V 0 0 5 V 860 mV 705 6 mV to 734 4 mV 140 mV 3 4 V 0...

Page 211: ...V 0 0 3 V 900 mV 2 352 mV to 2 448 mV 1 50 V 0 0 V 1 20 V 2 352 mV to 2 448 mV 1 20 V 0 0 3 V 1 50 V 2 352 mV to 2 448 mV 900 mV Ch3 6 25 mV 0 V 0 0 V 19 mV 37 24 mV to 38 76 mV 19 mV 0 1 V 1 019 V 3...

Page 212: ...V 1 03 V 58 8 mV to 61 2 mV 970 mV 0 1 V 970 mV 58 8 mV to 61 2 mV 1 03 V 1 5 V 0 2 5 V 2 53 V 58 8 mV to 61 2 mV 2 47 V 0 1 5 V 1 53 V 58 8 mV to 61 2 mV 1 47 V 0 0 5 V 530 mV 58 8 mV to 61 2 mV 470...

Page 213: ...mV to 122 4 mV 440 mV 3 4 V 0 3 4 V 3 46 V 117 6 mV to 122 4 mV 3 34 V 0 2 4 V 2 46 V 117 6 mV to 122 4 mV 2 34 V 3 4 V 0 3 4 V 3 34 V 117 6 mV to 122 4 mV 3 46 V 0 2 4 V 2 34 V 117 6 mV to 122 4 mV 2...

Page 214: ...25 V 294 mV to 306 mV 2 55 V 1 5 V 0 2 5 V 2 35 V 294 mV to 306 mV 2 65 V 0 1 5 V 1 35 V 294 mV to 306 mV 1 65 V 0 0 5 V 350 mV 294 mV to 306 mV 650 mV Ch3 100 mV 0 V 0 0 V 300 mV 588 mV to 612 mV 30...

Page 215: ...734 4 mV 640 mV 0 1 V 640 mV 705 6 mV to 734 4 mV 1 36 V 1 5 V 0 2 5 V 2 86 V 705 6 mV to 734 4 mV 2 14 V 0 1 5 V 1 86 V 705 6 mV to 734 4 mV 1 14 V 0 0 5 V 860 mV 705 6 mV to 734 4 mV 140 mV 3 4 V 0...

Page 216: ...V 0 V 0 0 3 V 900 mV 2 352 mV to 2 448 mV 1 50 V 0 0 V 1 20 V 2 352 mV to 2 448 mV 1 20 V 0 0 3 V 1 50 V 2 352 mV to 2 448 mV 900 mV Ch4 6 25 mV 0 V 0 0 V 19 mV 37 24 mV to 38 76 mV 19 mV 0 1 V 1 019...

Page 217: ...V 1 03 V 58 8 mV to 61 2 mV 970 mV 0 1 V 970 mV 58 8 mV to 61 2 mV 1 03 V 1 5 V 0 2 5 V 2 53 V 58 8 mV to 61 2 mV 2 47 V 0 1 5 V 1 53 V 58 8 mV to 61 2 mV 1 47 V 0 0 5 V 530 mV 58 8 mV to 61 2 mV 470...

Page 218: ...mV to 122 4 mV 440 mV 3 4 V 0 3 4 V 3 46 V 117 6 mV to 122 4 mV 3 34 V 0 2 4 V 2 46 V 117 6 mV to 122 4 mV 2 34 V 3 4 V 0 3 4 V 3 34 V 117 6 mV to 122 4 mV 3 46 V 0 2 4 V 2 34 V 117 6 mV to 122 4 mV 2...

Page 219: ...25 V 294 mV to 306 mV 2 55 V 1 5 V 0 2 5 V 2 35 V 294 mV to 306 mV 2 65 V 0 1 5 V 1 35 V 294 mV to 306 mV 1 65 V 0 0 5 V 350 mV 294 mV to 306 mV 650 mV Ch4 100 mV 0 V 0 0 V 300 mV 588 mV to 612 mV 30...

Page 220: ...734 4 mV 640 mV 0 1 V 640 mV 705 6 mV to 734 4 mV 1 36 V 1 5 V 0 2 5 V 2 86 V 705 6 mV to 734 4 mV 2 14 V 0 1 5 V 1 86 V 705 6 mV to 734 4 mV 1 14 V 0 0 5 V 860 mV 705 6 mV to 734 4 mV 140 mV 3 4 V 0...

Page 221: ...Setup menu Use the keypad to set the Termination Voltage Position and Offset vertical settings as listed in the table for the current vertical scale setting The baseline level may move off screen Set...

Page 222: ...ion voltage position offset and new generator setting for the second mean g Check against limits Subtract the second measurement mean from the first measurement mean for the current vertical scale ter...

Page 223: ...e table are checked for the channel under test See Table 8 Gain accuracy on page 189 j Test all channels Repeat substeps 2 a through 2 i for all four channels 3 Disconnect the hookup a Set the generat...

Page 224: ...ect the generator to Ch 1 through an adapter Refer to the following figure Figure 14 DC gain accuracy test hookup 4 GHz 20 GHz models b Initialize the instrument Press Default Setup c Modify the defau...

Page 225: ...y Channel Scale setting Position setting Divs Offset setting Generator setting Measurement mean Difference of measurement means Accuracy limits 4 GHz models Ch1 10 mV 0 0 V 38 0 mV 74 48 mV to 77 52 m...

Page 226: ...V 4 40 V 3 724 V to 3 876 V 0 60 V 5 0 V 0 60 V 3 724 V to 3 876 V 4 40 V Ch2 10 mV 0 0 V 38 0 mV 74 48 mV to 77 52 mV 38 0 mV 5 0 45 V 538 mV 74 48 mV to 77 52 mV 462 mV 5 0 45 V 462 mV 74 48 mV to...

Page 227: ...0 V 4 40 V 3 724 V to 3 876 V 0 60 V 5 0 V 0 60 V 3 724 V to 3 876 V 4 40 V Ch3 10 mV 0 0 V 38 0 mV 74 48 mV to 77 52 mV 38 0 mV 5 0 45 V 538 mV 74 48 mV to 77 52 mV 462 mV 5 0 45 V 462 mV 74 48 mV t...

Page 228: ...5 0 V 4 40 V 3 724 V to 3 876 V 0 60 V 5 0 V 0 60 V 3 724 V to 3 876 V 4 40 V Ch4 10 mV 0 0 V 38 0 mV 74 48 mV to 77 52 mV 38 0 mV 5 0 45 V 538 mV 74 48 mV to 77 52 mV 462 mV 5 0 45 V 462 mV 74 48 mV...

Page 229: ...l and then touch Position Use the keypad to set vertical position to the number of divisions listed in the table for the current vertical scale setting and offset Touch Offset Use the keypad to set ve...

Page 230: ...g Check against limits Subtract the second measurement mean from the first measurement mean for the current vertical scale position and offset Record the difference of the two mean measurements in th...

Page 231: ...cy on page 213 j Test all channels Repeat substeps 2 a through 2 i for all four channels 3 Disconnect the hookup a Set the generator output to 0 V b Disconnect the generator output from the channel la...

Page 232: ...t hookup and preset the instrument controls a Hook up the test signal source Set the output of a DC calibration generator to off or 0 volts Set the DC impedance of the generator to 50 Connect the outp...

Page 233: ...e to one of the settings in the following table that is not yet checked Table 10 Offset accuracy Scale setting Position setting Divs Offset setting 5 Termination setting Generator setting Accuracy lim...

Page 234: ...ignal Display the Vertical Setup menu Use the keypad to set the Termination Voltage Position and Offset vertical settings as listed in the table for the current vertical scale setting The baseline lev...

Page 235: ...rator settings Enter the value on the test record Repeat substep 2 d using the negative polarity offset and generator settings as is listed in the table CHECK that the Mean measurement readout on scre...

Page 236: ...e output of a DC calibration generator to Ch 1 through an adapter Refer to the following figure Figure 18 Offset accuracy test hookup 4 GHz 20 GHz models b Initialize the instrument Press Default Setu...

Page 237: ...0 25 V 500 mV 491 75 mV to 508 25 mV 5 0 25 V 500 mV 508 25 mV to 491 75 mV 100 mV 5 2 0 V 2 5 V 2 474 V to 2 526 V 5 2 0 V 2 5 V 2 526 V to 2 474 V 200 mV 5 1 5 V 2 5 V 2 464 V to 2 536 V 5 1 5 V 2...

Page 238: ...t generator settings Enter the value on the test record Repeat substep 2 d using the negative polarity offset and generator settings as is listed in the table CHECK that the Mean measurement readout o...

Page 239: ...the horizontal Scale knob to 50 ns From the button bar touch Horiz Acq and select the Horizontal tab Select Constant Sample Rate mode Set the Sample Rate to 200 GS s From the button bar touch Horiz Ac...

Page 240: ...ve the channel from the display Press the front panel Vertical button that corresponds to the channel you are to confirm Touch Vertical select Vertical Setup and then touch Termination 50 Move the lev...

Page 241: ...the current channel Select the Ampl tab Touch the Amplitude button Touch the Statistics button then touch the Mean button Touch the X Close button Set the generator output so the Chx Amplitude mean re...

Page 242: ...hat the Amplitude mean readout on screen is within the limits listed in the table for the current vertical scale setting See Table 12 Analog bandwidth 3 5 GHz models on page 228 Enter the voltage on t...

Page 243: ...four channels 3 Disconnect the hookup Disconnect the test hook up from the input connector of the channel last tested Performance verification MSO DPO70000C MSO DPO70000DX and DPO7000C series MSO7000...

Page 244: ...zontal tab Select Constant Sample Rate mode Set the Sample Rate to 250 GS s or 200 GS s depending on instrument setup DPO7354C set to 200 GS s From the button bar touch Horiz Acq and select the Acquis...

Page 245: ...ious measurement Press the Vertical button of the channel just confirmed to remove the channel from the display Press the front panel Vertical button that corresponds to the channel you are to confirm...

Page 246: ...0 GHz 16 GHz 12 5 GHz 8 GHz 6 GHz 4 GHz 424 mV 250 mV 1 5 V 1 ns 20 GHz 16 GHz 12 5 GHz 8 GHz 6 GHz 4 GHz 1 061 V Table 15 Channel bandwidth 3 5 GHz model Vertical scale Reference amplitude Horizontal...

Page 247: ...generator output so the Chx Amplitude mean readout equals the reference amplitude See the preceding Channel Bandwidth table that applies to your oscilloscope model This corresponds to the vertical sca...

Page 248: ...DPO71254C and MSO DPO72504DX Read the results at the Chx Amplitude mean readout which will automatically measure the amplitude of the test signal See Figure 23 Measurement of analog bandwidth on page...

Page 249: ...the Clear All button to remove the previous channel measurements j Test all channels Repeat substeps 2 a through 2 i for all four channels 3 Disconnect the hookup Disconnect the test hook up from the...

Page 250: ...d Hook up the test signal source Connect through a 50 precision coaxial cable the input of the multimeter to Ch 1 through adapters See Figure 24 Input resistance test hookup 4 GHz models on page 238...

Page 251: ...emaining input channels a Move the test setup to an unchecked input channel b Set the Vertical Scale of the channel to 10 mV 6 25 mv for 20 GHz models per division c Repeat steps 2 through 3 5 Disconn...

Page 252: ...sure Unit to the CH 1 input of the oscilloscope using the SMU test leads and the two adapters Connect the SMU High Sense to the center conductor Connect the SMU Low Sense to the ground outer conductor...

Page 253: ...tus If any of the 4 checks on any of the 4 channels is outside the limits return the instrument to Tektronix Service for repair Time base system checks These procedures check those characteristics tha...

Page 254: ...me initial test hookup on page 242 Set the timer counter gate to 1 s Set the timer counter to count the 10 MHz reference output b Initialize the instrument Press the Default Setup button c 4 GHz model...

Page 255: ...ect the equipment from the instrument Figure 27 Timebase and delay time second test hookup Performance verification MSO DPO70000C MSO DPO70000DX and DPO7000C series MSO70000C DX DPO70000C DX DPO7000C...

Page 256: ...00 mV c Set the instrument controls Move the cable from the Ch 1 input to the rear panel Ext Ref input See Figure 28 Timebase and delay time final test hookup on page 244 From menu mode touch Utilitie...

Page 257: ...e Internal button to select the internal reference c Perform a signal path compensation Touch Utilities and select Instrument Calibration Touch Run SPC Calibrate on some instruments and wait for the s...

Page 258: ...cks the reference See Check timebase and delay time accuracy and reference on page 242 verified the PPM portion of the delta time specification Figure 29 Delta time accuracy test hookup 4 GHz models 1...

Page 259: ...the rising edge of the positive pulse From the button bar touch the Horiz Acq button and select the Acquisition tab Press the RT button to turn on Real Time Only 4 GHz models Set the horizontal SCALE...

Page 260: ...at for all other channels Note the vertical scale setting of the channel just confirmed Press the Vertical channel button for the channel just confirmed to remove the channel from display Touch Measur...

Page 261: ...enerator Set the sine wave generator to output a sine wave of the frequency shown in the table See Table 17 Delta time measurement settings 4 GHz models on page 250 Set the generator output for 80 mV...

Page 262: ...500 GS s 10 ns 1 462 ps 14 62 ps 50 mV 4 97 GHz 10000 500 GS s 10 ns 1 295 ps 12 95 ps 100 mV 4 97 GHz 10000 500 GS s 10 ns 1 336 ps 13 36 ps MSO DPO70604C 10 mV 3 73 GHz 10000 500 GS s 10 ns 1 625 ps...

Page 263: ...0 mV 3 73 GHz 10000 500 GS s 10 ns 1 295 ps 12 95 ps 100 mV 3 73 GHz 10000 500 GS s 10 ns 1 329 ps 13 29 ps MSO DPO70404C 4 GHz 10 mV 2 48 GHz 10000 500 GS s 10 ns 1 674 ps 16 74 ps 50 mV 2 48 GHz 100...

Page 264: ...llow approximately 1000 acquisitions to accumulate then press Run Stop Read the Std Dev statistic measurement Enter the time on the test record The standard deviation St Dev measurement must be less t...

Page 265: ...s Check time qualified trigger accuracy Equipment Required Prerequisites One sine wave generator Item 9 One 2X attenuator Item 26 One 50 precision coaxial cable Item 4 One SMA male to female BNC adapt...

Page 266: ...s within time accuracy limits for time qualified trigger accuracy time range 1 s a Set upper and lower limits that ensure triggering at 100 MHz See Figure 32 Measurement of time accuracy for pulse and...

Page 267: ...n Use the multipurpose knob to increase the Lower Limit readout until triggering is lost CHECK that the Lower Limit readout after the instrument stops triggering is within the following limits Model L...

Page 268: ...l Fine is on Use the multipurpose knob to increase the Lower Limit readout until triggering is lost CHECK that the Lower Limit readout after the instrument stops triggering is within the following lim...

Page 269: ...One 2X attenuator Item 26 4 GHz models one 50 termination Item 3 See Prerequisites on page 116 NOTE The sine wave generator output amplitude must be leveled to within 0 35 dB of the reference frequenc...

Page 270: ...gnal output of the generator to a power splitter Connect one output of the power splitter to Ch 1 as shown in the following figure Connect the other output of the power splitter to the Aux Input as in...

Page 271: ...isions 4 GHz models 7 divisions Now fine adjust the generator output until the Ch 1 Amplitude readout indicates the amplitude is as follows Readout may fluctuate Performance verification MSO DPO70000C...

Page 272: ...ly lighted It will flash for slower settings Press the Trigger Slope button to select the positive slope Adjust the Trigger Level knob so that there is a stable trigger CHECK that the trigger is stabl...

Page 273: ...r select the A B Seq tab and touch the A B Sequence A Only button Then select the A Event tab Select the A Event tab and set the Source to CH1 Press the X Close button 3 Confirm the AUX Trigger input...

Page 274: ...5 GHz DPO7104C 1 GHz DPO7054C 500 MHz Set the generator amplitude on screen as follows Model Amplitude 4 GHz models 2 divisions DPO7354C 2 5 divisions DPO7254C 6 divisions DPO7104C 6 divisions DPO705...

Page 275: ...frequency not yet checked See Table 18 Trigger settings for 4 GHz models on page 263 Set the generator frequency to the frequency in the table that corresponds to the amplitude just set Set the Horizo...

Page 276: ...s to switch between trigger slopes See Figure 34 Measurement of trigger sensitivity 50 MHz results shown on page 260 Enter pass or fail in the test record Leave the B trigger system triggered on the p...

Page 277: ...step 4 f only for the full bandwidth selected NOTE You just checked the trigger sensitivity If desired you may repeat steps 1 through step 4 c for the other channels Ch 2 Ch 3 and Ch 4 5 Disconnect th...

Page 278: ...t hookup b Initialize the instrument Press the Default Setup button c Modify the initialized front panel control settings Press the Vertical Ch 1 button to toggle it off Set the Horizontal Scale to 20...

Page 279: ...e Figure 36 Measurement of trigger out limits on page 267 20 GHz models CHECK that the Ch 1 High readout is 1 0 volt and that the Ch 1 Low readout 0 25 volts 20 GHz models CHECK that the Ch 1 High rea...

Page 280: ...st signal Refer to the following figure Figure 37 Probe compensation or fast edge output initial test hookup b Initialize the instrument Press the Default Setup button c Modify the initialized front p...

Page 281: ...nsation connector 4 GHz models Disconnect the signal from Ch 1 and the Fast Edge connector Touch File Recall Waveform and then select the file name Touch the Recall button to recall the probe compensa...

Page 282: ...e setting of the DC generator Adjust the output of the DC calibration generator until it precisely overlaps the base lower level of the stored probe compensation signal Record the setting of the DC ge...

Page 283: ...t relate to the serial trigger system and are listed as checked in Specifications Check serial trigger baud rate limits Equipment required Prerequisites One precision 50 coaxial cable Item 4 One sine...

Page 284: ...ale to 1 ns per division Adjust the sine wave generator output for 4 divisions of amplitude centered on the display Adjust the trigger Level to trigger at 25 1 division on the sine wave Table 19 Seria...

Page 285: ...rs until the t readout equals 800 ps one unit interval l Center Cursor 2 in the low of the waveform just to the right of the center graticule line See Figure 42 Isolated 0 triggering on page 274 m Ver...

Page 286: ...ern Data field for the next setting in the table that is not yet checked See Table 19 Serial pattern data on page 272 u Touch Enter v Center Cursor 1 in the low of the waveform just to the left of the...

Page 287: ...ch the Edit and then the Clear button h Enter data into the Serial Pattern Data field for the next setting that is not yet checked i Touch Enter j Center the Cursor 1 in the waveform high nearest the...

Page 288: ...Figure 43 Isolated 1 triggering Performance verification MSO DPO70000C MSO DPO70000DX and DPO7000C series 276 MSO70000C DX DPO70000C DX DPO7000C MSO5000 B DPO5000 B Series...

Page 289: ...generator Item 9 One adapter Item 19 The oscilloscope must meet the prerequisites Also the instrument must have passed Check DC Voltage Measurement Accuracy See Signal acquisition system checks on pag...

Page 290: ...Scale to 200 ps per division From the button bar touch the Display button Set the Display Style to Dots Set the Display Persistence to Variable and set the persist Time to 3 0 s Touch the X close butt...

Page 291: ...overy on page 280 f Repeat substeps 2 b through 2 d for each input frequency and Baud rate listed in the table See Table 21 Clock recovery input frequencies and baud rates on page 279 g If all tests p...

Page 292: ...d clock baud rate 488 28 kHz 1 95 Mbaud 381 kHz 1 52 Mbaud Figure 45 Clock recovery Performance verification MSO DPO70000C MSO DPO70000DX and DPO7000C series 280 MSO70000C DX DPO70000C DX DPO7000C MSO...

Page 293: ...ter Item 11 50 precision cable 2 92 mm male to female Item 12 One K male to male adapter Item 13 See Prerequisites on page 116 Figure 46 Sine wave generator leveling equipment setup 1 Install the test...

Page 294: ...ncy Input the correction factor and or the new frequency into the level meter Adjust the sine wave generator amplitude until the level meter again reads the value noted in step 3 The signal amplitude...

Page 295: ...n the figure below start with the sine wave generator connected to the instrument See Figure 47 Equipment setup for maximum amplitude on page 283 2 Set the Generator Set the sine wave generator to a r...

Page 296: ...Input the correction factor and or the new frequency into the level meter Adjust the sine wave generator amplitude until the level meter again reads the value noted in step 3 The signal amplitude is n...

Page 297: ...3 Time mark generator 80 ms period 1 ppm accuracy rise time 50 ns 4 Logic Probe MSO5000 B Series only Low capacitance digital probe 16 channels P6616 probe standard accessory for MSO5000 B Series osc...

Page 298: ...tment The date and time are updated only when the adjustment procedures in the service manual are successfully completed The performance verification procedures verify the performance of your instrume...

Page 299: ...0 mV div 49 5 50 5 Channel 4 Input Impedance 1 M 10 mV div 990 k 1 01 M 100 mV div 990 k 1 01 M 1 V div 990 k 1 01 M Channel 4 Input Impedance 250 k 100 mV div 246 k 254 k Channel 4 Input Impedance 50...

Page 300: ...l BW 20 mV div 4 mV 4 mV Channel 2 DC Balance 50 20 MHz BW 1 mV div 0 2 mV 0 2 mV 2 mV div 0 2 mV 0 2 mV 5 mV div 0 5 mV 0 5 mV 10 mV div 1 mV 1 mV 20 mV div 2 mV 2 mV 50 mV div 5 mV div 5 mV div 100...

Page 301: ...V div 20 mV div 500 mV div 50 mV div 50 mV div 1 V div 100 mV 100 mV Channel 3 DC Balance 1 M 20 MHz BW 1 mV div 0 2 mV 0 2 mV 2 mV div 0 4 mV 0 4 mV 5 mV div 1 mV div 1 mV div 10 mV div 2 mV 2 mV 20...

Page 302: ...C Balance 1 M 20 MHz BW 1 mV div 0 2 mV 0 2 mV 2 mV div 0 4 mV 0 4 mV 5 mV div 1 mV div 1 mV div 10 mV div 2 mV 2 mV 20 mV div 4 mV div 4 mV div 100 mV div 20 mV 20 mV 500 mV div 100 mV div 100 mV div...

Page 303: ...l position 1 M 20 MHz 2 mV div 1 5 1 5 5 mV div 1 5 1 5 10 mV div 1 5 1 5 20 mV div 1 5 1 5 50 mV div 1 5 1 5 100 mV div 1 5 1 5 200 mV div 1 5 1 5 500 mV div 1 5 1 5 1 V div 1 5 1 5 250 MHz 20 mV div...

Page 304: ...l position 50 20 MHz 2 mV div 1 5 1 5 5 mV div 1 5 1 5 10 mV div 1 5 1 5 20 mV div 1 5 1 5 50 mV div 1 5 1 5 100 mV div 1 5 1 5 200 mV div 1 5 1 5 500 mV div 1 5 1 5 1 V div 1 5 1 5 250 MHz 20 mV div...

Page 305: ...1 5 1 5 10 mV div 1 5 1 5 20 mV div 1 5 1 5 50 mV div 1 5 1 5 100 mV div 1 5 1 5 200 mV div 1 5 1 5 500 mV div 1 5 1 5 1 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 FULL 20 mV div 1 5 1 5 DC Offset Accura...

Page 306: ...0 V 4 965 V 5 035 V 100 mV div 5 0 V 5 035 V 4 965 V Channel 2 DC Offset Accuracy 20 MHz BW 1 M 1 mV div 900 mV 895 3 mV 904 7 mV 1 mV div 900 mV 904 7 mV 895 3 mV 100 mV div 9 0 V 8 935 V 9 065 V 10...

Page 307: ...z BW 50 1 mV div 900 mV 895 3 mV 904 7 mV 1 mV div 900 mV 904 7 mV 895 3 mV 100 mV div 5 0 V 4 965 V 5 035 V 100 mV div 5 0 V 5 035 V 4 965 V Channel 4 DC Offset Accuracy 20 MHz BW 1 M 1 mV div 900 mV...

Page 308: ...V div 1 ns div Full BW 0 707 50 mV div 1 ns div Full BW 0 707 100 mV div 1 ns div Full BW 0 707 1 V div 1 ns div Full BW 0 707 MSO5204 B DPO5204 B MSO5104 B DPO5104 B Only Channel 1 1 M 1 mV div 5 ns...

Page 309: ...1 ns div Full BW 0 707 50 mV div 1 ns div Full BW 0 707 100 mV div 1 ns div Full BW 0 707 1 V div 1 ns div Full BW 0 707 MSO5204 B DPO5204 B MSO5104 B DPO5104 B Only Channel 2 1 M 1 mV div 5 ns div 1...

Page 310: ...1 ns div Full BW 0 707 50 mV div 1 ns div Full BW 0 707 100 mV div 1 ns div Full BW 0 707 1 V div 1 ns div Full BW 0 707 MSO5204 B DPO5204 B MSO5104 B DPO5104 B Only Channel 3 1 M 1 mV div 5 ns div 1...

Page 311: ...V div 1 ns div Full BW 0 707 50 mV div 1 ns div Full BW 0 707 100 mV div 1 ns div Full BW 0 707 1 V div 1 ns div Full BW 0 707 MSO5204 B DPO5204 B MSO5104 B DPO5104 B Only Channel 4 1 M 1 mV div 5 ns...

Page 312: ...imit 5 12 4 08 20 MHz limit 5 12 4 08 MSO5104 DPO5104 Channel 1 Full 8 15 6 08 250 MHz limit 5 10 4 05 20 MHz limit 5 10 4 05 Channel 2 Full 8 15 6 08 250 MHz limit 5 10 4 05 20 MHz limit 5 10 4 05 Ch...

Page 313: ...Test result mV High limit mV MSO5204B DPO5204B Channel 1 Full 6 1 5 0 250 MHz limit 3 7 3 8 20 MHz limit 3 1 4 0 Channel 2 Full 6 1 5 0 250 MHz limit 3 7 3 8 20 MHz limit 3 1 4 0 Channel 3 Full 6 1 5...

Page 314: ...t 4 75 20 MHz limit 4 00 Channel 4 Full 5 00 250 MHz limit 4 75 20 MHz limit 4 00 Sample Rate and Delay Time Accuracy Performance checks Low limit Test result High limit 0 8 divisions 0 8 divisions De...

Page 315: ...kHz 1 mV 8 mV 69 8 ns 5 mV 40 mV 30 0 ns 100 mV 800 mV 20 6 ns 500 mV 4 V 20 2 ns 1 V 4 V 40 1 ns Sample rate 200 MS s 40 s Div Source freq 24 kHz 1 mV 8 mV 698 ns 5 mV 40 mV 300 ns 100 mV 800 mV 206...

Page 316: ...mV 3 01 ns 100 mV 800 mV 2 06 ns 500 mV 4 V 2 02 ns 1 V 4 V 4 01 ns Sample rate 2 5 GS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 8 ns 5 mV 40 mV 30 0 ns 100 mV 800 mV 20 6 ns 500 mV 4 V 20 2 ns 1 V 4...

Page 317: ...mV 3 00 ns 100 mV 800 mV 2 06 ns 500 mV 4 V 2 02 ns 1 V 4 V 4 01 ns Sample rate 2 5 GS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 8 ns 5 mV 40 mV 30 0 ns 100 mV 800 mV 20 6 ns 500 mV 4 V 20 2 ns 1 V 4...

Page 318: ...mV 3 01 ns 100 mV 800 mV 2 06 ns 500 mV 4 V 2 02 ns 1 V 4 V 4 01 ns Sample rate 2 5 GS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 8 ns 5 mV 40 mV 30 0 ns 100 mV 800 mV 20 6 ns 500 mV 4 V 20 2 ns 1 V 4...

Page 319: ...0 mV 2 52 ns 100 mV 800 mV 2 06 ns 500 mV 4 V 2 03 ns 1 V 4 V 4 01 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 45 0 ns 5 mV 40 mV 25 2 ns 100 mV 800 mV 20 5 ns 500 mV 4 V 20 3 ns 1 V...

Page 320: ...0 mV 2 52 ns 100 mV 800 mV 2 05 ns 500 mV 4 V 2 03 ns 1 V 4 V 4 01 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 45 0 ns 5 mV 40 mV 25 2 ns 100 mV 800 mV 20 5 ns 500 mV 4 V 20 3 ns 1 V...

Page 321: ...0 mV 2 52 ns 100 mV 800 mV 2 05 ns 500 mV 4 V 2 03 ns 1 V 4 V 4 01 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 45 0 ns 5 mV 40 mV 25 2 ns 100 mV 800 mV 20 5 ns 500 mV 4 V 20 3 ns 1 V...

Page 322: ...ns 100 mV 800 mV 2 05 ns 500 mV 4 V 2 03 ns 1 V 4 V 4 01 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 45 0 ns 5 mV 40 mV 25 2 ns 100 mV 800 mV 20 5 ns 500 mV 4 V 20 3 ns 1 V 4 V 40 1...

Page 323: ...54 ns 100 mV 800 mV 2 72 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 2 ns 500 mV 4 V 26 9 ns 1 V 4 V 53...

Page 324: ...54 ns 100 mV 800 mV 2 72 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 2 ns 500 mV 4 V 26 9 ns 1 V 4 V 53...

Page 325: ...54 ns 100 mV 800 mV 2 72 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 2 ns 500 mV 4 V 26 9 ns 1 V 4 V 53...

Page 326: ...6 99 ns 5 mV 40 mV 3 54 ns 100 mV 800 mV 2 72 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns Sample rate 250 MS s 4 s Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 2 ns 500 mV 4...

Page 327: ...0 V 0 1 V 0 1 V 4 V 3 78 V 4 22 V D6 0 V 0 1 V 0 1 V 4 V 3 78 V 4 22 V D7 0 V 0 1 V 0 1 V 4 V 3 78 V 4 22 V D8 0 V 0 1 V 0 1 V 4 V 3 78 V 4 22 V D9 0 V 0 1 V 0 1 V 4 V 3 78 V 4 22 V D10 0 V 0 1 V 0 1...

Page 328: ...ended calibration interval and at a temperature within 5 C 9 F of the present operating temperature If at the time you did the prerequisite Self Test the temperature was within the limits just stated...

Page 329: ...nternal diagnostics perform an exhaustive verification of proper instrument function This verification may take several minutes When the verification is finished the resulting status will appear in th...

Page 330: ...10 mV div NOTE Impedance measuring equipment that produce a voltage across the channel that exceeds the measurement range of the instrument may report erroneous impedance results A measurement voltage...

Page 331: ...the front panel button to select the next channel to be tested c Move the calibrator connection to the next channel to be tested d Starting from step 3 repeat the procedure until all channels have bee...

Page 332: ...button and then select Mean c View the Mean measurement value in the display 10 Enter the mean value as the test result in the test record 11 Repeat steps 8 through 10 for each vertical scale setting...

Page 333: ...r to 50 output impedance b Push the front panel oscilloscope Vertical V menu button c Set the Termination to 50 4 Set the Bandwidth to 20 MHz 5 Set the Acquisition mode to Average as follows a Push th...

Page 334: ...measured Table 22 Gain expected worksheet Oscilloscope Vertical Scale Setting VdiffExpected Vnegative Vpositive Vnegative measuredVpositive measuredVdiff Test Result Gain Accuracy 2 mV div 18 mV 9 mV...

Page 335: ...t record 12 Repeat the procedure for all remaining channels a Push the front panel button to deselect the channel that you have already tested b Push the front panel button to select the next channel...

Page 336: ...cal V menu button c Set the Termination to 50 4 Set the calibrator to 900 mV as shown in the test record 5 Set the Bandwidth to 20 MHz 6 Set the Horizontal Scale to 1 ms div 7 Set the Vertical Scale t...

Page 337: ...le and vertical offset setting shown in the test record 15 Repeat the tests at 1 M impedance as follows a Change the calibrator impedance to 1 M b Push the front panel Vertical V menu button c Set the...

Page 338: ...ce and to generate a sine wave b Push the front panel oscilloscope Vertical V menu button c Under Termination click 50 4 Set the Vertical Scale to 1 mV 5 Set the Acquisition mode to Sample as follows...

Page 339: ...ns division 10 Adjust the signal source to the maximum bandwidth frequency for the bandwidth and model desired as shown in the following worksheet 11 Record the peak to peak measurement as follows a...

Page 340: ...iv 1 99 mV div 175 MHz typical 50 5 mV div 1 V div 500 MHz 2 mV div 4 98 mV div 350 MHz 1 mV div 1 99 mV div 175 MHz 50 2 mV div 1 V div 350 MHz 1 mV div 1 99 mV div 175 MHz 12 Use the values of Vbw p...

Page 341: ...front panel Wave Inspector Measure button b In the Measurement Setup window select the RMS measurement c Ensure that the channel being tested is selected in the Channels box 4 Reset the Statistics as...

Page 342: ...b Set the Termination to 50 c Repeat steps 4 through 10 12 Repeat the tests at all bandwidth settings as follows a Push the front panel oscilloscope Vertical V menu button b Set the Termination to 1...

Page 343: ...de to approximately 1 Vp p 6 Set the Vertical Scale to 500 mV 7 Set the Horizontal Scale to 20 ms div 8 Set the Vertical Position to center the time mark signal on the screen 9 Set the Trigger Level a...

Page 344: ...volts before connecting disconnecting and or moving the test hookup during the performance of this procedure 2 Push the oscilloscope front panel Default Setup button 3 Set the Horizontal Scaleto one o...

Page 345: ...In the Measurement Setup window select Statistics c Click Reset d Wait 5 or 10 seconds for the oscilloscope to acquire all of the samples before taking the reading 9 Check the oscilloscope performanc...

Page 346: ...connect the calibrator head to the digital channel D0 using the BNC to 0 1 inch pin adapter listed in the Required equipment table Be sure to connect channel D0 from the probe connector to both the co...

Page 347: ...row of the test record If the signal level is a logic high or is alternating between high and low repeat this step decrement Vs by 10 mV wait 3 seconds and check for a static logic low until a value...

Page 348: ...atic logic high until a value for Vs is found 20 Find the average using this formula VsAvg Vs Vs 2 Record the average as the test result in the test record Compare the test result to the limits If the...

Page 349: ...nd High measurements at 1 M as follows a Push the front panel Wave Inspector Measure button b Ensure that the Amplitude tab is selected c Select the Low measurement d Enter the Low measurement reading...

Page 350: ...ent h Enter the High measurement reading in the test record This completes the performance verification procedure Performance verification MSO DPO5000 B series 338 MSO70000C DX DPO70000C DX DPO7000C M...

Page 351: ...tem 176 sine wave generator leveling 281 test record 121 286 time base system 241 trigger out 337 trigger system 253 verify analog input channels 104 verify digital channels 113 verify the file system...

Page 352: ...Index 340 MSO70000C DX DPO70000C DX DPO7000C MSO5000 B DPO5000 B Series...

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