Tektronix DPO4000B Series Technical Reference Download

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MSO4000B and DPO4000B Series

Digital Phosphor Oscilloscopes

Speci

cations and Performance Veri

cation

ZZZ

Technical Reference

*P077050903*

077-0509-03

Summary of Contents for DPO4000B Series

Page 1: ...xx MSO4000B and DPO4000B Series Digital Phosphor Oscilloscopes Specifications and Performance Verification ZZZ Technical Reference P077050903 077 0509 03 ...

Page 2: ......

Page 3: ...t supports firmware version 1 00 and above for both MSO4000B Series instruments and DPO4000B Series instruments 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 Refer to all safety summaries prior to performing service www tek com 077 0509 03 ...

Page 4: ...sued and pending Information in this publication supersedes that in all previously published material Specifications and price change privileges reserved TEKTRONIX and TEK are registered trademarks of Tektronix Inc Contacting Tektronix Tektronix Inc 14150 SW Karl Braun Drive P O Box 500 Beaverton OR 97077 USA For product information sales service and technical support In North America call 1 800 8...

Page 5: ...ce Specifications 23 Environmental Specifications 24 Mechanical Specifications 25 Performance Verification 27 Test Record 28 Performance Verification Procedures 54 Self Test 55 Check Input Impedance Resistance 56 Check DC Balance 57 Check DC Gain Accuracy 59 Check Offset Accuracy 63 Check Analog Bandwidth 66 Check Random Noise Sample Acquisition Mode 69 Check Sample Rate and Delay Time Accuracy 71...

Page 6: ...0B Series 18 Table 6 P6616 digital probe specifications 19 Table 7 Display specifications 20 Table 8 Input Output port specifications 21 Table 9 Data storage specifications 23 Table 10 Power source specifications 23 Table 11 Environmental specifications 24 Table 12 Mechanical specifications 25 Table 13 Required equipment 27 Table 14 Gain expected worksheet 61 Table 15 Maximum bandwidth frequency w...

Page 7: ...ll terminal ratings 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 Connect the probe reference lead to earth ground only Do not apply a potential to any terminal including the common terminal that exceeds the maximum rating of that terminal Power disconnect The power c...

Page 8: ...n damage to this product or other property Symbols and terms on the product 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 The following symbol s may appear on the product iv MSO400...

Page 9: ...luating specifications See page 55 Self Test If the operating temperature changes by more than 10 C 18 F you must perform the SPC operation again Model Bandwidth Analog Channels Sample Rate 1 ch Sample Rate 2 ch Sample Rate 4 ch Record Length 1 ch Record Length 2 ch Record Length 4 ch MSO4000B models MSO4104B 1 GHz 4 5 GS s 5 GS s 5 GS s 20M 20M 20M MSO4104B L 1 GHz 4 5 GS s 5 GS s 2 5 GS s 5M 5M ...

Page 10: ...4014B VSWR 1 5 1 from DC to 100 MHz typical Input Capacitance 1 MΩ DC coupled 13 pF 2 pF 1 MΩ 300 VRMS at the BNC with peaks 425 V Installation Category II For 100 mV div derate at 20 dB decade above 100 kHz to 30 VRMS at 1 MHz 10 dB decade above 1 MHz For 100 mV div derate at 20 dB decade above 3 MHz to 30 VRMS at 30 MHz 10 dB decade above 30 MHz Maximum peak input voltage at the BNC 425 V Maximu...

Page 11: ...v to 1 V div Sensitivity resolution fine typical 1 of current setting DC gain accuracy For 50 Ω 1 MΩ TPP0500 and TPP1000 path 1 5 derated at 0 100 C above 30 C 2 0 derated at 0 100 C above 30 C 1 mV Div setting 3 0 variable gain derated at 0 100 C above 30 C Offset range Volts div setting 1 MΩ input 50 Ω input 1 mV div to 50 mV div 1 V 1 V 50 5 mV div to 99 5 mV div 0 5 V 0 5 V 100 mV div to 500 m...

Page 12: ...ts High Low Max Min Mean Cycle Mean RMS and Cycle RMS The delta volt accuracy specification applies to subtractive calculations involving two of these measurements The delta volts difference voltage accuracy specification applies directly to the following measurements Positive Overshoot Negative Overshoot Pk Pk and Amplitude Measurement type DC Accuracy in volts Any sample DC gain accuracy reading...

Page 13: ...tion set to FULL Reduce the upper bandwidth frequency by 1 for each C above 30 C Instrument Volts Div setting Bandwidth 5 mV div 10 V div DC to 500 MHz 2 mV div 4 98 mV div DC to 350 MHz MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B DPO4102B 1 mV div 1 99 mV div DC to 175 MHz 5 mV div 10 V div DC to 500 MHz 2 mV div 4 98 mV div DC to 350 MHz MSO4054B DPO4054B 1 mV div 1 99...

Page 14: ... div 100 V div DC to 500 MHz 20 mV div 49 8 mV div DC to 350 MHz DPO4054B 10 mV div 19 9 mV div DC to 175 MHz 50 mV div 100 V div DC to 350 MHz 20 mV div 49 8 mV div DC to 350 MHz DPO4034B 10 mV div 19 9 mV div DC to 175 MHz Analog bandwidth with TPP0500 or TPP1000 probe typical DPO4014B 10 mV div 100 V div DC to 100 MHz Lower frequency limit AC coupled typical 10 Hz when AC 1 MΩ coupled The AC co...

Page 15: ...ns Instrument TPP1000 probe 10 mV div to 19 9 mV div TPP1000 probe 20 mV div to 49 8 mV div TPP1000 probe 50 mV div to 10 V div MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B DPO4102B 2 ns 1 ns 350 ps DPO4054B 2 ns 1 ns 700 ps DPO4034B 2 ns 1 ns 1 ns Calculated rise time at 0 350 BW tr typical DPO4014B 3 5 ns 3 5 ns 3 5 ns Instrument TPP0500 probe 10 mV div to 19 9 mV div T...

Page 16: ... setting 250 MHz bandwidth 100 μV 6 0 of Volts div setting 100 μV 6 0 of Volts div setting DPO4054B 20 MHz bandwidth 100 μV 4 0 of Volts div setting 100 μV 4 0 of Volts div setting Full bandwidth 130 μV 8 0 of Volts div setting 130 μV 8 0 of Volts div setting 250 MHz bandwidth 100 μV 6 0 of Volts div setting 100 μV 6 0 of Volts div setting DPO4034B 20 MHz bandwidth 100 μV 4 0 of Volts div setting ...

Page 17: ...2 V 2 A 24 W 10 Horizontal and Acquisition System Specifications The following table shows the horizontal and acquisitions system specifications for the MSO4000B Series and the DPO4000B Series oscilloscopes Table 2 Horizontal and acquisition system specifications Characteristic Description MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B DPO4102B 5 GS s 2 5 S s Sample rate ra...

Page 18: ...nt Characteristic Description 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 over any 1 ms time interval 10 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 19: ...acy specifications tp delta time measurement duration sec RD record length sample rate tsr 1 sample rate assume edge shape that results from Gaussian filter response Delta time measurement accuracy The term under the square root sign is the stability and is due to TIE Time Interval Error The errors due to this term occur throughout a single shot measurement The second term is due to both the absol...

Page 20: ...MS Installation Category II Derate at 20 dB decade above 3 MHz to 30 VRMS at 30 MHz 10 dB decade above 30 MHz Aux In External trigger bandwidth typical 250 MHz 20 MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B DPO4102B 1 GHz DPO4054B 500 MHz DPO4034B 350 MHz Trigger bandwidth Edge typical DPO4014B 100 MHz MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102...

Page 21: ...pled typical All models Line Fixed Trigger jitter typical 10 psRMS for edge type trigger 100 psRMS for non edge type trigger modes Trigger Coupling Typical Sensitivity AC Coupling 1 div for frequencies above 45 Hz Attenuates signals below 45 Hz NOISE REJ 2 5 times the DC coupled limits HF REJ 1 0 times the DC coupled limits from DC to 50 kHz Attenuates signals above 50 kHz Edge type trigger sensit...

Page 22: ...a main and delayed event that will be recognized if more than one channel is used For all vertical settings the minimums are Clock active Clock inactive User hold time 2 5 ns 2 ns Minimum clock pulse widths for setup hold time violation trigger typical An active pulse width is the width of the clock pulse from its active edge as defined in the Clock Edge lower bezel menu item to its inactive edge ...

Page 23: ...or time qualified window triggering 4 ns to 8 s Time Range Accuracy 1 ns to 500 ns 20 of setting 0 5 ns Time Accuracy for Pulse Glitch Timeout or Width Triggering 520 ns to 1 s 0 01 of setting 100 ns B trigger after events minimum pulse width and maximum event frequency typical 4 ns 500 MHz B trigger minimum time between arm and trigger typical 4 ns For trigger after time this is the time between ...

Page 24: ...OSI MISO Maximum Data Rate 50 Mbps CAN Data Trigger 1 to 8 bytes of user specified data including qualifiers of equal to not equal to less than greater than less than or equal to greater than or equal to Trigger On Start of Frame Type of Frame Identifier Data Identifier and Data End of Frame Missing Ack or Bit Stuffing Errors Frame Type Data Remote Error Overload Identifier Standard 11 bit and Ext...

Page 25: ...l to less than greater than less than or equal to greater than or equal to inside range outside range Trigger on Word Select Data Maximum Data Rate 12 5 Mbps Left Justified Data Trigger 32 bits of user specified data in a left word right word or either including qualifiers of equal to not equal to less than greater than less than or equal to greater than or equal to inside range outside range Trig...

Page 26: ... FCS CRC Error MAC Q Tag control Information Digital Acquisition Specifications MSO4000B Series The following table shows the digital acquisition specifications for the MSO4000B Series oscilloscopes Table 5 Digital acquisition specifications MSO4000B Series Characteristic Description Threshold voltage range 40 V to 40 V Digital channel timing resolution 2 ns main memory 60 6 ps for MagniVu memory ...

Page 27: ...ce of the digital channel It might also damage the input circuitry See the Absolute maximum input voltage specification Maximum Input Toggle Rate 500 MHz Maximum frequency sine wave input at the minimum signal swing amplitude that can accurately be reproduced as a logic square wave Requires the use of a 342 1140 00 ground clip on each channel Higher toggle rates can be achieved with higher amplitu...

Page 28: ...mm 6 21 in V 264 mm 10 4 in diagonal 6 bit RGB full color XGA 1024 x 768 TFT liquid crystal display LCD Display resolution 1024 X 768 XGA display resolution Luminance typical 400 cd m2 Waveform display color scale The TFT display can support up to 262 144 colors A subset of these colors are used for the oscilloscope display all of which are fixed colors and not changeable by the user 20 MSO4000B a...

Page 29: ... and turning Multipurpose knob a to select Ext Signals Then push the bottom menu AUX OUT button and the desired side menu button Main Trigger A HIGH to LOW transition indicates that the trigger occurred Reference Clock Outputs the 10 MHz oscilloscope reference clock Event Outputs a pulse when a certain event happens such as a mask limit event Trigger output logic levels Characteristic Limits Vout ...

Page 30: ... cont Characteristic Description External Reference input maximum input signal 7 Vp p External Reference input impedance typical Rin 1 5 kΩ 20 in parallel with 15 pF 5 pF at 10 MHz 22 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 31: ...e nonvolatile memory and they will not be saved across a power cycle Real time clock A programmable clock providing time in years months days hours minutes and seconds Power Source Specifications The following table shows the power source specifications for the MSO4000B Series and DPO4000B Series oscilloscopes Table 10 Power source specifications Characteristic Description Source voltage 100 V to ...

Page 32: ...g 20 C to 60 C 4 F to 140 F Humidity Operating High 40 C to 50 C 104 F to 122 F 10 to 60 relative humidity Low 0 C to 40 C 32 F to 104 F 10 to 90 relative humidity Nonoperating High 40 C to 60 C 104 F to 140 F 5 to 60 relative humidity Low 0 C to 40 C 32 F to 104 F 5 to 90 relative humidity Altitude Operating 3 000 m 9 843 ft Nonoperating 9 144 m 30 000 ft Pollution Degree Pollution Degree 2 indoo...

Page 33: ...d to backside of unit Box Dimensions Height 15 7 in 399 mm Width 15 6 in 396 mm Length 22 2 in 564 mm Rackmount configuration Requirements that follow are nominal and unboxed 5U rack sizes Height 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 Benchtop configuration oscilloscope only Requirements tha...

Page 34: ...Specifications 26 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 35: ...tput Tektronix part number 011 0049 02 One 50 Ω BNC cable Male to male connectors Tektronix part number 012 0057 01 One BNC dust cap Male non shorting Pasternack PE6014 You might need additional cables and adapters depending on the actual test equipment you use These procedures cover all MSO4000B and DPO4000B models Please disregard checks that do not apply to the specific model you are testing Pr...

Page 36: ...el 2 Input Impedance 1 MΩ 100 mV div 990 kΩ 1 01 MΩ 10 mV div 49 5 Ω 50 5 Ω Channel 2 Input Impedance 50 Ω 100 mV div 49 5 Ω 50 5 Ω All four channel models for channels 3 and 4 MSO4XX4B MSO4XX4B L DPO4XX4B DPO4XX4B L 10 mV div 990 kΩ 1 01 MΩ Channel 3 Input Impedance 1 MΩ 100 mV div 990 kΩ 1 01 MΩ 10 mV div 49 5 Ω 50 5 Ω Channel 3 Input Impedance 50 Ω 100 mV div 49 5 Ω 50 5 Ω 10 mV div 990 kΩ 1 01...

Page 37: ...DC Balance 50 Ω 20 MHz BW 1 V div 100 mV 100 mV 1 mV div 0 2 mV 0 2 mV 2 mV div 0 4 mV 0 4 mV 5 mV div 1 mV 1 mV 10 mV div 2 mV 2 mV 20 mV div 4 mV 4 mV 100 mV div 20 mV 20 mV 500 mV div 100 mV 100 mV 1 V div 200 mV 200 mV Channel 1 DC Balance 1 MΩ 20 MHz BW 10 V div 2 V 2 V Channel 1 DC Balance 50 Ω 250 MHz BW 20 mV div 2 mV 2 mV Channel 1 DC Balance 1 MΩ 250 MHz BW 20 mV div 4 mV 4 mV Channel 1 ...

Page 38: ...DC Balance 50 Ω 20 MHz BW 1 V div 100 mV 100 mV 1 mV div 0 2 mV 0 2 mV 2 mV div 0 4 mV 0 4 mV 5 mV div 1 mV 1 mV 10 mV div 2 mV 2 mV 20 mV div 4 mV 4 mV 100 mV div 20 mV 20 mV 500 mV div 100 mV 100 mV 1 V div 200 mV 200 mV Channel 2 DC Balance 1 MΩ 20 MHz BW 10 V div 2 V 2 V Channel 2 DC Balance 50 Ω 250 MHz BW 20 mV div 2 mV 2 mV Channel 2 DC Balance 1 MΩ 250 MHz BW 20 mV div 4 mV 4 mV Channel 2 ...

Page 39: ...nel 3 DC Balance 50 Ω 20 MHz BW 1 V div 100 mV 100 mV 1 mV div 0 2 mV 0 2 mV 2 mV div 0 4 mV 0 4 mV 5 mV div 1 mV 1 mV 10 mV div 2 mV 2 mV 20 mV div 4 mV 4 mV 100 mV div 20 mV 20 mV 500 mV div 100 mV 100 mV 1 V div 200 mV 200 mV Channel 3 DC Balance 1 MΩ 20 MHz BW 10 V div 2 V 2 V Channel 3 DC Balance 50 Ω 250 MHz BW 20 mV div 2 mV 2 mV Channel 3 DC Balance 1 MΩ 250 MHz BW 20 mV div 4 mV 4 mV Chan...

Page 40: ...nel 4 DC Balance 50 Ω 20 MHz BW 1 V div 100 mV 100 mV 1 mV div 0 2 mV 0 2 mV 2 mV div 0 4 mV 0 4 mV 5 mV div 1 mV 1 mV 10 mV div 2 mV 2 mV 20 mV div 4 mV 4 mV 100 mV div 20 mV 20 mV 500 mV div 100 mV 100 mV 1 V div 200 mV 200 mV Channel 4 DC Balance 1 MΩ 20 MHz BW 10 V div 2 V 2 V Channel 4 DC Balance 50 Ω 250 MHz BW 20 mV div 2 mV 2 mV Channel 4 DC Balance 1 MΩ 250 MHz BW 20 mV div 4 mV 4 mV Chan...

Page 41: ...iv 1 5 1 5 200 mV div 1 5 1 5 500 mV div 1 5 1 5 20 MHz 1 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 Channel 1 DC Gain Accuracy 0 V offset 0 V vertical position 50 Ω Full 20 mV div 1 5 1 5 1 mV div 2 0 2 0 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 49 8 mV div 3 0 3 0 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 20 MHz 1 V div 1 5 1 5 250 MHz 2...

Page 42: ...mV div 1 5 1 5 500 mV div 1 5 1 5 20 MHz 1 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 Channel 3 DC Gain Accuracy 0 V offset 0 V vertical position 50 Ω Full 20 mV div 1 5 1 5 1 mV div 2 0 2 0 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 49 8 mV div 3 0 3 0 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 20 MHz 1 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 ...

Page 43: ...1 5 20 MHz 5 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 Channel 1 DC Gain Accuracy 0 V offset 0 V vertical position 1 MΩ FULL 20 mV div 1 5 1 5 1 mV div 2 0 2 0 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 63 5 mV div 3 0 3 0 100 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 20 MHz 5 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 Channel 2 DC...

Page 44: ...iv 1 5 1 5 20 MHz 5 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 Channel 3 DC Gain Accuracy 0 V offset 0 V vertical position 1 MΩ FULL 20 mV div 1 5 1 5 1 mV div 2 0 2 0 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 63 5 mV div 3 0 3 0 100 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 20 MHz 5 V div 1 5 1 5 250 MHz 20 mV div 1 5 1 5 Chann...

Page 45: ...curacy 20 MHz BW 50 Ω 1 GHz models only 2 100 mV div 5 0 V 5 035 V 4 965 V 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 100 mV div 9 0 V 9 065 V 8 935 V 500 mV div 9 0 V 8 855 V 9 145 V 500 mV div 9 0V 9 145 V 8 855 V 1 01 V div 99 5 V 98 80 V 100 2 V 1 01 V div 99 5 V 100 2 V 98 80 V 5 V div 99 5 V 98 00 V 101 0 V Channel 2 DC Offset Accurac...

Page 46: ...ls 2 100 mV div 5 0 V 5 035 V 4 965 V 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 100 mV div 9 0 V 9 065 V 8 935 V 500 mV div 9 0 V 8 855 V 9 145 V 500 mV div 9 0V 9 145 V 8 855 V 1 01 V div 99 5 V 98 80 V 100 2 V 1 01 V div 99 5 V 100 2 V 98 80 V 5 V div 99 5 V 98 00 V 101 0 V Channel 4 DC Offset Accuracy 20 MHz BW 1 MΩ All four channel mod...

Page 47: ...sult Gain Vbw pp Vin pp All Models 1 mV div 4 ns div 175 MHz 0 707 2 mV div 2 ns div 350 MHz 0 707 5 mV div 1 ns div Full BW 0 707 10 mV 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 Channel 1 50 Ω 1 V div 1 ns div Full BW 0 707 MSO4000B and DPO4000B Series Specifications and Performance Verification 39 ...

Page 48: ...sult Gain Vbw pp Vin pp All Models 1 mV div 4 ns div 175 MHz 0 707 2 mV div 2 ns div 350 MHz 0 707 5 mV div 1 ns div Full BW 0 707 10 mV 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 Channel 2 50 Ω 1 V div 1 ns div Full BW 0 707 40 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 49: ...Vin pp All four channel models for channels 3 and 4 1 mV div 4 ns div 175 MHz 0 707 2 mV div 2 ns div 350 MHz 0 707 5 mV div 1 ns div Full BW 0 707 10 mV 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 Channel 3 50 Ω 1 V div 1 ns div Full BW 0 707 MSO4000B and DPO4000B Series Specifications and Performance Verification 41 ...

Page 50: ...ain Vbw pp Vin pp All four channel models 1 mV div 4 ns div 175 MHz 0 707 2 mV div 2 ns div 350 MHz 0 707 5 mV div 1 ns div Full BW 0 707 10 mV 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 Channel 4 50 Ω 1 V div 1 ns div Full BW 0 707 42 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 51: ...odels MSO4104B DPO4104B MSO4104B L and DPO4104B L Full 8 30 6 08 250 MHz limit 5 10 4 05 Channel 3 20 MHz limit 5 10 4 05 Full 8 30 6 08 250 MHz limit 5 10 4 05 Channel 4 20 MHz limit 5 10 4 05 All 1 GHz models DPO4054B DPO4034B DPO4014B Full 8 13 8 13 250 MHz limit except DPO4014B 6 10 6 10 Channel 1 20 MHz limit 4 10 4 10 Full 8 13 8 13 250 MHz limit except DPO4014B 6 10 6 10 Channel 2 20 MHz li...

Page 52: ... ps 500 mV 4 V 232 ps 1 V 4 V 417 ps MSO DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 4 50 ns 5 mV 40 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 MSO DPO 4 μs 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 ns MSO DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 450 ns 5 mV 40 mV 252 ns 100 mV 800 mV 205 ns 500 mV...

Page 53: ... 4 V 232 ps 1 V 4 V 417 ps MSO DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 4 50 ns 5 mV 40 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 MSO DPO 4 μs 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 ns MSO DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 450 ns 5 mV 40 mV 252 ns 100 mV 800 mV 205 ns 500 mV 4 V 203 n...

Page 54: ... V 4 V 417 ps MSO DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 4 50 ns 5 mV 40 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 MSO DPO 4 μs 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 ns MSO DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 450 ns 5 mV 40 mV 252 ns 100 mV 800 mV 205 ns 500 mV 4 V 203 ns 1 V 4 V 401...

Page 55: ... 1 V 4 V 417 ps MSO DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 4 50 ns 5 mV 40 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 MSO DPO 4 μs 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 ns MSO DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 450 ns 5 mV 40 mV 252 ns 100 mV 800 mV 205 ns 500 mV 4 V 203 ns 1 V 4 V 4...

Page 56: ...4 V 581 ps DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 6 99 ns 5 mV 40 mV 3 54 ns 100 mV 800 mV 2 73 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns DPO 4 μs Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 3 ns 500 mV 4 V 26 9 ns 1 V 4 V 53 4 ns DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 699 ns 5 mV 40 mV 354 ns 100 mV 800 mV 273 ns 500 mV 4 V 269 ns 1 V 4 V 534 ns DPO 400 μs ...

Page 57: ...V 581 ps DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 6 99 ns 5 mV 40 mV 3 54 ns 100 mV 800 mV 2 73 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns DPO 4 μs Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 3 ns 500 mV 4 V 26 9 ns 1 V 4 V 53 4 ns DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 699 ns 5 mV 40 mV 354 ns 100 mV 800 mV 273 ns 500 mV 4 V 269 ns 1 V 4 V 534 ns DPO 400 μs Di...

Page 58: ...s 1 V 4 V 581 ps DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 6 99 ns 5 mV 40 mV 3 54 ns 100 mV 800 mV 2 73 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns DPO 4 μs Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 3 ns 500 mV 4 V 26 9 ns 1 V 4 V 53 4 ns DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 699 ns 5 mV 40 mV 354 ns 100 mV 800 mV 273 ns 500 mV 4 V 269 ns 1 V 4 V 534 ns DPO 4...

Page 59: ...s 1 V 4 V 581 ps DPO 400 ns Div Source freq 2 4 MHz 1 mV 8 mV 6 99 ns 5 mV 40 mV 3 54 ns 100 mV 800 mV 2 73 ns 500 mV 4 V 2 69 ns 1 V 4 V 5 34 ns DPO 4 μs Div Source freq 240 kHz 1 mV 8 mV 69 9 ns 5 mV 40 mV 35 4 ns 100 mV 800 mV 27 3 ns 500 mV 4 V 26 9 ns 1 V 4 V 53 4 ns DPO 40 μs Div Source freq 24 kHz 1 mV 8 mV 699 ns 5 mV 40 mV 354 ns 100 mV 800 mV 273 ns 500 mV 4 V 269 ns 1 V 4 V 534 ns DPO 4...

Page 60: ...1 V 0 1 V D4 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D5 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D6 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D7 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D8 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D9 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D10 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D11 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D12 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D13 4 V 3 78 V 4 22 V 0 V 0 1 V 0 1 V D14 4 V 3 78 V 4...

Page 61: ... Out AUX OUT Performance checks Low limit Test result High limit High 1 MΩ 2 5 V Trigger Output Low 1 MΩ 0 7 V High 50 Ω 1 0 V Trigger Output Low 50 Ω 0 25 V MSO4000B and DPO4000B Series Specifications and Performance Verification 53 ...

Page 62: ...he operating temperature changes by more than 10 C 18 F you must perform the SPC operation again 3 You must connect the oscilloscope and the test equipment to the same AC power circuit Connect the oscilloscope and test instruments to a common power strip if you are unsure of the AC power circuit distribution Connecting the oscilloscope and test instruments to separate AC power circuits can result ...

Page 63: ...orm an exhaustive verification of proper instrument function This verification may take several minutes i Verify that the status of all tests on the readout is Pass j Push the Menu Off button twice to clear the dialog box and Self Test menu 2 Run the signal path compensation routine may take 5 to 15 minutes a Push the front panel Default Setup button b Push the Utility menu button c Push the Utili...

Page 64: ...ination input impedance to 1 MΩ 4 Set the Vertical Scale to 10 mV division 5 Measure the input resistance of the oscilloscope with the calibrator Record this value in the test record 6 Repeat steps 4 and 5 for each vertical scale setting in the test record 7 Repeat the tests at 50 Ω as follows a Set the calibrator impedance to 50 Ω b Set the Termination input impedance to 50 Ω c Repeat steps 4 thr...

Page 65: ...el button c Ensure that the number of averages is 16 7 Set the trigger source to AC line as follows a Push the Trigger Menu front panel button b Select the AC Line trigger source with the Multipurpose a knob 8 Set the Vertical Scale to 1 mV per division 9 Select the mean measurement if not already selected as follows a Push the front panel Wave Inspector Measure button b Push the Add Measurement l...

Page 66: ...ce to 1M Ω c Repeat steps 4 through 12 14 Repeat the procedure for all remaining channels as follows a Deselect the channel that you already tested b Move the 50 Ω terminator to the next channel input to be tested c Starting from step 3 repeat the procedure for each channel 58 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 67: ...selected NOTE 50 Ω termination testing steps 4 through 11 is required only for MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B and DPO4102B models 1 MΩ termination testing step 14 is required for all models 3 For MSO4104B DPO4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B and DPO4102B models perform steps 4 through 14 For other models go to step 14 now 4 Select 50...

Page 68: ...Push the Trigger Menu button on the front panel b Push the Source lower bezel button c Turn the Multipurpose a knob to select the AC Line as the trigger source 9 Set the Vertical Scale to 1 mV division 10 Record the negative measured and positive measured mean readings in the worksheet as follows a Set the DC Voltage Source to Vnegative b Push the front panel Wave Inspector Measure button c Push t...

Page 69: ...All Models 1 mV div 9 mV 4 5 mV 4 5 mV 2 mV div 18 mV 9 mV 9 mV 5 mV 45 mV 22 5 mV 22 5 mV 10 mV 90 mV 45 mV 45 mV 20 mV 180 mV 90 mV 90 mV 50 mV 450 mV 225 mV 225 mV 63 5 mV 571 5 mV 285 75 mV 285 75 mV 100 mV 900 mV 450 mV 450 mV 200 mV 1800 mV 900 mV 900 mV 500 mV 4900 mV 2450 mV 2450 mV 1 V 9000 mV 4500 mV 4500 mV 1MΩ 5 V 45 V 22 5 V 22 5 V 11 Record Gain Accuracy a Calculate Vdiff as follows ...

Page 70: ...o the next channel input to be tested c Starting from step 9 repeat the procedure for each channel NOTE 1 MΩ testing is required for all models 14 For all models repeat tests at 1 MΩ impedance as follows a Set the calibrator to 1 MΩ output b Push the front panel channel 1 button c Set the Termination to 1 MΩ d Repeat steps 9 through 13 62 MSO4000B and DPO4000B Series Specifications and Performance...

Page 71: ... the Acquisition mode to Average as follows a Push the front panel Acquire button b Push the Mode lower bezel button if not already selected c Push the Average side bezel button d Ensure that the number of averages is set to 16 4 Set the trigger source to AC line as follows a Push the Trigger Menu front panel button b Push the Source lower bezel button c Turn the Multipurpose a knob to select the ...

Page 72: ...cal offset b Push the lower bezel More button to select Offset c Use the Multipurpose a knob to set the Vertical Offset to 900 mV as shown in the test record 11 Select the Mean measurement if not already selected as follows a Push the front panel Wave Inspector Measure button b Push the Add Measurement lower bezel button c Use the Multipurpose b knob to select the Mean measurement d Push the OK Ad...

Page 73: ...l remaining channels as follows a Push the front panel button to deselect the channel that you have already tested b Move the DC voltage source connection to the next channel input to be tested c Starting from step 6 repeat the procedure for each channel MSO4000B and DPO4000B Series Specifications and Performance Verification 65 ...

Page 74: ...channel 1 button c Set the Termination input impedance to 50 Ω 4 Set the Acquisition mode to Sample as follows a Push the front panel Acquire button b Push the Mode lower bezel button if not already selected c Push the Sample side bezel button 5 Set the Vertical Scale to 1 mV per division 6 Adjust the signal source to at least 8 vertical divisions at the selected vertical scale with a set frequenc...

Page 75: ...O4104B MSO4104B L DPO4104B L MSO4102B L DPO4102B L MSO4102B and DPO4102B Impedance Vertical Scale Maximum bandwidth 5 mV div 1 V div 1 GHz 2 mV div 4 98 mV div 350 MHz 50 Ω 1 mV div 1 99 mV div 175 MHz 2 mV div 4 98 mV div 350 MHz 1 mV div 1 99 mV div 175 MHz 500 MHz model DPO4054B 5 mV div 1 V div 500 MHz 2 mV div 4 98 mV div 350 MHz 50 Ω 1 mV div 1 99 mV div 175 MHz 350 MHz model DPO4034B 2 mV d...

Page 76: ...orizontal Scale settings listed in the test record 14 Repeat the procedure for all remaining channels as follows a Push the front panel button to deselect the channel that you have already tested b Move the calibrator connection to the next channel input to be tested c Starting from step 3 repeat the procedure for each input channel 68 MSO4000B and DPO4000B Series Specifications and Performance Ve...

Page 77: ...he bottom bezel More button to select Statistics b Push the side bezel Reset Statistics button 7 Read and make a note of the RMS Mean value This is the Sampled Mean Value SMV 8 Set the Acquisition mode to Average as follows a Push the front panel Acquire button b Push the bottom bezel Mode button to display the Acquisition Mode menu if it is not already selected c Push the side bezel Average butto...

Page 78: ... Bandwidth button d Push the side bezel 250 MHz button e Push the front panel Waveform Inspector Measure button f Repeat steps 6 through 13 15 Repeat the tests at 20 MHz bandwidth as follows a Push the front panel channel 1 button b Set the Termination input impedance to 1 MΩ c Push the bottom bezel Bandwidth button d Push the side bezel 20 MHz button e Push the front panel Waveform Inspector Meas...

Page 79: ...n 4 Set the impedance to 50 Ω as follows a Push the front panel channel 1 button b Set the Termination to 50 Ω 5 If it is adjustable set the time mark amplitude to approximately 1 Vp p 6 Set the Vertical Scale to 500 mV per division 7 Set the Horizontal Scale to 20 ms per division 8 Adjust the Vertical Position knob to center the time mark signal on the screen 9 Adjust the Trigger Level as necessa...

Page 80: ...h the center horizontal graticule line The rising edge should be within 1 divisions of center graticule Enter the deviation in the test record NOTE One division of displacement from graticule center corresponds to a 5 ppm time base error 72 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 81: ...etup button 3 Select 50 Ω impedance as follows a Set the sine wave generator output impedance to 50 Ω b Push the channel 1 button to display the channel 1 menu c Set the Termination input impedance to 50 Ω 4 Set the trigger source to channel 1 as follows a Push the Trigger Menu button b Push the Source lower bezel button if not already selected c Use the Multipurpose a button to select channel 1 i...

Page 82: ...he side bezel Reset Statistics button b Push the Menu Off button to remove the side bezel menu c Wait five or 10 seconds for the oscilloscope to acquire all of the samples d Verify that the Std Dev is less than the upper limit shown in the test record e Enter the reading in the test record 10 Repeat steps 6 through 9 for each setting combination shown in the test record 11 Repeat the procedure for...

Page 83: ...ch pin adapter listed in the Required Equipment table See Table 13 on page 27 c Connect channel D0 to both the corresponding signal pin and to a ground pin on the adapter WARNING The generator is capable of providing dangerous voltages Be sure to set the generator to off or 0 volts before connecting disconnecting and or moving the test hookup during the performance of this procedure 2 Turn on the ...

Page 84: ...e test record If the signal level is a logic low or is alternating between high and low repeat this step increment Vs by 10 mV wait 3 seconds and check for a static logic high until a value for Vs is found 8 Click the lower bezel Slope button to change the slope to Falling 9 Set the DC voltage source Vs to 400 mV Wait 3 seconds Check the logic level of the channel D0 signal display If it is at a s...

Page 85: ...rnating 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 for Vs is found 15 Push the front panel Trigger Menu button 16 Click the lower bezel Slope button to change the slope to Rising 17 Set the DC voltage source Vs to 3 6 V Wait 3 seconds Check the logic level of the channel D0 signal display If the signal level is a static...

Page 86: ...ure for all remaining digital channels as follows a Push the D15 D0 button b Move the DC voltage source connection including the ground lead to the next digital channel to be tested c Starting from step 3 repeat the procedure until all 16 digital channels have been tested 78 MSO4000B and DPO4000B Series Specifications and Performance Verification ...

Page 87: ...d Measurement lower bezel button c Use the Multipurpose b knob to select the Low measurement d Push the OK Add Measurement side bezel button e Enter the Low measurement reading in the test record f Use the Multipurpose b knob to select the High measurement g Push the OK Add Measurement side bezel button h Enter the High measurement reading in the test record 5 Record the Low and High measurements ...

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