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RIGOL

Appendix

DG1000Z Performance Verification Guide

Spurious Signal Test

Output
Frequency

Start
Frequency

Stop
Frequency

A-0dBm Specification Pass/Fail

5MHz

0Hz

30MHz

<-70dBc

10MHz

0Hz

50MHz

<-70dBc

20MHz

0Hz

100MHz

<-64dBc

25MHz

0Hz

150MHz

<-58dBc

30MHz

[1]

0Hz

150MHz

<-58dBc

60MHz

[2]

0Hz

300MHz

<-40dBc

Note

[1]

: Only applicable to DG1032Z and DG1062Z.

Note

[2]

: Only applicable to DG1062Z.

Rise/Fall Time Test

Waveform Setting

Measurement Value

Specification

Pass/Fail

Square

Frequency: 1MHz
Amplitude: 1Vpp
Offset: 0V

Rise Time

Typical (1Vpp)
<10ns

Fall Time

Overshoot Test

Waveform Setting

Measurement Value

Specification

Pass/Fail

Square

Frequency: 100kHz
Amplitude: 1Vpp
Offset: 0V

Typical (100kHz,
1Vpp)
<5%

Summary of Contents for DG1000Z Series

Page 1: ...RIGOL Performance Verification Guide DG1000Z Series Function Arbitrary Waveform Generator Oct 2016 RIGOL TECHNOLOGIES INC ...

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Page 3: ...ication is subject to change without notice RIGOL shall not be liable for losses caused by either incidental or consequential in connection with the furnishing use or performance of this manual as well as any information contained Any part of this document is forbidden to be copied or photocopied or rearranged without prior written approval of RIGOL Product Certification RIGOL guarantees this prod...

Page 4: ...f power cord to the Protective Earth terminal before any inputs or outputs Connect the Probe Correctly If a probe is used do not connect the ground lead to high voltage since it has the isobaric electric potential as ground Observe All Terminal Ratings To avoid fire or shock hazard observe all ratings and markers on the instrument and check your manual for more information about ratings before con...

Page 5: ... interior of the device or electric shock please do not operate in a humid environment Do Not Operate in an Explosive Atmosphere In order to avoid damages to the device or personal injuries it is important to operate the device away from an explosive atmosphere Keep Product Surfaces Clean and Dry To avoid the influence of dust and or moisture in air please keep the surface of device clean and dry ...

Page 6: ...RIGOL DG1000Z Performance Verification Guide IV Handling Safety Please handle with care during transportation to avoid damages to buttons knob interfaces and other parts on the panels ...

Page 7: ...dungsklemmen der Sonden sindauf dem gleichen Spannungspegel des Instruments geerdet SchließenSie die Erdungsklemmen an keine hohe Spannung an Beachten Sie alle Anschlüsse Zur Vermeidung von Feuer oder Stromschlag beachten Sie alle Bemerkungen und Markierungen auf dem Instrument Befolgen Sie die Bedienungsanleitung für weitere Informationen bevor Sie weitere Anschlüsse an das Instrument legen Verwe...

Page 8: ...emals in feuchter Umgebung Nicht in explosiver Atmosphäre betreiben Zur Vermeidung von Personen und Sachschäden ist es unumgänglich das Gerät ausschließlich fernab jedweder explosiven Atmosphäre zu betreiben Geräteoberflächen sauber und trocken halten Um den Einfluß von Staub und Feuchtigkeit aus der Luft auszuschließen halten Sie bitte die Geräteoberflächen sauber und trocken Schutz gegen elektro...

Page 9: ...parameters Chapter 2 Performance Verification Test This chapter introduces the test method procedures and limits of each performance specification in details Appendix The appendix provides the test results record forms and performance specifications of DG1000Z series function arbitrary waveform generator Format Conventions in this Manual 1 Button The front panel key is denoted by the format of But...

Page 10: ...unction arbitrary waveform generator includes the following models Unless otherwise noted in this manual DG1062Z is taken as an example to illustrate the performance verification test methods of DG1000Z series Model Number of Channels Max Output Frequency DG1062Z 2 60MHz DG1032Z 2 30MHz DG1022Z 2 25MHz ...

Page 11: ...ecommended Test Devices 1 1 Test Result Record 1 2 Test Notices 1 2 Technical Parameters 1 3 Chapter 2 Performance Verification Test 2 1 Frequency Accuracy Test 2 2 AC Amplitude Accuracy Test 2 4 DC Offset Accuracy Test 2 7 AC Flatness Test 2 9 Harmonic Distortion Test 2 12 Spurious Signal Test 2 15 Rise Fall Time Test 2 18 Overshoot Test 2 20 Appendix 1 Appendix A Test Result Record Form 1 Append...

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Page 13: ...se performance specifications satisfy the Performance Requirement listed in the table below to test the performance specifications of the DG1000Z series Table 1 1 Recommended test devices Device Performance Requirement Recommended Instrument Frequency Counter 10MHz Accuracy 0 1ppm Agilent 53131A Digital Multimeter 61 2 digits RIGOL DM3068 Power Meter 30dBm to 20dBm Accuracy 0 02dB Resolution 0 01d...

Page 14: ...s are provided in Appendix A Test Result Record Form of this manual Tip It is recommended that you photocopy the test result record form before each test During the test process record the test results on the copies so that the forms can be used repeatedly Test Notices To achieve optimum test effect all the test procedures should follow the following recommendations 1 Make sure that the environmen...

Page 15: ...mance Verification Guide 1 3 Technical Parameters Chapter 2 of this manual provides the corresponding specification of each test item Besides Appendix B Performance Specifications provides the detailed performance specifications of DG1000Z series ...

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Page 17: ...ance verification test methods of DG1000Z series function arbitrary waveform generator by taking CH1 of DG1062Z as an example The test methods are also applicable to CH2 The test items include Frequency Accuracy Test AC Amplitude Accuracy Test DC Offset Accuracy Test AC Flatness Test Harmonic Distortion Test Spurious Signal Test Rise Fall Time Test Overshoot Test ...

Page 18: ...rature is between 18 and 28 and DG1000Z has been warmed up for at least 30 minutes Connect the channel output terminal take CH1 as an example the test method is also applicable to CH2 of DG1000Z with the signal input terminal of the frequency counter using a dual BNC cable as shown in Figure 2 1 DG1000Z Series Frequency Counter Figure 2 1 Connect DG1000Z and the Frequency Counter 2 Turn on the fre...

Page 19: ... waveforms the frequencies are 1MHz and the amplitudes are 1Vpp respectively Record the readings of the frequency counter respectively and judge whether the readings are between 0 999 999MHz and 1 000 001MHz 7 Repeat steps 1 to 6 to test the frequency accuracy of CH2 and record the test results Test Record Form Waveform Setting Value Measurement Value Specification Pass Fail Sine Frequency 1MHz Am...

Page 20: ...nal take CH1 as an example the test method is also applicable to CH2 of DG1000Z connect the 50Ω load and the voltage input terminals of the digital multimeter using a BNC Dual banana plug connecting cable as shown in Figure 2 2 DG1000Z Series Digital Multimeter 50Ω Load Figure 2 2 Connect DG1000Z and the Digital Multimeter via a 50Ω Load 2 Turn on the multimeter select the ACV measurement function...

Page 21: ... specification Amplitude Output Value Vrms in Table 2 1 range Table 2 1 Amplitude output values Vrms of AC amplitude accuracy test Amplitude Setting Value Vpp Allowed Error Vpp 1 Amplitude Output Value Vpp Amplitude Output Value Vrms 2 20mVpp 1 2mVpp 18 8mVpp to 21 2mVpp 6 6mVrms to 7 5mVrms 100mVpp 2mVpp 98mVpp to 102mVpp 34 7mVrms to 36 1mVrms 500mVpp 6mVpp 494mVpp to 506mVpp 174 7mVrms to 178 9...

Page 22: ...rd Form Amplitude Setting Value Setting Measurement Value Specification Pass Fail 20mVpp Frequency 1kHz Offset 0VDC Impedance 50Ω 6 6mVrms to 7 5mVrms 100mVpp 34 7mVrms to 36 1mVrms 500mVpp 174 7mVrms to 178 9mVrms 1Vpp 349 7mVrms to 357 5mVrms 5Vpp 1 75Vrms to 1 7861Vrms 10Vpp 3 5Vrms to 3 5717Vrms ...

Page 23: ...n on the multimeter select the DCV measurement function and set the range to 20V 3 Turn on DG1000Z Press Utility Set To Default OK to restore DG1000Z to the factory setting 4 Set DG1000Z a Set the output impedance of CH1 to 50Ω press Utility Channel Set Output Set Imped and select Load b Set the output waveform of CH1 to a sine waveform with 1kHz frequency 5Vpp amplitude and 0VDC offset c Press Ou...

Page 24: ...0mVDC 0 035VDC 0 465VDC to 0 535VDC 1VDC 0 040VDC 0 96VDC to 1 04VDC 2 5VDC 0 055VDC 2 445VDC to 2 555VDC Note 1 Allowed Error is calculated from the specification 1 of setting value 5 mV 0 5 of amplitude Note 2 Offset offset setting value allowed error 7 Repeat steps 1 to 6 to test the DC offset accuracy of CH2 and record the test results Test Record Form Offset Setting Value Setting Measurement ...

Page 25: ... cable as shown in Figure 2 2 2 Turn on DG1000Z Press Utility Set To Default OK to restore DG1000Z to the factory setting 3 Set DG1000Z a Set the output impedance of CH1 to 50Ω press Utility Channel Set Output Set Imped and select Load b Set the output waveform of CH1 to a sine waveform with 1kHz frequency and 2 5Vpp amplitude c Press Output1 to turn on the output of CH1 4 Turn on the multimeter a...

Page 26: ...the multimeter Connect the power sensor and the channel output terminal take CH1 as an example the test method is also applicable to CH2 of DG1000Z using a BNC f N m adaptor as shown in Figure 2 3 DG1000Z Series Power Meter Figure 2 3 Connect DG1000Z and the Power Meter 7 Keep the output impedance of CH1 of DG1000Z at 50Ω Set the output waveform of CH1 as a sine waveform with 5MHz frequency and 2 ...

Page 27: ...er meter and judge whether measurement value Pref is between 0 2dB and 0 2dB 10 Keep the output impedance of CH1 of DG1000Z at 50Ω Set the output waveform of CH1 as a sine waveform with 60MHz frequency and 2 5Vpp amplitude Set the frequency factor of the power meter to 60MHz record the measurement value of the power meter and judge whether measurement value Pref is between 0 2dB and 0 2dB 11 Repea...

Page 28: ...terminal take CH1 as an example the test method is also applicable to CH2 of DG1000Z with the signal input terminal of the spectrum analyzer using a dual BNC connecting cable and N BNC adaptor as shown in Figure 2 4 DG1000Z Series Spectrum Analyzer Figure 2 4 Connect DG1000Z and the Spectrum Analyzer 2 Turn on DG1000Z Press Utility Set To Default OK to restore DG1000Z to the factory setting 3 Set ...

Page 29: ... its start frequency to 20MHz and stop frequency to 70MHz 8 Use the cursor function to make measurements and record the measurement values of the base waveform and 2nd order harmonic Calculate 1 the harmonic distortion and judge whether it is less than 55dBc 9 Keep the output impedance of CH1 of DG1000Z at 50Ω Set the output waveform of CH1 as a sine waveform with 60MHz frequency 0dBm amplitude an...

Page 30: ...rtion 66 2 0 8 67dBc 65dBc and the test result fulfills the specification requirement Test Record Form Frequency Setting Value Setting Measuremen t Value Calculation Result 1 Specification Pass Fail 10MHz Waveform Sine Amplitude 0dBm Offset 0VDC Base waveform 65dBc 2nd order harmonic 25MHz Base waveform 55dBc 2nd order harmonic 30MHz Base waveform 55dBc 2nd order harmonic 60MHz Base waveform 50dBc...

Page 31: ... Connect the channel output terminal take CH1 as an example the test method is also applicable to CH2 of DG1000Z with the RF input terminal of the spectrum analyzer using a dual BNC cable and N BNC adaptor as shown in Figure 2 4 2 Turn on DG1000Z Press Utility Set To Default OK to restore DG1000Z to the factory setting 3 Set DG1000Z a Set the output impedance of CH1 to 50Ω press Utility Channel Se...

Page 32: ...MHz and stop frequency to 50MHz 8 Press Sweep Trig Single to perform a sweep 9 After the spectrum analyzer finishes a sweep use Peak and the cursor function to measure the maximum spurious signal except harmonics and record the measurement result as A Calculate the non harmonic spurious signal A 0dBm and judge whether it is within the specification range 10 Keep the output impedance of CH1 of DG10...

Page 33: ...eform with 60MHz frequency 0dBm amplitude and 0VDC offset 17 Keep the reference level input attenuation resolution bandwidth peak offset and sweep mode of the spectrum analyzer as 10dBm 20dB 1kHz 3dB and single respectively Set its start frequency to 0MHz and stop frequency to 300MHz 18 Repeat steps 8 and 9 19 Repeat steps 1 to 18 to test the spurious signal non harmonic of CH2 and record the test...

Page 34: ...test method is also applicable to CH2 of DG1000Z with the signal input terminal of the oscilloscope using a dual BNC connecting cable as shown in Figure 2 5 DG1000Z Series Oscilloscope Figure 2 5 Connect DG1000Z and the Oscilloscope 2 Turn on DG1000Z Press Utility Set To Default OK to restore DG1000Z to the factory setting 3 Set DG1000Z a Set the output impedance of CH1 to 50Ω press Utility Channe...

Page 35: ... type of the oscilloscope to rising edge record the measurement result of the rise time and judge whether it is within the specification range 6 Set the edge type of the oscilloscope to falling edge record the measurement result of the fall time and judge whether it is within the specification range 7 Repeat steps 1 to 6 to test the rise fall time of CH2 and record the measurement results Test Rec...

Page 36: ...ble as shown in Figure 2 5 2 Turn on DG1000Z Press Utility Set To Default OK to restore DG1000Z to factory setting 3 Set DG1000Z a Set the output impedance of CH1 to 50Ω press Utility Channel Set Output Set Imped and select Load b Set the output waveform of CH1 to a square waveform with 100kHz frequency 1Vpp amplitude and 0VDC offset c Press Output1 to turn on the output of CH1 4 Turn on and set t...

Page 37: ...ance Verification Guide 2 21 6 Repeat steps 1 to 5 to test the overshoot of CH2 and record the measurement result Test Record Form Waveform Setting Measurement Value Specification Pass Fail Square Frequency 100kHz Amplitude 1Vpp Offset 0VDC Typical 100kHz 1Vpp 5 ...

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Page 39: ...lue Measurement Value Specification Pass Fail Sine Frequency 1MHz Amplitude 1Vpp 0 999 999MHz to 1 000 001MHz Square Ramp Pulse AC Amplitude Accuracy Test Amplitude Setting Value Setting Measurement Value Specification Pass Fail 20mVpp Frequency 1kHz Offset 0VDC Impedance 50Ω 6 6mVrms to 7 5mVrms 100mVpp 34 7mVrms to 36 1mVrms 500mVpp 174 7mVrms to 178 9mVrms 1Vpp 349 7mVrms to 357 5mVrms 5Vpp 1 7...

Page 40: ...1VDC 1 02VDC to 0 98VDC 500mVDC 0 525VDC to 0 475VDC 0VDC 0 030VDC to 0 030VDC 500mVDC 0 465VDC to 0 535VDC 1VDC 0 96VDC to 1 04VDC 2 5VDC 2 445VDC to 2 555VDC AC Flatness Test Frequency Setting Value Setting Measurement Value Calculation Result Specification Pass Fail 5MHz Amplitude 2 5Vpp Impedance 50Ω 0 1dB 10MHz 25MHz 0 2dB 30MHz 1 60MHz 2 Note 1 Only applicable to DG1032Z and DG1062Z Note 2 O...

Page 41: ...tion Result Specification Pass Fail 10MHz Waveform Sine Amplitude 0dBm Offset 0VDC Base waveform 65dBc 2nd order harmonic 25MHz Base waveform 55dBc 2nd order harmonic 30MHz 1 Base waveform 55dBc 2nd order harmonic 60MHz 2 Base waveform 50dBc 2nd order harmonic Note 1 Only applicable to DG1032Z and DG1062Z Note 2 Only applicable to DG1062Z ...

Page 42: ...Bc 30MHz 1 0Hz 150MHz 58dBc 60MHz 2 0Hz 300MHz 40dBc Note 1 Only applicable to DG1032Z and DG1062Z Note 2 Only applicable to DG1062Z Rise Fall Time Test Waveform Setting Measurement Value Specification Pass Fail Square Frequency 1MHz Amplitude 1Vpp Offset 0VDC Rise Time Typical 1Vpp 10ns Fall Time Overshoot Test Waveform Setting Measurement Value Specification Pass Fail Square Frequency 100kHz Amp...

Page 43: ...9 999MHz to 1 000 001MHz Square Ramp Pulse AC Amplitude Accuracy Test Amplitude Setting Value Setting Measurement Value Specification Pass Fail 20mVpp Frequency 1kHz Offset 0VDC Impedance 50Ω 6 6mVrms to 7 5mVrms 100mVpp 34 7mVrms to 36 1mVrms 500mVpp 174 7mVrms to 178 9mVrms 1Vpp 349 7mVrms to 357 5mVrms 5Vpp 1 75Vrms to 1 7861Vrms 10Vpp 1 3 5Vrms to 3 5717Vrms Note 1 Only applicable to DG1062Z ...

Page 44: ...1VDC 1 02VDC to 0 98VDC 500mVDC 0 525VDC to 0 475VDC 0VDC 0 030VDC to 0 030VDC 500mVDC 0 465VDC to 0 535VDC 1VDC 0 96VDC to 1 04VDC 2 5VDC 2 445VDC to 2 555VDC AC Flatness Test Frequency Setting Value Setting Measurement Value Calculation Result Specification Pass Fail 5MHz Amplitude 2 5Vpp Impedance 50Ω 0 1dB 10MHz 25MHz 0 2dB 30MHz 1 60MHz 2 Note 1 Only applicable to DG1032Z and DG1062Z Note 2 O...

Page 45: ...tion Result Specification Pass Fail 10MHz Waveform Sine Amplitude 0dBm Offset 0VDC Base waveform 65dBc 2nd order harmonic 25MHz Base waveform 55dBc 2nd order harmonic 30MHz 1 Base waveform 55dBc 2nd order harmonic 60MHz 2 Base waveform 50dBc 2nd order harmonic Note 1 Only applicable to DG1032Z and DG1062Z Note 2 Only applicable to DG1062Z ...

Page 46: ...Bc 30MHz 1 0Hz 150MHz 58dBc 60MHz 2 0Hz 300MHz 40dBc Note 1 Only applicable to DG1032Z and DG1062Z Note 2 Only applicable to DG1062Z Rise Fall Time Test Waveform Setting Measurement Value Specification Pass Fail Square Frequency 1MHz Amplitude 1Vpp Offset 0VDC Rise Time Typical 1Vpp 10ns Fall Time Overshoot Test Waveform Setting Measurement Value Specification Pass Fail Square Frequency 100kHz Amp...

Page 47: ...nnel 2 2 2 Maximum Frequency 25MHz 30MHz 60MHz Sample Rate 200MSa s Waveforms Basic waveforms Sine Square Ramp Pulse Noise Built in Arbitrary Waveforms 160 kinds including Sinc Exponential Rise Exponential Fall ECG Gauss HaverSine Lorentz Dual Tone etc Frequency Characteristics Sine 1μHz to 25MHz 1μHz to 30MHz 1μHz to 60MHz Square 1μHz to 25MHz 1μHz to 25MHz 1μHz to 25MHz Ramp 1μHz to 500kHz 1μHz ...

Page 48: ... 10kHz deviation 10MHz 125dBc Hz Signal Characteristics Square Rise Fall Time Typical 1Vpp 10ns Overshoot Typical 100KHz 1Vpp 5 Duty Cycle 0 01 to 99 99 limited by the current frequency setting Non symmetry 1 of period 5ns Jitter rms Typical 1MHz 1Vpp 50Ω 5MHz 2ppm 200ps 5MHz 200ps Ramp Linearity 1 of peak output typical 1kHz 1Vpp 100 Symmetry Symmetry 0 to 100 Pulse Pulse Width 16ns to 999 999 98...

Page 49: ...pical 1Vpp 10ns Jitter rms Typical 1Vpp 5MHz 2ppm 200ps 5MHz 200ps Edit Method Edit Points Edit Block Insert Waveform Harmonic Harmonic Order 8 Harmonic Type Even Odd All User Harmonic Amplitude can be set for all harmonics Harmonic Phase can be set for all harmonics Output Characteristics Amplitude into 50 Ω Range 10MHz 1 0mVpp to 10Vpp 30MHz 1 0mVpp to 5 0Vpp 60MHz 1 0mVpp to 2 5Vpp Accuracy Typ...

Page 50: ... Sine Square Ramp Noise Arb Depth 0 to 120 Modulating Frequency 2mHz to 1MHz FM Carrier Waveform Sine Square Ramp Arb except DC Source Internal External Modulating Waveform Sine Square Ramp Noise Arb Modulating Frequency 2mHz to 1MHz PM Carrier Waveform Sine Square Ramp Arb except DC Source Internal External Modulating Waveform Sine Square Ramp Noise Arb Phase Deviation 0 to 360 Modulating Frequen...

Page 51: ... to 1MHz Mod Trig FSK Sync Input Input Range 75mVRMS to 5Vac dc Input Bandwidth 50kHz Input Impedance 10kΩ Burst Characteristics Carrier Waveform Sine Square Ramp Pulse Noise Arb except DC Carrier Frequency 2mHz to 25MHz 2mHz to 30MHz 2mHz to 60MHz Burst Count 1 to 1 000 000 or Infinite Start Stop Phase 0 to 360 0 1 resolution Internal Period 1μs to 500s Gated Source External Trigger Trigger Sourc...

Page 52: ...ling DC Offset Range 1 5Vdc 1μHz to 100MHz 50mVRMS to 2 5Vac dc 100MHz to 200MHz 100mVRMS to 2 5Vac dc AC Coupling 1μHz to 100MHz 50mVRMS to 2 5Vpp 100MHz to 200MHz 100mVRMS to 2 5Vpp Pulse Width and Duty Cycle Measurement Frequency Amplitude Range 1μHz to 25MHz 50mVRMS to 2 5Vac dc DC Coupling Pulse Width Minimum 20ns Resolution 5ns Duty Cycle Range Display 0 to 100 Input Characteristics Input Si...

Page 53: ...falling optional Pulse Width 100ns Latency Sweep 100ns typical Burst 300ns typical Trigger Output Level TTL compatible Pulse Width 60ns typical Maximum Frequency 1MHz Two channel Characteristics Phase Offset Range 0 to 360 Waveform Phase Resolution 0 03 Clock Reference External Reference Input Lock Range 10MHz 50Hz Level 250mVpp to 5Vpp Lock Time 2s Impedance typical 1kΩ AC coupling Internal Refer...

Page 54: ... lower than or equal to 2Vpp or the output offset is lower than or equal to 2VDC the input voltage is greater than 3 5 1 5 V 10kHz General Specifications Power Power Voltage 100V to 240V 45Hz to 440Hz Power Consumption Less than 40W Fuse 250V T3 15A Display Type 3 inch TFT LCD Resolution 320 Horizontal RGB 240 Vertical Resolution Color 16M color Environment Temperature Range Operating 0 to 50 Non ...

Page 55: ...06 IEC 61000 3 2 2000 4 0kV Contact Discharge 4 0kV Air Discharge IEC 61000 4 3 2002 3V m 80MHz to 1GHz 3V m 1 4GHz to 2GHz 1V m 2 0GHz to 2 7GHz IEC 61000 4 4 2004 1kV power lines IEC 61000 4 5 2001 0 5kV Phase to Neutral 0 5kV Phase to PE 1kV Neutral to PE IEC 61000 4 6 2003 3V 0 15 80MHz EC 61000 4 11 2004 Voltage dip 0 UT during half cycle 0 UT during 1 cycle 70 UT during 25 cycle Short interr...

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