Rigol DS1000Z-E Series Performance Verification Manual
Digital oscilloscope
Hide thumbs
Also See for DS1000Z-E Series:
- User manual (211 pages) ,
- Service manual (24 pages) ,
- Quick manual (32 pages)
Related Manuals for Rigol DS1000Z-E Series
Summary of Contents for Rigol DS1000Z-E Series
- Page 1 Performance Verification Guide DS1000Z-E Series Digital Oscilloscope Aug. 2019 RIGOL (SUZHOU) TECHNOLOGIES INC.
- Page 3 Notices RIGOL products are covered by P.R.C. and foreign patents, issued and pending. RIGOL reserves the right to modify or change parts of or all the specifications and pricing policies at the company’s sole decision. Information in this publication replaces all previously released materials.
-
Page 4: Safety Requirement
Do not touch exposed junctions and components when the unit is powered on. Do Not Operate With Suspected Failures. If you suspect that any damage may occur to the instrument, have it inspected by RIGOL authorized personnel before further operations. Any maintenance, adjustment or replacement especially to circuits or accessories must be performed by RIGOL authorized personnel. - Page 5 Use the Battery Properly. Do not expose the battery (if available) to high temperature or fire. Keep it out of the reach of children. Improper change of a battery (lithium battery) may cause an explosion. Use the RIGOL specified battery only.
-
Page 6: Safety Notices And Symbols
RIGOL Safety Notices and Symbols Safety Notices in this Manual: WARNING Indicates a potentially hazardous situation or practice which, if not avoided, will result in serious injury or death. CAUTION Indicates a potentially hazardous situation or practice which, if not avoided, could result in damage to the product or loss of important data. -
Page 7: Document Overview
RIGOL Document Overview This manual is used to guide users to correctly test the performance specifications of RIGOL DS1000Z-E series digital oscilloscope. For the operation methods used in the test procedures, please refer to the corresponding User’s Guide. Main Topics of this Manual:... - Page 8 RIGOL Content Conventions in this Manual: DS1000Z-E series digital oscilloscope includes the following models. Unless otherwise noted, this manual takes DS1202Z-E for example to illustrate the performance verification test methods of DS1000Z-E series. Model Analog Bandwidth Number of Analog Channels...
-
Page 9: Table Of Contents
RIGOL Contents Contents Guaranty and Declaration ....................I Safety Requirement ......................II General Safety Summary ....................II Safety Notices and Symbols ....................IV Document Overview ......................V Chapter 1 Overview ....................1-1 Test Preparations ......................1-1 Self-test ........................1-1 Self-calibration ......................1-1 Test Result Record ...................... -
Page 11: Chapter 1 Overview
RIGOL Chapter 1 Overview Chapter 1 Overview Test Preparations The following preparations should be done before the test: 1. Self-test 2. Warm-up (make sure that the instrument has been running for at least 30 minutes) 3. Self-calibration Self-test When the oscilloscope is in power-on state, press the power key at the lower left corner of the front panel to start the oscilloscope. -
Page 12: Specifications
The specification of each test item is provided in chapter 2. For other specifications, refer to DS1000Z-E Data Sheet (available to download from RIGOL official website (www.rigol.com)). Tip: All the specifications are only valid when the oscilloscope has been warmed up for more than 30 minutes. -
Page 13: Chapter 2 Performance Verification Test
RIGOL Chapter 2 Performance Verification Test Chapter 2 Performance Verification Test This chapter introduces the performance verification test methods and procedures of DS1000Z-E series digital oscilloscope by taking DS1202Z-E as an example. Fluke 9500B is used in this manual for the tests. -
Page 14: Impedance Test
RIGOL Chapter 2 Performance Verification Test Impedance Test Specification Input Impedance Analog Channel 1 MΩ: 0.99 MΩ to 1.01 MΩ Test Connection Diagram Fluke 9500B DS1000Z-E Figure 2-1 Impedance Test Connection Diagram Test Procedures Connect the active head of Fluke 9500B to CH1 of the oscilloscope, as shown in the figure above. -
Page 15: Dc Gain Accuracy Test
RIGOL Chapter 2 Performance Verification Test DC Gain Accuracy Test Specification DC Gain Accuracy < 10 mV: ±4% × Full Scale Specification ≥ 10 mV: ±3% × Full Scale Note : Full Scale = 8 × Current Vertical Scale Test Connection Diagram... -
Page 16: Test Record Form
RIGOL Chapter 2 Performance Verification Test 200 mV/div, 500 mV/div, 1 V/div, 2 V/div, 5 V/div and 10 V/div respectively. Adjust the output voltage of Fluke 9500B to 3 × the current vertical scale and -3 × the current vertical scale respectively. -
Page 17: Bandwidth Test
RIGOL Chapter 2 Performance Verification Test Bandwidth Test The bandwidth test verifies the bandwidth performance of the oscilloscope by testing the amplitude loss of the oscilloscope under test at full bandwidth. Specification Bandwidth Amplitude Loss 200 MHz -3 dB, all-channel mode Note : Amplitude Loss (dB) = 20 ×... -
Page 18: Test Record Form
RIGOL Chapter 2 Performance Verification Test Calculate the amplitude loss: Amplitude Loss (dB) = 20 × lg (Vrms2/Vrms1). 10. Keep the other settings of the oscilloscope in Step 3 unchanged and set the vertical scale to 500 mV/div. 11. Output a Sine with 1 MHz frequency and 3 Vpp amplitude via Fluke 9500B. -
Page 19: Bandwidth Limit Test
RIGOL Chapter 2 Performance Verification Test Bandwidth Limit Test The bandwidth limit test verifies the 20 MHz bandwidth limit function of the oscilloscope by testing the amplitude loss of the oscilloscope under test at the bandwidth limit. Table 2-2 Bandwidth Limit... -
Page 20: Test Record Form
RIGOL Chapter 2 Performance Verification Test Rotate HORIZONTAL SCALE to set the horizontal time base to 50 ns/div. Press MENU Vrms at the left side of the screen of the oscilloscope to turn on the effective value measurement function. Read and record Vrms2. -
Page 21: Time Base Accuracy Test
RIGOL Chapter 2 Performance Verification Test Time Base Accuracy Test Specification Time Base Accuracy ≤ ±(25 ppm + Clock Drift ×Number of years that the instrument has Specification been used ) Note : Typical. Note : Clock drift is lower than or equal to ±5 ppm/year. -
Page 22: Test Record Form
RIGOL Chapter 2 Performance Verification Test Test Record Form Channel Test Result ΔT Calculation Result Limit Pass/Fail ±(25 ppm + 5 ppm/year × number of years that the instrument has been used Note : Calculation Result = Test Result ΔT/1 ms. -
Page 23: Zero Point Offset Test
RIGOL Chapter 2 Performance Verification Test Zero Point Offset Test Zero point offset is defined as the offset of the crossing point of the waveform and trigger level line relative to the trigger position, as shown in the figure below. -
Page 24: Test Record Form
RIGOL Chapter 2 Performance Verification Test adjust the horizontal position and vertical position properly. Rotate TRIGGER LEVEL to adjust the trigger level to the middle of the screen. Observe the screen of the oscilloscope. Press Cursor Mode "Manual" to turn on the manual cursor function. -
Page 25: Appendix Test Record Form
RIGOL Appendix Test Record Form Appendix Test Record Form RIGOL DS1000Z-E Series Digital Oscilloscope Performance Verification Test Record Form Model: Tested by: Test Date: Impedance Test Channel Vertical Scale Test Result Limit Pass/Fail 100 mV/div 500 mV/div 0.99 MΩ to 1.01 MΩ... - Page 26 RIGOL Appendix Test Record Form Bandwidth Limit Test Test Result Vertical Channel Amplitude Limit Pass/Fail Scale Vrms1 Vrms2 Loss 100 mV/div 500 mV/div -3 dB to 3 dB 100 mV/div 500 mV/div Note : Amplitude Loss (dB) = 20 × lg (Vrms2/Vrms1).