| 开课时间 | 2021/10/08 - 2021/12/31 |
|---|---|
| 课程周期 | 12 周 |
| 开课状态 | 已结课 |
| 每周学时 | - |
“Electronic Instrument Practice" is jointly designed by teachers from 12 universities, including Dalian University of Technology, Northeastern University, Dalian Maritime University, Bohai University, Dalian Minzu University, etc. The Liaoning District of the Electrical and Electronic Online Open Course Association and the Electronic Board of the National Experimental Teaching Demonstration Center are also involved in the design of the course. Many of the 29 lecturers were awarded the first prize in some educational competition, including the National BAOWU STEEL Outstanding Teacher Award, the first prize of Liaoning Teaching Achievement, the National Higher Education Virtual Simulation Experiment Teaching Resource Construction Prize, and the first prize of the National Higher Education Electronic Technology Foundation and Electronic Circuit Lecture Competition.
The instructions on each electronic instrument is introduced with the help of an example of an actual circuit, targeting the common mistakes. We categorized the content of the course by key words to make it easier to access any section you have problems with. We will also launch new lectures regarding other models of electronic instruments according to the viewers’ requirements, and we will strive to make this course much better. This “electronic instrument practice” course aims to become a highly-demanded, highly-accessed and user-oriented online open course.
The instruments we have talked about in this course come from 11 companies including National Instruments, Siglent Technologies Co., Ltd, RIGOL Technologies, Dalian Tongke Applied Technology, etc. The following is a list of instruments that we adopt in this course and the companies they belong to.
The ELVIS II + and ELVIS III experiment platform from National Instruments; MSO4024 logic analyzer from RIGOL Technologies; the Electronic Experiment Teaching System from Dalian Tongke Applied Technology Co., Ltd; SPD3303X-E and GPS-2303 DC power supply from Siglent Technologies Co., Ltd and RIGOL Technologies; E5063A network analyzer; NSS8000 satellite navigation signal source; HF9600E multi-function power meter; UT801 and VC890C + / MF47 multimeter; DG1032Z, DG4202, SDG2000X and SFG-1013 waveform generator; SDS2204X, MSO2202A, DS2202A, MSO5354, GDS-1102B, GDS-2102E, DPO-2002B, DPO2012, TDS1001C, TDS2012B, TBS2072, TDS2002, TDS1002 and GDS1104B oscilloscope.
There are inevitable omissions in the course construction. We welcome all corrections and advice. If you have any questions in learning the course, please feel free to contact us. We wish you all a happy learning experience!
1.1Instructions of ELVIS II+ Platform with Robotic Arm Experiment
1.2Instructions of ELVIS III Platform with Amplifying Circuit Experiment
Electronic Experiment Teaching System
2.1Electronic Experiment-Teaching System
Multimeter
3.1Instructions of UT801 Multimeter for Electronic Elements Devices
3.2Instructions of Multimeter in the Circuit Test of Analog Electronic Technology Experiment
Network Analyzer
4.1Instructions of E5063A Vector Network Analyzer and Taking a Demo Measuring on an UWB Filter with Notch Bands
Medical Ultrasound Machine
5.1Instructions of Medical Ultrasound Imaging with Mindray DP-2200
Power Meter
6.1Instructions of HF9600E Multi-Function Power Meter and Taking a Demo Measuring on a Sine AC Circuit
Satellite Navigation Signal Source
7.1Instructions of NSS8000 Satellite Navigation Signal Source and Taking a Demo Verification on a Satellite Navigation Receiver Positioning Experiment
Waveform Generator
8.1Instructions of SFG-1013 Function Signal Generator and Taking a Demo Measuring on Inverted Amplifier
8.2Instructions of SDG2000X Series Generator and a Demo of Generating a PWM Waveform for Fan Speed Regulation
8.3Instructions of DG4202 Arbitrary Signal Generator and Taking a Demo Measuring on an Adder
8.4DG1032Z Waveform Generator Application: Single-Stage Amplifier
Power Supply
9.1SIGLENT SPD3303X DC Power Supply Application: Superposition Theorem Verification
9.2GW Instek GPS-2303C DC Power Supply and Common Operation Errors
Logic Analyzer
10.1Instructions of MSO4024 Logic Analyzer with IIC Bus Decoding Experiment
Oscilloscope
11.1Instructions of TBS2072 Digital Oscilloscope for Measurement of Human ECG Signal
11.2Instructions of TDS 1002 Digital Oscilloscope for Measurement of Frequency with Lissajous Figure
11.3Instructions of TDS2002 Digital Oscilloscope for a Simple Signal Generator
11.4Instructions of GDS-1102B Dual Channel Oscilloscope and Taking a Demo Measuring on an Inverse Phase Summation Operation Circuit
11.5SDS2204X Oscilloscope Tutorial
11.6RIGOL DS2202A Oscilloscope Tutorial on RC Phase-Shifting Circuit
11.7Instructions of Tektronic DPO2012 Digital Oscilloscope in Measurement of a Multivibrator
11.8Instructions of GDS-2102E Digital Oscilloscope and Taking a Demo Measurement on Inverting Proportional Amplifier Circuit
11.9Instructions of Tektronix TDS1001C Digital Oscilloscope in Measurement of a Comparator
11.10GDS-1104B Digital Oscilloscope Application: Common-Emitter Amplifier Circuit
11.11Instructions of MSO5354 Oscilloscope and Taking a Demo Measuring Average Transmission Delay Time of Gate Circuit
11.12Instructions of TDS2012B Digital Storage Oscilloscope and Taking a Demo Measuring on a Rectangular Wave
11.13Instructions of MSO2202A Digital Oscilloscope Application: Measurement of Differential Transformer Signal
11.14Instructions of Tektronix DPO2002B Digital Oscilloscope and Taking a Demo Measuring on Capacitance Voltage Waveform
