- 10 What you should know about this course
- 20 Software you will need
- 30 Hardware you will need
- 40 How to get the most out of this course
Beginner
Online
₹ 449 3,499
Quick facts
particular | details | |
---|---|---|
Medium of instructions
English
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Mode of learning
Self study
|
Mode of Delivery
Video and Text Based
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Course and certificate fees
Fees information
certificate availability
certificate providing authority
The syllabus
Introduction
What is the oscilloscope?
- 05 Introduction to section 2
- 10 An introduction to oscilloscopes
- 50 The basic functions of an oscilloscope
- 60 The basic controls of an oscilloscope
- 80 An overview of oscilloscope probes
- 90 An overview of waveforms
- 100 Basic precautions to avoid damage and injury
Getting comfortable with your oscilloscope
- 01 Introduction to section 3
- 05 How to connect the probes
- 10 How to calibrate (compensate) the probes
- 15 How to calibrate the oscilloscope
- 40 What is input coupling?
- 50 Get started with automatic triggering
- 85 Cursor basics
- 90 How to manually label your channels
- 110 Quick demo of a USB oscilloscope
- Beware: my Rigol probes have a 10:1 attenuation
Measure an RC circuit
- 10 Experiment 1: Introduction
- 20 Experiment 1: Setup the oscilloscope
- 30 Experiment 1: Setup the trigger
- 40 Experiment 1: How to use the automatic edge trigger
- 50 Experiment 1: Measure waveform attributes
- 60 Experiment 1: How to use the manual cursors
- 70 Experiment 1: How to use the automatic cursors
- 80 Experiment 1: How to use cursor tracking
- 90 RC circuit experiment with the USB oscilloscope
Button press and response
- 10 Experiment 2: Introduction
- 20 Experiment 2: Review the Arduino circuit and sketch
- 30 Experiment 2: How to connect the probes
- 40 Experiment 2: Setup the trigger
- 50 Experiment 2: Measure waveform attributes
- 70 Experiment 2: Repeat the experiment with a USB oscilloscope
"See" ultrasounds using the ultrasonic sensor
- 10 Experiment 3: Introduction
- 20 Experiment 3: Review the Arduino circuit and sketch
- 30 Experiment 3: Connect the probes and see the signal "live"
- 40 Experiment 3: Setup the trigger
- 50 Experiment 3: Measure waveform attributes
Measure a PMW signal
- 10 Experiment 4: Introduction
- 20 Experiment 4: Review the Arduino circuit and sketch
- 30 Experiment 4: Setup the probes and trigger
- 50 Experiment 4: Measure waveform attributes
Servo motor control signal
- 10 Experiment 5: Introduction
- 20 Experiment 5: Review the Arduino circuit and sketch
- 30 Experiment 5: Setup the probes and trigger
- 50 Experiment 5: Measure waveform attributes
Measure waveforms created by an ESP32
- 10 Experiment 6: Introduction
- 20 Experiment 6: Review the Arduino circuit and sketch
- 30 Experiment 6: Setup the probe and trigger
- 40 Experiment 6: Sine waveform measurements
- 50 Experiment 6: Triangular waveform measurements
- 60 Experiment 6: Sawtooth waveform measurements
- 70 Experiment 6: Square waveform measurements
- 80 Experiment 6: Decaying waveform measurements
- 90 Experiment 6: Runt waveform measurements
In Conclusion...
- Congratulations
- Bonus Lecture
Instructors
Dr Peter Dalmaris
Educator and Author
Freelancer
Articles
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