Communications and High-Speed Signals with Raspberry Pi
- Offered byCoursera
Communications and High-Speed Signals with Raspberry Pi at Coursera Overview
Duration | 13 hours |
Start from | Start Now |
Total fee | Free |
Mode of learning | Online |
Official Website | Explore Free Course  |
Credential | Certificate |
Communications and High-Speed Signals with Raspberry Pi at Coursera Highlights
- Earn a Certificate upon completion
Communications and High-Speed Signals with Raspberry Pi at Coursera Course details
- Course two of this specialization is all about hardware physical layer and communication between elements of your project, how to troubleshoot high-speed signals when they don't work, and how to design your projects so they do work
- Then, to build a deep and intuitive understanding of how circuits send and receive these signals, Module 2 explores the physics of high-frequency signals in an easy-to-follow way
- Module 3 flips your thinking from the time-domain to the frequency-domain to examine the frequency components of signals and understand how unintended filtering in your circuits distorts your digital waveforms
Communications and High-Speed Signals with Raspberry Pi at Coursera Curriculum
Communications Protocols
Introduction to Module 1
Overview of Serial and Parallel Communications 1 of 2
Overview of Serial and Parallel Communications 2 of 2
Technology Trends in Serial Communication 1 of 2
Technology Trends in Serial Communication 2 of 2
All Digital Signals are Analog Waveforms 1 of 2
All Digital Signals are Analog Waveforms 2 of 2
Review of I2C Communication Hardware
Summary of the I2C Specification
Introduction to I3C
A Close Look at Open-Drain Configuration 1 of 3
A Close Look at Open-Drain Configuration 2 of 3
A Close Look at Open-Drain Configuration 3 of 3
Summary of Module 1
Module 1
Real-World Signal Impairements
Introduction to Module 2
Measuring Fast Signal Transitions
The Physics of Capacitance 1 of 2
The Physics of Capacitance 2 of 2
Where is the Capacitance in your I2C Circuit? 1 of 2
Where is the Capacitance in your I2C Circuit? 2 of 2
Simulating Effects of Bus Capacitance with Computer Modeling 1 of 2
Simulating Effects of Bus Capacitance with Computer Modeling 2 of 2
Time Constants and Inferring Circuit Parameters
How PWM Uses Capacitive Loading Advantageously
Summary of Module 2
Module 2
Designing for High-Speed Signals
Introduction to Module 3
Introducing Frequency-Domain Concepts 1 of 2
Introducing Frequency-Domain Concepts 2 of 2
Constructing Signals from Simple Waves 1 of 2
Constructing Signals from Simple Waves 2 of 2
Analysis of Harmonic Content in Digital Signals 1 of 2
Analysis of Harmonic Content in Digital Signals 2 of 2
How Bandwidth Limits Distort Signals 1 of 2
How Bandwidth Limits Distort Signals 2 of 2
Understanding Decibel Measurements
Filter Terminology for High-Speed Data Transmission
Summary of Module 3
Module 3
Five Rules of Thumb
Introduction to Module 4
Rule 1 Rise Time in Terms of RC Time Constant 1 of 2
Rule 1 Rise Time in Terms of RC Time Constant 2 of 2
Rule 2 Rise Time in Terms of 3dB Bandwidth 1 of 2
Rule 2 Rise Time in Terms of 3dB Bandwidth 2 of 2
Rule 3 Rise Time in Terms of Clock Frequency
Rule 4 Bandwidth in Terms of Clock Frequency
Rule 5 When Do These Rules Break Down 1 of 2
Rule 5 When Do These Rules Break Down 2 of 2
Summary of Module 4
Five Rules of Thumb PDF
Module 4
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