What is the purpose of the course “Holistic Circuitry, A Practial Approach”?
First, is to learn a scientific learning method that conforms to the laws of human cognition.
Secondly, is to learn circuits with a clear target. For example, do you want to make a counter that will increment when it receives a clap? Do you want to create your very own volume bar that jumps when hearing noise? How about determine the direction of the noise? We have many interesting circuits prepared to help you have a comprehensive understanding of the circuit and its components.
Finally, we want to cultivate learners' meticulous thinking habits and hand-eye coordination. Various issue will arise in the process of circuit debugging. To analyze them, one must have a clear understanding and a logical mind for reasoning and critical thinking. These will be skills to develop on top of just electronics.
What is the difference between THIS course and common circuit courses?
Common circuit textbooks and courses have similarities: these textbooks and courses are built from the small knowledge points of this subject, and then try to let the learners synthesize the whole picture of this subject through the accumulation of knowledge points. You can arbitrarily choose 10 electronic textbooks to see if this is the case. But this is incomplete. The information contained in any one whole is much greater than the sum of the information contained in each part, especially in electronic circuits. There is information exchange, logical inheritance and energy flows between each part. In such a process of rounding to zero, the connections between the various parts are weakened or even broken. At the end of the course, there is an overall working circuit. The learner is likely to forget the part knowledge previously learned. Even if the learner with good memory remembers the part knowledge, it is difficult to understand the organic connection between the parts, which leads to that the majority of learners are unable to understand the overall circuit, thus drawing the conclusion that the circuit is difficult to learn.
In this course, 15 complete sets of circuits are prepared for imitation and learning development. With the project based learning method, You can learn electronic technology efficiently. Read FAQ for more infomation.
1.1 Introduction-Methods-Equipment
1.2 Reading of circuit diagram
1.3 Learning material concerning Ohm’s law
1.4 Learning material regarding common circuit terms
1.5 Learning material concerning self-study methods and FAQ
1.6 Concepts of voltage source and current Source - ideal and actual
1.7 Important concept: exceeding the rated power is the most important cause of damage to electronic devices and even people
1.8 The preparation of experimental devices: the instructions to the oscilloscope, the digital multimeter and breadboard - device list.
Learn the Principles of Diodes Easily and Joyfully
2.1 Diodes and multimeter
2.2 Diode and Oscilloscope
2.3 Current and Voltage Relationships of Diodes
2.4 Quiz on diodes
The Concept of Impedance
3.1 Impedance, Lecture video
3.2 The concept of impedance of electronic equipment
3.3 Quiz on impedance
BJ Transistor Man Model
4.1 Basic knowledge of BJ Transistor PPT
4.2 Video Experiment of Three working states of BJT
4.3 Video Experiment of Hfe VS IC and temperature
4.4 Quiz on transistors
The Test of Induced Current in Human Body
5.1 Lecture video of the test of induced current in human body
5.2 Quiz on the test of induced current in human body
Transistor Switch and Oscillation
6.1 Lecture video of transistor switch
6.2 Lecture video of the dual-LED flasher
6.3 Quiz on transistor switch
6.4 Quiz on the dual-LED flasher
Linear Regulated Power Supply with Transistors
7.1 Lecture of linear regulated power supply
7.2 Quiz on linear regulated power supply with transistors
Rhyme LED Bar with Transistors
8.1 Lecture video of rhyme LED bar
8.2 Video of instructions to the electret microphone
8.3 Quiz on rhyme LED bar
Learn to Use Operational Amplifiers at One Time
9.1 Lecture video of operational amplifiers
9.2 Quiz on operational amplifiers
9.3 Excellent experiment examples of students – circuit to test op-amps
Two Ways to Achieve Sound Source Localization with Transistors or Op-amps
10.1 Lecture video of sound source localization with op-amps
10.2 Lecture video of sound source localization with discrete components
10.3 Quiz on sound source localization with discrete components
10.4 Quiz on sound source localization with op-amps
Breathing LED Light with OP-AMPs, Comparators and Integrators
11.1 Lecture of breathing LED light with op-amps
11.2 Quiz on breathing light with op-amps
Clap Counting Circuit Where Digital Circuit and Analog Circuit Work Together
12.1 Lecture video of clap counting
12.2 Quiz on clap counting circuit
Running LED Lanterns - Digital Logic Circuit
13.1 Lecture of Shift registers and running LED lanterns
13.2 Quiz on shift registers and running LED lanterns
Noise Reduction with Dual-microphone
14.1 Lecture video of noise reduction with dual-microphone
14.2 Quiz on noise reduction with dual-microphone
