Inductors in Power Electronics (Direct Current Control)
An introduction to switching current regulation making use of inductors. We test out the theory of stored energy in inductors, and utilise one to smooth current from a switching MOSFET. We then look into the need for a flyback diode in such a circuit, and finally consider the basic options for control schemes. Support the channel & get access to extra content: / electrarc240 What happens when: 0:00 Introduction 0:19 Why current control? 2:17 How inductors will help 4:23 Target current hysteresis (DCC) 6:44 Does the theory hold up? 9:12 The BIG problem with inductors 11:12 How a single diode can fix the circuit (flyback diode) 13:06 Controlling the MOSFET using PWM 17:32 But this circuit does nothing? 18:30 Conclusion 18:42 Outro Follow me on Instagram to stay up to date on all the latest stuff: / electrarc240
What are VRM Phases? - Multiphase Buck Converters Explained
Direct Current Control - LED Driver
How Buck, Boost & Buck-Boost DC-DC Converters Work
Everything You Need to Know about MOSFETs
Once You Understand it, You Will Think Everything Else is Silly - Toyota E-CVT
Electrical Engineer Builds a Half-Bridge Inverter and Learns Why Layout Matters
Every Type of Capacitor for Power Electronics Compared & Analysed
Intentional Inefficiency in DC-DC Converters
Everything You Need to Know About Soft Switching (Switching Loss, ZVS, ZCS)
How INDUCTOR's work & How to make your own
Thyristors Did to Power What Transistors Did to Logic
EEVblog 1688 - Constant Current Sources EXPLAINED + DEMO
Inside Dyson’s Overengineered £1000 Hand Dryer
Lecture 28: EMI Filters, Part 1
Inductors Part 1 - Introduction
These 3 Cent Components are actually USEFUL?! (Color Ring Inductor) EB#56
Why Impedance Matching Still Matters for Transistors
Inductors: making high voltage from low voltage
The Hidden Power of Inductors — Why Coils Resist Change!
