High-Side High Voltage IGBT-MOSFET Power Switches
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- Опубликовано: 1 окт 2024
- Recent schematics: www.lloflin.co...
Video navigation, note links below.
1:41 Motor demo, why a high-side power switch?
3:12 Motor ON-OFF, note breaking, power supply turned ON-OFF.
4:25 LM317-MJ2955 CCS vs. ULN2003A vs. 2N7000 MOSFET high side switch.
5:48 Photovoltaic-based IGBT, MOSFET power solid state relays.
7:52 Where to place high and low side SSRs on an h-bridge.
9:00 Solving the 20V motor voltage limit problem.
10:27 HV IGBT H-bridge with the PV optocouplers, TC4429 gate driver.
11:12 IGBT modules and introduction.
RUclips:
• Opto-Couplers Theory a...
Opto-Coupler Theory and Circuits
• OptoCoupler Interfacin...
Opto-Coupler Interfacing H-Bridge Circuits
Website:
www.bristolwat...
Opto-isolated transistor Drivers for Micro-Controllers
www.bristolwat...
Optical Isolation of H-Bridge Motor Controls
www.bristolwat...
Intro TC4420-TC4429 MOSFET Drivers
www.bristolwat...
VOM1271 Photovoltaic MOSFET Driver Circuits
www.bristolwat...
Bidirectional Solid State Relay Circuits
RUclips Videos
• Pt. 1 Intro. TC4420-TC...
Introduction TC4420-TC4429 MOSFET Drivers
• Pt. 2 TC4420-29 MOSFET...
Circuit Examples for TC4420-TC4429 MOSFET Drivers
• Pt. 3 TC4420 MOSFET Dr...
TC4420 H-Bridge Circuit
Thanks for the video!
I have a winter project to design a new autopilot for my boat. The current one uses large BJT's for the H-Bridge, its from the early 90's so thats what was available. I wanted to replace these with MOSFETs to reduce the power loss in the circuit.
VOM1271 has a very bad temperature-Vco curve sir. When it 0, Vco is about 10V, which is enough to open a MOSFET up to a Rdson from specs, but when it becomes really hot, Vco can be as low as 5V. But nobody stops us from using it in series with a zenner (cause when it's below 0, Vco can be more than 10V), but this must be calculated yet because of a small output current. I prefer to use some high voltage PWM IC and PCB coils for a floating voltage source(s), and some simple traditional optocoupler
OK, thanks. I will address this in the next video with an alternative part. It is also slow frequency, which I'll also address.
@@LewisLoflin Great! Thank you sir. The slowness could not be a problem in case of a permanent on/off switch. In my case for instance, I needed 16 switches for an active cell balancer, and the cheapest solution with good specs were exactly 16 floating voltage sources. Just 50c PWM IC with 50c supplemental discretes, $1 ferrite core, x16 10c diodes, x16 20c capacitors, x16 5c resistors, and x16 17c optocouplers.
Nice to see that you show multiple solutions.
I'm trying a new format and it seems to work. Thanks.
Can you do a video on smoothing PWM power to a large DC motor? How to size and whether to use a capacitor or choke? Thanks
Voltage and current have to be known. I'll try to cover that in an upcoming video.
Is there a way to stop the higher voltage flow(24-72v) to the load supplying a transistor (5-10v to gate), while continuous flow of electricity to the load when 5-10v to the transistor gate is not supplied?
Not sure what the question is. Voltage does not "flow" current does. Do you switch voltage ON-OFF or switch to a different voltage?
@@LewisLoflin thanks! I meant to say when there is no current given to the transistor's gate/base, the higher current flows through the drain-source. But when low current given to the transistor, the current does not flow at all to drain-source. Just like the normally closed relays. Switching ON-OFF, not switching different voltages.
when we use N channel mosfet as High side. we don't need bootstrap capacitor ?
no, the pv driver generates a voltage on the gate that is higher than the source.
No. The generated PV opto is the on voltage.
In an n-channel the gate is positive with respect to source. In p-channel the opposite. It is not a matter of "higher" it is the voltage difference.
always great explanation. Thanks
My pleasure!
thank you
You're welcome
Thank you!
You're welcome!