Basics of ESD and TVS protection
Ғылым және технология
Step into the world of ESD and TVS protection. Get the basics and identify selection criteria parameters and protection typologies.
In this video, featured by Electronic Engineering Journal, Tom Wolf from Nexperia and Amelia Dalton will guide you through the different parameters to enable you to determine your level
of protection required. After watching, you will be able to select the proper device for your design.
Пікірлер: 15
Really well explained! Thanks for making this resource available!
Very nice explanation...I learned a lot. Thank you.
Excellent presentation. Totally enjoyed it
EOS (Electrical Over-Stress) is an event. TVS (Transient Voltage Suppression) is the type of device in your circuit that protects against EOS and ESD events.
It would be nice if electronic companies would make lesson and formation like this...
Sassy duo, enjoyed it, thanks, how about putting book link in the show more?
Cool !!
So nice
So cute 🤭
Thanks for the great contribution... What about the high-frequency ignition? I recently connected a 64MP camera to my Raspberry Pi and wanted to TIG weld with 10x magnification. Each time the high-frequency arc ignition was triggered, the Raspberry Pi exited. What should I do to protect the devices?
@Nexperia
10 ай бұрын
Thanks for the question @marco_di. We'd love to help you out with a detailed answer and would ask that you send a message to us at info@nexperia.com. Please mention this interaction on KZread so we can recognize you right away =) Have a great day!
Very nice
@Nexperia
11 ай бұрын
Well, thank you!
Is ESD protection different than AC inductance spikes?
@Nexperia
Жыл бұрын
Hello, thanks for your question! ESD and TVS protection are similar issues with these differences: - ESD events are very high voltages (30,000V or more) for very short period of time (nanoseconds). They are generated by static electricity (rubbing feet on carpet, etc.). The damage caused to an IC is typically “oxide punch through” - TVS events are not as high (thousands of volts) but for longer duration. This causes the device to heat up so damage may be in the form of overheating. TVS events can be generated by DC or AC spike (an electric motor on the same power supply causing induced voltage on a signal line)