SiC diode: History, Characteristics & Temperature Effects

AI Thread Summary
SiC diodes, composed of silicon and carbon, are recognized for their high efficiency and ability to handle high voltages and reverse recovery characteristics. The discussion highlights the difficulty in differentiating SiC diodes from traditional silicon and Schottky diodes. Temperature significantly influences the I-V curve, with variations noted at different temperatures (200K, room temperature, and 600K). Resources like Google searches and specific articles were suggested for further understanding of SiC diode properties and applications. Overall, SiC diodes are increasingly utilized in high-efficiency power factor correction circuits.
rottenmango
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Hi all,

Can anyone brief some history and the Characteristics of SiC diode.
I having difficulties to find the infomation about the SiC material.
Beside that, how the Temparature related with the I-V curve (Eg: 200k, room temp,600k)
and different between the Si and SiC at room temp?

Thx.
 
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rottenmango said:
Hi all,

Can anyone brief some history and the Characteristics of SiC diode.
I having difficulties to find the infomation about the SiC material.
Beside that, how the Temparature related with the I-V curve (Eg: 200k, room temp,600k)
and different between the Si and SiC at room temp?

Thx.

Welcome to the PF. Just googling SiC diode gives lots of hits:

http://www.google.com/search?source...ie=UTF-8&rlz=1T4GGLL_enUS301US302&q=SiC+diode

Does the info in those hits not help?
 
The following article was decent:
http://www.cree.com/products/pdf/Power_Article_2.pdf
most of the articles were geared strictly towards advertisement, but I found a little discussion about the properties of the parts.

From what I gather, they are a true Schottky device, but the semiconductor isn't pure silicon. It's Silicon and carbon, just as SiGe is Silicon and germanium.

I've seen these devices used in compact, high-effeciency power factor correction circuits, which makes sense from the description, but I've never seen them used as output rectifiers. I think it's the combination of high voltage + great reverse recovery that makes them special. For low voltages, the ultrafast rectifiers begin to good recovery behavior, and then there's also Schottky's and platinum schottkys. Both are entrenched at low voltage and generally work great.
 
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