If you have any large finned heatsink with a big enough flat face, you can drill through or drill and tap the hole positions and try that.
Search "large heatsink" on ebay as well - there is one of those P3 types at half the RS price, or a lot of large finned ones with a flat side.
eg.
**broken link removed**
Those P3 style ones have slots in the sides so you can add an aluminium or plastic panel over the top of the fins to make them ducts, for using forced-air cooling with a fan on the end of the heatsink.
There is too little information here to say what heatsink to use.
In a switching power supply the heatsinks are very small. In a linear supply the heatsinks are large.
How is the supply powered? From 220vac?
We need to know how much power will be load in the IGBT. (170V+ ?) X 15A = too much for a linear supply, Try adding a fan or use a switching supply.
Maybe you should start with a smaller supply.
I have never seen any for that specific size of module.
These are two bits of junk that use (Or used) modules with similar style mountings to yours - one a generic extrusion with holes drilled by the equipment maker, the other is a custom die-cast heatsink plus chassis..
There is a common standard for encapsulated thyristors and IGBTs etc. but that is based on 80m hole centres.
We use those for out poly welding controllers, built on a generic P33 style module heatsink as I mentioned previously:
If you had been in the UK I could have sent you one of those heatsinks that's got bit of cosmetic damage for the cost of postage, but sending to the USA would cost more than a new one..
Which is about like saying "my car is red, what type of oil should I use?"
A heatsink is chosen mostly upon how much heat it needs to dissipate from the package.
So, if you don't know that the we'll need enough info to derive that. At the very least a schematic of the power supply and the output power.
What is a switching power supply and how does it work?
Here is my power supply circuit drawing.
This is my diode part numbers. 7425 A672334 and 7437 A672259. I can't find a datasheet anymore the one I read long ago said 250 amps 600 volt. Some are reverse polarity, NP & PN.
Try this link: Switcher
In your linear supply; Vin=170vdc, Vout=70V at 10A, The output power is 700 watts. The power lost in heat is 100V x 10A =1000 watts. You need a large heatsink and probably a fan to keep it cool.
If it was a switching supply; Vin=170, Vout=70 at 10A, The output is 700 watts. The IGBT is switched on/off/on/off. The power lost in the transistor (IGBT) is 1V x 10A = 10 watts when the transistor is on and 170V x 0A = 0 watts when the transistor is off. A filter averages the ON/OFF to make dc.
Been there, done that. I am finished with Tesla coils. I sold all 6 of mine and all the parts. My big 10" 12KW TC that made a 27 ft diameter circle of arcs & sparks went to a university. OK shortbus I was NOT the one that changed the subject. EIEIO
Been there, done that. I am finished with Tesla coils. I sold all 6 of mine and all the parts. My big 10" 12KW TC that made a 27 ft diameter circle of arcs & sparks went to a university. OK shortbus I was NOT the one that changed the subject. EIEIO View attachment 120205
FWIW, I don't see shortbus= as a 'complainer', he is more like one of a number of spectators, watching (unfortunately) someone flailing around in a pool. Life rings are being tossed in from every direction, but the swimmer appears to not want to grab any of them.
That's my view on this, and a number of other threads.