Hi All,
I have a dissipation question I'm hoping you can help with. I know you Pass guys like pushing your fets so I thought I would ask this here.
I am currently building a mosfet amplifier which has a VAS using ZVP3310A (650mW) and DN2530 (750mW) fets. They are both TO92 devices.
I am interested to know how much dissipation I can comfortably push out of these while still maintaining a long lifespan. The thing I understand about the TO92 package is that it can't dissipate heat very well at high ambient temperatures and needs very severe derating. Let's assume an ambient temperature of 45 degrees C inside the enclosure.
I currently have about 25v across each and am running them at 6mA, but I would like to use a higher current if possible.
Any insight into this would be most appreciated!
Cheers,
Greg.
I have a dissipation question I'm hoping you can help with. I know you Pass guys like pushing your fets so I thought I would ask this here.
I am currently building a mosfet amplifier which has a VAS using ZVP3310A (650mW) and DN2530 (750mW) fets. They are both TO92 devices.
I am interested to know how much dissipation I can comfortably push out of these while still maintaining a long lifespan. The thing I understand about the TO92 package is that it can't dissipate heat very well at high ambient temperatures and needs very severe derating. Let's assume an ambient temperature of 45 degrees C inside the enclosure.
I currently have about 25v across each and am running them at 6mA, but I would like to use a higher current if possible.
Any insight into this would be most appreciated!
Cheers,
Greg.
The general rule of thumb is not to exceed half of the power rating, for jfets I would even go lower than that for best reliability.
If you need more current, parallel 'em!
Hannes
If you need more current, parallel 'em!
Hannes
Thanks h_a,
Would you really go that high with an ambient temperature of 45 deg C?
This is great news!
Would you really go that high with an ambient temperature of 45 deg C?
This is great news!
If the max chip temperature is 150, then you can figure that you don't
want to run it past 100 ever, and with a 50 deg ambient and a 5 mw
derating per degree, we get about 250 mW rating figure that I would
consider the maximum just sitting inside an amplifier.
😎
want to run it past 100 ever, and with a 50 deg ambient and a 5 mw
derating per degree, we get about 250 mW rating figure that I would
consider the maximum just sitting inside an amplifier.
😎
Nelson, Does this also apply to the Simisouth jfets ? I see on the data sheet they are rated at 150c max. but didn't you mention the chips fail at about 800c ?
I think it is the packaging and die bonding which fails above 175 deg or so.
I feel free to run them up to 100 deg case temperature, no higher.
😎
I feel free to run them up to 100 deg case temperature, no higher.
😎
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