The schematic is in the datasheet here.
If someone good help me with some of these it would be great!
1. I wonder about the Vbe multiplier they have displayed and talk about in the text. It says that 2.8mA is a good value to flow from BIASm to BIASp but out of interest how would I work this out not know the voltage presented by these two pins? I know it's knot a simple as putting a resistor there but I would like to know more.
2. Also they talk about a bias formula which I haven't got a clue about.
3. I prefer to use FETs so could I just use diodes and forget the Vbe because I don't have to worry about thermal runaway? I want to use IRFP240 and it's partner. How would I implement this?
Thanks
Boscoe
If someone good help me with some of these it would be great!
1. I wonder about the Vbe multiplier they have displayed and talk about in the text. It says that 2.8mA is a good value to flow from BIASm to BIASp but out of interest how would I work this out not know the voltage presented by these two pins? I know it's knot a simple as putting a resistor there but I would like to know more.
2. Also they talk about a bias formula which I haven't got a clue about.
3. I prefer to use FETs so could I just use diodes and forget the Vbe because I don't have to worry about thermal runaway? I want to use IRFP240 and it's partner. How would I implement this?
Thanks
Boscoe
Hi Boscoe,
Datasheet says
The LME49810 has two dedicated pins (BIASM and BIASP) for Bias setup and provide a constant current source of about 2.8mA.
so there's a current source and whatever voltage difference you want you can obtain by choosing suitable total resistance in your vbe-multiplier 😉
Fets are sensitive to thermal runaway! Their zero tempco point you refer to is at several amps for vertical types as the IRFP240!
Hannes
Datasheet says
The LME49810 has two dedicated pins (BIASM and BIASP) for Bias setup and provide a constant current source of about 2.8mA.
so there's a current source and whatever voltage difference you want you can obtain by choosing suitable total resistance in your vbe-multiplier 😉
Fets are sensitive to thermal runaway! Their zero tempco point you refer to is at several amps for vertical types as the IRFP240!
Hannes
Absolutely true!
IRFP240/9240 are very sensitive to thermal changes and if you don't fit some thermal feedback be ready for nasty surprise...
On the LME48910 datasheet there's also an application board using those very same mosfets you want... with VBE.
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