Simply use a 6N137 optocoupler, but you will need a mosfet driver for each mosfet..
Fredos
www.d-amp.com
Fredos
www.d-amp.com
Bad move with your IC...Use and inverting with the 6N137 and non-inverting with the lower side..
Fred
www.d-amp.com
Fred
www.d-amp.com
As the datasheet makes obvious at first look, the ICs of that family (MAX626/627/628) are plain dual gate drivers, with both halves sharing the same power supply pins. Thus, there is no way in which you could drive a half-bridge-like class D output stage with one of these ICs.
Not only level shifting is required, but also independent or floating gate buffers are. You can either design a discrete solution, or use an IC having all those features built in, like IR2112, IR2110 or IR2113.
Also, there are standard and fast optocouplers like 6N137 whose practical propagation delay is in the range of 50ns. However, be very careful when using optocouplers because they don't provide perfect AC isolation but only DC isolation. There are internal capacitances between the input and the output sections of the IC that will disturb the state of the output if a certain common-mode dV/dt slope is exceeded during switching transients. You will find those dV/dt inmunity ratings on datasheets, and even in the best optocouplers from Avago (formerly Agilent or HP) the rated dV/dt (up to 15KV/us) may become quite short considering the fast rise and fall times involved in class D (expect something like 100V in 40ns or less). Indeed, I can tell that simple optocouplers like 4N25 are extremely easy to disturb.
I feel that you should learn more about switching circuits before starting class D experimentation, otherwise plenty of component blowing disasters may arise.
Not only level shifting is required, but also independent or floating gate buffers are. You can either design a discrete solution, or use an IC having all those features built in, like IR2112, IR2110 or IR2113.
Also, there are standard and fast optocouplers like 6N137 whose practical propagation delay is in the range of 50ns. However, be very careful when using optocouplers because they don't provide perfect AC isolation but only DC isolation. There are internal capacitances between the input and the output sections of the IC that will disturb the state of the output if a certain common-mode dV/dt slope is exceeded during switching transients. You will find those dV/dt inmunity ratings on datasheets, and even in the best optocouplers from Avago (formerly Agilent or HP) the rated dV/dt (up to 15KV/us) may become quite short considering the fast rise and fall times involved in class D (expect something like 100V in 40ns or less). Indeed, I can tell that simple optocouplers like 4N25 are extremely easy to disturb.
I feel that you should learn more about switching circuits before starting class D experimentation, otherwise plenty of component blowing disasters may arise.
Look good, but power supply limted to abou 18V if you use 12V bootstrap voltage...Good for experimentation!
fred
www.d-amp.com
fred
www.d-amp.com
That IC includes a floating high side driver (what you should look for) but has very low voltage ratings. It's intended to drive logic level MOSFETs with 5V applied to the gates, and the absolute maximum voltage that can be switched is 25V.
Keep searching.
Also, you can still find some application for the MAX628 samples. For example you may just use them as single gate drivers (allowing to conveniently choose between the inverting half or the other half), together with an external level shifter for the upper side that may be as simple as one or two transistors.
Be creative, and check carefully the datasheets before ordering anything!
Keep searching.
Also, you can still find some application for the MAX628 samples. For example you may just use them as single gate drivers (allowing to conveniently choose between the inverting half or the other half), together with an external level shifter for the upper side that may be as simple as one or two transistors.
Be creative, and check carefully the datasheets before ordering anything!
"Only for qualifield designers"Tekko said:
Is it possible to get free samples from IRF ?
They are not that expensive, so why dont you just order some.
Alittle too expensive as 2-3 of these may blow up before the amp starts working.
Tho i have found a schematic here that i gonna go with.
It has not left the editor/simulator yet tho. Maybe the Author of the schematic has comments about it ?
Tho i have found a schematic here that i gonna go with.
An externally hosted image should be here but it was not working when we last tested it.
It has not left the editor/simulator yet tho. Maybe the Author of the schematic has comments about it ?
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