24v driven MosFET

**netstranger.nz** · - 15th May 2012, 09:08

TC4431
TC4432
P and N in one application (to be more general) say for an H bridge

**Ioannis** · - 15th May 2012, 09:26

I will give you an idea on P driver because I had a similar problem. Needed to drive a P-Mosfet from a PIC and the load was operating on 24V battery (up to 28,5 volts fully charged).

I ended with a small mosfet from PIC output driving a resistive divider to the P-Mosfet,because of the Vgs as you noted.

Name: P-Mosfet driver.png
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Name: P-Mosfet driver.png
Views: 12713
Size: 4.9 KB

Ioannis

**netstranger.nz** · - 18th May 2012, 07:53

Thanks a lot Ioannis for waking me up. I've completely forgotten that often Mosfets do not need much current to switch them on/off. Name: STP60 12v 7_52A load.jpg
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Name: STP60 12v 7_52A load.jpg
Views: 6462
Size: 212.7 KB

Attached is the oscillogram showing some delay on switch_OFF. The FET is driven by PIC through 10k and 330R respectively.
I've got a question then. In what situation would one need a 3A FET driver. Considering 5/330 = 0.015A does a pretty good job as seen above.

**Ioannis** · - 18th May 2012, 09:32

I cannot understand how is your circuit. Please attach it to see what you have done.

About the driver FET, the one I select was based on price, availability, size and speed.

Remember that when you try to switch ON the Power mosfet, you try to bring low the gate. The gate is at that moment a capacitor charged at 24 volts and discharged through the small FET and the 470 or 330 resistor.

Also remember that the resistor on my schematic should be at least 1/2 watt because when the small MOSFET is ON, they draw a current of at least 16mA and this leads to power loss of 0.391 Watts!

Ioannis

**netstranger.nz** · - 18th May 2012, 23:18

Name: STP60NFL.jpg
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Here it is. Sorry I didn't mention it is an N FET. Yellow line is 2V/div and is the drain against the earth, purple line is 1V/div and is the gate against the earth. Zero level is where the little purple arrow on the left is (one div of the bottom). There are two oscillograms merged together: left was obtained with the 10k resistor to the gate, right one with 330R to the gate. Both oscillograms are taken on the OFF. The left graph (yellow line) shows that it takes 70 uS to drain the gate charge, when the right one (330R to the gate) only around 10uS.
Long story cut short - even 330R (very high compare to the internal impedance of a TC4424 3A peak 0.6A realistic continuous) is enough to drive the FET at quite a considerable load (the switching time is affected by the load current), if 10uS is acceptable switching time. Just to compare the time to something a 30A relay takes 5mS to switch ON and 2mS to switch OFF.
I think your schematic shows that it is possible to avoid using high current driver and simplify the drive circuit to suit the 24v environment.