MOSFET Gate Resistor
Do you need a MOSFET gate resistor? What value should it be? And should it go before or after the pulldown resistor?
If you’re a bit impatient and just want the answer, here it is: You most likely need a gate resistor. And 1000 Ω will most likely work. See the circuit diagram below for connecting your MOSFET gate resistor (the Pull-down resistor is optional):
Why Do You Need a Gate Resistor?
In , we briefly touched upon that gate-to-source of a MOSFET acts as a capacitor.
And a capacitor works like this:
- When a capacitor is charging – current flows through it. A lot in the beginning, then less and less.
- When a capacitor is fully charged – no current flows through it.
When your MOSFET is turned on, its gate-source capacitor is fully charged. So there is no current flowing through the gate.
But when your MOSFET is being turned on, you’ll have a current that is charging this gate-source capacitor. So for a small fraction of a second, there can be a lot of current flowing.
To make sure this short burst of current isn’t too high for your /Raspberry Pi/ (or whatever you’ve connected it to) you need to add a resistor in series between the output pin and the MOSFET transistor’s gate:
Choosing A Resistor Value
Often 1000 Ω is a good enough value for this. But it depends on your circuit.
You can calculate the maximum current you get from a resistor by using Ohm’s law for current:
For example in the case of Arduino that has 5V on its output pins, 1000 Ω gives you a maximum current of 5 mA (and Arduino pins can handle up to 40 mA):
Keep in mind that the higher resistance you are using, the slower the MOSFET will turn on.
MOSFET Gate Resistor Placement
Are you using a pulldown resistor for your MOSFET? Then remember that if the gate resistor is placed to the left of the pulldown resistor, you get a that will reduce the voltage to the gate:
If you have chosen a gate resistor that is at least 100 times smaller than the pulldown resistor, then the reduction in voltage is so small that it doesn’t matter. But if they are a bit closer in value, the voltage on your gate will be lower than the pin voltage.
The solution? Switch places between the two so that the pulldown resistor is connected directly to the output pin: