Hi everyone,

I've have always connected 5V inputs to my Raspberry Pi through a voltage divider (2 resistors). But I'm now wondering why ? What is the precise reason ?

Is a circuit like "5V-->Resistor-->GPIO" safe ? If not, why ?

Thank you very much.

closed as off-topic by Andrew Medico, ProgramFOX, easwee, Steven, Ajay S Dec 24 '14 at 20:33

This question appears to be off-topic. The users who voted to close gave this specific reason:

  • "Questions about general computing hardware and software are off-topic for Stack Overflow unless they directly involve tools used primarily for programming. You may be able to get help on Super User." – Andrew Medico, ProgramFOX, easwee, Steven, Ajay S
If this question can be reworded to fit the rules in the help center, please edit the question.


The reason you need 2 resistors to create a voltage divider is that is the easiest and safest way to have the 3,3V at the GPIO. It is not only a "best practice", there is a reason for it:

If you connect "5V-->Resistor-->GPIO" you are actually creating a voltage divider too. In this case the complete circuit would be "5V-->Resistor-->GPIO impedance-->GND". The problem with this circuit is that you have to take in consideration the GPIO impedance, and this is not always easy and accurate. Then it can be difficult to ensure that you never have more than 3,3V at the GPIO, and it could damage the GPIO.


In general isolating an input from higher voltage with just a resistor works but there are caveats.

This technique abuses the high side ESD protection diode on the input pad to clamp the voltage to something below Vih. The resistor is used to limit current through that diode. These internal diodes aren't really meant to be carrying current over extended periods of time and may eventually fail or cause latchup if used for a voltage clamp. It all depends on how robust they are made for a particular IC. For instance, most microcontrollers have beefier IOs and some may officially support this method to provide compatibility with higher input voltages. When this is the case they will typically be identified as 5V tolerant in their datasheet. The Broadcom SoC in the RPi may or may not be so forgiving.

A more robust solution is to add a Schottky diode between the pin and the device's power supply along with the series resistor. Because the Schottky has a lower threshold voltage than the silicon ESD diode it will carry the excess current before the internal diode becomes forward biased.

Microchip has a guide that discusses other ways to drive 5V into a 3.3V device. It is mostly applicable to other ICs. Avoid the direct connection shown in tip #9 as that only works for devices with sufficient resistance on their input pads which the Broadcom chip won't have.

  • Great explanation, thank you very much ! – armandkd Apr 24 '14 at 15:47

Not the answer you're looking for? Browse other questions tagged or ask your own question.