To go from 5V to 3.3V, I could do so with two common and one Schottky diode in series to get about the right voltage.
For some current, I, flowing, would the diodes have to dissipate per Ohm's law per diode of heat?
so 0.7V times I amps for the standard diodes?
Is this a bad way to avoid putting in a 3.3V regulator chip/heat sink?
The load is about 180mA at 3.3V.
diodes in series to reduce voltage
Re: diodes in series to reduce voltage
Yes. Every electronic component dissipates heat calculated as I*V where I is the current through it and V is the voltage drop across it. That said, as long as I is less than the specified maximum for the diode and you're complying with the manufacturer's recommendation, if any, for heat sinking, you're good to go.stevech wrote:For some current, I, flowing, would the diodes have to dissipate per Ohm's law per diode of heat?
Of course, "badness" is in the eye of the beholder. It is a "cheap and easy" way to drop voltage if the current is fairly consistent. To understand the issue, consider a "typical" I-V curve for a diode shown in the attached image. As the current through the diode varies, the voltage drop across it varies. The change depends on where you are on the curve.stevech wrote:Is this a bad way to avoid putting in a 3.3V regulator chip/heat sink?
There are 3.3V LDO regulators designed to be operated on 5V that are just about as simple to use as the diodes. Cost, however, is a separate issue.
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