The 2N3906 are a good general purpose PNP transistor for low power amplification and switching.
- Qty 10 – 2N3906 PNP General Purpose Transistors
KEY FEATURES OF 2N3906 PNP GENERAL PURPOSE TRANSISTOR:
- PNP Bipolar Silicon construction
- Standard EBC pin-out in TO-92 package
- Up to 40V collector-emitter and 40V collector-base
- Up to 200mA current
- 100MHz switching speed
The 2N3906 are a good inexpensive general purpose PNP transistor for low power amplification and switching and should be part of every parts bin.
These can be very handy when you need to boost the output of a uC pin to drive something that it can not drive directly. PNP transistors are generally used in high-side switching applications where they are connected between the load and power.
Here is a simple example circuit. We have an LED indicator that we want to drive. The indicator consists of 3 LEDs which each draw 20mA of current.
A uC pin can easily drive an LED at 20mA, but this will require 60mA which is outside the range of the typical uC drive capability. You could use 3 pins on the uC to drive the 3 LEDs, but that is a waste of pins unless you have pins to spare. This simple circuit allows you to drive all three LEDs off the same uC pin.
The 4.7K resistor on the base is there to limit the current out of the uC pin to safe levels and the value is not overly critical. A 1K or 10K will also work.
The 50 ohm resistor sets the overall current for the 3 LEDs. This value may vary a bit depending on what LEDs are being used. The example assumes an LED voltage drop of 2V, so R = (5V – Vled) / 60mA = 50 ohms. Power through the that resistor is P = 60mA * 3V = 180mW so a 1/4W resistor will work, though a 1/2W would be a better choice for long-term use. Using two 100 ohm 1/4W resistors in parallel would be another approach.
If you need a little beefier PNP transistor, look at our PN2907 which can support up to 800mA.
- These transistors may come with straight or preformed leads.
|Package Type||Plastic, 3-lead, through hole|
|Mfr||Fairchild / ON Semi|