Description
The 2N2222 is a legendary NPN bipolar junction transistor (BJT). It is one of the most famous transistors in electronics history, widely used for general-purpose switching and small-signal amplification. It is often found in both the metal-can (TO-18) package and the plastic (TO-92) package.
Key Specifications
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Transistor Type: NPN
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Maximum Collector Current ($I_C$): 600 mA (0.6 A)
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Collector-Emitter Voltage ($V_{CE}$): 40 V
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Power Dissipation ($P_C$): 625 mW
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Transition Frequency ($f_T$): 250 MHz (very fast for its class)
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Package Type: TO-92 (plastic) or TO-18 (metal can)
Pinout Configuration
The 2N2222 has the same E-B-C pinout as the 2N3904, which differs from the BC-series. When looking at the flat side of the TO-92 plastic package with the leads pointing down:
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Emitter
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Base
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Collector
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Comparison: 2N2222 vs. 2N3904
While both are NPN transistors and share the same pinout, the 2N2222 is physically larger and built for higher current loads.
| Feature | 2N2222 | 2N3904 |
| Max $I_C$ | 600 mA | 200 mA |
| Max $V_{CE}$ | 40 V | 40 V |
| Best For | Driving small motors/relays | Small signal amplification/logic |
Key Applications
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Power Switching: Because of its 600mA rating, it can easily drive small DC motors, solenoids, or banks of LEDs that would exceed the limits of a 2N3904 or BC547.
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Complementary Pair: The 2N2907 is the standard PNP complement to the 2N2222. They are frequently used together in push-pull stages or H-Bridge circuits for motor control.
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High-Speed Switching: Due to its excellent frequency response, it is a frequent choice for high-speed switching and pulse circuits.
Usage Best Practices
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Heat Management: While the 2N2222 is more robust than a BC548, if you are driving a load near 600mA, the transistor will get warm. Ensure your circuit board layout allows for some heat dissipation, or consider a small heatsink if using the metal-can (TO-18) version.
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Base Driving: To ensure the transistor is fully saturated (acting as a closed switch), use a base resistor. For a standard 5V logic signal, a $1\text{k}\Omega$ to $2.2\text{k}\Omega$ resistor is typically sufficient to drive the base of the 2N2222.
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Inductive Loads: Always use a flyback diode (like a 1N4007) across any inductive load (like a relay or motor) to protect the 2N2222 from damaging back-EMF spikes when the transistor switches off.

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