| Image | Part Number | Description / PDF | Quantity | Rfq |
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Roving Networks / Microchip Technology |
TRANS NPN 80V 3A |
0 |
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Roving Networks / Microchip Technology |
NPN POWER SILICON TRANSISTORS |
0 |
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Roving Networks / Microchip Technology |
NPN TRANSISTOR |
0 |
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Roving Networks / Microchip Technology |
TRANS NPN 300V 5A TO-66 |
0 |
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Roving Networks / Microchip Technology |
TRANS NPN 80V 5A TO59 |
0 |
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Roving Networks / Microchip Technology |
TRANS NPN 60V 0.05A |
0 |
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Roving Networks / Microchip Technology |
TRANS NPN DARL 100V 12A TO3 |
0 |
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Roving Networks / Microchip Technology |
SMALL-SIGNAL BJT |
0 |
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Roving Networks / Microchip Technology |
TRANS PNP DARL 100V 20A TO-3 |
0 |
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Roving Networks / Microchip Technology |
NPN POWER SILICON TRANSISTORS |
0 |
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Roving Networks / Microchip Technology |
NPN SILICON TRANSISTOR |
0 |
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Roving Networks / Microchip Technology |
NPN SILICON TRANSISTOR |
0 |
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Roving Networks / Microchip Technology |
TRANS PNP 80V 5A TO254 |
0 |
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Roving Networks / Microchip Technology |
TRANS NPN 300V 2A TO-66 |
0 |
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Roving Networks / Microchip Technology |
TRANS PNP 60V 0.6A 4UA |
0 |
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Roving Networks / Microchip Technology |
NPN TRANSISTOR |
0 |
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Roving Networks / Microchip Technology |
TRANS NPN 15V 0.05A UB |
0 |
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Roving Networks / Microchip Technology |
NPN TRANSISTOR |
0 |
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Roving Networks / Microchip Technology |
NPN SILICON TRANSISTOR |
0 |
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Roving Networks / Microchip Technology |
NPN TRANSISTOR |
0 |
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Bipolar Junction Transistors (BJTs) are three-terminal semiconductor devices that use both electron and hole charge carriers. They form the foundation of analog electronics through their ability to amplify signals and control current flow. BJTs remain critical in modern electronics for applications ranging from audio amplifiers to power management circuits, offering superior linearity and robustness in switching operations.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| NPN Transistor | Majority carriers: electrons. Requires positive base current for conduction. | Low-noise amplifiers, digital logic circuits |
| PNP Transistor | Majority carriers: holes. Conducts with negative base current. | Power supply circuits, motor controllers |
| High-Frequency BJT | Optimized for RF/microwave signal amplification (fT > 100 MHz) | Wireless communication systems, radar |
| Power BJT | High current/voltage ratings (IC > 1A, VCE > 50V) | Switch-mode power supplies, motor drives |
BJTs consist of three doped semiconductor regions forming two p-n junctions:
Manufactured using silicon (common) or germanium (historic) with planar processing technology. The structure forms either NPN (n-type emitter/base/collector) or PNP configuration, with metal contacts for external connections.
| Parameter | Description | Importance |
|---|---|---|
| Current Gain (hFE) | Ratio of collector to base current (10-1000) | Determines amplification capability |
| Transition Frequency (fT) | Frequency at which current gain drops to 1 | Limits high-frequency performance |
| Max Collector Current (ICmax) | Maximum allowable continuous collector current | Defines power handling capability |
| Breakdown Voltage (VCEO) | Max voltage between collector and emitter | Prevents device failure under stress |
| Saturation Voltage (VCEsat) | Voltage drop in fully conducting state | Affects power efficiency in switching |
| Manufacturer | Product Series | Key Specifications | Typical Use |
|---|---|---|---|
| ON Semiconductor | 2N3904 | hFE: 100-300, fT: 300 MHz | General-purpose switching |
| Infineon | BC547 | VCEO: 50V, ICmax: 100mA | Analog signal amplification |
| STMicroelectronics | 2SD2656 | ICmax: 15A, VCEO: 80V | Power inverter applications |
| Diodes Inc. | BFR93A | fT: 10 GHz, Noise Figure: 2dB | High-frequency front-end amplifiers |
Future developments include: