| Image | Part Number | Description / PDF | Quantity | Rfq |
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Microsemi |
RF TRANS NPN 36V 30MHZ M113 |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF TRANS NPN 20V 1.09GHZ M220 |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF TRANS 65V 1.15GHZ M220 |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
TRANS NPN 15V 200MA |
0 |
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Microsemi |
RF TRANS NPN 30V 400MHZ 55FT |
0 |
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Microsemi |
RF TRANS NPN 16V 870MHZ MACRO X |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF TRANS NPN 24V 860MHZ 55FT |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF TRANS NPN 25V 1.15GHZ M220 |
0 |
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Microsemi |
RF TRANS NPN 55V 1.215GHZ M222 |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Microsemi |
RF POWER TRANSISTOR |
0 |
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Radio Frequency Bipolar Junction Transistors (RF BJTs) are three-layer semiconductor devices optimized for amplification and switching in high-frequency applications (typically >100 MHz). These transistors maintain stable performance in microwave and ultra-high frequency (UHF) ranges, characterized by high current gain-bandwidth product (fT), low noise figures, and fast switching capabilities. Their importance in modern technology spans wireless communication infrastructure, radar systems, and RF test equipment, enabling efficient signal transmission and reception in 5G networks, satellite communications, and IoT devices.
| Type | Functional Features | Application Examples |
|---|---|---|
| NPN RF BJT | High electron mobility, optimized for low-noise amplification | 5G base station LNAs, GPS receivers |
| PNP RF BJT | Complementary design for power amplification | RF power modules, automotive radar |
| RF Darlington Pair | High (current gain), cascaded amplification | Antenna drivers, industrial RF heaters |
| Heterojunction Bipolar Transistor (HBT) | Compound semiconductor materials (SiGe/GaAs), ultra-high fT | Optical communication transceivers, mmWave systems |
Typical RF BJT structure includes:
Advanced designs incorporate air-bridge structures to minimize parasitic capacitance and epitaxial layers for improved frequency response.
| Parameter | Description | Typical Range |
|---|---|---|
| fT (Transition Frequency) | Current gain cutoff frequency | 1 GHz - 100 GHz |
| GUM (Max. Available Gain) | Power gain at optimal impedance | 10 dB - 30 dB |
| Pout (Output Power) | RMS power capability | 0.1 W - 500 W |
| NF (Noise Figure) | Signal-to-noise degradation | 0.3 dB - 5 dB |
| VCE0 (Breakdown Voltage) | Collector-emitter withstand voltage | 5 V - 80 V |
| (Junction Temperature) | Thermal stability limit | 150 C - 200 C |
| Manufacturer | Representative Product | Key Specifications |
|---|---|---|
| Infineon Technologies | BFP740F | fT=50 GHz, NF=0.8 dB, Pout=18 dBm |
| STMicroelectronics | STAG2141 | 2.7 GHz dual-stage amplifier, 32 dB gain |
| Skyworks Solutions | ASK24011 | 0.05-6 GHz, 50 W GaAs power transistor |
| ON Semiconductor | MRF151G | 125 W, 880 MHz, 40% efficiency |
Key considerations:
Future development directions: