BLF6G20-110,112
Product Category: RF Power Transistor
Basic Information Overview: - Category: Electronic Component - Use: Amplification of Radio Frequency Signals - Characteristics: High Power, High Frequency, Low Distortion - Package: SOT539A (LFPAK56) - Essence: Gallium Nitride (GaN) RF Power Transistor - Packaging/Quantity: Tape and Reel, 800 units per reel
Specifications: - Frequency Range: 0.03 - 2.5 GHz - Output Power: 20 W - Gain: 16 dB - Efficiency: 65% - Voltage: 28 V - Current: 10 A - Operating Temperature: -40 to 150°C
Detailed Pin Configuration: - Pin 1: Gate - Pin 2: Drain - Pin 3: Source - Pin 4: Not Connected - Pin 5: Not Connected - Pin 6: Not Connected
Functional Features: - High Power Density - Broadband Performance - High Efficiency - Excellent Thermal Stability
Advantages: - Compact Size - High Power Output - Wide Frequency Range - Enhanced Efficiency
Disadvantages: - Higher Cost Compared to Traditional Transistors - Sensitive to Voltage Spikes
Working Principles: The BLF6G20-110,112 operates based on the principles of GaN technology, where the high electron mobility and wide bandgap properties of GaN allow for efficient power amplification at high frequencies. When a radio frequency signal is applied to the gate, the transistor amplifies it and delivers a high-power output at the drain terminal.
Detailed Application Field Plans: - Telecommunications Infrastructure - Radar Systems - Wireless Base Stations - Satellite Communications - Medical Equipment
Detailed and Complete Alternative Models: - BLF6G20LS-110,112 - BLF6G20-110,113 - BLF6G20-110,114
This RF power transistor, BLF6G20-110,112, offers high performance in amplifying radio frequency signals with its GaN technology, making it suitable for various applications in telecommunications, radar systems, and wireless communications.
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What is the BLF6G20-110,112?
What is the maximum power output of the BLF6G20-110,112?
What frequency range is the BLF6G20-110,112 suitable for?
What are the typical applications for the BLF6G20-110,112?
What is the recommended operating voltage for the BLF6G20-110,112?
What are the key features of the BLF6G20-110,112?
What are the thermal considerations when using the BLF6G20-110,112?
Can the BLF6G20-110,112 be used in multi-carrier and wideband applications?
What are the typical input and output impedance values for the BLF6G20-110,112?
Are there any specific precautions or considerations when integrating the BLF6G20-110,112 into a technical solution?