VLLIS RF Narrowband Amplifiers leverage a spectrum of advanced technologies, including LDMOS for efficiency, GaN for high-frequency performance, GaAsFET discrete for precision, and Chip & Wire Hybrid for seamless integration. Designed to cater to applications where precision matters, our Narrowband Amplifiers cover frequency ranges from 1 GHz to 18 GHz.
Our Narrowband Amplifiers are available for operating frequencies within 18 GHz and with a variety of power ratings from 1W to 500W, providing the strength needed for communication, jamming, and a myriad of defense, scientific, and industrial applications. Whether you are in the field of communication, where signal accuracy is paramount, or in defense applications where precision is critical, VLLIS RF Narrowband Amplifiers offer the versatility to meet your specific needs.
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A narrowband amplifier is an electronic device designed to amplify signals within a specific or narrow frequency range. Unlike broadband amplifiers that operate across a wide frequency spectrum, narrowband amplifiers focus on amplifying signals within a limited bandwidth.
These amplifiers are commonly used in applications where signals are concentrated within a narrow frequency range, such as certain types of radio communication systems, wireless sensors, and instrumentation. The primary function of a narrowband amplifier is to selectively amplify signals within its specified frequency band while attenuating signals outside of this range.
Narrowband amplifiers are characterized by their high selectivity and precision in amplifying signals within the targeted frequency range. They are often utilized in scenarios where signal fidelity and accuracy are paramount, such as in radio receivers, medical devices, and scientific instrumentation.
RF power amplifiers offer versatile solutions tailored to your specific needs, with categories including high-power, medium-power, high-gain, and high-frequency amplification. They are designed to meet the requirements of various applications, providing customized solutions for a wide range of needs.
RF amplifier products encompass various types, including broadband amplifiers, gain block amplifiers, limiting amplifiers, linear amplifiers, low-noise amplifiers, power amplifiers, and variable gain amplifiers. We combine technology with reliability to provide top-tier solutions that meet diverse needs.
Microwave Amplifiers are built on advanced technology, ensuring real-world solutions for practical applications. These amplifiers excel in delivering reliable and efficient microwave signal amplification, making them ideal for telecommunications, scientific research, and aerospace industries. The emphasis is on practicality, offering solutions that cater to the unique demands of everyday applications.
Solid state power amplifiers ensure optimal performance across different frequency ranges, offering precision and efficiency in high-power, medium-power, high-gain, and high-frequency applications, tailored to meet the demands of modern communication, defense, and industrial applications.
GaN amplifiers harness the unique characteristics of gallium nitride to provide high power, wide bandwidth, and efficiency, making them indispensable components in applications that demand cutting-edge RF performance. Their versatility spans across industries from telecommunications to defense, capable of operating at high frequencies while maintaining stability, rendering them ideal solutions for radar systems, satellite communications, and electronic warfare applications.
LDMOS amplifiers combine power efficiency with reliable RF performance and find extensive applications across various industries, including telecommunications, radar systems, and broadcasting. Their ability to balance power efficiency and reliability makes them particularly suitable for scenarios where consistent RF performance is crucial.
RF pulse amplifier frequency from 1 GHz to 18 GHz, with power ranging from 50 W to 2000 W. It can alternate between intense pulses and brief pauses, ensuring amplification of RF signals without compromising waveform accuracy.
