Directional coupler, also known as an RF directional coupler, is a passive device used in RF and microwave systems to split and combine signals with minimal loss. It enables power monitoring, signal sampling, and signal distribution in various applications, including telecommunications, radar systems, and test equipment. Different types of RF Directional Couplers like 5dB, 6dB, 7dB, 10dB, 12dB, 15dB, 15dB, 20dB, or 30dB are manufactured by SRFS TELEINFRA.
Choosing the wide range of 5G Directional Couplers have a frequency range is (698-4000 MHz) For more details visit the Website: www.srfsteleinfra.in or Call us: at 7838349349 & Email Us: at info@srfsteleinfra.in
Directional coupler, also known as an RF directional coupler, is a passive device used in RF and microwave systems to split and combine signals with minimal loss. It enables power monitoring, signal sampling, and signal distribution in various applications, including telecommunications, radar systems, and test equipment. Different types of RF Directional Couplers like 5dB, 6dB, 7dB, 10dB, 12dB, 15dB, 15dB, 20dB, or 30dB are manufactured by SRFS TELEINFRA.
Choosing the wide range of 5G Directional Couplers have a frequency range is (698-4000 MHz) For more details visit the Website: www.srfsteleinfra.in or Call us: at 7838349349 & Email Us: at info@srfsteleinfra.in
1.What is a directional coupler?
A directional coupler is a passive electronic device used in RF (radio frequency) and microwave systems to sample, combine, or separate RF signals with minimal loss from one port to another.
2. How does a directional coupler work?
A directional coupler works by using coupled transmission lines to achieve signal coupling between ports. It allows a portion of the signal power from the main line to be transferred to a coupled line, while maintaining directional properties that ensure minimal signal loss in one direction.
3. How does a directional coupler differ from a power splitter?
A directional coupler is designed to sample or couple a portion of the signal from one path to another with minimal loss and specific directional characteristics. In contrast, a power splitter divides an input signal into multiple output signals with equal or specified power distribution, typically without directional properties.