Skip to content

Fixed Attenuators - High Power

We are the world leader in fixed attenuators from DC through Q band. Fixed attenuators are available in 0.1 to 400 W versions, covering DC to 50 GHz applications and offered in 0 to 30dB values. Our attenuators are available in several package styles.

Features & Benefits

Fixed attenuators are available in 0.1 to 400 W versions, covering DC to 50 GHz applications and offered in 0 to 30dB values. Our attenuators are available in several package styles including chip, tab & cover, flange and coaxial models for use in both low and high power applications. These products are available in standard commercial product as well as high reliability versions.

  • Substrates - BeO, AlN, and Alumina
  • Commercial and High Reliability Product Lines
  • Frequency Range from DC to 50 GHz
  • Attenuation Values from 0 to 30dB
  • Space and Military Qualified
  • Surface Mount, Wire-Bondable and Coaxial Configurations

Related News

  • Image of 24-lane 120G full-duplex embedded optical transceivers for high-density applications.

    24-lane 120G full-duplex embedded optical transceivers for high-density applications.

    New compact 120G full-duplex (12+12) 10.3125 Gbps/lane optical fiber transceivers for harsh environment applications in Aerospace and Defense. The LightABLEâ„¢ LL 120G full duplex devices are designed to be embedded on printed-circuit boards in close proximity to high-speed electronics in high performance embedded computing systems to optimize their operation.

  • Image of BGA electrical interface

    Understanding the Test Criteria of Optical Fiber Transceivers Used in Space

    In space, high performance components must be able to deliver reliably in the punishing environment. It is optical transceivers that drive transmissions, converting signals to and from a copper-resident format. Fiber optics communications provide high bandwidth and low latency signaling. Signal transmissions through fiber optic cables (FOCs) provide immunity to EM/RFI interference, crosstalk, and voltage level surges. Fiber optics’ accuracy and reliability exceeds traditional cabling. Covering 1,000 feet requires four pounds of FOC versus 39 pounds of copper wiring, and fiber optics also consume less energy than copper. To convert electrical signals from circuitries with copper output to fiber optics, optical fiber transceivers are usually required.