Skip to content
Login Register

Ceramic Filters

High volume and various mounting configurations

Ceramic Filters are manufactured in two basic styles for both commercial and military applications. The high-volume, cost-effective units in open frame, non-hermetic packages are most often used in commercial applications. The lower volume, custom designed hermetic packages find wide usages in military applications. Both styles are available from UHF to C-band and in various mounting configurations. In both instances the same high “Q” coaxial resonators are used which yield low insertion loss and excellent stability over temperature. A low ripple Chebyshev transfer function is standard with bandpass filters, notch filters and diplexer available.

Download Brochure Filter Select Plus

Features & Benefits

  • Surface mount technology                        
  • Frequency Range 400 to 6,000 MHz      
  • Wide operating temperature range      
  • Light weight, small profile                         
  • Easy drop-in solution                                  
  • Quick turnaround                                         
  • Bandpass Filters
  • Notch Filters
  • Diplexed Filters
  • Multiplex Filters

Applications

  • Military/Radar
  • Commercial Aerospace
  • UAV
  • GPS
  • Test & Measurement
  • Communications
Product Series Center Frequency Bandwidth Temperature Range Power Handling Specificaiton Sheet
UHF Ceramic Filters   800 75 -20 to 70 deg. C   1W PDF
L-Band Ceramic Filters   1575 40 -20 to 70 deg. C   1W PDF
S-Band Ceramic Filters 2500 500 -20 to 70 deg. C   1W PDF


 

Overview

Our rigorous design, manufacturing & inspection criteria processes and procedures ensure RF filter products that are fully compliant to customer application’s unique specifications. Regardless of the application, our internal processes and procedures help ensure that all filters are fully compliant to customers’ specifications.
 

Documents & Literature

Related News

  • Image of Space Flare

    Optical Interconnect Design Challenges in Space

    Aeronautical applications face many design challenges that are unique to their intended environment. The best practices for optical interconnect design for space applications include the use of radiation-resistant technology to defend against space radiation, the use of components and devices that are designed to operate in harsh environments, and meeting size, weight, and power (SWaP) and long-term reliability requirements. Finally, it is recommended to follow open standards like VPX and to look for solutions that comply with MIL and quality standards.

  • Image of New Planar X Series of RF Filters

    New Planar X Series of RF Filters

    Board level ceramic based thick film RF filters with bandpass, bandstop, lowpass and highpass configurations up to 18 GHz (Ku Band).