Adapters & Specialty

Bag of 10. 10dB Standard Fized Attenuator. Highly accurate (5%) and made with precision SMD components. Frequency from DC-3GHz with greater than 20dB return loss at 1GHz. All brass body. 10dB Attenuation
Bag of 10. 6dB Standard Fixed Attenuator. Highly accurate (5%) and made with precision SMD components. Frequency from DC-3GHz with grEater than 20dB return loss at 1GHz. All brass body.
Bag of 10. 3dB Standard Fixed Attenuator. Highly accurate (5%) and made with precision SMD components. Frequency from DC-3GHz with greater than 20dB return loss at 1GHz. All brass body.
F Jack to F-Quick Plug. Commercial Grade F Series Adapters. Suitable for Coaxial Networks Used in Video, Data and Telephony Applications. Nickel- or Gold-Plated Brass/Zinc Construction.
Voltage Blocking Coupler.  • Blocks DC • Solid brass body with nickel plating • Female to male fittings • 22-gauge spring steel center pin
Commercial Grade F Series Adapters. Suitable for Coaxial Networks Used in Video, Data and Telephony Applications. Nickel- or Gold-Plated Brass/Zinc Construction  
This F male to RCA female adapter connects an RCA type cable to an F type coax input. Very useful for A/V receivers and amplifiers. Sold individually. This adapter can connect a RCA type cable to an input designed for F type coax.
This BNC male to F female adapter is great for A/V connections where RG-6 cable is being used and then terminated into a BNC type connection. Sold individually. This adapter is a must when using existing RG-6 cable with the F connectors already on the cable and you need to terminate into a BNC type connection. (primarily used in commercial applications and security cameras)  
Use this F female to RCA male adapter to terminate RG-6 cable into an RCA-type connection. Sold individually. This adapter is great for audio/video connections where coax is being terminated into an RCA connection.
Female to Female RCA Coupler. Corrosion resistant design. 2-gold plated RCA type female connectors. Precise connection lowers signal resistance for improved signal transfer.