Combined surge arresters for the protection of one
isDN line for telecommunication equipment.
Available with rJ12 socket or with terminal.
The product is supplied with:
Universal plastic adapter for DiN rail mounting
Adapter for screw mounting
Fine surge arrester for the protection of one port of Ethernet, CAT.5 or CAT.6.
To be installed directly before equipment.
The product is supplied with:
Universal plastic adapter for DiN rail mounting
Adapter for screw mounting
Data PRO
Surge SPDs for the integration of analogic communications lines like modem, fax, phone, etc., or 75Ω coaxial cable, SAT or TV, or video systems TV-CC, in lightning protection equipotential bonding system.
The Bourns® Multi-Stage Protector (MSP®) 5-pin and station protectors provide superior protection by combining the best of two technologies: the high energy handling of a three-electrode Gas Discharge Tube with the quick response of solid-state Metal Oxide Varistors (MOVs). Bourns® MSP® product is the best...
The Bourns® Multi-Stage Protector (MSP®) 5-pin and station protectors provide superior protection by combining the best of two technologies: the high energy handling of a three-electrode Gas Discharge Tube with the quick response of solid-state Metal Oxide Varistors (MOVs). Bourns® MSP® product is the best...
The Bourns 1965 Series Coaxial Surge Protector is intended for use with low power VHF and UHF transmitters, 2-way base station
transceivers, and receive-only...
The Bourns 1965 Series Coaxial Surge Protector is intended for use with low power VHF and UHF transmitters, 2-way base station
transceivers, and receive-only systems. All models provide GDT technology. The 1965 arrester is symmetric and bidirectional. Either
end may be used for the input or output. Various power and voltage choices are available - see specifi cations below for proper
selection. Available with a choice of connectors.
Note: The arrester ground plate is common with the connector body; hence the coax cable shields will be grounded at their
connection to the arrester.