MIL-DTL-83513 Filter Connectors
Offering space savings over the more popular D-Sub connectors, these filtered Micro-D connectors meet the harsher requirements of the military specification while offering the same insertion loss and attenuation performance found in our circular connectors. Note, that in this series, the pin contacts represent the 'plug' style connector while the socket mating contacts are the 'receptacle'. Jerrik offers a full complement of shell sizes and arrangements for both shell types.
Like the D-Sub family, the shell size varies based on the number of contacts specified. This family offers six arrangements from 9 to 37 pins. Jerrik offers a variety of contact tail lengths that are specified by the customer. The bases for the standard Jerrik Micro-D family are the M83513/03 pin and M83513/04 socket connectors, pre-wired with straight wire tails. Other higher pin count configurations are available but require special packaging. Please consult the factory with your requirements. In addition to straight wire tails, the customer can also request pig tail cable terminations for longer cable stretches inside their next level assembly.
High quality dielectric materials include a Liquid Crystal Polymer insulator over the pins. The interfacial seals are fluoro-silicone rubber. Contact materials are copper and beryllium copper with gold over nickel plating for pins and copper alloy with gold over nickel plating for sockets. Current rating for these very high density connectors is 3 amps maximum. The insulation resistance is 5000 Meg-ohms at 500 volts DC.
Plated aluminum alloy shells and stainless steel shells are offered with various finish detail, just like the D-Sub family. Shell options also include board mount styles and hex nut mounting accessories. Let us know your needs.
Advantages of this family include space savings and enhanced EMI protection via shell design and the twist pin male contact. This style of pin offers reliability of continuous contact in severe vibration and temperature environments while maintaining low electrical resistance for mated pairs.
