DIN - COAX

Our selection of DIN Coax connectors is engineered for high-performance RF signal transmission in telecom, broadcast, and industrial environments. Designed to provide excellent durability and low signal loss, these precision connectors ensure secure connections even at high frequencies. Supporting a wide operating temperature range from -55°C up to +125°C, our DIN Coax range is built to withstand harsh outdoor and industrial conditions. Whether you are working with base stations, antennas, or advanced testing equipment, these connectors offer the mechanical stability and electrical precision required for modern wireless infrastructure.

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PDIN-5DSF25SP41100NL

Datasheet
operatingtemperature: -55°C to 125°C
length-mm: 6
width-mm: 6

PDIN-5DSM25SP41100NL

Datasheet
operatingtemperature: -55°C to 125°C
length-mm: 6
width-mm: 6

RF Signal Integrity & Plating Options

To maintain superior conductivity and minimize intermodulation, our DIN Coax connectors offer various plating finishes, including high-grade Gold (Au) Flash and Silver (Ag) plating. These materials are chosen to provide optimal contact resistance and protection against corrosion over long-term deployment in telecom towers and broadcast facilities.

Versatile Configurations: Straight & Right-Angle

Every PCB and panel layout has unique spatial constraints. Our range includes:

  • Vertical (Straight) Mount: Ideal for direct board-to-cable connections where space is available vertically.

  • Right-Angle Designs: Perfect for compact enclosures or where cable strain relief is a priority. With mounting types available in Through-Hole (TH) and SMT, you can choose the best fit for your production process, whether it involves manual assembly or high-speed automated pick-and-place.

Engineered for Extreme Environments

Unlike standard consumer connectors, our DIN Coax series (such as the PDIN-5DS series) is rated for extreme temperatures (-55°C to +125°C). This makes them the reliable choice for aerospace and automotive testing where thermal cycling is frequent. Additionally, the robust mechanical design ensures low insertion loss and high return loss across the entire operating frequency spectrum.