Low PIM Coaxial Cables

Type

    Cable jacket

      Length

        Interface 1: Size

          Interface 1: Gender

            Interface 1: Direction

              Interface 1: Locking

                Interface 2: Size

                  Interface 2: Gender

                    Interface 2: Direction

                      Interface 2: Locking

                        Low PIM Coaxial Cables

                        Cables are among the most-used components in testing labs and measurement environments. SPINNER has developed exceptionally good low PIM Spinner Flex® TopFit SF 3/8” and SF 1/2” test cables. Extra-long anti-kink sleeves make them highly robust, outstanding reliable and very long-lasting. Both ends can be flexibly and customized terminated, also with right-angle connectors or fixed sockets. For Low PIM measurements, SPINNER recommends 4.3-10 and 7-16 connectors. All Low PIM coaxial cables are 100% approved and documented with optional available measurement protocols after fabrication. SPINNER offers standard cable lengths of 0.5 m to 4 m and on request customized lengths from 0.13 m up to a maximum of 30 m can be manufactured. These high-quality measurement cables are especially and solely developed for indoor use only, this means the connector interfaces are without O-ring sealing.

                         

                        If you can’t find a Low PIM Coaxial Cable according to your specifications online, please contact our sales team with the specification needed per email or select one of the displayed products for a Quote Request and add your special requirements in the comment field of the form before submitting.

                        SPINNER RF components meet highest standards

                        SPINNER applies extremely high standards regarding quality, engineering, materials and manufacturing e.g. DIN EN ISO 9001 - Quality Management, DIN EN ISO 14001 - Environmental Management and ISO 50001:2011 - Energy Management. This enables us to offer Low PIM Coaxial Cables with the best possible performance and lowest possible intermodulation.