The 1.0mm Male to 1.85mm Female RF Adapter 1.0/1.85-JK1, also offered as 1.85mm Female to 1.0mm Male RF Adapter 1.85/1.0-KJ1, is expertly crafted for high-frequency RF applications, offering precise connectivity from a 1.0mm male to a 1.85mm female interface. This between-series adapter is ideal for systems where seamless signal transition between different connector formats is essential to ensure optimal performance.
Engineered to support frequencies up to 67 GHz and designed with a standard 50 Ω impedance, this adapter enables high-fidelity signal transmission across a wide range of advanced RF environments. It is particularly well-suited for interconnects for avionics modules, where high-reliability signal routing is required in compact aerospace platforms. Additionally, this RF adapter plays a key role in ADAS testing systems used in automotive radar validation and signal analysis workflows. For engineers and integrators working with evolving test and mission-critical designs, the 1.0/1.85-JK1 RF adapter ensures high repeatability and robust performance under demanding conditions.
This 1.0mm Male to 1.85mm Female RF Adapter maintains an insertion loss of less than 0.5 dB and a VSWR below 1.25 at 67 GHz, which ensures excellent signal integrity, even at the highest operating frequencies. It features a gold-plated beryllium bronze inner conductor and a passivated stainless steel outer conductor for superior durability and long-term resistance to corrosion.
With an operating temperature range of -55°C to +165°C, this 1.0mm male to 1.85mm female RF adapter performs reliably across both laboratory testing and field-deployed environments, from aerospace flight modules to automotive radar benches.
REACH and RoHS compliant, this adapter reflects Mechanc’s dedication to sustainability, safety, and compliance with international standards. As with all Mechanc components, custom configurations of the 1.0mm to 1.85mm male-to-female adapters are available to meet your unique project requirements, ensuring precision-engineered performance across every use case.