The SMA 27G 2 Hole Flange Mount Jack Receptacle is precision-designed for your high-frequency connectivity requirements, providing exceptional performance and reliability in demanding applications.
Frequency range covers 0-26.5 GHz, this SMA connector ensures communication quality, achieving optimal signal integrity at 18 GHz with VSWR of 1.17 max and 1.21 max at 26.5 GHz, minimizing insertion loss to 0.3 dB max.
Safety first—the SMA 27G connector can handle various challenges. Featuring 335V rms working voltage with 1000V rms dielectric withstanding voltage, ensuring reliable connector operation even under harsh conditions.
Maintaining excellent electrical characteristics with insulation resistance minimum 5000 Megohms, specified contact resistance for center contact at 3.0 milliohms max and outer contact at 2.0 milliohms max.
Efficiently handling power, featuring 220W power handling capability, ideal for moderate power requirement applications. This connector is designed durably, withstanding 500 mating cycles to ensure lasting and robust connections.
Installation is straightforward through this connector's 2 hole flange mount design, providing stability and ease of use. Center contact retention features 6 lbs axial force, ensuring secure and reliable connections.
Manufactured from high-quality materials, connector body is manufactured from stainless steel, providing durability and corrosion resistance. Center contact is manufactured from beryllium copper, ensuring superior conductivity and durability. PTFE insulation further enhances connector durability, making it suitable for operation in harsh environments.
Operating across temperatures from -65°C to 165°C, passing rigorous testing including MIL-STD-202 Method 204 Condition D for vibration and MIL-STD-202 Method 101 Condition B for salt spray testing.
Choose the SMA 27G 2 Hole Flange Mount Jack Receptacle for reliable high-performance connections. This is not just a connector—it's a solution designed for excellence. For custom services, contact our sales team for more information.
