Gilbert GRS-500-CH-DU-03-T 500 3 Piece Pin Connector
Conditon: New
Product Overview: The Gilbert GRS-500-CH-DU-03-T is a high-performance, 3-piece pin-type connector designed for 0.500" hardline coaxial cables, specifically Commscope P3 and Times Fiber T10. Engineered for use in high-bandwidth, two-way, and digital communication systems, this connector ensures reliable signal transmission in demanding environments.
Key Features:
Independent Seizing Mechanism: Provides separate engagement of the cable's center and outer conductors during installation, ensuring secure connections and accommodating potential tolerance mismatches between the cable and connector.
Durable Construction: Manufactured from ASTM 6000 aluminum alloy with a gold chromate conversion coating for excellent corrosion resistance. The connector also features a dry film lubricant to prevent thread galling.
High Electrical Performance: Offers low insertion loss (<0.15 dB) and high return loss (30 dB), maintaining signal integrity across a frequency range of 5 MHz to 1 GHz.
Conditon: New
Product Overview: The Gilbert GRS-500-CH-DU-03-T is a high-performance, 3-piece pin-type connector designed for 0.500" hardline coaxial cables, specifically Commscope P3 and Times Fiber T10. Engineered for use in high-bandwidth, two-way, and digital communication systems, this connector ensures reliable signal transmission in demanding environments.
Key Features:
Independent Seizing Mechanism: Provides separate engagement of the cable's center and outer conductors during installation, ensuring secure connections and accommodating potential tolerance mismatches between the cable and connector.
Durable Construction: Manufactured from ASTM 6000 aluminum alloy with a gold chromate conversion coating for excellent corrosion resistance. The connector also features a dry film lubricant to prevent thread galling.
High Electrical Performance: Offers low insertion loss (<0.15 dB) and high return loss (30 dB), maintaining signal integrity across a frequency range of 5 MHz to 1 GHz.