TNC (M) LMR-400 CLAMP

Description

The TNC Male LMR-400 Clamp connector is a high-performance RF component designed for reliable and efficient signal transmission in demanding applications. Its clamp termination provides a secure and vibration-resistant connection, making it ideal for long-term use in both indoor and outdoor RF systems. Optimized for LMR-400 coaxial cables, this connector ensures minimal signal loss and consistent performance across a wide frequency range.

Electrical Specifications:

• VSWR: ≤ 1.15 (0–3 GHz), ensuring minimal signal reflection and excellent transmission efficiency.
• Frequency Range: DC to 3 GHz, suitable for telecommunications, broadcast systems, wireless networks, and RF testing.
• Dielectric Strength: ≥ 2500V RMS, providing excellent insulation and protection from high-voltage breakdown.
• Characteristic Impedance: 50 ohms, ensuring low-loss signal transmission and compatibility with industry-standard RF systems.
• Center Contact Resistance: ≤ 1.0 mΩ, optimizing signal transfer and reducing power loss.
• Outer Contact Resistance: ≤ 0.25 mΩ, offering stable grounding and preserving signal integrity.

Mechanical Specifications:

• Connector Type: TNC Male, designed for use with LMR-400 coaxial cables, ensuring secure connections in tight spaces.
• Termination Method: Clamp, providing a robust and reliable connection, even in environments with high vibration or movement.
• Durability: Rated for up to 500 mating cycles, ensuring consistent performance over extended use.

Material and Plating:

• Material: Brass, ensuring high mechanical strength and long-lasting durability.
• Plating: Nickel-plated for corrosion resistance, with gold-plated center contacts to enhance conductivity and reduce signal degradation.

Environmental Specifications:

• Operating Temperature: -55°C to +85°C, making it suitable for operation in both extreme indoor and outdoor environments.

This TNC Male LMR-400 Clamp connector is perfect for RF communication systems, antenna connections, and industrial applications requiring low-loss performance, mechanical stability, and long-term durability in challenging environments.