SMA M RP LMR 200 CRIMP

Description

The SMA Male Reverse Polarity (RP) LMR 200 Crimp Connector is a 50Ω impedance RF connector specifically designed for LMR 200 coaxial cables. It supports frequencies up to 4 GHz, ensuring low signal loss, high performance, and reliable connections for wireless systems, RF testing, telecommunication equipment, and IoT applications. Its reverse polarity (RP) design makes it compatible with specialized RF systems, and the crimp termination provides secure assembly and durability in demanding environments.

Electrical Specifications:

• Impedance: 50Ω – Optimized for high-efficiency signal transmission.
• Frequency Range: Up to 4 GHz – Suitable for high-frequency applications.
• VSWR: ≤ 1.15:1 – Ensures minimal reflections and excellent impedance matching.
• Contact Resistance:
  • Center Contact: ≤ 3mΩ – Minimizes power loss.
  • Outer Contact: ≤ 2.5mΩ – Ensures stable electrical performance.
• Dielectric Resistance: ≥ 5000MΩ – Provides high insulation and reliability.

Mechanical Specifications:

• Connector Type: SMA Male Reverse Polarity (RP) for LMR 200 coaxial cables.
• Termination Method: Crimp – Ensures a strong and durable connection.
• Durability: Rated for 500 mating cycles – Provides long-term performance and reliability.

Material and Plating:

• Body Material: Brass – Offers mechanical strength and durability.
• Plating: Gold-plated contacts – Enhances conductivity and prevents corrosion.
• Insulator: PTFE – Ensures high dielectric strength and thermal stability.

Environmental Specifications:

• Operating Temperature: -40℃ to +85℃ – Suitable for harsh environments.
• RoHS Compliant – Manufactured using environmentally safe materials.

Key Features:

• 50Ω impedance for high-efficiency signal transmission.
• Reverse polarity (RP) configuration for specialized RF applications.
• Crimp termination for secure assembly and easy installation.
• Gold-plated contacts for corrosion resistance and superior conductivity.
• Operates up to 4 GHz, suitable for wireless systems and RF testing.