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N-Type terminators are high-performance RF terminations designed for applications requiring rugged connectors and excellent signal integrity. Supporting frequencies up to 18 GHz or more, they provide secure 50-ohm impedance matching in test systems, antennas, and transmission lines, especially in outdoor or high-power environments.

Base Products

TER18NF5W

TER18NF5W

RF TER, N, 18GHz, 5W, Female, Stainless Steel, Gold Plated, Wide Frequency, Reliable
TER18NM

TER18NM

RF TER, N, 18GHz, 2W, Male, Stainless Steel, Gold Plated, Wide Frequency, Reliable
TER18NM5W

TER18NM5W

RF TER, N, 18GHz, 5W, Male, Stainless Steel, Gold Plated, Wide Frequency, Reliable
TER18NF

TER18NF

RF TER, N, 18GHz, 2W, Female, Stainless Steel, Gold Plated, Wide Frequency, Reliable

Category Insights

N-Type terminators are used to absorb RF signals at the end of a transmission line or test port to prevent signal reflections. Their robust design makes them ideal for lab testing, telecom infrastructure, antennas, and outdoor systems that require durability and stable electrical performance.
Standard N-Type terminators typically support frequencies up to 11 GHz, while precision models can handle up to 18 GHz or higher. This wide frequency range makes them suitable for both low-frequency communication systems and higher-frequency testing environments.
Yes, many N-Type terminators are designed with weatherproof or ruggedized features, making them suitable for outdoor installations. Their threaded connection ensures strong mechanical stability and reliable performance even in challenging environmental conditions like moisture, dust, or vibration.
Yes, N-Type terminators are often available in high-power versions, capable of dissipating significant RF energy without degradation. Always check the power rating (e.g., 2W, 5W, 10W or more) to ensure the terminator is suitable for your application’s power level.
Standard N-Type terminators are suitable for general use and lower-frequency applications. Precision models are designed for high-frequency and low VSWR performance, ideal for demanding test environments. Choose based on your system’s frequency requirements, power handling needs, and mechanical durability preferences.