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DC-26.5GHz 2W SMA Male Coaxial Termination

DC-26.5GHz 2W SMA Male Coaxial Termination

SKU T26G-2W-SM-04
Availability:
20 in stock, ready to be shipped
Availability:
10 in stock, ready to be shipped
$152.00 - $340.00
$152.00
$152.00 - $340.00
$152.00

Excellent VSWR: 1.10:1 typ / 1.20:1 max

Power: ≤2W

Durability: >500 Cycles

Operating Temperature: -55°C ~+125°C

Pack Size: 4 Pack

WHY CHOOSE THIS TERMINATION?

  • Superior Signal Absorption – Effectively dissipates RF energy to minimize unwanted reflections.
  • Optimized Impedance Matching – Maintains system stability with 1.10:1 typ, 1.20:1 max VSWR.
  • Long-Term Reliability – Built to endure ≥500 mating cycles for consistent lab and field performance.
  • Rugged & Temperature-Resistant – Performs in extreme conditions (-55~+125°C), ensuring durability in demanding RF environments.

PRODUCT OVERVIEW

Enhance RF system performance with the DC–26.5GHz 2W SMA Male Coaxial Termination, a high-reliability termination designed for low reflection and optimal impedance matching across DC–26.5GHz. Featuring a SMA Male connector, it ensures a VSWR of 1.10:1 typ and 1.20:1 max, minimizing signal distortion. With a ≤2W CW rating and robust durability for ≥500 mating cycles, it delivers long-term stability in temperatures ranging from -55~+125°C. Ideal for RF test setups, signal termination, and power dissipation applications.


SPECIFICATIONS

Frequency Range

DC–26.5GHz

VSWR

1.10:1 typ / 1.20:1 max

Impedance

50Ω

Power

≤2W

Durability

≥500 Cycles

Weight

≤4g

Dimension¹

Φ9×12.3mm

Interface

SMA [M]

Outer Conductor

Stainless Steel, Passivated

Center Conductor

BeCu, Gold Plating

Dielectric

PTFE

Operating Temperature

–55 ~ +125°C

1. Unless otherwise specified, decimal tolerance: x.±0.3


APPLICATIONS

Absorbing Unused Signal Power

Prevents reflections and protects system components.

Terminating Unused Ports

Maintains system stability in splitters, couplers, and power dividers.

Testing & Calibration

Ensures accurate load conditions in RF test setups.