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| Frequency Range Class | 1.72 GHz to 2.6 GHz (Continuous Spectral Optimization) |
| Waveguide Standard Size | EIA WR-430 Layout Geometry Architecture |
| Nominal Gain (Typical) | 10 dBi |
| V.S.W.R Profile (Max) | ≤ 1.3 : 1 (Precision Minimal Reflection Performance) |
| Maximum Power Handling | 1000 Watts (CW Continuous Wave Thermal Limit) |
| -3dB Beamwidth (H-Plane) | 56° (Symmetric Pattern Optimization) |
| -3dB Beamwidth (E-Plane) | 54° (Symmetric Pattern Optimization) |
| Physical Dimensions (W x H x L) | 154 x 209 x 341 mm |
| Net Weight Profile | 1250 g / 1.25 kg (Precision Rigid Mechanical Footprint) |
| Waveguide Interface Flange | Standard UDR Style Waveguide Flange Layout |
| Structural Body Material | Premium High-Conductivity Machined Aluminum Alloy Core |
| Manufacturing Origin | Taiwan Design & Made in Taiwan (FT-RF Professional Grade) |
Robust aluminum construction supports massive continuous power loads, providing an ideal radiator for high-power radar simulation and intensive immunity testing configurations.
Optimized for the 1.72-2.6 GHz band, supporting advanced signal management, interference mitigation, and predictable gain tracking across professional RF networks.
Native WR-430 connection interface layout eliminates external coaxial adapter variables, ensuring the absolute lowest insertion loss for far-field ranges.
Precision manufactured from premium aluminum in Taiwan to deliver excellent thermal dissipation tracking and maximum electromechanical calibration longevity.
Contact our technical engineering division today to request official quote sheets, individual certified calibration logs, certified individual VSWR plot charts, or customized waveguide flange options.