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| Frequency Range Class | 1.45 GHz to 2.2 GHz (L/S-Band Continuous Spectral Optimization) |
| Waveguide Size Designation | EIA WR-510 / WG9A / R18 Layout Geometry Architecture |
| Nominal Gain (Typical) | 15 dBi (High-Gain Calibrated Reference Profile) |
| Maximum Power Handling | 1000 Watts (CW Continuous Wave Thermal Limit) |
| -3dB Beamwidth (H/E Plane) | 30° / 29° (Focused Boresight Precision Pattern) |
| Nominal System Impedance | 50 Ohms |
| Physical Dimensions (W x H x L) | 335 x 456 x 457 mm |
| Net Weight Profile | 2850 g / 2.85 kg (Precision Rigid Balanced Design) |
| Waveguide Interface Flange | Standard UDR Style Waveguide Flange Layout Interface |
| Structural Body Material | High-Grade Aerospace Structural Aluminum Alloy Core |
| Manufacturing Origin | Taiwan Design & Made in Taiwan (FT-RF Professional Grade) |
Robust aluminum construction supports intensive high-power continuous wave transmission, ideal for long-range radar simulation, electronic jamming testing, and high-field immunity testing grids.
Provides a narrow, focused beam profile (approx. 30° beam envelope), essential for long-range point-to-point link validation and targeted high-intensity field strength generation.
At only 2.85 kg, this premium model is significantly lighter than traditional heavy brass horns, easing structural load restrictions on portable tactical masts or automated laboratory positioners.
Equipped with a native WR-510 waveguide interface layout and a standard UDR flange, bypassing coaxial transitions to provide secure mechanical coupling and minimal signal leakage parameters.
Contact our technical engineering division today to request official quote sheets, individual certified calibration datasets, customized waveguide flange layouts, or alternative mechanical drawings.