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| Frequency Range | 3.3 GHz to 4.9 GHz (Continuous C-Band Support) |
| Waveguide Size Designation | EIA WR-229 (R40 / WG11.2 Geometry Architecture) |
| Standard Nominal Gain | 15 dBi |
| V.S.W.R Profile (Max) | ≤ 1.25 : 1 (Precision Minimal Reflection Performance) |
| Maximum Power Handling | 1000 Watts (1 KW CW Continuous Wave Power Capacity) |
| -3dB Beamwidth (H-Plane) | 32° (Concentrated Boresight Focus Path) |
| -3dB Beamwidth (E-Plane) | 31° (Exceptional Symmetrical Radiation Envelope) |
| Nominal System Impedance | 50 Ohms (Coaxial Launch Mating Dependent) |
| Physical Dimensions (W x H x L) | 154 x 114 x 271 mm |
| Net Weight | 600 g (Precision Lightweight Geometry Build) |
| Waveguide Flange Configuration | Standard CPR 229F/G Layout (Universal Dual Ridged Style Compatible Interface) |
| Body Material Profile | High-Grade Aerospace Aluminum Alloy Structure |
| Manufacturing Origin | Taiwan Design & Made in Taiwan (FT-RF) |
Robustly engineered structural core effortlessly manages up to 1000 Watts (1 KW) of continuous wave (CW) power loads without experiencing thermal variance, providing an ultra-stable radiator for intensive Signal Security operations and high-power radar simulation environments.
Delivers a stable 15 dBi directive gain profile paired with highly symmetric 32° horizontal and 31° vertical beamwidths, providing the critical boresight target accuracy necessary for mission-critical antenna calibration factor adjustments.
Precision designed and manufactured in Taiwan under strict industrial quality control standards, ensuring absolute flange coplanarity, exact interior launcher tolerances, and reproducible measurement stability metrics.
Advanced rectangular WR-229 internal flare geometry elements eliminate return loss mode anomalies across the full 3.3–4.9 GHz spectrum, creating a predictable radiation footprint for repeatable, traceable measurement results in professional lab settings.
Equipped with a certified rectangular flat CPR 229F/G waveguide flange layout format, enabling secure, direct mechanical coupling without an adapter to optimize power transfer efficiency and minimize boundary signal leakage in mission-critical systems.
Contact our technical engineering division today to request official quote documents, individual certified calibration records, certified individual V.S.W.R plot sheets, precise structural mechanical drawings, or alternative waveguide flange configurations.