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Model Frequency band Gain (dBi) Max power (W) WxHxL (mm) Weight (kg) Connector Website HA-01M02G-NF 100MHz to 2GHz Double-Ridged Horn Antenna 100MHz - 2GHz 3 to 14dbi 1000 1600x1400x2100 Contact us N-Female Click here HA-02M03G01-NF (716) 200MHz to 3GHz Double Ridged Broadband Waveguide Horn Antenna 200Mhz - 3 GHz 3 to 12dbi 600 /3000 720x986x960 15 N-Female Click here HA-03M06GT6-NF 300MHz to 6GHz Double Ridged Broadband Waveguide Horn Antenna 300MHz - 6GHz 7 to 20dbi 800 499x765x1009 14.86 N-Female Click here HA-03M06GT2-NF 300MHz to 6GHz Double Ridged Broadband Waveguide Horn Antenna 300MHz - 6GHz -6 to 20dbi 800 393x756x599 9 N-Female Click here HA-03M08GT1-NF 300MHz to 8GHz Double Ridged Broadband Waveguide Horn Antenna 300MHz - 8GHz -10 to 16dbi 500 458x470x456 8.8 N-Female Click here HA-04M08GJ1-NF 400 MHz to 8 GHz Double Ridged Broadband Waveguide Outdoor Jamming Horn Antenna 400 MHz - 8 GHz 1 to 20dbi 500 390x660x505 11.34 N-Female Click here HA-05M08G-NF 500MHz to 8GHz Double Ridged Broadband Waveguide Horn Antenna 500MHz - 8 GHz 3 to 17dbi 800 318x646x418 4 N-Female Click here HA-06M08G-NF 600MHz to 8GHz Double Ridged Broadband Waveguide Horn Antenna 600MHz - 8GHz 4 to 16dbi 500 195x344x318 2.9 N-Female Click here HA-06M17G-NF 600MHz to 17GHz Double Ridged Broadband Waveguide Horn Antenna 600Mhz - 17 GHz -5 to 17dbi 500 190x350x290 1.4 N-Female Click here HA-07M06G-NF 700MHz to 6GHz Double Ridged Broadband Waveguide Horn Antenna 700MHz - 6GHz 3 to 18dbi 500 181x289x242 1.45 N-Female Click here HA-07M08G-NF 700MHz to 8GHz Double Ridged Broadband Waveguide Horn Antenna 700MHz to 8GHz 4 to 17dbi 500 180x334x288mm (including L mounting ) 1.35 N-Female Click here HA-07M08GA2-NF 700MHz to 8GHz Double Ridged Broadband Waveguide Horn Antenna 700MHz to 8GHz 6 to 17dBi 500 430x445x661 8.1 K-Female Click here HA-07M13G-NF 700MHz to 13GHz Double Ridged Broadband Waveguide Horn Antenna 700MHz to 13GHz 3 to 16dBi 500 192x345x288mm 1.67 N-Female Click here HA-07M18G-NF 700MHz to 18GHz Double Ridged Broadband Waveguide Horn Antenna 700MHz to 18GHz 3 to...
VIEW MOREA waveguide flange is a waveguide section's connection interface. To ensure minimal losses when connecting two waveguide sections, the flange types must match. Waveguide flanges can be square or circular in shape. (Find out more about rectangles and circulars here.) To keep the connection together, flanges are usually bolted together with four or more bolts. The majority of FT-RF products are designed with a UBR waveguide flange. It has a flat face, which is also referred to as a cover flange (or Plain flange ) It provides the best match performance when mated to another plain or 'O' ring flange, such as PBR. PBR: has a flat face with an 'O' ring groove cut into it for environmental or pressure sealing. If the flange is properly aligned and used at the frequency for which the choke was designed (typically the band center), it provides the best leakage performance. There are two main standard bodies for rectangular waveguide flanges to ensure consistency and compatibility across manufacturers: North American EIA (Electronic Industries Alliance) Waveguide Flange Shapes and IEC (International Electrotechnical Commission) Waveguide Flange Shapes. FT-RF designs and manufactures antennas in accordance with IEC standards.
VIEW MOREHR-0218G-SF - 2 GHz to 18 GHz Open Boundary Quad-Ridged Broadband Horn Antenna Applications: 2 GHz to 18 GHz Open Boundary Quad-Ridged Horn Antenna 6061 Aluminum metal alloy Stainless Steel N-female EMC testing Features: DC Short lightning protection Low VSWR Uniform Gain      
VIEW MOREHorn antennas are very popular from 200 MHz frequency to higher frequencies up to 40GHz. The horn antenna has a distinctive design that is enlarged towards the end. Horn antennas typically feature a directional radiation pattern with a high antenna gain of 10-20 dBi, some antennas have a higher gain such as the standard horn antenna up to 25 dBi. Horn antennas feature a low VSWR and a wide impedance bandwidth. As the frequency of operation is increased, the gain of horn antennas increases. This is because the horn aperture is always measured in wavelengths; the horn antenna is "electrically larger" at higher frequencies because a higher frequency has a smaller wavelength. The advantages of FT-RF Horn antenna: Moderate directivity, low standing wave ratio (SWR), broad bandwidth Easy waveguide interface: These antennas are very easy to interface to the waveguide due to their shape, but they can also be designed with a transition so that a regular coaxial feeder can be used. Simple construction and adjustment ODM OEM OBM & RD services. Horn antennas are easy to make and put together. Each type of antenna has a wide range of applications: Broadband Horn Antenna: Antenna Measurement EMC/ RF Measurement Surveillance System Radar Detection System Quad-ridged Horn Antenna: Antenna Measurement Electromagnetic Measurement Electromagnetic Compatibility Testing (EMC test) Ultra-wideband Radar...
VIEW MOREFT-RF specializes in the production of Military antennas, RF/EMC/EMI antennas, RF Microwave Antennas, and other microwave components. We are concentrating on producing high-quality products at affordable cost.Please Click here to open the catalog! for more details about Price, Lead time, or Delivery method, please contact us
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