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Supplier: L-com, Inc.
Description: Superior Performance The HyperGain 5.8GHz High-Performance Parabolic Dish WiFi Antennas are ideal for directional 5.8GHz ISM / UNII band applications. It features 24 dBi gain with a 9° beam-width. This antenna can be oriented for either vertical or horizontal polarization.
- Gain: 24 dB
- Primary Frequency Range: 5800 MHz
- Technology Type: Dish / Reflector
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Supplier: L-com, Inc.
Description: The HyperGain 5.8GHz High-Performance Parabolic Dish WiFi Antenna is ideal for directional 5.8GHz ISM / UNII band applications. It features 29 dBi with a 6° beam-width. This antenna can be oriented for either vertical or horizontal polarization. Rugged and Weatherproof The
- Gain: 29 dB
- Primary Frequency Range: 5800 MHz
- Technology Type: Dish / Reflector
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Supplier: L-com, Inc.
Description: The HyperGain 5.8GHz High-Performance Parabolic Dish WiFi Antenna is ideal for directional 5.8GHz ISM / UNII band applications. It features 32.5 dBi with a 5° beam-width. These antennas can be oriented for either vertical or horizontal polarization. Rugged and Weatherproof The
- Gain: 33 dB
- Primary Frequency Range: 5800 MHz
- Technology Type: Dish / Reflector
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Supplier: Radio Waves, Inc.
Description: The SP Standard Performance Series by RadioWaves offers a full line of cost effective standard performance parabolic antennas engineered to deliver reliable radio links. Designed for both unlicensed and licensed band applications, RadioWaves field-proven pre-assembled SP
- Applications: Other
- Gain: 29.4 to 31 dB
- Operating Temperature: -40 to 140 F
- Polarization Type: Other
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Supplier: Radio Waves, Inc.
Description: The SP Standard Performance Series by RadioWaves offers a full line of cost effective standard performance parabolic antennas engineered to deliver reliable radio links. Designed for both unlicensed and licensed band applications, RadioWaves field-proven pre-assembled SP
- Applications: Other
- Gain: 43.1 to 43.8 dB
- Operating Temperature: -40 to 140 F
- Polarization Type: Slant 45 / Dual
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Supplier: Radio Waves, Inc.
Description: The SP Standard Performance Series by RadioWaves offers a full line of cost effective standard performance parabolic antennas engineered to deliver reliable radio links. Designed for both unlicensed and licensed band applications, RadioWaves field-proven pre-assembled SP
- Applications: Other
- Gain: 32 to 33.1 dB
- Operating Temperature: -40 to 140 F
- Polarization Type: Slant 45 / Dual
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Supplier: Radio Waves, Inc.
Description: The SP Standard Performance Series by RadioWaves offers a full line of cost effective standard performance parabolic antennas engineered to deliver reliable radio links. Designed for both unlicensed and licensed band applications, RadioWaves field-proven pre-assembled SP
- Applications: Other
- Gain: 36.6 to 36.8 dB
- Operating Temperature: -40 to 140 F
- Polarization Type: Slant 45 / Dual
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Supplier: L-com, Inc.
Description: HyperGain Radome Covers are an ideal way to provide additional protection to our parabolic dish antennas. These light weight radome kits feature fiberglass construction and UV stable gray finish. Drain holes are provided on the radome cover to help prevent moisture build-up inside the
- Technology Type: Dish / Reflector
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Supplier: TACO Communications Inc.
Description: These Broadband UHF parabolic receive antennas cover the entire UHF TV spectrum. Narrow beam and high gain make these antennas ideally suited for minimizing interference from co-channel and multipath signals. The light-weight grid design minimizes wind loading on the tower.
- Applications: TV / Radio Broadcasting, Other
- Form Factor: External
- Gain: 25 dB
- Pattern Type: Directional
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Supplier: Richardson RFPD
Description: The MPRC prime focus parabolic reflector antenna series suppresses extraneous sidelobe and cross-polarized energy. The antennas feature a micro fine elevation and azimuth adjustment kit. The MPRC series is provided with a radome as a standard feature.
- Gain: 24.5 dB
- Polarization Type: Linear
- Primary Frequency Range: 2300 to 2700 MHz
- Technology Type: Dish / Reflector
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Supplier: KP Performance Antennas
Description: This ProLine Parabolic Antenna is engineered to suppress side-lobes and back-lobes and are excellent at rejecting interference. These parabolic antennas maximize the potential of your radio by improving signal strength and reducing the noise floor in your link. Our
- Applications: Cellular / PCS Base Station
- Form Factor: External, Stationary / Fixed
- Gain: 24 dB
- Operating Temperature: -40 to 140 F
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Supplier: SAE International
Description: NASA's Deep Space Network (DSN) uses high-power transmitters on its large antennas to communicate with spacecraft of NASA and its partner agencies. The prime reflectors of the DSN antennas are parabolic, at 34m and 70m in diameter. The DSN transmitters radiate Continuous
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Description: -field and far-field of the antenna aperture) would be uniform enough in both amplitude and phase for electromagnetic testing. The energy off the reflector is lined up into a much focused beam with uniform phase distribution on the axis of the reflector. So this method gives you
- Features: Lights
- Temperature Control: Heating, Cooling
- Test Parameters: Sound, Electromagnetics
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Handbook of Satellite Applications
Now, that 3-axis spinning satellite communications systems had been demonstrated to work in geosynchronous orbit, the next step was to upgrade from horn antennas to parabolic reflector antennas on commercial satellites.
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Space Antenna Handbook Complete Document
As an example, consider an offset parabolic reflector antenna operating in C-band.
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Investigation of factors contributing depolarization in offset reflector antenna and trimmed‐reflector offset parabolic antenna with lower cross‐polarization
Figures 4a and 4b compare secondary patterns with those obtained with Gaussian feed with edge taper ¼ À12 dB at 19.1 and actual feed system of parabolic reflector antenna for horizontal and vertical polarizations.
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Modern Antenna Handbook Complete Document
Figure 5.19 (from Ref. 21) illustrates a basic axisymmetric parabolic reflector antenna .
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Handbook of Antenna Design, Vol. 1
Offset parabolic reflector antennas .
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Recent advances in microwave reflector antenna technology
Horn feed for parabolic reflector antenna [8].
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Offset-parabolic-reflector antennas: A review
The offset parabolic reflector antennas treatedincluded both single- anddual-reflectorconfigurations.
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Design and development of a dual‐mode corrugated horn for an offset reflector antenna
This type of feed eliminates the unwanted high cross‐polarization of an offset parabolic reflector antenna and improves the overall performance of the antenna sub‐system.
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Radio System Design for Telecommunication 3rd Edition Complete Document
15 What is the gain of a 2-ft radiolink parabolic reflector antenna assuming the conventional efficiency?
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