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- ...rs]] (IEEE) has defined as standard IEEE Standard 521-1984, a system of '''IEEE frequency bands''' for electromagnetic frequencies used for [[radio]] and [[radar]]. There2 KB (267 words) - 20:38, 20 November 2008
- #Redirect [[IEEE frequency bands]]34 bytes (4 words) - 06:39, 21 May 2008
- #Redirect [[IEEE frequency bands]]34 bytes (4 words) - 06:40, 21 May 2008
- 231 bytes (26 words) - 14:02, 4 September 2009
- Auto-populated based on [[Special:WhatLinksHere/IEEE frequency bands]]. Needs checking by a human.658 bytes (89 words) - 17:21, 11 January 2010
Page text matches
- {{r|IEEE frequency bands}}334 bytes (41 words) - 16:03, 8 March 2010
- #Redirect [[IEEE frequency bands]]34 bytes (4 words) - 06:39, 21 May 2008
- #Redirect [[IEEE frequency bands]]34 bytes (4 words) - 06:40, 21 May 2008
- {{r|IEEE frequency bands}}362 bytes (44 words) - 12:21, 25 June 2012
- Auto-populated based on [[Special:WhatLinksHere/IEEE frequency bands]]. Needs checking by a human.658 bytes (89 words) - 17:21, 11 January 2010
- {{r|IEEE Frequency bands}}783 bytes (98 words) - 18:55, 27 February 2014
- {{r|IEEE frequency bands}}413 bytes (58 words) - 04:56, 14 March 2024
- ...rs]] (IEEE) has defined as standard IEEE Standard 521-1984, a system of '''IEEE frequency bands''' for electromagnetic frequencies used for [[radio]] and [[radar]]. There2 KB (267 words) - 20:38, 20 November 2008
- See [[IEEE frequency bands]] for radar designations used widely in civilian practice, and the [[EU-NAT2 KB (232 words) - 10:54, 19 September 2009
- *[[IEEE frequency bands]], most commonly for satellite communications and civilian [[radar]]1 KB (207 words) - 19:41, 21 July 2020
- {{r|IEEE frequency bands}}1 KB (187 words) - 09:11, 22 April 2024
- ...have digital rates from 4.8 to 512 kbps per channel using the C, Ku, or X IEEE frequency bands|frequency bands, which are far too low for large volume data from such sens892 bytes (129 words) - 18:08, 1 April 2024
- {{r|IEEE frequency bands}}167 bytes (19 words) - 21:11, 8 March 2011
- ...ons include [[EU-NATO-US frequency bands|E/F and I/J military bands]] or [[IEEE frequency bands|IEEE S or X bands]], with power levels from 10 to 60 kilowatts.2 KB (252 words) - 15:42, 8 April 2024
- ...the radome of the SPS-64|AN-SPS-64 navigational radar. It operates in the IEEE frequency bands|IEEE L-band/NATO C-band, and is mounted higher than the SPY-1|AN/SPY-1 to g1 KB (193 words) - 16:23, 30 March 2024
- {{r|IEEE frequency bands}}2 KB (308 words) - 09:08, 19 April 2024
- The '''AN-|AN/SPY-1''' IEEE Frequency Bands|S-band volume search radar is the core of the AEGIS battle management syste AN/SPY-1 is an IEEE Frequency Bands|S-band radar intended to track a large number of targests in a volume of ai2 KB (309 words) - 16:23, 30 March 2024
- ...frequencies with shorter wavelengths. By the time of [[Project Apollo]], [[IEEE frequency bands|S-band]] was common, rather than the [[ITU frequency bands|VHF]] of the Sec2 KB (324 words) - 16:37, 22 August 2009
- ...in the UHF range. Leased commercial satellite service for GBS uses the [[IEEE Frequency Bands|K<sub>u</sub> band]].3 KB (374 words) - 10:20, 8 April 2024
- ...s a 4x8 foot array, mounted on a tripod. Its transmitter operates in the [[IEEE Frequency Bands|L band]] with 50 watts peak power.1 KB (181 words) - 17:13, 25 January 2009
- ...e. The updated data is then uplinked to the satellite via one of several [[IEEE frequency bands|S-band]] ground antennas.5 KB (756 words) - 11:12, 24 August 2010
- ...the Ground Multi-band Terminal (GMT), a tactical station operating in four IEEE Frequency Bands|C, X, K<sub>u</sub> and K<sub>a</sub>. Dedicated military frequencies are4 KB (548 words) - 12:31, 22 March 2024
- The missile will use the Irbis (radar)|Irbis, or Irbis-E, IEEE Frequency Bands|X-band radar.<ref name=DeagelIrbis>{{citation2 KB (291 words) - 16:22, 30 March 2024
- Operating in the [[IEEE Frequency Bands|X- and Ka-bands]], these [[satellite orbits#geosynchronous orbit|geosynchro5 KB (664 words) - 10:20, 8 April 2024
- The AN/TPY-2 is a phased-array radar, which operates in the 8.55-10 GHz IEEE frequency bands|X band. Raytheon builds it as part of an X-band family, along with the Nati3 KB (404 words) - 16:23, 30 March 2024
- Originally, the system [[IEEE frequency bands|X-band]] ground radar was a 30N6E (NATO '''FLAP LID'''), then 30N6E1 NATO '6 KB (867 words) - 18:41, 3 March 2024
- ...ind the people in distress. Radar for these applications, usually in the [[IEEE frequency bands|X-band]], normally depends on the reflections of its energy. When the targe4 KB (635 words) - 10:05, 24 August 2010
- ...on Location Reporting System (EPLRS), while the remainder use a commercial IEEE Frequency Bands| L-band satellite network. Both connectivity approaches have problems, and4 KB (589 words) - 16:22, 30 March 2024
- Link 16 JTIDS radios operate in the IEEE Frequency Bands|L-band, which operate at line-of-sight ranges up to 500 nautical miles with14 KB (2,111 words) - 16:23, 30 March 2024
- ...ransponders}}</ref> Current radar-SARTs are active beacons triggered by [[IEEE frequency bands|X-band]] radar signals; after 2010, they may respond to the [[Automatic ide9 KB (1,388 words) - 08:41, 23 February 2024
- ...sor. The first radar, which searches for the target after being cued, is a IEEE Frequency Bands|Ku-band with Moving Target Indicator. The fire control radar is also Ku-ban17 KB (2,503 words) - 07:02, 4 April 2024