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Reverting edit(s) by Katsufano123 (talk) to rev. 1115831218 by Ancheta Wis: (UV 0.1.3) |
This article doesn't really explain PESA radars and is a jumble of AESA and PESA stuff. I added a brief explanation of a PESA radar. |
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A PESA contrasts with an [[active electronically scanned array]] (AESA) antenna, which has a separate [[transmitter]] and/or [[radio receiver|receiver]] unit for each antenna element, all controlled by a computer; AESA is a more advanced, sophisticated versatile second-generation version of the original PESA phased array technology. Hybrids of the two can also be found, consisting of subarrays that individually resemble PESAs, where each subarray has its own [[RF front end]]. Using a hybrid approach, the benefits of AESAs (e.g., multiple independent beams) can be realized at a lower cost compared to true AESAs.
Pulsed radar systems work by connecting an antenna to a powerful radio transmitter to emit a short pulse of signal. The transmitter is then disconnected and the antenna is connected to a sensitive receiver which amplifies any echos from target objects. By measuring the time it takes for the signal to return, the radar receiver can determine the distance to the object. The receiver then sends the resulting output to a [[Radar display|display of some sort]]. The transmitter elements were typically [[klystron tube]]s or [[magnetron]]s, which are suitable for amplifying or generating a narrow range of frequencies to high power levels. To scan a portion of the sky,
In 1959, [[DARPA]] developed an experimental phased array radar called Electronically Steered Array Radar ESAR. The first module, a linear array, was completed in 1960. It formed the basis of the [[AN/FPS-85]].<ref>https://www.darpa.mil/about-us/timeline/phased-arrays {{Bare URL inline|date=August 2022}}</ref>
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