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Technique for Radiometer and Antenna Array Calibration - TRAAC (2012)

Richeson. James ; Laymon, Charles ; Varnavas, Kosta ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: Highly sensitive receivers are used to detect minute amounts of emitted electromagnetic energy. Calibration of these receivers is vital to the accuracy of the measurements. Traditional calibration techniques depend on calibration reference internal to the receivers as reference for the calibration of the observed electromagnetic energy. Such methods can only calibrate errors in measurement introduced by the receiver only. The disadvantage of these existing methods is that they cannot account for errors introduced by devices, such as antennas, used for capturing electromagnetic radiation. This severely limits the types of antennas that can be used to make measurements with a high degree of accuracy. Complex antenna systems, such as electronically steerable antennas (also known as phased arrays), while offering potentially significant advantages, suffer from a lack of a reliable and accurate calibration technique. The proximity of antenna elements in an array results in interaction between the electromagnetic fields radiated (or received) by the individual elements. This phenomenon is called mutual coupling. The new calibration method uses a known noise source as a calibration load to determine the instantaneous characteristics of the antenna. The noise source is emitted from one element of the antenna array and received by all the other elements due to mutual coupling. This received noise is used as a calibration standard to monitor the stability of the antenna electronics.

Keywords: Communications and Radar

Type: MFS-32783-1 , NASA Tech Briefs, January 2012; 13

Format: application/pdf

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Phased Array Radiometer Calibration Using a Radiated Noise Source (2010)

Limaye, Ashutoch S. ; Meyer, Paul J. ; Laymon, Charles A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Electronic beam steering capability of phased array antenna systems offer significant advantages when used in real aperture imaging radiometers. The sensitivity of such systems is limited by the ability to accurately calibrate variations in the antenna circuit characteristics. Passive antenna systems, which require mechanical rotation to scan the beam, have stable characteristics and the noise figure of the antenna can be characterized with knowledge of its physical temperature [1],[2]. Phased array antenna systems provide the ability to electronically steer the beam in any desired direction. Such antennas make use of active components (amplifiers, phase shifters) to provide electronic scanning capability while maintaining a low antenna noise figure. The gain fluctuations in the active components can be significant, resulting in substantial calibration difficulties [3]. In this paper, we introduce two novel calibration techniques that provide an end-to-end calibration of a real-aperture, phased array radiometer system. Empirical data will be shown to illustrate the performance of both methods.

Keywords: Communications and Radar

Type: M10-0299 , M11-0024 , 2010 IEEE International Geoscience and Remote Sensing Symposium; Jul 25, 2010 - Jul 30, 2010; Honolulu, HI; United States

Format: application/pdf

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