N. Sridhar scite author profile

Active electronically scanned array (AESA) radar has large number of transmit/Receive (T/R) modules which require multiple microwave and digital signals. Distribution of these signals through conventional method such as coaxial cable, twisted pair, etc. not only introduces engineering complexities and signal loss but also have limitation of bandwidth, data rate, transmission distance, etc. This paper addresses design and implementation of microwave photonic network for distribution of microwave and digital signals over single optical fiber using wavelength division multiplexing for AESA radars. The design challenge is to limit the variation in output radio frequency power within +1 dB over full operational band of radar from 2 to 4 GHz and functionality under hostile military environment. Optical amplifiers have been used in all channels to stabilize optical output independent of wavelength with automatic light control. The optical signal is split into 64 identical parts to feed multiplexed signal into different digital receivers physically spread across the antenna array. It is an additional challenge to normalize performance as all 64 receivers show variation in output in spite of identical electronic circuitry. Experimental results validate the feasibility of microwave photonic network for wide branching distribution of multiple microwave and digital signals for AESA radar.

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Design and analysis of RF signal distribution over optical fiber for active aperture radar

Mathur

Sridhar

Rai³

2014

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Design and Validation of Rugged Microwave Photonic Network for Phased-Array Radar

Mathur

Sridhar

2015

Fiber and Integrated Optics

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Electromagnetic compatibility analysis of projected capacitive touch technology based panel computer for military application

Mathur

Sridhar

2016

Journal of Electromagnetic Waves and Applications

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N. Sridhar

Microwave photonic link characterization for phased array radar

Microwave photonic network for active electronically scanned array radar

Design and analysis of RF signal distribution over optical fiber for active aperture radar

Design and Validation of Rugged Microwave Photonic Network for Phased-Array Radar

Electromagnetic compatibility analysis of projected capacitive touch technology based panel computer for military application

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