There are many techniques to track satellites, that each of them has advantages and disadvantages. The monopulse trackingis the most accurate and most valid one. This paper describes the designing procedure, implementation and testing of remote sensing ground station monopulse tracking receiver. A single aperture monopulse feed in x x band and four feed antenna in s band are being used in ground station. A monoscan converter is used to avoid monopulse amplitude and phase error variation.The tracking receiver uses an ARM processor. Finally system performance is validated by bore sightequipment’s. here are many techniques to track satellites, that each of them has advantages and disadvantages. The monopulse trackingis the most accurate and most valid one. This paper describes the designing procedure, implementation and testing of remote sensing ground station monopulse tracking receiver. A single aperture monopulse feed in x x band and four feed antenna in s band are being used in ground station. A monoscan converter is used to avoid monopulse amplitude and phase error variation.The tracking receiver uses an ARM processor. Finally system performance is validated by bore sightequipment’s.
Latifzadeh, M. A., Mohseni Armaki, S. H., & Arvan, M. R. (2018). Implementation and Test of Remote Sensing Ground Station Tracking Receiver. Electronics Industries, 9(1), 25-32.
MLA
Mohammad Ali Latifzadeh; Seyyed Hossein Mohseni Armaki; Mohammad Reza Arvan. "Implementation and Test of Remote Sensing Ground Station Tracking Receiver". Electronics Industries, 9, 1, 2018, 25-32.
HARVARD
Latifzadeh, M. A., Mohseni Armaki, S. H., Arvan, M. R. (2018). 'Implementation and Test of Remote Sensing Ground Station Tracking Receiver', Electronics Industries, 9(1), pp. 25-32.
VANCOUVER
Latifzadeh, M. A., Mohseni Armaki, S. H., Arvan, M. R. Implementation and Test of Remote Sensing Ground Station Tracking Receiver. Electronics Industries, 2018; 9(1): 25-32.
)