Roland Standert
Graduate Student Royal Institute of Technology, Sweden
Bertil Grelsson
Saab Bofors Dynamics, Sweden
Sune Axelsson
Saab Bofors Dynamics, Sweden
Ann-Marie Andersson
Saab Bofors Dynamics, Sweden
Andreas Gustafsson
FOI Microwave Tech, Sweden
Kalles Folkesson
Linköpings University, Dep. of Electrical Engineering, Sweden
Henrik Ohlsson
Linköpings University, Dep. of Electrical Engineering, Sweden
Download article
Published in: GigaHertz 2003. Proceedings from the Seventh Symposium
Linköping Electronic Conference Proceedings 150:57, p.
Published: 2003-11-06
ISBN:
ISSN: 1650-3686 (print), 1650-3740 (online)
In the design of radar receiver systems a suitable simulation environment is useful. In this work a model of a radar receiver (with both analogue and digital parts in the same model) has been extended with typical radar scenarios. This makes it a complete model of a radar receiver where both the performance of the system and the parts of the radar receiver; i.e. RF parts; A/D converter and digital filters can be evaluated. The simulations are done in Agilents software Advanced Design System (ADS) with some parts of the model using ADS models and some parts as Matlab models implemented in ADS.
[1] A Gustafsson; K Folkesson; H Ohlsson; “A Simulation Environment for Integrated Frequency and Time Domain Simulations of a Radar Receiver”; GigaHertz 2001 Symposium; Lund; Sweden; November 2001
[2] J. A. Scheer; J. L. Kurtz; Coherent Radar Performance Estimation; Boston; London: Artech House; 1993.
[3] B. Edde; Radar: principles; technology; applications; Englewood Cliffs; New Jersey: PTR Prentice Hall.
