DocumentCode
892661
Title
NASA´s next generation all-digital deep space network breadboard receiver
Author
Hinedi, Sami
Author_Institution
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
Volume
41
Issue
1
fYear
1993
fDate
1/1/1993 12:00:00 AM
Firstpage
246
Lastpage
257
Abstract
This work describes the breadboard advanced receiver (called ARX) that is currently being built for use in NASA´s deep space network (DSN). This receiver has unique requirements in having to operate with very weak signals from deep space probes and provide high-quality telemetry and tracking data. The hybrid analog/digital receiver performs multiple functions, including carrier, subcarrier, and symbol synchronization. Tracking can be achieved for either residual, suppressed or hybrid carriers and for both sinusoidal and square wave subcarriers. System requirements are specified, and a functional description of the ARX is presented. The various digital signal processing (DSP) algorithms used are illustrated with block diagrams. Other functions, such as time tagged Doppler extraction and monitor/control, are also discussed, including acquisition algorithms and lock detection schemes
Keywords
radio receivers; space communication links; synchronisation; telemetering equipment; tracking systems; ARX; DSP algorithms; NASA; acquisition algorithms; breadboard advanced receiver; carrier synchronization; deep space network; digital signal processing; functional description; hybrid analog/digital receiver; hybrid carriers; lock detection schemes; monitor/control; residual carriers; sinusoidal subcarriers; square wave subcarriers; subcarrier synchronisation; suppressed carriers; symbol synchronization; system requirements; telemetry; time tagged Doppler extraction; tracking; Clocks; Decoding; Frequency synchronization; Laboratories; NASA; Next generation networking; Sampling methods; Signal processing algorithms; Space vehicles; Telemetry;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/26.212383
Filename
212383
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