Title :
High Reliable Remote Terminal Unit for Space Applications
Author :
Guzmán, David ; Prieto, Manuel ; García, Daniel ; Ruíz, Victor ; Almena, Javier ; Sánchez, Sebastián ; Meziat, Daniel
Author_Institution :
Comput. Eng. Dept., Univ. de Alcala, Madrid, Spain
Abstract :
Commonly in space systems there are subsystems or instruments with a low or null communication or processing capabilities. This paper describes a high reliable, low power consumption and small sized remote terminal unit aimed at connecting these subsystems to the satellite´s system bus. The design includes a SoC based on an 80C32 microcontroller and provides a 2.0 CAN controller; a general purpose digital I/Os; ADCs interfaces; and one UART interface. As key features concerning fault tolerance, the proposed system uses space qualified components; hardware redundancy is considered; it has auto-check capabilities; and if necessary, the embedded generic firmware allows remote downloading of updated versions of flight software through the CAN bus and, in the same way, by means of a CAN message the full system can be restarted by the spacecraft control system.
Keywords :
aerospace control; controller area networks; microcontrollers; space vehicle electronics; system-on-chip; 2.0 CAN controller; 80C32 microcontroller; ADC interfaces; SoC; UART interface; auto-check capabilities;; embedded generic firmware; fault tolerance; flight software; general purpose digital I/O; hardware redundancy; high reliable remote terminal unit; low power consumption; satellites; space applications; spacecraft control system; Communication system control; Energy consumption; Fault tolerant systems; Hardware; Instruments; Joining processes; Microcontrollers; Power system reliability; Redundancy; System buses; Field; Remote Terminal Unit (RTU); Satellite;
Conference_Titel :
Digital System Design, Architectures, Methods and Tools, 2009. DSD '09. 12th Euromicro Conference on
Conference_Location :
Patras
Print_ISBN :
978-0-7695-3782-5
DOI :
10.1109/DSD.2009.184
