Title :
DPSK modulated wakeup mechanism for point-to-point networks with partial network support
Author :
Seyler, Jan R. ; Rahimov, Shurat ; Streichert, Thilo ; Glass, Michael ; Teich, Jurgen
Author_Institution :
Mercedes-Benz Cars Dev., E/E-Archit. & Stand., Daimler AG, Sindelfingen, Germany
Abstract :
The automotive community introduced Ethernet as a packet-switched point-to-point network. Possible fields of application are telematics, advanced driving assistance and a backbone. Currently, CAN, FlexRay and MOST are used to interconnect these applications. With Ethernet the bandwidth is rising but the networking requirements are still the same as for existing field buses. Consumer Ethernet does not provide a wakeup mechanism that is sufficient for automotive systems. As a solution, this paper introduces a novel DPSK based physical-layer mechanism which uses digital signals to identify partial networks and has an overall wakeup latency of less than 5 ms which is a reduction of 75 % for a five-hop network to the current state-of-the-art technology for automotive point-to-point networks.
Keywords :
differential phase shift keying; field buses; local area networks; mobile radio; packet switching; CAN; DPSK based physical-layer mechanism; DPSK modulated wakeup mechanism; Ethernet; FlexRay; MOST; automotive community; automotive point-to-point networks; automotive systems; digital signals; five-hop network; packet-switched point-to-point network; partial network support; partial networks; Automotive engineering; Clamps; Differential phase shift keying; Ports (Computers); Power demand; Receivers; Switches;
Conference_Titel :
Industrial Embedded Systems (SIES), 2014 9th IEEE International Symposium on
Conference_Location :
Pisa
DOI :
10.1109/SIES.2014.6871209
