Title :
Centralized power gating technique for embedded systems
Author :
Tejada, Jose ; Sanchez, Alberto
Author_Institution :
Analog Devices Inc., Valencia, Spain
Abstract :
Embedded systems need to save as much energy as possible in order to prolong the battery life. Many applications only require the use of the system for a brief period of time followed by a long stand-by phase. Static currents in digital systems can drag large amounts of charge, particularly at high temperatures. Power gating has been used to reduce the impact of these currents but it is difficult to include it in the digital design flow. This paper presents a method of implementing power gating that does not require special digital cells, it is easy to size and includes soft start and monitor functions.
Keywords :
battery management systems; digital systems; embedded systems; logic design; power supplies to apparatus; battery life; centralized power gating technique; digital cells; digital design flow; digital systems; embedded systems; monitor functions; soft start functions; static currents; Capacitors; Clocks; Impedance; Switches; Switching circuits; Temperature measurement; Voltage measurement; analog switch; digital leakage; low power; power gating;
Conference_Titel :
Applied Electronics (AE), 2012 International Conference on
Conference_Location :
Pilsen
Print_ISBN :
978-1-4673-1963-8
