Title :
Design strategies and decoupling techniques for reducing the effects of electrical interference in mixed-mode IC´s
Author :
Ingels, Mark ; Steyaert, Michiel S J
Author_Institution :
Dept. Elektrotech., Katholieke Univ., Leuven, Heverlee, Belgium
fDate :
7/1/1997 12:00:00 AM
Abstract :
A key issue in the successful integration of analog circuits is a stable analog power supply. Traditional on-chip decoupling methods exhibit transients in the supply or voltage drops and power losses. This paper introduces the RLC decoupling method that features an enhanced transient response while being especially suited for low-power, low voltage applications. Both a theoretical and a practical approach are presented together with measurement results. As the benefits of a stable local power supply can be lost by the inadequate connection of two subcircuits with relative variations on the local grounds, a differential approach of signal transfer is proposed. Furthermore, the effect of a good local decoupling can be deteriorated by substrate noise, so some attention is given to this problem too
Keywords :
electromagnetic interference; integrated circuit design; integrated circuit noise; interference suppression; mixed analogue-digital integrated circuits; transient response; RLC decoupling; decoupling techniques; design strategies; differential signal transfer; electrical interference; enhanced transient response; local decoupling; low-power LV applications; mixed-mode IC; stable local power supply; substrate noise; Analog circuits; Circuit noise; Coupling circuits; Integrated circuit noise; Interference; Noise generators; Packaging; Power supplies; RLC circuits; Voltage;
Journal_Title :
Solid-State Circuits, IEEE Journal of
