Modeling electromagnetic emission of integrated circuits for system analysis

2002 ◽  
Author(s):  
P. Kralicek ◽  
W. John ◽  
H. Garbe
Keyword(s):  
Integrated Circuits ◽  
System Analysis ◽  
Electromagnetic Emission

USING INPUT INVARIANCE AS A METHOD TO FACILITATE SYSTEM DESIGN IN DPS APPLICATIONS

2004 ◽  
Vol 13 (04) ◽  
pp. 707-723 ◽  
Author(s):  
TEUVO SUNTIO ◽  
KONSTANTIN KOSTOV ◽  
TAUNO TEPSA ◽  
JORMA KYYRÄ
Keyword(s):  
Integrated Circuits ◽  
System Analysis ◽  
Noise Suppression ◽  
International Standards ◽  
Supply Side ◽  
Loop Gain ◽  
System Architectures ◽  
Minor Loop ◽  
Emi Filters ◽  
The Stability

Distributed power supply (DPS) systems are extensively used to supply different electronic equipment and systems such as telecom switching systems. Continuous reduction of supply voltages of digital integrated circuits from the previous industry standard of 5 V down to 1 V or even less has necessitated the use of point-of-load system architectures due to high supply currents. The input currents of the switched-mode power supplies contain typically high ripple currents necessitating the use of noise suppression (EMI) filters to meet the stringent requirements stipulated by international standards. The interactions between the load converters, EMI filters, and supply side converters may adversely affect the stability and performance of the system. The system analysis is typically made based on the behavior of the ratio between the output impedance of the supply side and the input impedance of the load side known as minor-loop gain. Certain forbidden regions in the complex plane have been developed out of which the minor-loop gain should stay in order to guarantee stability. Even if the restrictions for the behavior of the minor-loop gain are well-defined, the accurate prediction of the associated impedances is difficult or even impossible. We propose, in this paper, a method based on input invariance to cancel the load-side interactions in the small-signal sense. The only concern left is then the stability of EMI filters, which may be considered based on the input power of the associated converters.

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