This paper presents an approach for simulation of mixed analog-digital CMOS integrated circuits, aiming at estimat-ing crosstalk effects due to current pulses drawn from voltage supplies. A simple expression of voltage and current in the pull-up and the pull-down of a CMOS logic gate is derived, and a representation of digital switching noise in time do-main can be easily calculated through a dedicated computer program. This representation is used to perform an analog simulation using SPICE, to evaluate the propagation of the switching noise through the parasitic elements of the pack-age and of the bonding wires. Simulation results for two case studies are presented
Integrated systems are becoming so complex, it is extremely difficult for designers to simulate full...
This paper will present a new methodology which enables analog circuit simulations and analog verifi...
This paper illustrates some design strategies for the design of mixed analog-digital integrated circ...
This paper presents an approach for simulation of mixed analog-digital CMOS integrated circuits, aim...
This paper presents an approach for simulation of mixed analog-digital CMOS integrated circuits, aim...
This paper presents an approach for the simulation of mixed-signal CMOS integrated circuits, aiming ...
This paper presents two complementary approaches for simulation of mixed-signal CMOS integrated circ...
This paper presents an approach for simulation of mixed-signal circuits, analyzing possible sources ...
This paper presents an approach for simulation of mixed-signal CMOS integrated circuits, aiming at e...
This paper presents an approach for the analysis and the experimental evaluation of crosstalk effect...
This paper presents an approach for analysis of crosstalk effects due to current pulses drawn from v...
This paper presents an approach for the analysis and the experimental evaluation of crosstalk effect...
In this paper we present an approach to analyze effects of digital switching noise on sensitive node...
This paper presents an experimental evaluation of crosstalk effects due to current pulses drawn from...
In this paper, we discuss generation of digital switching noise and its propagation through substrat...
Integrated systems are becoming so complex, it is extremely difficult for designers to simulate full...
This paper will present a new methodology which enables analog circuit simulations and analog verifi...
This paper illustrates some design strategies for the design of mixed analog-digital integrated circ...
This paper presents an approach for simulation of mixed analog-digital CMOS integrated circuits, aim...
This paper presents an approach for simulation of mixed analog-digital CMOS integrated circuits, aim...
This paper presents an approach for the simulation of mixed-signal CMOS integrated circuits, aiming ...
This paper presents two complementary approaches for simulation of mixed-signal CMOS integrated circ...
This paper presents an approach for simulation of mixed-signal circuits, analyzing possible sources ...
This paper presents an approach for simulation of mixed-signal CMOS integrated circuits, aiming at e...
This paper presents an approach for the analysis and the experimental evaluation of crosstalk effect...
This paper presents an approach for analysis of crosstalk effects due to current pulses drawn from v...
This paper presents an approach for the analysis and the experimental evaluation of crosstalk effect...
In this paper we present an approach to analyze effects of digital switching noise on sensitive node...
This paper presents an experimental evaluation of crosstalk effects due to current pulses drawn from...
In this paper, we discuss generation of digital switching noise and its propagation through substrat...
Integrated systems are becoming so complex, it is extremely difficult for designers to simulate full...
This paper will present a new methodology which enables analog circuit simulations and analog verifi...
This paper illustrates some design strategies for the design of mixed analog-digital integrated circ...