I. Introduction

With the continuous miniaturisation of electronic circuits, a large number of electronic components are integrated within a small board space. This intensifies problems such as cross-talk and interference. Furthermore, the exponential adoption of electronic equipment pollute the environment with electromagnetic (EM) radiations. These EM radiations are received by the electronic systems as an undesired electromagnetic interference (EMI) and disturb the desired operation of the circuit. Many cases of circuit failures, which have been caused due to EMI, have been explored by researchers [1]. As a result, throughout the electronics community, regulations have been enforced to make instruments electromagnetic compatible [1]. The standard IEC-62132 indicates the measurement methodology to test the electromagnetic immunity (EMI) of IC to radiated and conducted interference. A detailed explanation of test conditions, setup and equipment to test the EMI immunity of any circuit is given in IEC 62132 [2].

Take-Home Messages: •

RMI-immunity of the circuit must be considered during the design phase to prevent post-fabrication failures.

A simple model is proposed in the paper enabling co-simulation of the KM I effect during circuit operations without adding extra timely simulations.

Mathematical equations are derived for the induced voltage and the current required for the proposed model.

The accuracy of the proposed model is experimentally verified using an off-chip interconnect carrying PRBS data in an EMI environment as a test circuit.