The circuit for these devices is intricately designed to inhibit interference and shield radiation from the circuit. ![]() Standard EMC testing procedures subject a device to electromagnetic radiation to check how it behaves under such conditions. The key idea of this project is to reduce the dependency on EMI/EMC test centres by providing apriori information through our simulation environment. This would also promote the use of sustainable materials – as the cost of testing them significantly drops. For instance, while designing a Class-III medical device like an Insulin Pump – the body of the pump with the location of components can be imported into our environment and a detailed EMI/EMC analysis (at various frequency bandwidths) can be generated. With the goal to accelerate the process and promote sustainable practices in EMI/EMC testing, we designed a cross-functional simulation environment that aids in the process of physical EMI/EMC testing. As the number and complexity of devices will increase the need for this testing will proportionally surge. This process, although necessary, is expensive, inaccessible, repetitive, and power-hungry i.e., not sustainable. In critical cases like Medical, EMI/EMC performance can mean the difference between life and death – hence performing extensive EMI/EMC testing is a necessity and cannot be substituted for. Without limits to the amount of unintended electromagnetic radiation from electronic products, the electromagnetic spectrum could be adversely affected, and frequency bands reserved for radio transmission could become compromised. Electronic devices (even without transmitters) emit electromagnetic radiation, just as a byproduct of switching currents and voltages inherent to electronic circuitry. ![]() In general, these products must adhere to rigid standards and undergo several compliance tests, of which testing for Electromagnetic Interference and Electromagnetic Compliance (EMI/EMC) is the most crucial. Consumer Electronics find their use-case in several domains, from Entertainment Systems to critical applications like Healthcare and Automotive. As per a recent report, the Consumer Electronics Market size was valued at over USD 1 trillion in 2020 and is estimated to grow at a CAGR of more than 8% from 2021 to 2027. The advancement in the fields of AI and VLSI, alongside the penetration of Wireless technology and accessible Internet, has led to a rapid rise in the Consumer Electronics market.
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