CM filters for both commercial (Class A) and residential (Class B) environments typically have limited Y-capacitance due to touch-current safety requirements and, thus require large-sized CM chokes to achieve the requisite attenuation; ultimately resulting in filter designs with bulky, heavy and expensive passive components. The deployment of active filter circuits enable more compact filters for next-generation power conversion systems.

The EVM, a practical filter circuit realization for a single-phase power system, showcases the EMI performance improvement or size reduction achievable with the TPSF12C1, a single-phase power-supply filter IC.

The circuit advantages summarize as:

1. Simple filter structure – with wide operating frequency range and high stability margins
2. Reduced CM choke size – for lower volume, weight and cost. This also enables much less copper loss and better high-frequency performance due to lower choke self-parasitics and higher self-resonant frequency
3. No additional magnetic components – only uses Y-rated sense and inject capacitors with minimal impact to peak touch current (measured according to IEC 60990)
4. Enhanced safety – using a low-voltage AEF IC referenced to chassis ground
5. Standalone AEF IC implementation – enables maximum flexibility in terms of placement near the filter components
6. Surge immunity – robust to line voltage surges to meet IEC 61000-4-5 (with appropriate voltage clamping internal or external to the IC).

	CAUTION: Hot surface. Contact can cause burns. Do not touch.
	CAUTION: High Voltage. Risk of electric shock.