The TPSF12C1EVM-FILTER can be used for evaluation and for system development of an EMI filter circuit and application. Figure 3-2 presents typical schematics of equivalent single-phase passive and active filter designs – with the active circuit component values corresponding to this EVM. Terminals designated L, N and PE refer to live, neutral and protective earth, respectively. Comparing the passive and active circuits in this example, the CM inductance of chokes L_CM1 and L_CM2 reduces from 12 mH to 2 mH by virtue of the higher effective Y-capacitance with AEF.

The AEF circuit uses a capacitive multiplier circuit in place of the two Y-capacitors normally placed between the CM chokes in a conventional two-stage passive filter design. The TPSF12C1 senses the high-frequency CM disturbance on the two power lines using two Y-rated sense capacitors and injects a noise-canceling current back into the power lines using a Y-rated inject capacitor. The X-capacitor placed between the two CM chokes provides a low-impedance path between the power lines from a CM standpoint, typically up to low-MHz frequencies. This allows current injection onto one power line (neutral in this case) using only one inject capacitor.

Acting as a complete filter with features such as surge immunity protection and X-capacitor resistive discharge, the EVM uses a recommended PCB layout to minimize the overall noise signature and required board area. If required, the user can add external components for inrush limiting and fuse protection.