The UCC28781EVM-053 may also be powered from an isolated high-voltage AC source ranging from 264 V_RMS down to 90 V_RMS with line frequency ranging from 50 Hz to 60 Hz. In general, input voltage must be > 90 V_RMS to start and output current should be limited to 2 A or less when starting with input voltage < 180 V_RMS.

Full-rated output power (60 W) may be obtained for input voltages in the 180-V_RMS to 264-V_RMS range. Output power rating is reduced (30 W) for input voltages in the 90-V_RMS to 180-V_RMS range due to the high rms level of primary current at low input voltages.

The isolated AC source should be connected to the EVM at J1 (AC INPUT terminal block) using a low-impedance cable such as suitably-insulated 18AWG twisted-pair wire less than 1 meter in length. The EVM provides the traditional full-wave rectified and filtered bulk-voltage section to enable evaluation of ZVSF performance when powered by an AC line. The output of the AC section is connected to the DC input by jumpering terminal block J2 to block J3 with short insulated jumper wires, observing the proper polarities. See connections per Figure 7-2.

When using an AC line input, the X-Cap Discharge (XCD) feature of the UCC28781-Q1 may be evaluated by installing the XCD Jumper into the "XCD ENABLED" position at J5. Remember to reposition the XCD Jumper into the "XCD DISABLED" position any time the AC input is not being used to avoid the risk of component damage from DC operation. Turn off all input power before repositioning the XCD jumper. Do not change J5 position under power.

The output of the EVM (15 V) is taken from terminal block J4 which should be connected to a passive resistor load or to an active electronic load. An active load usually affords great flexibility in loading methods and perturbations.