Datasheet

The device incorporates an output overvoltage protection (OVP) circuit to minimize output voltage overshoot. For

example, when the power supply output is overloaded the error amplifier compares the actual output voltage to

the internal reference voltage. If the VSENSE pin voltage is lower than the internal reference voltage for a

considerable time, the output of the error amplifier demands maximum output current. Once the condition is

removed, the regulator output rises and the error amplifier output transitions to the steady state voltage. In some

applications with small output capacitance, the power supply output voltage can respond faster than the error

amplifier. This leads to the possibility of an output overshoot. The OVP feature minimizes the overshoot by

comparing the VSENSE pin voltage to the OVP threshold. If the VSENSE pin voltage is greater than the OVP

High-side MOSFET overcurrent protection

The device implements current mode control which uses the COMP pin voltage to control the turn off of the high-

side MOSFET and the turn on of the low-side MOSFET on a cycle by cycle basis. Each cycle the switch current

and the current reference generated by the COMP pin voltage are compared, when the peak switch current

intersects the current reference the high-side switch is turned off.

Low-side MOSFET overcurrent protection

While the low-side MOSFET is turned on its conduction current is monitored by the internal circuitry. During

normal operation the low-side MOSFET sources current to the load. At the end of every clock cycle, the low-side

MOSFET sourcing current is compared to the internally set low-side sourcing current limit. If the low-side

sourcing current is exceeded the high-side MOSFET is not turned on and the low-side MOSFET stays on for the