For a buck converter, during the on-time of the high-side FET, the switch current increases at a linear rate determined by input voltage, output voltage, and the output inductor value. During the on-time of the low-side FET, this current decreases at a linear rate determined by the output voltage and the output inductor value. The average value of the inductor current equals to the load current, I_OUT.

The output overcurrent limit (OCL) in the TPS54J060 is implemented using a cycle-by-cycle valley current detect control circuit. The inductor current is monitored during the OFF state by measuring the low-side FET drain-to-source current. If the measured drain-to-source current of the low-side FET is above the current limit, the low-side FET stays ON until the current level becomes lower than the OCL level. This type of behavior reduces the average output current sourced by the device. During an overcurrent condition, the current to the load exceeds the current to the output capacitors and the output voltage tends to decrease. Eventually, when the output voltage falls below the undervoltage-protection threshold (80%), the UVP comparator shuts down the device after a wait time of 64 µs. The devices remains latched OFF state (both high-side and low-side FETs are latched off) until a reset of VCC or a re-toggling on EN pin.

If an OCL condition happens during start-up, then the device completes the charging of the soft-start capacitor, then trips UV when soft start is complete. Latch-off follows as above.

The resistor, R_TRIP connected from the TRIP pin to AGND sets the valley current limit threshold. Equation 4 calculates the R_TRIP for a given current limit threshold.

Equation 4.

where

• I_{LIM_VALLEY} is the valley current limit threshold in A
• R_TRIP is TRIP resistor value in Ω

If an RTRIP value less than 3.74 kΩ is used, the TPS54J060 will default to an internally determined current limit clamp value.