The device features an output (IPROPI pin) for current sensing and die temperature measurement. This information can be used for status or regulation of loads (on OUTx), or to check die temperature. These integrated features eliminate the need for multiple external sense resistors or sense circuitry, reducing system size, cost and complexity.

The device senses the load current by using a shunt-less high-side current mirror topology. This way the device can only sense an uni-directional high-side current from VM → OUT → Load through the high-side FET when the device is fully turned ON (linear mode).

The IPROPI pin must be connected to an external resistor (R_IPROPI) to ground to generate a proportional voltage V_IPROPI. This allows for the load current to be measured as a voltage-drop across the R_IPROPI resistor with an analog to digital converter (ADC). The R_IPROPI resistor can be sized based on the expected load current in the application so that the full range of the controller ADC is utilized.

Depending on the ISEL bits setting, the IPROPI pin can also output analog current representation of the die temperature. This is intended for use in testing and evaluation, but not during device run-time.

When the IPROPI output is configured for die temperature readout, the device outputs a current as per the following formula -

Current (μA) = 3.00 * (Temperature in °C) + 863

This equation is valid for temperatures between -40 °C and 185 °C. For example, when the die temperature is 85° C and ISEL is selected for the die temperature readout, current out of the IPROPI pin is 1.118mA.