Use the IOUT_CAL_GAIN to adjust the gain of the output current measurements. One gain setting is provided which applies to all phases in the channel. Use the IOUT_CAL_OFFSET to adjust the current measurement offset for each phase. The offset for the total channel is calculated as a sum of the configured offsets for all phases. During power supply characterization use the PHASE_CONFIG command to configure the controller for 1-phase mode, to enable measurement of a single phase measurement offset. Refer to the example below.

The READ_IOUT command value is calculated according to Equation 4 and Equation 5.

where

• READ_IOUT_TOTAL is the total output current telemetry value, accessible with PHASE=FFh
• IOUT_CAL_GAIN is the output current gain setting (one per channel)
• CSP_i is the voltage of the current sense signal from each power stage
• VREF is the digitized value of the internal 1.5-V LDO
• IOUT_CAL_OFFSET_i is the output current offset setting for each phase

where

• READ_IOUT_{PHASE i} is the per-phase current telemetry value, accessible with PHASE=00h for phase 1, 01h for phase 2, etc ...
• IOUT_CAL_GAIN is the output current gain setting (one per channel)
• CSP_i is the voltage of the current sense signal for that phase
• VREF is the digitized value of the internal 1.5-V LDO
• IOUT_CAL_OFFSET_i is the output current offset setting for that phase

Example procedure: Per-Phase calibration of READ_IOUT

First select the correct IOUT_CAL_GAIN for the whole channel:

1. With all phases active, apply the first load current, I_OUT1, to the converter and wait for the READ_IOUT value to stabilize. Read-back and record the value of READ_IOUT as I_MON1.
2. With all phases active, apply the second load current, I_OUT2, to the converter and wait for the READ_IOUT value to stabilize. Read-back and record the value of READ_IOUT as I_MON2.
3. Calculate the new gain setting according to Equation 6.
4. Write the PAGE to the current channel, and the PHASE to FFh.
5. Write the newly calculated value to IOUT_CAL_GAIN.
6. Perform an NVM Store operation and power cycle.

Next, select the IOUT_CAL_OFFSET for each phase according to the procedure below:

1. Record the current values of PHASE_CONFIG and IOUT_CAL_OFFSET for each phase.
2. Adjust the TON_RISE temporarily to accomodate enabling power conversion with one phase only active, if needed.
3. With power conversion disabled for both channels, update the PHASE_CONFIG command so that only the first phase is active, and its assigned ORDER is 0.
4. Enable power conversion through the VR_EN pins or OPERATION as configured through ON_OFF_CONFIG.
5. Apply a known load current, I_OUT1. Wait for the READ_IOUT to stabilize and record the value as I_MON1.
6. Calculate the new IOUT_CAL_OFFSET per Equation 7, where i is the currently configured phase.
7. Store the newly calculated offset for the first phase value in memory temporarily.
8. Repeat steps 3-7 for each phase in the converter.
9. Disable power conversion.
10. Set the PHASE_CONFIG back to the original value.
11. Write the PAGE to the current channel, and the PHASE to 00h for the first phase.
12. Write the newly calculated IOUT_CAL_OFFSET value.
13. Repeat steps 11-12 for each phase. PHASE value 01h refers to the 2nd phase, 02h refers to the 3rd phase and so on.
14. Re-set the TON_RISE to the desired value during normal operation, if needed.
15. Perform an NVM Store operation and power cycle.