One or more regulators can be enabled when the device is in STANDBY or ACTIVE state. There are two ways for enable and disable the regulators:

• Using EN_BUCK0 bit in BUCK0_CTRL1 register (EN_PIN_CTRL0 register bit is 0h)
• Using EN1, EN2, EN3 control pins (EN_BUCK0 bit is 1h AND EN_PIN_CTRL0 register bit is 1 in BUCK0_CTRL1 register)

If the EN1, EN2, EN3 control pins are used for enable and disable then the control pin is selected with BUCK0_EN_PIN_SELECT[1:0] bits (in BUCK0_CTRL1 register). The delay from the control signal rising edge to enabling of the regulator is set by BUCK0_STARTUP_DELAY[3:0] bits and the delay from control signal falling edge to disabling of the regulator is set by BUCK0_SHUTDOWN_DELAY[3:0] bits in BUCK0_DELAY register. The delays are valid only for EN1, EN2, EN3 signal control. The control with EN_BUCK0 bit is immediate without the delays.

The control of the regulator (with 0-ms delays) is shown in Table 7-3.

The regulator is enabled by the ENx pin or by I²C writing as shown in Figure 7-5. The soft-start circuit limits the in-rush current during start-up. When the output voltage rises to 0.35-V level, the output voltage becomes slew-rate controlled . If there is a short circuit at the output and the output voltage does not increase above 0.35-V level in 1 ms, the regulator is disabled, and interrupt is set. When the output voltage reaches the Power-Good threshold level the BUCKx_PG_INT interrupt flag (in INT_BUCK_x register) is set. The Power-Good interrupt flag can be masked using BUCKx_PG_MASK bit (in BUCKx_MASK register).

The ENx input pins have integrated pulldown resistors. The pulldown resistors are enabled by default, and the host can disable those with ENx_PD bits (in CONFIG register).

Figure 7-5 Regulator Enable and Disable