ZHCSM96A November 2020 – August 2021 TPS6521835
PRODUCTION DATA
When the power-up sequence initiates, STROBE 1 occurs, and any rail assigned to this strobe is enabled. After a delay time of DLY1, STROBE 2 occurs and the rail assigned to this strobe is powered up. The sequence continues until all strobes occur and all DLYx times execute. Strobe assignments and delay times are defined in the SEQx registers, and are changed under I2C control. The power-up sequence executes if one of the following events occurs:
When a power-up event is detected, the device enters a WAIT_PWR_EN state and triggers the power-up sequence. The device remains in WAIT_PWR_EN as long as the PWR_EN and either the PB or AC_DET pin are held low. If both, the PB and AC_DET return to logic-high state and the PWR_EN pin has not been asserted within 20 s of entering WAIT_PWR_EN state, the power-down sequence is triggered and the device returns to OFF state. Once PWR_EN is asserted, the device advances to ACTIVE state, which is functionally equivalent to WAIT_PWR_EN. However, the AC_DET pin is ignored and power-down is controlled by the PWR_EN pin only.
Rails not assigned to a strobe (SEQ = 0000b) are not affected by power-up and power-down sequencing and remain in their current ON or OFF state regardless of the sequencer. A rail can be enabled and disabled at any time by setting the corresponding enable bit in the ENABLEx register, with the exception that the ENABLEx register cannot be accessed while the sequencer is active. Enable bits always reflect the current enable state of the rail. For example, the sequencer sets and resets the enable bits for the rails under its control.
The power-up sequence is defined by strobes and delay times, and can be triggered by the PB, AC_DET (not shown, same as PB), or PWR_EN pin.