SLVUC99A January 2022 – January 2022 DRA829V , TDA4VM , TPS6594-Q1
The C and D triggers, defined by the NSLEEPx bits or pins, trigger the TO_RETENTION sequence. This sequence disables all power rails and GPIOs that are not supplying the retention rails, as described in Figure 3-1. The sequence can be modified using the I2C_7 bit found in register FSM_I2C_TRIGGERS. These bits need to be set by I2C in both PMICs before a trigger for the retention state occurs. If the I2C_7 bit is set high in both PMICs, they enter the DDR retention state as shown in Figure 6-13. LDO1 (VDD1) is not disabled and the GPIO3 of the TPS6591111 (EN_VDDR) is also unchanged. If I2C_7 is set low, these components associated with DDR do not remain active, as shown in Figure 6-12.
In addition to the I2C_7, the processor must also configure the H_DDR_RET_1V1 signal on GPIO4 of the TPS65941111 device. This signal is included in the Section 3.2 but is not part of the power sequence.
The following PMIC PFSM instructions are executed automatically in the beginning of the power sequence to configure the PMICs:
// TPS65941213
// Set LPM_EN, Clear NRSTOUT_SOC and NRSTOUT
REG_WRITE_MASK_IMM ADDR=0x81 DATA=0x04 MASK=0xF8
// Set SPMI_LP_EN and FORCE_EN_DRV_LOW
REG_WRITE_MASK_IMM ADDR=0x82 DATA=0x18 MASK=0xE7
//TPS65941111
// Set SPMI_LP_EN
REG_WRITE_MASK_IMM ADDR=0x82 DATA=0x10 MASK=0xEF
At the end of the sequence, both PMICs set the LPM_EN and clear the CLKMON_EN and AMUXOUT_EN. The TPS65941213 device also performs an additional 16 ms delay based upon the contents of the register (PFSM_DELAY_REG_2) to ensure that the TPS65941213 sequence finishes last.