SLVUD41 User guide

SLVUD41 December 2024 TPS65219

2.3 Regulator Voltage Settings

This section describes how each of the PMIC power resources were configured.

Table 2-4 Buck Regulator Settings

PMIC Rail	Register Name	Field Name	Value	Description
Bucks Switching Mode (Global for all Buck regulators)	BUCKS_CONFIG	BUCK_FF_ENABLE	0x0	Quasi-fixed frequency mode
Bucks Switching Mode (Global for all Buck regulators)	BUCKS_CONFIG	BUCK_SS_ENABLE	0x0	Spread spectrum disabled
BUCK1	BUCK1_VOUT	BUCK1_VSET	0x6	0.750V
	BUCK1_VOUT	BUCK1_UV_THR_SEL	0x0	-5% UV detection level
	BUCK1_VOUT	BUCK1_BW_SEL	0x1	high bandwidth
BUCK2	BUCK2_VOUT	BUCK2_VSET	0x33	3.300V
	BUCK2_VOUT	BUCK2_UV_THR_SEL	0x0	-5% UV detection level
	BUCK2_VOUT	BUCK2_BW_SEL	0x1	high bandwidth
	BUCKS_CONFIG	BUCK2_PHASE_CONFIG	0x3	270 degrees (only applicable if Bucks are configured for fixed frequency)
BUCK3	BUCK3_VOUT	BUCK3_VSET	0x18	1.200V
	BUCK3_VOUT	BUCK3_UV_THR_SEL	0x0	-5% UV detection level
	BUCK3_VOUT	BUCK3_BW_SEL	0x1	high bandwidth
	BUCKS_CONFIG	BUCK3_PHASE_CONFIG	0x2	180 degrees (only applicable if Bucks are configured for fixed frequency)

Note:

When Bucks are configured for quasi-fixed frequency (BUCK_FF_ENABLE=0x0), changing the switching mode between auto-PFM and forced-PWM can be triggered by I2C (MODE_I2C_CTRL) or with one of the multi-function pins (MODE/RESET or MODE/STBY) if one of them is configured as MODE. "Forced PWM" has priority over "Auto PFM".
"BUCK2_PHASE_CONFIG", "BUCK3_PHASE_CONFIG" and "BUCK_SS_ENABLE" are only applicable when the Buck regulators are configured for fixed frequency (BUCK_FF_ENABLE=0x1).

Table 2-5 LDO Regulator Settings

PMIC Rail	Setting	Register Name	Field Name	Value	Description
LDO1	LDO1 output voltage	LDO1_VOUT	LDO1_VSET	0x36	3.300V
	LDO1 configuration	LDO1_VOUT	LDO1_LSW_CONFIG	0x0	Not Applicable (LDO1 not configured as load-switch)
	LDO1 configuration	LDO1_VOUT	LDO1_BYP_CONFIG	0x1	LDO1 configured as Bypass (only applicable if LDO1_LSW_CONFIG=0x0)
	LDO1 UV threshold	GENERAL_CONFIG	LDO1_UV_THR	0x0	-5% UV detection level (only applicable if configured as LDO)
LDO2	LDO2 output voltage	LDO2_VOUT	LDO2_VSET	0x5	0.850V / reserved
	LDO2 configuration	LDO2_VOUT	LDO2_LSW_CONFIG	0x0	Not Applicable (LDO2 not configured as load-switch)
	LDO2 configuration	LDO2_VOUT	LDO2_BYP_CONFIG	0x0	LDO2 configured as LDO (only applicable if LDO2_LSW_CONFIG=0x0)
	LDO2 UV threshold	GENERAL_CONFIG	LDO2_UV_THR	0x0	-5% UV detection level (only applicable if configured as LDO)
LDO3	LDO3 output voltage	LDO3_VOUT	LDO3_VSET	0x18	1.800V
	LDO3 configuration	LDO3_VOUT	LDO3_LSW_CONFIG	0x0	LDO Mode
	LDO ramp configuration	LDO3_VOUT	LDO3_SLOW_PU_RAMP	0x1	Slow ramp for power-up (~3ms)
	LDO3 UV threshold	GENERAL_CONFIG	LDO3_UV_THR	0x0	-5% UV detection level (only applicable if configured as LDO)
LDO4	LDO4 output voltage	LDO4_VOUT	LDO4_VSET	0x26	2.500V
	LDO3 configuration	LDO4_VOUT	LDO4_LSW_CONFIG	0x0	LDO Mode
	LDO ramp configuration	LDO4_VOUT	LDO4_SLOW_PU_RAMP	0x1	Slow ramp for power-up (~3ms)
	LDO4 UV threshold	GENERAL_CONFIG	LDO4_UV_THR	0x0	-5% UV detection level (only applicable if configured as LDO)

Note:

If a LDO is configured in bypass-mode or LSW-mode, UV-detection is not supported.
If an LDO is configured in bypass-mode, the corresponding PVIN_LDOx supply must match the configured output voltage in the LDOx_VOUT register.
If LDO is configured as load-switch (LSW_mode), the desired voltage does not need to be configured in the LDOx_VOUT register.
In bypass- or LSW-mode, the LDO acts as a switch, where VOUT is VIN minus the drop over the FET-resistance.
If LDO1 or LDO2 is configured as bypass, it allows voltage and function changes between LDO (VOUT=1.8V) and VOUT=VSET register setting. This voltage/function change can be triggered by hardware (using the VSEL_SD pin when configured as SD) or by software (VSEL_SD_I2C_CTRL).