int axp_set_aldo(int aldo_num, unsigned int mvolt)
{
int ret;
u8 cfg;
if (aldo_num < 1 || aldo_num > 3)
return -EINVAL;
if (mvolt == 0 && aldo_num == 3)
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL2,
AXP809_OUTPUT_CTRL2_ALDO3_EN);
if (mvolt == 0)
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL1,
AXP809_OUTPUT_CTRL1_ALDO1_EN << (aldo_num - 1));
cfg = axp809_mvolt_to_cfg(mvolt, 700, 3300, 100);
ret = pmic_bus_write(AXP809_ALDO1_CTRL + (aldo_num - 1), cfg);
if (ret)
return ret;
if (aldo_num == 3)
return pmic_bus_setbits(AXP809_OUTPUT_CTRL2,
AXP809_OUTPUT_CTRL2_ALDO3_EN);
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL1,
AXP809_OUTPUT_CTRL1_ALDO1_EN << (aldo_num - 1));
}
int axp_set_fldo(int fldo_num, unsigned int mvolt)
{
int ret;
u8 cfg;
if (fldo_num < 1 || fldo_num > 3)
return -EINVAL;
if (mvolt == 0)
return pmic_bus_clrbits(AXP818_OUTPUT_CTRL3,
AXP818_OUTPUT_CTRL3_FLDO1_EN << (fldo_num - 1));
if (fldo_num < 3) {
cfg = axp818_mvolt_to_cfg(mvolt, 700, 1450, 50);
ret = pmic_bus_write(AXP818_FLDO1_CTRL + (fldo_num - 1), cfg);
} else {
/*
* Special case for FLDO3, which is DCDC5 / 2 or FLDOIN / 2
* Since FLDOIN is unknown, test against DCDC5.
*/
if (mvolt * 2 == CONFIG_AXP_DCDC5_VOLT)
ret = pmic_bus_clrbits(AXP818_FLDO2_3_CTRL,
AXP818_FLDO2_3_CTRL_FLDO3_VOL);
else
ret = pmic_bus_setbits(AXP818_FLDO2_3_CTRL,
AXP818_FLDO2_3_CTRL_FLDO3_VOL);
}
if (ret)
return ret;
return pmic_bus_setbits(AXP818_OUTPUT_CTRL3,
AXP818_OUTPUT_CTRL3_FLDO1_EN << (fldo_num - 1));
}
int axp_set_dcdc2(unsigned int mvolt)
{
int rc;
u8 cfg, current;
if (mvolt == 0)
return pmic_bus_clrbits(AXP209_OUTPUT_CTRL,
AXP209_OUTPUT_CTRL_DCDC2);
rc = pmic_bus_setbits(AXP209_OUTPUT_CTRL, AXP209_OUTPUT_CTRL_DCDC2);
if (rc)
return rc;
cfg = axp209_mvolt_to_cfg(mvolt, 700, 2275, 25);
/* Do we really need to be this gentle? It has built-in voltage slope */
while ((rc = pmic_bus_read(AXP209_DCDC2_VOLTAGE, ¤t)) == 0 &&
current != cfg) {
if (current < cfg)
current++;
else
current--;
rc = pmic_bus_write(AXP209_DCDC2_VOLTAGE, current);
if (rc)
break;
}
return rc;
}
static int axp_gpio_direction_output(struct udevice *dev, unsigned pin,
int val)
{
__maybe_unused int ret;
u8 reg;
switch (pin) {
#ifdef CONFIG_AXP221_POWER /* Only available on axp221/axp223 */
case SUNXI_GPIO_AXP0_VBUS_ENABLE:
ret = pmic_bus_clrbits(AXP221_MISC_CTRL,
AXP221_MISC_CTRL_N_VBUSEN_FUNC);
if (ret)
return ret;
return axp_gpio_set_value(dev, pin, val);
#endif
default:
reg = axp_get_gpio_ctrl_reg(pin);
if (reg == 0)
return -EINVAL;
return pmic_bus_write(reg, val ? AXP_GPIO_CTRL_OUTPUT_HIGH :
AXP_GPIO_CTRL_OUTPUT_LOW);
}
}
int axp_set_aldo4(unsigned int mvolt)
{
int rc;
static const unsigned int vindex[] = {
1250, 1300, 1400, 1500, 1600, 1700, 1800, 1900, 2000, 2500,
2700, 2800, 3000, 3100, 3200, 3300
};
u8 cfg, reg;
if (mvolt == 0)
return pmic_bus_clrbits(AXP209_OUTPUT_CTRL,
AXP209_OUTPUT_CTRL_LDO4);
/* Translate mvolt to register cfg value, requested <= selected */
for (cfg = 15; vindex[cfg] > mvolt && cfg > 0; cfg--);
rc = pmic_bus_read(AXP209_LDO24_VOLTAGE, ®);
if (rc)
return rc;
/* LDO4 configuration is in lower 4 bits */
reg = (reg & 0xf0) | (cfg << 0);
rc = pmic_bus_write(AXP209_LDO24_VOLTAGE, reg);
if (rc)
return rc;
return pmic_bus_setbits(AXP209_OUTPUT_CTRL, AXP209_OUTPUT_CTRL_LDO4);
}
int axp_set_sw(bool on)
{
if (on)
return pmic_bus_setbits(AXP809_OUTPUT_CTRL2,
AXP809_OUTPUT_CTRL2_SWOUT_EN);
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL2,
AXP809_OUTPUT_CTRL2_SWOUT_EN);
}
int axp_set_dcdc3(unsigned int mvolt)
{
u8 cfg = axp209_mvolt_to_cfg(mvolt, 700, 3500, 25);
int rc;
if (mvolt == 0)
return pmic_bus_clrbits(AXP209_OUTPUT_CTRL,
AXP209_OUTPUT_CTRL_DCDC3);
rc = pmic_bus_write(AXP209_DCDC3_VOLTAGE, cfg);
if (rc)
return rc;
return pmic_bus_setbits(AXP209_OUTPUT_CTRL, AXP209_OUTPUT_CTRL_DCDC3);
}
int axp_set_dcdc1(unsigned int mvolt)
{
int ret;
u8 cfg = axp818_mvolt_to_cfg(mvolt, 1600, 3400, 100);
if (mvolt == 0)
return pmic_bus_clrbits(AXP818_OUTPUT_CTRL1,
AXP818_OUTPUT_CTRL1_DCDC1_EN);
ret = pmic_bus_write(AXP818_DCDC1_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP818_OUTPUT_CTRL1,
AXP818_OUTPUT_CTRL1_DCDC1_EN);
}
int axp_set_aldo3(unsigned int mvolt)
{
int ret;
u8 cfg = axp221_mvolt_to_cfg(mvolt, 700, 3300, 100);
if (mvolt == 0)
return pmic_bus_clrbits(AXP221_OUTPUT_CTRL3,
AXP221_OUTPUT_CTRL3_ALDO3_EN);
ret = pmic_bus_write(AXP221_ALDO3_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP221_OUTPUT_CTRL3,
AXP221_OUTPUT_CTRL3_ALDO3_EN);
}
int axp_set_dcdc3(unsigned int mvolt)
{
int ret;
u8 cfg = axp809_mvolt_to_cfg(mvolt, 600, 1860, 20);
if (mvolt == 0)
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL1,
AXP809_OUTPUT_CTRL1_DCDC3_EN);
ret = pmic_bus_write(AXP809_DCDC3_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP809_OUTPUT_CTRL1,
AXP809_OUTPUT_CTRL1_DCDC3_EN);
}
int axp_set_dcdc4(unsigned int mvolt)
{
int ret;
u8 cfg = axp221_mvolt_to_cfg(mvolt, 600, 1540, 20);
if (mvolt == 0)
return pmic_bus_clrbits(AXP221_OUTPUT_CTRL1,
AXP221_OUTPUT_CTRL1_DCDC4_EN);
ret = pmic_bus_write(AXP221_DCDC4_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP221_OUTPUT_CTRL1,
AXP221_OUTPUT_CTRL1_DCDC4_EN);
}
int axp_set_eldo(int eldo_num, unsigned int mvolt)
{
int ret;
u8 cfg = axp221_mvolt_to_cfg(mvolt, 700, 3300, 100);
if (eldo_num < 1 || eldo_num > 3)
return -EINVAL;
if (mvolt == 0)
return pmic_bus_clrbits(AXP221_OUTPUT_CTRL2,
AXP221_OUTPUT_CTRL2_ELDO1_EN << (eldo_num - 1));
ret = pmic_bus_write(AXP221_ELDO1_CTRL + (eldo_num - 1), cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP221_OUTPUT_CTRL2,
AXP221_OUTPUT_CTRL2_ELDO1_EN << (eldo_num - 1));
}
int axp_set_dcdc4(unsigned int mvolt)
{
int ret;
u8 cfg = axp809_mvolt_to_cfg(mvolt, 600, 1540, 20);
if (mvolt >= 1540)
cfg = 0x30 + axp809_mvolt_to_cfg(mvolt, 1800, 2600, 100);
if (mvolt == 0)
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL1,
AXP809_OUTPUT_CTRL1_DCDC4_EN);
ret = pmic_bus_write(AXP809_DCDC5_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP809_OUTPUT_CTRL1,
AXP809_OUTPUT_CTRL1_DCDC4_EN);
}
int axp_set_aldo3(unsigned int mvolt)
{
u8 cfg;
int rc;
if (mvolt == 0)
return pmic_bus_clrbits(AXP209_OUTPUT_CTRL,
AXP209_OUTPUT_CTRL_LDO3);
if (mvolt == -1)
cfg = 0x80; /* determined by LDO3IN pin */
else
cfg = axp209_mvolt_to_cfg(mvolt, 700, 3500, 25);
rc = pmic_bus_write(AXP209_LDO3_VOLTAGE, cfg);
if (rc)
return rc;
return pmic_bus_setbits(AXP209_OUTPUT_CTRL, AXP209_OUTPUT_CTRL_LDO3);
}
int axp_set_dcdc3(unsigned int mvolt)
{
int ret;
u8 cfg;
if (mvolt >= 1220)
cfg = 70 + axp818_mvolt_to_cfg(mvolt, 1220, 1300, 20);
else
cfg = axp818_mvolt_to_cfg(mvolt, 500, 1200, 10);
if (mvolt == 0)
return pmic_bus_clrbits(AXP818_OUTPUT_CTRL1,
AXP818_OUTPUT_CTRL1_DCDC3_EN);
ret = pmic_bus_write(AXP818_DCDC3_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP818_OUTPUT_CTRL1,
AXP818_OUTPUT_CTRL1_DCDC3_EN);
}
int axp_set_dldo(int dldo_num, unsigned int mvolt)
{
u8 cfg = axp809_mvolt_to_cfg(mvolt, 700, 3300, 100);
int ret;
if (dldo_num < 1 || dldo_num > 2)
return -EINVAL;
if (mvolt == 0)
return pmic_bus_clrbits(AXP809_OUTPUT_CTRL2,
AXP809_OUTPUT_CTRL2_DLDO1_EN << (dldo_num - 1));
if (dldo_num == 1 && mvolt > 3300)
cfg += 1 + axp809_mvolt_to_cfg(mvolt, 3400, 4200, 200);
ret = pmic_bus_write(AXP809_DLDO1_CTRL + (dldo_num - 1), cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP809_OUTPUT_CTRL2,
AXP809_OUTPUT_CTRL2_DLDO1_EN << (dldo_num - 1));
}
int axp_set_dcdc5(unsigned int mvolt)
{
int ret;
u8 cfg;
if (mvolt >= 1140)
cfg = 32 + axp818_mvolt_to_cfg(mvolt, 1140, 1840, 20);
else
cfg = axp818_mvolt_to_cfg(mvolt, 800, 1120, 10);
if (mvolt == 0)
return pmic_bus_clrbits(AXP818_OUTPUT_CTRL1,
AXP818_OUTPUT_CTRL1_DCDC5_EN);
ret = pmic_bus_write(AXP818_DCDC5_CTRL, cfg);
if (ret)
return ret;
return pmic_bus_setbits(AXP818_OUTPUT_CTRL1,
AXP818_OUTPUT_CTRL1_DCDC5_EN);
}
static int axp_gpio_set_value(struct udevice *dev, unsigned pin, int val)
{
u8 reg;
switch (pin) {
#ifdef CONFIG_AXP221_POWER /* Only available on axp221/axp223 */
case SUNXI_GPIO_AXP0_VBUS_ENABLE:
if (val)
return pmic_bus_setbits(AXP221_VBUS_IPSOUT,
AXP221_VBUS_IPSOUT_DRIVEBUS);
else
return pmic_bus_clrbits(AXP221_VBUS_IPSOUT,
AXP221_VBUS_IPSOUT_DRIVEBUS);
#endif
default:
reg = axp_get_gpio_ctrl_reg(pin);
if (reg == 0)
return -EINVAL;
return pmic_bus_write(reg, val ? AXP_GPIO_CTRL_OUTPUT_HIGH :
AXP_GPIO_CTRL_OUTPUT_LOW);
}
}
int axp_set_aldo2(unsigned int mvolt)
{
int rc;
u8 cfg, reg;
if (mvolt == 0)
return pmic_bus_clrbits(AXP209_OUTPUT_CTRL,
AXP209_OUTPUT_CTRL_LDO2);
cfg = axp209_mvolt_to_cfg(mvolt, 1800, 3300, 100);
rc = pmic_bus_read(AXP209_LDO24_VOLTAGE, ®);
if (rc)
return rc;
/* LDO2 configuration is in upper 4 bits */
reg = (reg & 0x0f) | (cfg << 4);
rc = pmic_bus_write(AXP209_LDO24_VOLTAGE, reg);
if (rc)
return rc;
return pmic_bus_setbits(AXP209_OUTPUT_CTRL, AXP209_OUTPUT_CTRL_LDO2);
}
