/* * Copyright (c) 2021 NXP * SPDX-License-Identifier: Apache-2.0 */ #define DT_DRV_COMPAT nxp_pca9420 #include #include #include #include #include #include #include /** Register memory map. See datasheet for more details. */ /** General purpose registers */ /** @brief Top level system ctrl 0 */ #define PCA9420_TOP_CNTL0 0x09U /** @brief Top level system ctrl 3 */ #define PCA9420_TOP_CNTL3 0x0CU /** Regulator status indication registers */ /** @brief Mode configuration for mode 0_0 */ #define PCA9420_MODECFG_0_0 0x22U /** @brief Mode configuration for mode 0_1 */ #define PCA9420_MODECFG_0_1 0x23U /** @brief Mode configuration for mode 0_2 */ #define PCA9420_MODECFG_0_2 0x24U /** @brief Mode configuration for mode 0_3 */ #define PCA9420_MODECFG_0_3 0x25U /** @brief VIN input current limit selection */ #define PCA9420_TOP_CNTL0_VIN_ILIM_SEL_POS 5U #define PCA9420_TOP_CNTL0_VIN_ILIM_SEL_MASK 0xE0U #define PCA9420_TOP_CNTL0_VIN_ILIM_SEL_DISABLED 0x7U /** @brief I2C Mode control mask */ #define PCA9420_TOP_CNTL3_MODE_I2C_POS 3U #define PCA9420_TOP_CNTL3_MODE_I2C_MASK 0x18U /* * @brief Mode control selection mask. When this bit is set, the external * PMIC pins MODESEL0 and MODESEL1 can be used to select the active mode */ #define PCA9420_MODECFG_0_X_EN_MODE_SEL_BY_PIN 0x40U /* * @brief Mode configuration upon falling edge applied to ON pin. If set, * the device will switch to mode 0 when a valid falling edge is applied. * to the ON pin */ /** @brief Mode output voltage mask */ #define PCA9420_MODECFG_0_SW1_OUT_MASK 0x3FU #define PCA9420_MODECFG_0_SW1_OUT_POS 0U /** @brief SW2_OUT offset and voltage level mask */ #define PCA9420_MODECFG_1_SW2_OUT_MASK 0x3FU #define PCA9420_MODECFG_1_SW2_OUT_POS 0U /** @brief LDO1_OUT voltage level mask */ #define PCA9420_MODECFG_2_LDO1_OUT_MASK 0xF0U #define PCA9420_MODECFG_2_LDO1_OUT_POS 4U /** @brief SW1 Enable */ #define PCA9420_MODECFG_2_SW1_EN_MASK 0x08U #define PCA9420_MODECFG_2_SW1_EN_VAL 0x08U /** @brief SW2 Enable */ #define PCA9420_MODECFG_2_SW2_EN_MASK 0x04U #define PCA9420_MODECFG_2_SW2_EN_VAL 0x04U /** @brief LDO1 Enable */ #define PCA9420_MODECFG_2_LDO1_EN_MASK 0x02U #define PCA9420_MODECFG_2_LDO1_EN_VAL 0x02U /** @brief LDO2 Enable */ #define PCA9420_MODECFG_2_LDO2_EN_MASK 0x01U #define PCA9420_MODECFG_2_LDO2_EN_VAL 0x01U /** @brief LDO2_OUT offset and voltage level mask */ #define PCA9420_MODECFG_3_LDO2_OUT_MASK 0x3FU #define PCA9420_MODECFG_3_LDO2_OUT_POS 0U /** VIN ILIM resolution, uA/LSB */ #define PCA9420_VIN_ILIM_UA_LSB 170000 /** VIN ILIM minimum value, uA */ #define PCA9420_VIN_ILIM_MIN_UA 85000 /** Number of modes */ #define PCA9420_NUM_MODES 4U /** Offset applied to MODECFG* registers for a given mode */ #define PCA9420_MODECFG_OFFSET(mode) ((mode) * 4U) struct regulator_pca9420_desc { uint8_t enable_reg; uint8_t enable_mask; uint8_t enable_val; uint8_t vsel_reg; uint8_t vsel_mask; uint8_t vsel_pos; int32_t max_ua; uint8_t num_ranges; const struct linear_range *ranges; }; struct regulator_pca9420_common_config { struct i2c_dt_spec i2c; int32_t vin_ilim_ua; bool enable_modesel_pins; }; struct regulator_pca9420_common_data { regulator_dvs_state_t dvs_state; }; struct regulator_pca9420_config { struct regulator_common_config common; bool enable_inverted; int32_t modes_uv[4]; const struct regulator_pca9420_desc *desc; const struct device *parent; }; struct regulator_pca9420_data { struct regulator_common_data data; }; static const struct linear_range buck1_ranges[] = { LINEAR_RANGE_INIT(500000, 25000U, 0x0U, 0x28U), LINEAR_RANGE_INIT(1500000, 0U, 0x29U, 0x3E), LINEAR_RANGE_INIT(1800000, 0U, 0x3FU, 0x3FU), }; static const struct linear_range buck2_ranges[] = { LINEAR_RANGE_INIT(1500000, 25000U, 0x0U, 0x18U), LINEAR_RANGE_INIT(2100000, 0U, 0x19U, 0x1F), LINEAR_RANGE_INIT(2700000, 25000U, 0x20U, 0x38U), LINEAR_RANGE_INIT(3300000, 0U, 0x39U, 0x3F), }; static const struct linear_range ldo1_ranges[] = { LINEAR_RANGE_INIT(1700000, 25000U, 0x0U, 0x9U), LINEAR_RANGE_INIT(1900000, 0U, 0x9U, 0xFU), }; static const struct linear_range ldo2_ranges[] = { LINEAR_RANGE_INIT(1500000, 25000U, 0x0U, 0x18U), LINEAR_RANGE_INIT(2100000, 0U, 0x19U, 0x1FU), LINEAR_RANGE_INIT(2700000, 25000U, 0x20U, 0x38U), LINEAR_RANGE_INIT(3300000, 0U, 0x39U, 0x3FU), }; static const struct regulator_pca9420_desc buck1_desc = { .enable_reg = PCA9420_MODECFG_0_2, .enable_mask = PCA9420_MODECFG_2_SW1_EN_MASK, .enable_val = PCA9420_MODECFG_2_SW1_EN_VAL, .vsel_mask = PCA9420_MODECFG_0_SW1_OUT_MASK, .vsel_pos = PCA9420_MODECFG_0_SW1_OUT_POS, .vsel_reg = PCA9420_MODECFG_0_0, .max_ua = 250000, .ranges = buck1_ranges, .num_ranges = ARRAY_SIZE(buck1_ranges), }; static const struct regulator_pca9420_desc buck2_desc = { .enable_reg = PCA9420_MODECFG_0_2, .enable_mask = PCA9420_MODECFG_2_SW2_EN_MASK, .enable_val = PCA9420_MODECFG_2_SW2_EN_VAL, .vsel_mask = PCA9420_MODECFG_1_SW2_OUT_MASK, .vsel_pos = PCA9420_MODECFG_1_SW2_OUT_POS, .vsel_reg = PCA9420_MODECFG_0_1, .max_ua = 500000, .ranges = buck2_ranges, .num_ranges = ARRAY_SIZE(buck2_ranges), }; static const struct regulator_pca9420_desc ldo1_desc = { .enable_reg = PCA9420_MODECFG_0_2, .enable_mask = PCA9420_MODECFG_2_LDO1_EN_MASK, .enable_val = PCA9420_MODECFG_2_LDO1_EN_VAL, .vsel_mask = PCA9420_MODECFG_2_LDO1_OUT_MASK, .vsel_pos = PCA9420_MODECFG_2_LDO1_OUT_POS, .vsel_reg = PCA9420_MODECFG_0_2, .max_ua = 1000, .ranges = ldo1_ranges, .num_ranges = ARRAY_SIZE(ldo1_ranges), }; static const struct regulator_pca9420_desc ldo2_desc = { .enable_reg = PCA9420_MODECFG_0_2, .enable_mask = PCA9420_MODECFG_2_LDO2_EN_MASK, .enable_val = PCA9420_MODECFG_2_LDO2_EN_VAL, .vsel_reg = PCA9420_MODECFG_0_3, .vsel_mask = PCA9420_MODECFG_3_LDO2_OUT_MASK, .vsel_pos = PCA9420_MODECFG_3_LDO2_OUT_POS, .max_ua = 250000, .ranges = ldo2_ranges, .num_ranges = ARRAY_SIZE(ldo2_ranges), }; static unsigned int regulator_pca9420_count_voltages(const struct device *dev) { const struct regulator_pca9420_config *config = dev->config; return linear_range_group_values_count(config->desc->ranges, config->desc->num_ranges); } static int regulator_pca9420_list_voltage(const struct device *dev, unsigned int idx, int32_t *volt_uv) { const struct regulator_pca9420_config *config = dev->config; return linear_range_group_get_value(config->desc->ranges, config->desc->num_ranges, idx, volt_uv); } static int regulator_pca9420_set_voltage(const struct device *dev, int32_t min_uv, int32_t max_uv) { const struct regulator_pca9420_config *config = dev->config; const struct regulator_pca9420_common_config *cconfig = config->parent->config; struct regulator_pca9420_common_data *cdata = config->parent->data; uint16_t idx; int ret; ret = linear_range_group_get_win_index(config->desc->ranges, config->desc->num_ranges, min_uv, max_uv, &idx); if (ret == -EINVAL) { return ret; } idx <<= config->desc->vsel_pos; return i2c_reg_update_byte_dt(&cconfig->i2c, config->desc->vsel_reg + PCA9420_MODECFG_OFFSET(cdata->dvs_state), config->desc->vsel_mask, (uint8_t)idx); } static int regulator_pca9420_get_voltage(const struct device *dev, int32_t *volt_uv) { const struct regulator_pca9420_config *config = dev->config; const struct regulator_pca9420_common_config *cconfig = config->parent->config; struct regulator_pca9420_common_data *cdata = config->parent->data; int ret; uint8_t raw_reg; ret = i2c_reg_read_byte_dt(&cconfig->i2c, config->desc->vsel_reg + PCA9420_MODECFG_OFFSET(cdata->dvs_state), &raw_reg); if (ret < 0) { return ret; } raw_reg = (raw_reg & config->desc->vsel_mask) >> config->desc->vsel_pos; return linear_range_group_get_value(config->desc->ranges, config->desc->num_ranges, raw_reg, volt_uv); } static int regulator_pca9420_get_current_limit(const struct device *dev, int32_t *curr_ua) { const struct regulator_pca9420_config *config = dev->config; const struct regulator_pca9420_common_config *cconfig = config->parent->config; if (cconfig->vin_ilim_ua == 0U) { *curr_ua = config->desc->max_ua; } else { *curr_ua = MIN(config->desc->max_ua, cconfig->vin_ilim_ua); } return 0; } static int regulator_pca9420_enable(const struct device *dev) { const struct regulator_pca9420_config *config = dev->config; const struct regulator_pca9420_common_config *cconfig = config->parent->config; struct regulator_pca9420_common_data *cdata = config->parent->data; uint8_t en_val; en_val = config->enable_inverted ? 0 : config->desc->enable_val; return i2c_reg_update_byte_dt(&cconfig->i2c, config->desc->enable_reg + PCA9420_MODECFG_OFFSET(cdata->dvs_state), config->desc->enable_mask, en_val); } static int regulator_pca9420_disable(const struct device *dev) { const struct regulator_pca9420_config *config = dev->config; const struct regulator_pca9420_common_config *cconfig = config->parent->config; struct regulator_pca9420_common_data *cdata = config->parent->data; uint8_t dis_val; dis_val = config->enable_inverted ? config->desc->enable_val : 0; return i2c_reg_update_byte_dt(&cconfig->i2c, config->desc->enable_reg + PCA9420_MODECFG_OFFSET(cdata->dvs_state), config->desc->enable_mask, dis_val); } static const struct regulator_driver_api api = { .enable = regulator_pca9420_enable, .disable = regulator_pca9420_disable, .count_voltages = regulator_pca9420_count_voltages, .list_voltage = regulator_pca9420_list_voltage, .set_voltage = regulator_pca9420_set_voltage, .get_voltage = regulator_pca9420_get_voltage, .get_current_limit = regulator_pca9420_get_current_limit, }; static int regulator_pca9420_init(const struct device *dev) { const struct regulator_pca9420_config *config = dev->config; const struct regulator_pca9420_common_config *cconfig = config->parent->config; regulator_common_data_init(dev); if (!device_is_ready(config->parent)) { return -ENODEV; } /* configure mode voltages */ for (uint8_t i = 0U; i < ARRAY_SIZE(config->modes_uv); i++) { int ret; if (config->modes_uv[i] == 0) { /* disable mode if voltage is 0 */ ret = i2c_reg_update_byte_dt( &cconfig->i2c, config->desc->enable_reg + PCA9420_MODECFG_OFFSET(i), config->desc->enable_mask, 0U); if (ret < 0) { return ret; } } else if (config->modes_uv[i] > 0) { uint16_t idx; /* program mode voltage */ ret = linear_range_group_get_win_index( config->desc->ranges, config->desc->num_ranges, config->modes_uv[i], config->modes_uv[i], &idx); if (ret == -EINVAL) { return ret; } idx <<= config->desc->vsel_pos; ret = i2c_reg_update_byte_dt( &cconfig->i2c, config->desc->vsel_reg + PCA9420_MODECFG_OFFSET(i), config->desc->vsel_mask, (uint8_t)idx); if (ret < 0) { return ret; } } } return regulator_common_init(dev, false); } int regulator_pca9420_dvs_state_set(const struct device *dev, regulator_dvs_state_t state) { const struct regulator_pca9420_common_config *config = dev->config; struct regulator_pca9420_common_data *data = dev->data; int ret; if (state >= PCA9420_NUM_MODES) { return -ENOTSUP; } if (config->enable_modesel_pins) { /* * The user cannot set DVS state via this API, * but they may want to query/set voltages for another mode. * Return -EPERM to indicate change failed, but change the * dvs_state variable so the user can access the alternative * dvs mode settings. */ data->dvs_state = state; return -EPERM; } ret = i2c_reg_update_byte_dt(&config->i2c, PCA9420_TOP_CNTL3, PCA9420_TOP_CNTL3_MODE_I2C_MASK, state << PCA9420_TOP_CNTL3_MODE_I2C_POS); if (ret < 0) { return ret; } /* Record new DVS state */ data->dvs_state = state; return 0; } static const struct regulator_parent_driver_api parent_api = { .dvs_state_set = regulator_pca9420_dvs_state_set, }; static int regulator_pca9420_common_init(const struct device *dev) { const struct regulator_pca9420_common_config *config = dev->config; uint8_t reg_val = PCA9420_TOP_CNTL0_VIN_ILIM_SEL_DISABLED; int ret; if (!device_is_ready(config->i2c.bus)) { return -ENODEV; } if (config->enable_modesel_pins) { /* enable MODESEL0/1 pins for each mode */ for (uint8_t i = 0U; i < PCA9420_NUM_MODES; i++) { ret = i2c_reg_update_byte_dt( &config->i2c, PCA9420_MODECFG_0_0 + PCA9420_MODECFG_OFFSET(i), PCA9420_MODECFG_0_X_EN_MODE_SEL_BY_PIN, PCA9420_MODECFG_0_X_EN_MODE_SEL_BY_PIN); if (ret < 0) { return ret; } } } /* configure VIN current limit */ if (config->vin_ilim_ua != 0U) { reg_val = (config->vin_ilim_ua - PCA9420_VIN_ILIM_MIN_UA) / PCA9420_VIN_ILIM_UA_LSB; } return i2c_reg_update_byte_dt( &config->i2c, PCA9420_TOP_CNTL0, PCA9420_TOP_CNTL0_VIN_ILIM_SEL_MASK, reg_val << PCA9420_TOP_CNTL0_VIN_ILIM_SEL_POS); } #define REGULATOR_PCA9420_DEFINE(node_id, id, name, _parent) \ static struct regulator_pca9420_data data_##id; \ \ static const struct regulator_pca9420_config config_##id = { \ .common = REGULATOR_DT_COMMON_CONFIG_INIT(node_id), \ .enable_inverted = DT_PROP(node_id, enable_inverted), \ .modes_uv = { \ DT_PROP_OR(node_id, nxp_mode0_microvolt, -1), \ DT_PROP_OR(node_id, nxp_mode1_microvolt, -1), \ DT_PROP_OR(node_id, nxp_mode2_microvolt, -1), \ DT_PROP_OR(node_id, nxp_mode3_microvolt, -1), \ }, \ .desc = &name ## _desc, \ .parent = _parent, \ }; \ \ DEVICE_DT_DEFINE(node_id, regulator_pca9420_init, NULL, &data_##id, \ &config_##id, POST_KERNEL, \ CONFIG_REGULATOR_PCA9420_INIT_PRIORITY, &api); #define REGULATOR_PCA9420_DEFINE_COND(inst, child, parent) \ COND_CODE_1(DT_NODE_EXISTS(DT_INST_CHILD(inst, child)), \ (REGULATOR_PCA9420_DEFINE(DT_INST_CHILD(inst, child), \ child ## inst, child, parent)), \ ()) #define REGULATOR_PCA9420_DEFINE_ALL(inst) \ static const struct regulator_pca9420_common_config config_##inst = { \ .i2c = I2C_DT_SPEC_INST_GET(inst), \ .vin_ilim_ua = DT_INST_PROP(inst, nxp_vin_ilim_microamp), \ .enable_modesel_pins = \ DT_INST_PROP(inst, nxp_enable_modesel_pins), \ }; \ \ static struct regulator_pca9420_common_data data_##inst; \ \ DEVICE_DT_INST_DEFINE(inst, regulator_pca9420_common_init, NULL, \ &data_##inst, \ &config_##inst, POST_KERNEL, \ CONFIG_REGULATOR_PCA9420_COMMON_INIT_PRIORITY, \ &parent_api); \ \ REGULATOR_PCA9420_DEFINE_COND(inst, buck1, DEVICE_DT_INST_GET(inst)) \ REGULATOR_PCA9420_DEFINE_COND(inst, buck2, DEVICE_DT_INST_GET(inst)) \ REGULATOR_PCA9420_DEFINE_COND(inst, ldo1, DEVICE_DT_INST_GET(inst)) \ REGULATOR_PCA9420_DEFINE_COND(inst, ldo2, DEVICE_DT_INST_GET(inst)) DT_INST_FOREACH_STATUS_OKAY(REGULATOR_PCA9420_DEFINE_ALL)