/* * Copyright 2019,2021 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_ANATOP_AI_H_ #define _FSL_ANATOP_AI_H_ #include "fsl_common.h" /*! @addtogroup anatop_ai */ /*! @{ */ /*! @file */ /*! @name Driver version */ /*@{*/ /*! @brief Anatop AI driver version 1.0.0. */ #define FSL_ANATOP_AI_DRIVER_VERSION (MAKE_VERSION(1, 0, 0)) /*@}*/ /*! * @brief Anatop AI ITF enumeration. */ typedef enum _anatop_ai_itf { kAI_Itf_Ldo = 0, /*!< LDO ITF. */ kAI_Itf_1g = 1, /*!< 1G PLL ITF. */ kAI_Itf_Audio = 2, /*!< Audio PLL ITF. */ kAI_Itf_Video = 3, /*!< Video PLL ITF. */ kAI_Itf_400m = 4, /*!< 400M OSC ITF. */ kAI_Itf_Temp = 5, /*!< Temperature Sensor ITF. */ kAI_Itf_Bandgap = 6, /*!< Bandgap ITF. */ } anatop_ai_itf_t; /*! * @brief The enumeration of ANATOP AI Register. */ typedef enum _anatop_ai_reg { kAI_PHY_LDO_CTRL0 = 0x0, /*!< PHY LDO CTRL0 Register. */ kAI_PHY_LDO_CTRL0_SET = 0x4, /*!< PHY LDO CTRL0 Set Register. */ kAI_PHY_LDO_CTRL0_CLR = 0x8, /*!< PHY LDO CTRL0 Clr Register. */ kAI_PHY_LDO_CTRL0_TOG = 0xC, /*!< PHY LDO CTRL0 TOG Register. */ kAI_PHY_LDO_STAT0 = 0x50, /*!< PHY LDO STAT0 Register. */ kAI_PHY_LDO_STAT0_SET = 0x54, /*!< PHY LDO STAT0 Set Register. */ kAI_PHY_LDO_STAT0_CLR = 0x58, /*!< PHY LDO STAT0 Clr Register. */ kAI_PHY_LDO_STAT0_TOG = 0x5C, /*!< PHY LDO STAT0 Tog Register. */ kAI_BANDGAP_CTRL0 = 0x0, /*!< BANDGAP CTRL0 Register. */ kAI_BANDGAP_STAT0 = 0x50, /*!< BANDGAP STAT0 Register. */ kAI_RCOSC400M_CTRL0 = 0x0, /*!< RC OSC 400M CTRL0 Register. */ kAI_RCOSC400M_CTRL0_SET = 0x4, /*!< RC OSC 400M CTRL0 SET Register. */ kAI_RCOSC400M_CTRL0_CLR = 0x8, /*!< RC OSC 400M CTRL0 CLR Register. */ kAI_RCOSC400M_CTRL0_TOG = 0xC, /*!< RC OSC 400M CTRL0 TOG Register. */ kAI_RCOSC400M_CTRL1 = 0x10, /*!< RC OSC 400M CTRL1 Register. */ kAI_RCOSC400M_CTRL1_SET = 0x14, /*!< RC OSC 400M CTRL1 SET Register. */ kAI_RCOSC400M_CTRL1_CLR = 0x18, /*!< RC OSC 400M CTRL1 CLR Register. */ kAI_RCOSC400M_CTRL1_TOG = 0x1C, /*!< RC OSC 400M CTRL1 TOG Register. */ kAI_RCOSC400M_CTRL2 = 0x20, /*!< RC OSC 400M CTRL2 Register. */ kAI_RCOSC400M_CTRL2_SET = 0x24, /*!< RC OSC 400M CTRL2 SET Register. */ kAI_RCOSC400M_CTRL2_CLR = 0x28, /*!< RC OSC 400M CTRL2 CLR Register. */ kAI_RCOSC400M_CTRL2_TOG = 0x2C, /*!< RC OSC 400M CTRL2 TOG Register. */ kAI_RCOSC400M_CTRL3 = 0x30, /*!< RC OSC 400M CTRL3 Register. */ kAI_RCOSC400M_CTRL3_SET = 0x34, /*!< RC OSC 400M CTRL3 SET Register. */ kAI_RCOSC400M_CTRL3_CLR = 0x38, /*!< RC OSC 400M CTRL3 CLR Register. */ kAI_RCOSC400M_CTRL3_TOG = 0x3C, /*!< RC OSC 400M CTRL3 TOG Register. */ kAI_RCOSC400M_STAT0 = 0x50, /*!< RC OSC 400M STAT0 Register. */ kAI_RCOSC400M_STAT0_SET = 0x54, /*!< RC OSC 400M STAT0 SET Register. */ kAI_RCOSC400M_STAT0_CLR = 0x58, /*!< RC OSC 400M STAT0 CLR Register. */ kAI_RCOSC400M_STAT0_TOG = 0x5C, /*!< RC OSC 400M STAT0 TOG Register. */ kAI_RCOSC400M_STAT1 = 0x60, /*!< RC OSC 400M STAT1 Register. */ kAI_RCOSC400M_STAT1_SET = 0x64, /*!< RC OSC 400M STAT1 SET Register. */ kAI_RCOSC400M_STAT1_CLR = 0x68, /*!< RC OSC 400M STAT1 CLR Register. */ kAI_RCOSC400M_STAT1_TOG = 0x6C, /*!< RC OSC 400M STAT1 TOG Register. */ kAI_RCOSC400M_STAT2 = 0x70, /*!< RC OSC 400M STAT2 Register. */ kAI_RCOSC400M_STAT2_SET = 0x74, /*!< RC OSC 400M STAT2 SET Register. */ kAI_RCOSC400M_STAT2_CLR = 0x78, /*!< RC OSC 400M STAT2 CLR Register. */ kAI_RCOSC400M_STAT2_TOG = 0x7C, /*!< RC OSC 400M STAT2 TOG Register. */ kAI_PLL1G_CTRL0 = 0x0, /*!< 1G PLL CTRL0 Register. */ kAI_PLL1G_CTRL0_SET = 0x4, /*!< 1G PLL CTRL0 SET Register. */ kAI_PLL1G_CTRL0_CLR = 0x8, /*!< 1G PLL CTRL0 CLR Register. */ kAI_PLL1G_CTRL1 = 0x10, /*!< 1G PLL CTRL1 Register. */ kAI_PLL1G_CTRL1_SET = 0x14, /*!< 1G PLL CTRL1 SET Register. */ kAI_PLL1G_CTRL1_CLR = 0x18, /*!< 1G PLL CTRL1 CLR Register. */ kAI_PLL1G_CTRL2 = 0x20, /*!< 1G PLL CTRL2 Register. */ kAI_PLL1G_CTRL2_SET = 0x24, /*!< 1G PLL CTRL2 SET Register. */ kAI_PLL1G_CTRL2_CLR = 0x28, /*!< 1G PLL CTRL2 CLR Register. */ kAI_PLL1G_CTRL3 = 0x30, /*!< 1G PLL CTRL3 Register. */ kAI_PLL1G_CTRL3_SET = 0x34, /*!< 1G PLL CTRL3 SET Register. */ kAI_PLL1G_CTRL3_CLR = 0x38, /*!< 1G PLL CTRL3 CLR Register. */ kAI_PLLAUDIO_CTRL0 = 0x0, /*!< AUDIO PLL CTRL0 Register. */ kAI_PLLAUDIO_CTRL0_SET = 0x4, /*!< AUDIO PLL CTRL0 SET Register. */ kAI_PLLAUDIO_CTRL0_CLR = 0x8, /*!< AUDIO PLL CTRL0 CLR Register. */ kAI_PLLAUDIO_CTRL1 = 0x10, /*!< AUDIO PLL CTRL1 Register. */ kAI_PLLAUDIO_CTRL1_SET = 0x14, /*!< AUDIO PLL CTRL1 SET Register. */ kAI_PLLAUDIO_CTRL1_CLR = 0x18, /*!< AUDIO PLL CTRL1 CLR Register. */ kAI_PLLAUDIO_CTRL2 = 0x20, /*!< AUDIO PLL CTRL2 Register. */ kAI_PLLAUDIO_CTRL2_SET = 0x24, /*!< AUDIO PLL CTRL2 SET Register. */ kAI_PLLAUDIO_CTRL2_CLR = 0x28, /*!< AUDIO PLL CTRL2 CLR Register. */ kAI_PLLAUDIO_CTRL3 = 0x30, /*!< AUDIO PLL CTRL3 Register. */ kAI_PLLAUDIO_CTRL3_SET = 0x34, /*!< AUDIO PLL CTRL3 SET Register. */ kAI_PLLAUDIO_CTRL3_CLR = 0x38, /*!< AUDIO PLL CTRL3 CLR Register. */ kAI_PLLVIDEO_CTRL0 = 0x0, /*!< VIDEO PLL CTRL0 Register. */ kAI_PLLVIDEO_CTRL0_SET = 0x4, /*!< VIDEO PLL CTRL0 SET Register. */ kAI_PLLVIDEO_CTRL0_CLR = 0x8, /*!< VIDEO PLL CTRL0 CLR Register. */ kAI_PLLVIDEO_CTRL1 = 0x10, /*!< VIDEO PLL CTRL1 Register. */ kAI_PLLVIDEO_CTRL1_SET = 0x14, /*!< VIDEO PLL CTRL1 SET Register. */ kAI_PLLVIDEO_CTRL1_CLR = 0x18, /*!< VIDEO PLL CTRL1 CLR Register. */ kAI_PLLVIDEO_CTRL2 = 0x20, /*!< VIDEO PLL CTRL2 Register. */ kAI_PLLVIDEO_CTRL2_SET = 0x24, /*!< VIDEO PLL CTRL2 SET Register. */ kAI_PLLVIDEO_CTRL2_CLR = 0x28, /*!< VIDEO PLL CTRL2 CLR Register. */ kAI_PLLVIDEO_CTRL3 = 0x30, /*!< VIDEO PLL CTRL3 Register. */ kAI_PLLVIDEO_CTRL3_SET = 0x34, /*!< VIDEO PLL CTRL3 SET Register. */ kAI_PLLVIDEO_CTRL3_CLR = 0x38, /*!< VIDEO PLL CTRL3 CLR Register. */ } anatop_ai_reg_t; /* ---------------------------------------------------------------------------- -- AI PHY_LDO CTRL0 Register Masks ---------------------------------------------------------------------------- */ /*! @name CTRL0 - CTRL0 Register */ /*! @{ */ #define AI_PHY_LDO_CTRL0_LINREG_EN(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PHY_LDO_CTRL0_LINREG_EN_SHIFT)) & AI_PHY_LDO_CTRL0_LINREG_EN_MASK) #define AI_PHY_LDO_CTRL0_LINREG_EN_MASK (0x1U) #define AI_PHY_LDO_CTRL0_LINREG_EN_SHIFT (0U) /*! LINREG_EN - LinReg master enable * LinReg master enable. Setting this bit will enable the regular */ #define AI_PHY_LDO_CTRL0_PWRUPLOAD_DIS(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PHY_LDO_CTRL0_PWRUPLOAD_DIS_SHIFT)) & AI_PHY_LDO_CTRL0_PWRUPLOAD_DIS_MASK) #define AI_PHY_LDO_CTRL0_PWRUPLOAD_DIS_MASK (0x2U) #define AI_PHY_LDO_CTRL0_PWRUPLOAD_DIS_SHIFT (1U) /*! LINREG_PWRUPLOAD_DIS - LinReg power-up load disable * 0b0..Internal pull-down enabled * 0b1..Internal pull-down disabled */ #define AI_PHY_LDO_CTRL0_LIMIT_EN(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PHY_LDO_CTRL0_LIMIT_EN_SHIFT)) & AI_PHY_LDO_CTRL0_LIMIT_EN_MASK) #define AI_PHY_LDO_CTRL0_LIMIT_EN_MASK (0x4U) #define AI_PHY_LDO_CTRL0_LIMIT_EN_SHIFT (2U) /*! LINREG_LIMIT_EN - LinReg current limit enable * LinReg current-limit enable. Setting this bit will enable the * current-limiter in the regulator */ #define AI_PHY_LDO_CTRL0_OUTPUT_TRG(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PHY_LDO_CTRL0_OUTPUT_TRG_SHIFT)) & AI_PHY_LDO_CTRL0_OUTPUT_TRG_MASK) #define AI_PHY_LDO_CTRL0_OUTPUT_TRG_MASK (0x1F0U) #define AI_PHY_LDO_CTRL0_OUTPUT_TRG_SHIFT (4U) /*! LINREG_OUTPUT_TRG - LinReg output voltage target setting * 0b00000..Set output voltage to x.xV * 0b10000..Set output voltage to 1.0V * 0b11111..Set output voltage to x.xV */ #define AI_PHY_LDO_CTRL0_PHY_ISO_B(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PHY_LDO_CTRL0_PHY_ISO_B_SHIFT)) & AI_PHY_LDO_CTRL0_PHY_ISO_B_MASK) #define AI_PHY_LDO_CTRL0_PHY_ISO_B_MASK (0x8000U) #define AI_PHY_LDO_CTRL0_PHY_ISO_B_SHIFT (15U) /*! LINREG_PHY_ISO_B - Isolation control for attached PHY load * This control bit is to be used by the system controller to isolate the * attached PHY load when the LinReg is powered down. During a power-up * event of the regulator it is expected that this control signal is set high * at least 100us after the main regulator is enabled. During a power-down * event of the regulator it is expected that this control signal is set low * before the main regulator is disabled/power-down. */ /*! @} */ /*! @name STAT0 - STAT0 Register */ /*! @{ */ #define AI_PHY_LDO_STAT0_LINREG_STAT(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PHY_LDO_STAT0_LINREG_STAT_SHIFT)) & AI_PHY_LDO_STAT0_LINREG_STAT_MASK) #define AI_PHY_LDO_STAT0_LINREG_STAT_MASK (0xFU) #define AI_PHY_LDO_STAT0_LINREG_STAT_SHIFT (0U) /*! LINREG_STAT - LinReg status bits * LinReg status bits. */ /*! @} */ /*! @name CTRL0 - CTRL0 Register */ /*! @{ */ #define AI_BANDGAP_CTRL0_REFTOP_PWD(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_PWD_SHIFT)) & AI_BANDGAP_CTRL0_REFTOP_PWD_MASK) #define AI_BANDGAP_CTRL0_REFTOP_PWD_MASK (0x1U) #define AI_BANDGAP_CTRL0_REFTOP_PWD_SHIFT (0U) /*! REFTOP_PWD - This bit fully powers down the bandgap module. * Setting this bit high will disable reference output currents and voltages from the * bandgap and will affect functionality and validity of the voltage detectors. */ #define AI_BANDGAP_CTRL0_REFTOP_LINREGREF_PWD(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_LINREGREF_PWD_SHIFT)) & \ AI_BANDGAP_CTRL0_REFTOP_LINREGREF_PWD_MASK) #define AI_BANDGAP_CTRL0_REFTOP_LINREGREF_PWD_MASK (0x2U) #define AI_BANDGAP_CTRL0_REFTOP_LINREGREF_PWD_SHIFT (1U) /*! * REFOP_LINREGREF_PWD - This bit powers down only the voltage reference output section of the bandgap. * Setting this bit high will affect functionality and validity * of the voltage detectors. */ #define AI_BANDGAP_CTRL0_REFTOP_PWDVBGUP(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_PWDVBGUP_SHIFT)) & AI_BANDGAP_CTRL0_REFTOP_PWDVBGUP_MASK) #define AI_BANDGAP_CTRL0_REFTOP_PWDVBGUP_MASK (0x4U) #define AI_BANDGAP_CTRL0_REFTOP_PWDVBGUP_SHIFT (2U) /*! * REFTOP_PWDVBGUP - This bit powers down the VBGUP detector of the bandgap * without affecting any additional functionality. */ #define AI_BANDGAP_CTRL0_REFTOP_LOWPOWER(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_LOWPOWER_SHIFT)) & AI_BANDGAP_CTRL0_REFTOP_LOWPOWER_MASK) #define AI_BANDGAP_CTRL0_REFTOP_LOWPOWER_MASK (0x8U) #define AI_BANDGAP_CTRL0_REFTOP_LOWPOWER_SHIFT (3U) /*! * REFTOP_LOWPOWER - This bit enables the low-power operation of the * bandgap by cutting the bias currents in half to the main amplifiers. * This will save power but could affect the accuracy of the output voltages and currents. */ #define AI_BANDGAP_CTRL0_REFTOP_SELFBIASOFF(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_SELFBIASOFF_SHIFT)) & \ AI_BANDGAP_CTRL0_REFTOP_SELFBIASOFF_MASK) #define AI_BANDGAP_CTRL0_REFTOP_SELFBIASOFF_MASK (0x10U) #define AI_BANDGAP_CTRL0_REFTOP_SELFBIASOFF_SHIFT (4U) /*! * REFTOP_SELFBIASOFF - Control bit to disable the self-bias circuit in the bandgap. * The self-bias circuit is used by the bandgap during startup. This bit should be * set high after the bandgap has stabilized and is necessary for best noise performance * of modules using the outputs of the bandgap. It is expected that this control bit * be set low any time that either the bandgap is fully powered-down or the 1.8V supply is removed. */ #define AI_BANDGAP_CTRL0_REFTOP_VBGADJ(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_VBGADJ_SHIFT)) & AI_BANDGAP_CTRL0_REFTOP_VBGADJ_MASK) #define AI_BANDGAP_CTRL0_REFTOP_VBGADJ_MASK (0xE0U) #define AI_BANDGAP_CTRL0_REFTOP_VBGADJ_SHIFT (5U) /*! * REFTOP_VBGADJ - These bits allow the output VBG voltage of the bandgap to be trimmed * 000 : nominal * 001 : +10mV * 010 : +20mV * 011 : +30mV * 100 : -10mV * 101 : -20mV * 110 : -30mV * 111 : -40mV */ #define AI_BANDGAP_CTRL0_REFTOP_IBZTCADJ(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_CTRL0_REFTOP_IBZTCADJ_SHIFT)) & AI_BANDGAP_CTRL0_REFTOP_IBZTCADJ_MASK) #define AI_BANDGAP_CTRL0_REFTOP_IBZTCADJ_MASK (0x1C00U) #define AI_BANDGAP_CTRL0_REFTOP_IBZTCADJ_SHIFT (10U) /*! * REFTOP_IBZTCADJ - These bits allow trimming of the ZTC bias currents from the bandgap to * the temperature sensors. Assuming a typical process corner the expected values of output * currents are: * 000 : 11.5 uA * 001 : 11.8 uA * 010 : 12.1 uA * 100 : 12.4 uA (Nominal expected from MX8QM tempsensor) * 101 : 12.7 uA * 110 : 13.0 uA * 111 : 13.3 uA */ /*! @} */ /*! @name STAT0 - STAT0 Register */ /*! @{ */ #define AI_BANDGAP_STAT0_REFTOP_VBGUP(x) \ (((uint32_t)(((uint32_t)(x)) << AI_BANDGAP_STAT0_REFTOP_VBGUP_SHIFT)) & AI_BANDGAP_STAT0_REFTOP_VBGUP_MASK) #define AI_BANDGAP_STAT0_REFTOP_VBGUP_MASK (0x1U) #define AI_BANDGAP_STAT0_REFTOP_VBGUP_SHIFT (0U) /*! @} */ /*! @name CTRL0 - CTRL0 Register */ /*! @{ */ #define AI_RCOSC400M_CTRL0_REF_CLK_DIV(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL0_REF_CLK_DIV_SHIFT)) & AI_RCOSC400M_CTRL0_REF_CLK_DIV_MASK) #define AI_RCOSC400M_CTRL0_REF_CLK_DIV_MASK (0x3F000000U) #define AI_RCOSC400M_CTRL0_REF_CLK_DIV_SHIFT (24U) /*! @} */ /*! @name CTRL1 - CTRL1 Register */ /*! @{ */ #define AI_RCOSC400M_CTRL1_HYST_MINUS(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL1_HYST_MINUS_SHIFT)) & AI_RCOSC400M_CTRL1_HYST_MINUS_MASK) #define AI_RCOSC400M_CTRL1_HYST_MINUS_MASK (0xFU) #define AI_RCOSC400M_CTRL1_HYST_MINUS_SHIFT (0U) #define AI_RCOSC400M_CTRL1_HYST_PLUS(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL1_HYST_PLUS_SHIFT)) & AI_RCOSC400M_CTRL1_HYST_PLUS_MASK) #define AI_RCOSC400M_CTRL1_HYST_PLUS_MASK (0xF00U) #define AI_RCOSC400M_CTRL1_HYST_PLUS_SHIFT (8U) #define AI_RCOSC400M_CTRL1_TARGET_COUNT(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL1_TARGET_COUNT_SHIFT)) & AI_RCOSC400M_CTRL1_TARGET_COUNT_MASK) #define AI_RCOSC400M_CTRL1_TARGET_COUNT_MASK (0xFFFF0000U) #define AI_RCOSC400M_CTRL1_TARGET_COUNT_SHIFT (16U) /*! @} */ /*! @name CTRL2 - CTRL2 Register */ /*! @{ */ #define AI_RCOSC400M_CTRL2_TUNE_BYP(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL2_TUNE_BYP_SHIFT)) & AI_RCOSC400M_CTRL2_TUNE_BYP_MASK) #define AI_RCOSC400M_CTRL2_TUNE_BYP_MASK (0x400U) #define AI_RCOSC400M_CTRL2_TUNE_BYP_SHIFT (10U) #define AI_RCOSC400M_CTRL2_TUNE_EN(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL2_TUNE_EN_SHIFT)) & AI_RCOSC400M_CTRL2_TUNE_EN_MASK) #define AI_RCOSC400M_CTRL2_TUNE_EN_MASK (0x1000U) #define AI_RCOSC400M_CTRL2_TUNE_EN_SHIFT (12U) #define AI_RCOSC400M_CTRL2_TUNE_START(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL2_TUNE_START_SHIFT)) & AI_RCOSC400M_CTRL2_TUNE_START_MASK) #define AI_RCOSC400M_CTRL2_TUNE_START_MASK (0x4000U) #define AI_RCOSC400M_CTRL2_TUNE_START_SHIFT (14U) #define AI_RCOSC400M_CTRL2_OSC_TUNE_VAL(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL2_OSC_TUNE_VAL_SHIFT)) & AI_RCOSC400M_CTRL2_OSC_TUNE_VAL_MASK) #define AI_RCOSC400M_CTRL2_OSC_TUNE_VAL_MASK (0xFF000000U) #define AI_RCOSC400M_CTRL2_OSC_TUNE_VAL_SHIFT (24U) /*! @} */ /*! @name CTRL3 - CTRL3 Register */ /*! @{ */ #define AI_RCOSC400M_CTRL3_CLR_ERR(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL3_CLR_ERR_SHIFT)) & AI_RCOSC400M_CTRL3_CLR_ERR_MASK) #define AI_RCOSC400M_CTRL3_CLR_ERR_MASK (0x1U) #define AI_RCOSC400M_CTRL3_CLR_ERR_SHIFT (0U) #define AI_RCOSC400M_CTRL3_EN_1M_CLK(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL3_EN_1M_CLK_SHIFT)) & AI_RCOSC400M_CTRL3_EN_1M_CLK_MASK) #define AI_RCOSC400M_CTRL3_EN_1M_CLK_MASK (0x100U) #define AI_RCOSC400M_CTRL3_EN_1M_CLK_SHIFT (8U) #define AI_RCOSC400M_CTRL3_MUX_1M_CLK(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL3_MUX_1M_CLK_SHIFT)) & AI_RCOSC400M_CTRL3_MUX_1M_CLK_MASK) #define AI_RCOSC400M_CTRL3_MUX_1M_CLK_MASK (0x400U) #define AI_RCOSC400M_CTRL3_MUX_1M_CLK_SHIFT (10U) #define AI_RCOSC400M_CTRL3_COUNT_1M_CLK(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_CTRL3_COUNT_1M_CLK_SHIFT)) & AI_RCOSC400M_CTRL3_COUNT_1M_CLK_MASK) #define AI_RCOSC400M_CTRL3_COUNT_1M_CLK_MASK (0xFFFF0000U) #define AI_RCOSC400M_CTRL3_COUNT_1M_CLK_SHIFT (16U) /*! @} */ /*! @name STAT0 - STAT0 Register */ /*! @{ */ #define AI_RCOSC400M_STAT0_CLK1M_ERR(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_STAT0_CLK1M_ERR_SHIFT)) & AI_RCOSC400M_STAT0_CLK1M_ERR_MASK) #define AI_RCOSC400M_STAT0_CLK1M_ERR_MASK (0x1U) #define AI_RCOSC400M_STAT0_CLK1M_ERR_SHIFT (0U) /*! @} */ /*! @name STAT1 - STAT1 Register */ /*! @{ */ #define AI_RCOSC400M_STAT1_CURR_COUNT_VAL(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_STAT1_CURR_COUNT_VAL_SHIFT)) & AI_RCOSC400M_STAT1_CURR_COUNT_VAL_MASK) #define AI_RCOSC400M_STAT1_CURR_COUNT_VAL_MASK (0xFFFF0000U) #define AI_RCOSC400M_STAT1_CURR_COUNT_VAL_SHIFT (16U) /*! @} */ /*! @name STAT2 - STAT2 Register */ /*! @{ */ #define AI_RCOSC400M_STAT2_CURR_OSC_TUNE_VAL(x) \ (((uint32_t)(((uint32_t)(x)) << AI_RCOSC400M_STAT2_CURR_OSC_TUNE_VAL_SHIFT)) & \ AI_RCOSC400M_STAT2_CURR_OSC_TUNE_VAL_MASK) #define AI_RCOSC400M_STAT2_CURR_OSC_TUNE_VAL_MASK (0xFF000000U) #define AI_RCOSC400M_STAT2_CURR_OSC_TUNE_VAL_SHIFT (24U) /*! @} */ /*! @name CTRL0 - CTRL0 Register */ /*! @{ */ #define AI_PLL1G_CTRL0_HOLD_RING_OFF(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLL1G_CTRL0_HOLD_RING_OFF_SHIFT)) & AI_PLL1G_CTRL0_HOLD_RING_OFF_MASK) #define AI_PLL1G_CTRL0_HOLD_RING_OFF_MASK (0x2000UL) #define AI_PLL1G_CTRL0_HOLD_RING_OFF_SHIFT (13U) #define AI_PLL1G_CTRL0_POWER_UP(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLL1G_CTRL0_POWER_UP_SHIFT)) & AI_PLL1G_CTRL0_POWER_UP_MASK) #define AI_PLL1G_CTRL0_POWER_UP_MASK (0x4000UL) #define AI_PLL1G_CTRL0_POWER_UP_SHIFT (14U) #define AI_PLL1G_CTRL0_ENABLE(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLL1G_CTRL0_ENABLE_SHIFT)) & AI_PLL1G_CTRL0_ENABLE_MASK) #define AI_PLL1G_CTRL0_ENABLE_MASK (0x8000UL) #define AI_PLL1G_CTRL0_ENABLE_SHIFT (15U) #define AI_PLL1G_CTRL0_BYPASS(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLL1G_CTRL0_BYPASS_SHIFT)) & AI_PLL1G_CTRL0_BYPASS_MASK) #define AI_PLL1G_CTRL0_BYPASS_MASK (0x10000UL) #define AI_PLL1G_CTRL0_BYPASS_SHIFT (16U) #define AI_PLL1G_CTRL0_PLL_REG_EN(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLL1G_CTRL0_PLL_REG_EN_SHIFT)) & AI_PLL1G_CTRL0_PLL_REG_EN_MASK) #define AI_PLL1G_CTRL0_PLL_REG_EN_MASK (0x400000UL) #define AI_PLL1G_CTRL0_PLL_REG_EN_SHIFT (22U) /*! @} */ /*! @name CTRL0 - CTRL0 Register */ /*! @{ */ #define AI_PLLAUDIO_CTRL0_HOLD_RING_OFF(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLAUDIO_CTRL0_HOLD_RING_OFF_SHIFT)) & AI_PLLAUDIO_CTRL0_HOLD_RING_OFF_MASK) #define AI_PLLAUDIO_CTRL0_HOLD_RING_OFF_MASK (0x2000UL) #define AI_PLLAUDIO_CTRL0_HOLD_RING_OFF_SHIFT (13U) #define AI_PLLAUDIO_CTRL0_POWER_UP(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLAUDIO_CTRL0_POWER_UP_SHIFT)) & AI_PLLAUDIO_CTRL0_POWER_UP_MASK) #define AI_PLLAUDIO_CTRL0_POWER_UP_MASK (0x4000UL) #define AI_PLLAUDIO_CTRL0_POWER_UP_SHIFT (14U) #define AI_PLLAUDIO_CTRL0_ENABLE(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLAUDIO_CTRL0_ENABLE_SHIFT)) & AI_PLLAUDIO_CTRL0_ENABLE_MASK) #define AI_PLLAUDIO_CTRL0_ENABLE_MASK (0x8000UL) #define AI_PLLAUDIO_CTRL0_ENABLE_SHIFT (15U) #define AI_PLLAUDIO_CTRL0_BYPASS(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLAUDIO_CTRL0_BYPASS_SHIFT)) & AI_PLLAUDIO_CTRL0_BYPASS_MASK) #define AI_PLLAUDIO_CTRL0_BYPASS_MASK (0x10000UL) #define AI_PLLAUDIO_CTRL0_BYPASS_SHIFT (16U) #define AI_PLLAUDIO_CTRL0_PLL_REG_EN(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLAUDIO_CTRL0_PLL_REG_EN_SHIFT)) & AI_PLLAUDIO_CTRL0_PLL_REG_EN_MASK) #define AI_PLLAUDIO_CTRL0_PLL_REG_EN_MASK (0x400000UL) #define AI_PLLAUDIO_CTRL0_PLL_REG_EN_SHIFT (22U) /*! @} */ /*! @name CTRL0 - CTRL0 Register */ /*! @{ */ #define AI_PLLVIDEO_CTRL0_HOLD_RING_OFF(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLVIDEO_CTRL0_HOLD_RING_OFF_SHIFT)) & AI_PLLVIDEO_CTRL0_HOLD_RING_OFF_MASK) #define AI_PLLVIDEO_CTRL0_HOLD_RING_OFF_MASK (0x2000UL) #define AI_PLLVIDEO_CTRL0_HOLD_RING_OFF_SHIFT (13U) #define AI_PLLVIDEO_CTRL0_POWER_UP(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLVIDEO_CTRL0_POWER_UP_SHIFT)) & AI_PLLVIDEO_CTRL0_POWER_UP_MASK) #define AI_PLLVIDEO_CTRL0_POWER_UP_MASK (0x4000UL) #define AI_PLLVIDEO_CTRL0_POWER_UP_SHIFT (14U) #define AI_PLLVIDEO_CTRL0_ENABLE(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLVIDEO_CTRL0_ENABLE_SHIFT)) & AI_PLLVIDEO_CTRL0_ENABLE_MASK) #define AI_PLLVIDEO_CTRL0_ENABLE_MASK (0x8000UL) #define AI_PLLVIDEO_CTRL0_ENABLE_SHIFT (15U) #define AI_PLLVIDEO_CTRL0_BYPASS(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLVIDEO_CTRL0_BYPASS_SHIFT)) & AI_PLLVIDEO_CTRL0_BYPASS_MASK) #define AI_PLLVIDEO_CTRL0_BYPASS_MASK (0x10000UL) #define AI_PLLVIDEO_CTRL0_BYPASS_SHIFT (16U) #define AI_PLLVIDEO_CTRL0_PLL_REG_EN(x) \ (((uint32_t)(((uint32_t)(x)) << AI_PLLVIDEO_CTRL0_PLL_REG_EN_SHIFT)) & AI_PLLVIDEO_CTRL0_PLL_REG_EN_MASK) #define AI_PLLVIDEO_CTRL0_PLL_REG_EN_MASK (0x400000UL) #define AI_PLLVIDEO_CTRL0_PLL_REG_EN_SHIFT (22U) /*! @} */ /*! @} */ /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /* __cplusplus */ /*! * @brief AI interface access * * @param itf AI interface name * @param isWrite write enable * @param addr address * @param wdata data to be set * */ uint32_t ANATOP_AI_Access(anatop_ai_itf_t itf, bool isWrite, anatop_ai_reg_t addr, uint32_t wdata); /*! * @brief AI interface writing * * @param itf AI interface name * @param addr address * @param wdata data to be set * */ void ANATOP_AI_Write(anatop_ai_itf_t itf, anatop_ai_reg_t addr, uint32_t wdata); /*! * @brief AI interface reading * * @param itf AI interface name * @param addr address * @return data read * */ uint32_t ANATOP_AI_Read(anatop_ai_itf_t itf, anatop_ai_reg_t addr); /*! * @brief AI interface write with mask and shift * * @param itf AI interface name * @param addr address * @param wdata data to be written * @param mask bit field mask * @param shift bit field shift * */ void ANATOP_AI_WriteWithMaskShift( anatop_ai_itf_t itf, anatop_ai_reg_t addr, uint32_t wdata, uint32_t mask, uint32_t shift); /* @} */ #if defined(__cplusplus) } #endif /* __cplusplus */ /*! @} */ #endif /* _FSL_ANATOP_AI_H_ */