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nest-open-source / nest-learning-thermostat / 6.1 / linux-imx-4.1.15 / b526bc5272c85f970d2fb16d43e197f32de85b80 / . / sound / soc / codecs / tfa1_tfafieldnames.h
blob: 6cafe7d3f195420880573de3658210cc5298e538 [file] [log] [blame]
/** Filename: Tfa1_TfaFieldnames.h
* This file was generated automatically on 03/20/2015 at 01:55:46 PM.
* Source file: TFA9897N1B_I2C_list_URT_Source_v34.xls
*/
typedef enum nxpTfa1BfEnumList {
TFA1_BF_VDDS = 0x0000, /*!< Power-on-reset flag */
TFA1_BF_PLLS = 0x0010, /*!< PLL lock */
TFA1_BF_OTDS = 0x0020, /*!< Over Temperature Protection alarm */
TFA1_BF_OVDS = 0x0030, /*!< Over Voltage Protection alarm */
TFA1_BF_UVDS = 0x0040, /*!< Under Voltage Protection alarm */
TFA1_BF_OCDS = 0x0050, /*!< Over Current Protection alarm */
TFA1_BF_CLKS = 0x0060, /*!< Clocks stable flag */
TFA1_BF_CLIPS = 0x0070, /*!< Amplifier clipping */
TFA1_BF_MTPB = 0x0080, /*!< MTP busy */
TFA1_BF_NOCLK = 0x0090, /*!< Flag lost clock from clock generation unit */
TFA1_BF_SPKS = 0x00a0, /*!< Speaker error flag */
TFA1_BF_ACS = 0x00b0, /*!< Cold Start flag */
TFA1_BF_SWS = 0x00c0, /*!< Flag Engage */
TFA1_BF_WDS = 0x00d0, /*!< Flag watchdog reset */
TFA1_BF_AMPS = 0x00e0, /*!< Amplifier is enabled by manager */
TFA1_BF_AREFS = 0x00f0, /*!< References are enabled by manager */
TFA1_BF_BATS = 0x0109, /*!< Battery voltage readout; 0 .. 5.5 [V] */
TFA1_BF_TEMPS = 0x0208, /*!< Temperature readout from the temperature sensor */
TFA1_BF_REV = 0x030b, /*!< Device type number is B97 */
TFA1_BF_RCV = 0x0420, /*!< Enable Receiver Mode */
TFA1_BF_CHS12 = 0x0431, /*!< Channel Selection TDM input for Coolflux */
TFA1_BF_INPLVL= 0x0450, /*!< Input level selection control */
TFA1_BF_CHSA = 0x0461, /*!< Input selection for amplifier */
TFA1_BF_I2SDOE= 0x04b0, /*!< Enable data output */
TFA1_BF_AUDFS = 0x04c3, /*!< Audio sample rate setting */
TFA1_BF_BSSCR = 0x0501, /*!< Protection Attack Time */
TFA1_BF_BSST = 0x0523, /*!< ProtectionThreshold */
TFA1_BF_BSSRL = 0x0561, /*!< Protection Maximum Reduction */
TFA1_BF_BSSRR = 0x0582, /*!< Battery Protection Release Time */
TFA1_BF_BSSHY = 0x05b1, /*!< Battery Protection Hysteresis */
TFA1_BF_BSSR = 0x05e0, /*!< battery voltage for I2C read out only */
TFA1_BF_BSSBY = 0x05f0, /*!< bypass clipper battery protection */
TFA1_BF_DPSA = 0x0600, /*!< Enable dynamic powerstage activation */
TFA1_BF_CFSM = 0x0650, /*!< Soft mute in CoolFlux */
TFA1_BF_BSSS = 0x0670, /*!< BatSenseSteepness */
TFA1_BF_VOL = 0x0687, /*!< volume control (in CoolFlux) */
TFA1_BF_DCVO = 0x0702, /*!< Boost Voltage */
TFA1_BF_DCMCC = 0x0733, /*!< Max boost coil current - step of 175 mA */
TFA1_BF_DCIE = 0x07a0, /*!< Adaptive boost mode */
TFA1_BF_DCSR = 0x07b0, /*!< Soft RampUp/Down mode for DCDC controller */
TFA1_BF_DCPAVG= 0x07c0, /*!< ctrl_peak2avg for analog part of DCDC */
TFA1_BF_TROS = 0x0800, /*!< Select external temperature also the ext_temp will be put on the temp read out */
TFA1_BF_EXTTS = 0x0818, /*!< external temperature setting to be given by host */
TFA1_BF_PWDN = 0x0900, /*!< Device Mode */
TFA1_BF_I2CR = 0x0910, /*!< I2C Reset */
TFA1_BF_CFE = 0x0920, /*!< Enable CoolFlux */
TFA1_BF_AMPE = 0x0930, /*!< Enable Amplifier */
TFA1_BF_DCA = 0x0940, /*!< EnableBoost */
TFA1_BF_SBSL = 0x0950, /*!< Coolflux configured */
TFA1_BF_AMPC = 0x0960, /*!< Selection on how Amplifier is enabled */
TFA1_BF_DCDIS = 0x0970, /*!< DCDC not connected */
TFA1_BF_PSDR = 0x0980, /*!< IDDQ test amplifier */
TFA1_BF_DCCV = 0x0991, /*!< Coil Value */
TFA1_BF_CCFD = 0x09b0, /*!< Selection CoolFlux Clock */
TFA1_BF_INTPAD= 0x09c1, /*!< INT pad configuration control */
TFA1_BF_IPLL = 0x09e0, /*!< PLL input reference clock selection */
TFA1_BF_MTPK = 0x0b07, /*!< 5Ah, 90d To access KEY1_Protected registers (Default for engineering) */
TFA1_BF_CVFDLY= 0x0c25, /*!< Fractional delay adjustment between current and voltage sense */
TFA1_BF_TDMPRF= 0x1011, /*!< TDM_usecase */
TFA1_BF_TDMEN = 0x1030, /*!< TDM interface control */
TFA1_BF_TDMCKINV= 0x1040, /*!< TDM clock inversion */
TFA1_BF_TDMFSLN= 0x1053, /*!< TDM FS length */
TFA1_BF_TDMFSPOL= 0x1090, /*!< TDM FS polarity */
TFA1_BF_TDMSAMSZ= 0x10a4, /*!< TDM Sample Size for all tdm sinks/sources */
TFA1_BF_TDMSLOTS= 0x1103, /*!< Number of slots */
TFA1_BF_TDMSLLN= 0x1144, /*!< Slot length */
TFA1_BF_TDMBRMG= 0x1194, /*!< Bits remaining */
TFA1_BF_TDMDDEL= 0x11e0, /*!< Data delay */
TFA1_BF_TDMDADJ= 0x11f0, /*!< Data adjustment */
TFA1_BF_TDMTXFRM= 0x1201, /*!< TXDATA format */
TFA1_BF_TDMUUS0= 0x1221, /*!< TXDATA format unused slot sd0 */
TFA1_BF_TDMUUS1= 0x1241, /*!< TXDATA format unused slot sd1 */
TFA1_BF_TDMSI0EN= 0x1270, /*!< TDM sink0 enable */
TFA1_BF_TDMSI1EN= 0x1280, /*!< TDM sink1 enable */
TFA1_BF_TDMSI2EN= 0x1290, /*!< TDM sink2 enable */
TFA1_BF_TDMSO0EN= 0x12a0, /*!< TDM source0 enable */
TFA1_BF_TDMSO1EN= 0x12b0, /*!< TDM source1 enable */
TFA1_BF_TDMSO2EN= 0x12c0, /*!< TDM source2 enable */
TFA1_BF_TDMSI0IO= 0x12d0, /*!< tdm_sink0_io */
TFA1_BF_TDMSI1IO= 0x12e0, /*!< tdm_sink1_io */
TFA1_BF_TDMSI2IO= 0x12f0, /*!< tdm_sink2_io */
TFA1_BF_TDMSO0IO= 0x1300, /*!< tdm_source0_io */
TFA1_BF_TDMSO1IO= 0x1310, /*!< tdm_source1_io */
TFA1_BF_TDMSO2IO= 0x1320, /*!< tdm_source2_io */
TFA1_BF_TDMSI0SL= 0x1333, /*!< sink0_slot [GAIN IN] */
TFA1_BF_TDMSI1SL= 0x1373, /*!< sink1_slot [CH1 IN] */
TFA1_BF_TDMSI2SL= 0x13b3, /*!< sink2_slot [CH2 IN] */
TFA1_BF_TDMSO0SL= 0x1403, /*!< source0_slot [GAIN OUT] */
TFA1_BF_TDMSO1SL= 0x1443, /*!< source1_slot [Voltage Sense] */
TFA1_BF_TDMSO2SL= 0x1483, /*!< source2_slot [Current Sense] */
TFA1_BF_NBCK = 0x14c3, /*!< NBCK */
TFA1_BF_INTOVDDS= 0x2000, /*!< flag_por_int_out */
TFA1_BF_INTOPLLS= 0x2010, /*!< flag_pll_lock_int_out */
TFA1_BF_INTOOTDS= 0x2020, /*!< flag_otpok_int_out */
TFA1_BF_INTOOVDS= 0x2030, /*!< flag_ovpok_int_out */
TFA1_BF_INTOUVDS= 0x2040, /*!< flag_uvpok_int_out */
TFA1_BF_INTOOCDS= 0x2050, /*!< flag_ocp_alarm_int_out */
TFA1_BF_INTOCLKS= 0x2060, /*!< flag_clocks_stable_int_out */
TFA1_BF_INTOCLIPS= 0x2070, /*!< flag_clip_int_out */
TFA1_BF_INTOMTPB= 0x2080, /*!< mtp_busy_int_out */
TFA1_BF_INTONOCLK= 0x2090, /*!< flag_lost_clk_int_out */
TFA1_BF_INTOSPKS= 0x20a0, /*!< flag_cf_speakererror_int_out */
TFA1_BF_INTOACS= 0x20b0, /*!< flag_cold_started_int_out */
TFA1_BF_INTOSWS= 0x20c0, /*!< flag_engage_int_out */
TFA1_BF_INTOWDS= 0x20d0, /*!< flag_watchdog_reset_int_out */
TFA1_BF_INTOAMPS= 0x20e0, /*!< flag_enbl_amp_int_out */
TFA1_BF_INTOAREFS= 0x20f0, /*!< flag_enbl_ref_int_out */
TFA1_BF_INTOACK= 0x2201, /*!< Interrupt status register output - Corresponding flag */
TFA1_BF_INTIVDDS= 0x2300, /*!< flag_por_int_in */
TFA1_BF_INTIPLLS= 0x2310, /*!< flag_pll_lock_int_in */
TFA1_BF_INTIOTDS= 0x2320, /*!< flag_otpok_int_in */
TFA1_BF_INTIOVDS= 0x2330, /*!< flag_ovpok_int_in */
TFA1_BF_INTIUVDS= 0x2340, /*!< flag_uvpok_int_in */
TFA1_BF_INTIOCDS= 0x2350, /*!< flag_ocp_alarm_int_in */
TFA1_BF_INTICLKS= 0x2360, /*!< flag_clocks_stable_int_in */
TFA1_BF_INTICLIPS= 0x2370, /*!< flag_clip_int_in */
TFA1_BF_INTIMTPB= 0x2380, /*!< mtp_busy_int_in */
TFA1_BF_INTINOCLK= 0x2390, /*!< flag_lost_clk_int_in */
TFA1_BF_INTISPKS= 0x23a0, /*!< flag_cf_speakererror_int_in */
TFA1_BF_INTIACS= 0x23b0, /*!< flag_cold_started_int_in */
TFA1_BF_INTISWS= 0x23c0, /*!< flag_engage_int_in */
TFA1_BF_INTIWDS= 0x23d0, /*!< flag_watchdog_reset_int_in */
TFA1_BF_INTIAMPS= 0x23e0, /*!< flag_enbl_amp_int_in */
TFA1_BF_INTIAREFS= 0x23f0, /*!< flag_enbl_ref_int_in */
TFA1_BF_INTIACK= 0x2501, /*!< Interrupt register input */
TFA1_BF_INTENVDDS= 0x2600, /*!< flag_por_int_enable */
TFA1_BF_INTENPLLS= 0x2610, /*!< flag_pll_lock_int_enable */
TFA1_BF_INTENOTDS= 0x2620, /*!< flag_otpok_int_enable */
TFA1_BF_INTENOVDS= 0x2630, /*!< flag_ovpok_int_enable */
TFA1_BF_INTENUVDS= 0x2640, /*!< flag_uvpok_int_enable */
TFA1_BF_INTENOCDS= 0x2650, /*!< flag_ocp_alarm_int_enable */
TFA1_BF_INTENCLKS= 0x2660, /*!< flag_clocks_stable_int_enable */
TFA1_BF_INTENCLIPS= 0x2670, /*!< flag_clip_int_enable */
TFA1_BF_INTENMTPB= 0x2680, /*!< mtp_busy_int_enable */
TFA1_BF_INTENNOCLK= 0x2690, /*!< flag_lost_clk_int_enable */
TFA1_BF_INTENSPKS= 0x26a0, /*!< flag_cf_speakererror_int_enable */
TFA1_BF_INTENACS= 0x26b0, /*!< flag_cold_started_int_enable */
TFA1_BF_INTENSWS= 0x26c0, /*!< flag_engage_int_enable */
TFA1_BF_INTENWDS= 0x26d0, /*!< flag_watchdog_reset_int_enable */
TFA1_BF_INTENAMPS= 0x26e0, /*!< flag_enbl_amp_int_enable */
TFA1_BF_INTENAREFS= 0x26f0, /*!< flag_enbl_ref_int_enable */
TFA1_BF_INTENACK= 0x2801, /*!< Interrupt enable register */
TFA1_BF_INTPOLVDDS= 0x2900, /*!< flag_por_int_pol */
TFA1_BF_INTPOLPLLS= 0x2910, /*!< flag_pll_lock_int_pol */
TFA1_BF_INTPOLOTDS= 0x2920, /*!< flag_otpok_int_pol */
TFA1_BF_INTPOLOVDS= 0x2930, /*!< flag_ovpok_int_pol */
TFA1_BF_INTPOLUVDS= 0x2940, /*!< flag_uvpok_int_pol */
TFA1_BF_INTPOLOCDS= 0x2950, /*!< flag_ocp_alarm_int_pol */
TFA1_BF_INTPOLCLKS= 0x2960, /*!< flag_clocks_stable_int_pol */
TFA1_BF_INTPOLCLIPS= 0x2970, /*!< flag_clip_int_pol */
TFA1_BF_INTPOLMTPB= 0x2980, /*!< mtp_busy_int_pol */
TFA1_BF_INTPOLNOCLK= 0x2990, /*!< flag_lost_clk_int_pol */
TFA1_BF_INTPOLSPKS= 0x29a0, /*!< flag_cf_speakererror_int_pol */
TFA1_BF_INTPOLACS= 0x29b0, /*!< flag_cold_started_int_pol */
TFA1_BF_INTPOLSWS= 0x29c0, /*!< flag_engage_int_pol */
TFA1_BF_INTPOLWDS= 0x29d0, /*!< flag_watchdog_reset_int_pol */
TFA1_BF_INTPOLAMPS= 0x29e0, /*!< flag_enbl_amp_int_pol */
TFA1_BF_INTPOLAREFS= 0x29f0, /*!< flag_enbl_ref_int_pol */
TFA1_BF_INTPOLACK= 0x2b01, /*!< Interrupt status flags polarity register */
TFA1_BF_CLIP = 0x4900, /*!< Bypass clip control */
TFA1_BF_CIMTP = 0x62b0, /*!< start copying all the data from i2cregs_mtp to mtp [Key 2 protected] */
TFA1_BF_RST = 0x7000, /*!< Reset CoolFlux DSP */
TFA1_BF_DMEM = 0x7011, /*!< Target memory for access */
TFA1_BF_AIF = 0x7030, /*!< Autoincrement-flag for memory-address */
TFA1_BF_CFINT = 0x7040, /*!< Interrupt CoolFlux DSP */
TFA1_BF_REQ = 0x7087, /*!< request for access (8 channels) */
TFA1_BF_REQCMD= 0x7080, /*!< Firmware event request rpc command */
TFA1_BF_REQRST= 0x7090, /*!< Firmware event request reset restart */
TFA1_BF_REQMIPS= 0x70a0, /*!< Firmware event request short on mips */
TFA1_BF_REQMUTED= 0x70b0, /*!< Firmware event request mute sequence ready */
TFA1_BF_REQVOL= 0x70c0, /*!< Firmware event request volume ready */
TFA1_BF_REQDMG= 0x70d0, /*!< Firmware event request speaker damage detected */
TFA1_BF_REQCAL= 0x70e0, /*!< Firmware event request calibration completed */
TFA1_BF_REQRSV= 0x70f0, /*!< Firmware event request reserved */
TFA1_BF_MADD = 0x710f, /*!< memory-address to be accessed */
TFA1_BF_MEMA = 0x720f, /*!< activate memory access (24- or 32-bits data is written/read to/from memory */
TFA1_BF_ERR = 0x7307, /*!< Coolflux error flags */
TFA1_BF_ACK = 0x7387, /*!< acknowledge of requests (8 channels) */
TFA1_BF_MTPOTC= 0x8000, /*!< Calibration schedule (key2 protected) */
TFA1_BF_MTPEX = 0x8010, /*!< (key2 protected) */
} nxpTfa1BfEnumList_t;
#define TFA1_NAMETABLE static tfaBfName_t Tfa1DatasheetNames[]= {\
{ 0x0, "VDDS"}, /* Power-on-reset flag , */\
{ 0x10, "PLLS"}, /* PLL lock , */\
{ 0x20, "OTDS"}, /* Over Temperature Protection alarm , */\
{ 0x30, "OVDS"}, /* Over Voltage Protection alarm , */\
{ 0x40, "UVDS"}, /* Under Voltage Protection alarm , */\
{ 0x50, "OCDS"}, /* Over Current Protection alarm , */\
{ 0x60, "CLKS"}, /* Clocks stable flag , */\
{ 0x70, "CLIPS"}, /* Amplifier clipping , */\
{ 0x80, "MTPB"}, /* MTP busy , */\
{ 0x90, "NOCLK"}, /* Flag lost clock from clock generation unit , */\
{ 0xa0, "SPKS"}, /* Speaker error flag , */\
{ 0xb0, "ACS"}, /* Cold Start flag , */\
{ 0xc0, "SWS"}, /* Flag Engage , */\
{ 0xd0, "WDS"}, /* Flag watchdog reset , */\
{ 0xe0, "AMPS"}, /* Amplifier is enabled by manager , */\
{ 0xf0, "AREFS"}, /* References are enabled by manager , */\
{ 0x109, "BATS"}, /* Battery voltage readout; 0 .. 5.5 [V] , */\
{ 0x208, "TEMPS"}, /* Temperature readout from the temperature sensor , */\
{ 0x30b, "REV"}, /* Device type number is B97 , */\
{ 0x420, "RCV"}, /* Enable Receiver Mode , */\
{ 0x431, "CHS12"}, /* Channel Selection TDM input for Coolflux , */\
{ 0x450, "INPLVL"}, /* Input level selection control , */\
{ 0x461, "CHSA"}, /* Input selection for amplifier , */\
{ 0x4b0, "I2SDOE"}, /* Enable data output , */\
{ 0x4c3, "AUDFS"}, /* Audio sample rate setting , */\
{ 0x501, "SSCR"}, /* Protection Attack Time , */\
{ 0x523, "SST"}, /* ProtectionThreshold , */\
{ 0x561, "SSRL"}, /* Protection Maximum Reduction , */\
{ 0x582, "SSRR"}, /* Battery Protection Release Time , */\
{ 0x5b1, "SSHY"}, /* Battery Protection Hysteresis , */\
{ 0x5e0, "SSR"}, /* battery voltage for I2C read out only , */\
{ 0x5f0, "SSBY"}, /* bypass clipper battery protection , */\
{ 0x600, "DPSA"}, /* Enable dynamic powerstage activation , */\
{ 0x650, "CFSM"}, /* Soft mute in CoolFlux , */\
{ 0x670, "SSS"}, /* BatSenseSteepness , */\
{ 0x687, "VOL"}, /* volume control (in CoolFlux) , */\
{ 0x702, "DCVO"}, /* Boost Voltage , */\
{ 0x733, "DCMCC"}, /* Max boost coil current - step of 175 mA , */\
{ 0x7a0, "DCIE"}, /* Adaptive boost mode , */\
{ 0x7b0, "DCSR"}, /* Soft RampUp/Down mode for DCDC controller , */\
{ 0x7c0, "DCPAVG"}, /* ctrl_peak2avg for analog part of DCDC , */\
{ 0x800, "TROS"}, /* Select external temperature also the ext_temp will be put on the temp read out , */\
{ 0x818, "EXTTS"}, /* external temperature setting to be given by host , */\
{ 0x900, "PWDN"}, /* Device Mode , */\
{ 0x910, "I2CR"}, /* I2C Reset , */\
{ 0x920, "CFE"}, /* Enable CoolFlux , */\
{ 0x930, "AMPE"}, /* Enable Amplifier , */\
{ 0x940, "DCA"}, /* EnableBoost , */\
{ 0x950, "SBSL"}, /* Coolflux configured , */\
{ 0x960, "AMPC"}, /* Selection on how Amplifier is enabled , */\
{ 0x970, "DCDIS"}, /* DCDC not connected , */\
{ 0x980, "PSDR"}, /* IDDQ test amplifier , */\
{ 0x991, "DCCV"}, /* Coil Value , */\
{ 0x9b0, "CCFD"}, /* Selection CoolFlux Clock , */\
{ 0x9c1, "INTPAD"}, /* INT pad configuration control , */\
{ 0x9e0, "IPLL"}, /* PLL input reference clock selection , */\
{ 0xb07, "MTPK"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
{ 0xc25, "CVFDLY"}, /* Fractional delay adjustment between current and voltage sense, */\
{ 0x1011, "TDMPRF"}, /* TDM_usecase , */\
{ 0x1030, "TDMEN"}, /* TDM interface control , */\
{ 0x1040, "TDMCKINV"}, /* TDM clock inversion , */\
{ 0x1053, "TDMFSLN"}, /* TDM FS length , */\
{ 0x1090, "TDMFSPOL"}, /* TDM FS polarity , */\
{ 0x10a4, "TDMSAMSZ"}, /* TDM Sample Size for all tdm sinks/sources , */\
{ 0x1103, "TDMSLOTS"}, /* Number of slots , */\
{ 0x1144, "TDMSLLN"}, /* Slot length , */\
{ 0x1194, "TDMBRMG"}, /* Bits remaining , */\
{ 0x11e0, "TDMDDEL"}, /* Data delay , */\
{ 0x11f0, "TDMDADJ"}, /* Data adjustment , */\
{ 0x1201, "TDMTXFRM"}, /* TXDATA format , */\
{ 0x1221, "TDMUUS0"}, /* TXDATA format unused slot sd0 , */\
{ 0x1241, "TDMUUS1"}, /* TXDATA format unused slot sd1 , */\
{ 0x1270, "TDMSI0EN"}, /* TDM sink0 enable , */\
{ 0x1280, "TDMSI1EN"}, /* TDM sink1 enable , */\
{ 0x1290, "TDMSI2EN"}, /* TDM sink2 enable , */\
{ 0x12a0, "TDMSO0EN"}, /* TDM source0 enable , */\
{ 0x12b0, "TDMSO1EN"}, /* TDM source1 enable , */\
{ 0x12c0, "TDMSO2EN"}, /* TDM source2 enable , */\
{ 0x12d0, "TDMSI0IO"}, /* tdm_sink0_io , */\
{ 0x12e0, "TDMSI1IO"}, /* tdm_sink1_io , */\
{ 0x12f0, "TDMSI2IO"}, /* tdm_sink2_io , */\
{ 0x1300, "TDMSO0IO"}, /* tdm_source0_io , */\
{ 0x1310, "TDMSO1IO"}, /* tdm_source1_io , */\
{ 0x1320, "TDMSO2IO"}, /* tdm_source2_io , */\
{ 0x1333, "TDMSI0SL"}, /* sink0_slot [GAIN IN] , */\
{ 0x1373, "TDMSI1SL"}, /* sink1_slot [CH1 IN] , */\
{ 0x13b3, "TDMSI2SL"}, /* sink2_slot [CH2 IN] , */\
{ 0x1403, "TDMSO0SL"}, /* source0_slot [GAIN OUT] , */\
{ 0x1443, "TDMSO1SL"}, /* source1_slot [Voltage Sense] , */\
{ 0x1483, "TDMSO2SL"}, /* source2_slot [Current Sense] , */\
{ 0x14c3, "NBCK"}, /* NBCK , */\
{ 0x2000, "INTOVDDS"}, /* flag_por_int_out , */\
{ 0x2010, "INTOPLLS"}, /* flag_pll_lock_int_out , */\
{ 0x2020, "INTOOTDS"}, /* flag_otpok_int_out , */\
{ 0x2030, "INTOOVDS"}, /* flag_ovpok_int_out , */\
{ 0x2040, "INTOUVDS"}, /* flag_uvpok_int_out , */\
{ 0x2050, "INTOOCDS"}, /* flag_ocp_alarm_int_out , */\
{ 0x2060, "INTOCLKS"}, /* flag_clocks_stable_int_out , */\
{ 0x2070, "INTOCLIPS"}, /* flag_clip_int_out , */\
{ 0x2080, "INTOMTPB"}, /* mtp_busy_int_out , */\
{ 0x2090, "INTONOCLK"}, /* flag_lost_clk_int_out , */\
{ 0x20a0, "INTOSPKS"}, /* flag_cf_speakererror_int_out , */\
{ 0x20b0, "INTOACS"}, /* flag_cold_started_int_out , */\
{ 0x20c0, "INTOSWS"}, /* flag_engage_int_out , */\
{ 0x20d0, "INTOWDS"}, /* flag_watchdog_reset_int_out , */\
{ 0x20e0, "INTOAMPS"}, /* flag_enbl_amp_int_out , */\
{ 0x20f0, "INTOAREFS"}, /* flag_enbl_ref_int_out , */\
{ 0x2201, "INTOACK"}, /* Interrupt status register output - Corresponding flag, */\
{ 0x2300, "INTIVDDS"}, /* flag_por_int_in , */\
{ 0x2310, "INTIPLLS"}, /* flag_pll_lock_int_in , */\
{ 0x2320, "INTIOTDS"}, /* flag_otpok_int_in , */\
{ 0x2330, "INTIOVDS"}, /* flag_ovpok_int_in , */\
{ 0x2340, "INTIUVDS"}, /* flag_uvpok_int_in , */\
{ 0x2350, "INTIOCDS"}, /* flag_ocp_alarm_int_in , */\
{ 0x2360, "INTICLKS"}, /* flag_clocks_stable_int_in , */\
{ 0x2370, "INTICLIPS"}, /* flag_clip_int_in , */\
{ 0x2380, "INTIMTPB"}, /* mtp_busy_int_in , */\
{ 0x2390, "INTINOCLK"}, /* flag_lost_clk_int_in , */\
{ 0x23a0, "INTISPKS"}, /* flag_cf_speakererror_int_in , */\
{ 0x23b0, "INTIACS"}, /* flag_cold_started_int_in , */\
{ 0x23c0, "INTISWS"}, /* flag_engage_int_in , */\
{ 0x23d0, "INTIWDS"}, /* flag_watchdog_reset_int_in , */\
{ 0x23e0, "INTIAMPS"}, /* flag_enbl_amp_int_in , */\
{ 0x23f0, "INTIAREFS"}, /* flag_enbl_ref_int_in , */\
{ 0x2501, "INTIACK"}, /* Interrupt register input , */\
{ 0x2600, "INTENVDDS"}, /* flag_por_int_enable , */\
{ 0x2610, "INTENPLLS"}, /* flag_pll_lock_int_enable , */\
{ 0x2620, "INTENOTDS"}, /* flag_otpok_int_enable , */\
{ 0x2630, "INTENOVDS"}, /* flag_ovpok_int_enable , */\
{ 0x2640, "INTENUVDS"}, /* flag_uvpok_int_enable , */\
{ 0x2650, "INTENOCDS"}, /* flag_ocp_alarm_int_enable , */\
{ 0x2660, "INTENCLKS"}, /* flag_clocks_stable_int_enable , */\
{ 0x2670, "INTENCLIPS"}, /* flag_clip_int_enable , */\
{ 0x2680, "INTENMTPB"}, /* mtp_busy_int_enable , */\
{ 0x2690, "INTENNOCLK"}, /* flag_lost_clk_int_enable , */\
{ 0x26a0, "INTENSPKS"}, /* flag_cf_speakererror_int_enable , */\
{ 0x26b0, "INTENACS"}, /* flag_cold_started_int_enable , */\
{ 0x26c0, "INTENSWS"}, /* flag_engage_int_enable , */\
{ 0x26d0, "INTENWDS"}, /* flag_watchdog_reset_int_enable , */\
{ 0x26e0, "INTENAMPS"}, /* flag_enbl_amp_int_enable , */\
{ 0x26f0, "INTENAREFS"}, /* flag_enbl_ref_int_enable , */\
{ 0x2801, "INTENACK"}, /* Interrupt enable register , */\
{ 0x2900, "INTPOLVDDS"}, /* flag_por_int_pol , */\
{ 0x2910, "INTPOLPLLS"}, /* flag_pll_lock_int_pol , */\
{ 0x2920, "INTPOLOTDS"}, /* flag_otpok_int_pol , */\
{ 0x2930, "INTPOLOVDS"}, /* flag_ovpok_int_pol , */\
{ 0x2940, "INTPOLUVDS"}, /* flag_uvpok_int_pol , */\
{ 0x2950, "INTPOLOCDS"}, /* flag_ocp_alarm_int_pol , */\
{ 0x2960, "INTPOLCLKS"}, /* flag_clocks_stable_int_pol , */\
{ 0x2970, "INTPOLCLIPS"}, /* flag_clip_int_pol , */\
{ 0x2980, "INTPOLMTPB"}, /* mtp_busy_int_pol , */\
{ 0x2990, "INTPOLNOCLK"}, /* flag_lost_clk_int_pol , */\
{ 0x29a0, "INTPOLSPKS"}, /* flag_cf_speakererror_int_pol , */\
{ 0x29b0, "INTPOLACS"}, /* flag_cold_started_int_pol , */\
{ 0x29c0, "INTPOLSWS"}, /* flag_engage_int_pol , */\
{ 0x29d0, "INTPOLWDS"}, /* flag_watchdog_reset_int_pol , */\
{ 0x29e0, "INTPOLAMPS"}, /* flag_enbl_amp_int_pol , */\
{ 0x29f0, "INTPOLAREFS"}, /* flag_enbl_ref_int_pol , */\
{ 0x2b01, "INTPOLACK"}, /* Interrupt status flags polarity register , */\
{ 0x4900, "CLIP"}, /* Bypass clip control , */\
{ 0x62b0, "CIMTP"}, /* start copying all the data from i2cregs_mtp to mtp [Key 2 protected], */\
{ 0x7000, "RST"}, /* Reset CoolFlux DSP , */\
{ 0x7011, "DMEM"}, /* Target memory for access , */\
{ 0x7030, "AIF"}, /* Autoincrement-flag for memory-address , */\
{ 0x7040, "CFINT"}, /* Interrupt CoolFlux DSP , */\
{ 0x7087, "REQ"}, /* request for access (8 channels) , */\
{ 0x7080, "REQCMD"}, /* Firmware event request rpc command , */\
{ 0x7090, "REQRST"}, /* Firmware event request reset restart , */\
{ 0x70a0, "REQMIPS"}, /* Firmware event request short on mips , */\
{ 0x70b0, "REQMUTED"}, /* Firmware event request mute sequence ready , */\
{ 0x70c0, "REQVOL"}, /* Firmware event request volume ready , */\
{ 0x70d0, "REQDMG"}, /* Firmware event request speaker damage detected , */\
{ 0x70e0, "REQCAL"}, /* Firmware event request calibration completed , */\
{ 0x70f0, "REQRSV"}, /* Firmware event request reserved , */\
{ 0x710f, "MADD"}, /* memory-address to be accessed , */\
{ 0x720f, "MEMA"}, /* activate memory access (24- or 32-bits data is written/read to/from memory, */\
{ 0x7307, "ERR"}, /* Coolflux error flags , */\
{ 0x7387, "ACK"}, /* acknowledge of requests (8 channels) , */\
{ 0x7380, "ACKCMD"}, /* Firmware event acknowledge rpc command , */\
{ 0x7390, "ACKRST"}, /* Firmware event acknowledge reset restart , */\
{ 0x73a0, "ACKMIPS"}, /* Firmware event acknowledge short on mips , */\
{ 0x73b0, "ACKMUTED"}, /* Firmware event acknowledge mute sequence ready , */\
{ 0x73c0, "ACKVOL"}, /* Firmware event acknowledge volume ready , */\
{ 0x73d0, "ACKDMG"}, /* Firmware event acknowledge speaker damage detected, */\
{ 0x73e0, "ACKCAL"}, /* Firmware event acknowledge calibration completed , */\
{ 0x73f0, "ACKRSV"}, /* Firmware event acknowledge reserved , */\
{ 0x8000, "MTPOTC"}, /* Calibration schedule (key2 protected) , */\
{ 0x8010, "MTPEX"}, /* (key2 protected) , */\
{ 0x8045, "SWPROFIL" },\
{ 0x80a5, "SWVSTEP" },\
{ 0xffff,"Unknown bitfield enum" } /* not found */\
};
#define TFA1_BITNAMETABLE static tfaBfName_t Tfa1BitNames[]= {\
{ 0x0, "flag_por"}, /* Power-on-reset flag , */\
{ 0x10, "flag_pll_lock"}, /* PLL lock , */\
{ 0x20, "flag_otpok"}, /* Over Temperature Protection alarm , */\
{ 0x30, "flag_ovpok"}, /* Over Voltage Protection alarm , */\
{ 0x40, "flag_uvpok"}, /* Under Voltage Protection alarm , */\
{ 0x50, "flag_ocp_alarm"}, /* Over Current Protection alarm , */\
{ 0x60, "flag_clocks_stable"}, /* Clocks stable flag , */\
{ 0x70, "flag_clip"}, /* Amplifier clipping , */\
{ 0x80, "mtp_busy"}, /* MTP busy , */\
{ 0x90, "flag_lost_clk"}, /* Flag lost clock from clock generation unit , */\
{ 0xa0, "flag_cf_speakererror"}, /* Speaker error flag , */\
{ 0xb0, "flag_cold_started"}, /* Cold Start flag , */\
{ 0xc0, "flag_engage"}, /* Flag Engage , */\
{ 0xd0, "flag_watchdog_reset"}, /* Flag watchdog reset , */\
{ 0xe0, "flag_enbl_amp"}, /* Amplifier is enabled by manager , */\
{ 0xf0, "flag_enbl_ref"}, /* References are enabled by manager , */\
{ 0x109, "bat_adc"}, /* Battery voltage readout; 0 .. 5.5 [V] , */\
{ 0x208, "temp_adc"}, /* Temperature readout from the temperature sensor , */\
{ 0x30b, "rev_reg"}, /* Device type number is B97 , */\
{ 0x420, "ctrl_rcv"}, /* Enable Receiver Mode , */\
{ 0x431, "chan_sel"}, /* Channel Selection TDM input for Coolflux , */\
{ 0x450, "input_level"}, /* Input level selection control , */\
{ 0x461, "vamp_sel"}, /* Input selection for amplifier , */\
{ 0x4c3, "audio_fs"}, /* Audio sample rate setting , */\
{ 0x501, "vbat_prot_attacktime"}, /* Protection Attack Time , */\
{ 0x523, "vbat_prot_thlevel"}, /* ProtectionThreshold , */\
{ 0x561, "vbat_prot_max_reduct"}, /* Protection Maximum Reduction , */\
{ 0x582, "vbat_prot_release_t"}, /* Battery Protection Release Time , */\
{ 0x5b1, "vbat_prot_hysterese"}, /* Battery Protection Hysteresis , */\
{ 0x5d0, "reset_min_vbat"}, /* reset clipper , */\
{ 0x5e0, "sel_vbat"}, /* battery voltage for I2C read out only , */\
{ 0x5f0, "bypass_clipper"}, /* bypass clipper battery protection , */\
{ 0x600, "dpsa"}, /* Enable dynamic powerstage activation , */\
{ 0x650, "cf_mute"}, /* Soft mute in CoolFlux , */\
{ 0x670, "batsense_steepness"}, /* BatSenseSteepness , */\
{ 0x687, "vol"}, /* volume control (in CoolFlux) , */\
{ 0x702, "boost_volt"}, /* Boost Voltage , */\
{ 0x733, "boost_cur"}, /* Max boost coil current - step of 175 mA , */\
{ 0x7a0, "boost_intel"}, /* Adaptive boost mode , */\
{ 0x7b0, "boost_speed"}, /* Soft RampUp/Down mode for DCDC controller , */\
{ 0x7c0, "boost_peak2avg"}, /* ctrl_peak2avg for analog part of DCDC , */\
{ 0x800, "ext_temp_sel"}, /* Select external temperature also the ext_temp will be put on the temp read out , */\
{ 0x818, "ext_temp"}, /* external temperature setting to be given by host , */\
{ 0x8b2, "dcdc_synchronisation"}, /* DCDC synchronisation off + 7 positions , */\
{ 0x900, "powerdown"}, /* Device Mode , */\
{ 0x910, "reset"}, /* I2C Reset , */\
{ 0x920, "enbl_coolflux"}, /* Enable CoolFlux , */\
{ 0x930, "enbl_amplifier"}, /* Enable Amplifier , */\
{ 0x940, "enbl_boost"}, /* EnableBoost , */\
{ 0x950, "coolflux_configured"}, /* Coolflux configured , */\
{ 0x960, "sel_enbl_amplifier"}, /* Selection on how Amplifier is enabled , */\
{ 0x970, "dcdcoff_mode"}, /* DCDC not connected , */\
{ 0x980, "iddqtest"}, /* IDDQ test amplifier , */\
{ 0x991, "coil_value"}, /* Coil Value , */\
{ 0x9b0, "sel_cf_clock"}, /* Selection CoolFlux Clock , */\
{ 0x9c1, "int_pad_io"}, /* INT pad configuration control , */\
{ 0x9e0, "sel_fs_bck"}, /* PLL input reference clock selection , */\
{ 0x9f0, "sel_scl_cf_clock"}, /* Coolflux sub-system clock , */\
{ 0xb07, "mtpkey2"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
{ 0xc00, "enbl_volt_sense"}, /* Voltage sense enabling control bit , */\
{ 0xc10, "vsense_pwm_sel"}, /* Voltage sense PWM source selection control , */\
{ 0xc25, "vi_frac_delay"}, /* Fractional delay adjustment between current and voltage sense, */\
{ 0xc80, "sel_voltsense_out"}, /* TDM output data selection control , */\
{ 0xc90, "vsense_bypass_avg"}, /* Voltage Sense Average Block Bypass , */\
{ 0xd05, "cf_frac_delay"}, /* Fractional delay adjustment between current and voltage sense by firmware, */\
{ 0xe00, "bypass_dcdc_curr_prot"}, /* Control to switch off dcdc current reduction with bat protection, */\
{ 0xe80, "disable_clock_sh_prot"}, /* disable clock_sh protection , */\
{ 0xe96, "reserve_reg_1_15_9"}, /* , */\
{ 0x1011, "tdm_usecase"}, /* TDM_usecase , */\
{ 0x1030, "tdm_enable"}, /* TDM interface control , */\
{ 0x1040, "tdm_clk_inversion"}, /* TDM clock inversion , */\
{ 0x1053, "tdm_fs_ws_length"}, /* TDM FS length , */\
{ 0x1090, "tdm_fs_ws_polarity"}, /* TDM FS polarity , */\
{ 0x10a4, "tdm_sample_size"}, /* TDM Sample Size for all tdm sinks/sources , */\
{ 0x1103, "tdm_nb_of_slots"}, /* Number of slots , */\
{ 0x1144, "tdm_slot_length"}, /* Slot length , */\
{ 0x1194, "tdm_bits_remaining"}, /* Bits remaining , */\
{ 0x11e0, "tdm_data_delay"}, /* Data delay , */\
{ 0x11f0, "tdm_data_adjustment"}, /* Data adjustment , */\
{ 0x1201, "tdm_txdata_format"}, /* TXDATA format , */\
{ 0x1221, "tdm_txdata_format_unused_slot_sd0"}, /* TXDATA format unused slot sd0 , */\
{ 0x1241, "tdm_txdata_format_unused_slot_sd1"}, /* TXDATA format unused slot sd1 , */\
{ 0x1270, "tdm_sink0_enable"}, /* TDM sink0 enable , */\
{ 0x1280, "tdm_sink1_enable"}, /* TDM sink1 enable , */\
{ 0x1290, "tdm_sink2_enable"}, /* TDM sink2 enable , */\
{ 0x12a0, "tdm_source0_enable"}, /* TDM source0 enable , */\
{ 0x12b0, "tdm_source1_enable"}, /* TDM source1 enable , */\
{ 0x12c0, "tdm_source2_enable"}, /* TDM source2 enable , */\
{ 0x12d0, "tdm_sink0_io"}, /* tdm_sink0_io , */\
{ 0x12e0, "tdm_sink1_io"}, /* tdm_sink1_io , */\
{ 0x12f0, "tdm_sink2_io"}, /* tdm_sink2_io , */\
{ 0x1300, "tdm_source0_io"}, /* tdm_source0_io , */\
{ 0x1310, "tdm_source1_io"}, /* tdm_source1_io , */\
{ 0x1320, "tdm_source2_io"}, /* tdm_source2_io , */\
{ 0x1333, "tdm_sink0_slot"}, /* sink0_slot [GAIN IN] , */\
{ 0x1373, "tdm_sink1_slot"}, /* sink1_slot [CH1 IN] , */\
{ 0x13b3, "tdm_sink2_slot"}, /* sink2_slot [CH2 IN] , */\
{ 0x1403, "tdm_source0_slot"}, /* source0_slot [GAIN OUT] , */\
{ 0x1443, "tdm_source1_slot"}, /* source1_slot [Voltage Sense] , */\
{ 0x1483, "tdm_source2_slot"}, /* source2_slot [Current Sense] , */\
{ 0x14c3, "tdm_nbck"}, /* NBCK , */\
{ 0x1500, "flag_tdm_lut_error"}, /* TDM LUT error flag , */\
{ 0x1512, "flag_tdm_status"}, /* TDM interface status bits , */\
{ 0x1540, "flag_tdm_error"}, /* TDM interface error indicator , */\
{ 0x2000, "flag_por_int_out"}, /* flag_por_int_out , */\
{ 0x2010, "flag_pll_lock_int_out"}, /* flag_pll_lock_int_out , */\
{ 0x2020, "flag_otpok_int_out"}, /* flag_otpok_int_out , */\
{ 0x2030, "flag_ovpok_int_out"}, /* flag_ovpok_int_out , */\
{ 0x2040, "flag_uvpok_int_out"}, /* flag_uvpok_int_out , */\
{ 0x2050, "flag_ocp_alarm_int_out"}, /* flag_ocp_alarm_int_out , */\
{ 0x2060, "flag_clocks_stable_int_out"}, /* flag_clocks_stable_int_out , */\
{ 0x2070, "flag_clip_int_out"}, /* flag_clip_int_out , */\
{ 0x2080, "mtp_busy_int_out"}, /* mtp_busy_int_out , */\
{ 0x2090, "flag_lost_clk_int_out"}, /* flag_lost_clk_int_out , */\
{ 0x20a0, "flag_cf_speakererror_int_out"}, /* flag_cf_speakererror_int_out , */\
{ 0x20b0, "flag_cold_started_int_out"}, /* flag_cold_started_int_out , */\
{ 0x20c0, "flag_engage_int_out"}, /* flag_engage_int_out , */\
{ 0x20d0, "flag_watchdog_reset_int_out"}, /* flag_watchdog_reset_int_out , */\
{ 0x20e0, "flag_enbl_amp_int_out"}, /* flag_enbl_amp_int_out , */\
{ 0x20f0, "flag_enbl_ref_int_out"}, /* flag_enbl_ref_int_out , */\
{ 0x2100, "flag_voutcomp_int_out"}, /* flag_voutcomp_int_out , */\
{ 0x2110, "flag_voutcomp93_int_out"}, /* flag_voutcomp93_int_out , */\
{ 0x2120, "flag_voutcomp86_int_out"}, /* flag_voutcomp86_int_out , */\
{ 0x2130, "flag_hiz_int_out"}, /* flag_hiz_int_out , */\
{ 0x2140, "flag_ocpokbst_int_out"}, /* flag_ocpokbst_int_out , */\
{ 0x2150, "flag_peakcur_int_out"}, /* flag_peakcur_int_out , */\
{ 0x2160, "flag_ocpokap_int_out"}, /* flag_ocpokap_int_out , */\
{ 0x2170, "flag_ocpokan_int_out"}, /* flag_ocpokan_int_out , */\
{ 0x2180, "flag_ocpokbp_int_out"}, /* flag_ocpokbp_int_out , */\
{ 0x2190, "flag_ocpokbn_int_out"}, /* flag_ocpokbn_int_out , */\
{ 0x21a0, "flag_adc10_ready_int_out"}, /* flag_adc10_ready_int_out , */\
{ 0x21b0, "flag_clipa_high_int_out"}, /* flag_clipa_high_int_out , */\
{ 0x21c0, "flag_clipa_low_int_out"}, /* flag_clipa_low_int_out , */\
{ 0x21d0, "flag_clipb_high_int_out"}, /* flag_clipb_high_int_out , */\
{ 0x21e0, "flag_clipb_low_int_out"}, /* flag_clipb_low_int_out , */\
{ 0x21f0, "flag_tdm_error_int_out"}, /* flag_tdm_error_int_out , */\
{ 0x2201, "interrupt_out3"}, /* Interrupt status register output - Corresponding flag, */\
{ 0x2300, "flag_por_int_in"}, /* flag_por_int_in , */\
{ 0x2310, "flag_pll_lock_int_in"}, /* flag_pll_lock_int_in , */\
{ 0x2320, "flag_otpok_int_in"}, /* flag_otpok_int_in , */\
{ 0x2330, "flag_ovpok_int_in"}, /* flag_ovpok_int_in , */\
{ 0x2340, "flag_uvpok_int_in"}, /* flag_uvpok_int_in , */\
{ 0x2350, "flag_ocp_alarm_int_in"}, /* flag_ocp_alarm_int_in , */\
{ 0x2360, "flag_clocks_stable_int_in"}, /* flag_clocks_stable_int_in , */\
{ 0x2370, "flag_clip_int_in"}, /* flag_clip_int_in , */\
{ 0x2380, "mtp_busy_int_in"}, /* mtp_busy_int_in , */\
{ 0x2390, "flag_lost_clk_int_in"}, /* flag_lost_clk_int_in , */\
{ 0x23a0, "flag_cf_speakererror_int_in"}, /* flag_cf_speakererror_int_in , */\
{ 0x23b0, "flag_cold_started_int_in"}, /* flag_cold_started_int_in , */\
{ 0x23c0, "flag_engage_int_in"}, /* flag_engage_int_in , */\
{ 0x23d0, "flag_watchdog_reset_int_in"}, /* flag_watchdog_reset_int_in , */\
{ 0x23e0, "flag_enbl_amp_int_in"}, /* flag_enbl_amp_int_in , */\
{ 0x23f0, "flag_enbl_ref_int_in"}, /* flag_enbl_ref_int_in , */\
{ 0x2400, "flag_voutcomp_int_in"}, /* flag_voutcomp_int_in , */\
{ 0x2410, "flag_voutcomp93_int_in"}, /* flag_voutcomp93_int_in , */\
{ 0x2420, "flag_voutcomp86_int_in"}, /* flag_voutcomp86_int_in , */\
{ 0x2430, "flag_hiz_int_in"}, /* flag_hiz_int_in , */\
{ 0x2440, "flag_ocpokbst_int_in"}, /* flag_ocpokbst_int_in , */\
{ 0x2450, "flag_peakcur_int_in"}, /* flag_peakcur_int_in , */\
{ 0x2460, "flag_ocpokap_int_in"}, /* flag_ocpokap_int_in , */\
{ 0x2470, "flag_ocpokan_int_in"}, /* flag_ocpokan_int_in , */\
{ 0x2480, "flag_ocpokbp_int_in"}, /* flag_ocpokbp_int_in , */\
{ 0x2490, "flag_ocpokbn_int_in"}, /* flag_ocpokbn_int_in , */\
{ 0x24a0, "flag_adc10_ready_int_in"}, /* flag_adc10_ready_int_in , */\
{ 0x24b0, "flag_clipa_high_int_in"}, /* flag_clipa_high_int_in , */\
{ 0x24c0, "flag_clipa_low_int_in"}, /* flag_clipa_low_int_in , */\
{ 0x24d0, "flag_clipb_high_int_in"}, /* flag_clipb_high_int_in , */\
{ 0x24e0, "flag_clipb_low_int_in"}, /* flag_clipb_low_int_in , */\
{ 0x24f0, "flag_tdm_error_int_in"}, /* flag_tdm_error_int_in , */\
{ 0x2501, "interrupt_in3"}, /* Interrupt register input , */\
{ 0x2600, "flag_por_int_enable"}, /* flag_por_int_enable , */\
{ 0x2610, "flag_pll_lock_int_enable"}, /* flag_pll_lock_int_enable , */\
{ 0x2620, "flag_otpok_int_enable"}, /* flag_otpok_int_enable , */\
{ 0x2630, "flag_ovpok_int_enable"}, /* flag_ovpok_int_enable , */\
{ 0x2640, "flag_uvpok_int_enable"}, /* flag_uvpok_int_enable , */\
{ 0x2650, "flag_ocp_alarm_int_enable"}, /* flag_ocp_alarm_int_enable , */\
{ 0x2660, "flag_clocks_stable_int_enable"}, /* flag_clocks_stable_int_enable , */\
{ 0x2670, "flag_clip_int_enable"}, /* flag_clip_int_enable , */\
{ 0x2680, "mtp_busy_int_enable"}, /* mtp_busy_int_enable , */\
{ 0x2690, "flag_lost_clk_int_enable"}, /* flag_lost_clk_int_enable , */\
{ 0x26a0, "flag_cf_speakererror_int_enable"}, /* flag_cf_speakererror_int_enable , */\
{ 0x26b0, "flag_cold_started_int_enable"}, /* flag_cold_started_int_enable , */\
{ 0x26c0, "flag_engage_int_enable"}, /* flag_engage_int_enable , */\
{ 0x26d0, "flag_watchdog_reset_int_enable"}, /* flag_watchdog_reset_int_enable , */\
{ 0x26e0, "flag_enbl_amp_int_enable"}, /* flag_enbl_amp_int_enable , */\
{ 0x26f0, "flag_enbl_ref_int_enable"}, /* flag_enbl_ref_int_enable , */\
{ 0x2700, "flag_voutcomp_int_enable"}, /* flag_voutcomp_int_enable , */\
{ 0x2710, "flag_voutcomp93_int_enable"}, /* flag_voutcomp93_int_enable , */\
{ 0x2720, "flag_voutcomp86_int_enable"}, /* flag_voutcomp86_int_enable , */\
{ 0x2730, "flag_hiz_int_enable"}, /* flag_hiz_int_enable , */\
{ 0x2740, "flag_ocpokbst_int_enable"}, /* flag_ocpokbst_int_enable , */\
{ 0x2750, "flag_peakcur_int_enable"}, /* flag_peakcur_int_enable , */\
{ 0x2760, "flag_ocpokap_int_enable"}, /* flag_ocpokap_int_enable , */\
{ 0x2770, "flag_ocpokan_int_enable"}, /* flag_ocpokan_int_enable , */\
{ 0x2780, "flag_ocpokbp_int_enable"}, /* flag_ocpokbp_int_enable , */\
{ 0x2790, "flag_ocpokbn_int_enable"}, /* flag_ocpokbn_int_enable , */\
{ 0x27a0, "flag_adc10_ready_int_enable"}, /* flag_adc10_ready_int_enable , */\
{ 0x27b0, "flag_clipa_high_int_enable"}, /* flag_clipa_high_int_enable , */\
{ 0x27c0, "flag_clipa_low_int_enable"}, /* flag_clipa_low_int_enable , */\
{ 0x27d0, "flag_clipb_high_int_enable"}, /* flag_clipb_high_int_enable , */\
{ 0x27e0, "flag_clipb_low_int_enable"}, /* flag_clipb_low_int_enable , */\
{ 0x27f0, "flag_tdm_error_int_enable"}, /* flag_tdm_error_int_enable , */\
{ 0x2801, "interrupt_enable3"}, /* Interrupt enable register , */\
{ 0x2900, "flag_por_int_pol"}, /* flag_por_int_pol , */\
{ 0x2910, "flag_pll_lock_int_pol"}, /* flag_pll_lock_int_pol , */\
{ 0x2920, "flag_otpok_int_pol"}, /* flag_otpok_int_pol , */\
{ 0x2930, "flag_ovpok_int_pol"}, /* flag_ovpok_int_pol , */\
{ 0x2940, "flag_uvpok_int_pol"}, /* flag_uvpok_int_pol , */\
{ 0x2950, "flag_ocp_alarm_int_pol"}, /* flag_ocp_alarm_int_pol , */\
{ 0x2960, "flag_clocks_stable_int_pol"}, /* flag_clocks_stable_int_pol , */\
{ 0x2970, "flag_clip_int_pol"}, /* flag_clip_int_pol , */\
{ 0x2980, "mtp_busy_int_pol"}, /* mtp_busy_int_pol , */\
{ 0x2990, "flag_lost_clk_int_pol"}, /* flag_lost_clk_int_pol , */\
{ 0x29a0, "flag_cf_speakererror_int_pol"}, /* flag_cf_speakererror_int_pol , */\
{ 0x29b0, "flag_cold_started_int_pol"}, /* flag_cold_started_int_pol , */\
{ 0x29c0, "flag_engage_int_pol"}, /* flag_engage_int_pol , */\
{ 0x29d0, "flag_watchdog_reset_int_pol"}, /* flag_watchdog_reset_int_pol , */\
{ 0x29e0, "flag_enbl_amp_int_pol"}, /* flag_enbl_amp_int_pol , */\
{ 0x29f0, "flag_enbl_ref_int_pol"}, /* flag_enbl_ref_int_pol , */\
{ 0x2a00, "flag_voutcomp_int_pol"}, /* flag_voutcomp_int_pol , */\
{ 0x2a10, "flag_voutcomp93_int_pol"}, /* flag_voutcomp93_int_pol , */\
{ 0x2a20, "flag_voutcomp86_int_pol"}, /* flag_voutcomp86_int_pol , */\
{ 0x2a30, "flag_hiz_int_pol"}, /* flag_hiz_int_pol , */\
{ 0x2a40, "flag_ocpokbst_int_pol"}, /* flag_ocpokbst_int_pol , */\
{ 0x2a50, "flag_peakcur_int_pol"}, /* flag_peakcur_int_pol , */\
{ 0x2a60, "flag_ocpokap_int_pol"}, /* flag_ocpokap_int_pol , */\
{ 0x2a70, "flag_ocpokan_int_pol"}, /* flag_ocpokan_int_pol , */\
{ 0x2a80, "flag_ocpokbp_int_pol"}, /* flag_ocpokbp_int_pol , */\
{ 0x2a90, "flag_ocpokbn_int_pol"}, /* flag_ocpokbn_int_pol , */\
{ 0x2aa0, "flag_adc10_ready_int_pol"}, /* flag_adc10_ready_int_pol , */\
{ 0x2ab0, "flag_clipa_high_int_pol"}, /* flag_clipa_high_int_pol , */\
{ 0x2ac0, "flag_clipa_low_int_pol"}, /* flag_clipa_low_int_pol , */\
{ 0x2ad0, "flag_clipb_high_int_pol"}, /* flag_clipb_high_int_pol , */\
{ 0x2ae0, "flag_clipb_low_int_pol"}, /* flag_clipb_low_int_pol , */\
{ 0x2af0, "flag_tdm_error_int_pol"}, /* flag_tdm_error_int_pol , */\
{ 0x2b01, "status_polarity3"}, /* Interrupt status flags polarity register , */\
{ 0x3000, "flag_voutcomp"}, /* flag_voutcomp, indication Vset is larger than Vbat, */\
{ 0x3010, "flag_voutcomp93"}, /* flag_voutcomp93, indication Vset is larger than 1.07* Vbat, */\
{ 0x3020, "flag_voutcomp86"}, /* flag_voutcomp86, indication Vset is larger than 1.14* Vbat, */\
{ 0x3030, "flag_hiz"}, /* flag_hiz, indication Vbst is larger than Vbat , */\
{ 0x3040, "flag_ocpokbst"}, /* flag_ocpokbst, indication no over current in boost converter pmos switch, */\
{ 0x3050, "flag_peakcur"}, /* flag_peakcur, indication current is max in dcdc converter, */\
{ 0x3060, "flag_ocpokap"}, /* flag_ocpokap, indication no over current in amplifier "a" pmos output stage, */\
{ 0x3070, "flag_ocpokan"}, /* flag_ocpokan, indication no over current in amplifier "a" nmos output stage, */\
{ 0x3080, "flag_ocpokbp"}, /* flag_ocpokbp, indication no over current in amplifier "b" pmos output stage, */\
{ 0x3090, "flag_ocpokbn"}, /* flag_ocpokbn, indication no over current in amplifier"b" nmos output stage, */\
{ 0x30a0, "flag_adc10_ready"}, /* flag_adc10_ready, indication adc10 is ready , */\
{ 0x30b0, "flag_clipa_high"}, /* flag_clipa_high, indication pmos amplifier "a" is clipping, */\
{ 0x30c0, "flag_clipa_low"}, /* flag_clipa_low, indication nmos amplifier "a" is clipping, */\
{ 0x30d0, "flag_clipb_high"}, /* flag_clipb_high, indication pmos amplifier "b" is clipping, */\
{ 0x30e0, "flag_clipb_low"}, /* flag_clipb_low, indication nmos amplifier "b" is clipping, */\
{ 0x310f, "mtp_man_data_out"}, /* single word read from MTP (manual copy) , */\
{ 0x3200, "key01_locked"}, /* key01_locked, indication key 1 is locked , */\
{ 0x3210, "key02_locked"}, /* key02_locked, indication key 2 is locked , */\
{ 0x3225, "mtp_ecc_tcout"}, /* mtp_ecc_tcout , */\
{ 0x3280, "mtpctrl_valid_test_rd"}, /* mtp test readout for read , */\
{ 0x3290, "mtpctrl_valid_test_wr"}, /* mtp test readout for write , */\
{ 0x32a0, "flag_in_alarm_state"}, /* Alarm state , */\
{ 0x32b0, "mtp_ecc_err2"}, /* two or more bit errors detected in MTP, can not reconstruct value, */\
{ 0x32c0, "mtp_ecc_err1"}, /* one bit error detected in MTP, reconstructed value, */\
{ 0x32d0, "mtp_mtp_hvf"}, /* high voltage ready flag for MTP , */\
{ 0x32f0, "mtp_zero_check_fail"}, /* zero check failed (tbd) for MTP , */\
{ 0x3309, "data_adc10_tempbat"}, /* data_adc10_tempbat[9;0], adc 10 data output for testing, */\
{ 0x400f, "hid_code"}, /* 5A6Bh, 23147d to access registers (Default for engineering), */\
{ 0x4100, "bypass_hp"}, /* Bypass_High Pass Filter , */\
{ 0x4110, "hard_mute"}, /* Hard Mute , */\
{ 0x4120, "soft_mute"}, /* Soft Mute , */\
{ 0x4134, "pwm_delay"}, /* PWM DelayBits to set the delay , */\
{ 0x4180, "pwm_shape"}, /* PWM Shape , */\
{ 0x4190, "pwm_bitlength"}, /* PWM Bitlength in noise shaper , */\
{ 0x4203, "drive"}, /* Drive bits to select amount of power stage amplifier, */\
{ 0x4240, "reclock_pwm"}, /* , */\
{ 0x4250, "reclock_voltsense"}, /* , */\
{ 0x4281, "dpsalevel"}, /* DPSA Threshold level , */\
{ 0x42a1, "dpsa_release"}, /* DPSA Release time , */\
{ 0x42c0, "coincidence"}, /* Prevent simultaneously switching of output stage , */\
{ 0x42d0, "kickback"}, /* Prevent double pulses of output stage , */\
{ 0x4306, "drivebst"}, /* Drive bits to select the powertransistor sections boost converter, */\
{ 0x43a0, "ocptestbst"}, /* Boost OCP. For old ocp (ctrl_reversebst is 0);For new ocp (ctrl_reversebst is 1);, */\
{ 0x43d0, "test_abistfft_enbl"}, /* FFT coolflux , */\
{ 0x43f0, "test_bcontrol"}, /* test _bcontrol , */\
{ 0x4400, "reversebst"}, /* OverCurrent Protection selection of power stage boost converter, */\
{ 0x4410, "sensetest"}, /* Test option for the sense NMOS in booster for current mode control., */\
{ 0x4420, "enbl_engagebst"}, /* Enable power stage dcdc controller , */\
{ 0x4470, "enbl_slopecur"}, /* Enable bit of max-current dac , */\
{ 0x4480, "enbl_voutcomp"}, /* Enable vout comparators , */\
{ 0x4490, "enbl_voutcomp93"}, /* Enable vout-93 comparators , */\
{ 0x44a0, "enbl_voutcomp86"}, /* Enable vout-86 comparators , */\
{ 0x44b0, "enbl_hizcom"}, /* Enable hiz comparator , */\
{ 0x44c0, "enbl_peakcur"}, /* Enable peak current , */\
{ 0x44d0, "bypass_ovpglitch"}, /* Bypass OVP Glitch Filter , */\
{ 0x44e0, "enbl_windac"}, /* Enable window dac , */\
{ 0x44f0, "enbl_powerbst"}, /* Enable line of the powerstage , */\
{ 0x4507, "ocp_thr"}, /* ocp_thr threshold level for OCP , */\
{ 0x4580, "bypass_glitchfilter"}, /* Bypass glitch filter , */\
{ 0x4590, "bypass_ovp"}, /* Bypass OVP , */\
{ 0x45a0, "bypass_uvp"}, /* Bypass UVP , */\
{ 0x45b0, "bypass_otp"}, /* Bypass OTP , */\
{ 0x45c0, "bypass_ocp"}, /* Bypass OCP , */\
{ 0x45d0, "bypass_ocpcounter"}, /* BypassOCPCounter , */\
{ 0x45e0, "bypass_lost_clk"}, /* Bypasslost_clk detector , */\
{ 0x45f0, "vpalarm"}, /* vpalarm (uvp ovp handling) , */\
{ 0x4600, "bypass_gc"}, /* bypass_gc, bypasses the CS gain correction , */\
{ 0x4610, "cs_gain_control"}, /* gain control by means of MTP or i2c; 0 is MTP , */\
{ 0x4627, "cs_gain"}, /* + / - 128 steps in steps of 1/4 percent 2's compliment, */\
{ 0x46a0, "bypass_lp"}, /* bypass Low-Pass filter in temperature sensor , */\
{ 0x46b0, "bypass_pwmcounter"}, /* bypass_pwmcounter , */\
{ 0x46c0, "cs_negfixed"}, /* does not switch to neg , */\
{ 0x46d2, "cs_neghyst"}, /* switches to neg depending on level , */\
{ 0x4700, "switch_fb"}, /* switch_fb , */\
{ 0x4713, "se_hyst"}, /* se_hyst , */\
{ 0x4754, "se_level"}, /* se_level , */\
{ 0x47a5, "ktemp"}, /* temperature compensation trimming , */\
{ 0x4800, "cs_negin"}, /* negin , */\
{ 0x4810, "cs_sein"}, /* cs_sein , */\
{ 0x4820, "cs_coincidence"}, /* Coincidence current sense , */\
{ 0x4830, "iddqtestbst"}, /* for iddq testing in powerstage of boost convertor , */\
{ 0x4840, "coincidencebst"}, /* Switch protection on to prevent simultaneously switching power stages bst and amp, */\
{ 0x4876, "delay_se_neg"}, /* delay of se and neg , */\
{ 0x48e1, "cs_ttrack"}, /* sample & hold track time , */\
{ 0x4900, "bypass_clip"}, /* Bypass clip control , */\
{ 0x4920, "cf_cgate_off"}, /* to disable clock gating in the coolflux , */\
{ 0x4940, "clipfast"}, /* clock switch for battery protection clipper, it switches back to old frequency, */\
{ 0x4950, "cs_8ohm"}, /* 8 ohm mode for current sense (gain mode) , */\
{ 0x4974, "delay_clock_sh"}, /* delay_sh, tunes S7H delay , */\
{ 0x49c0, "inv_clksh"}, /* Invert the sample/hold clock for current sense ADC, */\
{ 0x49d0, "inv_neg"}, /* Invert neg signal , */\
{ 0x49e0, "inv_se"}, /* Invert se signal , */\
{ 0x49f0, "setse"}, /* switches between Single Ende and differential mode; 1 is single ended, */\
{ 0x4a12, "adc10_sel"}, /* select the input to convert the 10b ADC , */\
{ 0x4a60, "adc10_reset"}, /* Global asynchronous reset (active HIGH) 10 bit ADC, */\
{ 0x4a81, "adc10_test"}, /* Test mode selection signal 10 bit ADC , */\
{ 0x4aa0, "bypass_lp_vbat"}, /* lp filter in batt sensor , */\
{ 0x4ae0, "dc_offset"}, /* switch offset control on/off, is decimator offset control, */\
{ 0x4af0, "tsense_hibias"}, /* bit to set the biasing in temp sensor to high , */\
{ 0x4b00, "adc13_iset"}, /* Micadc Setting of current consumption. Debug use only, */\
{ 0x4b14, "adc13_gain"}, /* Micadc gain setting (2-compl) , */\
{ 0x4b61, "adc13_slowdel"}, /* Micadc Delay setting for internal clock. Debug use only, */\
{ 0x4b83, "adc13_offset"}, /* Micadc ADC offset setting , */\
{ 0x4bc0, "adc13_bsoinv"}, /* Micadc bit stream output invert mode for test , */\
{ 0x4bd0, "adc13_resonator_enable"}, /* Micadc Give extra SNR with less stability. Debug use only, */\
{ 0x4be0, "testmicadc"}, /* Mux at input of MICADC for test purpose , */\
{ 0x4c0f, "abist_offset"}, /* offset control for ABIST testing , */\
{ 0x4d05, "windac"}, /* for testing direct control windac , */\
{ 0x4dc3, "pwm_dcc_cnt"}, /* control pwm duty cycle when enbl_pwm_dcc is 1 , */\
{ 0x4e04, "slopecur"}, /* for testing direct control slopecur , */\
{ 0x4e50, "ctrl_dem"}, /* dyn element matching control, rest of codes are optional, */\
{ 0x4ed0, "enbl_pwm_dcc"}, /* to enable direct control of pwm duty cycle , */\
{ 0x5007, "gain"}, /* Gain setting of the gain multiplier , */\
{ 0x5081, "sourceb"}, /* Set OUTB to , */\
{ 0x50a1, "sourcea"}, /* Set OUTA to , */\
{ 0x50c1, "sourcebst"}, /* Sets the source of the pwmbst output to boost converter input for testing, */\
{ 0x50e0, "tdm_enable_loopback"}, /* TDM loopback test , */\
{ 0x5104, "pulselengthbst"}, /* pulse length setting test input for boost converter, */\
{ 0x5150, "bypasslatchbst"}, /* bypass_latch in boost converter , */\
{ 0x5160, "invertbst"}, /* invert pwmbst test signal , */\
{ 0x5174, "pulselength"}, /* pulse length setting test input for amplifier , */\
{ 0x51c0, "bypasslatch"}, /* bypass_latch in PWM source selection module , */\
{ 0x51d0, "invertb"}, /* invert pwmb test signal , */\
{ 0x51e0, "inverta"}, /* invert pwma test signal , */\
{ 0x51f0, "bypass_ctrlloop"}, /* bypass_ctrlloop bypasses the control loop of the amplifier, */\
{ 0x5210, "test_rdsona"}, /* tbd for rdson testing , */\
{ 0x5220, "test_rdsonb"}, /* tbd for rdson testing , */\
{ 0x5230, "test_rdsonbst"}, /* tbd for rdson testing , */\
{ 0x5240, "test_cvia"}, /* tbd for rdson testing , */\
{ 0x5250, "test_cvib"}, /* tbd for rdson testing , */\
{ 0x5260, "test_cvibst"}, /* tbd for rdson testing , */\
{ 0x5306, "digimuxa_sel"}, /* DigimuxA input selection control (see Digimux list for details), */\
{ 0x5376, "digimuxb_sel"}, /* DigimuxB input selection control (see Digimux list for details), */\
{ 0x5400, "hs_mode"}, /* hs_mode, high speed mode I2C bus , */\
{ 0x5412, "test_parametric_io"}, /* test_parametric_io for testing pads , */\
{ 0x5440, "enbl_ringo"}, /* enbl_ringo, for test purpose to check with ringo , */\
{ 0x5456, "digimuxc_sel"}, /* DigimuxC input selection control (see Digimux list for details), */\
{ 0x54c0, "dio_ehs"}, /* Slew control for DIO in output mode , */\
{ 0x54d0, "gainio_ehs"}, /* Slew control for GAINIO in output mode , */\
{ 0x550d, "enbl_amp"}, /* enbl_amp for testing to enable all analoge blocks in amplifier, */\
{ 0x5600, "use_direct_ctrls"}, /* use_direct_ctrls, to overrule several functions direct for testing, */\
{ 0x5610, "rst_datapath"}, /* rst_datapath, datapath reset , */\
{ 0x5620, "rst_cgu"}, /* rst_cgu, cgu reset , */\
{ 0x5637, "enbl_ref"}, /* for testing to enable all analoge blocks in references, */\
{ 0x56b0, "enbl_engage"}, /* Enable output stage amplifier , */\
{ 0x56c0, "use_direct_clk_ctrl"}, /* use_direct_clk_ctrl, to overrule several functions direct for testing, */\
{ 0x56d0, "use_direct_pll_ctrl"}, /* use_direct_pll_ctrl, to overrule several functions direct for testing, */\
{ 0x56e0, "use_direct_ctrls_2"}, /* use_direct_sourseamp_ctrls, to overrule several functions direct for testing, */\
{ 0x5707, "anamux"}, /* Anamux control , */\
{ 0x57c0, "ocptest"}, /* ctrl_ocptest, deactivates the over current protection in the power stages of the amplifier. The ocp flag signals stay active., */\
{ 0x57e0, "otptest"}, /* otptest, test mode otp amplifier , */\
{ 0x57f0, "reverse"}, /* 1: Normal mode, slope is controlled , */\
{ 0x5813, "pll_selr"}, /* pll_selr , */\
{ 0x5854, "pll_selp"}, /* pll_selp , */\
{ 0x58a5, "pll_seli"}, /* pll_seli , */\
{ 0x5950, "pll_mdec_msb"}, /* most significant bits of pll_mdec[16] , */\
{ 0x5960, "pll_ndec_msb"}, /* most significant bits of pll_ndec[9] , */\
{ 0x5970, "pll_frm"}, /* pll_frm , */\
{ 0x5980, "pll_directi"}, /* pll_directi , */\
{ 0x5990, "pll_directo"}, /* pll_directo , */\
{ 0x59a0, "enbl_pll"}, /* enbl_pll , */\
{ 0x59f0, "pll_bypass"}, /* pll_bypass , */\
{ 0x5a0f, "tsig_freq"}, /* tsig_freq, internal sinus test generator, frequency control, */\
{ 0x5b02, "tsig_freq_msb"}, /* select internal sinus test generator, frequency control msb bits, */\
{ 0x5b30, "inject_tsig"}, /* inject_tsig, control bit to switch to internal sinus test generator, */\
{ 0x5b44, "adc10_prog_sample"}, /* control ADC10 , */\
{ 0x5c0f, "pll_mdec"}, /* bits 15..0 of pll_mdec[16;0] , */\
{ 0x5d06, "pll_pdec"}, /* pll_pdec , */\
{ 0x5d78, "pll_ndec"}, /* bits 8..0 of pll_ndec[9;0] , */\
{ 0x6007, "mtpkey1"}, /* 5Ah, 90d To access KEY1_Protected registers (Default for engineering), */\
{ 0x6185, "mtp_ecc_tcin"}, /* Mtp_ecc_tcin , */\
{ 0x6203, "mtp_man_address_in"}, /* address from I2C regs for writing one word single mtp, */\
{ 0x6260, "mtp_ecc_eeb"}, /* enable code bit generation (active low!) , */\
{ 0x6270, "mtp_ecc_ecb"}, /* enable correction signal (active low!) , */\
{ 0x6280, "man_copy_mtp_to_iic"}, /* start copying single word from mtp to i2cregs_mtp , */\
{ 0x6290, "man_copy_iic_to_mtp"}, /* start copying single word from i2cregs_mtp to mtp [Key 1 protected], */\
{ 0x62a0, "auto_copy_mtp_to_iic"}, /* start copying all the data from mtp to i2cregs_mtp, */\
{ 0x62b0, "auto_copy_iic_to_mtp"}, /* start copying all the data from i2cregs_mtp to mtp [Key 2 protected], */\
{ 0x62d2, "mtp_speed_mode"}, /* Speed mode , */\
{ 0x6340, "mtp_direct_enable"}, /* mtp_direct_enable (key1 protected) , */\
{ 0x6350, "mtp_direct_wr"}, /* mtp_direct_wr (key1 protected) , */\
{ 0x6360, "mtp_direct_rd"}, /* mtp_direct_rd (key1 protected) , */\
{ 0x6370, "mtp_direct_rst"}, /* mtp_direct_rst (key1 protected) , */\
{ 0x6380, "mtp_direct_ers"}, /* mtp_direct_ers (key1 protected) , */\
{ 0x6390, "mtp_direct_prg"}, /* mtp_direct_prg (key1 protected) , */\
{ 0x63a0, "mtp_direct_epp"}, /* mtp_direct_epp (key1 protected) , */\
{ 0x63b4, "mtp_direct_test"}, /* mtp_direct_test (key1 protected) , */\
{ 0x640f, "mtp_man_data_in"}, /* single word to be written to MTP (manual copy) , */\
{ 0x7000, "cf_rst_dsp"}, /* Reset CoolFlux DSP , */\
{ 0x7011, "cf_dmem"}, /* Target memory for access , */\
{ 0x7030, "cf_aif"}, /* Autoincrement-flag for memory-address , */\
{ 0x7040, "cf_int"}, /* Interrupt CoolFlux DSP , */\
{ 0x7087, "cf_req"}, /* request for access (8 channels) , */\
{ 0x710f, "cf_madd"}, /* memory-address to be accessed , */\
{ 0x720f, "cf_mema"}, /* activate memory access (24- or 32-bits data is written/read to/from memory, */\
{ 0x7307, "cf_err"}, /* Coolflux error flags , */\
{ 0x7387, "cf_ack"}, /* acknowledge of requests (8 channels) , */\
{ 0x8000, "calibration_onetime"}, /* Calibration schedule (key2 protected) , */\
{ 0x8010, "calibr_ron_done"}, /* (key2 protected) , */\
{ 0x8105, "calibr_vout_offset"}, /* calibr_vout_offset (DCDCoffset) 2's compliment (key1 protected), */\
{ 0x8163, "calibr_delta_gain"}, /* delta gain for vamp (alpha) 2's compliment (key1 protected), */\
{ 0x81a5, "calibr_offs_amp"}, /* offset for vamp (Ampoffset) 2's compliment (key1 protected), */\
{ 0x8207, "calibr_gain_cs"}, /* gain current sense (Imeasalpha) 2's compliment (key1 protected), */\
{ 0x8284, "calibr_temp_offset"}, /* temperature offset 2's compliment (key1 protected), */\
{ 0x82d2, "calibr_temp_gain"}, /* temperature gain 2's compliment (key1 protected) , */\
{ 0x830f, "calibr_ron"}, /* Ron resistance of coil (key1 protected) , */\
{ 0x8505, "type_bits_HW"}, /* Key1_Protected_MTP5 , */\
{ 0x8601, "type_bits_1_0_SW"}, /* MTP-control SW , */\
{ 0x8681, "type_bits_8_9_SW"}, /* MTP-control SW , */\
{ 0x870f, "type_bits2_SW"}, /* MTP-control SW2 , */\
{ 0x8806, "htol_iic_addr"}, /* 7-bit I2C address to be used during HTOL testing , */\
{ 0x8870, "htol_iic_addr_en"}, /* HTOL_I2C_Address_Enable , */\
{ 0x8881, "ctrl_ovp_response"}, /* OVP response control , */\
{ 0x88a0, "disable_ovp_alarm_state"}, /* OVP alarm state control , */\
{ 0x88b0, "enbl_stretch_ovp"}, /* OVP alram strech control , */\
{ 0x88c0, "cf_debug_mode"}, /* Coolflux debug mode , */\
{ 0x8a0f, "production_data1"}, /* (key1 protected) , */\
{ 0x8b0f, "production_data2"}, /* (key1 protected) , */\
{ 0x8c0f, "production_data3"}, /* (key1 protected) , */\
{ 0x8d0f, "production_data4"}, /* (key1 protected) , */\
{ 0x8e0f, "production_data5"}, /* (key1 protected) , */\
{ 0x8f0f, "production_data6"}, /* (key1 protected) , */\
{ 0xffff,"Unknown bitfield enum" } /* not found */\
};
enum tfa1_irq {
tfa1_irq_vdds = 0,
tfa1_irq_plls = 1,
tfa1_irq_ds = 2,
tfa1_irq_vds = 3,
tfa1_irq_uvds = 4,
tfa1_irq_cds = 5,
tfa1_irq_clks = 6,
tfa1_irq_clips = 7,
tfa1_irq_mtpb = 8,
tfa1_irq_clk = 9,
tfa1_irq_spks = 10,
tfa1_irq_acs = 11,
tfa1_irq_sws = 12,
tfa1_irq_wds = 13,
tfa1_irq_amps = 14,
tfa1_irq_arefs = 15,
tfa1_irq_ack = 32,
tfa1_irq_max = 33,
tfa1_irq_all = -1 /* all irqs */};
#define TFA1_IRQ_NAMETABLE static tfaIrqName_t Tfa1IrqNames[]= {\
{ 0, "VDDS"},\
{ 1, "PLLS"},\
{ 2, "DS"},\
{ 3, "VDS"},\
{ 4, "UVDS"},\
{ 5, "CDS"},\
{ 6, "CLKS"},\
{ 7, "CLIPS"},\
{ 8, "MTPB"},\
{ 9, "CLK"},\
{ 10, "SPKS"},\
{ 11, "ACS"},\
{ 12, "SWS"},\
{ 13, "WDS"},\
{ 14, "AMPS"},\
{ 15, "AREFS"},\
{ 16, "16"},\
{ 17, "17"},\
{ 18, "18"},\
{ 19, "19"},\
{ 20, "20"},\
{ 21, "21"},\
{ 22, "22"},\
{ 23, "23"},\
{ 24, "24"},\
{ 25, "25"},\
{ 26, "26"},\
{ 27, "27"},\
{ 28, "28"},\
{ 29, "29"},\
{ 30, "30"},\
{ 31, "31"},\
{ 32, "ACK"},\
{ 33, "33"},\
};