/****************************************************************************** * * Copyright (C) 2017-2018 Texas Instruments Incorporated - http://www.ti.com/ * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the * distribution. * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ******************************************************************************/ #ifndef OPENOCD_LOADERS_FLASH_CC26XX_HW_REGS_H #define OPENOCD_LOADERS_FLASH_CC26XX_HW_REGS_H /****************************************************************************** * * Macros for direct hardware access. * * If using these macros the programmer should be aware of any limitations to * the address accessed i.e. if it supports word and/or byte access. * ******************************************************************************/ /* Word (32 bit) access to address x */ /* Read example : my32BitVar = HWREG(base_addr + offset) ; */ /* Write example : HWREG(base_addr + offset) = my32BitVar ; */ #define HWREG(x) (*((volatile unsigned long *)(x))) /* Half word (16 bit) access to address x */ /* Read example : my16BitVar = HWREGH(base_addr + offset) ; */ /* Write example : HWREGH(base_addr + offset) = my16BitVar ; */ #define HWREGH(x) (*((volatile unsigned short *)(x))) /* Byte (8 bit) access to address x */ /* Read example : my8BitVar = HWREGB(base_addr + offset) ; */ /* Write example : HWREGB(base_addr + offset) = my8BitVar ; */ #define HWREGB(x) (*((volatile unsigned char *)(x))) /****************************************************************************** * * Macro for access to bit-band supported addresses via the bit-band region. * * Macro calculates the corresponding address to access in the bit-band region * based on the actual address of the memory/register and the bit number. * * Do NOT use this macro to access the bit-band region directly! * ******************************************************************************/ /* Bit-band access to address x bit number b using word access (32 bit) */ #define HWREGBITW(x, b) \ HWREG(((unsigned long)(x) & 0xF0000000) | 0x02000000 | \ (((unsigned long)(x) & 0x000FFFFF) << 5) | ((b) << 2)) /****************************************************************************** * * Memory mapped components base address definitions * ******************************************************************************/ #define FLASH_BASE 0x40030000 #define FLASH_CFG_BASE 0x50000000 #define AON_PMCTL_BASE 0x40090000 /****************************************************************************** * * This section defines the register offsets of FLASH component * ******************************************************************************/ /* FMC and Efuse Status */ #define FLASH_O_STAT 0x0000001C /* Configuration */ #define FLASH_O_CFG 0x00000024 /* Flash Size Configuration */ #define FLASH_O_FLASH_SIZE 0x0000002C /* Firmware Lock */ #define FLASH_O_FWLOCK 0x0000003C /* Firmware Flags */ #define FLASH_O_FWFLAG 0x00000040 /* FMC Read Control */ #define FLASH_O_FRDCTL 0x00002000 /* FMC Bank Protection */ #define FLASH_O_FBPROT 0x00002030 /* FMC Bank Sector Enable */ #define FLASH_O_FBSE 0x00002034 /* FMC Module Access Control */ #define FLASH_O_FMAC 0x00002050 /* FMC Module Status */ #define FLASH_O_FMSTAT 0x00002054 /* FMC Flash Lock */ #define FLASH_O_FLOCK 0x00002064 /* FMC VREADCT Trim */ #define FLASH_O_FVREADCT 0x00002080 /* FMC VHVCT1 Trim */ #define FLASH_O_FVHVCT1 0x00002084 /* FMC VHVCT2 Trim */ #define FLASH_O_FVHVCT2 0x00002088 /* FMC VNVCT Trim */ #define FLASH_O_FVNVCT 0x00002090 /* FMC VSL_P Trim */ #define FLASH_O_FVSLP 0x00002094 /* FMC VWLCT Trim */ #define FLASH_O_FVWLCT 0x00002098 /* FMC Sequential Pump Information */ #define FLASH_O_FSEQPMP 0x000020A8 /* FMC FSM Command */ #define FLASH_O_FSM_CMD 0x0000220C /* FMC FSM Program/Erase Operation Setup */ #define FLASH_O_FSM_PE_OSU 0x00002210 /* FMC FSM Voltage Status Setup */ #define FLASH_O_FSM_VSTAT 0x00002214 /* FMC FSM Program/Erase Verify Setup */ #define FLASH_O_FSM_PE_VSU 0x00002218 /* FMC FSM Compare Verify Setup */ #define FLASH_O_FSM_CMP_VSU 0x0000221C /* FMC FSM EXECUTEZ to Valid Data */ #define FLASH_O_FSM_EX_VAL 0x00002220 /* FMC FSM Read Mode Hold */ #define FLASH_O_FSM_RD_H 0x00002224 /* FMC FSM Program Hold */ #define FLASH_O_FSM_P_OH 0x00002228 /* FMC FSM Erase Operation Hold */ #define FLASH_O_FSM_ERA_OH 0x0000222C /* FMC FSM Program/Erase Verify Hold */ #define FLASH_O_FSM_PE_VH 0x00002234 /* FMC FSM Program Pulse Width */ #define FLASH_O_FSM_PRG_PW 0x00002240 /* FMC FSM Erase Pulse Width */ #define FLASH_O_FSM_ERA_PW 0x00002244 /* FMC FSM Maximum Programming Pulses */ #define FLASH_O_FSM_PRG_PUL 0x00002268 /* FMC FSM Maximum Erase Pulses */ #define FLASH_O_FSM_ERA_PUL 0x0000226C /* FMC FSM EC Step Size */ #define FLASH_O_FSM_STEP_SIZE 0x00002270 /* FMC FSM EC Step Height */ #define FLASH_O_FSM_EC_STEP_HEIGHT 0x00002278 /* FMC FSM_ST_MACHINE */ #define FLASH_O_FSM_ST_MACHINE 0x0000227C /* FMC FSM Register Write Enable */ #define FLASH_O_FSM_WR_ENA 0x00002288 /* FMC FSM Command Execute */ #define FLASH_O_FSM_EXECUTE 0x000022B4 /* FMC FSM Sector Erased 1 */ #define FLASH_O_FSM_SECTOR1 0x000022C0 /* FMC FSM Sector Erased 2 */ #define FLASH_O_FSM_SECTOR2 0x000022C4 /* FMC Flash Bank 0 Starting Address */ #define FLASH_O_FCFG_B0_START 0x00002410 /* FMC Flash Bank 0 Sector Size 0 */ #define FLASH_O_FCFG_B0_SSIZE0 0x00002430 /****************************************************************************** * * Register: FLASH_O_STAT * ******************************************************************************/ /* Field: [2] SAMHOLD_DIS * * Status indicator of flash sample and hold sequencing logic. This bit will go * to 1 some delay after CFG.DIS_IDLE is set to 1. * 0: Not disabled * 1: Sample and hold disabled and stable */ #define FLASH_STAT_SAMHOLD_DIS 0x00000004 /* Field: [1] BUSY * * Fast version of the FMC FMSTAT.BUSY bit. * This flag is valid immediately after the operation setting it (FMSTAT.BUSY * is delayed some cycles) * 0 : Not busy * 1 : Busy */ #define FLASH_STAT_BUSY 0x00000002 /****************************************************************************** * * Register: FLASH_O_CFG * ******************************************************************************/ /* Field: [8] STANDBY_MODE_SEL * * [Configured by boot firmware] * STANDBY mode selection control. This bit, in conjunction with * STANDBY_PW_SEL, determine which 1 of 4 sub-modes is selected for control of * the behavior and timing of the STANDBY input to the pump. * * 0 : Legacy PG1 behavior is selected when STANDBY_PW_SEL = 00. This is * referred to as sub-mode 1. When STANDBY_PW_SEL != 00, then sub-mode 2 * behavior is selected. STANDBY will be glitchy in these modes. * 1 : STANDBY pulse-width counter modes selected. In these two modes (referred * to as sub-mode 3 and sub-mode 4), the low time pulse width of the STANDBY * signal to the pump, is controlled by a programmable timer. STANDBY will not * be glitchy in these modes. */ #define FLASH_CFG_STANDBY_MODE_SEL_M 0x00000100 #define FLASH_CFG_STANDBY_MODE_SEL_S 8 /* Field: [7:6] STANDBY_PW_SEL * * [Configured by boot firmware] * STANDBY pulse width counter selection control. These bits, in conjunction * with STANDBY_MODE_SEL, determine which 1 of 4 sub-modes is selected for * control of the behavior and timing of the STANDBY input to the pump. * * 00 : Legacy PG1 behavior is selected when STANDBY_MODE_SEL=0. Sub-mode 4 is * selected when STANDBY_MODE_SEL=1. In sub-mode 4, STANDBY will be low for at * least 9 pump clock cycles. * 01 : Sub-mode 2 or 3 is selected, and STANDBY will be low for at least 9 * pump clock cycles. * 10: Sub-mode 2 or 3 is selected, and STANDBY will be low for at least 5 pump * clock cycles. * 11: Sub-mode 2 or 3 is selected, and STANDBY will be low for at least 13 * pump clock cycles. */ #define FLASH_CFG_STANDBY_PW_SEL_M 0x000000C0 #define FLASH_CFG_STANDBY_PW_SEL_S 6 /* Field: [1] DIS_STANDBY * * [Configured by boot firmware] * Disable standby functionality in read idle state */ #define FLASH_CFG_DIS_STANDBY 0x00000002 #define FLASH_CFG_DIS_STANDBY_BITN 1 #define FLASH_CFG_DIS_STANDBY_M 0x00000002 /* Field: [0] DIS_IDLE * * [Configured by boot firmware] * Disable sample and hold functionality in read idle state */ #define FLASH_CFG_DIS_IDLE 0x00000001 #define FLASH_CFG_DIS_IDLE_M 0x00000001 #define FLASH_CFG_DIS_IDLE_S 0 /****************************************************************************** * * Register: FLASH_O_FLASH_SIZE * ******************************************************************************/ /* Field: [7:0] SECTORS * * [Configured by boot firmware] * Flash size. The number of flash sectors in the configured device. Read * access to sectors equal to this number or higher will result in an error. * The CCFG area is the sector (SECTORS - 1) Writing to this register is * disabled by the CFG.CONFIGURED bit. */ #define FLASH_FLASH_SIZE_SECTORS_M 0x000000FF #define FLASH_FLASH_SIZE_SECTORS_S 0 /****************************************************************************** * * Register: FLASH_O_FRDCTL * ******************************************************************************/ /* Field: [11:8] RWAIT * * [Configured by boot firmware] * FMC Wait State. This field determines the FLCLK period during FMC controlled * flash accesses: * - During power up/ power down / low power mode * - During FSM operations like program, erase * - During software interface mode (see FLOCK , FBSTROBES registers) * FLCLK_period = HCLK_period X (RWAIT + 1), * FSM state machine operations are usually twice this amount. This value * should never be set less than 2. */ #define FLASH_FRDCTL_RWAIT_M 0x00000F00 #define FLASH_FRDCTL_RWAIT_S 8 /****************************************************************************** * * Register: FLASH_O_FBPROT * ******************************************************************************/ /* Field: [0] PROTL1DIS * * Level 1 Protection Disable bit. Setting this bit disables protection from * writing to the FBAC.OTPPROTDIS bits as well as the Sector Enable registers * FBSE for all banks. Clearing this bit enables protection and disables write * access to the FBAC.OTPPROTDIS register bits and FBSE register. */ #define FLASH_FBPROT_PROTL1DIS 0x00000001 /****************************************************************************** * * Register: FLASH_O_FMSTAT * ******************************************************************************/ /* Field: [4] CSTAT * * Command Status. Once the FSM starts any failure will set this bit. When set, * this bit informs the host that the program, erase, or validate sector * command failed and the command was stopped. This bit is cleared by the * Clear_Status command. For some errors, this will be the only indication of * an FSM error because the cause does not fall within the other error bit * types. */ #define FLASH_FMSTAT_CSTAT 0x00000010 /****************************************************************************** * * Register: FLASH_O_FVREADCT * ******************************************************************************/ /* Field: [3:0] VREADCT * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of * wordline power supply for read mode. */ #define FLASH_FVREADCT_VREADCT_M 0x0000000F #define FLASH_FVREADCT_VREADCT_S 0 /****************************************************************************** * * Register: FLASH_O_FVHVCT1 * ******************************************************************************/ /* Field: [23:20] TRIM13_E * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * voltage supply input during erase operation. */ #define FLASH_FVHVCT1_TRIM13_E_M 0x00F00000 #define FLASH_FVHVCT1_TRIM13_E_S 20 /* Field: [19:16] VHVCT_E * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * voltage supply input during erase operation. */ #define FLASH_FVHVCT1_VHVCT_E_M 0x000F0000 #define FLASH_FVHVCT1_VHVCT_E_S 16 /* Field: [7:4] TRIM13_PV * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * voltage supply input during program verify operation. */ #define FLASH_FVHVCT1_TRIM13_PV_M 0x000000F0 #define FLASH_FVHVCT1_TRIM13_PV_S 4 /* Field: [3:0] VHVCT_PV * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * voltage supply input during program verify operation. */ #define FLASH_FVHVCT1_VHVCT_PV_M 0x0000000F #define FLASH_FVHVCT1_VHVCT_PV_S 0 /****************************************************************************** * * Register: FLASH_O_FVHVCT2 * ******************************************************************************/ /* Field: [23:20] TRIM13_P * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * voltage supply input during program operation. */ #define FLASH_FVHVCT2_TRIM13_P_M 0x00F00000 #define FLASH_FVHVCT2_TRIM13_P_S 20 /* Field: [19:16] VHVCT_P * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * voltage supply input during program operation. */ #define FLASH_FVHVCT2_VHVCT_P_M 0x000F0000 #define FLASH_FVHVCT2_VHVCT_P_S 16 /****************************************************************************** * * Register: FLASH_O_FVNVCT * ******************************************************************************/ /* Field: [12:8] VCG2P5CT * * [Configured by boot firmware] * These bits control the voltage level for the VCG 2.5 CT pump voltage. */ #define FLASH_FVNVCT_VCG2P5CT_M 0x00001F00 #define FLASH_FVNVCT_VCG2P5CT_S 8 /****************************************************************************** * * Register: FLASH_O_FVSLP * ******************************************************************************/ /* Field: [15:12] VSL_P * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of high * current power input during program operation. */ #define FLASH_FVSLP_VSL_P_M 0x0000F000 #define FLASH_FVSLP_VSL_P_S 12 /****************************************************************************** * * Register: FLASH_O_FVWLCT * ******************************************************************************/ /* Field: [4:0] VWLCT_P * * [Configured by boot firmware] * These bits control the voltage level for the specified pump voltage of * wordline power supply during programming operations. */ #define FLASH_FVWLCT_VWLCT_P_M 0x0000001F #define FLASH_FVWLCT_VWLCT_P_S 0 /****************************************************************************** * * Register: FLASH_O_FSEQPMP * ******************************************************************************/ /* Field: [21:20] TRIM_1P7 * * [Configured by boot firmware] * This register goes directly to the pump's TRIM_1P7 port pins. */ #define FLASH_FSEQPMP_TRIM_1P7_M 0x00300000 #define FLASH_FSEQPMP_TRIM_1P7_S 20 /* Field: [14:12] VIN_AT_X * * This register controls to the pump's VIN_AT_XPX port pins with the following * encoding; * * If VIN_BY_PASS=0 then pump VIN_AT_XPX is equal to VIN_AT_XIN input ports * from the BATMON logic after clocking through synchronizers and the sequence * checker FSM logic contained in the flash wrapper. * * If VIN_BY_PASS=1 and VIN_AT_X=??? * * 0: then all pump VIN_AT_XPX signals are 0. * 1: then pump VIN_AT_1P7 is set. * 2: then pump VIN_AT_2P1 is also set. * 3: then pump VIN_AT_2P4 is also set. * 4-7: then pump VIN_AT_3P0 is also set (ie all VIN_AT_XPX signals are 1). */ #define FLASH_FSEQPMP_VIN_AT_X_M 0x00007000 #define FLASH_FSEQPMP_VIN_AT_X_S 12 /* Field: [8] VIN_BY_PASS * * [Configured by boot firmware] * * When this bit is a zero, the pump's VIN_AT_XPX ports comes from the FMC * input port VIN_AT_XIN. * * When this bit is a one, the pump's VIN_AT_XPX ports comes from the VIN_AT_X * bits in 14:12. */ #define FLASH_FSEQPMP_VIN_BY_PASS 0x00000100 #define FLASH_FSEQPMP_VIN_BY_PASS_M 0x00000100 /****************************************************************************** * * Register: FLASH_O_FSM_PE_OSU * ******************************************************************************/ /* Field: [15:8] PGM_OSU * * [Configured by boot firmware] * Program Operation Setup time. This determines the flash clocks from the mode * change to program, to the start of the program pulse. */ #define FLASH_FSM_PE_OSU_PGM_OSU_M 0x0000FF00 #define FLASH_FSM_PE_OSU_PGM_OSU_S 8 /* Field: [7:0] ERA_OSU * * [Configured by boot firmware] * Erase Operation Setup time. This determines the flash clocks from the mode * change to erase, to the start of the erase pulse. */ #define FLASH_FSM_PE_OSU_ERA_OSU_M 0x000000FF #define FLASH_FSM_PE_OSU_ERA_OSU_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_VSTAT * ******************************************************************************/ /* Field: [15:12] VSTAT_CNT * * [Configured by boot firmware] * Voltage Status Count. Gives the number of consecutive HCLK pulses that must * be out of range before a voltage-out-of-range status error is given in * FMSTAT.VOLSTAT. One pulse in range will reset the counter. This is mainly a * glitch filter on the voltage status pump signal. */ #define FLASH_FSM_VSTAT_VSTAT_CNT_M 0x0000F000 #define FLASH_FSM_VSTAT_VSTAT_CNT_S 12 /****************************************************************************** * * Register: FLASH_O_FSM_PE_VSU * ******************************************************************************/ /* Field: [15:8] PGM_VSU * * [Configured by boot firmware] * Program Verify Setup time. This determines the flash clocks from the mode * change to program verify, to the change of address and the beginning of the * address setup time. */ #define FLASH_FSM_PE_VSU_PGM_VSU_M 0x0000FF00 #define FLASH_FSM_PE_VSU_PGM_VSU_S 8 /* Field: [7:0] ERA_VSU * * [Configured by boot firmware] * Erase Verify Setup time. This determines the flash clocks from the mode * change to erase verify, to the change of address and the beginning of the * address setup time. */ #define FLASH_FSM_PE_VSU_ERA_VSU_M 0x000000FF #define FLASH_FSM_PE_VSU_ERA_VSU_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_CMP_VSU * ******************************************************************************/ /* Field: [15:12] ADD_EXZ * * [Configured by boot firmware] * Address to EXECUTEZ low setup time. This determines the flash clocks from * the row address change to the time EXECUTEZ goes low. All operations use * this value. */ #define FLASH_FSM_CMP_VSU_ADD_EXZ_M 0x0000F000 #define FLASH_FSM_CMP_VSU_ADD_EXZ_S 12 /****************************************************************************** * * Register: FLASH_O_FSM_EX_VAL * ******************************************************************************/ /* Field: [15:8] REP_VSU * * [Configured by boot firmware] * Repeat Verify action setup. If a program or erase operation advances to the * program_verify or erase_verify then this special shorter mode transition * time will be used in place of FSM_PE_VSU.PGM_VSU or FSM_PE_VSU.ERA_VSU * times. */ #define FLASH_FSM_EX_VAL_REP_VSU_M 0x0000FF00 #define FLASH_FSM_EX_VAL_REP_VSU_S 8 /* Field: [7:0] EXE_VALD * * [Configured by boot firmware] * EXECUTEZ low to valid Data. Determines the number of Flash clock cycles from * EXECUTEZ going low to the time the verify data can be read in the program * verify mode. Erase and compact verify is always a constant value which is * currently set at one flash clock. This value must be greater than 0. */ #define FLASH_FSM_EX_VAL_EXE_VALD_M 0x000000FF #define FLASH_FSM_EX_VAL_EXE_VALD_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_RD_H * ******************************************************************************/ /* Field: [7:0] RD_H * * [Configured by boot firmware] * Read mode hold. This determines the number of flash clocks from the start of * the Read mode at the end of the operations until the FSM clears the * FMSTAT.BUSY. Writing a zero to this register will result in a value of 1. * The reset value of this register is 0x3Ah before FMC version 3.0.10.0 and * 0x5Ah after this version. */ #define FLASH_FSM_RD_H_RD_H_M 0x000000FF #define FLASH_FSM_RD_H_RD_H_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_P_OH * ******************************************************************************/ /* Field: [15:8] PGM_OH * * [Configured by boot firmware] * EXECUTEZ high to mode change. This value determines the flash clocks from * the EXECUTEZ going high at the end of a program operation to the time the * mode can change. This value must be greater than or equal to one. */ #define FLASH_FSM_P_OH_PGM_OH_M 0x0000FF00 #define FLASH_FSM_P_OH_PGM_OH_S 8 /****************************************************************************** * * Register: FLASH_O_FSM_ERA_OH * ******************************************************************************/ /* Field: [15:0] ERA_OH * * [Configured by boot firmware] * EXECUTEZ high to mode change. Determines the flash clocks from EXECUTEZ * going high at the end of an erase operation to the time the mode can change. * If a bank erase is happening, then this is the time to when the TEZ and TCR * values for bank erase are released. The mode changes 10 flash clocks after * they are released. This value must be greater than or equal to one. */ #define FLASH_FSM_ERA_OH_ERA_OH_M 0x0000FFFF #define FLASH_FSM_ERA_OH_ERA_OH_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_PE_VH * ******************************************************************************/ /* Field: [15:8] PGM_VH * * [Configured by boot firmware] * Program Verify Hold. This register determines the flash clocks from EXECUTEZ * going high after a program verify to a mode change. This value must be * greater than or equal to one */ #define FLASH_FSM_PE_VH_PGM_VH_M 0x0000FF00 #define FLASH_FSM_PE_VH_PGM_VH_S 8 /****************************************************************************** * * Register: FLASH_O_FSM_PRG_PW * ******************************************************************************/ /* Field: [15:0] PROG_PUL_WIDTH * * [Configured by boot firmware] * Program Pulse width.This register gives the number of flash clocks that the * EXECUTEZ signal is low in a program operation. */ #define FLASH_FSM_PRG_PW_PROG_PUL_WIDTH_M 0x0000FFFF #define FLASH_FSM_PRG_PW_PROG_PUL_WIDTH_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_ERA_PW * ******************************************************************************/ /* Field: [31:0] FSM_ERA_PW * * [Configured by boot firmware] * Erase Pulse width. This register gives the number flash clocks that the * EXECUTEZ signal is low in an erase operation. */ #define FLASH_FSM_ERA_PW_FSM_ERA_PW_M 0xFFFFFFFF #define FLASH_FSM_ERA_PW_FSM_ERA_PW_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_PRG_PUL * ******************************************************************************/ /* Field: [19:16] BEG_EC_LEVEL * * [Configured by boot firmware] * Beginning level for VHVCT. This determines the beginning level for VHVCT * that is used during erase modes. The pump voltage control registers supply * the other values that do not change during FSM operations. The reset value * is the same as FVHVCT1.VHVCT_E. */ #define FLASH_FSM_PRG_PUL_BEG_EC_LEVEL_M 0x000F0000 #define FLASH_FSM_PRG_PUL_BEG_EC_LEVEL_S 16 /* Field: [11:0] MAX_PRG_PUL * * [Configured by boot firmware] * Maximum Programming Pulses. This register contains the maximum number of * programming pulses allowed at one address. If it takes any more than this * amount during a programming operation then the FSM will exit with an error * and with the program violation, FMSTAT.PGV set, and the general error set, * FMSTAT.CSTAT. Setting FSM_ST_MACHINE.OVERRIDE to 0 will allow more than this * maximum value to occur without an error. During pre-conditioning for an * erase operation the FSM programs all the bits to zero. If the maximum number * of programming pulses is reached for an address, the FSM will continue with * the next address and set the FMSTAT.PCV and the general error FMSTAT.CSTAT. * If the FSM_ST_MACHINE.PREC_STOP_EN is set then the FSM will stop with errors * when more than the maximum number of pulses is needed. The * FSM_ST_MACHINE.OVERRIDE bit will take priority over the * FSM_ST_MACHINE.PREC_STOP_EN and continue doing pulses without setting the * error bits. Suspend operations will count a pulse if the program operation * began no matter how long the pulse lasted before is was suspended. Frequent * suspend or auto-suspend operations could result in max_pulse count error. */ #define FLASH_FSM_PRG_PUL_MAX_PRG_PUL_M 0x00000FFF #define FLASH_FSM_PRG_PUL_MAX_PRG_PUL_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_ERA_PUL * ******************************************************************************/ /* Field: [19:16] MAX_EC_LEVEL * * [Configured by boot firmware] * Maximum VHVCT Level. This determines the maximum level for VHVCT that is * used during erase modes. The FSM will stop advancing VHVCT once it counts up * to the MAX_EC_LEVEL level from the beginning level. The MAX_EC_LEVEL + * FSM_EC_STEP_HEIGHT.EC_STEP_HEIGHT must be less than 0x200. The reset value * is the same as FVHVCT1.VHVCT_E. */ #define FLASH_FSM_ERA_PUL_MAX_EC_LEVEL_M 0x000F0000 #define FLASH_FSM_ERA_PUL_MAX_EC_LEVEL_S 16 /* Field: [11:0] MAX_ERA_PUL * * [Configured by boot firmware] * Maximum Erase Pulses. This register contains the maximum number of erase * pulses allowed at one address. If it takes any more than this amount the FSM * will exit with an error and with both the FMSTAT.EV and FMSTAT.CSTAT bits * set. Setting FSM_ST_MACHINE.OVERRIDE to 1 will allow more than this maximum * value to occur without an error. Suspend operations will count a pulse if * the erase operation began no matter how long the pulse lasted before is was * suspended. Frequent suspend or auto-suspend operations could result in * max_pulse count error. */ #define FLASH_FSM_ERA_PUL_MAX_ERA_PUL_M 0x00000FFF #define FLASH_FSM_ERA_PUL_MAX_ERA_PUL_S 0 /****************************************************************************** * * Register: FLASH_O_FSM_STEP_SIZE * ******************************************************************************/ /* Field: [24:16] EC_STEP_SIZE * * [Configured by boot firmware] * VHVCT Step Size. This is the number of erase pulses that must be completed * for each level before the FSM increments the FSM_PUL_CNTR.CUR_EC_LEVEL to * the next higher level. Actual erase pulses per level equals (EC_STEP_SIZE * +1). The stepping is only needed for the VHVCT voltage. */ #define FLASH_FSM_STEP_SIZE_EC_STEP_SIZE_M 0x01FF0000 #define FLASH_FSM_STEP_SIZE_EC_STEP_SIZE_S 16 /****************************************************************************** * * Register: FLASH_O_FSM_EC_STEP_HEIGHT * ******************************************************************************/ /* Field: [3:0] EC_STEP_HEIGHT * * [Configured by boot firmware] * Height of each EC step. This is the number of counts that the * FSM_PUL_CNTR.CUR_EC_LEVEL will increment when going to a new level. Actual * count size equals (EC_STEP_HEIGHT + 1). The stepping applies only to the * VHVCT voltage. If adding the height to the FSM_PUL_CNTR.CUR_EC_LEVEL results * in a value higher than the FSM_ERA_PUL.MAX_EC_LEVEL then the * FSM_PUL_CNTR.CUR_EC_LEVEL will be lowered to the MAX LEVEL before it is used * in the next erase pulse. */ #define FLASH_FSM_EC_STEP_HEIGHT_EC_STEP_HEIGHT_M 0x0000000F /****************************************************************************** * * Register: FLASH_O_FSM_ST_MACHINE * ******************************************************************************/ /* Field: [23] DO_PRECOND * * [Configured by boot firmware] * Do preconditioning. When this bit is a one, the FSM will precondition the * sector or bank before doing an erase operation. When zero, the FSM will just * begin with the erase verify and skip the preconditioning. */ #define FLASH_FSM_ST_MACHINE_DO_PRECOND 0x00800000 #define FLASH_FSM_ST_MACHINE_DO_PRECOND_M 0x00800000 #define FLASH_FSM_ST_MACHINE_DO_PRECOND_S 23 /* Field: [14] ONE_TIME_GOOD * * [Configured by boot firmware] * One Time Good function. If this bit is a one then the 'One Time Good' * function is enabled for all program operations. This includes operations * inside the erase functions and other functions. When zero, this function is * disabled for all modes. When doing the One Time Good function, the FSM will * attempt to program a location with data. If a desired zero bit reads back * from the flash one time as good then that bit is blocked from writing a zero * to the flash array again for this address. When the address changes, all * bits are unblocked. This prevents a bit from reading 0 in one programming * pulse and then 1 in the next programming pulse. On the second time the bit * would get a programming pulse even though it read 0 in an earlier read. If * this bit is a zero then the zero bits will be masked for each program verify * operation. It is recommended for this bit to be set to 1. */ #define FLASH_FSM_ST_MACHINE_ONE_TIME_GOOD 0x00004000 /****************************************************************************** * * Register: FLASH_O_FCFG_B0_SSIZE0 * ******************************************************************************/ /* Field: [3:0] B0_SECT_SIZE * * Size of sectors in Bank 0. Common sector size for all sectors in the bank in * 1K bytes multiples. * 0x0: 0K bytes * 0x1: 1K bytes(FLES) * 0x2: 2K bytes * 0x4: 4K bytes (FLEE) * ... * 0xF: 15K bytes */ #define FLASH_FCFG_B0_SSIZE0_B0_SECT_SIZE_M 0x0000000F #define FLASH_FCFG_B0_SSIZE0_B0_SECT_SIZE_S 0 /****************************************************************************** * * This section defines the register offsets of FCFG1 component * ******************************************************************************/ /* Flash Erase and Program Setup Time */ #define FCFG1_O_FLASH_E_P 0x00000170 /* Flash Compaction, Execute, Program and Read */ #define FCFG1_O_FLASH_C_E_P_R 0x00000174 /* Flash Program, Read, and Program Verify */ #define FCFG1_O_FLASH_P_R_PV 0x00000178 /* Flash Erase Hold and Sequence */ #define FCFG1_O_FLASH_EH_SEQ 0x0000017C /* Flash VHV Erase */ #define FCFG1_O_FLASH_VHV_E 0x00000180 /* Flash Program Pulse */ #define FCFG1_O_FLASH_PP 0x00000184 /* Flash Program and Erase Pulse */ #define FCFG1_O_FLASH_PROG_EP 0x00000188 /* Flash Erase Pulse Width */ #define FCFG1_O_FLASH_ERA_PW 0x0000018C /* Flash VHV */ #define FCFG1_O_FLASH_VHV 0x00000190 /* Flash VHV Program Verify */ #define FCFG1_O_FLASH_VHV_PV 0x00000194 /* Flash Voltages */ #define FCFG1_O_FLASH_V 0x00000198 /* Flash OTP Data 3 */ #define FCFG1_O_FLASH_OTP_DATA3 0x000002B0 /* Flash OTP Data 4 */ #define FCFG1_O_FLASH_OTP_DATA4 0x00000308 /****************************************************************************** * * Register: FCFG1_O_FLASH_E_P * ******************************************************************************/ /* Field: [31:24] PSU * * Program setup time in cycles. Value will be written to * FLASH:FSM_PE_OSU.PGM_OSU by the flash device driver when an erase/program * operation is initiated. */ #define FCFG1_FLASH_E_P_PSU_M 0xFF000000 #define FCFG1_FLASH_E_P_PSU_S 24 /* Field: [23:16] ESU * * Erase setup time in cycles. Value will be written to * FLASH:FSM_PE_OSU.ERA_OSU by the flash device driver when an erase/program * operation is initiated. */ #define FCFG1_FLASH_E_P_ESU_M 0x00FF0000 #define FCFG1_FLASH_E_P_ESU_S 16 /* Field: [15:8] PVSU * * Program verify setup time in cycles. Value will be written to * FLASH:FSM_PE_VSU.PGM_VSU by the flash device driver when an erase/program * operation is initiated. */ #define FCFG1_FLASH_E_P_PVSU_M 0x0000FF00 #define FCFG1_FLASH_E_P_PVSU_S 8 /* Field: [7:0] EVSU * * Erase verify setup time in cycles. Value will be written to * FLASH:FSM_PE_VSU.ERA_VSU by the flash device driver when an erase/program * operation is initiated. */ #define FCFG1_FLASH_E_P_EVSU_M 0x000000FF #define FCFG1_FLASH_E_P_EVSU_S 0 /****************************************************************************** * * Register: FCFG1_O_FLASH_C_E_P_R * ******************************************************************************/ /* Field: [31:24] RVSU * * Repeat verify setup time in cycles. Used for repeated verifies during * program and erase. Value will be written to FLASH:FSM_EX_VAL.REP_VSU by the * flash device driver when an erase/program operation is initiated. */ #define FCFG1_FLASH_C_E_P_R_RVSU_M 0xFF000000 #define FCFG1_FLASH_C_E_P_R_RVSU_S 24 /* Field: [23:16] PV_ACCESS * * Program verify EXECUTEZ->data valid time in half-microseconds. Value * will be converted to number of FCLK cycles by by flash device driver and the * converted value is written to FLASH:FSM_EX_VAL.EXE_VALD when an * erase/program operation is initiated. */ #define FCFG1_FLASH_C_E_P_R_PV_ACCESS_M 0x00FF0000 #define FCFG1_FLASH_C_E_P_R_PV_ACCESS_S 16 /* Field: [15:12] A_EXEZ_SETUP * * Address->EXECUTEZ setup time in cycles. Value will be written to * FLASH:FSM_CMP_VSU.ADD_EXZ by the flash device driver when an erase/program * operation is initiated. */ #define FCFG1_FLASH_C_E_P_R_A_EXEZ_SETUP_M 0x0000F000 #define FCFG1_FLASH_C_E_P_R_A_EXEZ_SETUP_S 12 /****************************************************************************** * * Register: FCFG1_O_FLASH_P_R_PV * ******************************************************************************/ /* Field: [31:24] PH * * Program hold time in half-microseconds after SAFELV goes high. Value will be * converted to number of FCLK cycles by the flash device driver and the * converted value is written to FLASH:FSM_P_OH.PGM_OH when an erase/program * operation is initiated. */ #define FCFG1_FLASH_P_R_PV_PH_M 0xFF000000 #define FCFG1_FLASH_P_R_PV_PH_S 24 /* Field: [23:16] RH * * Read hold/mode transition time in cycles. Value will be written to the RD_H * field bits[7:0] of the FSM_RD_H register in the flash module by the flash * device driver when an erase/program operation is initiated. */ #define FCFG1_FLASH_P_R_PV_RH_M 0x00FF0000 #define FCFG1_FLASH_P_R_PV_RH_S 16 /* Field: [15:8] PVH * * Program verify hold time in half-microseconds after SAFELV goes high. Value * will be converted to number of FCLK cycles by the flash device driver and * the converted value is written to FLASH:FSM_PE_VH.PGM_VH when an * erase/program operation is initiated. */ #define FCFG1_FLASH_P_R_PV_PVH_M 0x0000FF00 #define FCFG1_FLASH_P_R_PV_PVH_S 8 /****************************************************************************** * * Register: FCFG1_O_FLASH_EH_SEQ * ******************************************************************************/ /* Field: [31:24] EH * * Erase hold time in half-microseconds after SAFELV goes high. Value will be * converted to number of FCLK cycles by the flash device driver and the * converted value is written to FLASH:FSM_ERA_OH.ERA_OH when an erase/program * operation is initiated. */ #define FCFG1_FLASH_EH_SEQ_EH_M 0xFF000000 #define FCFG1_FLASH_EH_SEQ_EH_S 24 /* Field: [15:12] VSTAT * * Max number of HCLK cycles allowed for pump brown-out. Value will be written * to FLASH:FSM_VSTAT.VSTAT_CNT when an erase/program operation is initiated. */ #define FCFG1_FLASH_EH_SEQ_VSTAT_M 0x0000F000 #define FCFG1_FLASH_EH_SEQ_VSTAT_S 12 /****************************************************************************** * * Register: FCFG1_O_FLASH_VHV_E * ******************************************************************************/ /* Field: [31:16] VHV_E_START * * Starting VHV-Erase CT for stairstep erase. Value will be written to * FLASH:FSM_PRG_PUL.BEG_EC_LEVEL when erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_E_VHV_E_START_M 0xFFFF0000 #define FCFG1_FLASH_VHV_E_VHV_E_START_S 16 /* Field: [15:0] VHV_E_STEP_HIGHT * * Number of VHV CTs to step after each erase pulse (up to the max). The actual * FMC register value should be one less than this since the FMC starts * counting from zero. Value will be written to * FLASH:FSM_EC_STEP_HEIGHT.EC_STEP_HEIGHT when an erase/program operation is * initiated. */ #define FCFG1_FLASH_VHV_E_VHV_E_STEP_HIGHT_M 0x0000FFFF #define FCFG1_FLASH_VHV_E_VHV_E_STEP_HIGHT_S 0 /****************************************************************************** * * Register: FCFG1_O_FLASH_PP * ******************************************************************************/ /* Field: [15:0] MAX_PP * * Max program pulse limit per program operation. Value will be written to * FLASH:FSM_PRG_PUL.MAX_PRG_PUL when an erase/program operation is initiated. */ #define FCFG1_FLASH_PP_MAX_PP_M 0x0000FFFF #define FCFG1_FLASH_PP_MAX_PP_S 0 /****************************************************************************** * * Register: FCFG1_O_FLASH_PROG_EP * ******************************************************************************/ /* Field: [31:16] MAX_EP * * Max erase pulse limit per erase operation. Value will be written to * FLASH:FSM_ERA_PUL.MAX_ERA_PUL when an erase/program operation is initiated. */ #define FCFG1_FLASH_PROG_EP_MAX_EP_M 0xFFFF0000 #define FCFG1_FLASH_PROG_EP_MAX_EP_S 16 /* Field: [15:0] PROGRAM_PW * * Program pulse width in half-microseconds. Value will be converted to number * of FCLK cycles by the flash device driver and the converted value is written * to FLASH:FSM_PRG_PW.PROG_PUL_WIDTH when a erase/program operation is * initiated. */ #define FCFG1_FLASH_PROG_EP_PROGRAM_PW_M 0x0000FFFF #define FCFG1_FLASH_PROG_EP_PROGRAM_PW_S 0 /****************************************************************************** * * Register: FCFG1_O_FLASH_ERA_PW * ******************************************************************************/ /* Field: [31:0] ERASE_PW * * Erase pulse width in half-microseconds. Value will be converted to number of * FCLK cycles by the flash device driver and the converted value is written to * FLASH:FSM_ERA_PW.FSM_ERA_PW when a erase/program operation is initiated. */ #define FCFG1_FLASH_ERA_PW_ERASE_PW_M 0xFFFFFFFF #define FCFG1_FLASH_ERA_PW_ERASE_PW_S 0 /****************************************************************************** * * Register: FCFG1_O_FLASH_VHV * ******************************************************************************/ /* Field: [27:24] TRIM13_P * * Value will be written to FLASH:FVHVCT2.TRIM13_P by the flash device driver * when an erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_TRIM13_P_M 0x0F000000 #define FCFG1_FLASH_VHV_TRIM13_P_S 24 /* Field: [19:16] VHV_P * * Value will be written to FLASH:FVHVCT2.VHVCT_P by the flash device driver * when an erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_VHV_P_M 0x000F0000 #define FCFG1_FLASH_VHV_VHV_P_S 16 /* Field: [11:8] TRIM13_E * * Value will be written to FLASH:FVHVCT1.TRIM13_E by the flash device driver * when an erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_TRIM13_E_M 0x00000F00 #define FCFG1_FLASH_VHV_TRIM13_E_S 8 /* Field: [3:0] VHV_E * * Value will be written to FLASH:FVHVCT1.VHVCT_E by the flash device driver * when an erase/program operation is initiated */ #define FCFG1_FLASH_VHV_VHV_E_M 0x0000000F #define FCFG1_FLASH_VHV_VHV_E_S 0 /****************************************************************************** * * Register: FCFG1_O_FLASH_VHV_PV * ******************************************************************************/ /* Field: [27:24] TRIM13_PV * * Value will be written to FLASH:FVHVCT1.TRIM13_PV by the flash device driver * when an erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_PV_TRIM13_PV_M 0x0F000000 #define FCFG1_FLASH_VHV_PV_TRIM13_PV_S 24 /* Field: [19:16] VHV_PV * * Value will be written to FLASH:FVHVCT1.VHVCT_PV by the flash device driver * when an erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_PV_VHV_PV_M 0x000F0000 #define FCFG1_FLASH_VHV_PV_VHV_PV_S 16 /* Field: [15:8] VCG2P5 * * Control gate voltage during read, read margin, and erase verify. Value will * be written to FLASH:FVNVCT.VCG2P5CT by the flash device driver when an * erase/program operation is initiated. */ #define FCFG1_FLASH_VHV_PV_VCG2P5_M 0x0000FF00 #define FCFG1_FLASH_VHV_PV_VCG2P5_S 8 /****************************************************************************** * * Register: FCFG1_O_FLASH_V * ******************************************************************************/ /* Field: [31:24] VSL_P * * Sourceline voltage applied to the selected block during programming. Value * will be written to FLASH:FVSLP.VSL_P by the flash device driver when an * erase/program operation is initiated. */ #define FCFG1_FLASH_V_VSL_P_M 0xFF000000 #define FCFG1_FLASH_V_VSL_P_S 24 /* Field: [23:16] VWL_P * * Wordline voltage applied to the selected half-row during programming. Value * will be written to FLASH:FVWLCT.VWLCT_P by the flash device driver when an * erase/program operation is initiated. */ #define FCFG1_FLASH_V_VWL_P_M 0x00FF0000 #define FCFG1_FLASH_V_VWL_P_S 16 /* Field: [15:8] V_READ * * Wordline voltage applied to the selected block during reads and verifies. * Value will be written to FLASH:FVREADCT.VREADCT by the flash device driver * when an erase/program operation is initiated. */ #define FCFG1_FLASH_V_V_READ_M 0x0000FF00 #define FCFG1_FLASH_V_V_READ_S 8 /****************************************************************************** * * Register: FCFG1_O_FLASH_OTP_DATA3 * ******************************************************************************/ /* Field: [31:23] EC_STEP_SIZE * * Value will be written to FLASH:FSM_STEP_SIZE.EC_STEP_SIZE by the flash * device driver when a erase/program operation is initiated. */ #define FCFG1_FLASH_OTP_DATA3_EC_STEP_SIZE_M 0xFF800000 #define FCFG1_FLASH_OTP_DATA3_EC_STEP_SIZE_S 23 /* Field: [22] DO_PRECOND * * Value will be written to FLASH:FSM_ST_MACHINE.DO_PRECOND by the flash device * driver when a erase/program operation is initiated. * * Note that during a Total Erase operation the flash bank will always be * erased with Precondition enabled independent of the value of this FCFG1 bit * field. */ #define FCFG1_FLASH_OTP_DATA3_DO_PRECOND_M 0x00400000 #define FCFG1_FLASH_OTP_DATA3_DO_PRECOND_S 22 /* Field: [21:18] MAX_EC_LEVEL * * Value will be written to FLASH:FSM_ERA_PUL.MAX_EC_LEVEL by the flash device * driver when a erase/program operation is initiated. */ #define FCFG1_FLASH_OTP_DATA3_MAX_EC_LEVEL_M 0x003C0000 #define FCFG1_FLASH_OTP_DATA3_MAX_EC_LEVEL_S 18 /* Field: [17:16] TRIM_1P7 * * Value will be written to FLASH:FSEQPMP.TRIM_1P7 by the flash device driver * when a erase/program operation is initiated. */ #define FCFG1_FLASH_OTP_DATA3_TRIM_1P7_M 0x00030000 #define FCFG1_FLASH_OTP_DATA3_TRIM_1P7_S 16 /****************************************************************************** * * Register: FCFG1_O_FLASH_OTP_DATA4 * ******************************************************************************/ /* Field: [31] STANDBY_MODE_SEL_INT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.STANDBY_MODE_SEL by flash device driver FW when a flash write * operation is initiated. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_INT_WRT_M 0x80000000 #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_INT_WRT_S 31 /* Field: [30:29] STANDBY_PW_SEL_INT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.STANDBY_PW_SEL by flash device driver FW when a flash write * operation is initiated. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_INT_WRT_M 0x60000000 #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_INT_WRT_S 29 /* Field: [28] DIS_STANDBY_INT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.DIS_STANDBY by flash device driver FW when a flash write operation * is initiated. */ #define FCFG1_FLASH_OTP_DATA4_DIS_STANDBY_INT_WRT_M 0x10000000 /* Field: [27] DIS_IDLE_INT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.DIS_IDLE by flash device driver FW when a flash write operation is * initiated. */ #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_INT_WRT_M 0x08000000 #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_INT_WRT_S 27 /* Field: [26:24] VIN_AT_X_INT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:FSEQPMP.VIN_AT_X by flash device driver FW when a flash write * operation is initiated. */ #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_INT_WRT_M 0x07000000 #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_INT_WRT_S 24 /* Field: [23] STANDBY_MODE_SEL_EXT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.STANDBY_MODE_SEL by flash device driver FW when a flash write * operation is initiated. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_EXT_WRT_M 0x00800000 #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_EXT_WRT_S 23 /* Field: [22:21] STANDBY_PW_SEL_EXT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.STANDBY_PW_SEL by flash device driver FW when a flash write * operation is initiated. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_EXT_WRT_M 0x00600000 #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_EXT_WRT_S 21 /* Field: [20] DIS_STANDBY_EXT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.DIS_STANDBY by flash device driver FW when a flash write operation * is initiated. */ #define FCFG1_FLASH_OTP_DATA4_DIS_STANDBY_EXT_WRT_M 0x00100000 /* Field: [19] DIS_IDLE_EXT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.DIS_IDLE by flash device driver FW when a flash write operation is * initiated. */ #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_EXT_WRT_M 0x00080000 #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_EXT_WRT_S 19 /* Field: [18:16] VIN_AT_X_EXT_WRT * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:FSEQPMP.VIN_AT_X by flash device driver FW when a flash write * operation is initiated. */ #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_EXT_WRT_M 0x00070000 #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_EXT_WRT_S 16 /* Field: [15] STANDBY_MODE_SEL_INT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.STANDBY_MODE_SEL both by boot FW while in safezone, and by flash * device driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_INT_RD_M 0x00008000 #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_INT_RD_S 15 /* Field: [14:13] STANDBY_PW_SEL_INT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.STANDBY_PW_SEL both by boot FW while in safezone, and by flash * device driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_INT_RD_M 0x00006000 #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_INT_RD_S 13 /* Field: [12] DIS_STANDBY_INT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.DIS_STANDBY both by boot FW while in safezone, and by flash device * driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_DIS_STANDBY_INT_RD_M 0x00001000 /* Field: [11] DIS_IDLE_INT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:CFG.DIS_IDLE both by boot FW while in safezone, and by flash device * driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_INT_RD_M 0x00000800 #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_INT_RD_S 11 /* Field: [10:8] VIN_AT_X_INT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 0, this value will be written to * FLASH:FSEQPMP.VIN_AT_X both by boot FW while in safezone, and by flash * device driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_INT_RD_M 0x00000700 #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_INT_RD_S 8 /* Field: [7] STANDBY_MODE_SEL_EXT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.STANDBY_MODE_SEL both by boot FW while in safezone, and by flash * device driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_EXT_RD_M 0x00000080 #define FCFG1_FLASH_OTP_DATA4_STANDBY_MODE_SEL_EXT_RD_S 7 /* Field: [6:5] STANDBY_PW_SEL_EXT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.STANDBY_PW_SEL both by boot FW while in safezone, and by flash * device driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_EXT_RD_M 0x00000060 #define FCFG1_FLASH_OTP_DATA4_STANDBY_PW_SEL_EXT_RD_S 5 /* Field: [4] DIS_STANDBY_EXT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.DIS_STANDBY both by boot FW while in safezone, and by flash device * driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_DIS_STANDBY_EXT_RD_M 0x00000010 /* Field: [3] DIS_IDLE_EXT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:CFG.DIS_IDLE both by boot FW while in safezone, and by flash device * driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_EXT_RD_M 0x00000008 #define FCFG1_FLASH_OTP_DATA4_DIS_IDLE_EXT_RD_S 3 /* Field: [2:0] VIN_AT_X_EXT_RD * * If AON_PMCTL:PWRCTL.EXT_REG_MODE = 1, this value will be written to * FLASH:FSEQPMP.VIN_AT_X both by boot FW while in safezone, and by flash * device driver FW after completion of a flash write operation. */ #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_EXT_RD_M 0x00000007 #define FCFG1_FLASH_OTP_DATA4_VIN_AT_X_EXT_RD_S 0 /****************************************************************************** * * This section defines the register offsets of AON_PMCTL component * ******************************************************************************/ /* Power Management Control */ #if defined(DEVICE_CC26X2) /* Agama (CC26x2) specific definition */ #define AON_PMCTL_O_PWRCTL 0x00000010 #elif defined(DEVICE_CC26X0) /* Chameleon (CC26x0) specific definition */ #define AON_PMCTL_O_PWRCTL 0x00000000 #endif /* Field: [1] EXT_REG_MODE * * Status of source for VDDRsupply: * * 0: DCDC or GLDO are generating VDDR * 1: DCDC and GLDO are bypassed and an external regulator supplies VDDR */ #define AON_PMCTL_PWRCTL_EXT_REG_MODE 0x00000002 #endif /* #ifndef OPENOCD_LOADERS_FLASH_CC26XX_HW_REGS_H */