takashi kadono
Color Oled(SSD1331) connect to STMicroelectronics Nucleo-F466
mbed-os/targets/TARGET_NUVOTON/TARGET_M2351/device/Reg/fmc_reg.h
- Committer:
- kadonotakashi
- Date:
- 2018-10-11
- Revision:
- 3:f3764f852aa8
- Parent:
- 0:8fdf9a60065b
File content as of revision 3:f3764f852aa8:
/**************************************************************************//**
* @file fmc_reg.h
* @version V1.00
* @brief FMC register definition header file
*
* @copyright (C) 2017 Nuvoton Technology Corp. All rights reserved.
*****************************************************************************/
#ifndef __FMC_REG_H__
#define __FMC_REG_H__
/*---------------------- Flash Memory Controller -------------------------*/
/**
@addtogroup FMC Flash Memory Controller(FMC)
Memory Mapped Structure for FMC Controller
@{ */
typedef struct
{
/**
* @var FMC_T::ISPCTL
* Offset: 0x00 ISP Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ISPEN |ISP Enable Bit (Write Protect)
* | | |ISP function enable bit. Set this bit to enable ISP function.
* | | |0 = ISP function Disabled.
* | | |1 = ISP function Enabled.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[1] |BS |Boot Select (Write Protect)
* | | |When MBS in CONFIG0 is 1, set/clear this bit to select next booting from LDROM/APROM, respectively
* | | |This bit also functions as chip booting status flag, which can be used to check where chip booted from
* | | |This bit is initiated with the inverse value of CBS[1] (CONFIG0[7]) after any reset is happened except CPU reset (CPU is 1) or system reset (SYS) is happened
* | | |0 = Booting from APROM when MBS (CONFIG0[5]) is 1.
* | | |1 = Booting from LDROM when MBS (CONFIG0[5]) is 1.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[3] |APUEN |APROM Update Enable Bit (Write Protect)
* | | |0 = APROM cannot be updated when the chip runs in APROM.
* | | |1 = APROM can be updated when the chip runs in APROM.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[4] |CFGUEN |CONFIG Update Enable Bit (Write Protect)
* | | |0 = CONFIG cannot be updated.
* | | |1 = CONFIG can be updated.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[5] |LDUEN |LDROM Update Enable Bit (Write Protect)
* | | |LDROM update enable bit.
* | | |0 = LDROM cannot be updated.
* | | |1 = LDROM can be updated.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[6] |ISPFF |ISP Fail Flag (Write Protect)
* | | |This bit is set by hardware when a triggered ISP meets any of the following conditions:
* | | |This bit needs to be cleared by writing 1 to it.
* | | |(1) APROM writes to itself if APUEN is set to 0.
* | | |(2) LDROM writes to itself if LDUEN is set to 0.
* | | |(3) CONFIG is erased/programmed if CFGUEN is set to 0.
* | | |(4) Page Erase command at LOCK mode with ICE connection
* | | |(5) Erase or Program command at brown-out detected
* | | |(6) Destination address is illegal, such as over an available range.
* | | |(7) Invalid ISP commands
* | | |(8) KPROM is erased/programmed if KEYLOCK is set to 1
* | | |(9) APROM is erased/programmed if KEYLOCK is set to 1
* | | |(10) LDROM is erased/programmed if KEYLOCK is set to 1
* | | |(11) CONFIG is erased/programmed if KEYLOCK is set to 1 and KEYENROM[0] is 0
* | | |(12) Read any content of boot loader with ICE connection
* | | |(13) The address of block erase and bank erase is not in APROM
* | | |(14) ISP CMD in XOM region, except mass erase, page erase and chksum command
* | | |(15) The wrong setting of page erase ISP CMD in XOM
* | | |(16) Violate XOM setting one time protection
* | | |(17) Page erase ISP CMD in Secure/Non-secure region setting page
* | | |(18) Mass erase when MERASE (CFG0[13]) is disable
* | | |(19) Page erase, mass erase , multi-word program or 64-bit word program in OTP
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[16] |BL |Boot Loader Booting (Write Protect)
* | | |This bit is initiated with the inverses value of MBS (CONFIG0[5])
* | | |Any reset, except CPU reset (CPU is 1) or system reset (SYS), BL will be reloaded
* | | |This bit is used to check chip boot from Boot Loader or not
* | | |User should keep original value of this bit when updating FMC_ISPCTL register.
* | | |0 = Booting from APROM or LDROM.
* | | |1 = Booting from Boot Loader.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[24] |INTEN |Interrupt Enable (Write Protect)
* | | |0 = ISP INT Disabled.
* | | |1 = ISP INT Enabled.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register. Before use INT, user need to clear the INTFLAG(FMC_ISPSTS[24]) make sure INT happen at correct time.
* @var FMC_T::ISPADDR
* Offset: 0x04 ISP Address Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |ISPADDR |ISP Address
* | | |The NuMicro M2351 series is equipped with embedded flash
* | | |ISPADDR[1:0] must be kept 00 for ISP 32-bit operation
* | | |ISPADDR[2:0] must be kept 000 for ISP 64-bit operation.
* | | |For CRC32 Checksum Calculation command, this field is the flash starting address for checksum calculation, 2 KBytes alignment is necessary for CRC32 checksum calculation.
* | | |For FLASH 32-bit Program, ISP address needs word alignment (4-byte)
* | | |For FLASH 64-bit Program, ISP address needs double word alignment (8-byte).
* @var FMC_T::ISPDAT
* Offset: 0x08 ISP Data Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |ISPDAT |ISP Data
* | | |Write data to this register before ISP program operation.
* | | |Read data from this register after ISP read operation.
* | | |When ISPFF (FMC_ISPCTL[6]) is 1, ISPDAT = 0xffff_ffff
* | | |For Run CRC32 Checksum Calculation command, ISPDAT is the memory size (byte) and 2 KBytes alignment
* | | |For ISP Read CRC32 Checksum command, ISPDAT is the checksum result
* | | |If ISPDAT = 0x0000_0000, it means that (1) the checksum calculation is in progress, or (2) the memory range for checksum calculation is incorrect
* | | |For XOM page erase function, , ISPDAT = 0x0055_aa03.
* @var FMC_T::ISPCMD
* Offset: 0x0C ISP Command Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[6:0] |CMD |ISP Command
* | | |ISP command table is shown below:
* | | |0x00= FLASH Read.
* | | |0x04= Read Unique ID.
* | | |0x08= Read Flash All-One Result.
* | | |0x0B= Read Company ID.
* | | |0x0C= Read Device ID.
* | | |0x0D= Read Checksum.
* | | |0x21= FLASH 32-bit Program.
* | | |0x22= FLASH Page Erase. Erase any page in two banks, except for OTP.
* | | |0x23= FLASH Bank Erase. Erase all pages of APROM in BANK0 or BANK1.
* | | |0x25= FLASH Block Erase Erase four pages alignment of APROM in BANK0 or BANK1..
* | | |0x27= FLASH Multi-Word Program.
* | | |0x28= Run Flash All-One Verification.
* | | |0x2D= Run Checksum Calculation.
* | | |0x2E= Vector Remap.
* | | |0x40= FLASH 64-bit Read.
* | | |0x61= FLASH 64-bit Program.
* | | |The other commands are invalid.
* @var FMC_T::ISPTRG
* Offset: 0x10 ISP Trigger Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ISPGO |ISP Start Trigger (Write Protect)
* | | |Write 1 to start ISP operation and this bit will be cleared to 0 by hardware automatically when ISP operation is finished
* | | |When ISPGO=1, the operation of accessing value from address FMC_BA+0x00 to FMC_BA+0x68 would halt CPU still ISPGO =0
* | | |If user want to monitor whether ISP finish or not,user can access FMC_MPSTS[0] MPBUSY.
* | | |0 = ISP operation is finished.
* | | |1 = ISP is progressed.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* @var FMC_T::ISPSTS
* Offset: 0x40 ISP Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |ISPBUSY |ISP Busy Flag (Read Only)
* | | |Write 1 to start ISP operation and this bit will be cleared to 0 by hardware automatically when ISP operation is finished.
* | | |This bit is the mirror of ISPGO(FMC_ISPTRG[0]).
* | | |0 = ISP operation is finished.
* | | |1 = ISP is progressed.
* |[2] |CBS |Boot Selection of CONFIG (Read Only)
* | | |This bit is initiated with the CBS (CONFIG0[7]) after any reset is happened except CPU reset (CPU is 1) or system reset (SYS) is happened.
* | | |The following function is valid when MBS (FMC_ISPSTS[3])= 1.
* | | |0 = LDROM with IAP mode.
* | | |1 = APROM with IAP mode.
* |[3] |MBS |Boot From Boot Loader Selection Flag (Read Only)
* | | |This bit is initiated with the MBS (CONFIG0[5]) after any reset is happened except CPU reset (CPU is 1) or system reset (SYS) is happened
* | | |0 = Booting from Boot Loader.
* | | |1 = Booting from LDROM/APROM.(.see CBS bit setting)
* |[4] |FCYCDIS |Flash Access Cycle Auto-tuning Disabled Flag (Read Only)
* | | |This bit is set if flash access cycle auto-tuning function is disabled
* | | |The auto-tuning function is disabled by FADIS(FMC_CYCCTL[8]) or HIRC clock is not ready.
* | | |0 = Flash access cycle auto-tuning is Enabled.
* | | |1 = Flash access cycle auto-tuning is Disabled.
* |[5] |PGFF |Flash Program with Fast Verification Flag (Read Only)
* | | |This bit is set if data is mismatched at ISP programming verification
* | | |This bit is clear by performing ISP flash erase or ISP read CID operation
* | | |0 = Flash Program is success.
* | | |1 = Flash Program is fail. Program data is different with data in the flash memory
* |[6] |ISPFF |ISP Fail Flag (Write Protect)
* | | |This bit is the mirror of ISPFF (FMC_ISPCTL[6]), it needs to be cleared by writing 1 to FMC_ISPCTL[6] or FMC_ISPSTS[6] if this bit is set.
* | | |This bit is set by hardware when a triggered ISP meets any of the following conditions:
* | | |(1) APROM writes to itself if APUEN is set to 0.
* | | |(2) LDROM writes to itself if LDUEN is set to 0.
* | | |(3) CONFIG is erased/programmed if CFGUEN is set to 0.
* | | |(4) Page Erase command at LOCK mode with ICE connection
* | | |(5) Erase or Program command at brown-out detected
* | | |(6) Destination address is illegal, such as over an available range.
* | | |(7) Invalid ISP commands
* | | |(8) KPROM is erased/programmed if KEYLOCK is set to 1
* | | |(9) APROM is erased/programmed if KEYLOCK is set to 1
* | | |(10) LDROM is erased/programmed if KEYLOCK is set to 1
* | | |(11) CONFIG is erased/programmed if KEYLOCK is set to 1 and KEYENROM[0] is 0.
* | | |(12) Read any content of boot loader with ICE connection
* | | |(13) The address of block erase and bank erase is not in APROM
* | | |(14) ISP CMD in XOM region, except mass erase, page erase and chksum command
* | | |(15) The wrong setting of page erase ISP CMD in XOM
* | | |(16) Violate XOM setting one time protection
* | | |(17) Page erase ISP CMD in Secure/Non-secure region setting page
* | | |(18) Mass erase when MERASE (CFG0[13]) is disable
* | | |(19) Page erase, mass erase , multi-word program or 64-bit word program in OTP
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[7] |ALLONE |Flash All-one Verification Flag
* | | |This bit is set by hardware if all of flash bits are 1, and clear if flash bits are not all 1 after Run Flash All-One Verification complete; this bit also can be clear by writing 1
* | | |0 = All of flash bits are 1 after Run Flash All-One Verification complete.
* | | |1 = Flash bits are not all 1 after Run Flash All-One Verification complete.
* |[23:9] |VECMAP |Vector Page Mapping Address (Read Only)
* | | |All access to 0x0000_0000~0x0000_01FF is remapped to the flash memory address {VECMAP[14:0], 9'h000} ~ {VECMAP[14:0], 9'h1FF}
* |[24] |INTFLAG |Interrupt Flag
* | | |0 = ISP is not finish.
* | | |1 = ISP done or ISPFF set.
* @var FMC_T::CYCCTL
* Offset: 0x4C Flash Access Cycle Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |CYCLE |Flash Access Cycle Control (Write Protect)
* | | |This register is updated automatically by hardware while FCYCDIS (FMC_ISPSTS[4]) is 0, and updated by software while auto-tuning function disabled ( FADIS (FMC_CYCTL[8]) is 1)
* | | |0000 = CPU access with zero wait cycle ; flash access cycle is 1;.
* | | |The HCLK working frequency range is <27MHz; Cache is disabled by hardware.
* | | |0001 = CPU access with one wait cycle if cache miss; flash access cycle is 1;.
* | | |The HCLK working frequency range range is<27MHz
* | | |0010 = CPU access with two wait cycles if cache miss; flash access cycle is 2;.
* | | | The optimized HCLK working frequency range is 27~54 MHz
* | | |0011 = CPU access with three wait cycles if cache miss; flash access cycle is 3;.
* | | |The optimized HCLK working frequency range is 54~81MHz
* | | |0100 = CPU access with four wait cycles if cache miss; flash access cycle is 4;.
* | | | The optimized HCLK working frequency range is81~108MHz
* | | |0101 = CPU access with five wait cycles if cache miss; flash access cycle is 5;.
* | | |The optimized HCLK working frequency range is 108~135MHz
* | | |0110 = CPU access with six wait cycles if cache miss; flash access cycle is 6;.
* | | | The optimized HCLK working frequency range is 135~162MHz
* | | |0111 = CPU access with seven wait cycles if cache miss; flash access cycle is 7;.
* | | | The optimized HCLK working frequency range is 162~192MHz
* | | |1000 = CPU access with eight wait cycles if cache miss; flash access cycle is 8;.
* | | |The optimized HCLK working frequency range is >192MHz
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* |[8] |FADIS |Flash Access Cycle Auto-tuning Disabled Control (Write Protect)
* | | |Set this bit to disable flash access cycle auto-tuning function
* | | |0 = Flash access cycle auto-tuning is enabled.
* | | |1 = Flash access cycle auto-tuning is disabled.
* | | |Note: This bit is write protected. Refer to the SYS_REGLCTL register.
* @var FMC_T::KPKEY0
* Offset: 0x50 KPROM KEY0 Data Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |KPKEY0 |KPROM KEY0 Data (Write Only)
* | | |Write KPKEY0 data to this register before KEY Comparison operation.
* @var FMC_T::KPKEY1
* Offset: 0x54 KPROM KEY1 Data Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |KPKEY1 |KPROM KEY1 Data (Write Only)
* | | |Write KPKEY1 data to this register before KEY Comparison operation.
* @var FMC_T::KPKEY2
* Offset: 0x58 KPROM KEY2 Data Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |KPKEY2 |KPROM KEY2 Data (Write Only)
* | | |Write KPKEY2 data to this register before KEY Comparison operation.
* @var FMC_T::KPKEYTRG
* Offset: 0x5C KPROM KEY Comparison Trigger Control Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |KPKEYGO |KPROM KEY Comparison Start Trigger (Write Protection)
* | | |Write 1 to start KEY comparison operation and this bit will be cleared to 0 by hardware automatically when KEY comparison operation is finished
* | | |This trigger operation is valid while FORBID (FMC_KPKEYSTS [3]) is 0.
* | | |0 = KEY comparison operation is finished.
* | | |1 = KEY comparison is progressed.
* | | |Note: This bit is write-protected. Refer to the SYS_REGLCTL register.
* |[1] |TCEN |Timeout Counting Enable (Write Protection)
* | | |0 = Timeout counting is disabled.
* | | |1 = Timeout counting is enabled if input key is matched after key comparison finish.
* | | |10 minutes is at least for timeout, and average is about 20 minutes.
* | | |Note: This bit is write-protected. Refer to the SYS_REGLCTL register.
* @var FMC_T::KPKEYSTS
* Offset: 0x60 KPROM KEY Comparison Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |KEYBUSY |KEY Comparison Busy (Read Only)
* | | |0 = KEY comparison is finished.
* | | |1 = KEY comparison is busy.
* |[1] |KEYLOCK |KEY LOCK Flag
* | | |This bit is set to 1 if KEYMATCH (FMC_KPKEYSTS [2]) is 0 and cleared to 0 if KEYMATCH is 1 in Security Key protection
* | | |After Mass Erase operation, users must reset or power on /off to clear this bit to 0
* | | |This bit also can be set to 1 while
* | | |l CPU write 1 to KEYLOCK(FMC_KPKEYSTS[1]) or
* | | |l KEYFLAG(FMC_KPKEYSTS[4]) is 1 at power-on or reset or
* | | |l KEYENROM is programmed a non-0x5a value or
* | | |l Timeout event or
* | | |l FORBID(FMC_KPKEYSTS[3]) is 1
* | | |0 = KPROM, LDROM and APROM (not include Data Flash) is not in write protection.
* | | |1 = KPROM, LDROM and APROM (not include Data Flash) is in write protection.
* | | |CONFIG write protect is depended on CFGFLAG
* |[2] |KEYMATCH |KEY Match Flag (Read Only)
* | | |This bit is set to 1 after KEY comparison complete if the KEY0, KEY1 and KEY2 are matched with the 96-bit security keys in KPROM; and cleared to 0 if KEYs are unmatched
* | | |This bit is also cleared to 0 while
* | | |l CPU writing 1 to KEYLOCK(FMC_KPKEYSTS[1]) or
* | | |l Timeout event or
* | | |l KPROM is erased or
* | | |l KEYENROM is programmed to a non-0x5a value.
* | | |l Chip is in power down mode.
* | | |0 = KEY0, KEY1, and KEY2 are unmatched with the KPROM setting.
* | | |1 = KEY0, KEY1, and KEY2 are matched with the KPROM setting.
* |[3] |FORBID |KEY Comparison Forbidden Flag (Read Only)
* | | |This bit is set to 1 when KPKECNT(FMC_KPKEY0[4:0]) is more than KPKEMAX (FMC_KPKEY0[12:8]) or KPCNT (FMC_KPCNT [2:0]) is more than KPMAX (FMC_KPCNT [10:8]).
* | | |0 = KEY comparison is not forbidden.
* | | |1 = KEY comparison is forbidden, KEYGO (FMC_KEYTRG [0]) cannot trigger.
* |[4] |KEYFLAG |KEY Protection Enabled Flag (Read Only)
* | | |This bit is set while the KEYENROM [7:0] is not 0x5a at power-on or reset
* | | |This bit is cleared to 0 by hardware while KPROM is erased
* | | |This bit is set to 1 by hardware while KEYENROM is programmed to a non-0x5a value.
* | | |0 = Security Key protection is disabled.
* | | |1 = Security Key protection is enabled.
* |[5] |CFGFLAG |CONFIG Write-protection Enabled Flag (Read Only)
* | | |This bit is set while the KEYENROM [0] is 0 at power-on or reset
* | | |This bit is cleared to 0 by hardware while KPROM is erased
* | | |This bit is set to 1 by hardware while KEYENROM[0] is programmed to 0.
* | | |0 = CONFIG write-protection is disabled.
* | | |1 = CONFIG write-protection is enabled.
* |[8] |SBKPBUSY |Secure Boot Key Programming BUSY (Read Only)
* | | |This bit is set to 1 while secure boot key program function is running
* | | |This bit is cleared to 0 while secure boot key key program function had been done.
* | | |0 = Secure boot key program function is done.
* | | |1 = Secure boot key program function is busy.
* |[9] |SBKPFLAG |Secure Boot Key Programming Flag (Read Only)
* | | |This bit is set to 1 while secure boot key program function fails
* | | |This bit is cleared to 0 while secure boot key had been programmed into flash memory.
* | | |0 = Secure boot key program function is successful.
* | | |1 = Secure boot key program function fails.
* @var FMC_T::KPKEYCNT
* Offset: 0x64 KPROM KEY-Unmatched Counting Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[5:0] |KPKECNT |Error Key Entry Counter at Each Power-on (Read Only)
* | | |KPKECNT is increased when entry keys is wrong in Security Key protection
* | | |KPKECNT is cleared to 0 if key comparison is matched or system power-on.
* |[13:8] |KPKEMAX |Maximum Number for Error Key Entry at Each Power-on (Read Only)
* | | |KPKEMAX is the maximum error key entry number at each power-on
* | | |When KPKEMAXROM of KPROM is erased or programmed, KPKEMAX will also be updated
* | | |KPKEMAX is used to limit KPKECNT(FMC_KPKEY0[5:0]) maximum counting
* | | |The FORBID (FMC_KPKEYSTS [3]) will be set to 1 when KPKECNT is more than KPKEMAX.
* @var FMC_T::KPCNT
* Offset: 0x68 KPROM KEY-Unmatched Power-On Counting Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[3:0] |KPCNT |Power-on Counter for Error Key Entry(Read Only)
* | | |KPCNT is the power-on counting for error key entry in Security Key protection
* | | |KPCNT is cleared to 0 if key comparison is matched.
* |[11:8] |KPMAX |Power-on Maximum Number for Error Key Entry (Read Only)
* | | |KPMAX is the power-on maximum number for error key entry
* | | |When KPMAXROM of KPROM is erased or programmed, KPMAX will also be updated
* | | |KPMAX is used to limit KPCNT (FMC_KPCNT [3:0]) maximum counting
* | | |The FORBID(FMC_KPKEYSTS[3]) will be set to 1 when KPCNT is more than KPMAX
* @var FMC_T::MPDAT0
* Offset: 0x80 ISP Data0 Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |ISPDAT0 |ISP Data 0
* | | |This register is the first 32-bit data for 32-bit/64-bit/multi-word programming, and it is also the mirror of FMC_ISPDAT, both registers keep the same data
* @var FMC_T::MPDAT1
* Offset: 0x84 ISP Data1 Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |ISPDAT1 |ISP Data 1
* | | |This register is the second 32-bit data for 64-bit/multi-word programming.
* @var FMC_T::MPDAT2
* Offset: 0x88 ISP Data2 Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |ISPDAT2 |ISP Data 2
* | | |This register is the third 32-bit data for multi-word programming.
* @var FMC_T::MPDAT3
* Offset: 0x8C ISP Data3 Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |ISPDAT3 |ISP Data 3
* | | |This register is the fourth 32-bit data for multi-word programming.
* @var FMC_T::MPSTS
* Offset: 0xC0 ISP Multi-Program Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |MPBUSY |ISP Multi-word Program Busy Flag (Read Only)
* | | |Write 1 to start ISP Multi-Word program operation and this bit will be cleared to 0 by hardware automatically when ISP Multi-Word program operation is finished.
* | | |This bit is the mirror of ISPGO(FMC_ISPTRG[0]).
* | | |0 = ISP Multi-Word program operation is finished.
* | | |1 = ISP Multi-Word program operation is progressed.
* |[1] |PPGO |ISP Multi-program Status (Read Only)
* | | |0 = ISP multi-word program operation is not active.
* | | |1 = ISP multi-word program operation is in progress.
* |[2] |ISPFF |ISP Fail Flag (Read Only)
* | | |This bit is the mirror of ISPFF (FMC_ISPCTL[6]), it needs to be cleared by writing 1 to FMC_ISPCTL[6] or FMC_ISPSTS[6]
* | | |This bit is set by hardware when a triggered ISP meets any of the following conditions:
* | | |(1) APROM writes to itself if APUEN is set to 0.
* | | |(2) LDROM writes to itself if LDUEN is set to 0.
* | | |(3) CONFIG is erased/programmed if CFGUEN is set to 0.
* | | |(4) Page Erase command at LOCK mode with ICE connection
* | | |(5) Erase or Program command at brown-out detected
* | | |(6) Destination address is illegal, such as over an available range.
* | | |(7) Invalid ISP commands
* |[4] |D0 |ISP DATA 0 Flag (Read Only)
* | | |This bit is set when FMC_MPDAT0 is written and auto-clear to 0 when the FMC_MPDAT0 data is programmed to flash complete.
* | | |0 = FMC_MPDAT0 register is empty, or program to flash complete.
* | | |1 = FMC_MPDAT0 register has been written, and not program to flash complete.
* |[5] |D1 |ISP DATA 1 Flag (Read Only)
* | | |This bit is set when FMC_MPDAT1 is written and auto-clear to 0 when the FMC_MPDAT1 data is programmed to flash complete.
* | | |0 = FMC_MPDAT1 register is empty, or program to flash complete.
* | | |1 = FMC_MPDAT1 register has been written, and not program to flash complete.
* |[6] |D2 |ISP DATA 2 Flag (Read Only)
* | | |This bit is set when FMC_MPDAT2 is written and auto-clear to 0 when the FMC_MPDAT2 data is programmed to flash complete.
* | | |0 = FMC_MPDAT2 register is empty, or program to flash complete.
* | | |1 = FMC_MPDAT2 register has been written, and not program to flash complete.
* |[7] |D3 |ISP DATA 3 Flag (Read Only)
* | | |This bit is set when FMC_MPDAT3 is written and auto-clear to 0 when the FMC_MPDAT3 data is programmed to flash complete.
* | | |0 = FMC_MPDAT3 register is empty, or program to flash complete.
* | | |1 = FMC_MPDAT3 register has been written, and not program to flash complete.
* @var FMC_T::MPADDR
* Offset: 0xC4 ISP Multi-Program Address Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[31:0] |MPADDR |ISP Multi-word Program Address
* | | |MPADDR is the address of ISP multi-word program operation when ISPGO flag is 1.
* | | |MPADDR will keep the final ISP address when ISP multi-word program is complete.
* @var FMC_T::XOMR0STS
* Offset: 0xD0 XOM Region 0 Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[7:0] |SIZE |XOM Region 0 Size (Page-aligned)
* | | |SIZE is the page number of XOM Region 0.
* |[31:8] |BASE |XOM Region 0 Base Address (Page-aligned)
* | | |BASE is the base address of XOM Region 0.
* @var FMC_T::XOMR1STS
* Offset: 0xD4 XOM Region 1 Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[7:0] |SIZE |XOM Region 1 Size (Page-aligned)
* | | |SIZE is the page number of XOM Region 1.
* |[31:8] |BASE |XOM Region 1 Base Address (Page-aligned)
* | | |BASE is the base address of XOM Region 1.
* @var FMC_T::XOMR2STS
* Offset: 0xD8 XOM Region 2 Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[7:0] |SIZE |XOM Region 2 Size (Page-aligned)
* | | |SIZE is the page number of XOM Region 2.
* |[31:8] |BASE |XOM Region 2 Base Address (Page-aligned)
* | | |BASE is the base address of XOM Region 2.
* @var FMC_T::XOMR3STS
* Offset: 0xDC XOM Region 3 Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[7:0] |SIZE |XOM Region 3 Size (Page-aligned)
* | | |SIZE is the page number of XOM Region 3.
* |[31:8] |BASE |XOM Region 3 Base Address (Page-aligned)
* | | |BASE is the base address of XOM Region 3.
* @var FMC_T::XOMSTS
* Offset: 0xE0 XOM Status Register
* ---------------------------------------------------------------------------------------------------
* |Bits |Field |Descriptions
* | :----: | :----: | :---- |
* |[0] |XOMR0ON |XOM Region 0 On
* | | |XOM Region 0 active status.
* | | |0 = No active.
* | | |1 = XOM region 0 is active.
* |[1] |XOMR1ON |XOM Region 1 On
* | | |XOM Region 1 active status.
* | | |0 = No active.
* | | |1 = XOM region 1 is active.
* |[2] |XOMR2ON |XOM Region 2 On
* | | |XOM Region 2 active status.
* | | |0 = No active.
* | | |1 = XOM region 2 is active.
* |[3] |XOMR3ON |XOM Region 3 On
* | | |XOM Region 3 active status.
* | | |0 = No active.
* | | |1 = XOM region 3 is active.
* |[4] |XOMPEF |XOM Page Erase Function Fail
* | | |XOM page erase function status. If XOMPEF is set to 1, user needs to erase XOM region again.
* | | |0 = Success.
* | | |1 = Fail.
*/
__IO uint32_t ISPCTL; /*!< [0x0000] ISP Control Register */
__IO uint32_t ISPADDR; /*!< [0x0004] ISP Address Register */
__IO uint32_t ISPDAT; /*!< [0x0008] ISP Data Register */
__IO uint32_t ISPCMD; /*!< [0x000c] ISP Command Register */
__IO uint32_t ISPTRG; /*!< [0x0010] ISP Trigger Control Register */
__I uint32_t RESERVE0[11];
__IO uint32_t ISPSTS; /*!< [0x0040] ISP Status Register */
__I uint32_t RESERVE1[2];
__IO uint32_t CYCCTL; /*!< [0x004c] Flash Access Cycle Control Register */
__O uint32_t KPKEY0; /*!< [0x0050] KPROM KEY0 Data Register */
__O uint32_t KPKEY1; /*!< [0x0054] KPROM KEY1 Data Register */
__O uint32_t KPKEY2; /*!< [0x0058] KPROM KEY2 Data Register */
__IO uint32_t KPKEYTRG; /*!< [0x005c] KPROM KEY Comparison Trigger Control Register */
__IO uint32_t KPKEYSTS; /*!< [0x0060] KPROM KEY Comparison Status Register */
__I uint32_t KPKEYCNT; /*!< [0x0064] KPROM KEY-Unmatched Counting Register */
__I uint32_t KPCNT; /*!< [0x0068] KPROM KEY-Unmatched Power-On Counting Register */
__I uint32_t RESERVE2[5];
__IO uint32_t MPDAT0; /*!< [0x0080] ISP Data0 Register */
__IO uint32_t MPDAT1; /*!< [0x0084] ISP Data1 Register */
__IO uint32_t MPDAT2; /*!< [0x0088] ISP Data2 Register */
__IO uint32_t MPDAT3; /*!< [0x008c] ISP Data3 Register */
__I uint32_t RESERVE3[12];
__I uint32_t MPSTS; /*!< [0x00c0] ISP Multi-Program Status Register */
__I uint32_t MPADDR; /*!< [0x00c4] ISP Multi-Program Address Register */
__I uint32_t RESERVE4[2];
__I uint32_t XOMR0STS; /*!< [0x00d0] XOM Region 0 Status Register */
__I uint32_t XOMR1STS; /*!< [0x00d4] XOM Region 1 Status Register */
__I uint32_t XOMR2STS; /*!< [0x00d8] XOM Region 2 Status Register */
__I uint32_t XOMR3STS; /*!< [0x00dc] XOM Region 3 Status Register */
__I uint32_t XOMSTS; /*!< [0x00e0] XOM Status Register */
} FMC_T;
/**
@addtogroup FMC_CONST FMC Bit Field Definition
Constant Definitions for FMC Controller
@{ */
#define FMC_ISPCTL_ISPEN_Pos (0) /*!< FMC_T::ISPCTL: ISPEN Position */
#define FMC_ISPCTL_ISPEN_Msk (0x1ul << FMC_ISPCTL_ISPEN_Pos) /*!< FMC_T::ISPCTL: ISPEN Mask */
#define FMC_ISPCTL_BS_Pos (1) /*!< FMC_T::ISPCTL: BS Position */
#define FMC_ISPCTL_BS_Msk (0x1ul << FMC_ISPCTL_BS_Pos) /*!< FMC_T::ISPCTL: BS Mask */
#define FMC_ISPCTL_APUEN_Pos (3) /*!< FMC_T::ISPCTL: APUEN Position */
#define FMC_ISPCTL_APUEN_Msk (0x1ul << FMC_ISPCTL_APUEN_Pos) /*!< FMC_T::ISPCTL: APUEN Mask */
#define FMC_ISPCTL_CFGUEN_Pos (4) /*!< FMC_T::ISPCTL: CFGUEN Position */
#define FMC_ISPCTL_CFGUEN_Msk (0x1ul << FMC_ISPCTL_CFGUEN_Pos) /*!< FMC_T::ISPCTL: CFGUEN Mask */
#define FMC_ISPCTL_LDUEN_Pos (5) /*!< FMC_T::ISPCTL: LDUEN Position */
#define FMC_ISPCTL_LDUEN_Msk (0x1ul << FMC_ISPCTL_LDUEN_Pos) /*!< FMC_T::ISPCTL: LDUEN Mask */
#define FMC_ISPCTL_ISPFF_Pos (6) /*!< FMC_T::ISPCTL: ISPFF Position */
#define FMC_ISPCTL_ISPFF_Msk (0x1ul << FMC_ISPCTL_ISPFF_Pos) /*!< FMC_T::ISPCTL: ISPFF Mask */
#define FMC_ISPCTL_BL_Pos (16) /*!< FMC_T::ISPCTL: BL Position */
#define FMC_ISPCTL_BL_Msk (0x1ul << FMC_ISPCTL_BL_Pos) /*!< FMC_T::ISPCTL: BL Mask */
#define FMC_ISPCTL_INTEN_Pos (24) /*!< FMC_T::ISPCTL: INTEN Position */
#define FMC_ISPCTL_INTEN_Msk (0x1ul << FMC_ISPCTL_INTEN_Pos) /*!< FMC_T::ISPCTL: INTEN Mask */
#define FMC_ISPADDR_ISPADDR_Pos (0) /*!< FMC_T::ISPADDR: ISPADDR Position */
#define FMC_ISPADDR_ISPADDR_Msk (0xfffffffful << FMC_ISPADDR_ISPADDR_Pos) /*!< FMC_T::ISPADDR: ISPADDR Mask */
#define FMC_ISPDAT_ISPDAT_Pos (0) /*!< FMC_T::ISPDAT: ISPDAT Position */
#define FMC_ISPDAT_ISPDAT_Msk (0xfffffffful << FMC_ISPDAT_ISPDAT_Pos) /*!< FMC_T::ISPDAT: ISPDAT Mask */
#define FMC_ISPCMD_CMD_Pos (0) /*!< FMC_T::ISPCMD: CMD Position */
#define FMC_ISPCMD_CMD_Msk (0x7ful << FMC_ISPCMD_CMD_Pos) /*!< FMC_T::ISPCMD: CMD Mask */
#define FMC_ISPTRG_ISPGO_Pos (0) /*!< FMC_T::ISPTRG: ISPGO Position */
#define FMC_ISPTRG_ISPGO_Msk (0x1ul << FMC_ISPTRG_ISPGO_Pos) /*!< FMC_T::ISPTRG: ISPGO Mask */
#define FMC_ISPSTS_ISPBUSY_Pos (0) /*!< FMC_T::ISPSTS: ISPBUSY Position */
#define FMC_ISPSTS_ISPBUSY_Msk (0x1ul << FMC_ISPSTS_ISPBUSY_Pos) /*!< FMC_T::ISPSTS: ISPBUSY Mask */
#define FMC_ISPSTS_CBS_Pos (2) /*!< FMC_T::ISPSTS: CBS Position */
#define FMC_ISPSTS_CBS_Msk (0x1ul << FMC_ISPSTS_CBS_Pos) /*!< FMC_T::ISPSTS: CBS Mask */
#define FMC_ISPSTS_MBS_Pos (3) /*!< FMC_T::ISPSTS: MBS Position */
#define FMC_ISPSTS_MBS_Msk (0x1ul << FMC_ISPSTS_MBS_Pos) /*!< FMC_T::ISPSTS: MBS Mask */
#define FMC_ISPSTS_FCYCDIS_Pos (4) /*!< FMC_T::ISPSTS: FCYCDIS Position */
#define FMC_ISPSTS_FCYCDIS_Msk (0x1ul << FMC_ISPSTS_FCYCDIS_Pos) /*!< FMC_T::ISPSTS: FCYCDIS Mask */
#define FMC_ISPSTS_PGFF_Pos (5) /*!< FMC_T::ISPSTS: PGFF Position */
#define FMC_ISPSTS_PGFF_Msk (0x1ul << FMC_ISPSTS_PGFF_Pos) /*!< FMC_T::ISPSTS: PGFF Mask */
#define FMC_ISPSTS_ISPFF_Pos (6) /*!< FMC_T::ISPSTS: ISPFF Position */
#define FMC_ISPSTS_ISPFF_Msk (0x1ul << FMC_ISPSTS_ISPFF_Pos) /*!< FMC_T::ISPSTS: ISPFF Mask */
#define FMC_ISPSTS_ALLONE_Pos (7) /*!< FMC_T::ISPSTS: ALLONE Position */
#define FMC_ISPSTS_ALLONE_Msk (0x1ul << FMC_ISPSTS_ALLONE_Pos) /*!< FMC_T::ISPSTS: ALLONE Mask */
#define FMC_ISPSTS_VECMAP_Pos (9) /*!< FMC_T::ISPSTS: VECMAP Position */
#define FMC_ISPSTS_VECMAP_Msk (0x7ffful << FMC_ISPSTS_VECMAP_Pos) /*!< FMC_T::ISPSTS: VECMAP Mask */
#define FMC_ISPSTS_INTFLAG_Pos (24) /*!< FMC_T::ISPSTS: INTFLAG Position */
#define FMC_ISPSTS_INTFLAG_Msk (0x1ul << FMC_ISPSTS_INTFLAG_Pos) /*!< FMC_T::ISPSTS: INTFLAG Mask */
#define FMC_CYCCTL_CYCLE_Pos (0) /*!< FMC_T::CYCCTL: CYCLE Position */
#define FMC_CYCCTL_CYCLE_Msk (0xful << FMC_CYCCTL_CYCLE_Pos) /*!< FMC_T::CYCCTL: CYCLE Mask */
#define FMC_CYCCTL_FADIS_Pos (8) /*!< FMC_T::CYCCTL: FADIS Position */
#define FMC_CYCCTL_FADIS_Msk (0x1ul << FMC_CYCCTL_FADIS_Pos) /*!< FMC_T::CYCCTL: FADIS Mask */
#define FMC_KPKEY0_KPKEY0_Pos (0) /*!< FMC_T::KPKEY0: KPKEY0 Position */
#define FMC_KPKEY0_KPKEY0_Msk (0xfffffffful << FMC_KPKEY0_KPKEY0_Pos) /*!< FMC_T::KPKEY0: KPKEY0 Mask */
#define FMC_KPKEY1_KPKEY1_Pos (0) /*!< FMC_T::KPKEY1: KPKEY1 Position */
#define FMC_KPKEY1_KPKEY1_Msk (0xfffffffful << FMC_KPKEY1_KPKEY1_Pos) /*!< FMC_T::KPKEY1: KPKEY1 Mask */
#define FMC_KPKEY2_KPKEY2_Pos (0) /*!< FMC_T::KPKEY2: KPKEY2 Position */
#define FMC_KPKEY2_KPKEY2_Msk (0xfffffffful << FMC_KPKEY2_KPKEY2_Pos) /*!< FMC_T::KPKEY2: KPKEY2 Mask */
#define FMC_KPKEYTRG_KPKEYGO_Pos (0) /*!< FMC_T::KPKEYTRG: KPKEYGO Position */
#define FMC_KPKEYTRG_KPKEYGO_Msk (0x1ul << FMC_KPKEYTRG_KPKEYGO_Pos) /*!< FMC_T::KPKEYTRG: KPKEYGO Mask */
#define FMC_KPKEYTRG_TCEN_Pos (1) /*!< FMC_T::KPKEYTRG: TCEN Position */
#define FMC_KPKEYTRG_TCEN_Msk (0x1ul << FMC_KPKEYTRG_TCEN_Pos) /*!< FMC_T::KPKEYTRG: TCEN Mask */
#define FMC_KPKEYSTS_KEYBUSY_Pos (0) /*!< FMC_T::KPKEYSTS: KEYBUSY Position */
#define FMC_KPKEYSTS_KEYBUSY_Msk (0x1ul << FMC_KPKEYSTS_KEYBUSY_Pos) /*!< FMC_T::KPKEYSTS: KEYBUSY Mask */
#define FMC_KPKEYSTS_KEYLOCK_Pos (1) /*!< FMC_T::KPKEYSTS: KEYLOCK Position */
#define FMC_KPKEYSTS_KEYLOCK_Msk (0x1ul << FMC_KPKEYSTS_KEYLOCK_Pos) /*!< FMC_T::KPKEYSTS: KEYLOCK Mask */
#define FMC_KPKEYSTS_KEYMATCH_Pos (2) /*!< FMC_T::KPKEYSTS: KEYMATCH Position */
#define FMC_KPKEYSTS_KEYMATCH_Msk (0x1ul << FMC_KPKEYSTS_KEYMATCH_Pos) /*!< FMC_T::KPKEYSTS: KEYMATCH Mask */
#define FMC_KPKEYSTS_FORBID_Pos (3) /*!< FMC_T::KPKEYSTS: FORBID Position */
#define FMC_KPKEYSTS_FORBID_Msk (0x1ul << FMC_KPKEYSTS_FORBID_Pos) /*!< FMC_T::KPKEYSTS: FORBID Mask */
#define FMC_KPKEYSTS_KEYFLAG_Pos (4) /*!< FMC_T::KPKEYSTS: KEYFLAG Position */
#define FMC_KPKEYSTS_KEYFLAG_Msk (0x1ul << FMC_KPKEYSTS_KEYFLAG_Pos) /*!< FMC_T::KPKEYSTS: KEYFLAG Mask */
#define FMC_KPKEYSTS_CFGFLAG_Pos (5) /*!< FMC_T::KPKEYSTS: CFGFLAG Position */
#define FMC_KPKEYSTS_CFGFLAG_Msk (0x1ul << FMC_KPKEYSTS_CFGFLAG_Pos) /*!< FMC_T::KPKEYSTS: CFGFLAG Mask */
#define FMC_KPKEYSTS_SBKPBUSY_Pos (8) /*!< FMC_T::KPKEYSTS: SBKPBUSY Position */
#define FMC_KPKEYSTS_SBKPBUSY_Msk (0x1ul << FMC_KPKEYSTS_SBKPBUSY_Pos) /*!< FMC_T::KPKEYSTS: SBKPBUSY Mask */
#define FMC_KPKEYSTS_SBKPFLAG_Pos (9) /*!< FMC_T::KPKEYSTS: SBKPFLAG Position */
#define FMC_KPKEYSTS_SBKPFLAG_Msk (0x1ul << FMC_KPKEYSTS_SBKPFLAG_Pos) /*!< FMC_T::KPKEYSTS: SBKPFLAG Mask */
#define FMC_KPKEYCNT_KPKECNT_Pos (0) /*!< FMC_T::KPKEYCNT: KPKECNT Position */
#define FMC_KPKEYCNT_KPKECNT_Msk (0x3ful << FMC_KPKEYCNT_KPKECNT_Pos) /*!< FMC_T::KPKEYCNT: KPKECNT Mask */
#define FMC_KPKEYCNT_KPKEMAX_Pos (8) /*!< FMC_T::KPKEYCNT: KPKEMAX Position */
#define FMC_KPKEYCNT_KPKEMAX_Msk (0x3ful << FMC_KPKEYCNT_KPKEMAX_Pos) /*!< FMC_T::KPKEYCNT: KPKEMAX Mask */
#define FMC_KPCNT_KPCNT_Pos (0) /*!< FMC_T::KPCNT: KPCNT Position */
#define FMC_KPCNT_KPCNT_Msk (0xful << FMC_KPCNT_KPCNT_Pos) /*!< FMC_T::KPCNT: KPCNT Mask */
#define FMC_KPCNT_KPMAX_Pos (8) /*!< FMC_T::KPCNT: KPMAX Position */
#define FMC_KPCNT_KPMAX_Msk (0xful << FMC_KPCNT_KPMAX_Pos) /*!< FMC_T::KPCNT: KPMAX Mask */
#define FMC_MPDAT0_ISPDAT0_Pos (0) /*!< FMC_T::MPDAT0: ISPDAT0 Position */
#define FMC_MPDAT0_ISPDAT0_Msk (0xfffffffful << FMC_MPDAT0_ISPDAT0_Pos) /*!< FMC_T::MPDAT0: ISPDAT0 Mask */
#define FMC_MPDAT1_ISPDAT1_Pos (0) /*!< FMC_T::MPDAT1: ISPDAT1 Position */
#define FMC_MPDAT1_ISPDAT1_Msk (0xfffffffful << FMC_MPDAT1_ISPDAT1_Pos) /*!< FMC_T::MPDAT1: ISPDAT1 Mask */
#define FMC_MPDAT2_ISPDAT2_Pos (0) /*!< FMC_T::MPDAT2: ISPDAT2 Position */
#define FMC_MPDAT2_ISPDAT2_Msk (0xfffffffful << FMC_MPDAT2_ISPDAT2_Pos) /*!< FMC_T::MPDAT2: ISPDAT2 Mask */
#define FMC_MPDAT3_ISPDAT3_Pos (0) /*!< FMC_T::MPDAT3: ISPDAT3 Position */
#define FMC_MPDAT3_ISPDAT3_Msk (0xfffffffful << FMC_MPDAT3_ISPDAT3_Pos) /*!< FMC_T::MPDAT3: ISPDAT3 Mask */
#define FMC_MPSTS_MPBUSY_Pos (0) /*!< FMC_T::MPSTS: MPBUSY Position */
#define FMC_MPSTS_MPBUSY_Msk (0x1ul << FMC_MPSTS_MPBUSY_Pos) /*!< FMC_T::MPSTS: MPBUSY Mask */
#define FMC_MPSTS_PPGO_Pos (1) /*!< FMC_T::MPSTS: PPGO Position */
#define FMC_MPSTS_PPGO_Msk (0x1ul << FMC_MPSTS_PPGO_Pos) /*!< FMC_T::MPSTS: PPGO Mask */
#define FMC_MPSTS_ISPFF_Pos (2) /*!< FMC_T::MPSTS: ISPFF Position */
#define FMC_MPSTS_ISPFF_Msk (0x1ul << FMC_MPSTS_ISPFF_Pos) /*!< FMC_T::MPSTS: ISPFF Mask */
#define FMC_MPSTS_D0_Pos (4) /*!< FMC_T::MPSTS: D0 Position */
#define FMC_MPSTS_D0_Msk (0x1ul << FMC_MPSTS_D0_Pos) /*!< FMC_T::MPSTS: D0 Mask */
#define FMC_MPSTS_D1_Pos (5) /*!< FMC_T::MPSTS: D1 Position */
#define FMC_MPSTS_D1_Msk (0x1ul << FMC_MPSTS_D1_Pos) /*!< FMC_T::MPSTS: D1 Mask */
#define FMC_MPSTS_D2_Pos (6) /*!< FMC_T::MPSTS: D2 Position */
#define FMC_MPSTS_D2_Msk (0x1ul << FMC_MPSTS_D2_Pos) /*!< FMC_T::MPSTS: D2 Mask */
#define FMC_MPSTS_D3_Pos (7) /*!< FMC_T::MPSTS: D3 Position */
#define FMC_MPSTS_D3_Msk (0x1ul << FMC_MPSTS_D3_Pos) /*!< FMC_T::MPSTS: D3 Mask */
#define FMC_MPADDR_MPADDR_Pos (0) /*!< FMC_T::MPADDR: MPADDR Position */
#define FMC_MPADDR_MPADDR_Msk (0xfffffffful << FMC_MPADDR_MPADDR_Pos) /*!< FMC_T::MPADDR: MPADDR Mask */
#define FMC_XOMR0STS_SIZE_Pos (0) /*!< FMC_T::XOMR0STS: SIZE Position */
#define FMC_XOMR0STS_SIZE_Msk (0xfful << FMC_XOMR0STS_SIZE_Pos) /*!< FMC_T::XOMR0STS: SIZE Mask */
#define FMC_XOMR0STS_BASE_Pos (8) /*!< FMC_T::XOMR0STS: BASE Position */
#define FMC_XOMR0STS_BASE_Msk (0xfffffful << FMC_XOMR0STS_BASE_Pos) /*!< FMC_T::XOMR0STS: BASE Mask */
#define FMC_XOMR1STS_SIZE_Pos (0) /*!< FMC_T::XOMR1STS: SIZE Position */
#define FMC_XOMR1STS_SIZE_Msk (0xfful << FMC_XOMR1STS_SIZE_Pos) /*!< FMC_T::XOMR1STS: SIZE Mask */
#define FMC_XOMR1STS_BASE_Pos (8) /*!< FMC_T::XOMR1STS: BASE Position */
#define FMC_XOMR1STS_BASE_Msk (0xfffffful << FMC_XOMR1STS_BASE_Pos) /*!< FMC_T::XOMR1STS: BASE Mask */
#define FMC_XOMR2STS_SIZE_Pos (0) /*!< FMC_T::XOMR2STS: SIZE Position */
#define FMC_XOMR2STS_SIZE_Msk (0xfful << FMC_XOMR2STS_SIZE_Pos) /*!< FMC_T::XOMR2STS: SIZE Mask */
#define FMC_XOMR2STS_BASE_Pos (8) /*!< FMC_T::XOMR2STS: BASE Position */
#define FMC_XOMR2STS_BASE_Msk (0xfffffful << FMC_XOMR2STS_BASE_Pos) /*!< FMC_T::XOMR2STS: BASE Mask */
#define FMC_XOMR3STS_SIZE_Pos (0) /*!< FMC_T::XOMR3STS: SIZE Position */
#define FMC_XOMR3STS_SIZE_Msk (0xfful << FMC_XOMR3STS_SIZE_Pos) /*!< FMC_T::XOMR3STS: SIZE Mask */
#define FMC_XOMR3STS_BASE_Pos (8) /*!< FMC_T::XOMR3STS: BASE Position */
#define FMC_XOMR3STS_BASE_Msk (0xfffffful << FMC_XOMR3STS_BASE_Pos) /*!< FMC_T::XOMR3STS: BASE Mask */
#define FMC_XOMSTS_XOMR0ON_Pos (0) /*!< FMC_T::XOMSTS: XOMR0ON Position */
#define FMC_XOMSTS_XOMR0ON_Msk (0x1ul << FMC_XOMSTS_XOMR0ON_Pos) /*!< FMC_T::XOMSTS: XOMR0ON Mask */
#define FMC_XOMSTS_XOMR1ON_Pos (1) /*!< FMC_T::XOMSTS: XOMR1ON Position */
#define FMC_XOMSTS_XOMR1ON_Msk (0x1ul << FMC_XOMSTS_XOMR1ON_Pos) /*!< FMC_T::XOMSTS: XOMR1ON Mask */
#define FMC_XOMSTS_XOMR2ON_Pos (2) /*!< FMC_T::XOMSTS: XOMR2ON Position */
#define FMC_XOMSTS_XOMR2ON_Msk (0x1ul << FMC_XOMSTS_XOMR2ON_Pos) /*!< FMC_T::XOMSTS: XOMR2ON Mask */
#define FMC_XOMSTS_XOMR3ON_Pos (3) /*!< FMC_T::XOMSTS: XOMR3ON Position */
#define FMC_XOMSTS_XOMR3ON_Msk (0x1ul << FMC_XOMSTS_XOMR3ON_Pos) /*!< FMC_T::XOMSTS: XOMR3ON Mask */
#define FMC_XOMSTS_XOMPEF_Pos (4) /*!< FMC_T::XOMSTS: XOMPEF Position */
#define FMC_XOMSTS_XOMPEF_Msk (0x1ul << FMC_XOMSTS_XOMPEF_Pos) /*!< FMC_T::XOMSTS: XOMPEF Mask */
/**@}*/ /* FMC_CONST */
/**@}*/ /* end of FMC register group */
#endif /* __FMC_REG_H__ */