/**************************************************************************//** * @file pdma_reg.h * @version V1.00 * @brief PDMA register definition header file * * SPDX-License-Identifier: Apache-2.0 * @copyright (C) 2017-2020 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #ifndef __PDMA_REG_H__ #define __PDMA_REG_H__ #if defined ( __CC_ARM ) #pragma anon_unions #endif /** @addtogroup REGISTER Control Register @{ */ /** @addtogroup PDMA Peripheral Direct Memory Access Controller(PDMA) Memory Mapped Structure for PDMA Controller @{ */ typedef struct { /** * @var DSCT_T::CTL * Offset: 0x00 Descriptor Table Control Register of PDMA Channel n. * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1:0] |OPMODE |PDMA Operation Mode Selection * | | |00 = Idle state: Channel is stopped or this table is complete, when PDMA finish channel table task, OPMODE will be cleared to idle state automatically. * | | |01 = Basic mode: The descriptor table only has one task * | | |When this task is finished, the PDMA_INTSTS[n] will be asserted. * | | |10 = Scatter-Gather mode: When operating in this mode, user must give the next descriptor table address in PDMA_DSCT_NEXT register; PDMA controller will ignore this task, then load the next task to execute. * | | |11 = Reserved. * | | |Note: Before filling transfer task in the Descriptor Table, user must check if the descriptor table is complete. * |[2] |TXTYPE |Transfer Type * | | |0 = Burst transfer type. * | | |1 = Single transfer type. * |[6:4] |BURSIZE |Burst Size * | | |This field is used for peripheral to determine the burst size or used for determine the re-arbitration size. * | | |000 = 128 Transfers. * | | |001 = 64 Transfers. * | | |010 = 32 Transfers. * | | |011 = 16 Transfers. * | | |100 = 8 Transfers. * | | |101 = 4 Transfers. * | | |110 = 2 Transfers. * | | |111 = 1 Transfers. * | | |Note: This field is only useful in burst transfer type. * |[7] |TBINTDIS |Table Interrupt Disable Bit * | | |This field can be used to decide whether to enable table interrupt or not * | | |If the TBINTDIS bit is enabled when PDMA controller finishes transfer task, it will not generates transfer done interrupt. * | | |0 = Table interrupt Enabled. * | | |1 = Table interrupt Disabled. * |[9:8] |SAINC |Source Address Increment * | | |This field is used to set the source address increment size. * | | |11 = No increment (fixed address). * | | |Others = Increment and size is depended on TXWIDTH selection. * |[11:10] |DAINC |Destination Address Increment * | | |This field is used to set the destination address increment size. * | | |11 = No increment (fixed address). * | | |Others = Increment and size is depended on TXWIDTH selection. * |[13:12] |TXWIDTH |Transfer Width Selection * | | |This field is used for transfer width. * | | |00 = One byte (8 bit) is transferred for every operation. * | | |01= One half-word (16 bit) is transferred for every operation. * | | |10 = One word (32-bit) is transferred for every operation. * | | |11 = Reserved. * | | |Note: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection * |[14] |TXACK |Transfer Acknowledge Selection * | | |0 = transfer ack when transfer done. * | | |1 = transfer ack when PDMA get transfer data. * |[15] |STRIDEEN |Stride Mode Enable Bit * | | |0 = Stride transfer mode Disabled. * | | |1 = Stride transfer mode Enabled. * |[31:16] |TXCNT |Transfer Count * | | |The TXCNT represents the required number of PDMA transfer, the real transfer count is (TXCNT + 1); The maximum transfer count is 16384 , every transfer may be byte, half-word or word that is dependent on TXWIDTH field. * | | |Note: When PDMA finish each transfer data, this field will be decrease immediately. * @var DSCT_T::SA * Offset: 0x04 Source Address Register of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[31:0] |SA |PDMA Transfer Source Address Register * | | |This field indicates a 32-bit source address of PDMA controller. * @var DSCT_T::DA * Offset: 0x08 Destination Address Register of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[31:0] |DA |PDMA Transfer Destination Address Register * | | |This field indicates a 32-bit destination address of PDMA controller. * @var DSCT_T::NEXT * Offset: 0x0C Next Scatter-Gather Descriptor Table Offset Address of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |EXENEXT |PDMA Execution Next Descriptor Table Offset * | | |This field indicates the offset of next descriptor table address of current execution descriptor table in system memory. * | | |Note: write operation is useless in this field. * |[31:16] |NEXT |PDMA Next Descriptor Table Offset. * | | |This field indicates the offset of the next descriptor table address in system memory. * | | |Write Operation: * | | |If the system memory based address is 0x2000_0000 (PDMA_SCATBA), and the next descriptor table is start from 0x2000_0100, then this field must fill in 0x0100. * | | |Read Operation: * | | |When operating in scatter-gather mode, the last two bits NEXT[1:0] will become reserved, and indicate the first next address of system memory. * | | |Note1: The descriptor table address must be word boundary. * | | |Note2: Before filled transfer task in the descriptor table, user must check if the descriptor table is complete. */ __IO uint32_t CTL; /*!< [0x0000] Descriptor Table Control Register of PDMA Channel n. */ __IO uint32_t SA; /*!< [0x0004] Source Address Register of PDMA Channel n */ __IO uint32_t DA; /*!< [0x0008] Destination Address Register of PDMA Channel n */ __IO uint32_t NEXT; /*!< [0x000c] First Scatter-Gather Descriptor Table Offset Address of PDMA Channel n */ } DSCT_T; typedef struct { /** * @var STRIDE_T::STCR * Offset: 0x500 Stride Transfer Count Register of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |STC |PDMA Stride Transfer Count * | | |The 16-bit register defines the stride transfer count of each row. * @var STRIDE_T::ASOCR * Offset: 0x504 Address Stride Offset Register of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |SASOL |VDMA Source Address Stride Offset Length * | | |The 16-bit register defines the source address stride transfer offset count of each row. * |[31:16] |DASOL |VDMA Destination Address Stride Offset Length * | | |The 16-bit register defines the destination address stride transfer offset count of each row. */ __IO uint32_t STCR; /*!< [0x0500] Stride Transfer Count Register of PDMA Channel 0 */ __IO uint32_t ASOCR; /*!< [0x0504] Address Stride Offset Register of PDMA Channel 0 */ } STRIDE_T; typedef struct { /** * @var REPEAT_T::AICTL * Offset: 0x600 Address Interval Control Register of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |SAICNT |PDMA Source Address Interval Count * | | |The 16-bit register defines the source address interval count of each row. * |[31:16] |DAICNT |PDMA Destination Address Interval Count * | | |The 16-bit register defines the destination address interval count of each row. * @var REPEAT_T::RCNT * Offset: 0x604 Repeat Count Register of PDMA Channe n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |RCNT |PDMA Repeat Count * | | |The 16-bit register defines the repeat times of block transfer. */ __IO uint32_t AICTL; /*!< [0x0600] Address Interval Control Register of PDMA Channel 0 */ __IO uint32_t RCNT; /*!< [0x0604] Repeat Count Register of PDMA Channel 0 */ } REPEAT_T; typedef struct { /** * @var PDMA_T::CURSCAT * Offset: 0x100 Current Scatter-Gather Descriptor Table Address of PDMA Channel n * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[31:0] |CURADDR |PDMA Current Description Address Register (Read Only) * | | |This field indicates a 32-bit current external description address of PDMA controller. * | | |Note: This field is read only and only used for Scatter-Gather mode to indicate the current external description address. * @var PDMA_T::CHCTL * Offset: 0x400 PDMA Channel Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |CHENn |PDMA Channel Enable Bit * | | |Set this bit to 1 to enable PDMAn operation. Channel cannot be active if it is not set as enabled. * | | |0 = PDMA channel [n] Disabled. * | | |1 = PDMA channel [n] Enabled. * | | |Note: Set corresponding bit of PDMA_PAUSE or PDMA_CHRST register will also clear this bit. * @var PDMA_T::PAUSE * Offset: 0x404 PDMA Transfer Stop Control Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |PAUSEn |PDMA Transfer Pause Control Register (Write Only) * | | |User can set PAUSEn bit field to pause the PDMA transfer * | | |When user sets PAUSEn bit, the PDMA controller will pause the on-going transfer, then clear the channel enable bit CHEN(PDMA_CHCTL [n], n=0,1..7) and clear request active flag * | | |If re-enable the paused channel again, the remaining transfers will be processed. * | | |0 = No effect. * | | |1 = Pause PDMA channel n transfer. * @var PDMA_T::SWREQ * Offset: 0x408 PDMA Software Request Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |SWREQn |PDMA Software Request Register (Write Only) * | | |Set this bit to 1 to generate a software request to PDMA [n]. * | | |0 = No effect. * | | |1 = Generate a software request. * | | |Note1: User can read PDMA_TRGSTS register to know which channel is on active * | | |Active flag may be triggered by software request or peripheral request. * | | |Note2: If user does not enable corresponding PDMA channel, the software request will be ignored. * @var PDMA_T::TRGSTS * Offset: 0x40C PDMA Channel Request Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |REQSTSn |PDMA Channel Request Status (Read Only) * | | |This flag indicates whether channel[n] have a request or not, no matter request from software or peripheral * | | |When PDMA controller finishes channel transfer, this bit will be cleared automatically. * | | |0 = PDMA Channel n has no request. * | | |1 = PDMA Channel n has a request. * | | |Note: If user pauses or resets each PDMA transfer by setting PDMA_PAUSE or PDMA_CHRST register respectively, this bit will be cleared automatically after finishing current transfer. * @var PDMA_T::PRISET * Offset: 0x410 PDMA Fixed Priority Setting Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |FPRISETn |PDMA Fixed Priority Setting Register * | | |Set this bit to 1 to enable fixed priority level. * | | |Write Operation: * | | |0 = No effect. * | | |1 = Set PDMA channel [n] to fixed priority channel. * | | |Read Operation: * | | |0 = Corresponding PDMA channel is round-robin priority. * | | |1 = Corresponding PDMA channel is fixed priority. * | | |Note: This field only set to fixed priority, clear fixed priority use PDMA_PRICLR register. * @var PDMA_T::PRICLR * Offset: 0x414 PDMA Fixed Priority Clear Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |FPRICLRn |PDMA Fixed Priority Clear Register (Write Only) * | | |Set this bit to 1 to clear fixed priority level. * | | |0 = No effect. * | | |1 = Clear PDMA channel [n] fixed priority setting. * | | |Note: User can read PDMA_PRISET register to know the channel priority. * @var PDMA_T::INTEN * Offset: 0x418 PDMA Interrupt Enable Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |INTENn |PDMA Interrupt Enable Register * | | |This field is used for enabling PDMA channel[n] interrupt. * | | |0 = PDMA channel n interrupt Disabled. * | | |1 = PDMA channel n interrupt Enabled. * @var PDMA_T::INTSTS * Offset: 0x41C PDMA Interrupt Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[0] |ABTIF |PDMA Read/Write Target Abort Interrupt Flag (Read-only) * | | |This bit indicates that PDMA has target abort error; Software can read PDMA_ABTSTS register to find which channel has target abort error. * | | |0 = No AHB bus ERROR response received. * | | |1 = AHB bus ERROR response received. * |[1] |TDIF |Transfer Done Interrupt Flag (Read Only) * | | |This bit indicates that PDMA controller has finished transmission; User can read PDMA_TDSTS register to indicate which channel finished transfer. * | | |0 = Not finished yet. * | | |1 = PDMA channel has finished transmission. * |[2] |ALIGNF |Transfer Alignment Interrupt Flag (Read Only) * | | |0 = PDMA channel source address and destination address both follow transfer width setting. * | | |1 = PDMA channel source address or destination address is not follow transfer width setting. * |[8] |REQTOF0 |Request Time-out Flag for Channel 0 * | | |This flag indicates that PDMA controller has waited peripheral request for a period defined by PDMA_TOC0, user can write 1 to clear these bits. * | | |0 = No request time-out. * | | |1 = Peripheral request time-out. * |[9] |REQTOF1 |Request Time-out Flag for Channel 1 * | | |This flag indicates that PDMA controller has waited peripheral request for a period defined by PDMA_TOC1, user can write 1 to clear these bits. * | | |0 = No request time-out. * | | |1 = Peripheral request time-out. * @var PDMA_T::ABTSTS * Offset: 0x420 PDMA Channel Read/Write Target Abort Flag Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |ABTIFn |PDMA Read/Write Target Abort Interrupt Status Flag * | | |This bit indicates which PDMA controller has target abort error; User can write 1 to clear these bits. * | | |0 = No AHB bus ERROR response received when channel n transfer. * | | |1 = AHB bus ERROR response received when channel n transfer. * @var PDMA_T::TDSTS * Offset: 0x424 PDMA Channel Transfer Done Flag Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |TDIFn |Transfer Done Flag Register * | | |This bit indicates whether PDMA controller channel transfer has been finished or not, user can write 1 to clear these bits. * | | |0 = PDMA channel transfer has not finished. * | | |1 = PDMA channel has finished transmission. * @var PDMA_T::ALIGN * Offset: 0x428 PDMA Transfer Alignment Status Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |ALIGNn |Transfer Alignment Flag Register * | | |0 = PDMA channel source address and destination address both follow transfer width setting. * | | |1 = PDMA channel source address or destination address is not follow transfer width setting. * @var PDMA_T::TACTSTS * Offset: 0x42C PDMA Transfer Active Flag Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |TXACTFn |Transfer on Active Flag Register (Read Only) * | | |This bit indicates which PDMA channel is in active. * | | |0 = PDMA channel is not finished. * | | |1 = PDMA channel is active. * @var PDMA_T::TOUTPSC * Offset: 0x430 PDMA Time-out Prescaler Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[2:0] |TOUTPSC0 |PDMA Channel 0 Time-out Clock Source Prescaler Bits * | | |000 = PDMA channel 0 time-out clock source is HCLK/28. * | | |001 = PDMA channel 0 time-out clock source is HCLK/29. * | | |010 = PDMA channel 0 time-out clock source is HCLK/210. * | | |011 = PDMA channel 0 time-out clock source is HCLK/211. * | | |100 = PDMA channel 0 time-out clock source is HCLK/212. * | | |101 = PDMA channel 0 time-out clock source is HCLK/213. * | | |110 = PDMA channel 0 time-out clock source is HCLK/214. * | | |111 = PDMA channel 0 time-out clock source is HCLK/215. * |[6:4] |TOUTPSC1 |PDMA Channel 1 Time-out Clock Source Prescaler Bits * | | |000 = PDMA channel 1 time-out clock source is HCLK/28. * | | |001 = PDMA channel 1 time-out clock source is HCLK/29. * | | |010 = PDMA channel 1 time-out clock source is HCLK/210. * | | |011 = PDMA channel 1 time-out clock source is HCLK/211. * | | |100 = PDMA channel 1 time-out clock source is HCLK/212. * | | |101 = PDMA channel 1 time-out clock source is HCLK/213. * | | |110 = PDMA channel 1 time-out clock source is HCLK/214. * | | |111 = PDMA channel 1 time-out clock source is HCLK/215. * @var PDMA_T::TOUTEN * Offset: 0x434 PDMA Time-out Enable Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1:0] |TOUTENn |PDMA Time-out Enable Bits * | | |0 = PDMA Channel n time-out function Disable. * | | |1 = PDMA Channel n time-out function Enable. * @var PDMA_T::TOUTIEN * Offset: 0x438 PDMA Time-out Interrupt Enable Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[1:0] |TOUTIENn |PDMA Time-out Interrupt Enable Bits * | | |0 = PDMA Channel n time-out interrupt Disable. * | | |1 = PDMA Channel n time-out interrupt Enable. * @var PDMA_T::SCATBA * Offset: 0x43C PDMA Scatter-Gather Descriptor Table Base Address Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[31:16] |SCATBA |PDMA Scatter-gather Descriptor Table Address Register * | | |In Scatter-Gather mode, this is the base address for calculating the next link - list address * | | |The next link address equation is * | | |Next Link Address = PDMA_SCATBA + PDMA_DSCT_NEXT. * | | |Note: Only useful in Scatter-Gather mode. * @var PDMA_T::TOC0_1 * Offset: 0x440 PDMA Time-out Counter Ch1 and Ch0 Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |TOC0 |Time-out Counter for Channel 0 * | | |This controls the period of time-out function for channel 0 * | | |The calculation unit is based on 10 kHz clock. * |[31:16] |TOC1 |Time-out Counter for Channel 1 * | | |This controls the period of time-out function for channel 1 * | | |The calculation unit is based on 10 kHz clock. * @var PDMA_T::CHRST * Offset: 0x460 PDMA Channel Reset Register * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[15:0] |CHnRST |Channel N Reset * | | |0 = corresponding channel n not reset. * | | |1 = corresponding channel n is reset. * @var PDMA_T::REQSEL0_3 * Offset: 0x480 PDMA Request Source Select Register 0 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[6:0] |REQSRC0 |Channel 0 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 0 * | | |User can configure the peripheral by setting REQSRC0. * | | |0 = Disable PDMA peripheral request. * | | |1 = Reserved. * | | |2 = Channel connects to USB_TX. * | | |3 = Channel connects to USB_RX. * | | |4 = Channel connects to UART0_TX. * | | |5 = Channel connects to UART0_RX. * | | |6 = Channel connects to UART1_TX. * | | |7 = Channel connects to UART1_RX. * | | |8 = Channel connects to UART2_TX. * | | |9 = Channel connects to UART2_RX. * | | |10=Channel connects to UART3_TX. * | | |11 = Channel connects to UART3_RX. * | | |12 = Channel connects to UART4_TX. * | | |13 = Channel connects to UART4_RX. * | | |14 = Channel connects to UART5_TX. * | | |15 = Channel connects to UART5_RX. * | | |16 = Channel connects to USCI0_TX. * | | |17 = Channel connects to USCI0_RX. * | | |18 = Channel connects to USCI1_TX. * | | |19 = Channel connects to USCI1_RX. * | | |20 = Channel connects to QSPI0_TX. * | | |21 = Channel connects to QSPI0_RX. * | | |22 = Channel connects to SPI0_TX. * | | |23 = Channel connects to SPI0_RX. * | | |24 = Channel connects to SPI1_TX. * | | |25 = Channel connects to SPI1_RX. * | | |26 = Channel connects to SPI2_TX. * | | |27 = Channel connects to SPI2_RX. * | | |28 = Channel connects to SPI3_TX. * | | |29 = Channel connects to SPI3_RX. * | | |30 = Reserved. * | | |31 = Reserved. * | | |32 = Channel connects to EPWM0_P1_RX. * | | |33 = Channel connects to EPWM0_P2_RX. * | | |34 = Channel connects to EPWM0_P3_RX. * | | |35 = Channel connects to EPWM1_P1_RX. * | | |36 = Channel connects to EPWM1_P2_RX. * | | |37 = Channel connects to EPWM1_P3_RX. * | | |38 = Channel connects to I2C0_TX. * | | |39 = Channel connects to I2C0_RX. * | | |40 = Channel connects to I2C1_TX. * | | |41 = Channel connects to I2C1_RX. * | | |42 = Channel connects to I2C2_TX. * | | |43 = Channel connects to I2C2_RX. * | | |44 = Channel connects to I2S0_TX. * | | |45 = Channel connects to I2S0_RX. * | | |46 = Channel connects to TMR0. * | | |47 = Channel connects to TMR1. * | | |48 = Channel connects to TMR2. * | | |49 = Channel connects to TMR3. * | | |50 = Channel connects to ADC_RX. * | | |51 = Channel connects to DAC0_TX. * | | |52 = Channel connects to DAC1_TX. * | | |53 = Channel connects to EPWM0_CH0_TX. * | | |54 = Channel connects to EPWM0_CH1_TX. * | | |55 = Channel connects to EPWM0_CH2_TX. * | | |56 = Channel connects to EPWM0_CH3_TX. * | | |57 = Channel connects to EPWM0_CH4_TX. * | | |58 = Channel connects to EPWM0_CH5_TX. * | | |59 = Channel connects to EPWM1_CH0_TX. * | | |60 = Channel connects to EPWM1_CH1_TX. * | | |61 = Channel connects to EPWM1_CH2_TX. * | | |62 = Channel connects to EPWM1_CH3_TX. * | | |63 = Channel connects to EPWM1_CH4_TX. * | | |64 = Channel connects to EPWM1_CH5_TX. * | | |65 = Channel connects to ETMC_RX. * | | |Others = Reserved. * | | |Note 1: A peripheral can't assign to two channels at the same time. * | | |Note 2: This field is useless when transfer between memory and memory. * |[14:8] |REQSRC1 |Channel 1 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 1 * | | |User can configure the peripheral setting by REQSRC1. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[22:16] |REQSRC2 |Channel 2 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 2 * | | |User can configure the peripheral setting by REQSRC2. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[30:24] |REQSRC3 |Channel 3 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 3 * | | |User can configure the peripheral setting by REQSRC3. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * @var PDMA_T::REQSEL4_7 * Offset: 0x484 PDMA Request Source Select Register 1 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[6:0] |REQSRC4 |Channel 4 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 4 * | | |User can configure the peripheral setting by REQSRC4. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[14:8] |REQSRC5 |Channel 5 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 5 * | | |User can configure the peripheral setting by REQSRC5. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[22:16] |REQSRC6 |Channel 6 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 6 * | | |User can configure the peripheral setting by REQSRC6. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[30:24] |REQSRC7 |Channel 7 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 7 * | | |User can configure the peripheral setting by REQSRC7. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * @var PDMA_T::REQSEL8_11 * Offset: 0x488 PDMA Request Source Select Register 2 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[6:0] |REQSRC8 |Channel 8 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 8 * | | |User can configure the peripheral setting by REQSRC8. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[14:8] |REQSRC9 |Channel 9 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 9 * | | |User can configure the peripheral setting by REQSRC9. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[22:16] |REQSRC10 |Channel 10 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 10 * | | |User can configure the peripheral setting by REQSRC10. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[30:24] |REQSRC11 |Channel 11 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 11 * | | |User can configure the peripheral setting by REQSRC11. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * @var PDMA_T::REQSEL12_15 * Offset: 0x48C PDMA Request Source Select Register 3 * --------------------------------------------------------------------------------------------------- * |Bits |Field |Descriptions * | :----: | :----: | :---- | * |[6:0] |REQSRC12 |Channel 12 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 12 * | | |User can configure the peripheral setting by REQSRC12. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[14:8] |REQSRC13 |Channel 13 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 13 * | | |User can configure the peripheral setting by REQSRC13. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[22:16] |REQSRC14 |Channel 14 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 14 * | | |User can configure the peripheral setting by REQSRC14. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. * |[30:24] |REQSRC15 |Channel 15 Request Source Selection * | | |This filed defines which peripheral is connected to PDMA channel 15 * | | |User can configure the peripheral setting by REQSRC15. * | | |Note: The channel configuration is the same as REQSRC0 field * | | |Please refer to the explanation of REQSRC0. */ DSCT_T DSCT[16]; __I uint32_t CURSCAT[16]; /*!< [0x0100] Current Scatter-Gather Descriptor Table Address of PDMA Channel n */ /// @cond HIDDEN_SYMBOLS __I uint32_t RESERVE1[176]; /// @endcond //HIDDEN_SYMBOLS __IO uint32_t CHCTL; /*!< [0x0400] PDMA Channel Control Register */ __O uint32_t PAUSE; /*!< [0x0404] PDMA Transfer Pause Control Register */ __O uint32_t SWREQ; /*!< [0x0408] PDMA Software Request Register */ __I uint32_t TRGSTS; /*!< [0x040c] PDMA Channel Request Status Register */ __IO uint32_t PRISET; /*!< [0x0410] PDMA Fixed Priority Setting Register */ __O uint32_t PRICLR; /*!< [0x0414] PDMA Fixed Priority Clear Register */ __IO uint32_t INTEN; /*!< [0x0418] PDMA Interrupt Enable Register */ __IO uint32_t INTSTS; /*!< [0x041c] PDMA Interrupt Status Register */ __IO uint32_t ABTSTS; /*!< [0x0420] PDMA Channel Read/Write Target Abort Flag Register */ __IO uint32_t TDSTS; /*!< [0x0424] PDMA Channel Transfer Done Flag Register */ __IO uint32_t ALIGN; /*!< [0x0428] PDMA Transfer Alignment Status Register */ __I uint32_t TACTSTS; /*!< [0x042c] PDMA Transfer Active Flag Register */ __IO uint32_t TOUTPSC; /*!< [0x0430] PDMA Time-out Prescaler Register */ __IO uint32_t TOUTEN; /*!< [0x0434] PDMA Time-out Enable Register */ __IO uint32_t TOUTIEN; /*!< [0x0438] PDMA Time-out Interrupt Enable Register */ __IO uint32_t SCATBA; /*!< [0x043c] PDMA Scatter-Gather Descriptor Table Base Address Register */ __IO uint32_t TOC0_1; /*!< [0x0440] PDMA Time-out Counter Ch1 and Ch0 Register */ /// @cond HIDDEN_SYMBOLS __I uint32_t RESERVE2[7]; /// @endcond //HIDDEN_SYMBOLS __IO uint32_t CHRST; /*!< [0x0460] PDMA Channel Reset Register */ /// @cond HIDDEN_SYMBOLS __I uint32_t RESERVE3[7]; /// @endcond //HIDDEN_SYMBOLS __IO uint32_t REQSEL0_3; /*!< [0x0480] PDMA Request Source Select Register 0 */ __IO uint32_t REQSEL4_7; /*!< [0x0484] PDMA Request Source Select Register 1 */ __IO uint32_t REQSEL8_11; /*!< [0x0488] PDMA Request Source Select Register 2 */ __IO uint32_t REQSEL12_15; /*!< [0x048c] PDMA Request Source Select Register 3 */ /// @cond HIDDEN_SYMBOLS __I uint32_t RESERVE4[28]; /// @endcond //HIDDEN_SYMBOLS STRIDE_T STRIDE[6]; /// @cond HIDDEN_SYMBOLS __IO uint32_t RESERVE5[52]; /// @endcond //HIDDEN_SYMBOLS REPEAT_T REPEAT[2]; } PDMA_T; /** @addtogroup PDMA_CONST PDMA Bit Field Definition Constant Definitions for PDMA Controller @{ */ #define PDMA_DSCT_CTL_OPMODE_Pos (0) /*!< PDMA_T::DSCT_CTL: OPMODE Position */ #define PDMA_DSCT_CTL_OPMODE_Msk (0x3ul << PDMA_DSCT_CTL_OPMODE_Pos) /*!< PDMA_T::DSCT_CTL: OPMODE Mask */ #define PDMA_DSCT_CTL_TXTYPE_Pos (2) /*!< PDMA_T::DSCT_CTL: TXTYPE Position */ #define PDMA_DSCT_CTL_TXTYPE_Msk (0x1ul << PDMA_DSCT_CTL_TXTYPE_Pos) /*!< PDMA_T::DSCT_CTL: TXTYPE Mask */ #define PDMA_DSCT_CTL_BURSIZE_Pos (4) /*!< PDMA_T::DSCT_CTL: BURSIZE Position */ #define PDMA_DSCT_CTL_BURSIZE_Msk (0x7ul << PDMA_DSCT_CTL_BURSIZE_Pos) /*!< PDMA_T::DSCT_CTL: BURSIZE Mask */ #define PDMA_DSCT_CTL_TBINTDIS_Pos (7) /*!< PDMA_T::DSCT_CTL: TBINTDIS Position */ #define PDMA_DSCT_CTL_TBINTDIS_Msk (0x1ul << PDMA_DSCT_CTL_TBINTDIS_Pos) /*!< PDMA_T::DSCT_CTL: TBINTDIS Mask */ #define PDMA_DSCT_CTL_SAINC_Pos (8) /*!< PDMA_T::DSCT_CTL: SAINC Position */ #define PDMA_DSCT_CTL_SAINC_Msk (0x3ul << PDMA_DSCT_CTL_SAINC_Pos) /*!< PDMA_T::DSCT_CTL: SAINC Mask */ #define PDMA_DSCT_CTL_DAINC_Pos (10) /*!< PDMA_T::DSCT_CTL: DAINC Position */ #define PDMA_DSCT_CTL_DAINC_Msk (0x3ul << PDMA_DSCT_CTL_DAINC_Pos) /*!< PDMA_T::DSCT_CTL: DAINC Mask */ #define PDMA_DSCT_CTL_TXWIDTH_Pos (12) /*!< PDMA_T::DSCT_CTL: TXWIDTH Position */ #define PDMA_DSCT_CTL_TXWIDTH_Msk (0x3ul << PDMA_DSCT_CTL_TXWIDTH_Pos) /*!< PDMA_T::DSCT_CTL: TXWIDTH Mask */ #define PDMA_DSCT_CTL_TXACK_Pos (14) /*!< PDMA_T::DSCT_CTL: TXACK Position */ #define PDMA_DSCT_CTL_TXACK_Msk (0x1ul << PDMA_DSCT_CTL_TXACK_Pos) /*!< PDMA_T::DSCT_CTL: TXACK Mask */ #define PDMA_DSCT_CTL_STRIDEEN_Pos (15) /*!< PDMA_T::DSCT_CTL: STRIDEEN Position */ #define PDMA_DSCT_CTL_STRIDEEN_Msk (0x1ul << PDMA_DSCT_CTL_STRIDEEN_Pos) /*!< PDMA_T::DSCT_CTL: STRIDEEN Mask */ #define PDMA_DSCT_CTL_TXCNT_Pos (16) /*!< PDMA_T::DSCT_CTL: TXCNT Position */ #define PDMA_DSCT_CTL_TXCNT_Msk (0xfffful << PDMA_DSCT_CTL_TXCNT_Pos) /*!< PDMA_T::DSCT_CTL: TXCNT Mask */ #define PDMA_DSCT_SA_SA_Pos (0) /*!< PDMA_T::DSCT_SA: SA Position */ #define PDMA_DSCT_SA_SA_Msk (0xfffffffful << PDMA_DSCT_SA_SA_Pos) /*!< PDMA_T::DSCT_SA: SA Mask */ #define PDMA_DSCT_DA_DA_Pos (0) /*!< PDMA_T::DSCT_DA: DA Position */ #define PDMA_DSCT_DA_DA_Msk (0xfffffffful << PDMA_DSCT_DA_DA_Pos) /*!< PDMA_T::DSCT_DA: DA Mask */ #define PDMA_DSCT_NEXT_NEXT_Pos (0) /*!< PDMA_T::DSCT_NEXT: NEXT Position */ #define PDMA_DSCT_NEXT_NEXT_Msk (0xfffful << PDMA_DSCT_NEXT_NEXT_Pos) /*!< PDMA_T::DSCT_NEXT: NEXT Mask */ #define PDMA_DSCT_NEXT_EXENEXT_Pos (16) /*!< PDMA_T::DSCT_FIRST: NEXT Position */ #define PDMA_DSCT_NEXT_EXENEXT_Msk (0xfffful << PDMA_DSCT_NEXT_EXENEXT_Pos) /*!< PDMA_T::DSCT_FIRST: NEXT Mask */ #define PDMA_CURSCAT_CURADDR_Pos (0) /*!< PDMA_T::CURSCAT: CURADDR Position */ #define PDMA_CURSCAT_CURADDR_Msk (0xfffffffful << PDMA_CURSCAT_CURADDR_Pos) /*!< PDMA_T::CURSCAT: CURADDR Mask */ #define PDMA_CHCTL_CHENn_Pos (0) /*!< PDMA_T::CHCTL: CHENn Position */ #define PDMA_CHCTL_CHENn_Msk (0xfffful << PDMA_CHCTL_CHENn_Pos) /*!< PDMA_T::CHCTL: CHENn Mask */ #define PDMA_PAUSE_PAUSEn_Pos (0) /*!< PDMA_T::PAUSE: PAUSEn Position */ #define PDMA_PAUSE_PAUSEn_Msk (0xfffful << PDMA_PAUSE_PAUSEn_Pos) /*!< PDMA_T::PAUSE: PAUSEn Mask */ #define PDMA_SWREQ_SWREQn_Pos (0) /*!< PDMA_T::SWREQ: SWREQn Position */ #define PDMA_SWREQ_SWREQn_Msk (0xfffful << PDMA_SWREQ_SWREQn_Pos) /*!< PDMA_T::SWREQ: SWREQn Mask */ #define PDMA_TRGSTS_REQSTSn_Pos (0) /*!< PDMA_T::TRGSTS: REQSTSn Position */ #define PDMA_TRGSTS_REQSTSn_Msk (0xfffful << PDMA_TRGSTS_REQSTSn_Pos) /*!< PDMA_T::TRGSTS: REQSTSn Mask */ #define PDMA_PRISET_FPRISETn_Pos (0) /*!< PDMA_T::PRISET: FPRISETn Position */ #define PDMA_PRISET_FPRISETn_Msk (0xfffful << PDMA_PRISET_FPRISETn_Pos) /*!< PDMA_T::PRISET: FPRISETn Mask */ #define PDMA_PRICLR_FPRICLRn_Pos (0) /*!< PDMA_T::PRICLR: FPRICLRn Position */ #define PDMA_PRICLR_FPRICLRn_Msk (0xfffful << PDMA_PRICLR_FPRICLRn_Pos) /*!< PDMA_T::PRICLR: FPRICLRn Mask */ #define PDMA_INTEN_INTENn_Pos (0) /*!< PDMA_T::INTEN: INTENn Position */ #define PDMA_INTEN_INTENn_Msk (0xfffful << PDMA_INTEN_INTENn_Pos) /*!< PDMA_T::INTEN: INTENn Mask */ #define PDMA_INTSTS_ABTIF_Pos (0) /*!< PDMA_T::INTSTS: ABTIF Position */ #define PDMA_INTSTS_ABTIF_Msk (0x1ul << PDMA_INTSTS_ABTIF_Pos) /*!< PDMA_T::INTSTS: ABTIF Mask */ #define PDMA_INTSTS_TDIF_Pos (1) /*!< PDMA_T::INTSTS: TDIF Position */ #define PDMA_INTSTS_TDIF_Msk (0x1ul << PDMA_INTSTS_TDIF_Pos) /*!< PDMA_T::INTSTS: TDIF Mask */ #define PDMA_INTSTS_ALIGNF_Pos (2) /*!< PDMA_T::INTSTS: ALIGNF Position */ #define PDMA_INTSTS_ALIGNF_Msk (0x1ul << PDMA_INTSTS_ALIGNF_Pos) /*!< PDMA_T::INTSTS: ALIGNF Mask */ #define PDMA_INTSTS_REQTOF0_Pos (8) /*!< PDMA_T::INTSTS: REQTOF0 Position */ #define PDMA_INTSTS_REQTOF0_Msk (0x1ul << PDMA_INTSTS_REQTOF0_Pos) /*!< PDMA_T::INTSTS: REQTOF0 Mask */ #define PDMA_INTSTS_REQTOF1_Pos (9) /*!< PDMA_T::INTSTS: REQTOF1 Position */ #define PDMA_INTSTS_REQTOF1_Msk (0x1ul << PDMA_INTSTS_REQTOF1_Pos) /*!< PDMA_T::INTSTS: REQTOF1 Mask */ #define PDMA_ABTSTS_ABTIF0_Pos (0) /*!< PDMA_T::ABTSTS: ABTIF0 Position */ #define PDMA_ABTSTS_ABTIF0_Msk (0x1ul << PDMA_ABTSTS_ABTIF0_Pos) /*!< PDMA_T::ABTSTS: ABTIF0 Mask */ #define PDMA_ABTSTS_ABTIF1_Pos (1) /*!< PDMA_T::ABTSTS: ABTIF1 Position */ #define PDMA_ABTSTS_ABTIF1_Msk (0x1ul << PDMA_ABTSTS_ABTIF1_Pos) /*!< PDMA_T::ABTSTS: ABTIF1 Mask */ #define PDMA_ABTSTS_ABTIF2_Pos (2) /*!< PDMA_T::ABTSTS: ABTIF2 Position */ #define PDMA_ABTSTS_ABTIF2_Msk (0x1ul << PDMA_ABTSTS_ABTIF2_Pos) /*!< PDMA_T::ABTSTS: ABTIF2 Mask */ #define PDMA_ABTSTS_ABTIF3_Pos (3) /*!< PDMA_T::ABTSTS: ABTIF3 Position */ #define PDMA_ABTSTS_ABTIF3_Msk (0x1ul << PDMA_ABTSTS_ABTIF3_Pos) /*!< PDMA_T::ABTSTS: ABTIF3 Mask */ #define PDMA_ABTSTS_ABTIF4_Pos (4) /*!< PDMA_T::ABTSTS: ABTIF4 Position */ #define PDMA_ABTSTS_ABTIF4_Msk (0x1ul << PDMA_ABTSTS_ABTIF4_Pos) /*!< PDMA_T::ABTSTS: ABTIF4 Mask */ #define PDMA_ABTSTS_ABTIF5_Pos (5) /*!< PDMA_T::ABTSTS: ABTIF5 Position */ #define PDMA_ABTSTS_ABTIF5_Msk (0x1ul << PDMA_ABTSTS_ABTIF5_Pos) /*!< PDMA_T::ABTSTS: ABTIF5 Mask */ #define PDMA_ABTSTS_ABTIF6_Pos (6) /*!< PDMA_T::ABTSTS: ABTIF6 Position */ #define PDMA_ABTSTS_ABTIF6_Msk (0x1ul << PDMA_ABTSTS_ABTIF6_Pos) /*!< PDMA_T::ABTSTS: ABTIF6 Mask */ #define PDMA_ABTSTS_ABTIF7_Pos (7) /*!< PDMA_T::ABTSTS: ABTIF7 Position */ #define PDMA_ABTSTS_ABTIF7_Msk (0x1ul << PDMA_ABTSTS_ABTIF7_Pos) /*!< PDMA_T::ABTSTS: ABTIF7 Mask */ #define PDMA_ABTSTS_ABTIF8_Pos (8) /*!< PDMA_T::ABTSTS: ABTIF8 Position */ #define PDMA_ABTSTS_ABTIF8_Msk (0x1ul << PDMA_ABTSTS_ABTIF8_Pos) /*!< PDMA_T::ABTSTS: ABTIF8 Mask */ #define PDMA_ABTSTS_ABTIF9_Pos (9) /*!< PDMA_T::ABTSTS: ABTIF9 Position */ #define PDMA_ABTSTS_ABTIF9_Msk (0x1ul << PDMA_ABTSTS_ABTIF9_Pos) /*!< PDMA_T::ABTSTS: ABTIF9 Mask */ #define PDMA_ABTSTS_ABTIF10_Pos (10) /*!< PDMA_T::ABTSTS: ABTIF10 Position */ #define PDMA_ABTSTS_ABTIF10_Msk (0x1ul << PDMA_ABTSTS_ABTIF10_Pos) /*!< PDMA_T::ABTSTS: ABTIF10 Mask */ #define PDMA_ABTSTS_ABTIF11_Pos (11) /*!< PDMA_T::ABTSTS: ABTIF11 Position */ #define PDMA_ABTSTS_ABTIF11_Msk (0x1ul << PDMA_ABTSTS_ABTIF11_Pos) /*!< PDMA_T::ABTSTS: ABTIF11 Mask */ #define PDMA_ABTSTS_ABTIF12_Pos (12) /*!< PDMA_T::ABTSTS: ABTIF12 Position */ #define PDMA_ABTSTS_ABTIF12_Msk (0x1ul << PDMA_ABTSTS_ABTIF12_Pos) /*!< PDMA_T::ABTSTS: ABTIF12 Mask */ #define PDMA_ABTSTS_ABTIF13_Pos (13) /*!< PDMA_T::ABTSTS: ABTIF13 Position */ #define PDMA_ABTSTS_ABTIF13_Msk (0x1ul << PDMA_ABTSTS_ABTIF13_Pos) /*!< PDMA_T::ABTSTS: ABTIF13 Mask */ #define PDMA_ABTSTS_ABTIF14_Pos (14) /*!< PDMA_T::ABTSTS: ABTIF14 Position */ #define PDMA_ABTSTS_ABTIF14_Msk (0x1ul << PDMA_ABTSTS_ABTIF14_Pos) /*!< PDMA_T::ABTSTS: ABTIF14 Mask */ #define PDMA_ABTSTS_ABTIF15_Pos (15) /*!< PDMA_T::ABTSTS: ABTIF15 Position */ #define PDMA_ABTSTS_ABTIF15_Msk (0x1ul << PDMA_ABTSTS_ABTIF15_Pos) /*!< PDMA_T::ABTSTS: ABTIF15 Mask */ #define PDMA_TDSTS_TDIF0_Pos (0) /*!< PDMA_T::TDSTS: TDIF0 Position */ #define PDMA_TDSTS_TDIF0_Msk (0x1ul << PDMA_TDSTS_TDIF0_Pos) /*!< PDMA_T::TDSTS: TDIF0 Mask */ #define PDMA_TDSTS_TDIF1_Pos (1) /*!< PDMA_T::TDSTS: TDIF1 Position */ #define PDMA_TDSTS_TDIF1_Msk (0x1ul << PDMA_TDSTS_TDIF1_Pos) /*!< PDMA_T::TDSTS: TDIF1 Mask */ #define PDMA_TDSTS_TDIF2_Pos (2) /*!< PDMA_T::TDSTS: TDIF2 Position */ #define PDMA_TDSTS_TDIF2_Msk (0x1ul << PDMA_TDSTS_TDIF2_Pos) /*!< PDMA_T::TDSTS: TDIF2 Mask */ #define PDMA_TDSTS_TDIF3_Pos (3) /*!< PDMA_T::TDSTS: TDIF3 Position */ #define PDMA_TDSTS_TDIF3_Msk (0x1ul << PDMA_TDSTS_TDIF3_Pos) /*!< PDMA_T::TDSTS: TDIF3 Mask */ #define PDMA_TDSTS_TDIF4_Pos (4) /*!< PDMA_T::TDSTS: TDIF4 Position */ #define PDMA_TDSTS_TDIF4_Msk (0x1ul << PDMA_TDSTS_TDIF4_Pos) /*!< PDMA_T::TDSTS: TDIF4 Mask */ #define PDMA_TDSTS_TDIF5_Pos (5) /*!< PDMA_T::TDSTS: TDIF5 Position */ #define PDMA_TDSTS_TDIF5_Msk (0x1ul << PDMA_TDSTS_TDIF5_Pos) /*!< PDMA_T::TDSTS: TDIF5 Mask */ #define PDMA_TDSTS_TDIF6_Pos (6) /*!< PDMA_T::TDSTS: TDIF6 Position */ #define PDMA_TDSTS_TDIF6_Msk (0x1ul << PDMA_TDSTS_TDIF6_Pos) /*!< PDMA_T::TDSTS: TDIF6 Mask */ #define PDMA_TDSTS_TDIF7_Pos (7) /*!< PDMA_T::TDSTS: TDIF7 Position */ #define PDMA_TDSTS_TDIF7_Msk (0x1ul << PDMA_TDSTS_TDIF7_Pos) /*!< PDMA_T::TDSTS: TDIF7 Mask */ #define PDMA_TDSTS_TDIF8_Pos (8) /*!< PDMA_T::TDSTS: TDIF8 Position */ #define PDMA_TDSTS_TDIF8_Msk (0x1ul << PDMA_TDSTS_TDIF8_Pos) /*!< PDMA_T::TDSTS: TDIF8 Mask */ #define PDMA_TDSTS_TDIF9_Pos (9) /*!< PDMA_T::TDSTS: TDIF9 Position */ #define PDMA_TDSTS_TDIF9_Msk (0x1ul << PDMA_TDSTS_TDIF9_Pos) /*!< PDMA_T::TDSTS: TDIF9 Mask */ #define PDMA_TDSTS_TDIF10_Pos (10) /*!< PDMA_T::TDSTS: TDIF10 Position */ #define PDMA_TDSTS_TDIF10_Msk (0x1ul << PDMA_TDSTS_TDIF10_Pos) /*!< PDMA_T::TDSTS: TDIF10 Mask */ #define PDMA_TDSTS_TDIF11_Pos (11) /*!< PDMA_T::TDSTS: TDIF11 Position */ #define PDMA_TDSTS_TDIF11_Msk (0x1ul << PDMA_TDSTS_TDIF11_Pos) /*!< PDMA_T::TDSTS: TDIF11 Mask */ #define PDMA_TDSTS_TDIF12_Pos (12) /*!< PDMA_T::TDSTS: TDIF12 Position */ #define PDMA_TDSTS_TDIF12_Msk (0x1ul << PDMA_TDSTS_TDIF12_Pos) /*!< PDMA_T::TDSTS: TDIF12 Mask */ #define PDMA_TDSTS_TDIF13_Pos (13) /*!< PDMA_T::TDSTS: TDIF13 Position */ #define PDMA_TDSTS_TDIF13_Msk (0x1ul << PDMA_TDSTS_TDIF13_Pos) /*!< PDMA_T::TDSTS: TDIF13 Mask */ #define PDMA_TDSTS_TDIF14_Pos (14) /*!< PDMA_T::TDSTS: TDIF14 Position */ #define PDMA_TDSTS_TDIF14_Msk (0x1ul << PDMA_TDSTS_TDIF14_Pos) /*!< PDMA_T::TDSTS: TDIF14 Mask */ #define PDMA_TDSTS_TDIF15_Pos (15) /*!< PDMA_T::TDSTS: TDIF15 Position */ #define PDMA_TDSTS_TDIF15_Msk (0x1ul << PDMA_TDSTS_TDIF15_Pos) /*!< PDMA_T::TDSTS: TDIF15 Mask */ #define PDMA_ALIGN_ALIGNn_Pos (0) /*!< PDMA_T::ALIGN: ALIGNn Position */ #define PDMA_ALIGN_ALIGNn_Msk (0xfffful << PDMA_ALIGN_ALIGNn_Pos) /*!< PDMA_T::ALIGN: ALIGNn Mask */ #define PDMA_TACTSTS_TXACTFn_Pos (0) /*!< PDMA_T::TACTSTS: TXACTFn Position */ #define PDMA_TACTSTS_TXACTFn_Msk (0xfffful << PDMA_TACTSTS_TXACTFn_Pos) /*!< PDMA_T::TACTSTS: TXACTFn Mask */ #define PDMA_TOUTPSC_TOUTPSC0_Pos (0) /*!< PDMA_T::TOUTPSC: TOUTPSC0 Position */ #define PDMA_TOUTPSC_TOUTPSC0_Msk (0x7ul << PDMA_TOUTPSC_TOUTPSC0_Pos) /*!< PDMA_T::TOUTPSC: TOUTPSC0 Mask */ #define PDMA_TOUTPSC_TOUTPSC1_Pos (4) /*!< PDMA_T::TOUTPSC: TOUTPSC1 Position */ #define PDMA_TOUTPSC_TOUTPSC1_Msk (0x7ul << PDMA_TOUTPSC_TOUTPSC1_Pos) /*!< PDMA_T::TOUTPSC: TOUTPSC1 Mask */ #define PDMA_TOUTEN_TOUTENn_Pos (0) /*!< PDMA_T::TOUTEN: TOUTENn Position */ #define PDMA_TOUTEN_TOUTENn_Msk (0x3ul << PDMA_TOUTEN_TOUTENn_Pos) /*!< PDMA_T::TOUTEN: TOUTENn Mask */ #define PDMA_TOUTIEN_TOUTIENn_Pos (0) /*!< PDMA_T::TOUTIEN: TOUTIENn Position */ #define PDMA_TOUTIEN_TOUTIENn_Msk (0x3ul << PDMA_TOUTIEN_TOUTIENn_Pos) /*!< PDMA_T::TOUTIEN: TOUTIENn Mask */ #define PDMA_SCATBA_SCATBA_Pos (16) /*!< PDMA_T::SCATBA: SCATBA Position */ #define PDMA_SCATBA_SCATBA_Msk (0xfffful << PDMA_SCATBA_SCATBA_Pos) /*!< PDMA_T::SCATBA: SCATBA Mask */ #define PDMA_TOC0_1_TOC0_Pos (0) /*!< PDMA_T::TOC0_1: TOC0 Position */ #define PDMA_TOC0_1_TOC0_Msk (0xfffful << PDMA_TOC0_1_TOC0_Pos) /*!< PDMA_T::TOC0_1: TOC0 Mask */ #define PDMA_TOC0_1_TOC1_Pos (16) /*!< PDMA_T::TOC0_1: TOC1 Position */ #define PDMA_TOC0_1_TOC1_Msk (0xfffful << PDMA_TOC0_1_TOC1_Pos) /*!< PDMA_T::TOC0_1: TOC1 Mask */ #define PDMA_CHRST_CHnRST_Pos (0) /*!< PDMA_T::CHRST: CHnRST Position */ #define PDMA_CHRST_CHnRST_Msk (0xfffful << PDMA_CHRST_CHnRST_Pos) /*!< PDMA_T::CHRST: CHnRST Mask */ #define PDMA_REQSEL0_3_REQSRC0_Pos (0) /*!< PDMA_T::REQSEL0_3: REQSRC0 Position */ #define PDMA_REQSEL0_3_REQSRC0_Msk (0x7ful << PDMA_REQSEL0_3_REQSRC0_Pos) /*!< PDMA_T::REQSEL0_3: REQSRC0 Mask */ #define PDMA_REQSEL0_3_REQSRC1_Pos (8) /*!< PDMA_T::REQSEL0_3: REQSRC1 Position */ #define PDMA_REQSEL0_3_REQSRC1_Msk (0x7ful << PDMA_REQSEL0_3_REQSRC1_Pos) /*!< PDMA_T::REQSEL0_3: REQSRC1 Mask */ #define PDMA_REQSEL0_3_REQSRC2_Pos (16) /*!< PDMA_T::REQSEL0_3: REQSRC2 Position */ #define PDMA_REQSEL0_3_REQSRC2_Msk (0x7ful << PDMA_REQSEL0_3_REQSRC2_Pos) /*!< PDMA_T::REQSEL0_3: REQSRC2 Mask */ #define PDMA_REQSEL0_3_REQSRC3_Pos (24) /*!< PDMA_T::REQSEL0_3: REQSRC3 Position */ #define PDMA_REQSEL0_3_REQSRC3_Msk (0x7ful << PDMA_REQSEL0_3_REQSRC3_Pos) /*!< PDMA_T::REQSEL0_3: REQSRC3 Mask */ #define PDMA_REQSEL4_7_REQSRC4_Pos (0) /*!< PDMA_T::REQSEL4_7: REQSRC4 Position */ #define PDMA_REQSEL4_7_REQSRC4_Msk (0x7ful << PDMA_REQSEL4_7_REQSRC4_Pos) /*!< PDMA_T::REQSEL4_7: REQSRC4 Mask */ #define PDMA_REQSEL4_7_REQSRC5_Pos (8) /*!< PDMA_T::REQSEL4_7: REQSRC5 Position */ #define PDMA_REQSEL4_7_REQSRC5_Msk (0x7ful << PDMA_REQSEL4_7_REQSRC5_Pos) /*!< PDMA_T::REQSEL4_7: REQSRC5 Mask */ #define PDMA_REQSEL4_7_REQSRC6_Pos (16) /*!< PDMA_T::REQSEL4_7: REQSRC6 Position */ #define PDMA_REQSEL4_7_REQSRC6_Msk (0x7ful << PDMA_REQSEL4_7_REQSRC6_Pos) /*!< PDMA_T::REQSEL4_7: REQSRC6 Mask */ #define PDMA_REQSEL4_7_REQSRC7_Pos (24) /*!< PDMA_T::REQSEL4_7: REQSRC7 Position */ #define PDMA_REQSEL4_7_REQSRC7_Msk (0x7ful << PDMA_REQSEL4_7_REQSRC7_Pos) /*!< PDMA_T::REQSEL4_7: REQSRC7 Mask */ #define PDMA_REQSEL8_11_REQSRC8_Pos (0) /*!< PDMA_T::REQSEL8_11: REQSRC8 Position */ #define PDMA_REQSEL8_11_REQSRC8_Msk (0x7ful << PDMA_REQSEL8_11_REQSRC8_Pos) /*!< PDMA_T::REQSEL8_11: REQSRC8 Mask */ #define PDMA_REQSEL8_11_REQSRC9_Pos (8) /*!< PDMA_T::REQSEL8_11: REQSRC9 Position */ #define PDMA_REQSEL8_11_REQSRC9_Msk (0x7ful << PDMA_REQSEL8_11_REQSRC9_Pos) /*!< PDMA_T::REQSEL8_11: REQSRC9 Mask */ #define PDMA_REQSEL8_11_REQSRC10_Pos (16) /*!< PDMA_T::REQSEL8_11: REQSRC10 Position */ #define PDMA_REQSEL8_11_REQSRC10_Msk (0x7ful << PDMA_REQSEL8_11_REQSRC10_Pos) /*!< PDMA_T::REQSEL8_11: REQSRC10 Mask */ #define PDMA_REQSEL8_11_REQSRC11_Pos (24) /*!< PDMA_T::REQSEL8_11: REQSRC11 Position */ #define PDMA_REQSEL8_11_REQSRC11_Msk (0x7ful << PDMA_REQSEL8_11_REQSRC11_Pos) /*!< PDMA_T::REQSEL8_11: REQSRC11 Mask */ #define PDMA_REQSEL12_15_REQSRC12_Pos (0) /*!< PDMA_T::REQSEL12_15: REQSRC12 Position */ #define PDMA_REQSEL12_15_REQSRC12_Msk (0x7ful << PDMA_REQSEL12_15_REQSRC12_Pos) /*!< PDMA_T::REQSEL12_15: REQSRC12 Mask */ #define PDMA_REQSEL12_15_REQSRC13_Pos (8) /*!< PDMA_T::REQSEL12_15: REQSRC13 Position */ #define PDMA_REQSEL12_15_REQSRC13_Msk (0x7ful << PDMA_REQSEL12_15_REQSRC13_Pos) /*!< PDMA_T::REQSEL12_15: REQSRC13 Mask */ #define PDMA_REQSEL12_15_REQSRC14_Pos (16) /*!< PDMA_T::REQSEL12_15: REQSRC14 Position */ #define PDMA_REQSEL12_15_REQSRC14_Msk (0x7ful << PDMA_REQSEL12_15_REQSRC14_Pos) /*!< PDMA_T::REQSEL12_15: REQSRC14 Mask */ #define PDMA_REQSEL12_15_REQSRC15_Pos (24) /*!< PDMA_T::REQSEL12_15: REQSRC15 Position */ #define PDMA_REQSEL12_15_REQSRC15_Msk (0x7ful << PDMA_REQSEL12_15_REQSRC15_Pos) /*!< PDMA_T::REQSEL12_15: REQSRC15 Mask */ #define PDMA_STCRn_STC_Pos (0) /*!< PDMA_T::STCRn: STC Position */ #define PDMA_STCRn_STC_Msk (0xfffful << PDMA_STCRn_STC_Pos) /*!< PDMA_T::STCRn: STC Mask */ #define PDMA_ASOCRn_SASOL_Pos (0) /*!< PDMA_T::ASOCRn: SASOL Position */ #define PDMA_ASOCRn_SASOL_Msk (0xfffful << PDMA_ASOCRn_SASOL_Pos) /*!< PDMA_T::ASOCRn: SASOL Mask */ #define PDMA_ASOCRn_DASOL_Pos (16) /*!< PDMA_T::ASOCRn: DASOL Position */ #define PDMA_ASOCRn_DASOL_Msk (0xfffful << PDMA_ASOCRn_DASOL_Pos) /*!< PDMA_T::ASOCRn: DASOL Mask */ #define PDMA_RCNTn_RCNT_Pos (0) /*!< PDMA_T::RCNTn: RCNT Position */ #define PDMA_RCNTn_RCNT_Msk (0xfffful << PDMA_STCRn_RCNT_Pos) /*!< PDMA_T::RCNTn: RCNT Mask */ #define PDMA_AICTLn_SAICNT_Pos (0) /*!< PDMA_T::AICTLn: SAICNT Position */ #define PDMA_AICTLn_SAICNT_Msk (0xfffful << PDMA_ASOCRn_SASOL_Pos) /*!< PDMA_T::AICTLn: SAICNT Mask */ #define PDMA_AICTLn_DAICNT_Pos (16) /*!< PDMA_T::AICTLn: DAICNT Position */ #define PDMA_AICTLn_DAICNT_Msk (0xfffful << PDMA_ASOCRn_DASOL_Pos) /*!< PDMA_T::AICTLn: DAICNT Mask */ /**@}*/ /* PDMA_CONST */ /**@}*/ /* end of PDMA register group */ /**@}*/ /* end of REGISTER group */ #if defined ( __CC_ARM ) #pragma no_anon_unions #endif #endif /* __PDMA_REG_H__ */