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723 lines
52 KiB
C
723 lines
52 KiB
C
/**************************************************************************//**
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* @file usbd_reg.h
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* @version V1.00
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* @brief USBD register definition header file
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*
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* SPDX-License-Identifier: Apache-2.0
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* @copyright (C) 2020 Nuvoton Technology Corp. All rights reserved.
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*****************************************************************************/
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#ifndef __USBD_REG_H__
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#define __USBD_REG_H__
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#if defined ( __CC_ARM )
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#pragma anon_unions
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#endif
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/**
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@addtogroup REGISTER Control Register
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@{
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*/
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/**
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@addtogroup USBD USB Device Controller (USBD)
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Memory Mapped Structure for USBD Controller
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@{
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*/
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typedef struct
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{
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/**
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* @var USBD_EP_T::BUFSEG
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* Offset: 0x000 Endpoint n Buffer Segmentation Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[8:3] |BUFSEG |Endpoint Buffer Segmentation
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* | | |It is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is
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* | | |USBD_SRAM address + { BUFSEG, 3'b000}
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* | | |Where the USBD_SRAM address = USBD_BA+0x100h.
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* | | |Refer to the section 1.1.5.7 for the endpoint SRAM structure and its description.
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* @var USBD_EP_T::MXPLD
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* Offset: 0x004 Endpoint n Maximal Payload Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[8:0] |MXPLD |Maximal Payload
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* | | |Define the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)
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* | | |It also used to indicate that the endpoint is ready to be transmitted in IN token or received in OUT token.
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* | | |(1) When the register is written by CPU,
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* | | |For IN token, the value of MXPLD is used to define the data length to be transmitted and indicate the data buffer is ready.
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* | | |For OUT token, it means that the controller is ready to receive data from the host and the value of MXPLD is the maximal data length comes from host.
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* | | |(2) When the register is read by CPU,
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* | | |For IN token, the value of MXPLD is indicated by the data length be transmitted to host
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* | | |For OUT token, the value of MXPLD is indicated the actual data length receiving from host.
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* | | |Note: Once MXPLD is written, the data packets will be transmitted/received immediately after IN/OUT token arrived.
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* @var USBD_EP_T::CFG
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* Offset: 0x008 Endpoint n Configuration Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[3:0] |EPNUM |Endpoint Number
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* | | |These bits are used to define the endpoint number of the current endpoint
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* |[4] |ISOCH |Isochronous Endpoint
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* | | |This bit is used to set the endpoint as Isochronous endpoint, no handshake.
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* | | |0 = No Isochronous endpoint.
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* | | |1 = Isochronous endpoint.
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* |[6:5] |STATE |Endpoint STATE
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* | | |00 = Endpoint is Disabled.
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* | | |01 = Out endpoint.
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* | | |10 = IN endpoint.
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* | | |11 = Undefined.
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* |[7] |DSQSYNC |Data Sequence Synchronization
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* | | |0 = DATA0 PID.
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* | | |1 = DATA1 PID.
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* | | |Note: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction
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* | | |hardware will toggle automatically in IN token base on the bit.
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* |[9] |CSTALL |Clear STALL Response
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* | | |0 = Disable the device to clear the STALL handshake in setup stage.
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* | | |1 = Clear the device to response STALL handshake in setup stage.
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* @var USBD_EP_T::CFGP
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* Offset: 0x00C Endpoint n Set Stall and Clear In/Out Ready Control Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |CLRRDY |Clear Ready
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* | | |When the USBD_MXPLDx register is set by user, it means that the endpoint is ready to transmit or receive data
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* | | |If the user wants to disable this transaction before the transaction start, users can set this bit to 1 to disable it and it is auto clear to 0.
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* | | |For IN token, write '1' to clear the IN token had ready to transmit the data to USB.
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* | | |For OUT token, write '1' to clear the OUT token had ready to receive the data from USB.
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* | | |This bit is write 1 only and is always 0 when it is read back.
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* |[1] |SSTALL |Set STALL
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* | | |0 = Disable the device to response STALL.
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* | | |1 = Set the device to respond STALL automatically.
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*/
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__IO uint32_t BUFSEG; /*!< [0x0000] Endpoint n Buffer Segmentation Register */
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__IO uint32_t MXPLD; /*!< [0x0004] Endpoint n Maximal Payload Register */
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__IO uint32_t CFG; /*!< [0x0008] Endpoint n Configuration Register */
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__IO uint32_t CFGP; /*!< [0x000c] Endpoint n Set Stall and Clear In/Out Ready Control Register */
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} USBD_EP_T;
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typedef struct
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{
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/**
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* @var USBD_T::INTEN
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* Offset: 0x00 USB Device Interrupt Enable Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |BUSIEN |Bus Event Interrupt Enable Bit
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* | | |0 = BUS event interrupt Disabled.
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* | | |1 = BUS event interrupt Enabled.
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* |[1] |USBIEN |USB Event Interrupt Enable Bit
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* | | |0 = USB event interrupt Disabled.
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* | | |1 = USB event interrupt Enabled.
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* |[2] |VBDETIEN |VBUS Detection Interrupt Enable Bit
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* | | |0 = VBUS detection Interrupt Disabled.
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* | | |1 = VBUS detection Interrupt Enabled.
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* |[3] |NEVWKIEN |USB No-event-wake-up Interrupt Enable Bit
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* | | |0 = No-event-wake-up Interrupt Disabled.
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* | | |1 = No-event-wake-up Interrupt Enabled.
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* |[4] |SOFIEN |Start of Frame Interrupt Enable Bit
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* | | |0 = SOF Interrupt Disabled.
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* | | |1 = SOF Interrupt Enabled.
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* |[5] |BCDIEN |Battery Charge Detect Interrupt Enable Bit (Only for M258)
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* | | |0 = BCD Interrupt Disabled.
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* | | |1 = BCD Interrupt Enabled.
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* |[8] |WKEN |Wake-up Function Enable Bit
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* | | |0 = USB wake-up function Disabled.
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* | | |1 = USB wake-up function Enabled.
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* |[15] |INNAKEN |Active NAK Function and Its Status in IN Token
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* | | |0 = When device responds NAK after receiving IN token, IN NAK status will not be updated to USBD_EPSTS0 and USBD_EPSTS1register, so that the USB interrupt event will not be asserted.
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* | | |1 = IN NAK status will be updated to USBD_EPSTS0 and USBD_EPSTS1 register and the USB interrupt event will be asserted, when the device responds NAK after receiving IN token.
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* @var USBD_T::INTSTS
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* Offset: 0x04 USB Device Interrupt Event Status Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |BUSIF |BUS Interrupt Status
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* | | |The BUS event means that there is one of the suspense or the resume function in the bus.
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* | | |0 = No BUS event occurred.
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* | | |1 = Bus event occurred; check USBD_ATTR[3:0] to know which kind of bus event was occurred, cleared by write 1 to USBD_INTSTS[0].
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* |[1] |USBIF |USB Event Interrupt Status
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* | | |The USB event includes the SETUP Token, IN Token, OUT ACK, ISO IN, or ISO OUT events in the bus.
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* | | |0 = No USB event occurred.
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* | | |1 = USB event occurred, check EPSTS0~11[3:0] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[1] or EPSTS0~11 and SETUP (USBD_INTSTS[31]).
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* |[2] |VBDETIF |VBUS Detection Interrupt Status
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* | | |0 = There is not attached/detached event in the USB.
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* | | |1 = There is attached/detached event in the USB bus and it is cleared by write 1 to USBD_INTSTS[2].
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* |[3] |NEVWKIF |No-event-wake-up Interrupt Status
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* | | |0 = NEVWK event does not occur.
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* | | |1 = No-event-wake-up event occurred, cleared by write 1 to USBD_INTSTS[3].
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* |[4] |SOFIF |Start of Frame Interrupt Status
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* | | |0 = SOF event does not occur.
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* | | |1 = SOF event occurred, cleared by write 1 to USBD_INTSTS[4].
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* |[5] |BCDIF |Battery Charge Detect Interrupt Status (Only for M258)
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* | | |It support VBUSOK`DCD interrupt status
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* | | |When USBD_BCDC[0] = 1 ,USBD_BCDC[3:1] = 001 ,VBUS detect
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* | | |When USBD_BCDC[0] = 1 ,USBD_BCDC[3:1] = 010 ,DCD detect
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* | | |0 = BCD event does not occur.
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* | | |1 = BCD event occurred, cleared by write 1 to USBD_INTSTS[5].
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* |[16] |EPEVT0 |Endpoint 0's USB Event Status
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* | | |0 = No event occurred in endpoint 0.
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* | | |1 = USB event occurred on Endpoint 0, check USBD_EPSTS0[3:0] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[16] or USBD_INTSTS[1].
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* |[17] |EPEVT1 |Endpoint 1's USB Event Status
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* | | |0 = No event occurred in endpoint 1.
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* | | |1 = USB event occurred on Endpoint 1, check USBD_EPSTS0[7:4] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[17] or USBD_INTSTS[1].
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* |[18] |EPEVT2 |Endpoint 2's USB Event Status
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* | | |0 = No event occurred in endpoint 2.
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* | | |1 = USB event occurred on Endpoint 2, check USBD_EPSTS0[11:8] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[18] or USBD_INTSTS[1].
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* |[19] |EPEVT3 |Endpoint 3's USB Event Status
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* | | |0 = No event occurred in endpoint 3.
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* | | |1 = USB event occurred on Endpoint 3, check USBD_EPSTS0[15:12] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[19] or USBD_INTSTS[1].
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* |[20] |EPEVT4 |Endpoint 4's USB Event Status
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* | | |0 = No event occurred in endpoint 4.
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* | | |1 = USB event occurred on Endpoint 4, check USBD_EPSTS0[19:16] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[20] or USBD_INTSTS[1].
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* |[21] |EPEVT5 |Endpoint 5's USB Event Status
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* | | |0 = No event occurred in endpoint 5.
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* | | |1 = USB event occurred on Endpoint 5, check USBD_EPSTS0[23:20] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[21] or USBD_INTSTS[1].
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* |[22] |EPEVT6 |Endpoint 6's USB Event Status
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* | | |0 = No event occurred in endpoint 6.
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* | | |1 = USB event occurred on Endpoint 6, check USBD_EPSTS0[27:24] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[22] or USBD_INTSTS[1].
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* |[23] |EPEVT7 |Endpoint 7's USB Event Status
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* | | |0 = No event occurred in endpoint 7.
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* | | |1 = USB event occurred on Endpoint 7, check USBD_EPSTS0[31:28] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[23] or USBD_INTSTS[1].
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* |[24] |EPEVT8 |Endpoint 8's USB Event Status
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* | | |0 = No event occurred in endpoint 8.
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* | | |1 = USB event occurred on Endpoint 8, check USBD_EPSTS1[3 :0] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[24] or USBD_INTSTS[1].
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* |[25] |EPEVT9 |Endpoint 9's USB Event Status
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* | | |0 = No event occurred in endpoint 9.
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* | | |1 = USB event occurred on Endpoint 9, check USBD_EPSTS1[7 :4] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[25] or USBD_INTSTS[1].
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* |[26] |EPEVT10 |Endpoint 10's USB Event Status
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* | | |0 = No event occurred in endpoint 10.
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* | | |1 = USB event occurred on Endpoint 10, check USBD_EPSTS1[11 :8] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[26] or USBD_INTSTS[1].
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* |[27] |EPEVT11 |Endpoint 11's USB Event Status
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* | | |0 = No event occurred in endpoint 11.
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* | | |1 = USB event occurred on Endpoint 11, check USBD_EPSTS1[15:12] to know which kind of USB event was occurred, cleared by write 1 to USBD_INTSTS[27] or USBD_INTSTS[1].
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* |[31] |SETUP |Setup Event Status
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* | | |0 = No Setup event.
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* | | |1 = Setup event occurred, cleared by write 1 to USBD_INTSTS[31].
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* @var USBD_T::FADDR
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* Offset: 0x08 USB Device Function Address Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[6:0] |FADDR |USB Device Function Address
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* @var USBD_T::EPSTS
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* Offset: 0x0C USB Device Endpoint Status Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[7] |OV |Overrun
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* | | |It indicates that the received data is over the maximum payload number or not.
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* | | |0 = No overrun.
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* | | |1 = Out Data is more than the Max Payload in MXPLD register or the Setup Data is more than 8 Bytes.
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* @var USBD_T::ATTR
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* Offset: 0x10 USB Device Bus Status and Attribution Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |USBRST |USB Reset Status
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* | | |0 = Bus no reset.
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* | | |1 = Bus reset when SE0 (single-ended 0) more than 2.5us.
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* | | |Note: This bit is read only.
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* |[1] |SUSPEND |Suspend Status
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* | | |0 = Bus no suspend.
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* | | |1 = Bus idle more than 3ms, either cable is plugged off or host is sleeping.
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* | | |Note: This bit is read only.
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* |[2] |RESUME |Resume Status
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* | | |0 = No bus resume.
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* | | |1 = Resume from suspend.
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* | | |Note: This bit is read only.
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* |[3] |TOUT |Time-out Status
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* | | |0 = No time-out.
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* | | |1 = No Bus response more than 18 bits time (1 / 12MHz * 18 = 1.5 us).
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* | | |Note: This bit is read only.
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* |[4] |PHYEN |PHY Transceiver Function Enable Bit
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* | | |0 = PHY transceiver function Disabled.
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* | | |1 = PHY transceiver function Enabled.
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* |[5] |RWAKEUP |Remote Wake-up
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* | | |0 = Release the USB bus from K state.
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* | | |1 = Force USB bus to K (USB_D+ low, USB_D-: high) state, used for remote wake-up.
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* |[7] |USBEN |USB Controller Enable Bit
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* | | |0 = USB Controller Disabled.
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* | | |1 = USB Controller Enabled.
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* |[8] |DPPUEN |Pull-up Resistor on USB_DP Enable Bit
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* | | |0 = Pull-up resistor in USB_D+ bus Disabled.
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* | | |1 = Pull-up resistor in USB_D+ bus Active.
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* |[9] |PWRDN |Power-down PHY Transceiver, Low Active
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* | | |0 = Power-down related circuit of PHY transceiver.
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* | | |1 = Turn-on related circuit of PHY transceiver.
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* |[10] |BYTEM |CPU Access USB SRAM Size Mode Selection
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* | | |0 = Word mode: The size of the transfer from CPU to USB SRAM can be Word only.
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* | | |1 = Byte mode: The size of the transfer from CPU to USB SRAM can be Byte only.
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* |[11] |LPMACK |LPM Token Acknowledge Enable Bit
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* | | |The NYET/ACK will be returned only on a successful LPM transaction if no errors in both the EXT token and the LPM token and a valid bLinkState = 0001 (L1) is received, else ERROR and STALL will be returned automatically, respectively.
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* | | |0= the valid LPM Token will be NYET.
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* | | |1= the valid LPM Token will be ACK.
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* |[12] |L1SUSPEND |LPM L1 Suspend
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* | | |0 = Bus no L1 state suspend.
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* | | |1 = This bit is set by the hardware when LPM command to enter the L1 state is successfully received and acknowledged.
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* | | |Note: This bit is read only.
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* |[13] |L1RESUME |LPM L1 Resume
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* | | |0 = Bus no LPM L1 state resume.
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* | | |1 = LPM L1 state Resume from LPM L1 state suspend.
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* | | |Note: This bit is read only.
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* @var USBD_T::VBUSDET
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* Offset: 0x14 USB Device VBUS Detection Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[0] |VBUSDET |Device VBUS Detection
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* | | |0 = Controller is not attached to the USB host.
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* | | |1 = Controller is attached to the USB host.
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* @var USBD_T::STBUFSEG
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* Offset: 0x18 SETUP Token Buffer Segmentation Register
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[8:3] |STBUFSEG |SETUP Token Buffer Segmentation
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* | | |It is used to indicate the offset address for the SETUP token with the USB Device SRAM starting address The effective starting address is
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* | | |USBD_SRAM address + {STBUFSEG, 3'b000}
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* | | |Where the USBD_SRAM address = USBD_BA+0x100h.
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* | | |Note: It is used for SETUP token only.
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* @var USBD_T::EPSTS0
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* Offset: 0x20 USB Device Endpoint Status Register 0
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* ---------------------------------------------------------------------------------------------------
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* |Bits |Field |Descriptions
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* | :----: | :----: | :---- |
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* |[03:00] |EPSTS0 |Endpoint 0 Status
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* | | |These bits are used to indicate the current status of this endpoint
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* | | |0000 = In ACK.
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* | | |0001 = In NAK.
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* | | |0010 = Out Packet Data0 ACK.
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* | | |0011 = Setup ACK.
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* | | |0110 = Out Packet Data1 ACK.
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* | | |0111 = Isochronous transfer end.
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* |[07:04] |EPSTS1 |Endpoint 1 Status
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* | | |These bits are used to indicate the current status of this endpoint
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* | | |0000 = In ACK.
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* | | |0001 = In NAK.
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* | | |0010 = Out Packet Data0 ACK.
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* | | |0011 = Setup ACK.
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* | | |0110 = Out Packet Data1 ACK.
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* | | |0111 = Isochronous transfer end.
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* |[11:08] |EPSTS2 |Endpoint 2 Status
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* | | |These bits are used to indicate the current status of this endpoint
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* | | |0000 = In ACK.
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* | | |0001 = In NAK.
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* | | |0010 = Out Packet Data0 ACK.
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* | | |0011 = Setup ACK.
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* | | |0110 = Out Packet Data1 ACK.
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* | | |0111 = Isochronous transfer end.
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* |[15:12] |EPSTS3 |Endpoint 3 Status
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* | | |These bits are used to indicate the current status of this endpoint
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* | | |0000 = In ACK.
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* | | |0001 = In NAK.
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* | | |0010 = Out Packet Data0 ACK.
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* | | |0011 = Setup ACK.
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* | | |0110 = Out Packet Data1 ACK.
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* | | |0111 = Isochronous transfer end.
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* |[19:16] |EPSTS4 |Endpoint 4 Status
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* | | |These bits are used to indicate the current status of this endpoint
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* | | |0000 = In ACK.
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* | | |0001 = In NAK.
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* | | |0010 = Out Packet Data0 ACK.
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* | | |0011 = Setup ACK.
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* | | |0110 = Out Packet Data1 ACK.
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* | | |0111 = Isochronous transfer end.
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* |[23:20] |EPSTS5 |Endpoint 5 Status
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* | | |These bits are used to indicate the current status of this endpoint
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* | | |0000 = In ACK.
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* | | |0001 = In NAK.
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* | | |0010 = Out Packet Data0 ACK.
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* | | |0011 = Setup ACK.
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* | | |0110 = Out Packet Data1 ACK.
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* | | |0111 = Isochronous transfer end.
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* |[27:24] |EPSTS6 |Endpoint 6 Status
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* | | |These bits are used to indicate the current status of this endpoint
|
|
* | | |0000 = In ACK.
|
|
* | | |0001 = In NAK.
|
|
* | | |0010 = Out Packet Data0 ACK.
|
|
* | | |0011 = Setup ACK.
|
|
* | | |0110 = Out Packet Data1 ACK.
|
|
* | | |0111 = Isochronous transfer end.
|
|
* |[31:28] |EPSTS7 |Endpoint 7 Status
|
|
* | | |These bits are used to indicate the current status of this endpoint
|
|
* | | |0000 = In ACK.
|
|
* | | |0001 = In NAK.
|
|
* | | |0010 = Out Packet Data0 ACK.
|
|
* | | |0011 = Setup ACK.
|
|
* | | |0110 = Out Packet Data1 ACK.
|
|
* | | |0111 = Isochronous transfer end.
|
|
* @var USBD_T::EPSTS1
|
|
* Offset: 0x24 USB Device Endpoint Status Register 1
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[3:0] |EPSTS8 |Endpoint 8 Status
|
|
* | | |These bits are used to indicate the current status of this endpoint
|
|
* | | |0000 = In ACK.
|
|
* | | |0001 = In NAK.
|
|
* | | |0010 = Out Packet Data0 ACK.
|
|
* | | |0011 = Setup ACK.
|
|
* | | |0110 = Out Packet Data1 ACK.
|
|
* | | |0111 = Isochronous transfer end.
|
|
* |[7:4] |EPSTS9 |Endpoint 9 Status
|
|
* | | |These bits are used to indicate the current status of this endpoint
|
|
* | | |0000 = In ACK.
|
|
* | | |0001 = In NAK.
|
|
* | | |0010 = Out Packet Data0 ACK.
|
|
* | | |0011 = Setup ACK.
|
|
* | | |0110 = Out Packet Data1 ACK.
|
|
* | | |0111 = Isochronous transfer end.
|
|
* |[11:8] |EPSTS10 |Endpoint 10 Status
|
|
* | | |These bits are used to indicate the current status of this endpoint
|
|
* | | |0000 = In ACK.
|
|
* | | |0001 = In NAK.
|
|
* | | |0010 = Out Packet Data0 ACK.
|
|
* | | |0011 = Setup ACK.
|
|
* | | |0110 = Out Packet Data1 ACK.
|
|
* | | |0111 = Isochronous transfer end.
|
|
* |[15:12] |EPSTS11 |Endpoint 11 Status
|
|
* | | |These bits are used to indicate the current status of this endpoint
|
|
* | | |0000 = In ACK.
|
|
* | | |0001 = In NAK.
|
|
* | | |0010 = Out Packet Data0 ACK.
|
|
* | | |0011 = Setup ACK.
|
|
* | | |0110 = Out Packet Data1 ACK.
|
|
* | | |0111 = Isochronous transfer end.
|
|
* @var USBD_T::LPMATTR
|
|
* Offset: 0x88 USB LPM Attribution Register
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[3:0] |LPMLINKSTS|LPM Link State
|
|
* | | |These bits contain the bLinkState received with last ACK LPM Token
|
|
* |[7:4] |LPMBESL |LPM Best Effort Service Latency
|
|
* | | |These bits contain the BESL value received with last ACK LPM Token
|
|
* |[8] |LPMRWAKUP |LPM Remote Wakeup
|
|
* | | |This bit contains the bRemoteWake value received with last ACK LPM Token
|
|
* @var USBD_T::FN
|
|
* Offset: 0x8C USB Frame number Register
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[10:0] |FN |Frame Number
|
|
* | | |These bits contain the 11-bits frame number in the last received SOF packet.
|
|
* @var USBD_T::SE0
|
|
* Offset: 0x90 USB Device Drive SE0 Control Register
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[0] |SE0 |Drive Single Ended Zero in USB Bus
|
|
* | | |The Single Ended Zero (SE0) is when both lines (USB_D+ and USB_D-) are being pulled low.
|
|
* | | |0 = Normal operation.
|
|
* | | |1 = Force USB PHY transceiver to drive SE0.
|
|
* @var USBD_T::BCDC
|
|
* Offset: 0x94 USB Device Battery Charge Detect Control Register
|
|
* ---------------------------------------------------------------------------------------------------
|
|
* |Bits |Field |Descriptions
|
|
* | :----: | :----: | :---- |
|
|
* |[0] |BCDEN |Battery Charge Detect Enable
|
|
* | | |Enable battery charge detect, user select DETMOD then observer DETSTS to decide contact
|
|
* | | |port PHY be used to BCD, can't be used to communication when BCDEN = 1
|
|
* | | |0 = Normal operation
|
|
* | | |1 = Battery charge detect operation
|
|
* |[3:1] |DETMOD |Detect Mode
|
|
* | | |When BCDEN = 1, select detect mode to perform
|
|
* | | |000 = Idle, nothing to detect
|
|
* | | |001 = VBUS detect, detect USB VBUS whether great than threshold voltage
|
|
* | | |010 = Data contact detect(DCD), detect data pin contact status
|
|
* | | |011 = Primary detect(PD), distinguish between (SDP or NUSP) and (CDP or DCP)
|
|
* | | |100 = Secondary detect(SD), distinguish between CDP and DCP
|
|
* | | |101~111 = Reserved
|
|
* |[4] |DETSTS |Detect Status (Read Only)
|
|
* | | |When DETMOD = 000(IDLE), DETSTS = 0
|
|
* | | |
|
|
* | | |When DETMOD = 001(VBUS detect)
|
|
* | | |000 = VBUS is less than threshold voltage
|
|
* | | |001 = VBUS is greater than threshold voltage
|
|
* | | |
|
|
* | | |When DETMOD = 010(DCD detect)
|
|
* | | |000 = Data pin not contacted
|
|
* | | |001 = Data pin contacted
|
|
* | | |
|
|
* | | |When DETMOD = 011(PD)
|
|
* | | |000 = SDP port or not USB support port. If it is not USB support, NUSP is 1
|
|
* | | |001 = DCP or CDP
|
|
* | | |
|
|
* | | |When DETMOD = 100(SD)
|
|
* | | |000 = CDP
|
|
* | | |001 = DCP
|
|
* |[5] |NUSP |Not USB Support Port (Read Only)
|
|
* | | |When DETMOD = 011(PD), detect DM be pulled logic high, it means contact port not USB support port
|
|
* | | |0 = USB support port
|
|
* | | |1 = Not USB support port
|
|
*/
|
|
|
|
__IO uint32_t INTEN; /*!< [0x0000] USB Device Interrupt Enable Register */
|
|
__IO uint32_t INTSTS; /*!< [0x0004] USB Device Interrupt Event Status Register */
|
|
__IO uint32_t FADDR; /*!< [0x0008] USB Device Function Address Register */
|
|
__I uint32_t EPSTS; /*!< [0x000c] USB Device Endpoint Status Register */
|
|
__IO uint32_t ATTR; /*!< [0x0010] USB Device Bus Status and Attribution Register */
|
|
__I uint32_t VBUSDET; /*!< [0x0014] USB Device VBUS Detection Register */
|
|
__IO uint32_t STBUFSEG; /*!< [0x0018] SETUP Token Buffer Segmentation Register */
|
|
/* @cond HIDDEN_SYMBOLS */
|
|
__I uint32_t RESERVE0[1];
|
|
/* @endcond //HIDDEN_SYMBOLS */
|
|
__I uint32_t EPSTS0; /*!< [0x0020] USB Device Endpoint Status Register 0 */
|
|
__I uint32_t EPSTS1; /*!< [0x0024] USB Device Endpoint Status Register 1 */
|
|
/* @cond HIDDEN_SYMBOLS */
|
|
__I uint32_t RESERVE1[24];
|
|
/* @endcond //HIDDEN_SYMBOLS */
|
|
__I uint32_t LPMATTR; /*!< [0x0088] USB LPM Attribution Register */
|
|
__I uint32_t FN; /*!< [0x008c] USB Frame number Register */
|
|
__IO uint32_t SE0; /*!< [0x0090] USB Device Drive SE0 Control Register */
|
|
__IO uint32_t BCDC; /*!< [0x0094] USB Device Battery Charge Detect Control Register */
|
|
/* @cond HIDDEN_SYMBOLS */
|
|
__I uint32_t RESERVE2[282];
|
|
/* @endcond //HIDDEN_SYMBOLS */
|
|
USBD_EP_T EP[12]; /*!< [0x0500~0x60C] USB Device Endpoints(0~16) */
|
|
} USBD_T;
|
|
|
|
/**
|
|
@addtogroup USBD_CONST USBD Bit Field Definition
|
|
Constant Definitions for USBD Controller
|
|
@{ */
|
|
|
|
#define USBD_INTEN_BUSIEN_Pos (0) /*!< USBD_T::INTEN: BUSIEN Position */
|
|
#define USBD_INTEN_BUSIEN_Msk (0x1ul << USBD_INTEN_BUSIEN_Pos) /*!< USBD_T::INTEN: BUSIEN Mask */
|
|
|
|
#define USBD_INTEN_USBIEN_Pos (1) /*!< USBD_T::INTEN: USBIEN Position */
|
|
#define USBD_INTEN_USBIEN_Msk (0x1ul << USBD_INTEN_USBIEN_Pos) /*!< USBD_T::INTEN: USBIEN Mask */
|
|
|
|
#define USBD_INTEN_VBDETIEN_Pos (2) /*!< USBD_T::INTEN: VBDETIEN Position */
|
|
#define USBD_INTEN_VBDETIEN_Msk (0x1ul << USBD_INTEN_VBDETIEN_Pos) /*!< USBD_T::INTEN: VBDETIEN Mask */
|
|
|
|
#define USBD_INTEN_NEVWKIEN_Pos (3) /*!< USBD_T::INTEN: NEVWKIEN Position */
|
|
#define USBD_INTEN_NEVWKIEN_Msk (0x1ul << USBD_INTEN_NEVWKIEN_Pos) /*!< USBD_T::INTEN: NEVWKIEN Mask */
|
|
|
|
#define USBD_INTEN_SOFIEN_Pos (4) /*!< USBD_T::INTEN: SOFIEN Position */
|
|
#define USBD_INTEN_SOFIEN_Msk (0x1ul << USBD_INTEN_SOFIEN_Pos) /*!< USBD_T::INTEN: SOFIEN Mask */
|
|
|
|
#define USBD_INTEN_BCDIEN_Pos (5) /*!< USBD_T::INTEN: BCDIEN Position */
|
|
#define USBD_INTEN_BCDIEN_Msk (0x1ul << USBD_INTEN_BCDIEN_Pos) /*!< USBD_T::INTEN: BCDIEN Mask */
|
|
|
|
#define USBD_INTEN_WKEN_Pos (8) /*!< USBD_T::INTEN: WKEN Position */
|
|
#define USBD_INTEN_WKEN_Msk (0x1ul << USBD_INTEN_WKEN_Pos) /*!< USBD_T::INTEN: WKEN Mask */
|
|
|
|
#define USBD_INTEN_INNAKEN_Pos (15) /*!< USBD_T::INTEN: INNAKEN Position */
|
|
#define USBD_INTEN_INNAKEN_Msk (0x1ul << USBD_INTEN_INNAKEN_Pos) /*!< USBD_T::INTEN: INNAKEN Mask */
|
|
|
|
#define USBD_INTSTS_BUSIF_Pos (0) /*!< USBD_T::INTSTS: BUSIF Position */
|
|
#define USBD_INTSTS_BUSIF_Msk (0x1ul << USBD_INTSTS_BUSIF_Pos) /*!< USBD_T::INTSTS: BUSIF Mask */
|
|
|
|
#define USBD_INTSTS_USBIF_Pos (1) /*!< USBD_T::INTSTS: USBIF Position */
|
|
#define USBD_INTSTS_USBIF_Msk (0x1ul << USBD_INTSTS_USBIF_Pos) /*!< USBD_T::INTSTS: USBIF Mask */
|
|
|
|
#define USBD_INTSTS_VBDETIF_Pos (2) /*!< USBD_T::INTSTS: VBDETIF Position */
|
|
#define USBD_INTSTS_VBDETIF_Msk (0x1ul << USBD_INTSTS_VBDETIF_Pos) /*!< USBD_T::INTSTS: VBDETIF Mask */
|
|
|
|
#define USBD_INTSTS_NEVWKIF_Pos (3) /*!< USBD_T::INTSTS: NEVWKIF Position */
|
|
#define USBD_INTSTS_NEVWKIF_Msk (0x1ul << USBD_INTSTS_NEVWKIF_Pos) /*!< USBD_T::INTSTS: NEVWKIF Mask */
|
|
|
|
#define USBD_INTSTS_SOFIF_Pos (4) /*!< USBD_T::INTSTS: SOFIF Position */
|
|
#define USBD_INTSTS_SOFIF_Msk (0x1ul << USBD_INTSTS_SOFIF_Pos) /*!< USBD_T::INTSTS: SOFIF Mask */
|
|
|
|
#define USBD_INTSTS_BCDIF_Pos (5) /*!< USBD_T::INTSTS: BCDIF Position */
|
|
#define USBD_INTSTS_BCDIF_Msk (0x1ul << USBD_INTSTS_BCDIF_Pos) /*!< USBD_T::INTSTS: BCDIF Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT0_Pos (16) /*!< USBD_T::INTSTS: EPEVT0 Position */
|
|
#define USBD_INTSTS_EPEVT0_Msk (0x1ul << USBD_INTSTS_EPEVT0_Pos) /*!< USBD_T::INTSTS: EPEVT0 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT1_Pos (17) /*!< USBD_T::INTSTS: EPEVT1 Position */
|
|
#define USBD_INTSTS_EPEVT1_Msk (0x1ul << USBD_INTSTS_EPEVT1_Pos) /*!< USBD_T::INTSTS: EPEVT1 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT2_Pos (18) /*!< USBD_T::INTSTS: EPEVT2 Position */
|
|
#define USBD_INTSTS_EPEVT2_Msk (0x1ul << USBD_INTSTS_EPEVT2_Pos) /*!< USBD_T::INTSTS: EPEVT2 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT3_Pos (19) /*!< USBD_T::INTSTS: EPEVT3 Position */
|
|
#define USBD_INTSTS_EPEVT3_Msk (0x1ul << USBD_INTSTS_EPEVT3_Pos) /*!< USBD_T::INTSTS: EPEVT3 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT4_Pos (20) /*!< USBD_T::INTSTS: EPEVT4 Position */
|
|
#define USBD_INTSTS_EPEVT4_Msk (0x1ul << USBD_INTSTS_EPEVT4_Pos) /*!< USBD_T::INTSTS: EPEVT4 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT5_Pos (21) /*!< USBD_T::INTSTS: EPEVT5 Position */
|
|
#define USBD_INTSTS_EPEVT5_Msk (0x1ul << USBD_INTSTS_EPEVT5_Pos) /*!< USBD_T::INTSTS: EPEVT5 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT6_Pos (22) /*!< USBD_T::INTSTS: EPEVT6 Position */
|
|
#define USBD_INTSTS_EPEVT6_Msk (0x1ul << USBD_INTSTS_EPEVT6_Pos) /*!< USBD_T::INTSTS: EPEVT6 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT7_Pos (23) /*!< USBD_T::INTSTS: EPEVT7 Position */
|
|
#define USBD_INTSTS_EPEVT7_Msk (0x1ul << USBD_INTSTS_EPEVT7_Pos) /*!< USBD_T::INTSTS: EPEVT7 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT8_Pos (24) /*!< USBD_T::INTSTS: EPEVT8 Position */
|
|
#define USBD_INTSTS_EPEVT8_Msk (0x1ul << USBD_INTSTS_EPEVT8_Pos) /*!< USBD_T::INTSTS: EPEVT8 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT9_Pos (25) /*!< USBD_T::INTSTS: EPEVT9 Position */
|
|
#define USBD_INTSTS_EPEVT9_Msk (0x1ul << USBD_INTSTS_EPEVT9_Pos) /*!< USBD_T::INTSTS: EPEVT9 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT10_Pos (26) /*!< USBD_T::INTSTS: EPEVT10 Position */
|
|
#define USBD_INTSTS_EPEVT10_Msk (0x1ul << USBD_INTSTS_EPEVT10_Pos) /*!< USBD_T::INTSTS: EPEVT10 Mask */
|
|
|
|
#define USBD_INTSTS_EPEVT11_Pos (27) /*!< USBD_T::INTSTS: EPEVT11 Position */
|
|
#define USBD_INTSTS_EPEVT11_Msk (0x1ul << USBD_INTSTS_EPEVT11_Pos) /*!< USBD_T::INTSTS: EPEVT11 Mask */
|
|
|
|
#define USBD_INTSTS_SETUP_Pos (31) /*!< USBD_T::INTSTS: SETUP Position */
|
|
#define USBD_INTSTS_SETUP_Msk (0x1ul << USBD_INTSTS_SETUP_Pos) /*!< USBD_T::INTSTS: SETUP Mask */
|
|
|
|
#define USBD_FADDR_FADDR_Pos (0) /*!< USBD_T::FADDR: FADDR Position */
|
|
#define USBD_FADDR_FADDR_Msk (0x7ful << USBD_FADDR_FADDR_Pos) /*!< USBD_T::FADDR: FADDR Mask */
|
|
|
|
#define USBD_EPSTS_OV_Pos (7) /*!< USBD_T::EPSTS: OV Position */
|
|
#define USBD_EPSTS_OV_Msk (0x1ul << USBD_EPSTS_OV_Pos) /*!< USBD_T::EPSTS: OV Mask */
|
|
|
|
#define USBD_ATTR_USBRST_Pos (0) /*!< USBD_T::ATTR: USBRST Position */
|
|
#define USBD_ATTR_USBRST_Msk (0x1ul << USBD_ATTR_USBRST_Pos) /*!< USBD_T::ATTR: USBRST Mask */
|
|
|
|
#define USBD_ATTR_SUSPEND_Pos (1) /*!< USBD_T::ATTR: SUSPEND Position */
|
|
#define USBD_ATTR_SUSPEND_Msk (0x1ul << USBD_ATTR_SUSPEND_Pos) /*!< USBD_T::ATTR: SUSPEND Mask */
|
|
|
|
#define USBD_ATTR_RESUME_Pos (2) /*!< USBD_T::ATTR: RESUME Position */
|
|
#define USBD_ATTR_RESUME_Msk (0x1ul << USBD_ATTR_RESUME_Pos) /*!< USBD_T::ATTR: RESUME Mask */
|
|
|
|
#define USBD_ATTR_TOUT_Pos (3) /*!< USBD_T::ATTR: TOUT Position */
|
|
#define USBD_ATTR_TOUT_Msk (0x1ul << USBD_ATTR_TOUT_Pos) /*!< USBD_T::ATTR: TOUT Mask */
|
|
|
|
#define USBD_ATTR_PHYEN_Pos (4) /*!< USBD_T::ATTR: PHYEN Position */
|
|
#define USBD_ATTR_PHYEN_Msk (0x1ul << USBD_ATTR_PHYEN_Pos) /*!< USBD_T::ATTR: PHYEN Mask */
|
|
|
|
#define USBD_ATTR_RWAKEUP_Pos (5) /*!< USBD_T::ATTR: RWAKEUP Position */
|
|
#define USBD_ATTR_RWAKEUP_Msk (0x1ul << USBD_ATTR_RWAKEUP_Pos) /*!< USBD_T::ATTR: RWAKEUP Mask */
|
|
|
|
#define USBD_ATTR_USBEN_Pos (7) /*!< USBD_T::ATTR: USBEN Position */
|
|
#define USBD_ATTR_USBEN_Msk (0x1ul << USBD_ATTR_USBEN_Pos) /*!< USBD_T::ATTR: USBEN Mask */
|
|
|
|
#define USBD_ATTR_DPPUEN_Pos (8) /*!< USBD_T::ATTR: DPPUEN Position */
|
|
#define USBD_ATTR_DPPUEN_Msk (0x1ul << USBD_ATTR_DPPUEN_Pos) /*!< USBD_T::ATTR: DPPUEN Mask */
|
|
|
|
#define USBD_ATTR_PWRDN_Pos (9) /*!< USBD_T::ATTR: PWRDN Position */
|
|
#define USBD_ATTR_PWRDN_Msk (0x1ul << USBD_ATTR_PWRDN_Pos) /*!< USBD_T::ATTR: PWRDN Mask */
|
|
|
|
#define USBD_ATTR_BYTEM_Pos (10) /*!< USBD_T::ATTR: BYTEM Position */
|
|
#define USBD_ATTR_BYTEM_Msk (0x1ul << USBD_ATTR_BYTEM_Pos) /*!< USBD_T::ATTR: BYTEM Mask */
|
|
|
|
#define USBD_ATTR_LPMACK_Pos (11) /*!< USBD_T::ATTR: LPMACK Position */
|
|
#define USBD_ATTR_LPMACK_Msk (0x1ul << USBD_ATTR_LPMACK_Pos) /*!< USBD_T::ATTR: LPMACK Mask */
|
|
|
|
#define USBD_ATTR_L1SUSPEND_Pos (12) /*!< USBD_T::ATTR: L1SUSPEND Position */
|
|
#define USBD_ATTR_L1SUSPEND_Msk (0x1ul << USBD_ATTR_L1SUSPEND_Pos) /*!< USBD_T::ATTR: L1SUSPEND Mask */
|
|
|
|
#define USBD_ATTR_L1RESUME_Pos (13) /*!< USBD_T::ATTR: L1RESUME Position */
|
|
#define USBD_ATTR_L1RESUME_Msk (0x1ul << USBD_ATTR_L1RESUME_Pos) /*!< USBD_T::ATTR: L1RESUME Mask */
|
|
|
|
#define USBD_VBUSDET_VBUSDET_Pos (0) /*!< USBD_T::VBUSDET: VBUSDET Position */
|
|
#define USBD_VBUSDET_VBUSDET_Msk (0x1ul << USBD_VBUSDET_VBUSDET_Pos) /*!< USBD_T::VBUSDET: VBUSDET Mask */
|
|
|
|
#define USBD_STBUFSEG_STBUFSEG_Pos (3) /*!< USBD_T::STBUFSEG: STBUFSEG Position */
|
|
#define USBD_STBUFSEG_STBUFSEG_Msk (0x3ful << USBD_STBUFSEG_STBUFSEG_Pos) /*!< USBD_T::STBUFSEG: STBUFSEG Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS0_Pos (0) /*!< USBD_T::EPSTS0: EPSTS0 Position */
|
|
#define USBD_EPSTS0_EPSTS0_Msk (0xful << USBD_EPSTS0_EPSTS0_Pos) /*!< USBD_T::EPSTS0: EPSTS0 Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS1_Pos (4) /*!< USBD_T::EPSTS0: EPSTS1 Position */
|
|
#define USBD_EPSTS0_EPSTS1_Msk (0xful << USBD_EPSTS0_EPSTS1_Pos) /*!< USBD_T::EPSTS0: EPSTS1 Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS2_Pos (8) /*!< USBD_T::EPSTS0: EPSTS2 Position */
|
|
#define USBD_EPSTS0_EPSTS2_Msk (0xful << USBD_EPSTS0_EPSTS2_Pos) /*!< USBD_T::EPSTS0: EPSTS2 Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS3_Pos (12) /*!< USBD_T::EPSTS0: EPSTS3 Position */
|
|
#define USBD_EPSTS0_EPSTS3_Msk (0xful << USBD_EPSTS0_EPSTS3_Pos) /*!< USBD_T::EPSTS0: EPSTS3 Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS4_Pos (16) /*!< USBD_T::EPSTS0: EPSTS4 Position */
|
|
#define USBD_EPSTS0_EPSTS4_Msk (0xful << USBD_EPSTS0_EPSTS4_Pos) /*!< USBD_T::EPSTS0: EPSTS4 Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS5_Pos (20) /*!< USBD_T::EPSTS0: EPSTS5 Position */
|
|
#define USBD_EPSTS0_EPSTS5_Msk (0xful << USBD_EPSTS0_EPSTS5_Pos) /*!< USBD_T::EPSTS0: EPSTS5 Mask */
|
|
|
|
#define USBD_EPSTS0_EPSTS6_Pos (24) /*!< USBD_T::EPSTS0: EPSTS6 Position */
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#define USBD_EPSTS0_EPSTS6_Msk (0xful << USBD_EPSTS0_EPSTS6_Pos) /*!< USBD_T::EPSTS0: EPSTS6 Mask */
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#define USBD_EPSTS0_EPSTS7_Pos (28) /*!< USBD_T::EPSTS0: EPSTS7 Position */
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#define USBD_EPSTS0_EPSTS7_Msk (0xful << USBD_EPSTS0_EPSTS7_Pos) /*!< USBD_T::EPSTS0: EPSTS7 Mask */
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#define USBD_EPSTS1_EPSTS8_Pos (0) /*!< USBD_T::EPSTS1: EPSTS8 Position */
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#define USBD_EPSTS1_EPSTS8_Msk (0xful << USBD_EPSTS1_EPSTS8_Pos) /*!< USBD_T::EPSTS1: EPSTS8 Mask */
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#define USBD_EPSTS1_EPSTS9_Pos (4) /*!< USBD_T::EPSTS1: EPSTS9 Position */
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#define USBD_EPSTS1_EPSTS9_Msk (0xful << USBD_EPSTS1_EPSTS9_Pos) /*!< USBD_T::EPSTS1: EPSTS9 Mask */
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#define USBD_EPSTS1_EPSTS10_Pos (8) /*!< USBD_T::EPSTS1: EPSTS10 Position */
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#define USBD_EPSTS1_EPSTS10_Msk (0xful << USBD_EPSTS1_EPSTS10_Pos) /*!< USBD_T::EPSTS1: EPSTS10 Mask */
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#define USBD_EPSTS1_EPSTS11_Pos (12) /*!< USBD_T::EPSTS1: EPSTS11 Position */
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#define USBD_EPSTS1_EPSTS11_Msk (0xful << USBD_EPSTS1_EPSTS11_Pos) /*!< USBD_T::EPSTS1: EPSTS11 Mask */
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#define USBD_LPMATTR_LPMLINKSTS_Pos (0) /*!< USBD_T::LPMATTR: LPMLINKSTS Position */
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#define USBD_LPMATTR_LPMLINKSTS_Msk (0xful << USBD_LPMATTR_LPMLINKSTS_Pos) /*!< USBD_T::LPMATTR: LPMLINKSTS Mask */
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#define USBD_LPMATTR_LPMBESL_Pos (4) /*!< USBD_T::LPMATTR: LPMBESL Position */
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#define USBD_LPMATTR_LPMBESL_Msk (0xful << USBD_LPMATTR_LPMBESL_Pos) /*!< USBD_T::LPMATTR: LPMBESL Mask */
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#define USBD_LPMATTR_LPMRWAKUP_Pos (8) /*!< USBD_T::LPMATTR: LPMRWAKUP Position */
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#define USBD_LPMATTR_LPMRWAKUP_Msk (0x1ul << USBD_LPMATTR_LPMRWAKUP_Pos) /*!< USBD_T::LPMATTR: LPMRWAKUP Mask */
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#define USBD_FN_FN_Pos (0) /*!< USBD_T::FN: FN Position */
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#define USBD_FN_FN_Msk (0x7fful << USBD_FN_FN_Pos) /*!< USBD_T::FN: FN Mask */
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#define USBD_SE0_SE0_Pos (0) /*!< USBD_T::SE0: SE0 Position */
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#define USBD_SE0_SE0_Msk (0x1ul << USBD_SE0_SE0_Pos) /*!< USBD_T::SE0: SE0 Mask */
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#define USBD_BCDC_BCDEN_Pos (0) /*!< USBD_T::BCDEN: BCDEN Position */
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#define USBD_BCDC_BCDEN_Msk (0x1ul << USBD_BCDC_BCDEN_Pos) /*!< USBD_T::BCDEN: BCDEN Mask */
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#define USBD_BCDC_DETMOD_Pos (1) /*!< USBD_T::DETMOD: DETMOD Position */
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#define USBD_BCDC_DETMOD_Msk (0x7ul << USBD_BCDC_DETMOD_Pos) /*!< USBD_T::DETMOD: DETMOD Mask */
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#define USBD_BCDC_DETSTS_Pos (4) /*!< USBD_T::DETSTS: DETSTS Position */
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#define USBD_BCDC_DETSTS_Msk (0x1ul << USBD_BCDC_DETSTS_Pos) /*!< USBD_T::DETSTS: DETSTS Mask */
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#define USBD_BCDC_NUSP_Pos (5) /*!< USBD_T::NUSP: NUSP Position */
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#define USBD_BCDC_NUSP_Msk (0x1ul << USBD_BCDC_NUSP_Pos) /*!< USBD_T::NUSP: NUSP Mask */
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#define USBD_BUFSEG_BUFSEG_Pos (3) /*!< USBD_EP_T::BUFSEG: BUFSEG Position */
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#define USBD_BUFSEG_BUFSEG_Msk (0x3ful << USBD_BUFSEG_BUFSEG_Pos) /*!< USBD_EP_T::BUFSEG: BUFSEG Mask */
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#define USBD_MXPLD_MXPLD_Pos (0) /*!< USBD_EP_T::MXPLD: MXPLD Position */
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#define USBD_MXPLD_MXPLD_Msk (0x1fful << USBD_MXPLD_MXPLD_Pos) /*!< USBD_EP_T::MXPLD: MXPLD Mask */
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#define USBD_CFG_EPNUM_Pos (0) /*!< USBD_EP_T::CFG: EPNUM Position */
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#define USBD_CFG_EPNUM_Msk (0xful << USBD_CFG_EPNUM_Pos) /*!< USBD_EP_T::CFG: EPNUM Mask */
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#define USBD_CFG_ISOCH_Pos (4) /*!< USBD_EP_T::CFG: ISOCH Position */
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#define USBD_CFG_ISOCH_Msk (0x1ul << USBD_CFG_ISOCH_Pos) /*!< USBD_EP_T::CFG: ISOCH Mask */
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#define USBD_CFG_STATE_Pos (5) /*!< USBD_EP_T::CFG: STATE Position */
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#define USBD_CFG_STATE_Msk (0x3ul << USBD_CFG_STATE_Pos) /*!< USBD_EP_T::CFG: STATE Mask */
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#define USBD_CFG_DSQSYNC_Pos (7) /*!< USBD_EP_T::CFG: DSQSYNC Position */
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#define USBD_CFG_DSQSYNC_Msk (0x1ul << USBD_CFG_DSQSYNC_Pos) /*!< USBD_EP_T::CFG: DSQSYNC Mask */
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#define USBD_CFG_CSTALL_Pos (9) /*!< USBD_EP_T::CFG: CSTALL Position */
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#define USBD_CFG_CSTALL_Msk (0x1ul << USBD_CFG_CSTALL_Pos) /*!< USBD_EP_T::CFG: CSTALL Mask */
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#define USBD_CFGP_CLRRDY_Pos (0) /*!< USBD_EP_T::CFGP: CLRRDY Position */
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#define USBD_CFGP_CLRRDY_Msk (0x1ul << USBD_CFGP_CLRRDY_Pos) /*!< USBD_EP_T::CFGP: CLRRDY Mask */
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#define USBD_CFGP_SSTALL_Pos (1) /*!< USBD_EP_T::CFGP: SSTALL Position */
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#define USBD_CFGP_SSTALL_Msk (0x1ul << USBD_CFGP_SSTALL_Pos) /*!< USBD_EP_T::CFGP: SSTALL Mask */
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/** @} USBD_CONST */
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/** @} end of USBD register group */
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/** @} end of REGISTER group */
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#if defined ( __CC_ARM )
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#pragma no_anon_unions
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#endif
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#endif /* __USBD_REG_H__ */
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