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M480 BSP V3.05.005
The Board Support Package for M480 Series
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#include <uuart_reg.h>
Data Fields | |
__IO uint32_t | CTL |
__IO uint32_t | INTEN |
__IO uint32_t | BRGEN |
__IO uint32_t | DATIN0 |
__IO uint32_t | CTLIN0 |
__IO uint32_t | CLKIN |
__IO uint32_t | LINECTL |
__IO uint32_t | TXDAT |
__IO uint32_t | RXDAT |
__IO uint32_t | BUFCTL |
__IO uint32_t | BUFSTS |
__IO uint32_t | PDMACTL |
__IO uint32_t | WKCTL |
__IO uint32_t | WKSTS |
__IO uint32_t | PROTCTL |
__IO uint32_t | PROTIEN |
__IO uint32_t | PROTSTS |
@addtogroup UUART UART Mode of USCI Controller(UUART) Memory Mapped Structure for UUART Controller
Definition at line 26 of file uuart_reg.h.
UUART_T::BRGEN |
[0x0008] USCI Baud Rate Generator Register
Bits | Field | Descriptions |
[0] | RCLKSEL | Reference Clock Source Selection
This bit selects the source signal of reference clock (fREF_CLK). 0 = Peripheral device clock fPCLK. 1 = Reserved. |
[1] | PTCLKSEL | Protocol Clock Source Selection
This bit selects the source signal of protocol clock (fPROT_CLK). 0 = Reference clock fREF_CLK. 1 = fREF_CLK2 (its frequency is half of fREF_CLK). |
[3:2] | SPCLKSEL | Sample Clock Source Selection
This bit field used for the clock source selection of a sample clock (fSAMP_CLK) for the protocol processor. 00 = fSAMP_CLK = fDIV_CLK. 01 = fSAMP_CLK = fPROT_CLK. 10 = fSAMP_CLK = fSCLK. 11 = fSAMP_CLK = fREF_CLK. |
[4] | TMCNTEN | Timing Measurement Counter Enable Bit
This bit enables the 10-bit timing measurement counter. 0 = Timing measurement counter is Disabled. 1 = Timing measurement counter is Enabled. |
[5] | TMCNTSRC | Timing Measurement Counter Clock Source Selection
0 = Timing measurement counter with fPROT_CLK. 1 = Timing measurement counter with fDIV_CLK. |
[9:8] | PDSCNT | Pre-divider for Sample Counter
This bit field defines the divide ratio of the clock division from sample clock fSAMP_CLK The divided frequency fPDS_CNT = fSAMP_CLK / (PDSCNT+1). |
[14:10] | DSCNT | Denominator for Sample Counter
This bit field defines the divide ratio of the sample clock fSAMP_CLK. The divided frequency fDS_CNT = fPDS_CNT / (DSCNT+1). Note: The maximum value of DSCNT is 0xF on UART mode and suggest to set over 4 to confirm the receiver data is sampled in right value |
[25:16] | CLKDIV | Clock Divider
This bit field defines the ratio between the protocol clock frequency fPROT_CLK and the clock divider frequency fDIV_CLK (fDIV_CLK = fPROT_CLK / (CLKDIV+1) ). Note: In UART function, it can be updated by hardware in the 4th falling edge of the input data 0x55 when the auto baud rate function (ABREN(USCI_PROTCTL[6])) is enabled The revised value is the average bit time between bit 5 and bit 6 The user can use revised CLKDIV and new BRDETITV (USCI_PROTCTL[24:16]) to calculate the precise baud rate. |
Definition at line 940 of file uuart_reg.h.
UUART_T::BUFCTL |
[0x0038] USCI Transmit/Receive Buffer Control Register
Bits | Field | Descriptions |
[7] | TXCLR | Clear Transmit Buffer
0 = No effect. 1 = The transmit buffer is cleared (filling level is cleared and output pointer is set to input pointer value) Should only be used while the buffer is not taking part in data traffic. Note: It is cleared automatically after one PCLK cycle. |
[14] | RXOVIEN | Receive Buffer Overrun Error Interrupt Enable Control
0 = Receive overrun interrupt Disabled. 1 = Receive overrun interrupt Enabled. |
[15] | RXCLR | Clear Receive Buffer
0 = No effect. 1 = The receive buffer is cleared (filling level is cleared and output pointer is set to input pointer value) Should only be used while the buffer is not taking part in data traffic. Note: It is cleared automatically after one PCLK cycle. |
[16] | TXRST | Transmit Reset
0 = No effect. 1 = Reset the transmit-related counters, state machine, and the content of transmit shift register and data buffer. Note: It is cleared automatically after one PCLK cycle. |
[17] | RXRST | Receive Reset
0 = No effect. 1 = Reset the receive-related counters, state machine, and the content of receive shift register and data buffer. Note 1: It is cleared automatically after one PCLK cycle. Note 2: It is suggest to check the RXBUSY (USCI_PROTSTS[10]) before this bit will be set to 1. |
Definition at line 956 of file uuart_reg.h.
UUART_T::BUFSTS |
[0x003c] USCI Transmit/Receive Buffer Status Register
Bits | Field | Descriptions |
[0] | RXEMPTY | Receive Buffer Empty Indicator
0 = Receive buffer is not empty. 1 = Receive buffer is empty. |
[1] | RXFULL | Receive Buffer Full Indicator
0 = Receive buffer is not full. 1 = Receive buffer is full. |
[3] | RXOVIF | Receive Buffer Over-run Error Interrupt Status
This bit indicates that a receive buffer overrun error event has been detected If RXOVIEN (USCI_BUFCTL[14]) is enabled, the corresponding interrupt request is activated It is cleared by software writes 1 to this bit. 0 = A receive buffer overrun error event has not been detected. 1 = A receive buffer overrun error event has been detected. |
[8] | TXEMPTY | Transmit Buffer Empty Indicator
0 = Transmit buffer is not empty. 1 = Transmit buffer is empty. |
[9] | TXFULL | Transmit Buffer Full Indicator
0 = Transmit buffer is not full. 1 = Transmit buffer is full. |
Definition at line 957 of file uuart_reg.h.
UUART_T::CLKIN |
[0x0028] USCI Input Clock Signal Configuration Register
Bits | Field | Descriptions |
[0] | SYNCSEL | Input Synchronization Signal Selection
This bit selects if the un-synchronized input signal or the synchronized (and optionally filtered) signal can be used as input for the data shift unit. 0 = The un-synchronized signal can be taken as input for the data shift unit. 1 = The synchronized signal can be taken as input for the data shift unit. |
Definition at line 952 of file uuart_reg.h.
UUART_T::CTL |
[0x0000] USCI Control Register
Bits | Field | Descriptions |
[2:0] | FUNMODE | Function Mode
This bit field selects the protocol for this USCI controller Selecting a protocol that is not available or a reserved combination disables the USCI When switching between two protocols, the USCI has to be disabled before selecting a new protocol Simultaneously, the USCI will be reset when user write 000 to FUNMODE. 000 = The USCI is disabled. All protocol related state machines are set to idle state. 001 = The SPI protocol is selected. 010 = The UART protocol is selected. 100 = The I2C protocol is selected. Note: Other bit combinations are reserved. |
Definition at line 938 of file uuart_reg.h.
UUART_T::CTLIN0 |
[0x0020] USCI Input Control Signal Configuration Register 0
Bits | Field | Descriptions |
[0] | SYNCSEL | Input Synchronization Signal Selection
This bit selects if the un-synchronized input signal (with optionally inverted) or the synchronized (and optionally filtered) signal can be used as input for the data shift unit. 0 = The un-synchronized signal can be taken as input for the data shift unit. 1 = The synchronized signal can be taken as input for the data shift unit. |
[2] | ININV | Input Signal Inverse Selection
This bit defines the inverter enable of the input asynchronous signal. 0 = The un-synchronized input signal will not be inverted. 1 = The un-synchronized input signal will be inverted. |
Definition at line 948 of file uuart_reg.h.
UUART_T::DATIN0 |
[0x0010] USCI Input Data Signal Configuration Register 0
Bits | Field | Descriptions |
[0] | SYNCSEL | Input Signal Synchronization Selection
This bit selects if the un-synchronized input signal (with optionally inverted) or the synchronized (and optionally filtered) signal can be used as input for the data shift unit. 0 = The un-synchronized signal can be taken as input for the data shift unit. 1 = The synchronized signal can be taken as input for the data shift unit. |
[2] | ININV | Input Signal Inverse Selection
This bit defines the inverter enable of the input asynchronous signal. 0 = The un-synchronized input signal will not be inverted. 1 = The un-synchronized input signal will be inverted. |
[4:3] | EDGEDET | Input Signal Edge Detection Mode
This bit field selects which edge actives the trigger event of input data signal. 00 = The trigger event activation is disabled. 01 = A rising edge activates the trigger event of input data signal. 10 = A falling edge activates the trigger event of input data signal. 11 = Both edges activate the trigger event of input data signal. Note: In UART function mode, it is suggested to set this bit field as 10. |
Definition at line 944 of file uuart_reg.h.
UUART_T::INTEN |
[0x0004] USCI Interrupt Enable Register
Bits | Field | Descriptions |
[1] | TXSTIEN | Transmit Start Interrupt Enable Bit
This bit enables the interrupt generation in case of a transmit start event. 0 = The transmit start interrupt is disabled. 1 = The transmit start interrupt is enabled. |
[2] | TXENDIEN | Transmit End Interrupt Enable Bit
This bit enables the interrupt generation in case of a transmit finish event. 0 = The transmit finish interrupt is disabled. 1 = The transmit finish interrupt is enabled. |
[3] | RXSTIEN | Receive Start Interrupt Enable BIt
This bit enables the interrupt generation in case of a receive start event. 0 = The receive start interrupt is disabled. 1 = The receive start interrupt is enabled. |
[4] | RXENDIEN | Receive End Interrupt Enable Bit
This bit enables the interrupt generation in case of a receive finish event. 0 = The receive end interrupt is disabled. 1 = The receive end interrupt is enabled. |
Definition at line 939 of file uuart_reg.h.
UUART_T::LINECTL |
[0x002c] USCI Line Control Register
Bits | Field | Descriptions |
[0] | LSB | LSB First Transmission Selection
0 = The MSB, which bit of transmit/receive data buffer depends on the setting of DWIDTH, is transmitted/received first. 1 = The LSB, the bit 0 of data buffer, will be transmitted/received first. |
[5] | DATOINV | Data Output Inverse Selection
This bit defines the relation between the internal shift data value and the output data signal of USCIx_DAT1 pin. 0 = The value of USCIx_DAT1 is equal to the data shift register. 1 = The value of USCIx_DAT1 is the inversion of data shift register. |
[7] | CTLOINV | Control Signal Output Inverse Selection
This bit defines the relation between the internal control signal and the output control signal. 0 = No effect. 1 = The control signal will be inverted before its output. Note: In UART protocol, the control signal means nRTS signal. |
[11:8] | DWIDTH | Word Length of Transmission
This bit field defines the data word length (amount of bits) for reception and transmission The data word is always right-aligned in the data buffer USCI support word length from 4 to 16 bits. 0x0: The data word contains 16 bits located at bit positions [15:0]. 0x1: Reserved. 0x2: Reserved. 0x3: Reserved. 0x4: The data word contains 4 bits located at bit positions [3:0]. 0x5: The data word contains 5 bits located at bit positions [4:0]. .. 0xF: The data word contains 15 bits located at bit positions [14:0]. Note: In UART protocol, the length can be configured as 6~13 bits. |
Definition at line 953 of file uuart_reg.h.
UUART_T::PDMACTL |
[0x0040] USCI PDMA Control Register
Bits | Field | Descriptions |
[0] | PDMARST | PDMA Reset
0 = No effect. 1 = Reset the USCI's PDMA control logic. This bit will be cleared to 0 automatically. |
[1] | TXPDMAEN | PDMA Transmit Channel Available
0 = Transmit PDMA function Disabled. 1 = Transmit PDMA function Enabled. |
[2] | RXPDMAEN | PDMA Receive Channel Available
0 = Receive PDMA function Disabled. 1 = Receive PDMA function Enabled. |
[3] | PDMAEN | PDMA Mode Enable Bit
0 = PDMA function Disabled. 1 = PDMA function Enabled. |
Definition at line 958 of file uuart_reg.h.
UUART_T::PROTCTL |
[0x005c] USCI Protocol Control Register
Bits | Field | Descriptions |
[0] | STOPB | Stop Bits
This bit defines the number of stop bits in an UART frame. 0 = The number of stop bits is 1. 1 = The number of stop bits is 2. |
[1] | PARITYEN | Parity Enable Bit
This bit defines the parity bit is enabled in an UART frame. 0 = The parity bit Disabled. 1 = The parity bit Enabled. |
[2] | EVENPARITY | Even Parity Enable Bit
0 = Odd number of logic 1's is transmitted and checked in each word. 1 = Even number of logic 1's is transmitted and checked in each word. Note: This bit has effect only when PARITYEN is set. |
[3] | RTSAUTOEN | nRTS Auto-flow Control Enable Bit
When nRTS auto-flow is enabled, if the receiver buffer is full (RXFULL (USCI_BUFSTS[1] = 1'b1)), the UART will de-assert nRTS signal. 0 = nRTS auto-flow control Disabled. 1 = nRTS auto-flow control Enabled. Note: This bit has effect only when the RTSAUDIREN is not set. |
[4] | CTSAUTOEN | nCTS Auto-flow Control Enable Bit
When nCTS auto-flow is enabled, the UART will send data to external device when nCTS input assert (UART will not send data to device if nCTS input is dis-asserted). 0 = nCTS auto-flow control Disabled. 1 = nCTS auto-flow control Enabled. |
[5] | RTSAUDIREN | nRTS Auto Direction Enable Bit
When nRTS auto direction is enabled, if the transmitted bytes in the TX buffer is empty, the UART asserted nRTS signal automatically. 0 = nRTS auto direction control Disabled. 1 = nRTS auto direction control Enabled. Note 1: This bit is used for nRTS auto direction control for RS485. Note 2: This bit has effect only when the RTSAUTOEN is not set. |
[6] | ABREN | Auto-baud Rate Detect Enable Bit
0 = Auto-baud rate detect function Disabled. 1 = Auto-baud rate detect function Enabled. Note: When the auto - baud rate detect operation finishes, hardware will clear this bit The associated interrupt ABRDETIF (USCI_PROTST[9]) will be generated (If ARBIEN (USCI_PROTIEN [1]) is enabled). |
[9] | DATWKEN | Data Wake-up Mode Enable Bit
0 = Data wake-up mode Disabled. 1 = Data wake-up mode Enabled. |
[10] | CTSWKEN | nCTS Wake-up Mode Enable Bit
0 = nCTS wake-up mode Disabled. 1 = nCTS wake-up mode Enabled. |
[14:11] | WAKECNT | Wake-up Counter
These bits field indicate how many clock cycle selected by fPDS_CNT do the slave can get the 1st bit (start bit) when the device is wake-up from Power-down mode. |
[24:16] | BRDETITV | Baud Rate Detection Interval
This bit fields indicate how many clock cycle selected by TMCNTSRC (USCI_BRGEN [5]) does the slave calculates the baud rate in one bits The order of the bus shall be 1 and 0 step by step (e.g. the input data pattern shall be 0x55) The user can read the value to know the current input baud rate of the bus whenever the ABRDETIF (USCI_PROTCTL[9]) is set. Note: This bit can be cleared to 0 by software writing '0' to the BRDETITV. |
[26] | STICKEN | Stick Parity Enable Bit
0 = Stick parity Disabled. 1 = Stick parity Enabled. Note: Refer to RS-485 Support section for detail information. |
[29] | BCEN | Transmit Break Control Enable Bit
0 = Transmit Break Control Disabled. 1 = Transmit Break Control Enabled. Note: When this bit is set to logic 1, the serial data output (TX) is forced to the Spacing State (logic 0) This bit acts only on TX line and has no effect on the transmitter logic. |
[31] | PROTEN | UART Protocol Enable Bit
0 = UART Protocol Disabled. 1 = UART Protocol Enabled. |
Definition at line 964 of file uuart_reg.h.
UUART_T::PROTIEN |
[0x0060] USCI Protocol Interrupt Enable Register
Bits | Field | Descriptions |
[1] | ABRIEN | Auto-baud Rate Interrupt Enable Bit
0 = Auto-baud rate interrupt Disabled. 1 = Auto-baud rate interrupt Enabled. |
[2] | RLSIEN | Receive Line Status Interrupt Enable Bit
0 = Receive line status interrupt Disabled. 1 = Receive line status interrupt Enabled. Note: USCI_PROTSTS[7:5] indicates the current interrupt event for receive line status interrupt. |
Definition at line 965 of file uuart_reg.h.
UUART_T::PROTSTS |
[0x0064] USCI Protocol Status Register
Bits | Field | Descriptions |
[1] | TXSTIF | Transmit Start Interrupt Flag
0 = A transmit start interrupt status has not occurred. 1 = A transmit start interrupt status has occurred. Note 1: It is cleared by software writing one into this bit. Note 2: Used for user to load next transmit data when there is no data in transmit buffer. |
[2] | TXENDIF | Transmit End Interrupt Flag
0 = A transmit end interrupt status has not occurred. 1 = A transmit end interrupt status has occurred. Note: It is cleared by software writing one into this bit. |
[3] | RXSTIF | Receive Start Interrupt Flag
0 = A receive start interrupt status has not occurred. 1 = A receive start interrupt status has occurred. Note: It is cleared by software writing one into this bit. |
[4] | RXENDIF | Receive End Interrupt Flag
0 = A receive finish interrupt status has not occurred. 1 = A receive finish interrupt status has occurred. Note: It is cleared by software writing one into this bit. |
[5] | PARITYERR | Parity Error Flag
This bit is set to logic 1 whenever the received character does not have a valid 'parity bit'. 0 = No parity error is generated. 1 = Parity error is generated. Note: This bit can be cleared by write '1' among the BREAK, FRMERR and PARITYERR bits. |
[6] | FRMERR | Framing Error Flag
This bit is set to logic 1 whenever the received character does not have a valid 'stop bit' (that is, the stop bit following the last data bit or parity bit is detected as logic 0). 0 = No framing error is generated. 1 = Framing error is generated. Note: This bit can be cleared by write '1' among the BREAK, FRMERR and PARITYERR bits. |
[7] | BREAK | Break Flag
This bit is set to logic 1 whenever the received data input (RX) is held in the 'spacing state' (logic 0) for longer than a full word transmission time (that is, the total time of start bit + data bits + parity + stop bits). 0 = No Break is generated. 1 = Break is generated in the receiver bus. Note: This bit can be cleared by write '1' among the BREAK, FRMERR and PARITYERR bits. |
[9] | ABRDETIF | Auto-baud Rate Interrupt Flag
This bit is set when auto-baud rate detection is done among the falling edge of the input data If the ABRIEN (USCI_PROTCTL[6]) is set, the auto-baud rate interrupt will be generated This bit can be set 4 times when the input data pattern is 0x55 and it is cleared before the next falling edge of the input bus. 0 = Auto-baud rate detect function is not done. 1 = One Bit auto-baud rate detect function is done. Note: This bit can be cleared by writing '1' to it. |
[10] | RXBUSY | RX Bus Status Flag (Read Only)
This bit indicates the busy status of the receiver. 0 = The receiver is Idle. 1 = The receiver is BUSY. |
[11] | ABERRSTS | Auto-baud Rate Error Status
This bit is set when auto-baud rate detection counter overrun When the auto-baud rate counter overrun, the user shall revise the CLKDIV (USCI_BRGEN[25:16]) value and enable ABREN (USCI_PROTCTL[6]) to detect the correct baud rate again. 0 = Auto-baud rate detect counter is not overrun. 1 = Auto-baud rate detect counter is overrun. Note 1: This bit is set at the same time of ABRDETIF. Note 2: This bit can be cleared by writing '1' to ABRDETIF or ABERRSTS. |
[16] | CTSSYNCLV | nCTS Synchronized Level Status (Read Only)
This bit used to indicate the current status of the internal synchronized nCTS signal. 0 = The internal synchronized nCTS is low. 1 = The internal synchronized nCTS is high. |
[17] | CTSLV | nCTS Pin Status (Read Only)
This bit used to monitor the current status of nCTS pin input. 0 = nCTS pin input is low level voltage logic state. 1 = nCTS pin input is high level voltage logic state. |
Definition at line 966 of file uuart_reg.h.
UUART_T::RXDAT |
[0x0034] USCI Receive Data Register
Bits | Field | Descriptions |
[15:0] | RXDAT | Received Data
This bit field monitors the received data which stored in receive data buffer. Note: RXDAT[15:13] indicate the same frame status of BREAK, FRMERR and PARITYERR (USCI_PROTSTS[7:5]). |
Definition at line 955 of file uuart_reg.h.
UUART_T::TXDAT |
[0x0030] USCI Transmit Data Register
Bits | Field | Descriptions |
[15:0] | TXDAT | Transmit Data
Software can use this bit field to write 16-bit transmit data for transmission. |
Definition at line 954 of file uuart_reg.h.
UUART_T::WKCTL |
[0x0054] USCI Wake-up Control Register
Bits | Field | Descriptions |
[0] | WKEN | Wake-up Enable Bit
0 = Wake-up function Disabled. 1 = Wake-up function Enabled. |
[2] | PDBOPT | Power Down Blocking Option
0 = If user attempts to enter Power-down mode by executing WFI while the protocol is in transferring, MCU will stop the transfer and enter Power-down mode immediately. 1 = If user attempts to enter Power-down mode by executing WFI while the protocol is in transferring, the on-going transfer will not be stopped and MCU will enter idle mode immediately. |
Definition at line 962 of file uuart_reg.h.
UUART_T::WKSTS |
[0x0058] USCI Wake-up Status Register
Bits | Field | Descriptions |
[0] | WKF | Wake-up Flag
When chip is woken up from Power-down mode, this bit is set to 1 Software can write 1 to clear this bit. |
Definition at line 963 of file uuart_reg.h.