![]() |
M480 BSP V3.05.005
The Board Support Package for M480 Series
|
#include <ui2c_reg.h>
Data Fields | |
__IO uint32_t | CTL |
__IO uint32_t | BRGEN |
__IO uint32_t | LINECTL |
__O uint32_t | TXDAT |
__I uint32_t | RXDAT |
__IO uint32_t | DEVADDR0 |
__IO uint32_t | DEVADDR1 |
__IO uint32_t | ADDRMSK0 |
__IO uint32_t | ADDRMSK1 |
__IO uint32_t | WKCTL |
__IO uint32_t | WKSTS |
__IO uint32_t | PROTCTL |
__IO uint32_t | PROTIEN |
__IO uint32_t | PROTSTS |
__IO uint32_t | ADMAT |
__IO uint32_t | TMCTL |
@addtogroup UI2C I2C Mode of USCI Controller(UI2C) Memory Mapped Structure for UI2C Controller
Definition at line 26 of file ui2c_reg.h.
UI2C_T::ADDRMSK0 |
[0x004c] USCI Device Address Mask Register 0
Bits | Field | Descriptions |
[9:0] | ADDRMSK | USCI Device Address Mask
0 = Mask Disabled (the received corresponding register bit should be exact the same as address register.). 1 = Mask Enabled (the received corresponding address bit is don't care.). USCI support multiple address recognition with two address mask register When the bit in the address mask register is set to one, it means the received corresponding address bit is don't-care If the bit is set to zero, that means the received corresponding register bit should be exact the same as address register. Note: The wake-up function can not use address mask. |
Definition at line 836 of file ui2c_reg.h.
UI2C_T::ADDRMSK1 |
[0x0050] USCI Device Address Mask Register 1
Bits | Field | Descriptions |
[9:0] | ADDRMSK | USCI Device Address Mask
0 = Mask Disabled (the received corresponding register bit should be exact the same as address register.). 1 = Mask Enabled (the received corresponding address bit is don't care.). USCI support multiple address recognition with two address mask register When the bit in the address mask register is set to one, it means the received corresponding address bit is don't-care If the bit is set to zero, that means the received corresponding register bit should be exact the same as address register. Note: The wake-up function can not use address mask. |
Definition at line 837 of file ui2c_reg.h.
UI2C_T::ADMAT |
[0x0088] I2C Slave Match Address Register
Bits | Field | Descriptions |
[0] | ADMAT0 | USCI Address 0 Match Status Register
When address 0 is matched, hardware will inform which address used This bit will set to 1, and software can write 1 to clear this bit. |
[1] | ADMAT1 | USCI Address 1 Match Status Register
When address 1 is matched, hardware will inform which address used This bit will set to 1, and software can write 1 to clear this bit. |
Definition at line 846 of file ui2c_reg.h.
UI2C_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 | Time Measurement Counter Enable Bit
This bit enables the 10-bit timing measurement counter. 0 = Time measurement counter is Disabled. 1 = Time measurement counter is Enabled. |
[5] | TMCNTSRC | Time Measurement Counter Clock Source Selection
0 = Time measurement counter with fPROT_CLK. 1 = Time 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 824 of file ui2c_reg.h.
UI2C_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 820 of file ui2c_reg.h.
UI2C_T::DEVADDR0 |
[0x0044] USCI Device Address Register 0
Bits | Field | Descriptions |
[9:0] | DEVADDR | Device Address
In I2C protocol, this bit field contains the programmed slave address If the first received address byte are 1111 0AAXB, the AA bits are compared to the bits DEVADDR[9:8] to check for address match, where the X is R/W bit Then the second address byte is also compared to DEVADDR[7:0]. Note 1: The DEVADDR [9:7] must be set 3'b000 when I2C operating in 7-bit address mode. Note 2: When software set 10'h000, the address can not be used. |
Definition at line 834 of file ui2c_reg.h.
UI2C_T::DEVADDR1 |
[0x0048] USCI Device Address Register 1
Bits | Field | Descriptions |
[9:0] | DEVADDR | Device Address
In I2C protocol, this bit field contains the programmed slave address If the first received address byte are 1111 0AAXB, the AA bits are compared to the bits DEVADDR[9:8] to check for address match, where the X is R/W bit Then the second address byte is also compared to DEVADDR[7:0]. Note 1: The DEVADDR [9:7] must be set 3'000 when I2C operating in 7-bit address mode. Note 2: When software set 10'h000, the address can not be used. |
Definition at line 835 of file ui2c_reg.h.
UI2C_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. |
[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 And in I2C protocol, the length fixed as 8 bits. |
Definition at line 828 of file ui2c_reg.h.
UI2C_T::PROTCTL |
[0x005c] USCI Protocol Control Register
Bits | Field | Descriptions |
[0] | GCFUNC | General Call Function
0 = General Call Function Disabled. 1 = General Call Function Enabled. |
[1] | AA | Assert Acknowledge Control
When AA=1 prior to address or data received, an acknowledged (low level to SDA) will be returned during the acknowledge clock pulse on the SCL line when 1.) A slave is acknowledging the address sent from master, 2.) The receiver devices are acknowledging the data sent by transmitter When AA=0 prior to address or data received, a Not acknowledged (high level to SDA) will be returned during the acknowledge clock pulse on the SCL line. |
[2] | STO | I2C STOP Control
In Master mode, setting STO to transmit a STOP condition to bus then I2C hardware will check the bus condition if a STOP condition is detected this bit will be cleared by hardware automatically In a slave mode, setting STO resets I2C hardware to the defined "not addressed" slave mode when bus error (USCI_PROTSTS.ERRIF = 1). |
[3] | STA | I2C START Control
Setting STA to logic 1 to enter Master mode, the I2C hardware sends a START or repeat START condition to bus when the bus is free. |
[4] | ADDR10EN | Address 10-bit Function Enable Bit
0 = Address match 10 bit function is disabled. 1 = Address match 10 bit function is enabled. |
[5] | PTRG | I2C Protocol Trigger (Write Only)
When a new state is present in the USCI_PROTSTS register, if the related interrupt enable bits are set, the I2C interrupt is requested It must write one by software to this bit after the related interrupt flags are set to 1 and the I2C protocol function will go ahead until the STOP is active or the PROTEN is disabled. 0 = I2C's stretch disabled and the I2C protocol function will go ahead. 1 = I2C's stretch active. |
[8] | SCLOUTEN | SCL Output Enable Bit
This bit enables monitor pulling SCL to low This monitor will pull SCL to low until it has had time to respond to an I2C interrupt. 0 = SCL output will be forced high due to open drain mechanism. 1 = I2C module may act as a slave peripheral just like in normal operation, the I2C holds the clock line low until it has had time to clear I2C interrupt. |
[9] | MONEN | Monitor Mode Enable Bit
This bit enables monitor mode In monitor mode the SDA output will be put in high impedance mode This prevents the I2C module from outputting data of any kind (including ACK) onto the I2C data bus. 0 = The monitor mode is disabled. 1 = The monitor mode is enabled. Note: Depending on the state of the SCLOUTEN bit, the SCL output may be also forced high, preventing the module from having control over the I2C clock line. |
[25:16] | TOCNT | Time-out Clock Cycle
This bit field indicates how many clock cycle selected by TMCNTSRC (USCI_BRGEN [5]) when each interrupt flags are clear The time-out is enable when TOCNT bigger than 0. Note: The TMCNTSRC (USCI_BRGEN [5]) must be set zero on I2C mode. |
[31] | PROTEN | I2C Protocol Enable Bit
0 = I2C Protocol disable. 1 = I2C Protocol enable. |
Definition at line 840 of file ui2c_reg.h.
UI2C_T::PROTIEN |
[0x0060] USCI Protocol Interrupt Enable Register
Bits | Field | Descriptions |
[0] | TOIEN | Time-out Interrupt Enable Control
In I2C protocol, this bit enables the interrupt generation in case of a time-out event. 0 = The time-out interrupt is disabled. 1 = The time-out interrupt is enabled. |
[1] | STARIEN | Start Condition Received Interrupt Enable Control
This bit enables the generation of a protocol interrupt if a start condition is detected. 0 = The start condition interrupt is disabled. 1 = The start condition interrupt is enabled. |
[2] | STORIEN | Stop Condition Received Interrupt Enable Control
This bit enables the generation of a protocol interrupt if a stop condition is detected. 0 = The stop condition interrupt is disabled. 1 = The stop condition interrupt is enabled. |
[3] | NACKIEN | Non - Acknowledge Interrupt Enable Control
This bit enables the generation of a protocol interrupt if a non - acknowledge is detected by a master. 0 = The non - acknowledge interrupt is disabled. 1 = The non - acknowledge interrupt is enabled. |
[4] | ARBLOIEN | Arbitration Lost Interrupt Enable Control
This bit enables the generation of a protocol interrupt if an arbitration lost event is detected. 0 = The arbitration lost interrupt is disabled. 1 = The arbitration lost interrupt is enabled. |
[5] | ERRIEN | Error Interrupt Enable Control
This bit enables the generation of a protocol interrupt if an I2C error condition is detected (indicated by ERR (USCI_PROTSTS [16])). 0 = The error interrupt is disabled. 1 = The error interrupt is enabled. |
[6] | ACKIEN | Acknowledge Interrupt Enable Control
This bit enables the generation of a protocol interrupt if an acknowledge is detected by a master. 0 = The acknowledge interrupt is disabled. 1 = The acknowledge interrupt is enabled. |
Definition at line 841 of file ui2c_reg.h.
UI2C_T::PROTSTS |
[0x0064] USCI Protocol Status Register
Bits | Field | Descriptions |
[5] | TOIF | Time-out Interrupt Flag
0 = A time-out interrupt status has not occurred. 1 = A time-out interrupt status has occurred. Note: It is cleared by software writing one into this bit |
[6] | ONBUSY | On Bus Busy
Indicates that a communication is in progress on the bus It is set by hardware when a START condition is detected It is cleared by hardware when a STOP condition is detected 0 = The bus is IDLE (both SCLK and SDA High). 1 = The bus is busy. |
[8] | STARIF | Start Condition Received Interrupt Flag
This bit indicates that a start condition or repeated start condition has been detected on master mode However, this bit also indicates that a repeated start condition has been detected on slave mode. A protocol interrupt can be generated if USCI_PROTCTL.STARIEN = 1. 0 = A start condition has not yet been detected. 1 = A start condition has been detected. It is cleared by software writing one into this bit |
[9] | STORIF | Stop Condition Received Interrupt Flag
This bit indicates that a stop condition has been detected on the I2C bus lines A protocol interrupt can be generated if USCI_PROTCTL.STORIEN = 1. 0 = A stop condition has not yet been detected. 1 = A stop condition has been detected. It is cleared by software writing one into this bit Note: This bit is set when slave RX mode. |
[10] | NACKIF | Non - Acknowledge Received Interrupt Flag
This bit indicates that a non - acknowledge has been received in master mode A protocol interrupt can be generated if USCI_PROTCTL.NACKIEN = 1. 0 = A non - acknowledge has not been received. 1 = A non - acknowledge has been received. It is cleared by software writing one into this bit |
[11] | ARBLOIF | Arbitration Lost Interrupt Flag
This bit indicates that an arbitration has been lost A protocol interrupt can be generated if USCI_PROTCTL.ARBLOIEN = 1. 0 = An arbitration has not been lost. 1 = An arbitration has been lost. It is cleared by software writing one into this bit |
[12] | ERRIF | Error Interrupt Flag
This bit indicates that a Bus Error occurs when a START or STOP condition is present at an illegal position in the formation frame Example of illegal position are during the serial transfer of an address byte, a data byte or an acknowledge bit A protocol interrupt can be generated if USCI_PROTCTL.ERRIEN = 1. 0 = An I2C error has not been detected. 1 = An I2C error has been detected. It is cleared by software writing one into this bit Note: This bit is set when slave mode, user must write one into STO register to the defined "not addressed" slave mode. |
[13] | ACKIF | Acknowledge Received Interrupt Flag
This bit indicates that an acknowledge has been received in master mode A protocol interrupt can be generated if USCI_PROTCTL.ACKIEN = 1. 0 = An acknowledge has not been received. 1 = An acknowledge has been received. It is cleared by software writing one into this bit |
[14] | SLASEL | Slave Select Status
This bit indicates that this device has been selected as slave. 0 = The device is not selected as slave. 1 = The device is selected as slave. Note: This bit has no interrupt signal, and it will be cleared automatically by hardware. |
[15] | SLAREAD | Slave Read Request Status
This bit indicates that a slave read request has been detected. 0 = A slave R/W bit is 1 has not been detected. 1 = A slave R/W bit is 1 has been detected. Note: This bit has no interrupt signal, and it will be cleared automatically by hardware. |
[16] | WKAKDONE | Wakeup Address Frame Acknowledge Bit Done
0 = The ACK bit cycle of address match frame isn't done. 1 = The ACK bit cycle of address match frame is done in power-down. Note: This bit can't release when WKUPIF is set. |
[17] | WRSTSWK | Read/Write Status Bit in Address Wakeup Frame
0 = Write command be record on the address match wakeup frame. 1 = Read command be record on the address match wakeup frame. |
[18] | BUSHANG | Bus Hang-up
This bit indicates bus hang-up status There is 4-bit counter count when SCL hold high and refer fSAMP_CLK The hang-up counter will count to overflow and set this bit when SDA is low The counter will be reset by falling edge of SCL signal. 0 = The bus is normal status for transmission. 1 = The bus is hang-up status for transmission. Note: This bit has no interrupt signal, and it will be cleared automatically by hardware when a START condition is present. |
[19] | ERRARBLO | Error Arbitration Lost
This bit indicates bus arbitration lost due to bigger noise which is can't be filtered by input processor The I2C can send start condition when ERRARBLO is set Thus this bit doesn't be cared on slave mode. 0 = The bus is normal status for transmission. 1 = The bus is error arbitration lost status for transmission. Note: This bit has no interrupt signal, and it will be cleared automatically by hardware when a START condition is present. |
Definition at line 842 of file ui2c_reg.h.
UI2C_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 1: In I2C protocol, RXDAT[12:8] indicate the different transmission conditions which defined in I2C. Note 2: In UART protocol, RXDAT[15:13] indicate the same frame status of BREAK, FRMERR and PARITYERR (USCI_PROTSTS[7:5]). |
Definition at line 830 of file ui2c_reg.h.
UI2C_T::TMCTL |
[0x008c] I2C Timing Configure Control Register
Bits | Field | Descriptions |
[8:0] | STCTL | Setup Time Configure Control Register
This field is used to generate a delay timing between SDA edge and SCL rising edge in transmission mode. The delay setup time is numbers of peripheral clock = STCTL x fPCLK. |
[24:16] | HTCTL | Hold Time Configure Control Register
This field is used to generate the delay timing between SCL falling edge SDA edge in transmission mode. The delay hold time is numbers of peripheral clock = HTCTL x fPCLK. |
Definition at line 847 of file ui2c_reg.h.
UI2C_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 829 of file ui2c_reg.h.
UI2C_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. |
[1] | WKADDREN | Wake-up Address Match Enable Bit
0 = The chip is woken up according data toggle. 1 = The chip is woken up according address match. |
Definition at line 838 of file ui2c_reg.h.
UI2C_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 839 of file ui2c_reg.h.