/**************************************************************************//** | |
* @file ui2c_reg.h | |
* @version V1.00 | |
* @brief UI2C register definition header file | |
* | |
* @copyright (C) 2017 Nuvoton Technology Corp. All rights reserved. | |
*****************************************************************************/ | |
#ifndef __UI2C_REG_H__ | |
#define __UI2C_REG_H__ | |
/** @addtogroup REGISTER Control Register | |
@{ | |
*/ | |
/*---------------------- I2C Mode of USCI Controller -------------------------*/ | |
/** | |
@addtogroup UI2C I2C Mode of USCI Controller(UI2C) | |
Memory Mapped Structure for UI2C Controller | |
@{ */ | |
typedef struct | |
{ | |
/** | |
* @var UI2C_T::CTL | |
* Offset: 0x00 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. | |
* @var UI2C_T::BRGEN | |
* Offset: 0x08 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(UI2C_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 (UI2C_PROTCTL[24:16]) to calculate the precise baud rate. | |
* @var UI2C_T::LINECTL | |
* Offset: 0x2C 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. | |
* @var UI2C_T::TXDAT | |
* Offset: 0x30 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. | |
* @var UI2C_T::RXDAT | |
* Offset: 0x34 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 (UI2C_PROTSTS[7:5]). | |
* @var UI2C_T::DEVADDR0 | |
* Offset: 0x44 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: The DEVADDR [9:7] must be set 3'b000 when I2C operating in 7-bit address mode. | |
* @var UI2C_T::DEVADDR1 | |
* Offset: 0x48 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: The DEVADDR [9:7] must be set 3'b000 when I2C operating in 7-bit address mode. | |
* @var UI2C_T::ADDRMSK0 | |
* Offset: 0x4C 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 set address mask. | |
* @var UI2C_T::ADDRMSK1 | |
* Offset: 0x50 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 set address mask. | |
* @var UI2C_T::WKCTL | |
* Offset: 0x54 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. | |
* @var UI2C_T::WKSTS | |
* Offset: 0x58 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. | |
* @var UI2C_T::PROTCTL | |
* Offset: 0x5C 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 (UI2C_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 UI2C_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 (UI2C_BRGEN [5]) when each interrupt flags are clear | |
* | | |The time-out is enable when TOCNT bigger than 0. | |
* | | |Note: The TMCNTSRC (UI2C_BRGEN [5]) must be set zero on I2C mode. | |
* |[31] |PROTEN |I2C Protocol Enable Bit | |
* | | |0 = I2C Protocol disable. | |
* | | |1 = I2C Protocol enable. | |
* @var UI2C_T::PROTIEN | |
* Offset: 0x60 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 (UI2C_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. | |
* @var UI2C_T::PROTSTS | |
* Offset: 0x64 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 UI2C_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 UI2C_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 UI2C_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 UI2C_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 UI2C_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 UI2C_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. | |
* @var UI2C_T::ADMAT | |
* Offset: 0x88 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. | |
* @var UI2C_T::TMCTL | |
* Offset: 0x8C 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. | |
*/ | |
__IO uint32_t CTL; /*!< [0x0000] USCI Control Register */ | |
__I uint32_t RESERVE0[1]; | |
__IO uint32_t BRGEN; /*!< [0x0008] USCI Baud Rate Generator Register */ | |
__I uint32_t RESERVE1[8]; | |
__IO uint32_t LINECTL; /*!< [0x002c] USCI Line Control Register */ | |
__O uint32_t TXDAT; /*!< [0x0030] USCI Transmit Data Register */ | |
__I uint32_t RXDAT; /*!< [0x0034] USCI Receive Data Register */ | |
__I uint32_t RESERVE2[3]; | |
__IO uint32_t DEVADDR0; /*!< [0x0044] USCI Device Address Register 0 */ | |
__IO uint32_t DEVADDR1; /*!< [0x0048] USCI Device Address Register 1 */ | |
__IO uint32_t ADDRMSK0; /*!< [0x004c] USCI Device Address Mask Register 0 */ | |
__IO uint32_t ADDRMSK1; /*!< [0x0050] USCI Device Address Mask Register 1 */ | |
__IO uint32_t WKCTL; /*!< [0x0054] USCI Wake-up Control Register */ | |
__IO uint32_t WKSTS; /*!< [0x0058] USCI Wake-up Status Register */ | |
__IO uint32_t PROTCTL; /*!< [0x005c] USCI Protocol Control Register */ | |
__IO uint32_t PROTIEN; /*!< [0x0060] USCI Protocol Interrupt Enable Register */ | |
__IO uint32_t PROTSTS; /*!< [0x0064] USCI Protocol Status Register */ | |
__I uint32_t RESERVE3[8]; | |
__IO uint32_t ADMAT; /*!< [0x0088] I2C Slave Match Address Register */ | |
__IO uint32_t TMCTL; /*!< [0x008c] I2C Timing Configure Control Register */ | |
} UI2C_T; | |
/** | |
@addtogroup UI2C_CONST UI2C Bit Field Definition | |
Constant Definitions for UI2C Controller | |
@{ */ | |
#define UI2C_CTL_FUNMODE_Pos (0) /*!< UI2C_T::CTL: FUNMODE Position */ | |
#define UI2C_CTL_FUNMODE_Msk (0x7ul << UI2C_CTL_FUNMODE_Pos) /*!< UI2C_T::CTL: FUNMODE Mask */ | |
#define UI2C_BRGEN_RCLKSEL_Pos (0) /*!< UI2C_T::BRGEN: RCLKSEL Position */ | |
#define UI2C_BRGEN_RCLKSEL_Msk (0x1ul << UI2C_BRGEN_RCLKSEL_Pos) /*!< UI2C_T::BRGEN: RCLKSEL Mask */ | |
#define UI2C_BRGEN_PTCLKSEL_Pos (1) /*!< UI2C_T::BRGEN: PTCLKSEL Position */ | |
#define UI2C_BRGEN_PTCLKSEL_Msk (0x1ul << UI2C_BRGEN_PTCLKSEL_Pos) /*!< UI2C_T::BRGEN: PTCLKSEL Mask */ | |
#define UI2C_BRGEN_SPCLKSEL_Pos (2) /*!< UI2C_T::BRGEN: SPCLKSEL Position */ | |
#define UI2C_BRGEN_SPCLKSEL_Msk (0x3ul << UI2C_BRGEN_SPCLKSEL_Pos) /*!< UI2C_T::BRGEN: SPCLKSEL Mask */ | |
#define UI2C_BRGEN_TMCNTEN_Pos (4) /*!< UI2C_T::BRGEN: TMCNTEN Position */ | |
#define UI2C_BRGEN_TMCNTEN_Msk (0x1ul << UI2C_BRGEN_TMCNTEN_Pos) /*!< UI2C_T::BRGEN: TMCNTEN Mask */ | |
#define UI2C_BRGEN_TMCNTSRC_Pos (5) /*!< UI2C_T::BRGEN: TMCNTSRC Position */ | |
#define UI2C_BRGEN_TMCNTSRC_Msk (0x1ul << UI2C_BRGEN_TMCNTSRC_Pos) /*!< UI2C_T::BRGEN: TMCNTSRC Mask */ | |
#define UI2C_BRGEN_PDSCNT_Pos (8) /*!< UI2C_T::BRGEN: PDSCNT Position */ | |
#define UI2C_BRGEN_PDSCNT_Msk (0x3ul << UI2C_BRGEN_PDSCNT_Pos) /*!< UI2C_T::BRGEN: PDSCNT Mask */ | |
#define UI2C_BRGEN_DSCNT_Pos (10) /*!< UI2C_T::BRGEN: DSCNT Position */ | |
#define UI2C_BRGEN_DSCNT_Msk (0x1ful << UI2C_BRGEN_DSCNT_Pos) /*!< UI2C_T::BRGEN: DSCNT Mask */ | |
#define UI2C_BRGEN_CLKDIV_Pos (16) /*!< UI2C_T::BRGEN: CLKDIV Position */ | |
#define UI2C_BRGEN_CLKDIV_Msk (0x3fful << UI2C_BRGEN_CLKDIV_Pos) /*!< UI2C_T::BRGEN: CLKDIV Mask */ | |
#define UI2C_LINECTL_LSB_Pos (0) /*!< UI2C_T::LINECTL: LSB Position */ | |
#define UI2C_LINECTL_LSB_Msk (0x1ul << UI2C_LINECTL_LSB_Pos) /*!< UI2C_T::LINECTL: LSB Mask */ | |
#define UI2C_LINECTL_DWIDTH_Pos (8) /*!< UI2C_T::LINECTL: DWIDTH Position */ | |
#define UI2C_LINECTL_DWIDTH_Msk (0xful << UI2C_LINECTL_DWIDTH_Pos) /*!< UI2C_T::LINECTL: DWIDTH Mask */ | |
#define UI2C_TXDAT_TXDAT_Pos (0) /*!< UI2C_T::TXDAT: TXDAT Position */ | |
#define UI2C_TXDAT_TXDAT_Msk (0xfffful << UI2C_TXDAT_TXDAT_Pos) /*!< UI2C_T::TXDAT: TXDAT Mask */ | |
#define UI2C_RXDAT_RXDAT_Pos (0) /*!< UI2C_T::RXDAT: RXDAT Position */ | |
#define UI2C_RXDAT_RXDAT_Msk (0xfffful << UI2C_RXDAT_RXDAT_Pos) /*!< UI2C_T::RXDAT: RXDAT Mask */ | |
#define UI2C_DEVADDR0_DEVADDR_Pos (0) /*!< UI2C_T::DEVADDR0: DEVADDR Position */ | |
#define UI2C_DEVADDR0_DEVADDR_Msk (0x3fful << UI2C_DEVADDR0_DEVADDR_Pos) /*!< UI2C_T::DEVADDR0: DEVADDR Mask */ | |
#define UI2C_DEVADDR1_DEVADDR_Pos (0) /*!< UI2C_T::DEVADDR1: DEVADDR Position */ | |
#define UI2C_DEVADDR1_DEVADDR_Msk (0x3fful << UI2C_DEVADDR1_DEVADDR_Pos) /*!< UI2C_T::DEVADDR1: DEVADDR Mask */ | |
#define UI2C_ADDRMSK0_ADDRMSK_Pos (0) /*!< UI2C_T::ADDRMSK0: ADDRMSK Position */ | |
#define UI2C_ADDRMSK0_ADDRMSK_Msk (0x3fful << UI2C_ADDRMSK0_ADDRMSK_Pos) /*!< UI2C_T::ADDRMSK0: ADDRMSK Mask */ | |
#define UI2C_ADDRMSK1_ADDRMSK_Pos (0) /*!< UI2C_T::ADDRMSK1: ADDRMSK Position */ | |
#define UI2C_ADDRMSK1_ADDRMSK_Msk (0x3fful << UI2C_ADDRMSK1_ADDRMSK_Pos) /*!< UI2C_T::ADDRMSK1: ADDRMSK Mask */ | |
#define UI2C_WKCTL_WKEN_Pos (0) /*!< UI2C_T::WKCTL: WKEN Position */ | |
#define UI2C_WKCTL_WKEN_Msk (0x1ul << UI2C_WKCTL_WKEN_Pos) /*!< UI2C_T::WKCTL: WKEN Mask */ | |
#define UI2C_WKCTL_WKADDREN_Pos (1) /*!< UI2C_T::WKCTL: WKADDREN Position */ | |
#define UI2C_WKCTL_WKADDREN_Msk (0x1ul << UI2C_WKCTL_WKADDREN_Pos) /*!< UI2C_T::WKCTL: WKADDREN Mask */ | |
#define UI2C_WKSTS_WKF_Pos (0) /*!< UI2C_T::WKSTS: WKF Position */ | |
#define UI2C_WKSTS_WKF_Msk (0x1ul << UI2C_WKSTS_WKF_Pos) /*!< UI2C_T::WKSTS: WKF Mask */ | |
#define UI2C_PROTCTL_GCFUNC_Pos (0) /*!< UI2C_T::PROTCTL: GCFUNC Position */ | |
#define UI2C_PROTCTL_GCFUNC_Msk (0x1ul << UI2C_PROTCTL_GCFUNC_Pos) /*!< UI2C_T::PROTCTL: GCFUNC Mask */ | |
#define UI2C_PROTCTL_AA_Pos (1) /*!< UI2C_T::PROTCTL: AA Position */ | |
#define UI2C_PROTCTL_AA_Msk (0x1ul << UI2C_PROTCTL_AA_Pos) /*!< UI2C_T::PROTCTL: AA Mask */ | |
#define UI2C_PROTCTL_STO_Pos (2) /*!< UI2C_T::PROTCTL: STO Position */ | |
#define UI2C_PROTCTL_STO_Msk (0x1ul << UI2C_PROTCTL_STO_Pos) /*!< UI2C_T::PROTCTL: STO Mask */ | |
#define UI2C_PROTCTL_STA_Pos (3) /*!< UI2C_T::PROTCTL: STA Position */ | |
#define UI2C_PROTCTL_STA_Msk (0x1ul << UI2C_PROTCTL_STA_Pos) /*!< UI2C_T::PROTCTL: STA Mask */ | |
#define UI2C_PROTCTL_ADDR10EN_Pos (4) /*!< UI2C_T::PROTCTL: ADDR10EN Position */ | |
#define UI2C_PROTCTL_ADDR10EN_Msk (0x1ul << UI2C_PROTCTL_ADDR10EN_Pos) /*!< UI2C_T::PROTCTL: ADDR10EN Mask */ | |
#define UI2C_PROTCTL_PTRG_Pos (5) /*!< UI2C_T::PROTCTL: PTRG Position */ | |
#define UI2C_PROTCTL_PTRG_Msk (0x1ul << UI2C_PROTCTL_PTRG_Pos) /*!< UI2C_T::PROTCTL: PTRG Mask */ | |
#define UI2C_PROTCTL_SCLOUTEN_Pos (8) /*!< UI2C_T::PROTCTL: SCLOUTEN Position */ | |
#define UI2C_PROTCTL_SCLOUTEN_Msk (0x1ul << UI2C_PROTCTL_SCLOUTEN_Pos) /*!< UI2C_T::PROTCTL: SCLOUTEN Mask */ | |
#define UI2C_PROTCTL_MONEN_Pos (9) /*!< UI2C_T::PROTCTL: MONEN Position */ | |
#define UI2C_PROTCTL_MONEN_Msk (0x1ul << UI2C_PROTCTL_MONEN_Pos) /*!< UI2C_T::PROTCTL: MONEN Mask */ | |
#define UI2C_PROTCTL_TOCNT_Pos (16) /*!< UI2C_T::PROTCTL: TOCNT Position */ | |
#define UI2C_PROTCTL_TOCNT_Msk (0x3fful << UI2C_PROTCTL_TOCNT_Pos) /*!< UI2C_T::PROTCTL: TOCNT Mask */ | |
#define UI2C_PROTCTL_PROTEN_Pos (31) /*!< UI2C_T::PROTCTL: PROTEN Position */ | |
#define UI2C_PROTCTL_PROTEN_Msk (0x1ul << UI2C_PROTCTL_PROTEN_Pos) /*!< UI2C_T::PROTCTL: PROTEN Mask */ | |
#define UI2C_PROTIEN_TOIEN_Pos (0) /*!< UI2C_T::PROTIEN: TOIEN Position */ | |
#define UI2C_PROTIEN_TOIEN_Msk (0x1ul << UI2C_PROTIEN_TOIEN_Pos) /*!< UI2C_T::PROTIEN: TOIEN Mask */ | |
#define UI2C_PROTIEN_STARIEN_Pos (1) /*!< UI2C_T::PROTIEN: STARIEN Position */ | |
#define UI2C_PROTIEN_STARIEN_Msk (0x1ul << UI2C_PROTIEN_STARIEN_Pos) /*!< UI2C_T::PROTIEN: STARIEN Mask */ | |
#define UI2C_PROTIEN_STORIEN_Pos (2) /*!< UI2C_T::PROTIEN: STORIEN Position */ | |
#define UI2C_PROTIEN_STORIEN_Msk (0x1ul << UI2C_PROTIEN_STORIEN_Pos) /*!< UI2C_T::PROTIEN: STORIEN Mask */ | |
#define UI2C_PROTIEN_NACKIEN_Pos (3) /*!< UI2C_T::PROTIEN: NACKIEN Position */ | |
#define UI2C_PROTIEN_NACKIEN_Msk (0x1ul << UI2C_PROTIEN_NACKIEN_Pos) /*!< UI2C_T::PROTIEN: NACKIEN Mask */ | |
#define UI2C_PROTIEN_ARBLOIEN_Pos (4) /*!< UI2C_T::PROTIEN: ARBLOIEN Position */ | |
#define UI2C_PROTIEN_ARBLOIEN_Msk (0x1ul << UI2C_PROTIEN_ARBLOIEN_Pos) /*!< UI2C_T::PROTIEN: ARBLOIEN Mask */ | |
#define UI2C_PROTIEN_ERRIEN_Pos (5) /*!< UI2C_T::PROTIEN: ERRIEN Position */ | |
#define UI2C_PROTIEN_ERRIEN_Msk (0x1ul << UI2C_PROTIEN_ERRIEN_Pos) /*!< UI2C_T::PROTIEN: ERRIEN Mask */ | |
#define UI2C_PROTIEN_ACKIEN_Pos (6) /*!< UI2C_T::PROTIEN: ACKIEN Position */ | |
#define UI2C_PROTIEN_ACKIEN_Msk (0x1ul << UI2C_PROTIEN_ACKIEN_Pos) /*!< UI2C_T::PROTIEN: ACKIEN Mask */ | |
#define UI2C_PROTSTS_TOIF_Pos (5) /*!< UI2C_T::PROTSTS: TOIF Position */ | |
#define UI2C_PROTSTS_TOIF_Msk (0x1ul << UI2C_PROTSTS_TOIF_Pos) /*!< UI2C_T::PROTSTS: TOIF Mask */ | |
#define UI2C_PROTSTS_ONBUSY_Pos (6) /*!< UI2C_T::PROTSTS: ONBUSY Position */ | |
#define UI2C_PROTSTS_ONBUSY_Msk (0x1ul << UI2C_PROTSTS_ONBUSY_Pos) /*!< UI2C_T::PROTSTS: ONBUSY Mask */ | |
#define UI2C_PROTSTS_STARIF_Pos (8) /*!< UI2C_T::PROTSTS: STARIF Position */ | |
#define UI2C_PROTSTS_STARIF_Msk (0x1ul << UI2C_PROTSTS_STARIF_Pos) /*!< UI2C_T::PROTSTS: STARIF Mask */ | |
#define UI2C_PROTSTS_STORIF_Pos (9) /*!< UI2C_T::PROTSTS: STORIF Position */ | |
#define UI2C_PROTSTS_STORIF_Msk (0x1ul << UI2C_PROTSTS_STORIF_Pos) /*!< UI2C_T::PROTSTS: STORIF Mask */ | |
#define UI2C_PROTSTS_NACKIF_Pos (10) /*!< UI2C_T::PROTSTS: NACKIF Position */ | |
#define UI2C_PROTSTS_NACKIF_Msk (0x1ul << UI2C_PROTSTS_NACKIF_Pos) /*!< UI2C_T::PROTSTS: NACKIF Mask */ | |
#define UI2C_PROTSTS_ARBLOIF_Pos (11) /*!< UI2C_T::PROTSTS: ARBLOIF Position */ | |
#define UI2C_PROTSTS_ARBLOIF_Msk (0x1ul << UI2C_PROTSTS_ARBLOIF_Pos) /*!< UI2C_T::PROTSTS: ARBLOIF Mask */ | |
#define UI2C_PROTSTS_ERRIF_Pos (12) /*!< UI2C_T::PROTSTS: ERRIF Position */ | |
#define UI2C_PROTSTS_ERRIF_Msk (0x1ul << UI2C_PROTSTS_ERRIF_Pos) /*!< UI2C_T::PROTSTS: ERRIF Mask */ | |
#define UI2C_PROTSTS_ACKIF_Pos (13) /*!< UI2C_T::PROTSTS: ACKIF Position */ | |
#define UI2C_PROTSTS_ACKIF_Msk (0x1ul << UI2C_PROTSTS_ACKIF_Pos) /*!< UI2C_T::PROTSTS: ACKIF Mask */ | |
#define UI2C_PROTSTS_SLASEL_Pos (14) /*!< UI2C_T::PROTSTS: SLASEL Position */ | |
#define UI2C_PROTSTS_SLASEL_Msk (0x1ul << UI2C_PROTSTS_SLASEL_Pos) /*!< UI2C_T::PROTSTS: SLASEL Mask */ | |
#define UI2C_PROTSTS_SLAREAD_Pos (15) /*!< UI2C_T::PROTSTS: SLAREAD Position */ | |
#define UI2C_PROTSTS_SLAREAD_Msk (0x1ul << UI2C_PROTSTS_SLAREAD_Pos) /*!< UI2C_T::PROTSTS: SLAREAD Mask */ | |
#define UI2C_PROTSTS_WKAKDONE_Pos (16) /*!< UI2C_T::PROTSTS: WKAKDONE Position */ | |
#define UI2C_PROTSTS_WKAKDONE_Msk (0x1ul << UI2C_PROTSTS_WKAKDONE_Pos) /*!< UI2C_T::PROTSTS: WKAKDONE Mask */ | |
#define UI2C_PROTSTS_WRSTSWK_Pos (17) /*!< UI2C_T::PROTSTS: WRSTSWK Position */ | |
#define UI2C_PROTSTS_WRSTSWK_Msk (0x1ul << UI2C_PROTSTS_WRSTSWK_Pos) /*!< UI2C_T::PROTSTS: WRSTSWK Mask */ | |
#define UI2C_PROTSTS_BUSHANG_Pos (18) /*!< UI2C_T::PROTSTS: BUSHANG Position */ | |
#define UI2C_PROTSTS_BUSHANG_Msk (0x1ul << UI2C_PROTSTS_BUSHANG_Pos) /*!< UI2C_T::PROTSTS: BUSHANG Mask */ | |
#define UI2C_PROTSTS_ERRARBLO_Pos (19) /*!< UI2C_T::PROTSTS: ERRARBLO Position */ | |
#define UI2C_PROTSTS_ERRARBLO_Msk (0x1ul << UI2C_PROTSTS_ERRARBLO_Pos) /*!< UI2C_T::PROTSTS: ERRARBLO Mask */ | |
#define UI2C_ADMAT_ADMAT0_Pos (0) /*!< UI2C_T::ADMAT: ADMAT0 Position */ | |
#define UI2C_ADMAT_ADMAT0_Msk (0x1ul << UI2C_ADMAT_ADMAT0_Pos) /*!< UI2C_T::ADMAT: ADMAT0 Mask */ | |
#define UI2C_ADMAT_ADMAT1_Pos (1) /*!< UI2C_T::ADMAT: ADMAT1 Position */ | |
#define UI2C_ADMAT_ADMAT1_Msk (0x1ul << UI2C_ADMAT_ADMAT1_Pos) /*!< UI2C_T::ADMAT: ADMAT1 Mask */ | |
#define UI2C_TMCTL_STCTL_Pos (0) /*!< UI2C_T::TMCTL: STCTL Position */ | |
#define UI2C_TMCTL_STCTL_Msk (0x1fful << UI2C_TMCTL_STCTL_Pos) /*!< UI2C_T::TMCTL: STCTL Mask */ | |
#define UI2C_TMCTL_HTCTL_Pos (16) /*!< UI2C_T::TMCTL: HTCTL Position */ | |
#define UI2C_TMCTL_HTCTL_Msk (0x1fful << UI2C_TMCTL_HTCTL_Pos) /*!< UI2C_T::TMCTL: HTCTL Mask */ | |
/**@}*/ /* UI2C_CONST */ | |
/**@}*/ /* end of UI2C register group */ | |
/**@}*/ /* end of REGISTER group */ | |
#endif /* __UI2C_REG_H__ */ |