takashi kadono
/
Nucleo446_SSD1331
Color Oled(SSD1331) connect to STMicroelectronics Nucleo-F466
Diff: mbed-os/targets/TARGET_NUVOTON/TARGET_M2351/device/Reg/sc_reg.h
- Revision:
- 0:8fdf9a60065b
diff -r 000000000000 -r 8fdf9a60065b mbed-os/targets/TARGET_NUVOTON/TARGET_M2351/device/Reg/sc_reg.h --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/mbed-os/targets/TARGET_NUVOTON/TARGET_M2351/device/Reg/sc_reg.h Wed Oct 10 00:33:53 2018 +0000 @@ -0,0 +1,973 @@ +/**************************************************************************//** + * @file sc_reg.h + * @version V1.00 + * @brief SC register definition header file + * + * @copyright (C) 2017 Nuvoton Technology Corp. All rights reserved. + *****************************************************************************/ +#ifndef __SC_REG_H__ +#define __SC_REG_H__ + + +/*---------------------- Smart Card Host Interface Controller -------------------------*/ +/** + @addtogroup SC Smart Card Host Interface Controller(SC) + Memory Mapped Structure for SC Controller +@{ */ + +typedef struct +{ + + + /** + * @var SC_T::DAT + * Offset: 0x00 SC Receive/Transmit Holding Buffer Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[7:0] |DAT |Receive/Transmit Holding Buffer + * | | |Write Operation: + * | | |By writing data to DAT, the SC will send out an 8-bit data. + * | | |Note: If SCEN (SCn_CTL[0]) is not enabled, DAT cannot be programmed. + * | | |Read Operation: + * | | |By reading DAT, the SC will return an 8-bit received data. + * @var SC_T::CTL + * Offset: 0x04 SC Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |SCEN |SC Controller Enable Bit + * | | |Set this bit to 1 to enable SC operation. + * | | |0 = SC will force all transition to IDLE state. + * | | |1 = SC controller is enabled and all function can work correctly. + * | | |Note1: SCEN must be set to 1 before filling in other SC registers, or smart card will not work properly. + * |[1] |RXOFF |RX Transition Disable Control Bit + * | | |This bit is used for disable Rx transition function. + * | | |0 = The receiver Enabled. + * | | |1 = The receiver Disabled. + * | | |Note1: If AUTOCEN (SCn_CTL[3]) is enabled, this field is ignored. + * |[2] |TXOFF |TX Transition Disable Control Bit + * | | |This bit is used for disable Tx transition function. + * | | |0 = The transceiver Enabled. + * | | |1 = The transceiver Disabled. + * |[3] |AUTOCEN |Auto Convention Enable Bit + * | | |This bit is used for enable auto convention function. + * | | |0 = Auto-convention Disabled. + * | | |1 = Auto-convention Enabled. + * | | |If user enables auto convention function, the setting step must be done before Answer to Reset (ATR) state and the first data must be 0x3B or 0x3F + * | | |After hardware received first data and stored it at buffer, hardware will decided the convention and change the CONSEL (SCn_CTL[5:4]) bits automatically when received first data is 0x3B or 0x3F + * | | |If received first byte is 0x3B, TS is direct convention, CONSEL (SCn_CTL[5:4]) will be set to 00 automatically, otherwise the TS is inverse convention, and CONSEL (SCn_CTL[5:4]) will be set to 11. + * | | |If the first data is not 0x3B or 0x3F, hardware will set ACERRIF (SCn_INTSTS[10]) and generate an interrupt to CPU when ACERRIEN (SCn_INTEN[10]) is enabled. + * |[5:4] |CONSEL |Convention Selection + * | | |00 = Direct convention. + * | | |01 = Reserved. + * | | |10 = Reserved. + * | | |11 = Inverse convention. + * | | |Note: If AUTOCEN (SCn_CTL[3]) is enabled, this field is ignored. + * |[7:6] |RXTRGLV |Rx Buffer Trigger Level + * | | |When the number of bytes in the receiving buffer equals the RXTRGLV, the RDAIF will be set + * | | |If RDAIEN (SCn_INTEN[0]) is enabled, an interrupt will be generated to CPU. + * | | |00 = Rx Buffer Trigger Level with 01 bytes. + * | | |01 = Rx Buffer Trigger Level with 02 bytes. + * | | |10 = Rx Buffer Trigger Level with 03 bytes. + * | | |11 = Reserved. + * |[12:8] |BGT |Block Guard Time (BGT) + * | | |Block guard time means the minimum interval between the leading edges of two consecutive characters between different transfer directions + * | | |This field indicates the counter for the bit length of block guard time + * | | |According to ISO 7816-3, in T = 0 mode, user must fill 15 (real block guard time = 16.5) to this field; in T = 1 mode, user must fill 21 (real block guard time = 22.5) to it. + * | | |Note: The real block guard time is BGT + 1. + * |[14:13] |TMRSEL |Timer Channel Selection + * | | |00 = All internal timer function Disabled. + * | | |. + * | | |11 = Internal 24 bit timer and two 8 bit timers Enabled + * | | |User can configure them by setting SCn_TMRCTL0[23:0], SCn_TMRCTL1[7:0] and SCn_TMRCTL2[7:0]. + * | | |Other configurations are reserve + * |[15] |NSB |Stop Bit Length + * | | |This field indicates the length of stop bit. + * | | |0 = The stop bit length is 2 ETU.(for ISO 7816-3 T=0 mode). + * | | |1= The stop bit length is 1 ETU.(for ISO 7816-3 T=1 mode). + * | | |Note1: The default stop bit length is 2. SC and UART adopts NSB to program the stop bit length. + * | | |Note2: In UART mode, RX can receive the data sequence in 1 stop bit or 2 stop bits with NSB is set to 0. + * |[18:16] |RXRTY |RX Error Retry Count Number + * | | |This field indicates the maximum number of receiver retries that are allowed when parity error has occurred + * | | |Note1: The real retry number is RXRTY + 1, so 8 is the maximum retry number. + * | | |Note2: This field cannot be changed when RXRTYEN enabled + * | | |The change flow is to disable RXRTYEN first and then fill in new retry value. + * |[19] |RXRTYEN |RX Error Retry Enable Bit + * | | |This bit enables receiver retry function when parity error has occurred. + * | | |0 = RX error retry function Disabled. + * | | |1 = RX error retry function Enabled. + * | | |Note: User must fill in the RXRTY value before enabling this bit. + * |[22:20] |TXRTY |TX Error Retry Count Number + * | | |This field indicates the maximum number of transmitter retries that are allowed when parity error has occurred. + * | | |Note1: The real retry number is TXRTY + 1, so 8 is the maximum retry number. + * | | |Note2: This field cannot be changed when TXRTYEN enabled + * | | |The change flow is to disable TXRTYEN first and then fill in new retry value. + * |[23] |TXRTYEN |TX Error Retry Enable Bit + * | | |This bit enables transmitter retry function when parity error has occurred. + * | | |0 = TX error retry function Disabled. + * | | |1 = TX error retry function Enabled. + * |[25:24] |CDDBSEL |Card Detect De-bounce Selection + * | | |This field indicates the card detect de-bounce selection. + * | | |00 = De-bounce sample card insert once per 384 (128 * 3) SC module clocks and de-bounce sample card removal once per 128 SC module clocks. + * | | |Other configurations are reserved. + * |[26] |CDLV |Card Detect Level Selection + * | | |0 = When hardware detects the card detect pin (SCn_CD) from high to low, it indicates a card is detected. + * | | |1 = When hardware detects the card detect pin (SCn_CD) from low to high, it indicates a card is detected. + * | | |Note: User must select card detect level before Smart Card controller enabled. + * |[30] |SYNC |SYNC Flag Indicator (Read Only) + * | | |Due to synchronization, user should check this bit before writing a new value to RXRTY and TXRTY fields. + * | | |0 = Synchronizing is completion, user can write new data to RXRTY and TXRTY. + * | | |1 = Last value is synchronizing. + * @var SC_T::ALTCTL + * Offset: 0x08 SC Alternate Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |TXRST |TX Software Reset + * | | |When TXRST is set, all the bytes in the transmit buffer and TX internal state machine will be cleared. + * | | |0 = No effect. + * | | |1 = Reset the TX internal state machine and pointers. + * | | |Note: This bit will be auto cleared after reset is complete. + * |[1] |RXRST |Rx Software Reset + * | | |When RXRST is set, all the bytes in the receive buffer and Rx internal state machine will be cleared. + * | | |0 = No effect. + * | | |1 = Reset the Rx internal state machine and pointers. + * | | |Note: This bit will be auto cleared after reset is complete. + * |[2] |DACTEN |Deactivation Sequence Generator Enable Bit + * | | |This bit enables SC controller to initiate the card by deactivation sequence. + * | | |0 = No effect. + * | | |1 = Deactivation sequence generator Enabled. + * | | |Note1: When the deactivation sequence completed, this bit will be cleared automatically and the INITIF (SCn_INTSTS[8]) will be set to 1. + * | | |Note2: This field will be cleared by TXRST (SCn_ALTCTL[0]) and RXRST (SCn_ALTCTL[1]) + * | | |Thus, do not fill in this bit DACTEN, TXRST and RXRST at the same time. + * | | |Note3: If SCEN (SCn_CTL[0]) is not enabled, this filed cannot be programmed. + * |[3] |ACTEN |Activation Sequence Generator Enable Bit + * | | |This bit enables SC controller to initiate the card by activation sequence. + * | | |0 = No effect. + * | | |1 = Activation sequence generator Enabled. + * | | |Note1: When the activation sequence completed, this bit will be cleared automatically and the INITIF (SCn_INTSTS[8]) will be set to 1. + * | | |Note2: This field will be cleared by TXRST (SCn_ALTCTL[0]) and RXRST (SCn_ALTCTL[1]) + * | | |Thus, do not fill in this bit ACTEN, TXRST and RXRST at the same time. + * | | |Note3: If SCEN (SCn_CTL[0]) is not enabled, this filed cannot be programmed. + * | | |Note4: During the activation sequence, RX is disabled automatically and can not receive data + * | | |After the activation sequence completion, RXOFF (SCn_CTL[1]) keeps the state before hardware activation. + * |[4] |WARSTEN |Warm Reset Sequence Generator Enable Bit + * | | |This bit enables SC controller to initiate the card by warm reset sequence. + * | | |0 = No effect. + * | | |1 = Warm reset sequence generator Enabled. + * | | |Note1: When the warm reset sequence completed, this bit will be cleared automatically and the INITIF (SCn_INTSTS[8]) will be set to 1. + * | | |Note2: This field will be cleared by TXRST (SCn_ALTCTL[0]) and RXRST (SCn_ALTCTL[1]) + * | | |Thus, do not fill in this bit WARSTEN, TXRST and RXRST at the same time. + * | | |Note3: If SCEN (SCn_CTL[0]) is not enabled, this filed cannot be programmed. + * | | |Note4: During the warm reset sequence, RX is disabled automatically and can not receive data + * | | |After the warm reset sequence completion, RXOFF (SCn_CTL[1]) keeps the state before perform warm reset sequence. + * |[5] |CNTEN0 |Internal Timer0 Start Enable Bit + * | | |This bit enables Timer 0 to start counting + * | | |User can fill 0 to stop it and set 1 to reload and count + * | | |The counter unit is ETU base. + * | | |0 = Stops counting. + * | | |1 = Start counting. + * | | |Note1: This field is used for internal 24 bit timer when TMRSEL (SCn_CTL[14:13]) is 11 only. + * | | |Note2: If the operation mode is not in auto-reload mode (SCn_TMRCTL0[26] = 0), this bit will be auto-cleared by hardware. + * | | |Note3: If SCEN (SCn_CTL[0]) is not enabled, this filed cannot be programmed + * |[6] |CNTEN1 |Internal Timer1 Start Enable Bit + * | | |This bit enables Timer 1 to start counting + * | | |User can fill 0 to stop it and set 1 to reload and count + * | | |The counter unit is ETU base. + * | | |0 = Stops counting. + * | | |1 = Start counting. + * | | |Note1: This field is used for internal 8 bit timer when TMRSEL(SCn_CTL[14:13]) is 11 only + * | | |Do not fill CNTEN1 when TMRSEL (SCn_CTL[14:13]) is not equal to 11. + * | | |Note2: If the operation mode is not in auto-reload mode (SCn_TMRCTL1[26] = 0), this bit will be auto-cleared by hardware. + * | | |Note3: If SCEN (SCn_CTL[0]) is not enabled, this filed cannot be programmed. + * |[7] |CNTEN2 |Internal Timer2 Start Enable Bit + * | | |This bit enables Timer 2 to start counting + * | | |User can fill 0 to stop it and set 1 to reload and count + * | | |The counter unit is ETU base. + * | | |0 = Stops counting. + * | | |1 = Start counting. + * | | |Note1: This field is used for internal 8 bit timer when TMRSEL (SCn_CTL[14:13]) is 11 only + * | | |Do not fill in CNTEN2 when TMRSEL (SCn_CTL[14:13]) is not equal to 11. + * | | |Note2: If the operation mode is not in auto-reload mode (SCn_TMRCTL2[26] = 0), this bit will be auto-cleared by hardware. + * | | |Note3: If SCEN (SCn_CTL[0]) is not enabled, this filed cannot be programmed. + * |[9:8] |INITSEL |Initial Timing Selection + * | | |This fields indicates the initial timing of hardware activation, warm-reset or deactivation. + * | | |The unit of initial timing is SC module clock. + * | | |Activation: refer to SC Activation Sequence in Figure 6.17-4 SC Activation Sequence. + * | | |Warm-reset: refer to Warm-Reset Sequence in Figure 6.17-5 SC Warm Reset Sequence. + * | | |Deactivation: refer to Deactivation Sequence in Figure 6.17-6 SC Deactivation Sequence. + * | | |Note: When set activation and warm reset in Timer0 operation mode 0011, it may have deviation at most 128 SC module clock cycles. + * |[11] |ADACEN |Auto Deactivation When Card Removal + * | | |This bit is used for enable hardware auto deactivation when smart card is removed. + * | | |0 = Auto deactivation Disabled. + * | | |1 = Auto deactivation Enabled. + * | | |Note: When the card is removed, hardware will stop any process and then do deactivation sequence if this bit is set + * | | |If auto deactivation process completes, hardware will set INITIF (SCn_INTSTS[8]) also. + * |[12] |RXBGTEN |Receiver Block Guard Time Function Enable Bit + * | | |This bit enables the receiver block guard time function. + * | | |0 = Receiver block guard time function Disabled. + * | | |1 = Receiver block guard time function Enabled. + * |[13] |ACTSTS0 |Internal Timer0 Active Status (Read Only) + * | | |This bit indicates the timer counter status of timer0. + * | | |0 = Timer0 is not active. + * | | |1 = Timer0 is active. + * | | |Note: Timer0 is active does not always mean timer0 is counting the CNT (SCn_TMRCTL0[23:0]). + * |[14] |ACTSTS1 |Internal Timer1 Active Status (Read Only) + * | | |This bit indicates the timer counter status of timer1. + * | | |0 = Timer1 is not active. + * | | |1 = Timer1 is active. + * | | |Note: Timer1 is active does not always mean timer1 is counting the CNT (SCn_TMRCTL1[7:0]). + * |[15] |ACTSTS2 |Internal Timer2 Active Status (Read Only) + * | | |This bit indicates the timer counter status of timer2. + * | | |0 = Timer2 is not active. + * | | |1 = Timer2 is active. + * | | |Note: Timer2 is active does not always mean timer2 is counting the CNT (SCn_TMRCTL2[7:0]). + * |[31] |SYNC |SYNC Flag Indicator (Read Only) + * | | |Due to synchronization, user should check this bit when writing a new value to SCn_ALTCTL register. + * | | |0 = Synchronizing is completion, user can write new data to SCn_ALTCTL register. + * | | |1 = Last value is synchronizing. + * @var SC_T::EGT + * Offset: 0x0C SC Extra Guard Time Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[7:0] |EGT |Extra Guard Time + * | | |This field indicates the extra guard time value. + * | | |Note: The extra guard time unit is ETU base. + * @var SC_T::RXTOUT + * Offset: 0x10 SC Receive Buffer Time-out Counter Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[8:0] |RFTM |SC Receiver FIFO Time-out Counter + * | | |The time-out down counter resets and starts counting whenever the RX buffer received a new data + * | | |Once the counter decrease to 1 and no new data is received or CPU does not read data by reading SCn_DAT, a receiver time-out flag RXTOIF (SCn_INTSTS[9]) will be set, and hardware will generate an interrupt to CPU when RXTOIEN (SCn_INTEN[9]) is enabled. + * | | |Note1: The counter unit is ETU based and the interval of time-out is RFTM + 0.5. + * | | |Note2: Filling in all 0 to this field indicates to disable this function. + * @var SC_T::ETUCTL + * Offset: 0x14 SC Element Time Unit Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[11:0] |ETURDIV |ETU Rate Divider + * | | |The field is used for ETU clock rate divider. + * | | |The real ETU is ETURDIV + 1. + * | | |Note: User can configure this field, but this field must be greater than 0x04. + * @var SC_T::INTEN + * Offset: 0x18 SC Interrupt Enable Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |RDAIEN |Receive Data Reach Interrupt Enable Bit + * | | |This field is used to enable received data reaching trigger level RXTRGLV (SCn_CTL[7:6]) interrupt. + * | | |0 = Receive data reach trigger level interrupt Disabled. + * | | |1 = Receive data reach trigger level interrupt Enabled. + * |[1] |TBEIEN |Transmit Buffer Empty Interrupt Enable Bit + * | | |This field is used to enable transmit buffer empty interrupt. + * | | |0 = Transmit buffer empty interrupt Disabled. + * | | |1 = Transmit buffer empty interrupt Enabled. + * |[2] |TERRIEN |Transfer Error Interrupt Enable Bit + * | | |This field is used to enable transfer error interrupt + * | | |The transfer error states is at SCn_STATUS register which includes receiver break error BEF (SCn_STATUS[6]), frame error FEF (SCn_STATUS[5]), parity error PEF (SCn_STATUS[4]), receive buffer overflow error RXOV (SCn_STATUS[0]), transmit buffer overflow error TXOV (SCn_STATUS[8]), receiver retry over limit error RXOVERR (SCn_STATUS[22]) and transmitter retry over limit error TXOVERR (SCn_STATUS[30]). + * | | |0 = Transfer error interrupt Disabled. + * | | |1 = Transfer error interrupt Enabled. + * |[3] |TMR0IEN |Timer0 Interrupt Enable Bit + * | | |This field is used to enable Timer0 interrupt function. + * | | |0 = Timer0 interrupt Disabled. + * | | |1 = Timer0 interrupt Enabled. + * |[4] |TMR1IEN |Timer1 Interrupt Enable Bit + * | | |This field is used to enable the Timer1 interrupt function. + * | | |0 = Timer1 interrupt Disabled. + * | | |1 = Timer1 interrupt Enabled. + * |[5] |TMR2IEN |Timer2 Interrupt Enable Bit + * | | |This field is used to enable Timer2 interrupt function. + * | | |0 = Timer2 interrupt Disabled. + * | | |1 = Timer2 interrupt Enabled. + * |[6] |BGTIEN |Block Guard Time Interrupt Enable Bit + * | | |This field is used to enable block guard time interrupt in receive direction. + * | | |0 = Block guard time interrupt Disabled. + * | | |1 = Block guard time interrupt Enabled. + * | | |Note: This bit is valid only for receive receive direction block guard time. + * |[7] |CDIEN |Card Detect Interrupt Enable Bit + * | | |This field is used to enable card detect interrupt + * | | |The card detect status is CDPINSTS (SCn_STATUS[13]). + * | | |0 = Card detect interrupt Disabled. + * | | |1 = Card detect interrupt Enabled. + * |[8] |INITIEN |Initial End Interrupt Enable Bit + * | | |This field is used to enable activation (ACTEN (SCn_ALTCTL[3] = 1)), deactivation (DACTEN (SCn_ALTCTL[2] = 1)) and warm reset (WARSTEN (SCn_ALTCTL [4])) sequence complete interrupt. + * | | |0 = Initial end interrupt Disabled. + * | | |1 = Initial end interrupt Enabled. + * |[9] |RXTOIEN |Receiver Buffer Time-out Interrupt Enable Bit + * | | |This field is used to enable receiver buffer time-out interrupt. + * | | |0 = Receiver buffer time-out interrupt Disabled. + * | | |1 = Receiver buffer time-out interrupt Enabled. + * |[10] |ACERRIEN |Auto Convention Error Interrupt Enable Bit + * | | |This field is used to enable auto-convention error interrupt. + * | | |0 = Auto-convention error interrupt Disabled. + * | | |1 = Auto-convention error interrupt Enabled. + * @var SC_T::INTSTS + * Offset: 0x1C SC Interrupt Status Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |RDAIF |Receive Data Reach Interrupt Status Flag (Read Only) + * | | |This field is used for received data reaching trigger level RXTRGLV (SCn_CTL[7:6]) interrupt status flag. + * | | |0 = Number of receive buffer is less than RXTRGLV setting. + * | | |1 = Number of receive buffer data equals the RXTRGLV setting. + * | | |Note: This bit is read only + * | | |If user reads data from SCn_DAT and receiver buffer data byte number is less than RXTRGLV, this bit will be cleared automatically. + * |[1] |TBEIF |Transmit Buffer Empty Interrupt Status Flag (Read Only) + * | | |This field is used for transmit buffer empty interrupt status flag. + * | | |0 = Transmit buffer is not empty. + * | | |1 = Transmit buffer is empty. + * | | |Note: This bit is read only + * | | |If user wants to clear this bit, user must write data to DAT (SCn_DAT[7:0]) and then this bit will be cleared automatically. + * |[2] |TERRIF |Transfer Error Interrupt Status Flag + * | | |This field is used for transfer error interrupt status flag + * | | |The transfer error states is at SCn_STATUS register which includes receiver break error BEF (SCn_STATUS[6]), frame error FEF (SCn_STATUS[5], parity error PEF (SCn_STATUS[4] and receive buffer overflow error RXOV (SCn_STATUS[0]), transmit buffer overflow error TXOV (SCn_STATUS[8]), receiver retry over limit error RXOVERR (SCn_STATUS[22] or transmitter retry over limit error TXOVERR (SCn_STATUS[30]). + * | | |0 = Transfer error interrupt did not occur. + * | | |1 = Transfer error interrupt occurred. + * | | |Note1: This field is the status flag of BEF, FEF, PEF, RXOV, TXOV, RXOVERR or TXOVERR. + * | | |Note2: This bit can be cleared by writing 1 to it. + * |[3] |TMR0IF |Timer0 Interrupt Status Flag + * | | |This field is used for Timer0 interrupt status flag. + * | | |0 = Timer0 interrupt did not occur. + * | | |1 = Timer0 interrupt occurred. + * | | |Note: This bit can be cleared by writing 1 to it. + * |[4] |TMR1IF |Timer1 Interrupt Status Flag + * | | |This field is used for Timer1 interrupt status flag. + * | | |0 = Timer1 interrupt did not occur. + * | | |1 = Timer1 interrupt occurred. + * | | |Note: This bit can be cleared by writing 1 to it. + * |[5] |TMR2IF |Timer2 Interrupt Status Flag + * | | |This field is used for Timer2 interrupt status flag. + * | | |0 = Timer2 interrupt did not occur. + * | | |1 = Timer2 interrupt occurred. + * | | |Note: This bit can be cleared by writing 1 to it. + * |[6] |BGTIF |Block Guard Time Interrupt Status Flag + * | | |This field is used for indicate block guard time interrupt status flag in receive direction. + * | | |0 = Block guard time interrupt did not occur. + * | | |1 = Block guard time interrupt occurred. + * | | |Note1: This bit is valid only when RXBGTEN (SCn_ALTCTL[12]) is enabled. + * | | |Note2: This bit can be cleared by writing 1 to it. + * |[7] |CDIF |Card Detect Interrupt Status Flag (Read Only) + * | | |This field is used for card detect interrupt status flag + * | | |The card detect status is CINSERT (SCn_STATUS[12]) and CREMOVE (SCn_STATUS[11]). + * | | |0 = Card detect event did not occur. + * | | |1 = Card detect event occurred. + * | | |Note: This bit is read only, user must to clear CINSERT or CREMOVE status to clear it. + * |[8] |INITIF |Initial End Interrupt Status Flag + * | | |This field is used for activation (ACTEN (SCn_ALTCTL[3])), deactivation (DACTEN (SCn_ALTCTL[2])) and warm reset (WARSTEN (SCn_ALTCTL[4])) sequence interrupt status flag. + * | | |0 = Initial sequence is not complete. + * | | |1 = Initial sequence is completed. + * | | |Note: This bit can be cleared by writing 1 to it. + * |[9] |RXTOIF |Receive Buffer Time-out Interrupt Status Flag (Read Only) + * | | |This field is used for indicate receive buffer time-out interrupt status flag. + * | | |0 = Receive buffer time-out interrupt did not occur. + * | | |1 = Receive buffer time-out interrupt occurred. + * | | |Note: This bit is read only, user must read all receive buffer remaining data by reading SCn_DAT register to clear it. + * |[10] |ACERRIF |Auto Convention Error Interrupt Status Flag + * | | |This field indicates auto convention sequence error. + * | | |0 = Received TS at ATR state is 0x3B or 0x3F. + * | | |1 = Received TS at ATR state is neither 0x3B nor 0x3F. + * | | |Note: This bit can be cleared by writing 1 to it. + * @var SC_T::STATUS + * Offset: 0x20 SC Transfer Status Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |RXOV |Receive Overflow Error Status Flag + * | | |This bit is set when Rx buffer overflow. + * | | |0 = Rx buffer is not overflow. + * | | |1 = Rx buffer is overflow when the number of received bytes is greater than Rx buffer size (4 bytes). + * | | |Note: This bit can be cleared by writing 1 to it. + * |[1] |RXEMPTY |Receive Buffer Empty Status Flag (Read Only) + * | | |This bit indicates Rx buffer empty or not. + * | | |0 = Rx buffer is not empty. + * | | |1 = Rx buffer is empty, it means the last byte of Rx buffer has read from DAT (SCn_DAT[7:0]) by CPU. + * |[2] |RXFULL |Receive Buffer Full Status Flag (Read Only) + * | | |This bit indicates Rx buffer full or not. + * | | |0 = Rx buffer count is less than 4. + * | | |1 = Rx buffer count equals to 4. + * |[4] |PEF |Receiver Parity Error Status Flag + * | | |This bit is set to logic 1 whenever the received character does not have a valid parity bit. + * | | |0 = Receiver parity error flag did not occur. + * | | |1 = Receiver parity error flag occurred. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: If CPU sets receiver retries function by setting RXRTYEN (SCn_CTL[19]), hardware will not set this flag. + * |[5] |FEF |Receiver Frame Error Status 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 = Receiver frame error flag did not occur. + * | | |1 = Receiver frame error flag occurred. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: If CPU sets receiver retries function by setting RXRTYEN (SCn_CTL[19]), hardware will not set this flag. + * |[6] |BEF |Receiver Break Error Status Flag + * | | |This bit is set to logic 1 whenever the received data input (Rx) held in the spacing state (logic 0) is longer than a full word transmission time (that is, the total time of start bit + data bits + parity bit + stop bits). + * | | |0 = Receiver break error flag did not occur. + * | | |1 = Receiver break error flag occurred. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: If CPU sets receiver retries function by setting RXRTYEN (SCn_CTL[19]), hardware will not set this flag. + * |[8] |TXOV |Transmit Overflow Error Interrupt Status Flag + * | | |This bit is set when Tx buffer overflow. + * | | |0 = Tx buffer is not overflow. + * | | |1 = Tx buffer is overflow when Tx buffer is full and an additional write operation to DAT (SCn_DAT[7:0]). + * | | |Note: This bit can be cleared by writing 1 to it. + * |[9] |TXEMPTY |Transmit Buffer Empty Status Flag (Read Only) + * | | |This bit indicates TX buffer empty or not. + * | | |0 = Tx buffer is not empty. + * | | |1 = Tx buffer is empty, it means the last byte of Tx buffer has been transferred to Transmitter Shift Register. + * | | |Note: This bit will be cleared when writing data into DAT (SCn_DAT[7:0]). + * |[10] |TXFULL |Transmit Buffer Full Status Flag (Read Only) + * | | |This bit indicates Tx buffer full or not. + * | | |0 = Tx buffer count is less than 4. + * | | |1 = Tx buffer count equals to 4. + * |[11] |CREMOVE |Card Removal Status of SCn_CD Pin + * | | |This bit is set whenever card has been removal. + * | | |0 = No effect. + * | | |1 = Card removed. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: Card detect function will start after SCEN (SCn_CTL[0]) set. + * |[12] |CINSERT |Card Insert Status of SCn_CD Pin + * | | |This bit is set whenever card has been inserted. + * | | |0 = No effect. + * | | |1 = Card insert. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: The card detect function will start after SCEN (SCn_CTL[0]) set. + * |[13] |CDPINSTS |Card Detect Pin Status (Read Only) + * | | |This bit is the pin status of SCn_CD. + * | | |0 = The SCn_CD pin state at low. + * | | |1 = The SCn_CD pin state at high. + * |[18:16] |RXPOINT |Receive Buffer Pointer Status (Read Only) + * | | |This field indicates the Rx buffer pointer status + * | | |When SC controller receives one byte from external device, RXPOINT increases one + * | | |When one byte of Rx buffer is read by CPU, RXPOINT decreases one. + * |[21] |RXRERR |Receiver Retry Error + * | | |This bit is used for receiver error retry and set by hardware. + * | | |0 = No Rx retry transfer. + * | | |1 = Rx has any error and retries transfer. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2 This bit is a flag and cannot generate any interrupt to CPU. + * | | |Note3: If CPU enables receiver retries function by setting RXRTYEN (SCn_CTL[19]), hardware will not set this flag. + * |[22] |RXOVERR |Receiver over Retry Error + * | | |This bit is used for receiver retry counts over than retry number limitation. + * | | |0 = Receiver retries counts is not over than RXRTY (SCn_CTL[18:16]) + 1. + * | | |1 = Receiver retries counts over than RXRTY (SCn_CTL[18:16]) + 1. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: If CPU enables receiver retries function by setting RXRTYEN (SCn_CTL[19]), hardware will not set this flag. + * |[23] |RXACT |Receiver in Active Status Flag (Read Only) + * | | |This bit indicates Rx transfer status. + * | | |0 = This bit is cleared automatically when Rx transfer is finished. + * | | |1 = This bit is set by hardware when Rx transfer is in active. + * | | |Note: This bit is read only. + * | | |Note2: + * |[26:24] |TXPOINT |Transmit Buffer Pointer Status (Read Only) + * | | |This field indicates the Tx buffer pointer status + * | | |When CPU writes data into SCn_DAT, TXPOINT increases one + * | | |When one byte of Tx buffer is transferred to transmitter shift register, TXPOINT decreases one. + * |[29] |TXRERR |Transmitter Retry Error + * | | |This bit is used for indicate transmitter error retry and set by hardware.. + * | | |0 = No Tx retry transfer. + * | | |1 = Tx has any error and retries transfer. + * | | |Note1: This bit can be cleared by writing 1 to it. + * | | |Note2: This bit is a flag and cannot generate any interrupt to CPU. + * |[30] |TXOVERR |Transmitter over Retry Error + * | | |This bit is used for transmitter retry counts over than retry number limitation. + * | | |0 = Transmitter retries counts is not over than TXRTY (SCn_CTL[22:20]) + 1. + * | | |1 = Transmitter retries counts over than TXRTY (SCn_CTL[22:20]) + 1. + * | | |Note: This bit can be cleared by writing 1 to it. + * |[31] |TXACT |Transmit in Active Status Flag (Read Only) + * | | |This bit indicates Tx transmit status. + * | | |0 = This bit is cleared automatically when Tx transfer is finished or the last byte transmission has completed. + * | | |1 = Transmit is active and this bit is set by hardware when Tx transfer is in active and the STOP bit of the last byte has not been transmitted. + * | | |Note: This bit is read only. + * @var SC_T::PINCTL + * Offset: 0x24 SC Pin Control State Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |PWREN |SCn_PWR Pin Signal + * | | |User can set PWRINV (SCn_PINCTL[11]) and PWREN (SCn_PINCTL[0]) to decide SCn_PWR pin is in high or low level. + * | | |Write this field to drive SCn_PWR pin + * | | |Refer PWRINV (SCn_PINCTL[11]) description for programming SCn_PWR pin voltage level. + * | | |Read this field to get SCn_PWR signal status. + * | | |0 = SCn_PWR signal status is low. + * | | |1 = SCn_PWR signal status is high. + * | | |Note: When operating at activation, warm reset or deactivation mode, this bit will be changed automatically + * | | |Thus, do not fill in this field when operating in these modes. + * |[1] |RSTEN |SCn_RST Pin Signal + * | | |User can set RSTEN (SCn_PINCTL[1]) to decide SCn_RST pin is in high or low level. + * | | |Write this field to drive SCn_RST pin. + * | | |0 = Drive SCn_RST pin to low. + * | | |1 = Drive SCn_RST pin to high. + * | | |Read this field to get SCn_RST signal status. + * | | |0 = SCn_RST signal status is low. + * | | |1 = SCn_RST signal status is high. + * | | |Note: When operating at activation, warm reset or deactivation mode, this bit will be changed automatically + * | | |Thus, do not fill in this field when operating in these modes. + * |[5] |CSTOPLV |SCn_CLK Pin Stop Level + * | | |This field indicates the SCn_CLK pin status when SC clock in clock stop mode. + * | | |0 = SCn_CLK pin keeps at low when SC clock stopped. + * | | |1 = SCn_CLK pin keeps at high when SC clock stopped. + * |[6] |CLKKEEP |SC Clock Enable Bit + * | | |0 = SC clock generation Disabled. + * | | |1 = SC clock always keeps free running. + * | | |Note: When operating in activation, warm reset or deactivation mode, this bit will be changed automatically + * | | |Thus, do not fill in this field when operating in these modes. + * |[9] |SCDATA |SCn_DATA Pin Signal + * | | |This bit is the signal status of SCn_DATA but user can drive SCn_DATA pin to high or low by setting this bit. + * | | |0 = Drive SCn_DATA pin to low. + * | | |1 = Drive SCn_DATA pin to high. + * | | |Read this field to get SCn_DATA signal status. + * | | |0 = SCn_DATA signal status is low. + * | | |1 = SCn_DATA signal status is high. + * | | |Note: When SC is at activation, warm reset or deactivation mode, this bit will be changed automatically + * | | |Thus, do not fill in this field when SC is in these modes. + * |[11] |PWRINV |SCn_PWR Pin Inverse + * | | |This bit is used for inverse the SCn_PWR pin. + * | | |There are four kinds of combination for SCn_PWR pin setting by PWRINV (SCn_PINCTL[11]) and PWREN (SCn_PINCTL[0]). + * | | |0 = SCn_PWR pin inverse Disabled + * | | |If PWREN is 1, SCn_PWR pin status is 1; if PWREN is 0, SCn_PWR pin status is 0. + * | | |1 = SCn_PWR pin inverse Enabled + * | | |If PWREN is 1, SCn_PWR pin status is 0; if PWREN is 0, SCn_PWR pin status is 1. + * | | |Note: User must select PWRINV (SCn_PINCTL[11]) before smart card is enabled by SCEN (SCn_CTL[0]). + * |[16] |DATASTS |SCn_DATA Pin Status (Read Only) + * | | |This bit is the pin status of SCn_DATA. + * | | |0 = The SCn_DATA pin status is low. + * | | |1 = The SCn_DATA pin status is high. + * | | |Note: + * |[17] |PWRSTS |SCn_PWR Pin Status (Read Only) + * | | |This bit is the pin status of SCn_PWR. + * | | |0 = SCn_PWR pin to low. + * | | |1 = SCn_PWR pin to high. + * |[18] |RSTSTS |SCn_RST Pin Status (Read Only) + * | | |This bit is the pin status of SCn_RST. + * | | |0 = SCn_RST pin is low. + * | | |1 = SCn_RST pin is high. + * |[30] |SYNC |SYNC Flag Indicator (Read Only) + * | | |Due to synchronization, user should check this bit when writing a new value to SCn_PINCTL register. + * | | |0 = Synchronizing is completion, user can write new data to SCn_PINCTL register. + * | | |1 = Last value is synchronizing. + * @var SC_T::TMRCTL0 + * Offset: 0x28 SC Internal Timer0 Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[23:0] |CNT |Timer0 Counter Value + * | | |This field indicates the internal Timer0 counter values. + * | | |Note: Unit of Timer0 counter is ETU base. + * |[27:24] |OPMODE |Timer0 Operation Mode Selection + * | | |This field indicates the internal 24-bit Timer0 operation selection. + * | | |Refer to Table 6.17-3 Timer0/Timer1/Timer2 Operation Mode for programming Timer0. + * |[31] |SYNC |SYNC Flag Indicator (Read Only) + * | | |Due to synchronization, user should check this bit when writing a new value to the SCn_TMRCTL0 register. + * | | |0 = Synchronizing is completion, user can write new data to SCn_TMRCTL0 register. + * | | |1 = Last value is synchronizing. + * @var SC_T::TMRCTL1 + * Offset: 0x2C SC Internal Timer1 Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[7:0] |CNT |Timer 1 Counter Value + * | | |This field indicates the internal Timer1 counter values. + * | | |Note: Unit of Timer1 counter is ETU base. + * |[27:24] |OPMODE |Timer 1 Operation Mode Selection + * | | |This field indicates the internal 8-bit Timer1 operation selection. + * | | |Refer to Table 6.17-3 Timer0/Timer1/Timer2 Operation Mode for programming Timer1. + * |[31] |SYNC |SYNC Flag Indicator (Read Only) + * | | |Due to synchronization, software should check this bit when writing a new value to SCn_TMRCTL1 register. + * | | |0 = Synchronizing is completion, user can write new data to SCn_TMRCTL1 register. + * | | |1 = Last value is synchronizing. + * @var SC_T::TMRCTL2 + * Offset: 0x30 SC Internal Timer2 Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[7:0] |CNT |Timer 2 Counter Value + * | | |This field indicates the internal Timer2 counter values. + * | | |Note: Unit of Timer2 counter is ETU base. + * |[27:24] |OPMODE |Timer 2 Operation Mode Selection + * | | |This field indicates the internal 8-bit Timer2 operation selection + * | | |Refer to Table 6.17-3 Timer0/Timer1/Timer2 Operation Mode for programming Timer2. + * |[31] |SYNC |SYNC Flag Indicator (Read Only) + * | | |Due to synchronization, user should check this bit when writing a new value to SCn_TMRCTL2 register. + * | | |0 = Synchronizing is completion, user can write new data to SCn_TMRCTL2 register. + * | | |1 = Last value is synchronizing. + * @var SC_T::UARTCTL + * Offset: 0x34 SC UART Mode Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[0] |UARTEN |UART Mode Enable Bit + * | | |Sets this bit to enable UART mode function. + * | | |0 = Smart Card mode. + * | | |1 = UART mode. + * | | |Note1: When operating in UART mode, user must set CONSEL (SCn_CTL[5:4]) = 00 and AUTOCEN (SCn_CTL[3]) = 0. + * | | |Note2: When operating in Smart Card mode, user must set UARTEN (SCn_UARTCTL[0]) = 0. + * | | |Note3: When UART mode is enabled, hardware will generate a reset to reset FIFO and internal state machine. + * |[5:4] |WLS |Word Length Selection + * | | |This field is used for select UART data length. + * | | |00 = Word length is 8 bits. + * | | |01 = Word length is 7 bits. + * | | |10 = Word length is 6 bits. + * | | |11 = Word length is 5 bits. + * | | |Note: In smart card mode, this WLS must be u201800'. + * |[6] |PBOFF |Parity Bit Disable Control + * | | |Sets this bit is used for disable parity check function. + * | | |0 = Parity bit is generated or checked between the last data word bit and stop bit of the serial data. + * | | |1 = Parity bit is not generated (transmitting data) or checked (receiving data) during transfer. + * | | |Note: In smart card mode, this field must be u20180' (default setting is with parity bit). + * |[7] |OPE |Odd Parity Enable Bit + * | | |This is used for odd/even parity selection. + * | | |0 = Even number of logic 1's are transmitted or check the data word and parity bits in receiving mode. + * | | |1 = Odd number of logic 1's are transmitted or check the data word and parity bits in receiving mode. + * | | |Note: This bit has effect only when PBOFF bit is u20180'. + * @var SC_T::ACTCTL + * Offset: 0x4C SC Activation Control Register + * --------------------------------------------------------------------------------------------------- + * |Bits |Field |Descriptions + * | :----: | :----: | :---- | + * |[4:0] |T1EXT |T1 Extend Time of Hardware Activation + * | | |This field provide the configurable cycles to extend the activation time T1 period. + * | | |The cycle scaling factor is 2048. + * | | |Extend cycles = (filled value * 2048) cycles. + * | | |Refer to SC activation sequence in Figure 6.17-4 SC Activation Sequence. + * | | |For example, + * | | |SCLK = 4MHz, each cycle = 0.25us,. + * | | |Filled 20 to this field + * | | |Extend time = 20 * 2048 * 0.25us = 10.24 ms. + * | | |Note: Setting 0 to this field conforms to the protocol ISO/IEC 7816-3 + */ + __IO uint32_t DAT; /*!< [0x0000] SC Receive/Transmit Holding Buffer Register */ + __IO uint32_t CTL; /*!< [0x0004] SC Control Register */ + __IO uint32_t ALTCTL; /*!< [0x0008] SC Alternate Control Register */ + __IO uint32_t EGT; /*!< [0x000c] SC Extra Guard Time Register */ + __IO uint32_t RXTOUT; /*!< [0x0010] SC Receive Buffer Time-out Counter Register */ + __IO uint32_t ETUCTL; /*!< [0x0014] SC Element Time Unit Control Register */ + __IO uint32_t INTEN; /*!< [0x0018] SC Interrupt Enable Control Register */ + __IO uint32_t INTSTS; /*!< [0x001c] SC Interrupt Status Register */ + __IO uint32_t STATUS; /*!< [0x0020] SC Transfer Status Register */ + __IO uint32_t PINCTL; /*!< [0x0024] SC Pin Control State Register */ + __IO uint32_t TMRCTL0; /*!< [0x0028] SC Internal Timer0 Control Register */ + __IO uint32_t TMRCTL1; /*!< [0x002c] SC Internal Timer1 Control Register */ + __IO uint32_t TMRCTL2; /*!< [0x0030] SC Internal Timer2 Control Register */ + __IO uint32_t UARTCTL; /*!< [0x0034] SC UART Mode Control Register */ + __I uint32_t RESERVE0[5]; + __IO uint32_t ACTCTL; /*!< [0x004c] SC Activation Control Register */ + +} SC_T; + +/** + @addtogroup SC_CONST SC Bit Field Definition + Constant Definitions for SC Controller +@{ */ + +#define SC_DAT_DAT_Pos (0) /*!< SC_T::DAT: DAT Position */ +#define SC_DAT_DAT_Msk (0xfful << SC_DAT_DAT_Pos) /*!< SC_T::DAT: DAT Mask */ + +#define SC_CTL_SCEN_Pos (0) /*!< SC_T::CTL: SCEN Position */ +#define SC_CTL_SCEN_Msk (0x1ul << SC_CTL_SCEN_Pos) /*!< SC_T::CTL: SCEN Mask */ + +#define SC_CTL_RXOFF_Pos (1) /*!< SC_T::CTL: RXOFF Position */ +#define SC_CTL_RXOFF_Msk (0x1ul << SC_CTL_RXOFF_Pos) /*!< SC_T::CTL: RXOFF Mask */ + +#define SC_CTL_TXOFF_Pos (2) /*!< SC_T::CTL: TXOFF Position */ +#define SC_CTL_TXOFF_Msk (0x1ul << SC_CTL_TXOFF_Pos) /*!< SC_T::CTL: TXOFF Mask */ + +#define SC_CTL_AUTOCEN_Pos (3) /*!< SC_T::CTL: AUTOCEN Position */ +#define SC_CTL_AUTOCEN_Msk (0x1ul << SC_CTL_AUTOCEN_Pos) /*!< SC_T::CTL: AUTOCEN Mask */ + +#define SC_CTL_CONSEL_Pos (4) /*!< SC_T::CTL: CONSEL Position */ +#define SC_CTL_CONSEL_Msk (0x3ul << SC_CTL_CONSEL_Pos) /*!< SC_T::CTL: CONSEL Mask */ + +#define SC_CTL_RXTRGLV_Pos (6) /*!< SC_T::CTL: RXTRGLV Position */ +#define SC_CTL_RXTRGLV_Msk (0x3ul << SC_CTL_RXTRGLV_Pos) /*!< SC_T::CTL: RXTRGLV Mask */ + +#define SC_CTL_BGT_Pos (8) /*!< SC_T::CTL: BGT Position */ +#define SC_CTL_BGT_Msk (0x1ful << SC_CTL_BGT_Pos) /*!< SC_T::CTL: BGT Mask */ + +#define SC_CTL_TMRSEL_Pos (13) /*!< SC_T::CTL: TMRSEL Position */ +#define SC_CTL_TMRSEL_Msk (0x3ul << SC_CTL_TMRSEL_Pos) /*!< SC_T::CTL: TMRSEL Mask */ + +#define SC_CTL_NSB_Pos (15) /*!< SC_T::CTL: NSB Position */ +#define SC_CTL_NSB_Msk (0x1ul << SC_CTL_NSB_Pos) /*!< SC_T::CTL: NSB Mask */ + +#define SC_CTL_RXRTY_Pos (16) /*!< SC_T::CTL: RXRTY Position */ +#define SC_CTL_RXRTY_Msk (0x7ul << SC_CTL_RXRTY_Pos) /*!< SC_T::CTL: RXRTY Mask */ + +#define SC_CTL_RXRTYEN_Pos (19) /*!< SC_T::CTL: RXRTYEN Position */ +#define SC_CTL_RXRTYEN_Msk (0x1ul << SC_CTL_RXRTYEN_Pos) /*!< SC_T::CTL: RXRTYEN Mask */ + +#define SC_CTL_TXRTY_Pos (20) /*!< SC_T::CTL: TXRTY Position */ +#define SC_CTL_TXRTY_Msk (0x7ul << SC_CTL_TXRTY_Pos) /*!< SC_T::CTL: TXRTY Mask */ + +#define SC_CTL_TXRTYEN_Pos (23) /*!< SC_T::CTL: TXRTYEN Position */ +#define SC_CTL_TXRTYEN_Msk (0x1ul << SC_CTL_TXRTYEN_Pos) /*!< SC_T::CTL: TXRTYEN Mask */ + +#define SC_CTL_CDDBSEL_Pos (24) /*!< SC_T::CTL: CDDBSEL Position */ +#define SC_CTL_CDDBSEL_Msk (0x3ul << SC_CTL_CDDBSEL_Pos) /*!< SC_T::CTL: CDDBSEL Mask */ + +#define SC_CTL_CDLV_Pos (26) /*!< SC_T::CTL: CDLV Position */ +#define SC_CTL_CDLV_Msk (0x1ul << SC_CTL_CDLV_Pos) /*!< SC_T::CTL: CDLV Mask */ + +#define SC_CTL_SYNC_Pos (30) /*!< SC_T::CTL: SYNC Position */ +#define SC_CTL_SYNC_Msk (0x1ul << SC_CTL_SYNC_Pos) /*!< SC_T::CTL: SYNC Mask */ + +#define SC_ALTCTL_TXRST_Pos (0) /*!< SC_T::ALTCTL: TXRST Position */ +#define SC_ALTCTL_TXRST_Msk (0x1ul << SC_ALTCTL_TXRST_Pos) /*!< SC_T::ALTCTL: TXRST Mask */ + +#define SC_ALTCTL_RXRST_Pos (1) /*!< SC_T::ALTCTL: RXRST Position */ +#define SC_ALTCTL_RXRST_Msk (0x1ul << SC_ALTCTL_RXRST_Pos) /*!< SC_T::ALTCTL: RXRST Mask */ + +#define SC_ALTCTL_DACTEN_Pos (2) /*!< SC_T::ALTCTL: DACTEN Position */ +#define SC_ALTCTL_DACTEN_Msk (0x1ul << SC_ALTCTL_DACTEN_Pos) /*!< SC_T::ALTCTL: DACTEN Mask */ + +#define SC_ALTCTL_ACTEN_Pos (3) /*!< SC_T::ALTCTL: ACTEN Position */ +#define SC_ALTCTL_ACTEN_Msk (0x1ul << SC_ALTCTL_ACTEN_Pos) /*!< SC_T::ALTCTL: ACTEN Mask */ + +#define SC_ALTCTL_WARSTEN_Pos (4) /*!< SC_T::ALTCTL: WARSTEN Position */ +#define SC_ALTCTL_WARSTEN_Msk (0x1ul << SC_ALTCTL_WARSTEN_Pos) /*!< SC_T::ALTCTL: WARSTEN Mask */ + +#define SC_ALTCTL_CNTEN0_Pos (5) /*!< SC_T::ALTCTL: CNTEN0 Position */ +#define SC_ALTCTL_CNTEN0_Msk (0x1ul << SC_ALTCTL_CNTEN0_Pos) /*!< SC_T::ALTCTL: CNTEN0 Mask */ + +#define SC_ALTCTL_CNTEN1_Pos (6) /*!< SC_T::ALTCTL: CNTEN1 Position */ +#define SC_ALTCTL_CNTEN1_Msk (0x1ul << SC_ALTCTL_CNTEN1_Pos) /*!< SC_T::ALTCTL: CNTEN1 Mask */ + +#define SC_ALTCTL_CNTEN2_Pos (7) /*!< SC_T::ALTCTL: CNTEN2 Position */ +#define SC_ALTCTL_CNTEN2_Msk (0x1ul << SC_ALTCTL_CNTEN2_Pos) /*!< SC_T::ALTCTL: CNTEN2 Mask */ + +#define SC_ALTCTL_INITSEL_Pos (8) /*!< SC_T::ALTCTL: INITSEL Position */ +#define SC_ALTCTL_INITSEL_Msk (0x3ul << SC_ALTCTL_INITSEL_Pos) /*!< SC_T::ALTCTL: INITSEL Mask */ + +#define SC_ALTCTL_ADACEN_Pos (11) /*!< SC_T::ALTCTL: ADACEN Position */ +#define SC_ALTCTL_ADACEN_Msk (0x1ul << SC_ALTCTL_ADACEN_Pos) /*!< SC_T::ALTCTL: ADACEN Mask */ + +#define SC_ALTCTL_RXBGTEN_Pos (12) /*!< SC_T::ALTCTL: RXBGTEN Position */ +#define SC_ALTCTL_RXBGTEN_Msk (0x1ul << SC_ALTCTL_RXBGTEN_Pos) /*!< SC_T::ALTCTL: RXBGTEN Mask */ + +#define SC_ALTCTL_ACTSTS0_Pos (13) /*!< SC_T::ALTCTL: ACTSTS0 Position */ +#define SC_ALTCTL_ACTSTS0_Msk (0x1ul << SC_ALTCTL_ACTSTS0_Pos) /*!< SC_T::ALTCTL: ACTSTS0 Mask */ + +#define SC_ALTCTL_ACTSTS1_Pos (14) /*!< SC_T::ALTCTL: ACTSTS1 Position */ +#define SC_ALTCTL_ACTSTS1_Msk (0x1ul << SC_ALTCTL_ACTSTS1_Pos) /*!< SC_T::ALTCTL: ACTSTS1 Mask */ + +#define SC_ALTCTL_ACTSTS2_Pos (15) /*!< SC_T::ALTCTL: ACTSTS2 Position */ +#define SC_ALTCTL_ACTSTS2_Msk (0x1ul << SC_ALTCTL_ACTSTS2_Pos) /*!< SC_T::ALTCTL: ACTSTS2 Mask */ + +#define SC_ALTCTL_SYNC_Pos (31) /*!< SC_T::ALTCTL: SYNC Position */ +#define SC_ALTCTL_SYNC_Msk (0x1ul << SC_ALTCTL_SYNC_Pos) /*!< SC_T::ALTCTL: SYNC Mask */ + +#define SC_EGT_EGT_Pos (0) /*!< SC_T::EGT: EGT Position */ +#define SC_EGT_EGT_Msk (0xfful << SC_EGT_EGT_Pos) /*!< SC_T::EGT: EGT Mask */ + +#define SC_RXTOUT_RFTM_Pos (0) /*!< SC_T::RXTOUT: RFTM Position */ +#define SC_RXTOUT_RFTM_Msk (0x1fful << SC_RXTOUT_RFTM_Pos) /*!< SC_T::RXTOUT: RFTM Mask */ + +#define SC_ETUCTL_ETURDIV_Pos (0) /*!< SC_T::ETUCTL: ETURDIV Position */ +#define SC_ETUCTL_ETURDIV_Msk (0xffful << SC_ETUCTL_ETURDIV_Pos) /*!< SC_T::ETUCTL: ETURDIV Mask */ + +#define SC_INTEN_RDAIEN_Pos (0) /*!< SC_T::INTEN: RDAIEN Position */ +#define SC_INTEN_RDAIEN_Msk (0x1ul << SC_INTEN_RDAIEN_Pos) /*!< SC_T::INTEN: RDAIEN Mask */ + +#define SC_INTEN_TBEIEN_Pos (1) /*!< SC_T::INTEN: TBEIEN Position */ +#define SC_INTEN_TBEIEN_Msk (0x1ul << SC_INTEN_TBEIEN_Pos) /*!< SC_T::INTEN: TBEIEN Mask */ + +#define SC_INTEN_TERRIEN_Pos (2) /*!< SC_T::INTEN: TERRIEN Position */ +#define SC_INTEN_TERRIEN_Msk (0x1ul << SC_INTEN_TERRIEN_Pos) /*!< SC_T::INTEN: TERRIEN Mask */ + +#define SC_INTEN_TMR0IEN_Pos (3) /*!< SC_T::INTEN: TMR0IEN Position */ +#define SC_INTEN_TMR0IEN_Msk (0x1ul << SC_INTEN_TMR0IEN_Pos) /*!< SC_T::INTEN: TMR0IEN Mask */ + +#define SC_INTEN_TMR1IEN_Pos (4) /*!< SC_T::INTEN: TMR1IEN Position */ +#define SC_INTEN_TMR1IEN_Msk (0x1ul << SC_INTEN_TMR1IEN_Pos) /*!< SC_T::INTEN: TMR1IEN Mask */ + +#define SC_INTEN_TMR2IEN_Pos (5) /*!< SC_T::INTEN: TMR2IEN Position */ +#define SC_INTEN_TMR2IEN_Msk (0x1ul << SC_INTEN_TMR2IEN_Pos) /*!< SC_T::INTEN: TMR2IEN Mask */ + +#define SC_INTEN_BGTIEN_Pos (6) /*!< SC_T::INTEN: BGTIEN Position */ +#define SC_INTEN_BGTIEN_Msk (0x1ul << SC_INTEN_BGTIEN_Pos) /*!< SC_T::INTEN: BGTIEN Mask */ + +#define SC_INTEN_CDIEN_Pos (7) /*!< SC_T::INTEN: CDIEN Position */ +#define SC_INTEN_CDIEN_Msk (0x1ul << SC_INTEN_CDIEN_Pos) /*!< SC_T::INTEN: CDIEN Mask */ + +#define SC_INTEN_INITIEN_Pos (8) /*!< SC_T::INTEN: INITIEN Position */ +#define SC_INTEN_INITIEN_Msk (0x1ul << SC_INTEN_INITIEN_Pos) /*!< SC_T::INTEN: INITIEN Mask */ + +#define SC_INTEN_RXTOIEN_Pos (9) /*!< SC_T::INTEN: RXTOIEN Position */ +#define SC_INTEN_RXTOIEN_Msk (0x1ul << SC_INTEN_RXTOIEN_Pos) /*!< SC_T::INTEN: RXTOIEN Mask */ + +#define SC_INTEN_ACERRIEN_Pos (10) /*!< SC_T::INTEN: ACERRIEN Position */ +#define SC_INTEN_ACERRIEN_Msk (0x1ul << SC_INTEN_ACERRIEN_Pos) /*!< SC_T::INTEN: ACERRIEN Mask */ + +#define SC_INTSTS_RDAIF_Pos (0) /*!< SC_T::INTSTS: RDAIF Position */ +#define SC_INTSTS_RDAIF_Msk (0x1ul << SC_INTSTS_RDAIF_Pos) /*!< SC_T::INTSTS: RDAIF Mask */ + +#define SC_INTSTS_TBEIF_Pos (1) /*!< SC_T::INTSTS: TBEIF Position */ +#define SC_INTSTS_TBEIF_Msk (0x1ul << SC_INTSTS_TBEIF_Pos) /*!< SC_T::INTSTS: TBEIF Mask */ + +#define SC_INTSTS_TERRIF_Pos (2) /*!< SC_T::INTSTS: TERRIF Position */ +#define SC_INTSTS_TERRIF_Msk (0x1ul << SC_INTSTS_TERRIF_Pos) /*!< SC_T::INTSTS: TERRIF Mask */ + +#define SC_INTSTS_TMR0IF_Pos (3) /*!< SC_T::INTSTS: TMR0IF Position */ +#define SC_INTSTS_TMR0IF_Msk (0x1ul << SC_INTSTS_TMR0IF_Pos) /*!< SC_T::INTSTS: TMR0IF Mask */ + +#define SC_INTSTS_TMR1IF_Pos (4) /*!< SC_T::INTSTS: TMR1IF Position */ +#define SC_INTSTS_TMR1IF_Msk (0x1ul << SC_INTSTS_TMR1IF_Pos) /*!< SC_T::INTSTS: TMR1IF Mask */ + +#define SC_INTSTS_TMR2IF_Pos (5) /*!< SC_T::INTSTS: TMR2IF Position */ +#define SC_INTSTS_TMR2IF_Msk (0x1ul << SC_INTSTS_TMR2IF_Pos) /*!< SC_T::INTSTS: TMR2IF Mask */ + +#define SC_INTSTS_BGTIF_Pos (6) /*!< SC_T::INTSTS: BGTIF Position */ +#define SC_INTSTS_BGTIF_Msk (0x1ul << SC_INTSTS_BGTIF_Pos) /*!< SC_T::INTSTS: BGTIF Mask */ + +#define SC_INTSTS_CDIF_Pos (7) /*!< SC_T::INTSTS: CDIF Position */ +#define SC_INTSTS_CDIF_Msk (0x1ul << SC_INTSTS_CDIF_Pos) /*!< SC_T::INTSTS: CDIF Mask */ + +#define SC_INTSTS_INITIF_Pos (8) /*!< SC_T::INTSTS: INITIF Position */ +#define SC_INTSTS_INITIF_Msk (0x1ul << SC_INTSTS_INITIF_Pos) /*!< SC_T::INTSTS: INITIF Mask */ + +#define SC_INTSTS_RXTOIF_Pos (9) /*!< SC_T::INTSTS: RXTOIF Position */ +#define SC_INTSTS_RXTOIF_Msk (0x1ul << SC_INTSTS_RXTOIF_Pos) /*!< SC_T::INTSTS: RXTOIF Mask */ + +#define SC_INTSTS_ACERRIF_Pos (10) /*!< SC_T::INTSTS: ACERRIF Position */ +#define SC_INTSTS_ACERRIF_Msk (0x1ul << SC_INTSTS_ACERRIF_Pos) /*!< SC_T::INTSTS: ACERRIF Mask */ + +#define SC_STATUS_RXOV_Pos (0) /*!< SC_T::STATUS: RXOV Position */ +#define SC_STATUS_RXOV_Msk (0x1ul << SC_STATUS_RXOV_Pos) /*!< SC_T::STATUS: RXOV Mask */ + +#define SC_STATUS_RXEMPTY_Pos (1) /*!< SC_T::STATUS: RXEMPTY Position */ +#define SC_STATUS_RXEMPTY_Msk (0x1ul << SC_STATUS_RXEMPTY_Pos) /*!< SC_T::STATUS: RXEMPTY Mask */ + +#define SC_STATUS_RXFULL_Pos (2) /*!< SC_T::STATUS: RXFULL Position */ +#define SC_STATUS_RXFULL_Msk (0x1ul << SC_STATUS_RXFULL_Pos) /*!< SC_T::STATUS: RXFULL Mask */ + +#define SC_STATUS_PEF_Pos (4) /*!< SC_T::STATUS: PEF Position */ +#define SC_STATUS_PEF_Msk (0x1ul << SC_STATUS_PEF_Pos) /*!< SC_T::STATUS: PEF Mask */ + +#define SC_STATUS_FEF_Pos (5) /*!< SC_T::STATUS: FEF Position */ +#define SC_STATUS_FEF_Msk (0x1ul << SC_STATUS_FEF_Pos) /*!< SC_T::STATUS: FEF Mask */ + +#define SC_STATUS_BEF_Pos (6) /*!< SC_T::STATUS: BEF Position */ +#define SC_STATUS_BEF_Msk (0x1ul << SC_STATUS_BEF_Pos) /*!< SC_T::STATUS: BEF Mask */ + +#define SC_STATUS_TXOV_Pos (8) /*!< SC_T::STATUS: TXOV Position */ +#define SC_STATUS_TXOV_Msk (0x1ul << SC_STATUS_TXOV_Pos) /*!< SC_T::STATUS: TXOV Mask */ + +#define SC_STATUS_TXEMPTY_Pos (9) /*!< SC_T::STATUS: TXEMPTY Position */ +#define SC_STATUS_TXEMPTY_Msk (0x1ul << SC_STATUS_TXEMPTY_Pos) /*!< SC_T::STATUS: TXEMPTY Mask */ + +#define SC_STATUS_TXFULL_Pos (10) /*!< SC_T::STATUS: TXFULL Position */ +#define SC_STATUS_TXFULL_Msk (0x1ul << SC_STATUS_TXFULL_Pos) /*!< SC_T::STATUS: TXFULL Mask */ + +#define SC_STATUS_CREMOVE_Pos (11) /*!< SC_T::STATUS: CREMOVE Position */ +#define SC_STATUS_CREMOVE_Msk (0x1ul << SC_STATUS_CREMOVE_Pos) /*!< SC_T::STATUS: CREMOVE Mask */ + +#define SC_STATUS_CINSERT_Pos (12) /*!< SC_T::STATUS: CINSERT Position */ +#define SC_STATUS_CINSERT_Msk (0x1ul << SC_STATUS_CINSERT_Pos) /*!< SC_T::STATUS: CINSERT Mask */ + +#define SC_STATUS_CDPINSTS_Pos (13) /*!< SC_T::STATUS: CDPINSTS Position */ +#define SC_STATUS_CDPINSTS_Msk (0x1ul << SC_STATUS_CDPINSTS_Pos) /*!< SC_T::STATUS: CDPINSTS Mask */ + +#define SC_STATUS_RXPOINT_Pos (16) /*!< SC_T::STATUS: RXPOINT Position */ +#define SC_STATUS_RXPOINT_Msk (0x7ul << SC_STATUS_RXPOINT_Pos) /*!< SC_T::STATUS: RXPOINT Mask */ + +#define SC_STATUS_RXRERR_Pos (21) /*!< SC_T::STATUS: RXRERR Position */ +#define SC_STATUS_RXRERR_Msk (0x1ul << SC_STATUS_RXRERR_Pos) /*!< SC_T::STATUS: RXRERR Mask */ + +#define SC_STATUS_RXOVERR_Pos (22) /*!< SC_T::STATUS: RXOVERR Position */ +#define SC_STATUS_RXOVERR_Msk (0x1ul << SC_STATUS_RXOVERR_Pos) /*!< SC_T::STATUS: RXOVERR Mask */ + +#define SC_STATUS_RXACT_Pos (23) /*!< SC_T::STATUS: RXACT Position */ +#define SC_STATUS_RXACT_Msk (0x1ul << SC_STATUS_RXACT_Pos) /*!< SC_T::STATUS: RXACT Mask */ + +#define SC_STATUS_TXPOINT_Pos (24) /*!< SC_T::STATUS: TXPOINT Position */ +#define SC_STATUS_TXPOINT_Msk (0x7ul << SC_STATUS_TXPOINT_Pos) /*!< SC_T::STATUS: TXPOINT Mask */ + +#define SC_STATUS_TXRERR_Pos (29) /*!< SC_T::STATUS: TXRERR Position */ +#define SC_STATUS_TXRERR_Msk (0x1ul << SC_STATUS_TXRERR_Pos) /*!< SC_T::STATUS: TXRERR Mask */ + +#define SC_STATUS_TXOVERR_Pos (30) /*!< SC_T::STATUS: TXOVERR Position */ +#define SC_STATUS_TXOVERR_Msk (0x1ul << SC_STATUS_TXOVERR_Pos) /*!< SC_T::STATUS: TXOVERR Mask */ + +#define SC_STATUS_TXACT_Pos (31) /*!< SC_T::STATUS: TXACT Position */ +#define SC_STATUS_TXACT_Msk (0x1ul << SC_STATUS_TXACT_Pos) /*!< SC_T::STATUS: TXACT Mask */ + +#define SC_PINCTL_PWREN_Pos (0) /*!< SC_T::PINCTL: PWREN Position */ +#define SC_PINCTL_PWREN_Msk (0x1ul << SC_PINCTL_PWREN_Pos) /*!< SC_T::PINCTL: PWREN Mask */ + +#define SC_PINCTL_RSTEN_Pos (1) /*!< SC_T::PINCTL: RSTEN Position */ +#define SC_PINCTL_RSTEN_Msk (0x1ul << SC_PINCTL_RSTEN_Pos) /*!< SC_T::PINCTL: RSTEN Mask */ + +#define SC_PINCTL_CSTOPLV_Pos (5) /*!< SC_T::PINCTL: CSTOPLV Position */ +#define SC_PINCTL_CSTOPLV_Msk (0x1ul << SC_PINCTL_CSTOPLV_Pos) /*!< SC_T::PINCTL: CSTOPLV Mask */ + +#define SC_PINCTL_CLKKEEP_Pos (6) /*!< SC_T::PINCTL: CLKKEEP Position */ +#define SC_PINCTL_CLKKEEP_Msk (0x1ul << SC_PINCTL_CLKKEEP_Pos) /*!< SC_T::PINCTL: CLKKEEP Mask */ + +#define SC_PINCTL_SCDATA_Pos (9) /*!< SC_T::PINCTL: SCDATA Position */ +#define SC_PINCTL_SCDATA_Msk (0x1ul << SC_PINCTL_SCDATA_Pos) /*!< SC_T::PINCTL: SCDATA Mask */ + +#define SC_PINCTL_PWRINV_Pos (11) /*!< SC_T::PINCTL: PWRINV Position */ +#define SC_PINCTL_PWRINV_Msk (0x1ul << SC_PINCTL_PWRINV_Pos) /*!< SC_T::PINCTL: PWRINV Mask */ + +#define SC_PINCTL_DATASTS_Pos (16) /*!< SC_T::PINCTL: DATASTS Position */ +#define SC_PINCTL_DATASTS_Msk (0x1ul << SC_PINCTL_DATASTS_Pos) /*!< SC_T::PINCTL: DATASTS Mask */ + +#define SC_PINCTL_PWRSTS_Pos (17) /*!< SC_T::PINCTL: PWRSTS Position */ +#define SC_PINCTL_PWRSTS_Msk (0x1ul << SC_PINCTL_PWRSTS_Pos) /*!< SC_T::PINCTL: PWRSTS Mask */ + +#define SC_PINCTL_RSTSTS_Pos (18) /*!< SC_T::PINCTL: RSTSTS Position */ +#define SC_PINCTL_RSTSTS_Msk (0x1ul << SC_PINCTL_RSTSTS_Pos) /*!< SC_T::PINCTL: RSTSTS Mask */ + +#define SC_PINCTL_SYNC_Pos (30) /*!< SC_T::PINCTL: SYNC Position */ +#define SC_PINCTL_SYNC_Msk (0x1ul << SC_PINCTL_SYNC_Pos) /*!< SC_T::PINCTL: SYNC Mask */ + +#define SC_TMRCTL0_CNT_Pos (0) /*!< SC_T::TMRCTL0: CNT Position */ +#define SC_TMRCTL0_CNT_Msk (0xfffffful << SC_TMRCTL0_CNT_Pos) /*!< SC_T::TMRCTL0: CNT Mask */ + +#define SC_TMRCTL0_OPMODE_Pos (24) /*!< SC_T::TMRCTL0: OPMODE Position */ +#define SC_TMRCTL0_OPMODE_Msk (0xful << SC_TMRCTL0_OPMODE_Pos) /*!< SC_T::TMRCTL0: OPMODE Mask */ + +#define SC_TMRCTL0_SYNC_Pos (31) /*!< SC_T::TMRCTL0: SYNC Position */ +#define SC_TMRCTL0_SYNC_Msk (0x1ul << SC_TMRCTL0_SYNC_Pos) /*!< SC_T::TMRCTL0: SYNC Mask */ + +#define SC_TMRCTL1_CNT_Pos (0) /*!< SC_T::TMRCTL1: CNT Position */ +#define SC_TMRCTL1_CNT_Msk (0xfful << SC_TMRCTL1_CNT_Pos) /*!< SC_T::TMRCTL1: CNT Mask */ + +#define SC_TMRCTL1_OPMODE_Pos (24) /*!< SC_T::TMRCTL1: OPMODE Position */ +#define SC_TMRCTL1_OPMODE_Msk (0xful << SC_TMRCTL1_OPMODE_Pos) /*!< SC_T::TMRCTL1: OPMODE Mask */ + +#define SC_TMRCTL1_SYNC_Pos (31) /*!< SC_T::TMRCTL1: SYNC Position */ +#define SC_TMRCTL1_SYNC_Msk (0x1ul << SC_TMRCTL1_SYNC_Pos) /*!< SC_T::TMRCTL1: SYNC Mask */ + +#define SC_TMRCTL2_CNT_Pos (0) /*!< SC_T::TMRCTL2: CNT Position */ +#define SC_TMRCTL2_CNT_Msk (0xfful << SC_TMRCTL2_CNT_Pos) /*!< SC_T::TMRCTL2: CNT Mask */ + +#define SC_TMRCTL2_OPMODE_Pos (24) /*!< SC_T::TMRCTL2: OPMODE Position */ +#define SC_TMRCTL2_OPMODE_Msk (0xful << SC_TMRCTL2_OPMODE_Pos) /*!< SC_T::TMRCTL2: OPMODE Mask */ + +#define SC_TMRCTL2_SYNC_Pos (31) /*!< SC_T::TMRCTL2: SYNC Position */ +#define SC_TMRCTL2_SYNC_Msk (0x1ul << SC_TMRCTL2_SYNC_Pos) /*!< SC_T::TMRCTL2: SYNC Mask */ + +#define SC_UARTCTL_UARTEN_Pos (0) /*!< SC_T::UARTCTL: UARTEN Position */ +#define SC_UARTCTL_UARTEN_Msk (0x1ul << SC_UARTCTL_UARTEN_Pos) /*!< SC_T::UARTCTL: UARTEN Mask */ + +#define SC_UARTCTL_WLS_Pos (4) /*!< SC_T::UARTCTL: WLS Position */ +#define SC_UARTCTL_WLS_Msk (0x3ul << SC_UARTCTL_WLS_Pos) /*!< SC_T::UARTCTL: WLS Mask */ + +#define SC_UARTCTL_PBOFF_Pos (6) /*!< SC_T::UARTCTL: PBOFF Position */ +#define SC_UARTCTL_PBOFF_Msk (0x1ul << SC_UARTCTL_PBOFF_Pos) /*!< SC_T::UARTCTL: PBOFF Mask */ + +#define SC_UARTCTL_OPE_Pos (7) /*!< SC_T::UARTCTL: OPE Position */ +#define SC_UARTCTL_OPE_Msk (0x1ul << SC_UARTCTL_OPE_Pos) /*!< SC_T::UARTCTL: OPE Mask */ + +#define SC_ACTCTL_T1EXT_Pos (0) /*!< SC_T::ACTCTL: T1EXT Position */ +#define SC_ACTCTL_T1EXT_Msk (0x1ful << SC_ACTCTL_T1EXT_Pos) /*!< SC_T::ACTCTL: T1EXT Mask */ + +/**@}*/ /* SC_CONST */ +/**@}*/ /* end of SC register group */ + + + +#endif /* __SC_REG_H__ */