msp430gen
MSP430FR2475
v0.4.0
8
16
16
read-write
0
P1
P1
512
P1IN
Port 1 Input
0
8
255
P1OUT
Port 1 Output
2
8
255
P1DIR
Port 1 Direction
4
8
255
P1REN
Port 1 Resistor Enable
6
8
255
P1SEL0
Port 1 Select 0
10
8
255
P1SEL1
Port 1 Select 1
12
8
255
P1SELC
Port 1 Complement Select
22
8
255
P1IES
Port 1 Interrupt Edge Select
24
8
255
P1IE
Port 1 Interrupt Enable
26
8
255
P1IFG
Port 1 Interrupt Flag
28
8
255
P1IV
Port 1 Interrupt Vector Register
14
16
65535
P1IV
Port 1 interrupt vector value
0
5
read-only
NONE
No interrupt pending
0
P1IFG0
Interrupt Source: Port 1.0 interrupt; Interrupt Flag: P1IFG0; Interrupt Priority: Highest
2
P1IFG1
Interrupt Source: Port 1.1 interrupt; Interrupt Flag: P1IFG1
4
P1IFG2
Interrupt Source: Port 1.2 interrupt; Interrupt Flag: P1IFG2
6
P1IFG3
Interrupt Source: Port 1.3 interrupt; Interrupt Flag: P1IFG3
8
P1IFG4
Interrupt Source: Port 1.4 interrupt; Interrupt Flag: P1IFG4
10
P1IFG5
Interrupt Source: Port 1.5 interrupt; Interrupt Flag: P1IFG5
12
P1IFG6
Interrupt Source: Port 1.6 interrupt; Interrupt Flag: P1IFG6
14
P1IFG7
Interrupt Source: Port 1.7 interrupt; Interrupt Flag: P1IFG7; Interrupt Priority: Lowest
16
P2
P2
512
P2IN
Port 2 Input
1
8
255
P2OUT
Port 2 Output
3
8
255
P2DIR
Port 2 Direction
5
8
255
P2REN
Port 2 Resistor Enable
7
8
255
P2SEL0
Port 2 Select 0
11
8
255
P2SEL1
Port 2 Select 1
13
8
255
P2SELC
Port 2 Complement Select
23
8
255
P2IES
Port 2 Interrupt Edge Select
25
8
255
P2IE
Port 2 Interrupt Enable
27
8
255
P2IFG
Port 2 Interrupt Flag
29
8
255
P2IV
Port 2 Interrupt Vector Register
30
16
65535
P2IV
Port 2 interrupt vector value
0
5
read-only
NONE
No interrupt pending
0
P2IFG0
Interrupt Source: Port 2.0 interrupt; Interrupt Flag: P2IFG0; Interrupt Priority: Highest
2
P2IFG1
Interrupt Source: Port 2.1 interrupt; Interrupt Flag: P2IFG1
4
P2IFG2
Interrupt Source: Port 2.2 interrupt; Interrupt Flag: P2IFG2
6
P2IFG3
Interrupt Source: Port 2.3 interrupt; Interrupt Flag: P2IFG3
8
P2IFG4
Interrupt Source: Port 2.4 interrupt; Interrupt Flag: P2IFG4
10
P2IFG5
Interrupt Source: Port 2.5 interrupt; Interrupt Flag: P2IFG5
12
P2IFG6
Interrupt Source: Port 2.6 interrupt; Interrupt Flag: P2IFG6
14
P2IFG7
Interrupt Source: Port 2.7 interrupt; Interrupt Flag: P2IFG7; Interrupt Priority: Lowest
16
P3
P3
544
P3IN
Port 3 Input
0
8
255
P3OUT
Port 3 Output
2
8
255
P3DIR
Port 3 Direction
4
8
255
P3REN
Port 3 Resistor Enable
6
8
255
P3SEL0
Port 3 Select 0
10
8
255
P3SEL1
Port 3 Select 1
12
8
255
P3SELC
Port 3 Complement Select
22
8
255
P3IES
Port 3 Interrupt Edge Select
24
8
255
P3IE
Port 3 Interrupt Enable
26
8
255
P3IFG
Port 3 Interrupt Flag
28
8
255
P3IV
Port 3 Interrupt Vector Register
14
16
65535
P3IV
Port 3 interrupt vector value
0
5
read-only
NONE
No interrupt pending
0
P3IFG0
Interrupt Source: Port 3.0 interrupt; Interrupt Flag: P3IFG0; Interrupt Priority: Highest
2
P3IFG1
Interrupt Source: Port 3.1 interrupt; Interrupt Flag: P3IFG1
4
P3IFG2
Interrupt Source: Port 3.2 interrupt; Interrupt Flag: P3IFG2
6
P3IFG3
Interrupt Source: Port 3.3 interrupt; Interrupt Flag: P3IFG3
8
P3IFG4
Interrupt Source: Port 3.4 interrupt; Interrupt Flag: P3IFG4
10
P3IFG5
Interrupt Source: Port 3.5 interrupt; Interrupt Flag: P3IFG5
12
P3IFG6
Interrupt Source: Port 3.6 interrupt; Interrupt Flag: P3IFG6
14
P3IFG7
Interrupt Source: Port 3.7 interrupt; Interrupt Flag: P3IFG7; Interrupt Priority: Lowest
16
P4
P4
544
P4IN
Port 4 Input
1
8
255
P4OUT
Port 4 Output
3
8
255
P4DIR
Port 4 Direction
5
8
255
P4REN
Port 4 Resistor Enable
7
8
255
P4SEL0
Port 4 Select 0
11
8
255
P4SEL1
Port 4 Select 1
13
8
255
P4SELC
Port 4 Complement Select
23
8
255
P4IES
Port 4 Interrupt Edge Select
25
8
255
P4IE
Port 4 Interrupt Enable
27
8
255
P4IFG
Port 4 Interrupt Flag
29
8
255
P4IV
Port 4 Interrupt Vector Register
30
16
65535
P4IV
Port 4 interrupt vector value
0
5
read-only
NONE
No interrupt pending
0
P4IFG0
Interrupt Source: Port 4.0 interrupt; Interrupt Flag: P4IFG0; Interrupt Priority: Highest
2
P4IFG1
Interrupt Source: Port 4.1 interrupt; Interrupt Flag: P4IFG1
4
P4IFG2
Interrupt Source: Port 4.2 interrupt; Interrupt Flag: P4IFG2
6
P4IFG3
Interrupt Source: Port 4.3 interrupt; Interrupt Flag: P4IFG3
8
P4IFG4
Interrupt Source: Port 4.4 interrupt; Interrupt Flag: P4IFG4
10
P4IFG5
Interrupt Source: Port 4.5 interrupt; Interrupt Flag: P4IFG5
12
P4IFG6
Interrupt Source: Port 4.6 interrupt; Interrupt Flag: P4IFG6
14
P4IFG7
Interrupt Source: Port 4.7 interrupt; Interrupt Flag: P4IFG7; Interrupt Priority: Lowest
16
P5
P5
576
P5IN
Port 5 Input
0
8
255
P5OUT
Port 5 Output
2
8
255
P5DIR
Port 5 Direction
4
8
255
P5REN
Port 5 Resistor Enable
6
8
255
P5SEL0
Port 5 Select 0
10
8
255
P5SEL1
Port 5 Select 1
12
8
255
P5SELC
Port 5 Complement Select
22
8
255
P5IES
Port 5 Interrupt Edge Select
24
8
255
P5IE
Port 5 Interrupt Enable
26
8
255
P5IFG
Port 5 Interrupt Flag
28
8
255
P5IV
Port 5 Interrupt Vector Register
14
16
65535
P5IV
Port 5 interrupt vector value
0
5
read-only
NONE
No interrupt pending
0
P5IFG0
Interrupt Source: Port 5.0 interrupt; Interrupt Flag: P5IFG0; Interrupt Priority: Highest
2
P5IFG1
Interrupt Source: Port 5.1 interrupt; Interrupt Flag: P5IFG1
4
P5IFG2
Interrupt Source: Port 5.2 interrupt; Interrupt Flag: P5IFG2
6
P5IFG3
Interrupt Source: Port 5.3 interrupt; Interrupt Flag: P5IFG3
8
P5IFG4
Interrupt Source: Port 5.4 interrupt; Interrupt Flag: P5IFG4
10
P5IFG5
Interrupt Source: Port 5.5 interrupt; Interrupt Flag: P5IFG5
12
P5IFG6
Interrupt Source: Port 5.6 interrupt; Interrupt Flag: P5IFG6
14
P5IFG7
Interrupt Source: Port 5.7 interrupt; Interrupt Flag: P5IFG7; Interrupt Priority: Lowest
16
P6
P6
576
P6IN
Port 6 Input
1
8
255
P6OUT
Port 6 Output
3
8
255
P6DIR
Port 6 Direction
5
8
255
P6REN
Port 6 Resistor Enable
7
8
255
P6SEL0
Port 6 Select 0
11
8
255
P6SEL1
Port 6 Select 1
13
8
255
P6SELC
Port 6 Complement Select
23
8
255
P6IES
Port 6 Interrupt Edge Select
25
8
255
P6IE
Port 6 Interrupt Enable
27
8
255
P6IFG
Port 6 Interrupt Flag
29
8
255
P6IV
Port 6 Interrupt Vector Register
30
16
65535
P6IV
Port 6 interrupt vector value
0
5
read-only
NONE
No interrupt pending
0
P6IFG0
Interrupt Source: Port 6.0 interrupt; Interrupt Flag: P6IFG0; Interrupt Priority: Highest
2
P6IFG1
Interrupt Source: Port 6.1 interrupt; Interrupt Flag: P6IFG1
4
P6IFG2
Interrupt Source: Port 6.2 interrupt; Interrupt Flag: P6IFG2
6
P6IFG3
Interrupt Source: Port 6.3 interrupt; Interrupt Flag: P6IFG3
8
P6IFG4
Interrupt Source: Port 6.4 interrupt; Interrupt Flag: P6IFG4
10
P6IFG5
Interrupt Source: Port 6.5 interrupt; Interrupt Flag: P6IFG5
12
P6IFG6
Interrupt Source: Port 6.6 interrupt; Interrupt Flag: P6IFG6
14
P6IFG7
Interrupt Source: Port 6.7 interrupt; Interrupt Flag: P6IFG7; Interrupt Priority: Lowest
16
SFR
SFR
256
SFRIE1
Interrupt Enable
0
16
65535
WDTIE
Watchdog timer interrupt enable
0
1
read-write
DISABLE
Interrupts disabled
0
ENABLE
Interrupts enabled
1
OFIE
Oscillator fault interrupt enable
1
1
read-write
DISABLE
Interrupts disabled
0
ENABLE
Interrupts enabled
1
VMAIE
Vacant memory access interrupt enable
3
1
read-write
DISABLE
Interrupts disabled
0
ENABLE
Interrupts enabled
1
NMIIE
NMI pin interrupt enable
4
1
read-write
DISABLE
Interrupts disabled
0
ENABLE
Interrupts enabled
1
JMBINIE
JTAG mailbox input interrupt enable
6
1
read-write
DISABLE
Interrupts disabled
0
ENABLE
Interrupts enabled
1
JMBOUTIE
JTAG mailbox output interrupt enable
7
1
read-write
DISABLE
Interrupts disabled
0
ENABLE
Interrupts enabled
1
SFRIFG1
Interrupt Flag
2
16
65535
OFIFG
Oscillator fault interrupt flag
1
1
read-write
OFIFG_0
No interrupt pending
0
OFIFG_1
Interrupt pending
1
VMAIFG
Vacant memory access interrupt flag
3
1
read-write
VMAIFG_0
No interrupt pending
0
VMAIFG_1
Interrupt pending
1
NMIIFG
NMI pin interrupt flag
4
1
read-write
NMIIFG_0
No interrupt pending
0
NMIIFG_1
Interrupt pending
1
WDTIFG
Watchdog timer interrupt flag
0
1
read-write
WDTIFG_0
No interrupt pending
0
WDTIFG_1
Interrupt pending
1
JMBINIFG
JTAG mailbox input interrupt flag
6
1
read-write
JMBINIFG_0
No interrupt pending. When in 16-bit mode (JMBMODE = 0), this bit is cleared automatically when JMBI0 is read by the CPU. When in 32-bit mode (JMBMODE = 1), this bit is cleared automatically when both JMBI0 and JMBI1 have been read by the CPU. This bit is also cleared when the associated vector in SYSUNIV has been read
0
JMBINIFG_1
Interrupt pending. A message is waiting in the JMBIN registers. In 16-bit mode (JMBMODE = 0) when JMBI0 has been written by the JTAG module. In 32-bit mode (JMBMODE = 1) when JMBI0 and JMBI1 have been written by the JTAG module.
1
JMBOUTIFG
JTAG mailbox output interrupt flag
7
1
read-write
JMBOUTIFG_0
No interrupt pending. When in 16-bit mode (JMBMODE = 0), this bit is cleared automatically when JMBO0 has been written with a new message to the JTAG module by the CPU. When in 32-bit mode (JMBMODE = 1), this bit is cleared automatically when both JMBO0 and JMBO1 have been written with new messages to the JTAG module by the CPU. This bit is also cleared when the associated vector in SYSUNIV has been read.
0
JMBOUTIFG_1
Interrupt pending. JMBO registers are ready for new messages. In 16-bit mode (JMBMODE = 0), JMBO0 has been received by the JTAG module and is ready for a new message from the CPU. In 32-bit mode (JMBMODE = 1), JMBO0 and JMBO1 have been received by the JTAG module and are ready for new messages from the CPU.
1
SFRRPCR
Reset Pin Control
4
16
65535
SYSNMI
NMI select
0
1
read-write
RESET
Reset function
0
NMI
NMI function
1
SYSNMIIES
NMI edge select
1
1
read-write
RISING
NMI on rising edge
0
FALLING
NMI on falling edge
1
SYSRSTUP
Reset resistor pin pullup or pulldown
2
1
read-write
PULLDOWN
Pulldown is selected
0
PULLUP
Pullup is selected
1
SYSRSTRE
Reset pin resistor enable
3
1
read-write
DISABLE
Pullup or pulldown resistor at the RST/NMI pin is disabled
0
ENABLE
Pullup or pulldown resistor at the RST/NMI pin is enabled
1
SYSFLTE
Reset pin filter enable
4
1
read-write
DISABLED
Digital filter on reset pin is disabled
0
ENABLED
Digital filter on reset pin is enabled
1
PMM
PMM
288
PMMCTL0
Power Management Module control register 0
0
16
65535
PMMSWBOR
Software brownout reset.
2
1
read-write
PMMSWBOR_0
Normal operation
0
PMMSWBOR_1
Set to 1 to trigger a BOR
1
PMMSWPOR
Software POR.
3
1
read-write
PMMSWPOR_0
Normal operation
0
PMMSWPOR_1
Set to 1 to trigger a POR
1
PMMREGOFF
Regulator off
4
1
read-write
PMMREGOFF_0
Regulator remains on when going into LPM3 or LPM4
0
PMMREGOFF_1
Regulator is turned off when going to LPM3 or LPM4. System enters LPM3.5 or LPM4.5, respectively.
1
SVSHE
High-side SVS enable.
6
1
read-write
SVSHE_0
High-side SVS (SVSH) is disabled in LPM2, LPM3, LPM4, LPM3.5, and LPM4.5. SVSH is always enabled in active mode, LPM0, and LPM1.
0
SVSHE_1
SVSH is always enabled.
1
PMMPW
PMM password.
8
8
read-write
PMMCTL1
Power Management Module Control Register 1. Allows manual overwrite of predictive LDO settings.
2
16
65535
PMMCTL2
Power Management Module Control Register 2
4
16
65535
INTREFEN
Internal reference enable
0
1
read-write
INTREFEN_0
Disable internal reference
0
INTREFEN_1
Enable internal reference
1
EXTREFEN
External reference output enable
1
1
read-write
EXTREFEN_0
Disable external reference output
0
EXTREFEN_1
Enable internal reference output
1
PWRMODE
Power Mode Selection. The two bits are used to select the power supply in multi power supply systems. A single power supply system is not affected by the bits. Reserved for future use.
14
2
read-write
TSENSOREN
Temperature sensor enable
3
1
read-write
TSENSOREN_0
Disable temperature sensor
0
TSENSOREN_1
Enable temperature sensor
1
REFGENACT
Reference generator active. Read only.
8
1
read-only
REFGENACT_0
Reference generator not active
0
REFGENACT_1
Reference generator active
1
REFBGACT
Reference bandgap active. Ready only.
9
1
read-only
REFBGACT_0
Reference bandgap buffer not active
0
REFBGACT_1
Reference bandgap buffer active
1
BGMODE
Bandgap mode. Ready only.
11
1
read-write
BGMODE_0
Static mode (higher precision)
0
BGMODE_1
Sampled mode (lower power consumption)
1
REFGENRDY
Variable reference voltage ready status.
12
1
read-write
REFGENRDY_0
Reference voltage output is not ready to be used.
0
REFGENRDY_1
Reference voltage output is ready to be used
1
REFBGRDY
Buffered bandgap voltage ready status.
13
1
read-write
REFBGRDY_0
Buffered bandgap voltage is not ready to be used
0
REFBGRDY_1
Buffered bandgap voltage is ready to be used
1
REFVSEL
Reference voltage level select. Can be modified only when REFGENBUSY = 0.
4
2
read-write
REFVSEL_0
00b = 1.5V
0
REFVSEL_1
01b = 2.0V
1
REFVSEL_2
10b = 2.5V
2
REFVSEL_3
11b = Reserved
3
REFGEN
Reference generator one-time trigger. If written with a 1, the generation of the variable reference voltage is started. When the reference voltage request is set, this bit is cleared by hardware.
6
1
read-write
REFGEN_0
No trigger
0
REFGEN_1
Generation of the reference voltage is started by writing 1 or by a hardware trigger
1
REFBGEN
Bandgap and bandgap buffer one-time trigger. If written with a 1, the generation of the buffered bandgap voltage is started. When the bandgap buffer voltage request is set, this bit is cleared by hardware.
7
1
read-write
REFBG_0
No trigger
0
REFBG_1
Generation of the bandgap voltage is started by writing 1 or by a hardware trigger
1
PMMIFG
PMM interrupt flag register
10
16
65535
PMMBORIFG
PMM software brownout reset interrupt flag.
8
1
read-write
PMMBORIFG_0
Reset not due to PMMSWBOR
0
PMMBORIFG_1
Reset due to PMMSWBOR
1
PMMRSTIFG
PMM reset pin interrupt flag.
9
1
read-write
PMMRSTIFG_0
Reset not due to reset pin
0
PMMRSTIFG_1
Reset due to reset pin
1
PMMPORIFG
PMM software POR interrupt flag.
10
1
read-write
PMMPORIFG_0
Reset not due to PMMSWPOR
0
PMMPORIFG_1
Reset due to PMMSWPOR
1
SPWRIFG
Secondary Power interrupt flag. This bit only works in multi power supply systems. When the secondary power is ready to use, this bit is set., In single power supply systems, this bit does not work.
11
1
read-only
SVSHIFG
High-side SVS interrupt flag.
13
1
read-write
SVSHIFG_0
Reset not due to SVSH
0
SVSHIFG_1
Reset due to SVSH
1
PMMLPM5IFG
LPMx.5 flag.
15
1
read-write
PMMLPM5IFG_0
Reset not due to wake-up from LPMx.5
0
PMMLPM5IFG_1
Reset due to wake-up from LPMx.5
1
PMMSPSIFG
PMM secondary power supply interrupt flag. Reserved for future multi power supply systems.
0
1
read-only
PPWRIFG
Primary Power interrupt flag. This bit only works in multi power supply systems. When the primary power is ready to use, this bit is set. In single power supply systems, this bit does not work
12
1
read-only
PM5CTL0
Power mode 5 control register 0
16
16
65535
LOCKLPM5
LPMx.5 Lock Bit
0
1
read-write
LOCKLPM5_0
LPMx.5 configuration is not locked and defaults to its reset condition.
0
LOCKLPM5_1
LPMx.5 configuration remains locked. Pin state is held during LPMx.5 entry and exit.
1
LPM5SW
Reports or sets the LPM3.5 switch connection upon the switch mode set by LPM5SM. When this bit is set, the VLPM3.5 domain can accept full-speed read and write operation by CPU MCLK. If the switch is disconnected, all peripherals within this domain can only accept the operation no more than 40 kHz. In automatic mode (LPM5SM = 0), this bit represents the switch connection between Vcore and VLPM3.5. Any write to this bit has no effect. In manual mode (LPM5SM = 1), this bit can be fully read and written by software. When this bit is set, the switch connection between Vcore and VLPM3.5 is connected. Otherwise, the switch is disconnected.
4
1
read-write
LPM5SW_0
LPMx.5 switch disconnected
0
LPM5SW_1
LPMx.5 switch connected
1
LPM5SM
Specifies the operation mode of the LPM3.5 switch.
5
1
read-write
LPM5SM_0
Automatic mode for LPM3.5 switch that the switch is fully handled by the circuitry during mode switch.
0
LPM5SM_1
Manual mode for LPM3.5 switch that the switch is specified by LPM5SW bit setting in software.
1
SYS
SYS
320
SYSCTL
System Control
0
16
65535
SYSRIVECT
RAM-based interrupt vectors
0
1
read-write
FRAM
Interrupt vectors generated with end address TOP of lower 64K FRAM FFFFh
0
RAM
Interrupt vectors generated with end address TOP of RAM, when RAM available
1
SYSPMMPE
PMM access protect
2
1
read-write
DIS
Access from anywhere in memory
0
EN
Access only from the BSL segments
1
SYSBSLIND
BSL entry indication
4
1
read-write
CLR
No BSL entry sequence detected
0
SET
BSL entry sequence detected
1
SYSJTAGPIN
Dedicated JTAG pins enable
5
1
read-write
SHARED
Shared JTAG pins (JTAG mode selectable using SBW sequence)
0
DEDICATED
Dedicated JTAG pins (explicit 4-wire JTAG mode selection)
1
SYSBSLC
Bootloader Configuration
2
16
65535
SYSBSLR
RAM assigned to BSL
2
1
read-write
NORAM
No RAM assigned to BSL area
0
RAM
Lowest 16 bytes of RAM assigned to BSL
1
SYSBSLOFF
Bootstrap loader memory disable for the size covered in SYSBSLSIZE
14
1
read-write
ON
BSL memory is addressed when this area is read.
0
OFF
BSL memory behaves like vacant memory. Reads cause 3FFFh to be read. Fetches cause JMP $ to be executed.
1
SYSBSLPE
Bootstrap loader memory protection enable for the size covered in SYSBSLSIZE. By default, this bit is cleared by hardware with a BOR event (as indicated above); however, the boot code that checks for an available BSL may set this bit in software to protect the BSL. Because devices normally come with a TI BSL preprogrammed and protected, the boot code sets this bit.
15
1
read-write
NOTPROT
Area not protected. Read, program, and erase of BSL memory is possible.
0
PROT
Area protected
1
SYSJMBC
JTAG Mailbox Control
6
16
65535
JMBIN0FG
Incoming JTAG Mailbox 0 flag
0
1
read-write
NODAT
JMBI0 has no new data
0
NEWDAT
JMBI0 has new data available
1
JMBIN1FG
Incoming JTAG Mailbox 1 flag
1
1
read-write
NODAT
JMBI1 has no new data
0
NEWDAT
JMBI1 has new data available
1
JMBOUT0FG
Outgoing JTAG Mailbox 0 flag
2
1
read-only
BUSY
JMBO0 is not ready to receive new data
0
READY
JMBO0 is ready to receive new data
1
JMBOUT1FG
Outgoing JTAG Mailbox 1 flag
3
1
read-only
BUSY
JMBO1 is not ready to receive new data
0
READY
JMBO1 is ready to receive new data
1
JMBMODE
Operation mode of JMB
4
1
read-write
16BIT
16-bit transfers using JMBO0 and JMBI0 only
0
32BIT
32-bit transfers using JMBO0 with JMBO1 and JMBI0 with JMBI1
1
JMBCLR0OFF
Incoming JTAG Mailbox 0 flag auto-clear disable
6
1
read-write
CLRORD
JMBIN0FG cleared on read of JMB0IN register
0
CLRBSW
JMBIN0FG cleared by software
1
JMBCLR1OFF
Incoming JTAG Mailbox 1 flag auto-clear disable
7
1
read-write
CLRORD
JMBIN1FG cleared on read of JMB1IN register
0
CLRBSW
JMBIN1FG cleared by software
1
SYSJMBI0
JTAG Mailbox Input 0
8
16
65535
MSGLO
JTAG mailbox incoming message low byte
0
8
read-only
MSGHI
JTAG mailbox incoming message high byte
8
8
read-only
SYSJMBI1
JTAG Mailbox Input 1
10
16
65535
MSGLO
JTAG mailbox incoming message low byte
0
8
read-only
MSGHI
JTAG mailbox incoming message high byte
8
8
read-only
SYSJMBO0
JTAG Mailbox Output 0
12
16
65535
MSGLO
JTAG mailbox outgoing message low byte
0
8
read-write
MSGHI
JTAG mailbox outgoing message high byte
8
8
read-write
SYSJMBO1
JTAG Mailbox Output 1
14
16
65535
MSGLO
JTAG mailbox outgoing message low byte
0
8
read-write
MSGHI
JTAG mailbox outgoing message high byte
8
8
read-write
SYSUNIV
User NMI Vector Generator
26
16
65535
SYSUNIV
User NMI vector
0
16
read-only
NONE
No interrupt pending
0
NMIIFG
NMIFG NMI pin or SVSH event
2
OFIFG
OFIFG oscillator fault
4
SYSSNIV
System NMI Vector Generator
28
16
65535
SYSSNIV
System NMI vector
0
16
read-only
NONE
No interrupt pending
0
SVSLIFG
SVS low-power reset entry
2
UBDIFG
Uncorrectable FRAM bit error detection
4
NONE
Reserved
6
NONE
Reserved
8
NONE
Reserved
10
NONE
Reserved
12
NONE
Reserved
14
NONE
Reserved
16
VMAIFG
VMAIFG Vacant memory access
18
JMBINIFG
JMBINIFG JTAG mailbox input
20
JMBOUTIFG
JMBOUTIFG JTAG mailbox output
22
CBDIFG
Correctable FRAM bit error detection
24
SYSRSTIV
Reset Vector Generator
30
16
65535
SYSRSTIV
Reset interrupt vector
0
16
read-only
NONE
No interrupt pending
0
BOR
Brownout
2
RSTNMI
RSTIFG RST/NMI
4
PMMSWBOR
PMMSWBOR software BOR
6
LPM5WU
LPMx.5 wakeup
8
SECYV
Security violation
10
SYSRSTIV_12
Reserved
12
SVSHIFG
SVSHIFG SVSH event
14
SYSRSTIV_16
Reserved
16
SYSRSTIV_18
Reserved
18
PMMSWPOR
PMMSWPOR software POR
20
WDTIFG
WDTIFG watchdog timeout
22
WDTPW
WDTPW watchdog password violation
24
FRCTLPW
FRCTLPW password violation
26
UBDIFG
Uncorrectable FRAM bit error detection
28
PERF
Peripheral area fetch
30
PMMPW
PMM password violation
32
SYSRSTIV_34
Reserved
34
FLLUL
FLL unlock (PUC)
36
SYSCFG0
System Configuration 0
32
16
65535
PFWP
Program FRAM write protection
0
1
read-write
WEN
Program FRAM write enable
0
WPROT
Program FRAM write protected (not writable)
1
FRWPPW
FRWPPW password.
8
8
read-write
DFWP
Data FRAM write protection
1
1
read-write
WEN
Data FRAM write enable
0
WPROT
Data FRAM write protected (not writable)
1
FRWPOA
Program FRAM write protection offset address from the beginning of Program FRAM. The offset increases by 1KB resolution
2
6
read-write
SYSCFG1
System Configuration 1
34
16
65535
IREN
Infrared enable
0
1
read-write
DIS
Infrared function disabled
0
EN
Infrared function enabled
1
IRPSEL
Infrared polarity select
1
1
read-write
NORM
Normal polarity
0
INV
Inverted polarity
1
IRMSEL
Infrared mode select
2
1
read-write
ASK
ASK mode
0
FSK
FSK mode
1
IRDSSEL
Infrared data source select
3
1
read-write
HW
From hardware peripherals upon device configuration
0
IRDATA
From IRDATA bit
1
IRDATA
Infrared data
4
1
read-write
LOW
Infrared data logic 0
0
HIGH
Infrared data logic 1
1
SYNCSEL
Captivate Conversion triggered Source Selection
6
2
read-write
SYNCSEL_0
External source is selected
0
SYNCSEL_1
ADC as the source is selected
1
SYNCSEL_2
Comparator as the source is selected
2
SYNCSEL_3
Reserved
3
SYSCFG2
System Configuration 2
36
16
65535
RTCCKSEL
RTC clock selection
10
1
read-write
RTCCKSEL_0
SMCLK is selected
0
RTCCKSEL_1
ACLK is selected
1
USCIB0RMP
eUSCI_B0 remapping source selection
11
1
read-write
USCIB0RMP_0
Default function. See the device-specific data sheet for details.
0
USCIB0RMP_1
Remapped function. See the device-specific data sheet for details.
1
TB0TRGSEL
TB0OUTH trigger source selection
15
1
read-write
TB0TRGSEL_0
Internal source is selected
0
TB0TRGSEL_1
External source is selected
1
SYSCFG3
System Configuration 3
38
16
65535
USCIA0RMP
eUSCI_A0 remapping source selection
0
1
read-write
USCIA0RMP_0
Default function. See the device-specific data sheet for details.
0
USCIA0RMP_1
Remapped function. See the device-specific data sheet for details.
1
TA2RMP
Timer2_A3 remapping source selection
2
1
read-write
TA2RMP_0
Default function. See the device-specific data sheet for details.
0
TA2RMP_1
Remapped function. See the device-specific data sheet for details.
1
TA3RMP
Timer3_A3 remapping source selection
3
1
read-write
TA3RMP_0
Default function. See the device-specific data sheet for details.
0
TA3RMP_1
Remapped function. See the device-specific data sheet for details.
1
USCIB1RMP
eUSCI_B1 remapping source selection
4
1
read-write
USCIB1RMP_0
Default function. See the device-specific data sheet for details.
0
USCIB1RMP_1
Remapped function. See the device-specific data sheet for details.
1
CS
CS
384
CSCTL0
Clock System Control 0
0
16
65535
DCO
DCO tap selection. These bits select the DCO tap and are modified automatically during FLL operation.
0
9
read-write
MOD
Modulation bit counter. These bits select the modulation pattern. All MOD bits are modified automatically during FLL operation. The DCO register value is incremented when the modulation bit counter rolls over from 31 to 0. If the modulation bit counter decrements from 0 to the maximum count, the DCO register value is also decreased.
9
5
read-write
CSCTL1
Clock System Control 1
2
16
65535
DISMOD
Modulation. This bit enables/disables the modulation.
0
1
read-write
DISMOD_0
Modulation enabled
0
DISMOD_1
Modulation disabled
1
DCORSEL
DCO Range Select
1
3
read-write
DCORSEL_0
1 MHz
0
DCORSEL_1
2 MHz
1
DCORSEL_2
4 MHz
2
DCORSEL_3
8 MHz
3
DCORSEL_4
12 MHz
4
DCORSEL_5
16 MHz
5
DCORSEL_6
20 MHz(Only avaliable in 24MHz clock system)
6
DCORSEL_7
24 MHz(Only avaliable in 24MHz clock system)
7
DCOFTRIM
DCO frequency trim. These bits trims the DCO frequency. By default, it is chipspecific trimmed. These bits can also be trimmed by user code.
4
3
read-write
DCOFTRIMEN
DCO Frequency Trim Enable. When this bit is set, DCOFTRIM value is selected to set DCO frequency. Otherwise, DCOFTRIM value is bypassed and DCO applies default settings in manufacture.
7
1
read-write
DCOFTRIMEN_0
Disable frequency trim
0
DCOFTRIMEN_1
Enable frequency trim
1
CSCTL2
Clock System Control 2
4
16
65535
FLLN
Multiplier bits. These bits set the multiplier value N of the DCO. N must be greater than 0. Writing zero to FLLN causes N to be set to 1.
0
10
read-write
FLLD
FLL loop divider. These bits divide f(DCOCLK) in the FLL feedback loop. This results in an additional multiplier for the multiplier bits. See also multiplier bits.
12
3
read-write
1
fDCOCLK / 1
0
2
fDCOCLK / 2
1
4
fDCOCLK / 4
2
8
fDCOCLK / 8
3
16
fDCOCLK / 16
4
32
fDCOCLK / 32
5
FLLD_6
fDCOCLK / 40(Only avaliable in 24MHz clock system)
6
FLLD_7
fDCOCLK / 48(Only avaliable in 24MHz clock system)
7
CSCTL3
Clock System Control 3
6
16
65535
FLLREFDIV
FLL reference divider. These bits define the divide factor for f(FLLREFCLK). If XT1 supports high frequency input higher than 32 kHz, the divided frequency is used as the FLL reference frequency. If XT1 only supports 32-kHz clock, FLLREFDIV is always read and written as zero, 000b = fFLLREFCLK / 1
0
3
read-write
1
fFLLREFCLK / 1
0
32
fFLLREFCLK / 32
1
64
fFLLREFCLK / 64
2
128
fFLLREFCLK / 128
3
256
fFLLREFCLK / 256
4
512
fFLLREFCLK / 512
5
FLLREFDIV_6
fFLLREFCLK / 640 (only available in 24MHz clock system)
6
FLLREFDIV_7
fFLLREFCLK / 768(only available in 24MHz clock system)
7
SELREF
FLL reference select. These bits select the FLL reference clock source.
4
2
read-write
XT1CLK
XT1CLK
0
REFOCLK
REFOCLK
1
SELREF_2
served for future use
2
SELREF_3
served for future use
3
REFOLP
REFO Low Power Enable. This bit turns on REFO low-power mode. During switch, the low-power mode will be invalid until REFOREADY is set.
7
1
read-write
REFOLP_0
REFO Low Power Disabled (High Power Mode)
0
REFOLP_1
REFO Low Power Enabled
1
CSCTL4
Clock System Control 4
8
16
65535
SELMS
Selects the MCLK and SMCLK source
0
3
read-write
DCOCLKDIV
DCOCLKDIV
0
REFOCLK
REFOCLK
1
XT1CLK
XT1CLK
2
VLOCLK
VLOCLK
3
SELMS_4
Reserved for future use
4
SELMS_5
Reserved for future use
5
SELMS_6
Reserved for future use
6
SELMS_7
Reserved for future use
7
SELA
Selects the ACLK source
8
2
read-write
XT1CLK
XT1CLK with divider (must be no more than 40 kHz)
0
REFOCLK
REFO (internal 32-kHz clock source)
1
VLOCLK
VLO (internal 10-kHz clock source)
2
RESERVED
Reserved
3
CSCTL5
Clock System Control 5
10
16
65535
DIVM
MCLK source divider
0
3
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
16
/16
4
32
/32
5
64
/64
6
128
/128
7
DIVS
SMCLK source divider. SMCLK directly derives from MCLK. SMCLK frequency is the combination of DIVM and DIVS out of selected clock source.
4
2
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
SMCLKOFF
SMCLK off. This bit turns off SMCLK clock
8
1
read-write
SMCLKOFF_0
SMCLK on
0
SMCLKOFF_1
SMCLK off
1
VLOAUTOOFF
VLO automatic off enable. This bit turns off VLO, if VLO is not used.
12
1
read-write
VLOAUTOOFF_0
VLO always on
0
VLOAUTOOFF_1
VLO automatically turned off if not used(default)
1
CSCTL6
Clock System Control 6
12
16
65535
XT1AUTOOFF
XT1 automatic off enable. This bit allows XT1 turned turns off when it is not used
0
1
read-write
XT1AUTOOFF_0
XT1 is on if XT1 is selected by the port selection and XT1 is not in bypass mode of operation.
0
XT1AUTOOFF_1
XT1 is off if it is not used as a source for ACLK, MCLK, or SMCLK or is not used as a reference source required for FLL operation.
1
XT1AGCOFF
Automatic Gain Control (AGC) disable.
1
1
read-write
XT1AGCOFF_0
AGC on
0
XT1AGCOFF_1
AGC off
1
XT1HFFREQ
The XT1 High-frequency selection. These bits must be set to appropriate frequency for crystal or bypass modes of operation.
2
2
read-write
XT1HFFREQ_0
1 to 4 MHz
0
XT1HFFREQ_1
4 MHz to 6 MHz
1
XT1HFFREQ_2
6 MHz to 16 MHz
2
XT1HFFREQ_3
16 MHz to 24 MHz
3
XT1BYPASS
XT1 bypass select
4
1
read-write
XT1BYPASS_0
XT1 source internally
0
XT1BYPASS_1
XT1 sources externally from pin
1
XTS
XT1 mode select
5
1
read-write
XTS_0
Low-frequency mode.
0
XTS_1
High-frequency mode.
1
XT1DRIVE
The XT1 oscillator current can be adjusted to its drive needs. Initially, it starts with the highest supply current for reliable and quick startup. If needed, user software can reduce the drive strength. The configuration of these bits is retained during LPM3.5 until LOCKLPM5 is cleared, but not the register bits itself; therefore, reconfiguration after wake-up from LPM3.5 before clearing LOCKLPM5 is required.
6
2
read-write
XT1DRIVE_0
Lowest drive strength and current consumption
0
XT1DRIVE_1
Lower drive strength and current consumption
1
XT1DRIVE_2
Higher drive strength and current consumption
2
XT1DRIVE_3
Highest drive strength and current consumption
3
DIVA
ACLK source divider.
8
4
read-write
1
/1
0
16
/16
1
32
/32
2
64
/64
3
128
/128
4
256
/256
5
384
/384
6
512
/512
7
768
/768(Only available in 24MHz clock system, 24 MHz preference)
8
1024
/1024(Only available in 24MHz clock system, 24 MHz preference)
9
108
/108(Only available in 24MHz clock system, 24 MHz preference)
10
338
338(Only available in 24MHz clock system, 24 MHz preference)
11
414
414(Only available in 24MHz clock system, 24 MHz preference)
12
640
640(Only available in 24MHz clock system, 24 MHz preference)
13
DIVA_14
Reserved
14
DIVA_15
Reserved
15
XT1FAULTOFF
The XT1 oscillator fault detection off
13
1
read-write
XT1FAULTOFF_0
Enabling XT1 fault to switch ACLK to REFO
0
XT1FAULTOFF_1
Disabling XT1 fault to switch ACLK to REFO
1
CSCTL7
Clock System Control Register 7
14
16
65535
REFOREADY
REFO ready flag. This bit reflects the REFO readiness whent REFO is good for operation (such as FLL reference)
2
1
read-only
REFOREADY_0
REFO unstable
0
REFOREADY_1
REFO ready to go
1
DCOFFG
DCO fault flag. If this bit is set, the OFIFG flag is also set. The DCOFFG bit is set if DCO = {0} or DCO = {511}. DCOFFG can be cleared by software. If the DCO fault condition still remains, DCOFFG is set. As long as DCOFFG is set, FLLUNLOCK shows the DCOERROR condition.
0
1
read-write
DCOFFG_0
No fault condition occurred after the last reset.
0
DCOFFG_1
DCO fault. A DCO fault occurred after the last reset.
1
XT1OFFG
T1 oscillator fault flag. If this bit is set, the OFIFG flag is also set. XT1OFFG is set if a XT1 fault condition exists. XT1OFFG can be cleared by software. If the XT1 fault condition still remains, XT1OFFG is set.
1
1
read-write
XT1OFFG_0
No fault condition occurred after the last reset.
0
XT1OFFG_1
XT1 fault. An XT1 fault occurred after the last reset.
1
FLLULIFG
FLL unlock interrupt flag. This flag is set when FLLUNLOCK bits equal 10b (DCO too fast). If FLLULPUC is also set, a PUC is triggered when FLLUIFG is set.
4
1
read-write
FLLULIFG_0
FLLUNLOCK bits not equal to 10b
0
FLLULIFG_1
FLLUNLOCK bits equal to 10b
1
ENSTFCNT1
Enable start counter for XT1.
6
1
read-write
ENSTFCNT1_0
Startup fault counter disabled. Counter is cleared..
0
ENSTFCNT1_1
Startup fault counter enabled.
1
FLLUNLOCK
Unlock. These bits indicate the current FLL unlock condition. These bits are both set as long as the DCOFFG flag is set.
8
2
read-write
FLLUNLOCK_0
FLL is locked. No unlock condition currently active.
0
FLLUNLOCK_1
DCOCLK is currently too slow.
1
FLLUNLOCK_2
DCOCLK is currently too fast.
2
FLLUNLOCK_3
DCOERROR. DCO out of range.
3
FLLUNLOCKHIS
Unlock history bits. These bits indicate the FLL unlock condition history. As soon as any unlock condition happens, the respective bits are set and remain set until cleared by software by writing 0 to it or by a POR.
10
2
read-write
FLLUNLOCKHIS_0
FLL is locked. No unlock situation has been detected since the last reset of these bits.
0
FLLUNLOCKHIS_1
DCOCLK has been too slow since the bits were cleared.
1
FLLUNLOCKHIS_2
DCOCLK has been too fast since the bits were cleared.
2
FLLUNLOCKHIS_3
DCOCLK has been both too fast and too slow since the bits were cleared.
3
FLLULPUC
FLL unlock PUC enable. If the FLLULPUC bit is set, a reset (PUC) is triggered if FLLULIFG is set. FLLULIFG indicates when FLLUNLOCK bits equal 10 (too fast). FLLULPUC is automatically cleared upon servicing the event. If FLLULPUC is cleared (0), no PUC can be triggered by FLLULIFG.
12
1
read-write
FLLWARNEN
Warning enable. If this bit is set, an interrupt is generated based on the FLLUNLOCKHIS bits. If FLLUNLOCKHIS is not equal to 00, an OFIFG is generated.
13
1
read-write
FLLWARNEN_0
FLLUNLOCKHIS status cannot set OFIFG.
0
FLLWARNEN_1
FLLUNLOCKHIS status can set OFIFG.
1
CSCTL8
Clock System Control Register 8
16
16
65535
ACLKREQEN
ACLK clock request enable. Setting this enables conditional module requests for ACLK
0
1
read-write
ACLKREQEN_0
ACLK conditional requests are disabled.
0
ACLKREQEN_1
ACLK conditional requests are enabled.
1
MCLKREQEN
MCLK clock request enable. Setting this enables conditional module requests for MCLK
1
1
read-write
MCLKREQEN_0
MCLK conditional requests are disabled.
0
MCLKREQEN_1
MCLK conditional requests are enabled.
1
SMCLKREQEN
SMCLK clock request enable. Setting this enables conditional module requests for SMCLK
2
1
read-write
SMCLKREQEN_0
SMCLK conditional requests are disabled.
0
SMCLKREQEN_1
SMCLK conditional requests are enabled.
1
MODOSCREQEN
MODOSC clock request enable. Setting this enables conditional module requests for MODOSC.
3
1
read-write
MODOSCREQEN_0
MODOSC conditional requests are disabled.
0
MODOSCREQEN_1
MODOSC conditional requests are enabled.
1
FRCTL
FRCTL
416
FRCTL0
FRAM Controller Control Register 0
0
16
65535
NWAITS
Wait state numbers
4
3
read-write
NWAITS_0
FRAM wait states: 0
0
NWAITS_1
FRAM wait states: 1
1
NWAITS_2
FRAM wait states: 2
2
NWAITS_3
FRAM wait states: 3
3
NWAITS_4
FRAM wait states: 4
4
NWAITS_5
FRAM wait states: 5
5
NWAITS_6
FRAM wait states: 6
6
NWAITS_7
FRAM wait states: 7
7
FRCTLPW
FRCTLPW password
8
8
read-write
GCCTL0
General Control Register 0
4
16
65535
UBDRSTEN
Enable Power Up Clear (PUC) reset for the uncorrectable bit error detection flag (UBDIFG)
7
1
read-write
UBDRSTEN_0
PUC not initiated on uncorrectable bit error detection flag.
0
UBDRSTEN_1
PUC initiated on uncorrectable bit error detection flag. Generates vector in SYSRSTIV. Clear the UBDIE bit.
1
UBDIE
Enable NMI event for the uncorrectable bit error detection flag (UBDIFG)
6
1
read-write
UBDIE_0
Disable NMI for the uncorrectable bit error detection flag (UBDIFG).
0
UBDIE_1
Enable NMI for the uncorrectable bit error detection flag (UBDIFG). Generates vector in SYSSNIV. Clear the UBDRSTEN bit.
1
CBDIE
Enable NMI event for the correctable bit error detection flag (CBDIFG)
5
1
read-write
CBDIE_0
Disable NMI for the correctable bit error detection flag (CBDIFG).
0
CBDIE_1
Disable NMI for the correctable bit error detection flag (CBDIFG). Generates vector in SYSSNIV.
1
FRPWR
FRAM Memory Power Control Request
2
1
read-write
FRPWR_0
Enable INACTIVE mode.
0
FRPWR_1
Enable ACTIVE mode.
1
FRLPMPWR
Enables FRAM auto power up after LPM
1
1
read-write
FRLPMPWR_0
FRAM startup is delayed to the first FRAM access after exit from LPM
0
FRLPMPWR_1
FRAM is powered up immediately on exit from LPM
1
GCCTL1
General Control Register 1
6
16
65535
ACCTEIFG
Access time error flag
3
1
read-write
ACCTEIFG_0
No interrupt pending.
0
ACCTEIFG_1
Interrupt pending. Can be cleared by writing '0' or by reading SYSSNIV when it is the highest pending interrupt.
1
UBDIFG
FRAM uncorrectable bit error detection flag
2
1
read-write
UBDIFG_0
No interrupt pending.
0
UBDIFG_1
Interrupt pending. Can be cleared by writing '0' or by reading SYSSNIV when it is the highest pending interrupt.
1
CBDIFG
FRAM correctable bit error detection flag
1
1
read-write
CBDIFG_0
No interrupt is pending
0
CBDIFG_1
Interrupt pending. Can be cleared by writing '0' or by reading SYSSNIV if it is the highest pending interrupt.
1
CRC
CRC
448
CRCDI
CRC Data In
0
16
65535
CRCDIRB
CRC Data In Reverse Byte
2
16
65535
CRCINIRES
CRC Initialization and Result
4
16
65535
CRCRESR
CRC Result Reverse
6
16
65535
WDT_A
WDT_A
460
WDTCTL
Watchdog Timer Control Register
0
16
65535
WDTIS
Watchdog timer interval select
0
3
read-write
2G
Watchdog clock source / (2^(31)) (18:12:16 at 32.768 kHz)
0
128M
Watchdog clock source /(2^(27)) (01:08:16 at 32.768 kHz)
1
8192K
Watchdog clock source /(2^(23)) (00:04:16 at 32.768 kHz)
2
512K
Watchdog clock source /(2^(19)) (00:00:16 at 32.768 kHz)
3
32K
Watchdog clock source /(2^(15)) (1 s at 32.768 kHz)
4
8192
Watchdog clock source / (2^(13)) (250 ms at 32.768 kHz)
5
512
Watchdog clock source / (2^(9)) (15.625 ms at 32.768 kHz)
6
64
Watchdog clock source / (2^(6)) (1.95 ms at 32.768 kHz)
7
WDTCNTCL
Watchdog timer counter clear
3
1
read-write
WDTCNTCL_0
No action
0
WDTCNTCL_1
WDTCNT = 0000h
1
WDTTMSEL
Watchdog timer mode select
4
1
read-write
WDTTMSEL_0
Watchdog mode
0
WDTTMSEL_1
Interval timer mode
1
WDTSSEL
Watchdog timer clock source select
5
2
read-write
SMCLK
SMCLK
0
ACLK
ACLK
1
VLOCLK
VLOCLK
2
BCLK
BCLK
3
WDTHOLD
Watchdog timer hold
7
1
read-write
UNHOLD
Watchdog timer is not stopped
0
HOLD
Watchdog timer is stopped
1
WDTPW
Watchdog timer password
8
8
read-write
RTC
RTC
768
RTCCTL
RTCCTL0 Register
0
16
65535
RTCIFG
Real-time interrupt flag. This bit reports the status of a pending interrupt. This read only bit can be cleared by reading RTCIV register.
0
1
read-only
RTCIFG_0
No interrupt pending
0
RTCIFG_1
Interrupt pending
1
RTCIE
Real-time interrupt enable
1
1
read-write
RTCIE_0
Interrupt disabled
0
RTCIE_1
Interrupt enabled
1
RTCSR
Real-time software reset. This is a write only bit and is always read with logic 0. 0b = Write 0 has no effect
6
1
read-write
RTCSR_0
Write 0 has no effect
0
RTCSR_1
Write 1 to this bit clears the counter value and reloads the shadow register value from the modulo register at the next tick of the selected source clock. No overflow event or interrupt is generated.
1
RTCPS
Real-time clock pre-divider select
8
3
read-write
1
/1
0
10
/10
1
100
/100
2
1000
/1000
3
16
/16
4
64
/64
5
256
/256
6
1024
/1024
7
RTCSS
Real-time clock source select
12
2
read-write
DISABLED
Disabled
0
SMCLK
SMCLK
1
XT1CLK
XT1CLK
2
VLOCLK
VLOCLK
3
RTCIV
Real-Time Clock Interrupt Vector Register
4
16
65535
RTCIV
Real-time clock interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
RTCIFG
upt Source: RTC Counter Overflow; Interrupt Flag: RTCIFG
2
RTCMOD
RTC Counter Modulo Register
8
16
65535
RTCCNT
RTC Counter Register
12
16
65535
PJ
PJ
800
PJIN
Port J Input
0
16
65535
PJOUT
Port J Output
2
16
65535
PJDIR
Port J Direction
4
16
65535
PJREN
Port J Resistor Enable
6
16
65535
PJSEL0
Port J Select 0
10
16
65535
PJSEL1
Port J Select 1
12
16
65535
PJSELC
Port J Complement Select
22
16
65535
TA0
TA0
896
TA0CTL
TimerAx Control Register
0
16
65535
TAIFG
TimerA interrupt flag
0
1
read-write
TAIFG_0
No interrupt pending
0
TAIFG_1
Interrupt pending
1
TAIE
TimerA interrupt enable
1
1
read-write
TAIE_0
Interrupt disabled
0
TAIE_1
Interrupt enabled
1
TACLR
TimerA clear
2
1
read-write
MC
Mode control
4
2
read-write
STOP
Stop mode: Timer is halted
0
UP
Up mode: Timer counts up to TAxCCR0
1
CONTINUOUS
Continuous mode: Timer counts up to 0FFFFh
2
UPDOWN
Up/down mode: Timer counts up to TAxCCR0 then down to 0000h
3
ID
Input divider
6
2
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
TASSEL
TimerA clock source select
8
2
read-write
TACLK
TAxCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
INCLK
INCLK
3
TA0CCTL0
Timer_A Capture/Compare Control Register
2
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA0CCTL1
Timer_A Capture/Compare Control Register
4
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA0CCTL2
Timer_A Capture/Compare Control Register
6
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA0R
TimerA register
16
16
65535
TA0CCR0
Timer_A Capture/Compare Register
18
16
65535
TA0CCR1
Timer_A Capture/Compare Register
20
16
65535
TA0CCR2
Timer_A Capture/Compare Register
22
16
65535
TA0EX0
TimerAx Expansion 0 Register
32
16
65535
TAIDEX
Input divider expansion
0
3
read-write
1
Divide by 1
0
2
Divide by 2
1
3
Divide by 3
2
4
Divide by 4
3
5
Divide by 5
4
6
Divide by 6
5
7
Divide by 7
6
8
Divide by 8
7
TA0IV
TimerAx Interrupt Vector Register
46
16
65535
TAIV
TimerA interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
TACCR1
Interrupt Source: Capture/compare 1; Interrupt Flag: TAxCCR1 CCIFG; Interrupt Priority: Highest
2
TACCR2
Interrupt Source: Capture/compare 2; Interrupt Flag: TAxCCR2 CCIFG
4
TACCR3
Interrupt Source: Capture/compare 3; Interrupt Flag: TAxCCR3 CCIFG
6
TACCR4
Interrupt Source: Capture/compare 4; Interrupt Flag: TAxCCR4 CCIFG
8
TACCR5
Interrupt Source: Capture/compare 5; Interrupt Flag: TAxCCR5 CCIFG
10
TACCR6
Interrupt Source: Capture/compare 6; Interrupt Flag: TAxCCR6 CCIFG
12
TAIFG
Interrupt Source: Timer overflow; Interrupt Flag: TAxCTL TAIFG; Interrupt Priority: Lowest
14
TA1
TA1
960
TA1CTL
TimerAx Control Register
0
16
65535
TAIFG
TimerA interrupt flag
0
1
read-write
TAIFG_0
No interrupt pending
0
TAIFG_1
Interrupt pending
1
TAIE
TimerA interrupt enable
1
1
read-write
TAIE_0
Interrupt disabled
0
TAIE_1
Interrupt enabled
1
TACLR
TimerA clear
2
1
read-write
MC
Mode control
4
2
read-write
STOP
Stop mode: Timer is halted
0
UP
Up mode: Timer counts up to TAxCCR0
1
CONTINUOUS
Continuous mode: Timer counts up to 0FFFFh
2
UPDOWN
Up/down mode: Timer counts up to TAxCCR0 then down to 0000h
3
ID
Input divider
6
2
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
TASSEL
TimerA clock source select
8
2
read-write
TACLK
TAxCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
INCLK
INCLK
3
TA1CCTL0
Timer_A Capture/Compare Control Register
2
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA1CCTL1
Timer_A Capture/Compare Control Register
4
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA1CCTL2
Timer_A Capture/Compare Control Register
6
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA1R
TimerA register
16
16
65535
TA1CCR0
Timer_A Capture/Compare Register
18
16
65535
TA1CCR1
Timer_A Capture/Compare Register
20
16
65535
TA1CCR2
Timer_A Capture/Compare Register
22
16
65535
TA1EX0
TimerAx Expansion 0 Register
32
16
65535
TAIDEX
Input divider expansion
0
3
read-write
1
Divide by 1
0
2
Divide by 2
1
3
Divide by 3
2
4
Divide by 4
3
5
Divide by 5
4
6
Divide by 6
5
7
Divide by 7
6
8
Divide by 8
7
TA1IV
TimerAx Interrupt Vector Register
46
16
65535
TAIV
TimerA interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
TACCR1
Interrupt Source: Capture/compare 1; Interrupt Flag: TAxCCR1 CCIFG; Interrupt Priority: Highest
2
TACCR2
Interrupt Source: Capture/compare 2; Interrupt Flag: TAxCCR2 CCIFG
4
TACCR3
Interrupt Source: Capture/compare 3; Interrupt Flag: TAxCCR3 CCIFG
6
TACCR4
Interrupt Source: Capture/compare 4; Interrupt Flag: TAxCCR4 CCIFG
8
TACCR5
Interrupt Source: Capture/compare 5; Interrupt Flag: TAxCCR5 CCIFG
10
TACCR6
Interrupt Source: Capture/compare 6; Interrupt Flag: TAxCCR6 CCIFG
12
TAIFG
Interrupt Source: Timer overflow; Interrupt Flag: TAxCTL TAIFG; Interrupt Priority: Lowest
14
TA2
TA2
1024
TA2CTL
TimerAx Control Register
0
16
65535
TAIFG
TimerA interrupt flag
0
1
read-write
TAIFG_0
No interrupt pending
0
TAIFG_1
Interrupt pending
1
TAIE
TimerA interrupt enable
1
1
read-write
TAIE_0
Interrupt disabled
0
TAIE_1
Interrupt enabled
1
TACLR
TimerA clear
2
1
read-write
MC
Mode control
4
2
read-write
STOP
Stop mode: Timer is halted
0
UP
Up mode: Timer counts up to TAxCCR0
1
CONTINUOUS
Continuous mode: Timer counts up to 0FFFFh
2
UPDOWN
Up/down mode: Timer counts up to TAxCCR0 then down to 0000h
3
ID
Input divider
6
2
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
TASSEL
TimerA clock source select
8
2
read-write
TACLK
TAxCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
INCLK
INCLK
3
TA2CCTL0
Timer_A Capture/Compare Control Register
2
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA2CCTL1
Timer_A Capture/Compare Control Register
4
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA2CCTL2
Timer_A Capture/Compare Control Register
6
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA2R
TimerA register
16
16
65535
TA2CCR0
Timer_A Capture/Compare Register
18
16
65535
TA2CCR1
Timer_A Capture/Compare Register
20
16
65535
TA2CCR2
Timer_A Capture/Compare Register
22
16
65535
TA2EX0
TimerAx Expansion 0 Register
32
16
65535
TAIDEX
Input divider expansion
0
3
read-write
1
Divide by 1
0
2
Divide by 2
1
3
Divide by 3
2
4
Divide by 4
3
5
Divide by 5
4
6
Divide by 6
5
7
Divide by 7
6
8
Divide by 8
7
TA2IV
TimerAx Interrupt Vector Register
46
16
65535
TAIV
TimerA interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
TACCR1
Interrupt Source: Capture/compare 1; Interrupt Flag: TAxCCR1 CCIFG; Interrupt Priority: Highest
2
TACCR2
Interrupt Source: Capture/compare 2; Interrupt Flag: TAxCCR2 CCIFG
4
TACCR3
Interrupt Source: Capture/compare 3; Interrupt Flag: TAxCCR3 CCIFG
6
TACCR4
Interrupt Source: Capture/compare 4; Interrupt Flag: TAxCCR4 CCIFG
8
TACCR5
Interrupt Source: Capture/compare 5; Interrupt Flag: TAxCCR5 CCIFG
10
TACCR6
Interrupt Source: Capture/compare 6; Interrupt Flag: TAxCCR6 CCIFG
12
TAIFG
Interrupt Source: Timer overflow; Interrupt Flag: TAxCTL TAIFG; Interrupt Priority: Lowest
14
TA3
TA3
1088
TA3CTL
TimerAx Control Register
0
16
65535
TAIFG
TimerA interrupt flag
0
1
read-write
TAIFG_0
No interrupt pending
0
TAIFG_1
Interrupt pending
1
TAIE
TimerA interrupt enable
1
1
read-write
TAIE_0
Interrupt disabled
0
TAIE_1
Interrupt enabled
1
TACLR
TimerA clear
2
1
read-write
MC
Mode control
4
2
read-write
STOP
Stop mode: Timer is halted
0
UP
Up mode: Timer counts up to TAxCCR0
1
CONTINUOUS
Continuous mode: Timer counts up to 0FFFFh
2
UPDOWN
Up/down mode: Timer counts up to TAxCCR0 then down to 0000h
3
ID
Input divider
6
2
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
TASSEL
TimerA clock source select
8
2
read-write
TACLK
TAxCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
INCLK
INCLK
3
TA3CCTL0
Timer_A Capture/Compare Control Register
2
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA3CCTL1
Timer_A Capture/Compare Control Register
4
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA3CCTL2
Timer_A Capture/Compare Control Register
6
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
SCCI
Synchronized capture/compare input
10
1
read-write
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TA3R
TimerA register
16
16
65535
TA3CCR0
Timer_A Capture/Compare Register
18
16
65535
TA3CCR1
Timer_A Capture/Compare Register
20
16
65535
TA3CCR2
Timer_A Capture/Compare Register
22
16
65535
TA3EX0
TimerAx Expansion 0 Register
32
16
65535
TAIDEX
Input divider expansion
0
3
read-write
1
Divide by 1
0
2
Divide by 2
1
3
Divide by 3
2
4
Divide by 4
3
5
Divide by 5
4
6
Divide by 6
5
7
Divide by 7
6
8
Divide by 8
7
TA3IV
TimerAx Interrupt Vector Register
46
16
65535
TAIV
TimerA interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
TACCR1
Interrupt Source: Capture/compare 1; Interrupt Flag: TAxCCR1 CCIFG; Interrupt Priority: Highest
2
TACCR2
Interrupt Source: Capture/compare 2; Interrupt Flag: TAxCCR2 CCIFG
4
TACCR3
Interrupt Source: Capture/compare 3; Interrupt Flag: TAxCCR3 CCIFG
6
TACCR4
Interrupt Source: Capture/compare 4; Interrupt Flag: TAxCCR4 CCIFG
8
TACCR5
Interrupt Source: Capture/compare 5; Interrupt Flag: TAxCCR5 CCIFG
10
TACCR6
Interrupt Source: Capture/compare 6; Interrupt Flag: TAxCCR6 CCIFG
12
TAIFG
Interrupt Source: Timer overflow; Interrupt Flag: TAxCTL TAIFG; Interrupt Priority: Lowest
14
TB0
TB0
1152
TB0CTL
Timer_B Control Register
0
16
65535
TBIFG
TimerB interrupt flag
0
1
read-write
TBIFG_0
No interrupt pending
0
TBIFG_1
Interrupt pending
1
TBIE
TimerB interrupt enable
1
1
read-write
TBIE_0
Interrupt disabled
0
TBIE_1
Interrupt enabled
1
TBCLR
TimerB clear
2
1
read-write
MC
Mode control
4
2
read-write
STOP
Stop mode: Timer is halted
0
UP
Up mode: Timer counts up to TBxCL0
1
CONTINUOUS
Continuous mode: Timer counts up to the value set by CNTL
2
UPDOWN
Up/down mode: Timer counts up to TBxCL0 then down to 0000h
3
ID
Input divider
6
2
read-write
1
/1
0
2
/2
1
4
/4
2
8
/8
3
TBSSEL
TimerB clock source select
8
2
read-write
TBCLK
TBxCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
INCLK
INCLK
3
CNTL
Counter length
11
2
read-write
16
16-bit, TBxR(max) = 0FFFFh
0
12
12-bit, TBxR(max) = 0FFFh
1
10
10-bit, TBxR(max) = 03FFh
2
8
8-bit, TBxR(max) = 0FFh
3
TBCLGRP
TBxCLn group
13
2
read-write
TBCLGRP_0
Each TBxCLn latch loads independently
0
TBCLGRP_1
TBxCL1+TBxCL2 (TBxCCR1 CLLD bits control the update); TBxCL3+TBxCL4 (TBxCCR3 CLLD bits control the update); TBxCL5+TBxCL6 (TBxCCR5 CLLD bits control the update); TBxCL0 independent
1
TBCLGRP_2
TBxCL1+TBxCL2+TBxCL3 (TBxCCR1 CLLD bits control the update); TBxCL4+TBxCL5+TBxCL6 (TBxCCR4 CLLD bits control the update); TBxCL0 independent
2
TBCLGRP_3
TBxCL0+TBxCL1+TBxCL2+TBxCL3+TBxCL4+TBxCL5+TBxCL6 (TBxCCR1 CLLD bits control the update)
3
TB0CCTL0
Timer_B Capture/Compare Control Register
2
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0CCTL1
Timer_B Capture/Compare Control Register
4
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0CCTL2
Timer_B Capture/Compare Control Register
6
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0CCTL3
Timer_B Capture/Compare Control Register
8
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0CCTL4
Timer_B Capture/Compare Control Register
10
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0CCTL5
Timer_B Capture/Compare Control Register
12
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0CCTL6
Timer_B Capture/Compare Control Register
14
16
65535
CCIFG
Capture/compare interrupt flag
0
1
read-write
CCIFG_0
No interrupt pending
0
CCIFG_1
Interrupt pending
1
COV
Capture overflow
1
1
read-write
COV_0
No capture overflow occurred
0
COV_1
Capture overflow occurred
1
OUT
Output
2
1
read-write
LOW
Output low
0
HIGH
Output high
1
CCI
Capture/compare input
3
1
read-only
CCIE
Capture/compare interrupt enable
4
1
read-write
CCIE_0
Interrupt disabled
0
CCIE_1
Interrupt enabled
1
OUTMOD
Output mode
5
3
read-write
OUTMOD_0
OUT bit value
0
OUTMOD_1
Set
1
OUTMOD_2
Toggle/reset
2
OUTMOD_3
Set/reset
3
OUTMOD_4
Toggle
4
OUTMOD_5
Reset
5
OUTMOD_6
Toggle/set
6
OUTMOD_7
Reset/set
7
CAP
Capture mode
8
1
read-write
COMPARE
Compare mode
0
CAPTURE
Capture mode
1
CLLD
Compare latch load
9
2
read-write
CLLD_0
TBxCLn loads on write to TBxCCRn
0
CLLD_1
TBxCLn loads when TBxR counts to 0
1
CLLD_2
TBxCLn loads when TBxR counts to 0 (up or continuous mode). TBxCLn loads when TBxR counts to TBxCL0 or to 0 (up/down mode).
2
CLLD_3
TBxCLn loads when TBxR counts to TBxCLn
3
SCS
Synchronize capture source
11
1
read-write
ASYNC
Asynchronous capture
0
SYNC
Synchronous capture
1
CCIS
Capture/compare input select
12
2
read-write
CCIA
CCIxA
0
CCIB
CCIxB
1
GND
GND
2
VCC
VCC
3
CM
Capture mode
14
2
read-write
NONE
No capture
0
RISING
Capture on rising edge
1
FALLING
Capture on falling edge
2
BOTH
Capture on both rising and falling edges
3
TB0R
Timer_B count register
16
16
65535
TB0CCR0
Timer_B Capture/Compare Register
18
16
65535
TB0CCR1
Timer_B Capture/Compare Register
20
16
65535
TB0CCR2
Timer_B Capture/Compare Register
22
16
65535
TB0CCR3
Timer_B Capture/Compare Register
24
16
65535
TB0CCR4
Timer_B Capture/Compare Register
26
16
65535
TB0CCR5
Timer_B Capture/Compare Register
28
16
65535
TB0CCR6
Timer_B Capture/Compare Register
30
16
65535
TB0EX0
Timer_Bx Expansion Register 0
32
16
65535
TBIDEX
Input divider expansion
0
3
read-write
1
Divide by 1
0
2
Divide by 2
1
3
Divide by 3
2
4
Divide by 4
3
5
Divide by 5
4
6
Divide by 6
5
7
Divide by 7
6
8
Divide by 8
7
TB0IV
Timer_Bx Interrupt Vector Register
46
16
65535
TBIV
Timer_B interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
TBCCR1
Interrupt Source: Capture/compare 1; Interrupt Flag: TBxCCR1 CCIFG; Interrupt Priority: Highest
2
TBCCR2
Interrupt Source: Capture/compare 2; Interrupt Flag: TBxCCR2 CCIFG
4
TBCCR3
Interrupt Source: Capture/compare 3; Interrupt Flag: TBxCCR3 CCIFG
6
TBCCR4
Interrupt Source: Capture/compare 4; Interrupt Flag: TBxCCR4 CCIFG
8
TBCCR5
Interrupt Source: Capture/compare 5; Interrupt Flag: TBxCCR5 CCIFG
10
TBCCR6
Interrupt Source: Capture/compare 6; Interrupt Flag: TBxCCR6 CCIFG
12
TBIFG
Interrupt Source: Timer overflow; Interrupt Flag: TBxCTL TBIFG; Interrupt Priority: Lowest
14
MPY32
MPY32
1216
MPY
16-bit operand one multiply
0
16
65535
MPYS
16-bit operand one signed multiply
2
16
65535
MAC
16-bit operand one multiply accumulate
4
16
65535
MACS
16-bit operand one signed multiply accumulate
6
16
65535
OP2
16-bit operand two
8
16
65535
RESLO
16x16-bit result low word
10
16
65535
RESHI
16x16-bit result high word
12
16
65535
SUMEXT
16x16-bit sum extension register
14
16
65535
MPY32L
32-bit operand 1 multiply low word
16
16
65535
MPY32H
32-bit operand 1 multiply high word
18
16
65535
MPYS32L
32-bit operand 1 signed multiply low word
20
16
65535
MPYS32H
32-bit operand 1 signed multiply high word
22
16
65535
MAC32L
32-bit operand 1 multiply accumulate low word
24
16
65535
MAC32H
32-bit operand 1 multiply accumulate high word
26
16
65535
MACS32L
32-bit operand 1 signed multiply accumulate low word
28
16
65535
MACS32H
32-bit operand 1 signed multiply accumulate high word
30
16
65535
MACS32H
32-bit operand 1 signed multiply accumulate high word
8
8
read-write
OP2L
32-bit operand 2 low word
32
16
65535
OP2H
32-bit operand 2 high word
34
16
65535
RES0
32x32-bit result 0 least significant word
36
16
65535
RES1
32x32-bit result 1
38
16
65535
RES2
32x32-bit result 2
40
16
65535
RES3
32x32-bit result 3 most significant word
42
16
65535
MPY32CTL0
MPY32 control register 0
44
16
65535
MPYDLY32
Delayed write mode.
9
1
read-write
MPYDLY32_0
Writes are delayed until 64-bit result (RES0 to RES3) is available.
0
MPYDLY32_1
Writes are delayed until 32-bit result (RES0 to RES1) is available. 8 MPYDLYWRTEN
1
MPYDLYWRTEN
Delayed write enable.
8
1
read-write
MPYDLYWRTEN_0
Writes are not delayed.
0
MPYDLYWRTEN_1
Writes are delayed.
1
MPYOP2_32
Multiplier bit width of operand 2
7
1
read-write
16
16 bits.
0
32
32 bits.
1
MPYOP1_32
Multiplier bit width of operand 1
6
1
read-write
16
16 bits.
0
32
32 bits.
1
MPYM
Multiplier mode
4
2
read-write
MPY
MPY Multiply
0
MPYS
MPYS Signed multiply
1
MAC
MAC Multiply accumulate
2
MACS
MACS Signed multiply accumulate
3
MPYSAT
Saturation mode
3
1
read-write
DISABLE
Saturation mode disabled.
0
ENABLE
Saturation mode enabled.
1
MPYFRAC
Fractional mode.
2
1
read-write
DISABLE
Fractional mode disabled.
0
ENABLE
Fractional mode enabled.
1
MPYC
Carry of the multiplier
0
1
read-write
MPYC_0
No carry for result.
0
MPYC_1
Result has a carry.
1
E_USCI_A0
eUSCI_A0
1280
UCA0CTLW0
eUSCI_Ax Control Word Register 0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_A reset released for operation
0
ENABLE
Enabled. eUSCI_A logic held in reset state
1
UCTXBRK
Transmit break
1
1
read-write
UCTXBRK_0
Next frame transmitted is not a break
0
UCTXBRK_1
Next frame transmitted is a break or a break/synch
1
UCTXADDR
Transmit address
2
1
read-write
UCTXADDR_0
Next frame transmitted is data
0
UCTXADDR_1
Next frame transmitted is an address
1
UCDORM
Dormant
3
1
read-write
UCDORM_0
Not dormant. All received characters set UCRXIFG.
0
UCDORM_1
Dormant. Only characters that are preceded by an idle-line or with address bit set UCRXIFG. In UART mode with automatic baud-rate detection, only the combination of a break and synch field sets UCRXIFG.
1
UCBRKIE
Receive break character interrupt enable
4
1
read-write
UCBRKIE_0
Received break characters do not set UCRXIFG
0
UCBRKIE_1
Received break characters set UCRXIFG
1
UCRXEIE
Receive erroneous-character interrupt enable
5
1
read-write
UCRXEIE_0
Erroneous characters rejected and UCRXIFG is not set
0
UCRXEIE_1
Erroneous characters received set UCRXIFG
1
UCSSEL
eUSCI_A clock source select
6
2
read-write
UCLK
UCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI_A mode
9
2
read-write
UCMODE_0
UART mode
0
UCMODE_1
Idle-line multiprocessor mode
1
UCMODE_2
Address-bit multiprocessor mode
2
UCMODE_3
UART mode with automatic baud-rate detection
3
UCSPB
Stop bit select
11
1
read-write
UCSPB_0
One stop bit
0
UCSPB_1
Two stop bits
1
UC7BIT
Character length
12
1
read-write
8BIT
8-bit data
0
7BIT
7-bit data
1
UCMSB
MSB first select
13
1
read-write
UCMSB_0
LSB first
0
UCMSB_1
MSB first
1
UCPAR
Parity select
14
1
read-write
ODD
Odd parity
0
EVEN
Even parity
1
UCPEN
Parity enable
15
1
read-write
UCPEN_0
Parity disabled
0
UCPEN_1
Parity enabled. Parity bit is generated (UCAxTXD) and expected (UCAxRXD). In address-bit multiprocessor mode, the address bit is included in the parity calculation.
1
UCA0CTLW0_SPI
eUSCI_Ax Control Word Register 0
UCA0CTLW0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_A reset released for operation
0
ENABLE
Enabled. eUSCI_A logic held in reset state
1
UCSTEM
STE mode select in master mode.
1
1
read-write
UCSTEM_0
STE pin is used to prevent conflicts with other masters
0
UCSTEM_1
STE pin is used to generate the enable signal for a 4-wire slave
1
UCSSEL
eUSCI_A clock source select
6
2
read-write
UCSSEL_0
Reserved
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI mode
9
2
read-write
UCMODE_0
3-pin SPI
0
UCMODE_1
4-pin SPI with UCxSTE active high: Slave enabled when UCxSTE = 1
1
UCMODE_2
4-pin SPI with UCxSTE active low: Slave enabled when UCxSTE = 0
2
UCMODE_3
I2C mode
3
UCMST
Master mode select
11
1
read-write
SLAVE
Slave mode
0
MASTER
Master mode
1
UC7BIT
Character length
12
1
read-write
8BIT
8-bit data
0
7BIT
7-bit data
1
UCMSB
MSB first select
13
1
read-write
UCMSB_0
LSB first
0
UCMSB_1
MSB first
1
UCCKPL
Clock polarity select
14
1
read-write
LOW
The inactive state is low
0
HIGH
The inactive state is high
1
UCCKPH
Clock phase select
15
1
read-write
UCCKPH_0
Data is changed on the first UCLK edge and captured on the following edge.
0
UCCKPH_1
Data is captured on the first UCLK edge and changed on the following edge.
1
UCA0CTLW1
eUSCI_Ax Control Word Register 1
2
16
65535
UCGLIT
Deglitch time
0
2
read-write
UCGLIT_0
Approximately 2 ns (equivalent of 1 delay element)
0
UCGLIT_1
Approximately 50 ns
1
UCGLIT_2
Approximately 100 ns
2
UCGLIT_3
Approximately 200 ns
3
UCA0BRW
eUSCI_Ax Baud Rate Control Word Register
6
16
65535
UCA0BRW_SPI
eUSCI_Ax Bit Rate Control Register 1
UCA0BRW
6
16
65535
UCA0MCTLW
eUSCI_Ax Modulation Control Word Register
8
16
65535
UCOS16
Oversampling mode enabled
0
1
read-write
UCOS16_0
Disabled
0
UCOS16_1
Enabled
1
UCBRF
First modulation stage select
4
4
read-write
UCBRS
Second modulation stage select
8
8
read-write
UCA0STATW
eUSCI_Ax Status Register
10
16
65535
UCBUSY
eUSCI_A busy
0
1
read-only
IDLE
eUSCI_A inactive
0
BUSY
eUSCI_A transmitting or receiving
1
UCADDR_UCIDLE
Address received / Idle line detected
1
1
read-write
UCADDR_UCIDLE_0
UCADDR: Received character is data. UCIDLE: No idle line detected
0
UCADDR_UCIDLE_1
UCADDR: Received character is an address. UCIDLE: Idle line detected
1
UCRXERR
Receive error flag
2
1
read-write
UCRXERR_0
No receive errors detected
0
UCRXERR_1
Receive error detected
1
UCBRK
Break detect flag
3
1
read-write
UCBRK_0
No break condition
0
UCBRK_1
Break condition occurred
1
UCPE
Parity error flag. When UCPEN = 0, UCPE is read as 0. UCPE is cleared when UCAxRXBUF is read.
4
1
read-write
UCPE_0
No error
0
UCPE_1
Character received with parity error
1
UCOE
Overrun error flag
5
1
read-write
UCOE_0
No error
0
UCOE_1
Overrun error occurred
1
UCFE
Framing error flag
6
1
read-write
UCFE_0
No error
0
UCFE_1
Character received with low stop bit
1
UCLISTEN
Listen enable
7
1
read-write
UCLISTEN_0
Disabled
0
UCLISTEN_1
Enabled. UCAxTXD is internally fed back to the receiver
1
UCA0STATW_SPI
UCA0STATW_SPI
UCA0STATW
10
16
65535
UCOE
Overrun error flag
5
1
read-write
UCOE_0
No error
0
UCOE_1
Overrun error occurred
1
UCFE
Framing error flag
6
1
read-write
UCFE_0
No error
0
UCFE_1
Bus conflict occurred
1
UCLISTEN
Listen enable
7
1
read-write
UCLISTEN_0
Disabled
0
UCLISTEN_1
Enabled. UCAxTXD is internally fed back to the receiver
1
UCA0RXBUF
eUSCI_Ax Receive Buffer Register
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCA0RXBUF_SPI
eUSCI_Ax Receive Buffer Register
UCA0RXBUF
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCA0TXBUF
eUSCI_Ax Transmit Buffer Register
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCA0TXBUF_SPI
eUSCI_Ax Transmit Buffer Register
UCA0TXBUF
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCA0ABCTL
eUSCI_Ax Auto Baud Rate Control Register
16
16
65535
UCABDEN
Automatic baud-rate detect enable
0
1
read-write
UCABDEN_0
Baud-rate detection disabled. Length of break and synch field is not measured.
0
UCABDEN_1
Baud-rate detection enabled. Length of break and synch field is measured and baud-rate settings are changed accordingly.
1
UCBTOE
Break time out error
2
1
read-write
UCBTOE_0
No error
0
UCBTOE_1
Length of break field exceeded 22 bit times
1
UCSTOE
Synch field time out error
3
1
read-write
UCSTOE_0
No error
0
UCSTOE_1
Length of synch field exceeded measurable time
1
UCDELIM
Break/synch delimiter length
4
2
read-write
UCDELIM_0
1 bit time
0
UCDELIM_1
2 bit times
1
UCDELIM_2
3 bit times
2
UCDELIM_3
4 bit times
3
UCA0IRCTL
eUSCI_Ax IrDA Control Word Register
18
16
65535
UCIREN
IrDA encoder/decoder enable
0
1
read-write
UCIREN_0
IrDA encoder/decoder disabled
0
UCIREN_1
IrDA encoder/decoder enabled
1
UCIRTXCLK
IrDA transmit pulse clock select
1
1
read-write
UCIRTXCLK_0
BRCLK
0
UCIRTXCLK_1
BITCLK16 when UCOS16 = 1. Otherwise, BRCLK.
1
UCIRTXPL
Transmit pulse length
2
6
read-write
UCIRRXFE
IrDA receive filter enabled
8
1
read-write
UCIRRXFE_0
Receive filter disabled
0
UCIRRXFE_1
Receive filter enabled
1
UCIRRXPL
IrDA receive input UCAxRXD polarity
9
1
read-write
HIGH
IrDA transceiver delivers a high pulse when a light pulse is seen
0
LOW
IrDA transceiver delivers a low pulse when a light pulse is seen
1
UCIRRXFL
Receive filter length
10
6
read-write
UCA0IE
eUSCI_Ax Interrupt Enable Register
26
16
65535
UCRXIE
Receive interrupt enable
0
1
read-write
UCRXIE_0
Interrupt disabled
0
UCRXIE_1
Interrupt enabled
1
UCTXIE
Transmit interrupt enable
1
1
read-write
UCTXIE_0
Interrupt disabled
0
UCTXIE_1
Interrupt enabled
1
UCSTTIE
Start bit interrupt enable
2
1
read-write
UCSTTIE_0
Interrupt disabled
0
UCSTTIE_1
Interrupt enabled
1
UCTXCPTIE
Transmit complete interrupt enable
3
1
read-write
UCTXCPTIE_0
Interrupt disabled
0
UCTXCPTIE_1
Interrupt enabled
1
UCA0IE_SPI
eUSCI_Ax Interrupt Enable Register
UCA0IE
26
16
65535
UCRXIE
Receive interrupt enable
0
1
read-write
UCRXIE_0
Interrupt disabled
0
UCRXIE_1
Interrupt enabled
1
UCTXIE
Transmit interrupt enable
1
1
read-write
UCTXIE_0
Interrupt disabled
0
UCTXIE_1
Interrupt enabled
1
UCA0IFG
eUSCI_Ax Interrupt Flag Register
28
16
65535
UCRXIFG
Receive interrupt flag
0
1
read-write
UCRXIFG_0
No interrupt pending
0
UCRXIFG_1
Interrupt pending
1
UCTXIFG
Transmit interrupt flag
1
1
read-write
UCTXIFG_0
No interrupt pending
0
UCTXIFG_1
Interrupt pending
1
UCSTTIFG
Start bit interrupt flag
2
1
read-write
UCSTTIFG_0
No interrupt pending
0
UCSTTIFG_1
Interrupt pending
1
UCTXCPTIFG
Transmit ready interrupt enable
3
1
read-write
UCTXCPTIFG_0
No interrupt pending
0
UCTXCPTIFG_1
Interrupt pending
1
UCA0IFG_SPI
eUSCI_Ax Interrupt Flag Register
UCA0IFG
28
16
65535
UCRXIFG
Receive interrupt flag
0
1
read-write
UCRXIFG_0
No interrupt pending
0
UCRXIFG_1
Interrupt pending
1
UCTXIFG
Transmit interrupt flag
1
1
read-write
UCTXIFG_0
No interrupt pending
0
UCTXIFG_1
Interrupt pending
1
UCA0IV
eUSCI_Ax Interrupt Vector Register
30
16
65535
UCIV
eUSCI_A interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCRXIFG
Interrupt Source: Receive buffer full; Interrupt Flag: UCRXIFG; Interrupt Priority: Highest
2
UCTXIFG
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG
4
UCSTTIFG
Interrupt Source: Start bit received; Interrupt Flag: UCSTTIFG
6
UCTXCPTIFG
Interrupt Source: Transmit complete; Interrupt Flag: UCTXCPTIFG; Interrupt Priority: Lowest
8
UCA0IV_SPI
eUSCI_Ax Interrupt Vector Register
UCA0IV
30
16
65535
UCIV
eUSCI_A interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCRXIFG
Interrupt Source: Data received; Interrupt Flag: UCRXIFG; Interrupt Priority: Highest
2
UCTXIFG
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG; Interrupt Priority: Lowest
4
E_USCI_A1
eUSCI_A1
1312
UCA1CTLW0
eUSCI_Ax Control Word Register 0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_A reset released for operation
0
ENABLE
Enabled. eUSCI_A logic held in reset state
1
UCTXBRK
Transmit break
1
1
read-write
UCTXBRK_0
Next frame transmitted is not a break
0
UCTXBRK_1
Next frame transmitted is a break or a break/synch
1
UCTXADDR
Transmit address
2
1
read-write
UCTXADDR_0
Next frame transmitted is data
0
UCTXADDR_1
Next frame transmitted is an address
1
UCDORM
Dormant
3
1
read-write
UCDORM_0
Not dormant. All received characters set UCRXIFG.
0
UCDORM_1
Dormant. Only characters that are preceded by an idle-line or with address bit set UCRXIFG. In UART mode with automatic baud-rate detection, only the combination of a break and synch field sets UCRXIFG.
1
UCBRKIE
Receive break character interrupt enable
4
1
read-write
UCBRKIE_0
Received break characters do not set UCRXIFG
0
UCBRKIE_1
Received break characters set UCRXIFG
1
UCRXEIE
Receive erroneous-character interrupt enable
5
1
read-write
UCRXEIE_0
Erroneous characters rejected and UCRXIFG is not set
0
UCRXEIE_1
Erroneous characters received set UCRXIFG
1
UCSSEL
eUSCI_A clock source select
6
2
read-write
UCLK
UCLK
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI_A mode
9
2
read-write
UCMODE_0
UART mode
0
UCMODE_1
Idle-line multiprocessor mode
1
UCMODE_2
Address-bit multiprocessor mode
2
UCMODE_3
UART mode with automatic baud-rate detection
3
UCSPB
Stop bit select
11
1
read-write
UCSPB_0
One stop bit
0
UCSPB_1
Two stop bits
1
UC7BIT
Character length
12
1
read-write
8BIT
8-bit data
0
7BIT
7-bit data
1
UCMSB
MSB first select
13
1
read-write
UCMSB_0
LSB first
0
UCMSB_1
MSB first
1
UCPAR
Parity select
14
1
read-write
ODD
Odd parity
0
EVEN
Even parity
1
UCPEN
Parity enable
15
1
read-write
UCPEN_0
Parity disabled
0
UCPEN_1
Parity enabled. Parity bit is generated (UCAxTXD) and expected (UCAxRXD). In address-bit multiprocessor mode, the address bit is included in the parity calculation.
1
UCA1CTLW0_SPI
eUSCI_Ax Control Word Register 0
UCA1CTLW0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_A reset released for operation
0
ENABLE
Enabled. eUSCI_A logic held in reset state
1
UCSTEM
STE mode select in master mode.
1
1
read-write
UCSTEM_0
STE pin is used to prevent conflicts with other masters
0
UCSTEM_1
STE pin is used to generate the enable signal for a 4-wire slave
1
UCSSEL
eUSCI_A clock source select
6
2
read-write
UCSSEL_0
Reserved
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI mode
9
2
read-write
UCMODE_0
3-pin SPI
0
UCMODE_1
4-pin SPI with UCxSTE active high: Slave enabled when UCxSTE = 1
1
UCMODE_2
4-pin SPI with UCxSTE active low: Slave enabled when UCxSTE = 0
2
UCMODE_3
I2C mode
3
UCMST
Master mode select
11
1
read-write
SLAVE
Slave mode
0
MASTER
Master mode
1
UC7BIT
Character length
12
1
read-write
8BIT
8-bit data
0
7BIT
7-bit data
1
UCMSB
MSB first select
13
1
read-write
UCMSB_0
LSB first
0
UCMSB_1
MSB first
1
UCCKPL
Clock polarity select
14
1
read-write
LOW
The inactive state is low
0
HIGH
The inactive state is high
1
UCCKPH
Clock phase select
15
1
read-write
UCCKPH_0
Data is changed on the first UCLK edge and captured on the following edge.
0
UCCKPH_1
Data is captured on the first UCLK edge and changed on the following edge.
1
UCA1CTLW1
eUSCI_Ax Control Word Register 1
2
16
65535
UCGLIT
Deglitch time
0
2
read-write
UCGLIT_0
Approximately 2 ns (equivalent of 1 delay element)
0
UCGLIT_1
Approximately 50 ns
1
UCGLIT_2
Approximately 100 ns
2
UCGLIT_3
Approximately 200 ns
3
UCA1BRW
eUSCI_Ax Baud Rate Control Word Register
6
16
65535
UCA1BRW_SPI
eUSCI_Ax Bit Rate Control Register 1
UCA1BRW
6
16
65535
UCA1MCTLW
eUSCI_Ax Modulation Control Word Register
8
16
65535
UCOS16
Oversampling mode enabled
0
1
read-write
UCOS16_0
Disabled
0
UCOS16_1
Enabled
1
UCBRF
First modulation stage select
4
4
read-write
UCBRS
Second modulation stage select
8
8
read-write
UCA1STATW
eUSCI_Ax Status Register
10
16
65535
UCBUSY
eUSCI_A busy
0
1
read-only
IDLE
eUSCI_A inactive
0
BUSY
eUSCI_A transmitting or receiving
1
UCADDR_UCIDLE
Address received / Idle line detected
1
1
read-write
UCADDR_UCIDLE_0
UCADDR: Received character is data. UCIDLE: No idle line detected
0
UCADDR_UCIDLE_1
UCADDR: Received character is an address. UCIDLE: Idle line detected
1
UCRXERR
Receive error flag
2
1
read-write
UCRXERR_0
No receive errors detected
0
UCRXERR_1
Receive error detected
1
UCBRK
Break detect flag
3
1
read-write
UCBRK_0
No break condition
0
UCBRK_1
Break condition occurred
1
UCPE
Parity error flag. When UCPEN = 0, UCPE is read as 0. UCPE is cleared when UCAxRXBUF is read.
4
1
read-write
UCPE_0
No error
0
UCPE_1
Character received with parity error
1
UCOE
Overrun error flag
5
1
read-write
UCOE_0
No error
0
UCOE_1
Overrun error occurred
1
UCFE
Framing error flag
6
1
read-write
UCFE_0
No error
0
UCFE_1
Character received with low stop bit
1
UCLISTEN
Listen enable
7
1
read-write
UCLISTEN_0
Disabled
0
UCLISTEN_1
Enabled. UCAxTXD is internally fed back to the receiver
1
UCA1STATW_SPI
UCA1STATW_SPI
UCA1STATW
10
16
65535
UCOE
Overrun error flag
5
1
read-write
UCOE_0
No error
0
UCOE_1
Overrun error occurred
1
UCFE
Framing error flag
6
1
read-write
UCFE_0
No error
0
UCFE_1
Bus conflict occurred
1
UCLISTEN
Listen enable
7
1
read-write
UCLISTEN_0
Disabled
0
UCLISTEN_1
Enabled. UCAxTXD is internally fed back to the receiver
1
UCA1RXBUF
eUSCI_Ax Receive Buffer Register
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCA1RXBUF_SPI
eUSCI_Ax Receive Buffer Register
UCA1RXBUF
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCA1TXBUF
eUSCI_Ax Transmit Buffer Register
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCA1TXBUF_SPI
eUSCI_Ax Transmit Buffer Register
UCA1TXBUF
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCA1ABCTL
eUSCI_Ax Auto Baud Rate Control Register
16
16
65535
UCABDEN
Automatic baud-rate detect enable
0
1
read-write
UCABDEN_0
Baud-rate detection disabled. Length of break and synch field is not measured.
0
UCABDEN_1
Baud-rate detection enabled. Length of break and synch field is measured and baud-rate settings are changed accordingly.
1
UCBTOE
Break time out error
2
1
read-write
UCBTOE_0
No error
0
UCBTOE_1
Length of break field exceeded 22 bit times
1
UCSTOE
Synch field time out error
3
1
read-write
UCSTOE_0
No error
0
UCSTOE_1
Length of synch field exceeded measurable time
1
UCDELIM
Break/synch delimiter length
4
2
read-write
UCDELIM_0
1 bit time
0
UCDELIM_1
2 bit times
1
UCDELIM_2
3 bit times
2
UCDELIM_3
4 bit times
3
UCA1IRCTL
eUSCI_Ax IrDA Control Word Register
18
16
65535
UCIREN
IrDA encoder/decoder enable
0
1
read-write
UCIREN_0
IrDA encoder/decoder disabled
0
UCIREN_1
IrDA encoder/decoder enabled
1
UCIRTXCLK
IrDA transmit pulse clock select
1
1
read-write
UCIRTXCLK_0
BRCLK
0
UCIRTXCLK_1
BITCLK16 when UCOS16 = 1. Otherwise, BRCLK.
1
UCIRTXPL
Transmit pulse length
2
6
read-write
UCIRRXFE
IrDA receive filter enabled
8
1
read-write
UCIRRXFE_0
Receive filter disabled
0
UCIRRXFE_1
Receive filter enabled
1
UCIRRXPL
IrDA receive input UCAxRXD polarity
9
1
read-write
HIGH
IrDA transceiver delivers a high pulse when a light pulse is seen
0
LOW
IrDA transceiver delivers a low pulse when a light pulse is seen
1
UCIRRXFL
Receive filter length
10
6
read-write
UCA1IE
eUSCI_Ax Interrupt Enable Register
26
16
65535
UCRXIE
Receive interrupt enable
0
1
read-write
UCRXIE_0
Interrupt disabled
0
UCRXIE_1
Interrupt enabled
1
UCTXIE
Transmit interrupt enable
1
1
read-write
UCTXIE_0
Interrupt disabled
0
UCTXIE_1
Interrupt enabled
1
UCSTTIE
Start bit interrupt enable
2
1
read-write
UCSTTIE_0
Interrupt disabled
0
UCSTTIE_1
Interrupt enabled
1
UCTXCPTIE
Transmit complete interrupt enable
3
1
read-write
UCTXCPTIE_0
Interrupt disabled
0
UCTXCPTIE_1
Interrupt enabled
1
UCA1IE_SPI
eUSCI_Ax Interrupt Enable Register
UCA1IE
26
16
65535
UCRXIE
Receive interrupt enable
0
1
read-write
UCRXIE_0
Interrupt disabled
0
UCRXIE_1
Interrupt enabled
1
UCTXIE
Transmit interrupt enable
1
1
read-write
UCTXIE_0
Interrupt disabled
0
UCTXIE_1
Interrupt enabled
1
UCA1IFG
eUSCI_Ax Interrupt Flag Register
28
16
65535
UCRXIFG
Receive interrupt flag
0
1
read-write
UCRXIFG_0
No interrupt pending
0
UCRXIFG_1
Interrupt pending
1
UCTXIFG
Transmit interrupt flag
1
1
read-write
UCTXIFG_0
No interrupt pending
0
UCTXIFG_1
Interrupt pending
1
UCSTTIFG
Start bit interrupt flag
2
1
read-write
UCSTTIFG_0
No interrupt pending
0
UCSTTIFG_1
Interrupt pending
1
UCTXCPTIFG
Transmit ready interrupt enable
3
1
read-write
UCTXCPTIFG_0
No interrupt pending
0
UCTXCPTIFG_1
Interrupt pending
1
UCA1IFG_SPI
eUSCI_Ax Interrupt Flag Register
UCA1IFG
28
16
65535
UCRXIFG
Receive interrupt flag
0
1
read-write
UCRXIFG_0
No interrupt pending
0
UCRXIFG_1
Interrupt pending
1
UCTXIFG
Transmit interrupt flag
1
1
read-write
UCTXIFG_0
No interrupt pending
0
UCTXIFG_1
Interrupt pending
1
UCA1IV
eUSCI_Ax Interrupt Vector Register
30
16
65535
UCIV
eUSCI_A interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCRXIFG
Interrupt Source: Receive buffer full; Interrupt Flag: UCRXIFG; Interrupt Priority: Highest
2
UCTXIFG
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG
4
UCSTTIFG
Interrupt Source: Start bit received; Interrupt Flag: UCSTTIFG
6
UCTXCPTIFG
Interrupt Source: Transmit complete; Interrupt Flag: UCTXCPTIFG; Interrupt Priority: Lowest
8
UCA1IV_SPI
eUSCI_Ax Interrupt Vector Register
UCA1IV
30
16
65535
UCIV
eUSCI_A interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCRXIFG
Interrupt Source: Data received; Interrupt Flag: UCRXIFG; Interrupt Priority: Highest
2
UCTXIFG
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG; Interrupt Priority: Lowest
4
E_USCI_B0
eUSCI_B0
1344
UCB0CTLW0
eUSCI_Bx Control Word Register 0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_B reset released for operation
0
ENABLE
Enabled. eUSCI_B logic held in reset state
1
UCTXSTT
Transmit START condition in master mode
1
1
read-write
UCTXSTT_0
Do not generate START condition
0
UCTXSTT_1
Generate START condition
1
UCTXSTP
Transmit STOP condition in master mode
2
1
read-write
UCTXSTP_0
No STOP generated
0
UCTXSTP_1
Generate STOP
1
UCTXNACK
Transmit a NACK
3
1
read-write
UCTXNACK_0
Acknowledge normally
0
UCTXNACK_1
Generate NACK
1
UCTR
Transmitter/receiver
4
1
read-write
RX
Receiver
0
TX
Transmitter
1
UCTXACK
Transmit ACK condition in slave mode
5
1
read-write
UCTXACK_0
Do not acknowledge the slave address
0
UCTXACK_1
Acknowledge the slave address
1
UCSSEL
eUSCI_B clock source select
6
2
read-write
UCLKI
UCLKI
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI_B mode
9
2
read-write
UCMODE_0
3-pin SPI
0
UCMODE_1
4-pin SPI (master or slave enabled if STE = 1)
1
UCMODE_2
4-pin SPI (master or slave enabled if STE = 0)
2
UCMODE_3
I2C mode
3
UCMST
Master mode select
11
1
read-write
SLAVE
Slave mode
0
MASTER
Master mode
1
UCMM
Multi-master environment select
13
1
read-write
SINGLE
Single master environment. There is no other master in the system. The address compare unit is disabled.
0
MULTI
Multi-master environment
1
UCSLA10
Slave addressing mode select
14
1
read-write
7BIT
Address slave with 7-bit address
0
10BIT
Address slave with 10-bit address
1
UCA10
Own addressing mode select
15
1
read-write
UCA10_0
Own address is a 7-bit address
0
UCA10_1
Own address is a 10-bit address
1
UCB0CTLW0_SPI
eUSCI_Bx Control Word Register 0
UCB0CTLW0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_B reset released for operation
0
ENABLE
Enabled. eUSCI_B logic held in reset state
1
UCSTEM
STE mode select in master mode.
1
1
read-write
UCSTEM_0
STE pin is used to prevent conflicts with other masters
0
UCSTEM_1
STE pin is used to generate the enable signal for a 4-wire slave
1
UCSSEL
eUSCI_B clock source select
6
2
read-write
UCSSEL_0
Reserved
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI mode
9
2
read-write
UCMODE_0
3-pin SPI
0
UCMODE_1
4-pin SPI with UCxSTE active high: Slave enabled when UCxSTE = 1
1
UCMODE_2
4-pin SPI with UCxSTE active low: Slave enabled when UCxSTE = 0
2
UCMODE_3
I2C mode
3
UCMST
Master mode select
11
1
read-write
SLAVE
Slave mode
0
MASTER
Master mode
1
UC7BIT
Character length
12
1
read-write
8BIT
8-bit data
0
7BIT
7-bit data
1
UCMSB
MSB first select
13
1
read-write
UCMSB_0
LSB first
0
UCMSB_1
MSB first
1
UCCKPL
Clock polarity select
14
1
read-write
LOW
The inactive state is low
0
HIGH
The inactive state is high
1
UCCKPH
Clock phase select
15
1
read-write
UCCKPH_0
Data is changed on the first UCLK edge and captured on the following edge.
0
UCCKPH_1
Data is captured on the first UCLK edge and changed on the following edge.
1
UCB0CTLW1
eUSCI_Bx Control Word Register 1
2
16
65535
UCGLIT
Deglitch time
0
2
read-write
UCGLIT_0
50 ns
0
UCGLIT_1
25 ns
1
UCGLIT_2
12.5 ns
2
UCGLIT_3
6.25 ns
3
UCASTP
Automatic STOP condition generation
2
2
read-write
UCASTP_0
No automatic STOP generation. The STOP condition is generated after the user sets the UCTXSTP bit. The value in UCBxTBCNT is a don't care.
0
UCASTP_1
UCBCNTIFG is set with the byte counter reaches the threshold defined in UCBxTBCNT
1
UCASTP_2
A STOP condition is generated automatically after the byte counter value reached UCBxTBCNT. UCBCNTIFG is set with the byte counter reaching the threshold
2
UCASTP_3
Reserved
3
UCSWACK
SW or HW ACK control
4
1
read-write
UCSWACK_0
The address acknowledge of the slave is controlled by the eUSCI_B module
0
UCSWACK_1
The user needs to trigger the sending of the address ACK by issuing UCTXACK
1
UCSTPNACK
ACK all master bytes
5
1
read-write
UCSTPNACK_0
Send a non-acknowledge before the STOP condition as a master receiver (conform to I2C standard)
0
UCSTPNACK_1
All bytes are acknowledged by the eUSCI_B when configured as master receiver
1
UCCLTO
Clock low timeout select
6
2
read-write
UCCLTO_0
Disable clock low timeout counter
0
UCCLTO_1
135 000 SYSCLK cycles (approximately 28 ms)
1
UCCLTO_2
150 000 SYSCLK cycles (approximately 31 ms)
2
UCCLTO_3
165 000 SYSCLK cycles (approximately 34 ms)
3
UCETXINT
Early UCTXIFG0
8
1
read-write
UCETXINT_0
UCTXIFGx is set after an address match with UCxI2COAx and the direction bit indicating slave transmit
0
UCETXINT_1
UCTXIFG0 is set for each START condition
1
UCB0BRW
eUSCI_Bx Baud Rate Control Word Register
6
16
65535
UCB0BRW_SPI
eUSCI_Bx Bit Rate Control Register 1
UCB0BRW
6
16
65535
UCB0STATW
eUSCI_Bx Status Register
8
16
65535
UCBBUSY
Bus busy
4
1
read-only
IDLE
Bus inactive
0
BUSY
Bus busy
1
UCGC
General call address received
5
1
read-only
UCGC_0
No general call address received
0
UCGC_1
General call address received
1
UCSCLLOW
SCL low
6
1
read-only
UCSCLLOW_0
SCL is not held low
0
UCSCLLOW_1
SCL is held low
1
UCBCNT
Hardware byte counter value
8
8
read-only
UCB0STATW_SPI
UCB0STATW_SPI
UCB0STATW
8
16
65535
UCOE
Overrun error flag
5
1
read-write
UCOE_0
No error
0
UCOE_1
Overrun error occurred
1
UCFE
Framing error flag
6
1
read-write
UCFE_0
No error
0
UCFE_1
Bus conflict occurred
1
UCLISTEN
Listen enable
7
1
read-write
UCLISTEN_0
Disabled
0
UCLISTEN_1
Enabled. UCBxTXD is internally fed back to the receiver
1
UCB0TBCNT
eUSCI_Bx Byte Counter Threshold Register
10
16
65535
UCTBCNT
Byte counter threshold value
0
8
read-write
UCB0RXBUF
eUSCI_Bx Receive Buffer Register
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCB0RXBUF_SPI
eUSCI_Bx Receive Buffer Register
UCB0RXBUF
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCB0TXBUF
eUSCI_Bx Transmit Buffer Register
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCB0TXBUF_SPI
eUSCI_Bx Transmit Buffer Register
UCB0TXBUF
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCB0I2COA0
eUSCI_Bx I2C Own Address 0 Register
20
16
65535
I2COA0
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA0 is disabled
0
ENABLE
The slave address defined in I2COA0 is enabled
1
UCGCEN
General call response enable
15
1
read-write
UCGCEN_0
Do not respond to a general call
0
UCGCEN_1
Respond to a general call
1
UCB0I2COA1
eUSCI_Bx I2C Own Address 1 Register
22
16
65535
I2COA1
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA1 is disabled
0
ENABLE
The slave address defined in I2COA1 is enabled
1
UCB0I2COA2
eUSCI_Bx I2C Own Address 2 Register
24
16
65535
I2COA2
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA2 is disabled
0
ENABLE
The slave address defined in I2COA2 is enabled
1
UCB0I2COA3
eUSCI_Bx I2C Own Address 3 Register
26
16
65535
I2COA3
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA3 is disabled
0
ENABLE
The slave address defined in I2COA3 is enabled
1
UCB0ADDRX
eUSCI_Bx I2C Received Address Register
28
16
65535
ADDRX
Received Address Register
0
10
read-only
UCB0ADDMASK
eUSCI_Bx I2C Address Mask Register
30
16
65535
ADDMASK
Address Mask Register. By clearing the corresponding bit of the own address, this bit is a don't care when comparing the address on the bus to the own address. Using this method, it is possible to react on more than one slave address. When all bits of ADDMASKx are set, the address mask feature is deactivated. Modify only when UCSWRST = 1.
0
10
read-write
UCB0I2CSA
eUSCI_Bx I2C Slave Address Register
32
16
65535
I2CSA
I2C slave address
0
10
read-write
UCB0IE
eUSCI_Bx Interrupt Enable Register
42
16
65535
UCRXIE0
Receive interrupt enable 0
0
1
read-write
UCRXIE0_0
Interrupt disabled
0
UCRXIE0_1
Interrupt enabled
1
UCTXIE0
Transmit interrupt enable 0
1
1
read-write
UCTXIE0_0
Interrupt disabled
0
UCTXIE0_1
Interrupt enabled
1
UCSTTIE
START condition interrupt enable
2
1
read-write
UCSTTIE_0
Interrupt disabled
0
UCSTTIE_1
Interrupt enabled
1
UCSTPIE
STOP condition interrupt enable
3
1
read-write
UCSTPIE_0
Interrupt disabled
0
UCSTPIE_1
Interrupt enabled
1
UCALIE
Arbitration lost interrupt enable
4
1
read-write
UCALIE_0
Interrupt disabled
0
UCALIE_1
Interrupt enabled
1
UCNACKIE
Not-acknowledge interrupt enable
5
1
read-write
UCNACKIE_0
Interrupt disabled
0
UCNACKIE_1
Interrupt enabled
1
UCBCNTIE
Byte counter interrupt enable
6
1
read-write
UCBCNTIE_0
Interrupt disabled
0
UCBCNTIE_1
Interrupt enabled
1
UCCLTOIE
Clock low timeout interrupt enable
7
1
read-write
UCCLTOIE_0
Interrupt disabled
0
UCCLTOIE_1
Interrupt enabled
1
UCRXIE1
Receive interrupt enable 1
8
1
read-write
UCRXIE1_0
Interrupt disabled
0
UCRXIE1_1
Interrupt enabled
1
UCTXIE1
Transmit interrupt enable 1
9
1
read-write
UCTXIE1_0
Interrupt disabled
0
UCTXIE1_1
Interrupt enabled
1
UCRXIE2
Receive interrupt enable 2
10
1
read-write
UCRXIE2_0
Interrupt disabled
0
UCRXIE2_1
Interrupt enabled
1
UCTXIE2
Transmit interrupt enable 2
11
1
read-write
UCTXIE2_0
Interrupt disabled
0
UCTXIE2_1
Interrupt enabled
1
UCRXIE3
Receive interrupt enable 3
12
1
read-write
UCRXIE3_0
Interrupt disabled
0
UCRXIE3_1
Interrupt enabled
1
UCTXIE3
Transmit interrupt enable 3
13
1
read-write
UCTXIE3_0
Interrupt disabled
0
UCTXIE3_1
Interrupt enabled
1
UCBIT9IE
Bit position 9 interrupt enable
14
1
read-write
UCBIT9IE_0
Interrupt disabled
0
UCBIT9IE_1
Interrupt enabled
1
UCB0IE_SPI
eUSCI_Bx Interrupt Enable Register
UCB0IE
42
16
65535
UCRXIE
Receive interrupt enable
0
1
read-write
UCRXIE_0
Interrupt disabled
0
UCRXIE_1
Interrupt enabled
1
UCTXIE
Transmit interrupt enable
1
1
read-write
UCTXIE_0
Interrupt disabled
0
UCTXIE_1
Interrupt enabled
1
UCB0IFG
eUSCI_Bx Interrupt Flag Register
44
16
65535
UCRXIFG0
eUSCI_B receive interrupt flag 0
0
1
read-write
UCRXIFG0_0
No interrupt pending
0
UCRXIFG0_1
Interrupt pending
1
UCTXIFG0
eUSCI_B transmit interrupt flag 0
1
1
read-write
UCTXIFG0_0
No interrupt pending
0
UCTXIFG0_1
Interrupt pending
1
UCSTTIFG
START condition interrupt flag
2
1
read-write
UCSTTIFG_0
No interrupt pending
0
UCSTTIFG_1
Interrupt pending
1
UCSTPIFG
STOP condition interrupt flag
3
1
read-write
UCSTPIFG_0
No interrupt pending
0
UCSTPIFG_1
Interrupt pending
1
UCALIFG
Arbitration lost interrupt flag
4
1
read-write
UCALIFG_0
No interrupt pending
0
UCALIFG_1
Interrupt pending
1
UCNACKIFG
Not-acknowledge received interrupt flag
5
1
read-write
UCNACKIFG_0
No interrupt pending
0
UCNACKIFG_1
Interrupt pending
1
UCBCNTIFG
Byte counter interrupt flag
6
1
read-write
UCBCNTIFG_0
No interrupt pending
0
UCBCNTIFG_1
Interrupt pending
1
UCCLTOIFG
Clock low timeout interrupt flag
7
1
read-write
UCCLTOIFG_0
No interrupt pending
0
UCCLTOIFG_1
Interrupt pending
1
UCRXIFG1
eUSCI_B receive interrupt flag 1
8
1
read-write
UCRXIFG1_0
No interrupt pending
0
UCRXIFG1_1
Interrupt pending
1
UCTXIFG1
eUSCI_B transmit interrupt flag 1
9
1
read-write
UCTXIFG1_0
No interrupt pending
0
UCTXIFG1_1
Interrupt pending
1
UCRXIFG2
eUSCI_B receive interrupt flag 2
10
1
read-write
UCRXIFG2_0
No interrupt pending
0
UCRXIFG2_1
Interrupt pending
1
UCTXIFG2
eUSCI_B transmit interrupt flag 2
11
1
read-write
UCTXIFG2_0
No interrupt pending
0
UCTXIFG2_1
Interrupt pending
1
UCRXIFG3
eUSCI_B receive interrupt flag 3
12
1
read-write
UCRXIFG3_0
No interrupt pending
0
UCRXIFG3_1
Interrupt pending
1
UCTXIFG3
eUSCI_B transmit interrupt flag 3
13
1
read-write
UCTXIFG3_0
No interrupt pending
0
UCTXIFG3_1
Interrupt pending
1
UCBIT9IFG
Bit position 9 interrupt flag
14
1
read-write
UCBIT9IFG_0
No interrupt pending
0
UCBIT9IFG_1
Interrupt pending
1
UCB0IFG_SPI
eUSCI_Bx Interrupt Flag Register
UCB0IFG
44
16
65535
UCRXIFG
Receive interrupt flag
0
1
read-write
UCRXIFG_0
No interrupt pending
0
UCRXIFG_1
Interrupt pending
1
UCTXIFG
Transmit interrupt flag
1
1
read-write
UCTXIFG_0
No interrupt pending
0
UCTXIFG_1
Interrupt pending
1
UCB0IV
eUSCI_Bx Interrupt Vector Register
46
16
65535
UCIV
eUSCI_B interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCALIFG
Interrupt Source: Arbitration lost; Interrupt Flag: UCALIFG; Interrupt Priority: Highest
2
UCNACKIFG
Interrupt Source: Not acknowledgment; Interrupt Flag: UCNACKIFG
4
UCSTTIFG
Interrupt Source: Start condition received; Interrupt Flag: UCSTTIFG
6
UCSTPIFG
Interrupt Source: Stop condition received; Interrupt Flag: UCSTPIFG
8
UCRXIFG3
Interrupt Source: Slave 3 Data received; Interrupt Flag: UCRXIFG3
10
UCTXIFG3
Interrupt Source: Slave 3 Transmit buffer empty; Interrupt Flag: UCTXIFG3
12
UCRXIFG2
Interrupt Source: Slave 2 Data received; Interrupt Flag: UCRXIFG2
14
UCTXIFG2
Interrupt Source: Slave 2 Transmit buffer empty; Interrupt Flag: UCTXIFG2
16
UCRXIFG1
Interrupt Source: Slave 1 Data received; Interrupt Flag: UCRXIFG1
18
UCTXIFG1
Interrupt Source: Slave 1 Transmit buffer empty; Interrupt Flag: UCTXIFG1
20
UCRXIFG0
Interrupt Source: Data received; Interrupt Flag: UCRXIFG0
22
UCTXIFG0
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG0
24
UCBCNTIFG
Interrupt Source: Byte counter zero; Interrupt Flag: UCBCNTIFG
26
UCCLTOIFG
Interrupt Source: Clock low timeout; Interrupt Flag: UCCLTOIFG
28
UCBIT9IFG
Interrupt Source: Nineth bit position; Interrupt Flag: UCBIT9IFG; Priority: Lowest
30
UCB0IV_SPI
eUSCI_Bx Interrupt Vector Register
UCB0IV
46
16
65535
UCIV
eUSCI_B interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCRXIFG
Interrupt Source: Data received; Interrupt Flag: UCRXIFG; Interrupt Priority: Highest
2
UCTXIFG
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG; Interrupt Priority: Lowest
4
E_USCI_B1
eUSCI_B1
1408
UCB1CTLW0
eUSCI_Bx Control Word Register 0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_B reset released for operation
0
ENABLE
Enabled. eUSCI_B logic held in reset state
1
UCTXSTT
Transmit START condition in master mode
1
1
read-write
UCTXSTT_0
Do not generate START condition
0
UCTXSTT_1
Generate START condition
1
UCTXSTP
Transmit STOP condition in master mode
2
1
read-write
UCTXSTP_0
No STOP generated
0
UCTXSTP_1
Generate STOP
1
UCTXNACK
Transmit a NACK
3
1
read-write
UCTXNACK_0
Acknowledge normally
0
UCTXNACK_1
Generate NACK
1
UCTR
Transmitter/receiver
4
1
read-write
RX
Receiver
0
TX
Transmitter
1
UCTXACK
Transmit ACK condition in slave mode
5
1
read-write
UCTXACK_0
Do not acknowledge the slave address
0
UCTXACK_1
Acknowledge the slave address
1
UCSSEL
eUSCI_B clock source select
6
2
read-write
UCLKI
UCLKI
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI_B mode
9
2
read-write
UCMODE_0
3-pin SPI
0
UCMODE_1
4-pin SPI (master or slave enabled if STE = 1)
1
UCMODE_2
4-pin SPI (master or slave enabled if STE = 0)
2
UCMODE_3
I2C mode
3
UCMST
Master mode select
11
1
read-write
SLAVE
Slave mode
0
MASTER
Master mode
1
UCMM
Multi-master environment select
13
1
read-write
SINGLE
Single master environment. There is no other master in the system. The address compare unit is disabled.
0
MULTI
Multi-master environment
1
UCSLA10
Slave addressing mode select
14
1
read-write
7BIT
Address slave with 7-bit address
0
10BIT
Address slave with 10-bit address
1
UCA10
Own addressing mode select
15
1
read-write
UCA10_0
Own address is a 7-bit address
0
UCA10_1
Own address is a 10-bit address
1
UCB1CTLW0_SPI
eUSCI_Bx Control Word Register 0
UCB1CTLW0
0
16
65535
UCSWRST
Software reset enable
0
1
read-write
DISABLE
Disabled. eUSCI_B reset released for operation
0
ENABLE
Enabled. eUSCI_B logic held in reset state
1
UCSTEM
STE mode select in master mode.
1
1
read-write
UCSTEM_0
STE pin is used to prevent conflicts with other masters
0
UCSTEM_1
STE pin is used to generate the enable signal for a 4-wire slave
1
UCSSEL
eUSCI_B clock source select
6
2
read-write
UCSSEL_0
Reserved
0
ACLK
ACLK
1
SMCLK
SMCLK
2
UCSSEL_3
SMCLK
3
UCSYNC
Synchronous mode enable
8
1
read-write
ASYNC
Asynchronous mode
0
SYNC
Synchronous mode
1
UCMODE
eUSCI mode
9
2
read-write
UCMODE_0
3-pin SPI
0
UCMODE_1
4-pin SPI with UCxSTE active high: Slave enabled when UCxSTE = 1
1
UCMODE_2
4-pin SPI with UCxSTE active low: Slave enabled when UCxSTE = 0
2
UCMODE_3
I2C mode
3
UCMST
Master mode select
11
1
read-write
SLAVE
Slave mode
0
MASTER
Master mode
1
UC7BIT
Character length
12
1
read-write
8BIT
8-bit data
0
7BIT
7-bit data
1
UCMSB
MSB first select
13
1
read-write
UCMSB_0
LSB first
0
UCMSB_1
MSB first
1
UCCKPL
Clock polarity select
14
1
read-write
LOW
The inactive state is low
0
HIGH
The inactive state is high
1
UCCKPH
Clock phase select
15
1
read-write
UCCKPH_0
Data is changed on the first UCLK edge and captured on the following edge.
0
UCCKPH_1
Data is captured on the first UCLK edge and changed on the following edge.
1
UCB1CTLW1
eUSCI_Bx Control Word Register 1
2
16
65535
UCGLIT
Deglitch time
0
2
read-write
UCGLIT_0
50 ns
0
UCGLIT_1
25 ns
1
UCGLIT_2
12.5 ns
2
UCGLIT_3
6.25 ns
3
UCASTP
Automatic STOP condition generation
2
2
read-write
UCASTP_0
No automatic STOP generation. The STOP condition is generated after the user sets the UCTXSTP bit. The value in UCBxTBCNT is a don't care.
0
UCASTP_1
UCBCNTIFG is set with the byte counter reaches the threshold defined in UCBxTBCNT
1
UCASTP_2
A STOP condition is generated automatically after the byte counter value reached UCBxTBCNT. UCBCNTIFG is set with the byte counter reaching the threshold
2
UCASTP_3
Reserved
3
UCSWACK
SW or HW ACK control
4
1
read-write
UCSWACK_0
The address acknowledge of the slave is controlled by the eUSCI_B module
0
UCSWACK_1
The user needs to trigger the sending of the address ACK by issuing UCTXACK
1
UCSTPNACK
ACK all master bytes
5
1
read-write
UCSTPNACK_0
Send a non-acknowledge before the STOP condition as a master receiver (conform to I2C standard)
0
UCSTPNACK_1
All bytes are acknowledged by the eUSCI_B when configured as master receiver
1
UCCLTO
Clock low timeout select
6
2
read-write
UCCLTO_0
Disable clock low timeout counter
0
UCCLTO_1
135 000 SYSCLK cycles (approximately 28 ms)
1
UCCLTO_2
150 000 SYSCLK cycles (approximately 31 ms)
2
UCCLTO_3
165 000 SYSCLK cycles (approximately 34 ms)
3
UCETXINT
Early UCTXIFG0
8
1
read-write
UCETXINT_0
UCTXIFGx is set after an address match with UCxI2COAx and the direction bit indicating slave transmit
0
UCETXINT_1
UCTXIFG0 is set for each START condition
1
UCB1BRW
eUSCI_Bx Baud Rate Control Word Register
6
16
65535
UCB1BRW_SPI
eUSCI_Bx Bit Rate Control Register 1
UCB1BRW
6
16
65535
UCB1STATW
eUSCI_Bx Status Register
8
16
65535
UCBBUSY
Bus busy
4
1
read-only
IDLE
Bus inactive
0
BUSY
Bus busy
1
UCGC
General call address received
5
1
read-only
UCGC_0
No general call address received
0
UCGC_1
General call address received
1
UCSCLLOW
SCL low
6
1
read-only
UCSCLLOW_0
SCL is not held low
0
UCSCLLOW_1
SCL is held low
1
UCBCNT
Hardware byte counter value
8
8
read-only
UCB1STATW_SPI
UCB1STATW_SPI
UCB1STATW
8
16
65535
UCOE
Overrun error flag
5
1
read-write
UCOE_0
No error
0
UCOE_1
Overrun error occurred
1
UCFE
Framing error flag
6
1
read-write
UCFE_0
No error
0
UCFE_1
Bus conflict occurred
1
UCLISTEN
Listen enable
7
1
read-write
UCLISTEN_0
Disabled
0
UCLISTEN_1
Enabled. UCBxTXD is internally fed back to the receiver
1
UCB1TBCNT
eUSCI_Bx Byte Counter Threshold Register
10
16
65535
UCTBCNT
Byte counter threshold value
0
8
read-write
UCB1RXBUF
eUSCI_Bx Receive Buffer Register
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCB1RXBUF_SPI
eUSCI_Bx Receive Buffer Register
UCB1RXBUF
12
16
65535
UCRXBUF
Receive data buffer
0
8
read-only
UCB1TXBUF
eUSCI_Bx Transmit Buffer Register
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCB1TXBUF_SPI
eUSCI_Bx Transmit Buffer Register
UCB1TXBUF
14
16
65535
UCTXBUF
Transmit data buffer
0
8
read-write
UCB1I2COA0
eUSCI_Bx I2C Own Address 0 Register
20
16
65535
I2COA0
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA0 is disabled
0
ENABLE
The slave address defined in I2COA0 is enabled
1
UCGCEN
General call response enable
15
1
read-write
UCGCEN_0
Do not respond to a general call
0
UCGCEN_1
Respond to a general call
1
UCB1I2COA1
eUSCI_Bx I2C Own Address 1 Register
22
16
65535
I2COA1
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA1 is disabled
0
ENABLE
The slave address defined in I2COA1 is enabled
1
UCB1I2COA2
eUSCI_Bx I2C Own Address 2 Register
24
16
65535
I2COA2
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA2 is disabled
0
ENABLE
The slave address defined in I2COA2 is enabled
1
UCB1I2COA3
eUSCI_Bx I2C Own Address 3 Register
26
16
65535
I2COA3
I2C own address
0
10
read-write
UCOAEN
Own Address enable register
10
1
read-write
DISABLE
The slave address defined in I2COA3 is disabled
0
ENABLE
The slave address defined in I2COA3 is enabled
1
UCB1ADDRX
eUSCI_Bx I2C Received Address Register
28
16
65535
ADDRX
Received Address Register
0
10
read-only
UCB1ADDMASK
eUSCI_Bx I2C Address Mask Register
30
16
65535
ADDMASK
Address Mask Register. By clearing the corresponding bit of the own address, this bit is a don't care when comparing the address on the bus to the own address. Using this method, it is possible to react on more than one slave address. When all bits of ADDMASKx are set, the address mask feature is deactivated. Modify only when UCSWRST = 1.
0
10
read-write
UCB1I2CSA
eUSCI_Bx I2C Slave Address Register
32
16
65535
I2CSA
I2C slave address
0
10
read-write
UCB1IE
eUSCI_Bx Interrupt Enable Register
42
16
65535
UCRXIE0
Receive interrupt enable 0
0
1
read-write
UCRXIE0_0
Interrupt disabled
0
UCRXIE0_1
Interrupt enabled
1
UCTXIE0
Transmit interrupt enable 0
1
1
read-write
UCTXIE0_0
Interrupt disabled
0
UCTXIE0_1
Interrupt enabled
1
UCSTTIE
START condition interrupt enable
2
1
read-write
UCSTTIE_0
Interrupt disabled
0
UCSTTIE_1
Interrupt enabled
1
UCSTPIE
STOP condition interrupt enable
3
1
read-write
UCSTPIE_0
Interrupt disabled
0
UCSTPIE_1
Interrupt enabled
1
UCALIE
Arbitration lost interrupt enable
4
1
read-write
UCALIE_0
Interrupt disabled
0
UCALIE_1
Interrupt enabled
1
UCNACKIE
Not-acknowledge interrupt enable
5
1
read-write
UCNACKIE_0
Interrupt disabled
0
UCNACKIE_1
Interrupt enabled
1
UCBCNTIE
Byte counter interrupt enable
6
1
read-write
UCBCNTIE_0
Interrupt disabled
0
UCBCNTIE_1
Interrupt enabled
1
UCCLTOIE
Clock low timeout interrupt enable
7
1
read-write
UCCLTOIE_0
Interrupt disabled
0
UCCLTOIE_1
Interrupt enabled
1
UCRXIE1
Receive interrupt enable 1
8
1
read-write
UCRXIE1_0
Interrupt disabled
0
UCRXIE1_1
Interrupt enabled
1
UCTXIE1
Transmit interrupt enable 1
9
1
read-write
UCTXIE1_0
Interrupt disabled
0
UCTXIE1_1
Interrupt enabled
1
UCRXIE2
Receive interrupt enable 2
10
1
read-write
UCRXIE2_0
Interrupt disabled
0
UCRXIE2_1
Interrupt enabled
1
UCTXIE2
Transmit interrupt enable 2
11
1
read-write
UCTXIE2_0
Interrupt disabled
0
UCTXIE2_1
Interrupt enabled
1
UCRXIE3
Receive interrupt enable 3
12
1
read-write
UCRXIE3_0
Interrupt disabled
0
UCRXIE3_1
Interrupt enabled
1
UCTXIE3
Transmit interrupt enable 3
13
1
read-write
UCTXIE3_0
Interrupt disabled
0
UCTXIE3_1
Interrupt enabled
1
UCBIT9IE
Bit position 9 interrupt enable
14
1
read-write
UCBIT9IE_0
Interrupt disabled
0
UCBIT9IE_1
Interrupt enabled
1
UCB1IE_SPI
eUSCI_Bx Interrupt Enable Register
UCB1IE
42
16
65535
UCRXIE
Receive interrupt enable
0
1
read-write
UCRXIE_0
Interrupt disabled
0
UCRXIE_1
Interrupt enabled
1
UCTXIE
Transmit interrupt enable
1
1
read-write
UCTXIE_0
Interrupt disabled
0
UCTXIE_1
Interrupt enabled
1
UCB1IFG
eUSCI_Bx Interrupt Flag Register
44
16
65535
UCRXIFG0
eUSCI_B receive interrupt flag 0
0
1
read-write
UCRXIFG0_0
No interrupt pending
0
UCRXIFG0_1
Interrupt pending
1
UCTXIFG0
eUSCI_B transmit interrupt flag 0
1
1
read-write
UCTXIFG0_0
No interrupt pending
0
UCTXIFG0_1
Interrupt pending
1
UCSTTIFG
START condition interrupt flag
2
1
read-write
UCSTTIFG_0
No interrupt pending
0
UCSTTIFG_1
Interrupt pending
1
UCSTPIFG
STOP condition interrupt flag
3
1
read-write
UCSTPIFG_0
No interrupt pending
0
UCSTPIFG_1
Interrupt pending
1
UCALIFG
Arbitration lost interrupt flag
4
1
read-write
UCALIFG_0
No interrupt pending
0
UCALIFG_1
Interrupt pending
1
UCNACKIFG
Not-acknowledge received interrupt flag
5
1
read-write
UCNACKIFG_0
No interrupt pending
0
UCNACKIFG_1
Interrupt pending
1
UCBCNTIFG
Byte counter interrupt flag
6
1
read-write
UCBCNTIFG_0
No interrupt pending
0
UCBCNTIFG_1
Interrupt pending
1
UCCLTOIFG
Clock low timeout interrupt flag
7
1
read-write
UCCLTOIFG_0
No interrupt pending
0
UCCLTOIFG_1
Interrupt pending
1
UCRXIFG1
eUSCI_B receive interrupt flag 1
8
1
read-write
UCRXIFG1_0
No interrupt pending
0
UCRXIFG1_1
Interrupt pending
1
UCTXIFG1
eUSCI_B transmit interrupt flag 1
9
1
read-write
UCTXIFG1_0
No interrupt pending
0
UCTXIFG1_1
Interrupt pending
1
UCRXIFG2
eUSCI_B receive interrupt flag 2
10
1
read-write
UCRXIFG2_0
No interrupt pending
0
UCRXIFG2_1
Interrupt pending
1
UCTXIFG2
eUSCI_B transmit interrupt flag 2
11
1
read-write
UCTXIFG2_0
No interrupt pending
0
UCTXIFG2_1
Interrupt pending
1
UCRXIFG3
eUSCI_B receive interrupt flag 3
12
1
read-write
UCRXIFG3_0
No interrupt pending
0
UCRXIFG3_1
Interrupt pending
1
UCTXIFG3
eUSCI_B transmit interrupt flag 3
13
1
read-write
UCTXIFG3_0
No interrupt pending
0
UCTXIFG3_1
Interrupt pending
1
UCBIT9IFG
Bit position 9 interrupt flag
14
1
read-write
UCBIT9IFG_0
No interrupt pending
0
UCBIT9IFG_1
Interrupt pending
1
UCB1IFG_SPI
eUSCI_Bx Interrupt Flag Register
UCB1IFG
44
16
65535
UCRXIFG
Receive interrupt flag
0
1
read-write
UCRXIFG_0
No interrupt pending
0
UCRXIFG_1
Interrupt pending
1
UCTXIFG
Transmit interrupt flag
1
1
read-write
UCTXIFG_0
No interrupt pending
0
UCTXIFG_1
Interrupt pending
1
UCB1IV
eUSCI_Bx Interrupt Vector Register
46
16
65535
UCIV
eUSCI_B interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCALIFG
Interrupt Source: Arbitration lost; Interrupt Flag: UCALIFG; Interrupt Priority: Highest
2
UCNACKIFG
Interrupt Source: Not acknowledgment; Interrupt Flag: UCNACKIFG
4
UCSTTIFG
Interrupt Source: Start condition received; Interrupt Flag: UCSTTIFG
6
UCSTPIFG
Interrupt Source: Stop condition received; Interrupt Flag: UCSTPIFG
8
UCRXIFG3
Interrupt Source: Slave 3 Data received; Interrupt Flag: UCRXIFG3
10
UCTXIFG3
Interrupt Source: Slave 3 Transmit buffer empty; Interrupt Flag: UCTXIFG3
12
UCRXIFG2
Interrupt Source: Slave 2 Data received; Interrupt Flag: UCRXIFG2
14
UCTXIFG2
Interrupt Source: Slave 2 Transmit buffer empty; Interrupt Flag: UCTXIFG2
16
UCRXIFG1
Interrupt Source: Slave 1 Data received; Interrupt Flag: UCRXIFG1
18
UCTXIFG1
Interrupt Source: Slave 1 Transmit buffer empty; Interrupt Flag: UCTXIFG1
20
UCRXIFG0
Interrupt Source: Data received; Interrupt Flag: UCRXIFG0
22
UCTXIFG0
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG0
24
UCBCNTIFG
Interrupt Source: Byte counter zero; Interrupt Flag: UCBCNTIFG
26
UCCLTOIFG
Interrupt Source: Clock low timeout; Interrupt Flag: UCCLTOIFG
28
UCBIT9IFG
Interrupt Source: Nineth bit position; Interrupt Flag: UCBIT9IFG; Priority: Lowest
30
UCB1IV_SPI
eUSCI_Bx Interrupt Vector Register
UCB1IV
46
16
65535
UCIV
eUSCI_B interrupt vector value
0
16
read-only
NONE
No interrupt pending
0
UCRXIFG
Interrupt Source: Data received; Interrupt Flag: UCRXIFG; Interrupt Priority: Highest
2
UCTXIFG
Interrupt Source: Transmit buffer empty; Interrupt Flag: UCTXIFG; Interrupt Priority: Lowest
4
BKMEM
BKMEM
1632
BAKMEM0
Backup Memory registers. Backup Memory 0.
0
16
65535
BAKMEM1
Backup Memory 1.
2
16
65535
BAKMEM2
Backup Memory 2.
4
16
65535
BAKMEM3
Backup Memory 3.
6
16
65535
BAKMEM4
Backup Memory 4.
8
16
65535
BAKMEM5
Backup Memory 5.
10
16
65535
BAKMEM6
Backup Memory 6.
12
16
65535
BAKMEM7
Backup Memory 7.
14
16
65535
BAKMEM8
Backup Memory 8.
16
16
65535
BAKMEM9
Backup Memory 9.
18
16
65535
BAKMEM10
Backup Memory registers. Backup Memory 10.
20
16
65535
BAKMEM11
Backup Memory 11.
22
16
65535
BAKMEM12
Backup Memory 12.
24
16
65535
BAKMEM13
Backup Memory 13.
26
16
65535
BAKMEM14
Backup Memory 14.
28
16
65535
BAKMEM15
Backup Memory 15.
30
16
65535
ADC
ADC
1792
ADCCTL0
ADC Control 0
0
16
65535
ADCSC
start conversion
0
1
read-write
ADCSC_0
No sample-and-conversion-start
0
ADCSC_1
Start sample-and-conversion
1
ADCENC
enable conversion
1
1
read-write
ADCENC_0
ADC disabled
0
ADCENC_1
ADC enabled
1
ADCON
ADC on
4
1
read-write
ADCON_0
ADC off
0
ADCON_1
ADC on
1
ADCMSC
sample-and-hold time.
7
1
read-write
ADCMSC_0
The sampling timer requires a rising edge of the SHI signal to trigger each sample-and-convert.
0
ADCMSC_1
The incidence of a positive(or for devices first rising edge of the) SHI signal triggers the sampling timer, but further sample-and-conversions are performed automatically as soon as the prior conversion is completed.
1
ADCSHT
sample-and-hold time.
8
4
read-write
ADCSHT_0
4 ADCCLK cycles
0
ADCSHT_1
8 ADCCLK cycles
1
ADCSHT_2
16 ADCCLK cycles
2
ADCSHT_3
32 ADCCLK cycles
3
ADCSHT_4
64 ADCCLK cycles
4
ADCSHT_5
96 ADCCLK cycles
5
ADCSHT_6
128 ADCCLK cycles
6
ADCSHT_7
192 ADCCLK cycles
7
ADCSHT_8
256 ADCCLK cycles
8
ADCSHT_9
384 ADCCLK cycles
9
ADCSHT_10
512 ADCCLK cycles
10
ADCSHT_11
768 ADCCLK cycles
11
ADCSHT_12
1024 ADCCLK cycles
12
ADCSHT_13
1024 ADCCLK cycles
13
ADCSHT_14
1024 ADCCLK cycles
14
ADCSHT_15
1024 ADCCLK cycles
15
ADCCTL1
ADC Control 1
2
16
65535
ADCBUSY
ADC busy
0
1
read-only
ADCBUSY_0
No operation is active.
0
ADCBUSY_1
A sequence, sample, or conversion is active.
1
ADCCONSEQ
conversion sequence mode select
1
2
read-write
ADCCONSEQ_0
Single-channel, single-conversion
0
ADCCONSEQ_1
Sequence-of-channels
1
ADCCONSEQ_2
Repeat-single-channel
2
ADCCONSEQ_3
Repeat-sequence-of-channels
3
ADCSSEL
clock source select
3
2
read-write
ADCSSEL_0
ADCOSC (MODOSC)
0
ADCSSEL_1
ACLK
1
ADCSSEL_2
MCLK
2
ADCSSEL_3
SMCLK
3
ADCDIV
clock divider
5
3
read-write
ADCDIV_0
/1
0
ADCDIV_1
/2
1
ADCDIV_2
/3
2
ADCDIV_3
/4
3
ADCDIV_4
/5
4
ADCDIV_5
/6
5
ADCDIV_6
/7
6
ADCDIV_7
/8
7
ADCISSH
invert signal sample-and-hold
8
1
read-write
ADCISSH_0
The sample-input signal is not inverted.
0
ADCISSH_1
The sample-input signal is inverted.
1
ADCSHP
sample-and-hold pulse-mode select
9
1
read-write
ADCSHP_0
SAMPCON signal is sourced from the sample-input signal.
0
ADCSHP_1
SAMPCON signal is sourced from the sampling timer.
1
ADCSHS
sample-and-hold source select
10
2
read-write
ADCSHS_0
ADCSC bit
0
ADCSHS_1
see the device-specific data sheet for source
1
ADCSHS_2
see the device-specific data sheet for source
2
ADCSHS_3
see the device-specific data sheet for source
3
ADCCTL2
ADC Control 2
4
16
65535
ADCDF
data read-back format
3
1
read-write
ADCDF_0
Binary unsigned. Theoretically the analog input voltage V(REF) results in 0000h, the analog input voltage +V(REF) results in 03FFh.
0
ADCDF_1
Signed binary (2s complement), left aligned. Theoretically the analog input voltage V(REF) results in 8000h, the analog input voltage +V(REF) results in 7FC0h.
1
ADCRES
resolution
4
2
read-write
ADCRES_0
8 bit
0
ADCRES_1
10 bit
1
ADCRES_2
12 bit
2
ADCRES_3
Reserved
3
ADCSR
ADC sampling rate.
2
1
read-write
ADCPDIV
ADC predivider. This bit predivides the selected ADC clock source before it gets divided again using ADCDIVx.
8
2
read-write
1
Predivide by 1
0
4
Predivide by 4
1
64
Predivide by 64
2
ADCPDIV_3
Reserved
3
ADCLO
ADC Window Comparator Low Threshold Register
6
16
65535
ADCHI
ADC Window Comparator High Threshold Register
8
16
65535
ADCMCTL0
ADC Conversion Memory Control Register
10
16
65535
ADCINCH
Input channel select
0
4
read-write
ADCINCH_0
A0 - see device-specific data sheet
0
ADCINCH_1
A1 - see device-specific data sheet
1
ADCINCH_2
A2 - see device-specific data sheet
2
ADCINCH_3
A3 - see device-specific data sheet
3
ADCINCH_4
A4 - see device-specific data sheet
4
ADCINCH_5
A5 - see device-specific data sheet
5
ADCINCH_6
A2 - see device-specific data sheet
6
ADCINCH_7
A7 - see device-specific data sheet
7
ADCINCH_8
A8 - see device-specific data sheet
8
ADCINCH_9
A9 - see device-specific data sheet
9
ADCINCH_10
A10 - see device-specific data sheet
10
ADCINCH_11
A11 - see device-specific data sheet
11
ADCINCH_12
A12 - see device-specific data sheet
12
ADCINCH_13
A13 - see device-specific data sheet
13
ADCINCH_14
A14 - see device-specific data sheet
14
ADCINCH_15
A15 - see device-specific data sheet
15
ADCSREF
Select reference. It is not recommended to change this setting while a conversion is ongoing. Can be modified only when ADCENC = 0. Resetting ADCENC = 0 by software and changing these fields immediately shows an effect when a conversion is active.
4
3
read-write
ADCSREF_0
000b = V(R+) = AVCC and V(R-) = AVSS
0
ADCSREF_1
001b = V(R+) = VREF and V(R-) = AVSS
1
ADCSREF_2
010b = V(R+) = VEREF+ buffered and V(R-) = AVSS
2
ADCSREF_3
011b =V(R+) = VEREF+ and V(R-) = AVSS
3
ADCSREF_4
100b = V(R+) = AVCC and V(R-) = VEREF-
4
ADCSREF_5
101b = V(R+) = VREF and V(R-) = VEREF-
5
ADCSREF_6
110b = V(R+) = VEREF+ buffered and V(R-) = VEREF-
6
ADCSREF_7
111b = V(R+) = VEREF+ and V(R-) = VEREF-
7
EXPCHEN
ADC input channels expanded
8
1
read-write
EXPCHEN_0
ADC channel expanded disable
0
EXPCHEN_1
ADC channel expanded enable
1
ADCMEM0
ADC Conversion Memory Register
18
16
65535
ADCIE
ADC Interrupt Enable 0
26
16
65535
ADCIE0
Interrupt enable. This bits enable or disable the interrupt request for a completed ADC conversion.
0
1
read-write
ADCIE0_0
0b = Interrupt disabled
0
ADCIE0_1
1b = Interrupt enabled
1
ADCINIE
Interrupt enable for the inside of window interrupt of the window comparator.
1
1
read-write
ADCINIE_0
0b = Inside of window interrupt disabled
0
ADCINIE_1
1b = Inside of window interrupt enabled
1
ADCLOIE
Interrupt enable for the below lower threshold interrupt of the window comparator.
2
1
read-write
ADCLOIE_0
0b = Below lower threshold interrupt disabled
0
ADCLOIE_1
1b = Below lower threshold interrupt enabled
1
ADCHIIE
Interrupt enable for the above upper threshold interrupt of the window comparator.
3
1
read-write
ADCHIIE_0
0b = Above upper threshold interrupt disabled
0
ADCHIIE_1
1b = Above upper threshold interrupt enabled
1
ADCOVIE
ADCMEM0 overflow interrupt enable.
4
1
read-write
ADCOVIE_0
0b = Overflow interrupt disabled
0
ADCOVIE_1
1b = Overflow interrupt enabled
1
ADCTOVIE
ADC conversion-time-overflow interrupt enable.
5
1
read-write
ADCTOVIE_0
0b = Conversion time overflow interrupt disabled
0
ADCTOVIE_1
1b = Conversion time overflow interrupt enabled
1
ADCIFG
ADC Interrupt Flag
28
16
65535
ADCIFG0
ADCMEM0 interrupt flag
0
1
read-write
ADCIFG0_0
No interrupt pending
0
ADCIFG0_1
Interrupt pending
1
ADCINIFG
The ADCINIFG is set when the result of the current ADC conversion is within the thresholds defined by the window comparator threshold registers.
1
1
read-write
ADCINIFG_0
No interrupt pending
0
ADCINIFG_1
Interrupt pending
1
ADCLOIFG
The ADCLOIFG is set when the result of the current ADC conversion is below the lower threshold defined by the window comparator lower threshold register.
2
1
read-write
ADCLOIFG_0
No interrupt pending
0
ADCLOIFG_1
Interrupt pending
1
ADCHIIFG
The ADCHIIFG is set when the result of the current ADC conversion is greater than the upper threshold defined by the window comparator upper threshold register.
3
1
read-write
ADCHIIFG_0
No interrupt pending
0
ADCHIIFG_1
Interrupt pending
1
ADCOVIFG
The ADCOVIFG is set when the ADCMEM0 register is written before the last conversion result has been read.
4
1
read-write
ADCOVIFG_0
No interrupt pending
0
ADCOVIFG_1
Interrupt pending
1
ADCTOVIFG
The ADCTOVIFG is set when an ADC conversion is triggered before the actual conversion has completed.
5
1
read-write
ADCOVIFG_0
No interrupt pending
0
ADCTOVIFG_1
Interrupt pending
1
ADCIV
ADC Interrupt Vector
30
16
65535
ADCIV
interrupt vector value
0
16
read-write
NONE
No interrupt pending
0
ADCOVIFG
Interrupt Source: ADCMEM0 overflow; Interrupt Flag: ADCOVIFG; Interrupt Priority: Highest
2
ADCTOVIFG
Interrupt Source: Conversion time overflow; Interrupt Flag: ADCTOVIFG
4
ADCHIIFG
Interrupt Source: ADCHI Interrupt flag; Interrupt Flag: ADCHIIFG
6
ADCLOIFG
Interrupt Source: ADCLO Interrupt flag; Interrupt Flag: ADCLOIFG
8
ADCINIFG
nterrupt Source: ADCIN Interrupt flag; Interrupt Flag: ADCINIFG
10
ADCIFG0
Interrupt Source: ADC memory Interrupt flag; Interrupt Flag: ADCIFG0; Interrupt Priority: Lowest
12
E_COMP0
eCOMP0
2272
CP0CTL0
Comparator Control Register 0
0
16
65535
CPPEN
Channel input enable for the V+ terminal
4
1
read-write
CPPEN_0
Selected analog input channel for V+ terminal is disabled.
0
CPPEN_1
Selected analog input channel for V+ terminal is enabled.
1
CPNSEL
Channel input selected for the - terminal
8
3
read-write
CPNSEL_0
select external input source
0
CPNSEL_1
select external input source
1
CPNSEL_2
select external input source
2
CPNSEL_3
select external input source
3
CPNSEL_4
device specific, please refer to device data sheet for details
4
CPNSEL_5
device specific, please refer to device data sheet for details
5
CPNSEL_6
6-bit DAC
6
CPNSEL_7
Reserved
7
CPNEN
Channel input enable for the - terminal
12
1
read-write
CPNEN_0
Selected analog input channel for V- terminal is disabled.
0
CPNEN_1
Selected analog input channel for V- terminal is enabled.
1
CPPSEL
Channel input selected for the V+ terminal
0
3
read-write
CPPSEL_0
select external input source
0
CPPSEL_1
select external input source
1
CPPSEL_2
select external input source
2
CPPSEL_3
select external input source
3
CPPSEL_4
device specific, please refer to device data sheet for details
4
CPPSEL_5
device specific, please refer to device data sheet for details
5
CPPSEL_6
6-bit DAC
6
CPPSEL_7
Reserved
7
CP0CTL1
Comparator Control Register 1
2
16
65535
CPOUT
Comparator output value
0
1
read-only
CPINV
Comparator output polarity
1
1
read-write
CPINV_0
Comparator output is non-inverted
0
CPINV_1
Comparator output is inverted
1
CPIES
Interrupt edge select for CEIIFG and CEIFG
4
1
read-write
CPIES_0
Rising edge for CPIFG, falling edge for CPIIFG
0
CPIES_1
Falling edge for CPIFG, rising edge for CPIIFG
1
CPFLT
Analog Output Low Pass filter Selection. Changing CPFLT might set interrupt flag.
5
1
read-write
CPFLT_0
Comparator output is not filtered
0
CPFLT_1
Comparator output is filtered
1
CPFLTDLY
Analog Filter Delay selection. These bits are used to select the analog filter delay
6
2
read-write
CPFLTDLY_0
Typical filter delay of 450ns
0
CPFLTDLY_1
Typical filter delay of 900ns
1
CPFLTDLY_2
Typical filter delay of 1800ns
2
CPFLTDLY_3
Typical filter delay of 3600ns
3
CPMSEL
Power mode selection.
8
1
read-write
CPMSEL_0
High-power & High speed mode (500nA)
0
CPMSEL_1
Low-power & Low speed mode (10nA)
1
CPEN
Comparator enable/disable. This bit is used to disable/enable the comparator. When the comparator is disabled, the Comparator consumes no power.
9
1
read-write
CPEN_0
Comparator is disabled
0
CPEN_1
Comparator is enabled
1
CPHSEL
Programable Hysteresis mode. These bits are used to select the Hysteresis mode.
10
2
read-write
CPHSEL_0
disable
0
CPHSEL_1
10mV
1
CPHSEL_2
20mV
2
CPHSEL_3
30mV
3
CPIE
Comparator interrupt output enable bit
14
1
read-write
CPIE_0
Interrupt output is disabled
0
CPIE_1
Interrupt output is enabled
1
CPIIE
Comparator inverted interrupt output enable bit
15
1
read-write
CPIIE_0
Interrupt inverted output is disabled
0
CPIIE_1
Interrupt inverted output is enabled
1
CP0INT
Comparator Interrupt Control Register
6
16
65535
CPIFG
Comparator output interrupt flag
0
1
read-write
CPIFG_0
No interrupt pending.
0
CPIFG_1
Output interrupt pending.
1
CPIIFG
Comparator output inverted interrupt flag
1
1
read-write
CPIIFG_0
No interrupt pending.
0
CPIIFG_1
Output interrupt pending.
1
CP0IV
Comparator Interrupt Vector Word Register
8
16
65535
CPIV
Comparator interrupt vector word register
0
16
read-only
NONE
No interrupt pending
0
CPIFG
CPIFG
2
CPIIFG
CPIIFG
4
CP0DACCTL
6-bit Comparator built-in DAC Control Register
16
16
65535
CPDACSW
This bit is only valid when CPDACBUFS is set to 1.
0
1
read-write
CPDACSW_0
CPDACBUF1 selected
0
CPDACSW_1
CPDACBUF2 selected
1
CPDACBUFS
Comparator built-in DAC buffer controlled source selection.
1
1
read-write
CPDACBUFS_0
Comparator output is selected as the buffer control source
0
CPDACBUFS_1
CPDACSW bit is selected as the buffer control source
1
CPDACREFS
Comparator built-in DAC reference voltage selection
2
1
read-write
CPDACREFS_0
VDD selected
0
CPDACREFS_1
on-chip VREF selected
1
CPDACEN
Comparator built-in DAC output control bit.
7
1
read-write
CPDACEN_0
DAC output is disabled.
0
CPDACEN_1
DAC output is enabled.
1
CP0DACDATA
6-bit Comparator built-in DAC Data Register
18
16
65535
CPDACBUF1
1st 6-bit DAC buffer Data
0
6
read-write
CPDACBUF1_0
0v
0
CPDACBUF1_1
selected reference voltage * 1/64
1
CPDACBUF1_2
selected reference voltage * 2/64
2
CPDACBUF1_3
selected reference voltage * 3/64
3
CPDACBUF1_4
selected reference voltage * 4/64
4
CPDACBUF1_5
selected reference voltage * 5/64
5
CPDACBUF1_6
selected reference voltage * 6/64
6
CPDACBUF1_7
selected reference voltage * 7/64
7
CPDACBUF1_8
selected reference voltage * 8/64
8
CPDACBUF1_9
selected reference voltage *9/64
9
CPDACBUF1_10
selected reference voltage * 10/64
10
CPDACBUF1_11
selected reference voltage * 11/64
11
CPDACBUF1_12
selected reference voltage * 12/64
12
CPDACBUF1_13
selected reference voltage * 13/64
13
CPDACBUF1_14
selected reference voltage * 14/64
14
CPDACBUF1_15
selected reference voltage * 15/64
15
CPDACBUF1_16
selected reference voltage * 16/64
16
CPDACBUF1_17
selected reference voltage * 17/64
17
CPDACBUF1_18
selected reference voltage * 18/64
18
CPDACBUF1_19
selected reference voltage * 19/64
19
CPDACBUF1_20
selected reference voltage * 20/64
20
CPDACBUF1_21
selected reference voltage * 21/64
21
CPDACBUF1_22
selected reference voltage * 22/64
22
CPDACBUF1_23
selected reference voltage * 23/64
23
CPDACBUF1_24
selected reference voltage * 24/64
24
CPDACBUF1_25
selected reference voltage * 25/64
25
CPDACBUF1_26
selected reference voltage * 26/64
26
CPDACBUF1_27
selected reference voltage * 27/64
27
CPDACBUF1_28
selected reference voltage * 28/64
28
CPDACBUF1_29
selected reference voltage * 29/64
29
CPDACBUF1_30
selected reference voltage * 30/64
30
CPDACBUF1_31
selected reference voltage * 31/64
31
CPDACBUF1_32
selected reference voltage * 32/64
32
CPDACBUF1_33
selected reference voltage * 33/64
33
CPDACBUF1_34
selected reference voltage * 34/64
34
CPDACBUF1_35
selected reference voltage * 35/64
35
CPDACBUF1_36
selected reference voltage * 36/64
36
CPDACBUF1_37
selected reference voltage * 37/64
37
CPDACBUF1_38
selected reference voltage * 38/64
38
CPDACBUF1_39
selected reference voltage * 39/64
39
CPDACBUF1_40
selected reference voltage * 40/64
40
CPDACBUF1_41
selected reference voltage * 41/64
41
CPDACBUF1_42
selected reference voltage * 42/64
42
CPDACBUF1_43
selected reference voltage * 43/64
43
CPDACBUF1_44
selected reference voltage * 44/64
44
CPDACBUF1_45
selected reference voltage * 45/64
45
CPDACBUF1_46
selected reference voltage * 46/64
46
CPDACBUF1_47
selected reference voltage * 47/64
47
CPDACBUF1_48
selected reference voltage * 48/64
48
CPDACBUF1_49
selected reference voltage * 49/64
49
CPDACBUF1_50
selected reference voltage * 50/64
50
CPDACBUF1_51
selected reference voltage * 51/64
51
CPDACBUF1_52
selected reference voltage * 52/64
52
CPDACBUF1_53
selected reference voltage * 53/64
53
CPDACBUF1_54
selected reference voltage * 54/64
54
CPDACBUF1_55
selected reference voltage * 55/64
55
CPDACBUF1_56
selected reference voltage * 56/64
56
CPDACBUF1_57
selected reference voltage * 57/64
57
CPDACBUF1_58
selected reference voltage * 58/64
58
CPDACBUF1_59
selected reference voltage * 59/64
59
CPDACBUF1_60
selected reference voltage * 60/64
60
CPDACBUF1_61
selected reference voltage * 61/64
61
CPDACBUF1_62
selected reference voltage * 62/64
62
CPDACBUF1_63
selected reference voltage * 63/64
63
CPDACBUF2
2nd 6-bit DAC buffer Data
8
6
read-write
CPDACBUF2_0
0v
0
CPDACBUF2_1
selected reference voltage * 1/64
1
CPDACBUF2_2
selected reference voltage * 2/64
2
CPDACBUF2_3
selected reference voltage * 3/64
3
CPDACBUF2_4
selected reference voltage * 4/64
4
CPDACBUF2_5
selected reference voltage * 5/64
5
CPDACBUF2_6
selected reference voltage * 6/64
6
CPDACBUF2_7
selected reference voltage * 7/64
7
CPDACBUF2_8
selected reference voltage * 8/64
8
CPDACBUF2_9
selected reference voltage * 9/64
9
CPDACBUF2_10
selected reference voltage * 10/64
10
CPDACBUF2_11
selected reference voltage * 11/64
11
CPDACBUF2_12
selected reference voltage * 12/64
12
CPDACBUF2_13
selected reference voltage * 13/64
13
CPDACBUF2_14
selected reference voltage * 14/64
14
CPDACBUF2_15
selected reference voltage * 15/64
15
CPDACBUF2_16
selected reference voltage * 16/64
16
CPDACBUF2_17
selected reference voltage * 17/64
17
CPDACBUF2_18
selected reference voltage * 18/64
18
CPDACBUF2_19
selected reference voltage * 19/64
19
CPDACBUF2_20
selected reference voltage * 20/64
20
CPDACBUF2_21
selected reference voltage * 21/64
21
CPDACBUF2_22
selected reference voltage * 22/64
22
CPDACBUF2_23
selected reference voltage * 23/64
23
CPDACBUF2_24
selected reference voltage * 24/64
24
CPDACBUF2_25
selected reference voltage * 25/64
25
CPDACBUF2_26
selected reference voltage * 26/64
26
CPDACBUF2_27
selected reference voltage * 27/64
27
CPDACBUF2_28
selected reference voltage * 28/64
28
CPDACBUF2_29
selected reference voltage * 29/64
29
CPDACBUF2_30
selected reference voltage * 30/64
30
CPDACBUF2_31
selected reference voltage * 31/64
31
CPDACBUF2_32
selected reference voltage * 32/64
32
CPDACBUF2_33
selected reference voltage * 33/64
33
CPDACBUF2_34
selected reference voltage * 34/64
34
CPDACBUF2_35
selected reference voltage * 35/64
35
CPDACBUF2_36
selected reference voltage * 36/64
36
CPDACBUF2_37
selected reference voltage * 37/64
37
CPDACBUF2_38
selected reference voltage * 38/64
38
CPDACBUF2_39
selected reference voltage * 39/64
39
CPDACBUF2_40
selected reference voltage * 40/64
40
CPDACBUF2_41
selected reference voltage * 41/64
41
CPDACBUF2_42
selected reference voltage * 42/64
42
CPDACBUF2_43
selected reference voltage * 43/64
43
CPDACBUF2_44
selected reference voltage * 44/64
44
CPDACBUF2_45
selected reference voltage * 45/64
45
CPDACBUF2_46
selected reference voltage * 46/64
46
CPDACBUF2_47
selected reference voltage * 47/64
47
CPDACBUF2_48
selected reference voltage * 48/64
48
CPDACBUF2_49
selected reference voltage * 49/64
49
CPDACBUF2_50
selected reference voltage * 50/64
50
CPDACBUF2_51
selected reference voltage * 51/64
51
CPDACBUF2_52
selected reference voltage * 52/64
52
CPDACBUF2_53
selected reference voltage * 53/64
53
CPDACBUF2_54
selected reference voltage * 54/64
54
CPDACBUF2_55
selected reference voltage * 55/64
55
CPDACBUF2_56
selected reference voltage * 56/64
56
CPDACBUF2_57
selected reference voltage * 57/64
57
CPDACBUF2_58
selected reference voltage * 58/64
58
CPDACBUF2_59
selected reference voltage * 59/64
59
CPDACBUF2_60
selected reference voltage * 60/64
60
CPDACBUF2_61
selected reference voltage * 61/64
61
CPDACBUF2_62
selected reference voltage * 62/64
62
CPDACBUF2_63
selected reference voltage * 63/64
63
_INTERRUPTS
65408
ECOMP0
0xFFCA
19
PORT6
0xFFCC
20
PORT5
0xFFCE
21
PORT4
0xFFD0
22
PORT3
0xFFD2
23
PORT2
0xFFD4
24
PORT1
0xFFD6
25
ADC
0xFFD8
26
EUSCI_B1
0xFFDA
27
EUSCI_B0
0xFFDC
28
EUSCI_A1
0xFFDE
29
EUSCI_A0
0xFFE0
30
WDT
0xFFE2
31
RTC
0xFFE4
32
TIMER0_B1
0xFFE6
33
TIMER0_B0
0xFFE8
34
TIMER3_A1
0xFFEA
35
TIMER3_A0
0xFFEC
36
TIMER2_A1
0xFFEE
37
TIMER2_A0
0xFFF0
38
TIMER1_A1
0xFFF2
39
TIMER1_A0
0xFFF4
40
TIMER0_A1
0xFFF6
41
TIMER0_A0
0xFFF8
42
UNMI
0xFFFA
43
SYSNMI
0xFFFC
44