TI MSP430FR5722IRGE Mixed signal microcontroller Datasheet

MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
MIXED SIGNAL MICROCONTROLLER
FEATURES
•
•
•
•
•
•
Embedded Non-Volatile FRAM
– Supports Universal Memory
– Ultra-Fast Ultra-Low-Power Write Cycle
– Error Correction Coding (ECC)
– Memory Protection Unit
Low Supply Voltage Range, 2.0 V to 3.6 V
16-Bit RISC Architecture, Up to 24-MHz
Low Power Consumption
– Active Mode (AM):
All System Clocks Active
103 µA/MHz at 8 MHz, 3.0 V, FRAM Program
Execution (Typical)
60 µA/MHz at 8 MHz, 3.0 V, RAM Program
Execution (Typical)
– Standby Mode (LPM3):
Real-Time Clock With Crystal , Watchdog,
and Supply Supervisor Operational, Full
System State Retention:
6.4 µA at 3.0 V (Typical)
Low-Power Oscillator (VLO),
General-Purpose Counter, Watchdog, and
Supply Supervisor Operational, Full System
State Retention:
6.3 µA at 3.0 V (Typical)
– Off Mode (LPM4):
Full System State Retention, Supply
Supervisor Operational:
5.9 µA at 3.0 V (Typical)
– Real-Time Clock Mode (LPM3.5):
1.5 µA at 3.0 V (Typical)
– Shutdown Mode (LPM4.5):
0.32 µA at 3.0 V (Typical)
Power Management System
– Fully Integrated LDO
– Supply Voltage Supervision and Brownout
Clock System
– Factory Trimmed DCO With Three
Selectable Frequencies
– Low-Power/Low-Frequency Internal Clock
Source (VLO)
•
•
•
•
•
•
•
•
•
•
•
•
•
•
– 32-kHz Watch Crystals and High-Frequency
Crystals up to 24 MHz
16-Bit Timer TA0, Timer_A With Three
Capture/Compare Registers
16-Bit Timer TA1, Timer_A With Three
Capture/Compare Registers
16-Bit Timer TB0, Timer_B With Three
Capture/Compare Shadow Registers
16-Bit Timer TB1, Timer_B With Three
Capture/Compare Shadow Registers
16-Bit Timer TB2, Timer_B With Three
Capture/Compare Shadow Registers
Enhanced Universal Serial Communication
Interfaces
– eUSCI_A0 and eUSCI_A1 Each Supporting
– Enhanced UART supporting
Auto-Baudrate Detection
– IrDA Encoder and Decoder
– Synchronous SPI
– eUSCI_B0 Supporting
– I2C With Multi-Slave Addressing
– Synchronous SPI
10-Bit Analog-to-Digital (A/D) Converter With
Internal Reference, Sample-and-Hold
On-chip Comparator
Hardware Multiplier Supporting 32-Bit
Operations
Three Channel Internal DMA
Real-Time Clock with Calendar and Alarm
Functions
Serial Onboard Programming, No External
Programming Voltage Needed
Family Members and Available Options Are
Summarized in Table 1.
For Complete Module Descriptions, See the
MSP430FR57xx Family User's Guide
(SLAU272)
1
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas
Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
PRODUCT PREVIEW information concerns products in the
formative or design phase of development. Characteristic data and
other specifications are design goals. Texas Instruments reserves
the right to change or discontinue these products without notice.
Copyright © 2011, Texas Instruments Incorporated
PRODUCT PREVIEW
1
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
CAUTION
www.ti.com
These products use FRAM non-volatile memory technology. FRAM retention is sensitive to extreme temperatures, such
as those experienced during reflow or hand soldering. See Absolute Maximum Ratings for more information.
DESCRIPTION
The Texas Instruments MSP430™ family of low-power microcontrollers consists of several devices featuring
different sets of peripherals targeted for various applications. The architecture, combined with seven low-power
modes is optimized to achieve extended battery life in portable measurement applications. The device features a
powerful 16-bit RISC CPU, 16-bit registers, and constant generators that contribute to maximum code efficiency.
The MSP430FR572x and MSP430FR573x devices are microcontroller configurations with up to five 16-bit timers,
comparator, universal serial communication interfaces (eUSCI) supporting UART, SPI, and I2C, hardware
multiplier, DMA, real-time clock module with alarm capabilities, up to 33 I/O pins, and an optional
high-performance 10-bit analog-to-digital converter (ADC). Family members available are summarized in Table 1.
Table 1. Family Members
eUSCI
PRODUCT PREVIEW
Device
FRAM
(KB)
SRAM
(KB)
System
Clock
(MHz)
ADC10_B
Comp_D
MSP430FR5739
16
1
24
12 ext /
2 int ch.
16 ch.
6 ext /
2 int ch.
10 ch.
8 ext /
2 int ch.
12 ch.
MSP430FR5738
1
24
MSP430FR5737 (3)
16
1
24
MSP430FR5736 (3)
16
1
24
MSP430FR5735
8
1
24
MSP430FR5734
(3)
MSP430FR5733 (3)
8
8
1
1
24
8
1
24
MSP430FR5731 (3)
4
0.5
24
MSP430FR5730
4
0.5
24
MSP430FR5728
(1)
(2)
(3)
16
16
1
1
16 ch.
10 ch.
12 ch.
12 ext /
2 int ch.
16 ch.
6 ext /
2 int ch.
10 ch.
8 ext /
2 int ch.
12 ch.
24
MSP430FR5732 (3)
MSP430FR5729
2
16
8
8
16 ch.
10 ch.
12 ch.
12 ext /
2 int ch.
16 ch.
6 ext /
2 int ch.
10 ch
8 ext /
2 int ch.
12 ch.
12 ext /
2 int ch.
16 ch.
6 ext /
2 int ch.
10 ch.
8 ext /
2 int ch.
12 ch.
Timer_A
(1)
Timer_B
(2)
Channel
A:
UART/
IrDA/SPI
Channel
B:
SPI/I2C
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
I/O
Package
Types
32
RHA
30
DA
17
RGE
21
PW (3)
32
RHA (3)
30
DA (3)
17
RGE (3)
21
PW (3)
32
RHA
30
DA (3)
17
RGE (3)
21
PW (3)
32
RHA (3)
30
DA (3)
17
RGE (3)
21
PW (3)
32
RHA (3)
30
DA (3)
17
RGE
21
PW (3)
32
RHA
30
DA
17
RGE
21
PW (3)
Each number in the sequence represents an instantiation of Timer_A with its associated number of capture compare registers and PWM
output generators available. For example, a number sequence of 3, 5 would represent two instantiations of Timer_A, the first
instantiation having 3 and the second instantiation having 5 capture compare registers and PWM output generators, respectively.
Each number in the sequence represents an instantiation of Timer_B with its associated number of capture compare registers and PWM
output generators available. For example, a number sequence of 3, 5 would represent two instantiations of Timer_B, the first
instantiation having 3 and the second instantiation having 5 capture compare registers and PWM output generators, respectively.
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MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 1. Family Members (continued)
Device
SRAM
(KB)
System
Clock
(MHz)
MSP430FR5727 (3)
16
1
8
MSP430FR5726 (3)
16
1
8
MSP430FR5725
8
1
8
MSP430FR5724
(3)
8
1
8
MSP430FR5723 (3)
8
1
8
MSP430FR5722 (3)
8
1
8
MSP430FR5721 (3)
4
0.5
8
MSP430FR5720
4
0.5
8
ADC10_B
Timer_A (1) Timer_B (2)
Comp_D
16 ch.
10 ch.
12 ch.
12 ext /
2 int ch.
16 ch.
6 ext /
2 int ch.
10 ch.
8 ext /
2 int ch.
12 ch.
16 ch.
10 ch.
12 ch.
12 ext /
2 int ch.
16 ch.
6 ext /
2 int ch.
10 ch.
8 ext /
2 int ch.
12 ch.
Channel
A:
UART/
IrDA/SPI
Channel
B:
SPI/I2C
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
3, 3
3, 3, 3
2
1
3, 3
3
1
1
I/O
Package
Types
32
RHA (3)
30
DA (3)
17
RGE (3)
21
PW (3)
32
RHA
30
DA (3)
17
RGE (3)
21
PW (3)
32
RHA (3)
30
DA (3)
17
RGE (3)
21
PW (3)
32
RHA (3)
30
DA (3)
17
RGE
21
PW (3)
PRODUCT PREVIEW
eUSCI
FRAM
(KB)
Table 2. Ordering Information (1)
PACKAGED DEVICES (2)
TA
PLASTIC 40-PIN VQFN
(RHA)
PLASTIC 24-PIN VQFN
(RGE)
PLASTIC 38-PIN TSSOP
(DA)
PLASTIC 28-PIN TSSOP
(PW)
MSP430FR5721IRHA (3)
MSP430FR5720IRGE
MSP430FR5721IDA (3)
MSP430FR5720IPW (3)
(3)
MSP430FR5722IPW (3)
MSP430FR5724IRGE (3)
MSP430FR5725IDA (3)
MSP430FR5724IPW (3)
(3)
(3)
MSP430FR5726IPW (3)
MSP430FR5723IRHA
(3)
MSP430FR5725IRHA
MSP430FR5727IRHA
–40°C to
85°C
(3)
(3)
MSP430FR5727IDA
MSP430FR5728IRGE
MSP430FR5729IDA
MSP430FR5728IPW (3)
MSP430FR5731IRHA (3)
MSP430FR5730IRGE
MSP430FR5731IDA (3)
MSP430FR5730IPW (3)
MSP430FR5733IDA
(3)
MSP430FR5732IPW (3)
MSP430FR5735IDA
(3)
MSP430FR5734IPW (3)
(3)
MSP430FR5735IRHA
(2)
MSP430FR5726IRGE
MSP430FR5723IDA
MSP430FR5729IRHA
MSP430FR5733IRHA
(1)
MSP430FR5722IRGE
(3)
MSP430FR5732IRGE
(3)
MSP430FR5734IRGE
(3)
MSP430FR5737IRHA (3)
MSP430FR5736IRGE (3)
MSP430FR5737IDA (3)
MSP430FR5736IPW (3)
MSP430FR5739IRHA
MSP430FR5738IRGE
MSP430FR5739IDA
MSP430FR5738IPW (3)
For the most current package and ordering information, see the Package Option Addendum at the end of this document, or see the TI
web site at www.ti.com.
Package drawings, standard packing quantities, thermal data, symbolization, and PCB design guidelines are available at
www.ti.com/package.
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MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Functional Block Diagram –
MSP430FR5721IRHA, MSP430FR5725IRHA, MSP430FR5729IRHA
MSP430FR5731IRHA MSP430FR5735IRHA, MSP430FR5739IRHA
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
8 KB
SMCLK
4 KB
(’5731, ‘5721)
1 KB
(’5739, ’5735)
(’5729, ’5725)
0.5 KB
(’5731, ’5721)
Power
Management
Boot
ROM
MCLK
CPUXV2
and
Working
Registers
Memory
Protection
Unit
SYS
Watchdog
Interrupt
& Wakeup
PA
1×16 I/Os
RAM
PB
P4.x
I/O Ports
P3/P4
1×8 I/Os
1x 2 I/Os
Interrupt
& Wakeup
PB
1×10 I/Os
REF
SVS
FRAM
P3.x
I/O Ports
P1/P2
2×8 I/Os
(’5739, ’5729)
(’5735, ‘5725)
PA
P2.x
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
PRODUCT PREVIEW
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
JTAG/
SBW
Interface
eUSCI_A0:
UART,
IrDA, SPI
TA0
TA1
TB0
TB1
TB2
(2) Timer_A
3 CC
Registers
(3) Timer_B
3 CC
Registers
RTC_B
MPY32
eUSCI_A1:
UART,
IrDA, SPI
CRC
eUSCI_B0:
SPI, I2C
ADC10_B
10 Bit
200KSPS
Comp_D
16 channels
16 channels
(12 ext/2 int)
Functional Block Diagram –
MSP430FR5723IRHA, MSP430FR5727IRHA
MSP430FR5733IRHA, MSP430FR5737IRHA
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
8 KB
SMCLK
FRAM
MCLK
CPUXV2
and
Working
Registers
Memory
Protection
Unit
1 KB
(’5737, ’5733)
(’5727, ’5723)
Boot
ROM
Power
Management
P3.x
I/O Ports
P1/P2
2×8 I/Os
(’5737, ’5727)
(’5733, ‘5723)
PA
P2.x
SYS
Watchdog
Interrupt
& Wakeup
PA
1×16 I/Os
SVS
RAM
PB
P4.x
I/O Ports
P3/P4
1×8 I/Os
1x 2 I/Os
Interrupt
& Wakeup
PB
1×10 I/Os
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
4
JTAG/
SBW
Interface
TA0
TA1
TB0
TB1
TB2
(2) Timer_A
3 CC
Registers
(3) Timer_B
3 CC
Registers
RTC_B
MPY32
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eUSCI_A0:
UART,
IrDA, SPI
eUSCI_A1:
UART,
IrDA, SPI
Comp_D
CRC
eUSCI_B0:
SPI, I2C
16 channels
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Pin Designation –
MSP430FR5721IRHA, MSP430FR5723IRHA, MSP430FR5725IRHA, MSP430FR5727IRHA,
MSP430FR5729IRHA
MSP430FR5731IRHA, MSP430FR5733IRHA, MSP430FR5735IRHA, MSP430FR5737IRHA,
MSP430FR5739IRHA
RHA PACKAGE
(TOP VIEW)
P2.4/TA1.0/UCA1CLK/A7*/CD11
P2.3/TA0.0/UCA1STE/A6*/CD10
P2.7
DVCC
DVSS
29
MSP430FR5721
MSP430FR5723
MSP430FR5725
MSP430FR5727
MSP430FR5729
MSP430FR5731
MSP430FR5733
MSP430FR5735
MSP430FR5737
MSP430FR5739
3
4
5
6
7
8
9
28
27
26
25
24
23
22
10
PJ.0/TDO/TB0OUTH/SMCLK/CD6
PJ.1/TDI/TCLK/TB1OUTH/MCLK/CD7
PJ.2/TMS/TB2OUTH/ACLK/CD8
PJ.3/TCK/CD9
P4.0/TB2.0
20
19
18
17
16
15
14
13
11
21
VCORE
P1.7/TB1.2/UCB0SOMI/UCB0SCL/TA1.0
P1.6/TB1.1/UCB0SIMO/UCB0SDA/TA0.0
P3.7/TB2.2
P3.6/TB2.1/TB1CLK
P3.5/TB1.2/CDOUT
P3.4/TB1.1/TB2CLK/SMCLK
P2.2/TB2.2/UCB0CLK/TB1.0
P2.1/TB2.1/UCA0RXD/UCA0SOMI/TB0.0
P2.0/TB2.0/UCA0TXD/UCA0SIMO/TB0CLK/ACLK
RST/NMI/SBWTDIO
TEST/SBWTCK
P2.6/TB1.0/UCA1RXD/UCA1SOMI
P2.5/TB0.0/UCA1TXD/UCA1SIMO
P4.1
* Not available on MSP430FR5737, MSP430FR5733, MSP430FR5727, MSP430FR5723
Note: Power Pad connection to VSS recommended.
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PRODUCT PREVIEW
31
32
33
35
34
36
37
39
30
1
2
12
P1.0/TA0.1/DMAE0/RTCCLK/A0*/CD0/VeREF-*
P1.1/TA0.2/TA1CLK/CDOUT/A1*/CD1/VeREF+*
P1.2/TA1.1/TA0CLK/CDOUT/A2*/CD2
P3.0/A12*/CD12
P3.1/A13*/CD13
P3.2/A14*/CD14
P3.3/A15*/CD15
P1.3/TA1.2/UCB0STE/A3*/CD3
P1.4/TB0.1/UCA0STE/A4*/CD4
P1.5/TB0.2/UCA0CLK/A5*/CD5
38
40
AVSS
PJ.4/XIN
PJ.5/XOUT
AVSS
AVCC
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Functional Block Diagram –
MSP430FR5721IDA, MSP430FR5725IDA, MSP430FR5729IDA
MSP430FR5731IDA MSP430FR5735IDA, MSP430FR5739IDA
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
(’5739, ’5729)
8 KB
(’5735, ‘5725)
SMCLK
4 KB
(’5731, ‘5721)
1 KB
(’5739, ’5735)
(’5729, ’5725)
Power
Management
Boot
ROM
0.5 KB
(’5731, ’5721)
CPUXV2
and
Working
Registers
Memory
Protection
Unit
Watchdog
PB
P3.x
I/O Ports
P1/P2
2×8 I/Os
I/O Ports
P3
1×8 I/Os
Interrupt
& Wakeup
PA
1×16 I/Os
Interrupt
& Wakeup
PB
1×8 I/Os
REF
SVS
FRAM
MCLK
SYS
PA
P2.x
RAM
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
PRODUCT PREVIEW
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
JTAG/
SBW
Interface
eUSCI_A0:
UART,
IrDA, SPI
TA0
TA1
TB0
TB1
TB2
(2) Timer_A
3 CC
Registers
(3) Timer_B
3 CC
Registers
RTC_B
MPY32
eUSCI_A1:
UART,
IrDA, SPI
CRC
eUSCI_B0:
SPI, I2C
ADC10_B
10 Bit
200KSPS
Comp_D
16 channels
16 channels
(12 ext/2 int)
Functional Block Diagram –
MSP430FR5723IDA, MSP430FR5727IDA
MSP430FR5733IDA, MSP430FR5737IDA
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
(’5737, ’5727)
8 KB
(’5733, ‘5723)
SMCLK
1 KB
(’5737, ’5733)
(’5727, ’5723)
Boot
ROM
CPUXV2
and
Working
Registers
Memory
Protection
Unit
SYS
PB
P3.x
I/O Ports
P1/P2
2×8 I/Os
I/O Ports
P3
1×8 I/Os
Interrupt
& Wakeup
PA
1×16 I/Os
Interrupt
& Wakeup
PB
1×8 I/Os
Watchdog
SVS
FRAM
MCLK
Power
Management
PA
P2.x
RAM
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
6
JTAG/
SBW
Interface
TA0
TA1
TB0
TB1
TB2
(2) Timer_A
3 CC
Registers
(3) Timer_B
3 CC
Registers
RTC_B
MPY32
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eUSCI_A0:
UART,
IrDA, SPI
eUSCI_A1:
UART,
IrDA, SPI
Comp_D
CRC
eUSCI_B0:
SPI, I2C
16 channels
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Pin Designation –
MSP430FR5721IDA, MSP430FR5723IDA, MSP430FR5725IDA, MSP430FR5727IDA,
MSP430FR5729IDA
MSP430FR5731IDA, MSP430FR5733IDA, MSP430FR5735IDA, MSP430FR5737IDA,
MSP430FR5739IDA
PJ.4/XIN
PJ.5/XOUT
AVSS
AVCC
1
38
2
37
3
36
4
35
P1.0/TA0.1/DMAE0/RTCCLK/A0*/CD0/VeREF-*
P1.1/TA0.2/TA1CLK/CDOUT/A1*/CD1/VeREF+*
P1.2/TA1.1/TA0CLK/CDOUT/A2*/CD2
P3.0/A12*/CD12
P3.1/A13*/CD13
P3.2/A14*/CD14
P3.3/A15*/CD15
P1.3/TA1.2/UCB0STE/A3*/CD3
P1.4/TB0.1/UCA0STE/A4*/CD4
P1.5/TB0.2/UCA0CLK/A5*/CD5
PJ.0/TDO/TB0OUTH/SMCLK/CD6
PJ.1/TDI/TCLK/TB1OUTH/MCLK/CD7
PJ.2/TMS/TB2OUTH/ACLK/CD8
PJ.3/TCK/CD9
P2.5/TB0.0/UCA1TXD/UCA1SIMO
5
34
6 MSP430FR5721 33
7 MSP430FR5723 32
8
MSP430FR5725
31
MSP430FR5727
9 MSP430FR5729 30
10
29
11 MSP430FR5731 28
12 MSP430FR5733 27
MSP430FR5735
13
26
MSP430FR5737
14 MSP430FR5739 25
15
24
16
23
17
22
18
21
19
20
AVSS
P2.4/TA1.0/UCA1CLK/A7*/CD11
P2.3/TA0.0/UCA1STE/A6*/CD10
P2.7
DVCC
DVSS
VCORE
P1.7/TB1.2/UCB0SOMI/UCB0SCL/TA1.0
P1.6/TB1.1/UCB0SIMO/UCB0SDA/TA0.0
P3.7/TB2.2
P3.6/TB2.1/TB1CLK
P3.5/TB1.2/CDOUT
P3.4/TB1.1/TB2CLK/SMCLK
P2.2/TB2.2/UCB0CLK/TB1.0
P2.1/TB2.1/UCA0RXD/UCA0SOMI/TB0.0
P2.0/TB2.0/UCA0TXD/UCA0SIMO/TB0CLK/ACLK
RST/NMI/SBWTDIO
TEST/SBWTCK
P2.6/TB1.0/UCA1RXD/UCA1SOMI
* Not available on MSP430FR5737, MSP430FR5733, MSP430FR5727, MSP430FR5723
Copyright © 2011, Texas Instruments Incorporated
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7
PRODUCT PREVIEW
DA PACKAGE
(TOP VIEW)
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Functional Block Diagram –
MSP430FR5720IRGE, MSP430FR5724IRGE, MSP430FR5728IRGE
MSP430FR5730IRGE MSP430FR5734IRGE, MSP430FR5738IRGE
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
(’5734, ‘5724)
SMCLK
4 KB
(’5730, ‘5720)
1 KB
(’5738, ’5734)
(’5728, ’5724)
0.5 KB
(’5730, ’5720)
Power
Management
Boot
ROM
CPUXV2
and
Working
Registers
Memory
Protection
Unit
SYS
Watchdog
REF
SVS
FRAM
MCLK
I/O Ports
P1/P2
1×8 I/Os
1×3 I/Os
(’5738, ’5728)
8 KB
PA
P2.x
Interrupt
& Wakeup
PA
1×11 I/Os
RAM
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
PRODUCT PREVIEW
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
JTAG/
SBW
Interface
eUSCI_A0:
UART,
IrDA, SPI
TA0
TA1
TB0
(2) Timer_A
3 CC
Registers
(1) Timer_B
3 CC
Registers
RTC_B
MPY32
ADC10_B
10 Bit
200KSPS
CRC
eUSCI_B0:
SPI, I2C
Comp_D
10 channels
8 channels
(6 ext/2 int)
Functional Block Diagram –
MSP430FR5722IRGE, MSP430FR5726IRGE
MSP430FR5732IRGE, MSP430FR5736IRGE
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
(’5732, ‘5722)
SMCLK
1 KB
(’5736, ’5732)
(’5726, ’5722)
Boot
ROM
CPUXV2
and
Working
Registers
Memory
Protection
Unit
Power
Management
SYS
Watchdog
SVS
FRAM
MCLK
I/O Ports
P1/P2
1×8 I/Os
1×3 I/Os
(’5736, ’5726)
8 KB
PA
P2.x
Interrupt
& Wakeup
PA
1×11 I/Os
RAM
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
8
JTAG/
SBW
Interface
TA0
TA1
TB0
(2) Timer_A
3 CC
Registers
(1) Timer_B
3 CC
Registers
RTC_B
MPY32
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eUSCI_A0:
UART,
IrDA, SPI
Comp_D
CRC
eUSCI_B0:
SPI, I2C
10 channels
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Pin Designation –
MSP430FR5720IRGE, MSP430FR5722IRGE, MSP430FR5724IRGE, MSP430FR5726IRGE,
MSP430FR5728IRGE
MSP430FR5730IRGE, MSP430FR5732IRGE, MSP430FR5734IRGE, MSP430FR5736IRGE,
MSP430FR5738IRGE
RGE PACKAGE
(TOP VIEW)
PJ.4/XIN
DVCC
DVSS
20
21
23
19
18
17
16
15
14
13
VCORE
P1.7/UCB0SOMI/UCB0SCL/TA1.0
P1.6/UCB0SIMO/UCB0SDA/TA0.0
P2.2/UCB0CLK
P2.1/UCA0RXD/UCA0SOMI/TB0.0
P2.0/UCA0TXD/UCA0SIMO/TB0CLK/ACLK
12
7
PJ.0/TDO/TB0OUTH/SMCLK/CD6
PJ.1/TDI/TCLK/MCLK/CD7
PJ.2/TMS/ACLK/CD8
11
5
6
10
3
4
9
MSP430FR5720
MSP430FR5722
MSP430FR5724
MSP430FR5726
MSP430FR5728
MSP430FR5730
MSP430FR5732
MSP430FR5734
MSP430FR5736
MSP430FR5738
PRODUCT PREVIEW
1
2
8
P1.0/TA0.1/DMAE0/RTCCLK/A0*/CD0/VeREF-*
P1.1/TA0.2/TA1CLK/CDOUT/A1*/CD1/VeREF+*
P1.2/TA1.1/TA0CLK/CDOUT/A2*/CD2
P1.3/TA1.2/UCB0STE/A3*/CD3
P1.4/TB0.1/UCA0STE/A4*/CD4
P1.5/TB0.2/UCA0CLK/A5*/CD5
22
24
PJ.5/XOUT
AVSS
AVCC
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.3/TCK/CD9
* Not available on MSP430FR5736, MSP430FR5732, MSP430FR5726, MSP430FR5722
Note: Power Pad connection to VSS recommended.
Copyright © 2011, Texas Instruments Incorporated
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9
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Functional Block Diagram –
MSP430FR5720IPW, MSP430FR5724IPW, MSP430FR5728IPW
MSP430FR5730IPW MSP430FR5734IPW, MSP430FR5738IPW
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
(’5734, ‘5724)
SMCLK
4 KB
(’5730, ‘5720)
1 KB
(’5738, ’5734)
(’5728, ’5724)
Power
Management
Boot
ROM
0.5 KB
(’5730, ’5720)
CPUXV2
and
Working
Registers
Memory
Protection
Unit
SYS
Watchdog
REF
SVS
FRAM
MCLK
I/O Ports
P1/P2
1×8 I/Os
1×7 I/Os
(’5738, ’5728)
8 KB
PA
P2.x
Interrupt
& Wakeup
PA
1×15 I/Os
RAM
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
PRODUCT PREVIEW
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
JTAG/
SBW
Interface
eUSCI_A0:
UART,
IrDA, SPI
TA0
TA1
TB0
(2) Timer_A
3 CC
Registers
(1) Timer_B
3 CC
Registers
RTC_B
MPY32
ADC10_B
10 Bit
200KSPS
CRC
eUSCI_B0:
SPI, I2C
Comp_D
12 channels
12 channels
(8 ext/2 int)
Functional Block Diagram –
MSP430FR5722IPW, MSP430FR5726IPW
MSP430FR5732IPW, MSP430FR5736IPW
PJ.4/XIN
DVCC DVSS VCORE
PJ.5/XOUT
AVCC AVSS
P1.x
16 KB
Clock
System
ACLK
(’5732, ‘5722)
SMCLK
1 KB
(’5736, ’5732)
(’5726, ’5722)
)
Boot
ROM
CPUXV2
and
Working
Registers
Memory
Protection
Unit
Power
Management
SYS
Watchdog
SVS
FRAM
MCLK
I/O Ports
P1/P2
1×8 I/Os
1×7 I/Os
(’5736, ’5726)
8 KB
PA
P2.x
Interrupt
& Wakeup
PA
1×15 I/Os
RAM
MAB
DMA
MDB
3 Channel
EEM
(S: 3+1)
RST/NMI/SBWTDIO
TEST/SBWTCK
PJ.0/TDO
PJ.1/TDI/TCLK
PJ.2/TMS
PJ.3/TCK
10
JTAG/
SBW
Interface
TA0
TA1
TB0
(2) Timer_A
3 CC
Registers
(1) Timer_B
3 CC
Registers
RTC_B
MPY32
Submit Documentation Feedback
eUSCI_A0:
UART,
IrDA, SPI
Comp_D
CRC
eUSCI_B0:
SPI, I2C
12 channels
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Pin Designation –
MSP430FR5720IPW, MSP430FR5722IPW, MSP430FR5724IPW, MSP430FR5726IPW,
MSP430FR5728IPW
MSP430FR5730IPW, MSP430FR5732IPW, MSP430FR5734IPW, MSP430FR5736IPW,
MSP430FR5738IPW
PJ.4/XIN
PJ.5/XOUT
AVSS
AVCC
P1.0/TA0.1/DMAE0/RTCCLK/A0*/CD0/VeREF-*
P1.1/TA0.2/TA1CLK/CDOUT/A1*/CD1/VeREF+*
P1.2/TA1.1/TA0CLK/CDOUT/A2*/CD2
P1.3/TA1.2/UCB0STE/A3*/CD3
P1.4/TB0.1/UCA0STE/A4*/CD4
P1.5/TB0.2/UCA0CLK/A5*/CD5
PJ.0/TDO/TB0OUTH/SMCLK/CD6
PJ.1/TDI/TCLK/MCLK/CD7
PJ.2/TMS/ACLK/CD8
PJ.3/TCK/CD9
1
28
2
27
3
26
4
25
MSP430FR5738
MSP430FR5736
5 MSP430FR5734
6 MSP430FR5732
7 MSP430FR5730
24
23
22
8
21
9
20
MSP430FR5728
MSP430FR5726
10 MSP430FR5724
11 MSP430FR5722
12 MSP430FR5720
19
18
17
13
16
14
15
P2.4/TA1.0/A7*/CD11
P2.3/TA0.0/A6*/CD10
DVCC
DVSS
VCORE
P1.7/UCB0SOMI/UCB0SCL/TA1.0
P1.6/UCB0SIMO/UCB0SDA/TA0.0
P2.2/UCB0CLK
P2.1/UCA0RXD/UCA0SOMI/TB0.0
P2.0/UCA0TXD/UCA0SIMO/TB0CLK/ACLK
RST/NMI/SBWTDIO
TEST/SBWTCK
P2.6
P2.5/TB0.0
* Not available on MSP430FR5736, MSP430FR5732, MSP430FR5726, MSP430FR5722
Copyright © 2011, Texas Instruments Incorporated
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11
PRODUCT PREVIEW
PW PACKAGE
(TOP VIEW)
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 3. TERMINAL FUNCTIONS
TERMINAL
NO.
NAME
P1.0/TA0.1/DMAE0/
RTCCLK/A0/CD0/VeREF-
P1.1/TA0.2/TA1CLK/
CDOUT/A1/CD1/VeREF+
PRODUCT PREVIEW
P1.2/TA1.1/TA0CLK/
CDOUT/A2/CD2
P3.0/A12/CD12
P3.1/A13/CD13
P3.2/A14/CD14
P3.3/A15/CD15
P1.3/TA1.2/UCB0STE/
A3/CD3
P1.4/TB0.1/UCA0STE/
A4/CD4
P1.5/TB0.2/UCA0CLK/
A5/CD5
RH
A
1
2
3
4
5
6
7
8
9
10
RG
E
1
2
3
N/A
N/A
N/A
N/A
4
5
6
I/O (1)
DA
5
6
7
8
9
10
11
12
13
14
(1)
I = input, O = output, N/A = not available
12
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DESCRIPTION
PW
5
6
7
N/A
N/A
N/A
N/A
8
9
10
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TA0 CCR1 capture: CCI1A input, compare: Out1
External DMA trigger
RTC clock calibration output
Analog input A0 – ADC (not available on devices without ADC)
Comparator_D input CD0
External applied reference voltage (not available on devices without ADC)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TA0 CCR2 capture: CCI2A input, compare: Out2
TA1 input clock
Comparator_D output
Analog input A1 – ADC (not available on devices without ADC)
Comparator_D input CD1
Input for an external reference voltage to the ADC (not available on
devices without ADC)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TA1 CCR1 capture: CCI1A input, compare: Out1
TA0 input clock
Comparator_D output
Analog input A2 – ADC (not available on devices without ADC)
Comparator_D input CD2
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
Analog input A12 – ADC (not available on devices without ADC or package
options PW, RGE)
Comparator_D input CD12 (not available on package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
Analog input A13 – ADC (not available on devices without ADC or package
options PW, RGE)
Comparator_D input CD13 (not available on package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
Analog input A14 – ADC (not available on devices without ADC or package
options PW, RGE)
Comparator_D input CD14 (not available on package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
Analog input A15 – ADC (not available on devices without ADC or package
options PW, RGE)
Comparator_D input CD15 (not available on package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TA1 CCR2 capture: CCI2A input, compare: Out2
Slave transmit enable – eUSCI_B0 SPI mode
Analog input A3 – ADC (not available on devices without ADC)
Comparator_D input CD3
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB0 CCR1 capture: CCI1A input, compare: Out1
Slave transmit enable – eUSCI_A0 SPI mode
Analog input A4 – ADC (not available on devices without ADC)
Comparator_D input CD4
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB0 CCR2 capture: CCI2A input, compare: Out2
Clock signal input – eUSCI_B0 SPI slave mode; Clock signal output –
eUSCI_B0 SPI master mode
Analog input A5 – ADC (not available on devices without ADC)
Comparator_D input CD5
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 3. TERMINAL FUNCTIONS (continued)
TERMINAL
NO.
PJ.0/TDO/TB0OUTH/
SMCLK/CD6
PJ.1/TDI/TCLK/TB1OUTH/
MCLK/CD7
RH
A
11
12
RG
E
DA
7
8
15
16
I/O (1)
DESCRIPTION
PW
11
12
I/O
General-purpose digital I/O
Test data output port
Switch all PWM outputs high impedance input – TB0
SMCLK output
Comparator_D input CD6
I/O
General-purpose digital I/O
Test data input or test clock input
Switch all PWM outputs high impedance input – TB1 (not available on
devices without TB1)
MCLK output
Comparator_D input CD7
PJ.2/TMS/TB2OUTH/
ACLK/CD8
13
9
17
13
I/O
General-purpose digital I/O
Test mode select
Switch all PWM outputs high impedance input – TB2 (not available on
devices without TB2)
ACLK output
Comparator_D input CD8
PJ.3/TCK/CD9
14
10
18
14
I/O
General-purpose digital I/O
Test clock
Comparator_D input CD9
P4.0/TB2.0
15
N/A N/A N/A
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
TB2 CCR0 capture: CCI0B input, compare: Out0 (not available on devices
without TB2 or package options DA, PW, RGE)
P4.1
16
N/A N/A N/A
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options DA, PW, RGE)
P2.5/TB0.0/UCA1TXD/
UCA1SIMO
17
N/A
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB0 CCR0 capture: CCI0A input, compare: Out0
Transmit data – eUSCI_A1 UART mode; Slave in, master out – eUSCI_A1
SPI mode (not available on devices without UCSI_A1)
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB1 CCR0 capture: CCI0A input, compare: Out0 (not available on devices
without TB1)
Receive data – eUSCI_A1 UART mode; Slave out, master in – eUSCI_A1
SPI mode (not available on devices without UCSI_A1)
19
15
P2.6/TB1.0/UCA1RXD/
UCA1SOMI
18
N/A
20
16
I/O
TEST/SBWTCK
19
11
21
17
I
RST/NMI/SBWTDIO
20
12
22
18
I/O
Reset input active low
Non-maskable interrupt input
Spy-bi-wire data input/output
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB2 CCR0 capture: CCI0A input, compare: Out0 (not available on devices
without TB2)
Transmit data – eUSCI_A0 UART mode; Slave in, master out – eUSCI_A0
SPI mode
TB0 clock input
ACLK output
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB2 CCR1 capture: CCI1A input, compare: Out1 (not available on devices
without TB2)
Receive data – eUSCI_A0 UART mode; Slave out, master in – eUSCI_A0
SPI mode;
TB0 CCR0 capture: CCI0A input, compare: Out0
P2.0/TB2.0/UCA0TXD/
UCA0SIMO/TB0CLK/ACLK
P2.1/TB2.1/UCA0RXD/
UCA0SOMI/TB0.0
21
22
13
14
Copyright © 2011, Texas Instruments Incorporated
23
24
19
20
Test mode pin – enable JTAG pins
Spy-bi-wire input clock
Submit Documentation Feedback
13
PRODUCT PREVIEW
NAME
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 3. TERMINAL FUNCTIONS (continued)
TERMINAL
NO.
NAME
P2.2/TB2.2/UCB0CLK/ TB1.0
P3.4/TB1.1/TB2CLK/ SMCLK
P3.5/TB1.2/CDOUT
RH
A
23
24
25
RG
E
15
N/A
N/A
DA
25
26
27
PRODUCT PREVIEW
I/O (1)
DESCRIPTION
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB2 CCR2 capture: CCI2A input, compare: Out2 (not available on devices
without TB2)
Clock signal input – eUSCI_B0 SPI slave mode; Clock signal output –
eUSCI_B0 SPI master mode
TB1 CCR0 capture: CCI0A input, compare: Out0 (not available on devices
without TB1)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
TB1 CCR1 capture: CCI1B input, compare: Out1 (not available on devices
without TB1)
TB2 clock input (not available on devices without TB2 or package options
PW, RGE)
SMCLK output (not available on package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
TB1 CCR2 capture: CCI2B input, compare: Out2 (not available on devices
without TB1)
Comparator_D output (not available on package options PW, RGE)
PW
21
N/A
N/A
P3.6/TB2.1/TB1CLK
26
N/A
28
N/A
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
TB2 CCR1 capture: CCI1B input, compare: Out1 (not available on devices
without TB2)
TB1 clock input (not available on devices without TB1 or package options
PW, RGE)
P3.7/TB2.2
27
N/A
29
N/A
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
TB2 CCR2 capture: CCI2B input, compare: Out2 (not available on devices
without TB2 or package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB1 CCR1 capture: CCI1A input, compare: Out1 (not available on devices
without TB1)
Slave in, master out – eUSCI_B0 SPI mode
I2C data – eUSCI_B0 I2C mode
TA0 CCR0 capture: CCI0A input, compare: Out0
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
TB1 CCR2 capture: CCI2A input, compare: Out2 (not available on devices
without TB1)
Slave out, master in – eUSCI_B0 SPI mode
I2C clock – eUSCI_B0 I2C mode
TA1 CCR0 capture: CCI0A input, compare: Out0
P1.6/TB1.1/UCB0SIMO/
UCB0SDA/TA0.0
28
16
30
22
P1.7/TB1.2/UCB0SOMI/
UCB0SCL/TA1.0
29
17
31
23
VCORE (2)
30
18
32
24
Regulated core power supply (internal usage only, no external current
loading)
DVSS
31
19
33
25
Digital ground supply
DVCC
32
20
34
26
Digital power supply
P2.7
33
N/A
35
N/A
P2.3/TA0.0/UCA1STE/
A6/CD10
(2)
14
34
N/A
36
27
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options PW, RGE)
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options RGE)
TA0 CCR0 capture: CCI0B input, compare: Out0 (not available on package
options RGE)
Slave transmit enable – eUSCI_A1 SPI mode (not available on devices
without eUSCI_A1)
Analog input A6 – ADC (not available on devices without ADC)
Comparator_D input CD10 (not available on package options RGE)
VCORE is for internal usage only. No external current loading is possible. VCORE should only be connected to the recommended
capacitor value, CVCORE.
Submit Documentation Feedback
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 3. TERMINAL FUNCTIONS (continued)
TERMINAL
NO.
NAME
RH
A
RG
E
DA
I/O (1)
DESCRIPTION
I/O
General-purpose digital I/O with port interrupt and wake up from LPMx.5
(not available on package options RGE)
TA1 CCR0 capture: CCI0B input, compare: Out0 (not available on package
options RGE)
Clock signal input – eUSCI_A1 SPI slave mode; Clock signal output –
eUSCI_A1 SPI master mode (not available on devices without eUSCI_A1)
Analog input A7 – ADC (not available on devices without ADC)
Comparator_D input CD11 (not available on package options RGE)
PW
P2.4/TA1.0/UCA1CLK/
A7/CD11
35
N/A
37
28
AVSS
36
N/A
38
N/A
PJ.4/XIN
37
21
1
1
I/O
General-purpose digital I/O
Input terminal for crystal oscillator XT1
PJ.5/XOUT
38
22
2
2
I/O
General-purpose digital I/O
Output terminal of crystal oscillator XT1
AVSS
39
23
3
3
Analog ground supply
AVCC
40
24
4
4
Analog power supply
Pad Pad N/A N/A
QFN package pad. Connection to VSS recommended.
PRODUCT PREVIEW
QFN Pad
Analog ground supply
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SHORT-FORM DESCRIPTION
CPU
The MSP430 CPU has a 16-bit RISC architecture that is highly transparent to the application. All operations,
other than program-flow instructions, are performed as register operations in conjunction with seven addressing
modes for source operand and four addressing modes for destination operand.
The CPU is integrated with 16 registers that provide reduced instruction execution time. The register-to-register
operation execution time is one cycle of the CPU clock.
Four of the registers, R0 to R3, are dedicated as program counter, stack pointer, status register, and constant
generator, respectively. The remaining registers are general-purpose registers.
Peripherals are connected to the CPU using data, address, and control buses, and can be handled with all
instructions.
The instruction set consists of the original 51 instructions with three formats and seven address modes and
additional instructions for the expanded address range. Each instruction can operate on word and byte data.
PRODUCT PREVIEW
16
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Operating Modes
The MSP430 has one active mode and seven software selectable low-power modes of operation. An interrupt
event can wake up the device from low-power modes LPM0 through LPM4, service the request, and restore back
to the low-power mode on return from the interrupt program. Low-power modes LPM3.5 and LPM4.5 disable the
core supply to minimize power consumption.
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PRODUCT PREVIEW
The following eight operating modes can be configured by software:
• Active mode (AM)
– All clocks are active
• Low-power mode 0 (LPM0)
– CPU is disabled
– ACLK active, MCLK disabled, SMCLK optionally active
– Complete data retention
• Low-power mode 1 (LPM1)
– CPU is disabled
– ACLK active, MCLK disabled, SMCLK optionally active
– DCO disabled
– Complete data retention
• Low-power mode 2 (LPM2)
– CPU is disabled
– ACLK active, MCLK disabled, SMCLK optionally active
– DCO disabled
– Complete data retention
• Low-power mode 3 (LPM3)
– CPU is disabled
– ACLK active, MCLK and SMCLK disabled
– DCO disabled
– Complete data retention
• Low-power mode 4 (LPM4)
– CPU is disabled
– ACLK, MCLK, SMCLK disabled
– Complete data retention
• Low-power mode 3.5 (LPM3.5)
– RTC operation
– Internal regulator disabled
– No data retention
– I/O pad state retention
– Wake up from RST, general purpose I/O, RTC events.
• Low-power mode 4.5 (LPM4.5)
– Internal regulator disabled
– No data retention
– I/O pad state retention
– Wake up from RST and general purpose I/O.
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Interrupt Vector Addresses
The interrupt vectors and the power-up start address are located in the address range 0FFFFh to 0FF80h. The
vector contains the 16-bit address of the appropriate interrupt-handler instruction sequence.
Table 4. Interrupt Sources, Flags, and Vectors
PRODUCT PREVIEW
INTERRUPT SOURCE
INTERRUPT FLAG
SYSTEM
INTERRUPT
WORD
ADDRESS
PRIORITY
System Reset
Power-Up, Brownout, Supply
Supervisors
External Reset RST
Watchdog Timeout (Watchdog
mode)
WDT, FRCTL MPU, CS, PMM
Password Violation
FRAM double bit error detection
MPU segment violation
Software POR, BOR
SVSLIFG, SVSHIFG
PMMRSTIFG
WDTIFG
WDTPW, FRCTLPW, MPUPW, CSPW, PMMPW
DBDIFG
MPUSEGIIFG, MPUSEG1IFG, MPUSEG2IFG,
MPUSEG3IFG
PMMPORIFG, PMMBORIFG
(SYSRSTIV) (1) (2)
Reset
0FFFEh
63, highest
System NMI
Vacant Memory Access
JTAG Mailbox
FRAM access time error
Access violation
FRAM single, double bit error
detection
MPU segment violation
VMAIFG
JMBNIFG, JMBOUTIFG
ACCTIMIFG
ACCVIFG
SBDIFG, DBDIFG
MPUSEGIIFG, MPUSEG1IFG, MPUSEG2IFG,
MPUSEG3IFG
(SYSSNIV) (1)
(Non)maskable
0FFFCh
62
User NMI
External NMI
Oscillator Fault
NMIIFG, OFIFG
(SYSUNIV) (1) (2)
(Non)maskable
0FFFAh
61
Comparator_D
Comparator_D interrupt flags
(CBIV) (1) (3)
Maskable
0FFF8h
60
Maskable
0FFF6h
59
TB0
TB0CCR0 CCIFG0
(3)
TB0
TB0CCR1 CCIFG1 to TB0CCR2 CCIFG2,
TB0IFG
(TB0IV) (1) (3)
Maskable
0FFF4h
58
Watchdog Timer (Interval Timer
Mode)
WDTIFG
Maskable
0FFF2h
57
eUSCI_A0 Receive/Transmit
UCA0RXIFG, UCA0TXIFG (SPI mode)
UCA0STTIFG, UCA0TXCPTIFG, UCA0RXIFG,
UXA0TXIFG (UART mode)
(UCA0IV) (1) (3)
Maskable
0FFF0h
56
eUSCI_B0 Receive/Transmit
UCB0STTIFG, UCB0TXCPTIFG, UCB0RXIFG,
UCB0TXIFG (SPI mode)
UCB0ALIFG, UCB0NACKIFG, UCB0STTIFG,
UCB0STPIFG, UCB0RXIFG0, UCB0TXIFG0,
UCB0RXIFG1, UCB0TXIFG1, UCB0RXIFG2,
UCB0TXIFG2, UCB0RXIFG3, UCB0TXIFG3,
UCB0CNTIFG, UCB0BIT9IFG (I2C mode)
(UCAB0IV) (1) (3)
Maskable
0FFEEh
55
ADC10_B
ADC10OVIFG, ADC10TOVIFG, ADC10HIIFG,
ADC10LOIFG
ADC10INIFG, ADC10IFG0
(ADC10IV) (1) (3) (4)
Maskable
0FFECh
54
TA0
TA0CCR0 CCIFG0 (3)
Maskable
0FFEAh
53
TA0
TA0CCR1 CCIFG1 to TA0CCR2 CCIFG2,
TA0IFG
(TA0IV) (1) (3)
Maskable
0FFE8h
52
(1)
(2)
(3)
(4)
18
Multiple source flags
A reset is generated if the CPU tries to fetch instructions from within peripheral space or vacant memory space.
(Non)maskable: the individual interrupt-enable bit can disable an interrupt event, but the general-interrupt enable cannot disable it.
Interrupt flags are located in the module.
Only on devices with ADC, otherwise reserved.
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INTERRUPT SOURCE
INTERRUPT FLAG
SYSTEM
INTERRUPT
WORD
ADDRESS
PRIORITY
eUSCI_A1 Receive/Transmit
UCA1RXIFG, UCA1TXIFG (SPI mode)
UCA1STTIFG, UCA1TXCPTIFG, UCA1RXIFG,
UXA1TXIFG (UART mode)
(UCA1IV) (1) (3)
Maskable
0FFE6h
51
DMA
DMA0IFG, DMA1IFG, DMA2IFG
(DMAIV) (1) (3)
Maskable
0FFE4h
50
TA1
TA1CCR0 CCIFG0 (3)
Maskable
0FFE2h
49
TA1
TA1CCR1 CCIFG1 to TA1CCR2 CCIFG2,
TA1IFG
(TA1IV) (1) (3)
Maskable
0FFE0h
48
I/O Port P1
P1IFG.0 to P1IFG.7
(P1IV) (1) (3)
Maskable
0FFDEh
47
TB1
TB1CCR0 CCIFG0
Maskable
0FFDCh
46
TB1
TB1CCR1 CCIFG1 to TB1CCR2 CCIFG2,
TB1IFG
(TB1IV) (1) (3)
Maskable
0FFDAh
45
I/O Port P2
P2IFG.0 to P2IFG.7
(P2IV) (1) (3)
Maskable
0FFD8h
44
TB2
(5)
(6)
(7)
(3)
TB2CCR0 CCIFG0
(3)
Maskable
0FFD6h
43
TB2
TB2CCR1 CCIFG1 to TB2CCR2 CCIFG2,
TB2IFG
(TB2IV) (1) (3)
Maskable
0FFD4h
42
I/O Port P3
P3IFG.0 to P3IFG.7
(P3IV) (5) (6)
Maskable
0FFD2h
41
I/O Port P4
P4IFG.0 to P4IFG.2
(P4IV) (5) (6)
Maskable
0FFD0h
40
RTC_B
RTCRDYIFG, RTCTEVIFG, RTCAIFG,
RT0PSIFG, RT1PSIFG, RTCOFIFG
(RTCIV) (5) (6)
Maskable
0FFCEh
39
0FFCCh
38
Reserved
Reserved (7)
⋮
⋮
0FF80h
0, lowest
Multiple source flags
Interrupt flags are located in the module.
Reserved interrupt vectors at addresses are not used in this device and can be used for regular program code if necessary. To maintain
compatibility with other devices, it is recommended to reserve these locations.
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Table 4. Interrupt Sources, Flags, and Vectors (continued)
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Memory Organization
Table 5. Memory Organization (1)
(2)
MSP430FR5726
MSP430FR5727
MSP430FR5728
MSP430FR5729
MSP430FR5736
MSP430FR5737
MSP430FR5738
MSP430FR5739
MSP430FR5722
MSP430FR5723
MSP430FR5724
MSP430FR5725
MSP430FR5732
MSP430FR5733
MSP430FR5734
MSP430FR5735
MSP430FR5720
MSP430FR5721
MSP430FR5730
MSP430FR5731
15.5 KB
00FFFFh–00FF80h
00FF7Fh–00C200h
8.0 KB
00FFFFh–00FF80h
00FF7Fh–00E000h
4 KB
00FFFFh–00FF80h
00FF7Fh–00F000h
RAM
1 KB
001FFFh–001C00h
1 KB
001FFFh–001C00h
0.5 KB
001DFFh–001C00h
Device Descriptor Info
(TLV) (FRAM)
128 B
001A7Fh–001A00h
128 B
001A7Fh–001A00h
128 B
001A7Fh–001A00h
N/A
0019FFh–001980h
Address space mirrored to Info A
0019FFh–001980h
Address space mirrored to
Info A
0019FFh–001980h
Address space mirrored to
Info B
N/A
00197Fh–001900h
Address space mirrored to Info B
00197Fh–001900h
Address space mirrored to
Info B
00197Fh–001900h
Address space mirrored to
Info A
Info A
128 B
0018FFh–001880h
128 B
0018FFh–001880h
128 B
0018FFh–001880h
Info B
128 B
00187Fh–001800h
128 B
00187Fh–001800h
128 B
00187Fh–001800h
BSL 3
512 B
0017FFh–001600h
512 B
0017FFh–001600h
512 B
0017FFh–001600h
BSL 2
512 B
0015FFh–001400h
512 B
0015FFh–001400h
512 B
0015FFh–001400h
BSL 1
512 B
0013FFh–001200h
512 B
0013FFh–001200h
512 B
0013FFh–001200h
BSL 0
512 B
0011FFh–001000h
512 B
0011FFh–001000h
512 B
0011FFh–001000h
4 KB
000FFFh–0h
4 KB
000FFFh–0h
4 KB
000FFFh–0h
Memory (FRAM)
Main: interrupt vectors
Main: code memory
Total Size
PRODUCT PREVIEW
Information memory
(FRAM)
Bootstrap loader (BSL)
memory (ROM)
Peripherals
(1)
(2)
20
Size
N/A = Not available.
All address space not listed above is considered vacant memory.
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Bootstrap Loader (BSL)
The BSL enables users to program the FRAM or RAM using a UART serial interface. Access to the device
memory via the BSL is protected by an user-defined password. Usage of the BSL requires four pins as shown in
Table 6. BSL entry requires a specific entry sequence on the RST/NMI/SBWTDIO and TEST/SBWTCK pins. For
complete description of the features of the BSL and its implementation, see the MSP430 Memory Programming
User's Guide, literature number SLAU265.
Table 6. BSL Pin Requirements and Functions
DEVICE SIGNAL
BSL FUNCTION
RST/NMI/SBWTDIO
Entry sequence signal
TEST/SBWTCK
Entry sequence signal
P2.0
Data transmit
P2.1
Data receive
VCC
Power supply
VSS
Ground supply
JTAG Operation
The MSP430 family supports the standard JTAG interface which requires four signals for sending and receiving
data. The JTAG signals are shared with general-purpose I/O. The TEST/SBWTCK pin is used to enable the
JTAG signals. In addition to these signals, the RST/NMI/SBWTDIO is required to interface with MSP430
development tools and device programmers. The JTAG pin requirements are shown in Table 7. For further
details on interfacing to development tools and device programmers, see the MSP430 Hardware Tools User's
Guide, literature number SLAU278.
Table 7. JTAG Pin Requirements and Functions
DEVICE SIGNAL
Direction
FUNCTION
PJ.3/TCK
IN
JTAG clock input
PJ.2/TMS
IN
JTAG state control
PJ.1/TDI/TCLK
IN
JTAG data input/TCLK input
PJ.0/TDO
OUT
JTAG data output
TEST/SBWTCK
IN
Enable JTAG pins
RST/NMI/SBWTDIO
IN
External reset
VCC
Power supply
VSS
Ground supply
Spy-Bi-Wire Interface
In addition to the standard JTAG interface, the MSP430 family supports the two wire Spy-Bi-Wire interface.
Spy-Bi-Wire can be used to interface with MSP430 development tools and device programmers. The Spy-Bi-Wire
interface pin requirements are shown in Table 8. For further details on interfacing to development tools and
device programmers, see the MSP430 Hardware Tools User's Guide, literature number SLAU278.
Table 8. Spy-Bi-Wire Pin Requirements and Functions
DEVICE SIGNAL
Direction
FUNCTION
TEST/SBWTCK
IN
Spy-Bi-Wire clock input
RST/NMI/SBWTDIO
IN, OUT
Spy-Bi-Wire data input/output
VCC
Power supply
VSS
Ground supply
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JTAG Standard Interface
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FRAM
The FRAM can be programmed via the JTAG port, Spy-Bi-Wire (SBW), the BSL, or in-system by the CPU.
Features of the FRAM include:
• Low power, ultra fast write non-volatile memory.
• Byte and word access capability.
• Programmable and automated wait state generation.
• Error Correction Coding (ECC) with single bit detection and correction, double bit detection.
Memory Protection Unit (MPU)
The FRAM can be protected from inadvertent CPU execution or write access by the MPU. Features of the MPU
include:
• Main memory partitioning programmable up to three segments.
• Each segment's (main and information memory) access rights can be individually selected.
• Access violation flags with interrupt capability for easy servicing of access violations.
Peripherals
PRODUCT PREVIEW
Peripherals are connected to the CPU through data, address, and control buses and can be handled using all
instructions. For complete module descriptions, see the MSP430FR57xx Family User's Guide, literature number
SLAU272.
Digital I/O
There are up to four 8-bit I/O ports implemented:
• All individual I/O bits are independently programmable.
• Any combination of input, output, and interrupt conditions is possible.
• Programmable pullup or pulldown on all ports.
• Edge-selectable interrupt and LPM3.5 and LPM4.5 wake up input capability is available for all ports.
• Read/write access to port-control registers is supported by all instructions.
• Ports can be accessed byte-wise or word-wise in pairs.
Oscillator and Clock System (CS)
The clock system includes support for a 32 kHz watch crystal oscillator XT1 (LF mode), an internal
very-low-power low-frequency oscillator (VLO), an integrated internal digitally-controlled oscillator (DCO), and a
high-frequency crystal oscillator XT1 (HF mode). The clock system module is designed to meet the requirements
of both low system cost and low-power consumption. A fail-safe mechanism exists for all crystal sources. The
clock system module provides the following clock signals:
• Auxiliary clock (ACLK), sourced from a 32 kHz watch crystal (XT1 LF mode), a high-frequency crystal (XT1
HF mode), the internal low-frequency oscillator (VLO), or the internal digitally-controlled oscillator DCO.
• Main clock (MCLK), the system clock used by the CPU. MCLK can be sourced by same sources made
available to ACLK.
• Sub-Main clock (SMCLK), the subsystem clock used by the peripheral modules. SMCLK can be sourced by
same sources made available to ACLK.
Power Management Module (PMM)
The PMM includes an integrated voltage regulator that supplies the core voltage to the device . The PMM also
includes supply voltage supervisor (SVS), as well as brownout protection. The brownout circuit is implemented to
provide the proper internal reset signal to the device during power-on and power-off. The SVS circuitry detects if
the supply voltage drops a safe level and below a user-selectable supports both supply voltage supervision. SVS
circuitry is available on the primary and core supplies.
22
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Hardware Multiplier
The multiplication operation is supported by a dedicated peripheral module. The module performs operations with
32-bit, 24-bit, 16-bit, and 8-bit operands. The module is capable of supporting signed and unsigned multiplication
as well as signed and unsigned multiply and accumulate operations.
Real-Time Clock (RTC_B)
The RTC_B module contains an integrated real-time clock (RTC) (calendar mode). Calendar mode integrates an
internal calendar which compensates for months with less than 31 days and includes leap year correction. The
RTC_B also supports flexible alarm functions and offset-calibration hardware. RTC operation is available in
LPM3.5 modes to minimize power consumption.
Watchdog Timer (WDT_A)
The primary function of the watchdog timer (WDT_A) module is to perform a controlled system restart after a
software problem occurs. If the selected time interval expires, a system reset is generated. If the watchdog
function is not needed in an application, the module can be configured as an interval timer and can generate
interrupts at selected time intervals.
The SYS module handles many of the system functions within the device. These include power on reset and
power up clear handling, NMI source selection and management, reset interrupt vector generators, boot strap
loader entry mechanisms, as well as, configuration management (device descriptors). It also includes a data
exchange mechanism via JTAG called a JTAG mailbox that can be used in the application.
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System Module (SYS)
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Table 9. System Module Interrupt Vector Registers
INTERRUPT VECTOR REGISTER
ADDRESS
INTERRUPT EVENT
VALUE
SYSRSTIV , System Reset
019Eh
No interrupt pending
00h
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SYSSNIV , System NMI
SYSUNIV, User NMI
24
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019Ch
019Ah
Brownout (BOR)
02h
RSTIFG RST/NMI (BOR)
04h
PMMSWBOR software BOR (BOR)
06h
LPMx.5 wake up (BOR)
08h
Security violation (BOR)
0Ah
SVSLIFG SVSL event (BOR)
0Ch
SVSHIFG SVSH event (BOR)
0Eh
Reserved
10h
Reserved
12h
PMMSWPOR software POR (POR)
14h
WDTIFG watchdog timeout (PUC)
16h
WDTPW password violation (PUC)
18h
FRCTLPW password violation (PUC)
1Ah
DBDIFG FRAM double bit error (PUC)
1Ch
Peripheral area fetch (PUC)
1Eh
PMMPW PMM password violation (PUC)
20h
MPUPW MPU password violation (PUC)
22h
CSPW CS password violation (PUC)
24h
MPUSEGIIFG information memory segment violation
(PUC)
26h
MPUSEG1IFG segment 1 memory violation (PUC)
28h
MPUSEG2IFG segment 2 memory violation (PUC)
2Ah
MPUSEG3IFG sgement 3 memory violation (PUC)
2Ch
Reserved
2Eh
Reserved
30h to 3Eh
No interrupt pending
00h
DBDIFG FRAM double bit error
02h
ACCTIMIFG access time error
04h
MPUSEGIIFG information memory segment violation
06h
MPUSEG1IFG segment 1 memory violation
08h
MPUSEG2IFG segment 2 memory violation
0Ah
MPUSEG3IFG segment 3 memory violation
0Ch
ACCVIFG access violation
0Eh
VMAIFG Vacant memory access
10h
JMBINIFG JTAG mailbox input
12h
JMBOUTIFG JTAG mailbox output
14h
SBDIFG FRAM single bit error
16h
Reserved
18h to 1Eh
No interrupt pending
00h
NMIFG NMI pin
02h
OFIFG oscillator fault
04h
Reserved
06h
Reserved
08h
Reserved
0Ah to 1Eh
PRIORITY
Highest
Lowest
Highest
Lowest
Highest
Lowest
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DMA Controller
The DMA controller allows movement of data from one memory address to another without CPU intervention. For
example, the DMA controller can be used to move data from the ADC10_B conversion memory to RAM. Using
the DMA controller can increase the throughput of peripheral modules. The DMA controller reduces system
power consumption by allowing the CPU to remain in sleep mode, without having to awaken to move data to or
from a peripheral.
Table 10. DMA Trigger Assignments (1)
Channel 0
Channel 1
0
DMAREQ
DMAREQ
DMAREQ
1
TA0CCR0 CCIFG
TA0CCR0 CCIFG
TA0CCR0 CCIFG
2
TA0CCR2 CCIFG
TA0CCR2 CCIFG
TA0CCR2 CCIFG
3
TA1CCR0 CCIFG
TA1CCR0 CCIFG
TA1CCR0 CCIFG
4
TA1CCR2 CCIFG
TA1CCR2 CCIFG
TA1CCR2 CCIFG
5
Reserved
Reserved
Reserved
6
Reserved
Reserved
Reserved
7
TB0CCR0 CCIFG
TB0CCR0 CCIFG
TB0CCR0 CCIFG
8
TB0CCR2 CCIFG
TB0CCR2 CCIFG
TB0CCR2 CCIFG
TB1CCR0 CCIFG
(2)
TB1CCR2 CCIFG
(2)
11
TB2CCR0 CCIFG
(3)
12
TB2CCR2 CCIFG (3)
9
10
TB1CCR0 CCIFG
(2)
TB1CCR0 CCIFG (2)
TB1CCR2 CCIFG
(2)
TB1CCR2 CCIFG (2)
TB2CCR0 CCIFG
(3)
TB2CCR0 CCIFG (3)
TB2CCR2 CCIFG (3)
TB2CCR2 CCIFG (3)
13
Reserved
Reserved
Reserved
14
UCA0RXIFG
UCA0RXIFG
UCA0RXIFG
15
UCA0TXIFG
UCA0TXIFG
UCA0TXIFG
UCA1RXIFG
(4)
17
UCA1TXIFG
(4)
18
UCB0RXIFG0
16
(1)
(2)
(3)
(4)
(5)
Channel 2
UCA1RXIFG
(4)
UCA1RXIFG (4)
UCA1TXIFG
(4)
UCA1TXIFG (4)
UCB0RXIFG0
UCB0RXIFG0
19
UCB0TXIFG0
UCB0TXIFG0
UCB0TXIFG0
20
UCB0RXIFG1
UCB0RXIFG1
UCB0RXIFG1
21
UCB0TXIFG1
UCB0TXIFG1
UCB0TXIFG1
22
UCB0RXIFG2
UCB0RXIFG2
UCB0RXIFG2
23
UCB0TXIFG2
UCB0TXIFG2
UCB0TXIFG2
24
UCB0RXIFG3
UCB0RXIFG3
UCB0RXIFG3
25
UCB0TXIFG3
UCB0TXIFG3
UCB0TXIFG3
26
ADC10IFGx
(5)
(5)
ADC10IFGx (5)
27
Reserved
Reserved
Reserved
28
Reserved
Reserved
Reserved
29
MPY ready
MPY ready
MPY ready
30
DMA2IFG
DMA0IFG
DMA1IFG
31
DMAE0
DMAE0
DMAE0
ADC10IFGx
PRODUCT PREVIEW
Trigger
If a reserved trigger source is selected, no trigger is generated.
Only on devices with TB1, otherwise reserved.
Only on devices with TB2, otherwise reserved.
Only on devices with eUSCI_A1, otherwise reserved.
Only on devices with ADC. Reserved on devices without ADC.
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Enhanced Universal Serial Communication Interface (eUSCI)
The eUSCI modules are used for serial data communication. The eUSCI module supports synchronous
communication protocols such as SPI (3 or 4 pin) and I2C, and asynchronous communication protocols such as
UART, enhanced UART with automatic baudrate detection, and IrDA. Each eUSCI module contains two portions,
A and B.
The eUSCI_An module provides support for SPI (3 pin or 4 pin), UART, enhanced UART, or IrDA.
The eUSCI_Bn module provides support for SPI (3 pin or 4 pin) or I2C.
The MSP430FR572x and MSP430FR573x series include one or two eUSCI_An modules (eUSCI_A0,
eUSCI_A1) and one eUSCI_Bn module (eUSCI_B).
TA0, TA1
TA0 and TA1 are 16-bit timers/counters (Timer_A type) with three capture/compare registers each. Each can
support multiple capture/compares, PWM outputs, and interval timing. Each has extensive interrupt capabilities.
Interrupts may be generated from the counter on overflow conditions and from each of the capture/compare
registers.
Table 11. TA0 Signal Connections
INPUT PIN NUMBER
PRODUCT PREVIEW
RHA
RGE
DA
PW
DEVICE
INPUT
SIGNAL
MODULE
MODULE
MODULE
INPUT
OUTPUT
BLOCK
SIGNAL
SIGNAL
3-P1.2
3-P1.2
7-P1.2
7-P1.2
TA0CLK
TACLK
ACLK
(internal)
ACLK
SMCLK
(internal)
SMCLK
Timer
N/A
DEVICE
OUTPUT
SIGNAL
OUTPUT PIN NUMBER
RHA
RGE
DA
PW
N/A
3-P1.2
3-P1.2
7-P1.2
7-P1.2
TA0CLK
TACLK
28-P1.6
16-1.6
30-P1.6
22-P1.6
TA0.0
CCI0A
28-P1.6
16-1.6
30-P1.6
22-P1.6
34-P2.3
N/A
36-P2.3
27-P2.3
TA0.0
CCI0B
34-P2.3
N/A
36-P2.3
27-P2.3
DVSS
GND
1-P1.0
2-P1.1
(1)
26
1-P1.0
2-P1.1
5-P1.0
6-P1.1
5-P1.0
6-P1.1
CCR0
TA0
TA0.0
DVCC
VCC
TA0.1
CCI1A
1-P1.0
1-P1.0
5-P1.0
5-P1.0
CDOUT
(internal)
CCI1B
ADC10
(internal) (1)
ADC10SH
Sx = {1}
ADC10
(internal) (1)
ADC10SH
Sx = {1}
ADC10
(internal) (1)
ADC10SH
Sx = {1}
ADC10
(internal) (1)
ADC10SH
Sx = {1}
DVSS
GND
2-P1.1
2-P1.1
6-P1.1
6-P1.1
DVCC
VCC
TA0.2
CCI2A
ACLK
(internal)
CCI2B
DVSS
GND
DVCC
VCC
CCR1
CCR2
TA1
TA2
TA0.1
TA0.2
Only on devices with ADC.
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Table 12. TA1 Signal Connections
RHA
INPUT PIN NUMBER
RGE
DA
PW
DEVICE
INPUT
SIGNAL
MODULE
INPUT
SIGNAL
2-P1.1
2-P1.1
6-P1.1
6-P1.1
TA1CLK
TACLK
ACLK
(internal)
ACLK
SMCLK
(internal)
SMCLK
MODUL
E
BLOCK
MODULE
OUTPUT
SIGNAL
DEVICE
OUTPUT
SIGNAL
Timer
N/A
N/A
OUTPUT PIN NUMBER
RHA
RGE
DA
PW
2-P1.1
2-P1.1
6-P1.1
6-P1.1
TA1CLK
TACLK
29-P1.7
17-P1.7
31-P1.7
23-P1.7
TA1.0
CCI0A
29-P1.7
17-P1.7
31-P1.7
23-P1.7
35-P2.4
N/A
37-P2.4
28-P2.4
TA1.0
CCI0B
35-P2.4
N/A
37-P2.4
28-P2.4
DVSS
GND
3-P1.2
3-P1.2
7-P1.2
7-P1.2
8-P1.3
4-P1.3
12-P1.3
8-P1.3
8-P1.3
3-P1.2
4-P1.3
7-P1.2
12-P1.3
7-P1.2
8-P1.3
Copyright © 2011, Texas Instruments Incorporated
DVCC
VCC
TA1.1
CCI1A
CDOUT
(internal)
CCI1B
DVSS
GND
DVCC
VCC
TA1.2
CCI2A
ACLK
(internal)
CCI2B
DVSS
GND
DVCC
VCC
CCR1
CCR2
TA0
TA1
TA2
TA1.0
TA1.1
PRODUCT PREVIEW
3-P1.2
CCR0
TA1.2
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TB0, TB1, TB2
TB0, TB1, TB2 are 16-bit timers/counters (Timer_B type) with three capture/compare registers each. Each can
support multiple capture/compares, PWM outputs, and interval timing. Each has extensive interrupt capabilities.
Interrupts may be generated from the counter on overflow conditions and from each of the capture/compare
registers.
Table 13. TB0 Signal Connections
RHA
INPUT PIN NUMBER
RGE
DA
PW
DEVICE
INPUT
SIGNAL
MODULE
INPUT
SIGNAL
21-P2.0
13-P2.0
23-P2.0
19-P2.0
TB0CLK
TBCLK
ACLK
(internal)
ACLK
SMCLK
(internal)
SMCLK
MODULE
BLOCK
MODULE
OUTPUT
SIGNAL
DEVICE
OUTPUT
SIGNAL
Timer
N/A
N/A
OUTPUT PIN NUMBER
RHA
RGE
DA
PW
21-P2.0
13-P2.0
23-P2.0
19-P2.0
TB0CLK
TBCLK
22-P2.1
14-P2.1
24-P2.1
20-P2.1
TB0.0
CCI0A
22-P2.1
14-P2.1
24-P2.1
20-P2.1
17-P2.5
N/A
19-P2.5
15-P2.5
TB0.0
CCI0B
17-P2.5
N/A
19-P2.5
15-P2.5
DVSS
GND
CCR0
TB0
TB0.0
ADC10
ADC10
ADC10
ADC10
(internal) (1 (internal) (1 (internal) (1 (internal) (1
)
)
)
)
PRODUCT PREVIEW
ADC10SH ADC10SH ADC10SH ADC10SH
Sx = {2}
Sx = {2}
Sx = {2}
Sx = {2}
9-P1.4
5-P1.4
10-P1.5
(1)
28
6-P1.5
13-P1.4
14-P1.5
9-P1.4
19-P1.5
DVCC
VCC
TB0.1
CCI1A
9-P1.4
5-P1.4
13-P1.4
9-P1.4
ADC10
ADC10
ADC10
ADC10
(internal) (1 (internal) (1 (internal) (1 (internal) (1
CDOUT
(internal)
CCI1B
DVSS
GND
DVCC
VCC
TB0.2
CCI2A
ACLK
(internal)
CCI2B
DVSS
GND
DVCC
VCC
)
CCR1
TB1
TB0.1
10-P1.5
CCR2
TB2
)
)
)
ADC10SH ADC10SH ADC10SH ADC10SH
Sx = {3}
Sx = {3}
Sx = {3}
Sx = {3}
6-P1.5
14-P1.5
19-P1.5
TB0.2
Only on devices with ADC.
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Table 14. TB1 Signal Connections (1)
RGE
DA
PW
26-P3.6
N/A
(DVSS)
28-P3.6
N/A
(DVSS)
DEVICE
INPUT
SIGNAL
MODULE
INPUT
SIGNAL
TB1CLK
TBCLK
ACLK
(internal)
ACLK
SMCLK
(internal)
SMCLK
26-P3.6
N/A
(DVSS)
28-P3.6
N/A
(DVSS)
TB1CLK
TBCLK
23-P2.2
N/A
(DVSS)
25-P2.2
N/A
(DVSS)
TB1.0
CCI0A
18-P2.6
N/A
(DVSS)
20-P2.6
N/A
(DVSS)
TB1.0
CCI0B
28-P1.6
N/A
(DVSS)
30-P1.6
N/A
(DVSS)
24-P3.4
N/A
(DVSS)
26-P3.4
N/A
(DVSS)
29-P1.7
N/A
(DVSS)
31-P1.7
N/A
(DVSS)
25-P3.5
N/A
(DVSS)
27-P3.5
N/A
(DVSS)
(1)
DVSS
GND
DVCC
VCC
TB1.1
CCI1A
TB1.1
CCI1B
DVSS
GND
DVCC
VCC
TB1.2
CCI2A
TB1.2
CCI2B
DVSS
GND
DVCC
VCC
MODULE
BLOCK
MODULE
OUTPUT
SIGNAL
DEVICE
OUTPUT
SIGNAL
Timer
N/A
N/A
CCR0
CCR1
CCR2
TB0
TB1
TB2
TB1.0
TB1.1
TB1.2
OUTPUT PIN NUMBER
RHA
RGE
DA
PW
23-P2.2
N/A
25-P2.2
N/A
18-P2.6
N/A
20-P2.6
N/A
28-P1.6
N/A
30-P1.6
N/A
24-P3.4
N/A
26-P3.4
N/A
29-P1.7
N/A
31-P1.7
N/A
25-P3.5
N/A
27-P3.5
N/A
PRODUCT PREVIEW
INPUT PIN NUMBER
RHA
TB1 is not present on all device types.
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Table 15. TB2 Signal Connections (1)
INPUT PIN NUMBER
RHA
RGE
DA
PW
24-P3.4
N/A
(DVSS)
26-P3.4
N/A
(DVSS)
DEVICE
INPUT
SIGNAL
MODULE
INPUT
SIGNAL
TB2CLK
TBCLK
ACLK
(internal)
ACLK
SMCLK
(internal)
SMCLK
24-P3.4
N/A
(DVSS)
26-P3.4
N/A
(DVSS)
TB2CLK
TBCLK
21-P2.0
N/A
(DVSS)
23-P2.0
N/A
(DVSS)
TB2.0
CCI0A
15-P4.0
N/A
(DVSS)
N/A
(DVSS)
N/A
(DVSS)
TB2.0
CCI0B
22-P2.1
N/A
(DVSS)
24-P2.1
N/A
(DVSS)
26-P3.6
N/A
(DVSS)
28-P3.6
N/A
(DVSS)
PRODUCT PREVIEW
23-P2.2
N/A
(DVSS)
25-P2.2
N/A
(DVSS)
27-P3.7
N/A
(DVSS)
29-P3.7
N/A
(DVSS)
(1)
30
DVSS
GND
DVCC
VCC
TB2.1
CCI1A
TB2.1
CCI1B
DVSS
GND
DVCC
VCC
TB2.2
CCI2A
TB2.2
CCI2B
DVSS
GND
DVCC
VCC
MODULE
BLOCK
MODULE
OUTPUT
SIGNAL
DEVICE
OUTPUT
SIGNAL
Timer
N/A
N/A
CCR0
CCR1
CCR2
TB0
TB1
TB2
TB2.0
TB2.1
TB2.2
OUTPUT PIN NUMBER
RHA
RGE
DA
PW
21-P2.0
N/A
23-P2.0
N/A
15-P4.0
N/A
36-P4.0
N/A
22-P2.1
N/A
24-P2.1
N/A
26-P3.6
N/A
28-P3.6
N/A
23-P2.2
N/A
25-P2.2
N/A
27-P3.7
N/A
29-P3.7
N/A
TB2 is not present on all device types.
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ADC10_B
The ADC10_B module supports fast, 10-bit analog-to-digital conversions. The module implements a 10-bit SAR
core, sample select control, reference generator and a conversion result buffer. A window comparator with a
lower and upper limit allows CPU independent result monitoring with three window comparator interrupt flags.
Comparator_D
The primary function of the Comparator_D module is to support precision slope analog-to-digital conversions,
battery voltage supervision, and monitoring of external analog signals.
CRC16
The CRC16 module produces a signature based on a sequence of entered data values and can be used for data
checking purposes. The CRC16 module signature is based on the CRC-CCITT standard.
Shared Reference (REF)
The reference module (REF) is responsible for generation of all critical reference voltages that can be used by
the various analog peripherals in the device.
The Embedded Emulation Module (EEM) supports real-time in-system debugging. The S version of the EEM
implemented on all devices has the following features:
• Three hardware triggers/breakpoints on memory access
• One hardware trigger/breakpoint on CPU register write access
• Up to four hardware triggers can be combined to form complex triggers/breakpoints
• One cycle counter
• Clock control on module level
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PRODUCT PREVIEW
Embedded Emulation Module (EEM)
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Peripheral File Map
Table 16. Peripherals
PRODUCT PREVIEW
32
MODULE NAME
BASE ADDRESS
OFFSET ADDRESS
RANGE
Special Functions (see Table 17)
0100h
000h - 01Fh
PMM (see Table 18)
0120h
000h - 010h
FRAM Control (see Table 19)
0140h
000h - 00Fh
CRC16 (see Table 20)
0150h
000h - 007h
Watchdog (see Table 21)
015Ch
000h - 001h
CS (see Table 22)
0160h
000h - 00Fh
SYS (see Table 23)
0180h
000h - 01Fh
Shared Reference (see Table 24)
01B0h
000h - 001h
Port P1/P2 (see Table 25)
0200h
000h - 01Fh
Port P3/P4 (see Table 26)
0220h
000h - 01Fh
Port PJ (see Table 27)
0320h
000h - 01Fh
TA0 (see Table 28)
0340h
000h - 02Fh
TA1 (see Table 29)
0380h
000h - 02Fh
TB0 (see Table 30)
03C0h
000h - 02Fh
TB1 (see Table 31)
0400h
000h - 02Fh
TB2 (see Table 32)
0440h
000h - 02Fh
Real Timer Clock (RTC_B) (see Table 33)
04A0h
000h - 01Fh
32-bit Hardware Multiplier (see Table 34)
04C0h
000h - 02Fh
DMA General Control (see Table 35)
0500h
000h - 00Fh
DMA Channel 0 (see Table 35)
0510h
000h - 00Ah
DMA Channel 1 (see Table 35)
0520h
000h - 00Ah
DMA Channel 2 (see Table 35)
0530h
000h - 00Ah
MPU Control (see Table 36)
05A0h
000h - 00Fh
eUSCI_A0 (see Table 37)
05C0h
000h - 01Fh
eUSCI_A1 (see Table 38)
05E0h
000h - 01Fh
eUSCI_B0 (see Table 39)
0640h
000h - 02Fh
ADC10_B (see Table 40)
0700h
000h - 03Fh
Comparator_D (see Table 41)
08C0h
000h - 00Fh
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Table 17. Special Function Registers (Base Address: 0100h)
REGISTER DESCRIPTION
REGISTER
OFFSET
SFR interrupt enable
SFRIE1
00h
SFR interrupt flag
SFRIFG1
02h
SFR reset pin control
SFRRPCR
04h
Table 18. PMM Registers (Base Address: 0120h)
REGISTER DESCRIPTION
REGISTER
OFFSET
PMM Control 0
PMMCTL0
00h
PMM interrupt flags
PMMIFG
0Ah
PM5 Control 0
PM5CTL0
10h
Table 19. FRAM Control Registers (Base Address: 0140h)
REGISTER
OFFSET
FRAM control 0
FRCTLCTL0
00h
General control 0
GCCTL0
04h
General control 1
GCCTL1
06h
PRODUCT PREVIEW
REGISTER DESCRIPTION
Table 20. CRC16 Registers (Base Address: 0150h)
REGISTER DESCRIPTION
REGISTER
OFFSET
CRC data input
CRC16DI
00h
CRC data input reverse byte
CRCDIRB
02h
CRC initialization and result
CRCINIRES
04h
CRC result reverse byte
CRCRESR
06h
Table 21. Watchdog Registers (Base Address: 015Ch)
REGISTER DESCRIPTION
Watchdog timer control
REGISTER
WDTCTL
OFFSET
00h
Table 22. CS Registers (Base Address: 0160h)
REGISTER DESCRIPTION
REGISTER
OFFSET
CS control 0
CSCTL0
00h
CS control 1
CSCTL1
02h
CS control 2
CSCTL2
04h
CS control 3
CSCTL3
06h
CS control 4
CSCTL4
08h
CS control 5
CSCTL5
0Ah
CS control 6
CSCTL6
0Ch
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Table 23. SYS Registers (Base Address: 0180h)
REGISTER DESCRIPTION
REGISTER
OFFSET
System control
SYSCTL
00h
Bootstrap loader configuration area
SYSBSLC
02h
JTAG mailbox control
SYSJMBC
06h
JTAG mailbox input 0
SYSJMBI0
08h
JTAG mailbox input 1
SYSJMBI1
0Ah
JTAG mailbox output 0
SYSJMBO0
0Ch
JTAG mailbox output 1
SYSJMBO1
0Eh
Bus Error vector generator
SYSBERRIV
18h
User NMI vector generator
SYSUNIV
1Ah
System NMI vector generator
SYSSNIV
1Ch
Reset vector generator
SYSRSTIV
1Eh
Table 24. Shared Reference Registers (Base Address: 01B0h)
REGISTER DESCRIPTION
Shared reference control
REGISTER
REFCTL
OFFSET
00h
PRODUCT PREVIEW
Table 25. Port P1/P2 Registers (Base Address: 0200h)
REGISTER DESCRIPTION
REGISTER
OFFSET
Port P1 input
P1IN
00h
Port P1 output
P1OUT
02h
Port P1 direction
P1DIR
04h
Port P1 pullup/pulldown enable
P1REN
06h
Port P1 selection 0
P1SEL0
0Ah
Port P1 selection 1
P1SEL1
0Ch
Port P1 interrupt vector word
P1IV
0Eh
Port P1 complement selection
P1SELC
10h
Port P1 interrupt edge select
P1IES
18h
Port P1 interrupt enable
P1IE
1Ah
Port P1 interrupt flag
P1IFG
1Ch
Port P2 input
P2IN
01h
Port P2 output
P2OUT
03h
Port P2 direction
P2DIR
05h
Port P2 pullup/pulldown enable
P2REN
07h
Port P2 selection 0
P2SEL0
0Bh
Port P2 selection 1
P2SEL1
0Dh
Port P2 complement selection
P2SELC
11h
Port P2 interrupt vector word
P2IV
1Eh
Port P2 interrupt edge select
P2IES
19h
Port P2 interrupt enable
P2IE
1Bh
Port P2 interrupt flag
P2IFG
1Dh
34
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Table 26. Port P3/P4 Registers (Base Address: 0220h)
REGISTER
OFFSET
P3IN
00h
Port P3 output
P3OUT
02h
Port P3 direction
P3DIR
04h
Port P3 pullup/pulldown enable
P3REN
06h
Port P3 selection 0
P3SEL0
0Ah
Port P3 selection 1
P3SEL1
0Ch
Port P3 interrupt vector word
P3IV
0Eh
Port P3 complement selection
P3SELC
10h
Port P3 interrupt edge select
P3IES
18h
Port P3 interrupt enable
P3IE
1Ah
Port P3 interrupt flag
P3IFG
1Ch
Port P4 input
P4IN
01h
Port P4 output
P4OUT
03h
Port P4 direction
P4DIR
05h
Port P4 pullup/pulldown enable
P4REN
07h
Port P4 selection 0
P4SEL0
0Bh
Port P4 selection 1
P4SEL1
0Dh
Port P4 complement selection
P4SELC
11h
Port P4 interrupt vector word
P4IV
1Eh
Port P4 interrupt edge select
P4IES
19h
Port P4 interrupt enable
P4IE
1Bh
Port P4 interrupt flag
P4IFG
1Dh
PRODUCT PREVIEW
REGISTER DESCRIPTION
Port P3 input
Table 27. Port J Registers (Base Address: 0320h)
REGISTER DESCRIPTION
REGISTER
OFFSET
Port PJ input
PJIN
00h
Port PJ output
PJOUT
02h
Port PJ direction
PJDIR
04h
Port PJ pullup/pulldown enable
PJREN
06h
Port PJ selection 0
PJSEL0
0Ah
Port PJ selection 1
PJSEL1
0Ch
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Table 28. TA0 Registers (Base Address: 0340h)
REGISTER DESCRIPTION
REGISTER
OFFSET
TA0 control
TA0CTL
00h
Capture/compare control 0
TA0CCTL0
02h
Capture/compare control 1
TA0CCTL1
04h
Capture/compare control 2
TA0CCTL2
06h
Capture/compare control 3
TA0CCTL3
08h
Capture/compare control 4
TA0CCTL4
0Ah
TA0 counter register
TA0R
10h
Capture/compare register 0
TA0CCR0
12h
Capture/compare register 1
TA0CCR1
14h
Capture/compare register 2
TA0CCR2
16h
Capture/compare register 3
TA0CCR3
18h
Capture/compare register 4
TA0CCR4
1Ah
TA0 expansion register 0
TA0EX0
20h
TA0 interrupt vector
TA0IV
2Eh
Table 29. TA1 Registers (Base Address: 0380h)
PRODUCT PREVIEW
REGISTER DESCRIPTION
REGISTER
OFFSET
TA1 control
TA1CTL
00h
Capture/compare control 0
TA1CCTL0
02h
Capture/compare control 1
TA1CCTL1
04h
Capture/compare control 2
TA1CCTL2
06h
TA1 counter register
TA1R
10h
Capture/compare register 0
TA1CCR0
12h
Capture/compare register 1
TA1CCR1
14h
Capture/compare register 2
TA1CCR2
16h
TA1 expansion register 0
TA1EX0
20h
TA1 interrupt vector
TA1IV
2Eh
Table 30. TB0 Registers (Base Address: 03C0h)
REGISTER DESCRIPTION
REGISTER
OFFSET
TB0 control
TB0CTL
00h
Capture/compare control 0
TB0CCTL0
02h
Capture/compare control 1
TB0CCTL1
04h
Capture/compare control 2
TB0CCTL2
06h
TB0 register
TB0R
10h
Capture/compare register 0
TB0CCR0
12h
Capture/compare register 1
TB0CCR1
14h
Capture/compare register 2
TB0CCR2
16h
TB0 expansion register 0
TB0EX0
20h
TB0 interrupt vector
TB0IV
2Eh
36
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Table 31. TB1 Registers (Base Address: 0400h)
REGISTER DESCRIPTION
REGISTER
OFFSET
TB1 control
TB1CTL
00h
Capture/compare control 0
TB1CCTL0
02h
Capture/compare control 1
TB1CCTL1
04h
Capture/compare control 2
TB1CCTL2
06h
TB1 register
TB1R
10h
Capture/compare register 0
TB1CCR0
12h
Capture/compare register 1
TB1CCR1
14h
Capture/compare register 2
TB1CCR2
16h
TB1 expansion register 0
TB1EX0
20h
TB1 interrupt vector
TB1IV
2Eh
Table 32. TB2 Registers (Base Address: 0440h)
REGISTER
OFFSET
TB2 control
TB2CTL
00h
Capture/compare control 0
TB2CCTL0
02h
Capture/compare control 1
TB2CCTL1
04h
Capture/compare control 2
TB2CCTL2
06h
TB2 register
TB2R
10h
Capture/compare register 0
TB2CCR0
12h
Capture/compare register 1
TB2CCR1
14h
Capture/compare register 2
TB2CCR2
16h
TB2 expansion register 0
TB2EX0
20h
TB2 interrupt vector
TB2IV
2Eh
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REGISTER DESCRIPTION
37
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Table 33. Real-Time Clock Registers (Base Address: 04A0h)
REGISTER DESCRIPTION
REGISTER
OFFSET
PRODUCT PREVIEW
RTC control 0
RTCCTL0
00h
RTC control 1
RTCCTL1
01h
RTC control 2
RTCCTL2
02h
RTC control 3
RTCCTL3
03h
RTC prescaler 0 control
RTCPS0CTL
08h
RTC prescaler 1 control
RTCPS1CTL
0Ah
RTC prescaler 0
RTCPS0
0Ch
RTC prescaler 1
RTCPS1
0Dh
RTC interrupt vector word
RTCIV
0Eh
RTC seconds/counter register 1
RTCSEC/RTCNT1
10h
RTC minutes/counter register 2
RTCMIN/RTCNT2
11h
RTC hours/counter register 3
RTCHOUR/RTCNT3
12h
RTC day of week/counter register 4
RTCDOW/RTCNT4
13h
RTC days
RTCDAY
14h
RTC month
RTCMON
15h
RTC year low
RTCYEARL
16h
RTC year high
RTCYEARH
17h
RTC alarm minutes
RTCAMIN
18h
RTC alarm hours
RTCAHOUR
19h
RTC alarm day of week
RTCADOW
1Ah
RTC alarm days
RTCADAY
1Bh
Binary-to-BCD conversion register
BIN2BCD
1Ch
BCD-to-binary conversion register
BCD2BIN
1Eh
38
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Table 34. 32-bit Hardware Multiplier Registers (Base Address: 04C0h)
REGISTER
OFFSET
MPY
00h
16-bit operand 1 – signed multiply
MPYS
02h
16-bit operand 1 – multiply accumulate
MAC
04h
16-bit operand 1 – signed multiply accumulate
MACS
06h
16-bit operand 2
OP2
08h
16 × 16 result low word
RESLO
0Ah
16 × 16 result high word
RESHI
0Ch
16 × 16 sum extension register
SUMEXT
0Eh
32-bit operand 1 – multiply low word
MPY32L
10h
32-bit operand 1 – multiply high word
MPY32H
12h
32-bit operand 1 – signed multiply low word
MPYS32L
14h
32-bit operand 1 – signed multiply high word
MPYS32H
16h
32-bit operand 1 – multiply accumulate low word
MAC32L
18h
32-bit operand 1 – multiply accumulate high word
MAC32H
1Ah
32-bit operand 1 – signed multiply accumulate low word
MACS32L
1Ch
32-bit operand 1 – signed multiply accumulate high word
MACS32H
1Eh
32-bit operand 2 – low word
OP2L
20h
32-bit operand 2 – high word
OP2H
22h
32 × 32 result 0 – least significant word
RES0
24h
32 × 32 result 1
RES1
26h
32 × 32 result 2
RES2
28h
32 × 32 result 3 – most significant word
RES3
2Ah
MPY32 control register 0
MPY32CTL0
2Ch
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REGISTER DESCRIPTION
16-bit operand 1 – multiply
39
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Table 35. DMA Registers (Base Address DMA General Control: 0500h,
DMA Channel 0: 0510h, DMA Channel 1: 0520h, DMA Channel 2: 0530h)
REGISTER DESCRIPTION
REGISTER
OFFSET
PRODUCT PREVIEW
DMA channel 0 control
DMA0CTL
00h
DMA channel 0 source address low
DMA0SAL
02h
DMA channel 0 source address high
DMA0SAH
04h
DMA channel 0 destination address low
DMA0DAL
06h
DMA channel 0 destination address high
DMA0DAH
08h
DMA channel 0 transfer size
DMA0SZ
0Ah
DMA channel 1 control
DMA1CTL
00h
DMA channel 1 source address low
DMA1SAL
02h
DMA channel 1 source address high
DMA1SAH
04h
DMA channel 1 destination address low
DMA1DAL
06h
DMA channel 1 destination address high
DMA1DAH
08h
DMA channel 1 transfer size
DMA1SZ
0Ah
DMA channel 2 control
DMA2CTL
00h
DMA channel 2 source address low
DMA2SAL
02h
DMA channel 2 source address high
DMA2SAH
04h
DMA channel 2 destination address low
DMA2DAL
06h
DMA channel 2 destination address high
DMA2DAH
08h
DMA channel 2 transfer size
DMA2SZ
0Ah
DMA module control 0
DMACTL0
00h
DMA module control 1
DMACTL1
02h
DMA module control 2
DMACTL2
04h
DMA module control 3
DMACTL3
06h
DMA module control 4
DMACTL4
08h
DMA interrupt vector
DMAIV
0Ah
Table 36. MPU Control Registers (Base Address: 05A0h)
REGISTER DESCRIPTION
REGISTER
OFFSET
MPU control 0
MPUCTL0
00h
MPU control 1
MPUCTL1
02h
MPU Segmentation Register
MPUSEG
04h
MPU access management
MPUSAM
06h
40
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Table 37. eUSCI_A0 Registers (Base Address: 05C0h)
REGISTER DESCRIPTION
REGISTER
OFFSET
eUSCI_A control word 0
UCA0CTLW0
00h
eUSCI _A control word 1
UCA0CTLW1
03h
eUSCI_A baud rate 0
UCA0BR0
06h
eUSCI_A baud rate 1
UCA0BR1
07h
eUSCI_A modulation control
UCA0MCTLW
08h
eUSCI_A status
UCA0STAT
0Ah
eUSCI_A receive buffer
UCA0RXBUF
0Ch
eUSCI_A transmit buffer
UCA0TXBUF
0Eh
eUSCI_A LIN control
UCA0ABCTL
10h
eUSCI_A IrDA transmit control
UCA0IRTCTL
12h
eUSCI_A IrDA receive control
UCA0IRRCTL
13h
eUSCI_A interrupt enable
UCA0IE
1Ah
eUSCI_A interrupt flags
UCA0IFG
1Ch
eUSCI_A interrupt vector word
UCA0IV
1Eh
REGISTER
OFFSET
eUSCI_A control word 0
UCA1CTLW0
00h
eUSCI _A control word 1
UCA1CTLW1
03h
eUSCI_A baud rate 0
UCA1BR0
06h
eUSCI_A baud rate 1
UCA1BR1
07h
eUSCI_A modulation control
UCA1MCTLW
08h
eUSCI_A status
UCA1STAT
0Ah
eUSCI_A receive buffer
UCA1RXBUF
0Ch
eUSCI_A transmit buffer
UCA1TXBUF
0Eh
eUSCI_A LIN control
UCA1ABCTL
10h
eUSCI_A IrDA transmit control
UCA1IRTCTL
12h
eUSCI_A IrDA receive control
UCA1IRRCTL
13h
eUSCI_A interrupt enable
UCA1IE
1Ah
eUSCI_A interrupt flags
UCA1IFG
1Ch
eUSCI_A interrupt vector word
UCA1IV
1Eh
Copyright © 2011, Texas Instruments Incorporated
PRODUCT PREVIEW
Table 38. eUSCI_A1 Registers (Base Address:05E0h)
REGISTER DESCRIPTION
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Table 39. eUSCI_B0 Registers (Base Address: 0640h)
REGISTER DESCRIPTION
REGISTER
OFFSET
PRODUCT PREVIEW
eUSCI_B control word 0
UCB0CTLW0
00h
eUSCI_B control word 1
UCB0CTLW1
02h
eUSCI_B bit rate 0
UCB0BR0
06h
eUSCI_B bit rate 1
UCB0BR1
07h
eUSCI_B status word
UCB0STATW
08h
eUSCI_B byte counter threshold
UCB0TBCNT
0Ah
eUSCI_B receive buffer
UCB0RXBUF
0Ch
eUSCI_B transmit buffer
UCB0TXBUF
0Eh
eUSCI_B I2C own address 0
UCB0I2COA0
14h
eUSCI_B I2C own address 1
UCB0I2COA1
16h
eUSCI_B I2C own address 2
UCB0I2COA2
18h
eUSCI_B I2C own address 3
UCB0I2COA3
1Ah
eUSCI_B received address
UCB0ADDRX
1Ch
eUSCI_B address mask
UCB0ADDMASK
1Eh
eUSCI I2C slave address
UCB0I2CSA
20h
eUSCI interrupt enable
UCB0IE
2Ah
eUSCI interrupt flags
UCB0IFG
2Ch
eUSCI interrupt vector word
UCB0IV
2Eh
Table 40. ADC10_B Registers (Base Address: 0700h)
REGISTER DESCRIPTION
REGISTER
OFFSET
ADC10_B Control register 0
ADC10CTL0
00h
ADC10_B Control register 1
ADC10CTL1
02h
ADC10_B Control register 2
ADC10CTL2
04h
ADC10_B Window Comparator Low Threshold
ADC10LO
06h
ADC10_B Window Comparator High Threshold
ADC10HI
08h
ADC10_B Memory Control Register 0
ADC10MCTL0
0Ah
ADC10_B Conversion Memory Register
ADC10MCTL0
12h
ADC10_B Interrupt Enable
ADC10IE
1Ah
ADC10_B Interrupt Flags
ADC10IGH
1Ch
ADC10_B Interrupt Vector Word
ADC10IV
1Eh
Table 41. Comparator_D Registers (Base Address: 08C0h)
REGISTER DESCRIPTION
REGISTER
OFFSET
Comparator_D control register 0
CDCTL0
00h
Comparator_D control register 1
CDCTL1
02h
Comparator_D control register 2
CDCTL2
04h
Comparator_D control register 3
CDCTL3
06h
Comparator_D interrupt register
CDINT
0Ch
Comparator_D interrupt vector word
CDIV
0Eh
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Absolute Maximum Ratings (1)
over operating free-air temperature range (unless otherwise noted)
–0.3 V to 4.1 V
Voltage applied at VCC to VSS
Voltage applied to any pin (excluding VCORE)
(2)
–0.3 V to VCC + 0.3 V
±2 mA
Diode current at any device pin
Storage temperature range, Tstg
(3) (4) (5)
–40°C to 125°C
Maximum junction temperature, TJ
(1)
(2)
(3)
(4)
(5)
95°C
Stresses beyond those listed under "absolute maximum ratings" may cause permanent damage to the device. These are stress ratings
only, and functional operation of the device at these or any other conditions beyond those indicated under "recommended operating
conditions" is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
All voltages referenced to VSS. VCORE is for internal device usage only. No external DC loading or voltage should be applied.
Data retention on FRAM memory cannot be ensured when exceeding the specified maximum storage temperature, Tstg.
For soldering during board manufacturing, it is required to follow the current JEDEC J-STD-020 specification with peak reflow
temperatures not higher than classified on the device label on the shipping boxes or reels. If hand soldering is required for application
prototyping, peak temperature must not exceed 250°C for a total of 5 minutes for any single device.
Programming of devices with user application code should only be performed post reflow/hand soldering. Factory programmed
information, such as calibration values, are designed to withstand the temperatures reached in the current JEDEC J-STD-020
specification.
Recommended Operating Conditions
VCC
VSS
Supply voltage (AVSS= DVSS)
TA
Operating free-air temperature
I version
–40
TJ
Operating junction temperature
I version
–40
CVCORE
Required capacitor at VCORE
CVCC/
CVCORE
Capacitor ratio of VCC to VCORE
fSYSTEM
(1)
(2)
Processor frequency (maximum MCLK frequency) (2)
NOM
2.0
MAX
UNIT
3.6
V
85
°C
0
V
85
470
°C
nF
10
No FRAM wait states
2.0 V ≤ VCC ≤ 3.6 V
0
8.0
With FRAM wait states
NACCESS = {1},
NPRECHG = {2}
2.0 V ≤ VCC ≤ 3.6 V
0
24.0
MHz
It is recommended to power AVCC and DVCC from the same source. A maximum difference of 0.3 V between AVCC and DVCC can be
tolerated during power up and operation.
Modules may have a different maximum input clock specification. Refer to the specification of the respective module in this data sheet.
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PRODUCT PREVIEW
MIN
Supply voltage during program execution and FRAM
programming(AVCC = DVCC) (1)
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
INPUT/OUTPUT SCHEMATICS
Port P1, P1.0 to P1.2, Input/Output With Schmitt Trigger
Pad Logic
External ADC reference
(P1.0, P1.1)
To ADC
From ADC
To Comparator
From Comparator
CDPD.x
P1REN.x
P1DIR.x
00
01
10
Direction
0: Input
1: Output
11
P1OUT.x
DVSS
0
DVCC
1
1
00
PRODUCT PREVIEW
From module 1
01
From module 2
10
DVSS
11
P1.0/TA0.1/DMAE0/RTCCLK/A0/CD0/VeREFP1.1/TA0.2/TA1CLK/CDOUT/A1/CD1/VeREF+
P1.2/TA1.1/TA0CLK/CDOUT/A2/CD2
P1SEL0.x
P1SEL1.x
P1IN.x
EN
To modules
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Table 42. Port P1 (P1.0 to P1.2) Pin Functions
P1.0/TA0.1/DMAE0/RTCCLK/A0/CD0/VeREF-
P1.1/TA0.2/TA1CLK/CDOUT/A1/CD1/VeREF+
P1.2/TA1.1/TA0CLK/CDOUT/A2/CD2
(1)
(2)
(3)
x
FUNCTION
0 P1.0 (I/O)
CONTROL BITS/SIGNALS
P1DIR.x
P1SEL1.x
P1SEL0.x
I: 0; O: 1
0
0
0
1
1
0
TA0.CCI1A
0
TA0.1
1
DMAE0
0
RTCCLK
1
A0 (1) (2)
CD0 (1) (3)
VeREF- (1) (2)
X
1
1
I: 0; O: 1
0
0
0
1
1
0
1 P1.1 (I/O)
TA0.CCI2A
0
TA0.2
1
TA1CLK
0
CDOUT
1
A1 (1) (2)
CD1 (1) (3)
VeREF+ (1) (2)
X
1
1
I: 0; O: 1
0
0
0
1
1
0
1
1
2 P1.2 (I/O)
TA1.CCI1A
0
TA1.1
1
TA0CLK
0
CDOUT
1
A2 (1) (2)
CD2 (1) (3)
X
PRODUCT PREVIEW
PIN NAME (P1.x)
Setting P1SEL1.x and P1SEL0.x will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross currents
when applying analog signals.
Not available on all devices and package types.
Setting the CDPD.x bit of the comparator will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross
currents when applying analog signals. Selecting the CDx input pin to the comparator multiplexer with the CDx bits automatically
disables output driver and input buffer for that pin, regardless of the state of the associated CDPD.x bit.
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Port P1, P1.3 to P1.5, Input/Output With Schmitt Trigger
Pad Logic
To ADC
From ADC
To Comparator
From Comparator
CDPD.x
P1REN.x
P1DIR.x
00
01
From module 2
10
Direction
0: Input
1: Output
11
PRODUCT PREVIEW
P1OUT.x
00
From module 1
01
From module 2
10
DVSS
11
DVSS
0
DVCC
1
1
P1.3/TA1.2/UCB0STE/A3/CD3
P1.4/TB0.1/UCA0STE/A4/CD4
P1.5/TB0.2/UCA0CLK/A5/CD5
P1SEL0.x
P1SEL1.x
P1IN.x
EN
To modules
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Table 43. Port P1 (P1.3 to P1.5) Pin Functions
P1.3/TA1.2/UCB0STE/A3/CD3
x
3
FUNCTION
P1.3 (I/O)
5
0
1
X (1)
1
0
X
1
1
P1.4 (I/O)
I: 0; O: 1
0
0
0
1
X (5)
1
0
A4 (2) (3)
CD4 (2) (4)
X
1
1
P1.5(I/O)
I: 0; O: 1
0
0
0
1
X (5)
1
0
X
1
1
TB0.CCI1A
0
TB0.1
1
TB0.CCI2A
0
TB0.2
1
CD5
(5)
0
A3 (2) (3)
(2) (4)
A5 (2) (3)
(2) (4)
(3)
(4)
0
1
UCA0CLK
(1)
(2)
I: 0; O: 1
TA1.2
UCA0STE
P1.5/TB0.2/UCA0CLK/A5/CD5
P1SEL0.x
0
CD3
4
P1SEL1.x
TA1.CCI2A
UCB0STE
P1.4/TB0.1/UCA0STE/A4/CD4
CONTROL BITS/SIGNALS
P1DIR.x
PRODUCT PREVIEW
PIN NAME (P1.x)
Direction controlled by eUSCI_B0 module.
Setting P1SEL1.x and P1SEL0.x will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross currents
when applying analog signals.
Not available on all devices and package types.
Setting the CDPD.x bit of the comparator will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross
currents when applying analog signals. Selecting the CDx input pin to the comparator multiplexer with the CDx bits automatically
disables output driver and input buffer for that pin, regardless of the state of the associated CDPD.x bit
Direction controlled by eUSCI_A0 module.
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Port P1, P1.6 to P1.7, Input/Output With Schmitt Trigger
Pad Logic
P1REN.x
P1DIR.x
00
From module 2
10
01
Direction
0: Input
1: Output
11
P1OUT.x
DVSS
0
DVCC
1
1
00
From module 1
01
From module 2
10
From module 3
11
P1.6/TB1.1/UCB0SIMO/UCB0SDA/TA0.0
P1.7/TB1.2/UCB0SOMI/UCB0SCL/TA1.0
P1SEL0.x
P1SEL1.x
P1IN.x
PRODUCT PREVIEW
Bus
Keeper
EN
To modules
D
Table 44. Port P1 (P1.6 to P1.7) Pin Functions
PIN NAME (P1.x)
P1.6/TB1.1/UCB0SIMO/UCB0SDA/TA0.0
x
6
FUNCTION
P1.6 (I/O)
7
48
P1SEL1.x
P1SEL0.x
0
0
0
1
1
0
1
1
0
0
0
1
1
0
1
1
0
TB1.1 (1)
1
X (2)
TA0.CCI0A
0
TA0.0
1
P1.7 (I/O)
I: 0; O: 1
TB1.CCI2A (1)
0
TB1.2 (1)
1
UCB0SOMI/UCB0SCL
(1)
(2)
(3)
P1DIR.x
I: 0; O: 1
TB1.CCI1A (1)
UCB0SIMO/UCB0SDA
P1.7/TB1.2/UCB0SOMI/UCB0SCL/TA1.0
CONTROL BITS/SIGNALS
X (3)
TA1.CCI0A
0
TA1.0
1
Not available on all devices and package types.
Direction controlled by eUSCI_B0 module.
Direction controlled by eUSCI_A0 module.
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Port P2, P2.0 to P2.2, Input/Output With Schmitt Trigger
Pad Logic
P2REN.x
P2DIR.x
00
From module 2
10
01
Direction
0: Input
1: Output
11
P2OUT.x
DVSS
0
DVCC
1
1
00
From module 1
01
From module 2
10
From module 3
11
P2.0/TB2.0/UCA0TXD/UCA0SIMO/TB0CLK/ACLK
P2.1/TB2.1/UCA0RXD/UCA0SOMI/TB0.0
P2.2/TB2.2/UCB0CLK/TB1.0
P2SEL0.x
Bus
Keeper
EN
D
To modules
Table 45. Port P2 (P2.0 to P2.2) Pin Functions
PIN NAME (P2.x)
P2.0/TB2.0/UCA0TXD/UCA0SIMO/TB0CLK/ACLK
x
FUNCTION
0 P2.0 (I/O)
TB2.CCI0A
CONTROL BITS/SIGNALS
P2DIR.x
P2SEL1.x
P2SEL0.x
I: 0; O: 1
0
0
0
1
1
0
1
1
0
0
0
1
1
0
1
1
0
0
0
1
1
0
1
1
(1)
0
TB2.0 (1)
1
UCA0TXD/UCA0SIMO
P2.1/TB2.1/UCA0RXD/UCA0SOMI/TB0.0
TB0CLK
0
ACLK
1
1 P2.1 (I/O)
I: 0; O: 1
TB2.CCI1A (1)
0
TB2.1 (1)
1
UCA0RXD/UCA0SOMI
P2.2/TB2.2/UCB0CLK/TB1.0
X (2)
TB0.CCI0A
0
TB0.0
1
2 P2.2 (I/O)
I: 0; O: 1
TB2.CCI2A (1)
0
TB2.2 (1)
1
UCB0CLK
TB1.CCI0A
TB1.0 (1)
(1)
(2)
(3)
X (2)
X
(1)
(3)
0
1
Not available on all devices and package types.
Direction controlled by eUSCI_A0 module.
Direction controlled by eUSCI_B0 module.
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PRODUCT PREVIEW
P2SEL1.x
P2IN.x
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P2, P2.3 to P2.4, Input/Output With Schmitt Trigger
Pad Logic
To ADC
From ADC
To Comparator
From Comparator
CDPD.x
P2REN.x
P2DIR.x
00
From module 2
10
01
Direction
0: Input
1: Output
11
PRODUCT PREVIEW
P2OUT.x
DVSS
0
DVCC
1
1
00
From module 1
01
From module 2
10
DVSS
11
P2.3/TA0.0/UCA1STE/A6/CD10
P2.4/TA1.0/UCA1CLK/A7/CD11
P2SEL0.x
P2SEL1.x
P2IN.x
EN
To modules
50
Bus
Keeper
D
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MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 46. Port P2 (P2.3 to P2.4) Pin Functions
PIN NAME (P2.x)
P2.3/TA0.0/UCA1STE/A6/CD10
x
3
FUNCTION
P2.3 (I/O)
0
0
0
1
1
0
1
X
(1)
A6 (2) (3)
(2) (4)
X
1
1
P2.4 (I/O)
I: 0; O: 1
0
0
0
1
1
0
1
1
TA1.CCI0B
0
TA1.0
1
A7 (2) (3)
CD11 (2) (4)
X
(1)
X
Direction controlled by eUSCI_A1 module.
Setting P2SEL1.x and P2SEL0.x will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross currents
when applying analog signals.
Not available on all devices and package types.
Setting the CDPD.x bit of the comparator will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross
currents when applying analog signals. Selecting the CDx input pin to the comparator multiplexer with the CDx bits automatically
disables output driver and input buffer for that pin, regardless of the state of the associated CDPD.x bit.
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(3)
(4)
I: 0; O: 1
TA0.0
UCA1CLK
(1)
(2)
P2SEL0.x
0
CD10
4
P2SEL1.x
TA0.CCI0B
UCA1STE
P2.4/TA1.0/UCA1CLK/A7/CD11
CONTROL BITS/SIGNALS
P2DIR.x
51
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P2, P2.5 to P2.6, Input/Output With Schmitt Trigger
Pad Logic
P2REN.x
P2DIR.x
00
From module 2
10
01
Direction
0: Input
1: Output
11
P2OUT.x
DVSS
0
DVCC
1
1
00
From module 1
01
From module 2
10
DVSS
11
P2.5/TB0.0/UCA1TXD/UCA1SIMO
P2.6/TB1.0/UCA1RXD/UCA1SOMI
P2SEL0.x
PRODUCT PREVIEW
P2SEL1.x
P2IN.x
Bus
Keeper
EN
To modules
D
Table 47. Port P2 (P2.5 to P2.6) Pin Functions
PIN NAME (P2.x)
P2.5/TB0.0/UCA1TXD/UCA1SIMO
x
FUNCTION
5 P2.5(I/O)
(1)
52
P2SEL0.x
I: 0; O: 1
0
0
0
1
X (2)
1
0
I: 0; O: 1
0
0
0
1
1
0
0
TB0.0 (1)
1
6 P2.6(I/O)
(1)
TB1.CCI0B (1)
0
TB1.0 (1)
1
UCA1RXD/UCA1SOMI (1)
(1)
(2)
P2SEL1.x
TB0.CCI0B (1)
UCA1TXD/UCA1SIMO (1)
P2.6/TB1.0/UCA1RXD/UCA1SOMI
CONTROL BITS/SIGNALS
P2DIR.x
X (2)
Not available on all devices and package types.
Direction controlled by eUSCI_A1 module.
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Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P2, P2.7, Input/Output With Schmitt Trigger
Pad Logic
P2REN.x
00
01
10
Direction
0: Input
1: Output
11
P2OUT.x
DVSS
0
DVCC
1
1
00
DVSS
01
DVSS
10
DVSS
11
P2.7
P2SEL0.x
P2SEL1.x
P2IN.x
Bus
Keeper
EN
To modules
D
Table 48. Port P2 (P2.7) Pin Functions
PIN NAME (P2.x)
P2.7
(1)
x
7 P2.7(I/O)
FUNCTION
(1)
CONTROL BITS/SIGNALS
P2DIR.x
P2SEL1.x
P2SEL0.x
I: 0; O: 1
0
0
Not available on all devices and package types.
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53
PRODUCT PREVIEW
P2DIR.x
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P3, P3.0 to P3.3, Input/Output With Schmitt Trigger
Pad Logic
To ADC
From ADC
To Comparator
From Comparator
CDPD.x
P3REN.x
P3DIR.x
00
01
10
PRODUCT PREVIEW
Direction
0: Input
1: Output
11
P3OUT.x
00
DVSS
01
DVSS
10
DVSS
11
DVSS
0
DVCC
1
P3.0/A12/CD12
P3.1/A13/CD13
P3.2/A14/CD14
P3.3/A15/CD15
P3SEL0.x
P3SEL1.x
P3IN.x
EN
To modules
54
1
Bus
Keeper
D
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MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 49. Port P3 (P3.0 to P3.3) Pin Functions
PIN NAME (P3.x)
P3.0/A12/CD12
x
FUNCTION
0 P3.0 (I/O)
A12 (1) (2)
CD12 (1) (3)
P3.1/A13/CD13
1 P3.1 (I/O)
A13 (1) (2)
(1) (3)
CD13
P3.2/A14/CD14
2 P3.2 (I/O)
A14 (1) (2)
(1) (3)
CD14
P3.3/A15/CD15
3 P3.3 (I/O)
A15 (1) (2)
CD15 (1) (3)
(2)
(3)
P3SEL1.x
P3SEL0.x
I: 0; O: 1
0
0
X
1
1
I: 0; O: 1
0
0
X
1
1
I: 0; O: 1
0
0
X
1
1
I: 0; O: 1
0
0
X
1
1
Setting P1SEL1.x and P1SEL0.x will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross currents
when applying analog signals.
Not available on all devices and package types.
Setting the CDPD.x bit of the comparator will disable the output driver as well as the input Schmitt trigger to prevent parasitic cross
currents when applying analog signals. Selecting the CDx input pin to the comparator multiplexer with the CDx bits automatically
disables output driver and input buffer for that pin, regardless of the state of the associated CDPD.x bit.
Copyright © 2011, Texas Instruments Incorporated
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PRODUCT PREVIEW
(1)
CONTROL BITS/SIGNALS
P3DIR.x
55
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P3, P3.4 to P3.6, Input/Output With Schmitt Trigger
Pad Logic
P3REN.x
P3DIR.x
00
01
10
Direction
0: Input
1: Output
11
P3OUT.x
DVSS
0
DVCC
1
1
00
From module 1
01
DVSS
10
From module 2
11
P3.4/TB1.1/TB2CLK/SMCLK
P3.5/TB1.2/CDOUT
P3.6/TB2.1/TB1CLK
P3SEL0.x
PRODUCT PREVIEW
P3SEL1.x
P3IN.x
Bus
Keeper
EN
To modules
D
Table 50. Port P3 (P3.4 to P3.6) Pin Functions
PIN NAME (P3.x)
P3.4/TB1.1/TB2CLK/SMCLK
x
FUNCTION
4 P3.4 (I/O) (1)
TB1.CCI1B
P3.5/TB1.2/CDOUT
P3.6/TB2.1/TB1CLK
(1)
56
(1)
CONTROL BITS/SIGNALS
P3DIR.x
P3SEL1.x
P3SEL0.x
I: 0; O: 1
0
0
0
1
1
1
0
0
0
1
0
TB1.1 (1)
1
TB2CLK (1)
0
SMCLK (1)
1
5 P3.5 (I/O) (1)
I: 0; O: 1
TB1.CCI2B (1)
0
TB1.2 (1)
1
CDOUT (1)
1
1
1
6 P3.6 (I/O) (1)
I: 0; O: 1
0
0
0
1
1
1
TB2.CCI1B (1)
0
TB2.1 (1)
1
TB1CLK (1)
0
Not available on all devices and package types.
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Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P3, P3.7, Input/Output With Schmitt Trigger
Pad Logic
P3REN.x
00
01
10
Direction
0: Input
1: Output
11
P3OUT.x
00
From module 1
01
DVSS
10
DVSS
11
DVSS
0
DVCC
1
1
P3.7/TB2.2
P3SEL0.x
P3SEL1.x
P3IN.x
Bus
Keeper
EN
To modules
D
Table 51. Port P3 (P3.7) Pin Functions
PIN NAME (P3.x)
P3.7/TB2.2
(1)
x
FUNCTION
7 P3.7 (I/O) (1)
CONTROL BITS/SIGNALS
P3DIR.x
P3SEL1.x
P3SEL0.x
I: 0; O: 1
0
0
0
1
TB2.CCI2B (1)
0
TB2.2 (1)
1
Not available on all devices and package types.
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PRODUCT PREVIEW
P3DIR.x
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P4, P4.0, Input/Output With Schmitt Trigger
Pad Logic
P4REN.x
P4DIR.x
00
01
10
Direction
0: Input
1: Output
11
PRODUCT PREVIEW
P4OUT.x
00
From module 1
01
DVSS
10
DVSS
11
DVSS
0
DVCC
1
1
P4.0/TB2.0
P4SEL0.x
P4SEL1.x
P4IN.x
Bus
Keeper
EN
To modules
D
Table 52. Port P4 (P4.0) Pin Functions
PIN NAME (P4.x)
P4.0/TB2.0
(1)
58
x
FUNCTION
0 P4.0 (I/O) (1)
CONTROL BITS/SIGNALS
P4DIR.x
P4SEL1.x
P4SEL0.x
I: 0; O: 1
0
0
0
1
TB2.CCI0B (1)
0
TB2.0 (1)
1
Not available on all devices and package types.
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Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port P4, P4.1, Input/Output With Schmitt Trigger
Pad Logic
P4REN.x
00
01
10
Direction
0: Input
1: Output
11
P4OUT.x
DVSS
0
DVCC
1
1
00
DVSS
01
DVSS
10
DVSS
11
P4.1
P4SEL0.x
P4SEL1.x
P4IN.x
Bus
Keeper
EN
To modules
D
Table 53. Port P4 (P4.1) Pin Functions
PIN NAME (P4.x)
P4.1
(1)
x
1 P4.1 (I/O)
FUNCTION
(1)
CONTROL BITS/SIGNALS
P4DIR.x
P4SEL1.x
P4SEL0.x
I: 0; O: 1
0
0
Not available on all devices and package types.
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59
PRODUCT PREVIEW
P4DIR.x
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port PJ, PJ.4 and PJ.5 Input/Output With Schmitt Trigger
Pad Logic
To XT1 XIN
PJREN.4
PJDIR.4
00
01
10
Direction
0: Input
1: Output
11
PJOUT.4
DVSS
0
DVCC
1
1
00
PRODUCT PREVIEW
DVSS
01
DVSS
10
DVSS
11
PJ.4/XIN
PJSEL0.4
PJSEL1.4
PJIN.4
EN
To modules
60
Bus
Keeper
D
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MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Pad Logic
To XT1 XOUT
PJSEL0.4
XT1BYPASS
PJREN.5
00
01
10
Direction
0: Input
1: Output
11
PJOUT.5
00
DVSS
01
DVSS
10
DVSS
11
DVSS
0
DVCC
1
1
PJ.5/XOUT
PJSEL0.5
PJSEL1.5
PJIN.5
Bus
Keeper
EN
To modules
D
Table 54. Port PJ (PJ.4 and PJ.5) Pin Functions
CONTROL BITS/SIGNALS (1)
PIN NAME (P7.x)
PJ.4/XIN
x
FUNCTION
PJDIR.x
4 PJ.4 (I/O)
XIN crystal mode (2)
XIN bypass mode
PJ.5/XOUT
5 PJ.5 (I/O)
XOUT crystal
mode (3)
PJ.5 (I/O) (4)
(1)
(2)
(3)
(4)
(2)
PJSEL1.5 PJSEL0.5 PJSEL1.4 PJSEL0.4
XT1BYPA
SS
I: 0; O: 1
X
X
0
0
X
X
X
X
0
1
0
X
X
X
0
1
1
I: 0; O: 1
0
0
0
0
X
X
X
X
0
1
0
I: 0; O: 1
X
X
0
1
1
X = Don't care
Setting PJSEL1.4 = 0 and PJSEL0.4 = 1 causes the general-purpose I/O to be disabled. When XT1BYPASS = 0, PJ.4 and PJ.5 are
configured for crystal operation and PJSEL1.5 and PJSEL0.5 are do not care. When XT1BYPASS = 1, PJ.4 is configured for bypass
operation and PJ.5 is configured as general-purpose I/O.
Setting PJSEL1.4 = 0 and PJSEL0.4 = 1 causes the general-purpose I/O to be disabled. When XT1BYPASS = 0, PJ.4 and PJ.5 are
configured for crystal operation and PJSEL1.5 and PJSEL0.5 are do not care. When XT1BYPASS = 1, PJ.4 is configured for bypass
operation and PJ.5 is configured as general-purpose I/O.
When PJ.4 is configured in bypass mode, PJ.5 is configured as general-purpose I/O.
Copyright © 2011, Texas Instruments Incorporated
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PRODUCT PREVIEW
PJDIR.5
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Port J, J.0 to J.3 JTAG pins TDO, TMS, TCK, TDI/TCLK, Input/Output With Schmitt Trigger or
Output
To Comparator
From Comparator
CDPD.x
Pad Logic
From JTAG
From JTAG
From JTAG
1
PJREN.x
PJDIR.x
0
00
1
01
10
DVSS
0
DVCC
1
0
Direction
0: Input
1: Output
11
1
JTAG enable
PJOUT.x
00
From module 1
01
1
DVSS
10
0
DVSS
11
PJ.0/TDO/TB0OUTH/SMCLK/CD6
PJ.1/TDI/TCLK/TB1OUTH/MCLK/CD7
PJ.2/TMS/TB2OUTH/ACLK/CD8
PJSEL0.x
PRODUCT PREVIEW
PJSEL1.x
PJIN.x
Bus
Keeper
EN
D
To modules
and JTAG
To Comparator
From Comparator
CDPD.x
Pad Logic
From JTAG
From JTAG
From JTAG
1
PJREN.x
PJDIR.x
0
00
1
01
10
DVSS
0
DVCC
1
0
Direction
0: Input
1: Output
11
1
JTAG enable
PJOUT.x
00
DVSS
01
1
DVSS
10
0
DVSS
11
PJ.3/TCK/CD9
PJSEL0.x
PJSEL1.x
PJIN.x
EN
To modules
and JTAG
62
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Bus
Keeper
D
Copyright © 2011, Texas Instruments Incorporated
MSP430FR573x
MSP430FR572x
SLAS639 – APRIL 2011
www.ti.com
Table 55. Port PJ (PJ.0 to PJ.3) Pin Functions
PJ.0/TDO/TB0OUTH/SMCLK/CD6
x
FUNCTION
0 PJ.0 (I/O)
(2)
0
0
X
X
TB0OUTH
0
SMCLK
1
0
1
1
1 PJ.1 (I/O) (2)
1
0
0
X
X
X
0
1
1
1
0
MCLK
1
X
2 PJ.2 (I/O)
(2)
(4)
I: 0; O: 1
0
0
X
X
X
0
1
1
TB2OUTH
0
ACLK
1
CD8
3 PJ.3 (I/O) (2)
TCK (3)
CD9
(4)
(4)
X
I: 0; O: 1
TB1OUTH
TMS (3)
(1)
(2)
(3)
PJSEL0.x
X
CD7
PJ.3/TCK/CD9
PJSEL1.x
I: 0; O: 1
TDI/TCLK (3)
PJ.2/TMS/TB2OUTH/ACLK/CD8
PJDIR.x
TDO (3)
CD6
PJ.1/TDI/TCLK/TB1OUTH/MCLK/CD7
CONTROL BITS/ SIGNALS (1)
(4)
X
1
I: 0; O: 1
0
0
X
X
X
X
1
1
PRODUCT PREVIEW
PIN NAME (PJ.x)
X = Don't care
Default condition
The pin direction is controlled by the JTAG module. JTAG mode selection is made via the SYS module or by the SpyBiWire four wire
entry sequence. PJSEL1.x and PJSEL0.x have no effect in these cases.
In JTAG mode, pullups are activated automatically on TMS, TCK, and TDI/TCLK. PJREN.x are do not care.
Copyright © 2011, Texas Instruments Incorporated
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63
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