SLASE54D March   2016  – January 2021 MSP430FR5962 , MSP430FR5964 , MSP430FR5992 , MSP430FR5994 , MSP430FR59941

PRODUCTION DATA  

  1. Features
  2. Applications
  3. Description
  4. Functional Block Diagram
  5. Revision History
  6. Device Comparison
    1. 6.1 Related Products
  7. Terminal Configuration and Functions
    1. 7.1 Pin Diagrams
    2. 7.2 Pin Attributes
    3. 7.3 Signal Descriptions
    4. 7.4 Pin Multiplexing
    5. 7.5 Buffer Types
    6. 7.6 Connection of Unused Pins
  8. Specifications
    1. 8.1  Absolute Maximum Ratings
    2. 8.2  ESD Ratings
    3. 8.3  Recommended Operating Conditions
    4. 8.4  Active Mode Supply Current Into VCC Excluding External Current
    5. 8.5  Typical Characteristics, Active Mode Supply Currents
    6. 8.6  Low-Power Mode (LPM0, LPM1) Supply Currents Into VCC Excluding External Current
    7. 8.7  Low-Power Mode (LPM2, LPM3, LPM4) Supply Currents (Into VCC) Excluding External Current
    8. 8.8  Low-Power Mode (LPMx.5) Supply Currents (Into VCC) Excluding External Current
    9. 8.9  Typical Characteristics, Low-Power Mode Supply Currents
    10. 8.10 Typical Characteristics, Current Consumption per Module
    11. 8.11 Thermal Packaging Characteristics
    12. 8.12 Timing and Switching Characteristics
      1. 8.12.1  Power Supply Sequencing
        1. 8.12.1.1 Brownout and Device Reset Power Ramp Requirements
        2. 8.12.1.2 SVS
      2. 8.12.2  Reset Timing
        1. 8.12.2.1 Reset Input
      3. 8.12.3  Clock Specifications
        1. 8.12.3.1 Low-Frequency Crystal Oscillator, LFXT
        2. 8.12.3.2 High-Frequency Crystal Oscillator, HFXT
        3. 8.12.3.3 DCO
        4. 8.12.3.4 Internal Very-Low-Power Low-Frequency Oscillator (VLO)
        5. 8.12.3.5 Module Oscillator (MODOSC)
      4. 8.12.4  Wake-up Characteristics
        1. 8.12.4.1 Wake-up Times From Low-Power Modes and Reset
        2. 8.12.4.2 Typical Characteristics, Average LPM Currents vs Wake-up Frequency
        3. 8.12.4.3 Typical Wake-up Charge
      5. 8.12.5  Digital I/Os
        1. 8.12.5.1 Digital Inputs
        2. 8.12.5.2 Digital Outputs
        3. 8.12.5.3 Typical Characteristics, Digital Outputs at 3.0 V and 2.2 V
        4. 8.12.5.4 Pin-Oscillator Frequency, Ports Px
        5. 8.12.5.5 Typical Characteristics, Pin-Oscillator Frequency
      6. 8.12.6  LEA (Low-Energy Accelerator) (MSP430FR599x Only)
        1. 8.12.6.1 Low Energy Accelerator Performance
      7. 8.12.7  Timer_A and Timer_B
        1. 8.12.7.1 Timer_A
        2. 8.12.7.2 Timer_B
      8. 8.12.8  eUSCI
        1. 8.12.8.1 eUSCI (UART Mode) Clock Frequency
        2. 8.12.8.2 eUSCI (UART Mode)
        3. 8.12.8.3 eUSCI (SPI Master Mode) Clock Frequency
        4. 8.12.8.4 eUSCI (SPI Master Mode)
        5. 8.12.8.5 eUSCI (SPI Slave Mode)
        6. 8.12.8.6 eUSCI (I2C Mode)
      9. 8.12.9  ADC12_B
        1. 8.12.9.1 12-Bit ADC, Power Supply and Input Range Conditions
        2. 8.12.9.2 12-Bit ADC, Timing Parameters
        3. 8.12.9.3 12-Bit ADC, Linearity Parameters
        4. 8.12.9.4 12-Bit ADC, Dynamic Performance With External Reference
        5. 8.12.9.5 12-Bit ADC, Dynamic Performance With Internal Reference
        6. 8.12.9.6 12-Bit ADC, Temperature Sensor and Built-In V1/2
        7. 8.12.9.7 12-Bit ADC, External Reference
      10. 8.12.10 Reference
        1. 8.12.10.1 REF, Built-In Reference
      11. 8.12.11 Comparator
        1. 8.12.11.1 Comparator_E
      12. 8.12.12 FRAM
        1. 8.12.12.1 FRAM
      13. 8.12.13 Emulation and Debug
        1. 8.12.13.1 JTAG and Spy-Bi-Wire Interface
  9. Detailed Description
    1. 9.1  Overview
    2. 9.2  CPU
    3. 9.3  Low-Energy Accelerator (LEA) for Signal Processing (MSP430FR599x Only)
    4. 9.4  Operating Modes
      1. 9.4.1 Peripherals in Low-Power Modes
      2. 9.4.2 Idle Currents of Peripherals in LPM3 and LPM4
    5. 9.5  Interrupt Vector Table and Signatures
    6. 9.6  Bootloader (BSL)
    7. 9.7  JTAG Operation
      1. 9.7.1 JTAG Standard Interface
      2. 9.7.2 Spy-Bi-Wire Interface
    8. 9.8  FRAM Controller A (FRCTL_A)
    9. 9.9  RAM
    10. 9.10 Tiny RAM
    11. 9.11 Memory Protection Unit (MPU) Including IP Encapsulation
    12. 9.12 Peripherals
      1. 9.12.1  Digital I/O
      2. 9.12.2  Oscillator and Clock System (CS)
      3. 9.12.3  Power-Management Module (PMM)
      4. 9.12.4  Hardware Multiplier (MPY)
      5. 9.12.5  Real-Time Clock (RTC_C)
      6. 9.12.6  Watchdog Timer (WDT_A)
      7. 9.12.7  System Module (SYS)
      8. 9.12.8  DMA Controller
      9. 9.12.9  Enhanced Universal Serial Communication Interface (eUSCI)
      10. 9.12.10 TA0, TA1, and TA4
      11. 9.12.11 TA2 and TA3
      12. 9.12.12 TB0
      13. 9.12.13 ADC12_B
      14. 9.12.14 Comparator_E
      15. 9.12.15 CRC16
      16. 9.12.16 CRC32
      17. 9.12.17 AES256 Accelerator
      18. 9.12.18 True Random Seed
      19. 9.12.19 Shared Reference (REF)
      20. 9.12.20 Embedded Emulation
        1. 9.12.20.1 Embedded Emulation Module (EEM) (S Version)
        2. 9.12.20.2 EnergyTrace++ Technology
    13. 9.13 Input/Output Diagrams
      1. 9.13.1  Capacitive Touch Functionality on Ports P1 to P8, and PJ
      2. 9.13.2  Port P1 (P1.0 to P1.2) Input/Output With Schmitt Trigger
      3. 9.13.3  Port P1 (P1.3 to P1.5) Input/Output With Schmitt Trigger
      4. 9.13.4  Port P1 (P1.6 and P1.7) Input/Output With Schmitt Trigger
      5. 9.13.5  Port P2 (P2.0 to P2.2) Input/Output With Schmitt Trigger
      6. 9.13.6  Port P2 (P2.3 and P2.4) Input/Output With Schmitt Trigger
      7. 9.13.7  Port P2 (P2.5 and P2.6) Input/Output With Schmitt Trigger
      8. 9.13.8  Port P2 (P2.7) Input/Output With Schmitt Trigger
      9. 9.13.9  Port P3 (P3.0 to P3.3) Input/Output With Schmitt Trigger
      10. 9.13.10 Port P3 (P3.4 to P3.7) Input/Output With Schmitt Trigger
      11. 9.13.11 Port P4 (P4.0 to P4.3) Input/Output With Schmitt Trigger
      12. 9.13.12 Port P4 (P4.4 to P4.7) Input/Output With Schmitt Trigger
      13. 9.13.13 Port P5 (P5.0 to P5.7) Input/Output With Schmitt Trigger
      14. 9.13.14 Port P6 (P6.0 to P6.7) Input/Output With Schmitt Trigger
      15. 9.13.15 Port P7 (P7.0 to P7.3) Input/Output With Schmitt Trigger
      16. 9.13.16 Port P7 (P7.4 to P7.7) Input/Output With Schmitt Trigger
      17. 9.13.17 Port P8 (P8.0 to P8.3) Input/Output With Schmitt Trigger
      18. 9.13.18 Port PJ (PJ.4 and PJ.5) Input/Output With Schmitt Trigger
      19. 9.13.19 Port PJ (PJ.6 and PJ.7) Input/Output With Schmitt Trigger
      20. 9.13.20 Port PJ (PJ.0 to PJ.3) JTAG Pins TDO, TMS, TCK, TDI/TCLK, Input/Output With Schmitt Trigger
    14. 9.14 Device Descriptors (TLV)
    15. 9.15 Memory Map
      1. 9.15.1 Peripheral File Map
    16. 9.16 Identification
      1. 9.16.1 Revision Identification
      2. 9.16.2 Device Identification
      3. 9.16.3 JTAG Identification
  10. 10Applications, Implementation, and Layout
    1. 10.1 Device Connection and Layout Fundamentals
      1. 10.1.1 Power Supply Decoupling and Bulk Capacitors
      2. 10.1.2 External Oscillator
      3. 10.1.3 JTAG
      4. 10.1.4 Reset
      5. 10.1.5 Unused Pins
      6. 10.1.6 General Layout Recommendations
      7. 10.1.7 Do's and Don'ts
    2. 10.2 Peripheral- and Interface-Specific Design Information
      1. 10.2.1 ADC12_B Peripheral
        1. 10.2.1.1 Partial Schematic
        2. 10.2.1.2 Design Requirements
        3. 10.2.1.3 Detailed Design Procedure
        4. 10.2.1.4 Layout Guidelines
  11. 11Device and Documentation Support
    1. 11.1  Getting Started
    2. 11.2  Device Nomenclature
    3. 11.3  Tools and Software
    4. 11.4  Documentation Support
    5. 11.5  Related Links
    6. 11.6  Support Resources
    7. 11.7  Trademarks
    8. 11.8  Electrostatic Discharge Caution
    9. 11.9  Export Control Notice
    10. 11.10 Glossary
  12. 12Mechanical, Packaging, and Orderable Information

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

Interrupt Vector Table and Signatures

The interrupt vectors, the power-up start address and signatures are in the address range 0FFFFh to 0FF80h. Figure 9-1 summarizes the content of this address range.

GUID-62093FF7-C479-47CC-9451-9D619DDBF704-low.gifFigure 9-1 Interrupt Vectors, Signatures and Passwords

The power-up start address or reset vector is at 0FFFFh to 0FFFEh. This location contains a 16-bit address pointing to the start address of the application program.

The interrupt vectors start at 0FFFDh and extend to lower addresses. Each vector contains the 16-bit address of the appropriate interrupt-handler instruction sequence. Table 9-4 shows the device specific interrupt vector locations.

The vectors programmed into the address range from 0FFFFh to 0FFE0h are used as BSL password (if enabled by the corresponding signature).

The signatures are at 0FF80h and extend to higher addresses. Signatures are evaluated during device start-up. Table 9-5 lists the device-specific signature locations.

A JTAG password can be programmed starting at address 0FF88h and extending to higher addresses. The password can extend into the interrupt vector locations using the interrupt vector addresses as additional bits for the password. The length of the JTAG password depends on the JTAG signature.

See the System Resets, Interrupts, and Operating Modes, System Control Module (SYS) chapter in the MSP430FR58xx, MSP430FR59xx, and MSP430FR6xx Family User's Guide for details.

Table 9-4 Interrupt Sources, Flags, and Vectors
INTERRUPT SOURCEINTERRUPT FLAGINTERRUPT VECTOR REGISTERSYSTEM INTERRUPTWORD ADDRESSPRIORITY
System ResetSYSRSTIV(1)Reset0FFFEhHighest
Power up, brownout, supply supervisorSVSHIFG
External reset, RSTPMMRSTIFG
Watchdog time-out (watchdog mode)WDTIFG
WDT, FRCTL MPU, CS, PMM password violationWDTPW, FRCTLPW, MPUPW, CSPW, PMMPW
FRAM uncorrectable bit error detectionUBDIFG
MPU segment violationMPUSEGIIFG, MPUSEG1IFG, MPUSEG2IFG, MPUSEG3IFG
Software POR, BORPMMPORIFG, PMMBORIFG
System NMISYSSNIV(1)(Non)maskable(3)0FFFCh
Vacant memory access(2)VMAIFG
JTAG mailboxJMBINIFG, JMBOUTIFG
FRAM access time errorACCTEIFG
FRAM write protection errorWPIFG
FRAM bit error detectionCBDIFG, UBDIFG
MPU segment violationMPUSEGIIFG, MPUSEG1IFG, MPUSEG2IFG, MPUSEG3IFG
User NMISYSUNIV(1)(Non)maskable(3)0FFFAh
External NMINMIIFG
Oscillator faultOFIFG
Comparator_ECEIFG, CEIIFGCEIV(1)Maskable0FFF8h
TB0TB0CCR0 CCIFGMaskable0FFF6h
TB0TB0CCR1 CCIFG to TB0CCR6 CCIFG, TB0CTL.TBIFGTB0IV(1)Maskable0FFF4h
Watchdog timer (interval timer mode)WDTIFGMaskable0FFF2h
eUSCI_A0 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCA0IV(1)Maskable0FFF0h
UCSTTIFG, UCTXCPTIFG, UCRXIFG, UCTXIFG (UART mode)
eUSCI_B0 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCB0IV(1)Maskable0FFEEh
UCALIFG, UCNACKIFG, UCSTTIFG, UCSTPIFG, UCRXIFG0, UCTXIFG0, UCRXIFG1, UCTXIFG1, UCRXIFG2, UCTXIFG2, UCRXIFG3, UCTXIFG3, UCCNTIFG, UCBIT9IFG (I2C mode)
ADC12_B(4)ADC12IFG0 to ADC12IFG31, ADC12LOIFG, ADC12INIFG, ADC12HIIFG, ADC12RDYIFG, ADC21OVIFG, ADC12TOVIFG
ADC12IV(1)Maskable0FFECh
TA0TA0CCR0 CCIFGMaskable0FFEAh
TA0TA0CCR1 CCIFG, TA0CCR2 CCIFG, TA0CTL.TAIFGTA0IV(1)Maskable0FFE8h
eUSCI_A1 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCA1IV(1)Maskable0FFE6h
UCSTTIFG, UCTXCPTIFG, UCRXIFG, UCTXIFG (UART mode)
DMADMA0CTL.DMAIFG, DMA1CTL.DMAIFG, DMA2CTL.DMAIFGDMAIV(1)Maskable0FFE4h
TA1TA1CCR0 CCIFGMaskable0FFE2h
TA1TA1CCR1 CCIFG, TA1CCR2 CCIFG, TA1CTL.TAIFGTA1IV(1)Maskable0FFE0h
I/O port P1P1IFG.0 to P1IFG.7P1IV(1)Maskable0FFDEh
TA2TA2CCR0 CCIFGMaskable0FFDCh
TA2TA2CCR1 CCIFG, TA2CTL.TAIFGTA2IV(1)Maskable0FFDAh
I/O port P2P2IFG.0 to P2IFG.7P2IV(1)Maskable0FFD8h
TA3TA3CCR0 CCIFGMaskable0FFD6h
TA3TA3CCR1 CCIFG, TA3CTL.TAIFGTA3IV(1)Maskable0FFD4h
I/O port P3P3IFG.0 to P3IFG.7P3IV(1)Maskable0FFD2h
I/O port P4P4IFG.0 to P4IFG.7P4IV(1)Maskable0FFD0h
RTC_CRTCRDYIFG, RTCTEVIFG, RTCAIFG, RT0PSIFG, RT1PSIFG, RTCOFIFGRTCIV(1)Maskable0FFCEh
AESAESRDYIFGMaskable0FFCCh
TA4TA4CCR0 CCIFGMaskable0FFCAh
TA4TA4CCR1 CCIFG, TA4CTL.TAIFGTA4IV(1)Maskable0FFC8h
I/O port P5P5IFG.0 to P5IFG.7P5IV(1)Maskable0FFC6h
I/O port P6P6IFG.0 to P6IFG.7P6IV(1)Maskable0FFC4h
eUSCI_A2 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCA2IV(1)Maskable0FFC2h
UCSTTIFG, UCTXCPTIFG, UCRXIFG, UCTXIFG (UART mode)
eUSCI_A3 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCA3IV(1)Maskable0FFC0h
UCSTTIFG, UCTXCPTIFG, UCRXIFG, UCTXIFG (UART mode)
eUSCI_B1 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCB1IV(1)Maskable0FFBEh
UCALIFG, UCNACKIFG, UCSTTIFG, UCSTPIFG, UCRXIFG0, UCTXIFG0, UCRXIFG1, UCTXIFG1, UCRXIFG2, UCTXIFG2, UCRXIFG3, UCTXIFG3, UCCNTIFG, UCBIT9IFG (I2C mode)
eUSCI_B2 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCB2IV(1)Maskable0FFBCh
UCALIFG, UCNACKIFG, UCSTTIFG, UCSTPIFG, UCRXIFG0, UCTXIFG0, UCRXIFG1, UCTXIFG1, UCRXIFG2, UCTXIFG2, UCRXIFG3, UCTXIFG3, UCCNTIFG, UCBIT9IFG (I2C mode)
eUSCI_B3 receive or transmitUCRXIFG, UCTXIFG (SPI mode)UCB3IV(1)Maskable0FFBAh
UCALIFG, UCNACKIFG, UCSTTIFG, UCSTPIFG, UCRXIFG0, UCTXIFG0, UCRXIFG1, UCTXIFG1, UCRXIFG2, UCTXIFG2, UCRXIFG3, UCTXIFG3, UCCNTIFG, UCBIT9IFG (I2C mode)
I/O port P7P7IFG.0 to P7IFG.7P7IV(1)Maskable0FFB8h
I/O port P8P8IFG.0 to P8IFG.7P8IV(1)Maskable0FFB6h
LEA (MSP430FR599x only)CMDIFG, SDIIFG, OORIFG,TIFG, COVLIFGLEAIV(1)Maskable0FFB4hLowest
Multiple source flags
A reset is generated if the CPU tries to fetch instructions from peripheral space.
(Non)maskable: the individual interrupt enable bit can disable an interrupt event, but the general interrupt enable bit cannot disable it.
Only on devices with ADC, otherwise reserved.
Table 9-5 Signatures
SIGNATUREWORD ADDRESS
IP Encapsulation Signature 20FF8Ah
IP Encapsulation Signature 1(1)0FF88h
BSL Signature 20FF86h
BSL Signature 10FF84h
JTAG Signature 20FF82h
JTAG Signature 10FF80h
Must not contain 0AAAAh if used as the JTAG password.