JAJSG17D June   2014  – August 2018 MSP430FR5986 , MSP430FR5987 , MSP430FR5988 , MSP430FR5989 , MSP430FR59891 , MSP430FR6987 , MSP430FR6988 , MSP430FR6989 , MSP430FR69891

PRODUCTION DATA.  

  1. 1デバイスの概要
    1. 1.1 特長
    2. 1.2 アプリケーション
    3. 1.3 概要
    4. 1.4 機能ブロック図
  2. 2改訂履歴
  3. 3Device Comparison
    1. 3.1 Related Products
  4. 4Terminal Configuration and Functions
    1. 4.1 Pin Diagrams
    2. 4.2 Signal Descriptions
      1. Table 4-1 Signal Descriptions – MSP430FR698x and MSP430FR698x1
      2. Table 4-2 Signal Descriptions – MSP430FR598x and MSP430FR598x1
    3. 4.3 Pin Multiplexing
    4. 4.4 Connection of Unused Pins
  5. 5Specifications
    1. 5.1  Absolute Maximum Ratings
    2. 5.2  ESD Ratings
    3. 5.3  Recommended Operating Conditions
    4. 5.4  Active Mode Supply Current Into VCC Excluding External Current
    5. 5.5  Typical Characteristics, Active Mode Supply Currents
    6. 5.6  Low-Power Mode (LPM0, LPM1) Supply Currents Into VCC Excluding External Current
    7. 5.7  Low-Power Mode (LPM2, LPM3, LPM4) Supply Currents (Into VCC) Excluding External Current
    8. 5.8  Low-Power Mode With LCD Supply Currents (Into VCC) Excluding External Current
    9. 5.9  Low-Power Mode LPMx.5 Supply Currents (Into VCC) Excluding External Current
    10. 5.10 Typical Characteristics, Low-Power Mode Supply Currents
    11. 5.11 Typical Characteristics, Current Consumption per Module
    12. 5.12 Thermal Resistance Characteristics
    13. 5.13 Timing and Switching Characteristics
      1. 5.13.1 Power Supply Sequencing
        1. Table 5-1 Brownout and Device Reset Power Ramp Requirements
        2. Table 5-2 SVS
      2. 5.13.2 Reset Timing
        1. Table 5-3 Reset Input
      3. 5.13.3 Clock Specifications
        1. Table 5-4 Low-Frequency Crystal Oscillator, LFXT
        2. Table 5-5 High-Frequency Crystal Oscillator, HFXT
        3. Table 5-6 DCO
        4. Table 5-7 Internal Very-Low-Power Low-Frequency Oscillator (VLO)
        5. Table 5-8 Module Oscillator (MODOSC)
      4. 5.13.4 Wake-up Characteristics
        1. Table 5-9  Wake-up Times From Low-Power Modes and Reset
        2. Table 5-10 Typical Wake-up Charge
        3. 5.13.4.1   Typical Characteristics, Average LPM Currents vs Wake-up Frequency
      5. 5.13.5 Peripherals
        1. 5.13.5.1 Digital I/Os
          1. Table 5-11 Digital Inputs
          2. Table 5-12 Digital Outputs
          3. 5.13.5.1.1 Typical Characteristics, Digital Outputs at 3.0 V and 2.2 V
          4. Table 5-13 Pin-Oscillator Frequency, Ports Px
          5. 5.13.5.1.2 Typical Characteristics, Pin-Oscillator Frequency
        2. 5.13.5.2 Timer_A and Timer_B
          1. Table 5-14 Timer_A
          2. Table 5-15 Timer_B
        3. 5.13.5.3 eUSCI
          1. Table 5-16 eUSCI (UART Mode) Clock Frequency
          2. Table 5-17 eUSCI (UART Mode)
          3. Table 5-18 eUSCI (SPI Master Mode) Clock Frequency
          4. Table 5-19 eUSCI (SPI Master Mode)
          5. Table 5-20 eUSCI (SPI Slave Mode)
          6. Table 5-21 eUSCI (I2C Mode)
        4. 5.13.5.4 LCD Controller
          1. Table 5-22 LCD_C, Recommended Operating Conditions
          2. Table 5-23 LCD_C Electrical Characteristics
        5. 5.13.5.5 ADC
          1. Table 5-24 12-Bit ADC, Power Supply and Input Range Conditions
          2. Table 5-25 12-Bit ADC, Timing Parameters
          3. Table 5-26 12-Bit ADC, Linearity Parameters With External Reference
          4. Table 5-27 12-Bit ADC, Dynamic Performance for Differential Inputs With External Reference
          5. Table 5-28 12-Bit ADC, Dynamic Performance for Differential Inputs With Internal Reference
          6. Table 5-29 12-Bit ADC, Dynamic Performance for Single-Ended Inputs With External Reference
          7. Table 5-30 12-Bit ADC, Dynamic Performance for Single-Ended Inputs With Internal Reference
          8. Table 5-31 12-Bit ADC, Dynamic Performance With 32.768-kHz Clock
          9. Table 5-32 12-Bit ADC, Temperature Sensor and Built-In V1/2
          10. Table 5-33 12-Bit ADC, External Reference
        6. 5.13.5.6 Reference
          1. Table 5-34 REF, Built-In Reference
        7. 5.13.5.7 Comparator
          1. Table 5-35 Comparator_E
        8. 5.13.5.8 Scan Interface
          1. Table 5-36 Extended Scan Interface, Port Drive, Port Timing
          2. Table 5-37 Extended Scan Interface, Sample Capacitor/Ri Timing
          3. Table 5-38 Extended Scan Interface, VCC/2 Generator
          4. Table 5-39 Extended Scan Interface, 12-Bit DAC
          5. Table 5-40 Extended Scan Interface, Comparator
          6. Table 5-41 Extended Scan Interface, ESICLK Oscillator and TSM Clock Signals
        9. 5.13.5.9 FRAM Controller
          1. Table 5-42 FRAM
      6. 5.13.6 Emulation and Debug
        1. Table 5-43 JTAG and Spy-Bi-Wire Interface
  6. 6Detailed Description
    1. 6.1  Overview
    2. 6.2  CPU
    3. 6.3  Operating Modes
      1. 6.3.1 Peripherals in Low-Power Modes
        1. 6.3.1.1 Idle Currents of Peripherals in LPM3 and LPM4
    4. 6.4  Interrupt Vector Table and Signatures
    5. 6.5  Bootloader (BSL)
    6. 6.6  JTAG Operation
      1. 6.6.1 JTAG Standard Interface
      2. 6.6.2 Spy-Bi-Wire Interface
    7. 6.7  FRAM
    8. 6.8  RAM
    9. 6.9  Tiny RAM
    10. 6.10 Memory Protection Unit Including IP Encapsulation
    11. 6.11 Peripherals
      1. 6.11.1  Digital I/O
      2. 6.11.2  Oscillator and Clock System (CS)
      3. 6.11.3  Power-Management Module (PMM)
      4. 6.11.4  Hardware Multiplier (MPY)
      5. 6.11.5  Real-Time Clock (RTC_C)
      6. 6.11.6  Watchdog Timer (WDT_A)
      7. 6.11.7  System Module (SYS)
      8. 6.11.8  DMA Controller
      9. 6.11.9  Enhanced Universal Serial Communication Interface (eUSCI)
      10. 6.11.10 Extended Scan Interface (ESI)
      11. 6.11.11 Timer_A TA0, Timer_A TA1
      12. 6.11.12 Timer_A TA2
      13. 6.11.13 Timer_A TA3
      14. 6.11.14 Timer_B TB0
      15. 6.11.15 ADC12_B
      16. 6.11.16 Comparator_E
      17. 6.11.17 CRC16
      18. 6.11.18 CRC32
      19. 6.11.19 AES256 Accelerator
      20. 6.11.20 True Random Seed
      21. 6.11.21 Shared Reference (REF_A)
      22. 6.11.22 LCD_C
      23. 6.11.23 Embedded Emulation
        1. 6.11.23.1 Embedded Emulation Module (EEM)
        2. 6.11.23.2 EnergyTrace++™ Technology
      24. 6.11.24 Input/Output Diagrams
        1. 6.11.24.1  Digital I/O Functionality – Ports P1 to P10
        2. 6.11.24.2  Capacitive Touch Functionality Ports P1 to P10 and PJ
        3. 6.11.24.3  Port P1 (P1.0 to P1.3) Input/Output With Schmitt Trigger
        4. 6.11.24.4  Port P1 (P1.4 to P1.7) Input/Output With Schmitt Trigger
        5. 6.11.24.5  Port P2 (P2.0 to P2.3) Input/Output With Schmitt Trigger
        6. 6.11.24.6  Port P2 (P2.4 to P2.7) Input/Output With Schmitt Trigger
        7. 6.11.24.7  Port P3 (P3.0 to P3.7) Input/Output With Schmitt Trigger
        8. 6.11.24.8  Port P4 (P4.0 to P4.7) Input/Output With Schmitt Trigger
        9. 6.11.24.9  Port P5 (P5.0 to P5.7) Input/Output With Schmitt Trigger
        10. 6.11.24.10 Port P6 (P6.0 to P6.6) Input/Output With Schmitt Trigger
        11. 6.11.24.11 Port P6 (P6.7) Input/Output With Schmitt Trigger
        12. 6.11.24.12 Port P7 (P7.0 to P7.7) Input/Output With Schmitt Trigger
        13. 6.11.24.13 Port P8 (P8.0 to P8.3) Input/Output With Schmitt Trigger
        14. 6.11.24.14 Port P8 (P8.4 to P8.7) Input/Output With Schmitt Trigger
        15. 6.11.24.15 Port P9 (P9.0 to P9.3) Input/Output With Schmitt Trigger
        16. 6.11.24.16 Port P9 (P9.4 to P9.7) Input/Output With Schmitt Trigger
        17. 6.11.24.17 Port P10 (P10.0 to P10.2) Input/Output With Schmitt Trigger
        18. 6.11.24.18 Port PJ (PJ.4 and PJ.5) Input/Output With Schmitt Trigger
        19. 6.11.24.19 Port PJ (PJ.6 and PJ.7) Input/Output With Schmitt Trigger
        20. 6.11.24.20 Port PJ (PJ.0 to PJ.3) JTAG Pins TDO, TMS, TCK, TDI/TCLK, Input/Output With Schmitt Trigger
    12. 6.12 Device Descriptors (TLV)
    13. 6.13 Memory
      1. 6.13.1 Peripheral File Map
    14. 6.14 Identification
      1. 6.14.1 Revision Identification
      2. 6.14.2 Device Identification
      3. 6.14.3 JTAG Identification
  7. 7Applications, Implementation, and Layout
    1. 7.1 Device Connection and Layout Fundamentals
      1. 7.1.1 Power Supply Decoupling and Bulk Capacitors
      2. 7.1.2 External Oscillator
      3. 7.1.3 JTAG
      4. 7.1.4 Reset
      5. 7.1.5 Unused Pins
      6. 7.1.6 General Layout Recommendations
      7. 7.1.7 Do's and Don'ts
    2. 7.2 Peripheral- and Interface-Specific Design Information
      1. 7.2.1 ADC12_B Peripheral
        1. 7.2.1.1 Partial Schematic
        2. 7.2.1.2 Design Requirements
        3. 7.2.1.3 Detailed Design Procedure
        4. 7.2.1.4 Layout Guidelines
      2. 7.2.2 LCD_C Peripheral
        1. 7.2.2.1 Partial Schematic
        2. 7.2.2.2 Design Requirements
        3. 7.2.2.3 Detailed Design Procedure
        4. 7.2.2.4 Layout Guidelines
      3. 7.2.3 Extended Scan Interface (ESI) Peripheral
        1. 7.2.3.1 Overview
        2. 7.2.3.2 Design Requirements
        3. 7.2.3.3 Detailed Design Procedure
        4. 7.2.3.4 Layout Guidelines
  8. 8デバイスおよびドキュメントのサポート
    1. 8.1  使い始めと次の手順
    2. 8.2  デバイスの項目表記
    3. 8.3  ツールとソフトウェア
    4. 8.4  ドキュメントのサポート
    5. 8.5  関連リンク
    6. 8.6  Community Resources
    7. 8.7  商標
    8. 8.8  静電気放電に関する注意事項
    9. 8.9  Export Control Notice
    10. 8.10 Glossary
  9. 9メカニカル、パッケージ、および注文情報

Interrupt Vector Table and Signatures

The interrupt vectors, the power-up start address and signatures are in the address range 0FFFFh to 0FF80h. Figure 6-1 summarizes the content of this address range.

MSP430FR6989 MSP430FR69891 MSP430FR6988 MSP430FR6987 MSP430FR5989 MSP430FR59891 MSP430FR5988 MSP430FR5987 MSP430FR5986 Interrupts_Signatures_Passwords.gifFigure 6-1 Interrupt Vectors, Signatures, and Passwords

The power-up start address or reset vector is located at 0FFFFh to 0FFFEh. It contains the 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 6-4 shows the device-specific interrupt vector locations.

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

The signatures are located at 0FF80h and extend to higher addresses. Signatures are evaluated during device start-up. Table 6-5 shows 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, MSP430FR68xx, MSP430FR69xx Family User's Guide for details.

Table 6-4 Interrupt Sources, Flags, and Vectors

INTERRUPT SOURCE INTERRUPT FLAG SYSTEM INTERRUPT WORD ADDRESS PRIORITY
System Reset
Power up, Brownout, Supply Supervisor
External Reset RST
Watchdog time-out (watchdog mode)
WDT, FRCTL MPU, CS, PMM password violation
FRAM uncorrectable bit error detection
MPU segment violation
FRAM access time error
Software POR, BOR

SVSHIFG
PMMRSTIFG
WDTIFG
WDTPW, FRCTLPW, MPUPW, CSPW, PMMPW
UBDIFG
MPUSEGIIFG, MPUSEG1IFG, MPUSEG2IFG, MPUSEG3IFG
ACCTEIFG
PMMPORIFG, PMMBORIFG
(SYSRSTIV) (1)(2)
Reset 0FFFEh Highest
System NMI
Vacant memory access
JTAG mailbox
FRAM bit error detection
MPU segment violation
 
VMAIFG
JMBINIFG, JMBOUTIFG
CBDIFG, UBDIFG
MPUSEGIIFG, MPUSEG1IFG, MPUSEG2IFG, MPUSEG3IFG
(SYSSNIV) (1)(3)
(Non)maskable 0FFFCh
User NMI
External NMI
Oscillator fault
NMIIFG, OFIFG
(SYSUNIV) (1)(3)
(Non)maskable 0FFFAh
Comparator_E Comparator_E interrupt flags
(CEIV) (1)
Maskable 0FFF8h
Timer_B TB0 TB0CCR0.CCIFG Maskable 0FFF6h
Timer_B TB0 TB0CCR1.CCIFG to TB0CCR6.CCIFG,
TB0CTL.TBIFG
(TB0IV)(1)
Maskable 0FFF4h
Watchdog timer
(interval timer mode)
WDTIFG Maskable 0FFF2h
Extended Scan IF ESIIFG0 to ESIIFG8
(ESIIV) (1)
Maskable 0FFF0h
eUSCI_A0 receive or transmit UCA0IFG: UCRXIFG, UCTXIFG (SPI mode)
UCA0IFG:UCSTTIFG, UCTXCPTIFG, UCRXIFG, UCTXIFG (UART mode)
(UCA0IV)(1)
Maskable 0FFEEh
eUSCI_B0 receive or transmit UCB0IFG: UCRXIFG, UCTXIFG (SPI mode)
UCB0IFG: UCALIFG, UCNACKIFG, UCSTTIFG, UCSTPIFG, UCRXIFG0, UCTXIFG0, UCRXIFG1, UCTXIFG1, UCRXIFG2, UCTXIFG2, UCRXIFG3, UCTXIFG3, UCCNTIFG, UCBIT9IFG (I2C mode)
(UCB0IV)(1)
Maskable 0FFECh
ADC12_B ADC12IFG0 to ADC12IFG31
ADC12LOIFG, ADC12INIFG, ADC12HIIFG, ADC12RDYIFG, ADC12OVIFG, ADC12TOVIFG
(ADC12IV) (1)
Maskable 0FFEAh
Timer_A TA0 TA0CCR0.CCIFG Maskable 0FFE8h
Timer_A TA0 TA0CCR1.CCIFG to TA0CCR2.CCIFG,
TA0CTL.TAIFG
(TA0IV)(1)
Maskable 0FFE6h
eUSCI_A1 receive or transmit UCA1IFG:UCRXIFG, UCTXIFG (SPI mode)
UCA1IFG:UCSTTIFG, UCTXCPTIFG, UCRXIFG, UCTXIFG (UART mode)
(UCA1IV)(1)
Maskable 0FFE4h
eUSCI_B1 receive or transmit) UCB1IFG: UCRXIFG, UCTXIFG (SPI mode)
UCB1IFG: UCALIFG, UCNACKIFG, UCSTTIFG, UCSTPIFG, UCRXIFG0, UCTXIFG0, UCRXIFG1, UCTXIFG1, UCRXIFG2, UCTXIFG2, UCRXIFG3, UCTXIFG3, UCCNTIFG, UCBIT9IFG (I2C mode)
(UCB1IV)(1)
Maskable 0FFE2h
DMA DMA0CTL.DMAIFG, DMA1CTL.DMAIFG, DMA2CTL.DMAIFG
(DMAIV)(1)
Maskable 0FFE0h
Timer_A TA1 TA1CCR0.CCIFG Maskable 0FFDEh
Timer_A TA1 TA1CCR1.CCIFG to TA1CCR2.CCIFG,
TA1CTL.TAIFG
(TA1IV)(1)
Maskable 0FFDCh
I/O Port P1 P1IFG.0 to P1IFG.7
(P1IV)(1)
Maskable 0FFDAh
Timer_A TA2 TA2CCR0.CCIFG Maskable 0FFD8h
Timer_A TA2 TA2CCR1.CCIFG
TA2CTL.TAIFG
(TA2IV)(1)
Maskable 0FFD6h
I/O Port P2 P2IFG.0 to P2IFG.7
(P2IV) (1)
Maskable 0FFD4h
Timer_A TA3 TA3CCR0.CCIFG Maskable 0FFD2h
Timer_A TA3 TA3CCR1.CCIFG
TA3CTL.TAIFG
(TA3IV)(1)
Maskable 0FFD0h
I/O Port P3 P3IFG.0 to P3IFG.7
(P3IV) (1)
Maskable 0FFCEh
I/O Port P4 P4IFG.0 to P4IFG.7
(P4IV) (1)
Maskable 0FFCCh
LCD_C
(Reserved on MSP430FR5xxx)
LCD_C interrupt flags (LCDCIV) (1) Maskable 0FFCAh
RTC_C RTCRDYIFG, RTCTEVIFG, RTCAIFG, RT0PSIFG, RT1PSIFG, RTCOFIFG
(RTCIV) (1)
Maskable 0FFC8h
AES AESRDYIFG Maskable 0FFC6h Lowest
Multiple source flags
A reset is generated if the CPU tries to fetch instructions from within peripheral space
(Non)maskable: the individual interrupt-enable bit can disable an interrupt event, but the general-interrupt enable cannot disable it.

Table 6-5 Signatures

SIGNATURE WORD ADDRESS
IP Encapsulation Signature2 0FF8Ah
IP Encapsulation Signature1 (1) 0FF88h
BSL Signature2 0FF86h
BSL Signature1 0FF84h
JTAG Signature2 0FF82h
JTAG Signature1 0FF80h
Must not contain 0AAAAh if used as JTAG password and IP encapsulation functionality is not desired.