ZHCS888F January   2010  – September 2018 MSP430F5418A , MSP430F5419A , MSP430F5435A , MSP430F5436A , MSP430F5437A , MSP430F5438A

PRODUCTION DATA.  

  1. 1器件概述
    1. 1.1 特性
    2. 1.2 应用范围
    3. 1.3 说明
    4. 1.4 功能方框图
  2. 2修订历史记录
  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
  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  Low-Power Mode Supply Currents (Into VCC) Excluding External Current
    6. 5.6  Thermal Resistance Characteristics
    7. 5.7  Schmitt-Trigger Inputs – General-Purpose I/O
    8. 5.8  Inputs – Ports P1 and P2
    9. 5.9  Leakage Current – General-Purpose I/O
    10. 5.10 Outputs – General-Purpose I/O (Full Drive Strength)
    11. 5.11 Outputs – General-Purpose I/O (Reduced Drive Strength)
    12. 5.12 Output Frequency – General-Purpose I/O
    13. 5.13 Typical Characteristics – Outputs, Reduced Drive Strength (PxDS.y = 0)
    14. 5.14 Typical Characteristics – Outputs, Full Drive Strength (PxDS.y = 1)
    15. 5.15 Crystal Oscillator, XT1, Low-Frequency Mode
    16. 5.16 Crystal Oscillator, XT1, High-Frequency Mode
    17. 5.17 Crystal Oscillator, XT2
    18. 5.18 Internal Very-Low-Power Low-Frequency Oscillator (VLO)
    19. 5.19 Internal Reference, Low-Frequency Oscillator (REFO)
    20. 5.20 DCO Frequency
    21. 5.21 PMM, Brownout Reset (BOR)
    22. 5.22 PMM, Core Voltage
    23. 5.23 PMM, SVS High Side
    24. 5.24 PMM, SVM High Side
    25. 5.25 PMM, SVS Low Side
    26. 5.26 PMM, SVM Low Side
    27. 5.27 Wake-up Times From Low-Power Modes and Reset
    28. 5.28 Timer_A
    29. 5.29 Timer_B
    30. 5.30 USCI (UART Mode) Clock Frequency
    31. 5.31 USCI (UART Mode)
    32. 5.32 USCI (SPI Master Mode) Clock Frequency
    33. 5.33 USCI (SPI Master Mode)
    34. 5.34 USCI (SPI Slave Mode)
    35. 5.35 USCI (I2C Mode)
    36. 5.36 12-Bit ADC, Power Supply and Input Range Conditions
    37. 5.37 12-Bit ADC, Timing Parameters
    38. 5.38 12-Bit ADC, Linearity Parameters Using an External Reference Voltage or AVCC as Reference Voltage
    39. 5.39 12-Bit ADC, Linearity Parameters Using the Internal Reference Voltage
    40. 5.40 12-Bit ADC, Temperature Sensor and Built-In VMID
    41. 5.41 REF, External Reference
    42. 5.42 REF, Built-In Reference
    43. 5.43 Flash Memory
    44. 5.44 JTAG and Spy-Bi-Wire Interface
  6. 6Detailed Description
    1. 6.1  CPU (Link to User's Guide)
    2. 6.2  Operating Modes
    3. 6.3  Interrupt Vector Addresses
    4. 6.4  Memory Organization
    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  Flash Memory (Link to User's Guide)
    8. 6.8  RAM (Link to User's Guide)
    9. 6.9  Peripherals
      1. 6.9.1  Digital I/O (Link to User's Guide)
      2. 6.9.2  Oscillator and System Clock (Link to User's Guide)
      3. 6.9.3  Power-Management Module (PMM) (Link to User's Guide)
      4. 6.9.4  Hardware Multiplier (MPY) (Link to User's Guide)
      5. 6.9.5  Real-Time Clock (RTC_A) (Link to User's Guide)
      6. 6.9.6  Watchdog Timer (WDT_A) (Link to User's Guide)
      7. 6.9.7  System Module (SYS) (Link to User's Guide)
      8. 6.9.8  DMA Controller (Link to User's Guide)
      9. 6.9.9  Universal Serial Communication Interface (USCI) (Links to User's Guide: UART Mode, SPI Mode, I2C Mode)
      10. 6.9.10 TA0 (Link to User's Guide)
      11. 6.9.11 TA1 (Link to User's Guide)
      12. 6.9.12 TB0 (Link to User's Guide)
      13. 6.9.13 ADC12_A (Link to User's Guide)
      14. 6.9.14 CRC16 (Link to User's Guide)
      15. 6.9.15 Reference (REF) Module Voltage Reference (Link to User's Guide)
      16. 6.9.16 Embedded Emulation Module (EEM) (L Version) (Link to User's Guide)
      17. 6.9.17 Peripheral File Map
    10. 6.10 Input/Output Diagrams
      1. 6.10.1  Port P1 (P1.0 to P1.7) Input/Output With Schmitt Trigger
      2. 6.10.2  Port P2 (P2.0 to P2.7) Input/Output With Schmitt Trigger
      3. 6.10.3  Port P3 (P3.0 to P3.7) Input/Output With Schmitt Trigger
      4. 6.10.4  Port P4 (P4.0 to P4.7) Input/Output With Schmitt Trigger
      5. 6.10.5  Port P5 (P5.0 and P5.1) Input/Output With Schmitt Trigger
      6. 6.10.6  Port P5 (P5.2 and P5.3) Input/Output With Schmitt Trigger
      7. 6.10.7  Port P5 (P5.4 to P5.7) Input/Output With Schmitt Trigger
      8. 6.10.8  Port P6 (P6.0 to P6.7) Input/Output With Schmitt Trigger
      9. 6.10.9  Port P7 (P7.0 and P7.1) Input/Output With Schmitt Trigger
      10. 6.10.10 Port P7 (P7.2 and P7.3) Input/Output With Schmitt Trigger
      11. 6.10.11 Port P7 (P7.4 to P7.7) Input/Output With Schmitt Trigger
      12. 6.10.12 Port P8 (P8.0 to P8.7) Input/Output With Schmitt Trigger
      13. 6.10.13 Port P9 (P9.0 to P9.7) Input/Output With Schmitt Trigger
      14. 6.10.14 Port P10 (P10.0 to P10.7) Input/Output With Schmitt Trigger
      15. 6.10.15 Port P11 (P11.0 to P11.2) Input/Output With Schmitt Trigger
      16. 6.10.16 Port PJ (PJ.0) JTAG Pin TDO, Input/Output With Schmitt Trigger or Output
      17. 6.10.17 Port PJ (PJ.1 to PJ.3) JTAG Pins TMS, TCK, TDI/TCLK, Input/Output With Schmitt Trigger or Output
    11. 6.11 Device Descriptors
  7. 7器件和文档支持
    1. 7.1  开始使用
    2. 7.2  Device Nomenclature
    3. 7.3  工具与软件
    4. 7.4  文档支持
    5. 7.5  相关链接
    6. 7.6  社区资源
    7. 7.7  商标
    8. 7.8  静电放电警告
    9. 7.9  Export Control Notice
    10. 7.10 Glossary
  8. 8机械、封装和可订购信息

封装选项

机械数据 (封装 | 引脚)
散热焊盘机械数据 (封装 | 引脚)
订购信息

REF, Built-In Reference

over recommended ranges of supply voltage and operating free-air temperature (unless otherwise noted)(1)
PARAMETER TEST CONDITIONS VCC MIN TYP MAX UNIT
VREF+ Positive built-in reference voltage output REFVSEL = \{2\} for 2.5 V,
REFON = REFOUT = 1, IVREF+= 0 A
3 V 2.50 ±1.5% V
REFVSEL = \{1\} for 2.0 V,
REFON = REFOUT = 1, IVREF+= 0 A
3 V 1.98 ±1.5%
REFVSEL = \{0\} for 1.5 V,
REFON = REFOUT = 1, IVREF+= 0 A
2.2 V, 3 V 1.49 ±1.5%
AVCC(min) AVCC minimum voltage, Positive built-in reference active REFVSEL = \{0\} for 1.5 V 2.2 V
REFVSEL = \{1\} for 2.0 V 2.3
REFVSEL = \{2\} for 2.5 V 2.8
IREF+ Operating supply current into AVCC terminal(2)(3) ADC12SR = 1, REFON = 1, REFOUT = 0, REFBURST = 0 3 V 70 100 µA
ADC12SR = 1, REFON = 1, REFOUT = 1, REFBURST = 0 3 V 0.45 0.75 mA
ADC12SR = 0, REFON = 1, REFOUT = 0, REFBURST = 0 3 V 210 310 µA
ADC12SR = 0, REFON = 1, REFOUT = 1, REFBURST = 0 3 V 0.95 1.7 mA
IL(VREF+) Load-current regulation, VREF+ terminal(4) REFVSEL = \{0, 1, 2\}
IVREF+ = +10 µA or –1000 µA
AVCC = AVCC(min) for each reference level,
REFVSEL = \{0, 1, 2\}, REFON = REFOUT = 1
2500 µV/mA
CVREF+ Capacitance at VREF+ terminals REFON = REFOUT = 1 20 100 pF
TCREF+ Temperature coefficient of built-in reference(5) IVREF+ = 0 A,
REFVSEL = \{0, 1, 2\}, REFON = 1,
REFOUT = 0 or 1
30 50 ppm/ °C
PSRR_DC Power supply rejection ratio (DC) AVCC = AVCC(min) to AVCC(max), TA = 25°C,
REFVSEL = \{0, 1, 2\}, REFON = 1,
REFOUT = 0 or 1
120 300 µV/V
PSRR_AC Power supply rejection ratio (AC) AVCC = AVCC(min) to AVCC(max), TA = 25°C,
f = 1 kHz, ΔVpp = 100 mV,
REFVSEL = \{0, 1, 2\}, REFON = 1,
REFOUT = 0 or 1
6.4 mV/V
tSETTLE Settling time of reference voltage(6) AVCC = AVCC(min) to AVCC(max),
REFVSEL = \{0, 1, 2\}, REFOUT = 0,
REFON = 0 → 1
75 µs
AVCC = AVCC(min) to AVCC(max),
CVREF = CVREF(max),
REFVSEL = \{0, 1, 2\}, REFOUT = 1,
REFON = 0 → 1
75
The reference is supplied to the ADC by the REF module and is buffered locally inside the ADC. The ADC uses two internal buffers, one smaller and one larger for driving the VREF+ terminal. When REFOUT = 1, the reference is available at the VREF+ terminal and is used as the reference for the conversion and uses the larger buffer. When REFOUT = 0, the reference is only used as the reference for the conversion and uses the smaller buffer.
The internal reference current is supplied from the AVCC terminal. Consumption is independent of the ADC12ON control bit, unless a conversion is active. REFOUT = 0 represents the current contribution of the smaller buffer. REFOUT = 1 represents the current contribution of the larger buffer without external load.
The temperature sensor is provided by the REF module. Its current is supplied from the AVCC terminal and is equivalent to IREF+ with REFON = 1 and REFOUT = 0.
Contribution only due to the reference and buffer including package. This does not include resistance due to the PCB traces or other application factors.
Calculated using the box method: (MAX(–40°C to 85°C) – MIN(–40°C to 85°C)) / MIN(–40°C to 85°C)/(85°C – (–40°C)).
The condition is that the error in a conversion started after tREFON is less than ±0.5 LSB. The settling time depends on the external capacitive load when REFOUT = 1.