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MSP430F5257

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25-MHz-MCU mit 128 KB Flash, 16 KB SRAM, 10-bit ADC, Komparator, DMA, 1,8 V-Split-Rail E/A

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MSP430F5257

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Produktdetails

CPU MSP430 Frequency (MHz) 25 Flash memory (kByte) 128 RAM (kByte) 16 ADC type 10-bit SAR Features 1.8V I/O, Real-time clock UART 4 Number of ADC channels 10 SPI 8 USB No Hardware accelerators 0 Operating temperature range (°C) -40 to 85 Rating Catalog Communication interface I2C, SPI, UART Operating system BareMetal (No OS), TI RTOS Nonvolatile memory (kByte) 128 Number of GPIOs 53 Number of I2Cs 4 Security Secure debug
CPU MSP430 Frequency (MHz) 25 Flash memory (kByte) 128 RAM (kByte) 16 ADC type 10-bit SAR Features 1.8V I/O, Real-time clock UART 4 Number of ADC channels 10 SPI 8 USB No Hardware accelerators 0 Operating temperature range (°C) -40 to 85 Rating Catalog Communication interface I2C, SPI, UART Operating system BareMetal (No OS), TI RTOS Nonvolatile memory (kByte) 128 Number of GPIOs 53 Number of I2Cs 4 Security Secure debug
VQFN (RGC) 64 81 mm² 9 x 9
  • Dual-supply voltage device
    • Primary supply (AVCC, DVCC)
      • Powered from external supply: 3.6 V down to 1.8 V
      • Up to 18 general-purpose I/Os with up to 8 external interrupts
    • Low-voltage interface supply (DVIO)
      • Powered from separate external supply: 1.62 V to 1.98 V
      • Up to 35 general-purpose I/Os with up to 16 external interrupts
      • Serial communications
  • Ultra-low power consumption
    • Active mode (AM): All system clocks active 290 µA/MHz at 8 MHz, 3.0 V, flash program execution (typical) 150 µA/MHz at 8 MHz, 3.0 V, RAM program execution (typical)
    • Standby mode (LPM3): Real-time clock (RTC) with crystal, watchdog, and supply supervisor operational, full RAM retention, fast wakeup: 2.1 µA at 2.2 V, 2.3 µA at 3.0 V (typical) Low-power oscillator (VLO), general-purpose counter, watchdog, and supply supervisor operational, full RAM retention, fast wakeup: 1.6 µA at 3.0 V (typical)
    • Off mode (LPM4): Full RAM retention, supply supervisor operational, fast wakeup: 1.3 µA at 3.0 V (typical)
    • Shutdown mode (LPM4.5): 0.18 µA at 3.0 V (typical)
  • Wake up from standby mode in 3.5 µs (typical)
  • 16-bit RISC architecture, extended memory, up to 25-MHz system clock
  • Flexible power-management system
    • Fully integrated LDO with programmable regulated core supply voltage
    • Supply voltage supervision, monitoring, and brownout
  • Unified clock system
    • FLL control loop for frequency stabilization
    • Low-power low-frequency internal clock source (VLO)
    • Low-frequency trimmed internal reference source (REFO)
    • 32-kHz watch crystals (XT1)
    • HF crystals up to 32 MHz (XT2)
  • 16-bit timer TA0, Timer_A with five capture/compare registers
  • 16-bit timer TA1, Timer_A with three capture/compare registers
  • 16-bit timer TA2, Timer_A with three capture/compare registers
  • 16-bit timer TB0, Timer_B with seven capture/compare shadow registers
  • Four universal serial communication interfaces
    • USCI_A0, A1, A2, A3 each support:
      • Enhanced UART with automatic baud-rate detection
      • IrDA encoder and decoder
      • Synchronous SPI
    • USCI_B0, B1, B2, B3 each support:
      • I2C
      • Synchronous SPI
  • 10-bit analog-to-digital converter (ADC) with internal reference, sample-and-hold
  • comparator
  • Hardware multiplier supports 32-bit operations
  • Serial onboard programming, no external programming voltage needed
  • 3-channel internal DMA
  • Basic timer with RTC feature
  • Device Comparison Summarizes the available family members and packages
  • Dual-supply voltage device
    • Primary supply (AVCC, DVCC)
      • Powered from external supply: 3.6 V down to 1.8 V
      • Up to 18 general-purpose I/Os with up to 8 external interrupts
    • Low-voltage interface supply (DVIO)
      • Powered from separate external supply: 1.62 V to 1.98 V
      • Up to 35 general-purpose I/Os with up to 16 external interrupts
      • Serial communications
  • Ultra-low power consumption
    • Active mode (AM): All system clocks active 290 µA/MHz at 8 MHz, 3.0 V, flash program execution (typical) 150 µA/MHz at 8 MHz, 3.0 V, RAM program execution (typical)
    • Standby mode (LPM3): Real-time clock (RTC) with crystal, watchdog, and supply supervisor operational, full RAM retention, fast wakeup: 2.1 µA at 2.2 V, 2.3 µA at 3.0 V (typical) Low-power oscillator (VLO), general-purpose counter, watchdog, and supply supervisor operational, full RAM retention, fast wakeup: 1.6 µA at 3.0 V (typical)
    • Off mode (LPM4): Full RAM retention, supply supervisor operational, fast wakeup: 1.3 µA at 3.0 V (typical)
    • Shutdown mode (LPM4.5): 0.18 µA at 3.0 V (typical)
  • Wake up from standby mode in 3.5 µs (typical)
  • 16-bit RISC architecture, extended memory, up to 25-MHz system clock
  • Flexible power-management system
    • Fully integrated LDO with programmable regulated core supply voltage
    • Supply voltage supervision, monitoring, and brownout
  • Unified clock system
    • FLL control loop for frequency stabilization
    • Low-power low-frequency internal clock source (VLO)
    • Low-frequency trimmed internal reference source (REFO)
    • 32-kHz watch crystals (XT1)
    • HF crystals up to 32 MHz (XT2)
  • 16-bit timer TA0, Timer_A with five capture/compare registers
  • 16-bit timer TA1, Timer_A with three capture/compare registers
  • 16-bit timer TA2, Timer_A with three capture/compare registers
  • 16-bit timer TB0, Timer_B with seven capture/compare shadow registers
  • Four universal serial communication interfaces
    • USCI_A0, A1, A2, A3 each support:
      • Enhanced UART with automatic baud-rate detection
      • IrDA encoder and decoder
      • Synchronous SPI
    • USCI_B0, B1, B2, B3 each support:
      • I2C
      • Synchronous SPI
  • 10-bit analog-to-digital converter (ADC) with internal reference, sample-and-hold
  • comparator
  • Hardware multiplier supports 32-bit operations
  • Serial onboard programming, no external programming voltage needed
  • 3-channel internal DMA
  • Basic timer with RTC feature
  • Device Comparison Summarizes the available family members and packages

Using an "always-on" ultra-low-power system controller can significantly reduce power consumption on portable devices like handsets and tablets. These controllers can act as sensor hubs and monitor user stimuli (for example, reading inertial sensors or touch sensors) and vital system parameters like battery health and temperature, while power-hungry application processors and touch screen controllers are turned off. The microcontroller can then "wake up" the system based on a user input or on a fault condition that requires CPU intervention.

The MSP430F525x series is the latest addition to the 1.8-V split-rail I/O portfolio (previously only available on MSP430F522x) and is specifically designed for "always-on" system controller applications. 1.8-V I/O allows for seamless interface to application processors and other devices without the need for external level translation, while the primary supply to the MCU can be on a higher voltage rail.

Compared to the MSP430F522x, the MSP430F525x provides up to four times more RAM (32KB) and double the serial interfaces (four USCI_A and four USCI_B). The MSP430F525x also features four 16-bit timers, a high-performance 10-bit ADC, a hardware multiplier, DMA, a comparator, and an RTC module with alarm capabilities. The MSP430F525x consumes 290 µA/MHz (typical) in active mode running from flash memory, and it consumes 1.6 µA (typical) in standby mode (LPM3). The MSP430F525x can switch to active mode in 3.5 µs (typical), which makes it a great fit for "always-on" low-power applications.

Key benefits of the MSP430F525x are as follows:

  • Up to 32KB of RAM allows complex sensor hub algorithms and high levels of aggregation such as keyboard control and power management.
  • Four USCI_A and four USCI_B modules allow for eight concurrent dedicated hardware serial interfaces (for example, four I2C and four SPI) for fast and robust communication to sensors or peripheral devices.
  • Up to 35 I/Os that can be used in the 1.8-V voltage rail.

For complete module descriptions, see the MSP430F5xx and MSP430F6xx Family User’s Guide . For design guidelines, see Designing With MSP430F522x and MSP430F521x Devices .

Using an "always-on" ultra-low-power system controller can significantly reduce power consumption on portable devices like handsets and tablets. These controllers can act as sensor hubs and monitor user stimuli (for example, reading inertial sensors or touch sensors) and vital system parameters like battery health and temperature, while power-hungry application processors and touch screen controllers are turned off. The microcontroller can then "wake up" the system based on a user input or on a fault condition that requires CPU intervention.

The MSP430F525x series is the latest addition to the 1.8-V split-rail I/O portfolio (previously only available on MSP430F522x) and is specifically designed for "always-on" system controller applications. 1.8-V I/O allows for seamless interface to application processors and other devices without the need for external level translation, while the primary supply to the MCU can be on a higher voltage rail.

Compared to the MSP430F522x, the MSP430F525x provides up to four times more RAM (32KB) and double the serial interfaces (four USCI_A and four USCI_B). The MSP430F525x also features four 16-bit timers, a high-performance 10-bit ADC, a hardware multiplier, DMA, a comparator, and an RTC module with alarm capabilities. The MSP430F525x consumes 290 µA/MHz (typical) in active mode running from flash memory, and it consumes 1.6 µA (typical) in standby mode (LPM3). The MSP430F525x can switch to active mode in 3.5 µs (typical), which makes it a great fit for "always-on" low-power applications.

Key benefits of the MSP430F525x are as follows:

  • Up to 32KB of RAM allows complex sensor hub algorithms and high levels of aggregation such as keyboard control and power management.
  • Four USCI_A and four USCI_B modules allow for eight concurrent dedicated hardware serial interfaces (for example, four I2C and four SPI) for fast and robust communication to sensors or peripheral devices.
  • Up to 35 I/Os that can be used in the 1.8-V voltage rail.

For complete module descriptions, see the MSP430F5xx and MSP430F6xx Family User’s Guide . For design guidelines, see Designing With MSP430F522x and MSP430F521x Devices .
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Technische Dokumentation

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Top-Dokumentation Typ Titel Format-Optionen Datum
* Data sheet MSP430F525x Mixed-Signal Microcontrollers datasheet (Rev. D) 20 Okt 2020
* Errata MSP430F5257 Microcontroller Errata (Rev. U) PDF | HTML 21 Okt 2021
* User guide MSP430x5xx and MSP430x6xx Family User's Guide (Rev. Q) 17 Aug 2018
Application note Migration Guide From MSP430 MCUs to MSPM0 MCUs (Rev. B) PDF | HTML 02 Jun 2025
Application note Design Considerations When Using the MSP430 Graphics Library (Rev. A) PDF | HTML 09 Aug 2023
Application note Li-Ion Battery Charger Solution Using an MSP430™ MCU (Rev. B) PDF | HTML 01 Apr 2022
Application note ESD Diode Current Specification (Rev. B) PDF | HTML 23 Aug 2021
Application note MSP430 System-Level ESD Considerations (Rev. B) PDF | HTML 14 Jul 2021
User guide MSP430 MCUs Development Guide Book (Rev. A) PDF | HTML 13 Mai 2021
User guide SYS/BIOS (TI-RTOS Kernel) User's Guide (Rev. V) 01 Jun 2020
Application note MSP430 System ESD Troubleshooting Guide PDF | HTML 13 Dez 2019
Application note Designing with MSP430F522x and MSP430F521x Devices (Rev. A) PDF | HTML 04 Okt 2018
Application note Interfacing the 3-V MSP430 MCU to 5-V Circuits (Rev. A) PDF | HTML 03 Okt 2018
Application note MSP430F5xx Overview and Comparison to MSP430F2xx and MSP430F4xx (Rev. A) PDF | HTML 26 Sep 2018
Application note Implementing SMBus Using MSP430 Hardware I2C (Rev. B) PDF | HTML 25 Sep 2018
Application note Implementing An Ultra-Low-Power Keypad Interface With MSP430 MCUs (Rev. A) 22 Mai 2018
Application note MSP430 32-kHz Crystal Oscillators (Rev. D) PDF | HTML 18 Jul 2017
White paper Capacitive Touch and MSP Microcontrollers (Rev. A) 27 Apr 2017
Application note Migrating from the MSP430F5xx,F6xx Family to the MSP430FR58xx/FR59xx/68xx Family (Rev. D) 03 Nov 2016
Application note General Oversampling of MSP ADCs for Higher Resolution (Rev. A) PDF | HTML 01 Apr 2016
Functional safety information Safety Manual for MSP430G2xx, F5xx, and FR57xx in IEC 60730 Safety Applications (Rev. A) 12 Jan 2016
Application note MSP Code Protection Features PDF | HTML 07 Dez 2015
White paper Industrial Communications Solutions Featuring MSP Microcontrollers 26 Jan 2015
Application note Low-Power Pedometer Using an MSP430 MCU 28 Mai 2013
Application note Enabling Low-Power Windows 8 HID Over I2C Applications Using MSP430 MCUs 30 Nov 2012
Application note Design Considerations When Using the MSP430 Graphics Library 05 Okt 2012
Application note Capacitive Touch Sensing and SYS/BIOS 12 Sep 2012
Application note Heart-Rate Monitor with Micrium uC/OS-II Kernel on the MSP430F5438A Experimenter 05 Jul 2012
Application note MSP430 Based Lithium-Ion Polymer Battery Charging and Gauging Solution Using USB (Rev. A) 27 Jun 2012
White paper Power Management Solutions for Ultra-Low-Power 16-Bit MSP430 MCUs (Rev. D) 28 Mär 2012
Application note Nine-Axis Sensor Fusion Using Direction Cosine Matrix Algorithm on MSP430F5xx (Rev. A) 13 Feb 2012
Application note Multi-Cell Li-Ion Battery Management System Using MSP430F5529 and bq76PL536 16 Dez 2010
Application note 1.8V – 5.5V Input, High-Efficiency DCDC Converter Reference Design for MSP430 (Rev. B) 14 Jun 2010

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