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MSP430FR5739IRHAR

24 MHz MCU with 16KB FRAM, 1KB SRAM, 10-bit ADC , Comparator, UART/SPI/I2C, Timer 40-VQFN -40 to 85

Manufacturer Texas Instruments
Price Range $0.6460 / $5.5650

Part Details

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Distributors with Stock

Total Inventory

3,264

Part Number Description Manufacturer Compare
MSP430FR5739IRHA Microcontrollers and Processors 16-BIT, 24MHz, RISC MICROCONTROLLER, PQCC40, PLASTIC, MO-220VJJD-2, VQFN-40 Texas Instruments MSP430FR5739IRHAR vs MSP430FR5739IRHA
MSP430FR5739IRHAT Microcontrollers and Processors 24 MHz MCU with 16KB FRAM, 1KB SRAM, 10-bit ADC , Comparator, UART/SPI/I2C, Timer 40-VQFN -40 to 85 Texas Instruments MSP430FR5739IRHAR vs MSP430FR5739IRHAT
Part Number Description Manufacturer Compare
MSP430FR5739IRHAT Microcontrollers and Processors 24 MHz MCU with 16KB FRAM, 1KB SRAM, 10-bit ADC , Comparator, UART/SPI/I2C, Timer 40-VQFN -40 to 85 Texas Instruments MSP430FR5739IRHAR vs MSP430FR5739IRHAT
MSP430FR5739IRHA Microcontrollers and Processors 16-BIT, 24MHz, RISC MICROCONTROLLER, PQCC40, PLASTIC, MO-220VJJD-2, VQFN-40 Texas Instruments MSP430FR5739IRHAR vs MSP430FR5739IRHA

Global Popularity

Popularity in Microcontrollers and Processors

Popularity in Microcontrollers

Popularity by Region

Very High

Medium

Good

Low

  • 1. Belarus
    100
  • 2. Luxembourg
    97
  • 3. Papua New Guinea
    95
  • 4. Sri Lanka
    93
  • 5. Cambodia
    92
  • 6. Monaco
    91
  • 7. Ethiopia
    90
  • 8. Guinea-Bissau
    90
  • 9. India
    90
  • 10. American Samoa
    88

Estimated Price History

Estimated Stock History

Market Price Analysis

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Datasheets & Reference Designs

Reference Designs

  • Connected Home Network Reference Design
    TIDC-CHN: The Connected Home Network TI Design shows how to create a Sub-1 GHz star network with full house coverage for security and sensor applications. In this network, the central device is typically mains powered while the end devices are battery powered. The central device can be a gateway for internet of things (IoT), and enable internet connectivity for the end devices in the Connected Home Network. This TI Design is a pure software design using standard TI development boards from TI’s Sub-1 GHz wireless connectivity portfolio. To learn more about TI’s 169 MHz, 315 MHz, 433 MHz, 470 MHz, 868 MHz, 915 MHz and 920 MHz solutions, check out our Sub-1 GHz page.
  • TIDM-FRAM-EEPROM EEPROM Emulation and Sensing With MSP430 FRAM Microcontrollers | TI.com
    TIDM-FRAM-EEPROM: This TI Design reference design describes an implementation of emulating EEPROM using Ferroelectric Random Access Memory (FRAM) technology on MSP430™ ultra-low-power microcontrollers (MCUs) combined with the additional sensing capabilities that can be enabled when using an MCU. The reference design supports both I2C and SPI interface to a host processor with multiple slave addressing.
  • TIDM-BATTERYLESSNFCKEYBOARD Battery-less Near Field Communication (NFC) Keyboard | TI.com
    TIDM-BATTERYLESSNFCKEYBOARD: This solution implements a batteryless keyboard using Near Field Communications (NFC) technology. The core part of this solution is TI’s dynamic NFC tag that can be read and written to by a host microcontroller. Mobile phones that support NFC can quickly discover and recognize this keyboard and then build a connection between the keyboard and application. This design is a battery-less system (i.e., does not require a battery to operate), which enables customers to build products with optimized dimensions (e.g., thin keyboards) and of lighter weight (e.g., easier to carry).
  • TIDM-DYNAMICNFCTAG Dynamic Near Field Communication (NFC) Type 4B Tag | TI.com
    TIDM-DYNAMICNFCTAG: This dynamic Near Field Communication (NFC) tag design outlines the required components, layout considerations, and provides firmware examples to implement NFC into applications such as Bluetooth® and Wi-Fi® pairing, equipment configuration and diagnostics, or as a general purpose NFC data interface. The documentation, hardware, and example code provided allows the designer to quickly implement NFC functionality with an MSP430 or other MCU of choice.
  • Dynamic Near Field Communication (NFC) Type 4B Tag
    TIDM-DYNAMICNFCTAG: This dynamic Near Field Communication (NFC) tag design outlines the required components, layout considerations, and provides firmware examples to implement NFC into applications such as Bluetooth® and Wi-Fi® pairing, equipment configuration and diagnostics, or as a general purpose NFC data interface. The documentation, hardware, and example code provided allows the designer to quickly implement NFC functionality with an MSP430 or other MCU of choice.
  • TIDC-CHN Connected Home Network Reference Design | TI.com
    TIDC-CHN: The Connected Home Network TI Design shows how to create a Sub-1 GHz star network with full house coverage for security and sensor applications. In this network, the central device is typically mains powered while the end devices are battery powered. The central device can be a gateway for Internet of Things (IoT), and enable internet connectivity for the end devices in the Connected Home Network. This TI Design is a pure software design using standard TI development boards from TI’s Sub-1 GHz wireless connectivity portfolio. To learn more about TI’s 169 MHz, 315 MHz, 433 MHz, 470 MHz, 868 MHz, 915 MHz and 920 MHz solutions, check out our Sub-1 GHz page.
  • Battery-less Near Field Communication (NFC) Keyboard
    TIDM-BATTERYLESSNFCKEYBOARD: This solution implements a batteryless keyboard using Near Field Communications (NFC) technology. The core part of this solution is TI’s dynamic NFC tag that can be read and written to by a host microcontroller. Mobile phones that support NFC can quickly discover and recognize this keyboard and then build a connection between the keyboard and application. This design is a battery-less system (i.e., does not require a battery to operate), which enables customers to build products with optimized dimensions (e.g., thin keyboards) and of lighter weight (e.g., easier to carry).

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