Texas Instruments MSP430F413IPMR：16 位元 MCU (64 引腳 LQFP)

Overview of MSP430F413IPMR 16-Bit Microcontroller

The MSP430F413IPMR is a 16-bit RISC microcontroller from Texas Instruments (TI), part of the MSP430? F4 family. Engineered for industrial and low-power embedded systems, it balances reliable performance with energy efficiency, making it a trusted choice for precision control and sensor-based applications. Its integration of core processing capabilities and advanced peripherals reduces the need for external components, simplifying designs and lowering overall system costs. For reliable sourcing and technical support, visit IC 製造商.

Technical Parameters of MSP430F413IPMR MCU

Core & Memory Specifications

Power & Packaging Details

Advantages of MSP430F413IPMR Over Alternatives

The MSP430F413IPMR stands out with its industrial-grade reliability and efficiency. Unlike many 8-bit microcontrollers, its 16-bit architecture handles more complex control algorithms with greater precision??critical for industrial sensor calibration. Its 0.1??A standby current outperforms competing 16-bit MCUs (which often consume 1??A+), directly extending battery life in remote monitoring devices.

??TI??s MSP430F4 series has been a cornerstone of our industrial sensor designs,?? notes Jason Kim, Senior Engineer at FactoryTech Solutions. ??The F413IPMR??s integrated 12-bit ADC and robust communication interfaces reduced our PCB size by 20% while improving data accuracy.?? Its 64-pin LQFP package also offers more I/O flexibility than smaller alternatives, supporting additional sensors without design compromises. TI??s 10+ year product lifecycle commitment further ensures long-term supply, a key advantage for industrial applications requiring sustained production.

Typical Applications for MSP430F413IPMR

The MSP430F413IPMR excels in rugged, efficiency-focused environments:

• 工業自動化： Powers low-power motor controllers and pressure sensors, operating reliably in factory environments.
• 物聯網 (IoT)： Manages data collection in smart grid sensors, minimizing energy use between cloud transmissions.
• 醫療裝置： Enables portable patient monitors, balancing precise data processing with extended battery life.

Frequently Asked Questions About MSP430F413IPMR

How does the MSP430F413IPMR achieve such low power consumption?

It uses TI??s proprietary low-power architecture with optimized operating modes. Active mode draws 200??A at 1MHz for processing, while standby mode retains RAM data at just 0.1??A. This balance allows it to handle industrial tasks efficiently, critical for battery-powered remote sensors.

Which development tools are compatible with this microcontroller?

TI??s MSP-EXP430F413 LaunchPad is fully compatible, offering a low-cost platform with on-board debugging. It integrates with Code Composer Studio, TI??s free IDE, which includes F4-series optimized libraries and example code to streamline programming for industrial applications.

What value do the integrated peripherals provide for industrial designs?

Its 12-bit ADC delivers precise analog-to-digital conversion for sensor data, while UART, SPI, and I2C interfaces simplify communication with other devices. These peripherals eliminate the need for external chips, reducing bill-of-materials costs and improving system reliability.

Can this MCU operate in extreme temperature environments?

Yes, it supports an operating temperature range of -40??C to 85??C, making it suitable for industrial freezers, outdoor IoT nodes, and factory floors. Its robust design ensures consistent performance despite temperature fluctuations and voltage spikes.

How does it compare to other MSP430 F4 family members?

It balances 16KB flash, 512B RAM, and a 64-pin package for mid-range industrial tasks. Higher F4 models offer more memory or faster clocks, but the F413IPMR stands out for its mix of efficiency, I/O flexibility, and cost-effectiveness in industrial control applications.