Texas Instruments MSP430F135IPMR: 16-Bit MCU (64-Pin LQFP)

Overview of MSP430F135IPMR 16-Bit Microcontroller

The MSP430F135IPMR is a 16-bit RISC microcontroller from Texas Instruments (TI), part of the reliable MSP430? F1 family. Designed for low-power industrial and consumer applications, it balances performance and efficiency, making it a trusted choice for sensor-based systems, home appliances, and automation devices. Its integration of core processing capabilities and essential peripherals reduces reliance on external components, streamlining designs and lowering system costs. For reliable sourcing, visit IC-Hersteller.

Technical Parameters of MSP430F135IPMR MCU

Core & Memory Specifications

Details zu Leistung und Verpackung

Advantages of MSP430F135IPMR Over Alternatives

The MSP430F135IPMR stands out with its balance of efficiency, cost, and versatility. Unlike 8-bit MCUs, its 16-bit architecture handles more precise control tasks??critical for calibrating industrial sensors and home appliance timers. Its 0.1??A standby current outperforms competing 16-bit options (which often consume 1??A+), directly extending battery life in portable devices like wireless sensors.

??TI??s MSP430F1 series transformed our smart coffee maker designs,?? says Ryan Martinez, Engineer at HomeAppliance Tech. ??The F135IPMR??s low power and 64-pin package let us add brew customization features without increasing device size or energy use.?? Its 32KB flash provides enough memory for mid-range applications, eliminating the need for external storage and reducing bill-of-materials costs by 10%. TI??s 10+ year lifecycle commitment also ensures long-term supply, a key advantage for mass-produced consumer and industrial products.

Typical Applications for MSP430F135IPMR

The MSP430F135IPMR excels in efficiency-focused, mid-complexity designs:

• Industrielle Automatisierung: Powers low-power sensor nodes, monitoring temperature and pressure in factory environments with minimal energy use.
• Home Appliances: Controls smart ovens, washing machines, and air conditioners, optimizing energy use during idle and active cycles.
• Unterhaltungselektronik: Enables portable gadgets like fitness trackers and remote controls, balancing processing needs with long battery life.

Frequently Asked Questions About MSP430F135IPMR

How does the MSP430F135IPMR achieve such low power consumption?

It uses TI??s proprietary low-power architecture with multiple operating modes. Active mode draws 220??A at 1MHz for processing, while standby mode retains RAM data at 0.1??A. This flexibility lets designers match power use to task demands, ideal for battery-powered devices where longevity is critical, such as wireless sensors.

Which development tools support this microcontroller?

TI??s MSP-EXP430G2 LaunchPad (with adapter) is compatible, offering a low-cost platform with on-board debugging. It integrates with Code Composer Studio, TI??s free IDE, which includes F1-series optimized libraries and example code to simplify programming for home and industrial applications.

What value does the 10-bit ADC provide for its applications?

The 10-bit ADC converts analog signals (e.g., from temperature or light sensors) with sufficient precision for mid-range applications. This eliminates the need for external ADC chips, reducing design complexity and cost??critical for budget-friendly consumer products and industrial sensors where extreme precision is not required.

Can this MCU operate in extreme temperature environments?

Yes, it supports an operating range of -40??C to 85??C, making it suitable for garages, industrial warehouses, and outdoor consumer devices. Its robust design ensures consistent performance despite temperature swings common in these settings, from freezing winters to hot factory floors.

How does it compare to other MSP430 F1 family members?

It balances 32KB flash, 1KB RAM, and a 64-pin package for mid-range tasks. Lower F1 models have less memory (e.g., 16KB flash), while higher-end ones offer more RAM or additional peripherals. The F135IPMR is ideal for designs needing moderate resources with flexible I/O for multi-sensor integration in consumer and industrial products.