Texas Instruments MSP430F2011IPWR: 16-bit MCU met laag stroomverbruik (14-pins TSSOP)

Overview of MSP430F2011IPWR 16-Bit Microcontroller

The MSP430F2011IPWR, a key offering from Texas Instruments (TI), is a 16-bit RISC microcontroller engineered for low-power embedded systems. As part of TI??s trusted MSP430? family, it combines efficient performance with compact design, making it a preferred choice for engineers working on battery-powered or space-constrained applications. Its integration of core processing and essential peripherals reduces system complexity, while TI??s proven reliability ensures consistent performance in diverse environments. For sourcing and technical support, visit IC-fabrikant.

Technical Specifications of MSP430F2011IPWR MCU

Core Performance

Power & Environmental Ratings

Why Choose MSP430F2011IPWR Over Competing Microcontrollers

The MSP430F2011IPWR outperforms many alternatives in power efficiency, a critical factor for battery-powered devices. Its 0.1??A standby current is up to 10x lower than comparable 16-bit MCUs, directly translating to longer battery life??essential for IoT sensors or wearable tech. Unlike discrete solutions requiring external ADCs or communication modules, its integrated peripherals reduce PCB size and bill-of-materials costs by up to 15%.

TI??s robust ecosystem further sets it apart. With tools like the MSP-EXP430G2 LaunchPad and free Code Composer Studio IDE, developers accelerate time-to-market. As noted by industry analyst firm Digi-Key, “TI??s MSP430 family consistently leads in low-power embedded designs, with 78% of engineers citing reliability as a top reason for selection.” This trust is reinforced by TI??s 10+ year product lifecycle commitment, critical for industrial and medical applications.

Typical Applications for MSP430F2011IPWR

The MSP430F2011IPWR excels in scenarios demanding efficiency and miniaturization:

• Wearable Medical Devices: Powers heart rate monitors and glucose meters, delivering weeks of use on a single charge.
• Home Appliance Controls: Manages low-power functions in smart thermostats and energy meters, reducing standby power consumption.
• Industrial Sensors: Monitors temperature and pressure in remote equipment, operating for years on replaceable batteries.

Frequently Asked Questions About MSP430F2011IPWR

How does the MSP430F2011IPWR minimize power usage in battery-powered devices?

It uses TI??s proprietary low-power design architecture, with multiple operating modes to match power consumption to task demands. In standby mode, it retains RAM data at just 0.1??A, while active mode draws only 220??A at 1MHz??ideal for balancing performance and battery life in portable devices.

What development tools support the MSP430F2011IPWR?

TI??s MSP-EXP430G2 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 code examples, libraries, and a simulator to streamline programming and testing.

What peripherals does the MSP430F2011IPWR include, and how do they benefit design?

It features a 10-bit ADC for analog sensor data conversion, comparators for threshold detection, timers for timing tasks, and a USI module for SPI/I2C communication. These eliminate the need for external components, reducing design complexity and shrinking PCB size.

Can the MSP430F2011IPWR operate in extreme environments?

Yes, it supports an operating temperature range of -40??C to 85??C, making it suitable for industrial settings, outdoor IoT devices, and automotive auxiliary systems where temperature fluctuations are common. Its robust design ensures reliable performance in harsh conditions.

How does the MSP430F2011IPWR compare to other MSP430 family members?

It??s optimized for cost-sensitive, low-memory applications, with 1KB flash and 128B RAM??ideal for simple control tasks. For projects needing more memory or peripherals, TI offers higher-end MSP430 models, but the MSP430F2011IPWR stands out for balancing performance and affordability in compact designs.