MSP430F5152IDAR 16-bit Low-Power Microcontroller (IDAR Package)

MSP430F5152IDAR Overview

The MSP430F5152IDAR is an ultra?low?power, 16?bit microcontroller intended for energy?sensitive industrial and portable applications. It combines a 16?bit RISC CPU with mixed?signal peripherals, multiple timers, and serial interfaces to enable compact control and sensor tasks. The device targets designs that need lower power consumption and higher integration compared with many 8?bit alternatives while keeping code density high and predictable timing. For procurement and supplier details visit IC Manufacturer.

MSP430F5152IDAR Technical Specifications

MSP430F5152IDAR Key Features

• One core capability: 16?bit RISC CPU delivers compact code and deterministic timing for control loops.
• Mixed?signal integration: built?in 12?bit ADC enables direct sensor interfacing without external converters, reducing board area and cost.
• Low?power operation: multiple power modes and sub???A standby draw extend battery life and reduce thermal load compared with less optimized MCUs.
• Rich connectivity: serial ports including UART, SPI, and I2C simplify integration with sensors, memory, and comms modules in embedded systems.

Typical Applications

• Battery?powered sensor nodes where precise analog measurement and ultra?low power sleep modes extend runtime while supporting periodic wake and transmit cycles.
• Industrial control interfaces that require deterministic 16?bit processing, multiple timers, and robust serial buses for field sensors and actuators.
• Portable instrumentation offering higher measurement resolution with a 12?bit ADC and compact firmware footprint to minimize memory use and cost.
• Embedded communication gateways that aggregate sensor data via SPI/I2C and forward packets over UART or other host interfaces with minimal power overhead.

MSP430F5152IDAR Advantages vs Typical Alternatives

The device provides a clear efficiency edge versus many 8?bit microcontrollers by pairing a 16?bit core with denser code and faster integer math per cycle. Multiple low?power states give better energy per operation when compared to general?purpose MCUs lacking power management. Integrated ADC and serial peripherals reduce BOM count and PCB area relative to designs that require discrete converters or external UART bridges. Overall, it balances lower active power with higher integration for compact, long?life embedded designs.

MSP430F5152IDAR Brand Info

The MSP430F5152IDAR is part of the MSP430 family from Texas Instruments. TI positions the MSP430 series around ultra?low?power operation and broad mixed?signal integration, supported by development tools, proven compilers, and extensive reference material for industrial and battery?sensitive designs.

FAQ

What core does it use?

The device uses a 16?bit RISC CPU core optimized for low code size and energy efficiency, enabling deterministic interrupt handling and compact control firmware.

What voltage range is supported?

It operates across a low?voltage range suitable for battery systems, allowing designers to run from typical lithium and regulated supplies common in portable and embedded equipment.

How is analog performance specified?

The embedded ADC is a 12?bit converter intended for precise sensor reading. It supports sampling rates sufficient for slow to moderate sensor update rates in measurement and control tasks.

Which serial interfaces are available?

On?chip serial peripherals include UART, SPI, and I2C modes, which permit straightforward connection to sensors, memory, and wireless modules without additional bridge devices.

What packaging does IDAR indicate?

The IDAR suffix denotes a 64?pin TQFP package intended for automated PCB assembly and tape?and?reel shipment, suitable for medium?pin embedded implementations.