MSP430FR5734IPW FRAM Microcontroller (16-bit MCU) 48-pin QFN

MSP430FR5734IPW Overview

The content requested requires direct reference to the product sheet to ensure technical accuracy. To generate a precise, sourcing-ready description for the MSP430FR5734IPW, I need the official datasheet or the sheet content you referenced. Once available, I will extract and present verified values for memory, clock, voltage, package, peripherals, and operating ranges. For sourcing links and further procurement context, see IC Manufacturer.

MSP430FR5734IPW Technical Specifications

MSP430FR5734IPW Key Features

• FRAM-based nonvolatile memory for fast writes and high endurance compared with flash, enabling more frequent persistent data updates.
• Ultralow-power architecture that reduces energy per operation and supports longer battery life in portable and metered systems.
• Integrated analog and digital peripherals to simplify system design and reduce external component count and BOM complexity.
• Compact IPW package that helps reduce PCB area and supports higher-density board layouts for constrained industrial designs.

Typical Applications

• Battery-powered sensor nodes and data loggers that require frequent nonvolatile writes and long battery life for multi-year deployments.
• Industrial control components where deterministic low-power modes and reliable nonvolatile storage reduce maintenance and failure risk.
• Smart meters and portable measurement instruments that need robust nonvolatile memory and low standby current for accurate long-term energy measurement.
• User-interface modules and keypad controllers that benefit from integrated peripherals and compact packaging to reduce system cost and size.

MSP430FR5734IPW Advantages vs Typical Alternatives

The FRAM architecture gives a clear advantage versus traditional flash-based microcontrollers for applications that need high write endurance and deterministic write timing. The MSP430 family delivers lower active and standby power compared with many 8/32-bit alternatives, which matters for battery-operated systems and energy-sensitive industrial nodes. The IPW package supports compact layouts and easier integration than larger packages. For sourcing and BOM decisions, verified sheet values will let engineers compare memory size, supply current, and peripheral counts side-by-side with other MCU choices.

MSP430FR5734IPW Brand Info

The MSP430FR5734IPW is part of the MSP430 family from Texas Instruments. This series focuses on low-power 16-bit MCUs with FRAM technology, targeting energy-efficient embedded and industrial designs. The brand emphasizes long-term availability, extensive documentation, and a broad ecosystem of development tools and reference designs.

FAQ

What do you need next?

To produce a fully verified, sourcing-ready product description I need the official sheet content or a link to the specific datasheet. With that sheet I will populate exact numerical parameters, package drawings, electrical characteristics, and verified peripheral lists.

Can you compare packages?

Yes. Once the sheet provides the package details and pin count I will compare the IPW footprint and thermal characteristics to common alternatives, and show trade-offs in PCB area and thermal dissipation.

Will you include electrical limits?

After receiving the sheet I will extract absolute maximum ratings, recommended operating ranges, and supply current figures so engineers can assess safety margins and power budgets accurately.

How will procurement use this?

Sourcing specialists will get exact part identifiers, packaging quantities, marking codes, and ordering codes once the sheet is provided so they can compare lead time, unit price, and lifecycle status with distributors.

Can you generate BOM notes?

Yes. With the datasheet I will produce BOM-level notes covering required external components, typical decoupling, crystal or oscillator needs, and any specialized layout recommendations that affect cost or manufacturability.