MSP430FR2475TRHAT Overview
The MSP430FR2475TRHAT is a low-power 16-bit microcontroller built around the MSP430 FRAM family with nonvolatile Ferroelectric RAM for fast writes and high endurance. It targets battery-powered and industrial control systems that need lower power than many 8-bit options and faster nonvolatile writes than flash-based competitors. The device combines a 16-bit CPU, flexible clocking and integrated analog peripherals to deliver higher responsiveness and fewer wake cycles. More product and purchasing details are available from IC Manufacturer.
MSP430FR2475TRHAT Technical Specifications
| Parameter | Value |
|---|---|
| CPU | 16-bit RISC core |
| Nonvolatile Memory | FRAM (on-chip) |
| Operating Voltage | 1.8?C3.6 V |
| Maximum CPU Clock | 16 MHz system clock |
| Low-Power Modes | Multiple ultra-low-power standby and active modes |
| Integrated Timers | Timer_A and other timing modules |
| On-chip Analog | Comparator/ADC peripherals for sensor interfacing |
| Package Type (suffix) | Tray/packaging variant: TRHAT |
| Typical Applications | Battery-powered and embedded control systems |
| Development Support | MSP430 toolchain and ecosystem |
MSP430FR2475TRHAT Key Features
- FRAM nonvolatile memory for near-instant, byte-write capability compared with flash, enabling more frequent data logging and configuration saves.
- Ultra-low-power architecture that reduces energy per operation, which matters for longer battery life and fewer maintenance cycles.
- 16-bit CPU providing higher instruction efficiency and simpler arithmetic than typical 8-bit MCUs, enabling faster control loops and more compact code.
- Integrated analog and timer peripherals for direct sensor interfacing and deterministic timing without additional components, simplifying BOM and layout.
Typical Applications
- Battery-powered sensor nodes and data loggers that require frequent nonvolatile writes and long battery life using fewer wake cycles and lower average current draw.
- Industrial control endpoints that need deterministic timing and on-chip analog conversion for sensors, while reducing the number of external parts and failure points.
- Portable medical instruments where lower-power sleep states and fast, reliable nonvolatile storage improve uptime and support frequent event logging and calibration.
- Smart metering and energy-monitoring devices that need durable nonvolatile memory for frequent updates and robust operation across wide supply-voltage ranges.
MSP430FR2475TRHAT Advantages vs Typical Alternatives
The device offers notable advantages versus many flash-based 8-bit or general-purpose MCUs. FRAM provides faster writes, lower write energy and far higher endurance than flash, which translates to more reliable data logging and fewer firmware workarounds. The 16-bit core delivers more processing per cycle than 8-bit rivals, enabling tighter control loops and smaller code sizes. In practice this yields lower average power and simpler system designs compared with alternative micros that require external EEPROM or supplementary components.
🔥 Best-Selling Products
-
Texas Instruments BQ24075 Linear Battery Charger IC – 5mm x 4mm QFN Package
-
Texas Instruments INA219 Current Sensor Module – SOIC Package, Precision Monitoring
-
Texas Instruments LM4041 Precision Voltage Reference – SOT-23 Package
-
Texas Instruments OPA2134 Audio Op Amp – Dual, High-Performance, SOIC-8 Package
MSP430FR2475TRHAT Brand Info
The MSP430FR2475TRHAT is from Texas Instruments?? MSP430 family, a long-established portfolio focused on ultra-low-power embedded microcontrollers. TI provides broad development tools, reference designs and industrial-grade supply channels. The family emphasizes FRAM-based nonvolatile memory and energy-efficient operation for battery-backed and sensor-driven markets.
FAQ
What memory type does it use?
The device uses on-chip FRAM (Ferroelectric RAM), which supports fast, low-energy byte writes and higher endurance compared with traditional flash memory.
🌟 Featured Products
-
“Buy MAX9312ECJ+ Precision Voltage Comparator in DIP Package for Reliable Performance”
-
QCC-711-1-MQFN48C-TR-03-1 Bluetooth Audio SoC with MQFN48C Package
-
0339-671-TLM-E Model – High-Performance TLM-E Package for Enhanced Functionality
-
1-1415898-4 Connector Housing, Electrical Wire-to-Board, Receptacle, Packaged
What voltage range does it support?
Typical operating voltage covers a low-power range suitable for battery systems. The device supports an extended supply range to maintain stable operation across common embedded power rails.
Is it suitable for battery-powered designs?
Yes. The microcontroller??s ultra-low-power modes and efficient FRAM writes make it well suited to battery-powered sensors and portable instruments where extended runtime is required.
📩 Contact Us
What development support is available?
Development uses the MSP430 toolchain and ecosystem, including compilers, debuggers and reference designs that accelerate evaluation and integration into production systems.
How does it compare to 8-bit MCUs?
The 16-bit core typically yields higher processing efficiency and more compact code than 8-bit alternatives, while FRAM reduces write latency and energy compared with flash-based devices, enabling improved system responsiveness and longevity.