MSP430FR5992IPMR Overview
The MSP430FR5992IPMR is a member of the MSP430 FRAM-based microcontroller family. This device combines a low-power 16-bit CPU architecture with non-volatile FRAM memory and integrated peripheral modules to serve embedded control and sensing applications. For an accurate, procurement-ready specification set and package details consult the original datasheet from the manufacturer. Anchored product and sourcing information is available through IC Manufacturer. To produce precise BOM entries, timing diagrams, and thermal derating tables I will extract exact numeric values and package drawings from the supplied datasheet.
MSP430FR5992IPMR Technical Specifications
| Parameter | Specification / Note |
|---|---|
| CPU architecture | 16?bit RISC MSP430 core |
| Non?volatile memory type | FRAM (Ferroelectric RAM) |
| Core operating voltage | See device datasheet for exact operating range and limits |
| Operating temperature | Refer to datasheet for commercial and industrial ranges |
| Package code | IPMR ?? consult datasheet for pin count and mechanical drawing |
| Integrated peripherals | Timers, serial interfaces, ADCs, comparators ?? see datasheet for counts and resolutions |
| Low?power modes | Multiple low?power and standby modes; see datasheet for current consumption per mode |
| Development support | Supported by MSP430 toolchain and IDEs; check manufacturer resources for tool compatibility |
MSP430FR5992IPMR Key Features
- 16?bit MSP430 core: Delivers efficient instruction throughput and predictable cycle counts for deterministic control tasks.
- FRAM non?volatile memory: Enables fast, low?power writes and high write endurance compared with flash, reducing write latency and improving longevity.
- Multiple integrated peripherals: On?chip timers, serial interfaces and analog blocks reduce external component count and simplify PCB layout.
- Low?power operation: Multiple sleep and standby modes lower system energy use for battery?powered and energy?harvesting designs.
Typical Applications
- Battery?operated sensor nodes where long write endurance and lower write energy are critical for extended field life and reduced maintenance cycles.
- Industrial control modules requiring deterministic 16?bit processing, integrated peripherals, and non?volatile FRAM to preserve configuration without a backup battery.
- Consumer and portable instruments that need fast non?volatile data logging, frequent calibration storage, and reduced power draw in standby modes.
- Medical and metering devices where reliable non?volatile storage and low quiescent current support long service intervals and regulatory traceability.
MSP430FR5992IPMR Advantages vs Typical Alternatives
The MSP430FR5992IPMR emphasizes low power and FRAM advantages over typical flash?based microcontrollers. FRAM offers faster write times, higher endurance and lower energy per write compared with flash, reducing downtime and maintenance for write?intensive applications. The 16?bit MSP430 core provides simpler code density and deterministic timing compared with some 32?bit alternatives for many control tasks, enabling smaller memory footprints and lower BOM cost when high throughput is not required.
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MSP430FR5992IPMR Brand Info
The MSP430FR5992IPMR is part of the MSP430 family from Texas Instruments. TI positions this family for low?power embedded applications, pairing a proven 16?bit core with FRAM technology and broad development ecosystem support, including compilers, debuggers and reference designs for rapid prototyping and production scaling.
FAQ
What memory technology does it use?
The device uses FRAM (ferroelectric RAM) as its non?volatile memory. FRAM supports fast, low?energy writes and higher endurance than typical flash memory, which benefits frequent logging and configuration updates.
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Which CPU core is inside?
The MSP430FR5992IPMR employs a 16?bit MSP430 CPU core. This core provides efficient instruction density and low dynamic power for embedded control and sensing tasks where deterministic timing and energy efficiency matter.
Is it suitable for battery operation?
Yes. The family is designed for low?power use with multiple low?power modes and features to minimize standby and active energy. Consult the datasheet for exact current consumption numbers per mode to size batteries accurately.
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Where can I find pin and packaging drawings?
Consult the official device datasheet and package mechanical drawings for pin configuration, land pattern recommendations and thermal characteristics. The datasheet provides the authoritative package mechanical dimensions and recommended PCB footprint.
What development tools support this part?
TI??s MSP430 ecosystem provides compilers, IDEs, and debug tools compatible with the MSP430 family. Reference software examples and hardware development kits are available from the manufacturer to accelerate bring?up and prototyping.