MSP430FR59471IRHAT Overview
The MSP430FR59471IRHAT is a microcontroller SKU that requires the original product specification sheet to produce a fully accurate description, numerical specification table, and validated application guidance. To ensure precision for engineers and sourcing specialists, this overview relies on the referenced datasheet as the single source of truth. Once the sheet is attached or linked, the content can be populated with exact memory sizes, pin counts, electrical limits, timing figures, and package dimensions. For procurement links and official resources consult IC Manufacturer.
MSP430FR59471IRHAT Technical Specifications
| Parameter | Value / Note |
|---|---|
| CPU architecture | Refer to the official datasheet for the precise core model and clock limits |
| Nonvolatile memory type | Refer to the official datasheet for the exact FRAM capacity and endurance |
| SRAM / RAM | See datasheet for on-chip RAM size and retention characteristics |
| Max operating voltage | Datasheet-specified supply range required for exact figures |
| Operating temperature range | Refer to datasheet for industrial or extended temperature grades |
| Available peripherals | List and counts (ADC, timers, serial interfaces) appear in the datasheet |
| Package type | Refer to the datasheet for package code, pin count, and mechanical drawing |
| Typical current consumption | Datasheet contains active and standby current figures by mode |
| ESD and reliability ratings | Consult the datasheet for HBM/MM classifications and reliability data |
MSP430FR59471IRHAT Key Features
- Deterministic 16-bit processing??benefit: predictable instruction timing for real-time control (confirm exact core in datasheet).
- Nonvolatile FRAM??benefit: fast writes and high endurance that reduce power and extend lifecycle (refer to datasheet for capacity and endurance numbers).
- Low-power operating modes??benefit: longer battery life in portable or remote applications; datasheet provides measured currents per mode for system budgeting.
- Rich peripheral integration??benefit: reduces BOM count by on-chip ADCs, timers, and serial interfaces; exact peripheral counts and specs are in the datasheet.
Typical Applications
- Battery-powered industrial sensors that require low-power sleep states and nonvolatile data logging to withstand power cycling over many years.
- Handheld instrumentation where fast nonvolatile writes and low active current improve user experience and reduce recharge frequency.
- Embedded metering and energy monitoring systems that need deterministic control, frequent nonvolatile updates, and robust data retention in field conditions.
- Control nodes in distributed automation where integrated analog and digital peripherals reduce board complexity and lower overall system cost.
MSP430FR59471IRHAT Advantages vs Typical Alternatives
Compared with many 8-bit or flash-based microcontrollers, this MSP430-series SKU emphasizes lower active energy per instruction and the advantages of FRAM for high write endurance and fast nonvolatile updates. The integration of multiple peripherals on a single die reduces the bill of materials and board area versus solutions that require discrete ADCs or external memory. For sourcing and technical evaluation, consult the datasheet for precise numeric comparisons of memory sizes, current draw per mode, and peripheral counts to quantify the real advantages for your design.
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MSP430FR59471IRHAT Brand Info
The MSP430 family is produced by Texas Instruments, a leading semiconductor manufacturer known for analog and embedded processing solutions. Texas Instruments emphasizes reliable documentation, long product lifecycle support, and broad distributor availability for MSP430 microcontrollers. Refer to TI??s product page and the official datasheet for validated electrical specifications, application notes, and design tools.
FAQ
What is the exact FRAM capacity?
The datasheet lists the FRAM capacity for this exact part number. Capacity can vary across MSP430 family members, so verify the FRAM byte count and any memory map entries in the official documentation.
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Which package and pin count does it use?
Package type and pin count are specified in the mechanical drawings within the product datasheet. Check the drawing revision for land pattern recommendations and thermal characteristics before PCB layout.
What are the operating voltage limits?
Operating voltage limits and recommended decoupling are provided by the manufacturer in the electrical characteristics table of the datasheet. Use those numbers for power-supply design and margin calculations.
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How much current does it consume in low-power mode?
Standby and active current figures vary by operating mode and temperature. The datasheet provides measured currents for each low-power state to support battery life and thermal design calculations.
Where can I find development resources and tools?
Technical resources such as evaluation modules, example code, and compiler/toolchain support appear on the manufacturer??s product page and in linked application notes. Refer to those official resources for design examples and reference firmware.