MSP430FR6005IPZR Overview
The MSP430FR6005IPZR is listed as an FRAM-based MSP430 device. To deliver an accurate, specification-driven product description, I need the original product sheet or datasheet. I will not invent electrical ratings, memory sizes, pin counts, or timing figures. Provide the sheet and I will produce validated technical content, numerical specifications, and verified tables optimized for engineers and sourcing teams. For sourcing and reference, see IC Manufacturer. Upload the official document and I will complete a full, compliant description with precise values, package details, and test conditions.
MSP430FR6005IPZR Technical Specifications
| Parameter | Value (from provided sheet) |
|---|---|
| Core architecture | Please provide exact core designation |
| Nonvolatile memory type | Please confirm FRAM specification |
| Supply voltage range (V) | Please supply numeric range |
| Maximum operating frequency (MHz) | Please provide clock speed |
| Package type and pins | Please provide package code and pin count |
| Operating temperature range (??C) | Please provide min/max temperatures |
| ADC resolution | Please provide ADC bits and sample rate |
| Current consumption (active / standby) | Please provide numeric currents in ??A/mA |
| Peripherals (timers, communication) | Please list available peripherals and counts |
| ESD and reliability ratings | Please provide HBM / MM numbers if available |
MSP430FR6005IPZR Key Features
- 16?bit core capability: delivers compact code and predictable timing for control tasks (confirm exact core family on sheet).
- FRAM nonvolatile memory capability: enables fast writes and high endurance, which matters for frequent-logging and data-logging applications.
- Ultra?low power modes capability: reduces energy per operation and extends battery life in long-term remote or portable systems.
- Integrated analog and digital peripherals capability: simplifies BOM and improves system integration; confirm ADC, timers, and serial blocks in the datasheet.
Typical Applications
- Battery-powered sensor nodes and remote data loggers where fast FRAM writes and ultra-low sleep currents preserve battery life over years.
- Smart meters and energy-monitoring endpoints that require nonvolatile counters and frequent small writes without blocking operations.
- Industrial control units that need robust nonvolatile storage and deterministic execution for control loops and event logging.
- Handheld medical and measurement instruments that depend on low power, quick nonvolatile storage, and integrated ADCs for accurate sampling.
MSP430FR6005IPZR Advantages vs Typical Alternatives
The MSP430FR6005IPZR design offers FRAM-based nonvolatile storage which typically provides faster write cycles and higher endurance than flash alternatives. Its ultra-low-power sleep and active modes reduce energy per transaction compared to many 8? and 32?bit MCUs, making it more efficient for long-life battery systems. Integration of timers, ADCs, and serial interfaces cuts BOM count and PCB area. For exact numeric comparisons and validated claims, I will reference the supplied datasheet and update performance tables and power curves accordingly.
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MSP430FR6005IPZR Brand Info
The MSP430FR6005IPZR is part of the MSP430 family from Texas Instruments. TI??s MSP430 product line targets low-power embedded systems with a long history in metering, sensing, and portable instruments. This device follows TI??s focus on energy efficiency, integrated peripherals, and broad ecosystem support including development tools and application notes.
FAQ
What package options exist?
Package options and pin counts are specified in the official datasheet. Provide the sheet to confirm the exact package code (for example PZ, VSSOP, or TSSOP) and thermal characteristics for board-level decisions.
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How much nonvolatile memory is included?
Exact FRAM capacity must be read from the product sheet. The datasheet lists the memory size, addressing, and endurance figures required for firmware and data logging budgeting.
What is the operating voltage range?
Supply voltage limits are given in the electrical characteristics section of the datasheet. Please upload the sheet so I can quote the precise minimum and maximum voltages and recommended decoupling practices.
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Which development tools support this device?
Toolchain and debugger support vary by MSP430 family member. The datasheet and TI documentation identify supported programmers, IDEs, and sample code. I will list exact tool versions once the sheet is provided.
Where can I get official reliability data?
Reliability metrics such as junction temperature, ESD protection, and life testing are documented in the datasheet and product quality reports. Provide the sheet to extract HBM/MM ESD ratings and temperature derating curves.