MSP430F2121TRGET Overview
The MSP430F2121TRGET is a member of the MSP430 family, known for 16?bit RISC architecture and ultra?low power operation. To create an accurate, procurement?ready product brief and comparison, the authoritative datasheet is required. The content below is structured to accept the official device values and populate specifications, features, and application guidance directly from that source. For official reference materials, visit IC Manufacturer and supply the device datasheet or point to the original manufacturer documentation so numerical values and tolerances can be confirmed.
MSP430F2121TRGET Technical Specifications
| Parameter | Value (from datasheet) |
|---|---|
| CPU architecture | 16?bit RISC |
| Maximum CPU frequency | Refer to datasheet for MHz rating |
| Operating voltage | Refer to datasheet for V range |
| Flash memory | Refer to datasheet for size (bytes) |
| SRAM (on?chip) | Refer to datasheet for size (bytes) |
| Peripherals (timers/USI/ADC) | List and ratings as specified in datasheet |
| Package type / pin count | Package code TRG ?? consult datasheet for exact pin count and dimensions |
| Operating temperature range | Refer to datasheet for industrial/extended ranges |
| Typical current consumption | Active and low?power mode currents: see datasheet for ??A/mA values |
| I/O count and GPIO characteristics | Refer to datasheet for number of digital I/Os and drive ratings |
MSP430F2121TRGET Key Features
- 16?bit core for efficient control code and smaller instruction count, improving performance per cycle.
- Ultra?low?power design enables longer battery life in portable and sensor applications when compared to many 8?bit alternatives.
- Integrated peripherals (timers and serial interfaces) reduce external components and speed time to market.
- Compact package options support high?density board layouts and cost?sensitive BOMs in constrained designs.
Typical Applications
- Battery?powered sensing nodes where low active and standby currents extend service life and reduce maintenance cycles.
- Handheld instrumentation that requires a small footprint, predictable timing, and integrated serial interfaces for data transfer.
- Industrial control endpoints that need a robust 16?bit MCU to handle control algorithms while minimizing power draw between events.
- Consumer devices that demand compact packaging, integrated peripherals, and flexible I/O for diverse user interfaces and sensors.
MSP430F2121TRGET Advantages vs Typical Alternatives
The MSP430 family emphasizes ultra?low power and a 16?bit instruction set, which often delivers greater code density and lower energy per operation compared with many 8?bit MCUs. With integrated timers and serial interfaces, this device can reduce the need for external components and lower overall system cost. Its compact package options and optimized sleep modes make it more suitable than higher?power microcontrollers for battery?operated and space?constrained designs. Exact numerical advantages (current draw, memory sizes, package dimensions) should be confirmed from the official device datasheet for precise BOM or thermal comparisons.
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MSP430F2121TRGET Brand Info
The MSP430 series is produced by Texas Instruments, a global semiconductor manufacturer. TI positions MSP430 devices for ultra?low?power embedded applications, offering a broad toolchain, development kits, and long?term availability. For device lifecycle, ordering codes, and application notes specific to this device family, consult Texas Instruments?? official product pages and technical resources.
FAQ
Where is the official datasheet?
The authoritative datasheet and device technical reference are hosted by the manufacturer (Texas Instruments). Use the exact ordering code to locate the datasheet on the manufacturer site or through authorized distributors to ensure you reference the correct package and revisions.
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What does the TRGET suffix mean?
Suffixes encode packaging, tape?and?reel, and plating options. Confirm the exact meaning of TRGET for this ordering code by checking the manufacturer??s ordering and packaging guide in the product documentation.
How to confirm power and timing figures?
Power consumption and clocking details, including active mode currents and oscillator specifications, are listed in the electrical characteristics table of the datasheet and must be consulted for accurate power budgeting and timing analysis.
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Can I get development tools for this MCU?
Development tools, reference code, and application examples are available from the manufacturer??s website and community resources. Verify toolchain compatibility with the specific device revision before integrating into development workflows.
What to check before sourcing components?
Verify package dimensions, thermal ratings, temperature range, lot availability, and authorized distributor status. Cross?reference the exact ordering code and revision in the manufacturer??s product status and reliability documentation before procurement.