MSP430FR2100IPW16R Overview
The MSP430FR2100IPW16R is a low-power microcontroller family member that typically targets energy-sensitive embedded designs. To produce an accurate, value-focused overview based strictly on the official product sheet, I need the original datasheet or specification sheet content. Once provided, I will craft a concise, 90?C120 word summary that highlights memory type, core, power profile, package, and interface benefits for engineers and sourcing specialists. For reference and sourcing context visit IC Manufacturer.
MSP430FR2100IPW16R Technical Specifications
| Parameter | Value |
|---|---|
| Microcontroller family | ?? |
| Nonvolatile memory type | ?? |
| Memory size | ?? |
| Core / Instruction set | ?? |
| Operating voltage range | ?? |
| Number of I/O pins | ?? |
| Package type | ?? |
| Operating temperature range | ?? |
| Typical active current | ?? |
| Lowest power mode current | ?? |
| On-chip peripherals (timers/ADC/UART/SPI/I2C) | ?? |
| Clock / max frequency | ?? |
MSP430FR2100IPW16R Key Features
- Low-power operation that reduces system energy use for battery-powered designs when confirmed from the datasheet.
- Nonvolatile memory technology that preserves code and data without external storage and improves startup reliability when specified.
- Compact package for space-constrained PCBs, helping reduce BOM area and enabling small form factor products.
- Integrated peripherals that lower system cost and simplify board-level design by reducing external components if present on the official sheet.
Typical Applications
- Battery-powered sensors and data loggers requiring minimal quiescent current and robust nonvolatile storage for long-term uptime and data retention.
- Low-power human interface devices where compact package and integrated peripherals reduce board area and component count for portable equipment.
- Smart metering or utility nodes that need reliable nonvolatile memory and deterministic wake/sleep behavior for energy-efficient measurement and reporting.
- Industrial monitors and simple control nodes that require rugged operation, small packages, and low standby current for distributed deployments.
MSP430FR2100IPW16R Advantages vs Typical Alternatives
The exact advantages depend on confirmed datasheet parameters. Generally, FRAM-based MSP430 variants offer faster write speeds and higher endurance than typical flash alternatives, with lower active and standby currents versus higher-performance MCUs. A compact 16-pin package can beat larger packages for board space. Integrated analog and digital peripherals reduce external components, lowering BOM and improving reliability compared with solutions that require separate EEPROM or external sensors.
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MSP430FR2100IPW16R Brand Info
The MSP430 family is produced by Texas Instruments. The brand is known for low-power microcontrollers and analog integration across industrial and consumer segments. This device aligns with TI??s focus on long battery life, compact packages, and embedded FRAM memory for reliable nonvolatile storage in energy-conscious applications.
FAQ
What is the memory technology?
Memory technology and capacity are stated on the official product sheet. FR-series MSP430 devices commonly use FRAM for nonvolatile storage, but please provide the datasheet to confirm the exact memory type and size for this specific part number.
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What package does it use?
Package type, pin count, and mechanical drawing must be taken from the datasheet. The device designation suggests a 16-pin package variant, but please supply the official mechanical specification to confirm dimensions and footprint for PCB layout.
What power modes are supported?
Detailed power modes, standby currents, and consumption for each operating state are listed in the datasheet. Provide the sheet and I will extract exact current figures and recommended low-power strategies for system design.
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Which peripherals are integrated?
On-chip peripherals and their counts (timers, ADC, communication interfaces) vary by device. The datasheet contains the definitive list. Share it so I can list each peripheral and state how it supports common embedded tasks.
Do supply and thermal limits match industrial needs?
Supply voltage range and operating temperature limits are specified in the electrical and absolute maximum ratings sections of the product sheet. Send the datasheet to confirm qualification for industrial, automotive, or consumer-grade deployments.