MSP430F1612IPM Overview
This page prepares a precise, datasheet-driven product description for the MSP430F1612IPM. To guarantee technical accuracy and to avoid inventing numerical specifications, I need the original product sheet or its exact content. Once the sheet is available I will extract core electrical parameters, memory sizes, package details and peripheral lists directly from the document. The resulting copy will be optimized for sourcing engineers and application designers and will cite the authoritative source. For reference inquiries or vendor sourcing, see IC Manufacturer.
MSP430F1612IPM Technical Specifications
| Parameter | Value (from product sheet) |
|---|---|
| CPU Core | See product sheet for exact core details and instruction set |
| Maximum Clock Frequency | See product sheet for rated maximum CPU clock (MHz) |
| Operating Voltage Range | See product sheet for specified VCC range (V) |
| Flash Memory | Refer to product sheet for Flash size (bytes) |
| SRAM | Refer to product sheet for SRAM size (bytes) |
| ADC Resolution | See product sheet for ADC bits and channel count |
| Timers / PWM | See product sheet for number and width of timers (bits) |
| Package | Refer to product sheet for package type and pin count |
| Operating Temperature Range | See product sheet for industrial / extended temperature limits (??C) |
| Peripherals | Refer to product sheet for UART/SPI/I2C/USCI counts and details |
MSP430F1612IPM Key Features
- Single 16?bit low?power MCU core with deterministic instruction timing for real?time control and reduced code size.
- On?chip nonvolatile memory and SRAM integration??simplifies board design and accelerates system integration when exact sizes are verified on the sheet.
- Integrated analog peripherals such as an ADC and comparator (see sheet for resolution) that reduce the need for external converters and lower BOM cost.
- Multiple serial interfaces (UART, SPI, I2C/USCI as listed on the sheet) enabling straightforward connectivity to sensors, memory, and communication modules.
Typical Applications
- Battery?powered sensor nodes and handheld instruments that require ultra?low power consumption and integrated analog front?end to extend run time and reduce external components.
- Industrial monitoring and control systems that need deterministic 16?bit processing for timing-critical tasks and compact firmware storage for long?term field deployment.
- Motor control and power?management subsystems where on?chip timers, PWM outputs, and analog inputs simplify closed?loop control and improve reliability.
- Communication gateways and protocol bridges that leverage multiple serial interfaces to connect legacy sensors to modern networks with minimal external logic.
MSP430F1612IPM Advantages vs Typical Alternatives
The MSP430F1612IPM delivers a focused balance of low energy consumption and integrated peripherals compared to larger 32?bit microcontrollers. It typically uses fewer external components thanks to built?in ADCs and serial interfaces, which lowers system cost and board area. For designers needing efficient, deterministic 16?bit control and reduced BOM complexity, this device often offers better power?to?performance than comparable 8?bit MCUs, and a smaller total solution cost than some high?end alternatives when the exact on?chip resources are verified from the product sheet.
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MSP430F1612IPM Brand Info
The MSP430 series is produced by Texas Instruments, a global semiconductor manufacturer. The family is known for ultra?low power 16?bit microcontrollers tailored to battery?sensitive and embedded control applications. Brand support typically includes comprehensive documentation, code examples and development tools to speed evaluation and production readiness.
FAQ
What is the rated supply voltage?
The precise supply voltage range is defined on the official product sheet. Consult that document for minimum, typical and maximum VCC values and recommended decoupling practices before finalizing your power supply design.
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Which package options exist?
Package types and pin counts are listed on the product sheet. Review the package table and mechanical drawing in the official document to confirm footprint, lead pitch and thermal characteristics for PCB layout.
How many GPIO pins are available?
The exact number of general?purpose I/O pins depends on the package variant. Check the product sheet’s pinout section to map available pins and multiplexed peripheral functions for your design.
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Where can I find example code and tools?
Follow the brand’s development resources referenced in the product documentation. The product sheet typically points to evaluation boards, software libraries and IDE toolchains for rapid prototyping and debugging.
How do I verify operating temperature?
Operating temperature limits and recommended derating are specified in the datasheet. Use those values for thermal design and to select the correct grade for industrial or extended temperature operation.