This six part training walks through the usage of the MSP430FR5969 LaunchPad. The training explains the working of the demo code that is pre-programmed in the LaunchPad. You will also learn how to setup CCS projects and initialize and use key peripherals in the MSP430FR59xx family of MCUs.
The MSP430 ultra-low-power microcontroller family now includes the MSP430FR4x/FR2x series of MCUs with unmatched flexibility in the form of the industry’s lowest-power software-configurable LCD driver, abundant IO and unified non-volatile FRAM. These easy-to-use microcontroller series can be evaluated with the low cost MCU development tool, the MSP430FR4133 LaunchPad. Target Socket boards can also be paired with the MSP-FET programmer/debugger for development in a full system.
This 7 Part Series with the MSP430 5xx Experimenters Board will cover the following topics:
- Active and low power mode operation
- Mixed signal application example
- Hardware timers to conserve power
- Implementing a fully optimized ADC12 routine
- MSP430 tools, resources, and conclusions
MSP430 MCUs featuring CapTIvate technology are the most noise-immune capacitive touch MCUs, and first to feature an IEC61000-4-6 certified solution. These MCUs feature the most configurable combination of buttons, wheels, sliders and proximity sensing interfaces, as well as support for metal touch, glove-proof and moisture-tolerant designs, all at the world's lowest power.
This training series details the key features of MSP430 MCUs featuring CapTIvate technology, enabling you to get started on your next great capacitive touch design and get to market more quickly.
Join our webinar series, as we explore different industry trends and technologies across our diverse product portfolio. Over the coming months, our experts will cover the latest analog, power management and embedded processing topics, across both automotive and industrial applications.
This training series covers LEA or Low Energy Accelerator a vector math co-processor, the performance benchmark, and how to get started on the new MSP430FR599x. LEA is capable of performing various signal processing tasks efficiently without any CPU intervention. For example, LEA can perform a 256-point complex FFT in just ~5k cycles whereas a Cortex-M4F would take approximately 17k cycles (3.6x improvement).
Delta-sigma analog-to-digital converters (ADCs) are oversampling converters typically used in applications requiring higher resolution. However, ADCs do not work by themselves. In fact, they require several key components around them, including a front-end amplifier, a voltage reference, a clock source, power supplies, and a good layout. Many devices integrate these features together with the ADC to offer a complete system solution, which simplifies the design for customers and minimizes board space.
Ultrasonic sensing techniques have been popular in smart water meters because the technology avoids any moving parts which are prone to degrade over the lifetime of the product. The MSP430FR6047 microcontroller (MCU) family takes ultrasonic sensing solutions to next level of performance delivering <25ps of accuracy, detection of low flow rates <1 liter/hour and high precision of <5ps.
The MSP-EXP430FR2433 LaunchPad™ development kit is a member of the MSP430™ Value Line Sensing MCU family. The LaunchPad kit provides a quick evaluation and prototyping tool for the MSP430FR2433 microcontroller (MCU). This series provides an overview of the LaunchPad kit’s features and the out-of-box temperature sensing demo.
Simple functions such as timer replacement, input/output expanders, system reset controllers and stand-alone EEPROM are common on PCBs. Low-cost, ultra-low-power MSP430™ value line microcontrollers (MCUs) offer cost savings when replacing digital and analog functions in a system. Watch this series to see how MSP430 MCUs can be used to enhance communication, pulse width modulation, systems and housekeeping, and timer functions in your next design.
PT100/500/1000 Resistance Temperature Detectors (RTDs) are widely used in grid infrastructure and factory automation applications where high precision temperature measurement is often required. Technical requirements include either 20 mK precise Differential Temperature Measurement (DTM) for heat and cold meters from 0 to 180°C or better than 400 mK precision over the full range of -200 to 850°C for industrial sensor transmitters.
This training series provides an overview of the the Energy Measurement Design Center for MSP430x microcontrollers (MCUs) The Energy Measurement Design Center is a rapid development tool that enables energy measurement using TI MSP430i20xx and MSP430F67xx flash-based MCUs. It includes a graphical user interface (GUI), documentation, software library and examples that can simplify development and accelerate designs in a wide range of power monitoring and energy measurement applications, including smart grid and building automation.
This training covers the fundamental design techniques required to implement a successful capacitive sensing hardware design. This series will explore a number of design topics, including: Basic layout guidelines overlays, back lighting; Dealing with moisture; Self capacitance sensors; Mutual capacitance sensors; and Proximity sensors.