今晚六给彩开奖结果l www.dapenggj.com Ignite curiosity about big ideas. Motivate today’s students to become tomorrow’s innovators and inventors. Our technology for education and learning environments includes tools for visualization, computation, analysis, and exploration of concepts in math, science and engineering for students in middle grades through college and university.
Many standardized tests and college entrance exams permit or even require the use of a graphing calculator. Our TI-Nspire? CX technology includes handhelds, software, apps for iPad? and a classroom management system that use the same functionality and content to deepen student understanding of mathematics through exploration of math and science concepts. Our graphing calculators are ideal for students to use in math, science and engineering classes from middle school through university.
Interactive science and math technology with built-in graphing, geometry, spreadsheets, coding, data collection and data analysis capabilitiesLearn more
The TI-Innovator? Hub is the centerpiece of the TI-Innovator? System, a project kit that extends the functionality of our graphing calculators to make coding and engineering design accessible to students in the classroom. Extend the functionality of the TI-84 Plus CE and the TI-Nspire CX handheld with technology for STEM coding and projects.Learn more
Microcontrollers are the building blocks of embedded systems that permeate our modern world, from our home security systems to the cars we drive to automated factories that manufacture products. We offer a wide array of 16-bit and 32-bit microcontroller solutions that university engineering students can easily use in their coursework design requirements to solve the same low power or high performance design challenges as customers and industry.
The MSP430? ultra-low-power microcontroller was designed with two goals in mind: to consume as little power as possible and to be extremely C code efficient. From student projects to teaching labs, the flexibility and accessibility of the MSP430 makes the processor ideal for university engineering education.Learn more
Smart homes. Connected cars. Intelligent factories. At the heart of these clever technologies is an interconnected network of smart devices that permeate virtually every aspect of our lives. Today’s engineering student is likely to be required to learn and implement a wireless connectivity solution that can talk to the cloud or another device. We can support the integration of smart connected devices into university projects and courses with the largest selection of innovative, low power and easy to use solutions.
Easily adds Bluetooth? low energy connectivity to the LaunchPad development? kit ecosystemLearn more
Single-chip Sub-1 GHz and Bluetooth low energy solutionLearn more
Plug-in module for TI LaunchPad development kits to add Wi-Fi to any systemLearn more
Teaching power management in engineering coursework is vital. Everything around us, including products we’ve used for years, from thermostats to automobiles, is becoming smarter and more connected. Simply stated, all electronic systems, without exception, need a power solution. What this means to engineering educators is that there is a surging demand for highly skilled power engineers. And it’s up to us to equip them.
The TI-PMLK – Power Management Lab Kit – is a series of boards, lab books, and hands-on exercises intended to teach students the fundamentals of power in a variety of scenarios around real world applications. For example, students are now able to learn the theory behind switching power supplies and linear regulators, and – through hands-on labs – go deeper into issues such as efficiency, control, modes of operation, and power magnetics.Learn more