The future of engineering depends on the engineering students trained by today's top - notch universities. These students need to carry out operations such as basic measurement, debugging of wireless and mixed - signal design. The equipment that students use in school will also be used after they graduate and start working. Tektronix and Keithley have nearly 75 years of experience and have sold more than 1 million oscilloscopes, providing reliable equipment for most of the top - level engineering design institutions worldwide. We will continue to develop precision instruments to enhance the learning experience for students who will lead the future.
As instruments become increasingly complex, the basic teaching laboratory integrates simple - to - use test equipment, providing your students with the necessary functions to help them understand the basics of circuit design, rather than offering a vast array of useless functions. This workbench is configured with the hardware, software, and service components you need, to prepare future engineers for the tough challenges of tomorrow.
When students start learning, they first not only need to understand the principles of electronic design, but also need to know how to use equipment to make measurements to verify their designs.
The basic teaching laboratory provides students with simple - to - use equipment to help them learn the basics of measurement. The TBS1000C Oscilloscope has built - in educational functions such as online tutorials and HelpEverywhere™, which can provide information about the oscilloscope's functions on the screen. The AFG1062 Arbitrary Function Generator provides basic signal sources and is an ideal choice for teaching the basics of signal generation.
With the rapid development of automation and mobile technologies, engineers are seeking new methods to design efficient circuits that can accommodate various inputs. For students, it is increasingly important to develop design and implementation skills in areas such as analog and mixed - signal circuits, power management, wireless communication, and rapid prototyping design.
This configuration provides the instruments required for future electronic engineers to learn practical applications.
As students advance in their studies, they need to simulate their designs under more complex signals and view more signals at any given time. More advanced test and measurement equipment can enable your students to more effectively overcome challenging learning curves.
The Electronic Engineering Laboratory provides the tools needed to test increasingly complex circuits. When the TCP0030A current probe is paired with the TBS2000B oscilloscope, students can easily measure AC or DC currents. In addition, the DMM6500 digital multimeter allows for instant insight into measurements, such as capturing transient signals and viewing data trends, so as to analyze data more quickly and eliminate extra measurement steps.
As devices offer more and more functions, embedded design is becoming increasingly complex. Students need to learn how to capture and analyze problems in their designs and identify the root causes.
The embedded design workbench adopts the Series 2 MSO – it is a fully - featured oscilloscope with a variety of integrated functions, such as an arbitrary function generator and an optional battery pack. This integrated platform enables future engineers to solve any problems they encounter at any time.
As devices offer more and more functions, embedded design is becoming increasingly complex. Students need to learn how to capture and analyze problems in their designs and identify the root causes. Complex problems will include serial bus triggering and capture, or using signal sources to simulate part of their designs in the laboratory or at the deployment sites of their designs.
The embedded design workbench adopts the Series 2 MSO – it is a fully - featured oscilloscope with a variety of integrated functions, such as an arbitrary function generator and an optional battery pack. This integrated platform enables future engineers to solve any problems they encounter at any time.
With the rapid development of wireless technology and the increasing complexity of Internet of Things (IoT) design, your students need a modern workbench that will prepare them for success in the real world. The key to success lies in learning to generate and measure signals in both the time domain and the frequency domain, and ensuring that the design does not interfere with the surrounding environment.
This workbench configuration includes all the components that students need to learn challenging designs with full confidence.
Today's students often engage in design work involving wireless and mixed - signal technologies. A successful design will require evaluating individual components and the entire system.
This next - generation RF teaching workbench can examine all aspects of mixed - signal design. For example, the 2450 Source Measure Unit, when used in combination with the Kickstart software, can easily and comprehensively evaluate discrete components. In addition, the Series 3 MDO Oscilloscopes provide all the analog and digital signal analysis required for debugging designs. This bundled package provides everything needed to enable your students to discover and solve problems in RF and mixed - signal design.