Browse Teaching Resources

1-10 of 25 Results | View:
Lab 4: Full-Wave Rectifiers

by National Instruments

This lab guides students in simulating and building a full-wave bridge rectifier and in exploring the V-I characteristic of a diode. Students will also use LabVIEW to explore the individual...
Lab 7: SPI Communication

by National Instruments

This lab allows students to explore communication using the Serial Peripheral Interface (SPI) bus. Students will learn about the basic theory behind SPI communication using a microcontroller as the...
Start doing projects on your own with your myDAQ. Get started with a few ideas here.
Build a strongman game by sensing force with a piezoelectric film strip.
Lab 7: The Photovoltaic Characterization

by Dr. Petru A. COTFAS, Dr. Daniel T. COTFAS, Dr. Doru URSUTIU, and Dr. Cornel SAMOILA | Transilvania University of Brasov

The purpose of this lab is to study the behavior of some types of solar cells and mini solar panels, using the NI ELVIS II platform.
This lab introduces students to communications theory with amplitude modulation and demodulation. Students will explore the theory behind amplitude modulation, use the Analog Discovery 2 to visualize...
Develop a Morse code translator that puts your sensor knowledge to the test using AI, AO and DIO tasks. This challenging project walks students through creating the necessary code to convert user...
This lab introduces students to the importance of frequency response when designing circuits. Students will investigate the frequency response of two amplifier circuits, one made with transistors and...
Lab 6: UART Serial Communication

by National Instruments

This lab allows students to explore the basics of serial communication using a microcontroller as the transmitter and the Analog Discovery 2 as the receiver. Students will explore and visualize the...
Learn about photocells by building an automatic headlight controller.