Keysight Electronic Measurement Solutions for Teaching Labs

Introduction

As the world’s premier measurement company, Keysight Technologies, Inc.works in close collaboration with engineers, scientists, and researchers around the globe to meet the communications and electronics challenges of today and tomorrow. Keysight is committed to providing innovative measurement solutions that enable our electronics customers and partners—the leaders in their fields—to deliver the products and services that make a measurable difference in the lives of people everywhere. Keysight works closely with academia, government, and industry to provide the tools that enable development of new technology.

Keysight University Teaching Solutions

This selection guide is intended for university lecturers who need to develop new engineering courses or teaching labs. Keysight’s University Teaching Solution includes Keysight’s instruments and software, teaching slides, lab sheets and training kits. This complete solution will provide students with early exposure to industry-grade instruments and software. The teaching solutions are in a ready-to-teach package, which saves lecturers’ time in developing and updating courses to keep pace with the latest industry trends.

IoT Teaching Solution – IoT Fundamentals

Introduces students to the Internet of Things (IoT)’s architecture, technologies, standards, wireless protocols, applications, and ecosystems

Features:

Teaching slides on IoT Fundamentals

• Focuses on the fundamentals of the IoT
• Covers topics such as:
• IoT essentials
• Hardware for IoT
• Software for IoT
• IoT connectivity protocols
• IoT application design essentials
• From IoT to data analytics
• Case studies
• Covers 36+ hours of classroom sessions
• Slides are in editable format for easy editing
• Yearly update for three years at no additional cost

Training kit

• Consists of a development kit, sensor devices and XBee ZigBee® kit
• The IoT development kit is based on a carrier board with Arduino UNO form factor interface and a add-on ZigBee module
• Various external sensor devices can be connected to the board, allowing students to implement different types of IoT applications
• The development kit allows students to experiment with wireless local area network (WLAN) 802.11, Bluetooth® Low Energy (LE) and ZigBee wireless connectivity
• The IoT development kit provides various test points for troubleshooting, current-drain consumption measurement on sub-circuits and sensor verification

Lab sheets

• Guided steps and procedures to be used with the training kit
• Lab sheets are in editable format and come with model answers
• Covers 12-18 hours for a full semester of lab sessions, with each lab requiring 2-3 hours to complete
• Lab sheets complement teaching topics

Topics include:

• IoT system overview
• Exploring LAN/PAN connectivity protocols and understanding the purpose of an IoT gateway
• Exploring web-based cloud computing for IoT
• Exploring MQTT messaging protocol for IoT
• Exploring data visualization and analytics
• Cloud-enabled IoT application
• Problem-based assignments

Equips students with the knowledge on how to design, develop, and evaluate an embed­ded system with IoT capabilities

Lab sheets

• Guided steps and procedures to be used with the training kit and Keysight instruments
• Lab sheets are in editable format and come with model answers
• Covers 18-21 hours for a full semester of lab sessions, with each lab requiring 2-3 hours to complete
• Lab sheets complement teaching topics

Topics include: Introduction to the IoT development kit

Introduction to the peripherals of the IoT development kit

• Interfacing to IoT devices
• Digital communication protocols for IoT
• Wireless sensor networks for IoT
• Exploring cloud messaging protocol
• Cloud-enabled IoT operation
• Problem-based assignments

Test & measurement instruments

• The lab experiments are designed to work with a digital multimeter (DMM) and an oscilloscope.
• 34465A-DIG1 6½ digit performance Truevolt DMM with high-speed digitiz­ing and advanced triggering
• EDUX1002G InfiniiVision 1000 X-Series education oscilloscope with waveform generator, 50 MHz, 1 GS/s, 2 analog channels
• Use of industry-grade instruments provide students with hands-on exposure

Training kit

• Consists of a development kit, sensor devices and XBee ZigBee kit
• The IoT development kit is based on a carrier board with Arduino UNO form factor interface and a add-on ZigBee module
• Various external sensor devices can be connected to the board, allowing students to implement different types of IoT applications
• The development kit allows students to experiment with WLAN 802.11, Bluetooth LE and ZigBee wireless connectivity
• The IoT development kit provides various test points for troubleshooting, current-drain consumption measure­ment on sub-circuits and sensor verification

Features:

Teaching slides on IoT Systems Design

• Covers topics such as: Essential elements of IoT systems
• Enabling technologies for IoT systems
• Fundamentals of embedded systems for IoT
• Connectivity for IoT
• Designing IoT applications using embedded systems
• Introduction to cloud computing
• Case studies
• Covers 36+ hours of classroom sessions
• Slides are in editable format for easy editing
• Yearly update for three years at no additional cost
• IoT Teaching Solution – IoT Wireless Communications
• Equip students with knowledge on how to develop typical IoT applications with various types of wireless connectivity

Features:

• Teaching slides on IoT Wireless Communications
• Covers topics such as:Overview of IoT connectivity
• Principles of wireless communications
• Wireless standards for IoT
• Wireless networking
• Test and measurement for wireless connectivity
• Case studies
• Covers 36 hours of classroom sessions
• Slides are in editable format for easy editing
• Yearly updates for three years at no additional cost

Test & Measurement instruments and Software

Recommended setup for a complete lab includes N9000B CXA signal analyzer, installed with N9077C WLAN 802.11 and N9081C Bluetooth measurement applications and VSA software

• Use of industry-grade tools provide students with hands-on exposure

Training kit

• Consists of a development kit, sensor devices and XBee ZigBee and LoRa kits
• Allows students to experiment with WLAN 802.11, Bluetooth LE, ZigBee and LoRa wireless technologies