DATA SHEE T U3800 Series IoT Applied Courseware
Table of Contents Introduction ���������������������������������������������������������������������������������������������������������������������������� 03 U3801A/02A IoT Fundamentals Applied Courseware ��������������������������������������������������������� 05 U3803A/04A IoT Systems Design Applied Courseware ����������������������������������������������������� 09 U3805A/06A IoT Wireless Communications Applied Courseware ������������������������������������� 14 U3807A/08A IoT Sensors and Power Managem
Introduction The Internet of Things (IoT) is the next mega trend that will change the way we live and work, and it is predicted to touch almost every consumer and industrial application. The core technologies that enable the IoT are wireless communication and sensor developments, and ongoing advances in these technologies result in unique challenges. These challenges include new communications standards, increased sensor integrations and power consumption management.
Comprehensive –– This courseware focuses on end-to-end learning of the IoT ecosystem, from the sensor node, gateway, cloud to end-user application/service. Topics such as different types of wireless technologies in a single training platform, including Bluetooth®, ZigBee, WLAN, and LoRa, are also included. –– Setting up a new course can be challenging and time-consuming. The courseware is designed for full-semester teaching, covering 2nd year – final year undergraduate program.
U3801A/02A IoT Fundamentals Applied Courseware Overview The U3801A/02A IoT Fundamentals applied courseware is a ready-to-teach package focused on the fundamentals of the Internet of Things. It introduces students to the IoT’s architecture, technologies, standards, wireless protocols, applications, and ecosystems. The courseware is designed as a resource for lecturers, and consists of teaching slides and a training kit.
Courseware Contents Teaching slides The teaching slides are editable and cover 36+ hours of teaching for a full semester. The slides cover the following topics: IoT essentials Introduction to the essential elements of an IoT-enabled embedded system, IoT hardware platform (such as gateway and sensor node), IoT building blocks (such as sensors, connectivity and data), IoT applications and ecosystem.
Training kit IoT development kit This hardware kit is a customizable embedded system development kit that can be configured as a gateway or a sensor device. It incorporates an Intel Edison compute module that is designed for expert makers, entrepreneurs, and industrial IoT applications.
Lab sheets Lab sheet topic 1. IoT System Overview – Perform system setup, connection between host and target, test run a ready-made application using a sample application as the demonstration, and build a simple IoT application to read data from sensors and display the results on an LCD 2. Exploring LAN/PAN Connectivity Protocols and Understanding the Purpose of an IoT Gateway – Use different connectivity protocols to connect the target to sensor devices 3.
U3803A/04A IoT Systems Design Applied Courseware Overview The U3803A/04A IoT Systems Design applied courseware is a ready-to-teach package on the subject of the IoT, with the goal of providing students the ability to develop and embedded system with IoT capabilities. This courseware is designed as a resource for lecturers, and consists of teaching slides and a training kit.
Courseware Contents Teaching slides The teaching slides are editable and cover 36+ hours of teaching for one full semester. The slides cover the following topics: Essential elements of IoT systems Introduction to an IoT-enabled embedded system, IoT building blocks, the past, present and future of IoT systems, and how IoT devices work.
Training kit IoT development kit This hardware kit is a customizable embedded system development kit that can be configured as a gateway or a sensor device. It incorporates an Intel Edison compute module that is designed for expert makers, entrepreneurs, and industrial IoT applications.
Lab sheets Lab sheet topic Need required instruments 1. Introduction to the IoT Development Kit – Use the IoT development kit to perform system setup, connect between host and target, and test run a simple program using Eclipse C/C++ IDE. No 2. Introduction to the Peripherals of the IoT Development Kit – Explore various functions of the IoT development kit, and develop programs to interface with push-button, LCD, external mass storage, UART and GPIO. No 3.
Cloud WLAN Gateway ZigBee connectivity Bluetooth LE connectivity XBee ZigBee kit IoT sensor device Figure 4. Typical lab setup. Problem-based assignments The problem-based assignments below allow students to enhance their problem-solving skills. Smart street lamp Develop a smart street lamp using the available sensors and actuators. The street lamp can be controlled over a network based on the light intensity of the surrounding environment.
U3805A/06A IoT Wireless Communications Applied Courseware Overview The IoT Wireless Communications applied courseware is a ready-to-teach package focused on the wireless connectivity of the Internet of Things, with the goal of providing students the ability to develop typical IoT applications with various types of wireless connectivity. Students will learn how to perform quick verification and design validation on IoT applications.
Courseware Contents Teaching slides The teaching slides are editable and cover 36+ hours of teaching for one full semester.
Training kit IoT development kit This hardware kit is a customizable embedded system development kit that can be configured as a gateway or a sensor device. It incorporates an Intel Edison compute module that is designed for expert makers, entrepreneurs, and industrial IoT applications.
Add-on item Quantity LoRa module (with antenna) 1 LoRa kit (LoRa module and XBee breakout board with USB cable) 1 Wideband antenna 1 SMA(m) to SMA(f) cable assembly, 1m 1 N-type(m) to SMA(f) adaptor 1 Accessories The following accessories are not included and optional for lab activity: Item Quantity ZigBee USB dongle (TI CC2531EMK) 1 Bluetooth LE USB dongle (TI CC2540EMK) 1 Lab sheets Required Instruments and Software Lab sheet topic Option 1: Basic Lab Option 2: Advanced Lab 1.
Cloud WLAN LoRa connectivity Gateway IoT sensor device Bluetooth LE connectivity ZigBee connectivity XBee ZigBee kit IoT sensor device Figure 6. Typical lab setup. A spectrum analyzer or a signal analyzer and Vector Signal Analysis (VSA) software are required. Refer to the Ordering Information section on page 28 for the recommended models Problem-based assignments The problem-based assignments below allow students to enhance their problem-solving skills.
U3807A/08A IoT Sensors and Power Management Applied Courseware Overview The IoT Sensors and Power Management applied courseware is a ready-to-teach package focused on the IoT device design, with the goal of teaching students how to characterize power consumption of IoT device onboard controller, sensors, and wireless modules. Students will understand the principles of power management and be able to characterize micro-electro-mechanical systems (MEMS) devices.
Courseware Contents Teaching slides The teaching slides are editable and cover 36+ hours of teaching for one full semester.
Training kit IoT development kit This hardware kit is a customizable embedded system development kit that can be configured as a gateway or a sensor device. It incorporates an Intel Edison compute module that is designed for expert makers, entrepreneurs, and industrial IoT applications.
Accessories The following accessories are included with the hardware kit: Add-on item Quantity Accelerometer and gyroscope sensor 1 MEMS pressure sensor 1 Croc clip to 4mm banana plug, 36 inches, 5A (red) 1 Croc clip to 4mm banana plug, 36 inches, 5A (black) 1 Phoenix (8-way) connector to banana plugs (one red, one black) 1 9V battery connector to banana jacks (one red, one black) 1 Test lead, 4mm banana plug to 4mm banana plug (black) 2 Test lead, 4mm banana plug to 4mm banana plug (red) 3
Cloud WLAN Gateway ZigBee connectivity Bluetooth LE connectivity XBee ZigBee kit IoT sensor device Figure 8. Typical lab setup. A digital multimeter (DMM) with very low current measurement capabilities and a fourchannel oscilloscope are required. Refer to the Ordering Information section on page 28 for the recommended models. Problem-based assignments The problem-based assignments below allow students to enhance their problem-solving skills.
IoT Development Kit Characteristics IoT development kit Dimensions 20 cm (w) x 8.5 cm (d) x 5 cm (h) Compute module Intel Edison (A dual-core, dual-threaded Intel Atom CPU at 500 MHz and a 32-bit Intel Quark microcontroller at 100 MHz) RAM and flash storage 1 GB LPDDR3 PoP memory and 4 GB eMMC Wireless communication WLAN 802.11 a/b/g/n, Bluetooth LE (version 4.
Preview IoT Applied Courseware Contents Visit www.keysight.com/find/TeachIoT for more information about the contents of the IoT applied courseware and to view samples of the teaching slides and lab sheets. IoT Fundamentals Applied Courseware Figure 9. Samples of the teaching slides – Chapter 5, IoT Application Design Essentials. View more samples at the above link. Figure 10. Samples of the lab sheets – Lab 6, Cloud-enabled IoT Application. View more samples at the above link. Find us at www.keysight.
IoT Systems Design Applied Courseware Figure 11. Samples of the teaching slides – Chapter 5, Designing IoT Applications Using Embedded Systems. View more samples at the above link. Figure 12. Samples of the lab sheets – Lab 5, Exploring Cloud Messaging Protocol. View more samples at the above link. Find us at www.keysight.
IoT Wireless Communications Applied Courseware Figure 13. Samples of the teaching slides – Chapter 3, Wireless Standards for IoT. View more samples at the above link. Figure 14. Samples of the lab sheets – Lab 4, Evaluating the IoT Data Link Protocols for Short Range Wireless Communications with Low Power Consumption. View more samples at the above link. Find us at www.keysight.
IoT Sensors and Power Management Applied Courseware Figure 15. Samples of the teaching slides – Chapter 3, Fundamentals of Power Measurement. View more samples at the above link. Figure 16. Samples of the lab sheets – Lab 2, Characterizing IoT Sensor Board (Device) Static and Dynamic Power Consumption. View more samples at the above link. Watch a video overview or live demonstration Visit the Keysight Educators playlist on the Keysight YouTube network at https://www.keysight.com/find/education-videos.
Ordering Information Product number Description IoT Fundamentals Applied Courseware U3801A IoT Fundamentals applied courseware, with training kit only U3802A IoT Fundamentals applied courseware, with training kit and teaching slides Product number Description IoT Systems Design Applied Courseware U3803A IoT Systems Design applied courseware, with training kit only U3804A IoT Systems Design applied courseware, with training kit and teaching slides Recommended instruments 34465A1 6½ digit, perfor
Product number Description IoT Sensors and Power Management Applied Courseware U3807A IoT Sensors and Power Management applied courseware, with training kit only U3808A IoT Sensors and Power Management applied courseware, with training kit and teaching slides Recommended Instruments1 34465A-DIG, -MEM 6½ digit, performance Truevolt digital multimeter with high-speed digitizing and 2M memory N6705C, N6781A DC power analyzer 2-quadrant source/measure unit for battery drain analysis, 20 V, ±1 A or 6 V,
