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Adam St. Amand

Dive into digital output devices, including seven-segment displays. Explore analog signals and grasp Ohm's Law for voltage, current, and resistance.

What's inside

Syllabus

This lesson explores the wide range of digital output devices and play technologies, each designed for particular applications, from basic bar LEDs to dynamic, full-colour displays.
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Learn about the seven-segment displays' evolution and applications, covering common anode/cathode configurations and scanning techniques.
In this lesson, you will learn analog signals in embedded systems, their conversion to digital via ADCs, the maths behind it and put that into practice through a sensor exercise.
The Ohm's Law is a fundamental subject in electronics. To lay the foundation, this lesson covers the concepts of voltage, current and resistance before explaining their relationship.

Good to know

Know what's good
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Explores digital output devices and play technologies designed for various applications, from basic bar LEDs to dynamic full-color displays
Covers common anode/cathode configurations and scanning techniques for seven-segment displays
Examines analog signals in embedded systems and their conversion to digital via ADCs
Covers fundamental concepts of voltage, current, and resistance and their relationship in Ohm's Law
Suitable for learners interested in understanding digital output devices, analog signals, and Ohm's Law

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Embedded Systems Essentials: Digital Output Devices and Analog Signals with these activities:
Review Basic Electronics Concepts
Refreshes fundamental concepts in electronics, which will provide grounding for later course content.
Browse courses on Ohm's Law
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  • Review basic electrical quantities (voltage, current, resistance).
  • Review Ohm's Law and its application in circuits.
Practical Electronics for Inventors
Provides a broad foundation in practical electronics, supporting the course's exploration of output devices.
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  • Read chapters on basic electronics concepts and digital output devices.
Analog Signal Conversion Tutorial
Expands on the concepts of analog signals and their conversion to digital, bridging gaps in student understanding.
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  • Follow a guided tutorial on analog signal conversion.
  • Review the concepts of sampling, quantization, and encoding.
Ten other activities
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Practice Ohm's Law Calculations
Reinforce your understanding of Ohm's Law by solving various practice problems. This will help you apply the concepts to real-life scenarios and improve your problem-solving skills.
Browse courses on Ohm's Law
Show steps
  • Review the Ohm's Law formula and its relationship between voltage, current, and resistance.
  • Practice solving simple Ohm's Law problems using voltage, current, and resistance values.
  • Challenge yourself with more complex Ohm's Law problems involving series and parallel circuits.
Create Ohm's Law Exercise
Boost your understanding of Ohm's Law by building an interactive drill for practice.
Browse courses on Ohm's Law
Show steps
  • Plan out the drill questions
  • Choose values for voltage, current & resistance
  • Develop questions based on Ohm's Law
  • Implement the drill in a coding language
  • Test the drill to ensure accuracy
Ohm's Law Calculations
Provides practice in applying Ohm's Law, improving comprehension and problem-solving skills.
Show steps
  • Solve practice problems involving voltage, current, and resistance.
  • Analyze circuits to determine the voltage, current, or resistance at various points.
Convert Analog Signals to Digital
Enhance your understanding of analog-to-digital conversion by completing practice drills. This will strengthen your problem-solving skills and prepare you to work with analog and digital signals in embedded systems.
Show steps
  • Review the principles of analog-to-digital conversion and different ADC techniques.
  • Practice converting analog signals to digital values using sample code or simulation tools.
  • Analyze the accuracy and resolution of different ADC configurations.
Design Digital Display Prototype
Develop a prototype for a digital display to deepen your knowledge of their design principles and applications.
Show steps
  • Research & choose a target application
  • Sketch out different display design concepts
  • Build a simple physical prototype using available materials
  • Create a diagram representing the electrical connections
  • Present your prototype to a group for feedback
Build a Simple LED Circuit
Provides hands-on experience in applying the concepts of voltage, current, and resistance.
Show steps
  • Gather necessary components (LED, resistor, battery).
  • Assemble the circuit according to Ohm's Law calculations.
  • Test the circuit and observe the LED's behavior.
Build a Digital Output Device Simulator
Solidify your understanding of digital output devices by creating a software simulator. This will give you hands-on experience in implementing various display technologies and enhance your knowledge of embedded system design.
Show steps
  • Choose a programming language and development environment for the simulator.
  • Design the user interface and define the functionalities of the simulator.
  • Implement the logic for simulating different types of digital output devices (e.g., LEDs, seven-segment displays).
  • Test the simulator and refine its functionality based on the results.
Contribute to an Open-Source Library on Ohm's Law
Enhances understanding of Ohm's Law and provides an opportunity to contribute real-world applications.
Show steps
  • Identify an open-source library for Ohm's Law.
  • Review the library's documentation and make a code contribution.
Explore Advanced Digital Display Technologies
Expand your knowledge of digital display technologies by following guided tutorials. This will introduce you to the latest advancements in display design and enhance your understanding of user interface design.
Browse courses on User Interface Design
Show steps
  • Research and select tutorials on topics such as OLED, LCD, and e-paper displays.
  • Follow the tutorials, build projects, and experiment with different display technologies.
  • Compare and contrast the advantages and disadvantages of various display technologies.
Design and Build a Custom LED Display
Apply your knowledge of digital output devices and embedded system design to create a custom LED display. This hands-on project will enhance your problem-solving skills, hardware design capabilities, and understanding of display technologies.
Show steps
  • Plan and design the LED display layout, including the number and arrangement of LEDs.
  • Select appropriate LEDs and design the electrical circuit for the display.
  • Implement the software to control the LED display and create various patterns or animations.
  • Test and refine the display to achieve optimal performance and aesthetics.

Career center

Learners who complete Embedded Systems Essentials: Digital Output Devices and Analog Signals will develop knowledge and skills that may be useful to these careers:
Product Design Engineer
Product Design Engineers design and develop products, ensuring their functionality, aesthetics, and usability. Understanding the principles of digital output devices and analog signals can empower you to create products with optimal performance and user experience, as these technologies play a vital role in product functionality and user interaction.
Research and Development (R&D) Engineer
Research and Development (R&D) Engineers develop and test new products and technologies, often specializing in specific areas. Enhancing your knowledge of digital output devices and analog signals through this course can support your involvement in the development and testing of advanced systems and innovations.
Applications Engineer
Applications Engineers provide technical support and guidance to customers and end-users of products and services, identifying and proposing specific solutions that meet their needs. Understanding digital output devices and analog signals is crucial for effective consultation and solution provision, making this course valuable for Applications Engineers.
Technical Specialist
Technical Specialists provide technical support and guidance to customers and end-users of products and services. Understanding the fundamentals of digital output devices and analog signals can be advantageous in this role to effectively support and resolve technical issues.
Test Engineer
Test Engineers design and conduct tests to determine the functionality and performance of products and systems. This course can introduce you to the concepts of digital output devices and analog signals, which are essential to understanding the testing methodologies used by Test Engineers.
Mechatronics Engineer
Mechatronics Engineers combine mechanical, electrical, and computer engineering to design and develop products and systems. This course can benefit you by helping you build a foundation in digital output devices and analog signals, which are essential concepts for Mechatronics Engineers.
Robotics Engineer
Robotics Engineers design, develop, and test robots and robotic systems for various industries, such as manufacturing and healthcare. Taking this course can help you build a strong understanding of digital output devices and analog signals, which are core technologies for Robotics Engineers.
Electrical Design Engineer
Electrical Design Engineers design electrical systems and components for various industries, including construction, manufacturing, and power generation. Taking this course can help you enhance your knowledge of digital output devices and analog signals, which are critical concepts for Electrical Design Engineers.
RF Engineer
RF Engineers design and develop radio frequency (RF) systems, which are used in various applications, including communications, radar, and navigation. This course can help you build a solid foundation in analog and digital electronics, which are fundamental technologies for RF Engineers.
Analog IC Design Engineer
Analog IC Design Engineers design and develop analog integrated circuits (ICs), which perform analog signal processing for various applications, including telecommunications, audio, and video. This course is tailored to help you develop a strong understanding of analog signals, voltage, current, and resistance - all of which are foundational concepts for an Analog IC Design Engineer.
Embedded Systems Engineer
Embedded Systems Engineers design, develop, and test embedded systems, which are computer systems built into larger products, such as cars and medical devices. This course can help you build a solid foundation in digital output devices and analog signals, which are crucial technologies for Embedded Systems Engineers.
Hardware Engineer
Hardware Engineers design, develop, and test computer hardware, including motherboards and central processing units (CPUs). Taking this course could help you develop foundational skills in electronics and digital output devices that are critical to a Hardware Engineer.
Control Systems Engineer
Control Systems Engineers design, develop, test, and implement control systems for various industries, including manufacturing and energy. This course can help you build a strong understanding of electronics, voltage, and current, which are essential concepts for Control Systems Engineers.
Electronics Engineer
Electronics Engineers design, develop, test, and supervise the production of electronic equipment. This technology can be for power generation, distribution, or even medical equipment. Taking this course can help you master concepts of digital and analog electronics concepts that are critical to an Electronics Engineer.
Electrical Engineer
Electrical Engineers design, develop, test, and supervise the installation of electrical systems and equipment. In this role, you will oversee wiring and electronics or lighting, and control and monitor power systems. This course may help you build a foundation of electronics and improve your understanding of electrical concepts, which are essential to an Electrical Engineer.

Reading list

We've selected 15 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Embedded Systems Essentials: Digital Output Devices and Analog Signals.
This comprehensive textbook covers the fundamentals of electronic devices and circuits. It useful reference tool for engineers and students.
Covers the principles and practices of digital design. It valuable resource for students and engineers who want to learn about digital circuits.
This practical book is helpful for providing background or prerequisite knowledge. It uses step-by-step, illustrated instructions to teach how to build gadgets that put principles into practice.
Covers the fundamentals of machine learning. It valuable resource for students and engineers who want to learn about machine learning.
Covers the fundamentals of deep learning. It valuable resource for students and engineers who want to learn about deep learning.
Covers the fundamentals of reinforcement learning. It valuable resource for students and engineers who want to learn about reinforcement learning.
Covers the fundamentals of computer graphics. It valuable resource for students and engineers who want to learn about computer graphics.
Covers the fundamentals of computer vision. It valuable resource for students and engineers who want to learn about computer vision.
Covers the fundamentals of natural language processing. It valuable resource for students and engineers who want to learn about natural language processing.
Covers the concepts of operating systems. It valuable resource for students and engineers who want to learn about operating system design.
Covers the principles of computer networks. It valuable resource for students and engineers who want to learn about computer networking.
Covers the fundamentals of data structures and algorithms. It valuable resource for students and engineers who want to learn about data structures and algorithms.

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