Agree & Join LinkedIn
By clicking Continue to join or sign in, you agree to LinkedIn’s User Agreement, Privacy Policy, and Cookie Policy.
Create your free account or sign in to continue your search
or
New to LinkedIn? Join now
Learn about the advantages and disadvantages of using analog and digital circuits for electronic circuit design, and how to select the most suitable option.
Learn about the current trends and research topics in synchronous and asynchronous circuit design, and how they relate to emerging applications and technologies.
Learn how to work effectively with other electronic circuit designers and engineers. Discover tips and tools for sharing, testing, and learning from your designs.
Learn what is DC biasing, why it is important, and how to apply load line analysis, bias stabilization, and bias compensation methods.
Learn about the latest trends and developments in active filter technology and design, such as switched-capacitor, current-mode, digital, reconfigurable, and…
Learn how to save, transfer, organize, document, backup, and share your measurement data from your oscilloscope and multimeter with these practical tips and tools.
Learn how to achieve a harmonious blend of creativity and functionality in your circuit design with these tips and strategies. Explore, evaluate, prototype, and…
Learn how to use Laplace transform for transient analysis of circuits, such as RC and RL circuits. Discover the advantages and disadvantages of this method, as well…
Learn the challenges and solutions for transient analysis of coupled circuits with capacitors, inductors, or transformers. Find tips and tools for modeling…
Learn how to use the DC load line and equations to analyze and improve the Q point stability of a MOSFET amplifier affected by temperature changes.
Learn what causes and effects soldering heat damage on electronic circuits, and how to improve your soldering skills and avoid common mistakes.
Learn the essential safety precautions when soldering electronic circuits, such as gear, work area, tools, techniques, waste, and learning.
Learn some tips and tricks to identify the essential nodes and independent loops in a circuit and how to apply nodal and mesh analysis methods.
Learn about the benefits and drawbacks of using autorouters for PCB design, and how to use them effectively and wisely.
Learn how to solder wires and connectors to your circuit components safely and effectively, and avoid common soldering mistakes and problems.
Learn how to use flux, solder wick, and desoldering pumps to correct common soldering errors and improve your electronic circuit design skills.
Learn how to design circuits for security and encryption applications, such as smart cards and biometrics. Discover the key factors, challenges, principles, and…
Learn about five common causes of noise and distortion in oscilloscope signals and how to identify and minimize them with simple tips and tricks.
Learn how to train and mentor new or junior circuit designers on circuit documentation and standards. Discover the benefits, elements, sources, methods, and…
Learn how to optimize your electronic circuits for scalability and modularity in complex systems.
Learn tips for designing circuits that can withstand environmental and mechanical stress factors like temperature, humidity, shock, and fatigue.
Learn how to handle parasitic effects and noise sources in RC and RL circuits during transient analysis with this practical guide for electronic circuit designers.
Learn how to enhance the reliability of your circuit designs by incorporating redundancy and fault tolerance techniques. Discover the methods, principles, and tools…
Learn how to test and troubleshoot a zener diode voltage regulator circuit using basic tools and techniques. Also, find out how to improve and apply this circuit.
Learn how to choose, fabricate, design, test, and debug flexible PCBs for electronic circuit design. Avoid common issues and improve your circuit quality and…
Learn about the advantages, disadvantages, applications, and challenges of using a Sallen key filter for filtering out unwanted frequencies from an audio signal.
Learn how to optimize your wireless circuit layout and routing for noise reduction and signal integrity by following six practical tips in this article.
Learn how to design op-amp circuits for various functions and improve your electronic projects with these tips and best practices.
Learn how to reduce noise and improve quality in op-amp circuits with these techniques and best practices for layout, grounding, feedback, and analysis.
Learn how to identify and fix common problems with passive and active elements in your circuits using basic tools and techniques for electronic circuit design.
Learn how to create clear, comprehensive, and consistent documentation for your PCB fabrication and assembly, and avoid errors, delays, or extra costs.
Learn how to check, test, and validate your loop and node methods for electronic circuit analysis using simple checks and tools.
Learn how to use series and parallel rules and phasor diagrams to simplify complex AC impedance expressions for circuit design and analysis.
Learn how to test and measure the performance and stability of an LC filter in a power supply circuit using basic methods and tools.
Learn how to use superposition and source transformation to analyze circuits with multiple sources and resistors. Understand how they relate to Kirchhoff's laws and…
Learn how to use superposition and maximum power transfer theorems for electronic circuit design and analysis with nonlinear elements and AC sources.
Learn what passive and active elements are, how they differ, and how to bias them for optimal circuit performance and functionality.
Learn how to design op-amp circuits with feedback and analyze their gain, bandwidth, impedance, and stability using equivalent circuits and formulas.
Learn how to use a desoldering pump and a solder wick to remove excess solder from your circuit boards, and how to avoid common pitfalls and mistakes.