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 how to cope with temperature, humidity, vibration, radiation, and EMI effects on circuit performance and reliability in harsh environments.
Learn how to test and validate your circuit performance under extreme conditions such as temperature, humidity, vibration, shock, radiation, and electromagnetic…
Learn how to design counter circuits for your projects. Compare ripple, ring, and Johnson counter circuits and their pros and cons.
Learn how to use counter circuits to generate precise and predictable timing signals and control sequences for various digital systems and applications.
Learn how to design a microcontroller circuit that is secure, reliable, and scalable with this article. Find out how to choose the right microcontroller, design the…
Learn how to deal with feedback and criticism on your circuit design work constructively and confidently. Follow these six tips to improve your design and skills.
Learn how to connect your microcontroller circuit design with various sensors, actuators, and communication modules to create a smart and interactive device. Follow…
Learn how to achieve a better load match and avoid common pitfalls such as mismatched impedances, parasitic elements, and temperature effects in circuit design.
Learn how to use software tools and models to simulate and optimize your notch filter design for noise suppression or interference rejection.
Learn how to design a notch filter with a variable center frequency and bandwidth, using different methods and components, and how to optimize its performance.
Learn how machine learning can help you generate, analyze, and optimize your test patterns, and detect and diagnose your faults in circuit testing.
Learn how to incorporate real-world effects and components into your circuit simulation to make it more realistic and reliable. Find out how to account for factors…
Learn about the current trends and innovations in circuit design for harsh environments, such as flexible and stretchable circuits, radiation-hardened circuits, and…
Learn how to create and manage your circuit simulation models and libraries effectively with this comprehensive guide. Discover useful tools, tips, and tricks for…
Learn how to design a power supply circuit that can reduce harmonic distortion and improve signal quality with filtering and regulation techniques.
Learn how to compare and contrast different circuit simulation methods and techniques for electronic design, such as SPICE, Verilog-A, behavioral modeling, and…
Learn how to use microcontrollers for circuit design and prototyping. Discover the advantages and disadvantages of microcontrollers, how to choose and program them,…
Learn how to incorporate feedback and suggestions from clients and users into your circuit design process and how to use them to enhance efficiency and reliability.
Learn the key aspects of layout optimization for analog circuits in advanced CMOS technologies, such as process variations, supply voltage, noise and parasitics.
Learn how to measure and improve the stability and reliability of your DC-DC converter design using a network analyzer, accelerated life testing, and other methods.
Learn about the main sources of losses and noise in DC-DC converters and how to minimize them with simple design techniques.