VECTOR BLUE HUB’s Post

Power Converter Topologies Handbook

Hi, according to below formula captured from this book (Power Electronics, Daniel W. Hart) one may say that if someone measure rms value of the voltage, that initially it could be exactly decomposable to its sinusoids without loss, there will be no difference to measure the rms value of the total sinuoids (below : v) in a given period (that is enough to cover the minimum frequency term in sinusoids) or to measure each rms value of collection (v1,v2, v3..). But if system is not linear there could be difference between one to one rms measure and one time ( here v=v1 + v2 + v3...) measure because of some relations between sinusoids and environment may produce new harmonics or add some phase delay to system so the rms value would be different for one time total sinusoids and one to one finding rms and gather it at below equation because the square term in the integral and period. I thought such like that because if sinuses discreted by their frequency the integral for a given period would diminish interaction created productions such as harmonics but when the medium is nonlinear (such as if there is a junction problem at a path or material physical feature change such as by heating because of current flow or etc.) the new creations because of interacted consituting parts (exmp: v1,v2-->v12...) would not diminish the integral though the new creation is also sinus because the period may not fit the new sinus or because of phase delay between sinuses (that much I know from spectral theorem if the period is multiplication of sinus period the integral would be zero for a given period.) but here it may not fit this sentence for nonlinear interaction case. Thanks for reading.  

Machine Learning-based Design and Optimization of High-Speed Circuits From the Editor's web site: This book describes machine learning-based new principles, methods of design and optimization of high-speed integrated circuits, included in one electronic system, which can exchange information between each other up to 128/256/512 Gbps speed. The efficiency of methods has been proven and is described on the examples of practical designs. This will enable readers to use them in similar electronic system designs. The author demonstrates newly developed principles and methods to accelerate communication between ICs, working in non-standard operating conditions, considering signal deviation compensation with linearity self-calibration. The observed circuit types also include but are not limited to mixed-signal, high performance heterogeneous integrated circuits as well as digital cores. https://lnkd.in/dTmBP__Y

Are you tasked with selecting a processing element for a new embedded system design? Interested in expert advice that can be used on most embedded systems? Download Boston engineering's "Selecting a Processing Element for Your Embedded System" https://hubs.li/Q02lDkXw0

Sad to hear of the passing of Ned Mohan. His book remains a concise, thorough, and thoughtful source of power electronics wisdom. One of the best tools to have in your lab.

My personal view on the best textbooks on learning the basics of Automatic Control Systems, and Control Theory. I use the classic book by Nise for my teaching, but there are several others worth considering. https://lnkd.in/djfGrQp7 #controlsystems #control #controltheory #textbook #engineering #linearsystems #matlab

Mastering TL072 Pinout: Pro Tips and Best Practices Greetings, Electronic Enthusiasts! Today, let's delve into the world of TL072 operational amplifiers and unveil the pro tips and best practices for mastering their pinout. 1. Pinout Decoded: Decode the TL072 pinout like a pro! Understand the purpose of each pin to harness the full potential of this versatile operational amplifier. 2. Signal Input Mastery: Mastering signal input is key. Optimize your design by strategically utilizing the inverting and non-inverting inputs. Precision in signal processing starts here. 3. Dual Op-Amp Dexterity: Leverage the power of duality. Recognize the dual op-amp configuration and implement it strategically in your circuit designs. Efficiency and compactness go hand in hand. 4. Power Supply Wisdom: Power supply matters. Implement best practices for connecting the power supply pins. Ensure stable and noise-free operation for your TL072 circuits. 5. Output Optimization Techniques: Optimize your outputs for superior performance. Explore techniques to maximize the potential of the output pins, delivering clean and reliable signals. 6. Noise Minimization Strategies: Silence the noise! Uncover advanced strategies to minimize noise interference. Implement filtering and shielding techniques for pristine signal quality. 7. Feedback Loop Finesse: Fine-tune your feedback loops. Understand how to design effective feedback circuits for stability, precision, and tailored signal processing. 8. Frequency Response Mastery: Navigate the frequency spectrum with finesse. Learn how to master TL072 frequency response characteristics for optimal signal handling across different applications. 9. Temperature Considerations: Factor in temperature variations. Implement considerations for temperature changes to maintain consistent performance across diverse operating conditions. 10. Collaborative Learning: Join the TL072 mastery community. Share your insights, learn from others, and foster collaborative learning. Together, we elevate our understanding and application of this powerful operational amplifier. Ready to elevate your TL072 game? Share your pro tips and experiences in the comments below. Let's amplify our knowledge and design excellence! #TL072ProMastery #AudioDesignExcellence #ProTipsForTL072 #pcb #pcba #pcbassembly #wire #cable #wireharness #pcbmanufacturing

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To all, Do you know when to use a rail-to-rail input and output op amp? Do you understand input crossover distortion? What causes input and output swing limitations and how do they differ from CMOS to Bipolar amplifiers. I just finished the first of a series of white papers on amplifier characteristics and applications.   This paper focuses on the details of input and output limitation. I hope you find this content useful.   Best regards, Art   https://lnkd.in/gWJ6APPi

Danisense A/S Updating All #Datasheets to Enable #Engineers to Easily Calculate Different Technical Values #technologynews #electronicsenws #electronics #technology #electronicsera