Ariane BIAN is #hiring a DSP Engineer to join a cutting-edge team in Ningbo, Zhejiang. As a DSP Engineer, you will be at the forefront of developing innovative power software solutions for high-power wireless charging systems. Your expertise will drive the development and debugging of key components such as PFC, OBC car chargers, inverters, and controlled rectifiers. Click here to apply: https://lnkd.in/dHWgRhix #ConnectingGreenTalent #RenewableEnergy #CleanEnergy #Sustainability
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The field of electrical and electronic engineering offers a vast range of specialised career paths. Among these many niche disciplines within the overarching electronic engineering sector, signal processing engineers are responsible for evaluating digital signals and improving their efficiency. In this article, we'll explore what a Digital Signal Processing (DSP) engineer does, what skills and qualifications are required, and how you can find DSP jobs. Read more here: https://loom.ly/mKolT6k #dspjobs #digitalsignalprosessingengineers #redlineblog
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GREAT OPPORTUNITIES
Do you have a background in radar? If so this week's hot jobs in Greater London are: SYSTEMS ENGINEER SENIOR SYSTEMS ENGINEER PRINCIPAL FPGA DESIGN ENGINEER SENIOR EMBEDDED SOFTWARE ENGINEER SENIOR PRINCIPLE RADAR ENGINEER Please feel free to contact me paul@wildwoodrecruitment.co.uk or share with your network. #radar #systems #engineer #FPGA #embedded #software
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Interview question for Analog Design Engineer. Solution in the comment. #opamp #vlsi #analogdesign #analog #semiconductor #vlsijobs #AnalogEngineer
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PhD Power Electronic, HW/FW Generalist. Experienced with 2kW - 30kW design. Looking to grow power electronic RnD in Indonesia
Random thought. Some people in LinkedIn may notice that my technical post spread across pretty wide areas, from power MOSFET characteristic, HW development, control design, firmware programming, python applications, and lastly magnetic analysis. A few last bits that I still have yet to learn is to design following the compliance requirement, though I have recently dipping toe on EMI troubleshooting too. As a PhD candidate, before graduation, I was really hoped to work for the #1 worldwide power electronic company that is based in Taoyuan, Taiwan (where I also currently live and work, albeit with different employer). Though I actually never even received any interview call from this one company (except only one before I joined my current employer, which was also not fruitful). At times I used to compare myself with some classmates who is currently or used to be working there. But, it was hard for me to understand why all my job application was failed (not even getting any callback). Until recently I realized that, in a big corporation the working style is highly niche (I won't call it specialization, due to a few reasons I often see). Where, I won't be easy to fit into the work culture anyway with me being a big mess of generalist+specialist as I will over-reach too far. It turned out to be a blessing in disguise, I guess. Quick example, I was once working as FW engineer as my title and I tell the HW engineer (and made them fuming at me) that their 1.5kW design won't go beyond 900W (perhaps ~1kW with screaming fan) and also pointed out a few fatal mistake just by checking the design before even ever write the controller code for it. At the end, my estimate was true that I need to stop at 900W as the mosfet temp goes beyond 105C at room temp in just over 5 mins.
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🚀 Day 1 of my 100-Day Challenge: Operational Amplifier & Analog Design 🚀 Excited to kick off my 100-day journey diving deep into the fascinating world of operational amplifier design and analog circuits! Today marks the beginning of an exhilarating exploration into the principles, applications, and intricacies of these foundational components in electrical engineering. On Day 1, I'm focusing on understanding the fundamentals of operational amplifiers (op-amps). These versatile integrated circuits play a crucial role in countless electronic devices, serving as building blocks for amplifiers, filters, oscillators, and more. From the ideal op-amp model to the concept of virtual ground, I'll be revisiting the core concepts that form the basis of op-amp design. Throughout this challenge, I aim to gain a deep understanding of op-amp specifications, such as gain, bandwidth, and slew rate, and learn how to analyze and design circuits using these components effectively. Join me on this incredible journey as I immerse myself in the world of analog electronics, challenge myself to tackle complex problems, and ultimately emerge as a more knowledgeable and skilled engineer. Let's do this! 💪🔌 #100DayChallenge #AnalogDesign #OpAmpDesign #OperationalAmplifiers #ElectricalEngineering #LearningJourney #EngineeringLife #ChallengeAccepted #StayCurious #PushYourLimits #Day1
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🚀 Day 1 of my 100-Day Challenge: Operational Amplifier & Analog Design 🚀 Excited to kick off my 100-day journey diving deep into the fascinating world of operational amplifier design and analog circuits! Today marks the beginning of an exhilarating exploration into the principles, applications, and intricacies of these foundational components in electrical engineering. On Day 1, I'm focusing on understanding the fundamentals of operational amplifiers (op-amps). These versatile integrated circuits play a crucial role in countless electronic devices, serving as building blocks for amplifiers, filters, oscillators, and more. From the ideal op-amp model to the concept of virtual ground, I'll be revisiting the core concepts that form the basis of op-amp design. Throughout this challenge, I aim to gain a deep understanding of op-amp specifications, such as gain, bandwidth, and slew rate, and learn how to analyze and design circuits using these components effectively. Join me on this incredible journey as I immerse myself in the world of analog electronics, challenge myself to tackle complex problems, and ultimately emerge as a more knowledgeable and skilled engineer. Let's do this! 💪🔌 #100DayChallenge #AnalogDesign #OpAmpDesign #OperationalAmplifiers #ElectricalEngineering #LearningJourney #EngineeringLife #ChallengeAccepted #StayCurious #PushYourLimits #Day1
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What’s your view on giving major complex ASIC design task to a very senior verification engineer? In my view, verification engineers are great architects, in addition to being verifiers of complex design. But designing complex area and timing efficient logic is a different beast compared to writing (behavioral) verification logic. I recently came across a project, where a very senior verification engineer is given responsibility of major IP design. And guess what, most of the logic is “not” area efficient. Complex arithmetic operators, which should be shared, are not shared and code simply looks like a test bench….. Would love to hear thoughts from experienced ASIC professionals.
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Digital Signal Processing(DSP) is a skill that is beneficial to every embedded software engineer. The document below has DSP questions and solutions. Test your knowledge. Follow Ezrah O. for embedded Systems content #dsp #signalprocessing #embeddedsystems
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