ABINANDHAN M’s Post

Proud to have completed the Fundamentals of Electricity course, where I gained foundational knowledge in electrical circuits, voltage, current, and resistance. This course has enhanced my understanding and skills in electrical engineering. Thanks to [#schneiderelectric] for this valuable learning experience! #shneiderelectric #fundamentalsofelectricity

🚀 Exploring Electrical Systems: Load Variation and Current Analysis I recently designed a circuit to study how varying loads impact the current in an electrical system. This project involved: 🔌 Designing and implementing the circuit. 📊 Measuring and analyzing the variation in current with different load conditions. 📈 Gaining insights into the behavior of electrical loads in practical applications. This hands-on experience enhanced my understanding of electrical systems, load management, and the importance of accurate measurements in circuit analysis. Excited to explore more in the field of [electrical engineering/power systems] and apply these insights to innovative solutions! #ElectricalEngineering #CircuitDesign #LoadAnalysis #Innovation

🌊 Understanding Waves in the Transition Circle ⚡ In the realm of electrical engineering, particularly in power systems and signal transmission, the concept of waves in the transition circle plays a crucial role in understanding signal behavior and system performance. What Are Waves in the Transition Circle? The transition circle refers to the graphical representation of waveforms as they move through different stages of a system, especially during transitions between different states or conditions. This concept is important for analyzing how signals propagate and how they are affected by various factors such as impedance changes, reflections, and phase shifts. Why It Matters: Signal Integrity: Understanding wave behavior in transition circles helps ensure that signals maintain their integrity as they move through different parts of a system, which is crucial for accurate data transmission and reliable system operation. System Design: Engineers use this knowledge to design more efficient and stable systems by minimizing signal distortions and optimizing performance. Troubleshooting: It aids in diagnosing issues related to signal loss, reflections, or phase discrepancies, leading to more effective problem-solving. Mastering the behavior of waves in the transition circle is key to advancing in electrical engineering and ensuring the robust performance of complex systems. #ElectricalEngineering #SignalProcessing #TransitionCircle #SystemDesign #Engineering #SignalIntegrity #Innovation

Electrical Q&A #Post_37 Electrical Engineering Insight 37) Why the capacitors work on ac only? Answer: Capacitors can actually work with both AC and DC, but they behave differently in each case. Here’s how it works: 1️⃣ #AC_Circuits: In an AC circuit, the voltage alternates, causing the capacitor to constantly charge and discharge. This continuous change lets AC "flow" through the capacitor by creating a cycle of charging and discharging. The capacitor allows AC to pass through but introduces "reactance," a type of resistance that depends on frequency. 2️⃣ #DC_Circuits: When connected to DC, a capacitor initially allows current flow as it charges to the applied voltage. Once fully charged, it reaches a steady state and blocks further current. Without an alternating voltage, the capacitor no longer discharges and effectively behaves like an open circuit. In short, #capacitors_work with both AC and DC, but with #AC, they keep passing current through continuous charging and discharging, while with #DC, they only allow initial current flow until they are fully charged. In summary, capacitors can work in both AC and DC circuits, but with AC, they allow current to flow continuously by charging and discharging in sync with the AC frequency. With DC, they only pass current momentarily as they charge, after which they block it. #ElectricalSystem #EngineeringTips #ElectricalTips #TechExplained #EnergySaving #EngineeringSkills #AutoCADElectrical #Troubleshooting #EngineersCommunity #ElectricalSafety #Engineering101 #LinkedInLearning #Innovation #Energy #TechTalk #EngineeringExcellence #TechToday #TrendingTopic #Mukter #Engineer #Question #Answer #ElectricalEngineering #Capacitors #ACvsDC #CircuitDesign #ElectronicsBasics #ElectricalKnowledge #EngineeringExplained #TechEducation #PowerSystems #LearnElectronics #VoltageandCurrent #EnergyStorage #InnovationInEngineering

I completed the Basics of Power System Dynamics webinar, which was an invaluable experience that significantly deepened my understanding of power system stability and dynamics. The webinar thoroughly covered essential topics, including the behavior of power systems under varying operating conditions, the principles of synchronous machines, and the dynamics of different power system components. Through interactive sessions and case studies, I gained practical insights into real-world scenarios, which enhanced my ability to analyze and resolve power system issues effectively. This experience has solidified my technical foundation and prepared me to confidently address challenges in the field of electrical engineering.

🔋 Experiencing the Power of High Voltage Engineering⚡   This week, we stepped into the world of *High Voltage Engineering* with hands-on practical sessions at our university's state-of-the-art high voltage laboratory. Emphasizing strict safety standards, we tackled essential concepts that fuel innovation in Electrical Engineering.  📸 Take a look at what we experienced: 🔹 AC Voltage Generation and Measurement – Mastering the creation and precise measurement of alternating currents, a cornerstone of power systems.   🔹 Disruptive Discharge Voltage Testing – Evaluating solid insulators to understand breakdown phenomena and material strength.   🔹 Partial Discharge and Corona Analysis – Detecting early insulation weaknesses to enhance system reliability.   🔹 DC Voltage Generation and Measurement – Diving into direct current technologies for modern engineering applications.  These sessions not only expanded our technical expertise but also reinforced the importance of safety, accuracy, and innovation in engineering practice.  💡 Excited to share these experiences and contribute to the future of Electrical Engineering #HighVoltageEngineering #PracticalLearning #ElectricalInnovation #EngineeringEducation #SafetyInEngineering #HighVoltageLab #ElectricalEngineeringStudents #EngineeringPractical #HandsOnExperience #PowerSystems #InsulationTesting #CoronaDischarge #FutureEngineers #STEMEducation #EngineeringSkills #VoltageTesting #InnovationInEngineering #EngineeringSafety

I gained diverse skills related to Electrical Enginering Technical skills Circuit analysis and design Electrical systems analysis and design Power systems analysis and design Control systems engineering Signal processing Electrical machines Power electronics Renewable energy systems Soft Skills Problem-solving: Critical thinking: Communication: Teamwork: Adaptability: Lab skills equipment handling, measurement techniques, data analysis

In electrical engineering, the power gain of an electrical network is the ratio of an output power to an input power. Unlike other signal gains, such as voltage and current gain, "power gain" may be ambiguous as the meaning of terms "input power" and "output power" is not always clear. #power #gain #output_power #inputpower #ratio

Fundamental Electrical Concepts

**Diving into the World of Electrical Engineering!** Ever wonder how your favorite gadgets work or how electricity lights up our lives? As electrical engineers, we get to explore the fascinating realm of circuits, signals, and power systems! 💡 From designing innovative renewable energy solutions to developing cutting-edge gadgets, every day is an opportunity to spark creativity and drive change. 🌍✨ Remember, the next time you flip a switch or charge your phone, there’s a whole team of engineers who made that happen! What's your favorite invention in electrical engineering? Share in the comments! 👇🔧💬 #ElectricalEngineering #Innovate #TechTuesday #STEM #EngineeringMagic