Sneha Jayaraj’s Post

INTERNSHIP AT APSG ENGINEERING PRIVATE LIMITED 🔋Elaboration on SIMCENTER BATTERY DESIGN STUDIO by Siemens If you are a battery manufacturer and if your objective is to accelerate the design process while reducing cost, please do not miss evaluating SIMCENTER BATTERY DESIGN STUDIO from SIEMENS. It is a powerful cell design & amp, cell testing platform enabling the assessment of multiple cell designs at a fraction of the cost and time usually needed for test activities. Simcenter Battery Design Studio from SIEMENS is one of the finest solutions for predicting Li-Ion battery performance using Multiphysics simulation & amp, equivalent circuit models for cell design. Simcenter Battery Design Studio is ideal for : - Cell Sizing & Costing - Chemistry Selection - Virtua Testing - Aging Modeling - Abuse Modeling For more information on SImcenter solutions, Niju Nair kindly visit : https://lnkd.in/gsHt_ruD

NTDC Internship Day 27: Exploring Charger Circuit Topology for AC-DC Conversion Today, we ventured into the inner workings of charger circuits to analyze the topology employed for converting AC power into DC power for charging battery banks. Understanding the intricacies of these circuits is crucial for designing efficient power systems. Key Takeaways: - In-depth examination of charger circuit topology - Analysis of AC-DC conversion techniques - Insights into battery charging mechanisms Call for Questions and Feedback: If you have any questions or require further clarification on the concepts discussed, please don't hesitate to ask in the comments or send me a direct message. Your engagement is valuable in fostering a deeper understanding of power engineering principles. Daily Lecture Notes: As part of my NTDC internship, I'll be sharing daily lecture notes and insights, catering specifically to electrical (power) engineering students. Follow along for more updates, and let's advance our knowledge together! #NTDCInternship #PowerEngineering #ChargerCircuitTopology #ACDCConversion #ElectricalEngineering

searching for an internship in Electrical and electronics Engineering power option

NTDC Internship Day 29: In-Depth Exploration of Protection System Relays Today's session was dedicated to understanding the intricacies of Transmission Line Protection Relays and Transformer Protection Relays. These critical components play a vital role in ensuring the reliability and stability of power systems. Key Concepts and Notes: - Transmission Line Protection Relays: We delved into the principles of distance protection, impedance measurement, and fault detection. - Transformer Protection Relays: We explored the concepts of differential protection, overcurrent protection, and thermal monitoring. Visual Aids: To facilitate a deeper understanding, I've attached images of the relays, showcasing their internal components and wiring diagrams. Software Programming: Each relay has its proprietary software for programming and configuration. I encourage self-study and exploration of these software tools to gain hands-on experience. Q&A and Feedback: If you have any questions or need further clarification on any of the concepts discussed, please feel free to ask in the comments or send me a direct message. Your feedback is invaluable in enhancing my understanding and sharing knowledge with the community. Daily Lecture Notes: As part of my NTDC internship, I'll be sharing daily lecture notes and insights, catering specifically to electrical (power) engineering students. Stay tuned for more updates, and let's learn together! #NTDCInternship #ProtectionSystemRelays #ElectricalEngineering #PowerEngineering #Learning

Hello, LinkedIn Community! 👋 I'm Mehedi Hasan, a recent graduate in Electrical and Electronic Engineering (EEE), with a passion for innovation, problem-solving, and making meaningful contributions to the world of technology. Over the past few years, I’ve had the opportunity to complete internships at Summit Towers Limited and Cubic Global Limited, where I gained hands-on experience in transmission, distribution, and data systems. These experiences have shaped my technical skills and broadened my understanding of the power industry. I’m also enthusiastic about exploring emerging fields like Medical Imaging and Deep Learning, and I believe every challenge is a chance to grow and learn. 💡 Skills I bring to the table: C Programming MATLAB, AutoCAD, and Proteus Critical problem-solving and teamwork I'm actively looking to connect with professionals in the engineering and tech industries, share insights, and learn from this incredible community. If you’re working on exciting projects or have advice for someone starting their career, I’d love to hear from you! Here’s to building meaningful connections and growing together. Let’s collaborate to create impactful solutions! 🚀 #ElectricalEngineering #Networking #LearningAndGrowing

NTDC Internship Day 26: Understanding Battery Room Supplies Today, we explored the battery room and examined the available power supplies: - 110V DC with 160Ah - 220V DC with 300Ah or 600Ah Key Concept Clarification: For those unfamiliar, Ah (Ampere-hours) represents the battery's capacity. For instance, a 160Ah battery can supply 160A for 1 hour. This understanding is crucial for designing and operating power systems. Technical Insights: - Each battery generates 2V DC - Understanding battery capacity and discharge rates is vital for system reliability Call for Questions and Feedback: If you have any questions or require further clarification on the concepts discussed, please don't hesitate to ask in the comments or send me a direct message. Your engagement is valuable in fostering a deeper understanding of power engineering principles. Daily Lecture Notes: As part of my NTDC internship, I'll be sharing daily lecture notes and insights, catering specifically to electrical (power) engineering students. Follow along for more updates, and let's advance our knowledge together! #NTDCInternship #PowerEngineering #BatteryRoom #ElectricalEngineering #PowerSystems

🔋 **Expanding My Expertise in Electrical and Electronics Engineering!** 🔌 I'm thrilled to share my journey of continuous learning and growth in the field of electrical and electronics engineering. Here's how I've been expanding my knowledge and skills: 1. **Practical Experience**: Engaged in hands-on projects like circuit design, troubleshooting, and repair, applying theoretical concepts to real-world scenarios. 2. **Advanced Training**: Completed specialized courses, and an IoT-based weather monitoring station project. 3. **Industry Exposure**: Gained valuable insights from an in-plant training at Southern Railway, understanding the practical applications of electrical engineering in a large-scale industry. 4. **Collaborative Learning**: Worked with peers and mentors during an 8-week web development course internship, enhancing my technical skills and learning new technologies. 5. **Continuous Improvement**: Actively seeking out new learning opportunities and staying updated with the latest advancements in the field through seminars, workshops, and online courses. My passion for electrical and electronics engineering drives me to continuously improve and innovate. I'm excited to bring this growing expertise to my future career in IT and engineering. #ElectricalEngineering #Electronics #ContinuousLearning #ProfessionalGrowth #Innovation #HandsOnExperience #EngineeringPassion

An insightful week during The Classic Control course offered by EGT Academy at Ain ElSokhna as part of The Best in Class 2024 internship at Siemens where we made a simple control circuit of start-stop of 3-phase induction motor (squirrel cage) while being connected in delta-connection. Before testing the circuit during operation, some safety measurements where taken into account like checking the isolation between each of the motor’s stator coils and checking the Earthing of the motor casing. The three most common starting methods of the induction motor occurs as following: first of which is star-delta connection which involves a timer and three contactors to switch from the star to delta connection to reduce the high starting current but has a disadvantage of reducing the starting torque. The second method involves using a soft starter which contains 3 back to back thyristors where the firing angle of the thyrsistors are being decreased during operation until ramping up occurs of the motor. The third method is by using an electric drive which involves rectification of the three phase supply using 6 thyristors and then an inverter using 6 IGBTs and then control techniques ( Vector Control with PID, Sliding Mode Control, Model Predictive Control,… etc). The advantage of using an electric drive is that it ensures soft-starting of the induction motor while also controling the operating speed and torque as a result of the intersection between the motor curve and the load curve. #Siemens #Classic_Control #ElectricDrives #Electric_Motors #Power_Electronics #Electrical_Engineering #Mechatronics_Engineering #Best_in_Class_2024

Hello everyone, I am currently a third-year student in Electronics, Electrical Engineering, and Automation (LEEA3) at the Faculty of Sciences of Gabès. Passionate about my field of study, I am looking for an end-of-studies internship to apply my theoretical knowledge in a professional environment and acquire new practical skills

Hey Linkedin People ⏲️ Exploring Counters in Digital Electronics! ⏲️ I’m excited to introduce the latest addition to my Digital Electronics interview preparation series, focusing on Counters—a fundamental concept in digital systems and sequential circuits. 🔄 This guide offers an in-depth look at various types of counters and their applications, covering: 1️⃣ Counters: Get a comprehensive understanding of the basic counter concepts, crucial for counting sequences in digital systems. 2️⃣ Asynchronous Counter: Learn about Asynchronous (Ripple) Counters, where the flip-flops are not clocked simultaneously, exploring their design and functionality. 3️⃣ Counter ICs: Delve into the practical aspects with a look at popular Counter ICs used in real-world applications, essential for efficient circuit design. 4️⃣ Asynchronous Down Counter: Discover how Down Counters function in asynchronous circuits, an essential component for reverse counting applications. 5️⃣ Propagation Delay in Ripple Counter: Understand the impact of propagation delay in Ripple Counters, a key factor that affects the speed and performance of digital circuits. 6️⃣ Counter Implementation and Applications: Explore various ways to implement counters in digital systems and their wide range of applications, from clocks to frequency dividers. 7️⃣ Up Down Counter: Learn about Up-Down Counters that can count in both directions, making them versatile tools in digital systems. This PDF is designed to help you master the intricacies of counters, whether you’re preparing for interviews or looking to strengthen your digital electronics knowledge. 📚 📥 Download the PDF and enhance your understanding of this vital topic in Digital Electronics! Together, let's keep pushing the boundaries of digital design. 💡 #Looking for Internship in Design Verification Domain #DigitalElectronics #InterviewPreparation #Counters #SequentialCircuits #Engineering