RSCADv6 Modelling of IEEE 33-Bus Feeder

@hayat38402

Hi, how are you doing? I went through your project description and I can help you in your project. your project requirements perfectly match my expertise. We are a team of experts with substantial background in ELECTRICAL and ELECTRONICS Engineering working on MATLAB programming and SIMULINK Modelling, we have successfully completed 1000+ Projects for multiple regular clients from OMAN, UK, USA, Australia, Canada, France, Germany, Lebanon and many other countries. We are providing our services in following areas:  Digital Signal Processing | Filter design | Fourier analysis  Image Processing | Object Detection | Image Segmentation | Feature Extraction  Control systems | PID Controller design | Observer design  Power Systems | AC-DC Hybrid Micro-grid | Fault detection | Energy Management  Artificial Intelligence | Machine Learning | Python  Neural Networks | ANFIS | Fuzzy logic Also, we have good command over REPORT WRITING, we can show you many samples of our previous reports. We can discuss further details in the message box.

@hotanloc

Python && Matlab Expert Hi. Client. Thanks for your posting. I saw your project description carefully. I can complete this task with high quality on time. My core skill is in programming using Python, C/C++ and Matlab. I have full experiences in this work. Please send me your message to discuss your project detail more...I am waiting your reply now. Thanks.

@divyam12345

Dear Sir/Madam, I have experience in creating detailed simulations and power system models, including those involving distributed energy resources (DER), electric vehicles (EV), and storage systems. I am confident in my ability to implement the IEEE 33-bus distribution feeder in RSCAD v6, ensuring smooth real-time operation on your single-rack RTDS, while carefully structuring the three simulation cases you require. Let’s connect in the chatbox to discuss your MATLAB data set and specific requirements further. I will ensure the model is properly documented and ready for seamless execution on your RTDS system. I am ready to work with you, please connect in the chatbox for further discussions. Thank You. Dr. Divya.

@Fareshassan96

As a seasoned control systems engineer adept in working with Matlab and Simulink, your project is right up my alley. My deep understanding of electrical engineering, coupled with hands-on experience crafting high-performance engineering solutions, makes me the optimal choice for your IEEE 33-Bus RSCAD v6 modelling task. My skills stretch beyond the computational aspect to a knack for system optimization, which will be valuable when translating your MATLAB dataset into RSCAD. For easy access and selection of the three different simulations, I'll structure the files in a cohesive and organized manner that aligns with your preferences. What sets me apart is not just proficient coding but also an in-depth understanding of the science behind it. That's why my engineering solutions are reliable and ready for real-world application. I don't just deliver files; I deliver results that work. Trust me to provide clear updates and full transparency throughout the process. Let's hop on a quick screen-share so I can familiarize myself more with your MATLAB package before giving you an accurate quote

@daxm0

Hi, hope you are well. I understand your project details. I will follow instructions and keep you updated. I am an experienced and specialized freelancer with 5+ years of practical experience in Algorithm. I have a few questions before we get started. Could you please send me a message in the chat? Looking forward to working with you, connect in chat. Thanks, Dax Manning

@talhab12

I can recreate the IEEE 33-bus distribution feeder in RSCAD v6 for real-time execution on your single-rack RTDS. Using your MATLAB dataset, I’ll translate all component ratings, daily profiles, dispatch assumptions, and controller logic into RSCAD, ensuring the network is stable, fully balanced, and organized into three clearly defined simulation cases: Baseline, PV + BESS + EVCS with V2G, and EVCS with V2G only. The workspace will compile and run successfully at a 50 µs timestep, ready for immediate use on the RTDS. I bring strong MATLAB experience, having completed two courses and three years of MATLAB scripting, which will help ensure accurate translation of models and logic. I can provide suggestions for file structuring so the three scenarios are easily selectable within a single project. Please share the MATLAB package, and we can schedule a quick screen-share to clarify any details before starting. I’ll also provide an estimated turnaround once the dataset is reviewed.

@efanntyo

Hi there, I’m excited to help you translate the IEEE 33-bus distribution feeder into a robust RSCAD v6 model that runs reliably in real time on a single-rack RTDS. With a background in electrical simulation, real-time digital simulators, and MATLAB-driven data workflows, I’ve delivered balanced, well-documented RTDS-ready models for complex feeders, including 50 µs-timestep verifications and clean library organization. I’ll structure the workspace into three clearly separated scenarios: Baseline (no DER/EV), PV + BESS + EVCS with V2G, and EVCS with V2G only, ensuring straightforward scenario switching within one project. All core component ratings, daily profiles, dispatch logic, and controllers from your MATLAB dataset will be mapped to RSCAD blocks with clear documentation inside the workspace. I will: 1) translate all MATLAB data into canonical RSCAD primitives, 2) implement stable network equilibria and contingency handling for all three cases, 3) verify compile/run at 50 µs, and 4) provide a minimal, self-contained project structure ready to open and execute without edits. I’ll also deliver a concise README and inline comments so the model is self-explanatory to engineers reviewing it. Your preferences on file structure will be respected, and I’ll align with your card mapping, GTNET licensing needs, and library choices. I’m ready to review your package and share a precise quote after a quick screen-share. Could you share the MATLAB package’s exact top-level structure and

@christophera253

Focusing solely on your specific project at hand – the RSCAD v6 Modelling of IEEE 33-Bus Feeder – I believe my comprehensive background in electrical hardware and mixed-signal design positions me uniquely to tackle this task. As an adept troubleshooter in similar complex designs, I can ensure a seamless transition of your MATLAB data set, making sure the model runs flawlessly in real-time on your single-rack RTDS. To guarantee a stable base network, my approach integrates meticulous documentation within the workspace along with clear organization under your specified three separate simulation cases. In terms of logistics and next steps, I can commence work immediately and anticipate a turnaround time of three weeks. In the meantime, I would require further information on card mapping, GTNET licenses, and your library preferences, as well as a quick screen-share to review the MATLAB package. As per the file structure, I suggest creating three separate folders for each simulation scenario within the project directory for easier selection. As your potential partner, you can expect a punctual, reliable and high-quality service. I am looking forward to meeting your project requirements, no matter how complex or specific they may be.

@huonghy89

Hi, I hope you are doing well. Very happy to bid your project because my skills are fitted in your project. I have 8+ years of experience building and commissioning RTDS/RSCAD (including distribution feeders, DER/EV/V2G controllers, and real-time stable EMT models at 50 µs and below) for hardware-in-the-loop and protection/control testing. I will recreate the IEEE 33-bus feeder in RSCAD v6 as a balanced, real-time stable base network, then implement your MATLAB-defined component ratings, daily profiles, dispatch rules, and controller logic across three selectable cases (Baseline, PV+BESS+EVCS w/ V2G, EVCS w/ V2G only) with clear in-project documentation and consistent naming. I will map the model to your single-rack RTDS resources, verify compile and run success at 50 µs, and deliver a clean project structure (shared core subsystem + scenario-specific overlays/switchable cases) that opens and executes immediately without edits. If you send the message, we can discuss the project more. Thanks.

@ethanp87

Recreating the IEEE 33-bus feeder in RSCAD v6 for real-time RTDS execution at 50 µs—this is the kind of precision modeling where deep simulator experience separates a working model from one that crashes at compile time. I've done this before. ⚡ I've translated MATLAB-based distribution models into RSCAD for multiple clients, including a 33-bus equivalent with DER integration and V2G-enabled EV charging stations. That project required the same three-scenario structure you need: baseline, PV+BESS+EVCS, and EVCS-only. I delivered a balanced, stable model that compiled and ran immediately on their single-rack RTDS. For your project, I'll build a clean, documented RSCAD workspace with three simulation cases inside one project. Using the script file facility and pre-processor components, I'll structure the files so you can toggle scenarios without touching the underlying network—just select the case and run . The 50 µs timestep is aggressive but achievable with proper component selection and solver settings. I'll need your card mapping, GTNET licenses (for any external communication), and library preferences before starting. Also, do you have any specific phasor measurement or control interfaces planned? I can start immediately upon receiving your MATLAB package. Turnaround: 2 weeks for full implementation, testing, and delivery of run-ready files. Let's schedule a screen-share once you're ready. ✅