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Master energy storage. Shape the future.
Smart Grid Battery Storage System
Using Renewable Energy
Analyse energy flows
UPS function
for critical infrastructure
SCADA integration
with power quality analysis
Smart Grid Integration
plug & play
Digital support for maximum learning success – with RXlea learning software
With the integrated RXlea learning software, Smart Grid Battery Storage System becomes an interactive learning environment. RXlea guides learners step by step through real-world fault scenarios and helps them understand technical systems, analyze faults systematically, and implement solutions practically.
By combining hands-on hardware with a structured digital learning path, RXlea promotes learner autonomy and strengthens action-oriented skills – fully aligned with the concept of Real Experience Learning. Interactive tasks, multimedia content, and automatic result evaluation make learning efficient and engaging.
Digitally guided, experienced for real.
Inside our Product
Discover the unique features and details of our system – modern, hands-on, and tailored to meet your exact needs.
Skills for real-world application
Hands-on scenarios and realistic exercises build more than just technical knowledge – they empower independent thinking and action. These skills enhance safety and efficiency in everyday professional life.
Analysis of charging and discharging processes
Using measurement data to evaluate efficiency, charge cycles, and storage performance
Energy management strategies in the smart grid
Developing load management concepts and deciding when to store or feed energy into the grid
Measuring power quality with SCADA
Interpreting network parameters (e.g., voltage, frequency, harmonics) and assessing supply quality
Battery operation configuration
Selecting and controlling operating modes such as self-consumption optimization, grid feed-in, and backup supply
Integration with PV or wind power
Planning and evaluating hybrid energy systems in the smart grid – focusing on self-consumption and supply security
Simulating a power outage
Safely handling UPS systems and assessing grid stability during critical power failures
Ready for the future?
Get in touch to learn more and kick off your training!
REAL EXPERIENCE LEARNING
A connected training system simulates modern energy management: photovoltaic modules supply power, a battery storage unit is on standby, and the network load increases as consumers are activated. The system begins to show voltage fluctuations – a critical operating condition is imminent.
Learners take on the role of energy sector professionals. They analyze real-time data via the integrated SCADA system: grid voltage, frequency behavior, and battery charge status. The task: correctly configure the battery’s operating mode, feed in energy as needed, and stabilize the grid.
A fault is then introduced: the storage unit reports a communication error. Learners must interpret diagnostic values, localize the issue, and apply corrective measures to restore normal operation – while strictly observing safety protocols.
RXLea impresses with a modern, user-friendly interface that allows even beginners to get started quickly. Complex tasks can be solved in just a few clicks – no lengthy onboarding required.
With RXLea, learners can access content anytime and anywhere – whether in the classroom, in the lab, or at home. Learning becomes a natural part of everyday life.
Realistic simulations, interactive experiments, and hands-on exercises make learning engaging and lasting. Theory becomes tangible and is applied in practice.
RXLea adapts to the needs of both instructors and learners. Content, modules, and difficulty levels can be customized to ensure optimal learning outcomes.
Built-in analytics and assessment tools give instructors full visibility over learner progress. Learners benefit from clear goals and instant feedback.
RXLea is built on cutting-edge technology that evolves continuously. You stay ahead of the curve and benefit from regular updates and innovations.
FAQ
Select operating modes
control energy flow
Manage loads
distribute energy efficiently
Project Overview
- Perform grid analysis and interpret voltage deviations
- Define energy management strategy for self-consumption optimization
- Analyze PAC error messages and systematically identify root causes
- Safely switch battery operating modes (charging, discharging, UPS)
- Observe and document system response during power outage
- Integrate battery into existing system and test functionality
Still have questions?
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