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MegaEISâ„¢ System
For Fuel Cell Stacks, Electrolyzers, and Batteries
Up to 1000 Cells, Current up to 2 kA
The High-Power System for Electrochemical Research & Development
MegaEISâ„¢ System is a precise modular testing device for EIS analysis of fuel-cell stacks, electrolyzers and batteries. The System consists of a power stage which handles the power, and EIS acquisition system which can perform impedance spectroscopy analysis at all cells simultaneously.
Get a true, uncompromised snapshot of your device's health. The MegaEISâ„¢ System delivers a complete EIS profile by performing true parallel analysis on every cell of your stack or electrolyzer simultaneously. Thanks to a dedicated channel architecture without multiplexing, it captures a perfect, real-time picture of electrochemical performance. This combination of a robust, water-cooled power stage and high-fidelity acquisition makes it the definitive tool for demanding R&D, QA, and diagnostics.
World-Class Power, Globally Trusted. Precision is our baseline. That’s why our official partner and global leader, Gamry Instruments, chooses to offer Kolibrik MegaEIS™ System. This synergy of high-current hardware and world-class expertise delivers the most reliable measurement systems to researchers and gigafactories everywhere.
MegaEISâ„¢ System provides wide measurement range up to 1000 V and 2000 A.
Modular design, power can be optionally boosted by external power source, load or both combined.
MegaEISâ„¢ is designed for EIS analysis of fuel cells or electrolyzers stacks or battery packs.
Multi-channel acquisition without multiplexing up to 1000 channels.
Choose the one from the most demanded configurations for specific tasks below.
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Kolibrik MegaEIS System Introduction
See Unboxing, introduction to features, and practical live measurement demonstration of MegaEIS System.
Measuring with Kolibrik MegaEIS System
Demonstration of measuring with Kolibrik MegaEIS System.
Key Features
- High-power scalability: Stack voltage up to 1000 V, stack current 2000 A, and maximum internal power dissipation 20 kW, with an external booster reaching 800 kW.
- True parallel EIS: Measure individual cells or the entire stack simultaneously without multiplexing delays, capturing real-time state-of-health data.
- High-precision current sensing: Artifact-free data acquisition of both DC and AC components via an advanced, low-noise architecture.
- Modular test environment: Easily integrates with external power sources and boosters to meet specific heavy-duty industrial requirements.
- Seamless software control: Driven by Kolibrik measurement software for continuous operation, data visualization, and remote management.
Advanced Electrochemical Methods
True parallel EIS and continuous DC cell monitoring make the MegaEIS an exact, high-speed tool for R&D analysis and manufacturing quality control. Beyond impedance spectroscopy, the system natively executes a broad suite of methods:
- Standard Techniques: Execute polarization curves, chronopotentiometry, chronoamperometry, current interruption, and complex load cycling.
- Automated Method Sequencing: Seamlessly link multiple standard methods into custom, multi-stage experimental procedures without manual intervention.
- Advanced Scripting & Integration: Take full control of your test protocols via Pascal or Python scripting, including TCP/IP server support for integration with external supervisory systems.
Deployment Scenarios Across the Industry
Industrial Electrolyzer Scale-Up
Safely transition from single-cell research to commercial green hydrogen production. Drive large-format short stacks and full-scale systems with up to 1000 V and 2000 A. Utilize true parallel EIS to isolate specific degradation mechanisms—such as membrane aging or catalyst poisoning—under continuous, extreme loads.
Heavy-Duty Fuel Cell Validation
Simulate aggressive automotive, rail, and marine drive cycles. Sink massive currents natively—even down to true zero volts for short-circuit testing—to evaluate transient responses, thermal stability, and localized cathode flooding across hundreds of cells simultaneously.
Dynamic Battery & rSOC Cycling
Execute seamless charge and discharge profiles on high-current battery modules and reversible fuel cells using our bi-directional architecture. Capture real-time State-of-Health (SoH) and impedance shifts across all cells during active operation without breaking the circuit or switching hardware.
Automated End-of-Line (EoL) Diagnostics
Eliminate manufacturing bottlenecks. Leverage simultaneous multi-channel data acquisition and programmable method sequencing to rapidly execute strict pass/fail diagnostics on newly assembled industrial stacks, bypassing the time delays of traditional multiplexed systems.
High-Power Fuel Cell & Electrolyzer Testing
Want to learn more about the solution, use cases, and references related to fuel-cell or electrolyzer testing? In our portfolio we have a solution for all scenarios including SOFC, etc.
High-Power Battery & Packs Testing
Want to learn more about the solution, use cases, and references related to battery-oriented testing? In our portfolio we have a solution for any type of batteries including redox-flow, etc.
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