MegaEIS™ ME-2ZL400
Delivery and Shipping to EU
Delivery and Shipping to EU
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MegaEIS™ ME-2ZL400
Kolibrik
The MegaEIS™ ME-2ZL400 is a specialized 2-channel load and EIS workstation, engineered specifically for advanced large-format single-cell and small fuel cell stack testing.
Featuring a true zero-voltage load architecture, it is capable of sinking up to 400 A natively even as cell potentials approach 0 V. With two fully synchronized measuring channels, the system allows researchers to execute heavy load profiling, short-circuit simulations, and high-resolution EIS at the extreme lower limits of fuel cell operation without the voltage dropouts common in standard electronic loads.
Key Features
- True zero-voltage load architecture: Sink maximum continuous current even at ultra-low cell potentials (down to 0 V) for short-circuit and deep discharge testing.
- Designed for advanced large-format single-cell and 2-cell fuel cell research.
- Maximum load current up to 400 A
- Stack voltage up to 75 V
- 2× dedicated measuring channels for fully synchronized, parallel EIS data acquisition.
- High-precision current sensing: Artifact-free measurement of both DC and AC components under extreme low-voltage conditions.
Deployment Scenarios
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Deep Discharge & Short-Circuit Testing: Evaluate fuel cell behavior down to absolute 0 V. The true zero-voltage load architecture pulls up to 400 A even at ultra-low potentials, allowing for safe, controlled short-circuit simulation and deep discharge recovery analysis on massive active areas.
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High-Current Single-Cell Characterization: Push large-format cells to their operational limits. Execute precise polarization curves and continuous heavy load profiling up to 400 A without being restricted by the minimum operating voltages that limit standard laboratory loads.
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Ultra-Low Voltage EIS Diagnostics: Capture specific impedance shifts at the brink of cell failure. Perform high-resolution parallel EIS on both channels while operating near 0 V, instantly pinpointing severe mass transport limitations or cathode flooding under extreme stress conditions.
Technical Parameters
| Power supply | 110 … 240 V AC / 50 … 60 Hz |
| Dimensions | Modular deign for 19“ rack cabinet |
| Protection rating | IP20 |
| Input voltage for Load mode | 0 … 75 V |
| Total input current Total input current (internal + external load) |
Up to 400 A |
| Internal load current | 0 … 400 A |
| Max. internal power dissipation | 4 kW |
| Cooling | Water |
| Sampling | 24-bit ADCs, low-noise 50/60 Hz filtered sampling Up to 1.25 Msps for EIS measurements |
| Measurement resolution | 0.001% of selected range |
| Accuracy | Voltage: ≤ 0.1% of range + 0.1% of reading Current: ≤ 0.1% of range + 0.5% of reading |
| Acquitions methods | Constant V, I, Open circuit, Manual control, Chronoamperometry, Chronopotentiometry, Linear sweeps, Polarization curves, Current interruption, Load cycling/profiling, EIS – electrochemical impedance spectroscopy, Programmable sequences of all available methods |
| EIS frequency | 1 mHz … 100 kHz |
| EIS amplitude in PTC mode | 1 … 1000 mV, up to 50 A for < 1 kHz |
| EIS amplitude in Source mode | Up to 20% of maximum internal current for < 1 kHz |
| EIS channels | 2 |
| EIS Probes |
-2 V … +10 V |
| Connection | USB 2.0 |
| Software | Control software for MS Windows Features: measurement setup and control, data acquisition, processing and visualization, pascal or python scripting, remote control by TCP/IP server for integration with top-level control system, examples for remote control using Python or LabVIEW. |
If these variants do not suit you, please contact us, we offer customized solutions!
