MegaEIS™ ME-2SP200

The MegaEIS™ ME-2SP200 is a unique high-power hybrid workstation that integrates a precision Potentiostat Core (PTC) module into the robust MegaEIS architecture. Engineered for advanced single-cell and short-stack research, it delivers up to 200 A of stable current. Crucially, its dual-mode operation provides a true bipolar ±5 V range in PTC mode alongside standard 0...5 V source capabilities, enabling highly sensitive zero-crossing electrochemical techniques traditionally limited to low-power laboratory instruments. This allows researchers to execute precision cyclic voltammetry, chronoamperometry, and true parallel EIS on large-format cells under heavy operational loads without compromising signal integrity. Key Features Hybrid architecture: Integrates a precision Potentiostat Core (PTC) for advanced large-format single-cell and short-stack R&D. Dual-mode voltage range: Operates at ±5 V in PTC mode (enabling full zero-crossing techniques) and 0...5 V in high-power Source mode. Maximum current up to 200 A Maximum internal power dissipation up to 1 kW Advanced electrochemical methods: Execute high-current Cyclic Voltammetry, Chronoamperometry, and Linear Sweeps natively. 2× dedicated EIS channels for high-resolution impedance spectroscopy under continuous load. High-precision current sensing: Artifact-free data acquisition of both DC and AC components. Deployment Scenarios High-Current Cyclic Voltammetry: Execute advanced electrochemical characterization on large-format industrial cells. The integrated PTC module enables precise cyclic voltammetry and linear sweeps at up to 200 A, allowing researchers to analyze catalyst activity and redox reactions on massive active areas that standard lab potentiostats cannot drive. Large-Format Cell Validation: Bridge the gap between fundamental material science and industrial application. Drive single large-format cells or small short stacks natively with up to 200 A while capturing artifact-free, high-resolution EIS data to pinpoint membrane degradation or mass transport limitations under true operational stress. Complex Electrochemical Sequencing: Automate demanding test protocols securely. Seamlessly link standard high-power load profiling with advanced potentiostatic methods—such as double-step chronoamperometry or custom polarization sequences—capturing transient responses with the strict precision required for advanced R&D. Technical Parameters Power supply 110 … 240 V AC / 50 … 60 Hz Dimensions Modular deign for 19“ rack cabinet Protection rating IP20 Input voltage for PTC mode ± 5 V Input voltage for Source mode 0 … 5 V Total input current Total input current (internal + external load) Up to 200 A Internal load current 0 … 200 A Max. internal power dissipation 1 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 ± 5 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!