ModuLab XM ECS

Highlights​​

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• Can be tailored for your different range of electrochemical experiments through boosters and option interfaces

• Can be expanded even beyond traditional electrochemistry including materials and photovoltaic measurements

• Exclusive Femto module for low current measurements

• XM-Studio software is included with all XM Series systems

• ModuLab XM ECS impedance accuracy contour plot highlights Solartron's best in class measurement performance.

Applications and Software​

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EnergyLab XM is an application specific XM instrument designed for research of batteries, fuel cells, and supercapacitors. EnergyLab XM’s extreme sensitivity is used for advanced testing of lithium ion batteries and alkaline batteries. This includes research in half-cell configurations and next generation low impedance cells in the sub 100 μΩ range as well as popular battery types such as 2032 coin cell testing and 18650 cell testing.

EnergyLab XM includes a reference grade potentiostat galvanostat, frequency response analyzer (FRA), auxiliary voltage channels and 2A booster. These features provide accuracy to the most common tests for impedance and battery capacity (charge discharge) to measure rated capacity (mA h) or energy (watt hours) that a battery can deliver.

High current may be needed for battery testing, to either fully charge or fully discharge the battery cell at high discharge rate or measure low impedance. External power boosters up to 100 A can be connected to the EnergyLab XM. Our boosters are automatically controlled for fully integrated tests.

All modes -- poteniotstat, galvanostat...boosted and non -- make use of Solartron Analytical’s unique auxiliary channel capability. These auxiliary channels can measure nominal voltage across the battery terminals of a single cell in a stack or at the cell level across the anodes, cathodes, separators.  Simultaneous coordinated measurements of DC and impedance can identify the mode of battery failure and predict battery life.

EnergyLab XM’s impedance accuracy contour plot highlights Solartron’s best in class measurement performance.

Specifications​

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• Polarization, Compliance Voltage: ±8 V up to ± 100 V

• Max Current Output: ± 300 mA up to ± 100 A

• Min Current Output: ± 30 nA (1.5 pA resolution) to ± 30 pA (1.5 fA)

• Advanced EIS Functions: With all FRA Modules
  Accuracy to sub 100 µΩ
  Auxiliary Voltage Inputs
  Multi-Sine (improved speed)
  Harmonic Analysis (cell linearity)
  Integrated EIS Modeling