Electrochemical testing system

EnergyLab XMElectrochemical testing systemIt is a member of the strong transmission analysis APP-XM measurement product series, with each model focusing on specific application requirements. Compared to other similar products, these new models have smaller volumes. Provided performance while saving limited laboratory space. Each XM module is independently calibrated using strong transmission multi-point calibration and rigorous standard testing to ensure accuracy.

Apps-XM

EnergyLab XM is used for lithium-ion batteries, fuel cells, and capacitors

EchemLab XM is used for corrosion/coating and physical electrochemistry

SolarLab XM is used for solar cells/PV cells

Materials Lab XM is used for ferroelectric, insulator, and electronic measurements

application

Monitoring of lithium deposition in power and energy storage batteries

Fast charging development

temperature monitoring

Failure analysis, etc

Hydrogen fuel cell and electrolyzed water development, performance testing, failure analysis, etc

Supports regular EIS, dynamic EIS, and nonlinear EIS, etc

• High precision DC and AC impedance

• Classic impedance technology

• Measurement with low impedance and high reproducibility below 100uOhm

• Auxiliary channel DC/AC measurement for anode/cathode characterization

EnegyLab XM measurement

EnergyLab XM is a product designed for specific applications, primarily focused on the research of lithium-ion batteries/fuel cells/capacitors.

EnergyLab XM includes a reference level potentiostat, frequency response analyzer (FRA), and 2A amplifier. This device can be set to either amplification or non amplification mode (automatic switching), providing testing conditions and accuracy for a wide range of energy devices.

The outstanding sensitivity of EnergyLab XM enables complete execution of low current types or new generation low impedance batteries.

If high current is required (such as testing samples below 100 uOhm), an external amplifier can be used and automatically controlled, and a 100A amplifier can be extended.

All modes (amplification or normal) can use the auxiliary voltage divider function with strong transmission force, which can synchronously test the DC and AC impedance of the single cell/cathode/anode.

The impedance accuracy chart of EnergyLab XM (next page) highlights its strong measurement capability, bringing you a new generation of Apps-XM series products with small size and low price.

EnergyLab XM can achieve high-precision low impedance measurements at the micro ohm level using both internal and external amplifiers. These examples illustrate the data quality of the system from 10uOhm to 100uOhm.

XM potentiostat and FRA

The waveform synthesis technology of EnergyLab XM reference level potentiostat ensures that all modes are applied with smooth waveforms, whether directly connected to the sample or amplified.

Fast data acquisition capability of up to 1MS/s for fast CV/fast pulse technology

Smooth "linear/analog" waveform generator

EnergyLab XM's advanced impedance testing technology is coupled with a true reference level potentiostat and a 40MS/s frequency response analyzer (FRA) to ensure smooth waveforms and accuracy.

Multi point calibration with strong transmission force (unconventional calibration)

40x high-speed oversampling enables harmonic and fast Fourier transform (FFT) techniques to be performed across the full frequency range

Auxiliary channel can be used for anode/cathode impedance

Auxiliary voltage divider channel

The system comes standard with four differential auxiliary voltage channels, including

Multi point time-domain voltage and frequency-domain impedance measurement

Anode/cathode testing

Zoom in/regular connection mode

Synchronous measurement of auxiliary equipment, pH sensor, etc

power amplifier

Integrated amplifier can test a generation of low impedance batteries

External amplifier option (up to 100A)

XM Studio software is extremely easy to use 1... 2... 3... 4

XM Studio software provides a complete set of easy-to-use testing techniques. From test setup to experimental execution, data analysis to reporting. The software provides built-in templates to help you start from scratch, set parameters, and begin experiments with just a few clicks of the mouse.

XM Studio software has unique features and uses graphics as a guide to simplify operations:

The establishment of sequence experiments can be completed through intuitive and standard copy/paste, drag and drop methods

New experiments can evolve from previous experiments by copying and adjusting parameters and testing sequences.

The widely used graphical diagrams in software can help you better understand test parameters and experimental settings. The impact of parameter setting changes can be displayed in real-time, making it easy to identify setting errors and correct them before testing.

XM studio ECS software displays a schematic diagram of the connection, ensuring that the sample wiring is correct before testing.

Includes equivalent circuit fitting without the need for output data

R. C, L, W and CPE (common phase elements), diffusion part

Common attachments

EnergyLab XM is customized for energy research, but when paired with appropriate accessories, it is also suitable for other electrochemical applications such as corrosion and coating, as well as physical electrochemistry.

External power amplifier

EnergyLab XM is compatible with external amplifiers *, expanding the range of current and impedance measurements - particularly important for the new generation of low impedance batteries, fuel cells, and stage capacitors.

Floating Ground Setting - Measurable Grounding Sample

Time domain and frequency domain measurements are used for testing cathode/anode and small battery packs within 8V

Current can be amplified to 100A, low impedance measurement can be extended to 1uOhm

External amplifier provides 100KHz impedance bandwidth for SOFC and other high-frequency applications

Automatically controlled by Energy XM and XM software

Corrosion electrolytic cell

Electrolytic cells can be used for rapid and uniform testing of a series of metal samples and liquid environments. Can be used in most corrosion testing techniques, even under conditions (except HF), at room temperature or high temperature.

Flat electrolytic cell

Research on the design of practical flat electrolytic cells that are prone to corrosion or coating. It can accommodate a wide range of electrode sizes, avoiding processing or special mechanical procedures.

Rotating electrode

The 636A rotating ring disk electrode is suitable for dynamic modulation systems. Solid state servo control keeps the electrode speed in sync with the input signal. This excellent performance is attributed to high-speed, low inertia, permanent magnet DC motor and high-voltage, bipolar power supply. The speed is adjustable, with an error range of 50-10000 and an error of less than 1%. The rotational speed voltage signal is proportional to the rotational speed and can be used for output signals.

Integrated battery testing system

Strong transmission power and strategic alliance formed between Princeton and Maccor. The complete plan includes a battery charging and discharging instrument and an electrochemical analysis system. Includes a multiplexer, internal wiring, and impedance testing software.

This integrated solution improves efficiency by automatically switching between the MACCOR testing system and impedance testing system. This provides big data, more reliable and reproducible test results. At the same time, it reduces the downtime and testing waiting time for operators to transfer from one device to another.

application

Fuel cells, batteries, and capacitors

The increasing demand for the new generation of breakthrough energy devices includes miniaturization, lightweighting, high energy density, low cost, faster charging and discharging capabilities, low self discharge, and longer lifespan. The development of new materials and nanotechnology has recently improved these factors, leading to a large number of new technologies appearing in the market, which may have an order of magnitude increase. For example, the report points out that the potential charging and discharging time of lithium batteries for electric vehicles is only one minute, which will be 1-2 orders of magnitude higher than existing technologies.

Strong transmission equipment has a wide range of R&D level battery testing technologies, including lithium-ion batteries, NiMH， Metal air, SOFC and magnesium based batteries, thin organic batteries and other small cells, capacitors and micro fuel cells, such as mobile phone and laptop batteries, can be directly tested by strong single channel and multi-channel testing systems (such as Modulab XM and 1470E), and external power amplifier options can enable these systems to test high-power batteries.

EnergyLab XMElectrochemical testing systemIndicator: