Powerful, flexible, ultra-precise battery cycling equipment with EIS capability
The BCS Series: Modularity, flexibility and ultra-precision
The high-performance BSC-800 series boasts an impressive range of specifications, as standard, that surpasses all other cyclers currently available on the market. This range of ultra-precise cyclers features five current ranges, 18 bit current and voltage resolution, high-precision coulometry, fast bandwidths (rise and fall times), smart sampling, interfacing with external equipment and temperature probes amongst many other high-end functions.
The result is a powerful, modular system suitable for any organization specializing in battery testing and research, from industry to academia, quality control to certification.
High-performance battery cyclers that excel at every level of the value chain
The BCS-800 battery cycling series is available in three core modules, all of which have been built around the same high-end technological framework, but which each offers specific current ranges targeted at key industrial/academic applications.
The BCS-805 is the smallest unit with a maximum current of ±150 mA per channel, making it highly suited for small batteries such as coin cells. The BCS-810, with a maximum current of ±1.5 A per channel, is a medium-size unit, making it ideally positioned for R&D laboratories and pilot lines. Finally, the BCS-815, the workhorse of the family, with its maximum current of ±15 A per channel is ideally suited for high-power tests, and offers the possibility to connect channels in parallel, in order to reach ±30, ±60 or even ±120 A.
Precision, accuracy & modularity: three reasons to choose the BCS-800 Series
With an 18-bit current and voltage resolution, the BCS-800 series has been developed to generate high-precision high-accuracy measurements. Five current ranges yield excellent resolution down to 0.2/2/20 nA. Moreover, a large voltage range of 0 – 9*/10 V (815*) with a 40 µV resolution offers a wide potential window for demanding applications with an outstanding resolution. And the calibration offered by BCS-CAL kit will ensure that your instrument continues to consistently perform throughout its lifespan.
An optional built-in FRA (Frequency Response Analyzer) is available for every BCS-800 module enabling Electrochemical Impedance Spectroscopy (EIS) experiments over the frequency range of 10 kHz to 10 mHz on each channel in either galvano or potentio mode. EIS measurements are as fast and precise as those obtained with our research-grade equipment – no compromise on quality has been made.
High accuracy and precision for both control and measurement allow users to perform challenging experiments such as dQ/dV or HPC (high precision coulometry). Coupled with EIS, the evolution of your batteries’ parameters can be precisely determined (SOC, SOH, internal resistance Ri). The instrument offers a fast data acquisition with a 2 ms sampling rate and time base.
There is no need to stop your experiment if you want to add a module to your system! The plug and play design of all our BCS-800 modules facilitates the installation, replacement and maintenance of modules without disrupting any units already in operation. Thanks to their modularity and compatibility, different BCS-800 modules can be combined in a single cabinet, in one of 4 units (6U, 12U, 24U and 38U), allowing users to build a custom-made system that meets their exact requirements that can be easily upgraded for the future, if necessary.
Centralized control for external devices
Your instrument also includes analog input/output and trigger input/output that can be used to control and communicate with an external device, such as a thermostatic chamber. Every BCS-810 and 815 modules are also equipped with a dedicated K-type thermocouple input on each channel to allow temperature measurement on each cell.
FSR: Full Scale Range
|805 Series||810 Series||815 Series|
|Channels per module||8||8||8|
|Range||0 V to 10 V||0 V to 10 V||0 V to 9 V|
|Control resolution||150 µV||150 µV||150 µV|
|Measurement resolution||40 µV (18 bit)||40 µV (18 bit)||40 µV (18 bit)|
|Accuracy||<±0.01% of value ±0.3 mV||<±0.01% of value ±0.3 mV||<±0.01% of value ±0.3 mV|
|Slew rate||150 kV/s||150 kV/s||3 kV/s|
|Max (continuous) per channel||±150 mA||±1.5 A||±15 A;±30 A, ±60 A or ±120 A, with channels in parallel|
|Ranges||5: 100 mA down to 10 µA||5: 1 A down to 0.1 mA||5: 10 A down to 1 mA|
|Control resolution||Down to 800 pA||Down to 8 nA||Down to 80 nA|
|Measurement resolution||Down to 0.2 nA (18 bit)||Down to 2 nA (18 bit)||Down to 20 nA (18 bit)|
|Accuracy||< 0.05% of value ±0.015% of FSR||< 0.05% of value ±0.015% of FSR< 0.1% of value ±0.015% of FSR (1 A range)||< 0.05% of value ±0.015% of FSR< 0.1% of value ±0.015% of FSR (1 A range)
< 0.3% of value ±0.04% of FSR (10 A range)
|Built-in||Optional on each module (multiplexed across 8 channels)||Optional on each module (multiplexed across 8 channels)||Optional on each module (multiplexed across 8 channels)|
|Range||10 kHz – 10 mHz||10 kHz – 10 mHz||10 kHz – 10 mHz|
|Acquisition time||2 ms||2 ms||2 ms|
|Time base||2 ms||2 ms||2 ms|
|Analog in||1 (18 bit) on each module||1 (18 bit) on each module||1 (18 bit) on each module|
|Analog out||1 (16 bit) on each module||1 (16 bit) on each module||1 (16 bit) on each module|
|4 terminal leads + Guard||4 terminal leads + Guard||4 terminal leads|
|Weight||5 kg||10 kg||23 kg|
|Power consumption||60 W||220 W||1700 W|