LBTS-MZTC
Turn-key high-precision cell testing solution integrated with Arbin’s patented Cell-Isolating Thermal Chamber
Highlights
- Ideal for battery development and cell characterization
- 4 Current Ranges per Channel
- <100ppm Measurement Precision
- 24-Bit Voltage & Current Measurement Resolution
- Arrived with all cables fully integrated from channel to chamber
- Built-in thermistor PT100 input per channel available
- Built-in DCIM Measurement feature
- Built-in Self Discharge Current Measurement feature
- EIS measurement up to 100kHz available
- Dynamic Temperature Setpoints managed independently per isolated chamber
System Specifications
100mA
10mA
1mA
100A
10mA
1mA
100A
10mA
1mA
Temperature
Battery Testing Solutions
CC - Constant Current
The Constant Current (CC) control mode is designed to deliver a steady current to the battery based on the specified value. This mode is crucial in scenarios where maintaining a steady current is necessary, such as during charge or discharge cycles.
The polarity of the current determines the operation mode: a positive current corresponds to charging, while a negative current corresponds to discharging.
CV - Constant Voltage
The Constant Voltage (CV) control mode regulates the voltage output to the battery according to the set value. This mode is essential for applications where voltage stability is critical, ensuring the battery operates within safe voltage limits.
The CV mode is particularly useful in the latter stages of charging, where it ensures that the battery reaches and maintains the desired voltage level without exceeding it, thus protecting the battery's longevity and performance.
CCCV - Constant Current & Constant Voltage
The Constant Current-Constant Voltage (CCCV) control mode facilitates an integrated charging process, where the battery is initially charged under a Constant Current (CC) regime until a predefined voltage threshold is reached. Upon reaching this threshold, the system seamlessly transitions to a Constant Voltage (CV) mode, where the current gradually decreases as the battery approaches full charge.
You can specify both the current (CC) and voltage (CV) parameters in a single step. This mode ensures both efficient charging and the prevention of overcharging, with termination criteria based on either time or a minimum current threshold.
Advanced Application Features
Centralized Infrastructure
Unified platform for synchronized management, data storage, and control of multiple battery testing stations.
Distributed Infrastructure
Distributed testing infrastructure for scalable and flexible battery testing.
Standalone Station
Independent setup for localized battery testing with integrated data management and analysis capabilities.
APIs integration
Flexible APIs for easy integration and automation of battery testing processes across platforms.
Cloud Integration
Effortless connectivity to cloud platforms for secure data storage, backup, and real-time access.
Auxiliaries and Optional Accessories
Available to Enhance Testing
MZTC Multi-Chamber
Arbin's MZTC provides up to 8 fully independent mini temperature chamber for cell testing.
Auxiliary System
Arbin offers a full complement of auxiliary modules to address further testing requirements.
Battery Holders and Racks
A variety of racks and battery holder are available for all cell types for an organized test environment.
Multi-Zone Open Rack
Battery holder system with open rack features four compartments for holding battery trays.
Software Testing Application
MITS 11
You will experience seamless integration across web, desktop, and API interfaces with our next-gen application. Harnessing the power of cloud database integration and innovative data streaming, our platform delivers unmatched efficiency and reliability. Enjoy scalable solutions with integrated sub-products designed to elevate your operations.
Standalone Testing Setup
The standalone testing setup offers a self-sufficient solution for battery evaluations. Equipped with all necessary hardware and software, it ensures accurate data collection and analysis, making it ideal for labs and field environments without relying on external systems.
Decentralized Testing Infrastructure
The decentralized testing infrastructure provides a scalable solution for battery testing across multiple locations. Each site operates independently yet remains interconnected, allowing for robust data synchronization, load balancing, and enhanced redundancy to maximize efficiency and reliability.
Testing as a service [TAAS]
Testing as a Service (TaaS) delivers an all-inclusive solution for battery evaluation and data analysis. Leveraging advanced infrastructure, clients can access top-tier testing capabilities on demand, ensuring accurate results and streamlined processes without the need for dedicated in-house resources.
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