The Laboratory Battery Testing series is Arbin’s latest generation of testing equipment, derived from technology commercialized in a successful ARPA-E project (for which Arbin Instruments and its. Arbin Instruments BT-2000 Battery Load Tester Load Board HPLA 135914 Z5 $49.99 + shipping. Elamed Easyton Intraocular Pressure Tonometer Measure Pen TVGD-02 Brand New. Test with existing Arbin Instruments and Maccor battery cyclers to generate high quality cycling data, that will help you derive battery intelligence. At Voltaiq we’re often asked for recommendations on how to best set up and record data from a battery or capacitor test. If you’re like us, you probably built your first test. Arbin’s LBT series battery test equipment is designed for long-term life cycling as well as simulating complex real-world test profiles such as EV drive profiles, smart battery pulse charging, and other custom charge/discharge regimes. It is the go-to choice for researchers around the world.
Battery: Module TestingMavis beacon teaches typing 17 deluxe serial number. The Arbin LBT21024 Battery Test System is a 0-10V, 8-channel, 100A/25A/5A/500mA battery life cycle tester with high-precision measurement and high-frequency data sampling capabilities. Arbin LBT21024 units record electrical parameters with a precision uncharacteristic of most battery testers, revealing electrochemical indicators and other important trends generally lost in the measurement noise a load with less precision generates.
Arbin’s LBT series battery test equipment is designed for simulating complex real-world test profiles such as EV drive profiles, smart battery and CANBus communication, and other custom charge/discharge regimes. It is the go-to choice for battery engineers around the world.
or [Preview Report Here]
Battery Voltage up to 60V
Battery Current up to 2500A
A variety of standard and customized solutions are available
Arbin offers battery testing systems for basic charge/discharge cycling, and simulating complex real-world applications such as drive profiles, telecomm pulses, or other custom profiles.
Arbin’s Laboratory Battery Testing (LBT) series commercializes technology established during a 3‐year ARPA E project developing ultra‐high precision testing systems. This product consists of independent charge/discharge channels for testing battery or supercap modules, and other energy-storage devices. It is intended to provide a safe and valuable solution for applications requiring high‐precision measurements and fast data sampling. All Arbin testing systems come with a PC pre-loaded with our MITS Pro and Data Watcher software for creating test profiles, real‐time data monitoring, and data plotting & analysis.
Primary Applications:
- Life Cycle Testing
- Simulation of advanced real-world test profiles
- Cranking amp tests with discharge current up to thousands of amps.
- R&D of batteries for electric vehicle and grid storage applications [Learn More about EV application]
- Validate 3rd party charger or internal battery management system (BMS) using CANBus or other protocols
- Test Smart Battery modules via SMBus including the new Intel “Turbo Mode“. [Read More about Turbo Mode]
General Specifications:
Measurement Resolution: 16-bit (1 part in 65,536)
Measurement Precision: <100ppm
Control Accuracy: <0.02%
Minimum Step Time: 5ms
Data Logging Rate: 2000points per second, per system
Connection for PC: TCP/IP (Ethernet)
Ventilation Method: air-cooledwith variable speed fans
Key Features:
- Fully independent high precision test channels with full potentiostatic, galvanostatic control
- Uses true Bipolar Linear circuitry providing cross‐zero linearity and zero switching time between charge and discharge
- Each channel provides 3 or 4 current ranges with 16‐bit resolution
- Powerful embedded controllers provide fast data logging (2000 points per second, per system ) and control flexibility for the most advanced test requirements
- Any number of channels can be operated in parallel for increased current‐handling capacity
- Simulate real-world profiles directly from data files with no programming required
- Communicate with internal battery management system (BMS) via CANBus or SMBus protocols
- Systems are air-cooled so no additional facility infrastructure or regular maintenance is needed.
- Arbin’s advanced software package, MITS Pro, provides flexible scheduling, a user‐friendly interface, distributed system control, and data acquisition
- Software provides easy data analysis and plotting based in Data Watcher and Microsoft Excel
- A wide array of auxiliary inputs/outputs are available for additional data collection or control such as temperature monitoring, additional reference electrodes, and more.
Safety:
- Multiple levels of fusing are provided inside the system for protection as the channel/board and power supply levels.
- Each channel module has a fully redundant microcontroller dedicated for safety monitoring.
- Arbin’s software has safety functions for entire tests, and for individual steps within a test to help the user avoid overcharging, over‐discharging, over‐heating, etc.
- Tests begin with a built‐in safety check of all control values.
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Arbin Instruments provides a wide variety of auxiliary modules for expanding the capability of the main charge/discharge control circuitry. Modules can either be placed in the main chassis, or in a small external chassis. This also makes it easy to add auxiliary options to existing systems.
| Arbin offers Auxiliary Voltage Inputs that can be used to monitor the individual cell voltages within a module. Data logged from auxiliary voltage inputs can be flexibly assigned by the user to one, many, or all of the main charge/discharge channels. Measurements can be used to control the test, act as safety limits, or simply record data. |
| Temperature Measurement Inputs are offered for Type-T or K Thermocouple, or 10kohm or PT100 Thermistor sensors. Temperature data logged from these inputs can be flexibly assigned by the user to one, many, or all of the main charge/discharge channels. Temperature can be used to control the test, act as safety limits, or simply record temperature measurements. |
The CANBus/SMBus options allow the Arbin tester to communicate with an internal battery management system (BMS) within the battery module, or other internal smart battery circuitry***. The CANBus or SMBus interface will allow the Arbin system to both send and receive CAN or SMB messages. It can read and record the messages from BMS, and messages from the BMS can be used to dynamically control the Arbin tester. (i.e. charge based on a CAN or SMB signal.) There are no 3rd party DLL packages or licenses required.
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This module allow’s the Arbin tester to interfacewith approved 3rd party temperature/environmental chambers from other manufacturers. The Arbin software can turn the chamber on/off and adjust temperature during testing. Temperature setpoints from the chamber controller are automatically logged in the data and independent temperature measurements are available using thermocouple or thermistor inputs. |
| Digital and Analog Input/Output channels are offered to interact with external hardware devices. — The Digital I/O will send and receive a simple on/off, high/low relay signal. It can activate a BMS, receive a confirmation signal, and many other options. — The Analog I/O will control any device that operates in a 0(2)-10V signal such as pumps, valves, etc. |
| The Uninterrupted Power Supply (UPS) option will provide backup power to the PC with your Arbin system. It allows the test to automatically pause and wait for power to be restored to the tester and will automatically and safely resume testing after brief outages. Otherwise, the software and PC will safely be shut down. |
| The Redundant Safety Monitoring System (RSMS) can be placed in series with any battery tester including those from USA, Europe, and Asia. The RSMS allows users to set a limit for Voltage, Current, Power, and Temperature that will automatically disconnect the battery or device under test is a safety limit is reached. Many manufacture’s claim to have comprehensive safety features, but the RSMS guarantees and extra layer of protection to help prevent failure events. [Learn More] |
| Model | Voltage Range | Current Ranges | Model | Voltage Range | Current Ranges | |
| LBT 10V-10A | 0V to 10V | 10A/500mA/20mA/1mA | LBT 40V-20A | 0V to 40V | 20A/2A/100mA | |
| LBT 10V-30A | 0V to 10V | 30A/5A/500mA/20mA | LBT 40V-75A | 0V to 40V | 75A/15A/1A | |
| LBT 10V-50A | 0V to 10V | 50A/5A/500mA/20mA | LBT 40V-150A | 0V to 40V | 150A/75A/15A/1A | |
| LBT 25V-10A | 0V to 25V | 10A/1A/100mA | LBT 60V-15A | 0V to 60V | 15A/2A/100mA | |
| LBT 25V-20A | 0V to 25V | 20A/2A/100mA | LBT 60V-50A | 0V to 60V | 50A/10A/1A | |
| LBT 25V-50A | 0V to 25V | 50A/5A/100mA | LBT 60V-100A | 0V to 60V | 100A/50A/10A/1A | |
| LBT 25V-100A | 0V to 25V | 100A/10A/1A | ||||
| Custom LBT models for module testing are available up to 100V and up to 2500A. | ||||||
How to Evaluate Battery Test Equipment
Batteries are a critical component of many products, and energy storage plays a very active role in our lives even outside of the research/industry setting. Therefore, selecting the right battery test equipment is an important decision for companies and the individual researchers who are responsible for producing results, whether they are starting small, or at massive scale.
The expert engineers at Arbin have been advancing the benchmark of “state-of-the-art” battery test equipment for over 27 years. We are defined by innovation, from being the first to apply multiple current ranges on a single test channel to more recently being the only company to offer true high-precision testing for high current applications, and supporting “Turbo Mode” with smart battery modules. We continue to learn from our industry partners and work with them on key technology breakthroughs.
The following report shares some of this knowledge using plain terminology and illustrations. Here are five key topics to consider when choosing battery test equipment:
1. Hardware – Specifications & Quality of Materials [Preview Report]
2. Software – Usability and Features
3. Data – Logging, Management, and Analysis
4. Options – Auxiliary Features and Accessories
Arbin Battery Tester For Sale
5. Support – Product Safety and Support
for 30 years.
Select Your Testing Application
Why we are passionate
At Arbin, we understand the vital role energy storage plays in our everyday life and its importance to our future. This is why we work hard to provide the best service and testing equipment as a tool for both researchers and industry.
ARPA-E: High Precision Testing Project
Arbin successfully completed a 3-year ARPA-E project partnered with Ford Motor Company and Sandia National Lab by creating a new testing system capable of performing coulombic efficiency measurements with better than 50 ppm precision at 200A. This will dramatically reduce the development cycle for testing batteries and evaluating new battery materials. These ultra-high precision testers are available today to the general public.
Latest Developments
Learn How to Evaluate a Battery Tester
The report shares information using plain terminology and illustrations.
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Arbin's new MSTAT system offers (-5)-5V, upto 5A, and optional EIS upto 2MHz.
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