Articles
Enhancing Battery Testing Safety with a Door Switch Interlock System
I. Purpose and Applicability Battery testing—whether for electric vehicles, consumer electronics, or industrial systems—demands strict safety protocols. One often overlooked but critical element in test chamber safety is the door switch interlock system. This simple yet powerful mechanism helps prevent injuries, equipment damage, and test data corruption. In this article, […]
Integration of Arbin Instruments with Gamry Potentiostats for High-Frequency EIS up to 2 MHz
According to the standard specifications published by Arbin, integrating a Gamry device with an Arbin system typically limits the device’s original frequency capability from 2 MHz down to 100 kHz. However, in this article, we will introduce a solution that allows the system to retain the full 2 MHz frequency, with some trade-offs […]
Wie führt man eine Innenwiderstandsmessung nach IEC 61960 mit Arbin durch?
IR measurement is crucial to have an insight into a battery. There are many way, i.e. many standard to measure battery’s IR. This article will introduce IEC 61960 standard and how to implement it using Arbin’s equipments. IEC 61960 standard for battery IR: In this standard, a discharge pulse of […]
Testen eines Schutzschaltungsmoduls (PCM) mit ARBIN EOL
I. Purpose and Scope: The Protection Circuit Module (PCM) is a critical electronic component responsible for monitoring and protecting devices across a wide range of applications—from small consumer electronics to large-scale industrial equipment. Its core function is to ensure battery and device safety by preventing hazardous conditions such as overcharging, […]
Messung der Hilfsspannung
Introduction The Arbin Auxiliary Voltage Input Module enables precise, high-resolution voltage monitoring for battery testing applications that require measurements beyond the standard I/V channels. Typical use cases include monitoring individual cell or module voltages within a larger pack, measuring reference electrodes in three-electrode cells, or comparing BMS data with directly […]
Zusätzliche Temperaturmessung
Introduction Battery temperature measurement is essential for evaluating safety, longevity, and performance in modern testing environments. Arbin supports three primary sensor technologies—thermocouples (Type T and K), RTDs (PT100), and thermistors (10kΩ)—each available through dedicated auxiliary input modules. These sensors enable precise temperature control, monitoring, and safety logic throughout battery R&D […]
Konstante C-Rate in Bezug auf die tatsächliche Kapazität, statt konstantem Strom bei Arbin-Zyklern
As we all know, the batteries’ capacity degrade by cycle of charge and discharge. If we set the charge and discharge current of a fixed value, such as 1A, 2A,… the length of each cycle will gradually decreases, simply because the battery’s capacity decreases: Cycle time = (Charge Capacity + […]
Synchronisierung verschiedener Batterielade-/Entladekanäle in einer Umgebungstemperaturkammer
MTCI Introduction Arbin’s MTCI (Multi-Temperature Chamber Interface) module offers seamless and sophisticated integration with third-party environmental chambers, enabling direct control of temperature and humidity setpoints from within the Arbin test schedule. This streamlined setup allows test engineers to program and adjust environmental conditions alongside electrical cycling parameters, eliminating the need […]
Formel und Variablen, die in der Arbin MITS-Software für flexible Batterietests verwendet werden
General Description: – Software allows the user to control a test using variables rather than concrete control values (for example, instead of using 4.2V for control, the system can use “Last Step Maximum Voltage” as the control type for the following step. – It is also possible to use these […]
Temperaturmessung an mehreren Punkten der Batterie
Importance of Temperature Monitoring in Battery Testing Accurate temperature monitoring is a critical aspect of battery testing to ensure both safety and data integrity. One key application is the prevention of thermal runaway or overheating during test procedures. When a battery exceeds a predefined temperature threshold, the test must be […]
Wie erkennt man den Ladezustand der NiMH-Batterie?
Voltage, Temperature, and Delta-V: Indicators of Full Charge in NiMH Cells The Nickel-Metal Hydride (NiMH) battery is a type of rechargeable battery that uses nickel oxide hydroxide (NiOOH) as the positive electrode (cathode) and a hydrogen-absorbing alloy as the negative electrode (anode). Compared to nickel-cadmium (NiCd) batteries, NiMH batteries offer […]
Batterietest für Elektrofahrzeuge (EV) Anwendungshinweise
Purpose and Applicability: This application notes introduce a series of tests for evaluating the performance of life behavior of batteries for electric vehicles (EV).Arbin works with electric vehicle industry leaders around the world, and provides a comprehensive battery test solution for cells, modules, and packs of all sizes.These tests can […]
Schlüsselfertige Batterieprüfung
LBTS-TC: Arbin’s Turnkey Battery Testing All-In-One Cell Testing with integrated test channels, temperature chambers, and cell holders. Precision: 100ppm measurement with industry-leading 24-bit resolution across four current ranges per test channel Turn-Key Solution, arrives fully integrated with channel and temperature cables interconnected from channel to MZTC Dynamic Temperature Setpoints managed […]
Honeywell und Arbin Instruments arbeiten zusammen, um die Herstellung von Lithium-Ionen-Batterien in großem Maßstab zu revolutionieren
Honeywell hat heute seine Battery Manufacturing Excellence Platform (MXP) für Hersteller von Lithium-Ionen-Batterien und Gigafactories durch eine Zusammenarbeit mit Arbin Instruments zur Integration eines fortschrittlichen autonomen Formationssystems erweitert.
Ambri wählt Batterietestgeräte von Arbin Instruments für die Erweiterung des Entwicklungslabors der nächsten Generation
Arbin Instruments, a leader in battery testing instrumentation, has been selected by Ambri to provide high current battery testing systems for its pilot manufacturing expansion. These systems will facilitate the development and commercialization of its revolutionary Liquid Metal™ batteries. Ambri’s next-generation batteries offer long-duration stationary energy storage for a variety […]
Vermeidung von BMS-Schäden bei einer plötzlichen Unterbrechung der Stromversorgung
Arbin Instruments bietet zwei Funktionen an, die, insbesondere wenn sie zusammen angewendet werden, die Risiken minimieren können, die mit dem plötzlichen Abklemmen einer Batterie mitten im Test verbunden sind.
Europas elektrische Expansion: Der Aufstieg der Gigafactories und Arbins Antwort
Als Teil unseres Ziels, diejenigen zu unterstützen, die die Batterieindustrie voranbringen, engagiert sich Arbin Instruments für die Batterieentwicklung in Europa. Arbin arbeitet daran, die steigende Nachfrage nach Batterieforschung und -produktion in zweierlei Hinsicht zu befriedigen: Cycler- und Datenmanagementlösungen für größere Betriebe und ein engagiertes, wachsendes Team von Arbin Europe.
Arbin CAN: BMS-zu-Tester Kommunikation mit Arbin's CAN-Bus-Fähigkeit
Mits Pro von Arbin verwendet das CAN-Bus-Protokoll, das das Senden und Empfangen von CAN-Nachrichten zwischen dem Batterietestgerät und dem Batteriemanagementsystem ermöglicht und die externe Steuerung des Arbin-Testers erlaubt.
Mit der Batterieindustrie in die Zukunft expandieren: Arbin blickt auf das Jahr 2022
Having celebrated 30 years in 2021, Arbin now prepares to look forward to 2022, continuing our mission to rise up to every challenge we come across. Arbin is committed to remaining at the forefront of battery technology, providing state-of-the-art battery test equipment to facilitate research. The battery industry has grown […]
Was in der Batterietechnologie auf uns zukommt
Battery technology is ever evolving as research and development into different materials, configurations, and designs bring new insights and breakthroughs. As the world moves towards green energy, Arbin’s battery test equipment is designed to help innovate for the battery needs of the future.