The existing TWAICE battery lab has been efficiently and rapidly parameterizing models for automotive manufacturers, energy customers, and others for two years. These models are used in the development of battery-powered products. They are also part of the TWAICE platform, which enables customers from a wide range of industries to make the
Working in greater partnership with industry leaders, through climate tech we are innovating towards a common goal of zero emissions. Big decisions have long-term effects and the decision to pursue the transformation to a cleaner and greener battery powered world demands quality data and analytics to get it right.
TWAICE, a German battery analytics software company founded in 2018 which already counts Audi and Daimler as well as European energy utility companies amongst its customers, has raised US$26 million in a
The TWAICE battery research center empowers both our Cloud Analytics Platform and the TWAICE Battery Simulation Models. Optimal battery design & reduced testing. Our in-house labs enable us to parametrize our cell simulation models to your individual needs. Thanks to proprietary rapid-parameterization techniques, only a small number of cells is
Explore the fundamentals, growing demand, and advantages of sodium-ion battery technology, including TWAICE''s battery model, its potential applications in ESS and EVs, and its environmental and economic benefits.
Join our product webinar and learn what''s new with TWAICE Energy Analytics ๐ enhancing the performance and efficiency of batteries through advanced techniques and technologies like predictive battery analytics. This can include improving charge and discharge rates, increasing energy density, and extending battery life. Back to
TWAICE battery models use a coupled electric-thermal-aging model to ensure that the battery cell''s behavior is considered in the most holistic way possible. It can be considered a combination of an ECM (equivalent-circuit-model) and a physics-informed SE (semi-empirical) model.
The TWAICE Battery Analytics Platform is a convergence of deep battery knowledge, artificial intelligence (AI), scalable cloud software, and real-life battery data. It creates a single source of truth for how batteries should be effectively developed and
Das in München ansässige Unternehmen TWAICE Analytik hat seine neue Batteriemodellbibliothek vorgestellt. Die Bibliothek enthält zahlreiche Zellen unterschiedlicher Chemieprozesse und Formate. Die European Battery Alliance setzt sich für einen sichereren Verkehr, sauberere Fahrzeuge und nachhaltigere technische Lösungen ein.
Für die Battery Quick Check nutzen die Experten von TWAICE und TÜV Rheinland das On-Board-Diagnose-System (OBD) des Fahrzeugs mit der OBD2-Schnittstelle. Der Name "Quick Check" ist dabei Programm: In rund 60 Minuten kann das qualifizierte Werkstattpersonal alle relevanten Daten über die Schnittstelle auslesen.
TWAICE battery health analytics provides accurate, reliable and continuous battery health information at scale โ meaning operators and OEMs have the insights they need to manage electric vehicle fleets with confidence. Save
The TWAICE Vision Summit is a conference about the importance of software in a battery-powered future. Speakers from leading companies in the electric vehicle, energy and battery industries discussed its challenges. Our report highlights the main findings of the conference.
TWAICE''s battery analytics software accelerates the transition to electrification by optimizing batteries in electric vehicles and other utilizations. The laboratory creates the urgently required capacity increase to meet the rapid rise in customer demand. Fitted out with cutting-edge test equipment, the laboratory is already in use for
It is generally defined as the ratio of the current capacity to the initial capacity. SoH is generally defined with capacities (SOHc). However, SoH can also be defined in terms of resistance increase (SOHr) or it can be based on the available energy compared to the initial energy (SOHe). It is also seen that SoH is sometimes scaled between 0 and 1, where 1 is a new cell and 0 is
Alexander Karger is a battery and machine learning engineer at TWAICE, where he works on developing cutting-edge battery models for the electric, thermal, and aging behavior. At the same time, he pursues a Ph.D. at the Chair of
TWAICE-Batteriemodelle verwenden ein gekoppeltes elektrisch-thermisches Alterungsmodell, um sicherzustellen, dass das Verhalten der Batteriezelle so ganzheitlich wie möglich betrachtet wird. Es kann als eine Kombination aus einem ECM (equivalent-circuit-model) und einem physikalisch informierten SE (semi-empirical) Modell betrachtet werden.
The TWAICE Battery Analytics Platform is a convergence of deep battery knowledge, artificial intelligence (AI), scalable cloud software, and real-life battery data. It creates a single source of truth for how batteries should be effectively
Dr. Jonas Böhm is VP Mobility Americas at TWAICE, the leading battery analytics software. He is focused on unlocking the battery-powered future for everyone by working deeply with customers and partners in the mobility sector. Next to
Create battery energy storage systems that fulfil the needs of customers. Develop suitable storage systems that can be sold at competitive prices, and support customers in gaining the maximum value out of their storage systems by providing key battery health and performance insights throughout the battery''s lifetime.
Battery monitoring involves continuously checking the status and performance of a battery. Effective monitoring helps identify potential issues early and ensures optimal operation. Back to encyclopedia. Smarter decision makers. Product Webinar:
Version 8 of the TWAICE battery model comes with two major updates to the virtual battery tester and the thermal model. Now, you can set up simulation studies with a resting phase and set up scenarios that require a configurable heat transfer between the cell and outside temperature. TWAICE / Jan 26, 2023.
Dr. Jonas Keil is the Technical Lead of Battery Analytics at TWAICE. He leads the research & development of battery modeling and data-driven battery algorithms that provide actionable insights into the health, safety & performance of batteries. Before he joined TWAICE in 2020, he was a Research Associate at the Institute for Electrical Energy
Have peace of mind when managing e-vehicle fleets with TWAICE safety & reliability analytics. Access an overview of the status of all batteries and receive early alerts in case of possible incidents including clear action recommendations.
