Speed up gigafactory construction and reduce ramp-up time for battery manufacturing by standardizing your automated and power systems and machine interfaces. Open standards aid line integration and enhance power availability.
Address high raw material costs and tight margins by reducing scrap rates to ensure profitability. Innovate to boost battery performance while scaling production and lowering your carbon footprint under market pressure.
Take batteries to market faster with effective collaboration across the complete battery lifecycle. Use IoT and automation to rapidly correct errors and adjust your battery production process on the fly.
Leverage accurate virtual models, reusable libraries, relevant research, production data, and battery materials to continuously improve quality, process efficiency, and battery designs.
Digitalize and automate battery development, production and gigafactory operations to manage large amounts of data. Use that data to design battery cells, optimize new production plants and use raw materials efficiently.
Stand out from the competition by contributing to social and environmental efforts – upscaled safety for your personnel, optimized energy management, established traceability and transparency – generating value for your company.
Implement a comprehensive fire safety concept for battery production to protect the process, machinery, people and the building.
Build high-performance battery cell assembly machines with high-end automation hardware, safety concepts, simulation software and migration support.
Track a battery’s lifecycle and get information about its composition, manufacturing, performance and environmental impact.
Power quality is crucial in sensitive battery manufacturing, directly impacting product quality, efficiency, and data integrity.
Use advanced Microgrid Control Solutions to orchestrate various on-site energy systems to meet sustainability goals.
Precisely maintain and control environmental conditions during battery manufacturing to minimize product contamination risks.
Adopt an integrated, model-based process to rapidly develop batteries that meet quality and performance expectations. Seamlessly integrate chemistry, cell design, electrical, electronics, mechanical, and software domains.
Design, develop and manufacture battery machines more efficiently and effectively. Enhance workflows, connect teams and synchronize systems with digital, advanced machine engineering tools.
Produce battery cells, modules and packs that meet quality, throughput, cost and sustainability targets. Adopt a virtually developed, integrated and intelligent battery production process.
Explore battery materials including lithium, graphite and cathode technologies that power electric vehicles, energy storage and nextgen batteries. Develop, produce and recycle high-quality, sustainable battery materials.
Realize the full potential of efficient, reliable, safe and sustainable battery manufacturing, and stay on top of a challenging market with a holistic approach.
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As demand for next-generation batteries grows exponentially, battery development businesses must quickly design and engineer innovative cells, modules and packs that exceed targets while scaling up production. Discover how an accurate virtual representation of your entire battery development process enables cross-domain collaboration, model-based development and integrated software design.