“Energy is the currency of change. With AI, we are minting a new future.”

Energy: The New Currency, AI the Key to Its Vault

In a world increasingly driven by sustainable solutions, energy has emerged as the new gold, copper, silver, and coal—a fundamental currency of our times. Just as lithium is the “white gold” of today’s batteries, energy storage is poised to become the cornerstone of our future economy. The race is to reduce storage costs and enhance efficiency, with Artificial Intelligence (AI) leading the charge, and the discharge of Lithium-ion batteries is the most important area to work on.

While the lithium battery landscape buzzes with innovations like sand and water technologies, the core principle of anode and cathode remains. However, the future lies in optimizing these fundamentals through AI-driven intelligence. Imagine a world where AI-powered Lithium Energy Storage Systems and Battery Management Systems (BMS) intelligently manage battery life, extending it significantly. This isn’t science fiction; it’s the vision Su-vastika is bringing to life. As it’s a known fact that the algorithm while charging the lithium-on battery plays a significant role, and the inverter mode for discharging is also controlled for the temperature and discharge current, the new life of the lithium battery is given. The Lithium battery parameters while charging and discharging for a particular ambient temperature are critical to control to increase the life of the Lithium-ion battery.

Wall mounted AI based BMS Lithium battery

Su-vastika’s AI-Driven Vision: Pioneering the Future of Energy Storage

We are at the forefront of this revolution under the visionary leadership of Kunwer Sachdev, the founder of Su-kam and the technical architect of Su-vastika. Our focus is on:

• AI-Optimized Solar Storage and Lithium Inverter/UPS: Grid-tied systems that dynamically adjust charging strategies based on real-time battery analytics, minimizing degradation and maximizing lifespan. The charger plays a major role in charging lithium-ion batteries, getting the charger parameters through the BMS, and acting on that information through the lithium inverter/UPS, which becomes the breakthrough. At Su-vastika, we have already integrated the AI-based BMS into the lithium inverter/UPS/ESS. We are working on AI-based methods to control all these hardware and software automatically based on the real-time data so that there is no need for human intervention. It increases the life of lithium-ion batteries and keeps them safe and secure for future accidents or incidents. https://suvastika.com/latest-ai-based-lithium-inverter-for-storage-application/ 
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• AI based BMS (Battery Management Systems): AI algorithms that predict and prevent battery degradation, extending lifespan by an estimated 20–30% while maintaining peak efficiency. https://suvastika.com/installation-of-ai-based-bms-with-lithium-ion-battery/
• Comprehensive App Ecosystem: With over 15 Android and iOS applications—the most extensive in the energy storage sector—we offer unparalleled real-time solar and grid monitoring and control. These apps are continuously updated as per the system upgradation. We have designed individual app for each category of products like Internal Lithium Battery ESS, Solar hybrid PCU, UPS based on ATC, Su-vastika Heavy dutyUPS, Online UPS, ESS 3 phase as all the apps are very different and it’ easy for the user to download these applications from the Android and IOS store.
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• Adaptive charging: AI analysis of battery voltage during both charging and discharging reduces the charging current as the battery backup diminishes, and the battery cut-off is shifted to a lower voltage. This minimizes anode decay. Once the life of Anode and Cathode is increased because of the Charging and discharging algorithm of the Inverter, UPS and Solar storage solutions which is very much possible as in the storage backup system the charger and discharger is working through one MCU and if the AI based BMS is talking to them about the battery parameters then the innovation and decoding the code is very much possible.

Why This Matters: Transforming Energy Storage

• Significant Cost Savings: Extended battery lifespans translate to fewer replacements and lower long-term costs. Once the AI-based Charging algorithm is achieved, we can charge the battery faster and increase its lifespan and charging cost.
• Enhanced Sustainability: Reduced demand for lithium mining and decreased e-waste contribute to a greener planet.
• Increased Resilience: Reliable and efficient energy storage empowers homes, industries, and off-grid communities.

The Road Ahead: AI-Powered Efficiency

While the industry explores novel battery chemistries, Su-vastika is committed to maximizing the potential of existing technologies through AI. By 2030, we aim to:

• Reduce Energy Storage Costs: Through adaptive charging and intelligent management. If we store the energy in to the Lithium battery bank compared to Tubular Lead Acid battery bank there is a major savings in charging as the Lead Acid battery technology is an old technology and has lot of charging in efficiency and the Lithium there is a minimum saving is 30 to 40% which can quickly go up to 50%. So much pollution can be saved by replacing the Lithium-ion baterries.
• Double Battery Lifespan: Through predictive maintenance and optimized charging and discharging cycles, the Lithium-ion battery life can easily be doubled, which will save the planet many resources.

Join the Energy Revolution: Experience the Future Today

Discover Su-vastika’s AI-powered energy storage solutions by exploring our Android Play Store and Apple App Store applications. Connect with us to explore partnership opportunities and be part of the energy revolution.

“The future of energy isn’t just about storing power—it’s about storing it wisely.” – Kunwwer Sachdev, Founder & Technical Lead, Su-vastika