The global shortage of semiconductors or chips in the aftermath of the Covid-19 led pandemic has eased as per a report by Crisil. A development that led most automakers to cut down production significantly and postpone the launch of new models or to put them to production through 2020, 2021, 2022 and a good part of 2023 has finally eased to iron out any supply chain disruptions that may be there. 

Expected to address and improve predictive demand forecast, the better availability of chips should enable better production schedules. By FY2025-26, Crisil analysts are of the opinion that demand-supply dynamics should be more balance with additional manufacturing capacities getting commissioned. 

With the chips possessing distinct electrical properties that make them the cornerstone of all electronic equipment and devices, it is the auto industry that has come to use them for a variety of functions as automobiles turn increasingly software driven. While the computer and communication equipment (C&C) segment consumes roughly 63 percent of the chips produced, the auto industry consumes roughly 13 percent of them. The other industrial segments consume about 12 percent. 

With new developments such as autonomous and EVs, the use of semiconductors in automobiles is only slated to rise. With passenger vehicles the recipient of most technological innovations ahead of other segments such as two-wheelers, three-wheelers and commercial vehicles, it should not come as a surprise that they consume about 1,500 chips on average – the highest among all automobile types. 

As more advanced electronic features are incorporated, the use for chips increases. The electric passenger vehicles, for example, use almost twice as many chips as internal combustion engine (ICE) passenger vehicles do. The improving supply and slowing demand for computers and mobile phones is therefore looked upon as a blessing in disguise for automobiles and their manufacturers. 

Anuj Sethi, Senior Director, CRISIL Ratings, mentioned, “The chip shortage faced by Indian passenger vehicle makers is easing, with current availability at 85-90 percent of total requirement. The production loss on account of the chip shortage, which had halved to about 300,000 PVs on-year in fiscal 2023, is estimated to have further declined to under 200,000 PVs by the end of September 2023.”

Most passenger vehicle manufacturers are currently operating at near optimal capacity utilisation due to stronger-than-anticipated demand. New orders to be serviced remains high at about 700,000 units at the end of September 2023. 

The easing of chip shortage should help automakers honour new orders with better prediction and faster production. Global automobile demand, severely impacted by the Covid-19 pandemic, made a strong recovery in the latter part of FY2021-22. It caught automobile manufacturers off guard as they had not placed substantial orders for chips. 

The surge in demand for personal computers, laptops and mobile phones, driven by work from home, virtual learning and remote healthcare services, led to a significant chip procurement challenge for the automakers. 

Geographically, the chip ecosystem is skewed, with western nations dominating chip architecture, design, manufacturing equipment, specialised materials and chemicals. Semiconductor fabs1 on the other hand are concentrated in eastern nations, such as Taiwan and South Korea.

Given the criticality of chips in the defense and aerospace industries, the United States and the European Union have offered incentives of about USD 100 billion for localisation of semiconductor fabs. As a result, many global players are slated to spend about USD 360 billion towards setting up new facilities, which would be operational by 2025 and 2026. 

In the Indian context, demand for chips will continue to increase over the medium term, driven by the gradual rise in EV adoption and growing demand for advanced feature-laden ICE vehicles.

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Recyclekaro, an e-waste and lithium-ion battery recycling firm, has been cleared for eligibility under the Incentive Scheme for Promotion of Critical Mineral Recycling. The scheme is administered by the Ministry of Mines under the National Critical Minerals Mission.

The company has committed an investment of approximately INR 3 billion to expand its operations. This brownfield expansion aims to increase total processing capacity to 50,000 metric tonnes.

Its targeted waste streams for mineral recovery include spent lithium-ion batteries, electronic circuit e-waste, rare earth magnets and spent catalytic converters.

The project is designed to increase the domestic recovery of lithium and rare earth elements, reducing reliance on mineral imports for the electric mobility and renewable energy sectors.

Recyclekaro plans to invest over INR 5 billion over the next five years into a research and development facility. This centre will focus on technologies for the recovery of rare earth and critical minerals. The objective of the expansion is to align with national resource security and circular economy targets.

Rajesh Gupta, Founder and Managing Director, Recyclekaro, said, “We are proud to have secured eligibility under the Government of India’s Critical Mineral Recycling Incentive Scheme and sincerely commend the Ministry of Mines for instituting a visionary and robust framework under the National Critical Minerals Mission. This marks a decisive step toward strengthening India’s energy security that relies on securing critical minerals domestically. This will support India’s net zero goals. Over the past 15 years, we have built world-class in-house technologies, conducted thousands of pilot-scale experiments, and are now investing over INR 5 billion next 5 years in our newly developed R&D facility. It is going to be amongst the biggest privately owned facilities in India dedicated to rare earth and critical mineral recovery. At Recyclekaro, we remain deeply committed to this national movement and invite researchers, innovators, and technology partners to collaborate in accelerating India’s clean energy and circular economy transition.”

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Kochi-headquartered deep-tech company RoshAi has raised INR 220 million in funding, which was led by IAN Alpha Fund, part of the IAN Group.

The capital is designated for product development, expansion of deployments and scaling operations across international industrial markets.

RoshAi develops autonomy solutions that can be retrofitted to existing heavy vehicles in sectors such as ports, mining and logistics. This approach allows operators to implement driverless operations without the requirement for new fleet investments.

The technology stack comprises three primary components:

Retrofit Hardware: Physical kits to enable autonomous control of conventional vehicles.

In-Vehicle Autonomy System: AI-powered software and sensors for navigation and obstacle detection.

Cloud-Based Fleet Management: A platform for remote monitoring and operational coordination.

The company reports that its systems have completed over 100,000 km of testing with no safety incidents.

The global industrial autonomous vehicle market is projected to reach USD 162.8 billion by 2030, up from USD 47.6 billion in 2024. RoshAi aims to capture this growth by targeting the United States, Australia and Southeast Asia. It currently collaborates with Tier 1 original equipment manufacturers (OEMs) and industrial operators on pilot projects.

Sarika Saxena, Managing Partner, IAN Alpha Fund, said, “RoshAi is solving industrial autonomy through a retrofit-first approach, enabling operators to upgrade existing fleets rather than invest in new infrastructure. With strong early validation, repeat customer engagement, and a scalable autonomy platform, the company is well-positioned to build a globally relevant deep-tech business from India.”

Roshy John, Founder & CEO, RoshAi, added, “Our focus is to make industrial operations safer and more efficient by enabling existing fleets to operate autonomously. This investment allows us to accelerate product development, scale deployments across global markets, and continue building a robust autonomy platform for industrial use cases. We are glad to have IAN’s support as we move into this next phase.”

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Yuma Energy, a battery-as-a-service (BaaS) and infrastructure provider, has partnered with Quantum Energy, an Indian electric two-wheeler manufacturer. The collaboration enables battery swapping compatibility for the Quantum Bziness, an electric scooter designed for commercial and last-mile mobility applications.

The partnership aims to address vehicle downtime by integrating Quantum’s vehicle engineering with Yuma’s energy network. Yuma Energy reports a network uptime of 99.9 percent, allowing users to exchange depleted batteries for charged units.

The collaboration will focus on fleet operators, businesses and independent commercial riders. The aim is to maximise vehicle uptime by removing the requirement for stationary charging.

The collaboration is intended to lower operational costs and environmental impact for commercial EV users. By providing a scalable energy infrastructure, the companies seek to remove barriers to adoption in the high-utilisation transport segment.

Muthu Subramanian, MD & GM, Yuma Energy, said, "Electric mobility must work for the people who depend on their vehicles every day. Our partnership with Quantum Energy ensures that riders using the Quantum Bziness can operate without interruptions. By making battery swapping as fast and simple as refuelling, we are enabling productivity, improving earnings potential, and accelerating India’s transition to sustainable mobility."

Chakravarthi C, Managing Director, Quantum Energy, added, "At Quantum Energy, we design and manufacture vehicles that solve real mobility challenges. Integrating Yuma’s battery swapping solution with the Quantum Bziness enhances convenience and operational efficiency for commercial users, reinforcing our commitment to delivering practical and scalable EV solutions."

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The BMW Group has entered into a cooperation with Croatia’s Rimac Technology to equip the new all‑electric BMW i7 with advanced battery systems. This collaboration focuses on integrating BMW’s in‑house developed Gen6 technology into the flagship electric sedan, aiming to deliver superior range and faster charging capabilities.

At the heart of this project is the Gen6 lithium‑ion cylindrical cell, specifically the 4695 format, which offers a 20 percent higher volumetric energy density than the prismatic cells used in the previous Gen5 system. By combining the Gen6 cell technology with the established Gen5 module design, the high‑voltage battery enables a significantly increased driving range for the BMW i7. Additionally, the new setup boosts charging capacity and cuts charging time, greatly benefiting customers. The world premiere of this model is scheduled for 22 April at Auto China 2026 in Beijing.

Rimac Technology, a Tier 1 supplier within the Rimac Group, produces these high‑voltage batteries using state‑of‑the‑art equipment at its Croatian facility. The batteries are then delivered ready for assembly to the BMW Group Plant Dingolfing, the sole production site for the BMW 7 Series. Known for its in‑house development of battery systems, e‑axles, electronics and software, Rimac offers highly customisable electrification solutions. This long‑term partnership with BMW marks Rimac’s evolution from a niche supercar supplier to a Tier 1 provider for high‑volume vehicle projects.

Dr Thomas Engelhardt, Senior VP Development High-Voltage Storage and Charging, BMW Group, said, "We are quickly rolling out the technologies of the Neue Klasse across our entire model portfolio – including, of course, in our all-electric luxury sedan. The teams of both companies have developed a tailor-made solution for the new BMW i7. The excellent collaboration with Rimac Technology is a good example of European innovative strength."

Mate Rimac, Founder and President, Rimac Group, CEO and CTO Bugatti Rimac, said, “BMW has always been known for pushing engineering to the highest level, which made this collaboration especially exciting for us. Together, we developed a high-voltage battery system that unlocks the full potential of the new cylindrical cells in record time, delivering significant improvements in energy, range and charging performance. We are proud to now see this system being produced at scale at our new Rimac Campus.”

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