Lauritz Knudsen Expands into Green Energy and EV Charging to Power the Future of Smart Homes & Mobility

India’s power sector is no longer changing at the margins. Policy targets, infrastructure investment, and consumer behaviour are all shifting in the same direction. With a national goal of 500 gigawatts of renewable energy capacity by 2030, energy planning is moving beyond generation alone. Distribution, storage, monitoring, and end-use are now part of the same conversation.

Within this transition, Lauritz Knudsen Electrical & Automation has begun widening its role, moving from conventional electrical manufacturing into green energy, EV charging, and integrated solutions for homes and mobility.

India’s Renewable Ambition and What It Means on the Ground

India’s renewable energy target is already influencing design decisions across sectors. Electrical systems are now expected to accommodate solar, wind, and storage alongside conventional supply. Variability is no longer an exception. It is a design condition that infrastructure must absorb.

The traditional idea of electricity as a one-way flow is fading. Monitoring, automation, and response are becoming essential. This shift is pushing companies to rethink how electrical systems behave once they are installed, not just how they perform at the point of supply.

Lauritz Knudsen’s Shift within Electrical & Automation

When Schneider Electric acquired L&T Switchgear in 2020 and rebranded it as Lauritz Knudsen Electrical & Automation, the change went beyond naming. Lauritz Knudsen Electrical & Automation gradually began addressing system-level challenges rather than focusing only on individual products.

Sustainable Electrical Solutions as a Direction

This repositioning brought sustainable electrical solutions into sharper focus. Electrical infrastructure today is expected to support renewable integration, energy measurement, and long-term efficiency, especially in sectors experiencing rapid change.

EV Charging as Energy Infrastructure

Electric vehicles alter how electricity is consumed. Charging does not happen randomly. It follows human routines. Lauritz Knudsen EV charging is therefore being approached as part of energy planning rather than a separate mobility add-on.

By aligning Lauritz Knudsen EV charging with smart mobility products, charging systems are being developed alongside automation and load management. This reflects the reality that mobility infrastructure increasingly affects residential and commercial power systems.

Investment Anchoring the Strategy

Lauritz Knudsen’s ₹850 crore investment is directed toward manufacturing plants, R&D labs, and automation lines in India. The aim is not just output expansion but readiness for smart homes energy solutions that evolve over time.

These investments align with Schneider Electric’s global capacity expansion. Locally, the emphasis remains on sustainable electrical solutions that can support solar, wind, battery energy storage, and emerging technologies such as green hydrogen.

Manufacturing and R&D as Enablers 

Manufacturing facilities in Vadodara, Ahmednagar, and Coimbatore form the production base. These locations are supported by testing and development teams that allow adaptation as electrical requirements change.

An R&D centre in Navi Mumbai plays a key role in system integration. This capability supports the development of green energy solutions for smart homes, where coordination between components matters as much as individual performance.

Smart Homes Moving Beyond Automation

Homes are no longer passive energy consumers. Rooftop solar, EV chargers, and energy tracking tools are changing how households interact with electricity. Lauritz Knudsen smart homes are being shaped around this more active role.

Through smart home energy systems, homeowners gain visibility into usage patterns rather than relying only on fixed routines. These systems support awareness and adjustment, not just automation.

Green Energy Solutions for Smart Homes

Adding renewable generation at home introduces complexity. Green energy solutions for smart homes focus on aligning generation, consumption, and storage readiness so that systems work together rather than in isolation.

By combining automation and monitoring, green energy solutions for smart homes operate alongside smart home energy systems. This integration helps smooth demand and reduces dependence on conventional power during peak periods.

Smart Mobility Products and Energy Behaviour

Electric mobility affects when and how electricity is used. Charging behaviour influences peak demand, especially in residential clusters and urban developments.

Lauritz Knudsen’s smart mobility products are designed to integrate with automation and energy management platforms. This reflects the growing overlap between mobility infrastructure and power distribution.

Home Automation as an Efficiency Layer

Once associated mainly with comfort, home automation is increasingly tied to efficiency. Automated responses to usage and availability can reduce unnecessary consumption without disrupting daily routines.

Through integrated home automation, Lauritz Knudsen smart homes balance convenience with energy discipline. Automation becomes part of managing energy flow rather than a separate lifestyle feature.

Alignment with National Energy Goals

India’s renewable targets require coordinated responses across generation, distribution, and consumption. Lauritz Knudsen’s work in sustainable energy solutions, Lauritz Knudsen EV charging, and smart home energy systems aligns with this broader direction.

By broadening the role of Lauritz Knudsen Electrical & Automation, the company positions itself at the intersection of energy management, automation, and mobility.

Also Read: Innovative Smart Electrical Solutions for Homes & Offices

In the End

Lauritz Knudsen’s expansion into green energy and EV charging reflects a move away from standalone products toward integrated systems. The focus on sustainable electrical solutions, green energy solutions for smart homes, and smart mobility products points to long-term system thinking.

As homes become energy-aware and mobility becomes electric, the boundaries between infrastructure and daily life continue to blur. Companies that adapt to this overlap early are likely to shape how the energy transition works in real settings.

FAQs

Q1. Why are companies moving toward system-level electrical planning instead of standalone products?

Ans. Standalone products work well in stable environments, but modern energy use is rarely stable. Fluctuating renewable input, variable demand, and new loads such as EV chargers require systems that can adapt. System-level planning allows changes to be absorbed gradually rather than forcing frequent redesigns or replacements.

Q2. Does this shift make electrical installations more complex for end users?

Ans. From the user’s perspective, systems often become simpler, not more complex. The added intelligence happens behind the scenes. Complexity is handled during design and configuration, while everyday use remains straightforward. Over time, this approach reduces confusion by making energy behaviour more predictable.

Q3. How does integrated energy planning affect maintenance over the years?

Ans. Integrated systems tend to reveal issues earlier through monitoring rather than failure. This changes maintenance from reactive to preventive. Instead of responding to breakdowns, attention shifts toward gradual adjustments, inspections, and updates, which often results in fewer disruptions across the lifespan of the installation.

Q4. What changes when energy measurement becomes part of electrical design?

Ans. Once energy measurement is included, decisions are no longer based on estimates. Actual usage patterns become visible. This often leads to small behavioural or operational changes that reduce waste. Over time, these incremental adjustments can have a larger impact than major one-time upgrades.

Q5. Why is flexibility becoming more important than capacity in electrical systems?

Ans. Capacity addresses current demand, but flexibility determines how well a system handles change. Energy sources, usage patterns, and regulations continue to evolve. Systems designed with flexibility can adapt without major restructuring, which makes them more practical in environments where long-term certainty is limited.