EVs in India: Technological Trends Shaping the Future

Imagine a world where cities are free from the deafening roar of combustion engines. Where the air is as fresh as the first-morning breeze, commutes are efficient, sustainable and safe. The dream is becoming a reality as more electric vehicles hit the roads in India, signalling a momentum towards vehicle electrification.
Government initiatives, technological advancements, and a changing mindset among consumers have driven this change. The government's ambitious Faster Adoption and Manufacturing of (Hybrid &) Electric Vehicles in India (FAME) scheme played an instrumental role in providing incentives and subsidies to manufacturers and buyers of EVs. It made EVs in India more affordable and accessible.
Also, with a target of achieving 30% electric mobility by 2030, the government is leaving no stone unturned. The aim is to aid EV adoption. These efforts instil confidence among consumers and industry players. They also lead to increased investment in EV infrastructure and technology development.
Let’s explore top technological trends and their potential impact on the country's electric vehicle landscape.
Top Technological Trends Shaping the Landscape on EVs in India
As the wheels of change are turning in India, the nation advances towards a more sustainable future with electric vehicles. The Indian electric vehicle market can grow at a compound annual growth rate (CAGR) of 94.4% from 2021 to 2030.

Here are the leading tech trends responsible for the change.

Lithium-ion Battery Continues to Advance
Lithium-ion battery uses lithium ions as essential components of their electrochemistry and power EVs. Keeping pace with the thriving EV industry, progress in battery technology is also increasing. With pivotal growth in faster charging, energy density, extended lifespan, and reduced costs, EVs in India will become more affordable and alluring to people.
Researchers are developing new materials and designs to expand the battery’s capacity to store energy. It can pave the way for smaller, lighter, and more efficient batteries for e-vehicles like electric scooters. With this aim, startups are designing graphite battery-run electric scooters.
They continue to seek ways to develop designs to increase the battery’s charge and discharge rates. It will allow batteries to charge faster without degrading performance. Many battery technology startups in India are at the forefront of developing batteries compatible with InstaCharge stations.
Some top electric scooters, such as the Lectrix EV, come with fast-charging features using the latest technologies.
Advancements in materials and design also extended battery life. As a result, it minimises frequent replacements and enhances durability. Moreover, researchers have been working to improve the safety of batteries. Their primary purpose is to reduce the risk of fires and other hazards.

Charging Infrastructure Expansion

Charging infrastructure is necessary for the growth and acceptance of the EV industry. The Ministry of Power declared at the EV India 2021 Expo that every 25 km on both sides of a highway should have at least one charging station. It includes one charging station for long-range and heavy-duty EVs every 100km on both sides of highways.
Further, the central government is preparing a blueprint to install 6,000 charging stations for EVs across nine expressways. Nationwide initiatives are in progress to set up charging stations at 22,000 out of the 70,000 petrol pumps for EVs.
Apart from drafting a strategy for improved e-vehicle charging infrastructure, the government of India is also working on different models for smart charging platforms. It aims to enable e-vehicles, charging stations and their operators to share data connections.
With this, the charging infrastructure will be more accessible. It will allow EV owners to readily charge vehicles in the coming years. The improved infrastructure will reduce the concern of electric scooters and car owners about the range. As a result, it will enable them to drive longer distances without stressing about running out of power.

Improved User Experience

With a better user experience while driving an electric vehicle, more users are attracted to purchasing an electric two-wheeler or a car. The electric vehicle is already offering a noise and vibration-free experience.
But the use of the Internet of Things (V2X) and artificial intelligence is leading to autonomy in driving. It means increasing the level of advanced driver-assistance systems (ADAS).
The technology will further improve the seamless user experience. ADAS will reduce driver efforts and prevent road accidents. The smart charging algorithms can determine the best time for charging, taking advantage of renewable energy availability and off-peak electricity rates.
AI-powered EVs will drive the EV market, aimed at boasting superior performance, efficiency and safety on the road. As more companies are heading toward self-driving cars with the help of cutting-edge deep learning technology, the potential of the EV industry is infinite.
With advancements in AI, you can expect to witness innovative applications, making an EV 2-wheeler and car more intelligent, safer, and efficient.
Load Balancing for Efficiency
Smart charging can also support load balancing as energy demands on the national grid increase with the sale of a two-wheeler electric vehicle and car. Load balancing is a booming technology trend to help distribute the at-hand capacity across active charging stations.
It also helps ensure optimal charging to all-electric vehicles at a given location within the charging stations’ capacity range. As a result, the charge point owners can balance the load and distribute the current between units. Load balancing technology is a dynamic, budget-friendly, and more sustainable way to send energy to each station.

Better Technology for EV Production

Improving battery technology will play a pivotal role in boosting the electric vehicle demand. Electric vehicle manufacturers must continue producing and improving their vehicles to roll out more models. They should apply quick and efficient strategies to meet the growing demand.
An efficient mass production model will also help to reduce prices by utilising economies of scale. Focusing on scaling up their original equipment manufacturers (OEMs) to increase e-scooty and car production, EV manufacturers can keep up with the demand.
Further, it will support mass adoption at lower prices, which will help to achieve cost parity against internal combustion engine vehicles (ICEVs).

Summing Up

The electric vehicles segment will dominate the automobile industry with innovative technology trends in the coming years. Battery tech will make electric two-wheeler and cars more inexpensive and convenient than petrol, diesel, or gas vehicles.
Further, rapid production technology will make electric scooty available for the masses by ensuring supply can keep up with rising demand. Different charging technologies, such as smart charging, will prepare the grid for more EVs and support the efficient energy transition. Also, growing infrastructure technologies will ensure EV charging is convenient for everyone, regardless of location.
If you want to be part of the growth and looking to buy the best electric scooter in India, consider getting the Lectrix electric scooter. The LXS model has the potential to cover 89* km with a single full charge using a 15 A fast charger.
Moreover, the Lectrix EV scooter comes with a user-friendly mobile app for seamless access to advanced features. It also has live location tracking for ensured safety and auto-indicators that light up for turn-by-turn navigation.
You can buy an electric scooter by Lectrix EV, from the nearest dealership showroom or book it online from the website. Leverage the provision for a free test ride at home with Lectrix in 3 easy steps and enjoy a silent and smooth commute experience.