Investing towards a brighter future - Kazamly
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Investing towards a brighter future — Kazamly!

The time is right for electric cars; in fact the time is critical — CG

Concerns about carbon dioxide emissions, greenhouse gas emissions, and the rapid depletion of fossil resources highlight the importance of developing and implementing innovative eco-friendly sustainable alternatives to internal combustion engine (ICE) powered cars.

As a result, EVs have become more prevalent over the previous decade, owing mostly to their minimal flue gas emissions and decreased reliance on oil. By 2022, it is anticipated that there will be over 35 million electric vehicles on the road worldwide.

However, a fundamental concern with EVs is that their widespread usage creates substantial problems for the power distribution grid, including deteriorating power quality, increased line damage, distribution transformer downturn, increased distortion, and increased fault current.

One effective way to mitigate the damage is to incorporate locally generated electricity, such as renewable energy sources (RESs), into the EV charging infrastructure.

Charging your Electric Vehicle: How do electric vehicle charging stations work?

Charging an electric car is a straightforward process: you just connect your vehicle to a charger that is linked to the grid. However, not all EV charging stations (affectionately referred to as EVSEs) are made equal. Some are simple to install by connecting them into a conventional wall outlet, while others need specialist installation. Charge times for your automobile will also vary depending on the charger you select.

Types of Electric Charging Stations:

Typically, EV chargers fall into one of three categories: Trickle charge, Alternating Current charge (AC), and Direct Current charge (DC).

Trickle Charging(Home Chargers): Level 1 charging cables are included with all new electric vehicles. This charging requires only a grounded (three-prong) 120V outlet and may add around 40 miles of range with an overnight charge of eight hours. Overnight Level 1 charging is appropriate for drivers of low- and medium-range plug-in hybrids and all-electric battery electric vehicles with infrequent daily travel.

AC Charging(Home & Public Chargers): Level 2 charging normally requires a charging device connected to a 240V circuit, similar to the one that powers a standard electric clothes dryer. The charging pace is determined by the vehicle’s acceptance rate and the available maximum current. A normal 30 amp circuit may add around 180 miles during an eight-hour charge. These are the most prevalent public charging stations and may be found in locations such as workplaces, grocery shops, and parking garages. Public Level 2 chargers use a regular EV connection connector, except for Teslas, which requires an adaptor.

DC Fast Charging(Public chargers): This level 3 charger is the quickest form of recharging currently available. It can normally add between 50 and 90 miles in 30 minutes, depending on the power capacity of the station and the manufacturer of the EV. DC fast chargers are particularly advantageous for longer travels, vehicles that are in use for most of the day (such as taxis), and drivers with restricted access to home charging. DC fast chargers come in three distinct plug configurations that are not compatible.

How long does it take for the battery to recharge?

The time required to recharge is dependent on two factors:

Each hour of charging, a Level 1 charger (120 volts) can replace approximately 4–5 miles of driving. Because plug-in hybrid vehicles typically have a range of 20–50 miles on electricity alone, even a completely drained battery may be recharged in eight hours.

Level 2 chargers are more efficient, providing around 15–25 miles of range per hour. These chargers are capable of fully charging the majority of long-range battery electric vehicles in eight hours.

Using a DC fast charger enables rapid recharging at public stations, extending the range by 50 to 170 miles in 30 minutes (depending on the power output of the station and vehicle capacity).

Charging an electric vehicle: The distinction between AC and DC.

In the world of electric mobility, two distinct electrical currents — AC (alternating current) and DC (direct current) — can be utilized to power an electric vehicle (EV) (direct current).

In electric mobility, There are two types of charging: Alternating current and Direct current.

When it comes to charging an EV, the primary distinction between AC and DC charging is the location of the conversion from AC to DC. Regardless of whether an EV is charged through AC or DC, the battery will only store DC energy.
When you use a DC charging station, the AC (from the grid) is converted to DC within the charging station, allowing DC power to flow directly from the station to the battery. Because the conversion occurs within the more spacious charging station and not within the EV, bigger converters may be employed to swiftly convert AC electricity from the grid. As a consequence, some DC stations can generate up to 350 kW of electricity and charge an electric vehicle completely in 15 minutes.

AC is used for the grid, whereas DC is used for the battery.

Both AC and DC are critical in the field of electric mobility. You obtain AC electricity from the grid, which is then converted to DC and stored in the battery of an electric vehicle. When charging with an AC station, the conversion to DC occurs within the EV using an internal charger, which is frequently restricted in capacity. When DC fast and ultra-quick charging stations are used, the conversion occurs externally to the EV, via a bigger converter.

The Best charging station around you?

India’s EVs suffer from a lack of charging infrastructure. To address the issue, the Indian government has made the business of EV charging stations available to anybody without requiring rigorous qualifying standards. If you’re looking to establish your own business installing EV charging stations in India, continue reading.

Kazam EV Charging Station:

Kazam provides you with the most fashionable, cost-effective, and dependable AC charger on the market. A 3.3 kW Internet of Things-enabled, SIM-based smart charger for your parking space. It makes it possible to charge electric automobiles (bikes, scooters and rickshaws, and cars). It is a waterproof, anti-theft smart charging station that allows EV owners to charge their vehicles while also earning money. Owners of electric vehicles may locate their chargers using Google Maps or the Kazam smartphone app.

Technical Specifications:

About Kazam:

Kazam was founded in 2020 with the objective of democratizing sustainable transport! No EV owner should have range anxiety when driving an EV. Individuals should always feel secure in the presence of regularised infrastructures. The founders’ pair possesses an exceptional combination of expertise in Startup companies, Global Businesses, and International Business.

Kazam, with offices in Gurugram, Mumbai, Pune, and Bangalore, enables you to have easily accessible charging stations. The AC Chargers are inexpensive, IoT-enabled, and ubiquitous. It caters to a variety of sectors and businesses, including manufacturing units, offices, workplaces, hotels, apartments, entertainment, and retail. The chargers are proudly built in-house by IITIans. A product manufactured in India for our eco-conscious Indian clientele. These chargers are compatible with all electric bikes, scooters, and quirky vehicles.

Need to know more?

Go ahead and explore, find your fit — how you can assist the country in becoming a better place to live. For more information like this, follow Kazam EV! We care for our pro EV shoppers and provide them with complete EV solutions. From range, financial aspect, space concerns to the battery and charging solutions. Book your appointment now! For additional information, visit Kazam EV at https://www.kazam.in/ or send us a message at our social handles Kazam EV, and we will get back to your kazamly!

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