• Explore a

    Greener Future

    Discover how we at Omni Shell can help change the world for the better.

  • The new

    Electric Charging Networks

    Reducing the usage of fossil fuels means a greener planet for all.

  • The new

    Lithium Supplies

    Working on new AI Technology to aid in a better, greener future. 

  • The new

    Smart Battery Management

    Optimising the future of electric cars.

  • Recycle Battery Material

    Made from recycled materials to reduce waste.

Omni Shell Limited is located in Canada with ISIN # CA68218K1003 and Cusip #68218K100 for the purpose of establishing its AI and electric vehicle technology.

According to the first test results, up to 30 percent more energy would be available for charging electric vehicles with the help of the AI-based DLM. As a result, the number of charging points at a location without grid expansion can be almost doubled. The pilot project should help to continuously refine the forecasts of the AI.

In view of the expansion of charging points for electric cars, optimized power control is important for integration into the overall system.

Almost twice as many charging points without grid expansion.

One of the primary roles of AI in electric vehicle technology is optimizing energy efficiency. The AI algorithms analyze large amounts of data from sensors, batteries, and other vehicle components to make real-time adjustments and improve energy consumption. Omni Shell have developed an AI system with the University of NUST.

One of the AI features includes, if consumption in the office building drops, the power for the charging points increases. In this way, additional costs for peak loads and overloading of the grid connection are avoided.

The charging current is distributed among the charging points according to certain rules. Possible concepts so far are “first come, first served”, “VIP charging” or “fair share” to distribute the available energy evenly to all vehicles. The AI should now optimize this distribution.

Loading should be automated and habit-oriented. The artificial intelligence independently determines the usual departure and waiting times of the electric cars. To do this, it uses historical data as soon as the respective vehicle is connected to the charging station. Based on this data, the DLM system determines the prioritization of the charging processes of all connected vehicles. This is to ensure that every e-car is charged on time for departure. The automatism of the AI-based DLM is an important advantage over conventional systems, writes Omni Shell. Experience has shown that the willingness of customers to enter idle times manually is very low. “In order to meet the needs of customers and to adapt the charging processes to their habits, further developments and optimizations of the system are necessary. This is where artificial intelligence can play a crucial role in the near future,” says Mr. K.M. Malek, Managing Director at Omni Shell Innovation.

Who Are We?

Omni Shell provides the world’s first hybrid charge solution that offers sophisticated smart light-charge-surveillance-swap features, powered by both self-sustaining and existing energy sources accelerating the adoption of electric vehicles, and the shift towards a carbon neutral economy. We spark the change with clean energy.

Our Solutions

Light AC Series

Connector Type: Type 2 J1772 Connector

OCA Compliance: OCCP 2.0 Power Output: 7kW – 22 kW

Estimated PHEV Charge Time from Empty: 1-2 hours

Estimated BEV (L3e) Charge Time from Empty: 3 – 7 hours (1-2 hours)

Estimated Electric Range per Hour of Charging: 25 – 40 km

Command Suite: Kloutsuite SL 1.0

Array 6 Series

Connector Type: Proprietary connector (Honda/Yamaha/KTM/Piaggio/QM)

SBMC Compliance: BMS 1.0 Power Output: 1.2kW per pack

Estimated L3e Swap Time from Empty: 1 minute

Estimated Electric Range per pair swap: 100 km

Special Feature: Reserved 4KW (2+2) to power street light in emergency

Command Suite: Kloutsuite BMS 1.0

Array 3 Series

Connector Type: Contactless Proximity

Wireless Compliance: SAE J2954

Power Output: Up to 1KW Stationary

Estimated PHEV Charge Time from Empty: TBC

Estimated BEV (L3e) Charge Time from Empty: 2 Hour

Estimated Electric Range per Hour of Charging: 40 – 50 km

Command Suite: Kloutsuite SL 1.0

Command Suite

OmniShell Command Suite
Chargestation Simulators
OCPP Backend
Chargestation Management
Driver Management
Simple Rates
Realtime Webhooks

Benefits of Lithium Ion Batteries

Lithium-ion batteries have many advantages in terms of safety and functionality compared to other batteries such as lead-acid batteries. The key benefits include:

1 Lithium-ion batteries are smaller and more powerful than other batteries.

2 Lithium-ion batteries stand up well to repeated charging and discharging.

3 Lithium-ion batteries can be fast-charging.

4 Lithium-ion batteries support wireless charging.

5 Lithium-ion batteries are resistant to natural discharge (self-discharge).

Small yet powerful
Fast charging Possible
Do not self-discharge
Stand up well to repeated charging and discharging
Supports wireless charging

Application for Lithium-Ion Batteries used in our everyday lives

Applications for Lithium-Ion Batteries used in industrial fields

What is the future of the Lithium Battery market?

Lithium-ion batteries (LIBs) are now ubiquitous in daily life, in increasingly diverse applications including electric cars, power tools, medical devices, smart watches, drones, satellites, and utility-scale storage etc. In the future, as people’s demand for clean energy continues to increase, lithium-ion batteries will be more widely used in new energy fields such as solar and wind power. In addition, with the advancement of technology and the continuous improvement of lithium-ion battery technology, the energy density, safety, cycle life, cost and other aspects of lithium-ion batteries will be improved. Future lithium-ion batteries will be lighter, smaller, more portable, efficient, and their application range will be even wider. They are one of the main development directions in the field of energy storage and conversion in the future.

Equipment needed to assemble a Lithium Battery Pack

The main equipments of cylindrical battery pack assembly line include battery formation and grading system, battery insulation paper sticking machine, battery sorter, CCD tester, battery pack spot welder, bms tester, comprehensive tester, heat shrink wrap machine, inkjet batch coding machine, battery pack tester.

Option 1- Semi-automatic cylindrical battery pack assembly line

Option 2- Full-automatic cylindrical battery pack assembly line

OmniShell customers grow their revenue while combating climate change.

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