Discover HyperSwap

HyperSwap is the most advanced & affordable Battery Swap system for Electric Vehicles.

Engineered for high-mileage fleet operators, to reduce dramatically the TCO (Total Cost of Ownership), and it’s open to all EV manufacturers.

It’s simply the most affordable way to move billions of people and goods using renewable energy.

Advantages

Lower cost for buyers

The cost of purchase is reduced by excluding the battery. Providing the Battery as a Service (BaaS) is also a good business model for energy partners

World 1st Multi standard

More battery pack sizes for different electric vehicles

~3X battery lifespan

By charging at the right temperature and speed, the battery pack last up to 3X longer compared to Fast Charging

How does the HyperSwap work?

The principles of battery swap technology are simple: a fully charged battery is removed from the vehicle, and replaced with an empty one. The battery swap process takes approximately three minutes. The empty battery is then transported to an on-site charging station where it is charged for the next use.

The battery swap station is connected to the grid, and it can be used as a power source for the grid during peak hours.

The battery swap station has been designed to be a highly automated, compact, and safe system. The system is designed to accommodate various types of batteries and to be easily replicated in other locations.

There are the 8 steps:

  1. Positioning and alignment of the vehicle with the HyperSwap platform
  2. Alignment of the mechanical system below the vehicle
  3. Unlocking and release of the empty battery from the vehicle
  4. Bring the empty battery to the HyperSwap station
  5. Replacement of the battery on the HyperSwap station
  6. Re-positioning and locking of the new battery on the vehicle
  7. System check of high voltage, and removing the vehicle from the platform
  8. Removing the mechanism for the swapping

EV fleets upgrade

Existing electric vehicles can be upgraded to use our HyperSwap system. Our team can provide the pre-feasibility study, feasibility study, engineering & installation of the space frame, engineering of the battery pack, system update, support in the manufacturing line.

Existing electric vehicles can be upgraded to use our HyperSwap system. Our team can provide the pre-feasibility study, feasibility study, engineering & installation of the space frame, engineering of the battery pack, system update, support in the manufacturing line.

Problem

Electric Vehicles for MaaS & Logistics application have 3 main problems:

1. Total Cost of Ownership (TCO)

M

Battery cost, life, warranty
→ low adoption of EV

M

Battery weight →  bad performance consumption

2. Charging & operational time

M

Level 1 – 2 slow charging
 long time car inactivity

M

Level 3 Fast charging
→  battery life cycle reduction

3. Energy Infrastructure

M

High costs: Stations, Infrastructure and Real Estate

M

Limited availability →  Range anxiety

M

Simultaneous charging
→ Potential GRID overload

 

 

Solution

Batteries are charged at the right temperature and speed, achieving up to 3X longer lifespan compared to fast-charging (more info here)

1. Total Cost of Ownership (TCO)

N

~3X Battery lifespan
→ higher adoption of EV

N

Less Battery weight →  better performance consumption

2. Charging & operational time

N

~3 minutes to get full battery capacity

N

Batteries are charged in the stations at the right temperature and speed (up to 3X longevity)

3. Energy Infrastructure

N

Low cost setup, and minimum Real Estate impact

N

High availability
→  No range anxiety

N

Asynchronous charging
→ low peaks & stabilize the GRID

Integration

HyperSwap is a perfect match with renewable energy sources because it can:

  1. harvest extra energy produced by solar, wind, and hydro farms
  2. give back the energy to the electricity grid (energy storage) with our B2G (battery to grid) bi-directional technology

Comparison

Existing electric vehicles can be upgraded to use our HyperSwap system. Our team can provide the pre-feasibility study, feasibility study, engineering & installation of the space frame, engineering of the battery pack, system update, support in the manufacturing line.

 

Competitor 1

Competitor 2

 HyperSwap

Cost of production

$1.3M

$370K

$100K

Easy to produce in large scale

no

no

yes

Expensive infrastructure

yes

no

no

Advanced modularity

no

no

yes

Easily transportable

no

no

yes

Lifecycle management costs

high

medium

low

Multiple battery standards

no

no

yes