Automotive Technology for 2050 here today

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CARS

The e-GO EV Carbon Fiber Electric Vehicle

Safety Standards of Carbon Fiber Electric Vehicle

The crash tests are being conducted according to European, Japanese and Chinese crash test standards. A GIF file of the actual moving sequence of an e-Go car in a frontal crash test at 35 miles per hour in slow motion reveals that the vehicle substantially returned to its original shape after the test.




A photograph of the front of the vehicle shows minimal damage after the test. A more complete report on the crash tests will be announced in a future press release.

  • Closer to Current Crossover SUV Higher Seating While Maintaining Excellent Highway Stability with Batteries Located Beneath the Floor
    Closer to Current Crossover SUV Higher Seating While Maintaining Excellent Highway Stability with Batteries Located Beneath the Floor

The E-Go EV is the most efficient production car ever built with a range of 200 miles or more.  It is comparable to 150 miles per gallon energy equivalent 

E-GO MAIN TECHNICAL PARAMETERS
 
Vehicle Type 
 Electric Passenger Car
 
Body Material
 Carbon Fiber and Space Age Aluminum Chassis
 
Shape Parameters
 Overall Length
9' 8.5" (2960 mm) 
 Overall Width
5' 7.3" (1710 mm)
 
 Total Height
5' 2.9" (1598 mm)
Wheel Base 
6' 5.16" (1960 mm)
 
 Front/ Rear Track
1745 mm/1745 mm (5' 8.7")
 Minimum Ground Distance
6.69 inches (170 mm)
 Power System
 Motor Type
AC asynchronous
 
 System Voltage
 
 Motor Rated/ Peak Power
 
 
 Maximum Torque
 
 
 Charging Time
 
 
 High Speed Charging
 Motor System
 AC asynchronous
 
 Battery System
 LiFePO4
 
 Breaking System
 Four wheel disk brake system
 
 Tire Specifications/ Wheels
 265-65R14-5.5"
 
 Suspension System
Front double transverse suspension with stability bar
Rear double transverse suspension without stability bar
 
Brake Energy Recovery 
 
 Rated Crew
4 passengers
 
 Quality Parameters
Maximum Total Mass
 
Curb Weight 
  1,433 lbs (650 kg)
 Performance
Maximum Speed 
 110 km /h
 
Maximum Grade ability 
 25%
 
Miles Per change
 

Why buy the E-Go EV?

  • Most Efficient Production Car Ever Built
  • Range of 200 Miles or More
  • 30 Minutes for Half Full Battery Charge, 4 to 8 Hours for Full Battery Charge Depending on System
  • 150 Miles per Gallon Energy Equivalent
  • Only Carbon Composite Fiber Production Vehicle Ever Built at Affordable Prices
  • Carbon Fiber Body is Five Times Stronger than and One Third the Weight of Steel
  • 1400 lbs. Total Weight is Less Than Half of Comparable Vehicles
  • Seating for Five Passengers
  • High Energy Lithium Battery Pack  with Over Three Times the Life of Any Other in its Class
  • Most Affordable Car to Operate: No Tune Ups, Smog Checks or Oil Changes
  • Race Car Suspension Handling and Regenerative Brakes
  • Complimentary Roadside Service
  • Advanced Navigation System
  • "A Renew Earth Vehicle"


Special Design Features

  • Designed by Italian and Chinese Automotive Engineers
  • Carbon Fiber Body on Ultra light Chassis and Race Car Suspension
  • Strongest Production Car Ever Built
  • Less Expensive to Operate than Any Other All Electric Car in its Class
  • Most Efficient Five Passenger Electric Car Ever Built, 150 MPG-E Energy Equivalent
  • Extended Battery Packs for Longer Range Applications Available
  • Multiple Air Bags
  • Electric Air Conditioning (A/C) and Heating
  • CAM Communication: Free Monitoring Satellite Communication for Security and Auto Diagnostics
  • New Generation Info-Entertainment System
  • Aluminum Wheel Hubs and Other Special Features

The IBIS CARBON FIBER electric LUXURY sedan

IBIS Main technical parameters
VehicleType
Electric Luxury Passenger Sedan
 Body Material
Lightweight Aluminum and Carbon Fiber
Shape Parameters
Overall Length
16' 4.8" (5000 mm)
Overall Width
6' 2.7" (1898 mm)
Total Height  
5' 3.18" (1605 mm)
 
Wheelbase  
9' 7.35" (2930 mm)
Front/ Rear Track  
1614 mm/1614 mm (5' 3.5")
 
Minimum Ground Clearance  
 
 Power System
 Motor Type
AC Permanent Magnet Synchronous
 System Voltage 
360 V
Motor Rated
180 HP (134 kW)
Maximum Torque
250 foot-pound (339 Nm)
 
Charging Time
 5-6h (15kW car AC Charging)
 
High Speed Charging
 Available
 Motor System
AC permanent magnet synchronous motor, rear drive after a single motor, DSP/EBS
 
 Battery System
Ternary lithium polymer battery, located under the underbody shield, integrated BMS and charger
 
 Steering System
Rack and Pinion with EPS 
 Braking System
Hydraulic Brake with ABS, ESP, Electric Vacuum Booster, Front and Rear Disc Brakes
 
 Tire Specifications/wheels
245/ 45ZR19/ light alloy 
 
 Suspension System
 Double Transverse Arm Type, with Hydraulic Shock Absorbers
 
 Brake Energy Recovery
 Motor Regenerative Braking Energy Recovery
 
Rated Crew 
5 Passengers
 
Quality Parameters 
Maximum Total Mass
5,026 lbs (2,280 kg) 
Curb Weight 
4,000 lbs (1,815 kg)
Performance
Maximum Speed (electronically limited)
95 mph (153 km / h)
Maximum Speed Unlimited
112 mph (180 km / h)  
 
Maximum Gradeability
28%
Miles per charge
(depending on driving conditions)
200-240 miles (320-396 km)

NOTE 1: The acceleration of the Ibis for the standard model version is approximately in the 8.5 second range from 0-60 mph which is comparable to most other gasoline operated automobiles. Several options including a more powerful motor and controller, can increase the acceleration from approximately 8.5 seconds to approximately a 5-6 second range.

NOTE 2: The standard version of the Ibis will have a very powerful 72 kWh battery pack. The Ibis will also be offered with a larger battery pack and/or range extender. The range extender option which will increase the range of the Ibis to well over 700 km per charge.


NOTE 3: The battery pack comes with a 10-year warranty or 150,000 miles.


NOTE 4: The cost of the Ibis is estimated to be $69,500 USD before Federal Rebates ($7,500 USD) and State Rebates (such as those available in California up to $5,500 USD).


NOTE 5: The carbon fiber body sits on an extremely strong aluminum frame (not a sheet metal aluminum stamped frame similar to our competitors).

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