Australian supercar breaks cover

It's been a long time coming, but here at last are computer-generated images showing the production version of what Australian performance-car company Joss Developments is calling simply the JP1.

They're currently on show alongside the well-worn, matt-black Joss prototype mule at the Australian international motor show in Melbourne, hoping to attract customers for the 25 production units the company plans to build for sale at an estimated A$500 000 (R3.5 million) each.

Details are still scarce but the maker has revealed that the composite-bodied production model will have a mid-mounted, all-aluminium, 6.6-litre V8 rated at 373kW, driving the rear wheels through a very special Albins Zeroshift automated manual shift transmission that uses interlocking rings to transfer the drive from one gear to the next without ever actually declutching the transmission.

The technology was used successfully on drag-racing motorcycles in the 1980s but has not yet, as far as we can ascertain, been applied to a street vehicle - certainly not a 373kW supercar such as this.

Using the constant drive of the Albins transmission, Joss Developments is quoting a 0-100km/h sprint time of less than three seconds and 0-160 in six seconds flat, with a top speed of 360km/h, 20km/h better than its initial claims.-iol.co.za

CVT Technology In New PROTON Cars

 

 PROTON Holdings Berhad announced today that it will be introducing Continuous Variable Transmission (CVT) technology to its upcoming range of cars. “We have been conducting comprehensive development and integration tests of the CVT with our CamPro engines and we are happy to be able to provide this option to future buyers soon,” said Dato' Sri Haji Syed Zainal Abidin Syed Mohamed Tahir, Group Managing Director of PROTON Holdings Berhad.

CVT technology has been growing in popularity amongst high-end auto manufacturers globally as it provides a smoother drive and more efficient performance to their cars. This technology, though not new, has only recently made its way into cars on a large scale with many major automotive companies successfully developing advanced CVT mechanisms that are able to take heavier drive loads compared to earlier variations. 

“In the near future, CVT will be mated to our CamPro engines as an option to our range of cars along with the conventional four speed automatic gear transmission that is currently being used,” Dato’ Sri Haji Syed Zainal said. “This feature will not only provide more than just a smoother drive but it will also contribute towards fuel efficiency and savings to the user,” he added. 

In comparison to traditional automatic gear transmissions, the utilization of CVT in an engine system reduces transmission weight by up to 20 percent without compromising output capabilities. It allows the car to change gear ratios seamlessly, eliminating transmission shock, facilitating greater responsiveness and smooth, consistent power delivery. CVT also offers various driving modes to suit the driver’s preference and feel. 

“In view of fuel price pressure on consumers, we know that the introduction of CVT will contribute significantly to improving their lives as it not only provides them with a smoother drive but also helps reduce fuel consumption.” 

Dato’ Sri Haji Syed Zainal highlighted that PROTON tests show that the utilization of CVT in a car can reduce fuel consumption by up to 4% with regards to urban driving and almost up to 10% for highway driving. 

“Lower fuel consumption also impacts the environment significantly by reducing CO2 emissions,” he said, elaborating that the efficiency of the CVT technology integrated into Proton engines has resulted in a 5% emissions improvement. 

“PROTON is consistently improving its cars; from build quality to the introduction of various technologies to enhance its engine and driving capabilities,” said Dato’ Sri Haji Syed Zainal. “The inclusion of CVT to our next generation of cars will not only keep us on a technological par with major automakers but will also contribute positively towards providing Malaysians with greater value for their money.” 

BMW E-Scooter Concept goes 62 miles before needing to be charged

Joining its partner Mini (who unveiled the Mini Scooter E Concept at the 2010 Paris Motor Show) BMW has unveiled a electric scooter concept named the BMW E-Scooter.

“Space is becoming increasingly scarce in the major conurbation centres and traffic density is growing continuously,” BMW said in a statement. “Political and social conditions are changing. All these factors coalesce in increasing demands in terms of private transportation. The concept vehicle BMW E-Scooter with electric drive provides an innovative look at changing urban mobility needs.”

While BMW hasn’t provided any detailed technical specs, it says that the BMW E-Scooter has the necessary output and speed for ‘safe and reliable overtaking’ and is capable of managing hill starts on steep slops. In terms of performance, BMW says that its E-Scooter Concept can achieve the same 0 to 37 mph as a scooter with a 600 cc gasoline engine.

On a full charge, the BMW E-Scooter Concept is capable of traveling 62 miles before needing recharging. A charging period can take less than 3 hours.

BMW Motorrad Innovation Day 2011. BMW Motorrad Concept Vehicle BMW E-Scooter.

BMW Motorrad Concept Vehicle BMW E-Scooter.
Innovative development study with elevtric drive.

Space is becoming increasingly scarce in the major conurbation centres and traffic density is growing continuously. Political and social conditions are changing. All these factors coalesce in increasing demands in terms of
private transportation. The concept vehicle BMW E-Scooter with electric drive provides an innovative look at changing urban mobility needs.

While the currently available, purely electrically-powered scooters have been almost exclusively used inside towns and cities to date due to their performance and range, which makes them suitable for short distances only, the concept vehicle BMW E-Scooter offers a much broader spectrum of use.

High range and excellent performance figures.

Since it was conceived as a future-oriented vehicle for commuting between urban areas and the city centre, therefore attracting funding from the German Federal Ministry of Transport, Building and Urban Development, there were two main requirements for its development: dynamic figures comparable to those of a maxi scooter with a combustion engine and a high range in realistic conditions of use.

The concept vehicle BMW E-Scooter provides the necessary sustained  output and maximum speed for safe and reliable overtaking on urban motorways and also when carrying two people. It is also easily capable of managing hill starts on steep slopes with a pillion passenger.

The development study also has the necessary maximum output to be able to achieve acceleration figures within the important 0 – 60 km/h range, which are at the level of current maxi scooters powered by a 600 cc combustion engine.

The high storage capacity of the battery allows a daily driving range of over 100 kilometres. In this way, the BMW E-Scooter concept vehicle provides a long-term, zero-emissions urban and suburban travel option which is suitable for everyday use.

Fast charging at conventional power sockets.

The E-Scooter concept vehicle’s battery is charged at regular household power sockets as found in Europe, the USA, Canada and Japan, so no special charging station is required. When the battery is completely flat, the charging period is less than three hours. However, practical experience has shown that the battery rarely runs out completely, so charging times are  generally shorter.

Frame.

Unlike existing maxi scooters with combustion engines, the concept vehicle does not have a main frame. Instead, the aluminium battery casing — which also contains the electronic system required for battery cell monitoring —takes over the function of the frame. The steering head support is connected to it, as is the rear frame and the left-hand mounted single swing arm with directly hinged, horizontally installed shock absorber.

Electric machine, power electronics and charging device.

Due to its high output, the BMW Motorrad development study has no hub motor with direct drive or planetary gearbox. Instead, the high-performance electric machine is mounted behind the battery casing. The secondary drive consists of a toothed belt from the electric machine to the belt pulley mounted coaxially on the swinging fork pivot with drive pinion. From here, power transmission occurs via roller chain to the rear wheel. When the E-Scooter is decelerated in trailing throttle or when braking, the energy released is recuperated, thereby increasing the vehicle’s range by between 10 and 20 per cent depending on driving profile.

The electrical components required for the electric drive are installed on the top of the battery casing. The external battery electronics system permanently collects and monitors data such as the temperature and voltage of the battery cells, both during travel and while charging. The power electronics acts as a control system and controls the electric machine. The charging device includes a charge cable which allows the battery to be recharged at a conventional household power socket. In addition to the other components like an ISO insulation monitor, high-voltage indicator and a high-voltage distributor, a DC-DC converter is included. It is required to change high voltage to low voltage power to supply the 12 volt vehicle supply and especially for the control units.

Cooling system.

During travel, the electric machine and power electronics are liquid-cooled, as is the charging device during charging. An electric coolant pump ensures coolant circulation through the radiator. While a coolant is commonly used for the battery in electrically powered cars, the E-Scooter concept vehicle uses an air cooling system in order to save space.

Safety.

BMW Motorrad is one of the very few motorcycle manufacturers to be able to draw on its own experience and expertise in the automobile field in the development of electrically powered vehicles. Synergies are derived from the development of the BMW E-Scooter concept vehicle not just in the ready availability of technical components but also in the area of high voltage engineering and the associated safety requirements. Here for the first time, standards established by the leading automobile manufacturers relating to high voltage safety (> 60 volt) and functional reliability are being applied to a two-wheel vehicle with electric drive.-egmcartech.com

Ford Performance Vehicles Unveils GT-Based Concept

Ford Performance Vehicles (FPV) took the wraps off its first-ever concept car at the Australian International Motor Show in Melbourne, and instantly it managed to grab a lot of attention. Based on theFord Falcon GT sedan, the new car has been christened the FPV Concept.

The car’s menacing looks is matched by its black-on-black color scheme, with a unique matte finish stripe package on the bonnet, rear wing and bodysides. Black framing has been utilised to enhance the rear light graphics treatment. The vehicle carries a unique black GT badging. The FPV Concept runs on special Dunlop SP Sportmaxx GT tyres inset with 19-inch lightweight one-piece forged alloy rims. The wheels are 8-inches wide at the front, and 9.5-inches wide at the rear. Under the car is a track-tuned suspension specification accompanied by a full stainless steel high-flow twin exhaust system finished with quad black exhaust tips.

The black theme has been carried over to the inside as well, with the interior being done in black leather trim throughout and an all-black dash treatment that includes the interior command centre. FPV claims that they have equipped the concept with the GT’s best options, including a reversing camera. The FPV Concept is powered by the supercharged Boss 5.0-liter V8 engine.-nitrobahn.com

2012 Honda Accord Euro Revealed At Australian International Motor Show

The 2012 Honda Accord Euro made its official debut at the ongoing 2011 Australian International Motor Show in Melbourne. The 2012 model year is an updated version of the second generation of the Accord Euro that debuted in the Australian market in 2008. It features an improved fuel economy and new design features.

The front grille is modified in the new Accord Euro. A two-bar design replaces the existing three-bar design. The car also features a redesigned front bumper, fog light surrounds and air intakes. The color of the tail lights is changed to ‘soft red’ and a chrome boot-lid strip is also added to the car.

The interior is also upgraded in the 2012 model year. The door handles, console, steering and other components are finished with a satin-plastic look. The other upgrades include a new foldaway key design, integrated Bluetooth in the steering wheel, USB input with iPod integration and Trailer Stability Assist as standard in all models.

The fuel efficiency of the Accord Euro is increased in the new model year. It now has a combined cycle fuel economy of 8.7 liters/100 km in the six-speed manual model and 8.5 liters/100 km in the five speed automatic one. The previous Euro had a fuel economy of 8.9 liters/100 km irrespective of the transmission.

Other features include automatic headlights and rain-sensing wipers as standard in the entry model. The Luxury model features HID headlights, while the Luxury Navigation model features new bi-HID headlights with auto low/high beam and a cornering function that operates at speeds of up to 40 km/hr.

The entry level model with a six-speed manual transmission comes with a price tag of $30,340 and the range topping Luxury navigation five-speed automatic is offered for $43,140, excluding government and dealership charges.-nitrobahn.com