Electric Vehicles (EVs)
Tesla Hikes Charging Rates at its Supercharger Stations
While it’s meant to be a frontrunner for the rush to electric vehicle adoption, Tesla has made a decision that has raised the eyebrows of industry onlookers, increasing the cost of its charging rates at Supercharger sites.
The move is understood to have been implemented silently over the last few weeks, despite the absence of any official confirmation from the auto-maker. The increase in price is equivalent to a near 25% jump, with the charge per kW increasing from $0.42 per kW to $0.52 per kW.
How will owners be impacted?
Australian Tesla owners have had little say in the matter, with no heads up given before the price increase. Of course, it would likely be out of owners hands even if they were advised, since the company’s 35 Supercharger sites across the nation have been an integral part of the broader infrastructure network being rolled out to support electric vehicle uptake. That network is set to expand by a further 7 soon enough, with additional sites currently being built.
To better understand the cost impact, one estimate provided by Caradvice focused on the Model 3 Long Range. Their estimates suggested that charging the Model 3 Long Range from an empty battery to a full battery would now cost approximately $43.30, a notable increase from the former price of around $35. That might still be some part cheaper than most if not all ICE vehicles, however, let’s not forget that some technology companies – which Tesla certainly is as much as an auto-maker – are price makers.
We certainly hope the manufacturer doesn’t plan to push through any further price hikes in the near-term, because we might start to see questions being asked as to the value motorists are getting. It’s one thing for the latest electric vehicles to be equipped with long range capacity, however, having to paying more for the ‘luxury’ to charge them at Tesla’s sites may be a contentious move, even if the car company has recently taken an axe to the retail price of its cars.
Nonetheless, as far as driver uptake goes, shifting numbers around to pay less up-front and then pay more while in use could gain traction – provided motorists are actually aware of what they’re signing up for. That’s the missing thing here, however, greater transparency. And Tesla will need to remember they might enjoy an early-mover advantage right now, but will it last if you alienate your customers through non-communicated price hikes?
Robert Opron and the Simca Fulgur: Better Than Nostradamus?
The question as to where all the flying cars are now that we’re in 2020 has become a bit of a cliché. It’s been a bit of a cliché ever since we hit the new millennium. This is a reference to the way that popular culture envisioned what family cars would look like in the 21st century.
However, at least one car designer had ideas that were a bit more down to earth – literally. The year was 1958 and the designer was Robert Opron. This designer had accepted a challenge to produce a concept car for the 1959 Geneva Motor Show for his parent company Simca. Never heard of Simca? This was a French company owned by Fiat that rivalled Citroen for the title of “France’s answer to the VW Beetle”. I owned one back in my student days – possibly a Simca 1300; it had a front engine like a normal car rather than a rear engine and it’s probably worth a mint now, so I’m rather regretting selling it. Its only quirk was a flaw in the speedo: after it hit 50 mph, the needle went back down even when I accelerated.
Anyway, enough memories of student cars and back to Robert Opron. Opron later took his genius to Citroën, then Renault, then Alfa Romeo. He has been recognised as one of the top 25 designers of the 20th century, although he wasn’t the chap responsible for the very distinctive Citroen 2CV. The Renault Alpine was his, though, as were a number of 1980s Renaults.
Opron had come across a challenge issued by the Journal de Tintin. Yes, that’s Tintin as in the intrepid red-haired reporter who has a dog called Snowy and a best friend called Captain Haddock. The challenge was to design a “typical” car for the 1980s or for the year 2000. The challenge included a list of specifications that had to be included in the design, including the following:
- fuelled by a nuclear-powered battery or a hydrogen fuel cell with a range of 5000 km
- running on two wheels, balanced gyroscopically, at speeds over 150 km/h,
- voice controlled
- radar guidance for navigation and for detecting hazards
- top speed of over 300 km/h
- automatic braking if it detected a hazard
- headlights that adjust automatically with speed
Although Opron didn’t produce a full working prototype, he did show a shell of the concept at the 1959 motor show and the full details of the concept car, known as the Simca Fulgur, were published in the Journal de Tintin (this suggests that it would have appeared alongside The Red Sea Sharks and/or Tintin in Tibet – just in case you were curious, like I was).
The Simca Fulgur – which takes its name from the Latin word meaning “lightning” – looked like the classic Jetsons flying car, except it didn’t fly. It captured the public imagination somewhat and became the basis for what people thought futuristic cars would look like. Or what UFOs would look like – take your pick.
Anyway, from the perspective of late October in 2020, 61 years later, it’s amusing to take a look at the cars of today and see how close we’ve actually come to getting some of these features. How well did the Fulgur predict what we’d have on our roads?
- Voice control: Yes, we’ve got this, although it’s not quite a case of telling the car your destination and letting it get there (they’re working on that). But you can use voice control on quite a few things, including the navigation system.
- Top speed of over 300 km/h: Yes, but most cars that are capable of this have their speeds limited for safety purposes.
- Autonomous braking and hazard detection: Yes. However, human input is still needed.
- Automatically adjusting headlights: Yes, although they adjust for the ambient light levels rather than how fast you’re going.
- Electric motor with hydrogen fuel cell technology: Yes, although the range isn’t anywhere near what was predicted. We’d all love a range of 5000 km in an EV (electric vehicle) or HFCV (hydrogen fuel cell vehicle).
- Electrical motor with nuclear power: Are you kidding me? Since Chernobyl and Fukushima, nuclear power isn’t quite the sexy answer to our energy problems that it was back in the 1950s.
- Balancing on two wheels with gyroscopic stabilisers at speeds over 150 km/h: No. Just no. If you want that sort of thing, get a motorbike, not a family saloon.
All in all, not too bad a job of predicting the future, Monsieur Opron – you did a better job than your compatriot Nostradamus.
Mercedes-Benz Flags the End of the Manual Transmission
In news that will send a shiver down the spine of motoring purists, Mercedes-Benz has signalled the end is nigh for the beloved manual transmission.
That’s according to Mercedes-Benz’s head of innovative work, Markus Schaefer, who made the comments suggesting curtains were drawing near as the brand shifts its attention to electrifying its vehicle line-up.
The German manufacturer will produce six models under the EQ badge, furthering its focus on a format that has yet to gain traction, but is seen as the ‘future’. Among its combustion line-up, plug-in hybrids are set to fill the void as combustion engines are consolidated across a series of Mercedes-Benz platforms.
At the heart of the decision is a drive by the company to reduce costs by standardising architecture across the company. In effect, Mercedes-Benz is promoting a modular strategy, which will limit variations between models, but help to keep manufacturing costs in check to support funding elsewhere.
Were the clues already in place?
The move away from manual has arguably been in the works for some time now. Among Mercedes-Benz’s current international line-up, larger variants have long been confined to automatic transmissions. Only a few cars have been fitted with a manual transmission, mostly entry-level variants in the A and C Class ranges. Closer to home, and the entire breadth of Mercedes-Benz’s passenger vehicle series is fitted with an automatic transmission.
You certainly can’t say the writing hasn’t been on the wall for a while now.
The bigger question from here on in, however, will be what impact this move has on the broader new car industry. Are we set to see an increasing number of manufacturers abandon the manual format in favour of a simpler set-up, thereby standardising combustion vehicle architecture in order to focus on electric vehicle research and development.
Only time will tell, but this may just be the beginning of an industry-wide trend.
Peugeot Sport Engineering: 508 Goes Hybrid.
Peugeot is undergoing a quiet evolution. Their stunning 508 sedan/coupe and wagon has been given the hybrid tick and along with the engine change comes a name change. Peugeot Sport Engineered is the monicker to be given to the range.
The drivetrain that will be slotted into the Peugeot 508 Sport Engineered is a 147kW/300Nm 1.6L turbo four and a pair of electric motors. There is 81kW for the front, 83kW for the rear, making the vehicle a proper all wheel drive and being driven by 265kW and 520 Nm. Packaging sees the cargo space for both body styles unchanged. The transmission is an eight speed auto. Sink the slipper and 100kph comes up in 5.2 seconds, and the top speed is an electronically limited 250kph. Need some overtaking ability? 80kph to 120kph is seen in just three seconds.
The plug-in hybrid’s system sees an 11.5kWh battery fitted and using a standard 240V house socket should be charged in around seven hours. Factor in a 32A wallbox and that drops down to under two hours, or install a 16A plug system and that’s a good average of around 4 hours or less.
Utilising the urge comes down to choosing from one of five drive modes. Sport takes a fully charged battery, and adjusts the dampers, engine, and transmission into the most energetic drive modes. Electric is a pure battery drive and offers a range of just over 40 kilometres, whilst disabling the 1.6-T at velocities of up to 140kph. Comfort is what the name suggests, with a cushy, plush ride, Hybrid uses both battery and petrol for an optimal drive, with the all-wheel drive mode more for those slipperier roads. Ride is helped by those adaptive dampers, a track change of 24mm front and 12mm rear, with 380mm font discs being slowed by four piston pads. 20 inch alloys hold on to Michelin Pilot Sport 4S rubber.
Defining the look of the 508 Sport Engineered is an upgraded interior featuring Peugeot’s ubiquitous flat-bottomed tiller, the beautiful i-cockpit with 12.3 inch LCD screen, a premium audio setup from Focal, and a 10.0 inch main touchscreen. Leather “comfort-fit” seats with a 3D looking mesh cosset the passengers and the driver keep an eye on info via a HUD. Safety will include AEB, Lane Departure Warning, and night vision cameras.
There is a bespoke grille, a redesigned front bumper with new air scoops in the lower corners, blackened exhaust tips, a rear diffuser and winglets front and rear. Selenium Grey, Pearl White, and Perla Nera Black will be the colours available.
Peugeot Australia has not yet confirmed availability for Australia but a spokesman said local availability is being looked at.
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