2001 Mitsubishi Diamante Ls Sedan 4-door 3.5l on 2040-cars

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Small 3-row crossover SUVs specifications compared on paper

There's no shortage of three-row vehicles on the market for carrying seven or more people and their stuff wherever they all need to go. Just about every car company has at least one large crossover or traditional SUV with three rows of seats, and there are still plenty of minivans to pick from. But most of these vehicles are large, pricey, and frequently thirsty. Fortunately, there are still a handful of smaller crossovers that deliver 7-passenger capability in a smaller, cheaper package. We've gathered four of the small three-row set here to compare them based on space, power, fuel economy, pricing, and more. They include the very old Dodge Journey, the slightly less old Mitsubishi Outlander and Kia Sorento, and the relatively new Volkswagen Tiguan. You can see the raw numbers in the chart below, followed by a more detailed breakdown and some notes on how we like each of these vehicles. For in-depth opinions on the vehicles, be sure to check out our full reviews, and if you want to compare these with other vehicles, try out our comparison tools. Engines, transmissions and performance Interestingly, three of the four crossovers here utilize similar engines for their four-cylinder offerings. The Dodge, Kia and Mitsubishi all feature naturally aspirated 2.4-liter four-cylinder engines. Only the Volkswagen Tiguan chooses turbocharging and a smaller 2.0-liter displacement. But because of its turbocharger, the Tiguan's four-cylinder is easily the most potent, making a healthy 221 pound-feet of torque, which is more than 40 more than the Sorento, the crossover with the next most torque. The VW is also second-most powerful, just one horse behind the Sorento. The Outlander is the least powerful in the four-cylinder class. The Journey is only barely better, but it will probably feel as slow or worse thanks to its ancient 4-speed automatic. The four-cylinder Sorento and Outlander each have 6-speed automatic transmissions, and the VW has an 8-speed. The Sorento with a V6 has an 8-speed, too. View 17 Photos Moving up to the V6 class, the Outlander is once again at the bottom. It actually makes less torque than the turbo VW Tiguan. The Journey and Sorento are almost perfectly matched. The Journey makes a bit more torque; the Sorento makes a bit more power. The Journey also gets upgraded to a 6-speed automatic. Another powertrain consideration to bare in mind is whether all-wheel-drive is necessary.

Mitsubishi CA-MiEV and GR-HEV concepts peek out before debut

We're getting a look at the two star Mitsubishi concept cars from this year's Geneva soiree, just ahead of the official debut for both. As suits Mitsubishi's ever-deepening interest in electrified vehicles, the brace of concepts both make use of electric drive: the CA-MiEV being a pure electric vehicle and the GR-HEV using a diesel-electric powertrain.
The CA-MiEV concept car may look a bit like a photoshopped Toyota Prius, but in fact the car employs a new electric motor and battery system from Mitsu. We're told that the EV has a theoretical range of 186 miles, which is nearly double the range of most EVs on the market today and approaches Tesla territory. The vehicle is larger than the company's current i-MiEV, and would seem to point the way forward for a more mainstream production EV from Mitsu.
The second concept, a rather odd-looking pickup truck called the GR-HEV, has a diesel engine, electric motor, all-wheel drive, and Mitsubishi's Super All Wheel Control. The front fascia bears a version of the grille we've seen on the new Outlander PHEV, with more radically raked (sort of "smiling") lighting elements.

8 automakers, 15 utilities collaborate on open smart-charging for EVs

We're going to lead with General Motors here. GM is one of eight automakers working with 15 utilities and the Electric Power Research Institute (EPRI) at developing a "smart" plug-in vehicle charging system. Why did we start with GM? Because it's the first automaker whose press release we read that mentioned the other seven automakers. Points for sharing. For the record, the collaboration also includes BMW, Toyota, Mercedes-Benz, Honda, Chrysler, Mitsubishi and Ford. The utilities include DTE Energy, Duke Energy, Southern California Edison and Pacific Gas & Electric. The idea is to develop a so-called "demand charging" system in which an integrated system lets the plug-ins and utilities communicate with each other so that vehicle charging is cut back at peak hours, when energy is most expensive, and ramped up when the rates drop. Such entities say there's a sense of urgency to develop such a system because the number of plug-in vehicles on US roads totals more than 225,000 today and is climbing steadily. There's a lot of technology involved, obviously, but the goal is to have an open platform that's compatible with virtually any automaker's plug-in vehicle. No timeframe was disclosed for when such a system could go live but you can find a press release from EPRI below. EPRI, Utilities, Auto Manufacturers to Create an Open Grid Integration Platform for Plug-in Electric Vehicles PALO ALTO, Calif. (July 29, 2014) – The Electric Power Research Institute, 8 automakers and 15 utilities are working to develop and demonstrate an open platform that would integrate plug-in electric vehicles (PEV) with smart grid technologies enabling utilities to support PEV charging regardless of location. The platform will allow manufacturers to offer a customer-friendly interface through which PEV drivers can more easily participate in utility PEV programs, such as rates for off-peak or nighttime charging. The portal for the system would be a utility's communications system and an electric vehicle's telematics system. As the electric grid evolves with smarter functionality, electric vehicles can serve as a distributed energy resource to support grid reliability, stability and efficiency. With more than 225,000 plug-in vehicles on U.S. roads -- and their numbers growing -- they are likely to play a significant role in electricity demand side management.