Libby Wade BMW, 2017-11-04 19:54:21. The BMW Digital Charging Service brings customers the future of charging, today. BMW ConnectedDrive and the BMW ConnectedDrive Portal turn charging into a digital experience. As a result, the BMW i3 and BMW i3s are integrated perfectly into the customer‘s smart ecosystem. This allows BMW customers to optimise charging costs, make best use of self-generated solar energy for charging and even earn money through integration into the smart grid. The service‘s ease of use - from a smartphone via BMW Connected or from PCs and tablets via the BMW ConnectedDrive Portal - also facilitates fully transparent, sustainable use of renewable energy. With the introduction of its unique BMW Digital Charging Service, BMW becomes the world‘s first carmaker to integrate electric mobility with its customers’ digital worlds.
Eve Fitzgerald Honda, 2017-10-19 15:02:35. The Honda Odyssey new direct-injection system enables increased torque across the engine full operating range along with higher fuel efficiency. The system features a compact, high-pressure, direct-injection pump that allows both high fuel flow and pulsation suppression, while variable pressure control optimizes injector operation. A multi-hole injector delivers fuel directly into each cylinder (not to the intake port, as in the previous generation Odyssey), allowing for more efficient combustion. The multi-hole injectors can create the ideal stoichiometric fuel/air mixture in the cylinders for good emissions control. Theoretically, a stoichiometric mixture has just enough air to completely burn the available fuel. Based on the operating conditions, the direct-injection system alters its function for best performance. Upon cold engine startup, fuel is injected into the cylinders on the compression stroke. This creates a weak stratified charge effect that improves engine start-up and reduces exhaust emissions before a normal operating temperature is reached.
Shannon Griffin Honda, 2017-10-19 15:02:34. Odyssey EX and above trims include power sliding side doors that can be activated by a switch (to operate left, right or both doors) on the instrument panel, by a switch from the second-row seating area, by pulling on either the interior or exterior door handle, or by buttons (left or right) on the remote key fob. The system features improved operating logic. In the previous Odyssey generation, if the driver and a passenger outside the vehicle were to each activate a power side door at approximately the same time, the door could start to open with the first person action, and then stop as soon as the second person took action. To eliminate this on the 2018 Odyssey, new door logic enables the door to operate as intended if two identical activations (such as the driver and a passenger both wishing to open a door) are entered within a half second of each other. For instance, if a parent pulls up to the curb at school and presses the power side door open button at approximately the same time as does a child waiting curbside, the door will open as desired. If longer than a half second passes between activations, door operation will stop, and a warning beep will sound.
Niamh Hart Chevrolet, 2017-10-20 11:42:27. An all-new 3.6L V-6 is available in the Camaro LT, producing and SAE-certified 335 horsepower (250 kW) and 284 lb-ft of torque (385 Nm), for the highest specific output of any naturally aspirated V-6 in the segment. The engine incorporates a trio of technologies for uncompromised efficiency and performance, including direct injection, variable valve timing and, for the first time, Active Fuel Management (cylinder deactivation), which disables two cylinders under light throttle applications to enhance efficiency. The 2.0L turbo and 3.6L V-6 engines are offered with a six-speed manual transmission or the all-new Hydra-Matic 8L45 paddle-shift eight-speed automatic transmission. It’s based on the Hydra-Matic 8L90 eight-speed, but scaled for the performance envelope of the smaller engines and offering an estimated 5-percent efficiency improvement over a comparable six-speed automatic. Camaro SS is powered by the 6.2L LT1 V-8 engine introduced on the Corvette Stingray. About 20 percent of the components are specific for the Camaro architecture, including new, tubular "tri-Y"-type exhaust manifolds. It also offers advanced technologies such as variable valve timing, direct injection and Active Fuel Management (on automatic-equipped models) to help balance efficiency and performance. Output is SAE-certified at 455 horsepower (339 kW) and 455 lb-ft of torque (617 Nm), making it the most-powerful Camaro SS ever.
Kiera Shaw Honda, 2017-10-19 15:02:35. Powering the 2018 Honda Odyssey is a 3.5-liter direct injected i-VTEC® 24-valve SOHC V6 engine with Variable Cylinder Management™ (VCM™). The new engine is common with the powerplant in the 2017 Pilot and is mated to one of two new transmissions - a 9-speed automatic (9AT), also introduced in the Pilot, for LX, EX, EX-L and EX-L NR trims, and an all-new minivan and front wheel drive-first 10-speed automatic (10AT) for Touring and Elite models. For the first time ever, all Odyssey models are equipped with steering wheel mounted paddle shifters, to give drivers greater control over transmission operation, which is particularly useful in mountainous driving or when towing. Models equipped with the new 10AT also have a new Idle-Stop capability, which further enhances fuel efficiency.
Paige Dodd Honda, 2017-10-19 15:02:34. The Odyssey new engine - from the Honda EarthDreams® Technology powertrain series - is rated at 280 peak horsepower and 262 lb.-ft. peak torque. Peak engine output is up 32 horsepower and 12 pound-feet of torque from the previous model, with increased torque over the engine entire operating (rpm) range. The new, more efficient engine and transmissions, along with as much as a 75-pound reduction in vehicle weight (EX-L trim) and improved aerodynamics, among other reductions to running resistance, result in enhanced performance and fuel efficiency. With its 60-degree V-angle, the Odyssey V6 engine is inherently smooth and has compact overall dimensions that allow efficient packaging within the vehicle. The engine has a high-pressure die-cast lightweight aluminum alloy block with cast-in-place iron cylinder liners. Made with a centrifugal spin-casting process, the thin-wall liners are high in strength and low in porosity. The block incorporates a deep-skirt design with four bolts per bearing cap for rigid crankshaft support and minimized noise and vibration. The engine also uses a high-tensile strength steel crankshaft is for minimum weight.
Libby Wade Honda, 2017-10-19 15:02:34. Located under the front floor of the new Honda Odyssey is a variation of the "3-Bone" structure used in the Pilot that improves impact load management, directing energy around the passenger cabin in the event of a frontal collision. The structure creates three different load pathways, or "backbones," that channel collision energy. One channels collision forces from the front of the vehicle directly underneath the passenger cabin; the other two channel collision forces under the vehicle left and right side frames. The result is an improved capability to safely channel energy during a frontal crash.
Paige Dodd Honda, 2017-10-19 15:02:34. A cooling control spacer positioned in the water jacket surrounding the cylinders helps control warm-up and operating cylinder liner temperatures to reduce friction. Plateau honing of the cylinder lining further reduces friction between the piston skirts and the cylinder walls by creating an ultra-smooth surface. This 2-stage machining process uses two grinding processes instead of the more conventional single-stage honing process. Plateau honing also enhances the long-term wear characteristics of the engine. Designed with "cavity-shaped" crowns, the 2018 Odyssey pistons help maintain stable combustion and contribute to stratified-charge combustion. Ion-plated piston rings help reduce friction for greater operating efficiency. Heavy-duty steel connecting rods are forged in one piece and then "crack separated" to create a lighter and stronger rod with an optimally fitted bearing cap.
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