Kiera Shaw BMW, 2017-11-04 19:54:23. The BMW i3 shows the way ahead to a new era of mobility. It is recognised the world over as a symbol of driving pleasure, sustainability and intelligent connectivity in the urban traffic environment, which is why it has become the best-selling electric car in the premium compact segment. The recipe for success of the BMW i3 has now been further improved, thanks not just to refreshing styling accents, cutting-edge equipment features and new digital services, but also to the addition of a new model variant. For making its debut alongside the new edition of the first ever premium car to be conceived from the outset for all-electric mobility is the BMW i3s. With a higher output, model-specific chassis technology, noticeably more dynamic driving qualities and design features all of its own, it generates a particularly intense blend of the unrivalled sporty driving pleasure associated with electric cars from the BMW Group. By offering a premium-quality, all-electric driving experience, meaning zero local emissions, together with a whole new level of connectivity technology, both models represent the future of urban mobility.
Paige Dodd Honda, 2017-10-19 15:02:34. The Odyssey Electronic Control Unit (ECU) monitors engine functions to determine the best ignition spark timing. Two engine block-mounted acoustic detonation/knock sensors "listen" to the engine, and based on this input, the ECU can retard the ignition timing to prevent potentially damaging detonation. The engine has an ignition coil unit for each cylinder positioned within each spark plug access bore. To help improve fuel efficiency, the Odyssey Touring and Elite are equipped with Idle-Stop capability. When the system is enabled by the driver and certain operating conditions are met, the Idle-Stop system will automatically shut off the engine when the vehicle comes to a stop. The engine is automatically restarted when the driver releases the brake pedal after a stop, or if the steering wheel is turned. If the Brake Hold system is in use, the engine quickly restarts after the throttle is depressed.
Caitlin Duncan Honda, 2017-10-19 15:02:32. The Odyssey V6 engine combines Variable Cylinder Management (VCM) with Variable Valve Timing and Lift Electronic Control (i-VTEC), which changes the lift profile, timing and lift duration of the intake valves. A switching mechanism allows each cylinder to operate with low-rpm valve lift and duration or high-rpm lift and duration. While operating in 3-cylinder mode, the rear cylinder bank rocker arms deactivate, closing all intake and exhaust valves to minimize pumping losses. The "intelligent" portion of the system is its ability to vary valve operation based on the driving situation and engine rpm. At low rpm, the i-VTEC intake valve timing and lift are optimized (low lift, short duration) for increased torque, which allows a wide range of 3-cylinder operation. As engine rpm builds past 5,350 rpm, the i-VTEC system transitions to a high-lift, long-duration intake cam profile for superior high-rpm engine power.
Eleanor Norton Honda, 2017-10-19 15:02:33. 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.
Libby Wade Honda, 2017-10-19 15:02:34. Despite sharing the same wheelbase and a similar height and length with the previous generation, from the side Honda new 2018 Odyssey looks longer, lower and more athletic. Front-end features - in particular, the lighting - wrap around to the body sides more emphatically. The model characteristic Z-shaped "lightning bolt" side character lines are more strongly developed, new character lines on the doors add light contrast and visual intrigue, and a new partial black-out treatment for the D-pillar lends the appearance of the Odyssey tapered roof "floating" over the cabin greenhouse.
Caitlin Duncan Honda, 2017-10-19 15:02:33. The strength of the "tailgate ring" (the circular metal structure surrounding the tailgate) is vitally important for superior vehicle handling, stability and ride quality. Debuting on the 2016 Honda Pilot and applied to the 2018 Odyssey for the first time, this advanced tailgate ring contributes to the new model gain in torsional rigidity, benefiting ride, handling and NVH. For the first time in the Odyssey, body stiffness is enhanced using structural foam inserts in key locations. These include the left and right C-pillar stiffeners, and within an inside bracket that connects the left and right side center frames under the front floor. The improved body stiffness pays dividends in handling precision, ride quality, NVH and crash safety.
Libby Wade Honda, 2017-10-19 15:02:33. The 2018 Odyssey receives the most thorough and intensive array of aerodynamic refinements of any Odyssey generation to date. This comprehensive approach boosts aerodynamic efficiency and reduces wind noise. Examples of the aero efforts found on the 2018 Odyssey include extensive under covers, the Active Shutter Grille system, hidden windshield wipers, wind-sculptured side mirrors (power folding on Elite), and many small but pertinent details such as under-body strakes, shark fin-type antenna, and a rear spoiler (black on LX, EX, EX-L and Touring trims, body-color on Elite).
Shannon Griffin Honda, 2017-10-19 15:02:32. The new Honda Odyssey includes an underbody aero package consisting of a 2-piece undercover behind the front fascia and underneath the engine and transmission, flat underbody surfaces extending between the front and rear wheel areas, air-diverting strakes positioned ahead of all four tires, and an additional undercover behind the left rear tire (the tailpipe occupies the space behind the right rear tire). These undercovers directly improve fuel efficiency, particularly on the highway.
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