Paige Dodd Ford Fiesta, 2017-11-04 19:54:12. Among a class-leading range of Fiesta driver assistance features - supported by sensor technologies capable of monitoring up to 130 metres ahead - is an enhanced Pedestrian Detection system that for the first time can help prevent collisions at night; and the first Ford Active Park Assist system that can deliver brake interventions to prevent low-speed bumps when parking hands-free.
Mollie Slater Honda, 2017-10-19 15:02:29. Odyssey EX, EX-L, Touring and Elite trims have bright, distinctive LED Daytime Running Lights (DRL). A signature design feature of the new Odyssey, the DRLs utilize Honda characteristic wing shape positioned below and beside the low-beam headlights. Shaped to match the modern, elegant and athletic look of the new Odyssey, the LED DRL array tapers as it moves from the body side toward the inside of the headlight lens. Stylistically, the DRLs strongly and clearly define the front corners of the Odyssey.
Millie Lowe Honda, 2017-10-19 15:02:30. Located behind the instrument panel, the Honda Odyssey cast magnesium steering hanger beam replaces the multi-part steel unit in the previous Odyssey. Its purpose is as a structural attachment point for the steering column and instrument panel, as well as a structural element that helps the passenger cabin retain its shape in certain collisions. For the first time, the Odyssey body structure also utilizes composite materials to further reduce weight while enhancing rigidity and noise dampening. One example is inside the C-pillars, where composite stiffeners, together with the structural foam mentioned above help improve body rigidity. Another example is the base that supports the Odyssey battery. Created from a single composite casting, it holds the battery securely while adding minimal weight to the overall body structure, saving 2.9 lbs. over the previous Odyssey.
Niamh Hart Honda, 2017-10-19 15:02:29. Based on Honda global light truck platform, the 2018 Odyssey body structure has 44-percent greater torsional rigidity than the previous model. High-strength steel comprises 58 percent of the body structure, contributing to both improved stiffness and reduced mass for the unit-body. Stiffening the body with ultra-high-strength steel, hot-stamped steel and adhesives in critical areas likewise directly contribute to reduced noise and vibration, and improved ride and handling. The structural improvements also help reduce mass, directly contributing to increased fuel efficiency.
Niamh Hart Honda, 2017-10-19 15:02:30. 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).
Paige Dodd Honda, 2017-10-19 15:02:31. 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.
Mollie Slater Honda, 2017-10-19 15:02:30. 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.
Libby Wade Honda, 2017-10-19 15:02:31. The Honda Odyssey Drive-by-Wire throttle system replaces a conventional throttle cable with smart electronics that "connect" the accelerator pedal to a throttle valve inside the throttle-body. The result is less under-hood clutter and lower weight, as well as quicker and more accurate throttle actuation. Plus, a tunable "gain" rate - the relationship between throttle pedal application and throttle opening - offers improved drivability and optimized engine response to suit specific driving conditions. Honda Drive-by-Wire throttle system establishes the current driving conditions by monitoring throttle pedal position, throttle valve position, engine speed (rpm) and road speed. This information is used to define the throttle control sensitivity that gives the Odyssey throttle pedal a predictable and responsive feel that meets driver expectations.
Any content, trademark/s, or other material that might be found on this site that is not this site property remains the copyright of its respective owner/s. In no way does tnahid claim ownership or responsibility for such items, and you should seek legal consent for any use of such materials from its owner.