Shannon Griffin BMW, 2017-10-14 15:16:13. The further expanded BMW i ConnectedDrive offering - unmatched by any rival - ensures intelligent connectivity through services specially tailored to electric mobility. The digital On-Street Parking Information search service, now available for the first time in the BMW i3, can also be used alongside the Real Time Traffic Information system if the Navigation system Professional is specified. Public charging stations and information about their availability can also be displayed on the navigation system’s map. When route guidance is activated, data about the route is also used to calculate the range shown in the instrument cluster as accurately as possible. The range map provides a visual representation of the current operating radius. It is also possible to display the different ranges achievable in each of the Driving Experience Control modes. BMW i-specific navigation features also include intermodal route guidance. This helps users to quickly and efficiently reach their destination by factoring in local public transport timetables and connections. Regular, automatic updates of the navigation data are now also provided "over the air" in the BMW i3, using a mobile network connection.
Eleanor Norton BMW, 2017-11-04 19:54:30. The driving experience in the BMW i models has played no small part in the growing appeal and popularity of electric mobility. Following systematic refinement, the BMW eDrive technology aboard the new BMW i3 and new BMW i3s enables drivers to enjoy locally emission-free mobility with wonderfully instantaneous power delivery, efficient use of energy and an optimised range for a level of everyday practicality that even extends beyond the demands of purely urban travel. Both models draw their energy from the lithium-ion high-voltage battery developed by the BMW Group with a capacity of 94 ampere hours (Ah) or 33 kilowatt hours (kWh). A range extender engine can be ordered as an option for both the new BMW i3 and the new BMW i3s.
Mollie Slater Honda, 2017-10-19 15:02:29. 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.
Millie Lowe Honda, 2017-10-19 15:02:28. 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.
Shannon Griffin Honda, 2017-10-19 15:02:28. Like other Honda V6 powerplants, the Honda Odyssey engine 4-valve cylinder heads are a single-overhead-camshaft design, with the cams driven by the crankshaft via an automatically tensioned timing belt. Made of low-pressure die-cast, low-porosity aluminum, each cylinder head incorporates a "tumble port" design that improves combustion efficiency by creating a more homogeneous fuel-air mixture. An integrated exhaust manifold cast into each cylinder head reduces parts count, saves weight, improves flow and optimizes the location of the close-coupled catalyst on each cylinder bank for quick "light off."
Caitlin Duncan Honda, 2017-10-19 15:02:28. In a first for Odyssey, Honda Active Shutter Grille system located below the front bumper reduces aerodynamic drag especially at cruising speeds, directly helping to improve fuel efficiency. Included on all 2018 Odyssey trims, the system uses an electric actuator controlled by a processor that tracks major temperature parameters, including engine coolant and radiator temperatures, intake air temperature, transmission oil temperature and air-conditioning requirements, all of which can vary due to weather, road conditions, vehicle speed, throttle and gear positions, and towing activity. The system either opens or closes the four shutters simultaneously to control the amount of air flowing through the engine radiator and the air conditioner condenser. The system is designed to keep the shutters closed as much as possible - even in city driving.
Niamh Hart Honda, 2017-10-19 15:02:28. 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.
Kiera Shaw Honda, 2017-10-19 15:02:27. 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.
Mollie Slater Honda, 2017-10-19 15:02:27. 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.
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