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The engine has three turbochargers and is rated at 285 kW (382 hp) and 800 N⋅m (590 lb⋅ft) of torque in left-hand drive markets, whereas it has two turbochargers and is rated at 240 kW (322 hp) and 700 N⋅m (516 lb⋅ft) of torque in right-hand drive markets. [50]
In 2012, a "Technical Update" was applied to the N63, resulting in the N63TU variants (also known as N63B44O1).The main upgrade was the addition of Valvetronic. [11] [12] Other changes include revised turbochargers, removal of the blowoff valve, lighter pistons, forged connecting rods and crankshaft, addition of a valve cover labyrinth oil catch/return system, new valve stem seals, revised ...
The first BMW M5, based on the E28 5 Series, was manufactured from October 1984 to June 1988. [8] It made its debut at the Amsterdam Motor Show in February 1985. [9] It was based on the 535i chassis with various mechanical changes, most notably the M88/3 engine (shared with the E24 M635CSi grand tourer coupé) which was an updated version of the engine used in the M1 sports car. [8]
The E60 M5 is powered by the BMW S85 V10 engine, which produces 373 kW (500 hp) at 7,750 rpm, 520 N⋅m (384 lb⋅ft) at 6,100 rpm and has a redline of 8,250 rpm. [ 26 ] [ 27 ] The 0–100 km/h (0–62 mph) acceleration time is 4.7 seconds.
The sixth generation of the BMW 5 Series consists of the BMW F10 (saloon version), F18 (long-wheelbase saloon), BMW F11 (wagon, marketed as Touring) and BMW F07 (fastback/hatchback, marketed as Gran Turismo) executive cars and were produced by BMW from January 2010 (for the 2011 model year) to 2017, with F10 being launched on 20 March 2010 to domestic market and F11 in the summer of 2010. [10]
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A wiring diagram for parts of an electric guitar, showing semi-pictorial representation of devices arranged in roughly the same locations they would have in the guitar. An automotive wiring diagram, showing useful information such as crimp connection locations and wire colors. These details may not be so easily found on a more schematic drawing.
Speed sensor failures are frequent, and are mainly due to the extremely harsh operating conditions encountered in rail vehicles. The relevant standards specify detailed test criteria, but in practical operation the conditions encountered are often even more extreme (such as shock / vibration and especially electromagnetic compatibility (EMC)).