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The mechanical fly-weight governors of inline and distributor diesel fuel injection pumps used to control fuel delivery in diesel engines under a variety of engine loads and conditions could no longer deal with the ever-increasing demands for efficiency, emission control, power and fuel consumption. These demands are now primarily fulfilled by ...
The precursor to the 1010 was introduced around 1998 as the 265H or H-Engine. The H-engine was initially designed for use as a 6,300 hp (4,700 kW) 16 cylinder, the EMD SD90MAC; however, the early engines were found to be unreliable, and unsuccessful in the market, with the proven EMD 710 2-stroke design being preferred. The EMD four-stroke ...
A crank sensor (CKP) [1] [2] [3] is an electronic device used in an internal combustion engine, both petrol and diesel, to monitor the position or rotational speed of the crankshaft. This information is used by engine management systems to control the fuel injection or the ignition system timing and other engine parameters
Microprocessor system SECU-3 for internal combustion engine control, p.22-25 ISBN 978-966-8736-05-6; Fuel injection time calculation in the internal combustion engine control unit SECU-3, p.55-56; SECU-3i PROGRAMMABLE ENGINE MANAGEMENT SYSTEM, с.67-73; MICROPROCESSOR CONTROLLED IGNITION SYSTEM SECU-3 MICRO, с.55-61
The concept of the intelligent engine revolves around the idea that the engine is thinking for itself. The brain of the system is an electronic control system that analyzes the condition of the engine and the operation of the engine’s system (The fuel injection, exhaust valve, cylinder lube oil and turbo charging system).
The manifold absolute pressure sensor (MAP sensor) is one of the sensors used in an internal combustion engine's electronic control system. Engines that use a MAP sensor are typically fuel injected. The manifold absolute pressure sensor provides instantaneous manifold pressure information to the engine's electronic control unit (ECU).
The GP60 was EMD's first engine that was classified as a "third-generation" locomotive. Hidden behind the electrical cabinet doors on the rear wall of the cab, the GP60 concealed a trio of microprocessors that monitored and managed a host of engine, cooling system and control functions. The engine's on-board microprocessors replaced hundreds of ...
The engine uses an engine management system made by Siemens using common-rail injection [2] with an injection pressure of 1600 bar. [3] It uses a turbocharger and intercooler. 8-valve and 16-valve versions of the engine are produced, differing in valvetrain and subsequent cylinder head design.