This paper provides to solve a problem about the transport communications and parallel alternators synchronization. Around this suggestion, the fully-electric idea attracts the researchers and developers attention, by changing the… Click to show full abstract
This paper provides to solve a problem about the transport communications and parallel alternators synchronization. Around this suggestion, the fully-electric idea attracts the researchers and developers attention, by changing the pneumatic and hydraulic devices to electrical systems. Moreover, this transport electrification based on embedded electrical network, which can be described as a parallel multi turbo-alternators connecting in the same bus-bar, to produce the electricity to various loads. In this paper, remote control and monitoring of embedded electrical network in real time is discussed. Indeed, the embedded electrical network applied on transport electrification depends on conditions that should be respected in parallel alternators, to avoid disturbances in estimation values and energy crisis. In this order, a smart synchronization device will be achieved. It is based on embedded device “Raspberry Pi” and ethernet protocol for communication. The synchronization device sends all estimations data to application web, by using a local database in “Raspberry Pi”. Therefore, any change in data estimations or unbalance in parallel alternators conditions, the smart device sends a real-time alert and warning to smartphone application.
               
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