Synchronous control system architecture with improved energy saving efficiency remotely monitors battery state of multiple sub-systems real-time

The invention provides a synchronous control system architecture with improved energy saving efficiency comprising a master system and at least a power supply sub-system. The master system comprises a power usage analysis module. The power supply sub-system communicates with the master system throug...

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Hauptverfasser:	CHEN, MENGI, PENG, KUO-KUANG, TSENG, PO-YIN, LIAN, KUO-MIN, LIAO, SHU-YU
Format:	Patent
Sprache:	chi ; eng
Schlagworte:	CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTINGELECTRIC POWER CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY GENERATION SYSTEMS FOR STORING ELECTRIC ENERGY
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creator	CHEN, MENGI PENG, KUO-KUANG TSENG, PO-YIN LIAN, KUO-MIN LIAO, SHU-YU
description	The invention provides a synchronous control system architecture with improved energy saving efficiency comprising a master system and at least a power supply sub-system. The master system comprises a power usage analysis module. The power supply sub-system communicates with the master system through a signal break device by way of wired or wireless manner. The power supply sub-system comprises at least one battery module and a power supply process module. The power supply process module is electrically connected to the battery module and configured for receiving a detection signal of the battery module and confirming battery state of the battery module based upon the detection signal. Afterward the signal is transmitted to the power usage analysis module of the master system for analysis, wherein the master system, based upon the battery state, sends a feedback signal to the power supply process module for analyzing. Accordingly, the master system remotely monitors battery state of multiple sub-systems real-
format	Patent
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The master system comprises a power usage analysis module. The power supply sub-system communicates with the master system through a signal break device by way of wired or wireless manner. The power supply sub-system comprises at least one battery module and a power supply process module. The power supply process module is electrically connected to the battery module and configured for receiving a detection signal of the battery module and confirming battery state of the battery module based upon the detection signal. Afterward the signal is transmitted to the power usage analysis module of the master system for analysis, wherein the master system, based upon the battery state, sends a feedback signal to the power supply process module for analyzing. 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The master system comprises a power usage analysis module. The power supply sub-system communicates with the master system through a signal break device by way of wired or wireless manner. The power supply sub-system comprises at least one battery module and a power supply process module. The power supply process module is electrically connected to the battery module and configured for receiving a detection signal of the battery module and confirming battery state of the battery module based upon the detection signal. Afterward the signal is transmitted to the power usage analysis module of the master system for analysis, wherein the master system, based upon the battery state, sends a feedback signal to the power supply process module for analyzing. 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language	chi ; eng
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subjects	CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTINGELECTRIC POWER CONVERSION OR DISTRIBUTION OF ELECTRIC POWER ELECTRICITY GENERATION SYSTEMS FOR STORING ELECTRIC ENERGY
title	Synchronous control system architecture with improved energy saving efficiency remotely monitors battery state of multiple sub-systems real-time
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