Abstract: An integrated power control device and method are provided. In one embodiment, a device includes a body, a plurality of sockets for connection with a load, and a plurality of switch-controls each connected with corresponding one of the sockets and controlling power connecting to the load. The device further includes a microprocessor for the input, output, calculation and control of data and information flow, wherein the microprocessor issues commands to the switch-controls to execute switch on or off on the sockets, a timer, and a data storage unit for data storage so as to provide the microprocessor to access the data. A voltage-and-current detector detects voltage and current values and stores them into the data storage through the microprocessor. A voltage-current alerting unit receives the voltage values and current values and informs the microprocessor when the values exceed predetermined thresholds. Finally, a power computational unit calculates power consumption of the load.

Abstract: An integrated power control device and method are provided. In one embodiment, a device includes a body, a plurality of sockets for connection with a load, and a plurality of switch-controls each connected with corresponding one of the sockets and controlling power connecting to the load. The device further includes a microprocessor for the input, output, calculation and control of data and information flow, wherein the microprocessor issues commands to the switch-controls to execute switch on or off on the sockets, a timer, and a data storage unit for data storage so as to provide the microprocessor to access the data. A voltage-and-current detector detects voltage and current values and stores them into the data storage through the microprocessor. A voltage-current alerting unit receives the voltage values and current values and informs the microprocessor when the values exceed predetermined thresholds. Finally, a power computational unit calculates power consumption of the load.

Abstract: A microwave control system is applied to control a working system to execute at least one predetermined assignment, and comprises a microwave control unit, a control card and a passive control unit. A microwave illuminator of the microwave control unit is applied to send a microwave signal. After receiving the microwave signal, the control card reflects a reflection signal to the microwave control unit, wakes up from a first sleep mode to enter a first awake mode, and sends a first control signal to the passive control unit. After the microwave control unit receives the reflection signal, the passive control unit wake up from a second sleep mode to enter a second awake mode, and the passive control unit transmits a second control signal in accordance with the first control signal to the working system, so as to control the working system to execute the predetermined assignment.

Abstract: A collaborative wireless micro-control system applied to a detached space comprises a main control unit, and a plurality of interior control unit. Wherein, the main control unit has a microprocessor, a transmitter, and a receiver. The receiver receives the outside wireless signal from the electronic apparatus. The microprocessor parses the outside wireless signal and sends out a wireless control signal inside the detached space by using the transmitter. Each of the interior control units has a microprocessor, a transmitter, and a receiver. The control unit is utilized as a user interface (human machine interface) for controlling a respective electronic apparatus. The receiver of the interior control unit receives the wireless control signal from the main control unit. The microprocessor of the interior control unit tells whether the wireless control signal can trigger the respective electronic apparatus or not.

Abstract: A collaborative wireless micro-control system applied to a detached space comprises a main control unit, and a plurality of interior control unit. Wherein, the main control unit has a microprocessor, a transmitter, and a receiver. The receiver receives the outside wireless signal from the electronic apparatus. The microprocessor parses the outside wireless signal and sends out a wireless control signal inside the detached space by using the transmitter. Each of the interior control units has a microprocessor, a transmitter, and a receiver. The control unit is utilized as a user interface (human machine interface) for controlling a respective electronic apparatus. The receiver of the interior control unit receives the wireless control signal from the main control unit. The microprocessor of the interior control unit tells whether the wireless control signal can trigger the respective electronic apparatus or not.