A semiconductor device and a power-off method of the semiconductor device, the semiconductor device including a first power source group including first and second power sources, a second power source group including a third power source and a power sequence controller. The power sequence controller performs power-on operations and power-off operations of the first to third power sources. The power sequence controller starts a power-off operation of the first power source group at a first time, and starts a power-off operation of the second power source group when the power voltage of the first power source group becomes a first voltage or when a first reference time has passed from the first time.

A semiconductor device and a power-off method of the semiconductor device, the semiconductor device including a first power source group including first and second power sources, a second power source group including a third power source and a power sequence controller. The power sequence controller performs power-on operations and power-off operations of the first to third power sources. The power sequence controller starts a power-off operation of the first power source group at a first time, and starts a power-off operation of the second power source group when the power voltage of the first power source group becomes a first voltage or when a first reference time has passed from the first time.

Systems and methods for load detection on serial communication data lines are provided herein. In certain configurations, a serial communication system includes a data line having a load capacitance and a master device configured to generate a command signal for a slave device to measure the load capacitance on the data line. The system further includes a slave device including a load detector including a controller configured to receive the command signal from the master device, provide a first fixed current to the data line, determine an amount of time elapsed while the data line is driven to a first threshold value, and determine the load capacitance of the data line based on the amount of time elapsed.

Systems and methods for load detection on serial communication data lines are provided herein. In certain configurations, a serial communication system includes a data line having a load capacitance and a master device configured to generate a command signal for a slave device to measure the load capacitance on the data line. The system further includes a slave device including a load detector including a controller configured to receive the command signal from the master device, provide a first fixed current to the data line, determine an amount of time elapsed while the data line is driven to a first threshold value, and determine the load capacitance of the data line based on the amount of time elapsed.

A method of peak power management (PPM) is provided for two NAND memory dies. each NAND memory die comprises a PPM circuit having a PPM contact pad held at an electric potential common between the two NAND memory dies. The method includes the following steps: detecting the electric potential during a first peak power check (PPC) routine for the first NAND memory die; driving the electric potential to a second voltage level if the detected electric potential is at a first voltage level higher than the second voltage level; generating a pausing signal in the electric potential to pause a second PPC routine for the second NAND memory die if no pausing signal is detected; and generating a resuming signal in the electric potential to resume the second PPC routine for the second NAND memory die after the first NAND memory die completes a first peak power operation.

A control method of a power supply path includes detecting a plug-in state of a first connector through a configuration channel pin of the first connector; acquiring a plurality of rated voltages of a first power adaptor externally connected to the first connector and a rated current corresponding to each of the rated voltages; detecting a plug-in state of a second connector through a direct-current (DC) input pin of the second connector; acquiring a power quota of a second power adaptor externally connected to the second connector; selecting, from the plurality of rated voltages, the largest one that is not greater than an operating voltage, as a selected rated voltage; calculating a power quota of the selected rated voltage; and controlling a switching circuit to couple a power circuit to a power pin of one of the first and second connectors according to the two power quotas.

A data transmission method is provided, the method is applied to a wearable apparatus configured with a first operation system and a second operation system, and a power consumption of the first operation system is lower than a power consumption of the second operation system; the method; the method includes: obtaining a type of data to be transmitted; detecting current screen state information of the wearable apparatus; and determining target data according to the current screen state information of the wearable apparatus and the type of data to be transmitted, and transmitting the target data from the first operation system of the wearable apparatus to the second operation system of the wearable apparatus.

A data transmission method is provided, the method is applied to a wearable apparatus configured with a first operation system and a second operation system, and a power consumption of the first operation system is lower than a power consumption of the second operation system; the method; the method includes: obtaining a type of data to be transmitted; detecting current screen state information of the wearable apparatus; and determining target data according to the current screen state information of the wearable apparatus and the type of data to be transmitted, and transmitting the target data from the first operation system of the wearable apparatus to the second operation system of the wearable apparatus.

An information providing apparatus provides information concerning a lendable electric power supply device. More specifically, the information providing apparatus for providing information via a network in response to a request from a terminal, performs the following processes. The apparatus receives, from the terminal via the network, an information request concerning a lendable electric power supply device configured to supply electric power, acquires information concerning electric power that can be provided by the electric power supply device and a lending price of the electric power supply device by communicating with the electric power supply device via the network. The apparatus further edits, based on the acquired information, information to be provided to the terminal that has issued the information request, and transmits the edited information to the terminal that has issued the information request via the network.

An information providing apparatus provides information concerning a lendable electric power supply device. More specifically, the information providing apparatus for providing information via a network in response to a request from a terminal, performs the following processes. The apparatus receives, from the terminal via the network, an information request concerning a lendable electric power supply device configured to supply electric power, acquires information concerning electric power that can be provided by the electric power supply device and a lending price of the electric power supply device by communicating with the electric power supply device via the network. The apparatus further edits, based on the acquired information, information to be provided to the terminal that has issued the information request, and transmits the edited information to the terminal that has issued the information request via the network.