An anti-short-circuit detection apparatus includes a probe, a detection resistor, a switching circuit, and a detection circuit. The probe is disposed between a power port and a ground port. A first terminal of the detection resistor is electrically coupled to a power circuit of the user terminal, and a second terminal of the detection resistor is electrically coupled to the probe. The switching circuit is electrically coupled to the first terminal of the detection resistor and a processor of the user terminal and is configured to perform switching to be grounded or ungrounded under the control of the processor. The detection circuit is electrically coupled to two terminals of the detection resistor and the processor, and is configured to trigger the processor to control the user terminal to issue a short-circuit warning or turn off the power circuit when the short-circuit current is not zero.

A power electronics installation having electrically active parts and a measuring sensor for measuring a water level within the installation. The power electronics installation is configured in such a way that the installation switches off automatically when the measuring sensor senses the water level.

A power source apparatus and associated method for protecting an electrical device such as a mobile device from an electric shortage are disclosed. The power source apparatus can be provided within the electrical device to provide power to device components. The power source apparatus can include a power source such as a battery, one or more triggering components, and a disconnection component. The triggering component(s) can be connected to a moisture/fluid detection circuit of the electrical device. Upon receiving an input signal indicative of detected moisture/fluid within the electrical device, the triggering component(s) send a disconnection signal to the disconnection component which may be a solenoid. The disconnection component disconnects the power source from device circuitry of the electrical device. The power source apparatus can also include a reconnection component that can be manually actuated by a user or automatically actuated to reconnect the power source to the device circuitry.

A power source apparatus and associated method for protecting an electrical device such as a mobile device from an electric shortage are disclosed. The power source apparatus can be provided within the electrical device to provide power to device components. The power source apparatus can include a power source such as a battery, one or more triggering components, and a disconnection component. The triggering component(s) can be connected to a moisture/fluid detection circuit of the electrical device. Upon receiving an input signal indicative of detected moisture/fluid within the electrical device, the triggering component(s) send a disconnection signal to the disconnection component which may be a solenoid. The disconnection component disconnects the power source from device circuitry of the electrical device. The power source apparatus can also include a reconnection component that can be manually actuated by a user or automatically actuated to reconnect the power source to the device circuitry.

Provided are a waterproof detection circuit and a battery pack. The waterproof detection circuit is applied to a battery pack and includes a waterproof detection terminal, a waterproof detection module, and a switch module. A positive terminal of the battery pack is connected to a first terminal of a microcontroller of the battery pack. A negative terminal of the battery pack is connected to a second terminal of the microcontroller of the battery pack. The microcontroller of the battery pack is activated and controls the switch module to be conducted in response to an impedance change of the positive terminal of the battery pack and the negative terminal of the battery pack.

An electronic device includes: a power source unit including power supply circuitry configured to supply power and a signal corresponding to the power; a power management unit including power management circuitry configured to receive the power from the power source unit to supply the power to the electronic device; a controller configured to be activated when receiving the power from the power management unit to supply a signal corresponding to the power to the power management unit; and a plurality of submersion recognition patterns connected between the power source unit and the power management unit and between the power management unit and the controller, the plurality of submersion recognition patterns configured to recognize submersion of the electronic device, wherein the electronic device is shut down when at least one of the plurality of submersion recognition patterns recognizes submersion, and the electronic device is configured to maintain shutdown when submersion is recognized, even if a request for power supply occurs at the power source unit.

Embodiments provide a method to control a power-on phase of an electronic device is provided. The method includes transmitting, by a processing device, a request to a plurality of sensors, the request to read a measurement related to an environmental condition; receiving, by the processing device, the measurement from each of the plurality of sensors; and when the measurement is equal to or above a threshold value, commencing, by the processing device, the power-on phase of the electronic device.

Embodiments provide a method to control a power-on phase of an electronic device is provided. The method includes transmitting, by a processing device, a request to a plurality of sensors, the request to read a measurement related to an environmental condition; receiving, by the processing device, the measurement from each of the plurality of sensors; and when the measurement is equal to or above a threshold value, commencing, by the processing device, the power-on phase of the electronic device.

A boat is disclosed. The boat includes an electrical storage having a storage element electrically connected to a positive and a negative pole. The boat also includes a water sensor configured to determine whether one of the poles is in contact with water, and a disconnection device operatively connected to the water sensor and configured to interrupt the electrical connection between at least one of the poles and the storage element when the water sensor determines that one of the poles is in contact with water.

Disclosed is an electronic device including a display; a connector; and a processor configured to sense moisture introduced into the connector in a state where one or more functions executable by connection of the connector with an external electronic device are activated; deactivate the one or more functions based on the sensing; determine whether the introduced moisture is removed in a state where the one or more functions are deactivated; and activate the one or more functions if the moisture is removed.