The invention provides a low phase surge protection device including a voltage converter, a low phase delay detector and an output control switch. The voltage converter receives an alternate current (AC) input voltage, and converts the AC input voltage into a direct current (DC) input voltage. The low phase delay detector receives the DC input voltage to be a power source, enables a phase detection scheme by detecting whether the AC input voltage is in a stable state, and generates an enable signal by detecting a phase of the AC input voltage after the phase detection scheme is enabled. The output control switch receives the AC input voltage, and determines whether to transmit the AC input voltage to be an output voltage according to the enable signal.

A system and method of protecting measurement circuits from a potentially energized device under test (DUT). In one embodiment, the DUT is a capacitor that has acquired a charge though some means prior to needing to test it. In this embodiment, a circuit is provided that protects the measurement circuit by both limiting the current to the measurement circuit while simultaneously dissipating the energy stored in the DUT. In a further embodiment, a detection circuit is provided to measure the voltage at the terminal of the DUT. Only when the magnitude of the voltage is lower than a specific threshold will the measurement circuit be switched to and connected with the DUT.

A processor starts output of a drive signal prior to output of a control signal. The processor determines a fault related to the drive signal based on a detection signal outputted from a detection circuit. In a case where a fault related to the drive signal is not detected, the processor starts output of the control signal. In a case where a fault related to the drive signal is detected, the processor stops output of the drive signal.

A method for electrostatic discharge protection in a receiver and associated receiver are provided. The receiver includes a reference voltage terminal, a detection terminal, at least one set of receiving terminals and at least one set of termination resistors. The method includes: according to a voltage level of the detection terminal, generating a detection result; and according to the detection result, controlling whether to configure said at least one set of termination resistors to be respectively coupled between said at least one set of receiving terminals and the reference voltage terminal.

A power control apparatus can include a power circuit configured to transfer power to a load circuit. The apparatus can also include one or more environmental sensors configured to register environmental data including at least one of movement, hazardous gas, environmental temperature, environmental moisture, and collision data associated with the apparatus. The apparatus can also include a power controller circuit operatively connected to the one or more environmental sensors and the power circuit, the power controller circuit being configured to receive the environmental data from the one or more environmental sensors, determine whether the received environmental data exceeds a predetermined threshold, and in response to determining that the received environmental data exceeded a predetermined threshold, interrupting supply of power from the power circuit to the load circuit.

A system and method of protecting measurement circuits from a potentially energized device under test (DUT). In one embodiment, the DUT is a capacitor that has acquired a charge though some means prior to needing to test it. In this embodiment, a circuit is provided that protects the measurement circuit by both limiting the current to the measurement circuit while simultaneously dissipating the energy stored in the DUT. In a further embodiment, a detection circuit is provided to measure the voltage at the terminal of the DUT. Only when the magnitude of the voltage is lower than a specific threshold will the measurement circuit be switched to and connected with the DUT.

A method is described for operating an electrical system, in particular, of a motor vehicle, which includes at least one electrical consumer, at least one energy source for electrical energy, and at least one control unit, the consumer being test activated by the control unit for the purpose of initializing a start of the system and a voltage level of an electrical voltage in the system being monitored and compared to a predefinable minimum value, and the activation being interrupted if the voltage level falls below the minimum value, and the consumer being subsequently test reactivated. It is provided that the number of the interruptions is counted and the consumer is deactivated at least for a predefinable period of time upon reaching a predefinable maximum number.

In a method and a corresponding device for detecting phase failures in a converter, current regulators of a positive phase sequence system and current regulators of a negative phase sequence system are provided for the current control of the converter, wherein the current regulators of the positive phase sequence system and the current regulators of the negative phase sequence system each have an integrator, resulting, in the case of a network fault, in coupling of the integrators. At least one measured or calculated value is checked by a monitoring unit for a course that is typical of the coupling of the integrators, wherein the monitoring unit generates a fault signal if such a typical course is detected.

The invention relates to a device for detecting a voltage drop between an anode connection and a cathode connection, comprising: a control capacitor, of which the first electrode is connected to the anode connection and the second electrode is connected to the cathode connection; a measuring device, which is designed to output a discharge signal depending on a potential difference detected between the anode connection and the cathode connection and a first threshold value for the potential difference on a discharge control line; a discharge circuit which is connected to the discharge control line and is designed to discharge the control capacitor depending on the discharge signal; and a control device, which is designed to detect the voltage drop by evaluating the state of charge of the control capacitor.

Disclosed are advances in the arts with novel methods and apparatus for detecting faulty connections in an electrical system. Exemplary preferred embodiments include monitoring techniques and systems for monitoring signals at one or more device loads and analyzing the monitored signals for determining fault conditions at the device loads and/or at the main transmission lines. The invention preferably provides the capability to test and monitor electrical interconnections without fully activating the host system.