In some examples, an electrical power system includes a solid state power converter including a first set of switches on a source side of the solid state power converter and a second set of switches on a load side of the solid state power converter. The electrical power system also includes a power source connected to the source side of the solid state power converter and also includes a differential bus connected to the load side of the solid state power converter. The electrical power system further includes a controller configured to receive a first signal indicating a current at the source side and receive a second signal indicating a current at the load side. The controller is further configured to detect, based on a time derivative of the first signal and a time derivative of the second signal, a fault in the electrical power system.

A detection circuit, provided in a gamma buffer circuit that includes at least one transistor that receives the application of a first voltage and generates gradation voltages on the basis of a plurality of gamma voltages, includes: a first comparison circuit that compares the largest gamma voltage with a substrate potential of the transistor and outputs a first comparison result signal, a second comparison circuit that includes an inverter which is operable under a second voltage as a source voltage, compares a threshold voltage of the inverter with the substrate potential, and outputs a second comparison result signal; and a detection result output circuit for outputting a detection result showing if the voltage decrease or power discontinuity of the first voltage is occurring on the basis of the first comparison result signal and the second comparison result signal.

An electrical connector includes a housing with a plurality of electrical contacts, including a ground contact, extending therefrom. The connector has a shell with the housing positioned therein. A monitor circuit is positioned in the housing and configured to determine continuity between the shell and the ground contact. In some examples, the monitor circuit includes an output connected to an indicator that is configured to output a signal in response to the continuity determination to indicate the condition of the connection between the ground contact and the connector shell.

A method for estimating a property of a signal (1) sensed in an electrical system, comprises the steps of sensing the signal (1) and estimating a fundamental period of a fundamental of the signal (1) by comparing the sensed signal (1) with at least one threshold (2) to detect threshold crossings and estimating the fundamental period from the threshold crossings. The signal property is then estimated from the fundamental period and/or from the sensed signal (1) during an interval of a length of the fundamental period.

An electronic device according to the invention comprises a micro controller and/or an analogue circuitry which performs the method for estimating a property of a signal. Preferably, the micro controller and/or analogue circuitry controls other parts of the electronic device depending on the results obtained by the method for estimating a property of a signal.

A method and apparatus for predicting a reference voltage in a memory subsystem is disclosed. A memory subsystem includes a memory controller coupled to a memory. The memory controller includes a lookup table having a number of different reference voltage values each corresponding to one of a number of different performance states. The memory controller further includes calibration circuitry configured to determine reference voltages for operation in various performance states. Responsive to returning to a performance state after operating in another, the calibration circuitry may restore the reference voltage to its most recently used value, and also obtain a predicted reference voltage. Calibrations may be performed at both the restored reference voltage and the predicted reference voltage obtained from the lookup table. The subsequent operating reference voltage may then be selected based on which of the two calibrations resulted in the largest data eye width.

A low-cost, portable potentiostat capable of performing several different electrochemical experiments (e.g. cyclic voltammetry and anodic stripping voltammetry) was designed. The potentiostat runs on one or more batteries and has a battery life of over two weeks. Further, the potentiostat of the present invention is capable of self-calibrating and has a linear dynamic range spanning several orders of magnitude. It is also capable of saving data onto an onboard data storage card and is able to export the data to a computer for additional analysis. The potentiostat requires no peripheral hardware and is suitable for use by those with even minimal training in electrochemistry.

A power detection circuit is provided. The power detection circuit includes a comparator circuit operative to generate an output signal in response to an input signal. The output signal is configured to change from a first value to a second value in response to the input signal attaining a first threshold value. The output signal is configured to change from the second value to the first value in response to the input signal subsequently attaining a second threshold value. A current limiting circuit is connected to the comparator circuit and operative to limit a leakage current of the comparator circuit.

An apparatus and method for diagnosing damage of a switch in a battery protection circuit include a battery protection circuit including a first switch and a second switch connected to a battery pack and a switch damage diagnosing device for measuring in the battery protection circuit and for diagnosing whether any one of the first switch and the second switch is damaged. The source terminal of the first switch and the source terminal of the second switch can be connected to a common source, which can diagnose whether or not the switch is damaged only by measuring the voltage at a certain point without measuring a current.

Disclosed is an electronic device is provided. The electronic device includes a first substrate, a second substrate arranged to be spaced apart from the first substrate, a first cable electrically connecting a first point on the first substrate and a second point on the second substrate, and a second cable electrically connecting a third point on the first substrate and a fourth point on the second substrate. The first substrate may include a first communication circuit, a second communication circuit, a detection circuit, a voltage application unit, and a ground unit, and a second substrate may include a first antenna, a first capacitive element, a second antenna, a second capacitive element, and an isolation circuit. The isolation circuit may isolate a radio frequency (RF) signal between the first path and the second path, and electrically connect the detection circuit to the ground unit through the first cable and the second cable.

A plurality of driving circuits drive a plurality of contactors for connecting the battery pack and an external apparatus, respectively, based on a supply voltage. A processing circuitry control the plurality of driving circuits to sequentially close the plurality of contactors in a predetermined order, and check the supply voltage before closing each of the contactors.