A device for detecting a function of a contactor, the contactor is configured to short three-phase phase lines of an elevator motor together by closing contacts, the device including: a voltage signal source coupled with the contactor; a voltage detection unit coupled with the three-phase phase lines of the elevator motor; a switching unit arranged between the contactor and the voltage signal source and between the voltage detection unit and the three-phase phase lines, in a detection mode, the switching unit is configured to conduct the voltage signal source to the contactor to provide a voltage detection signal to the three-phase phase lines via the contactor and to conduct the voltage detection unit to the three-phase phase lines, the voltage detection unit being configured to measure voltage of the three-phase phase lines and to output measurement to a control unit.

A device for detecting a function of a contactor, the contactor is configured to short three-phase phase lines of an elevator motor together by closing contacts, the device including: a voltage signal source coupled with the contactor; a voltage detection unit coupled with the three-phase phase lines of the elevator motor; a switching unit arranged between the contactor and the voltage signal source and between the voltage detection unit and the three-phase phase lines, in a detection mode, the switching unit is configured to conduct the voltage signal source to the contactor to provide a voltage detection signal to the three-phase phase lines via the contactor and to conduct the voltage detection unit to the three-phase phase lines, the voltage detection unit being configured to measure voltage of the three-phase phase lines and to output measurement to a control unit.

Device for ratiometric measurement of voltages for an analog-digital converter, wherein the device comprises a functional providing unit, a microcontroller and a first sensor, wherein a reference voltage is provided to the microcontroller and a first supply voltage is provided to the first sensor and the microcontroller by the functional providing unit, and wherein the first sensor is connected to the microcontroller in terms of signalling by transmitting sensor signals, and wherein the microcontroller comprises a first multiplexer and a second multiplexer, wherein the multiplexers outputs signals to the analog-digital-converter. According to the invention, it is provided that the reference voltage and the first supply voltage are in each case present on the input side at the first multiplexer and at the second multiplexer, wherein in a first switching state the first supply voltage can be measured on the output side by using the reference voltage as a reference for the analog-digital-converter and in a second switching state the reference voltage can be measured by using the first supply voltage as a reference for the analog-digital-converter.

Device for ratiometric measurement of voltages for an analog-digital converter, wherein the device comprises a functional providing unit, a microcontroller and a first sensor, wherein a reference voltage is provided to the microcontroller and a first supply voltage is provided to the first sensor and the microcontroller by the functional providing unit, and wherein the first sensor is connected to the microcontroller in terms of signalling by transmitting sensor signals, and wherein the microcontroller comprises a first multiplexer and a second multiplexer, wherein the multiplexers outputs signals to the analog-digital-converter. According to the invention, it is provided that the reference voltage and the first supply voltage are in each case present on the input side at the first multiplexer and at the second multiplexer, wherein in a first switching state the first supply voltage can be measured on the output side by using the reference voltage as a reference for the analog-digital-converter and in a second switching state the reference voltage can be measured by using the first supply voltage as a reference for the analog-digital-converter.

A USB Type-C receiver device, includes: a port including a channel configuration input; a ground pin; and a protection circuit for protection against high voltages on the channel configuration input, wherein the protection circuit includes a resistive circuit coupled between the channel configuration input and the ground terminal and configured to form both a voltage divider and a resistive pull-down circuit coupled between the channel configuration input and the ground pin.

A USB Type-C receiver device, includes: a port including a channel configuration input; a ground pin; and a protection circuit for protection against high voltages on the channel configuration input, wherein the protection circuit includes a resistive circuit coupled between the channel configuration input and the ground terminal and configured to form both a voltage divider and a resistive pull-down circuit coupled between the channel configuration input and the ground pin.

Provided is a power detection circuit for tracking a maximum power point of a solar cell. The power detection circuit includes: an average voltage extracting unit which extracts an average voltage V.sub.PV,LPF from an external voltage V.sub.PV input from an external energy source; a ripple voltage extracting unit which extracts a ripple voltage including current information of the external voltage V.sub.PV from the external voltage V.sub.PV; a voltage-time converter which generates a ramp voltage V.sub.RAMP changing at a predetermined rate and converts the average voltage V.sub.PV,LPF and the ripple voltage into corresponding time information t.sub.1 and t.sub.2 based on the ramp voltage V.sub.RAMP; a time-digital converter which converts the time information t.sub.2 for the ripple voltage into a digital code t.sub.2 [n:0]; and a time multiplier which multiplies the digital code t.sub.2 [n:0] and the time information t.sub.1 for the average voltage V.sub.PV,LPF to output a specific voltage value.

Provided is a power detection circuit for tracking a maximum power point of a solar cell. The power detection circuit includes: an average voltage extracting unit which extracts an average voltage V.sub.PV,LPF from an external voltage V.sub.PV input from an external energy source; a ripple voltage extracting unit which extracts a ripple voltage including current information of the external voltage V.sub.PV from the external voltage V.sub.PV; a voltage-time converter which generates a ramp voltage V.sub.RAMP changing at a predetermined rate and converts the average voltage V.sub.PV,LPF and the ripple voltage into corresponding time information t.sub.1 and t.sub.2 based on the ramp voltage V.sub.RAMP; a time-digital converter which converts the time information t.sub.2 for the ripple voltage into a digital code t.sub.2 [n:0]; and a time multiplier which multiplies the digital code t.sub.2 [n:0] and the time information t.sub.1 for the average voltage V.sub.PV,LPF to output a specific voltage value.

Various embodiments described in this disclosure pertain to methods and systems for detecting and evaluating oscillations in an electrical power grid. The oscillations can include one or more oscillatory conditions, which can occur in one or more of five predefined frequency bands. Each of the five predefined frequency bands is categorized at least in part, by oscillations that are originated by uniquely different sources. In one embodiment, an oscillation detector can be used to detect the oscillatory condition and determine a magnitude characteristic, a phase characteristic, and/or a damping characteristic of at least one oscillation frequency that contributes to the oscillatory condition.

Various embodiments described in this disclosure pertain to methods and systems for detecting and evaluating oscillations in an electrical power grid. The oscillations can include one or more oscillatory conditions, which can occur in one or more of five predefined frequency bands. Each of the five predefined frequency bands is categorized at least in part, by oscillations that are originated by uniquely different sources. In one embodiment, an oscillation detector can be used to detect the oscillatory condition and determine a magnitude characteristic, a phase characteristic, and/or a damping characteristic of at least one oscillation frequency that contributes to the oscillatory condition.