An input circuit for reading in an analog input signal of a sensor comprises: first and second input ports connectable to the sensor; a first current-measuring signal converter connected to the first input port and comprising a current-measuring apparatus to determine a first output signal from the analog input signal; a current-limiting apparatus inside the first current-measuring signal converter for limiting a maximum current flowing through the first current-measuring signal converter; and a second current-measuring signal converter connected to the second input port and comprising a current-measuring apparatus to determine a second output signal from the analog input signal, wherein the first and second current-measuring signal converters are connected in series; and a testing apparatus for comparing the first and second output signals to detect faults of the first and second current-measuring signal converters in response to deviations between the first and second output signals exceeding a limit value.

Systems, devices, and methods include protection functions in an electrical power system. For example, a processing subsystem may include a processor. A memory subsystem may comprise a first memory section and a second memory section. A memory management subsystem may enable memory access only between the processor and only the first memory section to initialize the at least one protection function and, after initialization of the at least one protection function, enable memory access between the processor and the second memory section. Such a configuration may enable the protection functions as fast as possible without waiting for the functions of lesser criticality to be fully loaded and become operational.

The present invention discloses a data transmission apparatus of a circuit breaker controller. The data transmission apparatus comprises: a first component having a first power supply and a second component having a second power supply. The first component and the second component share a storage device. The second component is connected to a main circuit of the circuit breaker controller. The second component collects parameters of the main circuit and stores the parameters in the storage device. The second power supply powers the second component and is powered by the main circuit. The first component is connected to a communication device. The first component establishes data transmission between the communication device and the storage device. The first power supply powers the first component and is powered by an external power supply. The second power supply is connected to the first power supply and transmits a control signal to the first power supply.

An appliance having a current sensor configured to monitor load current in the appliance associated with operation of one or more components for determining a fault condition thereof. The appliance comprises a smart controller configured to control operations of the appliance and the one or more components each configured to perform an operation of the appliance in response to the smart controller. An input/output (IO) circuit coupled to the smart controller via a local data bus is configured to receive commands from the smart controller and to control the one or more components in response thereto.

An electronic device that has control electronics that have at least one program memory with a computer program stored therein and a processor for executing the computer program. The computer program has software control functions for controlling functions of the electronic device. The electronic device has at least one communication unit coupled to the control electronics, by means of which the electronic device is equipped for data communication with an external computer device. The communication unit is designed as a replaceable communication module. The communication module has a gateway functionality via which a bidirectional conversion takes place between an external communication protocol and/or physical layer used by the external computer device and an internal communication protocol and/or physical layer used between the communication module and the processor. The communication module supports either exactly one external communication protocol or multiple external communication protocols.

The present disclosure pertains to systems and methods to verify information received from a merging unit. In one embodiment, a system may include a merging unit interface comprising a port configured to communicate with the merging unit. The system may include a commissioning subsystem to receive a unique identifier (“UID”) associated with the merging unit using the port during a commissioning process, to store the UID associated with the merging unit, and to associate the UID with the port. In operation, a verification subsystem may receive a plurality of transmissions from the merging unit and verify that the plurality of transmissions originated from the merging unit based on matching the UID stored in the commissioning process with the UID in the plurality of transmissions, and confirming that the plurality of transmissions is received through the port associated with the UID.

Disclosed are a dynamic lightning protection method and system. The method includes detecting lightning in real time and tracking a position of a thunderstorm; and performing dynamic lightning protection and control on an electrical grid according to an electrical grid control strategy before the thunderstorm reaches or affects the electrical grid. Further disclosed is a dynamic lightning protection system.

A method is for status monitoring at least one of two or more current-carrying electrical components, supplyable with electrical energy from an electrical energy source via a common current feed line and from the common current feed line in each case via a separate current supply line, individually openable or closable. In an embodiment, the method includes detecting measured values of an electrical variable in the common current feed line before and after opening or closing one or a plurality of the current supply lines; calculating a difference between a measured value detected before opening or closing and a measured value detected after opening or closing; and determining a status change of at least one of the two or more components based upon a time series of the difference.

Obtained is a power conversion device including a small-sized and low-cost fuse portion which allows overcurrent to be assuredly interrupted when being applied and allows a semiconductor element to be protected from a short-circuit fault or the like. The power conversion device includes: a circuit board; a semiconductor element mounted on the circuit board; a snubber capacitor; a snubber circuit wire which connects the snubber capacitor in parallel to the semiconductor element; and a fuse portion formed at a part of the snubber circuit wire.

Systems, devices, and methods include protection functions in an electrical power system. For example, a processing subsystem may include a processor. A memory subsystem may comprise a first memory section and a second memory section. A memory management subsystem may enable memory access only between the processor and only the first memory section to initialize the at least one protection function and, after initialization of the at least one protection function, enable memory access between the processor and the second memory section. Such a configuration may enable the protection functions as fast as possible without waiting for the functions of lesser criticality to be fully loaded and become operational.