An RF switching device having distributed shunt switches distributed along transmission lines to improve RF bandwidth as well as the signal isolation of the device. The shunt switches may be physically positioned on both sides of the transmission lines to keep an integrated circuit (IC) design essentially symmetrical so as to provide predictable and reliable operational characteristics. Some embodiments include stacked FET shunt switches and series switches to tolerate high voltages. In some embodiments, the gate resistor for each FET shunt switch is divided into two or more portions.

An output module for a PLC includes an output circuit. This output circuit is open or closed selectively between a power supply terminal (to which a power supply voltage is supplied) and an output terminal (connected to a solenoid). The output module includes a control apparatus which controls the operation of the output circuit. The output circuit includes switches connected in series to each other between the power supply terminal and the output terminal, and a current output section which performs an operation of short-circuiting terminals of the switch to pass a predetermined current through a path formed due to the short-circuiting. The control apparatus includes on/off control sections which controls on/off states of the respective switches, and diagnosis sections which perform a diagnosis on presence of a short-circuit fault in the respective switches based on diagnostic signals output from a low-potential terminal of the switches.

An output module for a PLC includes an output circuit. This output circuit is open or closed selectively between a power supply terminal (to which a power supply voltage is supplied) and an output terminal (connected to a solenoid). The output module includes a control apparatus which controls the operation of the output circuit. The output circuit includes switches connected in series to each other between the power supply terminal and the output terminal, and a current output section which performs an operation of short-circuiting terminals of the switch to pass a predetermined current through a path formed due to the short-circuiting. The control apparatus includes on/off control sections which controls on/off states of the respective switches, and diagnosis sections which perform a diagnosis on presence of a short-circuit fault in the respective switches based on diagnostic signals output from a low-potential terminal of the switches.

The disclosure provides an electrical apparatus, including a substrate, a plurality of gate driver units and a plurality of gate lines. The gate driver units are disposed on the substrate. The gate lines are disposed on the substrate. Each of the gate lines is respectively electrically connected to the corresponding gate driver unit. Each of the gate lines is configured to transmit a respective gate signal. The gate lines include a first gate line and a second gate line. The first gate line and the second gate line are configured to transmit the respective gate signals at a same time.

A high-speed multiplexor comprises a set of differential input pairs to receive and mix a set of differential input signals at a differential output node pair. The high-speed multiplexer further comprises an active inductive load pair driven by the input stage using the mixed set of differential input signals. Each active inductive load comprises a p-channel field effect transistor (pFET) device connected to one of the differential output node pairs and a resistor connected between a gate node and a drain node of the pFET device. The multiplexer further comprises a first cross-coupling capacitor connected between the gate node of a first inductive load and a second output node of the differential output node pair and a second cross-coupling capacitor connected between the gate node of a second inductive load and a first output node of the differential output node pair.

A high-speed multiplexor comprises a set of differential input pairs to receive and mix a set of differential input signals at a differential output node pair. The high-speed multiplexer further comprises an active inductive load pair driven by the input stage using the mixed set of differential input signals. Each active inductive load comprises a p-channel field effect transistor (pFET) device connected to one of the differential output node pairs and a resistor connected between a gate node and a drain node of the pFET device. The multiplexer further comprises a first cross-coupling capacitor connected between the gate node of a first inductive load and a second output node of the differential output node pair and a second cross-coupling capacitor connected between the gate node of a second inductive load and a first output node of the differential output node pair.

A light source device includes: a light-emitting section including a light-emitting element, the light-emitting element including a thyristor; and a controller that performs control to supply a light-emitting current to the light-emitting section so as to cause the light-emitting element to emit light and then to supply a reemission stop pulse to the light-emitting section so as to cause the light-emitting element to become unable to reemit light.

An output module for a PLC includes an output circuit. This output circuit is open or closed selectively between a power supply terminal (to which a power supply voltage is supplied) and an output terminal (connected to a solenoid). The output module includes a control apparatus which controls the operation of the output circuit. The output circuit includes switches connected in series to each other between the power supply terminal and the output terminal, and a current output section which performs an operation of short-circuiting terminals of the switch to pass a predetermined current through a path formed due to the short-circuiting. The control apparatus includes on/off control sections which controls on/off states of the respective switches, and diagnosis sections which perform a diagnosis on presence of a short-circuit fault in the respective switches based on diagnostic signals output from a low-potential terminal of the switches.

An output module for a PLC includes an output circuit. This output circuit is open or closed selectively between a power supply terminal (to which a power supply voltage is supplied) and an output terminal (connected to a solenoid). The output module includes a control apparatus which controls the operation of the output circuit. The output circuit includes switches connected in series to each other between the power supply terminal and the output terminal, and a current output section which performs an operation of short-circuiting terminals of the switch to pass a predetermined current through a path formed due to the short-circuiting. The control apparatus includes on/off control sections which controls on/off states of the respective switches, and diagnosis sections which perform a diagnosis on presence of a short-circuit fault in the respective switches based on diagnostic signals output from a low-potential terminal of the switches.

A current control element includes a control electrode, a first electrode, and a second electrode, is an element in which a current flowing from the second electrode to the first electrode is controlled by a voltage or a current between the control electrode and the first electrode, and does not include a built-in PN body diode between the first electrode and the second electrode, a rectifying element can be a Schottky barrier diode, a charge amount of the rectifying element at a time of reverse bias is smaller than an output charge amount of the current control element, an anode of the rectifying element and a cathode of the rectifying element are electrically connected to the auxiliary terminal and the second electrode, respectively, and the control electrode, the first electrode, and the second electrode are electrically connected to the control terminal, the first terminal, and the second terminal, respectively.