Abstract: A circuit arrangement in which a further electronic component for connecting and amplifying an electrical voltage is arranged between a first series arm and a second series arm to achieve limiting of a voltage between a first clamping point and a second clamping point in the circuit arrangement. An input of the second component is connected by a resistor to the output of a third component, and a device for producing a second reference voltage is arranged between the second series arm and the second component such that it is possible lower the voltage at the first clamping point when the flow of current through the load resistor is interrupted.

Abstract: A circuit arrangement in which a further electronic component for connecting and amplifying an electrical voltage is arranged between a first series arm and a second series arm to achieve limiting of a voltage between a first clamping point and a second clamping point in the circuit arrangement. An input of the second component is connected by a resistor to the output of a third component, and a device for producing a second reference voltage is arranged between the second series arm and the second component such that it is possible lower the voltage at the first clamping point when the flow of current through the load resistor is interrupted.

Abstract: With analog output stages of digital systems, the relationship between a digital data value, which is assigned to an analog output stage and to an actually generated output voltage, often does not correspond to a desired characteristic curve. A switching unit is provided to generate an output voltage as a function of a digital data value, the characteristic curve of which is adjusted by a calibration voltage. A method for calibrating a corresponding switching unit is also provided. The switching unit and the method are used in controllers.

Abstract: A modular apparatus comprising a mounting rail, a first assembly and a second assembly, wherein the assemblies are arranged on the mounting rail which has a profile configured for attaching the assemblies to a rear wall associated with the assemblies. A space is formed between the rear wall and the mounting rail, and the first assembly is configured to produce an overpressure in the space. In addition, the second assembly is configured such that the overpressure results in a medium, which is located in the space, flowing into the interior of the second assembly, for cooling assemblies.

Abstract: With analog output stages of digital systems, the relationship between a digital data value, which is assigned to an analog output stage and to an actually generated output voltage, often does not correspond to a desired characteristic curve. A switching unit is provided to generate an output voltage as a function of a digital data value, the characteristic curve of which is adjusted by a calibration voltage. A method for calibrating a corresponding switching unit is also provided. The switching unit and the method are used in controllers.

Abstract: There is described a circuit for measuring, limiting and switching a load current on a load. To achieve a circuit of this type with a high degree of accuracy in the current measurement and with a low dispersion range, it is proposed that a measurement current is generated through a current mirror connected between a first supply line and a load, said measurement current being routed through a measuring resistor and resulting in a measurement voltage which is used for evaluation purposes hereupon. A switching transistor, to which a switching voltage can be applied by way of a resistor, is used to switch the load in a currentless fashion. A limitation of the load current is herewith also achieved by means of the switching transistor and an additional transistor in that when the load current is increased by means of the additional transistor, the voltage at the control electrode of the switching transistor is reduced until a balanced condition is set with a predefinable current value.

Abstract: There is described a method for increasing an availability and a redundancy of an analog current output as well as an analog current output with increased availability and redundancy. To improve the availability and also the redundancy behavior of an analog current output a first set of current sources is switched to active to generate an output current, one current source respectively of the first set is checked cyclically for serviceability and the other current sources respectively generate the output current in equal parts. Where unserviceability is determined, the corresponding current source is disconnected and removed from the first set. If a malfunction occurs, such as a failure of a current source for example, the output current advantageously does not drop out completely due to the allocation of generation to a number of current sources.

Abstract: There is described a circuit for measuring, limiting and switching a load current on a load. To achieve a circuit of this type with a high degree of accuracy in the current measurement and with a low dispersion range, it is proposed that a measurement current is generated through a current mirror connected between a first supply line and a load, said measurement current being routed through a measuring resistor and resulting in a measurement voltage which is used for evaluation purposes hereupon. A switching transistor, to which a switching voltage can be applied by way of a resistor, is used to switch the load in a currentless fashion. A limitation of the load current is herewith also achieved by means of the switching transistor and an additional transistor in that when the load current is increased by means of the additional transistor, the voltage at the control electrode of the switching transistor is reduced until a balanced condition is set with a predefinable current value.

Abstract: There is described a method for increasing an availability and a redundancy of an analog current output as well as an analog current output with increased availability and redundancy. To improve the availability and also the redundancy behavior of an analog current output a first set of current sources is switched to active to generate an output current, one current source respectively of the first set is checked cyclically for serviceability and the other current sources respectively generate the output current in equal parts. Where unserviceability is determined, the corresponding current source is disconnected and removed from the first set. If a malfunction occurs, such as a failure of a current source for example, the output current advantageously does not drop out completely due to the allocation of generation to a number of current sources.