Abstract: A method for monitoring a concentration of a corrosive gas including at least observing at least one gas fuse, the gas fuse having at least one metal wire, which is configured for breaking due to corrosion if exposed to the corrosive gas in a way that a time-integrated concentration of the corrosive gas exceeds a critical value.

Abstract: A method for monitoring a concentration of a corrosive gas including at least observing at least one gas fuse, the gas fuse having at least one metal wire, which is configured for breaking due to corrosion if exposed to the corrosive gas in a way that a time-integrated concentration of the corrosive gas exceeds a critical value.

Abstract: A method for operating a speed-controlled fluid pump includes: providing an electrical control current for the fluid pump; providing a maximum value for the electrical control current, which maximum value corresponds to a maximum permissible pressure at an outlet side of the fluid pump; providing a threshold value for the control current, the threshold value corresponding to a further maximum permissible pressure at the outlet side of the fluid pump and is predefined in dependence upon at least one boundary condition, the threshold value being less than the maximum value for the electrical control current; and controlling the fluid pump with not more than the threshold value for the control current, if it has been determined that the at least one boundary condition holds, so as to limit the pressure at the outlet side of the fluid pump to a value provided for the at least one boundary condition.

Abstract: A method for determining the load status of a filter mounted in a fuel supply system, comprising a fuel supply pump and a control unit for controlling the fuel supply pump, the time curve of the rotational speed of the fuel supply pump being detected over a predetermined period of time, and at least one value of the time curve of the rotational speed and its associated detection time being compared with a comparative value stored in a control unit

Abstract: A method for operating a speed-controlled fluid pump includes: providing an electrical control current for the fluid pump; providing a maximum value for the electrical control current, which maximum value corresponds to a maximum permissible pressure at an outlet side of the fluid pump; providing a threshold value for the control current, the threshold value corresponding to a further maximum permissible pressure at the outlet side of the fluid pump and is predefined in dependence upon at least one boundary condition, the threshold value being less than the maximum value for the electrical control current; and controlling the fluid pump with not more than the threshold value for the control current, if it has been determined that the at least one boundary condition holds, so as to limit the pressure at the outlet side of the fluid pump to a value provided for the at least one boundary condition.

Abstract: Below a predetermined threshold value of the rotation speed, a sinusoidal or trapezoidal current is applied to the winding sections of a brushless DC motor. Above the predetermined threshold value of the rotation speed, the brushless DC motor is operated with block commutation. The brushless DC motor thus produces a very uniform torque over a very wide operating range, and can at the same time be designed to be very compact.

Abstract: The invention relates to a mechanical-electrical transducer having a bridge circuit formed on an insulation layer through an electrical interconnection of expansion-sensitive thick-film resistors by means of conductor tracks. The insulation layer is arranged directly on a metallic component that is to be mechanically loaded, and being intimately connected to said component by means of a thermal process. In this case, in the event of mechanical stressing of the component, an electrical signal corresponding to the expansion of the thick-film resistors can be tapped off. In order that the mechanical-electrical transducer exhibits a small electrical offset in the output signal in the event of mechanical loading, the metallic component to be loaded comprises a thermally post-hardening metal or a thermally post-hardening metal alloy.

Abstract: A magnetoresistive angle sensor for use in areas with temperatures in excess of 160° C. has a fixed magnetic field sensor (2, 3), which is surrounded by a permanently magnetic rotor (8) and a shielding ring (9) rotating with the latter. The magnetic field sensor (2, 3) is designed for determining the angular position of this rotor (8). The rotor (8) forms a ring, surrounding the magnetic field sensor (2, 3), of a plastic with rare-earth magnetic material incorporated in it, which material is a compound of neodymium, iron and boron.