A power resistor comprises a tubular housing composed of metal and a resistor element received therein, wherein the housing has four side walls that extend along a longitudinal axis of the housing between two ends and define a rectangular cross-section. The housing comprises four edges of the four side walls at at least one of the two ends. Two of the four side walls have a respective incision at their edges for introducing a fastening element and the two other side walls have a respective clearance in alignment with the oppositely disposed incision to facilitate a placement of a tool at a fastening element introduced into the respective incision.

An object of the present invention to provide a resistor element which can be mounted at a higher density and can cope with a wide range of resistance values, the present invention provides a resistor element including a resistor which mainly contains metal fibers, electrodes which are formed at an end portion of the resistor, and an insulating layer which is in contact with the resistor and the electrodes.

A method to plastically deform a flexible conductive element (1) wherein is provided a device (11) configured to expand the volume thereof, wherein the method comprises the steps of arranging the flexible conductive element (1) at least partially around said device (11); expanding the volume of the device (11) up to a predetermined value, whereby at least one portion (8) of the flexible conductive element (1) which is in contact with the device (11) during the expansion of the device (11) is plastically deformed.

A method to plastically deform a flexible conductive element (1) wherein is provided a device (11) configured to expand the volume thereof, wherein the method comprises the steps of arranging the flexible conductive element (1) at least partially around said device (11); expanding the volume of the device (11) up to a predetermined value, whereby at least one portion (8) of the flexible conductive element (1) which is in contact with the device (11) during the expansion of the device (11) is plastically deformed.

A method of making a resistance temperature detector includes additively manufacturing a conductive ink on a flexible substrate and applying the resistance temperature detector to a geometrically complex surface of a component requiring heating, or directly additive manufacturing the resistance temperature detector onto that surface.

A method to plastically deform a flexible conductive element (1) wherein is provided a device (11) configured to expand the volume thereof, wherein the method comprises the steps of arranging the flexible conductive element (1) at least partially around said device (11); expanding the volume of the device (11) up to a predetermined value, whereby at least one portion (8) of the flexible conductive element (1) which is in contact with the device (11) during the expansion of the device (11) is plastically deformed.

A method to plastically deform a flexible conductive element (1) wherein is provided a device (11) configured to expand the volume thereof, wherein the method comprises the steps of arranging the flexible conductive element (1) at least partially around said device (11); expanding the volume of the device (11) up to a predetermined value, whereby at least one portion (8) of the flexible conductive element (1) which is in contact with the device (11) during the expansion of the device (11) is plastically deformed.

An object of the present invention to provide a resistor element which can be mounted at a higher density and can cope with a wide range of resistance values, the present invention provides a resistor element including a resistor which mainly contains metal fibers, electrodes which are formed at an end portion of the resistor, and an insulating layer which is in contact with the resistor and the electrodes.

In one example a bend sensor is disclosed. The bend sensor extends into a media tray. The bend sensor has a tip where a deflection amount of the tip indicates a media parameter.

In one example a bend sensor is disclosed. The bend sensor extends into a media tray. The bend sensor has a tip where a deflection amount of the tip indicates a media parameter.