Magnet holder and stroke sensor with the magnet holder

The invention claimed is: 1. A magnet holder and stroke sensor arrangement, comprising: a tubular/cylindrical sleeve for enveloping a plunger of the stroke sensor, wherein the stroke sensor includes a magneto-resistive sensor with a magnet and being configured to sense a linear displacement of the plunger in a cylindrical body of a plunger arrangement, wherein the plunger includes a broadened piston portion enveloped by the tubular/cylindrical sleeve and a rod portion protruding from the tubular/cylindrical sleeve; a mounting for the magnet, which radially protrudes from the tubular/cylindrical sleeve; and a cover for closing the tubular/cylindrical sleeve on one side including an opening for allowing the linear displacement of the plunger therethrough, wherein the tubular/cylindrical sleeve and the cover move relative to each other, when the plunger performs the linear displacement in the cylindrical body, wherein one or more sealing elements are formed between the cover and the plunger to provide a sealing during the linear motion. 2. The magnet holder and stroke sensor arrangement of claim 1 , wherein the plunger arrangement includes a piston configured to move together with the plunger inside the cylindrical body, and wherein the tubular/cylindrical sleeve is formed to envelope at least an upper portion of the piston. 3. The magnet holder and stroke sensor arrangement of claim 1 , wherein the plunger performs the linear displacement and/or a rotation relative to the cylindrical body, and wherein the mounting is configured to provide a rotational interlock between the tubular/cylindrical sleeve and the cylindrical body, while allowing the linear displacement within the cylindrical body. 4. The magnet holder and stroke sensor arrangement of claim 2 , wherein the tubular/cylindrical sleeve is adapted to perform the linear displacement together with the plunger and/or the piston. 5. A stroke sensor, comprising: a magneto-resistive sensor with a magnet to sense a linear displacement of a plunger in a cylindrical body of a plunger arrangement; and a magnet holder, including: a tubular/cylindrical sleeve for enveloping the plunger of the stroke sensor, wherein the plunger includes a broadened piston portion enveloped by the tubular/cylindrical sleeve and a rod portion protruding from the tubular/cylindrical sleeve; a mounting for the magnet, which radially protrudes from the tubular/cylindrical sleeve; and a cover for closing the tubular/cylindrical sleeve on one side, including an opening for allowing the linear displacement of the plunger therethrough; wherein the tubular/cylindrical sleeve and the cover move relative to each other, when the plunger performs the linear displacement in the cylindrical body, wherein one or more sealing elements are formed between the cover and the plunger to provide a sealing during the linear motion. 6. The stroke sensor of claim 5 , further comprising: a chamber arranged at a side portion of the cylindrical body sealed from an interior space of the cylindrical body; and a removable side cover providing a closure for the chamber, wherein the magneto-resistive sensor is arranged together with its magnet inside the chamber. 7. The stroke sensor of claim 6 , further comprising: a printed circuit board attached to the removable side cover and adapted to hold the magneto-resistive sensor in the chamber. 8. The stroke sensor of claim 6 , wherein the cover is adapted to close the cylindrical body and the chamber. 9. A plunger arrangement for a brake system of a vehicle, comprising: a plunger; a cylindrical body within which the plunger performs a linear displacement; and a stroke sensor to generate a sensor signal depending on the linear displacement; wherein the stroke sensor includes: a magneto-resistive sensor with a magnet to sense a linear displacement of a plunger in a cylindrical body of a plunger arrangement; and a magnet holder, including: a tubular/cylindrical sleeve for enveloping the plunger of the stroke sensor, wherein the plunger includes a broadened piston portion enveloped by the tubular/cylindrical sleeve and a rod portion protruding from the tubular/cylindrical sleeve; a mounting for the magnet, which radially protrudes from the tubular/cylindrical sleeve; and a cover for closing the tubular/cylindrical sleeve on one side, including an opening for allowing the linear displacement of the plunger therethrough; wherein the tubular/cylindrical sleeve and the cover move relative to each other, when the plunger performs the linear displacement in the cylindrical body, wherein one or more sealing elements are formed between the cover and the plunger to provide a sealing during the linear motion. 10. The plunger arrangement of claim 9 , wherein the cylindrical body includes an axial slot for receiving part of the mounting to provide an axial guidance for the tubular/cylindrical sleeve while preventing relative rotations between the tubular/cylindrical sleeve and the cylindrical body. 11. The plunger arrangement of claim 9 , further comprising: a piston to move in at least one direction together with the plunger inside the cylindrical body, wherein the tubular/cylindrical sleeve is adapted to slide inside the cylindrical body and to encircle at least an upper portion of piston; and a sealing between a lower portion of the piston and the cylindrical body to seal the chamber from an interior space of the cylindrical body. 12. A vehicle, comprising: a plunger arrangement for a brake system of the vehicle, including: a plunger; a cylindrical body within which the plunger performs a linear displacement; and a stroke sensor to generate a sensor signal depending on the linear displacement; wherein the stroke sensor includes: a magneto-resistive sensor with a magnet to sense a linear displacement of a plunger in a cylindrical body of a plunger arrangement; and a magnet holder, including: a tubular/cylindrical sleeve for enveloping the plunger of the stroke sensor, wherein the plunger includes a broadened piston portion enveloped by the tubular/cylindrical sleeve and a rod portion protruding from the tubular/cylindrical sleeve; a mounting for the magnet, which radially protrudes from the tubular/cylindrical sleeve; and a cover for closing the tubular/cylindrical sleeve on one side, including an opening for allowing the linear displacement of the plunger therethrough; wherein the tubular/cylindrical sleeve and the cover move relative to each other, when the plunger performs the linear displacement in the cylindrical body, wherein one or more sealing elements are formed between the cover and the plunger to provide a sealing during the linear motion. 13. The stroke sensor of claim 5 , wherein the magneto-resistive sensor uses a Hall effect to operate as a Hall sensor.