Method and apparatus for processing a measurement signal

The invention claimed is: 1. A method for processing a measurement signal of a dynamic physical quantity comprising the steps of: acquiring a measurement signal representing the dynamic physical quantity over time, wherein the acquired measurement signal is stored in a first memory of a measurement apparatus; comparing by a processor of the measurement apparatus, the acquired measurement signal with a predefined signal characteristic of the respective physical quantity or with a signal characteristic of another physical quantity being dependent from the respective physical quantity to provide a comparison result, wherein the signal characteristic of the physical quantity is read from a second memory of the measurement apparatus; and adjusting a waveform representing the acquired measurement signal based upon the comparison result, wherein the adjusted waveform of the measurement signal is displayed as a signal trace along a time axis on a screen of a display unit of the measurement apparatus and wherein the waveform representing the measurement signal is adjusted by shifting the associated signal trace on the screen of the display unit perpendicular to the time axis. 2. The method according to claim 1 wherein the predefined signal characteristic of the physical quantity comprises a value or value range of the physical quantity at a specific time or during a specific time period, a slew rate of the physical quantity, and a specific signal form or specific signal pattern of the physical quantity. 3. The method according to claim 1 wherein an analog measurement signal of the dynamic physical quantity is provided by a probe attached to a measurement object. 4. The method according to claim 3 wherein the analog measurement signal provided by the probe is converted by an analog to digital converter into a digital measurement signal acquired and stored in the first memory. 5. The method according to claim 1 wherein the predefined signal characteristic of the physical quantity stored in the second memory is configured by means of a configuration interface. 6. The method according to claim 1 wherein the at least one predefined signal characteristic stored in the second memory is loaded from a signal characteristic repository stored in a database comprising a plurality of specific signal characteristics for a plurality of selectable measurement objects. 7. The method according to claim 3 wherein the measurement object comprises an electronic circuit of a device under test, DUT. 8. The method according to claim 7 wherein the predefined signal characteristic is derived from a circuit design or specification of the device under test, DUT, or derived from a test protocol applied to the device under test, DUT. 9. A measurement apparatus comprising a processor adapted to compare an acquired measurement signal representing a dynamic physical quantity over time stored in a first memory of said measurement apparatus with a predefined signal characteristic of the respective physical quantity or with a predefined signal characteristic of another physical quantity being dependent from the respective physical quantity stored in a second memory of said measurement apparatus to calculate a comparison result and further adapted to adjust a waveform representing the acquired measurement signal based upon the calculated comparison result, wherein the adjusted waveform of the measurement signal is displayed as a signal trace along a time axis on a screen of a display unit of the measurement apparatus and wherein the waveform representing the measurement signal is adjusted by shifting the associated signal trace on the screen of the display unit perpendicular to the time axis. 10. The measurement apparatus according to claim 9 further comprising a configuration interface used to configure the predefined signal characteristic of the physical quantity stored in the second memory of said measurement apparatus in response to a user input and/or used to load a selected predefined signal characteristic of the physical quantity from a signal characteristic repository stored in a database. 11. The measurement apparatus according to claim 9 further comprising a signal input adapted to receive an analog measurement signal of the dynamic physical quantity provided by a probe attached to a measurement object and comprising an analog to digital converter adapted to convert the received analog measurement signal into a digital measurement signal acquired and stored in the first memory of the measurement apparatus. 12. A digital oscilloscope comprising a signal input adapted to receive an analog measurement signal provided by a probe attached to a measurement object; an analog to digital converter adapted to convert the received analog signal into a digital measurement signal; a first memory adapted to acquire and store the converted digital measurement signal; a second memory which stores at least one predefined signal characteristic of a physical quantity or at least one physical characteristic of another physical quantity being dependent from the respective physical quantity; a processor adapted to compare the acquired digital measurement signal stored in the first memory with the predefined signal characteristic stored in the second memory to calculate a comparison result and to adjust a waveform representing the acquired digital measurement signal stored in the first memory based upon the calculated comparison result, wherein the adjusted waveform of the measurement signal is displayed as a signal trace along a time axis on a screen of a display unit of said digital oscilloscope, wherein the waveform representing the measurement signal is adjusted by shifting the associated signal trace on the screen of the display unit perpendicular to the time axis.