Signal analyzing circuit and method for auto setting an oscilloscope

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A signal analyzing circuit with at least a first channel, said first channel comprising: a digitizer configured to digitize an input signal into a time-and-value-discrete signal; a switching unit coupled to the digitizer, said switching unit being adapted to receive said time-and-value-discrete signal; and an acquisition memory coupled to said switching unit, wherein said switching unit is adapted to selectively: activate a decimator unit in a time-domain operation mode, said decimator unit decimating said time-and-vale-discrete signal to a decimated time-and-value-discrete signal or activate a digital down converter unit in a spectrum view operation mode, said digital down converter unit down-converting said time-and-value-discrete signal to a down-converted time-and-value-discrete signal, wherein said acquisition memory is coupled to said decimator unit in said time-domain operation mode to store said decimated time-and-value-discrete signal, said acquisition memory being not coupled to said digital down converter unit in said time-domain operation mode, and wherein said acquisition memory is coupled to said digital down converter unit in said spectrum view operation mode to store said down-converted time-and-value-discrete signal, said acquisition memory being not coupled to said decimator unit in said spectrum view operation mode. 2. The signal analyzing circuit according to claim 1 , wherein either said decimator unit or said digital down converter unit is operated at a certain time. 3. The signal analyzing circuit according to claim 1 , wherein said switching unit comprises a first switching member and a second switching member, said first switching member being positioned in front of said decimator unit and said digital down converter unit, said second switching member being positioned after said decimator unit and said digital down converter unit. 4. The signal analyzing circuit according to claim 1 , wherein a Fourier transform unit is provided, said Fourier transform unit being adapted to convert said down-converted time-and-value-discrete signal into data used for spectrum analysis. 5. The signal analyzing circuit according to claim 4 , wherein said Fourier transform unit is coupled with said acquisition memory accessing only data directed to said down-converted time-and-value-discrete signal. 6. The signal analyzing circuit according to claim 4 , wherein said Fourier transform unit is a Fast Fourier transform unit. 7. The signal analyzing circuit according to claim 1 , wherein said switching unit comprises a multiplexer unit. 8. The signal analyzing circuit according to claim 1 , wherein said decimator unit comprises at least two decimators, said at least two decimators being assigned to said switching unit. 9. The signal analyzing circuit according to claim 8 , wherein said at least two decimators are configured to pass signals of a different bandwidth. 10. The signal analyzing circuit according to claim 1 , wherein said digital down converter unit comprises at least two digital down converters, said at least two digital down converters being assigned to said switching unit. 11. The signal analyzing circuit according to claim 1 , wherein said digitizer comprises an analog to digital converter and a sampler. 12. The signal analyzing circuit according to claim 1 , wherein at least one of said digital down-converter and said decimator is established by a field-programmable gate array. 13. The signal analyzing circuit according to claim 1 , wherein said switching unit is established by a field-programmable gate array, said field-programmable gate array being configured to implement either said decimator unit or said digital down-converter unit selectively depending on the operation mode. 14. A signal analyzing circuit with at least a first channel, said first channel comprising: a digitizer configured to digitize an input signal into a time-and-value-discrete signal; a decimator unit coupled to said digitizer to decimate said time-and-vale-discrete signal to a decimated time-and-value-discrete signal; a first acquisition memory coupled to said decimator unit to store said decimated time-and-value-discrete signal; a digital down converter unit assigned to said first acquisition memory such that said decimated time-and-value-discrete signal can be forwarded to said digital down converter unit to down-convert said decimated time-and-value-discrete signal to a down-converted and decimated time-and-value-discrete signal; and a second acquisition memory coupled to said digital down converter unit to store said down-converted and decimated time-and-value-discrete signal. 15. The signal analyzing circuit according to claim 14 , wherein a Fourier transform unit is provided, said Fourier transform unit being adapted to convert said down-converted and decimated time-and-value-discrete signal into data used for spectrum analysis. 16. The signal analyzing circuit according to claim 14 , wherein said Fourier transform unit is coupled with said second acquisition memory accessing only data directed to said down-converted and decimated time-and-value-discrete signal. 17. The signal analyzing circuit according to claim 14 , wherein at least one of a multiplexer unit and a plurality of channels is provided. 18. The signal analyzing circuit according to claim 17 , wherein each of said plurality of channels comprises a digitizer configured to digitize an input signal into a time-and-value-discrete signal as well as a decimator unit coupled to said digitizer to decimate said time-and-vale-discrete signal to a decimated time-and-value-discrete signal. 19. A method for auto setting an oscilloscope with a signal analyzing circuit, comprising the following steps: determining the maximum frequency of an input signal by analyzing the power of a signal above a predetermined noise threshold value in a spectrum view mode; switching to a time domain mode of said; and setting said decimator unit of said signal analyzing circuit to said maximum frequency determined. 20. The method according to claim 19 , wherein said signal analyzing circuit is established by one of: (a) a first signal analyzing circuit with at least a first channel, said first channel comprising: a digitizer configured to digitize an input signal into a time-and-value-discrete signal; a switching unit coupled to the digitizer, said switching unit being adapted to receive said time-and-value-discrete signal; and an acquisition memory coupled to said switching unit, wherein said switching unit is adapted to selectively: activate a decimator unit in a time-domain operation mode, said decimator unit decimating said time-and-vale-discrete signal to a decimated time-and-value-discrete signal or activate a digital down converter unit in a spectrum view operation mode, said digital down converter unit down-converting said time-and-value-discrete signal to a down-converted time-and-value-discrete signal, wherein said acquisition memory is coupled to said decimator unit in said time-domain operation mode to store said decimated time-and-value-discrete signal, said acquisition memory being not coupled to said digital down converter unit in said time-domain operation mode, and wherein said acquisition memory is coupled to said digital down converter unit in said spectrum view operation mode to store said down-converted time-and-value-discrete signal