Digital storage oscilloscope with simultaneous primary measurement and derived parameter display on common time axis and method therefor
First Claim
1. A method for presenting information on a digital oscilloscope, the method comprising:
- making primary measurements of a signal;
displaying data from the primary measurements as a function of time;
calculating derived parameters from the data of the primary measurements; and
displaying the derived parameters as a function of time with the data from the primary measurements, wherein the derived parameters are calculated and simultaneously displayed with the data from the primary measurements.
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Abstract
A method for presenting information and a digital storage oscilloscope are disclosed in which primary measurements of a signal are performed and displayed. Parameters are also derived for the signal based upon the primary measurement data. These derived parameters are then also displayed as a function of time on the display, preferably with a common time axis. This enables the oscilloscope operator to correlate features found by reference to the derived parameters directly to the primary measurements of the signal. Moreover, since the data from the primary measurements are stored in the oscilloscope, multi parameter calculation and parameter recalculation can be performed.
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Citations
36 Claims
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1. A method for presenting information on a digital oscilloscope, the method comprising:
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making primary measurements of a signal;
displaying data from the primary measurements as a function of time;
calculating derived parameters from the data of the primary measurements; and
displaying the derived parameters as a function of time with the data from the primary measurements, wherein the derived parameters are calculated and simultaneously displayed with the data from the primary measurements. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25)
identifying cycles in the signal; and
calculating parameters for the cycles.
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9. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining the time between maxima and minima for each cycle.
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10. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining the time between minima and previous minima for each cycle.
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11. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining the time of a local minima for each cycle.
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12. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining the time of a local maxima for each cycle.
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13. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining the time between local maxima and local minima for each cycle.
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14. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining a period for each cycle.
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15. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining a frequency for each cycle.
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16. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining rise times for each cycle.
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17. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining fall times for each cycle.
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18. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining overshoot for each cycle.
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19. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining preshoot for each cycle.
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20. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining a change in period in cycles relative to adjacent cycles.
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21. A method as described in claim 8, wherein the step of deriving the parameters further comprises determining a change in pulse width for cycles relative to adjacent cycles.
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22. A method as described in claim 1, wherein the step of deriving the parameters comprises:
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identifying cycles in the signal; and
comparing the primary measurements in each cycle to a threshold.
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23. A method as described in claim 1, wherein the step of calculating the derived parameters comprises:
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identifying cycles in the signal; and
comparing the primary measurement data to an absolute time reference.
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24. A method as described in claim 1, wherein the step of deriving the parameters comprises comparing the primary measurements of the signal to a reference clock.
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25. A method as described in claim 24, wherein the step of deriving the parameters further comprises determining phase differences between the reference clock and the cycles of the signal.
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26. A method of operation for a digital oscilloscope, the method comprising:
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repeatedly sampling and digitizing a signal at predetermined time intervals and storing data generated by the digitization;
deriving parameters as a function of time from the data of the primary measurements; and
displaying the derived parameters as a function of time, wherein the derived parameters arc calculated and simultaneously displayed with the data from the primary measurements. - View Dependent Claims (27, 28, 29)
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30. A digital oscilloscope, comprising:
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at least one digitization channel that performs primary measurements of a signal and generates data indicative of the measurements;
a data processing unit that derives parameters as a function of time from the primary measurement data; and
a display on which the data from the primary measurements and the derived parameters are plotted as a function of time, wherein the derived parameters are calculated and simultaneously displayed with the data from the primary measurements. - View Dependent Claims (31, 32, 33, 34)
a sample-and-hold circuit that freezes the signal;
an analog-to-digital converter that digitizes the signal from the sample-and-hold circuit; and
a waveform memory that stores the digital data generated by the analog-to-digital converter.
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33. A digital oscilloscope as described in claim 30, wherein the data processing unit controls the display to plot the data from the primary measurements and the derived parameters along an horizontal time axis.
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34. A digital oscilloscope as described in claim 30, wherein the data processing unit controls the display to plot the derived parameters and the data from the primary measurements with a common time axis.
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35. A method for presenting information on a digital oscilloscope, the method comprising:
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making primary measurements of a signal;
displaying data from the primary measurements as a function of time;
multiple arrays of different parameters from the data of the primary measurements; and
calculating and simultaneously displaying the different derived parameters as a function of time with the data from the primary measurements.
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36. A method for presenting information on a digital oscilloscope, the method comprising:
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making primary measurements of a signal;
displaying data from the primary measurements as a function of time;
deriving parameters from the data of the primary measurements; and
calculating and simultaneously displaying the derived parameters as a function of time with the data from the primary measurements;
recalculating the parameter based on new criteria after observing the display of the parameters.
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Specification