METHOD AND DEVICE FOR DIGITAL TRIGGERING OF A MEASUREMENT SIGNAL HAVING A SUPERIMPOSED NOISE SIGNAL

Information

  • Patent Application
  • 20100045260
  • Publication Number
    20100045260
  • Date Filed
    April 19, 2007
    17 years ago
  • Date Published
    February 25, 2010
    14 years ago
Abstract
A method for digital triggering of a digital recording of a digitized measurement signal having a superimposed noise signal. The method includes generating from the digitized measurement signal a digital triggering signal for the digital triggering of the digital recording of the measurement signal, and performing band-limitation of the noise signal superimposed on the digitized measurement signal via a low-pass filtering before the digital triggering signal is generated. The bandwidth of the low-pass filtering is adjusted dependent upon edge steepness of the measurement signal, in order to reduce variance σt2 in jitter of the digital triggering signal.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The invention relates to a method and a device for digital triggering of a recording of a reference signal having a superimposed noise signal.


2. Discussion of the Background


A phase-corrected and time-corrected presentation of a measurement signal on a recording device, such as a digital oscilloscope, requires a triggering, which identifies the signal portion of the measurement signal to be presented on the recording device, for example, via a threshold triggering value, and initiates the recording of the measurement signal on the recording device at the triggering time via a triggering signal derived from the latter.


If a noise signal, which corresponds to a mean-free, white noise with the variance σn2 is superimposed on the measurement signal, there is no fixed triggering time ttrigger as in the case of a noise-free measurement signal, but rather, as shown in FIG. 1, a jitter of the triggering time ttrigger with a variance σt2 dependent upon the variance σn2 of the noise signal.


Starting from FIG. 1 and the triggering equation (1) derived from it, with a triggering threshold value ur of ½ and an edge steepness m of the measurement signal, a fixed value corresponding to equation (2) is obtained for the triggering time ttrigger of a noise-free measurement signal:










u
r

=

m
·

t
trigger






(
1
)







t
trigger

=

1

2
·
m






(
2
)







If a noise signal n with the variance σn2 is superimposed on the measurement signal, starting from the triggering equation (3) with a triggering threshold value ur of ½ and an edge steepness m of the measurement signal, a jittering triggering time ttrigger is obtained according to equation (4) with a mean value of and a variance






1

2
·
m





and a variance σt2 according to equation (5).










u
r

=


m
·

t
trigger


+
n





(
3
)







t
trigger

=


1

2
·
m


-

n
2






(
4
)







σ
t
2

=


σ
n
2


n
2






(
5
)







It is evident from equation (5) that the variance σt2 in the jitter of the triggering time for a measurement signal with a superimposed noise signal increases with an increasingly flatter leading edge m of the measurement signal. While the variance σt2 in the jitter of the triggering time in the case of a high-frequency measurement signal with a high edge steepness m according to FIG. 2A is comparatively low, the variance σt2 in the jitter of the triggering time in the case of a low-frequency measurement signal with a low edge steepness m according to FIG. 2B is significantly increased and is no longer negligible.


It is evident from Table 1 in FIG. 3, that with a decreasing frequency of the measurement signal and therefore a decreasing edge steepness m and at the same time a decreasing signal-noise ratio (SNR) and therefore an increasing noise-signal component in measurement signal, the variance σt2 in the jitter of the triggering signal and therefore the inaccuracy of the triggering increases.


Document DE 34 18 500 A1 describes a device and a method, in which the disadvantage of jitter in the triggering time and the associated triggering inaccuracy resulting from a noise superimposed on the measurement signal is overcome by converting the level triggering into a time triggering proportional to the latter so that an appropriate threshold value for the time triggering can be set dependent upon the bandwidth of the measurement signal and the bandwidth of the noise signal.


The disadvantage of a realization of this kind is the comparatively high cost in circuit technology (detection of the zero crossing, generation of the sweep voltage, initialization of the sweep voltage and detection of the set-value pass).


SUMMARY OF THE INVENTION

The object of the present invention is therefore to develop a method and a device for a digital triggering, with which the triggering inaccuracy in the case of a measurement signal having a superimposed noise signal, especially a low-frequency measurement signal, is minimized at low-cost.


According to the invention, a low-pass filter, which reduces the bandwidth of the measurement signal having a superimposed noise signal, is connected upstream of the digital triggering. This reduces the variance σn2 of the noise signal, which leads to a minimization of the triggering error.





BRIEF DESCRIPTION OF THE DRAWINGS

The method according to the invention and the device according to the invention for digital triggering of a recording of a measurement signal having a superimposed noise signal is described in detail below with reference to the drawings. The drawings are as follows:



FIG. 1 shows a presentation against time of a triggering threshold of a measurement signal with superimposed noise signal;



FIGS. 2A, 2B show a presentation against time of a triggering threshold of a high-frequency and low frequency measurement signal with superimposed noise signal;



FIG. 3 shows a table with triggering errors dependent upon the signal-noise ratio and the frequency of the measurement signal;



FIG. 4 shows a block-circuit diagram of the device according to the invention for digital triggering of a recording of a measurement signal having a superimposed noise signal;



FIGS. 5A, 5B show tables with triggering errors dependent upon the frequency of the measurement signal in the case of the device for digital triggering according to the prior art and in the case of a device for digital triggering according to the invention; and



FIG. 6 shows a flow chart of the method according to the invention for digital triggering of a recording of a measurement signal having a superimposed noise signal.





DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS OF THE INVENTION

The device according to the invention for digital triggering is presented in FIG. 4 and described below.


The analog measurement signal with superimposed noise is converted in an analog/digital converter 1 into its corresponding digital data format. The digitized measurement signal distorted in a linear or respectively non-linear manner is equalized in a subsequent filter-type equalizer 2.


The signal at the output of the filter-type equalizer 2 is compressed in a decimation unit 3 by re-routing to the recording unit 4 only every n-th sampled value of the signal at the output of the filter-type equalizer 2. In parallel with this, the signal at the output of the filter-type equalizer 2 is supplied to a low-pass filter 5. In particular, the relatively high-frequency noise signal by comparison with the measurement signal is band-limited according to the invention in the low-pass filter 5. In this manner, the variance σn2 of the noise signal is reduced. In a digital triggering unit 6 downstream of the low-pass filter 5, the band-limited measurement signal with superimposed noise signal is compared with adjustable threshold values in order to generate a triggering signal.


The digital triggering signal is supplied to a recording-control unit 7 within the recording unit 4. In the recording-control unit 7, the decimated sampled values of the measurement signal with superimposed noise signal buffered in a cyclical manner in a ring buffer, which is not illustrated in FIG. 4, are selected for the recording with regard to the triggering signal. The sampled values of the measurement signal with superimposed noise signal selected by the recording-control unit 7 are stored in a subsequent acquisition memory 8 of the recording unit 4 and then presented on a visualization unit 9, for example, a display of the recording unit 4.


While the table in FIG. 5A presents the triggering errors of a device for digital triggering according to the prior art without a low-pass filter for different frequencies of the measurement signal, the table in FIG. 5B shows the triggering errors of the device according to the invention for digital triggering for different frequencies of the measurement signal. It is clearly evident that the triggering error is reduced over a wide frequency range of the measurement signal with the device according to the invention for digital triggering by comparison with a device for digital triggering according to the prior art.


The method for digital triggering according to the invention is illustrated in FIG. 6.


In a first procedural stage S10, the analog measurement signal with superimposed noise signal is converted in an analog/digital converter 1 into its corresponding digital data format.


In the next procedural stage S20, an equalization of the digitized measurement signal, which may be distorted in a linear or respectively non-linear manner with a superimposed noise signal, is implemented.


In the subsequent procedural stage S30, the digitized, equalized measurement signal with superimposed noise signal is filtered in a low-pass filter.


In procedural stage S40 the triggering signal is generated by threshold-value comparison of the low-pass-filtered, equalized, digitized measurement signal having the superimposed noise signal with reference to a threshold value predetermined in a digital triggering unit.


The equalized, digitized measurement signal with superimposed noise signal is compressed in the next procedural stage S50 in a decimation unit by processing further only every n-th sampled value of the equalized, digitized measurement signal with superimposed noise signal.


Finally, in the concluding procedural stage S60, the recording of the compressed, equalized, digitized measurement signal with superimposed noise signal is implemented dependent upon the digital triggering signal. For this purpose, the measurement signal with superimposed noise signal, which is buffered, for example, in a ring buffer, is selected dependent upon the triggering signal with regard to its digitized signal components to be stored in a subsequent acquisition memory 8 and displayed on a subsequent visualization unit 9.


The invention is not restricted to the exemplary embodiment presented. In particular, instead of a low-pass filtering, a band-pass filtering with the effect of reducing the bandwidth of the measurement signal having a superimposed noise signal can also be used.

Claims
  • 1. Device for digital triggering of a recording of a digitised measurement signal having a superimposed noise signal comprising a digital recording unit (4) and a digital triggering unit (6) for triggering the recording of the measurement signal in the recording unit (4), to which the measurement signal is supplied in each case, characterised in thata low-pass filter (5) for band-limitation of the noise signal superimposed on the measurement signal is connected upstream of the digital triggering unit (6).
  • 2. Method for digital triggering of a digital recording of a digitised measurement signal having a superimposed noise signal by generating from the digitised measurement signal a digital triggering signal for the digital triggering of the digital recording of the measurement signal, characterised in that,before the generation of the digital triggering signal, the noise signal superimposed on the digitised measurement signal is band-limited via a low-pass filtering.
  • 3. Method for digital triggering according to claim 2, characterised in thatthe bandwidth of the low-pass filtering is adjusted dependent upon the edge steepness of the measurement signal.
Priority Claims (1)
Number Date Country Kind
10 2006 021 075.1 May 2006 DE national
CROSS-REFERENCE TO RELATED APPLICATION

The present application claims priority to PCT Application No. PCT/EP2007/003453, filed on Apr. 19, 2007, and to German Patent Application No. 10 2006 021 075.1, filed on May 5, 2006, the entire contents of which are herein incorporated by reference.

PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/EP2007/003453 4/19/2007 WO 00 10/15/2009