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4 Measurement of Biosignals and Analog Signal Processing
aR3
R3
LT1179
C1
R2
C2
Ue1
R1
5V
-5V
Ua
5V
-5V
Fig. 4.27: 2nd order low pass filter; the filter type is set via the a value (cf. Table 4.4).
Tab. 4.4: Assignment of the value a (cf. Figure 4.27) to filter types.
Filter type
Bessel
Butterworth
Chebyshev
a
0,268
0,586
1,234
previous considerations referred to low-pass filters. High-pass filters can be created
simply by exchanging R1 with C1 in the circuit according to Figure 4.25, or analogously
R1,2 with C1,2 in the circuit according to Figure 4.27.
At the beginning of this section it has already been discussed that parts of the biosig-
nal can also be suppressed by filters. In the unfavorable case, the resulting change
in the signal curve can lead to misinterpretations. In some application areas, how-
ever, signal distortion is not problematic. For example, in fitness equipment for pulse
determination by means of ECG, it is sufficient if the time interval between successive
R prongs can be reliably determined. can be reliably determined. In such applications,
it is quite reasonable to suppress the 50 or 60 Hz mains hum with very narrowband
bandstop filters, so-called notch filters (notch filter). A bandstop can be realized from
the parallel connection of low-pass and high-pass filters.
Figure 4.29 shows a possible circuit design, Figure 4.30 the corresponding mag-
nitude and phase frequency response. The notch frequency is attenuated here by
45 dB. In Figure 4.31 the effect on an ECG weakly overlaid with 50 Hz mains hum
can be seen. The 50 Hz mains hum has completely disappeared due to the filtering.
However, the ECG waveform has also changed somewhat: In particular, the R-prong
is slightly shifted.
The previous considerations focused on the frequency-selective behavior of ana-
log filters, which is described by the magnitude of the transfer function. However, the
filter phase response is also important. Each filter causes a phase shift between input
and output signal. This would be unproblematic, if all frequency components of the