SU1148107A1 - Switching device - Google Patents

Abstract

A SWITCHING DEVICE containing a switch, a low-frequency signal source, a load, and a switching noise suppressor capacitor, the analog input of the switch connected to the signal source, and the output to the load, so as to ensure accuracy transmitting information, a differential amplifier and a switching switching filter are introduced, the non-inverting input of the differential amplifier is connected to the common bus, and the analog input of the switch is connected to the Inverting input m of a differential amplifier and through a switching noise suppression capacitor and a switching switching interference filter with the output of a differential amplifier. oUpr 9 eo A Nl if l

Description

The invention relates to analog technology and can be used in analog switches. A switching device is known that contains a signal source, a load, and a switch, the analog input of which is connected to a signal source, the output is connected to a load, and, additionally, a control circuit inverter connected in series to a control circuit and a load, and a capacitor with adjustable capacitance ftj. Although the inverter and capacitor) between its output and the load, they create pulses, anti-phase switching noise, on the signal source (in the closed state of the switch) and on the load, which partially compensate the switching noise and improve the accuracy of signal transmission, but to make such compensation effective, it is necessary to adjust the capacitor capacitance in each particular case. In addition, with this method of compensation, the amplitude of emissions of commutation noise is not significantly reduced, since the control signal is switched and the signal at the output of the inverter is difficult to accurately match in time. However, when switching weak signals, a large amplitude of switching noise emissions may lead to a malfunction connected to the output of a device switch (for example, a small signal amplifier). The closest to the present invention is a switching device containing a signal source, a load, a switching noise suppression capacitor and a switch, the analog input of which is connected to the signal source and its output is connected to the load. One of the plates of the switching noise suppression capacitor is connected to the output of the switch, and the other to the common bus t23. A disadvantage of this device is the low signal transfer accuracy due to significant switching noise at the load and at the signal source (especially if its output impedance is large enough), which generate control signals at switching times due to the presence of capacitive connections between control and switching circuits of the 7J switch. An increase in the capacitance of a capacitor for the suppression of switching noise, although it leads to their reduction, however, causes a decrease in the maximum allowable frequency of the signal source. The purpose of the invention is to improve the accuracy of transmission of the low-frequency signal of the switching device. The goal is achieved by the fact that a differential amplifier and a selective switching noise filter, which is non-inverting, are inserted into a switching device containing a switch, a low-frequency signal source, a load, and a switching noise suppression capacitor, the switch’s analog input connected to the signal source and the output to the load. the input of the differential amplifier is connected to the common bus, and the analog input of the switch is connected to the inverting input of the differential amplifier and through capacitor suppressing switching noise and switching noise selective filter - yield differential amplifier. The drawing shows the block diagram {la of the proposed switching device. The device contains a source of 1 low-frequency signal, load 2, switch 3 ,. a differential amplifier 4, a switching switching selective filter 5, and a switching interference suppressor 6. The output of switch 3 is connected to load 2, and the analog input is connected to the source of low-frequency signal 1 and to the inverting input of differential amplifier 4. The non-inverting input of differential amplifier 4. is connected to the common bus, and its output is connected through a selective switching interference filter 5: and a capacitor 6 suppressing switching noise with its own inverting input. A significant increase in the accuracy of signal transmission can be obtained in the case of switching with a sufficiently high frequency f of sources of weak signals of a low frequency fc with sufficiently large transient resistances, due to an increase in the efficiency of suppression of switching interference. This increase is due to the fact that the equivalent C 3 114810 capacitance value from the switching noise suppression capacitor increases the pro, porting of the Kj, the transmission coefficient of the circuit. D1 {The power amplifier is a selective filter j (Cj (jj CrC) due to the effect. Miller. If a switching circuit occurs, the main components of which have significantly higher frequencies than the signal (.) And are not based on the selective filter The value of K "is sufficiently high and reaches several tens or even hundreds. Therefore, the switching interference is attenuated by a factor K approximately 15 times less than in the case of a connection between the analog input of the switch and 74 the common bus capacitor C. The frequency fg due to the action and A selective filter and a useful signal are transmitted to the switch output with little or no additional attenuation. Finding the invention will significantly improve the quality of a range of electronic medical devices associated with measuring low-frequency signals, such as biopotential meters, as the test results show that the accuracy of signal transmission The proposed device is at least 10 times higher than that of conventional switching devices.

Claims (1)

COMMUTATION DEVICE, comprising a switch, a low-frequency signal source, a load and a switching noise suppression capacitor, the analog input of the switch being connected to the signal source, and the output connected to the load, disconnecting it with the aim of increasing accuracy of information transmission, a differential amplifier and a selective switching noise filter are introduced, the non-inverting input of the differential amplifier is connected to a common bus, and the analog input of the switch is connected to the inverting input of the differential potential amplifier and through the switching noise suppression capacitor and selective switching noise filter ..- with the output of the differential amplifier .- .SU .1148107