CS272911B1 - Filter connection with signal direct-current component's active suppression - Google Patents

Abstract

The connection is suitable for applications, where one needs to separate and suppress the direct-current component of the signal, possibly the signal in the ambient medium of the direct-current component, in high-frequency and low-frequency technology. It solves the problem of separation of the alternate-current component of the signal from the direct-current component when preserving stable load specifications for the signal source. The merit of the connection of the filter with the active suppression of the direct-current component of the signal, where the input of the filter connects with the input of the lower current gate with the cut off frequency f1, whose output is connected with the output of the filter, concerns the fact that the input of the filter connects with the input of the lower gate (3) with the cut off frequency f2, whose output is connected with the input of the controlled power pack (4), which is connected by its output to the input of the filter, while the cut off frequency f2 is lower than the cut-off frequency f1.<IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a filter with active suppression of the DC component of the input signal while maintaining a constant level of DC voltage at both the input and output of the filter.

Known connections for separating DC and AC signal components using capacitance, inductance, or combinations thereof In many cases, I do not suit, for example, in size, when large inductances are required to achieve low frequency transmission, or do not satisfy transmission parameters. For example, a filter downstream of a current detector such as a diode detector, a remote control infradiod load circuit, and the like, should maintain a constant input voltage level and a constant, low input impedance over a wide range of demodulated frequencies and DC components.

The above-mentioned disadvantages are eliminated and the above mentioned problems are solved by the connection of a filter with active suppression of the DC signal component, in which a low-pass filter with a cut-off frequency f ^ is connected to the filter input. that a low-pass filter with a cut-off frequency f ₂ is connected to the filter output and its output is connected to an input of a controlled current source connected with its output to the filter input, the cut-off frequency f ₂ being lower than the cut-off frequency fp

The advantage of connecting a DC-suppressive active filter according to the invention lies in the possibility of a wide choice of circuit transmission parameters, in the possibility of miniaturization.

In the accompanying drawing, FIG. 1 is a block diagram of an active DC suppression filter according to the present invention; and FIG.

In a particular embodiment, the DC-suppressive filter connection may be arranged such that a low-pass filter 2 with a cutoff frequency is connected to the input terminal 1, which may include, for example, the first operational amplifier OZ1 with its inverting input connected through the first resistor R1 to the input terminal. 1, to which the first capacitor C1 is connected by its first terminal, its second terminal connected to ground and the second resistor R2 by its second terminal, connected to the output of the operational amplifier OZ1 connected to the first terminal of the second capacitor C2 connected by its the second terminal to the inverting input of the operational amplifier OZ1, the non-inverting input being grounded, the output of the operational amplifier OZ1 as the output of the low-pass filter 2 with the cut-off frequency f ^ is connected to the output terminal 5 and a low-pass filter 3 with a cut-off frequency f ₂ , which may comprise, for example, a second op-amp through its inverting input connected both via a third resistor R3 to the output terminal 5 and through a third capacitor C3 to the output of a second opamp 022 the cut-off frequency f _{2 is} connected to the input of the controlled current source 4, containing for example a transistor T1 whose base is connected as the input of the controlled current source, its emitter is connected via a fourth resistor R4 to a voltage supply - Ug, and its collector the power supply 4 is connected to the input terminal 1.

Low-pass filter 2 with a cut-off frequency serves as a current-voltage converter for the pass-band signals and is designed as an active filter. On its output, which is simultaneously the output of the whole wiring, the connected low-pass filter 3 with the cut-off frequency f ₂ has a substantially lower cut-off frequency and is also designed as an active filter. The output current of the controlled current source 4 is controlled from its output. The direct current component of the input signal together with the signals of the low pass filters 3 with cutoff frequency f ₂ are suppressed directly at the input of the circuit proportional to the low pass filter gain 3 with cutoff frequency f ₂ together with the controlled current If this gain is sufficiently high, then both at the input and at the output of the low-pass current 2 with a cutoff frequency

CS 272 911 B1 maintains a constant DC level even when the DC component of the input signal current changes.

The wiring is applicable for applications in high-frequency and low-frequency technology

Claims (1)

Filter connection with active DC suppression in which a low-pass filter with a cut-off frequency fj is connected to the filter input, the output of which is connected to the filter output, characterized in that the low-pass filter input (3) is connected to the filter output. with a cut-off frequency f ₂ , the output of which is connected to the input pu of the controlled current source (4), connected to its output at the filter input, the cut-off frequency f ₂ being lower than the cut-off frequency fp