CS204565B1 - Connection for tunable active filter - Google Patents

Description

Engage a tunable active filter

It is an object of the invention to provide a tunable active filter with an optoelectric tandem resistor, particularly for stereo amplifier filters.

In the prior art devices in the low-frequency technology, various active filter connections are used. It is most often used for tuning the active filter of two variable resistors and wiring with a tandem poteneiometer, where tuning is performed by simultaneously changing the resistor size. However, the mechanically operated potentiometers are highly faulted, causing instability due to pantograph murmur or pantograph transient resistance. Moreover, these potentiometers are placed with respect to the control panel on the front panel of the device and in many cases due to their size and function they cannot be located spatially at the point of connection of the active filters, thereby creating parasitic links with other circuits.

The above drawbacks are overcome by connecting a tunable active filter with an optoelectronic tandem resistor consisting of a high-frequency and low-pass filter according to the invention, characterized in that a first photoresistor is connected to the inlet of the active filter in the high-pass filter via a first and a second capacitor. outputting a first amplifier and forming a first luminescent diode connected to a current source and a positive source potential, and a second photoresistor a first optoelectronic tandem resistor, wherein a third capacitor and a second photoresistor coupled by a supplementary zero-potential resistor are connected to the non-inverting input; the input of the first operational amplifier is connected to the zero potential via a resistor determining the amplification of the first operational amplifier and via another resistor to the output of the first amplifier in which a supplementary resistor is connected in the connected low-pass filter and a fourth photoresistor connected via a capacitor to the output of a second amplifier, the input of which is connected via a third photoresistor, forming a second luminescent diode connected to a power source and positive tandem wherein the low-pass filter output is discharged from a second amplifier, which is coupled via a resistor to the negative potential of the source.

By incorporating a tunable active filter according to the invention, all interference is eliminated, especially in stereo amplifiers. In addition, by incorporating an optoelectronic tandem resistor in the active element space, parasitic bonds with other circuits are prevented. A very stable operating point of the emitter follower is achieved by galvanic coupling of the high-frequency and low-frequency filters.

An example of a tunable active filter connection according to the invention is schematically shown in the attached figure, where an active filter consisting of high-pass and low-pass filters is shown.

In the tunable active filter having an optoelectronic tandem resistor as shown, two active filters are used, the first being a high-pass filter A and a second a low-pass filter Β. In low-frequency technology, the high-pass filter A is a noise filter and the low-pass filter B is a noise filter.

The first photo resistor 3 is connected to the active filter in the high-pass filter A through the first capacitor 1 and the second capacitor 2 connected via the additional resistor 8 to the output of the first amplifier 9. The second photo resistor 5 is connected to the non-inverting input of the amplifier 9 to zero potential. The photoresistors 3 and 5 form a first optoelectronic tandem resistor with the first luminescent diode 4 connected to the current source I, and to the positive potential of the source. The inverting input of the first amplifier 9 is connected via a resistor 7 with a zero potential and through a resistor 10 with the output of the first amplifier 9. The low-pass filter B is galvanically connected to the output of the first amplifier 9 by connecting the fourth photoresistor 15 to the resistor 12. via a capacitor 16 connected to the output of the second amplifier 18. A third photoresistor 13 is connected to the input of the second amplifier 18 via a resistor 11, which forms a second photoluminescent diode 14 connected to a current source ₁₂ and a positive source potential.

SUBJECT

Connection of a tunable active filter with an optoelectronic tandem resistor consisting of high-pass and low-pass filters, characterized in that a high-pass filter (A) is connected via a first capacitor (1) and a second capacitor (2) by a first photoresistor (3) connected via an additional resistor (8) with an output of a first amplifier (9) and forming with a first luminescent diode (4) connected to a current source (I,) and a positive source potential and a second photoresistor (5) a first optoelectronic tandem resistor; 9) a capacitor (2) and a second photoresistor (5) connected by a supplementary resistor (6) with zero potential are connected, while the inverting input of the first amplifier-optoelectronic tandem resistor is connected. The low-pass filter B is output from a second amplifier 18, which is connected via a resistor 19 to a negative source potential. The input of the second amplifier 18 is connected via a resistor 17 to zero potential.

The working area of the low-pass filter B is adjusted by the high-pass filter A. The tuning is carried out by a corresponding change of the resistance of the photoresistors 3,5. The tuning itself takes place by changing the luminous flux emitted by the luminescent diodes 4, 14. The photoresistors 3, 5, 13 and 15 vary their resistance depending on the luminous flux generated by the luminescent diodes 4, 14. The intensity of the light source of the optoelectronic tandem resistor is adjusted by means of, for example, a mechanical potentiometer which does not participate directly in the transmission filter properties. The first amplifier 9 is an operational gain gain + 2, the second amplifier 18 an operational gain gain + 1, which forms an emitter follower 19 with a resistance.

In the example of the tunable active filter connection according to the invention, the tunable filter forms two connected active filters represented by the high-pass filter A and the low-pass filter B. Both the high-pass filter A and the low-pass filter B can be used separately in the exemplary circuit.

Claims (1)

BACKGROUND OF THE INVENTION (9) is coupled to a zero potential via a resistor (7) determining the gain of the first amplifier (9) and a resistor (10) to the output of the first amplifier (9) to which an additional resistor (B) is connected 12) and a fourth photoresistor (15), which is connected via a further capacitor (16) to the output of a second amplifier (18), the input of which is connected via a resistor (11) to a third photoresistor (13) forming a second luminescent diode (14) connected to a current source (I ₂ ) and to a positive source potential and with a fourth photoresistor (15) a second optoelectronic tandem resistor, wherein the low-pass filter (B) is output from a second amplifier (18) which is connected via a resistor (19). negative potential of the source.