CS257524B1 - and the use of a frequency-dependent negative resistance with a high quality factor - Google Patents

Abstract

The connection relates to a frequency-dependent negative resistor with a high quality factor. The purpose of the connection is to achieve a high quality factor in the implemented frequency-dependent negative resistor. The said purpose is achieved by connecting a resistor (R4) between the mutually connected inverting inputs of the operational amplifier (1) and the operational amplifier (2), to which a resistor (R2) and a resistor (R3) are connected, and between the mutually connected and grounded ground terminals of the operational amplifier (1) and the operational amplifier (2), to which a capacitor (C2) is connected. The second pole of the resistor (R2) is connected with a resistor (Rl) to the output of the operational amplifier (1) and the second pole of the resistor (R3) is connected with a capacitor (Cl) to the output of the operational amplifier (2). The second pole of the resistor (Rl) and the second pole of the capacitor (C2) are connected to the input non-inverting terminal of the operational amplifier (2). The input terminals of the frequency-dependent negative resistor circuit with a high quality factor value are the input non-inverting terminal of the operational amplifier (1), to which the second pole of the capacitor (Cl) and the grounded terminal are connected.

Description

The invention relates to a frequency-dependent negative resistance circuit with a high quality factor value.

At present, there are requirements in the technical practice for the construction of active filters with high Q factor values. Up to Q - 2,000, the problem can be solved at the cost of using more complicated wiring, which requires the use of low availability operational amplifiers with differential output. the operational amplifiers used are at least 3.

The above drawbacks are overcome by designing and utilizing a high-quality frequency-dependent negative resistance circuit of the present invention, consisting of a first opamp, to which a first capacitor is connected to the input non-inverting terminal and a first resistor and a second resistor to the output terminal. the second non-inverting input terminal is connected to the second pole of the first resistor and the second capacitor and to the output terminal the third resistor and the second pole of the first capacitor are connected, interconnecting the inverting inputs of the first and second operational amplifiers, the second pole of the second resistor and the second pole the ground terminals of the first and second operational amplifiers and the second pole of the second capacitor, which consists in the fact that the fourth resistor is connected connected inverting inputs of the first opamp and second opamp, and between the grounded and grounded terminals of the first opamp and second opamp.

The attached drawing shows a schematic diagram of a frequency-dependent negative resistance with a high value of the quality factor according to the invention.

The high-quality frequency-dependent negative resistance circuit according to the invention comprises an operational amplifier 2 whose input non-inverting terminal is connected to a capacitor C1 and whose output terminal is connected with resistor R1 and resistor R2 and operational amplifier 2. resistor pole R1 and capacitor C2 and to the output terminal of which resistor R3 and second pole of capacitor C1 are connected, the inverting inputs of operational amplifier 2 and operational amplifier 2, second pole of resistor R3 are connected to each other and grounded terminals of operational amplifier 2 ^{and the} operational amplifier 2 and the second pole of the capacitor C2. A resistor R4 is connected between the interconnected inverting inputs of the operational amplifier 2 and the operational amplifier 2 and between the interconnected and grounded ground terminals of the operational amplifier 2 ^{and the} operational amplifier 2.

The first input terminal of the high-quality frequency-dependent negative resistance circuit is the non-inverting input terminal of the operational amplifier 2 ^and its second input terminal are the interconnected and grounded ground terminals of the operational amplifier 2 ^{and the} operational amplifier 2 ·

The frequency-dependent negative resistance with a high value of the quality factor according to the invention has simpler connection, smaller dimensions, lower weight and less power input with the possibility of integration and with the possibility of continuously changing the value of quality factor by changing the resistance value R4. Active filters with high quality factor value can be realized in a simple way.

The invention finds particular application in the construction of active filters.

Claims (1)

High-quality frequency-dependent negative resistance wiring consisting of a first opamp to which a non-inverting input terminal that is the first high-quality frequency-negative negative resistance wiring input terminal is connected to a first capacitor and to whose output terminal is connected a first resistor and a second resistor and a second operational amplifier, the input non-inverting terminal of which connects the second pole of the first resistor and the second capacitor, and the output terminal of which connects the third resistor and the second pole of the first capacitor; the second pole of the second resistor and the second pole of the third resistor, and the ground terminals of the first and second operational amplifiers and the second pole of the second capacitor, which is the second input terminal, are interconnected and grounded A high-quality frequency-dependent negative resistance, characterized in that the fourth resistor (R4) is connected between the interconnected inverting inputs of the first opamp (1) and the second opamp (2) and between the interconnected and grounded ground terminals of the first an operational amplifier (1) and a second operational amplifier (2).