DD285667A5 - RC LOW PASS CIRCUIT - Google Patents

Abstract

The invention relates to an RC Tiefpaszschaltung. In an RC low pass circuit, the input is connected to the reference via the resistor and the capacitor of the RC element, and at the connection point of capacitor and resistor of the RC element is connected a current mirror which magnifies the output current of the circuit according to its current mirror ratio. {RC -Tiefpaszschaltung; Resistance; Capacitor; RC element; Current mirror; Output current; Stromspiegelverhaeltnis}

Description

For this 1 page drawings

Field of application of the invention

The invention relates to an RC low-pass circuit.

Characteristic of the known state of the art

RC low-pass circuits are known to have the task of suppressing certain frequencies and for example to cause a hum suppression. Such circuits are known from the patents DE-3340117 and DD 242316 and from the DE-book, Tietze, U., Schenk, Ch .; Semiconductor circuitry, 6th edition, Berlin, Heidelberg, New York 1983, Springer Verlag, pp 62-65 known.

Object of the invention

The aim of the invention is to largely avoid disadvantages of known circuits.

Explanation of the essence of the invention

The invention has for its object to provide a RC low-pass circuit having a given value of the capacitor (chip area) and the load resistance (input Widord of an amplifier) has a relatively high time constant.

According to the A'ifgabo is achieved in that the input of the RC low-pass circuit via the resistor and the capacitor of the RC element is connected to the reference point. At the connection point of capacitor and resistor of the RC element, a current mirror is connected, which increases the output current of the circuit according to its current mirror ratio.

Another feature of the invention is that the emitters or collectors of the current mirror transistors form the output of the circuit.

According to a further embodiment, it is advantageous that at the output of the circuit, a resistor divider is connected, which supplies an amplifier with the midpoint voltage.

embodiments

The invention will be explained below with reference to exemplary embodiments.

The figure shows a circuit with an RC element and a current mirror. In this circuit, the input V, via the resistor Rxn and the capacitor C is connected to the reference point. At the connection point of resistor Rxn and capacitor C, a current mirror is connected, which consists of the transistors T, ... T _n . The resistance of the RC element is therefore designated Rxn, because when using a current mirror with the n-times Emittorfläche the current mirror transistors compared to the emitter surface of only one transistor (without current mirror), the resistance of the RC element η times can be made greater than without current mirror. This applies to the same load resistance. If the resistance of the RC element is made η times greater when using a current mirror than without current mirror, the time constant of the RC element increases accordingly. The quantity η expresses the current mirror ratio of a current mirror, ie the ratio of the sum of the emitter areas of η mirror transistors to the emitter area of only one transistor (in the absence of a current mirror). The output of the circuit of Figure 1 is designated A. Between the output A and the reference point, a load resistor is generally connected, which is not shown in Figure 1. V ₁ is usually identical to V.

The increase of the output current or the reduction of the load resistance at the output A can be set largely independent of the RC element and the output voltage to A. For a given load resistance and output voltage of the resistor Rxn can be increased according to the mirror ratio and thus the time constant of the RC element.

In the circuit of Figure 2 as a load resistor of the circuit of Figure 1, a voltage divider with the resistors R ₁ and R _{2 is} provided. The voltage divider R1, R2 is used in the example of Figure 2 for the midpoint voltage generation of a low-frequency amplifier V. The RC element causes in the circuit of Figure 2 is a hum suppression. Also in the circuit of Figure 2 is an increase in the time constant of the RC element (without changing the resistors R ₁ and Ft;) Possible by the current mirror. The resistors R ₁ and R _{2 of} the voltage divider are preferably sized so that R ₁ + R ₂ > Rxn.

Claims (3)

1. RC low-pass circuit, characterized in that its input is connected via the resistor and the capacitor of the RC element to the reference point and that at the connection point of the capacitor and resistor of the RC element, a current mirror is connected, soften the output current of the circuit according to their Current mirror ratio increased. 2. RC low pass circuit according to claim 1, characterized in that the emitter or the collectors of the current mirror transistors form the output of the circuit. 3. RC Tiefpaßschpltung according to claim 1 or 2, characterized in that at the output of the circuit, a resistor divider is connected, which supplies an amplifier with the midpoint voltage.