JPS61280111A - Multi-stage filter circuit - Google Patents

Abstract

PURPOSE:To avoid the effect of the pre-stage by providing an impedance conversion circuit such as a voltage follower circuit between an output of at least a filter circuit and the input of the next filter circuit. CONSTITUTION:The voltage follower circuit 305 is inserted between the output of a CR filter 302 and the input of the SCF 306 to apply the impedance conversion. The voltage follower circuit 305 consists of six N-channel MOS transistors (TRs) 406-411, P-channel MOS TRs 402-405 and a current source 401. Thus, the circuit is immune to the pre-stage circuit and even if components of the CR filter 302 have variance, since the characteristic of the SCF 306 is unchanged and ten the stable characteristic is offered even when the stability due to manufacturing accuracy or secular change in the components is deteriorated more or less.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a filter circuit, and particularly to a filter circuit having a multi-stage configuration.

[Conventional technology]

Conventionally, a multistage filter circuit composed of n stages passes the output of a first filter 202 that receives an input from an input terminal 201 to a second filter 203, as shown in FIG.
The output of the second filter 203 is connected to the input of the third filter (not shown), and so on until the nth filter 204 is connected. .

In a filter circuit with a multi-stage configuration, it is common to use a desired filter circuit in any stage.
When configuring a low pass filter circuit and a high pass filter circuit in cascade to obtain pass characteristics,
In order to obtain a large amount of attenuation, there are many combinations, such as cascading several low-pass filter circuits with different cutoff frequencies.

[Problem that the invention seeks to solve]

The conventional multi-stage filter circuit described above includes a plurality of filter circuits 202, 203 . ....

204 are connected in series. For this reason,
If the resistance, capacitance, etc. constituting the (n-1)th filter circuit change due to manufacturing variations, this effect will also affect the next nth filter circuit.

In other words, manufacturing variations and aging changes must be taken into consideration during design, resulting in significantly poor design performance. Furthermore, since high precision and stability are required for resistors, capacitors, etc., there are disadvantages of poor yield and high cost.

[Means for solving problems]

The multistage filter circuit of the present invention includes an impedance conversion circuit such as a voltage follower circuit between the output of at least one filter circuit and the input of the next filter circuit among a plurality of cascade-connected filter circuits. There is.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a basic configuration diagram of the present invention, in which a voltage holock 103 is installed between a first stage filter circuit 102 and a second stage filter circuit (not shown).

FIG. 3 shows an embodiment of the present invention, which is a two-stage filter circuit. In FIG. 3, input terminal 301
is connected to the first filter circuit 302. The first stage filter circuit 302 includes a resistor 303 and a capacitor 3
This is a primary bar, sibu CR filter circuit (hereinafter referred to as an OR filter) composed of 04. The output of the filter circuit 302 is connected to the input of a voltage follower circuit 305, which is connected to the input of a second filter circuit 306. The second stage filter circuit 306 is a so-called sui-chido capacitor filter circuit (hereinafter SCF).
). The output of 5CF306 is output terminal 30
7 is connected.

Here, OR filter 3 formed by the first filter circuit
02 output and the second filter circuit 80F30
60 input without inserting the voltage follower circuit 305, one end of the resistor 303 and capacitor 304 will be directly connected to the input of the 80F306. Therefore, if the resistance 303 and capacitance 304 change due to variations in manufacturing, etc., there is a problem in that it not only changes the frequency characteristics of the CR74 router 302 but also affects the characteristics of the 5cF 306 in the next stage. To solve this problem, the output of the OR filter 302 and the 80F3060
Insert a voltage follower circuit 305 between the input and
Performs impedance conversion. As a result, it is not affected by the previous stage, and the C filter 3
Even if the elements constituting 02 vary, the characteristics of 8CF306 do not change, so even if the manufacturing precision of the elements or the stability zone due to aging is somewhat poor, it is possible to provide products with stable characteristics.

FIG. 4(a) shows the voltage follower circuit 305 of FIG.
This is an example of a circuit. This circuit consists of six N-channel M0
8) Transistors 406 to 411, P channel M08)
:7 transistors 402 to 405 and a current source 401. As shown in the figure, the voltage follower circuit is a circuit that applies direct feedback from the output terminal (-OVT to the negative phase input terminal -IN) and inputs a signal from the positive phase terminal +IN. The voltage follower circuit used is not only the configuration shown in Figure 4 t1), but also the simpler configuration shown in Figure 4 (b), (C), (d).
The same thing can be achieved with a source follower circuit as shown in ).

In each figure, 412 is an N-channel MOS transistor, 413 to 415 are N-channel MO8) transistors, particularly of the deplacement type, and 416 to 418 are current sources. It is also possible to use an emitter follower circuit using a bibort 2 transistor.

Although the above description has been made regarding a filter circuit with a two-stage configuration in a multi-stage filter circuit, it is clear that the same effect can be obtained not only with a two-stage configuration but also with a configuration with a larger number of stages. Furthermore, this effect can be achieved by a multi-stage configuration of SCFs (and is not limited to a multi-stage filter circuit composed of an OR filter and an SCF).

〔Effect of the invention〕

As explained above, in the present invention, by adding a voltage follower circuit to a multi-stage filter circuit, it is possible to prevent the filter circuit from being influenced by the previous stage. That is,
For example, in a filter circuit that constitutes a multi-stage filter circuit,
When a Sibu CR filter is included, the resistance and capacitance are required to have high precision and good stability, which leads to poor yield and high cost. However, it is possible to obtain a product with good designability and stable characteristics, and the paper yield is significantly improved and can be manufactured at low cost.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a multi-stage filter circuit according to the present invention, FIG. 2 is a block diagram of a conventional multi-stage filter circuit, and FIG. 3 is an embodiment of the present invention, which is based on a passive CR filter and an SCF. 4(a) is a circuit diagram of a voltage follower, and FIGS. 4(b) to 4(d) are circuit diagrams of a north follower. 101... Input terminal, 102... First
103...Voltage follower circuit, 104...Nth filter circuit, 105...Output terminal, 201...Input terminal , 202...first filter circuit,
203... Second filter circuit, 204.
...nth filter circuit, 205...
・Output terminal, 301... Input terminal, 302...
...CfL74 router, 303...Resistance, 3
04...Capacity, 305...Voltage follower circuit, 306...8CF, 307...
...Output terminal, 401,416-418...
Constant current source, 402-405...P-channel enhancement type MOS transistor, 406-412.
...N-channel enhancement type M08)? transistors, 413-415...N-channel depressing type MO8) transistors. Rod 1 Figure 1 move 2y! J Kaya 3 Figure Graduation 44EJC(l)

Claims (1)

[Claims] A multistage filter circuit formed by cascading a plurality of filter circuits, characterized in that an impedance conversion circuit is inserted between at least the output of the previous stage filter circuit and the input of the next stage filter circuit. .