UA21928U - Recurrent high-pass filter - Google Patents

Abstract

The high-pass filter concerns radio systems for providing communication quality. It may be used in correction devises of automatic control systems. The model operation may be represent as a filter response with fractional rational transfer function - Operator fractional rational transfer function, s-Laplace operator, n- filter order, f- the low cutoff frequency The recurrent high-pass filter consists of functional modules connected is series, the number of which fits with filter's order. The module consists of connected in series an operational amplifier, a line amplifier, an adder, and a delay element connected with the other adder input. The operational amplifier input is the input of the module. The adder output connects with inverting input of the operational amplifier. The operational amplifier output serves as the functional module output. An input signal is injected to the first functional module input; the last functional module output serves as the filter output. The proposed model allows synthesizing a filter with the given cutoff frequency in accordance with its order using functional modules. Such a construction extends functionality.

Description

Description of the invention

The model refers to radio technical signal filtering systems and can be used in automation and 2 telemechanics to correct control systems.

A known filter (1) based on discrete signal transformation. Its disadvantage is the complexity of implementation.

As a prototype, a filter according to pat. 501499430, IRS NOZNI7/04 (KEYUZESTIOM PISITAG. RI-TECH, 1989-08-07), adder, amplifier and signal delay element containing. Its disadvantage is limited functionality. 70 The useful model is based on the task of expanding the functionality based on the description of the response of the filter with the operator fractional-rational transfer function with the following conditions (where MU(z) is the operator fractional-rational transfer function, 5 is the Laplace operator, n is the order of the filter , Her is the lower limit frequency of the filter.

The essence of the proposed useful model is expressed by the set of the following essential distinctive features: n serially connected functional modules are introduced, each of which consists of a serially connected operational amplifier, a linear amplifier, an adder, the output of which forms a negative feedback, and a delay element, the output of which is coupled with the second input of the adder.

In fig. there is a diagram explaining the essence of the proposed useful model. It contains serially connected functional modules 1, the number of which corresponds to the order of the filter n. The functional modules consist of serially connected operational amplifier 2, is the input of functional module 1, a linear amplifier

C, the adder 4, the output of which is connected to the inverse input of the operational amplifier 2, forming a negative feedback, and the delay element 5, the output of which is connected to the second input of the adder 4. The output of the functional module is the output of the operational amplifier 2. The input signal x connected to the input of the first functional module. The output of the last function module is the output of the filter.

The filter works as follows. The input signal x is subjected to an n-fold functional transformation according to the order of the filter n with the help of n sequentially connected functional modules. co

Increasing the order of the filter n increases the steepness of its lower frequency limit. with

The proposed model, with the help of introduced functional modules, allows synthesis of a filter for a given value of the lower cut-off frequency in accordance with its order, expanding the functional Me) possibilities. "-

Bibliographic list:

From 1. Ostapenko A.G. Analysis and synthesis of linear radioelectron circuits. Analog and digital filter!. with

M.: Radio and communication, 1985. - p. 250, fig. 7.29, e.

Claims (1)

The formula of the invention "- s Recurrent high-frequency filter, based on the simulation of the response of the filter with the operator h" fractional-rational transfer function p ЦИ ' в ------ (sign where UM(z) is the operator fractional-rational transfer function, 5 - the Laplace operator, n - the order of the filter, y - the lower limit frequency, which contains an adder, an amplifier and a delay element, which is distinguished by the fact that functional modules connected in series are introduced, the number of which corresponds to the order of the filter n, which se) consist of in series of the combined operational amplifier, which is the input of the functional module, t 50 of the linear amplifier, the adder, the output of which is combined with the inverse input of the operational amplifier, forming a negative feedback, and the delay element, the output of which is combined with the second input of the IR e) adder, the output of the functional module serves as the output of the operational amplifier, the input signal is connected to the input of the first functional module, and the output of the last functional module is the output of the filter. p. 60 b5