UA19355U - Adjustable low-cut filter - Google Patents

Abstract

The proposed adjustable low-cut filter contains functional units connected in series, the number of which is equal to the order of the filter. Each functional unit contains a differential amplifier, a multiplier, an adder, a time delay element, and a comparator. The inverting input of the differential amplifier is connected to the output of the adder, and the noninverting input is used as the input of the functional unit. The input of the first functional unit is used as the input of the filter. The output of the last functional unit is used as the output of the filter.

Description

Description of the invention

The corrected high-pass filter refers to the synthesis of radio technical signal filtering devices and 2 can be used to simulate dynamic processes.

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

As the closest analogue, |pat. M/003038999, IRS NOZOZ/20 (Typeabrie and Keg, 2003-05-08)), containing an amplifier, a comparison and summation device. Its disadvantage is limited functionality.

The basis of the useful model is the task of expanding the functional capabilities of the model with 10. the operator fractional-rational transfer function, where is the operator fractional-rational transfer function, is the Laplace operator, is the order of the filter, and is the lower limit frequency.

The essence of the model is expressed by a set of the following essential distinctive features: the input signal is subjected to n-fold transformation with the help of n serially connected operational modules, which include a differential amplifier of the difference between the input signal and the output signal of the adder, a device for correcting the limit frequency of the filter, which contains a multiplier of the output of the differential amplifier to the signal corrections, the adder of the correction result and the delay signal, a device for comparing the delay signal with the input signal.

The drawing shows a diagram explaining the essence of the proposed useful model. It contains serially connected operational transformation modules 1, the number of which corresponds to the order of filter n. The operational transformation module 1 consists of a serially connected differential amplifier 2, a multiplier 3, an adder 4, a delay element 5 and a comparison device 6. The input signal x is applied to the input of a differential /-Ш) of the amplifier 2 and the comparison device 6. The output signal of the differential amplifier 2 is applied to the input of the multiplier Z by the correction factor 7. The output of the multiplier is connected to the input of the adder 4, the second input of which is connected to the output of the delay element 5. The output signal of the adder 4 is connected to the subtractive input of the differential amplifier 2. The input of the operational transformation module 1 is the summative input of the differential amplifier 2. The output of the operational transformation module 1 is the output of the comparison device 6 of the input signal with the output of the delay element.

The process performed by the filter is as follows. The input signal x is subjected to an n-fold Shk transformation according to the order of the filter n with the help of n serially connected modules of the operational (Ge) transformation 1. Increasing the order of the filter n increases the steepness of its lower frequency limit. Entering the correction operation 7 allows you to manage this limit. -

The proposed model allows synthesis of the filter for a given value of the lower limit of the filter's frequency range and its correction with the help of a correction signal that expands the functionality. Sources of information: 1. Ostapenko A.G. Analysis and synthesis of linear radioelectron circuits. Analog and digital filter. - from M.: Radio and communication, 1985. - P.250. - Fig. 7.29, e.

Claims (1)

;" The formula of the invention - - and Corrected high-frequency filter with an operator fractional-rational transfer function (Ce) of checkers is a fractional-rational operator transfer function; Ж is the Laplace operator; ЖЭ- filter order; Y is the lower cut-off frequency, containing an amplifier, adder, multiplier and delay element, which is characterized by the fact that operational transformation modules are introduced in series, the number of which corresponds to the order of the filter n, and the operational transformation module consists of a serially connected differential amplifier, multiplier the output of the differential amplifier by the correction factor, with an adder, a delay element, the output of which is connected to the second input of the adder, and devices for comparing the input signal with the output of the delay element, and the input of the operational transformation module is the summing input of the differential amplifier, the subtractive input of which is connected to the output of the adder, and the output of the module in the operational transformation is the output of the comparison device. b5