Logo
MWF Learn

Transfer Function

Implements transfer function

Category: Dynamics

Description:

The Transfer Function can be described by the following equation:

Y(s)U(s)=num0Sm+num1Sm1+num2Sm2+...+nummden0Sn+den1Sn1+den2Sn2+...+denn\frac{Y(s)}{U(s)}=\frac{num_0S^m+num_1S^{m-1}+num_2S^{m-2}+...+num_m}{den_0S^n+den_1S^{n-1}+den_2S^{n-2}+...+den_n}

num0...mnum_{0...m}
and
den0...nden_{0...n}
are polynomial coefficients defined by the user. It is possible to set them by the Transfer Function Properties as shown in Figure 1.

Figure 1 - Setting parameters for simulation

Figure 1 defines a first-order discrete transfer function equivalent to:

G(s)=1s+1G(s)=\frac{1}{s+1}

Figure 2 shows an example using the transfer function from Figure 1.

Figure 2 - Diagram using transfer function from equation

The step response of the system is depicted in Figure 3.

Figure 3 - Step response in a Scope

Parameters:

Vector row that sets the coefficients of the polynomial function of the numerator.

The number of elements of this vector must be less or equal the number of elements in the Denominator Coefficients.

Vector row that sets the coefficients of the polynomial function of the denominator.

Ports:
Input

The signal flowing through this port acts as an input signal to the transfer function.

Data Types:
Output

The signal flowing from this port is the response of the transfer function to the input signal injected.

Data Types:

About MWF

MWF is a traditional Brazilian company that provides a wide range of electronic and mechatronic products for industry sectors such as automotive, agricultural machinery and aerospace.

Contact Us

Rua Doutor Siqueira, 139 / Sala 804 Campos dos Goytacazes - RJ, Brasil

contact@mwf-technologies.com

Follow Us

LinkedInYouTubeInstagramNews

© 2018-2026 MWF. All rights reserved.