Continuous-time filters described by differential equations

Continuous-time filters described by differential equations Recall in Ch. 2 + Two different ways: • LTI system response properties, Ch. 2 • Continuous time Fourier transform.

+ Frequency domain Time domain

Valid for any k

A simpler way Time domain Frequency domain

A simpler way Low-pass

A simple RC low pass filter R C + -

R C + - 

A simple RC high pass filter C R + -

C R + - Time domain Frequency domain 

discrete-time filters described by difference equations Recall in Ch. 2 + delay Two different ways: • LTI system response properties, Ch. 2 • discrete-time Fourier transform.

+ delay Frequency domain Time domain

Frequency domain Time domain

Nonrecursive discrete-time filter FIR filter Finite Impulse Response filter Example Moving average filter

Continuous-time filters described by differential equations

Continuous-time filters described by differential equations

Presentation Transcript

Differential Equations

DIFFERENTIAL EQUATIONS

Differential Equations

Differential Equations

DIFFERENTIAL EQUATIONS

DIFFERENTIAL EQUATIONS

Differential Equations

Differential Equations

Continuous Time Domain Filters

DIFFERENTIAL EQUATIONS

Differential Equations

DIFFERENTIAL EQUATIONS

2.4 Causal LTI Systems Described by Differential and Difference Equations

Differential Equations

Differential Equations

Differential Equations

Differential Equations

Differential Equations

DIFFERENTIAL EQUATIONS