Ideal Low Pass Filter - Electrical Engineering (EE) PDF Download

How can we tackle the problem of Low pass Filter not being ideal ?

Ideal Low Pass Filter - Electrical Engineering (EE)  =Magnitude Response of the filter

Ideal Low Pass Filter - Electrical Engineering (EE)=Phase Response
Normally we want , Ideal Low Pass Filter - Electrical Engineering (EE) to be zero .(This is what we want IDEALLY) 

Next best thing that we can do is we can have some linear phase variation, i.e. constant time delay for all frequencies.
                             Ideal Low Pass Filter - Electrical Engineering (EE)

Unfortunaltely analog filters can NEVER give linear phase response.

We can design analog filters as near to an ideal filter in terms of magnitude response, but can not really make ideal filter.

How can we solve this problem?

What we have to do is to get a Maximally Flat Sampling, i.e. fs>>2fm

Ideal Low Pass Filter - Electrical Engineering (EE)

This is what we can do using Hold Filters, which is referred to as Zero - Order - Hold Sampling. It is a staircase approximation of the analog signal.

 

How it works?

In practice, analog signals are sampled using zero - order - hold (ZOH) devices that hold a sample value constant until the next sample is acquired. This is also called as flat - top sampling. This operation is equivalent to ideal sampling followed by a system whose impulse response is a pulse of unit height and duration T s ( to stretch the incoming pulses ). This is illustrated in Figure below :


Ideal Low Pass Filter - Electrical Engineering (EE)
 

Reconstruction of signal in Zero Order Hold Filter

The analog Signal (continuous - time signal) is multiplied with a periodic impulse train, referred to as Sampling Function. A sampled signal is then obtained as shown in figure
below.

 
Ideal Low Pass Filter - Electrical Engineering (EE)
 

The ideally sampled signal xp(t) is the product of the impulse train p(t) and the analog signal xc(t) and is written as

Ideal Low Pass Filter - Electrical Engineering (EE)                              Ideal Low Pass Filter - Electrical Engineering (EE)



Ideal Low Pass Filter - Electrical Engineering (EE)
Ideal Low Pass Filter - Electrical Engineering (EE)

The ZOH Sampled Signal xZOH(t) can be regarded as the convolution of ho(t) and a sampled signal xp(t)

 

Ideal Low Pass Filter - Electrical Engineering (EE)
 

Distortion in Zero-order-hold sampling :

 The transfer function H(f) of the zero - order - hold circuit is the Sinc function

 

Ideal Low Pass Filter - Electrical Engineering (EE)

 

Ideal Low Pass Filter - Electrical Engineering (EE)

 

Since the spectrum of the ideally sampled signal is Ideal Low Pass Filter - Electrical Engineering (EE)
 The spectrum of the zero- order - hold sampled signal xZOH(t) is given by the product

Ideal Low Pass Filter - Electrical Engineering (EE)

This spectrum is illustrated in Figure shown below :

Ideal Low Pass Filter - Electrical Engineering (EE)


Figure : Spectrum of a zero - order - hold sampled signal The term sinc( f / fs ) attenuates the spectral images X( f - k fs ) and causes their distortion.

 

There are two types of distortion :-

 a) Aliased Component Distortion : Aliased Component distortion can be corrected, if required by cascading another better lowpass filter.
 b) Baseband Spectrum Distortion (Sinc Distortion) : Baseband Spectrum Distortion is corrected by an Equalizer. An Equalizer is an LSI system with Fourier Transformable impulse response which acts like an inverse 1 / H ( f ) to another LSI system, at least in a certain range of frequencies. Equalizer is also used to correct channel imperfections in a communication system.


The higher the sampling rate fs, the less is the distortion in the spectral image X( f ) centered at origin.

 An ideal lowpass filter with unity gain over -0.5 fs≤ f ≤ 0.5 fs recovers the distorted signal.

Ideal Low Pass Filter - Electrical Engineering (EE)

To recover X( f ) with no amplitude distortion, we must use a compensating filter that negates the effects of the Sinc distortion by profiling a concave shaped magnitude spectrum corresponding to the reciprocal of the Sinc function over the principal period | f | ≤ 0.5 fs
 

Ideal Low Pass Filter - Electrical Engineering (EE)
 

Figure : Spectrum of a filter that compensates for Sinc distortion The magnitude spectrum of the compensating filter is given by

Ideal Low Pass Filter - Electrical Engineering (EE)

Reconstruction of signal in Zero Order Hold Filter The analog Signal (continuous - time signal) is multiplied with a periodic impulse train, referred to as Sampling Function. A sampled signal is then obatained as shown in figure below.
 

 

Ideal Low Pass Filter - Electrical Engineering (EE)

The ideally sampled signal xp(t) is the product of the impulse train p(t) and the analog signal xc(t) and may be written as

Ideal Low Pass Filter - Electrical Engineering (EE)

 

Ideal Low Pass Filter - Electrical Engineering (EE)

 

The ZOH Sampled Signal xZOH (t) can be regarded as the convolution of ho(t) and a sampled signal xp(t)

Ideal Low Pass Filter - Electrical Engineering (EE)

 

Conclusion:

In this lecture you have learnt:

  • analog filters can NEVER give linear phase response .
  • Hence, we can design analog filters as near to an ideal filter in terms of magnitude response, but can not really make ideal filter .
  • Hold Filters can be used to get approximation by a Maximally Flat Sampling i.e fs >> 2fm.

There are 2 types of distortion: Baseband Spectrum Distortion (Sinc Distortion) & Aliased Component Distortion.

The ZOH Sampled Signal xZOH(t) can be regarded as the convolution of ho(t) and a sampled signal xp(t).

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FAQs on Ideal Low Pass Filter - Electrical Engineering (EE)

1. What is a low pass filter?
Ans. A low pass filter is a type of electronic filter that allows low-frequency signals to pass through while attenuating high-frequency signals. It is commonly used in audio systems to eliminate or reduce high-frequency noise and interference.
2. How does a low pass filter work?
Ans. A low pass filter works by selectively allowing low-frequency signals to pass through while attenuating higher frequencies. It achieves this by using a combination of resistors, capacitors, and inductors to create a frequency-dependent voltage divider network. The cutoff frequency of the filter determines the point at which the attenuation of higher frequencies begins.
3. What is the ideal low pass filter?
Ans. The ideal low pass filter is a theoretical filter that completely passes all frequencies below the cutoff frequency and completely attenuates all frequencies above it. In practice, no filter can achieve this ideal response, but different filter designs strive to approximate it as closely as possible.
4. What is the cutoff frequency of a low pass filter?
Ans. The cutoff frequency of a low pass filter is the frequency at which the filter starts attenuating the higher frequencies. It is typically defined as the -3 dB point, which is the frequency at which the output power is reduced to half (-3 dB) of the maximum power. The cutoff frequency is an important parameter that determines the range of frequencies that will pass through the filter.
5. What are the applications of low pass filters?
Ans. Low pass filters have various applications in different fields. In audio systems, they are used to remove high-frequency noise and ensure accurate reproduction of low-frequency signals. In communication systems, they are used to separate different channels and eliminate unwanted noise. They are also used in image processing, control systems, and power electronics to filter out high-frequency components and improve system performance.
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