# Diode Clippers – An overview of Clipping Circuits

john August 3, 2018 84 Comments

## Diode Clippers – A study of  various Clipping Circuits

This article explains the working of different diode clipper circuits like Positive and Negative Diode Clippers, Biased Clipper circuit, and Combinational Clipper Circuit with the help of circuit diagrams and waveforms.

### What is a clipping circuit?

A clipping circuit or a clipper is a device used to ‘clip’ the input voltage to prevent it from attaining a value larger than a predefined one. As you can see in the picture below this device cuts off the positive or negative peak value of a cycle.

Source:https://en.wikipedia.org/wiki/Clipper_(electronics)

The basic components required for a clipping circuit are – an ideal diode and a resistor. In order to fix the clipping level to the desired amount, a dc battery must also be included.  When the diode is forward biased, it acts as a closed switch, and when it is reverse biased, it acts as an open switch. Different levels of clipping can be obtained by varying the amount of voltage of the battery and also interchanging the positions of the diode and resistor.

Depending on the features of the diode, the positive or negative region of the input signal is “clipped” off and accordingly the diode clippers may be positive or negative clippers.

There are two general categories of clippers: series and parallel (or shunt). The series configuration is defined as one where a diode is in series with the load, while the shunt clipper has the diode in a branch parallel to the load.

### 1. Positive Clipper and Negative Clipper

Positive Diode Clipper

In a positive clipper, the positive half cycles of the input voltage will be removed. The circuit arrangements for a positive clipper are illustrated in the figure given below.

As shown in the figure, the diode is kept in series with the load. During the positive half cycle of the input waveform, the diode ‘D’ is reverse biased, which maintains the output voltage at 0 Volts. This causes the positive half cycle to be clipped off. Dur­ing the negative half cycle of the input, the diode is forward biased and so the nega­tive half cycle appears across the output.

In Figure (b), the diode is kept in parallel with the load. This is the diagram of a positive shunt clipper circuit. During the positive half cycle, the diode ‘D’ is forward biased and the diode acts as a closed switch. This causes the diode to conduct heavily. This causes the voltage drop across the diode or across the load resistance RL to be zero. Thus output voltage during the positive half cycles is zero, as shown in the output waveform. During the negative half cycles of the input signal voltage, the diode D is reverse biased and behaves as an open switch. Consequently, the entire input voltage appears across the diode or across the load resistance RL if R is much smaller than RL

Actually the circuit behaves as a voltage divider with an output voltage of [RL / R+ RL] Vmax = -Vmax when RL >> R

Negative Diode Clipper

The negative clipping circuit is almost the same as the positive clipping circuit, with only one difference. If the diode in figures (a) and (b) is reconnected with reversed polarity, the cir­cuits will become for a negative series clipper and negative shunt clipper respec­tively. The negative series and nega­tive shunt clip­pers are shown in figures (a) and (b) as given below.

In all the above discussions, the diode is considered to be the ideal one. In a practical diode, the breakdown voltage will exist (0.7 V for silicon and 0.3 V for Germanium). When this is taken into account, the output wave­forms for positive and negative clippers will be of the shape shown in the figure below.

Negative and Positive Clipping Waveforms

### 2. Biased Positive Clipper and Biased Negative Clipper

A biased clipper comes in handy when a small portion of positive or negative half cycles of the signal voltage is to be removed. When a small portion of the negative half cycle is to be removed, it is called a biased negative clipper. The circuit diagram and waveform is shown in the figure below.

TIn a biased clipper, when the input signal voltage is positive, the diode ‘D’ is reverse-biased. This causes it to act as an open-switch. Thus the entire positive half cycle appears across the load, as illustrated by output wave­form [figure (a)]. When the input signal volt­age is negative but does not exceed battery the voltage ‘V’, the di­ode ‘D’ remains reverse-biased and most of the input voltage ap­pears across the output. When during the nega­tive half cycle of input signal, the signal voltage becomes more than the battery voltage V, the diode D is forward biased and so conducts heavily. The output voltage is equal to ‘- V’ and stays at ‘- V’ as long as the magnitude of the input signal voltage is greater than the magnitude of the battery voltage, ‘V’. Thus a biased negative clipper removes input voltage when the input signal voltage becomes greater than the battery voltage. Clipping can be changed by reversing the battery and diode connections, as illustrated in figure (b).

Some of the other biased clipper circuits are given below in the figure. While drawing the wave-shape of the output basic principle discussed above are followed. The diode has been considered as an ideal one.

Different Clipper Circuits

### 3. Combination Clipper

When a portion of both positive and negative of each half cycle of the input voltage is to be clipped (or removed), combination clipper is employed. The circuit for such a clipper is given in the figure below.

The action of the circuit is summarized below. For positive input voltage signal when input voltage exceeds battery voltage ‘+ V1‘ diode D1 conducts heavily while diode ‘D2‘ is reversed biased and so voltage ‘+ V1‘ appears across the output. This output voltage ‘+ V1‘ stays as long as. the input signal voltage exceeds ‘+ V1‘. On the other hand for the negative input voltage signal, the diode ‘D1‘ remains reverse biased and diode ‘D2‘ conducts heavily only when input voltage exceeds battery voltage ‘V2‘ in magnitude. Thus during the negative half cycle the output stays at ‘- V2‘ so long as the input signal voltage is greater than ‘-V2‘.

### Drawbacks of Series and Shunt Diode Clippers

• In series clippers, when the diode is in ‘OFF’ position, there will be no transmission of the input signal to output. But in the case of high-frequency signals transmission occurs through diode capacitance which is undesirable. This is the drawback of using the diode as a series element in such clippers.
• In shunt clippers, when the diode is in the ‘off condition, transmission of input signal should take place to output. But in the case of high-frequency input signals, diode capacitance affects the circuit operation adversely and the signal gets attenuated (that is, it passes through diode capacitance to ground).

### Applications of clipping circuits

• Used in FM transmitters to reduce noise
• To limit the voltage input to a device
• To modify an existing waveform to the desired output

Also, check this – http://www.circuitstoday.com/diode-clippers-applications

To gain more knowledge about various other Clipping circuits – say Clipping circuits using Transistors, Applications of Diode clippers etc. Follow the links below.

TAKE A LOOK : CLIPPING CIRCUITS

TAKE A LOOK : TRANSISTOR CLIPPING CIRCUITS

TAKE A LOOK : DIODE CLIPPERS – APPLICATIONS

TAKE A LOOK : DIODE CLAMPING CIRCUITS

##### Comments
• Suneel
December 27, 2016

transfer characteristics are also important which are missed in this explanation…

• August 29, 2016

nyc article, thanks a lot

• ANURAJ C P
August 1, 2016

I have a doubt.In the first 3 example input signel is directly given to a cell. Can apply a input signel directly into a cell.please any one provide the answer.

• March 7, 2016

can someone plz tell me how will practicall biased clipper work (where we have a dc source plus 0.7V of silicon diode itself also)?

• Yash Vardhan
February 20, 2016

U should emphasize more on ‘how it gets clipped or clamped’
My doubts r not cleared yet….

• shivam
January 22, 2016

what is peak clipper

• October 3, 2015

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• alisha salve
August 26, 2015

thanks for give information. thank u once again.

• Soham Desai
December 18, 2014

It was helpful but more emphasis should be given on the working of biased clipper, like how do they actually work and what happens with the help of schematic diagrams… Otherwise a very helpful article

• ashlin anna joseph
December 4, 2014

it was helpful…

• ankit
November 28, 2014

designing of problem based on climper & clamper

• Gayathri
November 9, 2014

where is slicer?

• Innoxent Boss
January 14, 2015

There are three more names of Clipper,one of them is known as “slicer”… !!!

• saleh
August 11, 2018

Please tell that other two names of Clipper circuit!

• Kiran
September 12, 2014

very useful as its too easily presnted and can b understood very wellworth reading

• kaushal
August 29, 2015

i don’t think so… there is no explanation of any circuits..

still thanks

• aamir
August 9, 2014

thanxxxx

• Nilu
July 20, 2014

Thanks… A nice attempt for the students like us…

• Uditha
May 28, 2014

Thank so much…

• mohsin sarwar
May 16, 2014

thanks a lot. but the output graph of (f) is wrong .. if you want to correct this check this out
http://www.electronics-tutorials.ws/diode/diode-clipping-circuits.html

• sohel khan
May 8, 2014

thanks a lot because it was necessary for me .

• RJ FAHEEM
February 26, 2014

nice wording and good explanation?but pics are too little>??

• Hazratullah
January 25, 2014

This is one of the best ways that solve the students problems …Thank You ..

• Ashish
January 6, 2014

thankyou very much.i never understood how the biased ones.thanks to you ,now i do.i am very grateful.

• Zaina Daar
December 23, 2013

Thanks alot

• Sipra
October 26, 2013

thanks its helped me a lot

• iqra nazakat
September 28, 2013

i,m still confuseeeedddddddd

• akocnaj
September 5, 2013

where are the formulas ?

• aswini
August 4, 2013

thnq…

• February 20, 2013

information about other cliper circuits not given so i wasnt able t understand it well…plzzz can you provide me sufficent info 4 this..??

• February 18, 2013

thank u a lot wil re visit

• amer
December 21, 2012

thanks a lot for your help

• DEEPAK KUMAR ANAND
September 18, 2012

REALLY I APPRICIATE IT AFTER DEEPLY STUDY……….I HAD PROBLEM FOR ANALYSIS OF CLIPER CIRCUIT ,,,,,,BUT I HAVE NO PROBLRM NOW………………THANKS ALOT…..

• gourav verma
September 16, 2012

very easy and good language and point to point answer……

• deepak bhadu(grudge)
August 31, 2012

i reallllllllllllllllllllllllllllllllllllllllllly like the

• deepak bhadu(grudge)
August 31, 2012

clipper in life

• sjking
August 22, 2012

v.v.v.vnice explenation

• amruthesh
August 5, 2012

why is resistor connected in series with load in series clipper

• athul
October 12, 2012

when the diode is forward biased current flow is high… so to protect the diodes from the heavy flow of current , resistors are used in series…

• debopriya
August 5, 2012

the whole explanation is very nice…………..
i have understood this very well now…..

• NIX
July 8, 2012

simple and to the point explanation. wish my lecturer could read this prior to class.

• suman sourabh satpathy
June 10, 2012

it is very nice…….
i understd this very well…..

• June 8, 2012

IZZA,
You are right, the biased negative clipper output wave form doesnt clipped off.

I think it will clipped on -(V+D)

v is the voltage source
and
D is the drop in diode

• June 8, 2012

Get some Tips and Tricks in Clipping Circuits

TRICKS IN CLIPPING CIRCUITS

• iZZa
May 23, 2012

I think “Biased Negative Clipper” figure output waveform is wrong. ! let me know if it is my mistake. thanks anyway

• Saloni Mujawar
April 16, 2012

Thanks for the inf.. In short all required data is given…

• Rajish kumar
April 5, 2012

please explain combine diode circuit with Rquation solver by 3 steps which are given in Boylested Book….

• Himadri Debmath
April 1, 2012

Thanks a lot..Though information is very less but it is valuable to me

• March 29, 2012

after read this article i get more confused…….?
any body can help me..?

• Muhammad Imran
March 23, 2012

I feel gud to read all this.

• March 14, 2012

very nice artical

• Yeahia
February 20, 2012

if some mathematical problem is included with explanation,it will be so helpful.But this makes me understand the clippers,thanks

• phemy
February 15, 2012

am bouyant on dis topic

• shakir
February 8, 2012

it is bs8 way to understand. Thank’s……………

• adeel
January 18, 2012

this is good way to solve all the student problems.

• Muhammet
January 9, 2012

Hi I am a physics department student, i have a question abuot last picture, if we turn the dc voltage supllies 180 degree, then how it would be the Vout signal

• aviral raghav
December 28, 2011

Good one!!!!!!!! .Helped me clear my doubt.

• vandana joshi
December 12, 2011

i want to know that when diode is in series with load and battery then why another level v or -v is introduced in output waveform

• December 10, 2011

THAX A LOOOOOOOOOOOOOOOOOOOOOOOOOT I M MUCH SATISFIED AFTER READING ALL

• shivam kumar singh
December 8, 2011

thanks…………..

• shivam kumar singh
December 8, 2011

thanks for giving infomation.

• lakhdar
December 5, 2011

I was so confused between series and shunt clippers,but now i think every thing is OK; thank u so much.

• nitin gehlot
November 28, 2011

plz correct the biased -ve clipper o\p waveform…..

• SHUBHAM
November 18, 2011

VYSAKH,PLEASE SEND ME NOTE OF CLIPPERS

• sudhir sagar
October 30, 2011

derivation is not clear so make it clear

• October 22, 2011

thank u for this,but iam still not solved it properly.

• avinash
October 3, 2011

biased negative clipper output waveform is wrong plz correct it

• vysakh
August 18, 2011

@pallavi
please giv your e mail id, will sent complete note about biased clipper

• Pallavi
August 17, 2011

I am still not getting the working of biased clipper

• gopika
July 18, 2011

pls explain more abt clippers. explain shunt & series clippers in 2 versions. thats all THANK U 4 ur help.

• imran khan
June 22, 2011

i wanna design clipper n pspice plz give values of components… thanx alot……..

• sajjad
May 6, 2011

i’d problem in clippers but now i’ve resolved from it

• jojo
April 14, 2011

Images are redrawn. Now they are clear and perfect. Thanks a lot to every one who commented.

• April 12, 2011

thanks alot dude

• physics king
February 9, 2011

really wonderful!!!!!!!!!!
but images are too small………
combination clipping information is less………
if diode is not ideal no diagrams are mentioned…..

• dimitrist16
February 3, 2011

Thanks a lot!!! Easy to understand.
If only the pics were a little bigger…

• Roshni
February 1, 2011

itz great nd easy to understand

• bhvana sharma
November 3, 2010

images of series biased clipper are too small. nice description

• ramakant
October 30, 2010

really nice description… but images r too small..

@jeena— all the current will pass through the diode when forward bias leaving no voltage drop accros the resistor..too simple to understand…

• vishnu
October 2, 2010

thanks….got all that i wanted….wish the ckt diagrams were a little bigger….its not clear….

• seetharaman
September 12, 2010

Hi you have to sufficiently amplify the signal before feeding to this clipping circuit if input is less than 600mV nothing will happen to the waveform as the diode cannot conduct.
the output cannot be greater than 600mv (1200mV pk – pk) so you have to amplify further to increase the waveform level.

• Jeena
September 12, 2010

what about the drop across R when shut clipper is considered. When will you tell the diode is forward biased if the drop across R is not known?

• Tanaji Sengupta
September 12, 2010

combination clipping information is too less and vague also diagram is not visible clearly

• LockeZz
July 25, 2010

the image was way too small to be seen…