Decibel (dB): What is dB, dBm, dBW, and dBV in Electronics? Difference between dB and dBm

   

 Hey friends, welcome to the new post on
 ALL ABOUT ELECTRONICS. So in this  video we are going to learn about the decibel scale which is commonly used in electronics and communication system and we will also see the different decibel  scales like dBm, dBW and dBV. 

    Now I am sure many of you are already knowing  about this decibel scale and how it is being used  in electronics and communication systems. In fact, in the earlier videos of filter  design we have also used this decibel scale right !! But sometimes we are getting  confused with this decibel scale. particularly when we are representing  the voltage and power gain in terms of this decibel. 

    So let us clear all this  confusion in this video. so this decibel scale is basically a  logarithmic scale which defines the ratio of two quantity and particularly  in electronics it is being used to represent the voltage or power gain of  particular amplifier system or electronic system. And if we talk about  the communication system, in communication system this decibel scale  is used to represent the attenuation that is being provided by particular  channel and this decibel scale is also used to represent the voltage and power  as well. 

    Now whenever this decibel scale is used to represent the power gain or  power then you will see that the factor of 10 is being multiplied with this  logarithmic scale and likewise whenever it is being used to represent the  amplitude or voltage then you will see the factor of 20 that is being  multiplied with this logarithmic scale. so whenever it is being used with the  voltage then the factor of 20 is getting multiplied with this logarithmic scale  and whenever it is being used with the power then factor of 10 is being  multiplied with this logarithmic scale.

    Now the reason is that this power is  proportional to the square of the voltage so that is the reason whenever  you are representing any voltage or voltage gain then it is being multiplied  by the factor of 20 with this logarithmic scale. So first of all now  let us talk about the power gain and let us see how this power gain can be  represented in a decimal form. so let us say we have an amplifier which is  providing a power gain off 10. That means whenever you are applying the input of 1 watt then at the output you will get an output power of 10 watt. 

     In decibel it can be represented as 10 log of capital G, where G represents  the gain of this amplifier that means 10 log of 10, which will be equal to 10 dB.  And whenever the gain of the amplifier is 1 that means output is equal to input  at that time if you see, the gain in decibel will be equal to 10 log of 1   that is equal to zero dB. So in this waywe can represent the different gains in  a decibel. so when the gain is zero it reverses the 0 dB. Whenever a gain is 10  it represents the 10 dB. Likewise, we can represent the different gains in decibel.  

    So as you can see here, every time whenever the gain is being multiplied by  the factor of 10, you will see the increase in gain by a 10 dB. Now the  advantage of representing this gain in decibel is that the larger quantities  like 10 to the power 8 10 to the power 9 can be easily represented in just 2 or 3  digits. And it is particularly useful when you have multiple amplifiers in  your system. So let us say here we have a two amplifiers which are being cascaded.  

    Let's say if first amplifier is having a gain of A1 and the second  amplifier is having gain of A2 then the overall gain will be equal to A1 into A2.  now let's say if A1 is equal to 10 to the power 4 and A2 is equal to 10 to  the power 5 then the overall gain will be equal to 10 to the power 9. But if we  represent this gain in decibel then the A1 will be equal to 10 log of 10 to the  power 4, which is nothing but 40 dB and likewise this gain A2 will be equal to  10 log of 10 to the power 5, which will be equal to 50 dB and the overall gain  will be the summation of these 2 gain that is 40 plus 50, that is 90 dB.

     So whenever you have a multiple amplifiers in your system then if you represent  them in decibel then it is easy to find the overall gain of that system and the  larger gain can be easily represented in this decibel  form. So now if your system is having a gain of 2 then in decibel it can be  represented as 10 log of 2, which will be approximately equal to 3 dB.  

    Let's say if I have one amplifier which provides me the gain of A1 dB and  if I add the another amplifier which simply multiplies the gain by a factor  of 2 then I can say that the overall gain will be equal to A1 plus 3 dB. So  in this way in any system whenever the input is being multiplied by the factor  of 2 then we can say that the gain that is being added to the system is 3 dB  Similarly, let us say we have one particular system which provides you the  attenuation.

     So whenever you are providing the input of 1 watt then at  the output you are getting a 0.1W. So we can say that the gain ofthe  system is 0.1. So, in decibel if we represent it then it can be represented  as 10 log of 0.1, that is equal to minus 10 dB. Similarly let us say if the  system is providing me the gain of 0.5 then in decibel I can write it as a  10 log of 0.5 and if you calculate it you will get it as a minus 3 dB  so we can say that whenever the output is getting 0.5 times the input then the  gain that is being provided by the system is minus 3 dB or in another way  we can say that the attenuation that is being provided by the system is 3 dB.

     Now so far we have seen about the power gain, now let us talk about the voltage  gain. so let us say we have a amplifier which provides me the voltage gain of  let's say 100. That means whenever I am applying a input of let's say 1 volt  then at the output I am getting a hundred volt. So the gain in the decibel  can be represented as 20 log of 100 so now here if you calculate the  in decibel will be equal to 40 dB. likewise let's say if I have a gain of  thousand then in decibel it will be equal to 60 dB  similarly let us say if the system is providing the gain of 2 then in decimal  it can be represented as 20 log of 2 and if you calculate it it will come out as  a 6 dB. 

    Every time when the input voltage is being multiplied by the  factor of 2 then we can say that the gain that is being added to the system  is by 6 dB. Similarly let us say if the system is providing the gain of 0.5 then  in decibel it will be equal to 20 log of 0.5, which will come out as a minus 6 dB  so every time whenever the output voltage is 1/2 then the input voltage  then we can say that the gain that is provided by the system is minus 6 dB or  the attenuation that is being provided is 6 dB. 

    So here is the representation of  different voltage gain and corresponding gain in a decibels. so as you can see here whenever the voltage gain is being multiplied by the factor of 2 then you  will see the increase in the gain by a 6 dB and likewise whenever the gain is  being multiplied by the factor of 0.5 then you will see the reduction in the  gain by a 6 dB and similarly whenever the gain is being multiplied by the  factor of 10 then you will see the increase in the gain by a 20 dB and same  is true for the attenuation that means if the attenuation that is provided by the  factor of 10 then you will see the reduction in the gain by a minus 20 dB.

      This is all about the representation of voltage and power gain in decibels  now let us see what do we mean by this dBW, dBm and dBV. So now, so far we have  represented this voltage and power gain in terms of the decibel but what if I  want to represent this power and voltage itself in a decibel scale. So of course  we can represent this voltage and power in decibel scale but as this decibel scale  is the unitless quantity so you need to represent this voltage and power in  terms of the some reference. So let us say when we are representing this power  in dBW form that means we are representing this power with the  reference of one watt. 

    Similarly whenever  we are representing this voltage in decibel form, it means that we are representing this voltage with respect  to 1 volt. So let us say if I want to represent this 10W of power in  decibel form then it will be equal to 10 log of P1 with respect to 1 watt. so it  will come out as a 10 dB. Now here as we are representing this power with respect  to 1 watt so after dB you will find the term that  is equal to W. Similarly, let us say if I want to represent this voltage V 1 of  100 volt in decibel then it will be equal to 20 log of V 1 with respect to 1  volt of voltage. 

    And it will come out as a 40 dB, and as we are representing this  voltage with respect to 1 volt of power so after dB you will see the term that  is equal to V, that is a unit of the reference voltage. So here is the  different voltages which are represented in a dBV form. So now let us talk about  this dBm. So whenever we are representing this any power P with respect to 1 milliwatt of reference power then it corresponds to dBm. So now let us say if  I have a hundred milli watt of power and if I want to represent it in a decimal  form with respect to 1 milli watt of power then it can be represented as 10  log of hundred milli watt with respect to 1 milli watt and that will be equal  to 20 dBm. 

    Similarly now let us say if I want to represent thousand million of  power or let's say 1 watt of power in dBm form then it will be equal to 10 log  of thousand milliwatt with respect to 1 milli watt and that will be come out as  a 30 dBm, but at the same time suppose if I represent this power in a dBW form  then it will be equal to 10 log of 1 watt divide by 1  watt. And it will come out as a zero dBW. so as you can see here if the same power  if I represent it in a dBm form then it will be equal to 30 dBm, while if I  represent it in a dBW form, it will be equal to 0 dBW. 

     Now let us say if  I have some power of X dBW and if I want to represent it in a dBm form then  simply I need to add a 30 in that particular value. so here as we have seen  if we have a zero dBW of power and if you want to represent it in a dBm form then it will be equal to 0 plus 30 dBm, that is equal to 30 dBm. And same is true  if we have a power in dBm and if we want to represent it in a dBW form then  simply we need to subtract it by a minus 30 dBW. So I hope this conversion  between dBW and dBm is clear to you.

     Here is the list of some powers and  corresponding powers in a dBm format. Now before I end up this video here is the  question for you. Let us say if I have a power  P1 that is equal to 10 dBm and  power P2 that is equal to 5 dBm then what will be the total power P that is  equal to P 1 plus P 2 .so do let me know in the comment section below. so I hope  in this video you understood the different decibel scales which are  commonly used in electronics and communication system. 

    If you have any  question or suggestion do let me know in the comment section below.


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