Home Forums SYSTEM coupler vs splitter

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    • #26228
      Prarthana Kashyap
      Participant

      Hi,
      I want to know the difference between coupler and power splitter in electrical component, will it be the same if we connect a optical null at one input of the coupler with that of power splitter. and want to know where should we use coupler and when splitter. and also want to know the difference among these two and 90 degree hybrid coupler. Thank you.

    • #26239
      alistu
      Participant

      Hi Prarthana,

      A power splitter simply splits the input power between all its outputs. Mathematically, it is like dividing the input signal by the number of outputs to get each output signal. Optical couplers also divide the input signals, but to get the output of optical couplers, you must use a complex transmission matrix. And in case you use one input for it, you can decide how the power should be split. And a 90 hybrid simply consists of two 180 hybrids.

      Regards

    • #26273
      Prarthana Kashyap
      Participant

      Alistu I am not grtting your line “it is like dividing the input signal by the number of outputs to get each output signal”.

      And for optical coupler what kind of complex matrix you are referring unable to understand.

      Regards

      • #26279
        alistu
        Participant

        My sentence simply means that the power is equally divided between all the output branches. So power splitter work is quite easy to understand. If you look at the help section, you’ll see a loss parameter is also there, which affects the output signal from each of the ports as shown in the relation given as technical background, which is easy to understand either.

    • #26274
      Prarthana Kashyap
      Participant

      Alistu, I think you are referring to matrix that is available in components pdf. I found the following
      attached image.

      where p is the signal of the c is coupling coefficient and  is the additional loss. If the parameter Conjugate is FALSE, then the relative phase shift between input port 1 and output port 2 = + 90 degrees (p is positive (value = 1), and the coupler will use the definition of [1].) When TRUE the relative phase shift between input port 1 and output port 2 = – 90 degrees (p is negative (value = -1) and the coupler will use the definition of [2].) The phase shift settings can also be viewed within Component results – Phase shift P1(In)/P2(Out) (deg)

      1] Gerd Keiser, “Optical Fiber Communications,” Third Edition, McGraw-Hill, Higher Education, 2000.
      [2] Christi K. Madsen and Jian H. Zhao, “Optical Filter Design and Analysis, A Signal Processing
      Approach”, (John Wiley & Sons, New York, 1999).

      please anyone explain in details

      Regards

    • #26276
      Prarthana Kashyap
      Participant

      I don’t want to go so tough please anyone explain in simpler steps.
      Thanks.

      Regards

      • #26281
        alistu
        Participant

        Imagine E1 and E2 are signals entering inputs 1 and 2, respectively. Then outputport1 would have:

        (E1+jE2)/sqrt(2)

        and outputport2 would have (sqrt = square root):

        (E2+jE1)/sqrt(2).

        This is very simple and is true when c=0.5. c determines the percentage of power that goes from input1 to output2, or from input2 to output1. Finally, alpha is the loss coefficient, which the whole matrix is multiplied by.

        Regards

    • #26286
      Prarthana Kashyap
      Participant

      Thank out so much, now i can have some idea about X coupler, would there be any change in power at the output terminal. Thank you.

      Regards

      • #26292
        alistu
        Participant

        You’re welcome.

    • #43160
      stack programer
      Participant

      It is very good explained thanks very much
      this link too can be useful. https://www.microwaves101.com/encyclopedias/couplers-and-splitters

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