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Storage oscilloscope/Dual Trace CRO



                                 Storage oscilloscope:
    http://ei-notes.blogspot.in
    Two storage techniques are used in oscilloscope CRTs as,
    - mesh storage
    -phosphor storage. 

    The Storage targets can be distinguished from standard phosphor targets by
     their ability to retain a waveform pattern for a long time, independent of
     phosphor persistence.



    A mesh-storage CRT uses a dielectric material deposited on a storage mesa as the storage
    target. This mesh is placed between the deflection plates and the standard phosphor target in the CRT.


    The writing beam, which is the focused electron beam of the standard CRT, 
    charges the dielectric material positively e where hit. The storage target is then bombarded with low velocity electrons from a flood gun and the positively charged areas of the storage target allow these electrons to pass through to the standard phosphor target and thereby reproduced the stored image on the screen. 
    Thus the mesh storage has both a storage target and a phosphor display target. The phosphor storage CRT uses a thin layer of phosphor to serve both as the storage and the display element.



    Mesh Storage It is used to display Very Low Frequencies (VLF) signals an: finds many applications in mechanical and biomedical fields. The convention-scope has a display 
    with a phosphor persistence ranging from a few microseconds to a few seconds. 





    A mesh storage CRT,  contains a dielectric material deposed on a storage mesh, a collector mesh, flood guns and a collimator, in addition BO all the elements of a standard CRT. The storage target, a thin deposition of a dielectric material such as Magnesium Fluoride on the storage mesh, makes use of a property known as secondary emission. The writing gun etches a positively charged pattern on the storage mesh or target by knocking off secondary emission electrons. 

    Because of the excellent insulating property of the Magnesium fluoride coating, this positively charged pattern remains exactly in the position where it is deposited. In order to make a pattern visible, a special electron gun, called the flood gun, is switched on (even after many hours). 


    The electron paths ire adjusted by the collimator electrode, which constitutes a low voltage electrostatic lens system (to focus the electronbeam), Most of the electrons are stopped and collected by the collector mesh. Only electrons near the stored positive charge are pulled to the storage target with sufficient force to hit the phosphor screen. 



    The CRT will now display the signal and it will remain visible as long as the flood guns operate. To erase the pattern on the storage mesh, a negative voltage is applied to neutralize the stored positive charge.
    .





    Since the storage mesh makes use of secondary emission, between the first and second crossover more electrons are emitted than are absorbed by the material, and hence a net positive charge results. Below the first crossover a net negative charge results, since the impinging electrons do not have sufficient energy to force an equal number to be emitted. 


    In order to store a trace, assume that the storage surface is uniformly charge; and write gun (beam emission gun) will hit the storage target. Those areas of the storage surface hit by the deflecting beam lose electrons, which are collects by the collector mesh. Hence, the write beam deflection pattern is traced on the storage surface as a positive charge pattern.

     Since the insulation of the dielectric material is high enough to prevent any loss of charge for a considerable length of time, the pattern is stored. To view, the stored trace, a flood gun is used when the write gun is turned off. The flood gun, biased very near the storage mesh potential, emits flood of electrons which move towards the collector mesh, since it is biased slightly more positive than the deflection region. 

    The collimator ,a conductive coating on the CRT envelope with an applied potential, helps to align the flood electrons so that they approach the storage target perpendicularly When the electrons penetrate beyond the collector mesh, they encounter either a positively charged region on the storage surface or a negatively charged region where no trace has been stored. 

    The positively charged areas allow the electrons to pass through to the post accelerator region and the display target phosphor. The negatively charged region repels the flood electrons back to the collector mesh. Thus the charge pattern on the storage surface appears reproduced on the CRT display phosphor just as though it were being traced with a deflected beam.





                                         Dual Trace CRO:




      The block diagram of dual trace oscilloscope which consist of following steps,

      1. Electronics gun (single)

      2.Separate vertical input channels ( Two)


      3. Attenuators


      4. pr-amplifiers

      5. Electronic switch.











      The two separate input signals can be applied to single electron gun with the help of electronic switching  it Produces a dual trace display .Each separate vertical input channel are uses separate attenuators and pr-amplifier stages, so the amplitude of each signal can be independently controlled. Output of the pr-amplifiers is given to the electronic switch, which passes one signal at a time into the main vertical amplifier of the oscilloscope. 
      The time base-generator is similar to that of single input oscilloscope.


      By using switch S2 the circuit can be triggered on either A or B
      channel, waveforms, or an external signal, or on line frequency. The horizontal amplifier can be
      fed from sweep generator or from channel B by switching S1. When switch S, is in channel B, its
      oscilloscope operates in the X-Y mode in which channel A acts as the vertical input signal and
      channel B as the horizontal input signal.




      From the front panel several operating modes can be selected for display, like channel B only,
      channel A only, channels B and A as two traces, and signals A + B, A - B, B ~ A or - (A + B)
      as a single trace. Two types of common operating mode are there for the electronic switch,
      namely,
      1. Alternate mode
      2. Chop mode.


      http://ei-notes.blogspot.in




      Storage oscilloscope/Dual Trace CRO Storage oscilloscope/Dual Trace CRO Reviewed by haru on March 26, 2012 Rating: 5

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