Thursday, 19 January 2017

WHAT IS CASCADED TRANSFORMER? | GENERATION OF AC HIGH VOLTAGE

Most of the present day transmission and distribution networks are operating on AC  voltages and hence most of the testing equipment relate to high A.C voltages.
Even though most of the equipment's on the system are 3-phase systems, a single phase transformer operating at power frequency is the most common from of HVAC testing equipment.
Test transformers normally used for the purpose have low power rating but high voltage ratings.
These transformers are mainly used for short time tests on high voltage equipment's.
The currents required for these tests on various equipment are given below:
                Insulators, C.B., bushings, Instrument transformers = 0.1–  0.5 A
                Power transformers, h.v. capacitors. = 0.5–1 A
                Cables = 1 A and above
The design of a test transformer is similar to a potential transformer used for the measurement of voltage and power in transmission lines. The flux density chosen is low so that it does not draw large magnetizing current which would otherwise saturate the core and produce higher harmonics.


CASCADED TRANSFORMER

Cascaded Transformers:-

For voltages higher than 400 KV, it is desired to cascade two or more transformers depending upon the voltage requirements. With this, the weight of the whole unit is subdivided into single units and, there-fore, transport and erection becomes easier. Also, with this, the transformer cost for a given voltage may be reduced, since cascaded units need not individually possess the expensive and heavy insulation required in single stage transformers for high voltages exceeding 345 kV. It is found that the cost of insulation for such voltages for a single unit becomes proportional to square of operating voltage.

Fig. 2.9 shows a basic scheme for cascading three transformers.

The primary of the first stage transformer is connected to a low voltage supply. A voltage is available across the secondary of this transformer.

The tertiary winding (excitation winding) of first  stage has the same number of turns as the primary winding, and feeds the primary of the second stage transformer.

The potential of the tertiary is fixed to the potential  V  of the secondary winding as shown in Fig. 2.9. The secondary winding of the second stage transformer is connected in series with the secondary winding of the first stage transformer, so that a voltage of 2 V is available between the ground and the terminal of secondary of the second stage transformer.

Similarly, the stage-III transformer is connected in series with the second stage transformer. With this the output voltage between ground and the third stage transformer, secondary is 3 V. it is to be noted that the individual stages except the upper most must have three-winding transformers.

The upper most, however, will be a two winding transformer.

Fig. 2.9 shows metal tank construction of transformers and the secondary winding is not divided. 
Here the low voltage terminal of the secondary winding is connected to the tank.

The tank of stage-I transformer is earthed. The tanks of stage-II and stage-III transformers have potentials of  V  and 2 V, respectively above earth and, therefore, these must be insulated from the earth with suitable solid insulation.

Through h.t. bushings, the leads from the tertiary winding and the h.v. winding are brought out to be connected to the next stage transformer.

CASCADE TRANSFORMER
However, if the high voltage windings are of mid-point potential type, the tanks are held at 0.5 V, 1.5 V and 2.5 V, respectively. This connection results in a cheaper construction and the high voltage insulation now needs to be designed for  V/2 from its tank potential.

The main disadvantage of cascading the transformers is that the lower stages of the primaries of the transformers are loaded more as compared with the upper stages.

The loading of various windings is indicated by P in Fig. 2.9. For the three-stage transformer, the total output  VA will be 3 VI  = 3 P  and, therefore, each of the secondary winding of the transformer would carry a cur-rent of  I  = P/V.

The primary winding of stage-III trans-former is loaded with  P  and so also the tertiary winding of second stage transformer.

Therefore, the primary of the second stage transformer would be loaded with 2 P. Extending the same logic, it is found that the first stage primary would be loaded with  P.  Therefore, while de-signing the primaries and tertiaries of these transformers, this factor must be taken into consideration.

The total short circuit impedance of a cascaded transformer from data for individual stages can be obtained. The equivalent circuit of an individual stage is shown in Fig. 2.10.
Here Z p , Z s ,  and  Z t , are the impedances associated with each winding. The impedances are shown in series with an ideal 3-winding transformer with corresponding number of turns
 N p, N s   and  N t

The impedances are obtained either from calculated or experimentally-derived results of the three short-circuit tests between any two windings taken at a time.

TRANSFORMER


 Download this topic with complete presentation detail in pdf file format from this link.

13 comments:

  1. This comment has been removed by a blog administrator.

    ReplyDelete
  2. This comment has been removed by a blog administrator.

    ReplyDelete
    Replies
    1. This comment has been removed by a blog administrator.

      Delete
    2. This comment has been removed by a blog administrator.

      Delete
  3. This comment has been removed by a blog administrator.

    ReplyDelete
  4. This comment has been removed by a blog administrator.

    ReplyDelete
  5. This comment has been removed by a blog administrator.

    ReplyDelete
  6. This comment has been removed by a blog administrator.

    ReplyDelete
  7. This comment has been removed by a blog administrator.

    ReplyDelete
  8. the best cased vs finish detergent Awesome article, it was exceptionally helpful! I simply began in this and I'm becoming more acquainted with it better! Cheers, keep doing awesome!

    ReplyDelete
  9. Teri maki chut

    ReplyDelete
  10. Thanks for sharing this blog content with us. Paraflex is the leading name in the industry.

    House Wire Manufacturers

    ReplyDelete