It can be seen that the
previous method is not accurate since it requires correct sense of
judgement of the operator. Hence to avoid the personal judgement, the
machines are synchronized by accurate device known as synchroscope.
It consists of a rotating pointer which indicates the exact
moment of closing the synchronizing switch. If the pointer rotates in
anticlockwise direction, it indicates that incoming machine is running
slow whereas clockwise rotation of pointer indicates that incoming
machine is running faster. The rotation of pointer is proportional to
the difference in the two frequencies. The pointer should rotate at a
very low speed in the direction of arrow marked fast as shown in the
Fig. 1.
 |
| Fig. 1 |
When the rotating pointer reaches the vertical position at slow
speed, the switch must be closed. The pointer will oscillate about some
mean position instead of rotating if difference in frequencies is large.
In such cases the speed of incoming machine is adjusted properly.
The connections for synchroscope are shown in Fig. 1. Any two bus
bars lines are connected to its terminals while its other terminals are
connected to corresponding lines of incoming machine. The phase
sequence from bus bars and from machine must be same. It can be checked
with the help of phase sequence indicator. The voltmeter is used to
check the equality of voltage of bus bars and incoming machine. The
synchronization procedure is already explained before.
Note : The use of lamps and synchroscope together is a best method of synchronization.
Now a days automatic synchronizing devices are also available
which will perform the entire process of synchronization automatically
without the help of shift engineer. But such schemes are more
complicated and may take larger time than required by a shift engineer.
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