Synchroscope

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In AC electrical power systems, a synchroscope is a device that indicates the degree to which two systems (generators or power networks) are synchronized with each other.

For two electrical systems to be considered synchronized, both systems must be operating at the same frequency, and the phase angle between the systems must be zero. Synchroscopes measure and display the frequency difference and phase angle between two power systems.

It is not possible to connect two AC power systems unless the systems are synchronized.

[edit] Use in Power Plants

This synchroscope was used to synchronize a factory's power plant with the utility's power grid.

Since it is necessary to synchronize AC power systems before connecting them, synchroscopes are used in any power plant that connects to an outside power grid and also in isolated plants containing more than one generator, as each generator must be synchronized with the others before being connected to the plant bus.

When the operator of an electric generator wishes to connect a generator to the grid, they will first start the generator spinning at a rate approximately equal to the line frequency of the grid with which they plan to connect. A synchroscope will then be connected to the power grid and to the generator being started.

If the generator is turning at a lower frequency than the grid, the synchroscope needle will rotate in the direction (usually counterclockwise) marked "slow" or "lag" on the dial to indicate that the generator is running slower than, or lagging behind, the grid. If the generator is running faster than the grid, the needle will rotate in the opposite direction, marked "fast" or "lead". Next, the plant operator will adjust the speed of the generator until it is running at precisely the same speed (frequency) as the grid. As the frequency of the generator nears that of the grid, the synchroscope needle will slow down and when the frequencies match, the needle will stop moving.

At this point, there is one more task to perform before the generator can be connected to the grid. Although the generator and the grid are now operating at the same frequency, they are not necessarily at the same position in the rotational cycle as each other. If two electrical networks operating at two different phase angles were to be connected to each other, a fault similar to a short circuit would occur and most likely destroy the generator and damage the grid.

The position (as opposed to movement) of the needle on a synchroscope indicates the current phase angle between the two systems. The angle between the systems is zero when the synchroscope needle is pointing directly to the line in between the "slow" and "fast" markings on the dial. (In the picture example in this article, the zero-phase-angle position is straight upwards, at the twelve o'clock position.)

If the needle reads "fast," then the plant's generator should be slowed down by a very small amount and the needle will turn counterclockwise (toward the zero mark). Alternatively, if the needle reads "slow," then the plant operator will speed the generator up slightly, and the needle will turn clockwise. Slightly before the needle reaches the zero mark, the plant operator will return the generator to the grid frequency in order to stop the needle when it reaches the zero mark. When the needle is at zero and is not moving, the two systems are synchronized.

Once the two systems are synchronized, they can be safely connected.

[edit] References

• Technical description of how a synchroscope works: http://www.tpub.com/content/doe/h1011v4/css/h1011v4_98.htm