SU369584A1 - DEVICE FOR MODELING TRANSFORMER - Google Patents

Description

one

The invention relates to the field of modeling and can be used in various models of power systems and other devices where current and voltage control is required with equal power at the input and output of the device.

In power system models, it is necessary to have transformer elements to keep the voltage at the load nodes constant.

The existing models of transformer nodes are physical models of transformers and autotransformers with tap-offs, switched either manually or by mechanical drives, which prevents their use in high-speed automated models due to the inertia of switching devices and the discreteness of switchable elements.

In addition, this model has a number of drawbacks, one of which is the necessity of having imaginary ground, as a result of which only one can be used for such a trapformer. The change in the voltage phase of the secondary winding leads to the fact that additional power is introduced into the circuit, as a result of which the power balance between station models and load models is disturbed, which significantly reduces the accuracy of modeling devices.

Thus, in the high-speed automated models of energy systems, such devices due to inertia cannot be applied.

The aim of the invention is to create an electronic non-spinning model of a transformer with a transformation ratio, which is continuously controlled by an electrical signal.

To achieve this goal, the proposed device contains linear modulators, voltage and current amplifiers, the first line modulator, the control input of which is connected to the control input of the second linear modulator, connects the secondary winding of the first through the voltage amplifier. output transformer, and the second linear molt, ul tor, connected to the secondary winding of the measuring current transformer, is connected through the current amplifier to the secondary winding of the second output transformer, the input of the first linear the modulator is connected to the secondary winding of the voltage measuring transformer.

The drawing shows a block diagram of an electronic model transformer.

The electronic model consists of a measuring transformer for voltage 1, linear modulators 2 and 3, a voltage amplifier 4 with an output transformer for voltage 5,

measuring current transformer current 6, amplification of current 7, output transformer 8.

Uaaaaa U through a measuring voltage transformer U is fed to a linear modulator 3, where it is multiplied by a constant control signal, proportional to YES, coming from the control device. The voltage obtained is amplified by the power in the voltage amplifier 4 and, with the help of a transformer 5, is introduced into the dissect circuit.

The current take-off channel works the same. The alternating voltage taken from the load of the measuring current transformer 6, included in the secondary value dissection, is proportional to the current of the secondary winding of the transformer. This voltage is multiplied in the corresponding linear modulator 2 by the same constant control signal proportional to D / C. The resulting voltage is amplified by the power in the current amplifier 7n as a current is introduced into the network through the output current transformer 8 from the primary winding.

Modulators 2 and 3 allow the transformation ratio to be varied using an external DL electrical signal.

The absence of electromechanical switching devices and integrating circuits in the circuit made it possible to obtain an inertialess system for controlling the transformation ratio while maintaining the model with the basic properties of an ideal transformer.

Subject invention

A device for modeling a transformer, comprising measuring current and voltage transformers and output transformers, characterized in that, in order to improve speed, it contains linear modulators and amplifiers of voltage and current, like a first linear modulator, the control input of which connected to the control input of the second linear modulator, connected via a voltage amplifier

with the secondary winding of the first output transformer, and the second linear modulator connected to the secondary winding of the measuring current transformer is connected through the current amplifier with the secondary winding

the second output transformer, the input of the first linear modulator is connected to the secondary winding of the voltage measuring transformer.

treatment