SU609096A1 - Pulsing current sensor - Google Patents

Description

the current 1 will flow, and the voltage across the resistor 5 will be equal, its polarity will be opposite to the polarity of the voltage U corresponding to the open state of the element 1, the capacitor 7 through the rectifier 6 will charge to the voltage t / j.

In the closed state of element 1, its polarity corresponds to that indicated in FIG. 1. When element 1 is reopened, the opposite voltage will be applied to rectifier 6.

Thus, a voltage proportional to the current of the element 1 is supplied to the input of the actuator 8. However, when the current / i is rapidly changing (decreasing) due to the inertia introduced by the capacitor 7, the voltage L / e does not correspond to the current / 1.

To eliminate this drawback, resistor 9 and transistor 10 are used. Since the emitter-base transition of transistor 10 is connected parallel to the secondary winding of transformer 4, when forming voltage U corresponding to the closed state of element 1, transistor 10 will connect resistor 9 in parallel to capacitor 7. If the voltage on the capacitor 7 will exceed the voltage of 1/5 of the closed state of the element 1, then the capacitor 7 through the resistor 9 will be discharged to this voltage t / s. Due to this, the discharge time of the capacitor 7 can be reduced to an acceptable value.

Under real conditions, the current / 4 is not constant, but pulsating (the shape of the current D is shown by the dotted line in Fig. 2). The voltage i / s on the resistor 5 will not have the form determined by the shape of the current / a and will have the form shown by the dotted line. To compensate for the effect of current ripple D, an RC-chain I is applied. Compensation is performed by the fact that the voltage ripple on the capacitor of the chain 11 is in antiphase with the ripple current of the magnetization of the transformer 4.

Switching on the input of the actuator in parallel to the rectifier allows to simplify the current sensor and improve the accuracy of current measurement with the changing form of the load current.

Connecting an additional resistor through a transistor in parallel with the capacitor provides an increase in the accuracy of measuring 1 current when it is rapidly changing. Connecting an RC chain parallel to the secondary winding of a current transformer compensates for the error caused by the ripple current of the current transformer magnetized.

Claims (3)

1. A pulse current sensor containing a current transformer, the primary winding of which is connected to the pulse current circuit, and the secondary winding is connected to a resistor and through a rectifier to a capacitor, and an actuator different In order to increase accuracy, the input of the actuator is connected in parallel to the rectifier. 2. A sensor according to claim 1, characterized in that it is further provided with resistors and transistor, with the emitter-base transition of the transistor through a resistor connected in parallel with the secondary winding of the current transformer, and the emitter-collector transition of the transistor through a resistor in parallel with the capacitor. 3. Sensor pop. 1 and 2, characterized in that it is further provided with an RC-chain connected in parallel with the secondary winding of the current transformer. Information sources, taken into account in the examination 1.Patent of France No. 2203078, cl. G 01R 19/00, 1974. 2. The patent of Germany No. 1763746, cl. G 05F 1/58, 1973. s. u Ll