SU110636A1 - Training device for displaying traces of ionized particles - Google Patents

Description

In automatic control devices, time relays on semiconductors are used, based on the principle of charging a capacitor through active resistance using a null indicator included in the diagonal of the bridge circuit. However, the known relays of this kind return to their initial position relatively slowly after actuation.

In order to eliminate this drawback, it is proposed to apply in re, les a discharge circuit consisting of two resistances connected step by step and a semiconductor diode connected at one end to the capacitor, and the other to the common point of these resistances.

The drawing shows a schematic diagram of the proposed relay. The zero-indicator 1 relay is included in the diagonal of a bridge circuit consisting of two dividers, voltage and semiconductor diodes 2 and 3. The reference potential at point a of the bridge circuit when voltage is applied is rigidly set by means of a divider, consisting of resistances 4 and .5, and the potential at point b increases exponentially as a result of the charge and discharge of capacitor 6. through active resistances 7 and 5.

In order to quickly return the time relay after its operation, a special discharge circuit was used, consisting of two resistances 9 and 10 and a rectifier.

The proposed relay operates as follows.

At the beginning of the charging of the capacitor 6, a positive potential is applied to point b relative to the quince points. The charging time of a capacitor is determined by its capacitance and the magnitude of the charge resistances 7 and 5 (the effect of the forward resistances of the locked valves 2 and 5 is very small). As the capacitor charges, the potential at point b drops and after a while the diode 12 opens and a current flows through the relay coil. When this relay is triggered.

Resistance 7 is selected from the condition of the minimum setting of the time relay. Other relay settings are provided by a variable resistance 8.

a lid and a cooled bottom and connected to a projection device, in order to simplify the design, the bottom of the camera is made in the form of a flat mirror of heat-conducting material, and the cover is made transparent and serves as the basis for the projection device .