SU984047A2 - Timer - Google Patents

Description

This invention relates to automation. According to the main author. St. No. 513496 and it is known a time relay containing field and bipolar transistors, the time of the task is R C-circuit, voltage divider 1J. However, the known time relay has a low stability of the exposure time. The purpose of the invention is to increase the stability of the exposure time. The goal is achieved by the fact that, in a time relay, containing field and bipolar transistors, a DC power source, a time setting RC circuit, a voltage divider connected to a common and positive power supply busbars; and the midpoint with the source of the field-effect transistor, the gate of which is connected to the common point of the RC circuit, and c, the current to the base of the bipolar transistor, the capacitor of the RC circuit connected to the collector of the bipolar transistor, introduced two bipolar. a transistor and a resistor connected between the power line and the collector of the first additional bipolar transistor, the emitter of which connects

(54) TIME RELAY

Claims (2)

2 not with the gate of the field-effect transistor and the collector of the second additional transistor, and the base with the drain of the field-effect transistor and with the base of the second additional transistor, the emitter of which is connected to the common bus. The drawing shows the electrical circuit of the time relay. The time relay contains field 1 and bipolar 2 transistors, a capacitor 3, resistors 4–8 and additional first 9 and second 10 transistors and resistor 11. The time relay operates as follows. . In the initial state, all transistors are open and saturated. The capacitor 3 is charged to zero, since the saturation voltage of transistor 2 and the saturation voltage of transistor 10 are applied to the right side of the transistor. Therefore, the choice of transistors 10, 2 and the current flowing through the emitter collector of the open and saturated transistor 10 (this is determined and adjusted by resistor 117 that the capacitor 3 is in the initial state, discharged to zero. When the temperature and other factors change, the capacitor 3 will also not be charged, since the right and left condensation plates torus will have the same voltage change. When a negative polarity pulse arrives at the relay input, all transistors close and capacitor 3 begins to charge through resistors 8 and 7. When the voltage across capacitor 3 reaches, the voltage across the resistor 4 and the cut-off voltage of the field channel transistor 1 opens and a current begins to flow through it, which opens the transistor 2. The voltage across the collector of the transistor 2 decreases, which leads to an even greater opening of the channel of the transistor 1. The switching process develops like an avalanche and all transistors turn on. Capacitor 3 is discharged to zero. In the future, the process of operation of the relay is similar. . Thus, in the proposed device, due to the introduction of new elements, it was possible to eliminate residual voltage on the capacitor which in the known device is equal to the saturation voltage of the bipolar transistor, and therefore this value is unstable (changes with temperature and other factors), which and leads to it and the instability of the exposure time. In the proposed device, this value is eliminated and, therefore, it is characterized by a higher stability of the dwell time. Formula of the invention St. No. 513496, characterized in that, in order to increase the stability of the holding time, two bipolar transistors and a resistor connected between the power line and the collector of the first additional bipolar transistor, the emitter of which is connected to the gate of the field-effect transistor and the collector of the second additional transistor, are introduced into it, and the base is with the drain of the useful transistor and with the base of the second additional transistor, the emitter of which is connected to the common bus. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 513496, cl. H 03 K 17/284, 20.05.74 (prototype).