SU746928A1 - Timer - Google Patents

Description

(54) TIME RELAY

Claims (2)

The invention relates to the field of radio electronics and can be used in various automation devices and computing. A time delay device is known, which contains a time setting PS circuit, a bipolar transistor separation amplifier, and a threshold element on a single junction transistor 11. However, this device has large errors in time from varying the voltage of the threshold element due to the exponential charge of the capacitor the time of the master circuit, as well as the error of time delay when the ambient temperature changes due to the temperature change cottage dividing amplifier. In addition, the device has a significant time delay error with a large value of the resistance time of the driving resistor (high-resistance resistors necessary to obtain a long time delay. They have a large temperature coefficient). At the same time, the maximum resistance value of the time of the setting resistor is limited by the quality of the insulation of the capacitor, the value of the input resistance of the threshold element, and the requirements for moisture resistance over time. Known time relays that contain the time specifies the RC circuit, a source follower, a current source at the field-effect transistor, a threshold stage, resistors 2. These relays have insufficient output, time and stability. . The purpose of the invention is to increase the exposure time and increase its stability. For this, the time relay contains the time master. RC circuit, source follower, current source at the field-effect transistor, threshold cascade, resistors, in-line source source follower connected in series compensating resistor and current source, time setting resistor connected between the drain of the current source transistor and the gate of the source follower transistor, time capacitor The circuit is connected between the gates of the field trapezors of the source follower and the source of stable current, between the gate of the transistor of the source of stable current and the common bus audio included stabilizing resistor, and threshold stage input connected to the source of the source follower transistor. The drawing shows a schematic diagram of the device. The time relay contains a time-driven RC circuit consisting of a capacitor I and a resistor 2, a source follower on a field-effect transistor 3, a source source for a field-effect transistor 4, a threshold stage S, a compensating resistor 6, a stabilizing resistor 7, a current source resistor 8 and a switch 9. The time relay works in the following way. When the switch 9 is closed, the time setting capacitor 1 begins to charge from the power source after time setting resistor 2. The charging current flows through the field-effect transistor 3, the compensation resistor 6 and the stabilizing resistor 7. Until the threshold stage 5 triggers, the charging time of the setting capacitor is almost is constant and determined by the expression. , -, 5 R, where UftUa is the gate-source voltage of the field-effect transistor 3 of the source follower; U6U4 is the gate-source voltage of the field-effect transistor 4 of the stable current source; R6.R8.R2 is the resistance of resistors 6.8 and 2. By appropriate selection of resistors 6 and 8, the drain current of field-effect transistors 3 and 4 is independent of temperature. The difference in the gate-source voltages of field-effect transistors provides mutual compensation for temperature changes in the charging current. When the voltage at the output of the source follower reaches the trigger voltage of the threshold cascade, the input current of the threshold cascade increases, and the charging current time of the master capacitor decreases, resulting in a decrease in the voltage drop across the stabilizing resistor 7. As a result, the drain current transistor 4 is reduced, which leads to a decrease in charge current and an even greater increase in the input current of the threshold stage. Thus, the on-line compensating and stabilizing resistors in this way allows for a positive feedback in the separation amplifier (source follower). Since the capacitor of the device is charged with current, the value of which is proportional to the difference of the gate-source voltage of the field-effect transistors of the source follower and current source, constant over a wide temperature range, the time delay is stable in the range from -50 ° to -t-SO C. Formula for invention of the Relay time, containing the RC master circuit, the source follower, the current source at the field-effect transistor, the threshold stage, the resistors, characterized in that, in order to increase the time delay and increase its stability, in the source circuit and current repeater connected in series connected compensating resistor and current source, time setting resistor is connected between the drain of the current source transistor and the transistor gate of the source follower, capacitor driving circuit time is connected between the gate terminals of the source current repeater and stable current source, between the gate of the stable current source transistor and the common the power bus is turned on by the fbity resistor, and the input of the threshold cascade is connected to the source of the source transistor ate. Sources of information taken into account when examining 1. German patent N 1590751, cl. H 01 K 7/14, published. 1972. 2. US patent N 3566307, cl. 331-111, published. 23J {.7. (prototype).