CS261362B1 - Switch β with constant delay - Google Patents

Abstract

The device is intended for driving a spindleless spinning machine. It switches a load, for example a relay coil, etc., connected between the positive potential supply terminals and the output terminal. It solves the problem of maintaining the switching delay time within the required tolerance. A switch with constant delayed switching consists of resistors, a capacitor and transistors. The essence of the solution is that two resistors are connected in series between the positive potential supply terminal and the negative potential supply terminal, while the emitter of the first transistor is connected to their common node, the collector of which is connected via a fourth resistor to the base of the second transistor. The emitter of the second transistor is connected to the negative potential supply terminal, and between the positive potential supply terminal and the output terminal, connected . to the collector of the second transistor, a fifth resistor is connected in series with the sixth resistor. Its common node is connected via a capacitor to the base of the first transistor and via a third resistor to the negative potential supply terminal.

Description

(54)

Switch β with constant delay

The device is designed to drive an open-end spinning machine. Switches a load, such as a relay coil, etc., connected between the positive terminal and the output terminal. It solves the problem of keeping the switch-on delay time within the required tolerance. The constant delay switch consists of resistors, capacitors and transistors. The essence of the solution is that two resistors are connected in series between the positive potential supply terminal and the negative potential supply terminal, and their common node is connected to the emitter of the first transistor whose collector is connected via a fourth resistor to the base of the second transistor. The emitter of the second transistor is coupled to the negative potential supply terminal and between the positive potential supply terminal and the output terminal connected. with the collector of the second transistor, a fifth resistor connected in series with a fin resistor is connected. Its common node is connected through a capacitor based on the first transistor and through a third resistor to the negative terminal power terminal. ·

- 1 261 362

The invention relates to a constant delay switch comprising resistors, a capacitor, a first transistor, a second transistor.

In order to realize a switch with a desired constant delayed switch-on, contactless switching by means of semiconductor elements is advantageously used, wherein the switch-on delay time is realized by charging the capacitor via a resistor to the threshold voltage at which the switch closes. To maintain the switch-on delay time within the required tolerance, these switches must be supplied with a stabilized voltage or have their own stabilization circuit.

This drawback is overcome by the constant delayed switch according to the invention, characterized in that a first resistor connected in series with the second resistor is connected between the positive terminal and the negative terminal. Their node is connected to the emitter of the first transistor whose collector is connected via a fourth resistor to the base of the transistor, whose emitter is connected to the negative terminal power terminal. A fifth resistor connected in series with the sixth resistor is connected between the positive terminal and the output terminal connected to the collector of the second transistor. Their common node is connected through a capacitor based on the first transistor, connected through a third resistor to the negative262 362 solder terminal.

appropriate

The switch according to the invention allows / selects the size of the charging resistor, the charged capacitors and the resistive voltage divider to obtain a threshold voltage from the supply voltage, to achieve a delayed constant switching to the required tolerance even at supply voltage significantly different from the nominal supply voltage. This advantage applies especially to those devices where the requirements for voltage stabilization are not high for economic reasons.

An example of a practical embodiment of the subject is shown in the drawing.

Between the positive potential supply terminal 10 and the negative potential supply terminal 12, a first resistor 11 is connected in series connected to a second resistor 2. Their common node is connected to the emitter of the first transistor 2 whose collector is connected via the fourth resistor% to the base of the second transistor. 2 · Its emitter is connected to the negative potential supply terminal 12. Between the power supply terminal 10 of positive potential and the output terminal of LL-connected to the collector of the second transistor £ _t is connected to the fifth resistor 2 / serially connected to the sixth resistor 8, the common node is connected through a capacitor 6 on the basis of the first tran zistoru-connected via a third resistor £ to the negative potential supply terminal 12.

After connecting the supply voltage to the positive and negative potential supply terminals 10, 12, the second transistor is switched on for a constant delay time. The delay time is given by selecting the size of the fifth resistor 2 »of the capacitors 6 and the sizes of the first and second resistors. the threshold voltage on the capacitor at which the switch closes is derived.

The constant delayed switch according to the invention can be used to switch the load connected between the positive terminal and the output terminal. The load can be, for example, a bulb, coil, relay, etc. · *

Claims (1)

OBJECT OF THE INVENTION 261 362 Constant delayed switch, consisting of resistors, capacitor, transistors, characterized in that a first resistor (1) connected in series with a second resistor (1) is connected in series between the positive terminal (10) and the negative potential (12). 2), wherein their common node is connected to the emitter of the first transistor (3) whose collector is connected via a fourth resistor (5) to the base of the second transistor (9) »whose emitter is connected to the negative terminal (12) and a fifth resistor is connected through the positive potential terminal (10) and the output terminal (11) connected to the collector of the second transistor (9). (7) connected in series to the sixth resistor (8), their common node being connected via a capacitor (6) based on the first transistor (3) connected via the third resistor (4) to the negative potential supply terminal (12).