SU1100731A1 - Ring scaling device - Google Patents

Abstract

1. A RING MIXED DEVICE containing counting cells, the first key stage, the first capacitor, the first output of which is connected to the input of the device, and the second output - to the input of the first key stage, the first output of which is connected to the common bus, and in each counting cell - a thyristor, the anode of which is connected via a load resistor to the power bus, a diode, the cathode of which is connected to the control circuit of the thyristor, and a differentiating circuit, the first terminal of the capacitor of which is connected to the anode of the thyristor, the second output to the first The output pin of the differentiating circuit resistor and the anode of the diode of the next counting cell, the thyristor cathodes of all of the counting cells are connected to the second output of the first key stage, characterized in that, in order to expand the application area by spreading the range of the input pulses, a second key stage is introduced into it , second and third capacitors, zener diode, as well as four additional resistors, the first output of the second capacitor is connected to the input of the device, the second output - to the input of the second key switch Ada and through the first additional resistor to the power bus, the input of the first key stage through the Zener diode and the second additional resistor are connected to the first terminals of the third capacitor, the third and fourth additional resistors, the second terminals of the third capacitor and the fourth additional resistor are connected to a common bus, the second output the third additional resistor is connected to the power bus, and the second terminals of the differentiating resistors are connected to the second output of the second key stage. 2. The device according to claim 1, characterized in that in the circuit of the first output, the first key stage and the button with the opening and switching contacts are turned on. 3. The device according to claim 1, characterized in that the key stages are performed on transistors.

Description

The invention relates to a pulse technique and can be used in various devices of discrete automation, in particular for devices for measuring time intervals. The recalculated decade is known, containing a key cascade and counting ki connected in a ring, each of which has a thyristor with a load controller and differentiates the tO circuit. However, the known device characterizes the required requirements for the duration of the input pulses. The closest to the technical essence of the invention is a ring scaler containing counting cells, the first key stage, the first capacitor, the first pin of which is connected to the input of the device, and the second pin is connected to the input of the first key stage, the first output of which is connected to common busbar, and in each counting cell - thyristor anode which through a load resistor is connected to the power bus, the diode, the cathode of which is connected to the control electrode of the thyristor, and the differentiating circuit, the first output condensate The aperture of which is connected to the thyristor anode, the second output to the first output of the differentiating circuit resistor and to the anode of the diode of the next counting cell, the thyristor cathodes of all the counting cells are connected to the second output of the first key stage 2. The disadvantage of this device lies in the limited scope of application, since it imposes a limitation on the duration of the input pulses, since as it increases, the reliability of the operation of the device decreases. I The purpose of the invention is to expand the scope by expanding the range of durations of the counting pulses. . The goal is achieved by the fact that a ring converter device containing countable cells, the first key stage, the first capacitor, the first output of which is connected to the input of the device, and the second output - to the input of the first key stage, the first output of which is connected to the common bus, and in each counting cell there is a thyristor, the anode of which through a load resistor is connected to the power bus, the diode, the cathode of which is connected to the control electrode of the thyristor, and the differentiation circuit, the first terminal of which is connected the thyristor anode, the second output to the first output of the differentiating circuit resistor and to the anode of the subsequent counting cell diode, the thyristor cathodes of all the counting cells are connected to the second output of the first key stage, and the second key stage, the zener diode, and the additional resistor is connected, the first of the second capacitor is connected to the input of the device, the second output is connected to the input of the second key stage and through the first additional resistor to the power bus, the input of the first key stage The Zener diode and the second additional resistor are connected to the first terminals of the third capacitor, the third and fourth additional resistors, the second terminals of the third capacitor and the fourth additional resistor are connected to the common bus, the second terminal of the third additional resistor is connected to the power bus and the second terminals of the differentiating resistors are connected to the second the output of the second key stage. In addition, in the circuit of the first output of the first key stage, a button with opening and switching contacts can be turned on. In this case, the key stages can be performed on transistors. FIG. 1 is a schematic diagram of the proposed device; in fig. 2 - time diagrams in characteristic points (the first digital, vymi indices with the voltage symbol AND are the numbers of the elements, the second - the numbers of the corresponding cells). In the ring scaler (Fig. 1), containing counting cells 1-10, the first key stage 11, the first capacitor 12, the first output of which is connected to the input 13 of the device, and the second output - to the input 14 of the first key stage 11, the first output 15 which is connected to a common bus 16 and in each counting cell a thyristor 17, the anode of which through a load resistor 18 is connected to the power bus 19, the diode 20 of whose cathode is connected to the control electrode of the thyristor 17, and the differentiating circuit 21, the first end of the capacitor 2 of which is connected to anode tiris 17, the second output to the first output of the resistor 23 of the differentiating circuit 21 and to the anode of the diode 20 of the next counting cell, the cathodes of the thyristors. 17 of all counting cells 1–10 are connected to the second output 24 of the first key stage 11, the second key stage 25, the second and third capacitors 26 and 27, the stab litron 28, and four additional resistors 29–32, the first the output of the second capacitor 26 is connected to the input 13 of the device, the second output is connected to the input 33 of the second key stage 25 and through the first additional resistor 29 to the power supply bus 19, the input 14 of the first key stage 11 via the zener diode 28 and the second additional resistor 30 connected to the first the terminals of the third capacitor 27, the third second and fourth additional resistors 31 and 32, the second terminals of the third capacitor 27 and the fourth additional resistor 32 are connected to the common bus 16, the second terminal of the third additional resistor 31 is connected to the power bus 19, and the second terminals of the resistors 23 of the differentiating circuits 21 to the first output 34 the second key stage 25, the second output 35 of which is connected to the common bus 16. In addition, in the annular scaler in the circuit of the first output 15, the first key stage can be switched on with a button 36 with disconnecting and switching m contacts. In addition, in the ring scaler, the key stages 15 and 25 can be performed on transients .37,38. The button 39 is used to set the device to its initial state. The device works as follows.

After turning on the power, the transistor 55 Upon termination of the pulse counting one, the torus of the second key stage 25 of the thyristors will be opened and covered immediately, and the transistor of the first second use of the device of the key stage 11 will close. and remains in this state until the voltage on the capacitor 27 becomes equal to the voltage of the Zener diode 28. During this time, the capacitors 22 are charged along the circuit: resistors 18 and 23, the collector of the transistor of the point cascade 25 - common bus 16. The constant charge time of the differentiating circuits 21 is chosen much less than the constant charge time of the circuit containing the capacitor 27 and the resistor 31, so the capacitors 22 have time to charge before the transistor of the key stage 11 is opened. When it is open, the thyristors 17 ovy to discovery. When the button 39 (Set zero) is pressed, the thyristor 17 of cell 1 is opened and the capacitor 22 of cell 1 is discharged along the circuit; the anode-cathode of the thyristor 17, the collector-emitter of the transistor of the key stage 11; contacts of the button 35; tire 16; the emitter-collector of the transistor of the key stage 25. The first negative polarity pulse arrives at the inputs of the key stages 11 and 25 through the capacitors 12 and 26 and locks them, as a result of which the thyristor 17 of cell 1 is closed. At the moment of termination of the negative pulse, the key stages 11 and 25 are opened and the capacitor 22 of the cell 1 is charged along the circuit: bus 19; resistors 18 and 23; cascade 25. A short positive pulse formed on the resistor 23 flows through the diode 20 to the control electrode of the thyristor 17 of cell 2 and opens it. The capacitor 22 of the second cell is discharged through the tigger 17 of the cell 2, after which the device is ready for the next pulse. Since the thyristor cells are connected in a ring, after an n-20 pulse (where n is the number of cells), the device is reset and the counting begins again. The thyristor anodes 17 are connected to the respective cathodes of the digital lamp, and (depending on which thyristor is open) the corresponding indicator digit is ignited.

$ P00731.

To do this, there is a button 36 in the first Technical and Economic Effect of the key stage 11, when pressed, expands the area with an example of the power supply circuit of the device's blurring blur as the switched off thyristor is switched off and the duration of the ria is entered. The pulses.

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Claims (3)

1. A RING-COUNTERING DEVICE containing counting cells, a first key stage, a first capacitor, the first output of which is connected to the input of the device, and a second output - to the input of the first key stage, the first output of which is connected to the common bus, and in each counting cell - a thyristor, the anode of which is connected via a load resistor to the power bus, a diode whose cathode is connected to the thyristor control electrode, and a differentiating circuit, the first output of the capacitor of which is connected to the thyristor anode, the second output to the first output to the resistor of the differentiating circuit and to the anode of the diode of the subsequent counting cell, the cathodes of the thyristors of all counting cells are connected to the second output of the first key stage, characterized in that, in order to expand the scope by expanding the duration range of the input pulses, a second key stage is introduced into it , the second and third capacitors, a zener diode, as well as four additional resistors, the first output of the second capacitor is connected to the input of the device, the second output to the input of the second key stage and through an additional resistor is connected to the power bus, the input of the first key stage through the zener diode and the second additional resistor is connected to the first terminals of the third capacitor, the third and fourth additional resistors, the second terminals of the third capacitor and the fourth additional resistor are connected to the common bus, the second terminal of the third additional resistor is connected to the power bus, and the second terminals of the resistors of the differentiating circuits are connected to the second output of the second key stage. 2. The device pop. 1, characterized in that in the circuit of the first output, the first key helmet and included a button with opening and switching contacts. 3. The device pop. 1, tl and the fact that the key cascades are made on transistors. 1 1100731 2