SU780171A1 - Pulse pair shaper - Google Patents

Description

one

The invention relates to the field of automation and telemechanics, in particular, to remote control systems, which require weight and energy consumption restrictions with an increased service life and reliability.

It is intended to form two pulses / corresponding to the leading and trailing edges of the input signal, and the distributor of these pulses through two independent channels.

The proposed device can be used to emit signals about applying and relieving voltage for the purpose of further transmitting these signals over telemetry channels, for recording on recording devices or for using them as control commands in automation and telemechanics equipment.

Known driver containing an inverter, the input of which is connected to one of the inputs of the element And, and its output is connected to a resistor inverting RC-circuit, and the element OR NOT with two inputs, one of which is connected to the input of the inverter and one of the inputs of the element AND, and the other with the second input of the AND element and

the point of connection of the resistor with the capacitor of the inverting RC circuit

JV

A disadvantage of this device is that in the absence of an input signal, the elements of the device are energized and consume electricity, which degrades the energy characteristics of the systems, and also reduces its reliability.

A device consisting of a transforming cascade of trigger pulses made on two transistors, a pulse transformer is known.

15 with a moving core for adjusting the coupling factor and the output transistor amplifier 2.

Such a driver can solve the problem, however

20 its too complex / and the structure has a lot of weight and size.

Known driver, containing a relay, the winding of which is shunted by two parallel connected

25 chains, each of which contains a diode connected in series and a variable resistor and connected by a single terminal through the time zadakvdiy capacitor to the negative pole

30 power supply, and another conclusion 780171

"Iepfes make contact of the switch to the positive pole of the power supply and through the opening contact of the same switch to the negative pole of the power supply, while the first output of the driver is connected to the positive power supply of the power supply through the connected auxiliary contact of the switch and close the contact of the switch, and the second output of the driver is connected to the positive pole of the power source through a series-connected disconnecting additional contact lyuchatel and make contact relay s}.

This device solves the problem of the formation of two pulses, signaling the input signal and the signal removal and the distribution of these pulses on two outputs, however, it has significant drawbacks that limit the possibilities of the use of the formation in remote control systems.

These disadvantages are as follows.

The switch, the switching circuit, the time of the driving capacitor and the output circuits of the device, when using the driver in the remote control system, must be made in the form of a relay element, the winding of which is in an excited state during the time interval between on and off of the input signal.

The telemechanical equipment, for which the requirement of limiting weight, volume and power consumption is the most important, applies compact electromagnetic relays, for which the total current of the winding under current is limited by technical conditions. So, for example, for the relay type RES-bo (РСО.459. ОБТУ) it should not exceed 100 hours.

When multiple impulses of a long duration enter the input, or when the shaper stays for a long time under the voltage, the relay quickly generates its resource, which imposes a limit on the operating time of the object in which the shaper is applied.

In addition, prolonged stay of the relay coil under voltage increases the power consumption in the system and reduces its reliability. The aim of the invention is to increase the service life of the reduced power consumption and reliability.

To achieve this goal, a paired pulse shaper containing a power source and Two ™ electromagnetic relays, the winding of the first electromagnetic relay is shunted by two parallel-connected; Each circuit contains a diode and a resistor in series, the diode is switched on in the forward direction in one circuit and in the opposite direction in the other circuit, the first output of the first electromagnetic relay is connected via a capacitor to the negative terminal of the input source, the first output of the device connected with po. a positive terminal of the power supply through successively connected closing contacts of the electromagnetic relays, and the second output of the device is connected to the same terminal of the power supply through the closing contact of the first electromagnetic relay and the breaking contact of the second electromagnetic relay, transistors and additional diodes, resistors and a capacitor are inserted, the second the output of the first electromagnetic relay is connected via a diode connected in the wire direction to the positive terminal of the input source to this to the same output of the aforementioned relay, the emitter of the transistor is connected, the crlleck: the torus is directly, and the base is connected via a resistor to the negative terminal of the input signal, the positive terminal of which is connected to the base of the above-mentioned transistor through a resistor, - with one output of a parallel RC circuit, the other output of which is connected to the negative terminal of the input source through the winding of the second electromagnetic relay.

The drawing shows the principal circuit design.

The device contains a winding of an electromagnetic relay 1 with pins 2 and 3, a time setting capacitor 4, diodes 5-8, variable resistors 9 and 10, transistor 11, resistors 12 and 13 of the voltage, capacitor 14, resistor 15, winding of the electromagnetic relay 16 s pins 17 and 18.

Structurally, the driver is made as follows. The winding of the forming relay 1 through time sets capacitor 4 is connected to the negative pole of the power source and through a diode 5 connected in the forward direction to the device input. Parallel to the relay winding 1 there are two chains connected, each of which consists of series-connected variable resistors 9 and 10 and diodes 7 and 8, respectively.

Claims (1)

. Between the diode 5 and the winding of the forming relay 1, the emitter of the transistor 11 is connected, the capacitor of which is connected to the minus of the power supply, and to the capacitor. connected to the midpoint of the voltage divider made on the resistors 12 and 13 and connected to the input and minus of the power source. The winding of the relay 16 is connected to the minus of the power supply by one pr terminal, and the other end is connected to the driver input through a series-connected RC circuit consisting of a parallel-connected capacitor 14 and a resistor 15, and a diode 6 connected in the forward direction. The first output of the imaging device is connected in series by connecting the closing contact 17 to switch bodies and the closing contact 2 of the forming relay to the positive pole and the power supply, and the second output is connected to the same pole through the sequentially connected break contact 18 of the switch and the closing contact 3 of the forming relay. The shaper of coupled pulses works as follows. In the initial state, the windings of relays 1 and 16 are de-energized, capacitors 4 and 14 are discharged. When a positive current signal arrives at the input of the formers, the time of the driving capacitor 4 through the diode 5 excites the winding of the relay 1. The charging time of the capacitor 4 and consequently the time T of the excited state of the winding of the relay 1 is regulated by changing the resistance value of the variable resistor 9 .P le 1 when closed, closes its own switching contacts in the output circuit of the driver. At the same time, a capacitor 14 is charged through diode b, charging the coil 16 with a charging current. A switch, when activated, closes its contact 17 and opens contact 18. At the output of relay 1, a signal appears that starts at Neither the input voltage nor the output of pin 2 has a signal, because pin 18 is open. From the moment the input signal arrives, the transistor 11 is in the closed state, which ensures, with the selection of the resistance of the voltage divider, from the considerations that the voltage drop on resistor 12 is less than the voltage drop on the diode 5. In this case, the potential of the base is positive with respect to emitter, which ensures the closure of the transistor. At the end of the charge, the time of the setting capacitor 4 after the time interval it, the relay 1 releases, the contacts 2 and 3 open, while the contact 2 removes the signal from the output of the relay 1. At the end of the charge of the capacitor 14, the switch releases, while its contact 17 is closed and the contact is closed. The charge time of the capacitor 14 is chosen a little more than the capacitor 4 to. The reset of the contacts 17 and 18 of the switch occurred after the contacts 2 and 3 of the relay and did not affect the duration of the output pulses. When the transistor signal 11 is removed from the driver input, the voltage 11 is supplied by the voltage of the capacitor 4, and a negative voltage is applied to the base through the resistor 13, which leads to the opening of the transistor, a discharge of the capacitor 4 is generated through the relay winding and the emitter junction transistor collector. In this case, from the discharge current, the time of the driving capacitor 4, the winding of the relay 1, is again excited to the time of the discharge of the capacitor. The time T of the excited state of the winding of the relay 1 is controlled by changing the variable resistor 10. When the relay 1 is triggered again, its contacts 2 and 3 are closed, but since the switch does not work again, through its normally open contact 18, output 2 corresponds to the moment when the input voltage is removed, and the pulse duration is TQ,. After the capacitor 4 is discharged through the transistor 11 and the capacitor 14 through the resistor 15, the driver comes to its initial state. Thus, in output 1 and output 2, pulse signals appear alternately, the duration of which is equal to T, and X, respectively, and the interval T in the mode between them corresponds neither to the arrival and removal of the input signal. From the foregoing, it follows that the relay elements of the device are in the actuated state for a short time, thereby greatly increasing the service life of the device. The pulsed nature of the switch operation with remote control leads to a significant reduction in power consumption. In addition, contactless switching of the charge-discharge circuit, the time of the driving capacitor increases the operating reliability of the Shaper. According to preliminary data, the use of the proposed shaper in remote control systems instead of a device made according to the prototype scheme can increase the service life of the system by 2-3 times, while the power consumption will be reduced by 3-5 times and reliability will increase by an order of magnitude. Invention Formula paired pulses containing the input source