RU2016478C1 - Device for control over power triacs - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: with connection of device to A. C. network current passing through first capacitor 3, ballast element 4 and stabilizer diodes 6 and 7 unblanks power triac 1 for time determined by time constant of time setting capacitor 9. Timer 8 operates after charging of capacitor. To return device into initial state controlling key element 15 closes. Due to it time setting capacitor and second capacitor discharge through diodes 11, 12 and one arm of diode bridge 5. EFFECT: improved operational characteristics. 1 dwg

Description

 The invention relates to electrical engineering and is intended for remote activation of the power triac for a certain time.

 A device of V. G. Vokhmyanin for turning on a power thyristor is known, comprising a load connected via a thyristor to the network terminals, a capacitor connected to a thyristor control electrode by one terminal, and through a first diode with one network terminal, the other capacitor terminal connected to a second diode and resistor another network terminal and control button pins. However, in the known device, the thyristor is turned on only for a limited time during the closing time of the control button and only the DC load is switched.

 Closest to the proposed (prototype) is a device for controlling a power triac connected in series with the load, containing the first capacitor, the first terminal of which is designed to connect to the load terminal, not connected to the triac, and the second is connected to the first terminal of the ballast element, the second terminal of which connected to the first alternating current output of the diode bridge, designed to be connected through on-board and series-connected zener diodes to the control electrode of the triac, To connect to the power terminal of which, which is not connected to the load, the second alternating current output of the diode bridge is intended, the diagonal of the direct current of which includes the output of the threshold key element, moreover, one direct current output of the diode bridge is connected to the first output of the timing capacitor, the second output of which is connected to the first output of the timing resistor, the second output of which is connected to the first output of the first diode. The known device is not sufficiently accurate and reliable in operation and cannot be included in the work using the control button.

 The aim of the present invention is to improve the accuracy of the exposure time and increase the reliability.

 To achieve this goal, a device for controlling a power triac connected in series with the load, containing the first capacitor, the first terminal of which is designed to connect to the load terminal not connected to the triac, and the second is connected to the first terminal of the ballast element, the second terminal of which is connected to the first an alternating current output of the diode bridge, designed to be connected through on-board and series-connected zener diodes to the control electrode of the triac, for connecting to the power supply the water of which is not connected to the load with a second alternating current output of the diode bridge, the output of the threshold key element is included in the direct current diagonal of which one DC output of the diode bridge is connected to the first output of the timing capacitor, the second output of which is connected to the first output of the timing resistor, the second output of which is connected with the first output of the first diode, the second and third diodes, the second capacitor and the control key element in the form of a control button with a poking contact connected in series with the second diode between the second alternating current terminal of the diode bridge and the second terminal of the timing resistor connected to the first terminal of the second capacitor, the second terminal of which is connected to the threshold terminal of the timing generator, the second terminal of which is connected to the first terminal of the third diode, the second terminal which is connected with the first output of the first diode, the second output of which is connected with the second output of the first capacitor, and the threshold key element is made in the form of a time RA, the output of which is used as the output of the threshold key element, the common output of the timer is connected to the second output of the second capacitor, the first output of which is connected to the power and reset inputs of the timer, the threshold input of which is connected to the second output of the timing capacitor.

 The device diagram is shown in the drawing and contains a power triac 1 connected in series with the load 2, the first capacitor 3, the first terminal of which is designed to connect to the output of the load 2, not connected to the triac, and the second is connected to the first terminal of the ballast element 4, the second terminal of which connected to the first alternating current terminal of the diode bridge 5, designed to be connected through counter-connected and series-connected zener diodes 6, 7 to the control electrode of the triac 1 for connecting to the power terminal to Or, not connected to the load 2, a second alternating current terminal of the diode bridge 5 is intended, in the diagonal of the direct current of which the output of the threshold key element 8 is included, moreover, one direct current terminal of the diode bridge 5 is connected to the first terminal of the timing capacitor 9, the second terminal of which is connected to the first the output of the timing resistor 10, the second output of which is connected with the first output of the first diode 11, the second 12 and the third 13 diodes, the second capacitor 14 and the control key element 15 in the form of a control button with a lock by a contact connected in series with the second diode 12 between the second AC terminal of the diode bridge 5 and the second terminal of the timing resistor 10 connected to the first terminal of the timing capacitor 9, the second terminal of which is connected to the first terminal of the third diode 13, the second terminal of which is connected to the first terminal the first diode 11, the second output of which is connected with the second output of the first capacitor 3, and the threshold key element 8 is made in the form of a timer, the output of which 16 is used as the output of the threshold to yuchevogo element 8, the common timer 17 output 8 coupled to a second terminal of the second capacitor 14, a first terminal of which is connected to the power input 18 and reset the timer 19, the threshold 20 and a trigger 21 whose inputs are connected to the second terminal of timing capacitor 9.

 The device operates as follows. When voltage is applied to the terminals 22, 23 of the network through the capacitor 3, the ballast element 4 in the form of a resistor, the zener diodes 6 and 7 are turned on and the control electrode-cathode junction of the triac 1 passes the current, and the triac 1 unlocks, including the load 2. For a time, not exceeding several half-cycles of the network, the filter capacitor 14 is charged through a diode 13, a resistor 24, and one of the bridge diodes 5 to a voltage incident on the resistor 4, zener diodes 6, 7 and the control electrode-cathode of the triac 1. The voltage on the capacitor 14 is supplied e of timer 8 and timing RC circuit 10, 9. Since the capacitor 9 of the RC circuit is discharged, and the trigger input 21 of the timer is connected to it, the timer trigger is triggered, and a voltage approximately equal to the voltage across the filter capacitor 14 appears at its output 15 Therefore, the diode bridge 5 is not loaded, the triac 1 is open, and the load 2 is turned on.

 Through the resistor 10, the capacitor 9 starts charging under the action of the voltage across the capacitor 14. When this capacitor is charged after a certain time interval to a voltage equal to two-thirds of the supply voltage of the timer 8, its output trigger switches, and the voltage at its output 15 decreases to zero. A diode bridge 5 is closed to this output, bypassing the zener diodes 6, 7 and the control electrode-cathode transition of the triac 1. For reliable shunting of the transition the control electrode-cathode of the triac 1 through the diode bridge 5, the zener diodes 6 and 7 are connected in series.

 To re-enable the device, it is necessary to briefly close the circuit of the control button 15. After closing the contacts of the button 15, the process of creating a time delay for disconnecting the load is repeated. In this case, the charge circuit of the filter capacitor 14 is shunted through the diode 12 by terminals 15, the capacitor 14 is discharged, the timer 8 restores the initial state, and the triac 1 is unlocked, including the load. Moreover, as contacts 15 can be used several parallel-connected control buttons, taken out at different distances from the control circuit, which allows you to control, for example, lighting on stairwells.

 In the proposed device, the duration of the triac and the load in the on state is determined by the time constant of the RC circuit 10, 9 and is practically independent of voltage fluctuations in the network. The resistor 24 restricts the shunting of the control circuit of the triac 1 to the charging filter capacitor 14 and contacts 15. The diode 11 serves to accelerate the discharge of the capacitor 9 to the internal load circuit of the timer. Instead of a resistor 4, a zener diode can be used as a ballast element.

 The device is characterized by simplicity and high accuracy of operation, as well as the ability to keep the triac open, and the load turned on for a significant period of time, the circuit does not have transformers and intermediate relays, which simplifies the circuit and makes it highly reliable in operation.

Claims (1)

 DEVICE FOR CONTROL OF A POWER SYMISTOR, connected in series with the load, containing the first capacitor, the first terminal of which is designed to connect to the load terminal, not connected to the triac, and the second is connected to the first terminal of the ballast element, the second terminal of which is connected to the first AC terminal of the diode bridge , designed to be connected through on-board and series-connected zener diodes to the control electrode of the triac for connecting to the power terminal of which is not connected with load, the second alternating current output of the diode bridge is intended, in the diagonal of the direct current of which the output of the threshold key element is included, moreover, one direct current output of the diode bridge is connected to the first output of the timing capacitor, the second output of which is connected to the first output of the timing resistor, the second output of which connected with the first output of the first diode, characterized in that, in order to improve the accuracy of the time delay and reliability, introduced the second and third diodes, the second capacitor and pack The main key element connected in series with the second diode between the second AC terminal of the diode bridge and the second terminal of the timing resistor connected to the first terminal of the second capacitor, the second terminal of which is connected to the first terminal of the timing capacitor, the second terminal of which is connected to the first terminal of the third diode, the second the output of which is connected with the first output of the first diode, the second output of which is connected with the second output of the first capacitor, and the threshold key element is made in the form Aymeri whose output is used as a key element of the output of the threshold, the total output timer coupled to a second terminal of the second capacitor, a first terminal of which is connected to the power input and the reset timer threshold input coupled to the second terminal of timing capacitor.