RU2045824C1 - Device for electric illumination control - Google Patents

Abstract

FIELD: remote control of illuminating devices. SUBSTANCE: when control button 11 or 32 is pressed and its contacts close, capacitor 21 is discharged to resistor 22 through diode 8. Voltage pulse from resistor 22 is received at threshold input 29 of memory unit. As result it switches. Voltage at output of memory unit 30 is decreased down to potential at lower terminal of capacitor 6. transistors 15, 16, 17 are rendered conductive and load 4 is disconnected. EFFECT: increased functional capabilities. 1 dwg, 1 tbl

Description

 The invention relates to electrical engineering and is intended for remote control of lighting devices, such as incandescent lamps and their protection against self-starting.

A device for controlling electric lighting, containing the first and second output terminals, designed to be connected via load terminals to the terminals of the electrical network [1]
The closest technical solution (prototype) to the proposed one is a counting relay containing a memory element in the form of a thyristor, the anode of which is connected through a resistor and a control transistor to the DC voltage terminal, through the triac the load is connected to the DC voltage terminals, through the triac the load is connected to the terminals connected to AC power, a switching capacitor, capacitor, resistor, diode and control key, made in the form of a push button switch [2] This device is complicated and cumbersome, since it requires the use of a constant voltage source, the current of which must exceed the triac unlock current. Due to the difficulties in locking the memory thyristor, consuming a relatively large current, the circuit is not reliable enough.

 The purpose of the invention is to increase reliability and reduce active power consumption.

 To do this, in the device for controlling electric lighting, containing a storage element, terminals for connecting an alternating current network, one of which is connected to one terminal of the lighting device, the other terminal of which is connected to the anode of the triac, the cathode of which is connected to another terminal for connecting the network, two capacitors , the first diode, two resistors and a push-button switch, the second, third and fourth diodes, three transistors, ballast, the third, fourth and fifth capacitors and the third, fourth, fifth and sixth resistors, and the storage element is made in the form of a timer, the power leads of which are connected to the first capacitor, to one terminal of which is connected via the first resistor and the third capacitor connected in parallel, the trigger input of the timer is connected to which one leads of the second resistor and fourth capacitor are connected, the other leads of which connected to the cathode of the first diode and the first output of the push-button switch, the second output of which is connected to the threshold input of the timer and one output of the third resistor, the second pin which is connected to the second terminal of the first capacitor, the first terminal of the fifth capacitor, the first terminal of ballast resistance, one of the main terminals of the two transistors and one terminal of the on-parallel parallel second and third diodes, the other terminals of which are connected to the control electrode of the triac, the cathode of which is connected to other main the leads of two transistors, the control leads of two transistors through a fourth resistor and a third transistor connected in series are connected to the first terminal of the first a capacitor through the fourth diode connected to the second terminal of the ballast resistance and the first terminal of the second capacitor, the second terminal of which is connected to the first terminal for connecting the AC network, and the second terminal of the fifth capacitor is connected to the anode of the first diode and through the fifth resistor to the timer output, which through the sixth resistor is connected to the control input of the third transistor.

A diagram of a device for controlling electric lighting is shown in the drawing and contains a memory unit 1, characterized by the following multi-cycle truth table:
where X _{1 is the} binary signal at the first input of the block;
X _{2 is a} binary signal at the second input of the block;
Y-binary signal at the output of the unit, terminals for connecting an AC network 2, 3, one of which (2) is connected to one output of the lighting device 4, the other terminal of which is connected to the anode of the triac 5, the cathode of which is connected to another terminal for connecting the network 3, the first 6 and second 7 capacitors, the first diode 8, the first 9 and second 10 resistors, a push button switch 11, the second 12, the third 13 and the fourth 14 diodes, the first 15, the second 16 and the third 17 transistors, ballast 18, the third 19 , fourth 20 and fifth 21 capacitors, third 22, fourth 23, fifth 24th and sixth 25th resistors, power leads 26 and 27 of memory unit 1 are connected to the first capacitor 6, to one terminal of which is connected via the first resistor 9 and third capacitor 19 connected in parallel, the trigger input 28 of memory unit 1, to which one terminal of the second resistor is connected 10 and the fourth capacitor 20, the other terminals of which are connected to the cathode of the first diode 8 and the first terminal of the push button switch 11, the second terminal of which is connected to a threshold input 29 of the memory unit and one terminal of the third resistor 22, the second terminal of which It is connected to the second terminal of the first capacitor 6, the first terminal of the fifth capacitor 21, the first terminal of ballast resistance 18, one main terminal of two transistors 15, 16 and one terminal connected in parallel to the second and third diodes 12, 13, the other terminals of which are connected to the control a triac electrode, the cathode of which is connected to the other main terminals of the two transistors 15, 16, the control terminals of the two transistors 15, 16 through the fourth resistor 23 and the third transistor 17 connected in series are connected to the first terminal of the first capacitor 6, which is connected through the fourth diode 14 to the second terminal of the ballast resistance 18 and the first terminal of the second capacitor 7, the second terminal of which is connected to the first terminal 2 for connecting the AC power, and the second terminal of the fifth capacitor 21 is connected to the anode of the first diode 8 and through the fifth resistor 24 with the output 30 of the memory unit, which through the sixth resistor 25 is connected to the control input of the third transistor 17.

 The reset terminal 31 of the memory block is connected to the first terminal of the capacitor 6. Parallel to the switch 11 with self-resetting contacts, the same other control buttons 32 can be connected located at other points in the room where the lighting device is installed.

 The device operates as follows.

 When a voltage is applied to the terminals 2, 3 of the network through a capacitor 7, a ballast, for example a resistor 18, parallel-counter diodes 12, 13 and a junction controlling the electrode-cathode of the triac 5, the current passes. Before the voltage drop across the resistor 18, the filter capacitor 6 is charged through the diode 14, from which the memory unit is powered by terminals 26, 27. The potential of the upper output of the capacitor 6 is fed to the trigger input 28 of the memory unit 1 through the capacitor 19 and resistor 9, therefore, the potential at the output 30 of the memory block approaches the potential at the terminal 27 of the memory block, that is, at the lower terminal of the capacitor 6. The transistor 17 is unlocked. Through this transistor 17 and the resistor 23, the current of the control circuit of the transistors 15 and 16 flows and they, unlocking, bypass the circuit pack ION triac 5. In this case the triac 5 is locked and the load 4 is turned off.

 When the control button 11 (32) is pressed for the first time, the trigger input 28 of the memory unit is connected by parallel to this input and the common terminal 27 through the capacitor 20 of the resistor 22 and the contacts 11 (28) are briefly shunted. Since the resistance of the resistor 22 is several times less than the resistance of the resistor 9, a voltage pulse less than 2/3 of the voltage supply of the memory block is supplied to the threshold input 29 of the memory block, therefore, this pulse does not affect the operation of the memory block and it switches only by briefly shunting it the starting input 28 by the capacitor 20. In this case, the potential at the output 30 of the memory unit approaches the potential of the upper output of the first capacitor 6. Therefore, the transistor 17 and, therefore, the transistors 15 and 16 are locked Xia, and triac control circuit 5 deshuntiruetsya. A current flows through the capacitor 7, the resistor 18, the diodes 12, 13 and the control circuit of the triac 5, under the action of which the triac unlocks, and the load 4 turns on. The memory unit 1, and consequently, the triac 5 are kept in this state even after opening the control button 11 (32). After opening of the contacts 11 through the resistor 24, the capacitor 21 is charged to the potential at the output 30 of the memory block.

 When you press the button 11 or 32 again and close its contacts, the capacitor 21 is discharged through the opening diode 8 to the resistor 22. Under the action of a voltage pulse, which is released on the resistor 22 and supplied to the threshold input 29 of the memory block, the memory block will switch, the voltage at the output of block 30 decreases to the potential at the lower terminal of the capacitor 6, the transistors 17, 15, 16 open, and the triac 5 and the load 4 are disconnected. In the future, the operation of the device is repeated.

 Parallel-on and on diodes 12 and 13 provide reliable shunting of the control circuit of the triac 5 and its locking when the transistors 15-17 are unlocked by a timer. As a ballast resistance 18, a resistor with a parallel-connected diode shunting the resistor with a positive potential at terminal 3 or a zener diode can be used. The diode 8 eliminates the charge of the capacitor 21 through the resistors 9 and 10 with a potential at the output of the timer 30 equal to the potential at the terminal 27 and, therefore, provides a bypass of the trigger input 28 of the memory block at the moment of the first contact closure of the control button contacts 11 (32) and the inclusion of the triac 5 and lighting device 4. The time constant of the charge of the capacitor 20 through the resistor 9 is less than the constant of the discharge time of the capacitor 21 to the resistor 22, which ensures reliable switching of the memory unit when the button 11 is pressed again (32).

 Thus, this device is characterized by the simplicity of the circuit, reliability and efficiency of operation, since all power consumption is allocated in the control circuit of the triac. At the same time, the lighting device can be controlled from several places using the simplest control buttons connected to the circuit by a two-wire line.

Claims (1)

DEVICE FOR ELECTRICAL LIGHTING CONTROL, containing a memory unit characterized by the following multi-cycle truth table:

where X ₁ binary signal at the first input of the block;
X ₂ binary signal at the second input of the block;
Y binary signal at the output of the block,
terminals for connecting AC power, the first of which is connected to the first terminal for connecting the lighting fixture, the second terminal for connecting to which is connected to the anode of the triac, the cathode of which is connected to the second terminal for connecting the network, two capacitors, the first diode, two resistors and a control key with a make contact, characterized in that the second, third and fourth diodes, three transistors, ballast, the third, fourth and fifth capacitors and the third, fourth, fifth and sixth resistors are introduced, the first the first and second conclusions of the power supply of the memory unit are connected to the first capacitor, to the first output of which, through the first resistor and the third capacitor connected in parallel, the first input of the memory unit is connected to which the first conclusions of the second resistor and the fourth capacitor are connected, the second conclusions of which are connected to the cathode of the first diode and the first output of the control key with a make contact, the second output of which is connected to the second input of the memory unit and the first output of the third resistor, the second output of which is connected to the second the output of the first capacitor, the first output of the fifth capacitor, the first output of the ballast resistance, the emitter of the first and the collector of the second transistor, and one of the outputs connected in parallel to the second and third diodes, the other terminals of which are connected to the control electrode of the triac, the cathode of which is connected to the emitter of the second and the collector of the first transistors, the bases of which are connected in series with the fourth resistor and the collector-emitter junction of the third transistor are connected to the first output of the first about the capacitor, which through the fourth diode is connected to the second terminal of the ballast resistance and the first terminal of the second capacitor, the second terminal of which is connected to the first terminal for connecting the AC network, and the second terminal of the fifth capacitor is connected to the anode of the first diode and through the fifth resistor to the output of the memory unit , which through the sixth resistor is connected to the base of the third transistor.

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