SK278480B6 - Connection of the semiconductor time switch used for lighting control - Google Patents

Abstract

The semiconductor time switch used for lighting control is created based on the rectifier, programmer, timer and end switch and it is used for time control of lighting located in staircases, in the individual floors, especially. This switch functionality is assured based on the appropriate stabilised voltage being necessary for these purposes. According to this principle, this voltage is passing over the switching integrated circuit (IO1), based on the impulse, through switching transistor (T9) to the control switch electrode (triac), the time limited switch of lighting is provided and this time limitation is assured with the use of the timing integrated circuit (IO2). This time interval length can be changed with the use of the programming transistor (T8) which enables to switch off or to switch on the fifth dividing resistance (R14). A permanent switching on of this lighting is reached, when the voltage of (+12V) is supplied to the connector and the switch enables a permanent lighting without any time limitation.

Description

Technical field

The invention relates to the connection of a semiconductor timer which is used to switch the stairway lighting on each floor, and the length of the switch-on interval can be selected by means of a button, the switch-off being carried out automatically. A short time is for normal operation and a long time is for cleaning the illuminated areas.

BACKGROUND OF THE INVENTION

Until now, either mechanical switches or electromechanical staircase switches are used to switch on the lighting, which switch on all floors in the entrance at the same time. This wastes electric energy, as most floors in the entrance are usually illuminated unnecessarily. A further disadvantage is that these devices have the possibility to set only one time interval and cannot be used for permanent switching on.

SUMMARY OF THE INVENTION

The present invention is based on a staircase semiconductor timing switch comprising an input capacitor and a discharge resistor connected to the rectifier input, and a filter capacitor connected to the input terminal. In parallel with this filter capacitor, a first rectifier diode is connected, which is connected by a cathode to the rectifier input, where the second rectifier diode is also connected by anode, the cathode to which the smoothing capacitor is connected, which is minus connected to the terminal. In parallel to this capacitor is connected a diode divider consisting of a first stabilizing diode, a signaling diode and a second stabilizing diode, with a cathode connected to the input of the switching integrated circuit, its negative terminal being connected to the terminal. The cathode node of the second rectifier diode and the first stabilizing diode is connected to a protective resistor, a protective capacitor, and a emitter of a switching transistor, the collector of this transistor being a positive output for other circuits and its base switched by a transistor through a resistor to the terminal. The output of the switching integrated circuit is coupled through a programming capacitor to the switching transistor base and shorting transistor collector, which node is coupled to the terminal through a shorting resistor. The emitter of the switching transistor is connected to the base of the second splitting transistor, through which the emitter is connected to the terminal, via a first precipitating resistor. The collector of the first transistor is connected to the emitter of the switching transistor and its suppression capacitor minus is connected to its base, the second collector of the second transistor is connected to the second collision resistor and the fourth · resistor connected to the base of the programming transistor. a divider at the fifth divider resistor and potentiometer connected via the sixth resistor and the second timing capacitor to the terminal, the resistor and capacitor node connected to terminals 6 and 7 of the timing integrated circuit. The terminals 4 and 8 of this integrated circuit are connected to a switching transistor collector, a protective resistor and a seventh dividing resistor, which together with the eighth resistor forms a resistive divider for the timing integrated circuit terminal and is connected to the terminal to which the integrated terminal 1 is connected. the terminal 3 is connected through a fourth resistor to the output transistor, the emitter of which is connected to the control electrode of the switch connected between the bulb connection terminal and the input terminal, the timing integrated circuit terminal 3 is connected via a coupling resistor and a coupling diode to the base transistor, which is connected via a switching capacitor to the output of the switching integrated resistor. A + 12 V terminal is connected to the switch control electrode via a diode and a third collision resistor.

The advantage of the circuitry according to the invention is that it allows the choice of the length of switching on of the lighting which is switched on individually on the floors, thus saving a considerable amount of electricity. Can also be used to permanently turn on the lighting in the so-called. evacuation mode when all floors are illuminated at the same time.

Overview of the figure in the drawing

The wiring of the semiconductor timer according to the present invention is explained in more detail in the figure which contains the overall electrical scheme of the switch.

DETAILED DESCRIPTION OF THE INVENTION

The circuit is designed on the basis of semiconductor technology and contains four circuits. The first is a rectifier that provides a constant DC voltage level for other circuits. The second circuit is programming and has the task of determining the length of the time interval. The third circuit is a shutdown timer. The fourth circuit is a switching circuit and serves as an output stage for controlled switching on of the lighting. The function of the switch is ensured by the necessary stabilized voltage. By passing the voltage from the switching integrated circuit IO, through the switching transistor T _t and the output transistor T, to the control electrode of the Triac switch, the illumination is switched on for the time provided by the timing integrated circuit IO ₂ . This length of time can be changed with a programming transistor T "by either discarding or who operate the fifth dividing resistance R _14th By applying voltage to the +12 V terminal, the switch turns on the lighting permanently without time limit.

An explanation of all reference numerals in the figure is given on a separate sheet.

Industrial usability

The wiring according to the invention can be used in the field of construction, in particular for lighting staircases of multi-storey buildings.

Claims (1)

PATENT CLAIMS Wiring of a staircase lighting semiconductor switch, characterized in that it consists of an input capacitor (C) and a discharge resistor (RJ) connected to the input of the rectifier (U), a filter capacitor (C ₂ ) connected to the input2 by terminal (N). in parallel with a filter capacitor (C ₂₎ is connected a first rectifier diode (D |), which is connected to the cathode to the input of the rectifier, wherein the anode connected to the second rectifier diode _(D2), the cathode of which is supplied by a smoothing capacitor _(C3), which is connected by minus to terminal (N), connected in parallel to a diode divider consisting of a first stabilizing diode (D ₃ ), a signaling diode (D ₄ ) and a second stabilizing diode (D ₅ ), to which the input to the switching integrated circuit (IOi), its negative terminal is connected to terminal (N), to the cathode node of the second rectifying diode (D ₂ ) and the first stabilizing diode (Di) is connected protective circuit resistor (R ₂ ), protective capacitor (C ₄ ) and cmitor of switching transistor (T]), where the collector of this transistor is a positive output for other circuits and its base is switched by jumper transistor (T ₂ ) through switching resistor (&, ) to the terminal (N), the output switching integrated circuit (IC ₂₎ is connected via a programming capacitor (C _p) to the node base of the switching transistor _(T3) and the collector shorting transistor (T _5), said node is connected via the short-circuit resistor ( R _s ) connected to terminal (N), the emitter of the transistor (T ₃ ) is connected via the first collision resistor (R ₆ ) to the base of the second transistor (T ₇ ), the emitter of which is connected to terminal (N), to the emitter of the transistor (T ₃ ) the collector of the first separating transistor (T ₄ ) is connected and its suppression capacitor (C ₇ ) minus, the collector of the second separating transistor (T ₇ ) is connected to the second collision resistor (R, ₀ ) and th dividing resistance (R _2), which are connected to the base of the programming transistor (T _8), the emitter of which is connected to the divider at a node of the fifth divider resistor (R ₄₎ and the potentiometer (P), connected via a sixth divider resistor _(R15 ) and a second timing capacitor (C ₉ ) to terminal (N), resistor node (R ₁₅ ) and capacitor (C ₉ ) is connected to terminals (6) and (7) of timing integrated circuit (IO ₂ ), terminals (4 ) and (8) of the integrated circuit are connected to the collector of the switching transistor (T,), a protective resistor (R _20), and seventh dividing resistor (R _LS), which together with the eighth dividing resistance (R ₉₎ is a voltage divider for the outlet (2) a timing integrated circuit (IO ₂ ) and is connected to a terminal (N) to which the terminal (1) of the integrated circuit is also connected, the terminal (3) being connected via a fourth precipitating resistor (R ₂₁ ) to the output transistor (T ₉ ), the emitter of which is connected to the control electrode of the switch (Triac) connected between the terminal (F) the bulb connection and terminal (N); further, the timing integrated circuit (IO ₂ ) terminal (3) is coupled via a coupling resistor (R ₁₆ ) and a coupling diode (D ₇ ) to the base of the transistor (T ₂ ); via a switching capacitor (C ₅ ) connected to the output of the switching integrated resistor (10]), a terminal (+ 12 V) is connected to the control electrode of the switch (Triac) via a separating diode (D _s ) and a third collision resistor (Rn)