CS272855B1 - Connection for moving light track's width control - Google Patents

Abstract

The connection for the width control of the shifting light track can be used with machines for production of light and image effects. The connection can achieve the width change of the shifting light track. The merit of the connection lies in the mutual interconnection of two counters (2, 3) of the generator (4) of fixed frequency and the voltage-controlled generator (5) of the light track. The individual combinations of the light effects can be selected by the switch (7), which as required links the control terminals (01, 02, 03, 04) of the divider-by-two (6) to the ground. The output of the divider-by-two (6) is connected with the terminal (UD) of the counting direction of the second counter (3). The divider-by-two (6) is connected by two signal terminals (S1, S2) to the first input (Q1) of the generator (4) of fixed frequency and to the voltage-controlling terminal (J2) of the voltage-controlled generator (5) of the light track. The first counter (2) is connected to the shift generator (1). The source (9) of the audio signal is connected to the voltage-controlling terminal (J2) via the rectifier (8).<IMAGE>

Description

(57) By employing a control for the width of the shifting light trace, it can be used in installations producing light and image effects. By this connection it is possible to achieve a change in the width of the shifting light pattern. The principle of the connection consists in interconnection of two counters (2, 3) _{λ of the} fixed frequency generator (4) and the voltage-controlled track width generator (5). Individual combinations of light effects can be selected by a switch (7), which according to requirements connects control terminals (Οχ, O2, O3, O4 / dividers (6) two to ground. Output of dividers (6) two is connected to terminal (Uq) the second counter (3), the divider (6) by two is connected by two signal terminals (βχ,

S2) to the first output (Οχ) of the fixed frequency generator (4) and to the voltage control terminal (Jg) of the voltage-controlled track width generator (5). The first counter (2) is connected to a feed generator (1). An audio signal source (9) is connected to the voltage control terminal (32) via a rectifier (8).

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BACKGROUND OF THE INVENTION The present invention relates to circuitry for controlling the width of a shifting light trace in light and image effect producing devices.

The presently known voltage level light indicators are based on the principle of gradual activation of the indicator elements depending on the input voltage level. The indication is static, that is, the indication elements are activated up to their maximum number from zero, usually from left to right. The disadvantage of this indicator is the too static spatial light effect. Another lighting effect device is the so-called. a light snake in which the controlled successive activation of the display elements in the N-channel transmission occurs. Usually, four channels are used. This actually creates a shifting light point effect. The disadvantage of this light effect is that the width of the trace of the shifting light point is constant, it cannot be changed continuously. This fact actually limits the use of so-called. a light snake for wider lighting effects, because such a lighting effect becomes monotonous over time.

The above-mentioned disadvantages are overcome by the shifting light path control circuit according to the invention, comprising a displacement generator connected to the input of the first counter, wherein the input terminals of the second counter preset are individually connected to the output terminals of the first counter, the output terminals of the second counter they are also output terminals for controlling the width of the shifting light pattern. The first output of the fixed frequency generator is connected to the setup and output terminals of the second counter. The second output of the fixed frequency generator is connected to the trigger terminal of the voltage-controlled track width generator. The output of the track-controlled generator of the Track Width is connected to the read terminal of the second counter. The voltage control terminal of the voltage-controlled track width generator is also an input terminal for controlling the width of the moving light track. The yard divider input terminal, whose first signal terminal is coupled to the input terminal for controlling the width of the shifting light pattern, can be connected to the read direction terminal of the second counter. The second yard divider signal terminal is coupled to the first output of the fixed frequency generator, the four yard divider control terminals being grounded as desired via a switch. An audio signal source can be connected to the input terminal for controlling the width of the moving light track.

The wiring for controlling the width of the shifting light trace finds application in the production of light effects. The advantage of the wiring is that it allows to create light effects based on a combination of two principles, the light indicator and the shifting light point. It is possible to create different combinations of light effects, where the parameters such as: speed of light point shift, change of direction of light point shift and change of width of light point track are changed according to eg. from the beep.

In the drawings of FIG. 1 shows a basic wiring assembly for controlling the width of a shifting light pattern, and FIG. 2 illustrates a particular use of a circuit for controlling the width of a shifting light trace in connection with color music;

Two counters and three frequency generators are the main wiring parts for controlling the width of the moving light path. The output of the feed generator 6 is connected to the input of the first counter 2. The output terminals Q &, Q _q , 2 _c of Οθ of the first counter 2 are individually connected to the input terminals 3 _A , 3 _β , 3θ, 3θ of the preset of the second counter 3. The output terminals Qg »Op» 0θ, the second counter 3 are also output terminals connections for controlling the width of the moving light trace. The displacement generator 6 is composed of digital logic circuits and its output variable is the frequency for shifting the light spot. The first counter 2 and the second counter 3 are formed by simple circuit elements in an integrated form. The first output Q ^ 4 fixed frequency generator is connected to the terminal PL setting output of the second counter 3. The second output Q ₂ 4 generator constant frequency is connected to terminal 3 ^ lowering the voltage-controlled generator 5 track width. Output Qg

CS 272 855 B1 the voltage-controlled track width generator 5 is coupled to the read counter CLK of the second counter 3. The voltage control terminal 3 _{2 of the} voltage-controlled track width generator 5 is a base. equal to the input terminal for controlling the width of the shifting light trace. The fixed frequency generator 4 is a simple generator consisting of two logic elements and passive elements. The voltage-controlled track width generator 5 is based on the same principle as the displacement generator 1 and has a similar construction. An audio signal source 9 is connected to the voltage control terminal _{12 of the} voltage-controlled track width generator 5 from the rectifier 8. The rectifier 8 is formed by a transistor circuit. The source 9 of the audio signal is one frequency crossover of color music. The counter direction terminal 30 of the second counter 3 is coupled to the output terminal 0 of the divider 6 by two. The first signal terminal Sj of the divider 6 by two is coupled to the input terminal of the wiring to control the width of the shifting light trace. The second signal terminal S2 of the _two dividers 6 is coupled to the first output Q1 of the fixed frequency generator 4. The divider 6 of the two has four control terminals Op 0 ₂ , 0 $, 0 ^ which are selectively connected to the bar via switch 7. The divider 6 by two consists of logic 10. The switch 7 m can be any multi-position.

The circuit of FIG. 2 shows a particular use of the circuit of FIG. 1 in conjunction with color music. Referring to the particular embodiment of FIG. 2, the connection according to the first figure remains. However, additional input and output circuits are accessed. The input of the feed generator 1 is connected to a second audio signal source 11 via a second rectifier 10. The second audio signal source 11 is a second frequency crossover of color music. A third audio signal source 15 is connected to the control input of the first counter 2 by means of two dividers 12 and then through the shaping device 13 and subsequently via the third rectifier 14. The third audio signal source 15 is a third frequency crossover of color music. For output terminals Qg, Qg, Qg, Q | _(a second counter 3 which is also the output terminals of the moving light path control wiring is connected to a decoder 16. The output of the decoder 16 is connected to the input of a power unit 17 to which a load 8 8 is connected. specially assembled lamp network.

The wiring function according to FIG. 1 is as follows. The basic connection will be described in a four-channel version. 3e, however, it is possible to create eight to sixteen channel designs. The shift of the light point is provided by the first counter 2, which is controlled by the output frequency of the feed generator 1. Location light point is encoded in a four-bit word that appears at the output terminals Q _A Q _Q, Qg, Οθ first counter 2. This means that the logical atav output terminals Q & A, Q _Q, QQ, Οθ first counter 2 specifies the place, where only one light bulb out of four will always light. If the effect of a wider trace of a shifting light point is to be produced, it is necessary that more than one lamp is lit, that is, more lamps are lit. This can be ensured by the output terminals Q ^, Οθ, Οθ, Οθ of the counter 2, the second counter connected by its input terminals 3 _Q 3, 3 g, ϋθ. Then, the output terminals Qg, Qp, Qg, Qg show the encoded wider track of the light spot in the four-bit word. So that more bulbs illuminated at the same time, ie. in order to achieve a wider trace of the illumination point, it is necessary for the second counter 3 to assign a four-word word to its output terminals Q _E , Qp, Qg, Q _h at a rate several times greater than the human eye is able to notice. only one light point is encoded but at least two light points side by side. This function is also provided by the constant frequency signal supplied from the first output Oj of the fixed frequency generator 4 to the PL setting terminal of the second counter 3 and is supplied from the Q output of the voltage-controlled generator ₃ 5 the width of the track at the CLK terminal of the second reading of the counter 3. as to the CLK terminal of the counter reading of the second signal 3 not bring higher frequency than the signal of a fixed frequency is removed from the first výatupu ^ Q fixed frequency generator 4 and which is applied to the output setting terminal PL of the second counter 3, the second counter 3 will be pren read the position of the illuminating point from the inlet to the outlet in unchanged form. That is, only one of the four lamps is ultimately lit. If a double frequency signal is applied to the read terminal CLK of the second counter 3 as a constant frequency signal taken from the first output Qj of the fixed frequency generator 4 and which

CS 272 855 B1 is connected to the output setting terminal PL of the second counter 3, so two lamps light up at the output. Start the voltage-controlled generator 5 is synchronized track width of the output voltage of the output of odobernným £ ₂ of the generator 4 and linger frequency applied to terminal 0 ^ lowering the voltage-controlled generator 5 the width of the track. The control voltage across the voltage-controlled track width generator 5 is obtained from the audio signal source 9 after rectification by the rectifier 8 and is applied to the voltage control terminal ₁₂ ^{at the} foot of the controlled track width generator 5. If this voltage tunes the voltage-controlled track width generator 5 to three times the frequency of the fixed frequency generator 4, three lamps will light up next to each other. If the second counter 3 is bi-directional, its read direction terminal υθ will be connected to the output terminal of the court divider 6, at which the first signal terminal supplies rectified control voltage from the audio source 9, and at which the second signal terminal S ₂ supplies the continuous signal frequency from the fixed frequency generator 4. The function of the court divider 6 is given by switching its respective four control terminals 0, 0, 0, 0, 0, through the switch 7 with the grip. Thereby it is possible to create four reading direction functions of the second counter 3 and thus of the whole device:

The first function - reading of the second counter 3 is set forward, ie. light bulbs shine to the right.

The second function - reading of the second counter 3 is set. the bulb comes on to the left.

The third function - the second counter 3 reads symmetrically both forward and backward, ie. the bulbs light up symmetrically on both sides. Rapid switching of the reading direction of the second counter 3 causes the signal supplied from the first output 0 of the fixed frequency generator 4 to the second signal terminal S _{2 of the} divider 6 to produce the effect that the bulbs light up successively on both sides.

Fourth function - second counter 3 (it is set forward, ie the lamps light up to the right and after the control voltage from the sound source 3 disappears, the second counter 3 is set backwards, ie the lamps light up to the left. 3 set back.

The connection according to FIG. 2 operates on the same principle as the circuit described in FIG.

1. However, the function of the supplementary blocks is accessed, and thus the particular connection then performs a specific function. The encoded four-bit word of the light point is output from the output terminals Q1, Q _p , θ, of the second counter 3 to the decoder input 16. In the decoder 16, the four-bit word is decoded to determine the location of the light point at the respective location of the four-channel device. The outputs of the decoder are fed to a power unit 17 which amplifies the active signal of the respective channel a. thus activating the power switches that connect the respective consumers from the load block 18 to the supply voltage. The appliances in this case are represented by a network of incandescent lamps. The displacement generator 11 is controlled by a control voltage rectified by the rectifier 10 and obtained from the second audio signal source 11. A control voltage is obtained from the third audio signal source 15 which, after being rectified by the rectifier 14 and after being shaped by the former 13, is led to the divider 12 and the control signal for changing the reading direction of the first counter 2 is obtained.

Said object of the invention can be used in light and image effect devices. These facilities can be used in discos, social and cultural events, manifestations and television broadcasts of various competitions.

Claims (3)

OBJECT OF THE INVENTION A circuit for controlling the width of a shifting light spot, comprising a displacement generator connected to an input of a first counter, characterized in that the input Μ ' CS 272 855 Bl Μγ terminals (3 _A , 3 _β , 3θ, 3 _Q ) of the second counter preset (3) are individually connected to the output terminals (Q _A , Qg, Q _c Q _q ) of the first counter (2), with the output terminals (Q ^, Qp, Q _{G <of the} second counter (3) are also output terminals for controlling the width of the moving light track, the first output (Qj) of the fixed frequency generator (4) being connected to the output setting terminal (PL) of the second counter (3) , a second outlet (Q ₂₎ of the generator (4) a fixed rate is connected to the terminal (Oi) lowering the voltage-controlled generator (5) the width of the track, and the output (Q ₃₎ the voltage-controlled generator (5) the width of the track is coupled to the terminal (CLK) When the second counter (3) is read, the voltage control terminal (0 ₂ ) is also the input terminal for controlling the width of the shifting light trace. Wiring control for moving the width of the moving light trace according to claim 1, characterized in that the output terminal (Q ₄ ) of the divider (6) by two of which the first signal terminal is connected to the reading direction terminal (U _D ) of the second counter (3). (Sj) is coupled to the input terminal for controlling the width of the moving light track and whose second signal terminal (S ₂ ) is connected to the first output (Qj) of the fixed frequency generator (4), with four control terminals (0j, 0 ₂ , 0 _g, 0 ^) Rods (5) by two through the controller (7) coupled to the millstone. 3. The shifting light path control circuit according to claim 1 or 2, characterized in that an audio signal source (9) is connected to the control terminal ( ₁₂ ) of the shifting light path control circuit (12). 2 drawings CS 272 855 Bl