RU99901U1 - LED LAMP (OPTIONS) - Google Patents

Abstract

 1. An LED lamp comprising a control unit with an acoustic sensor and an LED unit containing light emitting diodes — LEDs, characterized in that the control unit comprises means for turning on / off the LEDs depending on the signal of the acoustic sensor, said means being configured to provide an acoustic shutdown threshold value LEDs are less than the value of the acoustic threshold for their inclusion. ! 2. The lamp according to claim 1, characterized in that the LED unit contains K parallel-connected circuits of N series-connected LEDs. ! 3. The lamp according to claim 1, characterized in that the control unit is equipped with a power supply unit, made according to the scheme with a quenching capacitor and voltage regulator. ! 4. The lamp according to claim 1, characterized in that the LED unit is equipped with a power supply unit, made in the form of a current stabilizer. ! 5. The lamp according to claim 1, characterized in that the means for turning on / off the LEDs comprises an acoustic sensor signal shaper, an acoustic sensor is connected to its input, an off delay unit, the input of which is connected to the output of an acoustic sensor signal shaper, an executive unit, to a control input which is connected to the output of the off delay unit, to the first information input of which the output of the on-threshold threshold driver is connected, and the output of the driver is connected to the second information input turn-off horns, while the power input and output of the executive unit are connected in series to the LED unit. ! 6. LED lamp containing a control unit with a light sensor and an LED unit containing light

Description

The claimed group of utility models relates to electrical engineering, namely to lighting technology using light emitting diodes (LEDs). The inventive LED lamp can be used for indoor and outdoor lighting.

The electrical part of the lighting device is known (RF patent for utility model No. 78898, IPC F21S 8/00 (2006.01), publ. 2008 [1]), consisting of a light-emitting element electrically connected by an electric, electrical wire cartridge and a terminal block with an electric board, the latter is located in the housing of the power control unit and includes an acoustic module, a power module, an on / off module. The control part is a control module containing at least a microcircuit included in the input to the acoustic module, and the output in the on / off module, containing at least a triac, which is connected to a power module containing at least , resistance. At the same time, both the control module and the acoustic module are included in the power module.

The closest in combination of technical features and purpose is a lamp for the needs of housing and communal services - "Housing and communal services lamp" (RF Patent for Utility Model No. 91136, IPC Н05В 33/02 F21S 4/00, 2009, [2]), which was adopted as a prototype of the claimed group of utility models.

The lamp for the needs of housing and communal services - “Housing and communal services lamp”, made in the form of a modular design of three components: the main module in the form of a part from a heat-conducting material, made, for example, by stamping from a sheet blank or cast, an electrical lighting module made in the form of an assembly units whose electronic and light components are mounted on a single board, which in turn is attached to the main module by, for example, rivets or gluing, a protective-optical module in the form parts of impact resistant optically transparent material, made for example by casting and fastened to the main unit, for example, gluing or screws. The housing and communal services lamp is equipped with a separate module for the purpose of additional energy saving, which contains sensors for responding to illumination and noise. The inner surface of the optical protection module is profiled for reflective and scattering functions. For its fastening, concave niches with holes for standard fasteners with special turnkey and tool molds are provided in the main module.

The disadvantage of these analogues [1, 2] is the arbitrary choice of threshold values for the power control modules depending on the signal of the noise sensor (acoustic sensor) or light sensor. If the turn-on and turn-off threshold values coincide, this drawback leads to repeated shutdown and turn-on of the lighting device when the ambient acoustic and / or optical environment is for a long time at a level close to the threshold of operation of the power control module.

The technical result provided by the utility model of Embodiment 1 is to prevent the LED lamp from repeatedly turning off and on at an ambient acoustic level close to the acoustic thresholds for turning the lamp off or on.

The technical result provided by the utility model of Embodiment 2 is to prevent the LED lamp from turning off and on repeatedly at an illumination level close to the optical thresholds for turning the lamp off or on.

The technical result provided by the utility model of Embodiment 3 is to prevent the LED lamp from repeatedly turning off and on at noise or light levels close to the acoustic or optical thresholds for turning off or on the lamp.

The essence of the utility model according to option 1 is that the LED lamp contains a control unit with an acoustic sensor and an LED unit containing light emitting diodes (LEDs). Moreover, the control unit contains means for turning on / off the LEDs depending on the signal of the acoustic sensor, moreover, said means is made to ensure the value of the acoustic threshold for turning off the LEDs is less than the value of the acoustic threshold for turning them on.

It is preferable to carry out the LED block containing K parallel-connected circuits on N series-connected LEDs. It is desirable to supply the LED block with a power supply unit made in the form of a current stabilizer. The control unit is also desirable to provide a power supply unit made according to the scheme with a quenching capacitor and voltage regulator.

Means for turning on / off the LEDs is preferably performed containing:

- shaper of the acoustic sensor signal, to the input of which an acoustic sensor is connected;

- block off delay, the input of which is connected to the output of the shaper of the acoustic sensor signal;

- an executive unit, to the control input of which the output of the turn-off delay unit is connected, to the first information input of which the output of the turn-on threshold driver is connected, and the output of the turn-off threshold former is connected to the second information input.

In this case, the power input and output of the executive unit should be connected in series to the LED unit.

The essence of the utility model according to option 2 is that the LED lamp contains a control unit with a light sensor and an LED unit containing LEDs. Moreover, the control unit comprises means for turning on / off the LEDs depending on the signal from the light sensor, said means being configured to provide an optical threshold for turning off the LEDs greater than the optical threshold for turning them on.

It is preferable to carry out the LED block containing K parallel-connected circuits on N series-connected LEDs. It is desirable to supply the LED block with a power supply unit made in the form of a current stabilizer. The control unit is also desirable to provide a power supply unit made according to the scheme with a quenching capacitor and voltage regulator.

Means for turning on / off the LEDs is preferably performed containing:

- a shaper of the signal of the light sensor, to the input of which a light sensor is connected;

- off delay unit, the input of which is connected to the output of the driver of the signal of the light sensor;

- an executive unit, to the control input of which the output of the turn-off delay unit is connected, to the first information input of which the output of the turn-on threshold driver is connected, and the output of the turn-off threshold former is connected to the second information input.

In this case, the power input and output of the executive unit should be connected in series to the LED unit.

The essence of the utility model according to option 3 is that the LED lamp comprises an LED unit with LEDs and a control unit with an acoustic sensor and an ambient light sensor. Moreover, the control unit contains means for turning on / off the LEDs depending on the signals of the acoustic sensor and the light sensor, moreover, said means is made providing the value of the acoustic threshold for turning off the LEDs less than the value of the acoustic threshold for turning them on, and ensuring the value of the optical threshold for turning off the LEDs is greater than the value of their optical threshold inclusion.

It is preferable to carry out the LED block containing K parallel-connected circuits on N series-connected LEDs. It is desirable to supply the LED block with a power supply unit made in the form of a current stabilizer. The control unit is also desirable to provide a power supply unit made according to the scheme with a quenching capacitor and voltage regulator.

Means for turning on / off the LEDs is preferably performed containing:

- shaper of the acoustic sensor signal, to the input of which an acoustic sensor is connected;

- the first block delay off, the input of which is connected to the output of the shaper of the acoustic sensor signal;

- a shaper of the signal of the light sensor, to the input of which a light sensor is connected;

- the second block delay off, the input of which is connected to the output of the driver of the signal of the light sensor;

- an executive unit, to the first control input of which the output of the first turn-off delay unit is connected, to the second control input the output of the second turn-off delay unit is connected, the output of the first driver of the turn-on threshold is connected to the first information input, the output of the first turn-off driver is connected to the second information input, to the output of the second driver of the switching threshold is connected to the third information input, the output of the second driver of the connection is connected to the fourth information input off the horn;

In this case, the power input and output of the executive unit should be connected in series to the LED unit.

The essence of the group of claimed utility models is illustrated by the following graphic materials: figure 1 shows a diagram of an LED lamp according to option 1, figure 2 shows a diagram of an LED lamp according to option 2, figure 3 shows a diagram of an LED lamp according to option 3.

The LED lamp according to embodiment 1 (FIG. 1) comprises a control unit with a power supply unit for the control unit and an LED unit 1 with a power supply unit for the LED unit. LED block 1 contains K parallel-connected circuits of N series-connected LEDs. K is preferably equal to one (K = 1).

To ensure constant luminosity of the claimed lamp in the on state, the power supply of the LED unit is made in the form of a current stabilizer. The power supply unit of the control unit is made according to the scheme with a quenching capacitor and voltage stabilizer. The control unit comprises an acoustic sensor 2, a signal shaper of the acoustic sensor 3, an off delay unit 4, an executive unit 5, an on-threshold shaper 6, and an off-threshold shaper 7.

The output of the acoustic sensor 2 is connected to the input of the shaper of the signal of the acoustic sensor 3. To the output of the shaper 3 is connected the input of the off delay unit 4, which can be performed with adjustable or unregulated duration. The off delay unit 4 can be made according to an integrating circuit, for example, in the form of an RC circuit.

The output of the turn-off delay unit 4 is connected to the control input of the executive unit 5. The output of the turn-on threshold generator 6 is connected to the first information input of the turn-off unit 5, and the turn-off threshold former's output is connected to the second information input 7. The turn-on threshold 6 and turn-off 7 generators are configured so that the value of the acoustic turn-off threshold is less than the value of the acoustic turn-on threshold.

Shapers thresholds on 6 and off 7 can be performed so that the electrical levels of the signals emitted by them can be directly or inversely dependent on the corresponding values of the acoustic thresholds on and off. If the indicated electric levels are directly dependent on the values of the acoustic thresholds, then the electric level of the signal at the output of the driver of the shutdown threshold 7 will be less than the electric level of the signal at the output of the driver of the threshold 6. If the indicated electric levels are inversely related to the values of the acoustic thresholds, then the electric level of the signal at the output of the driver of the threshold of shutdown 7, will be more than the electric level of the signal at the output of the driver of the threshold of shutdown 6.

The power input and output of the actuator unit 5 are connected in series to the LED unit 1.

The inventive LED lamp according to option 1 operates as follows.

When power is applied, the signal corresponding to the instantaneous value of the signal at the output of the acoustic sensor 2 appears at the output of the signal generator of the acoustic sensor. This signal is integrated in the off-delay unit 4 and fed to the control input of the executive unit 5.

Simultaneously, the reference electrical signals corresponding to the acoustic thresholds for turning on and off the LED lamp are supplied to the first and second information inputs of the actuating unit 5.

If the signal at the control input of the executive unit 5 corresponds to an acoustic noise level exceeding the acoustic switching threshold, then the power input of the executive unit 5 is connected to its power output, and an electric current begins to flow through the circuit containing the LED unit - the LED lamp turns on.

When the signal at the control input of the executive unit 5 changes, which corresponds to a decrease in the acoustic noise level below the acoustic turn-off threshold, the power input of the executive unit 5 is disconnected from its power output, the circuit containing the LED unit 1 opens, the LED lamp turns off.

Due to the fact that the value of the acoustic threshold for turning off the LED lamp is less than the value of the acoustic threshold for turning it on, the oscillation of the signal at the control input of the executive unit 5 near the level corresponding to the acoustic threshold for turning on or off does not turn off / on the LED lamp.

Thus, from the foregoing, it follows that in the claimed utility model, the claimed technical result: “preventing multiple shutdowns and turning on of the LED lamp at a level of ambient acoustic conditions close to the acoustic thresholds for turning off or turning on the lamp” is achieved due to the fact that the LED lamp contains a control unit with an acoustic sensor 2 and an LED block 1 containing LEDs. Moreover, the control unit comprises means for turning on / off the LEDs depending on the signal of the acoustic sensor 2, said means being configured to ensure that the value of the acoustic threshold for turning off the LEDs is less than the value of the acoustic threshold for turning them on.

The LED lamp according to embodiment 2 (FIG. 2) comprises a control unit and an LED unit 1 with a power supply unit for the LED unit. The LED block contains K parallel-connected circuits by N series-connected LEDs. K is preferably equal to one (K = 1).

To ensure constant luminosity of the claimed lamp in the on state, the power supply of the LED unit is made in the form of a current stabilizer. The power supply unit of the control unit is made according to the scheme with a quenching capacitor and voltage stabilizer. The control unit contains a light sensor 8, a shaper of the light sensor 9, an off-delay unit 10, an executive unit 5, a threshold switch 11 and a threshold switch 12.

The output of the light sensor 8 is connected to the input of the driver of the signal of the light sensor 9. To the output of the driver 9 is connected to the input of the delay delay unit 10, which can be performed with adjustable or unregulated duration. The off delay unit 10 may be made according to an integrating circuit, for example, in the form of an RC circuit.

The output of the turn-off delay unit 10 is connected to the control input of the executive unit 5. The output of the turn-on threshold generator 11 is connected to the first information input of the turn-off unit 5, and the turn-off threshold former's output is connected to the second information input. The turn-on threshold 11 and turn-off threshold generators 12 are configured so that the value of the optical threshold for turning off the LEDs is greater than the value of the optical threshold for turning them on.

Shapers thresholds on 11 and off 12 can be performed so that the electrical levels of the signals emitted by them can be directly or inversely dependent on the corresponding values of the optical thresholds on and off. If the indicated electrical levels are directly dependent on the values of the optical thresholds, then the electric level of the signal at the output of the driver of the turn-off threshold 12 will be greater than the electric level of the signal at the output of the driver of the turn-on threshold 11. If the indicated electric levels are inversely dependent on the values of the optical thresholds, then the electric the level of the signal at the output of the driver of the switch-off threshold 12 will be less than the electric level of the signal at the output of the driver of the switch-off threshold 11.

The power input and output of the actuator unit 5 are connected in series to the LED unit 1.

The inventive LED lamp according to option 2 operates as follows.

When power is supplied to the output of the shaper of the light sensor 9, a signal appears corresponding to the instantaneous value of the signal at the output of the light sensor 8. The specified signal is integrated in the off-delay unit 10 and fed to the control input of the executive unit 5,

At the same time, the reference electrical signals corresponding to the optical thresholds for turning on and off the LED lamp are supplied to the first and second information inputs of the executive unit 5.

If the signal at the control input of the executive unit 5 corresponds to the optical illumination level not exceeding the optical switching threshold, then the power input of the executive unit 5 is connected to its power output, and an electric current begins to flow through the circuit containing the LED unit - the LED lamp turns on.

When the signal at the control input of the executive unit 5 changes, corresponding to an increase in the optical level of illumination above the optical turn-off threshold, the power input of the executive unit 5 is disconnected from its power output, the circuit containing the LED unit 1 opens, the LED lamp turns off.

Due to the fact that the optical threshold for turning off the LED lamp is greater than the optical threshold for turning it on, oscillation of the signal at the control input of the executive unit 5 near the level corresponding to the optical threshold for turning on or off does not turn off / on the LED lamp.

Thus, from the foregoing, it follows that in the claimed utility model, the claimed technical result: “prevention of repeated turning off and on of the LED lamp at a light level close to the optical thresholds for turning off or turning on the lamp” is achieved due to the fact that the LED lamp contains a control unit with a sensor illumination 8 and LED block 1 containing LEDs. Moreover, the control unit contains means for turning on / off the LEDs depending on the signal from the light sensor 8, and this means is made to provide an optical threshold for turning off the LEDs greater than the optical threshold for turning them on.

The LED lamp according to embodiment 3 (FIG. 3) comprises a control unit and an LED unit 1 with a power supply unit for the LED unit. The LED block contains K parallel-connected circuits by N series-connected LEDs. K is preferably equal to one (K = 1).

To ensure constant luminosity of the claimed lamp in the on state, the power supply of the LED unit is made in the form of a current stabilizer. The power supply unit of the control unit is made according to the scheme with a quenching capacitor and voltage stabilizer. The control unit contains an acoustic sensor 2, a signal driver of an acoustic sensor 3, a first off delay unit 4, an executive unit 5, a first on-off threshold driver 6 and a first off-threshold driver 7, a light sensor 8, a driver of a light sensor 9, a second off-delay unit 10 , the second driver of the threshold for turning on 11 and the second driver of the threshold for turning off 12.

The output of the acoustic sensor 2 is connected to the input of the driver of the signal of the acoustic sensor 3. To the output of the driver 3 is connected to the input of the first block delay off 4.

The output of the light sensor 8 is connected to the input of the driver of the signal of the light sensor 9. To the output of the driver 9 is connected to the input of the second block delay delay 10.

Blocks delay off 4 and 10 can be made with adjustable or unregulated duration. Blocks 4 and 10 can be made according to the scheme of the integrating circuit, for example, in the form of an RC circuit.

The output of the first turn-off delay unit 4 is connected to the first control input of the executive unit 5. The output of the first driver of the turn-on threshold 6 is connected to the first information input of the drive unit 5, and the output of the first driver of the turn-off threshold 7 is connected to the second information input. The first drivers of turn-on thresholds 6 and off 7 are configured such that the value of the acoustic cutoff threshold is less than the value of the acoustic cutoff threshold.

The first shapers of the thresholds for switching on and off 7 can be performed so that the electrical levels of the signals emitted by them can be directly or inversely related to the corresponding values of the acoustic thresholds for switching on and off. If the indicated electrical levels are directly dependent on the values of the acoustic thresholds, then the electrical level of the signal at the output of the first driver of the shutdown threshold 7 will be less than the electrical level of the signal at the output of the first driver of the switching threshold 6. If these electrical levels are inversely related to the values of the acoustic thresholds, then the electric level of the signal at the output of the first shaper threshold off 7 will be greater than the electric level of the signal by the output of the first shaper threshold 6.

The output of the second turn-off delay unit 10 is connected to the second control input of the executive unit 5. The output of the second driver of the turn-on threshold 11 is connected to the third information input of the executive unit 5, and the second driver of the turn-off threshold 12 is connected to the fourth information input of the second turn-on threshold 11 12 are made so that the value of the optical threshold for turning off the LEDs is greater than the value of the optical threshold for turning them on.

The second shaper thresholds for switching on 11 and off 12 can be performed so that the electrical levels of the signals emitted by them can be directly or inversely relative to the corresponding values of the optical thresholds on and off. If these electrical levels are directly related to the values of the optical thresholds, then the electric level of the signal at the output of the second driver of the turn-off threshold 12 will be greater than the electric level of the signal at the output of the second driver of the turn-on threshold 11. If these electrical levels are inversely related to the values of the optical thresholds, then the electric level of the signal at the output of the second shaper threshold off 12 will be less than the electric level of the signal at you ode second activation threshold generator 11.

The power input and output of the actuator unit 5 are connected in series to the LED unit 1.

The inventive LED lamp according to option 3 works as follows.

When power is supplied to the output of the signal shaper of the acoustic sensor 3, a signal appears corresponding to the instantaneous value of the signal at the output of the acoustic sensor 2. The specified signal is integrated in the first block of the off delay 4 and fed to the first control input of the executive unit 5. At the same time, the output of the shaper of the light sensor 9 a signal appears corresponding to the instantaneous value of the signal at the output of the light sensor 8. The specified signal is integrated in the second block delay off 10 and enters the control input of the Executive unit 5.

At the same time, four electrical inputs of the executive unit 5 receive reference electrical signals corresponding to the acoustic and optical thresholds for turning on and off the LED lamp.

If the signal at the first control input of the executive unit 5 corresponds to an acoustic noise level exceeding the acoustic switching threshold and the signal at the second control input of the executive unit 5 corresponds to the optical illumination level not exceeding the optical switching threshold, then the power input of the executive unit 5 is connected to its power output, and an electric current starts flowing along the circuit containing the LED unit 1 - the LED lamp turns on.

When the signal changes at the first control input of the executive unit 5, corresponding to a decrease in the acoustic noise level below the acoustic turn-off threshold or a signal changes at the second control input of the executive unit 5, corresponding to an increase in the optical level of illumination above the optical turn-off threshold, the power input of the executive unit 5 is disconnected from its power output, the circuit containing the LED block 1 is opened - the LED lamp turns off.

Due to the fact that the acoustic threshold for turning off the LED lamp is less than the acoustic threshold for turning it on and the optical threshold for turning off the LED lamp is greater than the optical threshold for turning it on, the signal does not oscillate at the control input of the executive unit 5 near the level corresponding to the acoustic or optical switching thresholds Turns on / off the LED lamp.

Thus, from the foregoing, it follows that in the claimed utility model, the claimed technical result: “preventing multiple shutdowns and turning on of the LED lamp at noise or light levels close to the acoustic or optical thresholds for turning off or on the lamp” is achieved due to the fact that the LED lamp contains LED block 1 with LEDs and a control unit with an acoustic sensor 2 and an ambient light sensor 8. The control unit contains means for turning on / off the LEDs in depending on the signals of the acoustic sensor 2 and the light sensor 8, and the specified tool is made with providing the value of the acoustic threshold for turning off the LEDs less than the value of the acoustic threshold for turning them on, and providing the value of the optical threshold for turning off the LEDs is greater than the value of the optical threshold for turning them on.

The inventive group of utility models is implemented using industrially produced devices, can be manufactured at any electrical enterprise, and will find wide application in lighting technology.

INFORMATION SOURCES.

1. RF patent for utility model No. 78898, IPC F21S 8/00 (2006.01), publ. 2008 year

2. RF patent for utility model No. 91136, IPC Н05В 33/02, F21S 4/00, publ. 01/27/2010 Bull. Number 3.

Claims (15)

1. An LED lamp comprising a control unit with an acoustic sensor and an LED unit containing light emitting diodes — LEDs, characterized in that the control unit comprises means for turning on / off the LEDs depending on the signal of the acoustic sensor, said means being configured to provide an acoustic shutdown threshold value LEDs are less than the value of the acoustic threshold for their inclusion. 2. The lamp according to claim 1, characterized in that the LED unit contains K parallel-connected circuits of N series-connected LEDs. 3. The lamp according to claim 1, characterized in that the control unit is equipped with a power supply unit, made according to the scheme with a quenching capacitor and voltage regulator. 4. The lamp according to claim 1, characterized in that the LED unit is equipped with a power supply unit, made in the form of a current stabilizer. 5. The lamp according to claim 1, characterized in that the means for turning on / off the LEDs comprises an acoustic sensor signal shaper, an acoustic sensor is connected to its input, an off delay unit, the input of which is connected to the output of an acoustic sensor signal shaper, an executive unit, to a control input which is connected to the output of the off delay unit, to the first information input of which the output of the on-threshold threshold driver is connected, and the output of the driver is connected to the second information input turn-off horns, while the power input and output of the executive unit are connected in series to the LED unit. 6. An LED lamp comprising a control unit with an ambient light sensor and an LED unit containing LEDs, characterized in that the control unit comprises means for turning on / off the LEDs depending on the signal of the ambient light sensor, said means being configured to provide an optical threshold value for turning off the LEDs greater than a value optical threshold for their inclusion. 7. The lamp according to claim 6, characterized in that the LED unit contains K parallel-connected circuits of N series-connected LEDs. 8. The lamp according to claim 6, characterized in that the control unit is equipped with a power supply unit, made according to the scheme with a quenching capacitor and voltage stabilizer. 9. The lamp according to claim 6, characterized in that the LED unit is equipped with a power supply unit, made in the form of a current stabilizer. 10. The lamp according to claim 6, characterized in that the means for turning on / off the LEDs comprises a shaper of the light sensor signal, to the input of which a light sensor is connected, an off delay unit, the input of which is connected to the output of the shaper of the light sensor, an Executive unit, to the control input which is connected to the output of the shutdown delay unit, to the first information input of which the output of the turn-on threshold driver is connected, and the output of the pore former is connected to the second information input ha off, the power input and output execution unit are connected sequentially to LED unit. 11. An LED lamp, comprising an LED unit with LEDs and a control unit with an acoustic sensor and an ambient light sensor, characterized in that the control unit comprises means for turning on / off the LEDs depending on the signals of the acoustic sensor and the ambient light sensor, said means being configured to provide an acoustic value the threshold for turning off the LEDs is less than the value of the acoustic threshold for their inclusion and providing the value of the optical threshold for turning off the LEDs is greater than matic threshold for inclusion. 12. The lamp according to claim 11, characterized in that the LED block contains K parallel-connected circuits of N series-connected LEDs. 13. The lamp according to claim 11, characterized in that the control unit is equipped with a power supply unit, made according to the scheme with a quenching capacitor and voltage regulator. 14. The lamp according to claim 11, characterized in that the LED unit is equipped with a power supply unit, made in the form of a current stabilizer. 15. The lamp according to claim 11, characterized in that the means for turning on / off the LEDs comprises an acoustic sensor signal conditioner, to the input of which an acoustic sensor is connected, a first off delay unit, the input of which is connected to the output of an acoustic sensor signal conditioner, a light sensor signal shaper, to the input of which the light sensor is connected, the second block of the delayed shutdown, the input of which is connected to the output of the driver of the signal of the light sensor, the executive unit, to the first I control the input of the first block of the delay delay is connected to its input, the output of the second block of the delay delay is connected to the second control input, the output of the first driver of the threshold is connected to the first information input, the output of the first driver of the threshold is connected to the second information input, the output of the second is connected to the third information input shaper of the threshold of inclusion, the output of the second shaper of the threshold of shutdown is connected to the fourth information input, while the power input and Exit execution unit are connected sequentially to LED unit.