RU165573U1 - LIGHTING CONTROL DEVICE - Google Patents

Abstract

The lighting control device, characterized in that it contains a voltage source 1, a control and stabilization unit (BUS) 2, current limiters (OT) 3-1 ... 3-N, where N> 1 and light sources 4-1 ... 4-N, moreover, the output of voltage source 1 is connected to the input of the BUS 2, the output of which is connected to the inputs OT3-1 ... 3-N, the outputs of the latter are connected, respectively, to the light sources 4-1 ... 4-N, while the BUS 2 contains an adjustable voltage regulator ( RSN) 5, feedback resistor 6 and adjustable voltage divider (DNR) 7, and the first input of RSN 5 is the input of the control unit C 2, the output of the PCN 5 is the output of the BUS 2 and is connected through a feedback resistor 6 to the control input of the PCN 5 and the input of the DNR 7, the latter contains a control resistor 8 and a low-level resistor 9 connected in series, while FROM 3-1 ... 3-N contain an adjustable current stabilizer (PCT) 10, the first input of which is the input OT 3-1 ... 3-N, the output of the PCT 10 through the current limiting resistor 11 is connected to the control input of the PCT 10 and is the output OT 3-1 ... 3-N.

Description

The utility model relates to the field of LED technology, in particular to devices for smooth control (dimming) of illumination (luminous flux), and a plurality of LED light sources providing targeted, uniform, uniform illumination of objects, for example, exhibits of exhibition stands.

A known lighting control device is a driver of an LED lamp containing a supply network, ballast and smoothing capacitors, a varistor and a diode bridge, the output of which is connected to the load, while the voltage of the supply network is supplied to the input of an autotransformer containing a number of intermediate terminals with different output voltages, one of which connected to the input of the diode bridge (see RF patent for PM No. 153597 according to class Н05В 37/02 of 03/03/2015).

However, the known lighting control device provides only discrete control, has relatively low stability and a high level of ripple of the supply voltage, design complexity (transformer with many leads), does not provide smooth lighting control and protection of the LEDs from overcurrent during transients during switching on / turning off the device.

By technical nature, the closest to the proposed device is a lighting control device - a device and method for controlling light from a plurality of light sources, comprising a lighting controller, configured to set dimming levels of a plurality of light sources configured to provide spatial illumination at a workplace, said controller lighting contains a processor configured to determine, based on information about the target ur is the target power or reducing power, dimming levels for each of said plurality of light sources to reduce power consumption of the plurality of light sources to the target power level or target power reduction and to provide target spatial illumination on said work;

wherein said processor is further configured to determine said dimming levels for each of said plurality of light sources by perturbing at least one of the following data: said target spatial illumination; ambient light at said workplace; data from the blinds controller regarding the installation of blinds for controlling the ambient light at the said workplace and the contrast threshold characterizing the permissible deviation of the spatial light from the said spatial target light (see RF application for the invention No. 2013148930/07 according to class N05B 37/02 of 02.04. 2012, the date of publication of the application 05/10/2015 Bull. No. 13).

However, the known lighting control device has a relatively high degree of complexity and, as a consequence, not high reliability, because to ensure operability, in addition to the controller and processor, additional external devices are required.

The technical result is to increase the reliability of the device.

This is achieved by the fact that the lighting control device comprises a voltage source 1, a control and stabilization unit (BUS) 2, current limiters (OT) 3-1 ... 3-N, where N> 1 and light sources 4-1 ... 4-N, moreover, the output of the voltage source 1 is connected to the input of the BUS 2, the output of which is connected to the inputs OT3-1 ... 3-N, the outputs of the latter are connected, respectively, to the light sources 4-1 ... 4N, while the BUS 2 contains an adjustable voltage regulator (RSN) 5, a feedback resistor 6 and a voltage divider adjustable (DNR) 7, and the first input of the PCN 5 is the input of the bus 2, RSN 5 output is an output of BUS 2 and is connected through a feedback resistor 6 to the RSN 5 control input and DNR 7 input, the latter contains a regulating resistor 8 and a low-level resistor 9 connected in series, while OT 3-1 ... 3-N contain an adjustable stabilizer current (PCT) 10, the first input, which is the input FROM 3-1 ... 3-N, the output of the PCT 10 through the current limiting resistor 11 is connected to the control input of the PCT 10 and is the output FROM 3-1 ... 3-N.

The essence of the technical solution lies in the fact that the implementation of the lighting control device in the manner described above allows to achieve the set technical result.

In FIG. 1 shows a block diagram of the proposed device. The lighting control device comprises a voltage source 1, a control and stabilization unit (BUS) 2, current limiters (OT) 3-1 ... 3-N, where N> 1 and light sources 4-1 ... 4-N, and the output of voltage source 1 connected to the input of the BUS 2, the output of which is connected to the inputs OT3-1 ... 3-N, the outputs of the latter are connected, respectively, to the light sources 4-1 ... 4N, and the presence of the control and stabilization unit (BUS) 2 provides high stability of the control voltage and smoothness of light control, reduces the requirements for the parameters of the voltage source 1 that, in combination with current limiters (OT) 3-1 ... 3-N - the maximum current value of light sources 4-1 ... 4-N, provides high reliability with, at the same time, high-precision target-specified, uniform and uniform illumination of objects.

In this case, the BUS 2 contains an adjustable voltage stabilizer (RSN) 5, a feedback resistor 6 and an adjustable voltage divider (DNR) 7, the first input of the RSN 5 being the input of the BUS 2, the output of the RSN 5 is the output of the BUS 2 and connected via the feedback resistor 6 to the control input of the PCN 5 and the input of the DNR 7, the latter contains a series-connected regulating resistor 8 and a low-level resistor 9, and the working-typical characteristic of the regulating (variable) resistor 8 determines the characteristic of regulating the brightness and smoothness l regulation, which can be either linear or nonlinear, while the upper limit of the regulation range is determined by the specified maximum output voltage of the BUS 2, the lower limit is set by the low-level resistor 9.

Moreover, the OT 3-1 ... 3-N contain an adjustable current stabilizer (PCT) 10, the first input, which is the input OT 3-1 ... 3-N, the output of the PCT 10 through the current limiting resistor 11 is connected to the control input of the PCT 10 and is output FROM 3-1 ... 3-N, where, the maximum permissible current value of light sources 4-1 ... 4-N is set by the current limiting resistor 11.

As an adjustable voltage stabilizer (PCN) 5 and an adjustable current stabilizer (PCT) 10, a multifunctional microcircuit, for example, LM317, can be used, which ensures functioning both in the mode of an adjustable voltage regulator and in the mode of an adjustable current stabilizer (limiter / current generator) ), see www ti.com LM317 pdf.

Setting the target-specified illumination is controlled by a measuring instrument (luxometer) and is carried out manually, by means of a control resistor 8.

Claims (1)

The lighting control device, characterized in that it contains a voltage source 1, a control and stabilization unit (BUS) 2, current limiters (OT) 3-1 ... 3-N, where N> 1 and light sources 4-1 ... 4-N, moreover, the output of voltage source 1 is connected to the input of the BUS 2, the output of which is connected to the inputs OT3-1 ... 3-N, the outputs of the latter are connected, respectively, to the light sources 4-1 ... 4-N, while the BUS 2 contains an adjustable voltage regulator ( RSN) 5, feedback resistor 6 and adjustable voltage divider (DNR) 7, and the first input of RSN 5 is the input of the control unit C 2, the output of the PCN 5 is the output of the BUS 2 and is connected through a feedback resistor 6 to the control input of the PCN 5 and the input of the DNR 7, the latter contains a control resistor 8 and a low-level resistor 9 connected in series, while FROM 3-1 ... 3-N contain an adjustable current stabilizer (PCT) 10, the first input of which is the input OT 3-1 ... 3-N, the output of the PCT 10 through the current limiting resistor 11 is connected to the control input of the PCT 10 and is the output OT 3-1 ... 3-N.

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