RU2426281C1 - Intelligent driver of led illuminator - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: proposed intelligent driver comprises sine voltage generator, voltage converter, filter and LED illuminator, voltage pickup, illumination pickup, control unit, interface unit, driver unit, indication unit, actuators and pickups, all connected in series. Control unit is connected with voltage pickup, current pickup, illumination pickup, indication unit, interface unit, process pickups and actuators. Voltage pickup is connected with sine voltage generator. Driver unit is connected to interface unit.

EFFECT: higher accuracy and perfected control over light flux.

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Description

The invention relates to the field of monitoring and regulation of artificial lighting of objects using LED lamps and can be used as an element of a fire alarm system, a smart home system for reading sensors and controlling actuators.

A device for matching (driver) the supply voltage of an LED lamp and the supply voltage, which contains a sinusoidal voltage generator, a voltage converter, a filter and an LED lamp, and a current sensor connected to the input of the filter output and a voltage sensor (Ilyin P., Sokolov A. Development of power supplies for street LED lighting // Electronics News. 2009. No. 11, p.30).

The disadvantage of this driver is that it has a low efficiency, due to the use of a two-stage voltage converter.

Also known is the driver of a LED lamp, which contains a sinusoidal voltage generator, a voltage converter, a filter and a LED lamp, and a current sensor connected to the input to the filter output and a voltage sensor (Ilyin P., Sokolov A. Development of power supplies for street LED lighting // News of Electronics. 2009. No. 11, p.31).

The disadvantage of this driver is the low accuracy due to indirect control of the light flux and limited functionality that does not allow to quickly diagnose the technical condition of the LED lamp and implement various algorithms for controlling the light flux.

The technical result of the present invention is to improve the accuracy, as well as to enable rapid diagnostics and correction of the process of controlling the light flux of an LED lamp.

This result is achieved by the fact that the intelligent driver of the LED lamp, containing a sinusoidal voltage generator, a voltage converter, a filter and an LED lamp connected in series, as well as a current sensor, the input of which is connected to the filter output, and a voltage sensor, contains a light sensor, an indication unit, an interface unit, a driver unit, a control unit having m inputs and n outputs, as well as (m-4) process sensors and (n-3) actuators, the sensor input being illuminated the spine is connected to the output of the LED lamp, the output of the light sensor is connected to the first input of the control unit, the output of the current sensor is connected to the second input of the control unit, the output of the voltage sensor is connected to the third input of the control unit, the input of the voltage sensor is connected to the output of the sinusoidal voltage generator, to the fourth input the control unit is connected to the first output of the interface unit, and the driver unit is connected to the interface unit, while the first output of the control unit is connected to the input of the display unit , the second output of the control unit is connected to the second input of the voltage converter, the third output of the control unit is connected to the second input of the interface unit, the remaining (n-3) outputs of the control unit are connected to the corresponding inputs of (n-3) actuators, and (m-4) the inputs of the control unit are connected to the corresponding outputs (m-4) of the process sensors.

The drawing shows a block diagram of the proposed driver.

The smart driver contains a sinusoidal voltage generator 1, a voltage converter 2, a filter 3 and an LED lamp 4, as well as a current sensor 5 connected to the input of the output of the filter 3 and a voltage sensor 6, connected in series, characterized in that it contains a light sensor 7 connected to the input with the output of the LED lamp 4, and the output connected to the first input of the control unit 8, to the second input of which the output of the current sensor 5 is connected, the output of the voltage sensor 6 connected to the third input is connected running with the output of the sinusoidal voltage generator 1, the first output of the interface unit 9 is connected to the fourth input, the output of the driver unit 10 connected to the input with the second output of the interface unit 9 is connected to the first input, while the first output of the control unit 8 is connected to the input of the indicating unit 11 , the second output of the control unit 8 is connected to the second input of the voltage converter 2, the third output of the control unit is connected to the second input of the interface unit 9, the remaining (n-3) outputs of the control unit 8 are connected to the corresponding stvuyuschim inputs (n-3) of the actuators 12-13, a (m-4) inputs of the control unit are connected to the corresponding outputs (m-4) the process sensors 14-15.

Intelligent driver works as follows. The control unit 8 receives, through the interface unit 9, a job algorithm from the driver unit 10 and acts on the second input of the voltage converter 2, which converts the output voltage of the sinusoidal voltage generator 1, controlled in order to coordinate the operation of the voltage converter 2 by the voltage sensor 6, into a stabilized constant current LED lamp 4, measured by current sensor 5.

Correction of the current of the LED lamp 4 is carried out either by a given current level, or by a given illumination measured by the light sensor 7.

If it is not possible to provide a given luminous flux, for example, due to degradation of the characteristics of the LEDs, the necessary information is supplied through the interface unit 9 to the driver unit 10 and output to the display unit 11 or transmitted via the information network to the upper level. As technological sensors, it is possible to use motion sensors, sound, fire alarms, alarm sensors of various devices (for example, a heating boiler), actuators can be drives of various devices (for example, blinds), household appliances (air conditioners, washing machines, etc. )

Controlling the technological sensors 14-15 (from 1 to m-4), the control unit 8 includes the necessary actuators 12-13 (from 1 to n-3). For example, when a smoke sensor is triggered, fire extinguishing and sound alarm means are turned on with the simultaneous receipt of information in the indicating unit 11 and the driving unit 10. In this case, the LED lamp 4 can be put into intermittent radiation mode, which will be an additional alarm signal.

Thus, the intelligent driver allows you to accurately control and regulate the operation of the LED lamp, as well as use it to generate information and alarms with simultaneous control of actuators.

Claims (1)

An intelligent driver of a LED lamp, comprising a sinusoidal voltage generator, a voltage converter, a filter and an LED lamp connected in series, as well as a current sensor, the input of which is connected to the filter output, and a voltage sensor, characterized in that it contains a light sensor, an indication unit, an interface unit , a master unit, a control unit having m inputs and n outputs, as well as (m-4) process sensors and (n-3) actuators, the input of the light sensor being connected to the output LED light source, the output of the light sensor is connected to the first input of the control unit, the output of the current sensor is connected to the second input of the control unit, the output of the voltage sensor is connected to the third input of the control unit, the input of the voltage sensor is connected to the output of the sinusoidal voltage generator, and the fourth input of the control unit is connected the first output of the interface unit, and a driver unit is connected to the interface unit, while the first output of the control unit is connected to the input of the display unit, the second output is the control is connected to the second input of the voltage converter, the third output of the control unit is connected to the second input of the interface unit, the remaining (n-3) outputs of the control unit are connected to the corresponding inputs of (n-3) actuators, and (m-4) of the inputs of the control unit are connected with corresponding outputs (m-4) of process sensors.