BG110405A - Method for temperature protection and control of a light source and device implementing the method - Google Patents

Abstract

The method and the device can be applied in the lighting equipment, including street lighting, traffic lights, etc. According to the method, the change of the input power of the light source is carried out in two directions and controlled by means of one or more temperature sensors (1) monitoring the temperature of the light source (2) and sending a constant signal to the control device, which according to the value of the received signal for the temperature, generates a control signal controlling the value of the power supplied to the light source (2). A variant of the method is developed, in which there is a possibility for remote transmission of the parameters of the operating mode and the environment to a control centre, as well as a device implementing the method including a temperature sensor (1) positioned adjacent to or in the light source (2) and connected to the control microcontroller (3), measuring the operating temperature, which in turn is connected to the control moduleof the light source (6), whose input is connected to a power supply module (5), and its output û to the light source (2). The advantages of the method and the device are reduction of the number of defective lighting fixtures due to operation of the light source in optimal mode, flexible and intelligent control of one or a group of light sources, ability for rapid response to faults of the light sources at no extra cost and providing an opportunity for acquisition of additional data for statistic and other purposes.

Description

ABSTRACT

The method of temperature protection and control of a light source and the device implementing the method are used in lighting technology, including in street lighting, traffic lights in others.

According to the proposed method, the change of the power source of light power is done in two directions and controlled by monitoring the temperature of the light source (2) by means of one or more temperature sensors (1) and a constant signal is sent to the control device, which according to the magnitude of the received signal for the temperature it produces a control signal that regulates the amount of power supplied to the light source (2).

A variant of the method has been developed whereby it is also possible to remotely transmit the operating mode and environment parameters to a control center, as well as a device implementing the method including a temperature sensor (1) positioned directly next to or in the light source (2 ) and connected to a control microcontroller (3), which records the operating temperature, which in turn is connected to a power supply control unit of the light source (6) whose input is connected to a power supply unit (5) and its output to the power source. lights a (2).

The advantages of the method and the device are the reduction of the number of defective luminaires due to the operation of the light source in optimal mode; flexible and intelligent control of one or a group of light sources; providing an opportunity for rapid response to defects in light sources at no additional cost and providing an opportunity to collect additional data for statistical and other purposes.

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Method for temperature protection and control of light source and device implementing the method

Area of the Tenn

The method of temperature protection and control of a light source and the device implementing the method are used in lighting technology, including in street lighting, traffic lights in others.

BACKGROUND OF THE INVENTION

Light sources typically operate in the manufacturer's optimum mode without reducing power at higher operating temperatures.

There is a known method of temperature protection of a light source, which is expressed in the operation of the light source in a mode of pre-reduced power supply lower than the rated one.

The disadvantage of the first method is the reduction of the service life of the product, and the second - the unprofitable use of light sources.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a method of temperature protection and control of light sources which optimizes their operating mode at elevated temperatures while reducing operating costs in storage

project life of the source.

The problem is solved by a method according to the invention, which includes:

A) monitoring the temperature of the light source (lamp, high-power LED or group of LEDs) by one or more temperature sensors located close to the light source or indirectly receiving its temperature information via a thermal bridge, and continuously signaling to the control unit, who

B) according to the magnitude of the temperature signal received, produces a control signal in which:

- if the magnitude of the temperature signal is below a pre-set or currently set optimum value To, a signal to the power supply unit is generated to increase the power supply (by reducing the power and / or frequency modulating the power supply) supplied to the light source to the rated power, if not reached;

- if the magnitude of the temperature signal is To - a signal is generated to hold the current mode;

- if the value of the temperature signal is above the preset value To, but below the set critical value Tc - a control signal is produced to reduce the power supply;

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- in case of reaching Tkr - a signal is produced * sutual disconnection of the power to the light source and after a given time the current temperature of the light source is compared and if it is below It the power of the source is switched on, and if it is above It is waited for a new time interval. And so until reaching a temperature equal to or below To.

A variant of the method is envisaged in which, in addition to the control of the temperature mode of operation, it is also possible to remotely transmit the parameters of the operating mode and the environment to a control center, the following situations being possible:

a) defect of one or more of the light sources (or of one or a group of LEDs within one source) - a warning is issued from the control center to an operator, which may be in the form of a light, sound or SMS alarm, or in another appropriate form;

b) shutdown due to critical mode (Tc, overvoltage, voltage under operational and other) - warning and storage in a database (with the purpose of eventual adjustment of operating parameters);

c) External control - by means of an operator or automatically (by means of light sensors, etc.) the light intensity of one or more sources is switched on, off or regulated;

d) obtaining environmental information - on light, smoke level, noise, humidity, temperature and others through appropriate sensors located in or near the controlled light source and connected to its control unit.

A device is implemented implementing a method comprising a temperature sensor mounted directly next to or in the light source and connected to a control microcontroller that records the operating temperature. The microcontroller is also connected to a PLM modem (Power Line Modem) connected to the power supply unit, as well as to the power supply control unit of the light source and radio unit. The input of the power management unit is connected to the power supply unit and its output to the light source.

The advantages of the method are:

- reducing the number of defective luminaires due to the optimum mode of operation of the light source;

- flexible and intelligent control of one or a group of light sources;

- fast response is possible when defecting light sources at no additional cost;

- the possibility of collecting additional data for statistical and other purposes.

Explanation of the annexed figures

Figure 1 is a diagram of a device implementing the method of temperature protection and control of a light source.

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Examples of carrying out the invention

Exemplary embodiments of the method and apparatus described below are developed without limiting them to the examples presented herein.

Example 1:

A method has been developed in which the light source is an LED lamp consisting of a powerful LED, which includes:

A) monitoring the temperature of the LED through a temperature sensor located near the light source and constantly signaling to the control unit, which

B) according to the magnitude of the temperature signal received, produces a control signal in which:

- if the value of the temperature signal is below a predefined or currently set optimum value To, a signal to the power supply unit is generated to increase the power supply (by reducing the power) supplied to the LED to the rated power, if not reached;

- if the magnitude of the temperature signal is To - a signal is generated to hold the current mode;

- if the value of the temperature signal is above the preset value To, but below the set critical value Tc - a control signal is produced to reduce the power supply;

- at eventual reaching Tkr - a signal for complete disconnection of the power supply to the LED is made and after a given time the current temperature of the light source is compared and if it is below It the power supply of the LED is switched on, and if it is above it it is waited for a new interval from time. And so until reaching a temperature equal to or below To.

Example 2:

A method analogous to the method of Example 1 is also developed, in which the light source is an LED lamp consisting of a plurality of LEDs, in which, in addition to monitoring and controlling the operating temperature, by means of additional relevant sensors and a PLM modem (Power Line Modem ), transmitting data over a 220V power line, remotely transmitting the operating mode parameters (eg: instantaneous value of voltage, current and temperature of the light source and environment) to an integrating control center, such as the following situations are possible:

a) defect of one or more LEDs of the lamp - a warning is issued to the control center to the operator, which may be in the form of a light, sound or SMS alarm, or in any other appropriate form;

b) shutdown due to critical mode (Tc, overvoltage, voltage under operational and other) - warning and storage in a database (with the purpose of eventual adjustment of operating parameters);

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c) external control - through an operator! Does the illumination sensor, etc.) switch on, off or adjust the light intensity of the LED lamp or a group of such lamps;

d) obtaining environmental information - on light, smoke level, noise, humidity, temperature and others through appropriate sensors located near the controlled LED lamp and connected to its control unit.

Example 3:

A device is implemented implementing the method of Example 2, comprising a temperature sensor 1 mounted in the LED lamp 2 and connected to a control microcontroller 3, which records the operating temperature. The microcontroller 3 is also connected to the PLM modem 4 connected to the power supply unit 5 as well as to the power supply control unit of the light source 6 and the radio unit 7. The input of the power supply control unit 6 is connected to the power supply unit 5 and the output its - with the light source LEDs 2.

Use of the invention

The operation and use of the device implementing the method are apparent from the nature of the method and its description above.

Claims (7)

Patent Claims 1. A method of temperature protection and control of a light source in which, at elevated operating conditions, the power supply is reduced, characterized in that the power supply is changed in two directions and controlled by means of one or more temperature sensors ( 1) the operating temperature of the light source (2) is monitored and a signal is sent to a control device which, according to the magnitude of the temperature signal received, produces a control signal by which a large the power supply mine supplied to the light source (2). A method according to claim 1, characterized in that according to the magnitude of the temperature signal received, a control signal is generated, wherein: - if the magnitude of the temperature signal is below a pre-set or currently set optimum value To, a signal to the power supply unit is generated to increase the power supply (by reducing the power and / or frequency modulating the power supply) supplied to the light source to the rated power, if not reached; - if the magnitude of the temperature signal is To - a signal is generated to hold the current mode; - if the value of the temperature signal is above the preset value To, but below the set critical value Tc - a control signal is produced to reduce the power supply; - in case of reaching Tkr - a signal for complete disconnection of the power supply to the light source is made and after a given time the current temperature of the light source is compared and if it is below it the power supply of the source is switched on, and if it is above it it is waited for a new one. time interval. And so until reaching a temperature equal to or below To. Method according to claim 1 or 2, characterized in that data on the operating modes of the light source and the environment are transmitted remotely to a control center. Method according to claim 3, characterized in that the remotely received data is stored in a database. A method according to claim 3 or 4, characterized in that when receiving the data from the control center, through the operator or automatically, corresponding warning signals and / or corresponding control sources of the light or group of sources of signals are produced. Method according to claim 5, characterized in that upon receipt of data for: (a) a defect of one or more light sources or of one or a group of LEDs within a single source produces a warning signal, which may be in the form of a light, sound or SMS alarm, or in any other appropriate form; b) a warning signal is generated due to the critical mode (Tc, overvoltage, voltage under operational and others); c) illumination - a signal for switching on, off or adjusting the light intensity of one or more sources is produced. A method of implementing the method according to claims 1 to 6, comprising a temperature sensor (1) positioned directly next to or in the light source (2) and connected to a control microcontroller (3), which records the operating temperature, which in turn is connected to a power source control unit of the light source (6), the input of which is connected to a power unit (5) and its output to the light source (2).