WO2019066636A1 - Control system for multiple light configurations in lamps - Google Patents

Control system for multiple light configurations in lamps Download PDF

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Publication number
WO2019066636A1
WO2019066636A1 PCT/MX2017/000113 MX2017000113W WO2019066636A1 WO 2019066636 A1 WO2019066636 A1 WO 2019066636A1 MX 2017000113 W MX2017000113 W MX 2017000113W WO 2019066636 A1 WO2019066636 A1 WO 2019066636A1
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WIPO (PCT)
Prior art keywords
module
control
luminaires
power
sensors
Prior art date
Application number
PCT/MX2017/000113
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Spanish (es)
French (fr)
Inventor
Mauricio Xavier GÓMEZ MEJÍA
Jorge Adrián HUERTA HERNÁNDEZ
María Isabel VALLEJO GONZÁLEZ
Víctor Hugo NAVARRO RAMOS
Original Assignee
Pounce Consulting, S.A. De C.V.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by Pounce Consulting, S.A. De C.V. filed Critical Pounce Consulting, S.A. De C.V.
Priority to PCT/MX2017/000113 priority Critical patent/WO2019066636A1/en
Publication of WO2019066636A1 publication Critical patent/WO2019066636A1/en

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Classifications

    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V23/00Arrangement of electric circuit elements in or on lighting devices
    • F21V23/04Arrangement of electric circuit elements in or on lighting devices the elements being switches
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B15/00Systems controlled by a computer
    • G05B15/02Systems controlled by a computer electric
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05DSYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
    • G05D25/00Control of light, e.g. intensity, colour or phase
    • G05D25/02Control of light, e.g. intensity, colour or phase characterised by the use of electric means
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B47/00Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
    • H05B47/10Controlling the light source
    • H05B47/105Controlling the light source in response to determined parameters
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

Definitions

  • OBJECT AND FIELD OF THE MVENC ⁇ N Control system for multiple lighting configurations in luminaires that allows public and private lighting systems to be installed in a simple way, at a lower cost compared to the current market of luminaires, allows an integration harmonious with the different areas or areas of use and, above all, maximizes energy savings by using the intelligent operation profiles of the product.
  • the system allows a substantial saving of energy, providing intelligence to the luminaire that allows it to identify patterns and behaviors of operation of the users, which will finally serve to provide a lighting service with superior quality, ANTECEDEMTES DE LA INVENCION
  • a population center For the illumination of a road, a population center, a fountain, monument or facade, a set of elements such as staffs, lanterns, cast iron candelabra and projectors are used; that, depending on their placement, desired light intensity, environment and other factors meet the lighting requirements within the public areas or spaces of the towns or communities.
  • elements such as staffs, lanterns, cast iron candelabra and projectors are used; that, depending on their placement, desired light intensity, environment and other factors meet the lighting requirements within the public areas or spaces of the towns or communities.
  • SAP Light of steam of sodium of High Pressure - of orange tone
  • Additives Haluro Metallic of blue tonality, although by errors of composition can vary
  • MCC Steam of Mercury Color Corrected - greenish tone
  • you can also enter others such as Tungsten-Halogen (formerly called Quartz-mud), fluorescence and LED.
  • Control system for multiple lighting configurations in luminaires that has been defined as a response to the constant evolution of the lighting industry.
  • Figure 1 is a view of the electrical-electronic control diagram of the control system for multiple lighting configurations in luminaires.
  • Figure 2 is a perspective view of the control system for multiple configurations applied in a led lamp.
  • Figure 3 is a bottom view of the control system for multiple configurations applied to a led lamp.
  • control system for multiple lighting configurations includes a solution that allows the creation of different models of luminaires using a single platform of modules or elements. It allows creating different variants simply by applying a software configuration process.
  • the system Integrates a main control module (1) which in turn manages the power source modules (2), communication module (3), power handler module for LEDs (4), LED module (5), interface module of sensors, light sensors (6), motion sensors (7), other sensors (8).
  • the low range is intended for luminaires (9) covering a range of power ranging from 25W to 70W
  • the products in the intermediate range are luminaires that go around the SGW to 140W
  • the high range can include models of luminaries that start from 150W and can reach up to 210W.
  • the system has a master module (1) that gives the luminaire enough independence to operate in at least 3 modes of operation, these modes include control by photo census; the luminaires are turn on or off using the presence or absence of sunlight.
  • these modes include control by photo census; the luminaires are turn on or off using the presence or absence of sunlight.
  • users are able to configure the luminaire so that it operates at different intensities throughout a day, a week, a month or even a year.
  • fig. 1 has included a wireless communication module (3) with which users can characterize the operation of the equipment remotely, without the need to uninstall or stop the operation of the same.
  • This communication interface to and from the lamp serves two purposes; the first one allows the user to customize the mode of use and the second to give maintenance personnel a way to program services and obtain records such as total hours of operation, power interruptions, operating temperature, among other data, information that serves to identify patterns of user behavior and performance of energy services to which the luminaire is connected.
  • the system allows to create different variants or models of intelligent luminaires.
  • the system is managed by software that allows the user to establish operation profiles through calendar and light and presence sensors (among others).
  • Profile registration :
  • the system includes an AC-DC power supply that is used to provide the operating power of all ios
  • This source supplies the control card and also includes protection of up to 10KV due to overvoltages. It integrates an EMS filter and works as an energy switch to the power source that feeds the LED board (5). Communication Module (3), this allows us to change the way
  • control module (1) the control module has at least one ARM Cortex-MG microcontroller 32 bit core, 32 KB RAM, 1 128 KB Flash, 48 MHz
  • Frequency this is the one that executes the commands received by the communication module, lighting control, event log, system control, memory manipulation.
  • Control module for the LEDs A module or constant current source is used for the purpose of supplying the LED board. This power source is capable of supplying the energy required by the LEDs to operate consistently throughout the entire operating temperature range of the luminaire. The solution ensures an efficiency of at least 90%.
  • the module is provided with an interface to control the amount of current that is provided to the LED card with which the light intensity can be modified.
  • Each module or card includes 18 LEDs of last generation, with an efficiency that exceeds by much the 130 Im / W.
  • the board is built with aluminum substrate technology to maximize thermal transfer.
  • Sensors module light sensors (8), motion sensors (7), other sensors (8).
  • the control card can monitor the status of the light and movement sensors (with the option to include any other sensor that has a serial communication interface). With the information obtained from these sensors; the software available within the module decides the mode of operation of the luminaire, where intensity and duration are included.

Abstract

The invention relates to a control system for multiple light configurations in lamps, which has been define in response to the constant development of the lighting industry and is a natural solution to the modernisation process of same. Light quality, operating cost, maintenance and energy saving are key factors that consumers look for in the lighting products that they acquire. The system is a solution that can distinguish the presence or absence of light, the time, day, month and year, and the presence of individuals within the area of influence and, according to these inputs, self-configure to provide suitable lighting to the users.

Description

OBJETO Y CAMPO DE LA ¡MVENCfÓN Sistema de control para múltiples configuraciones de iluminación en luminarias que permite que los sistemas de alumbrado público y privado se instalen de una forma simple, a un costo más bajo comparado con el mercado actual de luminarias, permite una integración armoniosa con los diferentes áreas o zonas de uso y sobre todo maximiza el ahorro de la energía al utilizar los perfiles de operación inteligentes deí producto.  OBJECT AND FIELD OF THE MVENCÓN Control system for multiple lighting configurations in luminaires that allows public and private lighting systems to be installed in a simple way, at a lower cost compared to the current market of luminaires, allows an integration harmonious with the different areas or areas of use and, above all, maximizes energy savings by using the intelligent operation profiles of the product.
El sistema permite un ahorro sustancial de energía, proveer inteligencia a la luminaria que le permita identificar patrones y comportamientos de operación de los usuarios, lo cual finalmente servirá para prestar un servicio de iluminación con calidad superior, ANTECEDEMTES DE LA INVENCION The system allows a substantial saving of energy, providing intelligence to the luminaire that allows it to identify patterns and behaviors of operation of the users, which will finally serve to provide a lighting service with superior quality, ANTECEDEMTES DE LA INVENCION
Para la iluminación de una carretera, un núcleo de población, una fuente, monumento o fachada se emplean un conjunto de elementos tales como báculos, faroles, candelabros de fundición y proyectores; que, en función de su colocación, intensidad luminosa deseada, entorno y otros factores cumplen con los requisitos de iluminación dentro de las áreas o espacios públicos de las poblaciones o comunidades. For the illumination of a road, a population center, a fountain, monument or facade, a set of elements such as staffs, lanterns, cast iron candelabra and projectors are used; that, depending on their placement, desired light intensity, environment and other factors meet the lighting requirements within the public areas or spaces of the towns or communities.
En el sector de la iluminación típicamente se emplean luminarias de tecnología SAP (Lámpara de vapor de sodio de Alta Presión - de tono anaranjado), Aditivos Haluro Metálicos (de tonalidad azul, aunque por errores de composición puede variar) y MCC (Vapor de Mercurio de Color Corregido - de tono verdoso), aunque también puede entrarse otras como Tungsteno- Halógena (antiguamente llamada Cuarzo-lodo), fluorescencia y LED. In the sector of the illumination typically use luminarias of technology SAP (Lamp of steam of sodium of High Pressure - of orange tone), Additives Haluro Metallic (of blue tonality, although by errors of composition can vary) and MCC (Steam of Mercury Color Corrected - greenish tone), although you can also enter others such as Tungsten-Halogen (formerly called Quartz-mud), fluorescence and LED.
Con ei objetivo de conseguir un ahorro económico en las cuentas públicas, en muchos lugares se están cambiando la iluminación pública tradicional a LED, ya que con esta tecnología existe ¡a posibilidad de poder conseguir la misma iluminación, pero con menos potencia. With the objective of achieving an economic saving in public accounts, in many places the traditional public lighting is being changed to LED, since with this technology there is the possibility of being able to achieve the same lighting, but with less power.
Al pensar en iluminación con tecnología Leds, podríamos no creer que tan diverso pueden ser este tipo de sistemas, una simple luminaria puede tener un amplio rango de aplicaciones tales como calles y estacionamientos hasta pequeñas soluciones para señalamientos luminosos y andadores. Diferentes niveles de iluminación, patrones de iluminación, contaminación, y tipo de luz deben tornarse en cuenta cuando se esté proveyendo un sistema de iluminación. When thinking about lighting with LED technology, we might not believe how diverse this type of systems can be, a simple luminaire can have a wide range of applications such as streets and parking lots to small solutions for lighting signs and walkers. Different levels of lighting, lighting patterns, pollution, and type of light should be taken into account when providing a lighting system.
DESCRIPCION DE LA INVENCIÓN DESCRIPTION OF THE INVENTION
Sistema de control para múltiples configuraciones de iluminación en luminarias que se ha definido como respuesta a la constante evolución de la industria de la iluminación. Breve descripción de fas figuras Control system for multiple lighting configurations in luminaires that has been defined as a response to the constant evolution of the lighting industry. Brief description of fas figures
Figura 1 , es una vista del diagrama de control eléctrico-electrónico del sistema de control para múltiples configuraciones de iluminación en luminarias. Figure 1 is a view of the electrical-electronic control diagram of the control system for multiple lighting configurations in luminaires.
Figura 2, es una vista en perspectiva del sistema de control para múltiples configuraciones aplicado en una lámpara led. Figure 2 is a perspective view of the control system for multiple configurations applied in a led lamp.
Figura 3, es una vista inferior del sistema de control para múltiples configuraciones aplicado en una lámpara led. Figure 3 is a bottom view of the control system for multiple configurations applied to a led lamp.
En base a ¡as figuras el sistema de control para múltiples configuraciones de iluminación, incluye una solución que permite la creación de diferentes modelos de luminarias usando una solo plataforma de módulos o elementos. Permite crear diferentes variantes aplicando simplemente un proceso de configuración por software. Based on these figures, the control system for multiple lighting configurations includes a solution that allows the creation of different models of luminaires using a single platform of modules or elements. It allows creating different variants simply by applying a software configuration process.
El sistema Integra un módulo de control (1) principal que a su vez gestiona a los módulos fuente de poder (2), módulo de comunicación (3), modulo manejador de potencia para leds (4), módulo de leds (5), modulo interfaz de sensores, sensores de luz (6), sensores de movimiento (7), otros sensores (8). The system Integrates a main control module (1) which in turn manages the power source modules (2), communication module (3), power handler module for LEDs (4), LED module (5), interface module of sensors, light sensors (6), motion sensors (7), other sensors (8).
De esta manera pueden crearse 3 gamas de productos: La gama baja se destina a las luminarias (9) que abarcan un rango de potencia que va desde los 25W hasta 70W, los productos de la gama intermedia son luminarias que rondan los SGW a 140W y finalmente la gama alta puede incluir modelos de luminarias que parten de los 150W y pueden alcanzar hasta ios 210W. In this way 3 product ranges can be created: The low range is intended for luminaires (9) covering a range of power ranging from 25W to 70W, the products in the intermediate range are luminaires that go around the SGW to 140W and finally the high range can include models of luminaries that start from 150W and can reach up to 210W.
Además de eso, el sistema tiene un módulo maestro (1 ) que le da independencia suficiente a la luminaria para funcionar en al menos 3 modos de operación, estos modos incluyen control por foto censado; las luminarias se encienden o se apagan usando la presencia o ausencia de luz solar. En ia operación por calendario juliano, los usuarios son capaces de configurar la luminaria para que esta opere a diferentes intensidades a ío largo de un día, una semana, un mes o incluso un año. Como parte del sistema de control, fig. 1 se ha incluido un módulo de comunicación inalámbrica (3) con el que los usuarios pueden caracterizar la operación del equipo de forma remota, sin la necesidad desinstalar o detener la operación del mismo. Esta interface de comunicación hacia y desde la lámpara tiene dos propósitos; el primero permitir al usuario personalizar el modo de uso y segundo otorgar al personal de mantenimiento una vía para programar servicios y obtener registros como las horas totales de operación, las interrupciones de energía, la temperatura de operación, entre otros datos, información que sirve para identificar patrones de comportamiento de los usuarios y desempeño de los servicios de energía a ia cual la luminaria esté conectada. In addition to that, the system has a master module (1) that gives the luminaire enough independence to operate in at least 3 modes of operation, these modes include control by photo census; the luminaires are turn on or off using the presence or absence of sunlight. In the operation by Julian calendar, users are able to configure the luminaire so that it operates at different intensities throughout a day, a week, a month or even a year. As part of the control system, fig. 1 has included a wireless communication module (3) with which users can characterize the operation of the equipment remotely, without the need to uninstall or stop the operation of the same. This communication interface to and from the lamp serves two purposes; the first one allows the user to customize the mode of use and the second to give maintenance personnel a way to program services and obtain records such as total hours of operation, power interruptions, operating temperature, among other data, information that serves to identify patterns of user behavior and performance of energy services to which the luminaire is connected.
De esta manera el sistema permite crear diferentes variantes o modelos de luminarias inteligentes. El sistema está gestionado por un software que permite al usuario establecer perfiles de operación a través de calendario y sensores de luz y de presencia (entre otros). Registro de perfiles: In this way the system allows to create different variants or models of intelligent luminaires. The system is managed by software that allows the user to establish operation profiles through calendar and light and presence sensors (among others). Profile registration:
. Por Intensidad de luz solar. . By Intensity of sunlight.
. Por Hora y Fecha.  . By Time and Date.
. Por Actividad Registro de eventos:  . By Activity Event Log:
. Presencia Ausencia de Voltaje. . Presence Absence of Voltage.
. Apagado o Encendido.  . Off or On.
Se Incluye un historial de eventos que es registrado en una memoria no volátil externa al microcontrolador (1) mediante un protocolo serial, el control de memoria es de forma circular; garantizando el mayor almacenamiento posible. De manera sistemática ia luminaria verifica e! estado de ios componentes, registra los resultados y se asegura que ia plataforma opere correctamente. ES controlador ejecuta las configuraciones de operación pre-definidas por el usuario, y monitorea que los componentes mantengas el perfil activo. En la figura 1. Se puede apreciar el diagrama de control, que incluye los siguientes módulos: It includes a history of events that is recorded in a non-volatile memory external to the microcontroller (1) through a serial protocol, the memory control is circular; guaranteeing the greatest possible storage. In a systematic way the luminaire verifies e! state of the components, records the results and ensures that the platform operates correctly. The controller executes the user-defined operation settings, and monitors the components to maintain the active profile. In Figure 1. You can see the control diagram, which includes the following modules:
. Fuente de Poder . Power supply
. Módulo de Control  . Control module
. Módulo de Comunicación  . Communication Module
· Manejador de Leds  · Leds Handler
. Módulo de Leds  . Module of Leds
. Interfaz de Sensores Luz  . Light Sensors Interface
. Interfaz de Sensores Movimiento  . Sensor Interface Motion
Modulo Fuente de poder (2), el sistema incluye una fuente de alimentación AC- DC que se utiliza para proveer la energía de operación de todos ios Power Source Module (2), the system includes an AC-DC power supply that is used to provide the operating power of all ios
componentes electrónicos de la plataforma. Esta fuente alimenta la tarjeta de control y además incluye protección de hasta 10KV por sobre-voltajes. Integra un filtro EMS y funciona como interruptor de energía hacia ia fuente de corriente que alimenta la tablilla de Leds (5). Módulo de Comunicación (3), este nos permite cambiar la forma de electronic components of the platform. This source supplies the control card and also includes protection of up to 10KV due to overvoltages. It integrates an EMS filter and works as an energy switch to the power source that feeds the LED board (5). Communication Module (3), this allows us to change the way
comunicarnos con otros dispositivos sin afectar el sistema, siempre y cuando el protocolo de comunicación hacia el módulo de control no cambie. communicate with other devices without affecting the system, as long as the communication protocol to the control module does not change.
Módulo de Control (1), el módulo de control tiene al menos un mícrocontrolador ARM Cortex-MG núcleo de 32 bits, 32 KB RAM, 1 128 KB Flash, 48 MHz Control Module (1), the control module has at least one ARM Cortex-MG microcontroller 32 bit core, 32 KB RAM, 1 128 KB Flash, 48 MHz
Frecuencia), este es quien ejecuta los comandos recibidos por el módulo de comunicación, control de iluminación, registro de eventos, control del sistema, manipulación de memoria. Frequency), this is the one that executes the commands received by the communication module, lighting control, event log, system control, memory manipulation.
Módulo de control para los Leds, Se utiliza un módulo o fuente de corriente constante con el propósito de alimentar la tablilla de LEDs. esta fuente de corriente es capaz de proveer la energía que requieren los LEDs para operar de forma consistente a lo largo de todo el rango de temperatura de operación de la luminaria. La solución asegura una eficiencia de al menos 90%. El modulo está provisto de un interfaz para controlar la cantidad de corriente que se provee a la tarjeta de LEDs con el cual se puede modificar la intensidad luminosa. Control module for the LEDs. A module or constant current source is used for the purpose of supplying the LED board. This power source is capable of supplying the energy required by the LEDs to operate consistently throughout the entire operating temperature range of the luminaire. The solution ensures an efficiency of at least 90%. The module is provided with an interface to control the amount of current that is provided to the LED card with which the light intensity can be modified.
Módulo de Leds (5), Cada módulo o tarjeta incluye 18 LEDs de última generación, con una eficiencia que rebasa por mucho los 130 Im/W. La tablilla se construye con tecnología de sustrato de aluminio para maximizar la transferencia térmica. Módulo de Sensores, sensores de luz (8), sensores de movimiento (7), otros sensores (8). La tarjeta de control puede monitorear el estado de los sensores de luz y movimiento (con la opción a incluir cualquier otro sensor que cuente con una interfaz de comunicación serial). Con la información obtenida de estos sensores; el software disponible dentro deí módulo decide el modo de operación de la luminaria, donde se incluye la intensidad y la duración. Module of LEDs (5), Each module or card includes 18 LEDs of last generation, with an efficiency that exceeds by much the 130 Im / W. The board is built with aluminum substrate technology to maximize thermal transfer. Sensors module, light sensors (8), motion sensors (7), other sensors (8). The control card can monitor the status of the light and movement sensors (with the option to include any other sensor that has a serial communication interface). With the information obtained from these sensors; the software available within the module decides the mode of operation of the luminaire, where intensity and duration are included.

Claims

REIVINDICACIONES Habiendo descrito mi invención como antecede, considero como una novedad y reclamo de mi propiedad lo contenido en las siguientes clausulas: CLAIMS Having described my invention as above, I consider as a novelty and claim of my property contained in the following clauses:
1.- Sistema de control para múltiples configuraciones de iluminación en luminarias caracterizado porque comprende: 1.- Control system for multiple lighting configurations in luminaires characterized because it comprises:
Una pluralidad de luminarias que pueden energizarse y controlarse por medio de un módulo de control principal que a su vez gestiona a los módulos fuente de poder, módulo de comunicación, modulo manejador de potencia para leds, módulo de leds, modulo interfaz de sensores, sensores de luz, sensores de movimiento, entre otros sensores, dicho módulo de control da autonomía suficiente a la luminaria para funcionar en a! menos 1 modos de operación, a) control por foto censado, tiene al menos un microcontrolador ARM Cortex-MO núcleo de 32 bits, 32 KB RAM, 1128 KB Flash, 48 MHz, es quien ejecuta los comandos recibidos por el módulo de comunicación, control de iluminación, registro de eventos, control del sistema, manipulación de memoria, dicho módulo de comunicación inalámbrica permite la operación del equipo de forma remota, permite al usuario personalizar el modo de uso, programar servicios, obtener diferentes registros tales como las horas totales de operación, las interrupciones de energía, la temperatura de operación, dicho modulo fuente de poder, se utiliza para proveer la energía de operación de todos los componentes electrónicos de la plataforma, alimenta la tarjeta de control, incluye protección de por lo menos 10KV por sobre-voltajes, tiene un filtro EMI, funciona como interruptor de energía hacia ia fuente de corriente que alimenta ia tablilla de Leds, dicho módulo de leds, tiene al menos 18 leds, tiene una eficiencia que rebasa por mucho los 130 Im/W, tiene un disipador de calor hecho en base a sustrato de aluminio para maximizar la transferencia térmica. A plurality of luminaires that can be energized and controlled by means of a main control module which in turn manages the power source modules, communication module, power handler module for LEDs, LED module, sensor interface module, sensors of light, movement sensors, among other sensors, said control module gives sufficient autonomy to the luminaire to operate in a! less 1 operating modes, a) control by photo, has at least one microcontroller ARM Cortex-MO 32-bit core, 32 KB RAM, 1128 KB Flash, 48 MHz, is the one that executes the commands received by the communication module, lighting control, event log, system control, memory manipulation, said wireless communication module allows the operation of the equipment remotely, allows the user to customize the mode of use, schedule services, obtain different records such as total hours of operation, power interruptions, operating temperature, said power source module, is used to provide the operating power of all electronic components of the platform, power the control card, includes protection of at least 10KV per over-voltages, it has an EMI filter, it works as an energy switch to the current source that feeds the LED board, said LED module, has at least 18 leds, has an efficiency that exceeds by much the 130 Im / W, has a heat sink made on the basis of aluminum substrate to maximize heat transfer.
2. - Sistema de control para múltiples configuraciones de iluminación en luminarias conforme a ¡a reivindicación 1 , que se caracteriza por que las luminarias tienen un rango de potencia que va desde los 25W hasta 210W. 2. - Control system for multiple lighting configurations in luminaires according to claim 1, characterized in that the luminaires have a power range ranging from 25W to 210W.
3. - Sistema de control para múltiples configuraciones de iluminación en luminarias conforme a la reivindicación 1 , que se caracteriza por qué el módulo de control contiene dentro de sus instrucciones un sistema está gestionado por un software que permite al usuario establecer perfiles de operación a través de calendario y sensores de luz y de presencia, registro de perfiles, registro de eventos. 3. - Control system for multiple lighting configurations in luminaires according to claim 1, characterized in that the control module contains within its instructions a system is managed by a software that allows the user to establish operation profiles through of calendar and sensors of light and presence, registration of profiles, registration of events.
PCT/MX2017/000113 2017-09-28 2017-09-28 Control system for multiple light configurations in lamps WO2019066636A1 (en)

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Citations (4)

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EP2262350A1 (en) * 2009-06-10 2010-12-15 iLEDs GmbH Lighting unit, network of lighting units and method for controlling the light intensity of a lighting network comprising at least one lighting unit
US20130229112A1 (en) * 2012-03-05 2013-09-05 Matthew Van Der Werff Integrated Occupancy and Ambient Light Sensors
WO2014111752A1 (en) * 2013-01-15 2014-07-24 Telemetria Industrial Telemetrik S.A.S. Smart photocell for the remote managment and control of public lighting systems
US20160095193A1 (en) * 2013-06-13 2016-03-31 Ice Gateway Gmbh Device and method for controlling a lighting means

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP2262350A1 (en) * 2009-06-10 2010-12-15 iLEDs GmbH Lighting unit, network of lighting units and method for controlling the light intensity of a lighting network comprising at least one lighting unit
US20130229112A1 (en) * 2012-03-05 2013-09-05 Matthew Van Der Werff Integrated Occupancy and Ambient Light Sensors
WO2014111752A1 (en) * 2013-01-15 2014-07-24 Telemetria Industrial Telemetrik S.A.S. Smart photocell for the remote managment and control of public lighting systems
US20160095193A1 (en) * 2013-06-13 2016-03-31 Ice Gateway Gmbh Device and method for controlling a lighting means

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