Opciones de acciones de schneider electricos
Ventajas del uso de protocolos KNX en edificios y viviendas. El protocolo KNX se puede emplear para el control de todos los sistemas y aplicaciones dentro de una vivienda o un edificio: Otra de las ventajas es la alta calidad de los productos KNX.
Control centralizado de todos los servicios. Control persianas y aire acondicionado. Otros muchos han conseguido importantes beneficios implementando el control de equipos con KNX. Beneficios proporcionados por KNX en este proyecto: Apps y gadgets para ser creadores de nuestra propia smart home. En lugar de ello en realidad hay cuatro principales protocolos existente en la actualidad. Los dispositivos y conexiones forman como una malla, por lo tanto, se les puede describir a todos como "redes de malla mesh networks.
Muchas empresas se esfuerzan para hacer que sus dispositivos compatibles con SmartThings, un actor clave para la Smart home. Weave es alimentado por Brillo y es un competidor directo de HomeKit. Esto se debe a que los productos de mydlink se comunican utilizando el protocolo Z-Wave.
IFTTT funciona mediante escenas desencadenantes si ocurre esto y en base a ellas se establecen acciones Entonces esto , y muchos fabricantes han aprovechado para crear "desencadenantes" especiales y acciones basadas en torno a sus dispositivos inteligentes, que se organizan en canales.
De este modo se pueden mezclar y combinar los factores desencadenantes y acciones de diferentes canales, con lo que se pueden combinar dos dispositivos previamente incompatibles. Esta es una muy buena oportunidad para dar las gracias por esa fidelidad, y apoyo que recibimos los que hacemos posible esta editorial. Trabajar tan de cerca con el sector, las empresas, las organizaciones, sus grandes profesionales sirve como decimos de.
Y es que cada espacio de un edificio expresa y comunica su identidad, y a veces, hasta puede poseer un valor corporativo. El ritmo se desorganiza bajo ciertas condiciones ambientales, como por ejemplo a causa de una luz muy brillante o de una temperatura demasiado baja. Todos somos conscientes que una buena luz nos influye a todos, ya que forma un papel importante tanto para nuestro cuerpo como para nuestra mente.
Puede ser operadas desde otro edificio. Por ello, es un trabajo conjunto. City Touch de Philips. La infraestructura urbana debe ser accesible para todos. Es por eso que estamos creando la infraestructura digital como una plataforma abierta y reclutamos activamente a socios y desarrolladores de aplicaciones que pueden aprovechar los datos para resolver problemas e innovar las aplicaciones.
El uno va con el otro, como no me preocupa no intento averiguar y se cae en el desconocimiento. En Hoteles por ejemplo si que lo esta. En base a mi experiencia anterior como integrador, veo que en este tipo de instalaciones lo que esta por encima de todo es la funcionalidad. Es una necesidad muy concreta. Se trata de conseguir que la casa responda de un modo determinado cuando haces determinadas cosas, que es en lo que estamos centrados los fabricantes, que tenemos en cuenta que hacer obras para instalar esto encarece y por lo tanto se intenta que la casa sea un interfaz entre tu y lo que quieres hacer, y de modo sencillo sin coste de obras y de modo que sea escalable, que le pueda ir incorporando cosas sin necesidad de que venga nadie.
Desaparece la figura de quien tiene que venir a configurar e instalar pero lo que nos planteamos en este cambio los fabricantes es la necesidad de que haya un consultor, integrador en este caso. Hay un cambio de roles: En terciario se sabe que hace falta. En residencial ya se mira todo con lupa y se intenta recortar para reducir los presupuestos. Mercados, necesidades, funcionalidades y motivaciones no tienen nada que ver en uno y otro sector.
La eficiencia en edificio si que se premia, en casa no. En residencial hay que darle una vuelta al asunto. Debe tener un retorno en comodidad, seguridad Esta integrada por cerca de Nos reunimos con nuestros miembros para colaborar en el desarrollo de nuevas especificaciones.
Otro sistema destacado es uno presente en el metro de Londres. Bluetooth cumple con unos requisitos de seguridad que denominamos "Government Grade", es decir los exigidos por el gobierno de EEUU para sus comunicaciones. Bluetooth cumple con la norma FIPS. De este modo desarrollan lo que denominamos nuevos perfiles que a su vez conviven con los normales de Bluetooth.
Se llama el "BLuetooth Development Studio" y descargable desde nuestra web de modo gratuito. Si bien el Smartphone y los mismos sensores y actuadores son claves en una Smart Home, la facilidad que aportan los pulsadores es notable. Un funcionamiento basado en escenas, no en encender y apagar una luz en particular. Valores de color Con un efecto especial: Ambientes En cualquier momento pueden aplicarse los ajustes personales favoritos mediante ambientes de luz programados.
Almost every branch is talking about the Internet of Things and experimenting how this industrial revolution could benefit their business.
The key to this is having the right sensors in place that collect useful data and a system analysing this data to provide valuable information. The data is collected through the luminaires, processed to the IoT-Suite and analysed by Bosch. Through the dashboard that was programmed especially for this purpose, the user receives the results in understandable and user-friendly graphics. One of the graphics shown in the dashboard is a heat map which displays how frequently occupied the different rooms of the building are.
In the course of the day, the energy consumption is calculated and information about cost saving is provided.
This helps the building manager to reduce maintenance costs and improve the productivity of space. Now the experts are even working on optimizing the cleaning service. New sensor applications The sensors used in this pilot project are PIR sensors and optical camera sensors. The sensor is used to detect moving, living objects, i. In the heat map each PIR sensor provides one pixel, including a factor specified in percent to show the occupancy graphic 3.
As this view is not very detailed, optical camera sensors were added. These sensors work like a camera but process the information immediately and provide many pixels to the heat map.
Through this, the map reaches a much higher granularity graphic 4. In future it will even be possible to extend the functionality of a lighting system by enabling indoor navigation. In addition, a lean interaction with other trades of a building, e. Office users, for example, will not have to adjust to automated building settings e. Sensor fusion The next big step in sensor technology is sensor fusion where data from existing sensors is taken and combined. The results have a much higher accuracy and the "knowledge" of the complete system is enhanced.
Furthermore, presumptions can be made based on the data, enabling new services. Imagine a hotel with 25 stories. A person leaves his room and walks down the aisle towards the elevators.
A connected system detects the person leaving the room, the route he or she takes and presumes that the person intends to use the elevator. Based on this presumption, the system can then trigger a command to the elevator and send it to the floor on which the person is at that moment.
Pereira is one of the specialists at Tridonic's sensor competence centre in Ennenda, Switzerland, working for the Zumtobel Group.
More customer comfort, increased safety and a bigger cost-saving potential are only three examples". The example of the pilot project in the Lifecycle Tower ONE in Dornbirn illustrates that sensor technology offers vast application possibilities.
According to Pereira, sensor technology works like the smartphone business: Once they were introduced to the market and users unlocked the phone's value, they now cannot imagine a life without a smartphone anymore. The same applies for sensors. The powerful technology is progressing very fast and many possible applications are waiting to be discovered. The specialists at Tridonic, together with their partners, are convinced that they will activate more applications in future.
Esa hiperconectividad ha transformado numerosos procesos en nuestra vida diaria aportando mayor agilidad, eficiencia y sostenibilidad.
Queda mucho potencial por aprovechar en el actual universo digital de datos. IBM Watson es un sistema cognitivo que, a diferencia de otros programables, entiende el lenguaje natural de las personas, contesta preguntas complejas en tiempo real y aprende con cada experiencia.
Caso de Exito 2. Independencia ante cualquier otro sistema de software o hardware. Los fabricantes de productos KNX disponen de su propio protocolo y es completamente gratis y libre de tasas para todos los usuarios de los productos certificados como KNX. En el sistema de alarma contra incendios. Es por ello que en sus instalaciones de Burgos han incorporado las luminarias industriales Bayled 2. A requerimiento del usuario, las luminarias Bayled 2. Gourmets de Sant Cugat. La tendencia es clara: The intelligent control base modules incorporate an open protocol that allows them descubrise on the network and run a procedure in which the following actions are performed:.
The base intelligent control module, being connected to the network, received or automatically assigned a code that identifies within the same. The basis intelligent control module notifies, via the network, the control point and the devices incorporated therein, incorporating services, also indicating as managed and is able to provide information. Once covered the previous step, the base module allows control and control of the modular system to which the base module is incorporated, the sending network information on the previous point must provide.
The base intelligent control module also informs the control point where the network address accessed own control and description of the modular system where the base module is incorporated pages. The base modules serve as intelligent control links between the communications network and the devices and elements of the electrical installation to be controlled. For this purpose, the base modules can be installed in the electrical distribution boxes housing serving to distribute power to the various devices in the home energy, such as sockets, switches, lights, motors blinds, awnings and curtains, solenoid valves, etc.
The control base module is powered through the power submodule which is connected firstly to the voltage of volt electrical distribution network of the housing, whose lines of phase, neutral and earth reach each distribution box and on the other to the base module through connectors that it incorporates for the purpose.
The base module manages the control of different devices and elements of the electrical installation which are to be included in the home automation network. This management can be performed independently or through the control point, according interest, and finally executed through different submodules, which are also subject of the invention, and which are specially designed for this purpose.
These submodules described in detail later, are connected on the one hand to the base module, the receiving power, and secondly to the various devices and control elements. The base module can be built compactly with one or more submodules forming a single module having the characteristics layering the base module and each of the submodules that compose it.
Thus system modularity is advantageous but not limiting option of the system object of the invention. The control base module can also receive data from the home automation network or outside via wired submodules or wireless communications are described below along with the rest of submodules.
Domotic devices and control elements of the electrical installation is managed by the base module via two submodules: The submodule control actuators and loads is connected firstly to the base module which receives orders and power, and on the other hand is connected to the device or element to be controlled. Mode connection between submodule actuator and load control and control elements is specific for each type of element, so that this mode of connection satisfies one of the primary objectives of the invention is to maintain the coexistence conventional manual control by the user and the home automation control, even in case of total failure of the automation system.
The object of the invention relates therefore also to the connection between the actuator and control submodule load and the device or element to be incorporated in the automation system.
This mode of connection depends on the element to be controlled. In the present invention three types of elements are distinguished to control one of the submodules and load control actuators. These elements, in turn, provide electrical power to various devices or apparatuses in a conventional housing.
To incorporate the control of a "plug" element of the electrical network in the home automation system of the invention, a connection between different parts of the system and the element to be controlled, which is also included as an object of the invention is required and that this characterized in that: To incorporate the control of a "simple switch" mains in the home automation system of the invention, so that a failure in the home automation system does not prevent manual control of the elements of the grid control element is necessary to replace the simple switch by a changeover switch and a connection between different parts of the system and the way switch, which is also included as an object of the invention, and characterized is required because: To incorporate the control of a "set of switched switches" in the home automation system of the invention, so that a failure in the home automation system does not prevent manual control of the elements of the electrical control network, it is necessary to replace one switches switched by a switch crosslinking and connections between different parts of the system required between the switch crosslinking and the three-way switch that has not been replaced, which is also included as an object of the invention, and which comprises: Incorporating the control of two simple switches or two buttons that are used together to feed specific loads, such as motors dual direction of rotation, in the automation system of the invention is considered separately in order to maintain a of the priorities of the same, that is to provide security to those loads that may be adversely affected by a simultaneous actuation of opposed manual control and automation.
In this situation the invention establishes a connection between the different elements involved, ie load and switches or buttons, which is also object of the invention, and which comprises: The submodule control electric power dimmer , object of the present invention is a device that incorporates certain electronic intelligence and which is connected firstly to the base module, which receives power, and the other device or element control.
Submodule "dimmer" allows controlling power supplied to an electrical load, usually lighting. Also, the base module can control the submodule autonomously. Submodule "dimmer" of the invention, maintains manual control over the power supplied to the lighting load, even in case of failure based intelligent control module and even failure or total drop of home automation system, provided submodule "dimmer" keep food and work properly.
Submodule "dimmer," that can be placed both in the distribution box by the base module and in the mechanism housing by the manual call requires a connection between different parts of the system and load whose power is to be controlled, which is included as subject of the invention, and which comprises: Base intelligent control module can receive data from a finite set of distributed housing or area domotizar control and execute actions based on data received from sensors sensors.
The signals provided by the sensors reach the base module through submodule sensors. The sensor submodule, which receives power from the base module incorporates certain electronic intelligence and establishes a bidirectional communication with the base module via a communications port that it incorporates for the purpose.
Said bidirectional communication through the base module, to boot, sub-module interrogates the sensors and it tells you the status of sensors connected to it. Once initialized, the sensor submodule communicates any changes in the signals from the sensors.
The base module can receive and send data via the keyboard and display sub-module also receives power from the base module.
This sub-module incorporates certain electronic intelligence and establishes a two-way communication with the base module through one of the ports that the base module has for that purpose.
The keyboard and display sub-module allows you to enter data via the keyboard and display messages on the screen. The base module receives this data and can act autonomously based on them and as programmed. The base module also incorporates analog inputs that allow connection of sensors providing signals continuously variable, for example a temperature sensor to provide a DC voltage proportional to the temperature of the room that monitors value.
The base module feeds, in turn, this type of sensor. The control base module can receive data from remote source via two submodules: Submodule access the radio frequency and mobile phone sub-module.
Submodule radio-based access, object of the invention, which is also connected to the base module and which receives power, incorporates certain electronic intelligence and establishes a bidirectional communication with the base module via the port which it has for this purpose.
The RF sub-module access these devices can interrogate and receive data from them, may act according to the data received.
Submodule incorporates mobile phone. This sub-module allows a user through a mobile device last generation, send control commands that would be received by the control base module. This could act autonomously according to the orders received or send such orders to a network device, for example, the checkpoint would act according to the same and as programmed.
The objectives and general description made the object of the invention are directly in line with its distinctive advantages. Moreover, control of various devices or loads with a single intelligent base module allows multiple star structure simpler wiring. Thus, the system can be controlled from anywhere on the Internet by accessing the appropriate direction upon identification as a user of access allowed.
Also, this modularity makes the system can easily be adapted to meet the needs. In general, commercial home automation systems have developed special services, such as remote controls, which incorporate proprietary protocols for their control devices.
It is therefore a fundamental advantage of the home automation system of the invention its great compatibility and versatility, thanks to its designed on open protocols and communication standards design. To complement the description being made and in order to aid a better understanding of the invention's characteristics, according to a preferred practical embodiment thereof, accompanying as an integral part of said description a set of drawings where illustration and not restrictively, the following has been represented: Figure 4 represents the block diagram of the submodule sensor of the invention.
Figure I L- represents schematically the installation and connection of submodule regulating object of the invention electrical power. Among them point it characterized in that it comprises controlling a personal computer 12 programmed to be connected to the communications network domotic installation, execute procedure in which the following actions are performed:.
The checkpoint L- interrogates the home automation system for existing devices connected to the communications network of home automation system;. The control point receives and stores information about each device its own identification code in the communication network on services incorporating and how data is managed and provided;. The control point automatically embeds each network device, allowing management and control.
Also, the control point is prepared to receive any data included in each network device to send; Y. The control point receives and incorporates information about the network address where access to the page of description and control of each device installed in the home automation system network. A communications network and through the hub 11 are also connected: Each of these devices is connected to the hub 11 via lines 21, 22, 23 and 24 constituting part of the wiring IP communications network.
Also to the IP communication network are connected via the wireless access point 13 , the following devices: To the same communication network via two lines 20 and 25 and connected to the hub device 11 , there are two modular systems domotic object of the invention compounds, in amount not necessarily unitary, by the following modules and submodules:. Submodule and radiofrequency sensors 3. Keyboard and display sub-module 8.
The modular system described above, object of the invention, serves as a gateway between the IP communication network of the home automation system, the mobile phone network and the sensors and actuators devices to be managed and controlled.
The control point 12 allows management and overall control of the home automation system. Then each of the modules and submodules that make up the automation system of the invention are described.
Regarding the object of the invention, Figure 2 shows the different blocks constituting the control base module 1. The lines 20 or 25 connecting the control base module 1 to the communications network allows to establish a two-way flow communication between the base module 1 and the network through the block advanced communications Advanced communications block 33 is responsible for transmitting and receiving data at high speed on the home automation network.
Also it performs the adaptation data to corresponding physical means, this wireless or wired, radio frequency or power line carrier PLC - Power Line. Communications , the parallel to serial data to be transmitted and vice versa conversion, is also responsible for the collision detection and retransmission algorithm.
A microcontroller or circuit programmability and control 32 converses with advanced communications block via a parallel bus 38 , writing and reading of the records that the latter has. Units internal serial transmission microcontroller 32 performs the conversion from parallel to serial data, allowing the sending and receiving of data while the microcontroller core continues to perform other tasks. The interrupt generator informs the microcontroller when one of the peripherals completes the assigned task, so you can perform several tasks at once.
The microcontroller 32 is connected via a serial bus 39 , an EEPROM 35 memory used for storing important data for optimal system performance, even when a power failure occurs. Programming implemented in the microcontroller 32 makes it, by feeding, run an initialization procedure that performs a series of operations consisting in: In the preferred embodiment, not limitative described, the actions described above are programmed so that meet the open protocol Universal communications Plug and Play UPnP , securing one of the primary objectives of the invention as is the installation a new module or service under the concept "plug and play" facilitates system expansion without requiring reprogramming of modules or existing services or adding new programs for the control of new devices or services and involve tasks of a technical specialized.
The control base 1 , object of the invention module receives its power, as shown in Figure 2, a submodule supply 2 , physically separated from the control module 1 and connected to it through cord Submodule supply 2 is connected on the other side, and through the wiring 43 , to line, neutral and earth 26 arriving at the distribution box, with an alternating voltage frequency in the range Hz and an effective value in the range V.
The domotic devices and elements of the electrical installation is managed by the base module 1 through submodules and load control actuators 4. Regarding the object of the invention, Figure 3 shows the blocks constituting the submodule control actuators and loads 4. This submodule 4 is connected to the base 1 via the connector 48 for receiving food, the command drive and also provides data related to power consumption of the electrical device is connected via another connector This last connector 52 comprises three terminals up: Besides these two connectors 48 and 52 , the submodule actuator and load control 4 includes a current sensor 50 , a signal conditioner 49 circuit and a set of relays The current sensor 50 providing the signal conditioner 49 circuit a signal which is a function of the current flowing through the load, the conditioning circuit 49 receives this signal, adapts to the optimal level required to entries microcontroller 32 , and delivery to the base module 1.
The set of relays 51 is responsible for transferring electrical power to the load through connector three terminals 52 , when the microcontroller 32 of the base module 1 so indicates.
The connection between the actuator and control submodule load 4 and control elements is specific for each type of item. This connection allows to satisfy one of the main objectives of the invention is to maintain the coexistence of the conventional manual control by the user and the home automation control, even in case of total failure of the automation system.
In the present invention a submodule of actuators 4 can control three types of elements that, in turn, provide electrical power to various devices or apparatuses in a conventional housing.
Control of two simple switches or two buttons that are used together to feed specific loads, such as motors dual direction of rotation, is considered apart by the present invention in order to manterner one of the priorities of the same that is to provide security to those loads that may be adversely affected by a simultaneous actuation of opposed manual control and automation. B; - the other output terminal FO2 submodule A is connected to one of the non common terminals of all of the two switches or buttons 59 A and 59B , and is also connected to one terminal S of the load 71 ; the other output terminal FO2 submodule B is connected to the other terminals not common set of two switches or buttons 59A and 59B , and is also connected to the other terminal.
B of the load 71 ; Ia and neutral line is connected to terminal N of the load 71 provided for this purpose. Submodule sensors and RF Regarding the object of the invention, Figure 4 shows the blocks that constitute the sensors and radio frequency sub-module 3. This submodule 3 is connected to the base 1 module using a block included in the serial communication 45 , by which it is powered. Sensors 27 are connected to the sensor module 3 through a connector block The base module 1 , upon initialization it establishes a bidirectional communication with the sensor submodule 3 which informs the state of each of the sensors connected to it.
From that moment the sensor submodule 3 kept informed base 1 module of any changes in the signals from the sensors Submodule sensor 3 incorporates certain electronic intelligence based on a microcontroller 44 of 8 bits, connected both to block serial communication 45 through a bus 47 and connector block 46 by a dedicated bus lines. The communications block 45 manages two serial communication ports, one for communication with the base 1 module and another for communication with other devices such as the keyboard and display sub-module 8.
The microcontroller 44 analyzes the data that arrive at both ports of the communication block 45 and decides whether the data are to manage the sensors 27 or must be retransmitted to the device connected on the other port. Submodule sensor may incorporate a radiofrequency RF block, connected to the microcontroller 44 , by which to receive information from sensors using said transmission means to report their status. Submodule regulator electrical power dimmer. Regarding the object of the invention, Figure 5 shows the blocks constituting the submodule "dimmer" 5.
This submodule 5 incorporates a connector 58 allowing circuit power "dimmer" from the base 1 module. A block serial communication 55 allows, through a suitable connector, two-way communication between the base module 1 and the microcontroller circuit 53 incorporating a software specifically designed for the control and regulation of the dimmer.
A detection and control block 54 is connected to the microcontroller. This block 54 collects information from the AC voltage from the mains, through the phase line reaches the distribution box 10 and the line from the load that is connected to "dimmer "by another connector This information is transmitted to the microcontroller 53 which processes and returns the control block 54 the power control information in accordance with the instructions received from the user.
The detection and control block 54 controls the electrical power to the load according to the information received from the microcontroller The user can act on the regulation of power in two different ways. The first is by a pushbutton 77 , as shown in Figure 11 3 or by a switch 76 as shown in Figure 5, which is connected to the module "dimmer" 5 through two terminals including the connector 57 , and the second is through the control point 12 , or the various control devices PDA, remote control, etc.
Submodule "dimmer" 5 is connected to the load, as shown in Figure 11, through the connector 56 comprising two terminals, one terminal is input FI and connected to the line phase mains, and the other terminal is output FO and connected to the load For the submodule "dimmer" 5 to control the power of the load 29 , even when dropped or total failure of the basic module 1 , a specific connection, which is included as an object of the invention is required.
This connection, shown schematically in Figure. Regarding the object of the invention, Figure 6 shows the blocks constituting the keyboard and display sub-module 8.
This submodule 8 is connected to the base 1 module using a block included in the serial communication 61 through which is fed and a bidirectional data communication is also set. The keyboard and display sub-module 8 allows data to home automation system via the keyboard 63 and display messages on a screen This sub-module provides some electronic intelligence based on a microcontroller 60 of 8 bits, which incorporates a specific design software and control data entry and display of home automation system states.
The microcontroller 60 is responsible for inspecting a keyboard 63 of 12 or 16 keys, through a parallel bus 65 and send information of the key pressed, through the communications block 61 , the base module 1.
The microcontroller 60 via a parallel bus 66 , communicates with a display 62 showing the messages that the base module has transmitted through the communications block The keyboard and display sub-module 8 also has luminous indicators 64 to report certain operating states of the submodule and home automation system.
Regarding the object of the invention, Figure 12 shows the blocks constituting the mobile submodule 7. The main unit of this submodule is the modem 72 , together with its antenna 75 , which enable this submodule 7 to transmit and receive data protocols mobile communications art such as: The mobile submodule 7 is connected to the base 1 module using a block included in the serial communication 73 , through which bidirectional communication is established. The mobile submodule 7 incorporates a connector 74 allowing the supply from the base 1 module.
Submodule mobile 7 allows the base 1 control module can receive data from remote source using mobile communications technologies of last generation. Through a mobile-edge 28 Figure 1 , a user can send control commands which are received directly by the submodule mobile 7 and transmitted to the base control module 1 by block communications 73 or to act autonomously according to the orders received, or to forward said commands to a network device, for example the control point, which would act in turn according to the same and as you have programmed.
Also, the control base 1 module can generate events, alarms or messages to be sent to the mobile terminal 28 of the user through the submodule mobile phone 7 , allowing the home automation system keeps the user informed of the events of your home. The modular system described is applicable in the field of automation, the intelligent control devices, safety technical alarms, security against intrusion and surveillance; both in the domestic sector and in industry. The modular system described is fully integrated with the communications networks art as.
Internet, thanks to its design and conception, independent of the physical medium used for transmission open standards, is this cabling IEEE The invention has been described in detail generically and has also been described in relation to one of its possible embodiments.
Obviously, modifications may be made on this embodiment are intended to include within the invention. Having thus described an embodiment chosen for our invention, we claim that it is:. Kind code of ref document: Country of ref document: The invention relates to a system which enables the electronic control of electrical household appliances which are connected to an electrical network which distributes power through boxes that are positioned at different points in the home.
The inventive system, which can be built into the electrical distribution boxes, comprises various different modules which serve as an interface between a communications network and the appliances of the electrical network. The system also allows said appliances to be controlled manually, even in the event of a full home control system failure. Extension of the system does not require reprogramming of any of the pre-existing modules. Said home control system is compatible with the Internet.
The invention is suitable for use in the home control sector for controlling electrical household appliances, as well as for controlling sensors and actuating alarms.
A study of the advantages and disadvantages of different topologies and control modes shown in patent ES 2,, which are owned by Electrotechnical Fabrica, SA Apparently the bus cabling solution, widely used by most existing systems, is best optimizes the cost of wiring. The main differences with the object of the present invention are: In the invention it discussed and generally in all those PLC automation systems there are fundamental differences with the object of the present application are: The design and conception of the various modules and devices and their mode connection with the electrical equipment and appliances to be controlled are such that the object of the invention covers the following objectives: It is also priority object of the invention incorporating a control point to the home automation system is the concept of "plug and play" and involves the following: Also, the control point is prepared to receive any data embedded devices to send; Y 4.
Installing a new device or service should be as simple as "Plug and play". In connection with these objectives, the system includes, not necessarily in unit amount, the following devices, modules and submodules: Control module base smart; 4. Submodule wireless access; 5. Submodule actuators and load control; 6. Submodule mobile phone; 8. Submodule keyboard and screen; Submodule radio-based access; Submodule temperature sensor; Among them is a system that acts as a control point and is, for example, a programmed computer to manage and globally control the home automation system and which when incorporated into the home automation system, under the concept "plug and play" do the following: