FR3022098A1 - DEVICE FOR DISPLAYING LUMINOUS ANIMATIONS BY LED MATRIX - Google Patents

Abstract

The invention relates to a system comprising a display device comprising LEDs and comprising: a digital file (1) of light data characterizing, as a function of time, the following parameters: radiation intensity, color, activation of an LED; a device for storing and / or receiving said file (1); a device for reading said file (1); a control device configured to, depending on the reading of said file (1), control as a function of time said LED parameters. The display device comprises a plurality of optoelectronic elements associated with the LEDs, each optoelectronic element being configured to have a variable luminous diffusivity so as to vary the diffusion of said light radiation. Said file (1) comprises data characterizing the diffusivity value of the optoelectronic elements. Said control device is configured to control the diffusivity presented by the optoelectronic elements.

Description

TECHNICAL FIELD OF THE INVENTION The present invention relates to the field of light devices that can be controlled in real time and produce a series of visual effects. More particularly, this invention will find its application in the field of so-called connected objects and emitters of light animations. STATE OF THE ART The place of wireless communications in the daily lives of individuals of the twenty-first century is constantly growing, particularly through new objects called connected objects. These objects mainly have a communication system for example with the Internet and a system for transmitting information to the user. Most of these objects have a visual interaction with the user. Alongside this increase in connected objects, the involvement of the so-called smart mobile phone, called "smartphone" afterwards, is also growing. Interactions between these new connected objects and smartphones are multiplying. In particular, the user is seeking more and more technical means to stay in "visual" contact with the Internet and with its communication network.

Products offer for example a matrix of LED whose activation / deactivation and intensity are controlled so as to display a light animation. The range of visual effects obtained remains limited. The present invention aims to increase the range of visual effects available for this type of devices while maintaining reduced complexity and cost. SUMMARY OF THE INVENTION According to one aspect, the invention relates to a system comprising at least one display device comprising a plurality of light emitting diodes (LEDs) each capable of emitting light radiation in the electromagnetic spectrum visible to the human eye, characterized in that the system comprises: a digital file of luminous data comprising data characterizing, as a function of time or duration and for at least one LED, at least one of the following parameters: intensity radiation, color, activation of an LED; a device for storing and / or receiving said file; a device for reading said file; a control device configured for, depending on the reading of said file, controlling as a function of time or duration said at least one parameter of each of the LEDs or of some of the LEDs; and characterized in that: - the display device comprises one or more optoelectronic elements each associated with one or more of the LEDs of said plurality of LEDs, each optoelectronic element being configured to have a variable light diffusivity depending on the applying an electric voltage applied thereto, so as to selectively vary the diffusion through the optoelectronic element of said light radiation emitted by the associated LED (s); said file or another file comprises data characterizing, as a function of time or duration, the diffusivity value presented by each optoelectronic element or for certain optoelectronic elements; - Said control device is configured to, depending on the reading of said file or files, control as a function of time or duration the diffusivity presented by each optoelectronic element or by some of the optoelectronic elements.

Thus, this system makes it possible, by a simple reading of a digital file, to play luminous animations with varied effects. These files can be downloaded, created, saved on the system. In particular, the invention thus makes it possible to generate in a simple and particularly effective manner a blurring effect of the light produced by the LEDs. It thus allows the addition of a new degree of freedom to the luminous device allowing a greater variety of visual effects. According to a particular embodiment, the present invention relates to a protective shell for a portable communication terminal, such as for example a smartphone or a digital tablet, comprising a front face equipped with a screen, possibly touch screen and a rear face, the said shell having a front face and a rear face and being characterized in that it comprises: - A plurality of light emitting elements (LED) on at least one of its external faces. A plurality of optoelectronic elements facing said plurality of LEDs. - Means for creating, storing, receiving, transmitting and reading at least one light data file associating at each moment for each LED, or for some LEDs, at least one of the following parameters: radiation intensity, color , activation, and for each or for some optoelectronic elements, a data of "blur" corresponding to a value of opacity and / or diffusivity of the optoelectronic element. A device for controlling the LEDs and optoelectronic elements, configured for, depending on the light data file (s), for each of the LEDs or for some and / or for each of the optoelectronic elements or for some of the optoelectronic elements at each instant at least one of the following parameters: radiation intensity, color, activation for LEDs and blurring of optoelectronic elements. This new visual animation surface allows the user to have a new information display device in a dynamic and entertaining way, in addition to the usual touch screen. According to one particular embodiment, the present invention relates to a luminaire-type light emitting device characterized in that it comprises: a plurality of light emitters (LEDs); a plurality of optoelectronic elements opposite said plurality of light emitters; LED - means for storing, receiving, transmitting and reading at least one light data file associating at each moment for each LED, or for some LEDs, at least one of the following parameters: radiation intensity, color, activation, and for each or for some optoelectronic elements a "blur" data corresponding to a value of opacity and / or diffusivity of the optoelectronic element. A device for controlling the LEDs and optoelectronic elements, configured for, depending on the light data file (s), for each of the LEDs or for some and / or for each of the optoelectronic elements or for some of the optoelectronic elements at each instant at least one of the following parameters: radiation intensity, color, activation for LEDs and blur for optoelectronic elements. This type of luminaire allows the diffusion of luminous animations endowed with a rich range of visual effects. The present invention presents, according to a particular embodiment, a clever stack of various layers. The first is a printed circuit board on which an LED matrix is in physical contact. The position of the LED matrix on the printed circuit is such that its inner face is in contact with the outer face of the printed circuit board. The outer face of the LED matrix is the light emitting face. Then, an array of optoelectronic elements is located a few millimeters away from the outer face of the LED array. The LED array and the array of optoelectronic elements are physically separated. The outer face of the LED matrix is opposite the inner face of the matrix of optoelectronic elements. In physical contact with the outer face of the array of optoelectronic elements is positioned a verrine whose function is to physically isolate the LEDs and optoelectronic elements from the external environment that can degrade them, and which comprises a material transparent to light radiation. emitted by the LED array. The entire stack is arranged so that between the view of a user and the printed circuit board is the verrine, then the matrix of optoelectronic elements, and finally the matrix of LEDs. According to one aspect of the present invention, the same LED may be associated with one or more optoelectronic elements, just as an optoelectronic element may be associated with one or more LEDs. Advantageously, an LED is associated with a single and unique optoelectronic element. According to a particular embodiment, the present invention comprises a digital light animation file comprising: data characterizing, as a function of time or duration and for one or more LEDs, at least one of the parameters; following: radiation intensity, color, activation of an LED; data associating, as a function of time or duration and for each optoelectronic element or for certain optoelectronic elements, a so-called "blur" data item corresponding to a value of opacity and / or diffusivity of the optoelectronic element.

Thus, all the light information can be gathered in a file. The latter can be downloaded from, sent from, saved in the display device which will then play the light animation or the reading device allowing the display device to play.

Preferably, the file comprises at least one series of frames comprising all of said data. According to another particular embodiment, the present invention comprises at least two digital files of light animations: the first file comprising data characterizing, as a function of time or duration and for one or more LEDs, at least the one of the following parameters: radiation intensity, color, activation of an LED; The second file comprising data associating, as a function of time or duration and for each optoelectronic element or for certain optoelectronic elements, a so-called "blurring" data item corresponding to an opacity and / or diffusivity value of the Optoelectronic element. Thus, all the light information driving the LEDs can be combined in a first file, and all the information driving the optoelectronic elements are combined in a second file. Separating into two separate files makes it possible to apply the same blur effect to several different animations. Indeed, this allows the establishment of a database of light animations and a database of blur effect.

Greater flexibility in animation creation is therefore possible. According to a particular embodiment, the present invention relates to a computer program product comprising instructions, which when executed by at least one processor, performs the following steps: a. reading one or more data files including data characterizing: i. as a function of time or duration and for one or more LEDs of a display device, at least one of the following parameters: radiation intensity, color, activation of an LED; ii. as a function of time or duration, the diffusivity value presented by one or more optoelectronic elements of the display device, each optoelectronic element being configured to present a variable luminous diffusivity as a function of an electric voltage applied thereto; b. providing, according to said reading of said file (s), to the display device the data characterizing the LED parameters and the data characterizing the diffusivity value presented by the optoelectronic elements. According to a particular embodiment, the present invention relates to a computer program product, configured to read a file according to the present invention and configured to perform the following steps: a) Determination of the existence of a frame T, if the frame T does not exist then stop reading the file; b) Decrypting the data of the frame T if it exists, otherwise passing to the next frame T + 1; c) determining the existence of an object N, being an algorithmic representation of at least one LED and / or at least one optoelectronic element; d) Application of the luminous data to the and / or to the LEDs associated with the object N if these data exist, if not and / or the LEDs are extinguished; e) Application of the light data to the and / or to the optoelectronic elements associated with the object N if these data exist, if not and / or the optoelectronic elements are opaque or transparent; f) Passing to the next object, the object N + 1; g) If the object N + 1 exists back to step c, otherwise decryption of the duration D of application of the parameters of the frame T, then waiting for the duration D, then transition to the next frame, the frame T +1 with a return to step a.

According to a particular embodiment, the present invention relates to a protection device for a portable communication terminal. The protective device is for example a mobile phone shell or tablet.

The shell comprises at least one display device comprising: a plurality of light-emitting diodes (LEDs) each capable of emitting light radiation into the electromagnetic spectrum visible by the human eye; one or more optoelectronic elements each associated with one or more of the LEDs of said plurality of LEDs, each optoelectronic element being configured to have a variable luminous diffusivity as a function of an electrical voltage applied thereto, so as to make selectively vary the diffusion of said light radiation emitted by the associated LED or LEDs. The shell also includes at least one control device configured to, based on data from the reading of a digital file to control the LEDs and optoelectronic elements. The digital file comprises luminous data comprising data characterizing: - as a function of time or duration and for one or more LEDs of the display device, at least one of the following parameters: radiation intensity, color, activation of an LED; depending on the time or duration, the diffusivity value presented by one or more optoelectronic elements of the display device. Preferably, the device is configured to be mounted removably on the terminal, without tools, by simple interlocking. BRIEF DESCRIPTION OF THE FIGURES The objects, objects, as well as the features and advantages of the invention will become more apparent from the detailed description of embodiments thereof which are illustrated by the following accompanying drawings in which: FIG. a general diagram illustrating a system according to a first embodiment of the present invention; FIGURE 2 is a block diagram illustrating a system according to a second embodiment of the present invention; FIG. 3 is a diagram illustrating an algorithm for reading a light data file according to an exemplary embodiment of the invention; FIGURES 4a, 4b and 4c are diagrams illustrating the relative spatial arrangement of the plurality of LEDs and the plurality of optoelectronic elements according to one embodiment, in which the system is associated with a mobile phone. Figure 4a is a front view, Figure 4b is a sectional view and finally Figure 4c is a partial and exploded view; FIGURE 5 is a diagram illustrating a shade-type device embodying the present invention. It is a parallelepiped shaped luminaire whose four peripheral faces have display devices according to the present invention, an enlargement is performed to illustrate the arrangement of the different layers of the display devices; The drawings are given by way of examples and are not limiting of the invention. They constitute schematic representations of principle intended to facilitate the understanding of the invention and are not necessarily at the scale of practical applications. DETAILED DESCRIPTION OF THE INVENTION It is specified that in the context of the present invention, the terms "transmittance", "transparency", "opacity" or their equivalents have the definition of the capacity of a physical medium to transmit totally or partially a luminous radiation. It is specified that in the context of the present invention, the terms "brightness", "intensity of the light radiation" or their equivalents are defined as the power of the luminous flux radiated by a light emitting object, for example an LED. It is pointed out that in the context of the present invention, the term "diffusivity" or its equivalents is defined as the capacity of a physical medium to deflect in multiple directions the optical path of a light radiation passing through it. It is specified that in the context of the present invention, the term "blurring" or its equivalents have the definition of the diffusivity capacity of a medium or at least a combination of the transparency and diffusivity capacities of a medium, thus decreasing the aspect of sharpness of the light source and its intensity. It is specified that in the context of the present invention, the term "frame" or its equivalents are defined as the smallest element of an animation. It is specified that in the context of the present invention, the term "matrix" or its equivalents are defined as any periodic arrangement in the space of elements, for example LEDs or optoelectronic elements. Thus a matrix can be two-dimensional, three-dimensional, plane and / or curved, inscribed or not in a plane.

Before going into the details of preferred embodiments, in particular with reference to the figures, various options are given below, which may preferably but not exclusively be limited to the invention, these options being able to be implemented either alone or in any other way. combination between them: Advantageously, the optoelectronic elements comprise components of the type Dispersed Liquid Crystals in a Polymer (PDLC). Advantageously, the optoelectronic elements comprise components of the Liquid Crystal Screen (LCD) type. Advantageously, the plurality of LEDs form an LED array. Advantageously, the plurality of optoelectronic elements form an array of optoelectronic elements. Advantageously, the LED matrix and the matrix of optoelectronic elements are positioned so that the matrix of optoelectronic elements is between the user's eye and the LED matrix. Advantageously, the distance between the LED matrix and the matrix of PDLC elements is between 0mm and 50mm, preferably between 0mm and 20mm and advantageously between 0mm and 2mm. This distance ensures an optimal blurring effect, in fact this distance ensures a dispersion of the optical paths increased since the solid angle in contact with the optoelectronic element is larger. Advantageously, the distance between the LED matrix and the matrix of LCD elements is between 0 mm and 20 mm, preferably between 0 mm and 10 mm and advantageously between mm and 2 mm. This distance ensures an optimal blurring effect, in fact this distance ensures a dispersion of the optical paths increased since the solid angle in contact with the optoelectronic element is larger. In the case of LCD technology, the blur effect is surprising for this precise distance. Advantageously, the same control device controls an LED matrix and an array of optoelectronic elements. Advantageously, the same control device controls a plurality of LED arrays and arrays of optoelectronic elements. Advantageously, the present system comprises a wired and / or wireless reception device of said file or files. Advantageously, the reception device comprises a wireless communication port. Advantageously, the LED array and the array of optoelectronic elements are physically in contact. Advantageously, the LED matrix and the matrix of optoelectronic elements are not physically in contact. Advantageously, each LED is associated with a single and unique optoelectronic element. Advantageously, each LED is associated with several optoelectronic elements. Advantageously, several LEDs are associated with the same optoelectronic element. Advantageously, several LEDs are associated with several optoelectronic elements. Advantageously, the present system is configured to download said file from a remote device by wired and / or non-wired communication means. Advantageously, the present system comprising an editing device configured to edit said file by at least one user via a graphical interface. More specifically, the editing device is configured to provide a graphical user interface by which the user can edit or create said file. - Advantageously, the present system is configured to allow the sending of said file or files to at least one other device or to a remote server by wired and / or wireless communication means. Advantageously, the present system is configured so that the reading of said file or files generates a light animation produced by the LEDs and the optoelectronic elements. Advantageously, the file comprising the light data can be created by the user. Advantageously, the file is configured so that its reading by the reading device displays an animation. Advantageously, the light data file comprises a single animation. Advantageously, the light data file comprises several distinct animations. Preferably, the file comprises a plurality of display devices and configured for playback of said one or more files to generate animation on the plurality of display devices. Advantageously, the present system comprises a plurality of display devices. The file or files include data relating to a plurality of light animations. Reading said one or more files simultaneously generates the plurality of light animations, each display device displaying one of the light animations. - Advantageously, the reading device is remote from the display device and is configured to transmit wired and / or wirelessly to the control device information from the reading of said file or files. - Advantageously, the reading device and the control device are mechanically secured. They are integrated within the same physical object. Advantageously, the reading device is mechanically secured to the display device. Advantageously, the reading device is remote from the display device so as to communicate with each other in a wired and / or non-wired manner. Advantageously, the reading device is mechanically secured to the control device. Advantageously, the reading device is remote from the control device so as to communicate with each other in a wired and / or non-wired manner. Advantageously, the storage device is mechanically secured to the display device. Advantageously, the storage device is remote from the display device so as to communicate with each other in a wired and / or non-wired manner. Advantageously, the storage device is mechanically secured to the control device. Advantageously, the storage device is remote from the control device so as to communicate with each other in a wired and / or non-wired manner. Advantageously, the present system configured for an animation contained in a light data file to be read by the reading device and broadcast on several display devices. Advantageously, the LED matrix and the matrix of optoelectronic elements are controlled separately by at least two different control devices. Advantageously, the system comprises a protection device for a portable communication terminal. The display device at least is integrated in the protection device. According to one embodiment, the reading device is integrated in the portable communication terminal and the portable communication terminal comprises a screen different from the display device capable of providing a graphical user interface. It is typically a matrix of RGB (red green blue) pixels. According to another variant embodiment, the reading device is integrated in said protection device. Advantageously, the portable communication terminal is a mobile phone or a touch pad and the protective device is a mobile phone shell or a touch pad shell. - Advantageously, the protection device for portable communication terminal is configured to be powered by a power source from the portable communication terminal. - Advantageously, the protection device for portable communication terminal is configured to be powered by a power source included in said protection device. Advantageously, the protection device for a portable communication terminal comprises a display device controlled by a program contained in a storage space of the portable communication terminal and executed by at least one microprocessor of the portable communication terminal. Advantageously, the protection device for portable communication terminal comprises a display device controlled by a program contained in a storage space of the reading device incorporated in the display device and executed by at least one microprocessor contained in the device. ordered. - Advantageously, the protection device comprises mechanical engagement means configured to cooperate with complementary mechanical engagement means carried by the portable communication terminal so as to ensure mechanical attachment of the protection device on the portable communication terminal. The protection device comprises electrical connection means configured to cooperate mechanically with electrical connection means carried by the portable communication terminal so as to provide an electrical connection between the protection device and the portable communication terminal, said electrical connection allowing a power supply of the display device by the portable communication terminal and data communication between the protection device and the portable communication terminal. The system is further configured so that the cooperation of the mechanical engagement means causes the electrical connection of the electrical connection means. Advantageously, the present invention comprises a luminaire having a power source is wired and / or non-wired. Advantageously, the present invention comprises a luminaire comprising at least one control device integrated in said luminaire. Advantageously, the present invention comprises a luminaire comprising at least one remote control device of said luminaire. Advantageously, the present invention comprises a luminaire comprising at least one remote reading device of said luminaire. Advantageously, the present invention comprises a luminaire comprising at least one reading device integrated into a portable communication terminal. Advantageously, the present invention comprises a luminaire comprising at least one reading device integrated in said luminaire. Advantageously, the present invention comprises a luminaire comprising means for transmitting sounds. Advantageously, the present invention comprises a luminaire comprising means for transmitting distant sounds. Advantageously, the present invention comprises a luminaire comprising means for projecting luminous animations in the space environment of the invention. Advantageously, the present invention comprises a luminaire comprising several display devices, each display device being independent of the others. Advantageously, the present invention comprises a luminaire comprising a single display device. Advantageously, the present invention comprises a luminaire in which the distance between an LED matrix and a matrix of optoelectronic elements is between 0 mm and 50 mm, preferably between 0 mm and 20 mm and advantageously equal to 1 mm.

In the present invention, the system includes a display device that has an array of LEDs and an array of optoelectronic elements that can broadcast a visual animation. The controller is configured to drive the display device. The system also includes a reading device that reads a file and provides information, depending on the file data, to the controller.

In the present invention, the data file is a digital file comprising so-called luminous data, comprising data associating at each instant for each LED, or for some LEDs, at least one of the following parameters: radiation intensity, color , for activation, and for each optoelectronic element, or for certain optoelectronic elements, a so-called "blurring" data item corresponding to an opacity and / or diffusivity value and / or optoelectronic elements. Figure 1 illustrates a general scheme of operation of the present invention according to a first embodiment. A display device 100 is controlled by a control device 200. The control device 200 receives the control instructions from the reading device 300 of the light data file. This light data file is stored in a storage device 400. This file can be created and / or edited from the creation and / or editing module 600. This file can be sent and / or received by the communication device. 500 which comprises a wireless communication port 510 and / or a wired communication port 520. The wireless communication port 510 may use Bluetooth Tm and / or WiFi TM and / or GSM technology and / or any other communication technology wireless. The communication port 520 may utilize USB technology and / or other contact communication technology. According to this embodiment, all of these different devices are grouped into a single device 700, so they are mechanically interdependent. According to another embodiment, each or some of these elements are distant from each other.

FIG. 2 illustrates an embodiment of the present invention in which a first device 700 comprises a reading device 300, a file creation and / or editing device 600, a digital file storage device 400 and a reception device and / or issue 500 digital files, among others. A second 700a and a third 700b device both include a display device (110 and 120) and a controller (210 and 220). The first device 700 is configured to drive wired and / or wirelessly the second 700a and the third 700b device. According to a first version of this embodiment, a light animation is broadcast on each of the display devices 100a, 100b equipping the second and third devices, simultaneously or not.

According to a second version of this embodiment, two separate animations are broadcast on one and the other of the display devices 100a, 100b equipping the second and third devices, simultaneously or not. According to this second embodiment, the light data file may comprise at least two sets of frames, so the second device 700a may broadcast a different animation of the third device 700b. Thus, two separate animations are driven simultaneously by the same reading device 300 and simultaneously broadcast by two separate display devices.

According to another embodiment, the data file may have a number of series of frames greater than two. Thus, a single file can be used for broadcasting more than two distinct animations on more than two distinct devices from at least one reading device, and preferably from a single reading device.

FIG. 3 represents an algorithm for reading a file 1 of light data according to one embodiment of the present invention. The light data file 1 comprises a series of frames. Each frame is associated with a series of instructions concerning the luminous characteristics of an object which is an algorithmic representation representing one or more LEDs and / or one or more optoelectronic elements. These instructions include information about parameters applicable to each of these objects. Some instructions may therefore correspond to the intensity of the light radiation of each or some LEDs and / or the activation time of each or some LEDs and / or the color of each or some LEDs. Similarly, some of these instructions may correspond to the voltage to be applied to each or some optoelectronic elements so as to control their blurring capacity.

Reading file 1 has a double read loop (18 and 19). First of all, the file 1 comprises a series of frames T. Each frame T contains a series of data relating to each object N, that is to say each or at least some LEDs and each or at least some optoelectronic elements of the device . A first loop 18 reads one by one the frames T contained in said file 1. Then for each frame readout, a loop 19 reads all the instructions relating to the piloting of each object N, that is to say of each or at least some LEDs and each or at least some optoelectronic elements of the device. According to a non-limiting example, the object N represents an LED and an optoelectronic element. When reading a new file 1, the number of the frame is initialized to zero 2. If this frame exists 3, that is to say if there exists at least a first frame inscribed in said new file 1, then the data of the frame T is decrypted 4. In the case where the frame T does not exist the reading of said new file 1 ends 17.

After decryption 4 of the data of the frame T, the number of the object is initialized to zero 5. If light data exists 6, then these data are applied 7 to the LED of the object N. If no data exists this means that the LED N is off 8. The next step 9 is to evaluate the presence or absence of data concerning the optoelectronic element N. If such data exist, they are applied by means configured for this purpose. to control the blurring capacity of the optoelectronic element N. If no such data exists, the optoelectronic element is considered opaque or transparent 11. It follows the step 12 corresponding to the incrementation of the number N so as to consider the next object, the object N + 1. If the object N + 1 exists then the loop 19 starts again in step 6, in the opposite case, the duration D of application of the properties of the frame T is decrypted 14. The system then waits the duration D 15 before proceed to the next step 16 of incrementing the number T, that is to say to move to the next frame, or T + 1. Then follows a return to step 3 via the loop 18. The sequence of reading these frames corresponds to an animation. Each animation is a sequence of frames. Thus, according to this embodiment, a visual animation may correspond to a single file 1 comprising a series of frames. According to one embodiment, the user of the present invention can make himself the light data files so as to design personalized animations, as well as personalized visual effects via the device 600. This animation creation may then give rise to exchanges, shares and / or sales of light data file. According to one embodiment, the light data file can be downloaded from at least one communication network, for example the Internet, by wired and / or wireless means from and / or to a storage device 400 by the intermediate devices 510 and / or 520. Once downloaded and / or created, the file can be read by the reading device 300, or edited via the device 600.

According to another embodiment, there are two data files. A first data file makes it possible to read the control of the LED matrix. A second file allows, on reading, the control of the matrix of optoelectronic elements. This separation into two separate files allows the use of additional visual effects. Indeed, the animations applied to the matrix of optoelectronic elements from one file to another may be different. For example, the LED matrix has an animation and the matrix of optoelectronic elements applies a blurring effect to the entire animation, an effect that can be reused on other animations of the LED array. This double file system therefore increases the degree of artistic freedom of the device. The range of visual effects is increased.

FIGS. 4a, 4b and 4c show a sectional view according to section AA of an embodiment of the present invention in the form of a protective shell for a portable communication terminal, for example a smartphone or "smartphone", a digital tablet and a remote control. The present invention is incorporated in the at least one of the faces of the hull of the portable communication terminal, the front face of the terminal being equipped with a screen formed of a matrix of pixels, usually a screen touch. The present invention comprises a printed circuit 1001 supporting a matrix of LEDs 2001, 128 LEDs for example, and a set of preferably tactile buttons 5001, 3 for example, serving as control means of the device. The optoelectronic elements 3001, according to this embodiment, consist of either Polymer Dispersed Liquid Crystal (PDLC) based components or Liquid Crystal Screen (LCD) components. Depending on the choice of the type of optoelectronic components, the array distance of LED / matrix of optoelectronic elements will be different. Indeed each of these two technologies known as smart glass or "SmartGlass" in Anglo-Saxon terms, has a blurring capacity clean and different from each other. Thus, in order to obtain the best rendering in terms of visual effect, the matrix distance of LED / matrix of optoelectronic elements is judiciously chosen. In the context of the development of the present invention, it has been found that any SmartGlass technology has a blurring effect that is too little visible when the optoelectronic components are in physical contact with the LEDs. It has therefore been proposed a clever solution consisting in slightly moving the optoelectronic components of the LEDs. This solution has the advantage of reducing the number of components, the weight and the cost of the system compared to a solution based on a thickening of the optoelectronic element or on a juxtaposition of several optoelectronic element.

In the case of the use of PDLC technology, this distance is between 0mm and 50mm, preferably between 0mm and 20mm and advantageously equal to 2mm to ensure a satisfactory blur effect. In the case of the use of LCD technology, this distance is between 0 mm and 20 mm, preferably between 0 mm and 10 mm and advantageously equal to 1 mm in order to ensure a satisfactory blurring effect. The present invention illustrated according to a particular embodiment in FIGS. 4a, 4b and 4c shows a clever stack of various layers. The first being a printed circuit board 1001 on which a matrix of LED 2001 is in physical contact. The position of the LED array 2001 on the circuit board 1001 is such that its inner face is in contact with the outer face of the printed circuit board 1001. The outer face of the LED array is the light emitting face. Then, an array of optoelectronic elements 3001 is located a few millimeters away from the outer surface of the LED array 2001. The LED array 2001 and the array of optoelectronic elements 3001 are physically separated. The external face of the LED array 2001 is opposite the inner face of the array of optoelectronic elements 3001. In physical contact with the outer face of the array of optoelectronic elements 3001 is positioned a gate 4001 whose function is to physically isolate LEDs and optoelectronic elements from the external environment that can degrade them. This verrine is for example composed of a material transparent to light radiation emitted by the LED matrix. The assembly of the stack is arranged so that between the eye of a user and the printed circuit board 1001 is the canopy 4001, then the matrix of optoelectronic elements 3001, and finally the matrix of LEDs. 2001. The thickness in the direction perpendicular to the main dimension of the components of the present invention is between 0mm and 10mm, preferably between 0mm and 5mm and preferably between 0mm and 2mm.

According to one embodiment, the present invention uses a wired connection with the smartphone as a power source. According to one embodiment, the present invention is driven by a program contained in a storage space of the portable communication terminal and executed by at least one microprocessor of the portable communication terminal. This control from the portable communication terminal makes it possible to use the present invention as a display surface for animations and notifications of events occurring on the portable communication terminal for example, such as call and message notifications. electronic or any other form of notification, including linked to networks of social networks type of communication via an Internet connection for example. According to another embodiment, the present invention is driven by a program contained in a storage space of the reading device incorporated in the display device and executed by at least one microprocessor of the present invention. The use of the present invention in the form of a portable communication terminal shell provides a new display area for information, communication and entertainment. FIG. 5 illustrates an embodiment of the present invention, in which the display device is integrated in a luminaire 8000 for interior decoration for example. In the nonlimiting example illustrated by sectional view, this lamp 8000 comprises at least four animation display devices 6000 according to the present invention. The lamp 8000 has a base 7000 which can advantageously contain for example audio broadcasting means. The distance 5000 between the LED matrix (s) and the matrix (s) 30 of optoelectronic elements is preferably between 0mm and 50mm, advantageously between 0mm and 20mm and ideally equal to 18.5mm. The lamp 8000 comprises at least one printed circuit 1000 comprising at least one LED array 2000. Parallel to this printed circuit 1000, there is at least one array of optoelectronic elements 3000. The distance 5000 between the array of LEDs and the matrix of optoelectronic elements is preferably between 0mm and 50mm, advantageously between 0mm and 20mm and ideally equal to 18.5 mm. Finally, the optoelectronic element array 3000 is protected by a transparent material 4000 in the frequency range of the electromagnetic waves emitted by the LEDs. This material 4000 may for example be polymethyl methacrylate (PMMA) and / or tempered glass. The thickness of this material is preferably between 1 mm and 5 mm, advantageously between 1 mm and 2 mm and preferably equal to 1 mm. This luminaire has the advantage of broadcasting in its environment animations rich in visual effects and connected to the Internet for example, so as to inform any user of events related to social networks, for example non-limiting.

This object is therefore potentially a connected object that the user can personalize through the light data files that he can create or acquire in order to personally choose which animation corresponds to which notification, for example.

The reading, control, creation and editing devices may be modules comprising algorithms only, possibly with one or more microprocessors and memories. According to one embodiment, the present invention also incorporates an audio device for reading an audio data file so that the visual animations can be synchronized with any kind of audio data via means configured for this purpose. Thus the parameters relating to the LEDs and / or the diffusivity of the optoelectronic elements can be synchronized or be a function of audio data or an audio environment.

The invention is not limited to the embodiments previously described and extends to all the embodiments covered by the claims.

Claims (27)

REVENDICATIONS1. System comprising at least one display device (100, 6000) comprising a plurality of light-emitting diodes (LEDs) (2000, 2001) each capable of emitting light radiation into the electromagnetic spectrum visible to the human eye, characterized in that the system comprises: a digital file (1) of light data including data characterizing, as a function of time or duration and for one or more LEDs (2000, 2001), at least one of the following parameters : radiation intensity, color, LED activation (2000, 2001); a device for storing and / or receiving said file (1); a device for reading said file (1); a control device configured to, depending on the reading of said file (1), control as a function of time or duration said at least one parameter of each of the LEDs or some of the LEDs (2000, 2001); and characterized in that: the display device comprises one or more optoelectronic elements (3000, 1001) each associated with one or more of the LEDs (2000, 2001) of said plurality of LEDs (2000, 2001), each an optoelectronic element (3000, 3001) being configured to have a variable light diffusivity as a function of an electric voltage applied thereto, so as to selectively vary the diffusion of said light radiation emitted by the associated LED (s) (2000, 2001) ; said file (1) or another file comprises data characterizing, as a function of time or duration, the diffusivity value presented by each optoelectronic element or for certain optoelectronic elements (3000, 3001); said control device is configured to, depending on the reading of said file (s) (1), control as a function of time or duration the diffusivity presented by each optoelectronic element or by some of the optoelectronic elements (3000, 3001). The system of claim 1 wherein the optoelectronic elements (3000, 3001) comprise Polymer Dispersed Liquid Crystal (PDLC) and / or Liquid Crystalline Screen (LCD) components. The system of claim any one of the preceding claims wherein the plurality of LEDs (2000, 2001) form an LED array (2000, 2001). 4. System according to any one of the preceding claims wherein the plurality of optoelectronic elements (3000, 3001) form an array of optoelectronic elements (3000, 3001). A system according to any one of the preceding claims wherein the plurality of LEDs (2000, 2001) form an LED array (2000, 2001), wherein the plurality of optoelectronic elements (3000, 3001) form a matrix of LEDs. optoelectronic elements (3000, 3001) and wherein the LED array (2000, 2001) and the optoelectronic array (3000, 3001) are positioned such that the optoelectronic element array (3000, 3001) is located between the eye of a user and the LED array (3000, 3001). 6. System according to the preceding claim wherein the optoelectronic elements (3000, 3001) comprise components of the type Dispersed Liquid Crystals in a Polymer (PDLC) and wherein the distance between the LED array (2000, 2001) and the matrix d PDLC elements (3000, 3001) is between 0mm and 50mm, preferably between 0mm and 20mm and advantageously between 0mm and 2mm. The system of claim 5 wherein the optoelectronic elements (3000, 3001) comprise Liquid Crystalline Screen (LCD) components and wherein the distance between the LED array (2000, 2001) and the matrix of elements. LCD (3000, 3001) is between 0mm and 20mm, preferably between 0mm and 10mm and advantageously between 0mm and 2mm. 8. System according to any one of the preceding claims wherein each LED (2000, 2001) is associated with a single and single optoelectronic element (3000, 3001). 9. System according to any one of claims 1 to 7 above wherein in several LEDs (2000, 2001) is associated a same optoelectronic element (3000, 3001). 10. System according to any preceding claim configured to download or receive said file or files (1) from a remote device by wired and / or wireless communication means (500, 510, 520). A system according to any one of the preceding claims comprising an editing device (600) configured to provide a graphical user interface and configured to edit or create said one or more files (1) by at least one user via the graphical user interface. 12. System according to any one of the preceding claims, configured to allow the sending of said file or files (1) to at least one other device or to a remote server by means of wired and / or wireless communication (500, 510). , 520). 13. System according to any one of the preceding claims wherein the reading device (300) is remote from the display device (100, 6000) and is configured to transmit wired and / or wirelessly to the control device ( 200) information from reading said one or more files (1). 14. System according to any one of claims 1 to 12 wherein the reading device (300) and the control device (200) are integral. 15. System according to any one of claims 1 to 14 above wherein the reading device (300) is remote from the control device (200) so as to communicate between them wired and / or wireless. 16. System according to any one of the preceding claims, configured in such a way that the reading of said file or files (1) generates a light animation produced by the LEDs (2000, 2001) and the optoelectronic elements (3000, 3001). A system according to any one of the preceding claims comprising a plurality of display devices (100a, 100b, 6000) and configured to read said one or more files to generate animation on the plurality of display devices (100a, 100b, 6000). A system as claimed in any one of the preceding claims comprising a plurality of display devices (100a, 100b, 6000), wherein said file or files comprise data relating to a plurality of light animations and configured to the reading of said one or more files simultaneously generates the plurality of light animations, each display device (100a, 100b, 6000) displaying one of the light animations. 19. System according to any one of the preceding claims comprising a protection device for portable communication terminal, and wherein the display device (100) at least is integrated in the protection device. 20. System according to the preceding claim comprising the portable communication terminal, wherein the reading device (300) is integrated in the portable communication terminal and wherein the portable communication terminal comprises a screen different from the display device (100). ). 21. System according to claim 19 wherein the reading device (300) is integrated in said protection device. 22. System according to any one of the three preceding claims wherein the protection device comprises mechanical interlocking means configured to cooperate with mechanical interlocking means carried by the portable communication terminal so as to ensure mechanical fastening of the device. protection device on the portable communication terminal, wherein the protection device comprises electrical connection means configured to mechanically cooperate with electrical connection means carried by the portable communication terminal so as to provide an electrical connection between the protection device and the device. portable communication terminal, said electrical connection permitting a power supply of the display device (100) by the portable communication terminal and a data communication between the protection device and the portable communication terminal, the system being configured so that the cooperation of the mechanical engagement means causes the electrical connection of the electrical connection means. 23. System according to any one of claims 1 to 19 comprising a luminaire (8000) and wherein the display device (100, 6000) at least is carried by said luminaire (8000). 24. System according to the preceding claim wherein the distance between a matrix of LED (2000) and an array of optoelectronic elements (3000) is between 0mm and 50mm, preferably between 0mm and 20mm and preferably equal to 1mm. 25. System according to any one of the two preceding claims wherein said reading device (300) is integrated in said luminaire (8000). 26. System according to any one of claims 23 or 24 wherein at least the reading device (300) is remote from said luminaire (8000) and communicates wirelessly with the luminaire (8000). 27.Program computer product comprising instructions, which when executed by at least one processor, performs the following steps: a. reading one or more data files including data characterizing: i. as a function of time or duration and for one or more LEDs (2000, 2001) of a display device, the following parameters: radiation intensity, activation and possibly color of an LED (2000, 2001); ii. as a function of time or duration, the diffusivity value presented by one or more optoelectronic elements. 3022098 (3000, 3001) of the display device (100, 6000), each optoelectronic element (3000, 3001) being configured to have a variable light diffusivity as a function of an electrical voltage applied thereto; 5 b. providing, according to said reading of said file (s) (1), to the display device (100, 6000) the data characterizing the LED parameters (2000, 2001) and the data characterizing the diffusivity value presented by the optoelectronic elements (3000, 3001). 10