DE10339901A1 - Mobile communications device used e.g. as a mobile telephone comprises a transparent electrically conducting layer arranged on or in front of an image recording sensor of a camera - Google Patents

Abstract

Mobile communications device (1) comprises a transparent electrically conducting layer (6) arranged on or in front of an image recording sensor (5) of a camera (4). The electrically conducting layer is connected to a circuit board (3) of the device in an electrically conducting manner.

Description

The The invention relates to a mobile communication device having at least one printed circuit board and at least one camera having an image pickup sensor having.

in the Range of mobile communication devices, such as mobile phones, smartphones, Cordless phones, MP3 players, portable radios or PDAs (PDA = personal digital assistant), the trend is that these mobile communication devices are becoming more and more contain technical components. In particular, more and more mobile communication devices equipped with cameras. At the same time, however, the volume may the mobile communication devices do not enlarge. D. H. The modern mobile communication devices should be designed with the smallest possible dimensions include various technical components. It follows inevitably that all technical components within the mobile communication device always closer together have to. The disadvantage here is that the ever closer together technical components interfere with each other electromagnetically. in this connection is the disorder between antenna and camera particularly critical, since both technical components often right next to each other or even inside each other and yourself the existing volume within the mobile communication device each other to dispute.

It There are essentially two coupling paths for the interference signals. First, the power radiation a located in the mobile communication device antenna, the for the Receiving and transmitting radio signals is responsible. The power radiation the antenna causes interference in the camera while taking pictures. On the other superimposed the clock signal of the camera with the input signal of the antenna of the mobile communication device.

The Clock signals can self-interference in the mobile communication device cause over 30 dB.

These Problems have so far been due to a complete electromagnetic shielding the camera and, if necessary, the supply lines of the camera. Ie. the entire camera and if necessary the supply lines are through enclosed special electrically conductive materials and thus shielded. In this shield, there is only a small opening for the optics the camera. The shielding of the entire camera within the mobile communication device requires additional Volume and material, which causes high costs. Furthermore, the Camera in the field of optics, especially in the field of light and thus also of the image sensor, not against electromagnetic Shielded radiation.

task The invention is the camera of a mobile communication device to save space and economical from disturbances by electromagnetic radiation of other technical components of the mobile communication device shield and the Störsignalaussendung to prevent the camera.

These The object is achieved by a mobile communication device solved with the features of claim 1.

A mobile communication device with a printed circuit board and at least one camera, which has an image sensor, with a transparent electrically conductive layer on or in front of the image sensor of the camera, wherein the transparent electrically conductive layer with a ground surface, in particular the printed circuit board of the mobile communication device electrically conductive is a space-saving and cost-effective way to shield the camera, in particular the image sensor of the camera, from electromagnetic radiation of other technical components, in particular an antenna, the mobile communication device and to prevent the Störsignalaussendung the camera. By arranging a transparent electrically conductive layer on or in front of the image sensor of the camera, on the one hand the shielding of the camera can be limited to a few areas, on the other hand just the area of the light incidence or of the image sensor can be protected from electromagnetic radiation. The transparent electrically conductive layer is advantageously located directly on the image sensor or at a small distance from it. Characterized in that the transparent electrically conductive layer is electrically conductively connected to the ground plane, in particular to the circuit board of the mobile communication device, the electromagnetic radiation energy, which acts in the region of the transparent electrically conductive layer, forwarded to the ground plane. By shielding the image sensor by the inventive transparent electrically conductive layer interference due to electromagnetic radiation of other components, in particular the antenna, which are arranged in the immediate vicinity of the camera can be prevented. In particular, the disturbing power radiation of the antenna of a mobile communication device can by the inventive transparent electrically conductive layer be derived effectively. Also, the interference emission is suppressed by the camera in the antenna. It is advantageous that the use of a transparent electrically conductive layer only the area between the transparent electrically conductive layer and the image pickup sensor must be shielded, since the electromagnetic radiation is particularly disturbing here. The lens of the camera with its mount may be outside the shield and need not be shielded. The volume of the shield can be significantly reduced compared to a shield of the entire camera and the leads of the camera. As a result, additional volume is released, whereby the mobile communication device can be made smaller, or whereby additional space for the antenna of the mobile communication device is created. The antenna can utilize the volume released outside the camera shield when constructed from nonconductive low loss material. The lateral shield is made of electrically conductive material, which is arranged in the region between the transparent electrically conductive layer and the image sensor of the camera of the mobile communication device.

A sees advantageous embodiment of the mobile communication device ago that the transparent electrically conductive layer the conclusion forms a screen chamber in which the image pickup sensor sits. Not only the transparent electrically conductive layer of the shielding chamber is electrically conductive, but also the rest of the screen chamber, in which the image sensor is seated, is made of an electrically conductive Material formed. The transparent electrically conductive layer is over the sides of the shield chamber with the ground plane, in particular the printed circuit board, of the mobile communication device electrically connected. The screen chamber is a kind of vessel with a Floor, a wall and the transparent electrically conductive Layer as the lid of the vessel. Of the The bottom and the wall of the umbrella chamber are also electrical conductive, so that a continuous electrically conductive Connection is present. The bottom of the screen chamber is in the Usually by the mass surface, d. H. the conductor gap, formed. The image sensor is seated preferably in the region of the bottom of the shielding chamber. The of the transparent electrically conductive layer received radiation energy is due to the electrically conductive connection to the ground plane, in particular forwarded to the printed circuit board, the mobile communication device. This bothers the electromagnetic radiation is not the image pickup sensor and thus not the image capture.

Especially It is advantageous if the transparent electrically conductive layer covers the image sensor. The transparent translucent electric conductive layer ensures an optimal incidence of light on the image sensor while they at the same time shielding the electromagnetic radiation. Ideal is it, when the transparent electrically conductive layer over the entire cross section of the opening the camera is running. This will be through the opening incoming electromagnetic radiation to the mass parts of the mobile communication device forwarded and thus does not affect the image sensor negative. The transparent electrically conductive layer can at their Ends to be angled in the direction of the image sensor and thus occupy part of the lateral wall of the umbrella chamber.

Further is advantageous if the transparent electrically conductive layer is arranged parallel to the image sensor. This will be the incident through the transparent electrically conductive layer Light rays are not falsified in your direction, but can be unhindered to invade the image sensor.

Prefers is the wall and the bottom of the screen chamber at a non-electric conducting carrier arranged. The image sensor is preferably located at the bottom of the non-electrically conductive carrier. The non-electrically conductive carrier is used as attachment for the electrically conductive shielding chamber, d. H. especially for the wall of the Screen chamber. The non-electrically conductive carrier can for example Be made of plastic.

According to the invention is a provided electrically conductive connection, which is the transparent electrically conductive layer with the ground plane, in particular with the printed circuit board, of the mobile communication device electrically conductive connects. The connection can be an electrical conductive contact in the form of multiple flexible and / or rigid lines be. It is particularly preferred if the electrically conductive connection the shielding chamber a sheath of the area between image pickup sensor and transparent electrically conductive layer. Ie. the area between transparent electrically conductive layer and image sensor is completely encased by an electrically conductive material. The Sheath forms the entire wall of the screen chamber and is with the transparent electrically conductive layer and the ground plane of the mobile communication device electrically connected. The jacket is ideally located directly on the printed circuit board. The screen chamber points in all Areas on an electrically conductive material, so that electromagnetic Radiation energy and electric currents on the ground plane of the communication device be derived and thus do not get into the shield chamber. The sheath preferably comprises a metal.

preferred is an embodiment the mobile communication device, wherein the transparent electrically conductive layer by a electrically conductive Contact, in particular an electrically conductive rubber, with the electric connected conductive connection. This makes it very easy a connection between the transparent electrically conductive Layer and the electrically conductive connection, in particular the sheath, create the screen chamber.

A further advantageous embodiment of the communication device according to the invention provides that the transparent electrically conductive layer on a transparent Protective layer, in particular of polyethylene terephthalate, cellulose triacetate, Polyethylenenaphthenat or glass, is arranged. The protective layer serves as a carrier layer at the same time for the transparent electrically conductive layer. Ideally, that is transparent electrically conductive layer on each side a protective layer limited. The protective layer is made of transparent Material formed, which at the same time as an infrared filter for the incoming light radiation can serve.

advantageously, For example, the transparent electrically conductive layer comprises indium tin oxide on. Layers of indium tin oxide are electrically conductive and optically transparent. The properties of the indium tin oxide layers can by the ratio of Indium to tin in the oxide can be varied. For example, the Tin percentage lowered, then increased the electrical conductivity. Depending on the size of the transparent electrically conductive layer, the conductivity of the layer by varying increased the tin content or lowered.

Advantageous it is when the transparent electrically conductive layer on the transparent protective layer printed or sputtered on. Layers of indium tin oxide can on glass or transparent plastic, such as polyethylene terephthalate, Cellulose triacetate or polyethylene naphthenate printed or sputtered become.

preferred embodiments The present invention will be described below with reference to FIG the enclosed drawings closer explained. Show it:

1 a screen chamber according to the invention for an image pickup sensor;

2 a mobile communication device having a screen chamber according to the invention for an image pickup sensor;

3 an enlarged view of the transition from transparent electrically conductive layer to the electrically conductive connection of the shielding chamber.

1 shows a shielding chamber according to the invention 2 for the image sensor 5 a camera 4 a mobile communication device 1 , The screen chamber 2 has an electrically conductive material. The screen chamber 2 is on an electrically non-conductive support 13 attached. The image pickup sensor 5 is in the floor area on the carrier 13 arranged. The printed circuit board 3 forms together with the transparent electrically conductive layer 6 and the electrically conductive connection 7 the screen chamber 2 , The transparent electrically conductive layer 6 acts as a cover of the umbrella chamber 2 , The transparent electrically conductive layer 6 is over the electrically conductive connection 7 with the ground plane 3 , in particular the printed circuit board, the mobile communication device 1 electrically connected. The electrically conductive connection 7 is a shell of the area between the transparent electrically conductive layer 6 and the image pickup sensor 5 , Electromagnetic radiation acting on the screen chamber 2 is directed through the parts of the umbrella chamber 2 namely through the transparent electrically conductive layer 6 , through the electrically conductive connection 7 as well as through the mass surface 3 of the mobile communication device 1 influenced such that the electromagnetic radiation, the image acquisition by the camera 4 and in particular, the image pickup sensor 5 not negatively affected. At the same time holds the screen chamber 2 also the disturbing camera signals back, leaving the antenna 9 not disturbed. By doing that the optical aperture of the camera 4 also has a shield of the electromagnetic radiation, namely by the transparent electrically conductive layer 6 , the dimensions of the screen chamber 2 the camera 4 be kept low. Through the transparent electrically conductive layer 6 it is sufficient if the area of the image sensor 5 through a screen chamber 2 is shielded. This creates additional volume within the mobile communication device 1 , for example, from the antenna 9 of the mobile communication device 1 can be used. With the aid of the transparent electrically conductive layer according to the invention 6 can the shield of the image sensor 5 be carried out with very small dimensions, which material costs can be saved and space for other technical components within the mobile communication device 1 is created.

In the 2 is a mobile communication device according to the invention 1 pictured, which is a camera 4 and an antenna 9 for transmitting and receiving radio signals. The screen chamber 2 surrounds only the area of the camera 4 , at the image acquisition sensor 5 is arranged. This can save space and costs. The antenna 9 of the mobile communication device 1 can be the volume released, the known solutions by shielding the entire camera 4 is taken, additionally use. The transparent electrically conductive layer 6 runs over the entire cross section of the opening 12 the optics of the camera 4 , This will cause the electromagnetic radiation passing through the opening 12 the camera 4 enters, intercepts and via electrically conductive connections 7 to the mass carrier 3 of the mobile communication device 1 forwarded. Electromagnetic radiation maxima are reduced by the shielding chamber.

3 shows an enlarged view of the area A in 1 , The transparent electrically conductive layer 6 , in particular of indium tin oxide, is between two transparent protective layers 8th arranged. The protective layers 8th serve for the mechanical protection of the transparent electrically conductive layer 6 but also to their stop. The transparent protective layers 8th can have infrared filters. The transparent electrically conductive layer 6 can on a transparent protective layer 8th printed or sputtered. The transparent electrically conductive layer 6 is via an electrically conductive contact 11 , in particular an electrically conductive rubber, with the electrically conductive connection 7 connected. The transparent electrically conductive layer 6 can also work directly with the electrically conductive connection 7 stay in contact.

Claims (10)

Mobile communication device ( 1 ) with at least one printed circuit board ( 3 ) and with at least one camera ( 4 ) comprising an image sensor ( 5 ), characterized in that a transparent electrically conductive layer ( 6 ) on or in front of the image sensor ( 5 ) the camera ( 4 ), wherein the transparent electrically conductive layer ( 6 ) with a ground plane, in particular the at least one printed circuit board ( 3 ), the mobile communication device ( 1 ) is electrically connected. Mobile communication device ( 1 ) according to claim 1, characterized in that the transparent electrically conductive layer ( 6 ) the conclusion of a screen chamber ( 2 ), in which the image sensor ( 5 ) sits. Mobile communication device ( 1 ) according to claim 1 or 2, characterized in that the transparent electrically conductive layer ( 6 ) the image acquisition sensor ( 5 ) covers. Mobile communication device ( 1 ) according to one of the preceding claims, characterized in that the transparent electrically conductive layer ( 6 ) parallel to the image sensor ( 5 ) is arranged. Mobile communication device ( 1 ) according to one of the preceding claims, characterized in that the screen chamber ( 2 ) on a non-electrically conductive support ( 13 ) is arranged. Mobile communication device ( 1 ) according to one of the preceding claims, characterized in that the electrically conductive connection ( 7 ) of the shield chamber ( 2 ) a sheath of the area between image sensor ( 5 ) and transparent electrically conductive layer ( 6 ). Mobile communication device ( 1 ) according to one of the preceding claims, characterized in that the transparent electrically conductive layer ( 6 ) by an electrically conductive contact ( 11 ), in particular an electrically conductive rubber, with the electrically conductive compound ( 7 ) connected is. Mobile communication device ( 1 ) according to one of the preceding claims, characterized in that the transparent electrically conductive layer ( 6 ) on a transparent protective layer ( 8th ), in particular of polyethylene terephthalate, cellulose triacetate, polyethylene naphthenate or glass. Mobile communication device ( 1 ) according to one of the preceding claims, characterized in that the transparent electrically conductive layer ( 6 ) Indium tin oxide. Mobile communication device ( 1 ) according to claim 8, characterized in that the transparent electrically conductive layer ( 6 ) on the transparent protective layer ( 8th ) is printed or sputtered on.