KR20080049872A - Preamp for receiver - Google Patents

Abstract

A preamplifier for a receiver is provided to receive light emitted from an external transmitter through plural small light receiving units instead of a light receiving unit, thereby reducing the size of the preamplifier for the receiver and increasing the light receiving rate. A preamplifier for a receiver comprises plural light receiving units(110), a PCB(Printed Circuit Board), and an IC(Integrated Circuit). The plural light receiving units receive light emitted from a remote transmitter and output electric signals based on the received light. The PCB outputs a control signal for controlling a device on the basis of the outputted electric signals. The IC receives the electric signals outputted from the plural light receiving units, and amplifies and outputs the received electric signals.

Description

Preamplifier of the receiver {PREAMP FOR RECEIVER}

1 is an exploded perspective view of a preamplifier of a receiver according to the prior art.

2 is a cross-sectional view illustrating a preamplifier of a receiver according to the present invention.

3A and 3B are cross-sectional views illustrating a comparison between a preamplifier of a receiver according to the present invention and a preamplifier of a receiver according to the prior art.

*** Explanation of symbols for main parts of drawing ***

110: light receiving lens 120: light receiving diode

130: integrated circuit 140: printed circuit board

The present invention relates to a receiver preamplifier. In particular, the receiver preamplifier receives light emitted from an external transmitter through a plurality of small light receiving units instead of one light receiving unit, thereby reducing its own volume and increasing a light receiving rate. It's about the amplifier.

In general, a preamplifier of a receiver receives a light (eg, infrared) signal from an external remote transmitter (eg, a remote control of a television) that is operated according to a user's needs, and transmits the transmitted light signal. It is a device that remotely controls the operation of various home appliances (TV, VT, etc.) by converting into a signal.

The preamplifier of the receiver according to the prior art operating as described above is shown in FIG.

1 is an exploded perspective view of a preamplifier of a receiver according to the prior art.

As shown in FIG. 1, the preamplifier of the receiver according to the prior art includes a shield case 10 having a light receiving window W formed on a front surface of the receiver for attenuating electrical noise, and inserted into the shield case 10. And a printed circuit board 40 equipped with a light receiving element 20 and a semiconductor element 30 for converting an optical signal into an electrical signal. Here, a plurality of terminal connection holes 60 are formed at one side of the printed circuit board 40. A plurality of lead terminals 50 serving as circuit connecting means are inserted into the terminal connection hole 60 and soldered to the printed circuit board 40 to form a preamplifier of the receiver.

However, the preamplifier of the receiver according to the prior art as described above manufactured the shield case 10 and the printed circuit board 40 as separate component forms, respectively, and then the printed circuit board 40 to the shield case 10. It is a structure that is assembled to be accommodated in the inside, not only does it cause a lot of trouble in the manufacturing process due to such individual parts manufacturing, but also a problem of unnecessary material cost loss due to a considerable increase in the volume according to the assembly of the parts, as well as a considerable trouble in handling. It was to have a lot. In addition, the conventional lead terminal 50 as described above is formed only of a simple iron core structure and does not have a separate auxiliary connecting means, such a lead terminal 50 to be connected to the circuit board 40 In this case, it was necessary to form the terminal connection hole 60 on the circuit board 40, which not only caused a problem of increasing the manufacturing cost of the component due to the cumbersome work process according to the terminal connection hole 60 formation. However, even in the coupling relationship, since the terminal connection hole 60 must be constituted, a considerable structural problem is caused in use. In addition, the conventional lead terminal 50 has a structure that is inserted and connected to the terminal connecting hole 60 as described above, if the length of the inserted lead terminal 50 is not finely adjusted lead terminal 50 ) Penetrates through the terminal connection hole 60 and protrudes to the outside, and thus the joining surface has a very irregular joining shape and the fixing becomes unstable, so there is always a significant use problem that degrades the durability of the product. It was to let.

The invention devised later to solve the above problems is a preamplifier of a receiver implemented by integrally configuring a shielding film for noise removal with a printed circuit board and molding the same. The preamplifier of such a receiver can reduce manufacturing costs, solve manufacturing process hassles, and prevent unnecessary resource waste. Details of this are described in detail in Application No. 20-1999-0010777.

On the other hand, with the development of technology, the miniaturization of electronic devices, and the appearance design becoming more important than ever, the demand for the preamplifier of the receiver which is not only compact, slim but also has a high light receiving rate is greatly increased. Is the reality.

However, the invention described in Application No. 20-1999-0010777 has a problem that it is insufficient to be installed and used in an electronic device which is miniaturized in terms of volume and light receiving rate.

Accordingly, the present invention has been made to solve the above problems, and by receiving light emitted from an external transmitter through a plurality of light receiving units having a small volume, it is possible to reduce its own volume and increase the light receiving rate of the receiver. To provide an amplifier. That is, the preamplifier of the receiver according to the present invention can be installed in a state hidden inside the small volume of the small electronic device without being exposed to the outside, there is a great advantage in slimming and miniaturization of the electronic device.

In addition, the objects and features of the present invention will be described in detail in the configuration and claims of the invention below.

A preamplifier of a receiver according to the present invention for achieving the above object comprises: a plurality of light receiving units for receiving light emitted from a remote transmitter and outputting an electrical signal based on the received light; It includes a printed circuit board for outputting a control signal for controlling the device based on the output electrical signal.

In addition, the preamplifier of the receiver according to the present invention preferably further includes an integrated circuit which receives the electrical signals output from the plurality of light receiving units and amplifies and outputs the received electrical signals.

The light receiving unit may include a light receiving diode; And a light receiving lens formed on the light receiving diode to collect incident light on the light receiving diode. Here, the light receiving unit is preferably implemented in two.

Here, the preamplifier of the receiver according to the present invention configured as described above may receive a light emitted from an external transmitter through one light receiving unit, and receive a plurality of small volume light receiving units to significantly reduce its own volume. Not only can there be an advantage to increase the light receiving rate.

Therefore, the preamplifier of the receiver according to the present invention can be installed inside, without being partially exposed to the outside of the small sized small electronic device, and has a great advantage in slimming down and miniaturizing the electronic device.

Hereinafter, a preferred embodiment of the preamplifier of the receiver according to the present invention configured as described above will be described in detail with reference to FIGS. 2 to 3. Here, the light receiver of the preamplifier of the receiver according to the present invention may be implemented in two or more, but the embodiment according to the present invention described below is a case where there are two light receivers of the preamplifier of the receiver.

2 is a cross-sectional view illustrating a preamplifier of a receiver according to the present invention.

As shown in FIG. 2, the preamplifier of the receiver according to the present invention includes a plurality of light receiving lenses 110 for collecting light incident from a remote transmitter RT into a predetermined region; A plurality of light receiving diodes 120 outputting an electrical signal based on the light collected through the light receiving lens; An integrated circuit 130 for receiving an electrical signal output through the plurality of light receiving diodes 120 and amplifying and outputting the received electrical signal; And a printed circuit board 140 for outputting a control signal for controlling the device based on the amplified and output electrical signal.

As described above, the light receiving lens 110 and the light receiving diode 120 may be implemented as two or more, but preferably two.

Although the shape of the light receiving lens 110 is shown as a hemispherical shape in this embodiment, the light incident lens 110 may be formed in the form of collecting light incident into a specific area into the light receiving diode 120.

The light receiving diode 120 generates an electrical signal through incident light. Here, the process of generating the electrical signal by receiving the light receiving diode 120 is already well known, and in this description, the process of generating the electrical signal by the light receiving diode 120 is omitted.

In the case of two or more light receiving units implemented by the light receiving diode 120 and the light receiving lens 110, in particular, two as in the present embodiment, the preamplifier of the receiver according to the present invention maintains a desired light receiving rate. Its height is lower than that of the receiver's preamp. Therefore, the present invention is advantageous in making the device slim, miniaturized, and the like. In addition, the present invention not only reduces the height, but also improves the light receiving rate.

The integrated circuit 130 receives an electrical signal output from the plurality of light receiving diodes 120 and amplifies and outputs the electrical signals. In this case, the integrated circuit 130 may be implemented as one in order to reduce the size and size of the device. That is, the integrated circuit 130 is implemented as one, and amplifies the electrical signals output from the plurality of light-emitting diodes 120 as one.

The printed circuit board 140 receives an electrical signal output from the integrated circuit 130 and generates a control signal for controlling a device in which a preamplifier of the receiver is installed.

For example, in the case of a television, a signal for controlling volume, channel, color, and the like is generated.

Here, the printed circuit board 140 is preferably formed integrally with the shield film for removing external noise. Since the integrated circuit board 140 and the shield film are not essential to the present invention, a detailed description thereof will be omitted.

Hereinafter, the operation of the preamplifier of the receiver according to the present invention configured as described above will be described in detail.

First, when light is output from a light source (for example, a light emitting diode) of an external remote transmitter (RT), the light is output through the plurality of light receiving lenses 110 as indicated by the arrow. Gathered toward the light-receiving diode 120.

Subsequently, the plurality of light-emitting diodes 120 that are collected by shining light generate an electrical signal due to the light.

The integrated circuit 130 collects electrical signals generated from the plurality of light receiving diodes 120 into one, amplifies it, and outputs the amplified signals.

For example, when a television viewer operates a remote control to turn up the volume while watching a broadcast, the remote control emits infrared light through its own control operation.

In this case, the emitted light is integrated into the plurality of light receiving diodes through the plurality of light receiving lenses, and the plurality of light receiving diodes generate an electrical signal through the integrated light.

The integrated circuit receives and amplifies electrical signals generated through the plurality of light receiving diodes and outputs the amplified signals.

The printed circuit board receives an electrical signal output from the integrated circuit, analyzes / decodes it, recognizes the received electrical signal as a control signal for raising the volume, and raises the volume of the television.

Features of the present invention that are distinguished from the prior art implemented as implemented as described above will be described in detail with reference to FIG. 3.

3A and 3B are cross-sectional views illustrating a comparison between a preamplifier of a receiver according to the present invention and a preamplifier of a receiver according to the prior art.

As shown in Figures 3b and 3c, the present invention is different from the preamplifier of the receiver according to the prior art by using two small light-receiving lenses and light-receiving diodes in a row instead of one large light-receiving lens and light-receiving diodes The thickness is thinner and smaller.

That is, the present invention has significantly reduced its height and volume compared to the prior art, while maintaining or having the same light receiving rate as that of the receiver of the preamplifier of the receiver according to the prior art. In addition, by implementing one integrated circuit for amplifying the electrical signal generated from the light receiving unit, the volume can be further reduced.

As described above, the preamplifier of the receiver according to the present invention can receive its light emitted from an external transmitter through a plurality of light receiving lenses and light receiving diodes, which can reduce its volume and increase the light receiving rate. There is an advantage to that. Therefore, the preamplifier of the receiver according to the present invention can be installed inside without being partially exposed to the outside of the small volume electronic device, and is also suitable for slimming and miniaturization of the electronic device.

On the other hand, while described above with reference to the preferred embodiment of the present invention, those skilled in the art various modifications of the present invention without departing from the spirit and scope of the invention described in the claims below And can be changed.

As described above, the preamplifier of the receiver according to the present invention receives light emitted from an external transmitter through a plurality of light receiving units having a small volume, thereby reducing its own volume and increasing the light receiving rate. have. Therefore, the preamplifier of the receiver according to the present invention is suitable for slimming and miniaturizing the device.

Claims (4)

A plurality of light receiving units which receive light emitted from a remote transmitter and output an electrical signal based on the received light; And a printed circuit board configured to output a control signal for controlling the device based on the output electrical signal. The method of claim 1, And a single integrated circuit which receives the electrical signals output from the plurality of light receiving units, and amplifies and outputs the received electrical signals. The method of claim 1, The light receiving unit includes a light receiving diode; And a light receiving lens formed on the light receiving diode to collect incident light on the light receiving diode. The method of claim 1, The preamplifier of the receiver, characterized in that the plurality of light receiving unit.

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