KR100808163B1 - Apparatus for alarming of received signal - Google Patents

Abstract

The present invention relates to an apparatus for alerting a received signal through a satellite, and in particular, when a user positions a satellite antenna in a direct television set top box (STB), a sound effect according to the strength of the satellite signal is included in the CPU ( Generated using a general processing unit or other integrated circuit (IC) general port input / output, eliminating the need for a separate storage medium or sound source IC to implement sound effects, as well as NPN and PNP. The switching unit is composed of a transistor of a type to selectively output the effect sound, thereby eliminating the need for a separate audio switch IC for outputting the sound effect. Therefore, the sound effect according to the satellite signal strength can be generated economically and efficiently.

Satellite antenna positioning, sound effect

Description

Apparatus for alarming of received signal}

1 is a conceptual diagram of a reception signal alarm device according to the present invention

2 is a configuration diagram in which a low pass filter is added to the reception signal alarm device of FIG.

3 is a detailed circuit diagram of the low pass filter of FIG.

4 is an actual conceptual diagram of a reception signal alarm device according to the present invention;

* Explanation of symbols for the main parts of the drawings

101: general input / output port (GPIO) 102: switching unit

200: low pass filter

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reception system using satellites, and more particularly, to a reception signal alarm device for displaying a signal strength sound effect in a direct television set-top box.

One of the satellite receiving systems, Direct TV STB, has a signal strength menu showing the strength of the current satellite signal.

The menu displays the strength of the satellite signal according to the current antenna position on the screen when the user positions the satellite antenna. At this time, since the positioning of the satellite antenna is usually performed outdoors, the user cannot see the screen displaying the signal strength. Therefore, in general, the menu gives an effect sound according to the signal strength so that the user can position without looking at the screen.

There are various ways to implement the sound effect. The most common method is to store short sound effects and decode them.
However, the above method requires a storage medium or a flash memory for storing the sound effects, and also inputs the sound effects to the interface of the audio decoder. This usually requires glue logic to match the interface.
In addition, there is a method using a separate sound source IC, but in this case it is uneconomical because a separate sound source IC is required.

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SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a reception signal alarm device for generating an effect sound according to satellite signal strength economically and efficiently by using a general input / output port existing in a receiver. .

The reception signal alarm apparatus according to the present invention for achieving the above object, the control unit for detecting the strength of the satellite signal according to the position of the current antenna when the user positions the satellite antenna and outputs a control signal accordingly (Eg, CPU); At least one input / output port for generating a square wave whose period varies according to a control signal of the controller; And a switching unit which is turned on / off under the control of the controller and outputs a square wave output through the input / output port to an audio final output terminal.
In this case, the apparatus may further include a low pass filter for removing high frequency components of the square wave output from the input / output port.

The input / output port may be a general input / output port of the controller or other IC.

The square wave output from the input / output port may be a square file of an audible band. In this case, the audible band may be 500 Hz to 4 KHz.

The switching unit may be turned on only during satellite antenna positioning and turned off for normal audio output during the rest.

Other objects, features and advantages of the present invention will become apparent from the detailed description of the embodiments with reference to the accompanying drawings.

Hereinafter, with reference to the accompanying drawings illustrating the configuration and operation of the embodiment of the present invention, the configuration and operation of the present invention shown in the drawings and described by it will be described as at least one embodiment, By the technical spirit of the present invention described above and its core configuration and operation is not limited.

1 is a conceptual diagram of a reception signal alarm device according to the present invention, which is referred to as a general port input / output (hereinafter referred to as GPIO) of a central processing unit (hereinafter referred to as a CPU) or other IC. It shows an example of generating the effect sound using.

That is, when the user positions the satellite antenna, the CPU detects the strength of the satellite signal according to the position of the current antenna, and transmits a square wave signal of a certain period according to the detected signal strength to the GPIO 101 of the CPU or other ICs. Send through.

In this case, the square wave signal is a square wave signal converted into an audible band, and the period of the square wave signal varies according to signal strength. That is, the period of the square wave can be adjusted by adjusting the high and low times of the signal output through the GPIO 101.

In this case, when the frequency of the square wave is output below 20 KHz, which is an audible frequency, the sound becomes audible to human.

In this case, the frequency of the square wave should be less than 20KHz, which is an audible band, but it is more effective to set it to 500 Hz to 4 KHz, which is the most audible part of human hearing. In the section of 500 Hz to 4 KHz, the frequency of the square wave increases due to the characteristics of the human hearing curve.

The square wave of the audible band is output to the audio final output terminal through the switching unit 102 and the DC coupling capacitance (C).

The switching unit 102 is only turned on during satellite antenna positioning, and is turned off for the output of a normal audio signal during the rest, and is usually turned on / off under control of the CPU.

As described above, the signal strength effect sound of the DirecTV STB can be simply implemented by using the square wave below the audible band.

In this case, the square wave includes a high frequency component that sounds sharp. Such high frequency components may be removed using a low pass filter as shown in FIG. 2.

FIG. 2 is a block diagram illustrating a reception signal alarm device of the present invention to which a low pass filter is added, and FIG. 3 is a detailed circuit diagram of the low pass filter, in which a low pass is connected by connecting a resistor R and a capacitance C in parallel. Configure the filter.

Referring to FIG. 2, when a square wave of an audible band according to the satellite signal strength output through the GPIO 101 of the CPU or other ICs is low-pass filtered through the RC element as shown in FIG. The removed signal is output to the switching unit 102.

4 is an exemplary configuration of the reception signal alarm device according to the present invention. By using the switching unit 102, an effect sound generation circuit can be simply implemented without using a separate audio switch IC.

In this case, the switching unit 102 includes a PNP type transistor SW1 turned on / off by a second GPIO GPIO2 and an NPN type transistor SW2 turned on when the PNP transistor SW1 is turned on. do. Here, the emitter terminal of the PNP transistor SW1 is connected to GPIO2, the base terminal is connected to ground, and the collector terminal is connected to the base terminal of the NPN transistor SW2. The collector terminal of the NPN transistor SW2 is connected to the first GPIO GPIO1, and the emitter terminal is connected to the output terminal of the audio circuit through the capacitance C1. Here, the non-described resistors R1 to R3 are for bias and the capacitances C1 and C2 are for DC coupling.

The first and second GPIOs GPIO1 and GPIO2 may be either input / output ports of the CPU or other ICs, and output high or low signals under control of the CPU.

The second GPIO GPIO2 outputs a high signal only by the control of the CPU during positioning of the satellite antenna. When the high signal is output from the GPIO2, the PNP transistor SW1 is turned on. When the PNP transistor SW1 is turned on, the NPN transistor SW2 is also turned on, and the square wave output from the GPIO1 is output to the audio final output terminal through the NPN transistor SW2.

When the satellite antenna positioning is completed, the GPIO2 outputs a low signal under the control of the CPU. When the low signal is output from the GPIO2, the PNP transistor SW1 is turned off. When the PNP transistor SW1 is turned off, the NPN transistor SW2 is also turned off, and even though a square wave is output from the GPIO1, the PNP transistor SW1 is turned off and is not output to the final audio output terminal.

At this time, even if the normal audio signal output from the audio circuit has a negative potential lower than the threshold voltage of the NPN transistor SW2 at the audio final output terminal, the switching unit 102 is turned on because the PNP transistor SW1 is turned off. Rather, it remains in a floating state. In addition, when the audio final output stage has both potentials, the NPN transistor SW2 is turned off, so that the effect sound is cut off instead of being output to the audio final output stage.

On the other hand, the present invention can be used as a method of making a sound effect in the menu of a digital TV, a conventional TV or other home appliances.

In addition, the device for implementing the sound effect proposed in the present invention can be used in game machines or other products that require a simple sound effect.

As described above, according to the reception signal alarm device according to the present invention, by using the GPIO of the CPU or other IC to generate the sound effect according to the signal strength of the direct TV STB, a separate storage medium or sound source IC for It is not necessary.

In addition, the switching unit is composed of NPN and PNP type transistors to selectively output the effect sounds, thereby eliminating the need for a separate audio switch IC for outputting the effect sounds.

Therefore, the sound effect according to the satellite signal strength can be generated economically and efficiently.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (6)

In the reception signal alarm device of a reception system for receiving a signal using a satellite, A control unit which detects the strength of the satellite signal according to the current antenna position and outputs a control signal when the user positions the satellite antenna; An input / output port for generating an arbitrary waveform according to a control signal of the controller; And And a switching unit which is turned on / off under the control of the controller and outputs a waveform output through the input / output port to an audio final output terminal. The method of claim 1, And a low pass filter for removing high frequency components of the square wave output from the input / output port. The method of claim 1, And the input / output port is a general input / output port of the controller or other IC. The method of claim 1, And wherein the arbitrary waveform generated at the input / output port is a square wave in an audible band. The method of claim 4, wherein Wherein said audible band is between 500 Hz and 4 KHz. The method of claim 1, Said switching part being on only during satellite antenna positioning and off for normal audio output during the remainder.

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