KR100550781B1 - Regional broadcasting receiving method and its broadcasting receiving device - Google Patents

Abstract

The present invention relates to a regional broadcast receiving apparatus capable of automatically receiving a designated broadcast signal even when moving over a long distance and a broadcast receiving method thereof. The regional broadcasting receiver includes an antenna unit, a tuner unit, a microcomputer, an automatic tuning signal generator, an audio amplifier unit and a speaker unit. The regional broadcasting reception method includes an M signal transmission step, a full-band frequency scan step, a data cleanup step, a current local recognition step, a selective broadcasting station signal generation step, and a tuning step.

Car, audio, broadcasting channel, tuning, signal generation,

Description

Broadcast Receiving Method by Region and Its Broadcasting Receiving Device {Method for Receiving Broadcast according to Area and Apparatus

1 is a block diagram of a regional broadcast receiving apparatus according to the present invention

2 is a flowchart of a broadcasting reception method for each region according to the present invention.

3 is a flowchart of a frequency scanning step according to the present invention.

4 is a flowchart of a data cleanup step according to the present invention.

5 is a flowchart of a current area recognition step according to the present invention.

 * Description of the symbols for the main parts of the drawings *

10: audio 12: antenna

14: Tuner part 16: Micom

18: automatic tuning signal generator 20: audio amplifier

24: Frequency scan step 26: Current area recognition step

28: broadcasting station selection step 30: tuning step

The present invention relates to a regional broadcast receiving apparatus and a broadcast receiving method thereof, and more particularly, to a regional broadcast receiving apparatus and a broadcast receiving method capable of automatically receiving a designated broadcast signal even when moving over a long distance.

General over-the-air broadcasting, such as radio and TV, uses a specific frequency determined by a channel to transmit a broadcast. Specific frequencies according to these channels are different depending on regions even in the same broadcast channel. If you want to continue to listen to the same broadcast channel when moving the area, you need to change the broadcast channel frequency according to the change of area.

Conventional broadcast receivers include a high frequency amplifier for amplifying a high frequency signal received by an antenna, a voltage controlled oscillator for generating a frequency proportional to the voltage by adjusting a variable resistor, and a high frequency amplifier matching the oscillation frequency of the voltage controlled oscillator. A mixer that outputs an output frequency, an intermediate frequency amplifier that removes adjacent signals by frequency shifting a specific frequency of the mixer, a detector that detects only the low frequency of the output frequency of the intermediate frequency amplifier, and outputs only an audible frequency; It has an automatic gain adjuster that detects the output frequency gain of and adjusts the gain of the high frequency amplifier and the intermediate frequency amplifier.

Referring to the operation of the conventional broadcast receiver, first, when a broadcast signal is received by an antenna, it is amplified to a predetermined level by a high frequency amplifier and is output to an intermediate frequency amplifier by selecting only a specific frequency through a mixer. At this time, if the mixer oscillates a specific frequency with respect to the voltage by adjusting the variable resistor to tune the broadcast desired by the user, the mixer sets a specific frequency among the output frequencies of the high frequency amplifier which matches the output frequency of the voltage controlled oscillator. Only the frequency is output to the intermediate frequency amplifier. Accordingly, the intermediate frequency amplifier removes the influence of the adjacent signal by processing the frequency input through the mixer and shifts the frequency, and the detector detects the low frequency band and outputs only the audible frequency. At this time, since the output level of the detector is variable according to the strength of the electric field, the automatic gain adjuster adjusts the gain of the high frequency amplifier and the intermediate frequency amplifier by detecting the output level of the detector.

However, the conventional broadcast receiving apparatus has a problem in that, when the long-distance movement, the strength of the tuned broadcast signal decreases rapidly, so that the broadcast cannot be listened to and thus the variable resistor is required to tune to the broadcast of the adjacent broadcast station again.

Disclosure of Invention An object of the present invention is to provide a regional broadcast receiving apparatus and a broadcast receiving method for automatically setting the same broadcast station without a separate operation such as adjusting a variable resistance during long distance travel.

In order to achieve the above object, the present invention is a regional broadcasting receiver capable of automatically receiving a designated broadcast signal even when moving over a long distance, and includes an antenna unit, a tuner unit, a microcomputer, an automatic channel signal generator, an audio amplifier unit, and a speaker unit. The antenna unit receives a broadcast signal transmitted from a broadcasting station. The tuner part is connected to the antenna part on one side and the microcomputer to the other side, and the other side is connected to the auto tuning signal generator, to tune the frequency of the broadcasting station, and to output the electric field intensity. Apply to signal generator. The automatic tuning signal generator is connected to the tuner part on one side and to the microcomputer on the other side, and does not generate an output voltage when the electric field strength value applied from the tuner part is above a certain voltage. Send voltage to microcomputer. The microcomputer stores the frequency of each broadcasting station and the output voltage corresponding to the broadcasting station in the form of a matrix, and when the output voltage of the automatic tuning signal generator is transmitted, the frequency of the desired broadcasting station is searched for and output voltage corresponding to the frequency. Is transmitted to the tuner unit. The amplifier section is connected to the tuner section on one side and the speaker section on the other side.

The regional broadcast receiving method according to the present invention includes an m signal transmission step, a full band frequency scan step, a data cleanup step, a current local recognition step, a selective broadcast station signal generation step, and a tuning step. In the meter signal transmission step, the tuner unit sends an output voltage signal according to the reception frequency strength of the broadcasting station listening on the antenna to the microcomputer. In the full-band frequency scanning step, the microcomputer receiving the output voltage signal identifies the current broadcast station, scans the entire frequency band, and stores the frequencies of the received broadcast station and the DC voltage of the corresponding broadcast station as a result of the search. In the data cleansing step, only a certain frequency among the frequencies stored in the full-band frequency scanning step is filtered. In the current region recognition step, the current region is determined by comparing a list of broadcasting stations by region and a list of received broadcasting stations. In the selected broadcasting station signal generation step, a desired broadcasting station of the determined region is searched for in a list, and a corresponding voltage signal is sent to the tuner unit. In the tuning step, the tuner tunes the frequency corresponding to the voltage signal and receives the frequency of the desired broadcasting station from the antenna.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 shows audio with a built-in regional broadcasting receiver according to the present invention. The audio 10 includes an antenna unit 12, a tuner unit 14, a microcomputer 16, an automatic tuning signal generator 18, an audio amplifier unit 20, and a speaker unit 22. The antenna unit 12 receives a broadcast signal transmitted from a broadcasting station. The tuner unit 14 is connected to the antenna unit 12 on one side, the microcomputer 16 on the other side, and the automatic tuning signal generator 18 on the other side. The tuner unit 14 tunes the frequency of the broadcasting station. The tuner section 14 has a signal meter 15. The signal meter 15 outputs an electric field intensity according to the high frequency level and applies it to the automatic tuning signal generator 18. The automatic tuning signal generator 18 is connected to the tuner unit 14 on one side and the microcomputer 16 on the other side. The automatic channel selection signal generator 18 is a trigger circuit that does not generate an output voltage when the electric field strength value applied from the signal meter 15 is equal to or higher than a constant voltage, and generates an output voltage when it is lower than or equal to a constant voltage. The output voltage generated by the automatic tuning signal generator 18 is transmitted to the microcomputer.

The microcomputer 16 detects a poor tuning condition of the tuner section, finds a desired broadcasting station corresponding to the region, and provides a new tuning condition to the tuner section. In other words, the microcomputer 16 finds the frequency of the desired broadcasting station according to the output voltage transmitted from the automatic channel selection signal generator 18. In the com of the microcomputer 16, the frequency of each broadcasting station for each region and the output voltage corresponding to the broadcasting station are stored in a matrix form. Therefore, when the frequency of the desired broadcasting station is found, the microcomputer 16 transmits an output voltage corresponding to the frequency to the tuner unit. The amplifier unit 20 is connected to the tuner unit 14 on one side and the speaker unit 22 on the other side. The speaker unit 22 converts the broadcast signal into voice. This speaker portion 40 is composed of several conventional speakers.

Referring to FIG. 2, the regional broadcasting receiving method according to the present invention includes an m signal transmitting step, a full-band frequency scanning step, a data organizing step, a current local recognition step, a selected broadcasting station signal generation step, and a tuning step.

Looking at the regional broadcast reception method as a whole, first, in the signal transmission step of the meter signal, the tuner signal meter sends an output voltage signal according to the reception frequency strength of the broadcasting station listening to the antenna to the microcomputer. Next, the microcomputer receiving the output voltage signal in the full-band frequency scan step checks the current broadcasting station and scans the entire frequency band. The frequency of the received broadcasting station and the signal meter DC voltage of the broadcasting station of the search result are stored. Next, in the data arranging step, only a predetermined frequency of the frequencies stored in the step is filtered. Next, the current region is determined by comparing the list of regional broadcasting stations stored in the current region recognition step with the list of received broadcasting stations. Finally, the microcomputer searches for a desired broadcasting station of the region determined in the above step and sends a corresponding voltage signal to the tuner unit. The tuner tunes a frequency corresponding to the corresponding voltage signal to receive the frequency of the desired broadcasting station from the antenna.

1.M signal transmission step

The tuner unit 14 tunes to the frequency of the broadcasting station that listens to the signal frequency received by the antenna 12. The signal meter 15 of the tuner unit 14 generates a small DC voltage when the signal received from the antenna 12 is weak, and generates a large DC voltage when the received signal is strong, thereby automatically selecting the signal generator 18. To transmit.

The auto-tuning signal generator 18 generates no output voltage at the output terminal when the voltage transmitted from the signal meter is greater than or equal to the predetermined voltage (V1), and generates an output voltage of 5V only when the voltage is less than or equal to the predetermined voltage (V2). Send to)

2. Full band frequency scan step

Referring to FIG. 3, when the microcomputer 16 receives the output voltage, the microcomputer 16 inputs the lowest frequency in the audio 10. When the lowest frequency is input, the microcomputer 16 transmits a signal to the tuner unit, searches whether the lowest frequency can be received, and stores the lowest frequency and the voltage corresponding to the lowest frequency. Next, search if this lowest frequency is greater than the highest frequency, and if it is greater than the highest frequency, go back to the next step, and if it is less than the highest frequency, add the unit frequency. The unit frequency is preferably 100 Hz, but is not limited thereto. The resultant frequency is transmitted back to the tuner unit 14 to check whether it can be received. As a result, the frequency and the corresponding voltage are stored. As a result, the frequency is searched again for the highest frequency, and the above process is repeated according to the magnitude.

3. Data Cleanup Step

Referring to FIG. 4, the microcomputer 16 approaches the stored broadcasting stations and the corresponding frequencies of each region. The tuner 14 searches whether the reception strength is greater than or equal to a certain value, and stores the memory in the memory if the tuner 14 is equal to or greater than the predetermined value. If the stored memory is the final memory, and if the final memory, the process returns to the next step, and if not the final memory, the tuner unit 14 searches whether the received strength is a predetermined value or more.

4. Current regional awareness level

The microcomputer 16 accesses the stored data and compares the stored frequency data with the stored frequencies by searching in the data cleansing step. That is, the list of broadcasting stations by region already stored in the memory is compared with the list of broadcasting stations searched in the above step. If there is an identical frequency, it is stored. If there is no identical frequency, it returns to the original frequency. If the stored frequency is more than 2 regions, search again and if more than 2 regions, access the top memory and search the frequency of the local broadcasting station. If there is not more than one area, access the area information and search for the frequency of the local station in the same way. Save the search results and go back to the next step.

5. Selected station signal generation step of the selected station

When the frequency of the current region and the desired broadcasting station of the region is determined, the corresponding voltage of the frequency stored in the microcomputer 16 is transmitted to the tuner unit 14.

6. Tuning Step

The tuner unit 14 uses this voltage to tune the frequency of the desired broadcast station. The tuning method is the same as a normal method.

As described above, according to the present invention, an object of the present invention can automatically tune to the same broadcast station without a separate operation such as adjustment of a variable resistance during long distance travel.

Claims (4)

delete It is a regional broadcasting receiver that can automatically receive the designated broadcasting signal even in long distance travel. If you have an antenna, a tuner, a microcomputer, an automatic tuning signal generator, an audio amplifier and a speaker, The antenna unit receives a broadcast signal transmitted from a broadcasting station, The tuner part is connected to the antenna part on one side, and is connected to the microcomputer on the other side, and the other side is connected to the automatic tuning signal generator, to tune the frequency of a broadcasting station, and to adjust the electric field intensity. Output to the automatic tuning signal generator, The automatic tuning signal generator is connected to the tuner unit on one side and to the microcomputer on the other side, and does not generate an output voltage when the electric field strength value applied from the tuner unit is greater than or equal to a constant voltage. Sends the output voltage to the microcomputer, The microcomputer stores the frequency of each broadcasting station for each region and the output voltage corresponding to the broadcasting station in the form of a matrix. When the output voltage of the automatic tuning signal generator is transmitted, the frequency of the desired broadcasting station is searched for and corresponds to the frequency. Sends an output voltage to the tuner, The amplifier unit is connected to the speaker unit at one side and the tuner unit at the other side, And the tuner section further comprises a signal meter, and the signal meter outputs the electric field strength and applies the signal to the automatic tuning signal generator. 3. The regional broadcasting receiver as claimed in claim 2, wherein the automatic tuning signal generator is a trigger circuit. delete

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