KR100259294B1 - Tuning control method - Google Patents

Abstract

PURPOSE: A tuning control method capable of receiving multi-system is to recognize a system of a received signal, and calculate a channel number according to the system, and stores the channel number in a memory. CONSTITUTION: A selecting switch selects an FS(frequency synthesizer) tuning type or a VS(voltage synthesizer) tuning type. If automatic channel memory key data is input from a key input portion, the FS tuning type or the VS tuning type is decided by state of the selecting switch. If the VS tuning type is decided, an audio intermediate frequency component is read to calculate and store a channel number by each system. IF the FS tuning type is decided, the channel number is calculated by input key data and then displayed on a screen. However, If the VS tuning type is decided, the channel number is displayed on the screen by tuning PLL(phase locked loop) data stored in an address calculated by the broadcasting system.

Description

Tuning control method that can receive multiple systems

The present invention relates to reception signal tuning control in a TV (TV) corresponding to a multi-system. In particular, by using the FS tuner to perform the VS tuning control in parallel, and also to display the channel number by VS tuning, The present invention relates to a tuning control method suitable for use in an area in which several systems coexist and a TV corresponding to multiple systems.

In general, a voltage synthesizer (VS) tuning method converts the tuning voltage and the band switching voltage according to each channel button into a digital signal, and stores them in a memory in advance. After reading the digital signal, the channel is tuned by converting the analog signal into a tuning voltage and a band switching voltage and applying it to the electronic tuner.

However, the VS tuning method has a problem in that regional compatibility is good but channel data cannot be directly tuned.

On the other hand, the Frequency Synthesizer (FS) tuning method is a method of directly tuning and tuning the local oscillation frequency of a tuner, and the phase locked loop (PLL) data value of the center frequency for each channel is predetermined in each country. Therefore, channel selection is possible only by channel data.

In other words, the FS-type tuning PLL data for each channel are stored in a memory such as a ROM, and the automatic channel memory is performed to store only a channel for receiving an actual broadcast signal. This finds a channel in which the actual broadcast signal is received among the tuning PLL data of the channel stored in the memory and stores the channel so that the channel can be directly up / down from the current signaled channel when the channel is up / down.

However, the FS tuning method described above has a problem that many countries cannot use the PLL data because the channel frequency is different for each country, so that the program is complicated and the size of the ROM is not limited.

Solving this problem is Korean Patent Application No. 90-19774 (name: Tuning Control Method) filed by the applicant, and in the region to be tuned by the FS tuning method, tuning is performed by the FS tuning method. In the region that is not tuned by the technique, the FS tuner is used to perform the tuning in the VS type, the configuration block diagram of which is shown in FIG.

Referring to FIG. 1, when channel tuning key data is output from the key input unit 12 and input to the microcomputer 13, the microcomputer 13 is FS type according to the selection state of the FS / VS type selection switch 16. Determine if it is a type In this case, when the microcomputer 13 determines to be the FS type, the PLL data of the corresponding channel according to the channel selection key data input from the key input unit 12 is converted by the channel-specific tuning data stored in the internal ROM of the microcomputer 13. The corresponding channel is tuned by applying the tuning PLL data thus calculated to the tuner 11. The output signal of the tuner 11 is applied to the intermediate frequency processor 14 and processed.

On the other hand, when the microcomputer 13 determines that it is VS type, the channel selection key data input by the key input unit 12 is recognized as a program number, and the address of the memory unit 15 is designated by the program number. Reads the channel tuning PLL register already stored at that address. When the tuning PLL data read from the memory unit 15 is applied to the tuner 11, a channel corresponding to the tuning PLL data is tuned. The output signal of the tuner 11 is applied to the intermediate frequency processor 14 and processed.

The process of storing the tuning PLL data in the memory unit 15 is as follows. That is, when the automatic channel memory key data is output from the key input unit 12 and input to the microcomputer 13, the microcomputer 13 determines whether the microcomputer 13 is the FS type or the VS type according to the selection state of the FS / VS type selection switch 16. To judge. At this time, if it is determined that the VS type, the minimum tuning PLL data value is output to the tuner 11, and all data of the memory unit 15 is reset in order to rearrange the contents of the memory unit 15 in the VS type. Then, it is determined whether there is a reception signal in the channel tuned by the tuner 11 by the current tuning PLL data. At this time, if there is a received signal, the current tuning PLL data is stored in the initial start address of the memory unit 15, and the memory address of the memory unit 15 is increased by '1'. If there is no reception signal as a result of the determination, it is determined whether the currently output tuning PLL data is the maximum value, and if it is not the maximum value, the current tuning PLL data is increased by '1' steps and output to the tuner 11. After that, the process returns to the step of determining whether the received signal exists and repeats the subsequent process. Then, when the currently output tuning PLL data reaches a maximum value, the process of storing the tuning PLL data in the above-described memory unit 15 is terminated.

Therefore, one channel is automatically provided and the tuning PLL data of the signaled channel is stored in the memory unit 15.

As described above, if there is a received signal while the tuning PLL data is changed from the minimum value to the maximum value, the tuning PLL data at that time is stored in the memory unit 15.

Then, when the channel is selected through the key input unit 12, the microcomputer 13 reads the tuning PLL data stored in the memory unit 15 as described above and applies it to the tuner 11, and the tuner 11 is inputted. Tuning Performs tuning according to the PLL data to tune the corresponding channel. The output signal of the tuner 11 is processed by the intermediate frequency processor 14.

On the other hand, when the automatic channel memory key data is output from the key input unit 12 and input to the microcomputer 13, and determined as the FS type, the automatic channel memory is implemented by the method described first.

However, the conventional tuning control method described above can perform tuning in the VS type using the FS tuner in other regions that are not tuned by the FS tuning method, thereby improving the compatibility problem for each region. There is a problem that the channel number display cannot be performed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to recognize a system of a received signal, calculate a channel number according to the system, and store the channel number in a memory. The present invention provides a tuning control method capable of receiving a multi-system.

A multi-system receiveable tuning control method according to the present invention for achieving the above object comprises a selection switch for selecting whether the FS tuning method or the VS tuning method, input channel channel key data, automatic channel memory key data, etc. 1. A tuning control method in a multi-system comprising a key input section, a tuner for tuning channels according to tuning PLL data, and a memory for storing channel tuning data in a VS system, wherein the selection switch when the automatic channel memory key data is input from the key input section. If it is determined that it is FS type or VS type according to the selection state of the channel number storage step of reading the voice intermediate frequency component and calculating and storing the channel number for each system, and whether it is the FS type according to the selection state of the selection switch. Determines whether it is VS type and calculates channel number with input key data if it is FS type Displayed on a screen and, if the type VS is calculated by the broadcasting system is characterized by the tuned channel made of an ID by displaying the channel number on the screen by the PLL data stored in the stored memory address.

1 is a block diagram of a conventional tuning control device

2 is a block diagram showing a configuration of a control apparatus for tuning a received signal in a TV corresponding to a multi-system according to the present invention.

3 is a flowchart illustrating a method of controlling a received signal tuning and displaying a channel number according to the present invention.

4 is a flowchart illustrating a process of storing tuning data and storing channel numbers according to the present invention.

5 is a flowchart illustrating a channel number operation and storage process according to the present invention.

* Explanation of symbols for main parts of the drawings

21: FS tuner 22: key input unit

23: micom 24: intermediate frequency processing unit

25 memory unit 26 voice signal processing unit

27: CPT 28: FS / VS type selector switch

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

FIG. 2 is a block diagram illustrating a multi-system receiveable tuning control device according to the present invention, and includes a key input unit 22 for inputting channel tuning key data, an FS / VS type selection switch for selecting an FS tuning method and a VS tuning method ( 28), when the channel tuning data of the VS method and the channel number are stored, and the channel selection key data of the input unit 22 is inputted, the FS / VS type selection switch 28 receives a selection signal. PLL data is calculated from the channel tuning key data and output as tuning PLL data, or channel tuning PLL data according to the channel tuning key data is read from the memory unit 25 and output as tuning PLL data, or a channel number is read. The microcomputer 23 reading from the memory unit 25 and outputting to the OSD, the tuner 21 for tuning the channel according to the tuning PLL data output from the microcomputer 23, and the output of the tuner 21. An on-screen display output from the intermediate frequency processor 24 for receiving a signal and processing the voice signal processor 26 for receiving and processing a voice signal from the intermediate frequency processor 24, and the microcomputer 23. Display (OSD) is composed of CPT (27) to receive and display the RGB signal for the input, the microcomputer (23) to perform the ROM, operation processing to store the tuning data for each channel and system of the FS method It consists of a central processing unit and an input / output interface for inputting / outputting data.

3 is a flowchart illustrating a method of controlling a received signal tuning and a channel number display process according to the present invention, FIG. 4 is a flowchart illustrating a tuning data storage and a channel number storing process according to the present invention, and FIG. 5 is a channel according to the present invention. Flow chart showing number operation and storage process.

According to the present invention configured as described above, when channel tuning key data is output from the key input unit 22 and input to the microcomputer 13 (step 301), the microcomputer 23 is in accordance with the selection state of the FS / VS type selection switch 28. It is determined whether it is an FS type or a VS type (step 302). When the microcomputer 23 determines the FS type, the PLL data of the corresponding channel according to the channel selection key data input from the key input unit 22 is calculated by the channel-specific tuning data stored in the internal ROM of the microcomputer 23. (Step 303) Then, the input channel selection key data is recognized as the channel number (step 304), and the channel number OSD is output to the CPT 27 (step 307). In addition, when the tuning PLL data calculated in step 303 is applied to the tuner 21, the corresponding channel is tuned (step 308). The output signal of the tuner 21 is applied to the intermediate frequency processor 24 and processed.

On the other hand, when it is determined that the microcomputer 23 is a VS type, the channel selection key data input by the key input unit 22 is recognized as a program number, and the address of the memory unit 25 is designated by the program number. After reading the channel tuning PLL data already stored at the address (step 305), the address of the memory section 25 is increased by '1' to read the channel number stored in the memory section 25 (step 306). The channel number OSD is output to the CPT 27 (step 307). As the tuning PLL data read in step 305 is applied to the tuner 21, a channel corresponding to the tuning PLL data is tuned (step 307), and the output signal of the tuner 21 is an intermediate frequency processor 24. Is applied to and processed.

Therefore, the selected channel number is displayed on the CPT 27 in OSD form regardless of the FS type and the VS type.

Meanwhile, the process of storing the channel number in the memory unit 25 will be described with reference to the flowcharts of FIGS. 4 and 5.

That is, when the automatic channel memory key data is output from the key input unit 22 and input to the microcomputer 23 (step 401), the microcomputer 23 receives the FS according to the selection state of the FS / VS type selection switch 28. It is determined whether it is a type or a VS type (step 402). If it is determined in step 402 that the FS type, the automatic channel memory process is performed in a conventional manner (step 403).

On the other hand, if the VS type is determined in step 402, the minimum tuning PLL data value is output to the tuner 21 (step 404), and the memory unit 25 is used to rearrange the contents of the memory unit 25 in the VS type. Are reset (step 405).

Then, it is determined whether there is a received signal in the channel tuned by the tuner 21 by the current tuning PLL data (step 406). If it is determined in step 406 that the received signal exists, the current tuning PLL data is stored in the initial start address of the memory unit 25 (step 407), and the channel number of the current signal is calculated and stored in the memory unit 25. (Step 408), the memory address of the memory unit 25 is increased by '1' (step 409).

Here, the channel number calculation and storage process of step 408 will be described in more detail with reference to FIG. 5.

That is, after the step 407 is performed, the AM data of each voice intermediate frequency component of 4.5 / 5.5 / 6.0 / 6.5 Mhz is received from the voice signal processor 26 which receives and processes only a voice signal from the intermediate frequency processor 24. Read (step 501). At this time, the current system is determined as the frequency having the largest AM data among the four frequency components (step 502). In other words, if the 4.5Mhz component is the largest, the system uses the M standard method used in South Korea and the United States. If the 5.5Mhz component is the largest, the system applies the BG standard system used in Germany, and if the 6.0Mhz component is the largest, the system is used in the UK. It is a system applying the I standard method, and the largest 6.5Mhz component is judged to be the system using the DK standard method used in Eastern Europe.

Then, assuming that the current channel number is the minimum channel number (step 503), the tuning PLL data corresponding to the current channel number and the tuning PLL data of the next channel are tuned by channel and system-specific tuning PLL of the microcomputer 23. The data is read from the stored ROM (step 504). Then, two PLL data read from the ROM are added to each other, divided by two, that is, an intermediate value of the two PLL data are calculated (step 505), and then compared with the PLL data of the current received signal (step 506).

If it is determined in step 506 that the PLL data value of the current received signal is smaller than the calculated PLL data value, the current channel number is stored in the current address of the memory unit 25 (step 5 (9)).

If it is determined in step 506 that the PLL data of the current received signal is larger than the calculated PLL data value, the current channel number is increased by '1' (step 507), and it is determined whether the channel number is the maximum channel number (step 508). ). If it is determined in step 508 that the maximum channel number is not the maximum channel number, the tuning PLL data corresponding to the current channel number and the tuning PLL data of the next channel are read by the microcomputer 23, and these two data are calculated, and then the PLL of the current received signal. The process returns to step 504 to compare with the data and repeats the process thereafter.

If the maximum channel number is determined in step 508, the maximum channel number is stored in the current address of the memory unit 25 (step 509).

On the other hand, if it is determined in step 406 that there is no received signal or after step 409 is performed, it is determined whether the currently output tuning PLL data is the maximum value (step 410), and if it is determined in step 410 that it is not the maximum value, The current tuning PLL data is incremented by '1' step and outputted to the tuner 11, and then the process returns to step 406 in which there is the received signal, and the subsequent steps are repeated (step 411). Then, when it is determined that the tuning PLL data currently output in step 410 is the maximum value, the process of storing the tuning PLL data in the memory unit 15 is terminated.

Therefore, one channel is automatically searched and the tuning PLL data and channel number of the signaled channel are stored in the memory unit 25.

As described above, if there is a received signal while the tuning PLL data is changed from the minimum value to the maximum value, the tuning PLL data at that time and the channel number corresponding to the system are calculated and stored in the memory unit 15. Therefore, when the channel is selected through the input unit 12, the microcomputer 13 reads the tuning PLL data stored in the memory unit 15 as described above and applies the tuner 11 to the tuner 11 to perform tuning according to the tuning PLL data. The channel is tuned and the output signal of the tuner 11 is processed by the intermediate frequency processing section 14, and the channel number is read from the memory section 25 and applied to the CPT 27, so that the channel number is displayed in OSD characters. Can be displayed.

As described above, according to the multi-system receiveable tuning control method according to the present invention, tuning is performed by the FS tuning method in the region tuned by the FS tuning method, and the FS tuner in other regions not tuned by the FS tuning method. In addition to improving the compatibility problem for each region by tuning to VS type using, the frequency of the largest signal of the middle voice frequency is set to the minimum channel, and if there is a signal between the current channel and the next channel, the channel number is set. By designating and storing in memory, the channel number can be displayed even in the case of VS tuning.

Claims (3)

A selector switch for selecting whether it is a frequency synthesis (FS) tuning method or a voltage synthesis (VS) tuning method, a key input unit for inputting channel tuning key data, automatic channel memory key data, and a tuner for tuning channels according to the tuning PLL data. In the received signal tuning control method for a TV corresponding to a multi-system comprising a memory for storing the channel tuning data of the VS system, When the automatic channel memory key data is input from the key input unit, it is determined whether it is FS type or VS type according to the selection state of the selection switch. Steps, It determines whether it is FS type or VS type according to the selection state of the selection switch.If it is FS type, it calculates the channel number from the input key data and displays it on the screen. And a channel number display step of displaying the channel number on the screen by the tuning PLL data. The method of claim 1, wherein storing the channel number A first step of determining whether an FS type or a VS type is determined according to a selection state of the selection switch when automatic channel memory key data is input from the key input unit; If it is determined as VS type in the first step, the tuning PLL data is increased by one step from the minimum value to the maximum value and outputted to the tuner to read the tuning PLL data and the voice intermediate frequency component of the channel with the received signal, and then the system-specific standard method is used. And a second step of calculating a channel number for each system after recognizing and designating and storing the calculated channel number sequentially from an initial address of the memory. The method of claim 1, wherein the channel number display step A first step of determining whether an FS type or a VS type is determined according to a selection state of the selection switch when automatic channel memory key data is input from the key input unit; If it is determined in the first step as the FS type, the tuning PLL data of the corresponding channel according to the channel selection key data of the key input unit is calculated and applied to the tuner, and the channel number is calculated using the input key data to convert the channel number to Cititi. The second step of applying to (CPT), If it is determined in the first step that it is VS type, the address of the memory is designated by the channel tuning key data of the key input unit, and the channel tuning PLL data stored therein is read and applied to the tuner, and the address of the memory is '1'. And increasing the channel number of the tuning PLL data stored in the memory to apply to the CPT.

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