KR19990042775A - Auto Tuning Method of Broadcast Receiver - Google Patents

Abstract

The present invention relates to an automatic tuning method of a broadcast receiver for tuning a center frequency of a channel to be tuned to a tuner using the AFT voltage after detecting an AFT voltage while varying a frequency applied to a tuner. A first step of detecting an AFT voltage while varying a frequency by a predetermined variable frequency from one side end of a predetermined frequency band corresponding to a channel; A second step of determining whether the AFT voltage detected in the first step is a narrow AFT having a negative slope; When the AFT voltage becomes a narrow AFT as a result of the determination in the second step, the AFT voltage is detected while varying the frequency by a predetermined step frequency to a value smaller than the variable frequency to the frequency applied to the tuner when the narrow AFT becomes the narrow AFT. Third step; A fourth step of determining whether the AFT voltage detected in the third step is within a predetermined predetermined voltage range; A fifth step of tuning the tuner to a frequency applied to the tuner when the AFT voltage is detected within the preset predetermined voltage range as a result of the determination in the fourth stage; By providing an automatic tuning method for a broadcast receiver comprising a, it is possible to reduce the time required for automatic tuning.

Description

Auto Tuning Method of Broadcast Receiver

The present invention relates to a broadcast signal reception method of a broadcast receiver, and more particularly, to a broadcast receiver capable of reducing the time required to tune a tuner to a center frequency of a channel to be tuned. The automatic tuning method.

In general, broadcasting receivers including radio broadcasting and television broadcasting are broadcast in various frequency bands, that is, multiple channels. In order to receive signals in these frequency bands, a tuner is provided at a center frequency of a frequency band to be received. It should be synchronized.

In the NTSC (Frequence Syncronizing) method, the AFS (Auto Fine Tunning) voltage is used to synchronize the tuner of the receiver to the center frequency of each channel. It will be described schematically with reference to Figure 1 as follows.

FIG. 1 is a block diagram illustrating a general automatic tuning device, and includes a key input unit 100, a microcomputer 200, a storage unit 300, a tuner unit 400, and an AFT voltage detector 500.

Referring to the figure, after storing the PLL data for tuning the center frequency of each channel in the storage unit 300 provided in the apparatus for receiving a broadcast signal, if the user selects a predetermined channel, the microcomputer 200 Referring to the data stored in the storage unit 300, the PLL data corresponding to the channel selected by the user is applied to the tuner unit 400.

On the other hand, a phase lock loop is formed in the tuner 400, and the frequency signal of the channel selected by the user is received by controlling the oscillation frequency based on the PLL data applied from the microcomputer 200. Will be done.

In practice, however, the frequency of broadcasting varies from channel to channel, depending on the characteristics of the transmission equipment of the local broadcasting station, or the frequency control oscillator. It is necessary to change the oscillation frequency of.

To this end, in the related art, the tuner unit 400 is controlled by the ATF voltage detector 500 while changing the PLL data output from the microcomputer 200 to change the reception frequency in units of step frequency (Step Frequency = 62.5KHz or 31.25KHz). An AFT voltage corresponding to the signal level received at was detected and provided to the microcomputer 200.

The microcomputer 200 refers to the AFT voltage provided by the AFT voltage detector 500, and detects the frequency having the best reception state, that is, the center frequency of the reception frequency band, and then tunes the tuner 400 to be fixed to the detected center frequency. ) Was controlled.

However, in such a conventional method, there is a problem that it takes too much time to adjust to the actual center frequency because the unit of the step frequency is too small when the error between the actual center frequency and the PLL data is severe.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a channel tuning method for varying units of step frequency for each area of an AFT waveform.

The present invention for achieving the above object, after detecting the AFT voltage while varying the frequency applied to the tuner, the automatic tuning of the broadcast receiver for tuning the tuner to the tuner the center frequency of the channel to be tuned using the AFT voltage A method comprising: a first step of detecting an AFT voltage while varying a frequency by a predetermined variable frequency from one end of a predetermined frequency band corresponding to a channel to be tuned; A second step of determining whether the AFT voltage detected in the first step is a narrow AFT having a negative slope; When the AFT voltage becomes a narrow AFT as a result of the determination in the second step, the AFT voltage is detected while varying the frequency by a predetermined step frequency to a value smaller than the variable frequency to the frequency applied to the tuner when the narrow AFT becomes the narrow AFT. Third step; A fourth step of determining whether the AFT voltage detected in the third step is within a predetermined predetermined voltage range; A fifth step of tuning the tuner to a frequency applied to the tuner when the AFT voltage is detected within the preset predetermined voltage range as a result of the determination in the fourth stage; It provides an automatic tuning method of a broadcast receiver comprising a.

1 is a block diagram showing a general automatic tuning device;

2 is a detailed flowchart illustrating an automatic tuning method of a broadcast receiver according to the present invention;

3 is a waveform diagram showing a general AFT waveform;

<Description of Symbols for Main Parts of Drawings>

100: key input unit 200: microcomputer

300: storage unit 400: tuner unit

500: AFT voltage detector

The above and other objects and advantages of the present invention will become more apparent from the preferred embodiments described below with reference to the accompanying drawings.

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

1 is a block diagram illustrating a general automatic tuning device, and includes a key input unit 100, a microcomputer 200, a storage unit 300, a tuner unit 400, and an AFT voltage detector 500. In order to perform the automatic tuning method of the broadcast receiver according to the present invention, each of the following functions is performed.

First, the key input unit 100 is formed to include a plurality of channel selection keys such as a number key or a direction key, and generates and provides a key signal corresponding to a user's key operation to the microcomputer 200.

The microcomputer 200 controls the overall operation of the broadcast receiver in response to the signals provided from each of the key input unit 100 and the constituent members of the broadcast receiver. In particular, when the channel selection key signal is applied from the key input unit 100, the microcomputer In operation 200, the PLL data corresponding to the key signal is extracted from the storage 300 and provided to the tuner 400. In addition, the microcomputer 200 adjusts the PLL data provided to the tuner 400 with reference to the AFT voltage provided by the AFT voltage detector 500 to tune the tuner 400 to the carrier frequency.

In the storage unit 300, PLL data capable of tuning the center frequency of each channel is preset and stored.

The tuner unit 400 includes a phase lock loop (not shown), and by controlling the oscillation frequency of the voltage controlled oscillator (not shown) according to the PLL data applied by the microcomputer 200, Receive the frequency signal of the channel selected by the user.

The AFT voltage detector 500 detects the AFT voltage of the intermediate frequency IF signal output from the tuner 400 under the control of the microcomputer 200, and provides the detected voltage to the microcomputer 200.

Hereinafter, an automatic tuning method of a broadcast receiver according to the present invention implemented in an automatic tuning apparatus for a general broadcast receiver including a component that performs the above-described function will be described with reference to FIGS. 2 and 3.

2 is a detailed flowchart illustrating an automatic tuning method of a broadcast receiver according to the present invention, and FIG. 3 is a waveform diagram of the AFT voltage detected by the AFT voltage detector 500. FIG. After briefly describing the waveform of the illustrated AFT voltage, the present invention will be described with reference to FIG. 2.

Referring to FIG. 3, a portion indicated by diagonal lines, that is, a predetermined predetermined AFT voltage range is called dead zone, and a portion where a slope of the AFT voltage waveform is negative (-) is narrow AFT (Narrow AFT), The other area is called a wide AFT. In this case, as can be seen from the diagram, when the AFT voltage output from the tuner is a narrow AFT and is located in the dead band, it can be seen that the tuner is tuned to the best state, that is, the center frequency.

Hereinafter, the automatic tuning method of the broadcast receiver according to the present invention will be described taking the case where channel 3 is tuned as an example of the present invention. However, other channels can be easily changed.

In FIG. 2, when a channel key signal is applied from the key input unit 100 (S 10), the microcomputer 200 refers to the PLL data previously stored in the storage unit 300, and the channel key applied from the key input unit 100. PLL data corresponding to the signal is extracted and the extracted PLL data is applied to the tuner unit 400 (S20). That is, a key signal for channel 3 is applied from the key input unit 100, and the microcomputer 200 refers to PLL data previously stored in the storage unit 300 and centers on 61.25MHz corresponding to the channel key signal of channel 3. The lowest frequency of this frequency band is applied to the tuner unit 400. That is, if the frequency band of each channel is ± 3MHz, the frequency band corresponding to channel 3 will be 58.25MHz to 6.25MHz, and the lowest frequency will be 58.25MHz.

Therefore, the tuner 400 to which 58.25 MHz is applied adjusts the oscillation frequency of the voltage-controlled oscillator in itself to 58.25 MHz to receive the frequency signal of channel 3 selected by the user.

In this case, the AFT voltage detector 500 detects the frequency signal received from the tuner 400, that is, the AFT voltage according to the broadcast signal, and provides the microcomputer 200 with information about the detected AFT voltage. S 30)

In operation S 30, it is determined whether the AFT voltage detected by the AFT voltage detector 500 is a narrow AFT by referring to the information on the AFT voltage from the AFT voltage detector 500.

As a result of the determination in step S40, if the AFT voltage detected by the AFT voltage detector 500 is not a narrow AFT, the microcomputer 200 is 0.5MHz to 58.25MHz, which is PLL data applied to the tuner 400 in step S20. Is added, and the added PLL data 58.75 MHz is applied to the tuner unit 400 (S50).

Thereafter, as a result of determining in step S40, steps S30 to S50 are repeatedly performed until the AFT voltage detected by the AFT voltage detector 500 is a narrow AFT. In this case, the present invention determines whether or not a narrow AFT is added to the PLL data in units of 0.5 MHz, but the addition unit may be easily changed for convenience.

On the other hand, when the AFT voltage detected by the AFT voltage detector 500 becomes a narrow AFT by the above-described process, the microcomputer 200 again applies the dead band detected by the AFT voltage detector 500. Determine (S 60).

As a result of the determination in step S 60, when the AFT voltage detected by the AFT voltage detector 500 is not a dead band, the microcomputer 200 steps to the PLL data applied to the tuner 400 in step S 20 when the narrow AFT becomes a narrow band. A frequency (Step Frequency, fs = 62.5 KHz or 31.25 KHz) is added, and the added PLL data is applied to the tuner unit 400 (S 70).

Thereafter, as a result of determining in step S 60, steps S 30 to S 70 are repeatedly performed until the AFT voltage detected by the AFT voltage detector 500 becomes a dead band.

If the AFT voltage detected by the AFT voltage detector 500 is a narrow AFT and the dead band according to the above steps S 10 to S 70, the microcomputer 200 is fixed to the PLL data at that time and the tuner unit 400 is fixed. To apply.

According to the present invention described above, by searching for a large frequency unit up to the range where the actual center frequency is located, and when reaching the range where the actual center frequency is located, it is variable in units of step frequency and automatically tunes the broadcast receiver by searching for the actual center frequency. There is an effect that can reduce the time required for.

Claims (3)

An automatic tuning method of a broadcast receiver for tuning a tuner to a tuner the center frequency of a channel to be tuned using the AFT voltage after detecting an AFT voltage while varying a frequency applied to the tuner. A first step of detecting an AFT voltage while varying a frequency by a predetermined variable frequency from one end of a predetermined frequency band corresponding to the channel to be tuned; A second step of determining whether the AFT voltage detected in the first step is a narrow AFT having a negative slope; When the AFT voltage becomes a narrow AFT as a result of the determination in the second step, the AFT voltage is detected while varying the frequency by a predetermined step frequency to a value smaller than the variable frequency to the frequency applied to the tuner when the narrow AFT becomes the narrow AFT. Third step; A fourth step of determining whether the AFT voltage detected in the third step is within a predetermined predetermined voltage range; A fifth step of tuning the tuner to a frequency applied to the tuner when the AFT voltage is detected within the preset predetermined voltage range as a result of the determination in the fourth stage; Automatic tuning method of a broadcast receiver comprising a. 2. The method of claim 1 wherein the variable frequency is 500 KHz. 3. The method of claim 1 or 2, wherein the step frequency is one of 62.5 KHz and 31.25 KHz.