KR20080056446A - Method for fine tunning digital tuner - Google Patents

Abstract

A fine tuning method of a digital tuner is provided to reset several elements of an error rate to a suitable value in a phase locked loop changed due to external disturbances or noise during a desired broadcasting channel selection. A fine tuning method of a digital tuner includes: selecting a desired broadcasting channel when a broadcasting signal is received through an antenna(21); judging whether an automatic gain control time constant error rate of the selected broadcasting channel is less than a set value(22); changing the automatic gain control time constant error rate(23); judging whether an automatic gain control TOP error rate is less than the set value(24); changing the automatic gain control TOP error rate(25); judging whether a charge pump error rate associated with a next performance is less than the set value(26); changing a charge pump value(27); and storing the adjusted automatic gain control time constant value, automatic gain control TOP value, and charge pump value according to the frequencies of the selected channel(28).

Description

Fine tuning method of digital tuner {METHOD FOR FINE TUNNING DIGITAL TUNER}

1 is a schematic block diagram of a digital tuner applied to the present invention.

2 is a flowchart of a fine tuning method of a digital tuner according to an embodiment of the present invention.

3 is a flowchart of a fine tuning method of a digital tuner according to another embodiment of the present invention.

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

11; Digital tuner 12; Control

111; MOPEL integrated circuit 112; Demodulator

A fine tuning method of a digital tuner of the present invention.

In general, a digital tuner is a device that removes and tunes only a signal within a bandwidth of a specific frequency in a wide band, and the digital tuner synthesizes a high frequency broadcast signal received from a broadcasting station with a local oscillation frequency through an MOPEL integrated circuit. By outputting the intermediate frequency, the intermediate frequency output from the MOPEL integrated circuit is amplified by an intermediate frequency amplifier and then demodulated to the original broadcast signal through a demodulator.

The tuner which tunes and demodulates the high frequency broadcast signal inputted as described above is used when the frequency of the broadcast signal transmitted from the broadcasting station is distorted by the disturbance or noise. Failure to accurately modulate to frequency results in image bits.

Therefore, in the case of the digital tuner, the phase locked loop has a set value for several factors related to performance, and this set value is used by fixing an optimal value for each frequency, but when tuning a channel according to the installation location or region of the set. The optimum value for each frequency is changed by an unwanted interference signal, and thus, there is a problem in that a normal tuning operation cannot be performed due to these factors.

The present invention provides a fine tuning method that exhibits optimal performance of a digital tuner.

The fine tuning method of the digital tuner of the present invention determines whether any one of the factors related to the set channel performance is less than the preset value, and if the result of the determination is not one of the factor error ratios is less than the preset value, Changing the value of any one element until the rate of any one element error is less than the preset value; Changing the values of the performance related factors until the factor error rate is less than the predetermined value through the determining step for other factors not performing the determining step; And storing the performance-related element values for each frequency when the error ratios of the performance-related elements are all less than the preset value.

In addition, the fine tuning method of the digital tuner of the present invention comprises the steps of determining whether the error rate of the elements related to the set channel performance is less than the preset value; If any one of the performance-related element error ratios is less than the preset value, changing the one of the element values until the one of the performance-related element error ratios is less than the preset value; And storing the performance related element value for each frequency.

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

1 is a schematic block diagram of a digital tuner applied to the present invention.

The digital tuner 11 selects and tunes only a desired channel frequency from a high frequency signal input through an antenna ANT therein, and then controls the gain of the high frequency signal at the tuned channel frequency to convert it into an intermediate frequency signal. An integrated circuit 111; A demodulator 112 is configured to remove unnecessary signals by using the intermediate frequency signal output from the MLP integrated circuit 111 and to demodulate the intermediate frequency signal, which is amplified through an amplifier, into an original broadcast signal.

The MLP integrated circuit 111 includes a mixer (MIX), an automatic gain control detector (AGC-DET), a phase locked loop (PLL), an oscillator (OSC), and a charge pump (CHARGE PUMP).

The control unit 12 is connected to the MLP integrated circuit 111 and the clock signal and the data signal to control the elements related to the performance of the MLP integrated circuit 111 by a predetermined program.

The above factors are taken as an automatic gain control time constant (AGC TIME CONSTANT) value, an automatic gain control take over point (AGC TOP) value, and a charge pump (CHARGE PUMP) value.

2 is a flowchart of a fine tuning method of a digital tuner according to an embodiment of the present invention.

When a broadcast signal is input from the antenna ANT, the control unit 12 controls the MLPEL integrated circuit 111 to tune a desired broadcast channel (step 21), and then the control unit 12 controls the MLPEL. It is determined whether the AGC TIME CONSTANT error rate is less than a preset value for the tuned broadcast channel related to the performance of the integrated circuit 111 (step 22).

If the AGC TIME CONSTANT error rate is not less than the preset value, the control unit 12 controls the MLPEL integrated circuit 111 to obtain an AGC TIME CONSTANT value. After the change (step 23), it is determined whether the error rate of the changed automatic gain control time constant (AGC TIME CONSTANT) is again below the preset value.

At this time, if the error rate of the changed AGC TIME CONSTANT is not less than the preset value, the automatic gain control time constant (AGC TIME CONSTANT) value is continued until the error rate is less than the preset value. Change it.

When the error rate of the AGC TIME CONSTANT is less than the preset value, it is then determined whether the AGC TOP error rate related to the next performance is less than the preset value (step 24).

If the AGC TOP error ratio is not less than the predetermined value, the controller 12 controls the MLP integrated circuit 111 to change the AGC TOP value. (Step 25), it is again determined whether the error rate of the changed AGC TOP is less than the preset value, and the error rate of the changed AGC TOP is set as described above. If it is not less than fixed, the automatic gain control thiopi (AGC TOP) value is continuously changed until the error rate is less than the predetermined value.

Subsequently, when the error rate of the AGC TOP is less than the preset value, it is determined whether the CHARGE PUMP error rate related to the next performance is less than the preset value (step 26). If the CHARGE error rate is not less than the predetermined value, the controller 12 controls the MLPEL integrated circuit 111 to change the CHARGE PUMP value (step 27). It is determined whether the error rate of the changed charge pump is less than the preset value.

At this time, if the error ratio of the changed charge pump CHARGE PUMP is not less than the preset value, the charge pump CHARGE PUMP value is continuously changed until the error rate is less than the preset value.

When the error ratio of the charge pump is less than the predetermined value, the controller 12 controls the MLP integrated circuit 11 to adjust the appropriately controlled automatic gain control time constant for each channel of the tuned channel. The (AGC TIME CONSTANT) value, the AGC TOP value, and the CHARGE PUMP value are stored and then terminated (step 28).

On the other hand, with respect to each of the above-described preset values as follows. The MLP integrated circuit 11 has information about whether the current screen is well displayed or not. The criteria for whether the current screen is well displayed or not is based on the performance related values, that is, the AGC TIME CONSTANT, AGC TOP, and CHARGE PUMP values, respectively. It depends on whether the error rate is below or above the specified value. That is, an error on the performance-related values is statistically calculated for a predetermined time, and when the ratio is less than the predetermined value, the current screen is displayed well. Each preset value for the error rate of the performance-related values is the predetermined value, and the preset value is a fixed value because it is a temporal statistical ratio for the error.

On the other hand, the error rate for the performance related values may be larger or smaller depending on the location or location of the set. Thus, the optimum values of the relevant values, i.e., values whose error rate is less than the predetermined value, depend on the environment. Accordingly, the present invention is to change the performance-related values until the error rate of the performance-related values is less than the predetermined value through the process as shown in FIG. When the error rate of the changed performance-related values is less than the predetermined value, the changed value becomes an optimum value in the environment.

3 is a flow chart of a fine tuning method of a digital tuner according to another embodiment of the present invention.

When a broadcast signal is input from the antenna ANT, the control unit 12 controls the MLPEL integrated circuit 111 to tune the desired broadcast channel (step 31), and then the control unit 12 controls the MLPEL. It is determined whether the error rate of the automatic gain control time constant (AGC TIME CONSTANT) value, the automatic gain control thiophy (AGC TOP) value, and the charge pump (CHARGE PUMP) value related to the performance of the integrated circuit 111 is less than the predetermined value. (Step 32), (Step 33), (Step 34).

At this time, if the AGC TIME CONSTANT error rate is not less than a preset value, the control unit 12 controls the MLPEL integrated circuit 111 to obtain an automatic gain control time constant (AGC TIME CONSTANT) value. After the change (step 35), it is determined whether the error rate of the changed automatic gain control time constant (AGC TIME CONSTANT) value is less than the preset value.

If the error rate of the changed AGC TIME CONSTANT value is not less than the preset value, the error rate is continuously changed until the error rate is less than the preset value. When the error rate of the AGC TIME CONSTANT value is less than the predetermined value, the ACC TIME CONSTANT value is stored and then terminated (step 38).

On the other hand, if the AGC TOP error rate is not less than a predetermined value, the control unit 12 controls the MLPEL integrated circuit 111 to change the AGC TOP value. (Step 36).

If it is determined again that the error rate of the changed AGC TOP value is less than the preset value, the error rate of the changed AGC TOP value is not less than the preset value, the error is determined. The ratio is continuously changed until the ratio is less than the preset value. If the error rate of the AGC TOP value is less than the preset value, the ACC TOP value is stored and then terminated (step 38).

In addition, when the charge pump error rate is not less than a predetermined value, the controller 12 controls the MLPEL integrated circuit 111 to change the charge pump value (step 37). The error rate of the changed CHARGE PUMP value is again determined to be less than the preset value. At this time, if the error rate of the changed CHARGE PUMP value is not less than the preset value, the error rate is continuously changed until the error rate is less than the preset value.

When the error ratio of the charge pump (CHARGE PUMP) value is less than the predetermined value, the control unit 12 controls the MOPEL integrated circuit 11 to control the appropriately adjusted charge pump (CHARGE) for each channel of the tuned channel. PUMP) value and save (step 38).

As described above, the present invention can exhibit the optimal performance when tuning the broadcast channel by resetting the error rate of several factors to an appropriate value in a phase-locked loop that varies due to disturbance or noise when tuning a desired broadcast channel. Will be.

Claims (3)

 It is determined whether any element error rate among the factors related to the set channel performance is less than the preset value, and if any one element error rate is not less than the preset value, the any one element error rate is the preset value. Changing said one element value until it is less than stationary; Changing the values of the performance related factors until the factor error rate is less than the predetermined value through the determining step for other factors not performing the determining step; And storing the performance-related component values for each frequency when the error ratios of the performance-related components are all less than the preset value. Determining whether an element error rate of elements related to the set channel performance is less than a preset value; If any one of the performance-related element error ratios is less than the preset value, changing the one of the element values until the error ratio of any one of the performance-related elements is less than the preset value; And storing the performance-related component values for each frequency. The digital tuner of claim 1 or 2, wherein the elements are an AGC TIME CONSTANT value, an AGC TOP value, a CHARGE PUMP value. Fine tuning method.

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