KR970008101B1 - If gain level setting apparatus - Google Patents

Abstract

In a television receiving set having an intermediate frequency amplifier and an image detector, the apparatus for determining an intermediate frequency gain level comprises a detecting unit for detecting an output frequency signal from the image detector according to an input of a test signal to the intermediate frequency amplifier; a saturation deciding unit for deciding a saturation or non-saturation state of the output frequency signal on the basis of a detection result from the detecting unit; and a determining unit for determining a gain of the intermediate frequency amplifier as the maximum level before the saturation decision is performed by the saturation deciding unit, thereby automatically determining a gain level of an intermediate frequency circuit in TV.

Description

Intermediate Frequency Gain Level Setting Circuit of TV Receiver

1 is a block diagram showing a gain level setting device according to an embodiment of the present invention.

2 is a flow chart for explaining the operation of the apparatus shown in FIG.

3A and 3B are waveform diagrams showing a normal waveform and a saturated waveform of an image signal.

4 is a waveform diagram for explaining the operation of the apparatus shown in FIG.

* Explanation of symbols for main parts of the drawings

10: intermediate frequency amplifier 20: image detector

30: automatic gain setting means 40: A / D converter

50: Microcomputer 60: D / A converter, F / V converter

80: Differential Circuit 90 F / V Converter

CP1, CP2: comparator 100: detection means

200: saturation determination means

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television receiver, and more particularly, to an intermediate frequency gain level setting circuit of a television receiver for setting a gain level and an intermediate frequency amplifier provided in the television receiver.

In general, television receivers (hereinafter referred to as TVs) are designed to amplify intermediate frequency signals for stable detection operation. However, in this amplification, it is necessary to accurately set the amplification level, that is, the gain, because excessively amplifying the tuned broadcast frequency signal causes the corresponding signal to become saturated and distortion occurs.

Therefore, conventionally, during the manufacture of a TV, the sweep signal (SWEEP SIGNAL) that changes periodically from low frequency to high frequency is input to the intermediate frequency circuit as a test signal, and then the output waveform is not generated while checking with an oscilloscope or the like. The gain level of the intermediate frequency circuit was set up to the maximum level.

However, this gain level adjustment by manual operation is inconvenient because the setting accuracy is lowered and the productivity is lowered.

The present invention has been made in view of the above circumstances, and an object thereof is to provide an intermediate frequency gain level setting circuit of a television receiver which can automatically set the gain level of an intermediate frequency circuit.

An apparatus for setting an intermediate frequency gain level according to the present invention for realizing the above object comprises an output frequency signal from an image detector according to a test signal input to the intermediate frequency amplifier in a television receiver having an image detector of an intermediate frequency amplifier. Detection means for detecting, saturation determination means for determining whether the output frequency signal is saturated based on the detection result by the detection means, and the intermediate frequency amplifying unit at a maximum level before saturation determination is made by the saturation determination means. And an automatic gain setting means for determining the gain.

According to the present invention having the above-described configuration, it is possible to automatically set the gain of the intermediate frequency amplifying unit to a maximum level at which the intermediate frequency signal output from the image detector is not saturated.

Hereinafter, an embodiment according to the present invention will be described with reference to the drawings.

1 is a block diagram showing an intermediate frequency gain level setting circuit according to an embodiment of the present invention. In the drawing, reference numeral 10 denotes an intermediate frequency amplifier and 20 an image detector is provided in a TV.

30 is an automatic gain setting means for setting an amplification degree, that is, a gain level of the intermediate frequency amplifier 10. The automatic gain setting means 30 is not shown, but a memory for storing gain level data therein. And adjust the amplification degree of the intermediate frequency amplifier 10 according to the data stored in the memory.

As the test signal applied to the intermediate frequency amplifying unit 10, a sweep signal including a low frequency and a frequency signal per cycle and particularly including an intermediate frequency band is used as in the prior art, and the image detecting unit 20 is used. For example, the 4.5 MHz and the band signal are output to the third input terminal 13 of the microcomputer 50 through the frequency / digital converter 90 and the analog / digital converter 40 which are the constituting saturation determination means 200. To be entered.

In addition, the F / V changer 70, the differential circuit 80, and the comparators CP1 and CP2, which constitute the detection means 100, are for setting the control operation period of the microcomputer 50 described later. As shown in FIG. 4, the output signal [FIG. 1 (A)] of the F / V changer 70 according to the sweep signal inputted is inputted to the differential circuit 80 and differentiated (FIG. 1B). ], This sets the starting point of FIG. 4C and the ending point of D by comparing the reference levels with the comparators CP1 and CP2, respectively. That is, the configuration sets the control operation of the microcomputer 50 in units of one cycle in which the sweep signal as the test signal changes from a low frequency to a high frequency.

In addition, the microcomputer 50 sequentially increases and outputs the value of the gain level setting data through the D / A converter 60 which is the interval between the start time and the end time input from the comparators CP1 and CP2. Based on the data value according to the output signal of the image detector 20 inputted through the A / D converter 40, the automatic gain control unit 30 is detected at the maximum level at which the saturation does not occur by detecting whether the output signal is saturated. When the gain level is set, the saturation is judged as saturation when the minimum value (the derivative value is "0"; a, b, c) is two or more as shown in (B) of FIG. .

Next, the control operation of the microcomputer 50 will be described with reference to the flowchart shown in FIG.

When the pulse signal indicating the start time from the comparator CP1 is applied to the second input terminal 12 of the microcomputer 50, the memory of i, max, min and MAXNUMBER is designated as a variable to the internal memory means, and the initial value "0 "(A20).

Then, one period of the input signal corresponding to the output of the image detector 20 applied from the A / D converter 40 is classified into a predetermined interval i to detect a sample value A [i]. After conversion into digital data, the data is stored in the storage means of the microcomputer 50.

Subsequently, the sample size A [i + 1] of the input digital sampling data is subtracted from the sample size A [i] to compare whether or not it is a negative value (A30). Then, compare the sample size A [i] with the sample size A (A [i-1]).

On the other hand, if the value calculated in step A30 is output as a positive value, it is determined that the image signal is in an increased state, and then the sample size A [i] and the sample size A [i-1]. It is calculated to compare whether the state of continuous increase (A31).

In addition, when the value calculated in the step A31 is determined to be a positive value, the derivative point dy / dx does not occur in the state of continuous increase, and the value calculated in the step A30 is determined to be negative. In this case, since the maximum value of the differential point exists, 1 is accumulated in the variable min of the memory means. (A32)

In addition, when it is determined in step A40 that the value comparing the sample size is a positive value, the minimum value at which the derivative points exist is present, and thus 1 is accumulated in the variable max of the memory means (A41).

Then, it is determined whether the predetermined interval i is the maximum (MAXNUMBER) (A50), and if it is not the maximum value, accumulates 1 to the variable i, and returns to step (A30) (A60), and the variable (i ) Exceeds the preset maximum value MAXNUMBER, the variables min and max of the memory means are summed. (A61)

Finally, when the sum of the values of the variables (min, max) stored in the memory means of the microcomputer 50 is 1 or more, it is determined that at least one differential point exists, and the gain level is output to the D / A conversion means 60. Set the data to the value before saturation.

Therefore, according to the above configuration, it is possible to set the gain level of the automatic gain setting means 30 to the maximum while checking whether the output signal from the image detector 20 is saturated.

In addition, the present invention is not limited to the above embodiments and can be variously modified within the scope not departing from the technical gist of the invention.

As described above, according to the present invention, it is possible to realize the intermediate frequency gain level setting circuit of the television receiver which can automatically set the gain level of the intermediate frequency circuit of the TV.

Claims (1)

In a television receiver having an intermediate frequency amplifier 10 and an image detector 20, a detection for detecting an output frequency signal from the image detector 20 according to a test signal input to the intermediate frequency amplifier 10. The saturation determination is performed by the means 100, the saturation determination means 200 for determining whether the output frequency signal is saturated based on the detection result by the detection means 100, and the saturation determination means 200. And an automatic gain setting means (30) for setting the gain of the intermediate frequency amplifying section (10) to the previous maximum level.