KR910008131B1 - Automatic turning method of double conversion - Google Patents

Abstract

A method is for reducing the filter loss of the color/voice carrier by retuning the tuning voltage by means of a voltage controlled oscillator. The method comprises the steps of: tuning the voltage controlled oscillator with a PLL; controlling the RF signal into the tuning voltage reading from a memory; comparing the controlled AGC voltage with the maximum AGC voltage in the memory; driving the IF AGC voltage when the max. AGC voltage is less or equal than the tuned AGC voltage; storing the AGC voltage into the memory when the max. AGC voltage is larger than the tuned AGC voltage; controlling the tuning voltage to obtain the max. AGC voltage gain.

Description

Automatic tuning method of double conversion tuner

1 is a flow chart of a preferred embodiment of an automatic tuning method according to the present invention.

2 is a graph for explaining an embodiment of the automatic tuning method according to FIG.

The present invention relates to an automatic tuning method of a double conversion tuner, and in particular, the tuning voltage corresponding to the color / audio carrier difference of the channel selected by the double conversion tuner is transmitted to the voltage controlled oscillator and retuned. The present invention relates to an autotuning method for minimizing an input filter insertion loss caused by a color part / voice carrier.

In general, a single conversion varactor tuner is used to utilize the broadcast spectrum of a television. The single conversion varactor tuner includes a voltage controlled oscillator (VCO) and a radio frequency; Since the tuning voltage applied to the varactor diode of the tuning circuit is the same, it is possible to tune the entire single-conversion varactor tuner with one tuning voltage. However, in order to utilize the broadcast spectrum by using more types of signals and higher frequency signals than those input to the single conversion varactor tuner, a double conversion tuner must be used, and the double conversion tuner is a VCO and an RF tuner. The tuning voltages applied to the varactor diodes of the circuit are different.

Since the VCO and the RF tuning circuit of the double conversion tuner are tuned by different frequencies, the input filter insertion loss is large when the tuning voltage is applied differently.

Therefore, in order to solve the above problem, the present invention uses a color / voice carrier of an input channel input to a double conversion tuner to apply a tuning voltage of an RF tuning circuit different from the VCO tuning to a double conversion tuner. Its purpose is to provide an automatic tuning method.

In order to achieve the above object, the present invention compares the AGC voltage and the maximum AGC voltage of a color carrier by tuning a VCO to a PLL and also tuning an RF signal to a tuning signal read by a program embedded in a memory device of a microprocessor. First process; If the maximum AGC voltage becomes large in the first step, the transition voltage is shifted so that the AGC voltage obtains the maximum gain value, the AGC value is stored in the memory device, and + 4.5MHz is added to the oscillation frequency of the input signal. Adjusting the second process; A third step of detecting a voice carrier, adjusting the movement so that the AGC voltage of the voice carrier obtains a maximum gain value, storing the same in a memory device, and adjusting the VCO with an oscillation frequency; A fourth step of adjusting the RF signal to a tuning voltage obtained by subtracting the color carrier voltage from the voice carrier voltage and storing the tuning voltage in a memory device; A fifth step of subtracting the AGC voltage of the color carrier from the AGC voltage of the voice carrier by subtracting the AGC voltage of the color carrier from the AGC voltage of the color carrier to set the new color carrier AGC voltage and setting the AGC voltage of the color carrier to the AGC voltage of the new voice carrier; A sixth step of comparing the absolute value of the AGC voltage difference of the new color part / voice carrier with the gain value when the AGC voltage of the new color part / voice carrier is equal to a certain degree; In the sixth step, if the absolute value and the integer value are the same, the AGC voltage of the newly determined voice carrier becomes the final tuning voltage. If the integer value is different, the transition is performed. If the AGC voltage of the color carrier is greater than the AGC voltage of the new voice carrier, the tuning voltage is decreased. A seventh step of changing and storing in the memory device; And an eighth step of changing the tuning voltage of the color part carrier by changing the AGC voltage of the color part / voice carrier of the seventh step again.

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

1 is a flowchart showing an embodiment of an automatic tuning method according to the present invention.

In FIG. 1, the color is changed in step 2 through tuning the VCO with the PLL (1) and adjusting the RF signal with the tuning voltage (VT) read by a program embedded in the memory device of the microprocessor. The AGC voltage adjusted by the subcarrier (VP) is compared with the maximum AGC voltage read out from the memory device (3). In the second step, a waveform such as (a) of FIG. 2 appears. In step 3, if the maximum AGC voltage is less than or equal to the AGC voltage value tuned by the color carrier of the input signal, use the IF AGC voltage (4). If the maximum AGC voltage is large, proceed to step (5). In step 5, the tuning voltage VT is adjusted to obtain the maximum gain of the AGC voltage caused by the color subcarrier VP, and the AGC voltage is stored in the memory device (6). In step 5, a waveform as shown in FIG. 2B appears. On the other hand, the tuning voltage VT is adjusted so that the AGC voltage by the voice carrier obtains the maximum gain through the step 7 of tuning the VCO by adding +4.5 MHz to the oscillation frequency Fo by the RF signal (8). ). In step 8, a waveform as shown in FIG. 2C appears.

In step 8, the AGC voltage obtained by adjusting the tuning voltage VT is stored in the memory device (9), and the VCO is adjusted to the oscillation frequency Fo by the RF signal (10). After adjusting the RF signal by subtracting the value ΔVSP from the voice carrier voltage to the tuning voltage VT, subtracting the value ΔVSP from the color carrier carrier voltage and adjusting the RF signal (11). The AGC voltage stored by the tuning voltage VT is stored in the device (12). In step 11, a waveform as shown in (d) of FIG. 2 appears.

The AGC voltage of step 12 is determined as the AGC value of the new color carrier VP ', and the AGC voltage of the color carrier carrier VP is determined as the AGC value of the new voice carrier Vs' (13). In step 13, a waveform as shown in (e) of FIG. 2 appears. Compare the AGC voltage of the new color part / voice carrier of step 13 and the absolute value corresponds to the difference in gain value when the AGC value of the voice carrier (VS ') and the AGC voltage of the color part carrier (VP ′) become equal to some extent. The integer value K is read from the memory device and compared (14). If the absolute value in step 14 is different from the integer value K, the process shifts to compare the AGC voltages of the new voice carrier VS 'and the new color subcarrier VP' (15). The gain constant N for changing VT) is subtracted (16), and when the AGC voltage of VP 'is greater than the AGC voltage of VS', the gain constant N for changing the tuning voltage VT is added (17). ). The gain voltage N adjusted in steps 16 and 17 is multiplied by the variable voltage? V to determine another tuned voltage VT added to the voice carrier VS '(18) to determine the tuned voltage VT. The AGC voltage is stored in the memory device (19). Further, the tuning voltage VT obtained by adding the product of the gain constant N and the variable voltage ΔV to the AGC voltage of the color carrier CV is adjusted (20), and the color part / Set the voice carrier tuning voltage (VT) as the AGC voltage of another voice carrier (VS ') and the color carrier (VP') (21) and return to step 14 until the absolute value and the integer value (K) become equal. If the absolute value and the integer value K are equal to each other, the voice carrier VS 'is set as the final tuning voltage VT (22). In step 22, a waveform as shown in FIG. 2 (f) appears.

As described above, the present invention selects the tuning voltage applied to the varactor diode of the input RF tuning circuit corresponding to the selected channel as a method by the microprocessor for different tuning voltages of the double-conversion tuner and corresponds to the color part / voice carrier. There is an advantage that the input filter insertion loss can be minimized.

Claims (1)

A first step of tuning the PLL to the VCO and tuning the RF signal with a tuning signal read by a program embedded in a memory device of the microprocessor to compare the AGC voltage and the maximum AGC voltage of the color carrier; If the maximum AGC voltage value is less than or equal to the first process, the IF AGC voltage is used. If the maximum AGC voltage is large, the transition is performed to adjust the tuning voltage so that the AGC voltage obtains the maximum gain value and store the AGC value in the memory device. A second step of adjusting the VCO by adding +4.5 MHz to the oscillation frequency of the input signal; A third step of detecting a voice carrier, adjusting the tuning voltage so that the AGC voltage of the voice carrier obtains a maximum gain value, storing the tuning voltage in a memory device, and adjusting the VCO with an oscillation frequency; A fourth step of adjusting the RF signal to a tuning voltage obtained by subtracting the color carrier voltage from the voice carrier voltage and reducing the tuning voltage in the memory device and storing the tuning voltage in a memory device; A fifth step of subtracting the AGC voltage of the color carrier from the AGC voltage of the voice carrier by subtracting the AGC voltage of the color carrier from the AGC voltage of the color carrier to determine the new color carrier AGC voltage and setting the AGC voltage of the color carrier to the AGC voltage of the new voice carrier; A sixth step of comparing the absolute value of the AGC voltage difference of the new color part / voice carrier with the gain value when the AGC voltage of the new color part / voice carrier is equal to a certain degree; In the sixth step, if the absolute value and the integer value are the same, the AGC voltage of the newly determined voice carrier becomes the final tuning voltage, and if the integer value is different, the transition is performed. If the AGC voltage of the color carrier is greater than the AGC voltage of the new voice carrier, the tuning voltage is decreased. A seventh step of changing and storing in the memory device; And an eighth step of changing the tuning voltage of the color part carrier by changing the AGC voltage of the color part / voice carrier of the seventh step again to perform the sixth step.

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