KR100205822B1 - Method for auto fine tuning in tuner - Google Patents

Abstract

The present invention relates to an AFT control operation performed when the AFT is switched by an external change factor such as the RF frequency of each channel transmitted by a broadcasting station after completion of channel tuning of the tuner, and provides an effective compensation operation against the distortion of the AFT voltage. It is to carry out.

To this end, the present invention, in the AFT control method of the VCR tuner for performing channel tuning operations such as the synchronization search process and the window search process by using the signal coming from the sync detector after outputting the tuning voltage through the PLL IC of the tuner, Selects a desired channel, first checks synchronization by outputting the stored tuning voltage, and if there is no synchronization signal, a synchronization search step of finding a part having an image signal while outputting the tuning voltage step by step; A window search step of searching for an AFT window and setting an optimum tuning voltage of a corresponding channel by checking an AFT of a part of the synchronization found in the synchronization search step; After performing the window search step, it is checked whether the mode switching operation is continued, and if there is a mode switching operation, a tuning voltage storing step of automatically storing the optimal tuning voltage currently set in the memory.

Description

Tuner's digital automatic fine tuning (AFT) control method

According to the present invention, automatic fine tuning (hereinafter referred to as AFT) is caused by an external change factor such as a radio frequency (hereinafter referred to as RF) of each channel transmitted by a broadcasting station after completion of channel tuning of the tuner. The present invention relates to an AFT control operation performed when a signal is misaligned. More specifically, it is possible to perform an effective compensation operation against a distortion of an AFT voltage by digitally processing an operation of automatically fine tuning a channel by a digital and analog mixing method. The present invention relates to a digital AFT control method of a tuner.

In general, the configuration of a circuit to be basically provided in order to perform an AFT operation in a conventional VCR, as shown in the embodiment of FIG. 1, is frequency tuned with the phase locked loop (hereinafter referred to as PLL) IC 11. A tuner unit 10 having a furnace 12, a local oscillator 13, a frequency synthesizing circuit 14, and the like, for selecting a desired channel by a frequency tuning voltage V _T from an RF signal received through an antenna; And a PIF detector 20 for detecting and outputting an intermediate frequency (IF) of a broadcast signal from a channel tuned by the tuner, and a video signal processor for separating and outputting the synchronization of the video signal from the IF output signal of the PIF detector. 30, the synchronization detector 40 for detecting the presence / absence of the synchronization signal output from the video signal processor 30, and the PLL IC 11 of the tuner unit 10 to control the frequency tuning voltage (V). phase while varying the output _T) To check the synchronization with the detection signal of the synchronous detector in synchronization search operation in the desired channel, when the desired channel is selected running AFT due to the Windows search by setting the optimal tuning voltage (V _T) to PLL IC (11) The timer IC 50 controls a series of channel selection operations for outputting to complete the AFT operation and to end the channel tuning operation.

The conventional AFT operation performed in the VCR of this configuration is as follows.

When the timer IC 50 controls the PLL IC 11 of the tuner unit 10 and outputs the already stored tuning voltage V _T , the PIF detector 20 outputs the broadcast signal of the channel tuned by the tuner unit 10. The detected video signal is input to the video signal processor 30. In this case, the video signal processor 30 inputs the signal separated from the synchronization signal to the synchronization detector 40. Therefore, the synchronization detector 40 outputs a low level signal to the timer IC 50 when the signal is matched with an arbitrary frequency. The timer IC 50 performs the channel tuning operation while determining the presence / absence of the video signal using the level of this signal.

At this time, in the channel tuning operation, when the user selects a desired channel, the timer IC 50 outputs 18 bits of data (DATA, CLK ENABLE) corresponding to two channels to the PLL IC 11, and the PLL IC 11 ) Sends the local oscillation frequency (fo) of the corresponding channel, and after 50ms has passed after outputting the data, the timer IC 50 uses the output signal of the synchronization detection unit 40 inputted through the synchronization detection terminal (sync) to synchronize or not. By judging, the channel tuning operation path is changed.

That is, the timer IC 50 performs a window search operation when "L" is input to the synchronization detection terminal (sync) of the timer IC 50 after data output, and performs a synchronous search operation when "H" is input.

First, the above-described synchronous search operation will be described in detail. Whenever the first output tuning voltage V _T is changed by one step (here, the tuning voltage is changed by one step and supplied to the local oscillator, the local oscillation frequency is 62.5 KHz). Synchronous search is performed while outputting in increments by one). At this time, if synchronization is not detected even if the maximum synchronization check range (5 steps) is increased, the synchronization search is performed again while reducing the original tuning voltage by one step.

If a synchronous signal is detected in any of the above synchronous search operations, the synchronous search operation is immediately stopped and the window search operation is performed. On the other hand, even if all the steps are swept (+6 step sweep), if the synchronization signal is not detected, the timer IC 50 sends out the first tuning voltage to the PLL IC 11 as it is and completes the tuning operation.

Next, in the window search operation, if the synchronization signal is detected during the synchronization search operation, the AFT window is searched while increasing or decreasing the tuning voltage by one step depending on the position of the AFT while checking the AFT. Here, the change of the local oscillation frequency fo for one step is 62.5 KHz, and the window search range is fo ± 1.875 MHz (± 30 steps). Therefore, the tuning voltage is increased by 1 step (62.5KHz) until 30 steps (1.875MHz) until AFT- is detected at the sync signal detection frequency, and then the data is decreased by 1 step to fo-1.875MHz. . At this time, if the point where AFT- is detected by increasing the frequency is called "a" and the point where AFT + is detected by "decreasing the frequency" by "b", the timer IC 50 performs the optimal adjustment to the PLL IC 11. Output the data to complete the AFT operation and finish the tuning operation.

The AFT window setting of the timer IC 50 for the window search operation as described above is as follows.

First, when the initial output data is in the AFT window, the timer IC 50 checks the AFT by increasing the local oscillation frequency fo by one step (62.5 KHz), and then decreases by one step when AFT- is detected. If AFT + is detected again when AFT + is detected, data of the step before AFT + is detected is sent to the PLL IC 11 to complete the tuning.

Secondly, if the initial output data is at the bottom of the AFT window, the timer IC 50 is determined to be "L" and is decremented by one step while checking the AFT. If AFT- is detected, one step continues after detecting the AFT-. Decreased by AFT + to find AFT +, after detecting AFT +, it increases by 1 step to find AFT- again. At this time, if AFT- is detected, the data of the step just before AFT- is detected is sent to the PLL IC 11, and the tuning is completed.

Thirdly, if the initial output data is above the AFT window, the timer IC 50 determines by "H" and increments by one step, checking the AFT. If AFT + is detected, the timer IC 50 continues to increase by one step after detecting the AFT +. After the AFT- is detected, the AFT + is detected by decreasing the step by one step. At this time, if AFT + is detected, the data of the step just before AFT + is detected is sent to the PLL IC 11 to complete the tuning.

As a result of performing the above operation, if AFT + or AFT- is not detected even if the step is increased or decreased to the maximum range (fo ± 1.875MHz change), the PLL IC outputs the first output tuning voltage (V _T ) and assumes no broadcast. Outputs to (11) and finishes the tuning operation.

On the other hand, the AFT operation performed when the AFT output voltage changes due to external factors such as external temperature change, component characteristic change, or RF frequency of each channel transmitted from a broadcasting station after the channel tuning operation is completed as described above is as follows. The explanation can be divided into two cases.

First, when the RF frequency is larger than the original channel frequency, when the AFT voltage input to the timer IC 50 increases and goes out of the AFT window, the data value sent to the PLL IC 11 is increased by one step. As a result, the local oscillation frequency increases, compensating for RF frequency changes and allowing the AFT voltage to enter the window.

Second, when the RF frequency is lower than the frequency of the original channel, when the AFT voltage input to the timer IC 50 becomes smaller and out of the AFT window (1.875V), the data value sent to the PLL IC 11 is 1 step (62.5). Increase in KHz). This results in a smaller local oscillation frequency, compensating for RF frequency changes and allowing the AFT voltage to enter the window.

However, the conventional AFT compensation operation performed in the VCR to compensate for the distortion of the AFT due to external factors such as external temperature change or component characteristic change after the channel tuning is completed as described above, re-synchronizes the AFT error state. Channel tuning was performed by setting the voltage to enter the window, but after selecting the channel to switch channels or switching the operation mode such as power on / off or input switching, the channel is selected again as described above. Since the AFTs that are synchronized and matched are in the wrong state again, the AFT operation has to be performed again from the beginning.

Therefore, the present invention is created in order to solve the problem of retuning the wrong AFT when the channel is tuned again by tuning the channel in which the AFT is turned off by external factors as described above, and tuning the channel again after the mode switching operation. In one aspect of the present invention, after tuning is completed, the AFT is tuned by an external factor to set the tuning voltage, and then the retuned AFT voltage is memorized when there is a mode switching such as channel switching, power on / off or input switching. It is to provide a digital AFT control method of the tuner that can prevent the re-tuned AFT voltage is changed again after the mode switching operation.

In order to achieve the above object, the present invention outputs a tuning voltage through a PLL IC of a tuner unit, and then performs AFT control of a VCR tuner which performs channel tuning operations such as a synchronous search process and a window search process using a signal input from the sync detector. 1. A method of synchronizing a mobile terminal comprising: a synchronization search step of first checking a synchronization by outputting a memory voltage stored in memory when a user selects a desired channel and variably outputting the synchronization voltage step by step if there is no synchronization signal; A window search step of searching for an AFT window and setting an optimum tuning voltage of a corresponding channel by checking an AFT of a part of the synchronization found in the synchronization search step; Tuning digital AFT control method characterized in that the tuner voltage storing step of checking whether the mode switching operation is continued after the window search step, and if there is a mode switching operation automatically stores the currently set optimal tuning voltage in the memory. To provide.

1 is a block diagram schematically showing some components of a VCR for carrying out the present invention.

2 is an operation flowchart showing an automatic fine tuning control method of the tuner according to the present invention.

Figure 3 is an automatic fine tuning curve waveform diagram for explaining the present invention

* Explanation of symbols for the main parts of the drawings

10: Tuner part 11: PLL IC

12 frequency tuning circuit 13 local oscillator

14: frequency synthesis circuit 20: PIF detector

30: video signal processor 40: synchronization detector

50: Timer IC

Hereinafter, a digital AFT control method of a tuner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an operation flowchart showing the progress of a program for a series of digital AFT control operations performed by the timer IC 50 shown in FIG. 1 according to an embodiment of the present invention. A synchronization search step (S110-S22) which finds a part with an image signal while outputting the tuning voltage stored in the memory by checking the synchronization, and outputs the tuning voltage step by step if there is no synchronization signal, and finds the synchronization in the synchronization search step. If there is a mode switching operation by checking the AFT of the part to find the AFT window and setting the optimum tuning voltage of the corresponding channel (S23-S34) and whether the mode switching operation is continued after the window searching step is performed. The tuning voltage storage step (S35-S36) automatically stores the optimal tuning voltage currently set in the memory.

In this case, the synchronization search step shown in the drawing includes the steps of outputting a pre-memory tuning voltage (S11), checking whether or not the video signal is synchronized (S12), and if there is no synchronization signal as a result of checking, Step S13 of setting the arbitrary variable N for counting to an initial value "0", increasing the tuning voltage by one step (S14), increasing the arbitrary variable N by one (S15), and synchronizing Determining whether there is a signal and determining an operation branch with a window search path if there is a synchronization signal, and with a maximum range check path if there is no synchronization signal (S16); and checking up to the maximum range to increase the tuning voltage by one step if not. In step S17, if the maximum range is determined, branching is determined by the count path for the step reduction (S17); setting the random variable K for the count for the step reduction to an initial " 0 "(S18); 1 step decrease The key checks step S19, increases the arbitrary variable K by one step S20, checks whether there is a synchronization signal, and if there is a synchronization signal, moves the operation branch to the window search path if there is a synchronization signal and to a minimum range check path if there is no synchronization signal. A step S21 is performed to check the minimum range, and the tuning voltage is increased by one step if it is not the minimum range. If the minimum range is reached, a branch is determined at the end of the synchronous search operation (S22).

In addition, the window search step shown in the drawing is a step performed when the synchronization signal is detected during the synchronization search operation. The step of checking the AFT to determine the position of the AFT (S23) and the tuning voltage according to the position of the AFT is 1. In step S24-S33 to find the AFT window by checking the position change of the AFT while increasing or decreasing step by step, and setting the optimum tuning voltage when the AFT window is found (S34).

The tuning voltage storing step is performed after the window searching step, in which step S35 of checking the mode switching operation is continued, and if there is no mode switching, the mode switching operation is ignored. In step S36, the optimum tuning voltage currently set is automatically stored in the memory.

3 is an AFT curve waveform diagram for explaining the present invention.

Referring to the digital AFT control operation of the present invention configured as described above in detail as follows.

The overall channel tuning operation is described with reference to FIG. 1. In the timer IC 50, channel tuning data is output to the PLL IC 11 (S11), and the local oscillation frequency of the corresponding channel through the PLL IC 11 (fo). To send). At this time, the timer IC 50 checks (S12) the output signal of the synchronization detector 40 which is input through the synchronization detection terminal (sync) after a predetermined time (for example, 50 ms) after outputting the data to check whether or not synchronization is present. If it is determined that the logic low level ("L") is input (Y branch of S12), the window search operation is performed, and if the logic high level ("H") is input (N branch of S12), the synchronous search operation is performed.

In this case, the above-described synchronous search operation increases the first output tuning voltage V _T by one step and outputs the synchronous search in the channel up direction (S13-S17), and increases the maximum sync check range m. If no synchronization is detected (N branch of S16), the original tuning voltage is reduced by one step and outputted while performing the synchronization search in the channel down direction (S18-S22).

If a synchronous signal is detected in any of the above synchronous search operations (Y branch of S16 or Y branch of S21), the synchronous search operation is immediately stopped and the window search operation is performed, while sweeping all steps. Even if the synchronization signal is not detected (+6 step sweep), the timer IC 50 outputs the first output tuning voltage to the PLL IC 11 as it is and completes the channel tuning operation.

In addition, in the above window search operation, the AFT window is searched while increasing or decreasing the tuning voltage by one step according to the position of the AFT while checking the AFT. At this time, after the AFT + is detected, the tuning voltage (V _T ) is decreased. When AFT- is detected, the value before the AFT- is detected is set to the optimum tuning voltage.In contrast, after the AFT- is detected, the tuning voltage (V _T ) is set. When the AFT + is detected by increasing, the value before the AFT + is detected is set to the optimum tuning voltage (V _T ) (S34) to output data to the PLL IC 11 to perform the AFT operation.

The timer IC 50 performs the channel adjustment (increase / decrease) operation or power on / off or input again in the standby state without completing the AFT operation after performing the optimum adjustment for the tuning voltage by the window search operation as described above. It is determined whether a mode switching operation such as a switching operation is continued (S35), and the case where there is no mode switching operation is ignored, but when there is a mode switching operation (Y branch of S35), first, the synchronous search operation and the window search operation are optimized. By automatically storing the adjusted tuning voltage in the memory (S36), it is stored by the external factor and the readjusted AFT is not stored again. Then, channel tuning operation is performed again.

In the present invention as described above, in the tuning operation after the channel is searched and memorized, the tuning voltage value set by re-tuning the memorized state due to the change of the external temperature or the characteristic of the component is changed. By memorizing in case of mode switching operation such as sense or power on / off or input switching, it is possible not only to synchronize without time delay during the next synchronization, but also to prevent the channel skipping due to excessive twisting. There is a usefulness.

Claims (1)

In the AFT control method of the VCR tuner which outputs the tuning voltage through the PLL IC of the tuner and then performs channel tuning operations such as a synchronous search process and a window search process by using a signal from the sync detector. A synchronization search step of checking a synchronization by first outputting a memory tuning voltage when the user selects a desired channel, and variably outputting the tuning voltage step by step if there is no synchronization signal; A window search step of searching for an AFT window and setting an optimum tuning voltage of a corresponding channel by checking an AFT of a part of the synchronization found in the synchronization search step; Digital automatic fine tuning of the tuner, comprising: a tuning voltage storing step of checking whether the mode switching operation is continued after the window searching step and automatically storing the optimal tuning voltage currently set in the memory in the case of the mode switching operation. (AFT) control method.