KR920000887B1 - Channel selecting circuit - Google Patents

Abstract

The circuit selects channels for all the broadcasting areas in a video cassette recorder or a television. The operation of the circuit includes the steps of: judging whether the selected channel is 5A to take a proper action; judging whether there is a synchronizing signal after carrying out the preceding step to take a proper action; transmitting the PLL data for the 5A if the AFT search time is longer than the set time of the second step; judging whether the channel up/down key is a channel (01), and if it is not the channel (01), transmitting the PLL data corresponding to the channel 5 before starting the normal processing.

Description

NTSC Channel Tuning Circuit

1 is a channel tuning circuit diagram according to the present invention.

2 is a channel tuning flowchart in accordance with the present invention.

* Explanation of symbols for the main parts of the drawings

10: micom 20: tuner

30: demodulation unit 40: synchronization signal detection unit

50: first comparator 60: second comparator

The present invention relates to a video cassette recorder (TSC) and a television (Television) of the NTSC (National Television System Committee) method, and more particularly, to a channel selecting method for all broadcasting regions.

In general, the United States, which employs the NTSC broadcasting system, has STD (STANDARD), IRC (Incremantal Relative Carrier), and HRC (Harmonic Relative Carrier) broadcasting. In order to receive a broadcast by a set maker for each region, the broadcast is conventionally selected as a region selection switch composed of two to three stages. Since the region selection switch is used, there is an inconvenience in that the consumer selects the switch according to the broadcasting region selection.

Therefore, an object of the present invention is to remove the NTSC broadcasting zone selection switch to cover the entire area by Auto Fine Tuning (hereinafter referred to as AFT), NTSC front that can tune to 5A channel not only in the STD broadcasting area The present invention provides a channel selecting method for a broadcasting area.

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

1 is a channel tuning circuit diagram according to the present invention. When a channel number is selected by a channel up / down key, the microcomputer 10 outputs PLL data corresponding to the channel and the output data of the microcomputer 10. The tuner 20 tunes to the RF signal, which is a broadcasting frequency, and outputs an intermediate frequency signal IF, and detects the frequency signal while retrofitting the intermediate frequency signal IF of the tuner 20 to output video and audio signals. A demodulation section 30, a synchronization signal detection section 40 which sequentially detects whether there is a synchronization signal of the video output signal of the demodulation section 30, and feeds back to the microcomputer 10, and the synchronization signal detection section ( After the synchronization signal of 40 is detected, the microcomputer 10 compares the AFT signal of the demodulator 30 with a preset time in order to enable the microcomputer 10 to perform AFT search on the signal of the demodulator 30. 10) by outputting to It consists of AFT search means which carries a change of PLL data.

2 is a flowchart according to the present invention, in which the microcomputer 1 determines whether the channel tuned by the channel up / down key is 5A, and transmits PLL data corresponding to IRC of 5A if the channel is 5A, and the general process if it is not 5A. If it is determined that the first step of performing the first process and the synchronization signal detection after the first process is 1, if the normal process is not performed, it is determined whether the time until the AFT search is longer than the set time (X) If it is not long, the second process of determining whether the synchronization signal detection is 1 after changing the PLL data by increasing the time by a certain step and if the time from the second process to AFT search is greater than the set time (X) The third step of performing channel 5A by transmitting the PLL data corresponding to the HRC and performing the same method as the second step at the set time (Y), and in the third step, does AFT search more than the set time (Y)? If the time is long, the microcomputer 10 determines whether the channel up / down key is the channel 10. If the channel is (01), the general process is performed. If the channel is not (01), the PLL data corresponds to 5 channels. It then consists of a fourth process of performing a general process.

The present invention will be described in detail with reference to FIGS. 1 and 2 based on the above-described configuration.

First, the channel number (unmber) is selected by a channel up / down key or a remote controller in the FS (Picture sound) method, which is the most commonly used frequency tuning tuning method. When the channel is selected, the microcomputer 10 transmits PLL (Phase Locked Loop) data corresponding to the channel to the tuner 20. The tuner 20 outputs an intermediate frequency signal IF in which the PLL data is tuned to an RF signal which is a broadcasting frequency, to the demodulator 30. The demodulator 30 demodulates the input intermediate frequency signal IF, detects this frequency, and outputs a video and audio signal. If it is not the desired reference frequency, the screen may not be correctly set at the initial state. At this time, the synchronization signal detector 40, which inputs the synchronization signal of the video output signal of the demodulator 30, detects whether the synchronization signal is present or not and feeds it back to the microcomputer 10. The microcomputer 10 compares the time until the AFT search with the set time X, and if the time until the AFT search is small, increases the time in a predetermined step, and then the AFT search means according to the frequency. Real tuning is performed by comparing the output frequencies of the first and second comparators 50 and 60. Here, the synchronization signal detection unit 40 detects whether or not a broadcast is finally coming out. However, because the broadcasting frequencies differ by region, the channel selection and display problems when attempting to cover the broadcasting area where the set is placed by AFT by deleting the attached region selection switch in the set maker are solved by the second flow chart. .

In FIG. 2, channel tuning is performed only in the cable television (CATV) mode, and tuner 20 is only useful for 111 channels and 140, 155, 181, and 209 channels. The PLL data of the microcomputer 10 is set as the STD of the CATV mode frequency table shown in Table 1 below, except that the 5A channel stores all of the IRC and HRC. The 5A channel is not present in STD broadcasting in the EIA (Electronic Industries Association) regulation due to NTSC band configuration, but in IRC and HRC broadcasting.

TABLE 1

That is, Table 1 above is a partial excerpt from the EIA regulations, and shows how the STD, IRC, and HRC are different in CATV mode, but channel 5A does not exist in the STD (because there is only 4MHZ space between 4 and 5 channels). NTSC 6MHZ band can not enter). It can be seen that the IRC and HRC (because there is a space of 6MHZ between 4 and 5 channels).

Therefore, in the present invention, it is possible to select the 5A channel not only in the STD broadcasting area while covering the entire area with the AFT, excluding the area selection switch in the CATV. This is achieved by the microcomputer 10 of FIG. 1 performing the control flow as shown in FIG. 2. Then, in FIG. 2 (1a), the channel is tuned with the channel up / down keys or the remote controller to perform (1b). In (1b), the microcomputer 10 determines whether the channel is 5A, performs 4C if not 5A, and performs 1C if 5A, and transmits PLL data corresponding to IRC of 5A. After the PLL data is transmitted, the synchronization signal detection unit 40 determines whether the synchronization signal detection is 1 based on the video signal received at (2a). If the synchronization signal detection is 1, the general process (4c) is performed. If the synchronization signal is not 1, it is determined whether the time from A2b search to AFT search is longer than the set time X. If the synchronous signal is short, the time is increased to a certain step by performing (2c). Here, the set time (X) is a time sufficient to set the AFT search to a positive (+) / full negative range when the PLL data corresponding to the 5A channel of the IRC is output. After increasing the predetermined step (2d), the inputted in the AFT search mode is changed to change the PLL data which is one step frequency to perform (2a) again. If the time until the AFT search is longer than the set time X in (2b), it is determined that the synchronization signal is not found in the AFT search and the PLL data corresponding to the HRC of 5A is transmitted in (3a). The PLL data transmission here is for certainty of operation. After the data transmission (3b), it is determined whether the synchronization signal detection by the synchronization signal detection unit 40 is 1, and if it is 1, performs (4c); Determine if the time to jay is long.

The set time (Y) is a time sufficient for the AFT search to be in the positive / negative full range when PLL data corresponding to the 5A channel of the HRC is output. If the time until the AFT search is shorter than the set time (Y) in (3c), (3e) is performed via (3d). In (4a), it is determined whether the channel to be received is selected by the channel up / down channel key of the front or remote controller or whether the channel is directly tuned by the remote controller. Perform

If it is not the channel 01, the reception area is the STD area, which means that the time for which the synchronization signal is 1 is longer than the time (X, Y) that gives the AFT search period sufficiently (if it is 0 forever). ) There is no broadcast. In (4a), otherwise, the PLL data is transmitted immediately corresponding to five channels, and in (4c), a general process is performed. That is, five channels are tuned and the channel display is set to five. Broadcast reception and channel display are 2, 3, 4, 5, 6 ... in the STD region, and 2, 3, 4, 5A (01), 5 ... in the IRC and HRC regions.

According to another embodiment of the present invention, the time tuned by tuning the broadcast in the IRC or HRC region in the present invention is slightly later than with the broadcast region selection switch. Therefore, this late memory stores the STD, the IRC, and the HRC for each channel, not the 5A channel, in the microcomputer 10 PLL data. Then, when the routine (Routin) according to the present invention is performed, the actual tuning time is much shorter than that of AFT only with hardware because the intermediate PLL data is changed by software.

As described above, by eliminating the broadcast area selection switch of NTSC to cover the entire area with AFT while tuning the 5A channel not only in the STD broadcast area, it is convenient to use because it eliminates the inconvenience that the consumer has to select the switch according to the broadcast area.

Claims (1)

In the channel tuning method of a system having an NTSC broadcasting system having a microcomputer 10, a tuner 20, a demodulator 30, a synchronization signal detector 40, and an AFT search means, the microcomputer 10 is a channel. Determining whether the channel tuned by the up / down key is 5A; if channel 5A, transmits PLL data corresponding to IRC of 5A; otherwise, performs a general process; and performs synchronization detection after performing the first process. If it is determined whether there is a signal or not, the second process of determining whether the time until the AFT search is longer than the set time (X), and if the signal is longer than the set time (X) in the second process If the time until the search is long, the third process of transmitting the PLL data corresponding to the HRC 5A in the same manner as the second process to the set time (Y), and the set time (Y) in the third process Than AFT search If the time is long, it is determined whether the channel up / down key is the channel 10, and if it is not (01) channel, it transmits PLL data corresponding to 5 channels, and then performs a general process. NTSC channel selection method for all broadcasting areas.

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