KR100322583B1 - Fast channel discovery method and device - Google Patents

Abstract

The present invention discloses a fast channel search method and apparatus in a digital receiver. The present invention provides a method for tuning a channel based on a predetermined sequence when an automatic program mode is set, detecting a pilot signal at an intermediate frequency of each window having a predetermined frequency range for a currently tuned channel, and when a pilot signal is detected. In auto-programming mode, all channels in which the signal is present are not tuned individually, including the steps of finding the correct tuning frequency position in the frequency domain of the window where the signal is detected and storing it as a channel of the signal with the digital format. Instead, it is possible to perform a channel search at high speed by checking whether a signal exists in each window unit for the currently tuned channel and then tuning if there is a signal.

Description

Fast channel discovery method and device

TECHNICAL FIELD The present invention relates to the field of tuning, and more particularly, to a method and apparatus for searching channels at high speed in an automatic program mode in a digital receiver.

Increasingly, the number of broadcast channels is increasing, and broadcast receivers that receive multiple broadcast channels simultaneously in one receiver are being released. In addition, broadcast is also being converted from conventional analog broadcasting to digital broadcasting having a standard definition (SD) format or a high definition (HD) format. Accordingly, a high compression coding scheme (eg, MPEG: Moving Picture Expert Group) is used. Digital receivers for receiving encoded bit strings will be commercially available soon.

However, even if full-scale digital broadcasting starts, coexistence with existing analog broadcasting cannot be avoided first, and the digital receiver must also be structured to simultaneously watch digital broadcasting channels and analog broadcasting channels. Therefore, in the case of a digital receiver, when the automatic program mode is set by a user in a digital television and wants to store all the channels in which a signal is present, the digital and analog channels containing the program are mixed because the digital channel and the analog channel are mixed. The problem was that it took a long time to navigate to tune all the channels accurately.

In order to solve the above problems, an object of the present invention is to detect the presence of a signal by using a plurality of windows having a predetermined frequency range for each channel in the automatic program mode, and then, if the signal is present, by tuning the corresponding channel at high speed. To provide a way to navigate the channel.

Another object of the present invention is to detect a channel at high speed by first detecting whether there is a signal using a plurality of windows having a predetermined frequency range for each channel in an automatic program mode and then tuning the corresponding channel if there is a signal. It is to provide a device.

In order to achieve the above object, the high-speed channel search method according to the present invention is a method for searching a received channel: tuning the channel according to a predetermined order when the channel search mode is set, for the currently tuned channel Detecting a pilot signal at an intermediate frequency of each window having a predetermined frequency range, and when a pilot signal is detected, a signal having a digital format having the correct tuning frequency found by finding an accurate tuning frequency within the frequency region of the window where the pilot signal is detected. And registering with a channel.

In order to achieve the above another object, a fast channel searching apparatus according to the present invention is a digital receiver for receiving a signal having a digital format and / or a male signal having an analog broadcast format: a tuner, a current channel tuned by a tuner. When the channel search mode is set by a detector and a user that detects a pilot signal at an intermediate frequency of each window having a predetermined frequency range, the tuner controls the tuner to tune the channel in a predetermined order, and when the pilot signal is detected by the detector, And a controller for finding an accurate tuning frequency in the frequency region of the window where the signal is detected and determining that the channel is a signal having a digital format.

1 is a block diagram according to an embodiment of a fast channel searching apparatus according to the present invention.

2 is a flowchart according to an embodiment of a fast channel searching method according to the present invention.

Hereinafter, a preferred embodiment of a fast channel searching method and apparatus according to the present invention will be described with reference to the accompanying drawings.

In Fig. 1, which is a block diagram according to an embodiment of the fast channel searching apparatus according to the present invention, the tuner 102 is a signal having a digital format such as SD or HD (“digital signal”) and an analog such as NTSC or PAL. Simultaneously receive a signal having a broadcast format (" analog signal "). The tuner of the present invention is capable of receiving both digital and analog signals, but a digital tuner for receiving digital signals and an analog tuner for receiving analog signals may be configured separately.

Thus, when the automatic program mode is set by the interface with the user, the tuner 102 is in accordance with a predetermined sequence according to a control signal generated by the controller 108 recognizing the automatic program mode, for example, the first. Tune from the channel first. Here, the automatic program mode may be referred to as a channel search mode.

When determining the presence or absence of a digital signal, tune the intermediate frequency of each window by dividing the frequency band into a plurality of windows (for example, 3-4) in units of 400-500KHz, before and after the predetermined frequency of the corresponding channel per digital channel. Check whether there is a pilot signal present in the digital signal. That is, the window generator 104 generates a plurality of windows for the channel currently tuned in the tuner 102 under the control of the controller 108 and provides them to the pilot signal detector 106. For example, if the frequency of a predetermined high frequency (RF) signal of a currently tuned channel is 100 MHz, the first window having a frequency range of 99.75 MHz to 100.25 MHz with 100 MHz as an intermediate frequency, 99.5 MHz as an intermediate frequency A second window having a frequency range of 99.25 MHz to 99.75 MHz, a third window having a frequency range of 100.25 MHz to 100.75 MHz with an intermediate frequency of 100.5 MHz can be used as each window for the currently tuned channel. .

Pilot signal detector 106 detects whether a pilot signal is present at the intermediate frequency of each window generated by window generator 104 for the current channel tuned by tuner 102. When the pilot signal is detected by the pilot signal detector 106, the controller 108 that recognizes the intermediate frequency of the window where the pilot signal is detected finds the point where the signal strength is highest on the frequency spectrum within the window where the pilot signal is detected. The point found is the exact tuning ("right tuning") frequency of the digital signal in the frequency domain of the window. The exact frequency of the found digital channel is stored in memory 110. In the memory 110, a digital channel list and an analog channel list may be stored separately, and the digital channel list may include a major channel number and a minor channel number in the major channel, and location information of each channel. That is, the forward tuning frequency may be stored, and the forward tuning frequency of the analog broadcast frequency may be stored in the analog channel list. In addition, the memory 110 may be embedded in the controller 108.

If no pilot signal is detected by the pilot signal detector 104, the Auto Fine Tunning (AFT) unit 112 determines whether or not the frequency component of the high frequency signal of the current channel tuned by the tuner 102 is present. An AFT signal is generated and provided to the controller 108. The controller 108 recognizes the presence of an analog signal by recognizing the AFT signal provided from the AFT unit 112, and if it is determined that the analog signal exists, the memory 110 is a channel having an analog signal at the AFT frequency. Are stored in.

After checking whether there is a digital signal or an analog signal for the first channel, the above operation is repeated for the next channel. In addition, the digital tuning channel can be stored in the tuned frequency, and the next time the channel is tuned, it can be tuned directly to the stored tuned frequency to reduce the tuning time. After tuning to the memorized forward tuning frequency, it checks whether the signal is in the best state.

On the other hand, the signal output through the pilot signal detector 104 is provided to the first signal processor 114 for processing a digital signal, the signal output through the AFT unit 112 is a second signal processor for processing an analog signal 116 is provided.

In FIG. 2, which is a flowchart according to an embodiment of the fast channel searching method according to the present invention, when the automatic program mode is set by the user (step S101), the first channel is tuned (step S102). The intermediate frequency of each window for the first channel is tuned (step S103), and it is determined whether a pilot signal existing in the digital signal exists at the tuned intermediate frequency (step S104). If there is a pilot signal in step S104, the exact frequency position of the digital signal is found, the location information is stored, and the corresponding channel is registered as a channel having the digital signal (step S105).

If a pilot signal does not exist in step S104, an AFT is performed on the currently tuned channel (step S106), and it is determined whether an analog signal exists based on the result of performing the AFT (step S107). Register to the channel with the analog signal (step S108). If there is no analog signal at step S107, it is determined whether the current channel is the last channel (step S109), and if the current channel is not the last channel, the next channel is tuned and then proceeds to step S102 (step S110), and the current channel is the last channel. If it is a channel, it ends the automatic program mode.

The present invention can be applied to not only a digital receiver capable of receiving both a digital channel and an analog channel but also a digital receiver receiving only a digital channel.

As described above, the present invention does not tune every channel in which the signal exists in the automatic program mode, but checks whether the signal exists in each window unit for the currently tuned channel and performs fast tuning if the signal exists. As a result, channel searching can be performed.

Claims (10)

In the method of searching for an incoming channel: (a) tuning a channel based on a predetermined order when the channel search mode is set; (b) detecting a pilot signal at an intermediate frequency of each window having a predetermined frequency range for the currently tuned channel; And (c) when the pilot signal is detected in step (b), finding an accurate tuning frequency position in the frequency domain of the window where the pilot signal is detected, and storing the same as a channel of a signal having a digital format with the position information. Fast channel discovery method. The method of claim 1, (d) performing automatic fine tuning (AFT) on the currently tuned channel if no pilot signal is detected in step (b); (e) determining whether a signal having an analog broadcast format exists based on a result of performing AFT in step (d); And and (f) storing a channel having an analog signal at an AFT frequency if a signal having an analog broadcast format is present in step (e). According to claim 1, wherein step (b), And (b1) generating a plurality of windows having a predetermined frequency range before and after a predetermined frequency of the currently tuned channel. A digital receiver for receiving a signal having a digital format and / or a signal having an analog broadcast format: Tuner; A detector for detecting a pilot signal at an intermediate frequency of each window having a predetermined frequency range for the current channel tuned by the tuner; And When the channel search mode is set by the user, the tuner is controlled to tune the channel according to a predetermined order. When a pilot signal is detected by the detector, the tuner finds an accurate tuning frequency within the frequency range of the window where the pilot signal is detected and digital format. A fast channel search apparatus comprising a controller for determining a channel of a signal having a. The method of claim 4, wherein An automatic fine tuning unit for performing an automatic fine tuning (AFT) on a current channel tuned by the tuner and providing an AFT signal if no pilot signal is detected at the detector, The controller determines whether a signal having an analog broadcast format is present according to the AFT signal. The method of claim 4, wherein And a window generator for generating a plurality of windows having a predetermined frequency range before and after a predetermined frequency of the tuned current channel. The apparatus of claim 4, further comprising a memory configured to store a channel having a signal having a digital format determined by the controller and a channel having a signal having an analog broadcast format. 10. The apparatus of claim 7, wherein the memory further stores position information corresponding to the correct tuning frequency position found for the channel having the signal having the digital format, and AFT is performed for the channel having the signal having the analog broadcast format. And storing the frequency further. 5. The apparatus of claim 4, wherein the tuner is a single tuner that receives both a signal having a digital format and a signal having an analog broadcast format. 5. The apparatus of claim 4, wherein the tuner comprises a separate tuner for receiving a signal having a digital format and a signal having an analog format, respectively.