KR100431177B1 - Method for reducing scanning time of broadcasting channel in digital set-top box - Google Patents

Abstract

The present invention relates to a broadcast channel scan in a digital set-top box. The present invention relates to a method for reducing the total scan time of a broadcast channel in a digital set-top box employing a FEC IC for QPSK. According to the present invention, the method includes reading a noise indicator for a corresponding broadcast channel, and skipping a channel scan if the noise indicator is equal to or greater than a preset reference value. In the box, it is possible to shorten the overall channel scan time in the digital set-top box by determining that channel synchronization is impossible and skipping the automatic search for the corresponding broadcast channel based on the noise value for each broadcast channel.

Description

How to reduce broadcasting channel scan time in digital set-top box {METHOD FOR REDUCING SCANNING TIME OF BROADCASTING CHANNEL IN DIGITAL SET-TOP BOX}

The present invention relates to a scan of a broadcast channel in a digital set-top box, and in particular, in a digital set-top box, skipping automatic search for a corresponding broadcast channel is determined based on a noise value for each broadcast channel. By doing so, the present invention relates to a method for reducing broadcast channel scan time in a digital set-top box which can shorten the entire channel scan time in a digital set-top box.

In general, satellite broadcasting refers to various types of broadcasting such as television broadcasting and PCM (Pulse Code Modulation) broadcasting using a broadcasting satellite located approximately 35.784 km above the earth. The signal transmitted through such a satellite is first converted by a low noise frequency converter (LNB) and converted into a signal of about 950-2150 MHz. This signal is input to the digital tuner, amplified and down-converted, and then input to the Forward Error Correction IC (FEC IC), which outputs the data stream after FEC synchronization, QPSK demodulation, and error correction are performed.

The FEC synchronization (or FEC lock) performed in the FEC IC is applied to a carrier synchronization for performing carrier synchronization, a viterbi synchronization for finding a bitterbi coderate, and a data transmission packet. It includes packet synchronization to perform synchronization for. Such FEC synchronization is a well-known publicly known technique, and a detailed description thereof is omitted, and such FEC synchronization is known to be performed through an automatic synchronization loop within a margin of arbitrary frequency and symbrate.

Each broadcast signal of the satellite broadcast has its own frequency and symbolization. For down conversion of the satellite signal, information about the corresponding frequency is recorded in the PLL IC in the tuner, and the symbol is transmitted to the FEC IC. The natural frequency and the simble rate are recorded and have an error value due to the drift of the low noise frequency converter (LNB) during transmission.

An error occurs in the RF frequency due to the drift of the low-noise frequency converter. In this case, in the set-top box equipped with the tuner, as shown in FIG. 2, the PLL is tuned by using an auto-search algorithm. Find the wrong frequency and lock the FEC.

FIG. 2 is a flowchart showing a conventional broadcast channel scanning method. Referring to FIG. 1, a conventional broadcast channel scanning method will be described. First, in step S21, a symbol and a subrange are respectively set. The frequency of the derodata is reset and the frequency is written into the PLL. In step S23, AGC1 and timing are sequentially checked and the carrier is searched. In step S24, it is determined whether or not the lock is searched. If the lock is not locked, in step S25, a new frequency is written to the PLL, and the frequency of the dero data is reset to proceed to step S24. Next, in step S26, it is determined whether or not tuner centering has been performed in the case of being locked in step S24. If tuner centering has been performed, the process ends in step S27. In step S28, the process changes to the next sub-range. In step S29, it is determined whether the loop ends, and if not, the flow advances to step S22.

In the process of scanning the set-top box to find valid broadcasts that can be viewed from satellite signals, certain broadcasts are not FEC-locked due to heavy noise, and when the automatic search algorithm is applied to these broadcasts, they are recorded in memory to search. Since the algorithm finds the entire range of the low-noise frequency converter drift range, such a conventional method wastes time in unnecessary broadcast search, and thus has a problem in that it takes a long time.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and therefore, an object of the present invention is to automatically search for a corresponding broadcast channel by determining that channel synchronization is impossible based on a noise value for each broadcast channel in a digital set-top box. The present invention provides a method for shortening a broadcast channel scan time in a digital set-top box by skipping an unnecessary delay time to shorten an entire channel scan time in a digital set-top box.

1 is a flowchart showing a conventional broadcast channel scanning method.

2 is a tuner block diagram of a digital set-top box for carrying out the present invention.

3 is a flowchart showing a broadcast channel scanning method according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Input Amplifier 2: Zero IF IC

2a: PLL IC 3: FEC IC

3a: Register 4: Control

As a technical means for achieving the above object of the present invention, in the digital set-top box employing the FEC IC for QPSK, in the method of shortening the broadcast channel scan time, when the channel scan, And a step of reading a noise indicator for the corresponding broadcast channel and skipping a channel scan if the noise indicator is equal to or greater than a preset reference value.

Hereinafter, a tuner of a digital set top box for carrying out the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a tuner block diagram of a digital set-top box for carrying out the present invention. Referring to FIG. 2, a tuner of a digital set-top box for carrying out the present invention is provided from a low noise frequency converter (not shown) of an antenna ANT. An input amplifier 1 for amplifying an RF signal, a zero IF IC 2 for removing a carrier for a signal from the input amplifier 1 and separating an I / Q signal, and the zero IF IC 2 PLL IC (2a) for synchronizing with the natural frequency, and converts the I / Q signal from the zero IF IC (2) to digital data, outputs the data stream through QPSK demodulation and error correction process, and each broadcast And a controller 4 for controlling phase control of the PLL IC 2a and FEC synchronization of the FEC IC 3, including a FEC IC 3 including a register 3a for recording channel-specific noise values. .

The FEC IC 3 records a noise value for each broadcasting channel, that is, a code rate noise value, in the register 3a. The controller 4 displays the noise indicator value recorded in the register 3a. ) Is configured for reference.

The control unit 4 assigns a scan skip function according to the noise indicator to the automatic search algorithm, and scans the channel by referring to the noise value for each code rate recorded in the register 3a of the FEC IC 3 during channel search. It is determined whether to skip.

3 is a flowchart showing a broadcast channel scanning method according to the present invention.

Operation according to the present invention configured as described above will be described in detail below based on the accompanying drawings.

Referring to FIGS. 2 and 3, a method for shortening a broadcast channel scan time in a digital cable set-top box according to the present invention will be described. According to the present invention, a broadcast channel scan time is shortened in a digital set-top box employing a FEC IC for QPSK. In a method of scanning a channel, when the channel scan is performed, the noise indicator for the corresponding broadcast channel recorded in the FEC IC is read, and if the noise indicator is equal to or larger than a preset reference value, the channel scan is skipped. It can greatly shorten it.

Here, in the digital cable set-top box to which the method of the present invention is applied, the FEC IC has a function of recording a noise value for each broadcast channel in an internal register, and the present invention uses the characteristics of the FEC IC.

Specifically, first, in step S31, the controller 4 sets the symbol rate and the sub-range to the FEC IC 3, respectively, and then in step S32 ) Resets the frequency of the deotator and writes the frequency for phase control, i.e., the frequency for phase control in the PLL IC 2a, and then in step S33, the zero through the zero IF IC 2. 1 Check the automatic gain control (AGC1). The above process is the same as the conventional process, and the detailed description is abbreviate | omitted.

Subsequently, in step S34, a corresponding noise value for each code rate, that is, a noise indicator value for each broadcasting channel, is recorded in the register 3a of the FEC IC 2 shown in FIG. ) Reads the noise indicator value of the register 3a of the FEC IC 2, and if the noise indicator is equal to or greater than a preset reference value, the broadcast channel is recognized as a broadcast channel which is impossible of FEC lock. The current broadcast channel process is skipped and terminated. On the other hand, conventionally, FEC synchronization is continuously performed on a broadcast channel that is impossible to lock the FEC, and thus synchronization fails. As a result, a time delay occurs.

Here, the reference value of the noise indicator is selected as the minimum value that can be regarded as a broadcast channel that can not be FEC lock through several repeated tests in advance. For example, if the noise indicator value is recorded as 1,2,3 to 10, and if it is 4 or more, it can be regarded as a broadcast channel in which FEC lock is impossible, then 4 is set as a reference value.

In step S35, if the noise indicator is less than or equal to the reference, a timing check and a carrier search are performed. In step S36, a FEC lock is searched for, and if it is not locked, a new frequency for phase control is performed. After writing to 2a), the frequency of the dero data is reset and proceeds to the beginning of this step. In step S37, if the lock is made in step S36, the tuner centering is completed and the range ends. Further, in steps S38 and S39, if the tuner centering or range end is not performed in step 37, the next sub-range is changed, and if the end of the loop is not determined and the end is not finished, the process proceeds to step S22. Quit. The above process, that is, step S39 to step S39 is the same as the conventional process, the detailed description thereof will be omitted.

According to the present invention as described above, at the beginning of the process of automatically scanning a whole series of broadcast channels, a noise indicator for each broadcast channel is recorded in a register of the FEC IC. When the noise indicator is greater than or equal to the reference value, the channel is recognized as an invalid channel that cannot be locked and skipped, thereby significantly reducing the channel scan time.

According to the present invention as described above, the digital set-top box in the digital set-top box by skipping the automatic search for the corresponding broadcast channel by determining the channel synchronization is impossible, based on the noise value for each broadcast channel There is a special effect that can shorten the overall channel scan time.

The above description is only a description of one embodiment of the present invention, the present invention is capable of various changes and modifications within the scope of the configuration.

Claims (2)

delete In a digital set-top box employing a FEC IC for QPSK, a method for shortening a broadcast channel scan time, Setting a symbol rate and a sub-range, respectively (S31); Resetting the frequency of the deotator and writing the phase control frequency (S32); Checking whether the first automatic gain control (AGC1) is present (S33); Reading a noise indicator for the corresponding broadcast channel recorded in the FEC IC, and skipping and ending the current broadcast channel process if the noise indicator is equal to or greater than a preset reference value (S34); If the noise indicator is below a reference level, performing a timing check and a carrier search (S35); Searching for FEC lock status and, if it is not locked, writing a new frequency for phase control and resetting the frequency of the dero data to proceed to the beginning of this step (S36); If the lock in the step S36, if the end of the range after the tuner centering is completed (S37); In step 37, if the tuner centering or the range is not terminated, the next sub-range is changed, and if it is determined that the loop is not terminated, the process proceeds to the step S22; Method for reducing the broadcast channel scan time in a digital set-top box comprising a.