KR101185561B1 - Apparatus and method for controlling gain of broadcasting receiver automatically - Google Patents

Abstract

The present invention relates to a broadcast receiver control apparatus and a control method, and more particularly, to an apparatus and method for adaptively controlling the RF gain and the IF gain of a receiver according to a broadcast scheme.

Automatic gain control apparatus of a broadcast receiver according to the present invention includes a modulation scheme determination unit for determining a modulation scheme of a received broadcast signal; And a take-over point adjuster configured to vary a take over point, which is a threshold point at which a start of gain change between the RF automatic gain controller and the IF automatic gain controller intersects according to the modulation method determined by the modulation method determination unit. It is characterized by including.

Description

Apparatus and method for controlling gain of broadcasting receiver automatically}

1 is a block diagram of an automatic gain control apparatus of a broadcast receiver according to the present invention.

2 is a flowchart of an automatic gain control method of a broadcast receiver according to the present invention.

3 (a) illustrates RF / IF AGC characteristics according to the strength of an input signal in a 256 QAM scheme according to an embodiment of the present invention.

3 (b) shows the SNR characteristics according to the strength of the input signal in the 256 QAM scheme according to an embodiment of the present invention.

4 (a) illustrates RF / IF AGC characteristics according to the strength of an input signal in an 8-VSB modulation scheme according to an embodiment of the present invention.

4 (b) shows the SNR characteristics according to the strength of the input signal in the 8-VSB modulation method according to an embodiment of the present invention.

The present invention relates to a broadcast receiver control apparatus and a control method, and more particularly, to an apparatus and method for adaptively controlling the RF gain and the IF gain of a receiver according to a broadcast scheme.

Although the strength of the signal transmitted from the transmitting device is constant, the strength of the signal changes over the distance to the receiver and various types of channels until reaching the receiver. The signal whose intensity is changed is input to the receiver, and signal processing circuits including a demodulator among the receivers are designed assuming that a signal having a constant magnitude is input. Therefore, it is necessary to control the gain to maintain a constant magnitude by adjusting the gain of the signal input to the receiver.

It is the Automatic Gain Control (AGC) circuit that fulfills this role. In the broadcast receiver, an RF AGC circuit and an IF AGC circuit are used together.

In a broadcast receiver, a signal to noise ratio (SNR) value required by a modulator differs according to a modulation method, and an SNR characteristic and an adjacent channel interference characteristic are closely related to each other. In other words, if the SNR characteristic is improved, the adjacent channel interference characteristic is worsened. If the SNR characteristic is decreased, the adjacent channel interference characteristic is improved.

However, according to the related art, the gain characteristics of the RF AGC circuit and the IF AGC circuit are equally set regardless of the modulation scheme of the broadcast signal received by the broadcast receiver. For this reason, the SNR characteristic is not optimized according to the modulation method of the broadcast signal, and thus there is a problem that the adjacent channel interference characteristic may be degraded.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide an automatic gain control apparatus and method for a broadcast receiver that adaptively adjusts gain characteristics of an automatic gain control circuit according to a modulation method of a received broadcast signal in order to solve the above problems. .

In order to achieve the above technical problem, an automatic gain control apparatus for a broadcast receiver according to the present invention includes a modulation scheme determination unit for determining a modulation scheme of a received broadcast signal; And a take-over point adjuster for varying a take over point, which is a threshold point at which a start of gain change between the RF automatic gain controller and the IF automatic gain controller intersects according to the modulation method determined by the modulation method determination unit. It is characterized by including.

According to another aspect of the present invention, there is provided a method for controlling automatic gain of a broadcast receiver according to the present invention, including: (a) determining whether a broadcast signal is detected; (b) when the broadcast signal is detected as a result of the determination of step (a), determining a modulation scheme of the detected broadcast signal; And (c) adjusting a Take Over Point, which is a threshold point at which the start of gain change between the RF automatic gain controller and the IF automatic gain controller is crossed according to the modulation scheme determined in step (b). It is characterized by including.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the present invention, a broadcast receiver employing a VSB (Vestigial Side Bands) modulation method and a Quadrature Amplitude Modulation (QAM) method will be described as an example. Of course, the present invention is not limited thereto, and may be applied to a broadcast receiver employing a plurality of modulation schemes.

In general, in a broadcast receiver, an RF AGC circuit and an IF AGC circuit are used together, and have a gain characteristic as shown in FIG. 3 (a) or 4 (a). The threshold point at which the start of the gain change between the RF automatic gain controller and the IF automatic gain controller intersect is called a take over point (TOP). In Fig. 3 (a), the take over point becomes TOP1 or TOP2. As shown in FIGS. 3A and 4A, it can be seen that the gain characteristics of the automatic gain control circuit change according to the take over point value.

Next, a description will be given of a technique of adjusting the take-over point of the RF AGC gain curve and the IF AGC gain curve according to the modulation method of the broadcast signal received by the broadcast receiver.

As shown in FIG. 1, the automatic gain control apparatus of the broadcast receiver according to the present invention includes an RF AGC amplifier 101, an RF automatic gain controller 102, a frequency converter 103, an IF filter 104, and an IF AGC. An amplifier 105, an IF automatic gain controller 106, a modulation scheme determination section 107, a take over point adjustment section 108, and a demodulation section 109 are included.

The demodulator 109 is composed of a VSB demodulator 109-1, a QAM demodulator 109-2, and the like in detail.

The RF AGC amplifier 101 amplifies an RF (Radio Frequency) broadcast signal input from an antenna (not shown) to the gain determined by the RF automatic gain controller 102.

The RF automatic gain controller 102 detects the magnitude of the output of the RF AGC amplifier 101 and changes the gain of the RF AGC amplifier 101 so that the output becomes a reference value by lowering the gain when it is larger than the reference value and increasing the gain when it is smaller than the reference value. Let's do it.

At this time, the RF automatic gain controller 102 varies the gain of the RF AGC amplifier 101 only in the weak electric field range in which the magnitude of the input signal is less than or equal to the take over point, and takes the take over point. In the excess field range, the gain of the RF AGC amplifier 101 is fixed to a constant value.

In the present invention, the take-over point is determined by considering the margin of the signal-to-noise ratio (SNR) required for each modulation method according to the modulation method of the received broadcast signal. The method of determining the take over point will be described in detail in the take over point adjusting unit 108.

The frequency converter 103 converts the RF broadcast signal amplified by the RF automatic gain controller 102 into an intermediate frequency (IF) band. In other words, the frequency converter 103 converts the selected channel frequency into an intermediate frequency by mixing the RF signal with the locally generated oscillation frequency by an internal mixer and oscillator circuit.

The IF filter 104 passes only signals of an intermediate frequency band and may be configured as a surface acoustic wave (SAW) filter.

IF AGC amplifier 105 amplifies the output signal of IF filter 104 to the gain determined in IF automatic gain controller 106.

The IF automatic gain controller 106 detects the magnitude of the output of the IF AGC amplifier 105 and varies the gain of the IF AGC amplifier 105 so that the output becomes a reference value by lowering the gain if it is larger than the reference value and increasing the gain if it is smaller than the reference value. Let's do it.

At this time, the IF automatic gain controller 106 varies the gain of the IF AGC amplifier 105 only in the range of the strong electric field in which the magnitude of the input signal exceeds the take over point, and the take over point. In the following weak field range, the gain of the IF AGC amplifier 105 is fixed to a constant value.

The modulation method determination unit 107 inputs a signal output from the IF AGC amplifier 105 to determine a modulation method of the input signal.

The demodulator 109 demodulates the broadcast signal modulated using the corresponding VSB demodulator 109-1 or QAM demodulator 109-2 based on the modulation scheme determined by the modulation scheme determination unit 107. .

Quadrature Amplitude Modulation (QAM) is a type of multi-level modulation, a kind of digital modulation, that modulates the amplitude and phase of a carrier simultaneously to improve data transmission efficiency using a limited transmission band. .

VSB (Vestigial Side Bands) modulation is a compromise between single sideband (SSB) and double sideband (DSB). In the case of a TV signal, the overall bandwidth including an audio signal and a video signal corresponds to 4.5 MHz. When the modulation is performed by the DSB method, a bandwidth of 9 MHz is required for transmission, which wastes a lot of frequency bands. In order to improve this, in the VSB modulation scheme, the TV signal is transmitted with a bandwidth of 6 MHz by using a filter having an odd symmetry characteristic around a carrier frequency. A 46.69 MHz VSB pilot signal is present in a signal modulated by VSB (Vestigial Side Bands) modulation.

As an example, the modulation scheme determination unit 107 determines whether an input broadcast signal is a VSB modulation scheme according to whether a 46.69 MHz VSB pilot signal is detected. In other words, if a VSB pilot signal is detected, it is determined by the VSB modulation method. Otherwise, it is determined by the QAM method.

Then, the take-over point (TOP) adjusting unit 108 varies the take-over point according to the modulation method as follows using the result of the modulation method determination.

In general, the signal to noise ratio (SNR) value required by the demodulation circuit is different depending on the modulation scheme.

For example, an SNR value required by the QAM demodulator 109-2 when 256 QAM broadcast signals are received is an SNR value required by the VSB demodulator 109-1 when an 8-VSB broadcast signal is received. Let's say greater. Then, if the take-over point is determined based on the SNR value required by the QAM demodulator 109-2, when the 8-VSB broadcast signal is input, more than necessary S / N margin is obtained.

Therefore, when the 8-VSB broadcast signal is received by the broadcast receiver, it is necessary to improve the adjacent channel interference characteristic by lowering the take over point set based on the QAM demodulator 109-2.

Accordingly, the take-over point adjustment unit 108 adjusts the take-over point in consideration of the margin of the signal-to-noise ratio (SNR) required for each modulation method as follows.

3 (a) and 3 (b) show RF / IF AGC characteristics according to the strength of the input signal and SNR characteristics depending on the strength of the input signal in the 256 QAM scheme.

If the SNR value required by the QAM demodulator 109-2 is TH1, the takeover point is determined as TOP1 so that the SNR value is K1 in consideration of the margin.

4 (a) and 4 (b) show RF / IF AGC characteristics according to the strength of the input signal and SNR characteristics depending on the strength of the input signal in the 8-VSB modulation scheme.

Assume that the SNR value required by the VSB demodulator 109-1 is TH2 (TH2 <TH1). If the AGC is executed using the takeover point determined based on the QAM demodulator 109-2 without change when the VSB modulated signal is received, the SNR margin is (K1-TH2) and the QAM demodulation margin (K1). -TH1) has a relatively large value.

In a broadcast receiver, SNR characteristics and adjacent channel interference characteristics are closely related to each other. In other words, if the SNR characteristic is improved, the adjacent channel interference characteristic is worsened. If the SNR characteristic is decreased, the adjacent channel interference characteristic is improved.

Therefore, when processing a broadcast signal of the VSB modulation method, it is necessary to improve the adjacent channel interference characteristics by lowering the take-over point as compared to processing the broadcast signal of the QAM method.

That is, as shown in FIGS. 4A and 4B, in the VSB modulation scheme, the takeover point is adjusted to TOP1 such that the SNR value is K2 in consideration of margin.

The take-over point adjustment unit 108 generates a take-over point value corresponding to the modulation method determined by the modulation method determination unit 107 by using the lookup table in which the take-over point value according to the modulation method is set as described above.

The take over point value generated by the take over point adjusting unit 108 is applied to the RF automatic gain controller 102 and the IF automatic gain controller 106, so that the RF automatic gain controller 102 and the IF automatic gain controller 106 Used to determine gain characteristics.

That is, the RF automatic gain controller 102 varies the gain of the RF AGC amplifier 101 only in the weak field range where the magnitude of the input signal is less than the take over point, and the RF AGC amplifier 101 in the strong field range exceeding the take over point. ), The gain is fixed to a constant value.

Then, the IF automatic gain controller 106 varies the gain of the IF AGC amplifier 105 only in the range of the strong field where the magnitude of the input signal exceeds the take over point, and the IF AGC amplifier (in the weak field range below the take over point). The gain of 105) is fixed to a constant value.

According to the modulation method of the broadcast signal received by such an operation, the take-over point can be minimized in consideration of the margin of the signal-to-noise ratio (SNR) required for each modulation method to minimize interference of adjacent channels. Can be changed.

Next, an automatic gain control method of the broadcast receiver according to the present invention will be described with reference to the flowchart of FIG. 2.

First, the broadcast receiver determines whether a broadcast signal is detected (S210). The presence or absence of the broadcast signal may be determined by whether the IF signal is detected at a predetermined level or more.

When the broadcast signal is detected as a result of the determination in step 210 (S210), the broadcast receiver determines a modulation scheme of the received broadcast signal (S220). As an example, it is determined whether an input broadcast signal is a VSB modulation method or a QAM method according to whether a 46.69 MHz VSB pilot signal is detected. In other words, if a VSB pilot signal is detected, it is determined by the VSB modulation method. Otherwise, it is determined by the QAM method.

The take-over point of the RF / IF automatic gain controller to minimize the interference of the adjacent channel in consideration of the margin of the signal-to-noise ratio (SNR) required for each modulation method according to the modulation method determined in step 220 (S220). Determine (S230). As an example, the take over point may be determined using a lookup table in which the take over point optimized for each modulation scheme is set.

In operation S240, RF automatic gain control and IF automatic gain control of the broadcast receiver are performed by applying the take-over point determined in operation S230.

According to the method of modulation of the received broadcast signal according to the above method, take over point to minimize interference phenomenon of adjacent channel in consideration of margin of signal-to-noise ratio (SNR) required for each modulation method. Can be adjusted.

Specific embodiments shown and described in the accompanying drawings are only to be understood as an example of the present invention, not to limit the scope of the invention, but also within the scope of the technical spirit described in the present invention in the technical field to which the present invention belongs As various other changes may occur, it is obvious that the invention is not limited to the specific constructions and arrangements shown or described.

As described above, according to the present invention, an optimum takeover point is determined according to a modulation method of a received broadcast signal, thereby generating an effect of optimizing a broadcast reception environment. That is, in consideration of the margin of the signal-to-noise ratio (SNR) required for each modulation scheme, an effect of minimizing interference of adjacent channels is generated.

Claims (6)

A modulation scheme determination unit for determining a modulation scheme of the received broadcast signal; And And a take-over point adjuster for varying a take over point, which is a threshold point at which a start of gain change between the RF automatic gain controller and the IF automatic gain controller intersects according to the modulation method determined by the modulation method determination unit. Automatic gain control device of a broadcast receiver, characterized in that. The automatic gain of the broadcast receiver according to claim 1, wherein the take-over point adjuster varies the take-over point in consideration of a margin of a signal-to-noise ratio (SNR) required for each modulation scheme. controller. The automatic gain control apparatus of claim 1, wherein the take-over point adjustment unit varies the take-over point by using a look-up table in which take-over points optimized for each modulation scheme are set. (a) determining whether a broadcast signal is detected; (b) when the broadcast signal is detected as a result of the determination of step (a), determining a modulation scheme of the detected broadcast signal; And (c) adjusting a take over point which is a threshold point at which the start of gain change between the RF automatic gain controller and the IF automatic gain controller is crossed according to the modulation scheme determined in step (b). Automatic gain control method of a broadcast receiver, characterized in that. The method of claim 4, wherein the take-over point is adjusted in consideration of a margin of a signal-to-noise ratio (SNR) required for each modulation scheme. 5. The automatic gain control method of claim 4, wherein the take over point is adjusted by using a look-up table in which an optimized take over point is set for each modulation scheme.

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