KR19990003975A - Peaking circuit driving device for monitor and HDTV - Google Patents

Abstract

A monitor that can improve the picture quality of the entire screen by detecting whether it is an HDTV signal or a PC signal according to the sync signal input to the dual-monitor HDTV, so that the HDTV signal goes through the peaking circuit and the PC signal does not go through the peaking circuit. Disclosed is a peaking circuit driving apparatus for a combined HDTV. After the synchronization signal is separated from the video signal amplifier, the synchronization signal is amplified to the TTL level. The amplified sync signal is applied to the sync signal checking unit so that the sync signal check unit outputs a low signal when the sync signal corresponds to two values, and the sync signal check unit outputs a high signal when the sync signal corresponds to three values. A switching circuit driver is connected to the synchronous signal checking unit, and when the high signal is applied from the synchronous signal checking unit, the switching unit determines that the video signal from the video signal amplifying unit is a video signal of the television and is connected to the HDTV through the peaking circuit unit. The switching circuit unit is controlled to be applied to the signal processing unit, and when a low signal is applied from the synchronization signal checking unit, the video signal applied from the video signal amplifying unit is determined as the video signal of the PC, and the video signal is transferred to the PC signal processing unit without passing through the peaking circuit unit. By controlling the switching circuit unit to be applied, the video signal of the PC and the video signal of the HDTV are clearly displayed on the entire screen.

Description

Peaking circuit driving device for monitor and HDTV

The present invention relates to a monitor-compatible HDTV, and more particularly, according to a synchronization signal input to a monitor-compatible HDTV, whether the signal of the HDTV or the signal of the PC is sensed, and if the signal of the HDTV goes through the peaking circuit, the peaking circuit of the PC signal. The present invention relates to a peak driving circuit driving device for a monitor and HDTV that can improve the quality of the entire screen.

In general, high-definition television (hereinafter referred to as "HDTV") displays extremely delicate television images on a wide screen in large screens, thereby achieving new appeals such as force and realism that are not available in current television broadcasts. There is a growing interest.

The high definition television (HDTV) is defined as a new TV system capable of realizing a wider aspect ratio than the conventional TV system and more than double the vertical and horizontal resolution. Although there is no general definition of the transmission method of the HDTV, it is defined as a band compression transmission method that does not significantly damage the image quality under the premise of broadcasting using a device.

1 is a block diagram schematically showing a transmission method of a general HDTV.

Referring to FIG. 1, for the HDTV, the transmitting side converts an analog video signal obtained from a high definition camera, a VTR 10, or the like into a digital signal by the A / D conversion circuit 12, and the subsampling circuit 14 The subsampling process converts the digital signal input through the transmission matching filter 16 into an analog signal in the D / A conversion circuit 18, and FM modulates the FM signal by the FM modulator 19 for transmission. The signal transmitted from the transmitting side is received through an antenna and demodulated in the FM demodulator 20, converted into a digital signal in the A / D conversion circuit 22, subsampled in the subsampling circuit 24, and 2 The interpolation process is performed by the dimensional interpolation circuit 26, and converted into an analog signal by the D / A conversion circuit 28 to be displayed on the high definition display unit 29.

In addition, the HDTV is equipped with a PC function detects the signal input through the external input terminal and when the input signal corresponding to the PC is applied to the monitor automatically performs a PC function to operate.

In the HDTV functioning as the monitor, the input signal has a clear outline only through a peaking circuit in order to correct the outline of the entire screen. However, if the PC is switched to a monitor that performs a function, the input signal, which is a PC signal, has a high bandwidth, so that the screen is not displayed correctly when passing through the peaking circuit.

In the peaking circuit, when the input signal passes through the amplifier having a high amplification degree, the amplification degree is relatively decreased in the range where the frequency of the input signal is high. Therefore, by connecting the peaking coil in series or parallel to the amplifier with high amplification degree, amplifying the video signal of the television is performed to compensate for the amplification deteriorated in the high frequency region. However, when the monitor combined HDTV performs the PC function, the input signal of the PC does not have to go through the peaking circuit because the bandwidth is large. However, the image quality is deteriorated when the monitor function for the PC is not precisely adjusted.

The present invention has been made to solve the above problems, an object of the present invention is to detect whether the signal of the HDTV signal or the PC signal according to the synchronization signal input to the monitor-compatible HDTV, if the signal of the HDTV goes through the peaking circuit, The present invention provides a peaking circuit driving device for a monitor-based HDTV that can improve the image quality of the entire screen so as not to pass the peaking circuit if it is a PC signal.

1 is a block diagram schematically showing a transmission method of a general HDTV.

Figure 2 is a block diagram schematically showing an apparatus for driving a peaking circuit of a dual-purpose HDTV monitor according to the present invention.

3 is a partial detailed view of FIG. 2.

* Explanation of symbols for main parts of the drawings

10: video signal amplifier 20: synchronization signal separation unit

30: synchronization signal amplifier 40: synchronization signal confirmation unit

50: switching circuit driver 60: switching circuit

70: picking circuit section 80: PC signal processing section

90: HDTV signal processor C1, C2: capacitor

D1, D2: Diode R: Resistance

TR: Transistor U1: And Gate

In order to achieve the above object of the present invention, the present invention provides a video signal amplifier for amplifying a video signal input from an antenna and an external input terminal; A synchronization signal separation unit connected to the video signal amplifier and separating the video signal and the synchronization signal from the video signal amplifier; A synchronization signal amplifier connected to the synchronization signal separation unit and amplifying the synchronization signal applied from the synchronization signal separation unit to a TTL level; A synchronization signal checking unit connected to the synchronization signal amplifier and determining a type of synchronization signal applied from the synchronization signal amplifier; A switching circuit driver connected to the synchronization signal checking unit and generating a driving signal according to a high signal or a low signal applied from the synchronization signal checking unit; A switching circuit unit connected to the switching circuit driver and configured to perform a switching operation by a driving signal applied from the switching circuit driver; A peaking circuit unit connected to the switching circuit unit and configured to perform high pass compensation on the television video signal applied through the switching circuit unit and to apply the signal to the HDTV signal processing unit; The present invention provides a peaking circuit driving apparatus for a monitor-type HDTV connected to the switching circuit portion, and including a PC signal processing portion for processing a PC signal applied from the switching circuit portion.

According to the present invention, the sync signal is separated from the video signal amplifier and then amplified to the TTL level. The amplified sync signal is applied to the sync signal checking unit so that the sync signal check unit outputs a low signal when the sync signal corresponds to two values, and the sync signal check unit outputs a high signal when the sync signal corresponds to three values. A switching circuit driver is connected to the synchronous signal checking unit, and when the high signal is applied from the synchronous signal checking unit, the switching unit determines that the video signal from the video signal amplifying unit is a video signal of the television and is connected to the HDTV through the peaking circuit unit. The switching circuit unit is controlled to be applied to the signal processing unit, and when a low signal is applied from the synchronization signal checking unit, the video signal applied from the video signal amplifying unit is determined as the video signal of the PC, and the video signal is transferred to the PC signal processing unit without passing through the peaking circuit unit. By controlling the switching circuit unit to be applied, the video signal of the PC and the video signal of the HDTV are clearly displayed on the entire screen.

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

Figure 2 is a block diagram schematically showing an apparatus for driving a peaking circuit of a dual-purpose HDTV monitor according to the present invention.

3 is a partial detailed view of FIG. 2.

Referring to FIG. 2 and FIG. 3, the peaking circuit driving apparatus of the dual-purpose HDTV monitor, a video signal input from an antenna and an external input terminal (not shown) is displayed on a full screen (CRT) in the video signal amplifier 10. It is amplified to the size that can be made. The sync signal separator 20 is connected to the video signal amplifier 10, and the sync signal separator 20 separates the sync signal from the video signal of the video signal amplifier 10. The synchronous signal amplifier 30 is connected to the synchronous signal separator 20, and the synchronous signal amplifier 30 amplifies the synchronous signal applied from the synchronous signal separator 20 to a TTL level. The synchronization signal confirmation unit 40 is connected to the synchronization signal amplification unit 30, and the synchronization signal applied from the synchronization signal amplifier 30 to the synchronization signal confirmation unit 40 is connected to the synchronization signal confirmation unit 40. If it passes, it is possible to determine the type of synchronization signal. A switching circuit driver 50 is connected to the synchronization signal confirmation unit 40, and the switching circuit driver 50 generates a driving signal according to a high signal or a low signal applied from the synchronization signal confirmation unit 40 to switch. It is applied to the circuit unit 60. The switching circuit unit 60 connected to the switching circuit driving unit performs a switching operation by a driving signal applied from the switching circuit driving unit 50. A peaking circuit unit 70 is connected to the switching circuit unit 60, and the peaking circuit unit 70 performs a high pass compensation on the television video signal applied from the switching circuit unit 60 to the HDTV signal processing unit 90. In addition, a PC signal processing unit 80 is connected to the switching circuit unit 60, and the PC signal processing unit 80 processes a PC signal applied from the switching circuit unit 60.

In addition, two diodes D1 and D2 are provided in the synchronous signal checking unit 40 connected between the synchronous signal amplifier 30 and the switching circuit driver 50, and the diode D1 is in the forward direction. It is connected to the synchronous signal amplifier 30, and the diode D2 is connected to the synchronous signal amplifier 30 in the reverse direction. The cathode of the diode D1 in the forward direction is connected to the first input pin of the AND gate U1, and a capacitor of which one end is grounded between the cathode of the diode D1 and the AND gate U1. (C1) is connected.

In addition, the base terminal of the transistor TR is connected to the anode terminal of the diode D2, the collector terminal of the transistor TR is applied with a constant voltage, and the emitter terminal is grounded through the resistor R. The emitter terminal of the transistor TR is connected to pin 2 of the AND gate U1, and a capacitor C2 whose one end is grounded is connected between the base terminal and the anode terminal of the diode D2. The output terminal of the AND gate U1 is connected to the switching circuit driver 50 to apply a high signal or a low signal.

According to the present invention configured as described above, an image signal input through an antenna or an external input terminal of a monitor-compatible HDTV is amplified enough to be displayed on a full screen (CRT) by the image signal amplifier 10, and the image signal amplifier ( In the video signal amplified by 10), the video signal and the sync signal are separated by the sync signal separator 20. The synchronous signal separated from the video signal by the synchronous signal separator 20 is applied to the synchronous signal amplifier 30, and the synchronous signal amplifier 30 is amplified so that the applied synchronous signal becomes a TTL level. Is applied to the identification unit 40.

If the synchronization signal applied to the synchronization signal checking unit 40 is a binary synchronization signal corresponding to the video signal of the PC, a high signal is applied to pin 1 of the AND gate U1 through the diode D1, and the diode D2. ) Does not pass, so a low signal is applied to pin 2 of the AND gate U1. That is, when the binary synchronization signal is applied from the synchronization signal amplifier 30 to the synchronization signal checking unit 40, the diode D2 does not pass even though the diode D1 passes through the characteristics of the binary synchronization signal. Therefore, a high signal is applied to pin 1 of the AND gate U1 and a low signal is applied to pin 2. Accordingly, since the signal output from the AND gate U1 of the synchronization signal checking unit 40 becomes a low signal, the switching circuit driver 50 determines the synchronization signal of the PC to control the switching circuit unit 60 to control the image signal amplifier. The video signal applied from (10) is directly applied to the PC signal processing unit 80 without passing through the picking circuit unit 70. Since the image signal applied from the image signal amplifying unit 10 to the switching circuit unit 60 is directly applied to the PC signal processing unit 80, high frequency compensation is not performed and abnormality of image quality can be prevented.

On the contrary, if the synchronous signal applied to the synchronous signal checking unit 40 corresponds to the tri-level synchronous signal corresponding to the television signal, a high signal is applied to pin 1 of the AND gate U1 through the diode D1. Since the low signal is applied to the base terminal of the transistor TR through the diode D2, the high signal is also applied to pin 2 of the AND gate U1 connected to the emitter terminal of the transistor TR. That is, when a tri-synchronous signal is applied from the synchronizing signal amplifying unit 30 to the synchronizing signal checking unit 40, the third synchronizing signal passes through the diode D1 and is smoothed in the capacitor C1 by the characteristic of the tri-synchronizing signal. Since a high signal is applied to the pin 1 of the gate U1 and a negative voltage is applied to the diode D2 and smoothed by the capacitor C2, a low signal is applied to the base terminal of the transistor TR. The transistor TR conducts and applies a high signal to pin 2 of the AND gate U1. Therefore, a high signal is simultaneously applied to two input pins of the AND gate U1 to output a high signal through an output terminal. When a high signal is output from the AND gate U1 of the synchronous signal checking unit 40 and applied to the switching circuit driver 50, the switching circuit driver 50 determines that the synchronous signal of the television is the switching circuit unit 60. To control. The switching circuit unit 60 allows the video signal applied from the video signal amplifying unit 10 to be applied to the HDTV signal processing unit 90 through the picking circuit unit 70 under the control of the switching circuit driver 50. Therefore, the video signal applied from the video signal amplifying unit 10 to the switching circuit unit 60 is applied to the peaking circuit unit 70 to perform high-pass compensation and then applied to the HDTV signal processing unit 90 so that it is displayed on the full screen (CRT). The outline of the image to be corrected to improve the image quality.

As can be seen from the above description, the present invention separates the synchronization signal from the video signal amplifier and amplifies the synchronization signal to the TTL level. The amplified sync signal is applied to the sync signal checking unit so that the sync signal check unit outputs a low signal when the sync signal corresponds to two values, and the sync signal check unit outputs a high signal when the sync signal corresponds to three values. A switching circuit driver is connected to the synchronous signal checking unit, and when the high signal is applied from the synchronous signal checking unit, the switching unit determines that the video signal from the video signal amplifying unit is a video signal of the television and is connected to the HDTV through the peaking circuit unit. The switching circuit unit is controlled to be applied to the signal processing unit, and when a low signal is applied from the synchronization signal checking unit, the video signal applied from the video signal amplifying unit is determined as the video signal of the PC, and the video signal is transferred to the PC signal processing unit without passing through the peaking circuit unit. By controlling the switching circuit unit to be applied, the video signal of the PC and the video signal of the HDTV are clearly displayed on the entire screen.

Claims (2)

A video signal amplifier 10 for amplifying a video signal input from an antenna and an external input terminal; A synchronization signal separation unit 20 connected to the video signal amplifier 10 for separating the video signal and the synchronization signal from the video signal amplifier 10; A synchronous signal amplifier 30 connected to the synchronous signal separator 20 for amplifying a synchronous signal applied from the synchronous signal separator 20 to a TTL level; A synchronization signal checking unit (40) connected to the synchronization signal amplifier (30), for determining a type of synchronization signal applied from the synchronization signal amplifier (30); A switching circuit driver (50) connected to the synchronization signal confirmation unit (40) for generating a drive signal in accordance with a high signal or a low signal applied from the synchronization signal confirmation unit (40); A switching circuit unit 60 connected to the switching circuit driver 50 to perform a switching operation by a driving signal applied from the switching circuit driver 50; A peaking circuit unit 70 connected to the switching circuit unit 60 and performing high pass compensation on the television image signal applied through the switching circuit unit 60 to the HDTV signal processing unit 90; And a PC signal processing unit (80) connected to the switching circuit unit (60) for processing the PC signal applied from the switching circuit unit (60). 2. The diode D1 constituting the synchronization signal checking unit 40 has an anode terminal connected to the synchronization signal amplifier 30, and the diode D2 has a cathode terminal of the synchronization signal amplifier 30. Is connected to the first input pin of the AND gate U1, and the base terminal of the transistor TR is connected to the anode terminal of the diode D2. The collector terminal of the TR is applied with a constant voltage, the emitter terminal is grounded through the resistor R, and the emitter terminal of the transistor TR is connected to pin 2 of the AND gate U1. Peaking circuit driving device of HDTV.