JPH075729Y2 - Video signal input circuit - Google Patents

Description

[Detailed Description of the Invention] (a) Industrial Application Field The present invention is applied to a video display device (display monitor, etc.) for receiving video signals from various video signal sources and displaying them on a screen. And a suitable video signal input circuit.

(B) Conventional technology A display monitor inputs a video signal and displays it on a screen. Depending on the environment in which it is used, the input video signal is an analog video signal (first signal). In some cases, the video signal is a digital video signal (second signal). In order to deal with this, a display monitor is of a type having dedicated signal input terminals for the first signal and the second signal, and a switch inside the device for accepting both signals at a common signal input terminal. There is a type in which each signal is branched and processed. These types are selected in view of the amount of space that can be allocated for the signal input terminals of the device.

FIG. 3 shows one conventional video signal input circuit of the latter type. In FIG. 3, (31) is a signal input terminal for receiving the first signal and the second signal, (32) is an EMI filter for removing unnecessary high frequency components contained in the input signal, and (33) is an analog. A signal processing circuit, (34) a digital signal processing circuit, (35), (36) a diode for protecting the input circuit of the digital signal processing circuit, and (37) a power supply voltage V _D near 5 volts (V). This is the power input section.
The power supply voltage V _D of this power input section (37) is
When it is a digital signal of level (0V, 5V), the digital processing circuit (34) may latch up due to overshoot at rising and undershoot at falling, resulting in malfunction or destruction. To do.
To avoid this, when an excessive input voltage is input, the diode (35) turns on so that the input signal does not exceed V _D + V _f (V _f is the diode forward voltage). Also when the under-input voltage is input, a diode (36) is so as not drop below -V _f to turn ON. Reference numeral (38) is a switch circuit, which is a changeover switch for changing over the signal processing circuit depending on whether the input signal is a digital type or an analog type.

The input signal shown in Fig. 4a is clipped when the diodes (35) and (36) turn on when the input signal shown in Fig. 4b rises and falls, but when the diode (35) turns on. The current flowing in the diode of flows through the + V _D line to the reference potential point (40) through the capacitor (39). At this time, the + V _D line becomes an inductive reactance when considered in terms of a distributed constant, so a voltage is generated by the current flowing in the + V _D line and is radiated as a leaked radio wave. The level of this radio wave is regulated by VCCI or the like as unnecessary radiation, and is an undesirable component. Therefore, as a method of clipping the input waveform without passing a current through the + V _D line, there is a method of inserting a Zener diode as shown in FIG. With this method, when an input signal that exceeds the Zener voltage V _Z of the Zener diode (41) (V _Z is smaller than TTL level 5 V) is input, a current flows through the Zener diode (41), so the amplitude of the input signal is V _It does not rise above _Z. When an under input signal is input, a forward current flows through the Zener diode (41), and the signal is -V _f
Clipped on. (FIG. 6 a, b refer) since no current flows in the + V _D line According to this method, unnecessary radiation due to the inductive reactance of + V _D line decreases.

(C) Problems to be solved by the device The video signal input circuit of FIG. 5 is suitable for reducing unnecessary radiation due to the inductive reactance of the + V _D line.
As a video signal input circuit for a video display of a type that incorporates an analog processing circuit as well as a digital processing circuit, the following problems occur. Since the input level of the analog signal is usually 0.7 to 1.0 Vpp, the Zener diode (41) in FIG. 5 is saturated when the analog signal is input, and has a capacitance at the junction. If this capacitance exists between the signal line of the input circuit and the reference potential point, the high frequency component of the analog signal is attenuated and the characteristics deteriorate. For example, when a rectangular wave character signal is input, the rise and fall times become longer, and the characters displayed on the screen become thinner.

(D) Means for Solving the Problem In order to improve the deterioration of the high frequency characteristics when the analog signal is input, the video signal input circuit of the present invention is an analog type video signal (first signal) or a digital type. Signal input terminal for selectively inputting the video signal (second signal), and the first signal or the second signal from the signal input terminal is received by the input section, and the first signal is output by the first output section. , The second
A first switch circuit for distributing and outputting a signal to a second output section, an analog signal processing circuit for receiving the first signal from the first output section, and a digital signal processing for receiving the second signal from the second output section A circuit, a signal transmission line between the signal input terminal and the input section of the first switch circuit, and a constant voltage diode arranged between the signal transmission line and a reference potential point. In the video signal input circuit, further, between the reference potential point side of the constant voltage diode and the reference potential point, a first position for opening the connection therebetween,
A second switch circuit capable of selectively taking a second position forming the connection, the second switch circuit comprising:
In a first position when the first switch circuit is configured to provide a first signal to an analog signal processing circuit,
Further, when the first switch circuit is configured to supply the second signal to the digital signal processing circuit, the first switch circuit is configured to be set to the second position.

(E) Operation According to the present invention, when the input signal from the signal input terminal is the first signal, the first switch circuit is connected to the analog signal processing circuit side and the second switch circuit is set to the first position side. Therefore, the Zener diode is released from the signal transmission system. Therefore, the Zener diode does not act as a capacitance on the analog signal that is input and transmitted, and deterioration of the high frequency characteristics of the analog signal is prevented. On the other hand, when the input signal from the signal input terminal is the second signal, the first switch circuit is connected to the digital signal processing circuit side and the second switch circuit is set to the second position side, so that the Zener diode outputs the signal. It is connected to the transmission system. Therefore, it is possible to properly limit the amplitude of the digital signal input to and transmitted by the Zener diode, and prevent latch-up and malfunction of the digital signal processing circuit.

(F) Embodiment An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a basic configuration diagram of an embodiment of the present invention, and FIG. 2 is a specific configuration diagram thereof. Each of them shows a video signal input circuit used for a display monitor. This video signal input circuit is R (red), G on the display monitor.
Three systems are provided for (green) and B (blue) signals, but one of them is illustrated in the figure.

In each figure, (1) is a signal input terminal for selectively inputting either a first signal (analog type video signal) or a second signal (digital type video signal), and (2) is this signal input terminal. EMI filter for removing unnecessary high-frequency components included in the input signal input from (3) is a first switch having an input section (3a) and first and second output sections (3b) and (3c) A circuit, (4) a signal transmission line for transmitting an input signal to the first switch circuit (3), (5) and (6) an input signal from the signal transmission line via the first switch circuit (3) And an analog signal processing circuit and a digital signal processing circuit, which are input, are constant voltage diodes (for example, Zener diodes) arranged between the signal transmission path (4) and the reference potential point (8). . Here, the first switch circuit (3) connects the signal transmission line (4) and the analog signal processing circuit (5) when the input signal is the first signal, while the input signal is the second signal. At this time, the signal transmission path (4) and the digital signal processing circuit (6) are controlled to be connected.

(9) is a second switch circuit provided between the reference potential point side (7a) and the reference potential point (8) of the constant voltage diode (7), and the second switch circuit (9) is The first position (contact (9a) side) where the connection between them is opened and the second position (contact (9b) side) where the connection is formed can be taken. The second switch circuit (9) is in the first position when the first switch circuit (3) is configured to supply the first signal to the analog signal processing circuit (5), and the first switch circuit (9). When 3) is arranged to supply the second signal to the digital signal processing circuit (6), it is arranged to be set to the second position.

FIG. 2 more specifically shows the peripheral circuit of the second switch circuit (9). The resistor (10) is connected between the power supply voltage + V _D line (11) and the collector of the transistor (12) and operates as a load resistor of the transistor (12). The diode (13) is connected between the constant voltage diode (7) and the collector of the transistor (12) such that the constant voltage diode (7) side serves as an anode. Transistors (12)
A voltage (V _SW ) (14) for switching between analog and digital is applied to the base of, and this voltage V _SW is 0 V in analog and V _{H in} digital. (V _H is a voltage sufficient to turn on the transistor (12)) Therefore, the collector-emitter of the transistor (12) is open in analog and short in digital.

At the time of inputting the first signal, the transistor (12) is in an off state, the diode (13) is reversely applied with a reverse voltage, and the constant voltage diode (7) does not operate. When the second signal is input, the transistor (12) is turned on, so that the constant voltage diode (7) is connected to the reference potential point (8) through the diode (13). Therefore, with respect to an excessive input signal, the zener voltage V _Z ′ of the constant voltage diode (7) operates so as to limit the amplitude by V _Z ′ + V _f .

(G) Effect of the invention According to the invention, when a digital video signal is input,
+ Because the V _D line frequency current does not flow, it is possible to reduce unwanted radiation by the inductive reactance of + V _D line. Also, when an analog video signal is input, the reference potential point side of the Zener diode becomes open, so the capacitance generated between the terminals of the Zener diode decreases,
It is possible to prevent deterioration of the character rising and falling characteristics without attenuating the high frequency component of the input signal.

[Brief description of drawings]

FIG. 1 is a basic configuration diagram of an embodiment of the present invention. FIG. 2 is a concrete configuration diagram thereof. FIG. 3 is a configuration diagram of a conventional circuit, and FIG. 4 is a characteristic waveform diagram of the conventional circuit. FIG. 5 is a configuration diagram of another conventional circuit, and FIG. 6 is a characteristic waveform diagram thereof. (1) ... signal input terminal, (3) ... first switch circuit, (5) ... analog signal processing circuit, (6) ... digital signal processing circuit, (4) ... signal transmission path, (7) ) ……
Constant voltage diode, (9) ... Second switch circuit.

Claims (1)

[Scope of utility model registration request] 1. A signal input terminal for selectively inputting an analog type video signal (first signal) or a digital type video signal (second signal), and the first signal or the first signal from the signal input terminal. A first switch circuit that receives two signals to an input section, distributes the first signal to a first output section and outputs the second signal to a second output section, and a first signal from the first output section. An analog signal processing circuit for receiving the signal, a digital signal processing circuit for receiving the second signal from the second output section, a signal transmission path between the signal input terminal and the input section of the first switch circuit, and the signal transmission. A constant voltage diode arranged between the path and the reference potential point, and further, between the reference potential point side of the constant voltage diode and the reference potential point, First place to open the connection between And a second switch circuit that can selectively take a second position forming the connection, the second switch circuit supplying the first signal to the analog signal processing circuit by the first switch circuit. To the first position when it is configured to operate and to the second position when the first switch circuit is configured to supply the second signal to the digital signal processing circuit.
A video signal input circuit configured to be set to a position.