JP2008187510A - Input / output circuit and input / output terminal device using the same - Google Patents

Abstract

The present invention provides an input / output terminal that functions as an output terminal in a normal state where nothing is set, and functions as an input terminal when it is desired to function as an input terminal. An input / output circuit is provided.
An input / output circuit 30 provided between an input / output terminal 10 and an integrated circuit 40, comprising:
Input circuits 31, 35, 37 connected from the input / output terminal 10 to input terminals 41, 45, 48 of the integrated circuit 40 through first capacitors C1, C3, C5;
The integrated circuit is provided in parallel with the input circuits 31, 35 and 37, and is connected from the input / output terminal 10 through a series connection of impedance matching resistors R1, R2 and R3 and second capacitors C2, C4 and C6. Output circuits 33, 36, 38 connected to output terminals 43, 47, 49 of the circuit 40;
When the input / output terminal 10 is used as an input terminal, the output terminals 43, 47, and 49 are set in a mute state.
[Selection] Figure 1

Description

  The present invention relates to an input / output circuit for an input / output terminal that can also use an output terminal as an input terminal, and an input / output terminal device using the input / output circuit.

  2. Description of the Related Art Conventionally, connection terminals for separately inputting and outputting output terminals are known as connection terminals for inputting and outputting video signals. FIG. 5 is a diagram showing a relationship among conventional input terminals 100 and 200, input circuit 300 for input terminals, and integrated circuit 400.

  In FIG. 5, the input terminal 100 of the S (separate) terminal and the input terminal of the composite terminal (RCA) are connected to the integrated circuit 400 via the input circuit 300. A chroma signal that is a color signal and a luminance signal are separately input to the input terminal 100 of the S terminal. On the other hand, a so-called composite signal in which a chroma signal and a luminance signal are combined is input to the input terminal 200 of the composite terminal.

  The input terminal 100 of the S terminal is terminated by a 75Ω impedance matching resistor R10, and is connected to the chroma input terminal 410 of the integrated circuit 400 via a coupling capacitor C10. Similarly, the input terminal 100 of the S terminal is terminated by a 75Ω impedance matching resistor R20, and is also connected to the luminance signal input terminal 420 of the integrated circuit 400 via the coupling capacitor C20. Accordingly, the chroma signal input to the S terminal 100 is input to the chroma input terminal 410, and the luminance signal is input to the luminance signal input terminal 420.

  In addition, a DC identification signal for discriminating the aspect ratio of the video signal is superimposed on the chroma signal, but the AC component is removed by the input impedance of the resistor R10, the capacitor C40 and the S2 discrimination terminal 440, and only the DC identification signal is present. The signal is input to the S2 discrimination terminal 440. The DC identification signal input to the S2 discrimination terminal 440 is used to discriminate the aspect ratio of the video from 4: 3 video, 16: 9 video, and letterbox signal. Note that the S1 determination terminal 450 of the integrated circuit 400 is a terminal for determining whether or not the S terminal is connected.

  On the other hand, the composite terminal input terminal 200 is terminated by an impedance matching resistor R30, and is connected to the composite signal input terminal 430 of the integrated circuit 400 via a coupling capacitor C30. The composite signal input to the composite terminal 200 is input to the composite signal input terminal 430 via the input circuit 300 including the impedance matching resistor R30 and the coupling capacitor C30.

  As described above, the input impedance of the video signal input terminals 100 and 200 is defined by the standard as 75Ω. Therefore, in order to satisfy this, each is terminated with a resistor of 75Ω and coupled with a coupling capacitor. It is necessary to be connected to the input terminal of the integrated circuit 400.

  Next, the prior art of the output terminal will be described. FIG. 6 is a diagram showing the relationship among the conventional output terminals 150 and 250, the output circuit 350 for the output terminal, and the integrated circuit 500.

  In FIG. 6, the output terminal 150 of the S terminal is connected to the chroma output terminal 415 of the integrated circuit 500 via a 75Ω impedance matching resistor R40 and a coupling capacitor C50. Therefore, the chroma signal output from the chroma output terminal 415 is output to the outside from the output terminal 150 of the S terminal. The output terminal 150 of the S terminal is also connected to the luminance signal output terminal 425 of the integrated circuit 500 via the impedance matching resistor R50 and the coupling capacitor C60, and the luminance signal output from the luminance signal output terminal 425 is , And output from the S terminal 150 to the outside.

  In addition, a resistor R70 is connected in parallel to the coupling capacitor C50, and the identification direct current signal for determining the aspect ratio output from the DCout terminal 445 of the integrated circuit 500 is superimposed on the chroma signal via the resistor R70. .

  Similar to the S terminal, the composite terminal output terminal 250 is connected to the composite signal output terminal 435 of the integrated circuit 500 via a 75Ω impedance matching resistor R60 and a coupling capacitor C70. Therefore, the composite signal output from the composite signal output terminal 435 is output to the outside from the output terminal 250 of the composite terminal via the output circuit 350 including the resistor R60 and the capacitor C70.

  Thus, since the output impedance of the output terminals 150 and 250 is defined as 75Ω from the standard, in order to satisfy this, the coupling capacitors C50, C60, C70 and 75Ω are connected from the output terminal of the integrated circuit 500. Need to be connected via impedance matching resistors R40, R50 and R60.

As an input / output circuit for an input / output terminal, as a technology that always uses a terminal as an input / output terminal, an output system signal processing circuit and an input system signal processing circuit are connected in parallel to the input / output terminal. When a changeover switch is provided between the terminal and the output system signal processing circuit, and the external terminal is connected to the input / output terminal by the decoder circuit, the input / output terminal should be used as the input terminal, or the output terminal A technique is known in which it is determined whether the switch should be operated and the changeover control of the changeover switch is performed (see, for example, Patent Document 1).
JP-A-7-38817

  However, in the case where the input terminals 100 and 200 and the output terminals 150 and 250 are separately provided as in the prior art described with reference to FIGS. 5 and 6, the input circuit 300 and the output for the input terminal 100 are used. Since the format of the output circuit 350 for the terminals 150 and 250 is different from the output through the resistor termination in the input circuit 300 and the resistor in the output circuit 350, the input circuit 300 and the output circuit 350 must be provided separately. It was. Therefore, even if it is difficult to provide a large number of terminals, such as a thin panel of a recent television, for example, it is necessary to separately provide an input terminal and an output terminal, resulting in a space inconvenience.

  In addition, in the configuration described in Patent Document 1, whether the input / output terminal is used as an input terminal or an output terminal is often determined to be one for the user's application, but is often determined from the outside each time. In order to determine whether the input / output terminal functions as an input terminal or an output terminal by connection, it is necessary to always operate a determination circuit. Therefore, even when the user wants to use the terminal fixed for input or output, a complicated judgment and control circuit must be installed and always operated. In addition, there is a problem that wasteful power and computation time are consumed.

  Therefore, the present invention functions as an output terminal in a normal state where nothing is set, and when it is desired to function as an input terminal, an input / output terminal that functions as an input terminal by setting, and for realizing this An object is to provide an input / output circuit.

In order to achieve the above object, an input / output terminal input / output circuit (30) according to the first invention comprises an input / output circuit provided between the input / output terminal (10) and the integrated circuit (40). (30)
The input circuit (31, 35) connected from the input / output terminal (10) to the input terminal (41, 45, 48) of the integrated circuit (40) through the first capacitor (C1, C3, C5). 37)
An impedance matching resistor (R1, R2, R3) and a second capacitor (C2, C4, C6) provided in parallel with the input circuit (31, 35, 37), from the input / output terminal (10), An output circuit (33, 36, 38) connected to an output terminal (43, 47, 49) of the integrated circuit (40) through a series connection of
When the input / output terminal (10) is used as an input terminal, the output terminals (43, 47, 49) are muted. Thereby, it can be normally used as an output terminal, and when used as an input terminal, it can be switched to an input terminal by simple control, and the number of terminals provided in the device can be reduced.

A second invention is an input / output circuit (30) according to the first invention, wherein:
The first capacitors (C1, C3, C5) have a smaller capacity than the second capacitors (C2, C4, C6). As a result, a small-capacitance capacitor suitable for the input terminal and a large-capacitance capacitor suitable for the output terminal are arranged, and the input terminal or the output terminal alone is inserted without degrading the function. An output shared terminal can be realized.

A third invention is an input / output circuit (30) according to the first or second invention, wherein
The output terminals (43, 47, 49) are controlled to be in a mute state when used as input terminals by a logic circuit. Thereby, the input / output circuit switching control can be easily performed without performing complicated individual control.

The input / output terminal device according to the fourth invention has the input / output circuit (30) according to the first to third inventions,
An input / output terminal (10) and an integrated circuit (40) are provided. As a result, it can be used as an input / output terminal that normally functions as an output terminal and can also function as an input terminal if necessary, and can be a space-saving input / output terminal device with a small number of terminals. it can.

The color signal input / output circuit according to the fifth invention is a color signal input / output circuit (31, 32, 33, 34) provided between the input / output S terminal (11) and the integrated circuit (40). And
A color signal input circuit (31) connected from the input / output S terminal to a color signal input terminal (41) of the integrated circuit (40) via a first capacitor (C1);
The integrated circuit is provided in parallel with the color signal input circuit (31) and is connected to the input / output S terminal (11) through a series connection of an impedance matching resistor (R1) and a second capacitor (C2). A color signal output circuit (33) connected to the color signal output terminal (43) of (40);
Provided in parallel with the second capacitor (C2), and from the connection point between the impedance matching resistor (R1) and the second capacitor (C2) through the impedance matching resistor (R1). An identification signal input circuit (32) connected to an identification signal input terminal (42) of the integrated circuit (40);
Provided in parallel with the second capacitor (C2), from the connection point between the impedance matching resistor (R1) and the second capacitor (C2), via the identification signal superimposing resistor (R4) An identification signal output circuit (34) connected to an identification signal output terminal (44) of the integrated circuit (40);
When the input / output S terminal (11) is used as an input terminal, the color signal output terminal (43) is muted and the identification signal output terminal (44) is set to high impedance. . As a result, a DC signal having information on the aspect ratio of the video is superimposed and input, and a color signal that needs to be superimposed and output at the time of output is also reduced as an input / output S terminal device. be able to.

The video signal input / output terminal device (60) according to the sixth invention comprises an input / output composite terminal (15), a color signal input / output circuit (31, 32, 33, 34) and a luminance signal input / output circuit ( 37, 38) and a video signal input / output terminal device (60) having an input / output S terminal (11) connected thereto.
4. The input / output circuit (35, 36) of the input / output composite terminal (15) and the luminance signal input / output circuit (37, 38) of the input / output S terminal (11) according to claim 1. I / O circuit (31, 33, 35, 36, 37, 38) is applied,
The color signal input / output circuit (31, 32, 33, 34) according to claim 5 is applied to the color signal input / output circuit (31, 32, 33, 34). Thus, conventionally, a total of four input terminals and output terminals for video signals are required for input and output for the composite terminal and S terminal, but a total of two terminals can be formed by configuring each as an input / output terminal. It can be used as an input / output terminal for video signals.

  Note that the reference numerals in the parentheses are given for easy understanding, are merely examples, and are not limited to the illustrated modes.

  According to the present invention, an input / output terminal that can also use the output terminal as an input terminal and an input / output circuit applied thereto can be realized with a simple configuration, and the number of terminals provided for connecting external devices such as a television can be reduced. While saving space, it is possible to provide while maintaining the function of the necessary number of terminals.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1 is a diagram showing an internal circuit configuration when the input / output terminal device 60 according to this embodiment is used as an input terminal. In FIG. 1, the main components of the input / output terminal device 60 according to the present embodiment include an input / output terminal unit 10, an input / output circuit 30, and an integrated circuit (IC) 40.

  The input / output terminal unit 10 includes an input / output S (separate) terminal 11 and an input / output composite video signal terminal (hereinafter referred to as an “input / output composite terminal” or “input / output RCA terminal”) 15. including.

  The input / output S terminal 11 is a terminal for inputting / outputting a signal which is separated into two systems of a luminance signal and a color signal (hereinafter also referred to as “chroma signal”) constituting the video signal. In FIG. 1, the input luminance signal is configured to be sent to the system of the connecting line 12, and the chroma signal and the DC superimposing signal for S2 discrimination superimposed on the chroma signal are sent to the system of the connecting line 13. Further, a DC signal for determining whether or not the S terminal is connected to the input / output S terminal 11 is sent to the system of the connection line 14.

  On the other hand, the input / output composite terminal 15 is a terminal for inputting / outputting a composite (video) signal transmitted in a synthesized state without separating a luminance signal and a color signal (chroma signal). Therefore, the input / output system of the input / output composite terminal 15 is composed of only one system of the connection line 16.

  The input / output circuit 30 plays a role as an application circuit for impedance matching of the input signal input from the input / output terminal 10 or the output signals output from the terminals 41 to 49 of the integrated circuit 40. Fulfill.

  The input / output circuit 30 includes a composite signal input circuit 35 and a composite signal output circuit 36 in the connection system 16 that inputs and outputs composite signals via the composite input / output terminal 15.

  The input / output circuit 30 is connected to the luminance signal input circuit 37 for inputting / outputting a luminance signal via the input / output S terminal 11 in the connection systems 12, 13, and 14 input from the input / output S terminal 11. Similarly, a signal output circuit 38, a chroma signal input circuit 31 for inputting / outputting a chroma signal via the input / output S terminal 11, a chroma signal output circuit 33, and an aspect ratio of the video signal superimposed on the chroma signal are discriminated. It comprises an S2 identification signal input circuit 32 that inputs and discriminates an identification DC signal, and an identification signal output circuit 34 that superimposes the identification DC signal at the time of output. Further, an S1 identification signal input circuit 39 for determining whether or not the S terminal is connected may be included.

  As described above, the input / output circuit 30 is provided with the input circuits 31, 35, and 37 and the output circuits 33, 36, and 38 for each AC signal. Further, with respect to the chroma signal, a DC signal input circuit 32 as an identification signal for determining an aspect ratio, an output circuit 34, and an input circuit 39 for inputting a DC signal as an S terminal connection state are provided. Yes.

  Each of the input circuits 31, 35 and 37 includes coupling capacitors C 1, C 3 and C 5 between the input / output terminals 11 and 15 and the input terminals 41, 46 and 48 of the integrated circuit 40. Each output circuit 33, 36, 38 has impedance matching resistors R1, R2, R3 and a capacitor C2, between the input / output terminals 11, 15 and the output terminals 43, 47, 49 of the integrated circuit 40. A series connection with C4 and C6 is provided. Further, the S2 identification signal input circuit 32 is configured only by a connection in which the connection point A between the impedance matching resistor R1 and the capacitor C2 and the S2 determination terminal 42 of the integrated circuit 40 are connected. The point A and the DCout terminal 44 of the integrated circuit 40 are connected via a resistor R4. Further, the S1 identification signal input circuit 39 is configured by a connection in which the input / output S terminal 11 and the S1 determination terminal 45 of the integrated circuit 40 are connected.

  The integrated circuit 40 may be a general-purpose IC (Integrated Circuit) that controls input / output of video signals. For example, a general-purpose video switch IC may be preferably used. The signal input to the integrated circuit 40 may be processed in the integrated circuit 40 and then input to the image processing IC, for example, for processing. The integrated circuit 40 also performs output control when outputting a video signal generated by an image display device (not shown) on which the input / output terminal device 60 according to this embodiment is mounted to the outside.

  The integrated circuit 40 is provided with an input / output terminal corresponding to each input / output signal. Accordingly, the terminal corresponding to the composite signal of the input / output composite terminal includes the composite input terminal 46 and the composite output terminal 47. Further, a luminance signal input terminal 48 and a luminance signal output terminal 49 are provided as terminals corresponding to the luminance signal input to the input / output S terminal 11. Further, for the chroma signal, it has a chroma input terminal 41, a chroma output terminal 43, an S2 discrimination terminal 42 for discriminating the aspect ratio of the chroma input signal, and a DCout terminal 44 for superimposing an identification signal on the chroma output signal. Further, an S1 determination terminal 45 may be further provided for S terminal connection determination.

  The S2 discrimination signal input circuit 32 and the S2 discrimination terminal of the integrated circuit 40 are standard images having an aspect ratio of 4: 3 from the DC discrimination signal superimposed on the chroma signal, as described in the prior art. , 16: 9 squeeze signal or letterbox signal. The S1 identification signal input circuit 39 and the S1 determination terminal 45 determine whether or not the S terminal is connected.

  The integrated circuit 40 includes internal elements corresponding to the respective input / output terminals. For example, the bias unit 51 applies a bias to the chroma input signal input from the chroma input terminal 41. Further, the DC voltage of the identification signal input to the S2 discrimination terminal 42 is detected by the resistor 52, and the detected DC voltage is compared with the reference voltage by the comparator 62, and the aspect ratio of the image is discriminated. The drivers 53, 54, 57, 59 provided in the integrated circuit 40 corresponding to the respective output terminals 43, 44, 47, 49 output output signals sent from the integrated circuit 40. Drive circuit. Further, the comparator 55 provided corresponding to the S1 discrimination terminal compares with the reference voltage and makes a comparison determination of the input voltage. The clamp means 56 and 58 provided corresponding to the composite input terminal 46 and the luminance signal input terminal 48 are based on the black level in the composite signal and the luminance signal, and the DC voltage value represents information. This reference level is moved and fixed to another level. Thereby, the lowest point of the operation signal can be made uniform.

  Next, how the input / output terminal device 60 configured as shown in FIG. 1 operates when functioning as an input terminal will be described.

  First, the composite signal input / output circuits 35 and 36 will be described as an example. As described above, the composite signal input circuit 35 has a configuration in which the coupling capacitor C3 is provided between the input / output composite terminal 15 and the composite input terminal 46 of the integrated circuit 40. The coupling capacitor C3 is provided to prevent the potential fluctuation of the input signal, and handles the signal by the bias inside the integrated circuit 40, and thus plays a role of blocking the DC component and preventing the potential fluctuation. The composite output circuit 36 is connected in parallel to the coupling capacitor C3 to the composite output terminal 47 of the integrated circuit 40 through a direct connection between the 75Ω impedance matching resistor R2 and the capacitor C4. .

  Under such a configuration, when the input / output composite terminal 15 is used as an input terminal, the composite output terminal 47 is set to the mute state so that the video signal is not output. Since the composite output terminal 47 has a low impedance, if it is set to a so-called mute state in which no output signal is output from the composite output terminal 47, the composite signal output circuit 36 is grounded via the capacitor C4. Can be considered. In this state, when a composite input signal is input from the composite input / output terminal 15, the input signal is input to the composite signal input circuit 35 and the composite signal output circuit 36. The signal input to the composite signal input circuit 35 is input to the composite input terminal 46 via the coupling capacitor C3. On the other hand, since the composite signal output circuit 36 is grounded in terms of alternating current as described above, the signal input to the composite signal output circuit 36 is in the same state as that terminated by the impedance matching resistor R2, and is thus grounded. Flow into. Therefore, when combined, the composite input circuit 35 and the composite output circuit 36 are in the same circuit state as the composite signal input circuit 300 indicated by R30 and C30 in FIG. 5 of the prior art, and serve as input terminals.

  The impedance operation of the composite output terminal 47 is performed by, for example, muting the composite output terminal 47 in accordance with an instruction from a microcomputer that controls the entire image display apparatus to which the input / output circuit according to this embodiment is applied. You may comprise so that it may set to a state.

  As described above, the composite signal output circuit 36 is configured to output an output signal via the series connection of the resistor R2 and the capacitor C4, similarly to the conventional output circuit 350 shown in FIG. By setting the 40 composite output terminals 47 to a low impedance, the resistor R2 is short-circuited in the same state as the termination, and the composite signal input circuit 35 and the composite signal output circuit 36 as a whole constitute a substantial input circuit. However, the number of terminals can be one.

  The capacitance of the capacitor C3 of the composite signal input circuit 35 is preferably small. For example, it is preferably 0.01 μF to 1 μF, more preferably 0.05 μF to 0.5 μF, and most preferably about 0.1 μF. . Corresponding to the composite input terminal 46, the clamping means 56 is provided in the integrated circuit 40. For example, the clamping can be achieved by applying a bias with the capacitor C3. However, in this case, it is necessary to increase the capacity of the capacitor C3. However, if the capacity of the capacitor C3 is increased, a long time is required for charging and discharging. Therefore, it is preferable not to use the capacitor C3 as the clamping means, but to provide the clamping means inside the integrated circuit 40, and to reduce the capacitance of the capacitor C3 to mainly play the role of the coupling capacitor. Therefore, the capacitance of the capacitor C3 is configured to be smaller than that of the capacitor C4.

  On the other hand, since the capacitor C4 of the composite signal output circuit 36 must terminate the impedance matching resistor R2 of 75Ω, in order to prevent the sag phenomenon in which the voltage of the line power supply drops momentarily from several milliseconds to several seconds. A large capacity is preferred. Therefore, for example, the capacitance of the capacitor C4 is preferably 100 μF to 800 μF, more preferably 200 μF to 600 μF, and most preferably about 470 μF.

  Thus, since the roles played by the capacitor C3 and the capacitor C4 are different in the composite signal input circuit 35 and the composite signal output circuit 36, it is preferable to provide capacitors C3 and C4 having appropriate capacities, respectively. The capacitor C3 of the composite signal input circuit 35 preferably has a smaller capacity than the capacitor C4 of the composite signal output circuit 36.

  The description in the case where the composite input / output composite terminal 15 functions as an input terminal described in the composite signal input / output circuits 35 and 36 can be applied to other input / output circuits. That is, the present invention can be applied as it is to the luminance signal input / output circuits 37 and 38 and the chroma signal input / output circuits 31 and 33 connected to the input / output S terminal.

  For example, in the case of the luminance signal input / output circuits 37 and 38, the coupling capacitor C5 of the luminance signal input circuit 37 corresponds to the coupling capacitor C3 of the composite signal input circuit 35, and the impedance matching resistor R3 of the luminance signal output circuit 38. And the capacitor C6 correspond to the impedance matching resistor R2 and the capacitor C4 of the composite signal output circuit 36, respectively.

  In the case of the chroma signal input / output circuits 31 and 33, the coupling capacitor C1 of the chroma signal input circuit 31 corresponds to the coupling capacitor C3 of the composite signal input circuit 35, and the impedance matching resistor R1 of the chroma signal output circuit 33. And the capacitor C2 correspond to the impedance matching resistor R2 and the capacitor C4 of the composite signal output circuit 36, respectively.

  Next, operations of the S2 identification signal input circuit 32 and the S2 identification signal output circuit 34 will be described. When the input / output S terminal 11 is used as an input terminal, the DCout terminal 44 of the integrated circuit 40 is set as a high impedance.

  By setting in this way, the identification DC signal superimposed on the chroma input signal does not flow from the connection point A to the identification signal output circuit 34 but flows toward the identification signal input circuit 32. Therefore, the identification signal output circuit 34 does not affect the identification input signal at all, flows into the identification signal input circuit 32 and is input to the S2 determination terminal 42, and based on the DC identification signal by the resistor 52 in the integrated circuit 40. The aspect ratio of the video signal input from the S terminal is determined.

  In order to make the DCout terminal 44 of the integrated circuit 40 have a high impedance, for example, the output amplifier in the integrated circuit 40 internally connected to the DCout may not be operated.

  Further, the chroma input signal itself is terminated by the chroma signal output circuit 33 by the impedance matching resistor R1 by setting the chroma output terminal 43 to the mute state, and is passed through the coupling capacitor C1 of the chroma signal input circuit 31. The input to the chroma input terminal 41 is the same as in the case of the composite signal described above.

  As described above, even when the DC identification signal is superimposed on the chroma signal, the S2 identification signal input circuit 32 and the S2 identification signal output circuit 34 are connected from the connection point A to the impedance matching resistor R1. By configuring and performing the impedance operation of the DCout terminal 44 of the integrated circuit 40, the input / output S terminal 11 can also be configured for the S terminal that inputs and outputs the chroma signal.

  Since only the input signal from the input / output S terminal 11 is directly input to the S1 identification signal input circuit 39, it may be provided alone to detect the S1 identification signal voltage.

  As described above, in this embodiment, when the input / output terminals 11 and 15 are used as input terminals, the output terminals 43, 47, and 49 of the integrated circuit 40 are put into the mute state, thereby outputting the output circuits 33 and 36. The impedance matching resistors R1, R2 and R3 provided on the terminal 38 are terminated, and the role of the impedance matching resistors used in the conventional input circuit is substantially taken, and there are few parts without adding new parts. The input / output terminals 11 and 15 can be realized by the number of points. For the color signal on which the DC identification signal is superimposed, the DCout terminal 44 can be set to a high impedance so that the input of the DC identification signal to the S2 determination terminal 42 is not hindered.

  Next, an operation when the input / output terminal device 60 according to this embodiment is used as an output terminal will be described with reference to FIG. 2, the configuration of the input / output circuit 30 and the integrated circuit 40 when the input / output S terminal 11 and the input / output composite terminal 15 are used as output terminals is the same as the configuration shown in FIG. 1 is different from FIG. 1 only in that the output terminals 43, 44, 47, 49 of the integrated circuit 40 and the corresponding drivers 53, 54, 57, 59 are in a normal operation state.

  The operation when a composite signal is output from the input / output composite terminal 15 in FIG. 2 will be described as an example.

  When a signal is output from the driver 57 in the integrated circuit 40, the composite output signal is output from the composite output terminal 47, passes through the coupling capacitor C4 and the impedance matching resistor R2, and is directly used as the composite input / output terminal 15. Is output from. At that time, since the composite input terminal 46 of the integrated circuit 40 has a high impedance in a normal state, the composite output signal is not affected at all, and the composite output signal flows into the composite input / output terminal 15 as it is and is externally supplied. Will be output. Since the composite signal output circuit 36 has the same configuration as the conventional output circuit of FIG. 6, the function as the output circuit can be performed as it is without performing a special impedance operation on the terminals of the integrated circuit 40. In this way, when the input / output composite terminal 15 is used as an output terminal, it can be used as an output terminal without any special control.

  Similarly, when a luminance signal is output from the luminance signal output terminal 49, the luminance signal input terminal 48 originally has a high impedance, so that the luminance output signal has no influence from the luminance signal input circuit 37 and the luminance signal input terminal 48. Without being received, the signal is output from the input / output S terminal 11 to the outside through a direct connection between the coupling capacitor C6 of the luminance signal output circuit 38 and the impedance matching resistor R3 of 75Ω.

  When the chroma signal is output, the drivers 53 and 54 in the integrated circuit 40 are turned on, and the signal is output from both the chroma output terminal 43 and the DCout terminal 44. Also in this case, since both the chroma input terminal 41 and the S2 discrimination terminal 42 are originally high impedance, both of them are both the chroma output signal output from the chroma output terminal 43 and the DC identification signal output from the DCout terminal 44. Does not affect. Accordingly, the chroma output signal is output from the chroma output terminal 43, the direct current component is cut by the coupling capacitor C2, and then the direct current signal output from the DCout terminal 44 is converted into a direct current signal by the resistor R4 of the identification signal output circuit 34. Are superimposed and output directly from the input / output S terminal 11 via the impedance matching resistor R1. As described above, the input / output terminal device 60 according to the present embodiment can also use a chroma output signal on which a DC signal is superimposed as an output terminal without performing special control.

  As described above, the input / output circuit 30 according to this embodiment includes the input circuit 31 in parallel with all the output circuits 33, 34, 36, and 38 for each signal when viewed from the input / output terminals 11 and 15. , 32, 35, and 37 are connected to each other. However, since the input terminals 41, 42, 45, and 48 of the integrated circuit 40 have high impedance, the normal output terminals are not affected at all. It can be used as Therefore, the input / output terminal device 60 can be used as a normal output terminal as it is without operating a useless circuit when the user does not perform any setting.

  FIG. 3 is a diagram for explaining a signal interface and a transmission path for explaining a mode in which the user uses the input / output terminal device 60 as an output terminal or switches to an input terminal.

FIG. 3A is a diagram illustrating an example of transmission means used in the present embodiment. As shown in FIG. 3A, for example, the integrated circuit 40 applied to the input / output terminal device 60 according to the present embodiment includes the entire control provided in the image display device (not shown). Information may be transmitted using the microcomputer 70 that performs the above and an I ² C (Inter Integrated Circuit) bus. The I ² C bus is an interface that transmits information using a data signal and a clock signal using two signal lines SDA (Serial Data) and SCL (Serial Clock). Since it is suitable for performing high-speed serial communication of 100 kHz and transmitting information between devices in close locations, it may be applied to communication between the integrated circuit 40 and the microcomputer 70.

FIG. 3B is an example showing a mode of setting whether the user uses the input / output terminal device 60 as an output terminal or an input terminal. For example, the input / output terminal device 60 according to the present embodiment includes the input / output terminal selection setting means 75, and whether the user uses the input / output terminal 60 as an input terminal from the input / output terminal selection setting means 75 or for output. You may comprise so that it can select and set whether it uses as a terminal. For example, a menu screen may be displayed on the screen 71 of the image display device for the user, and the user can select and set which mode the user selects from the screen. Further, a selection switch 72 may be provided so that the user can select with the switch. The user's selection setting information may be sent to the microcomputer 70 provided inside the image display device, and the selection information may be transmitted from the microcomputer 70 to the integrated circuit 40 using the I ² C bus.

  Further, in the integrated circuit 40, when one bit for the input terminal is provided and the user selects to use as the input terminal, the impedance of each terminal of the integrated circuit 40 is thereby set to the mode for the input terminal. You may comprise. For example, when the input / output terminal device 60 is used as an input terminal, it is necessary to set the chromaout terminal 53, the composite output terminal 47, and the luminance signal output terminal 44 to the mute state and simultaneously set the DCout terminal 44 to a high impedance. There is. Instead of individually controlling them, a signal is sent from the microcomputer 70, and when a control bit for an input terminal is set to 1, a related circuit is configured by a logic circuit so that the related terminal is switched to the input terminal mode. Good. For example, when a signal using the input / output terminal device 60 as an input terminal is input to the integrated circuit 40 and a control bit for setting the DCout output terminal 44 to high impedance is set to 1, the logic in the integrated circuit 40 automatically sets the total. By assembling a logic circuit that puts the output terminals of all the integrated circuits 40 into a mute state, the entire input / output terminal device 60 can be easily controlled, and complicated individual control becomes unnecessary. Thereby, complicated control is not required in the program of the input / output terminal device 60, and the input / output terminal device 60 can be configured easily.

  Next, this logic will be described with reference to FIG. In addition, the same referential mark is attached | subjected to the component similar to demonstrated until now, and the description is abbreviate | omitted.

  FIG. 4 is a logic flowchart of the input / output terminal device 60. FIG. 4A is a logic flowchart when the input / output terminal device 60 is used as an input terminal.

  In FIG. 4A, in step 100, the user selects to use the input / output terminal device 60 as an input terminal. As described with reference to FIG. 3, selection and setting by the user may be performed by the screen 71 or the selection switch 72 of the input / output selection setting unit 75, and such information may be transmitted to the microcomputer 70.

  In step 110, the microcomputer 70 sends a signal for setting the DCout terminal 44 of the integrated circuit 40 to the high impedance mode. As a result, 1 is set in the high impedance control bit of the DCout terminal 44.

  In step 120, a shared input terminal is selected. That is, when the high impedance control bit of the DCout terminal 44 is set to 1, the chroma output terminal 43, the composite output terminal 47, and the luminance signal output terminal 49 are automatically set to the mute state by the logic in the integrated circuit 40. Thus, the device functions as an input terminal.

  In step 130, signals are input from the input / output terminals 11 and 15, and each terminal of the integrated circuit 40 functions as an input terminal as a whole.

  Thus, the input / output terminal device 60 according to the present embodiment can automatically switch the other terminals of the integrated circuit 40 to the input terminal mode by using the high impedance control bit of the DCout terminal 44, The input / output terminal 60 can be configured without performing complicated control.

  FIG. 4B is a logic flowchart when the input / output terminal device 60 is used as an output terminal.

  In FIG. 4B, in step 200, it is set to be used as an output terminal by a user setting or without setting anything. This information is acquired by the microcomputer 70.

  In step 210, the microcomputer 70 sends a command to turn on the DCout terminal 44. As a result, an ON signal is output from the driver 54 of the DCout terminal 44, and 0 is set in the high impedance control bit of the DCout terminal 44.

  In step 220, when the high impedance control bit of the DCout terminal 44 is set to 0, the other drivers 53, 57, 59 output normal output signals.

  In step 230, video signals output from the output terminals 43, 44, 47, 49 of the integrated circuit 40 are output to the outside via the input / output terminals 11, 15.

  As described above, it is possible to output a signal with simple control by using the high impedance control bit of the DCout terminal 44 at the time of output.

  The preferred embodiments of the present invention have been described in detail above. However, the present invention is not limited to the above-described embodiments, and various modifications and substitutions can be made to the above-described embodiments without departing from the scope of the present invention. Can be added.

It is the figure which showed the internal circuit structure when using the input / output terminal device 60 which concerns on a present Example as an input terminal. It is operation | movement explanatory drawing when the input / output terminal device 60 which concerns on a present Example is used as an output terminal. It is a figure for demonstrating the signal interface and transmission path | route of the input / output terminal device 60 which concern on a present Example. 4 is a logic flowchart of the input / output terminal device 60. FIG. 4A is a logic flowchart when the input / output terminal device 60 is used as an input terminal. FIG. 4B is a logic flowchart when the input / output terminal device 60 is used as an output terminal. FIG. 6 is a diagram showing a relationship among conventional input terminals 100 and 200, an input / output circuit 300 for input terminals, and an integrated circuit 400. FIG. 5 is a diagram showing the relationship between conventional output terminals 150 and 250, an output terminal output circuit 350, and an integrated circuit 500.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Input / output combined terminal 11 Input / output combined S terminal 12, 13, 14, 16 Connection line 15 Input / output combined composite terminal 30 Input / output circuit 31 Chroma signal input circuit 32 Identification signal input circuit 33 Chroma signal output circuit 34 Identification signal output circuit 35 Composite Signal Input Circuit 36 Composite Signal Output Circuit 37 Luminance Signal Input Circuit 38 Luminance Signal Output Circuit 39 S1 Identification Signal Input Circuit 40 Integrated Circuit 41 Chroma Input Terminal 42 S2 Discriminating Terminal 43 Chroma Output Terminal 44 DCout Terminal 45 S1 Discriminating Terminal 46 Composite Input terminal 47 Composite output terminal 48 Luminance signal input terminal 49 Luminance signal output terminal 51 Bias means 52 Resistance 53, 54, 57, 59 Driver 55, 62 Comparator 56, 58 Clamp means 60 Input / output terminal device 70 Ma Icon 71 Screen 72 Selection switch 75 Input / output terminal selection setting means

Claims (6)

An input / output circuit provided between the input / output terminal and the integrated circuit,
An input circuit connected to the input terminal of the integrated circuit from the input / output terminal through a first capacitor;
An output circuit provided in parallel with the input circuit, and connected from the input / output terminal to the output terminal of the integrated circuit through a series connection of an impedance matching resistor and a second capacitor;
An input / output circuit for an input / output terminal, wherein when the input / output terminal is used as an input terminal, the output terminal is muted.   The input / output circuit according to claim 1, wherein the first capacitor has a smaller capacitance than the second capacitor.   The input / output circuit according to claim 1, wherein the output terminal is controlled to be in a mute state by a logic circuit. The input / output circuit according to claim 1,
An input / output terminal device comprising an input / output terminal and an integrated circuit. A color signal input / output circuit provided between the input / output S terminal and the integrated circuit,
A color signal input circuit connected to the color signal input terminal of the integrated circuit from the input / output S terminal via a first capacitor;
A color signal output provided in parallel with the color signal input circuit and connected to the color signal output terminal of the integrated circuit from the input / output S terminal through a series connection of an impedance matching resistor and a second capacitor. Circuit,
An identification provided in parallel with the second capacitor and connected to an identification signal input terminal of the integrated circuit from a connection point between the impedance matching resistor and the second capacitor via the impedance matching resistor A signal input circuit;
An identification provided in parallel with the second capacitor and connected to an identification signal output terminal of the integrated circuit from a connection point between the impedance matching resistor and the second capacitor via an identification signal superposition resistor A signal output circuit,
A color signal input / output circuit characterized in that when the input / output S terminal is used as an input terminal, the color signal output terminal is muted and the identification signal output terminal is set to high impedance. An input / output terminal device for video signal having an input / output composite terminal and an input / output S terminal connected to the color signal input / output circuit and the luminance signal input / output circuit,
The input / output circuit according to claim 1 is applied to the input / output circuit of the input / output composite terminal and the luminance signal input / output circuit of the input / output S terminal.
6. A video signal input / output terminal device, wherein the color signal input / output circuit according to claim 5 is applied to the color signal input / output circuit.

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