JP2005265882A - Interface apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent an external instrument from malfunction by avoiding a low level signal of a logical level of a control signal of a serial control bus to become high, when transmitting the control signal of the serial control bus to the external instrument. <P>SOLUTION: When the control signal of the serial control bus is transmitted to a device in an apparatus by controlling an input voltage of one input terminal of a comparator by a transistor, an external output of the serial control bus connected to the other input terminal of the comparator is turned OFF and when the control signal of the serial control bus is transmitted to the external instrument, the external output of the serial control bus connected to the other input terminal of the comparator is turned ON. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to an interface device that connects a video playback device such as a DVD (Digital Versatile Disk) device and a video display device such as a projector device, and in particular, the operation of the video display device is controlled by a control signal transmitted from the video playback device. The present invention relates to an interface device to be controlled.

In general, a video playback device such as a DVD is connected to a video display device such as a PDP (Plasma Display Projector) device or an LDP (Liquid Display Projector) device by a connection cable, and the video playback device is operated by a remote control device. The operation of the video display device can be controlled. FIG. 3 is a block diagram showing a configuration of a conventional interface device, and FIG. 4 is a circuit diagram of the conventional interface device. As shown in FIG. 3, the DVD device 30 and the projector device 40 are connected by a connection cable 50 via VDI (Digital Video Interface) connectors 36 and 41, and the projector device 40 is an I2C (Inter-Integrated Circuit). ) It is controlled by the back-end microcomputer 31 of the DVD device 30 via a serial clock (SCL) bus and a serial data (SDA) bus. The I2C bus is a serial control bus that can transfer data to a plurality of devices using the serial clock signal of the SCL bus and the serial address signal of the SDA bus. The I2C bus has a start condition signal indicating the start of transmission and a data transmission destination device. Serial control that can transmit data to the selected device by sending the allocated address signal, the data signal to be transferred to the device, and the stop condition signal indicating the end of transmission to the SDA bus and controlling the SCL bus It is a bus. The serial clock signal of the SCL bus of the I2C bus from the back-end microcomputer 31 of the DVD device 30, the serial data signal of the SDA bus, and the video signal (R, G, B, SYC) from the transmitter 34 are VDI standard by the level shifter 35. Is converted to a digital signal having a logic level of S2 and is transmitted to the projector device 40 via the VDI connector. The serial clock signal of the SCL bus of the I2C bus, the serial data signal of the SDA bus, and the video signal transmitted from the DVD device 30 The level shifter 42 of the projector device 40 converts the digital signal to the logic level of the projector 40 and receives it by the receiver 43 so that the projector device 40 operates in a predetermined manner. When performing communication with an IC (Integrated Circuit) of another device in the DVD device 30, analog switches 32 and 33 for turning off the external output of the SCL bus of the I2C bus and the SDA bus are provided. When the SCL bus and SDA bus of the I2C bus are output externally, the back-end microcomputer 31 sends a high level control signal (SI) to the control terminals of the analog switches 32 and 33 to turn on the analog switches 32 and 33 and externally An SCL bus serial clock signal and an SDA bus serial data signal are output to the apparatus. However, the on-resistances of the analog switches 32 and 33 are about several tens of ohms to several hundreds of ohms. As shown in FIG. 4, the pull-up resistors R31, R32, and R33 of the DVD device 30 and the project device 40 are connected to the SCL bus of the I2C bus. Pull-up resistors R42 and R43 are connected in parallel, and the pull-up resistors R34, R35 and R36 of the DVD device 30 and the pull-up resistors R45 and R46 of the projector device 40 are connected in parallel to the SDA bus of the I2C bus. Therefore, the low level signal of the serial clock signal of the SCL bus of the I2C bus and the serial data signal of the SDA bus transmitted from the back-end microcomputer 31 of the DVD device 30 becomes higher than a predetermined low level, and the receiver of the projector device 40 43, low level serial clock signal, serial There is a problem that the projector device 40 malfunctions when the data signal is received as a high-level signal.
As background art, switching is performed between the first and second devices that function at different operating voltages in response to detection of a high level signal and a low level signal of the digital signal from the second device, A high level signal and a low level signal of the digital signal from the second device are converted into a high level signal and a low level signal of the digital signal of the first device and supplied to the input of the first device. There was what was made to do (for example, refer to patent documents 1).
Further, between the first and second devices connected via the I2C bus, the serial clock signal and serial data signal of the I2C bus are separated into a transmission branch and a reception branch, respectively. Some data signals are converted into respective differential signals and transmitted (for example, see Patent Document 2).
In addition, between the video display device and the video output device, the input signal from the remote control device attached to the video display device is converted into a protocol defined in advance, and a command is sent from the video display device to the video output device via the control bus. , And a command from the video display device is converted from a protocol defined in advance into a command specific to the device to control the video output device (see, for example, Patent Document 3).
Special table 2001-503585 gazette JP 2000-132287 A JP 2003-32508 A

However, in the first of those described in the background art, a high-level signal and a low-level signal of the digital signal from the second device are between the first and second devices that function at different operating voltages. In response to the detection of the signal, the high-level signal and the low-level signal of the digital signal from the second device are converted into the high-level signal and the low-level signal of the digital signal of the first device. Thus, although it could be supplied to the input of the first device, it did not solve the above problems.
In the following, the serial clock signal and serial data signal of the I2C bus are separated into the transmission branch and the reception branch, respectively, between the first and second devices connected via the I2C bus. Although the serial clock signal and the serial data signal can be converted into their respective differential signals and transmitted, as described above, the above-mentioned problems have not been solved.
Furthermore, in the next one, an input signal from a remote control device attached to the video display device is converted into a protocol prescribed in advance between the video display device and the video output device, and the video is transmitted via the control bus. It was possible to output a command from the display device to the video output device, and to control the video output device by converting the command from the video display device into a command specific to the device from a protocol prescribed in advance. It did not solve the problem.
The present invention has been made in view of such problems of the background art, and the object of the present invention is to control the control signal of the serial control bus when transmitting the control signal of the serial control bus to an external device. It is an object of the present invention to provide an interface device capable of preventing an external device from malfunctioning by preventing a low-level signal of the logic level from becoming high.

To achieve the above object, according to the present invention, there is provided an interface device for connecting a system of a video reproduction device and a video display device connected via a connection cable via a DVi connector via a serial control bus, the serial control bus When the control signal is sent to the device in the video playback device, the external output of the serial control bus is turned off. When the control signal of the serial control bus is sent to the video display device, the external output of the serial control bus is turned on. And a control means for controlling ON / OFF of the switch means.
The switch means may be configured to turn on / off the external output of the serial control bus by a comparator. As a result, the input voltage at one input terminal of the comparator can be controlled, and the external output of the serial control bus input to the other input terminal can be turned ON / OFF. The low level signal can be prevented from becoming high.
The control means may be a transistor, and the ON / OFF of the switch means may be controlled by the transistor.
The serial control bus may be an I2C bus. Thereby, the system of the video reproduction apparatus and the video display apparatus connected by the connection cable via the DVi connector can be connected by the SCL bus and the SDA bus of the I2C bus.
By these means, when transmitting the control signal of the serial control bus to the external device, the low level signal of the logic level of the control signal of the serial control bus is not increased so that the external device does not malfunction. Can do.

According to the interface device of the first aspect of the present invention, the system of the video reproduction device and the video display device connected by the connection cable via the DVi connector is connected via the I2C bus, and the comparator is turned on / off by the transistor. When the I2C bus control signal is transmitted to the device in the video playback apparatus by controlling the OFF operation, the external output of the I2C bus is turned off, and when the I2C bus control signal is transmitted to the video display apparatus, the I2C bus Since the external output of the bus is turned ON, it is possible to prevent the low level signals of the serial clock signal of the SCL bus of the I2C bus and the serial data signal of the SDA bus from becoming high.
According to the interface device of the second aspect of the present invention, the system of the video playback device and the video display device connected by the connection cable via the DVi connector is connected via the serial control bus, and the switch means ON / OFF When controlling the OFF and transmitting the control signal of the serial control bus to the device in the video playback device, when turning off the external output of the serial control bus and transmitting the control signal of the serial control bus to the video display device Since the external output of the serial control bus is turned on, the DVi connector is short-circuited for some reason when the video playback device and the video display device are not connected by the connection cable. The serial control bus can be prevented from burning.
According to the interface device of the fourth aspect of the invention, since the external output of the serial control bus is turned on / off by the comparator, the input voltage of one input terminal of the comparator is controlled and the other input is controlled. The external output of the serial control bus input to the terminal can be turned ON / OFF, and the low level signal of the logic level of the control signal of the serial control bus can be prevented from becoming high.
According to the interface device of the fifth aspect of the invention, since the switch is controlled to turn on / off the external output of the serial control bus by the transistor, the switch can be controlled at a low cost.
According to the interface device of the third aspect of the invention, since the serial control bus is the I2C bus, the system of the video playback device and the video display device connected by the connection cable via the DVi connector is connected to the SCL of the I2C bus. The bus and the SDA bus can be connected.

Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings as appropriate. FIG. 1 is a block diagram showing a configuration of an interface apparatus according to an embodiment of the present invention, and FIG. 2 is a circuit diagram of the interface apparatus according to an embodiment of the present invention.
First, FIG. 1 will be described based on a block diagram showing a configuration of an interface device according to an embodiment of the present invention.
The DVD device 1 turns on the external output of the back-end microcomputer 2 that controls the peripheral device by transmitting the serial clock signal of the SCL bus of the I2C bus and the serial data signal of the SDA bus, and the SCL bus and the SDA bus of the I2C bus. Comparators 3 and 4 to be turned off / off, a transmitter 5 for outputting a video signal reproduced by the DVD device 1 to an external device, a serial clock signal of the SCL bus of the I2C bus, a serial data signal of the SDA bus, and a video from the transmitter 5 The level shifter 6 converts the logic level of the digital signal into the DVi standard logic level, and the DCL connector 7 outputs the serial clock signal of the SCL bus of the I2C bus, the serial data signal of the SDA bus, and the video signal. ing.
In addition, the projector device 10 includes a DVi connector 11 connected to the DVi connector 7 of the DVD device 1 through the connection cable 20, a serial clock signal of the SCL bus of the I2C bus of the DVi standard logic level, a serial data signal of the SDA bus, and an image. The level shifter 12 that converts the signal to a predetermined logic level of the projector device 10 and the serial clock signal of the SCL bus of the I2C bus, the serial data signal of the SDA bus, and the video signal that are converted to the predetermined logic level by the level shifter 12 are received. It comprises a receiver 13.
The operation of the interface device configured as described above will be described below with reference to the circuit diagram of the interface device of the embodiment of the present invention shown in FIG.
Each device in the DVD apparatus 1 operates at a power supply voltage of +3.3 V. When the operation of the projector apparatus 10 is instructed by a remote control device (not shown) of the DVD apparatus 1, the back-end microcomputer 2 Outputs a low-level control signal (SI) to the bases of the transistors Q1 and Q2 to turn on the transistors Q1 and Q2, and the input voltage of the inverting input terminal (−) of the comparator 3 to which the resistors R4 and R5 are connected. The SCL bus serial clock signal input to the non-inverting input terminal (+) of the comparator 3 and the comparator 4 are reduced by reducing the input voltage of the inverting input terminal (−) of the comparator 4 to which the resistors R9 and R10 are connected. The SDA bus serial data signal input to the non-inverting input terminal (+) is output to the DVi connector 7. The output terminals of the comparators 3 and 4 are open collector outputs. When the input signal of the non-inverting input terminal (+) of the comparators 3 and 4 is lower than the voltage of the inverting input terminal (−), one end is set to the power supply voltage + 5V. The voltage at the other end of the connected pull-up resistors R2 and R7 is pulled in by the output terminals of the comparators 3 and 4, and a low level signal having a logic level of approximately 0 V is output to the DVi connector 7, and the comparators 3 and 4 are turned off. When the input signal of the inverting input terminal (+) is higher than the input voltage of the inverting input terminal (−), the voltage at the other end of the pull-up resistors R2 and R7 whose one end is connected to the power supply voltage + 5V is the output of the comparators 3 and 4. A high level signal having a logic level of approximately +5 V is output to the DVi connector 7 without being pulled in by the terminal. When the transistors Q1 and Q2 are OFF, the input voltage of the inverting input terminal (−) of the comparators 3 and 4 is higher than the voltage level of the signal input to the non-inverting input terminal (+) of the comparators 3 and 4. Therefore, the output terminals of the comparators 3 and 4 become low level, and the serial clock signal of the SCL bus of the I2C bus and the serial data signal of the SDA bus are not output to the VDI connector 7, so that the SCL bus of the I2C bus and the SDA bus The external output of is turned off.
Further, when playback of the DVD device 1 is instructed by a remote control device (not shown) of the DVD device 1, the back-end microcomputer 2 outputs a high level control signal (SI) to the bases of the transistors Q1 and Q2. Then, the transistors Q1 and Q2 are turned OFF, the serial clock signal of the S2 bus of the I2C bus and the serial data signal of the SDA bus are sent to the transmitter 5, and the video signal (R, G, B, SYC) is output by the transmitter 5. Then, the logic level is converted by the level shifter 6 and output to the VDI connector 7. The network resistor RA1 pulls up each open collector output terminal of the transmitter 5 to the power supply voltage + 3.3V, and the output signal of each output terminal of the transmitter 5 is a high level signal having a logic level of about + 3.3V and a low level of about 0V. The network resistor RA2 pulls up each open collector output terminal of the level shifter 6 to the power supply voltage + 5V, and the output signal of each output terminal of the level shifter 6 has a logic level of about 5V. This is for outputting a high level signal and a low level signal of approximately 0V.
Each device in the projector apparatus 10 operates at a power supply voltage +3.3 V, and the projector apparatus 10 is connected to the VDI connector 7 of the DVD apparatus 1 by the connection cable 20 via the VDI connector 11. The serial clock signal of the SCL bus of the I2C bus transmitted from the DVD device 1 is divided by the resistors R11 and R12, and the serial data signal of the SDA bus is divided by the resistors R14 and R15. The serial clock signal of the SCL bus of the I2C bus and the serial data signal of the SDA bus, which are inputted to each input terminal and converted into a logic level signal of the power supply voltage + 3.3V by the level shifter 12, respectively, are converted into the receiver. 13 and the operation of the projector device 10 is controlled. Further, the video signals (R, G, B, SYC) transmitted from the DVD device 1 are respectively divided by the network resistors RA11 and RA12, and the respective signals are input to the level shifter 12, and the power supply voltage is supplied by the level shifter 12. The video signals (R, G, B, SYC) that have been converted into +3.3 V logic levels and converted in logic level are received by the receiver 13, and the video reproduced by the DVD device 1 is the projector device 10. Displayed on the screen (not shown). The resistors R13 and R16 and the network resistor RA13 pull up each open collector output terminal of the level shifter 12 to the power supply voltage + 3.3V, and output the output signal of each output terminal of the level shifter 12 to a high logic level of approximately + 3.3V. This is for outputting a level signal and a low level signal of approximately 0V.
Although the best mode for carrying out the present invention has been described in detail above, the present invention is not limited to this, and modifications and improvements can be made within the ordinary knowledge of those skilled in the art. For example, the projector apparatus is controlled by the DVD apparatus via the I2C bus. However, the DVD apparatus may be controlled by the projector apparatus via the I2C bus.

It is a block diagram which shows the structure of the interface apparatus of one Example of this invention. It is a circuit diagram of the interface apparatus of one Example of this invention. It is a block diagram which shows the structure of the conventional interface apparatus. It is a circuit diagram of the conventional interface apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 DVD apparatus 2 Back end microcomputer 3, 4 Comparator 5 Transmitter 6 Level shifter 7 DVi connector 10 Projector apparatus 11 DVi connector 12 Level shifter 13 Receiver 20 Connection cable Q1, Q2 Transistors R1-R10, R11-R16 Resistors RA1, RA2, RA12, RA13 Network resistance

Claims (5)

An interface device for connecting a system of a video playback device and a video display device connected via a connection cable via a DVi connector via an I2C bus,
When transmitting the I2C bus control signal to the device in the video playback device, the external output of the I2C bus is turned off. When transmitting the control signal of the I2C bus to the video display device, the external output of the I2C bus is turned on. An interface device comprising: a comparator for controlling ON / OFF of the comparator. An interface device for connecting a system of a video playback device and a video display device connected via a connection cable via a DVi connector via a serial control bus,
When the control signal of the serial control bus is transmitted to the device in the video playback device, the external output of the serial control bus is turned OFF, and when the control signal of the serial control bus is transmitted to the video display device, the external of the serial control bus An interface apparatus comprising switch means for turning on output and control means for controlling ON / OFF of the switch means. 3. The interface apparatus according to claim 2, wherein the switch means is a comparator. 3. The interface device according to claim 2, wherein the control means is a transistor. 3. The interface device according to claim 2, wherein the serial control bus is an I2C bus.

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