Transmission system

Abstract

In one aspect a transmission system with a transmitter which can be connected to a video source and a receiver linked to the transmitter via at least four circuit pairs, to which receiver a playback device can be connected is provided. Data is usually exchanged digitally between a graphics card in a personal computer and an LCD display module. The personal computer transmits a digital R, G, B video signal to the LCD display module via a special, so-called DVI (Digital Video Interface) cable. This DVI cable is also provided to transmit so-called DDC (Display Data Channel) data, which particularly comprises specification information of the LCD display module. A transmission system is proposed, which simplifies a connection of an LCD display module to a personal computer and with which the DVI cable can be dispensed with.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

This application claims priority of German application No. 102005027938.4 DE filed Jun. 16, 2005, which is incorporated by reference herein in its entirety.

FIELD OF INVENTION

The invention relates to a transmission system comprising a transmitter which can be connected to a video source and a receiver linked to the transmitter via at least four circuit pairs, to which receiver a playback device can be connected. Furthermore, the invention relates to a transceiver for a transmission system of this type.

BACKGROUND OF INVENTION

Data is usually exchanged digitally between a graphics card in a personal computer and an LCD display module. The personal computer transfers digital R, G, B video signals to the LCD display module via a special so-called DVI (Digital Video Interface) cable, which comprises a circuit pair for each R, G and B channel. This DVI cable is also provided with further circuit pairs particularly for transmitting a DVI clock signal and for transmitting so-called DDC (Display Data Channel) data. This DDC circuit pair allows the personal computer and the LCD display module to communicate serially, with particularly specification information of the LCD display module, for instance information about data transmission rates, resolution of the LCD display or synchronization frequency, being transmitted via a data line and a DDC clock signal being transmitted via a clock line.

SUMMARY OF INVENTION

Contrary to DVI cables, so-called CAT5 cables are widely used in offices as standard data cables, which are provided to network data processing devices. If both DDC and also digital R, G, B video signals are to be able to be transmitted, it is not possible to use this CAT5 cable to connect an LCD display module to a personal computer.

An object underlying the present invention is to specify a transmission system of the type mentioned at the start, which simplifies a connection of a playback device to a video source. Furthermore, a transceiver is to be specified which is suitable for a transmission system of this type.

This object is achieved with regard to the transmission system, receiver, and transmitter specified by the independent claims.

It is advantageous that a CAT5 data cable comprising four circuit pairs and usually already disposed in offices can be used to connect an LCD display module to a graphics card in a personal computer, with both DDC and also digital R, G, B video signals being able to be transmitted via the economically priced CAT5 cable. The use of an expensive DVI cable can be dispensed with; in contrast the widely used DVI plugs on the playback devices and the video sources can continue to be used.

BRIEF DESCRIPTION OF THE DRAWING

The invention is described in more detail below on the basis of an exemplary embodiment with reference to the sole FIGURE of the drawings. The FIGURE of the drawings shows a transmission system with a transceiver.

DETAILED DESCRIPTION OF INVENTION

A transmitter 1 and a receiver 2 are connected to one another via RJ45 terminals 3, 4 known per se and via a CAT5 cable 5 likewise known per se, which is usually provided to network data processing devices such as devices taking the form of servers, printers or personal computers for instance. The RJ45 terminals 3, 4 are components of devices 1, 2, which are provided in each instance with further terminals in the form of DVI terminals 6, 7 to connect to a video source (not shown here) and to connect to a playback device (similarly not shown here). In the exemplary embodiment displayed, the DVI terminal 6 of the transmitter 1 is actively connected to a terminal 8 of a personal computer corresponding to this DVI terminal 6 and the DVI terminal 7 of the receiver 2 is actively connected to a terminal 9 of an LCD display module corresponding to this DVI terminal 7.

The transmitter 1 comprises three circuit pairs 10, 11, 12 for transmitting digital R, G, B video signals and also a further circuit pair 13 for transmitting a DVI clock signal DVI clock with a first clock frequency, which can lie between 25 MHz and 165 MHz. Furthermore, the transmitter 1 is provided with a DDC (Display Data Channel) data line and a DDC clock line 14, 15, with specification information SDA, for instance information about data transmission rates, resolution of the LCD display or synchronization frequency or information for parameterizing the LCD display module, being transmitted via the data line 14, and a DDC clock signal SCL with a second clock frequency of 100 KHz being transmitted via a clock line 15. The digital R, G, B video signals, the DVI clock signal DVI clock and the DDC data signal and DDC clock signal SDA, SCL are transmitted by a graphics card in the person computer to the transmitter 1. An amplifier 16 amplifies the DDC data signal and DDC clock signal SDA, SCL, with a frequency separating filter comprising a high-pass filter and a low-pass filter 17, 18 superimposing these DDC signals SDA, SCL onto the DVI clock signal DVI clock.

The transmitter 1 transmits the digital R, G, B video signals to the receiver 2 via a circuit pair in each instance, as well as the DVI clock signal DVI clock and the DDC signals SDA, SCL superimposing this DVI clock signal DVI clock via a further circuit pair of the CAT5 cable. The receiver 2 is provided with a frequency separating filter comprising a low-pass filter and a high-pass filter 19, 20, which separate the DDC signals SDA, SCL and the DVI clock signal DVI clock, with the DVI clock signal DVI clock and the digital R, G, B signals being transmitted to the DVI terminal 7 and thus to the corresponding DVI terminal 9 of the LCD display module via a cable equalizer 21 and the DDC signals SDA, SCL being transmitted respectively thereto via an amplifier 22.

Claims

1-3. (canceled)

4. A transmission system for connecting to a playback device to a video source, comprising: a transmitter connected to the video source, the transmitter supplied with a digital R video signal, a digital G video signal, a digital B video signal, a first clock signal supplied with a first clock frequency, a second clock signal supplied with a second clock frequency, a specification signal, and a superimposer for superimposing the specification signal and the clock signals; a receiver operatively connected to the transmitter, and to the playback device, the receiver supplied with a separator for separating the specification signal and the clock signals; a first circuit pair for supplying the specification signal and the clock signals to the receiver; a second circuit pair for supplying the digital R video to the receiver; a third circuit pair for supplying the digital G video to the receiver; and a fourth circuit pair for supplying the digital B video to the receiver.

5. The system according to claim 4, wherein the first clock frequency between 25 MHz and 165 MHz.

6. The system according to claim 4, wherein the second clock frequency is 100 KHz.

7. The system according to claim 4, wherein the separator comprises a low-pass filter and a high-pass filter.

8. A transmitter for a transmission system for connecting to a playback device to a video source, the transmitter comprising: a digital R video signal; a digital G video signal; a digital B video signal; a first clock signal supplied with a first clock frequency supplied to a video source; a second clock signal supplied with a second clock frequency; a specification signal; and a superimposer for superimposing the specification signal and the clock signals.

9. The transmitter according to claim 8, wherein the first clock frequency between 25 MHz and 165 MHz.

10. The transmitter according to claim 8, wherein the second clock frequency is 100 KHz.

11. A receiver for a transmission system for connecting to a playback device to a video source, the receiver comprising: a specification signal; a first clock signal comprising a first clock frequency; a second clock signal comprising a second clock frequency; the specification signal and the clock signals supplied via a first circuit pair; a digital R video supplied via a second circuit pair; a digital G video supplied via a third circuit pair; a digital B video supplied via a fourth circuit pair; and a separating filter for separating the specification signal and the clock signals, wherein the receiver is connected to a playback device.

12. The system according to claim 11, wherein the separating filter comprises a low-pass filter and a high-pass filter.