KR20050078111A - Dvi-i connector system for processing display data channel - Google Patents

Abstract

The present invention provides a DVI-I connector capable of connecting both analog and digital cables from a PC and generating a corresponding detection signal for each cable; A microcontroller unit (microcontroller unit) for determining whether an analog cable or a digital cable is connected by a detection signal from a DVI-I connector, and transmitting the corresponding DDC data to the PC based on the detection signal. It provides a digital video interface integration (DVI-I) connector system for display data channel (DDC) processing between a PC and a monitor. The signal from the DVI-I connector accurately determines whether the MCU is an analog cable connection or a digital cable connection, and transmits the corresponding DDC data, thereby eliminating the need for an IC only for DDC communication. It is possible to implement DDC processing smoothly even on a monitor adopting a DVI-I type connector equipped with a.

Description

Digital video interface integration connector system for display data channel processing {DVI-I connector system for processing Display Data Channel}

The present invention relates to a connector system for display data channel (DDC) processing between a PC and a monitor. In particular, as a digital video interface integration (DVI-I) type connector has one DDC data line, it is analogized to one DDC data line. It is a DVI-I connector system that detects whether an analog cable or digital cable is connected to the monitor and transmits the corresponding DDC data so that both the cable and the digital cable can be connected to the monitor.

In general, a DDC is a method of storing information such as a specification, a manufacturing date, or a serial number of a monitor so that a user can display the stored information on the screen of the monitor if necessary.

For the PC to communicate about this DDC data between the monitors, as shown in Fig. 1, the monitor has a separate analog connector and a digital connector for connecting an analog cable and a digital cable from the PC, respectively. . Therefore, when connecting an analog cable, when the analog cable of the PC is connected to the analog terminal of the monitor and requests the microcontroller unit to read the DDC data, the microcontroller unit transmits the analog DDC data stored in the EEPROM to the PC. When the PC's digital cable is connected to the digital terminal of the monitor and the PC requests DDC data reading, the monitor receives the DDC read request signal from the PC from the DDC IC connected directly to the digital cable and sends the digital DDC data to the PC. Have been sent.

However, as the digitalization of information has advanced in recent years, a monitor supporting a digital interface has emerged, and a digital video interface (DVI) type is a digital interface standard that is mainly adopted. DVI was developed by DDWG (digital display working group), and it uses TDMS protocols such as P & D (Digital Plug & Play) type or DFP (Digital Flat Panel) type. In the case of DFP, the maximum resolution is limited to 1280 × 1024, but DVI can double the maximum pixel speed to support more than 1280 × 1024. In addition, DVI method is divided into DVI-D and DVI-I according to the configuration method. DVI-D transmits digital video signal only and consists of 3 rows of 24 pins and transmits 23 signals, and DVI-I is digital. It is able to transmit analog and analog signals, and 29 pins of three columns, 24 are DVI-D-like structures, and pins for analog signals are added and 29 signals are transmitted.

Among them, the monitor adopting the DVI-I type connector has the advantage that space can be utilized because there is only one DDC-SDA line, which is a DDC data line. It is not possible to implement this in the same way.

In order to solve the above problems, the present invention is to detect whether the analog cable or digital cable is connected by the detection circuit and microcontroller unit provided in the connector when the cable is connected to the DVI-I type connector in the monitor. If the analog cable is connected, the analog DDC data is sent. If the digital cable is connected, the digital DDC data can be sent. An object of the present invention is to provide a DVI-I type connector system capable of smooth DDC processing.

In order to achieve the above object, the present invention provides a DVI-I connector, which allows both an analog cable and a digital cable to be connected from a PC, and generates a detection signal corresponding to each of the cables; A microcontroller unit (microcontroller unit) for determining whether an analog cable or a digital cable is connected by the detection signal from the DVI-I connector, and transmitting the DDC data corresponding to the detection signal to the PC. It provides a digital video interface integration (DVI-I) connector system for display data channel (DDC) processing between a PC and a monitor. As described above, the MCU accurately determines whether it is an analog cable connection or a digital cable connection based on the signal from the DVI-I connector, and transmits the DDC data accordingly, thereby no longer requiring an IC for DDC communication. DDC processing can be implemented smoothly even on a monitor using a DVI-I type connector with a DDC data line.

According to another feature of the present invention, the DVI-I connector system detects a low level detection signal when the connected cable is the analog cable and a high level detection signal when the digital cable is the digital cable. Provided is a DVI-I type connector system including a circuit.

Hereinafter, a DVI-I connector system for DDC processing between a PC and a monitor according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

2 shows a DDC processing relationship between a monitor and a PC employing a DVI-I type connector according to the present invention. The DVI-I type connector system for DDC processing between a PC and a monitor according to the present invention includes a DVI-I type connector capable of connecting both an analog cable and a digital cable from a PC and generating a detection signal corresponding to each cable; A microcontroller unit (MCU) for judging whether an analog cable or a digital cable is connected by a detection signal from a DVI-I type connector, and reading the DDC data corresponding to the detection signal from an EEPROM and transmitting it to a PC. Doing. In FIG. 2, both the analog cable and the digital cable of the PC are connected to the DDC data line of one DVI-I connector, and the DVI-I connector can detect whether the connected cable is an analog cable or a digital cable. The signal is transmitted to the microcontroller unit, and the microcontroller unit determines whether the cable connected to the DVI-I type connector is analog or digital based on the signal, and based on the signal, the microcontroller unit stores the corresponding signal stored in the storage device such as EEPROM. The DDC data will be transferred to the PC. 1 shows a dual structure in which analog DDC data is stored in a storage device such as an EEPROM, and digital DDC data is stored in a DDC IC and read separately. However, in the present invention, a separate DDC IC is used. Not required, both analog DDC data and digital DDC data are stored in a storage device such as an EEPROM.

Various specifications can be used as the microcontroller, and MCS-48, MCS-51, MCS-251, and MCS-96, which are CPUs of the MCS (Micro Control System) series, are manufactured by Intel. . Among them, microcontrollers that use the 8051 as a core are collectively called the MCS-51 family. MCS-51 has the same basic structure but has various functions and ICs, so that users can choose what they need. In addition to the basic 8051, the 8051 includes an 8031 with no internal ROM, an 8052 with some extensions, and an 8751 with an internal ROM in EPROM.

FIG. 3 shows a detection circuit provided in the connector, which is required to enable smooth analog / digital DDC data communication with one DVI-I type connector as shown in FIG. 2.

Once the analog cable of the PC is connected to the DVI-I type connector according to the present invention and the PC requests to read analog DDC data, pin 14 of the DVI-I type connector of the monitor is connected to OV (OPEN). When a certain voltage is applied, current flows through the switching means 12 through the resistor R1 to the ground GND. Therefore, a low level voltage signal is input to the input detection port of the microcontroller unit, and the microcontroller unit detects that the cable connected by the signal is an analog cable, and the analog DDC stored in a storage device such as an EEPROM. Read the data and transfer it to your PC. If the digital cable of the PC is connected to the DVI-I connector according to the present invention and the PC requests reading of the digital DDC data, since pin 14 of the DVI-I connector of the monitor is connected to 5V, the switching means Through 12, the current passes through the resistor R2, a high level voltage signal is input to the input detection port of the microcontroller unit, and the microcontroller unit detects that the cable connected by this signal is a digital cable. Read digital DDC data stored in a storage device such as EEPROM and transfer the data to a PC.

The present invention is not limited to the above-described embodiments, and various changes and modifications can be made by those skilled in the art without departing from the spirit of the present invention. Therefore, the scope of the present invention is limited only by the claims which will be described later.

When the cable is connected to the DVI-I type connector in the monitor, the present invention is configured to detect whether an analog cable is connected or a digital cable is connected by the detection circuit and the microcontroller unit provided in the connector. This allows analog DDC data to be sent when connected, and digital DDC data when a digital cable is connected, thus eliminating the need for a DDC IC dedicated to digital cable connections previously used. As a result, more efficient and smooth DDC processing can be achieved.

1 is a schematic diagram of a general connector system for DDC processing between a conventional monitor and a PC.

2 is a schematic diagram of a DVI-I type connector system for DDC processing between a monitor and a PC according to the present invention.

3 is a schematic diagram of a detection circuit for implementing a DVI-I type connector according to the present invention;

Claims (2)

In a digital video interface integration (DVI-I) type connector system for display data channel (DDC) processing between a PC and a monitor, A DVI-I connector for connecting both an analog cable and a digital cable from the PC, and generating a detection signal corresponding to each of the cables; A microcontroller unit (MCU) for determining whether an analog cable is connected or a digital cable is connected by the detection signal from the DVI-I type connector, and transmitting the DDC data corresponding to the detection signal to the PC; DVI-I connector system. The method of claim 1, The DVI-I type connector system includes a detection circuit that generates a low level detection signal when the connected cable is the analog cable and generates a high level detection signal when the digital cable is the DVI-I connector. Type I connector system.