KR200402664Y1 - Dvi connector with noise reducing feature - Google Patents

Abstract

The noise canceling module is integrated in the digital visual interface (DVI). This noise cancellation module is connected to the pins of the DVI connector to remove or mitigate noise resulting from electromagnetic interference (EMI). The pins of the DVI connector connected to this noise canceling module include at least data pins. Because the noise canceling module is incorporated into the DVI connector, electronics manufacturers employing the DVI connector no longer need to use additional EMI rejection or filtering elements for the DVI connector.

Description

DVI connector with noise reduction function {DVI CONNECTOR WITH NOISE REDUCING FEATURE}

The present invention relates to a digital visual interface (DVI) connector, and more particularly to a DVI connector in which the noise canceling module is incorporated to remove or mitigate noise caused by electromagnetic interference (EMI).

A group consisting of Silicon Image ^TM , Intel ^TM , Compaq ^TM , IBM ^TM , HP ^TM , NEC ^TM and Fujitsu ^TM published a standard called so-called DVI in 1999. This DVI standard was established by the development of the Transition Minimized Differential Signaling (TMDS) protocol and PanalLink technology for signal transmission. When digital video data is generated by a signal source such as a graphics card or the like and encoded based on the TMDS protocol, the encoded digital video signal is transmitted to a receiver of the display device through a TMDS channel. This digital video signal is displayed after decoding by the receiver.

This DVI standard provides high-speed digital data transmission. Since the display device can receive digital video data directly from a signal source without any complicated digital / analog (D / A) and analog / digital (A / D) conversion, the video delay problem is greatly reduced by greatly reducing the data transmission time. Will be removed.

Generally, a liquid crystal display device (LCD) is used in connection with the computer's VGA interface. Video data generated from the graphics card is originally in the form of a digital signal. These digital signals are converted by the D / A converter into analog signals having R, G, B components as well as row and column signals. These analog signals are then sent to the LCD via an analog signal cable. The LCD converts the received analog signals into digital signals using an A / D converter, allowing the LCD to display digital video data. In the D / A and A / D conversion, signal distortion and interference problems occur, causing errors in the image display. However, since the DVI standard does not require complicated D / A and A / D conversion, display devices using the DVI standard can have excellent image quality.

Due to these advantages, DVI interfaces are increasingly used in computers and display devices. However, although the DVI interface has high speed data transmission and high quality image display characteristics, signals transmitted through the DVI interface are still affected by EMI noise. Therefore, in the prior art, it is necessary to employ additional noise filtering circuits on the motherboard of the computer or the circuit board of the LCD. However, the addition of noise filtering circuitry to the motherboard or circuit board also complicates the circuit design and also occupies the available space on these boards.

The main object of the present invention is to provide a digital visual interface (DVI) connector, which incorporates a noise canceling module that eliminates or mitigates the noise caused by electromagnetic interference (EMI) without any additional noise filtering circuitry. have. In the case of motherboards or circuit boards equipped with this DVI connector, much space can be reserved for other electrical components.

To achieve this object, a noise canceling module is coupled to the DVI connector as well as incorporated into the DVI connector, the pins connected to the noise canceling module comprise at least data pins.

Other objects, advantages and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings.

Existing DVI connectors consist of three types: DVI-D, DVI-I, and DVI-A, where DVI-D type connectors that carry only digital data can be of single link type or dual link type. have. DVI-I type connectors may also be of a single link type or of a dual link type. The DVI connector according to the present invention may be of any of the above types. A DVI-I dual link type connector is used in the following preferred embodiment.

1 and 2, the DVI connector 10 includes at least 24 pin holes 11, which are arranged in three rows with eight pin holes 11 each. The pin 12 is attached to each pin hole 11. Pin 8, located at the rightmost corner, is an unused pin (for a DVI-D type connector) or an analog signal transmission pin (for a DVI-I interface). The remaining 23 pins 12 are all used for digital data transmission. The functional definition for each of the 23 pins 12 is shown in FIG. 3.

The noise cancellation module 20 is incorporated into the DVI connector 10 and connected to some of the pins 12 so that these pins 12 are not interfered by EMI noise. The pin 12 connected to the noise canceling module 20 may be connected to the data pins, but is not limited thereto. In this embodiment, the noise canceling module 20 is connected to pins 1, 2, 9, 10, 17, 18, 23, and 24 of the pins 12 of the DVI connector 10. do.

In FIG. 4, the noise cancellation module 20 is composed of multiple coils 21, 22, 23, 24. Each of the coils 21, 22, 23, 24 has a primary and secondary coil. The secondary coils are connected to the data pin or clock signal pins of the DVI connector 10. In this embodiment, two terminals of each of the secondary coils of the first, second, and third coils 21, 22, and 23 are connected to the data pins 12 (Data2 # / Data2 +, Data1 #) of the DVI connector 10. / Data1 +, Data0 # / Data0 +). Two terminals of the secondary coil of the fourth coil 24 are connected to a pair of clock signal terminals CK + / CK #. The primary coils of the coils 21, 22, 23, 24 are connected to an electrical appliance such as a circuit board on which the DVI connector 10 is mounted. Any signals that are input or output through pin 12 will also pass through noise rejection module 20. Thus, the degree of signal interference can be effectively reduced.

In use, DVI connector 10 receives data from a signal source via data pin 12. Since the data pin 12 is connected to the noise canceling module 20, all the coils 21, 22, 23, and 24 may filter the received data to remove or mitigate EMI noise. Data passing through the noise reduction module 20 is transmitted to the circuit board. Therefore, the interference problem resulting from EMI noise is avoided.

As mentioned above, the DVI connector can resist interference caused by EMI noise. However, more particularly, the noise mitigation feature is not achieved by an external filter but by a noise cancellation module incorporated in the DVI connector. Therefore, a spare space for an external filter circuit on the circuit board is unnecessary, and as a result, the complicated circuit layout of the circuit board can be simplified.

1 is a perspective view of a DVI connector according to the present invention.

Figure 2 is a front view of the DVI connector according to the present invention.

3 is a circuit diagram of a DVI connector according to the present invention.

4 is a circuit diagram of an EMI noise canceling module incorporated in a DVI connector according to the present invention.

Claims (3)

EMI connector having EMI noise canceling function, wherein noise canceling module is coupled to the DVI connector and connected to pins of the DVI connector, wherein the pins connected to the noise canceling module include at least data pins DVI connector with noise cancellation. The method of claim 1, The noise canceling module is composed of multiple coils, each of the coils comprising a primary and secondary coil, the secondary coil of each coil is connected to pins of a DVI connector, and the primary coil of each coil is electrically DVI connector with EMI noise rejection, characterized in that connected to the product. The method of claim 1, And the pins connected to the noise canceling module further include clock signal pins.