KR200492877Y1 - Power communication device of display card - Google Patents

Abstract

The present invention relates to a power communication device of a display card, the main structure is a power supply; A power processor installed on the power supply; A display card installed on one side of the power supply; A display card processor installed on the display card; It is installed between the power supply and the display card and includes a transmission connector having both ends connected to the display card and the power supply, respectively. The transmission connector includes a power channel and a signal channel, and both ends of the signal channel are connected to a power processor and a display card processor. Due to the above structure, the power processor and the display card processor can adjust the efficiency of the power supply and the display card, which is much more stable when overclocking the display card. In addition, since the signal channel is installed in the power connector, there is no need to add a separate wire, thereby saving space and increasing the effect of installation.

Description

Power communication device of display card

The present invention relates to a power communication device for a display card, and in particular, to a power communication device for a display card that is more stable, reduces cost, and has high installation efficiency when using a display card.

As the times progress, computer functions are becoming more and more advanced, and hardware specifications around computers are also increasing due to upgrades of computers. For example, as the rating of the display card or processor increases, the demand for power also increases, and the specifications of the power processor must also be improved.

However, most of the display cards built into existing motherboards are insufficient to support current software and 3D technologies. Even many motherboards don't have a built-in display card, so most people use the display card externally. In addition, since all current high-power display cards require separate power connections to generate sufficient power, most display cards use a separate 6PIN or 8PIN plug to connect the power supply.

However, if the display card needs to be overclocked, the power supplied by the power supply must be changed. Therefore, some people control by installing a separate microprocessor that is simultaneously connected to the power supply and the display card. However, when there is only one external processor, not only space is wasted, but it is also cumbersome to install and control efficiency is not stable.

The main purpose of the present invention is to operate the display card more stably by using the power processor and the display card processor, and at the same time, by installing a signal channel connecting the power processor and the display card processor in the transmission connector connected to the power source, space is saved and It is to achieve the effect of making installation convenient.

The main structure of the present invention for achieving the above object is a power supply; A power processor installed on the power supply; A display card installed on one side of the power supply; A display card processor installed on the display card; And a transfer connector positioned between the power supply and the display card. Both ends of the transmission connector are respectively connected to a power supply and a display card, and the transmission connector includes at least one power channel and at least one signal channel, and both ends of the power channel are connected to a power supply and a display card, respectively, and signal Both ends of the channel are connected to the power processor and the display card processor, respectively.

Through the above structure, the power channel can transmit power from the power supply to the display card, and when the display card is operated, the power used of the display card can be monitored and adjusted through the display card processor, and the power processor controls the output power of the power supply. It can be monitored and adjusted, and the display card processor and power processor can be connected through a signal channel. This makes it much more stable during operation and overclocking of the display card as the display card and the power supply operate in alternating fashion.

In addition, since the signal channel connected between the power processor and the display card processor is installed in the transmission connector that transmits power, there is no need to separately add wires to connect to each other, saving space, and only one line of circuits is required during installation. It is also more efficient.

Through the above-described technology, it is possible to achieve practical advancement by overcoming the problem that the processor of the display card is low in efficiency and occupies space.

1 is a perspective view according to a preferred embodiment of the present invention.
2 is a structural block diagram according to a preferred embodiment of the present invention.
3 is a perspective view according to another preferred embodiment of the present invention.
4 is a structural block diagram according to another preferred embodiment of the present invention.
5 is a schematic diagram of a connection according to another preferred embodiment of the present invention.

1 and 2 are a perspective view and a structural block diagram according to a preferred embodiment of the present invention. As can be seen from the drawings, the present invention is a power supply 1, a power processor 11, a display card 2, It includes a display card processor 21, a transmission connector 3, and a signal connector 4. Here, the power processor 11 is installed on the power supply, the display card processor 21 is installed on the display card 2, and the power processor 11 and the display card processor 21 are both microprocessors ( MCU), and the transmission connector 3 is located between the display card 2 and the power supply 1. In addition, both ends are connected to the display card 2 and the power supply 1, respectively, the signal connector 4 is also located between the display card 2 and the power supply 1, and both ends are respectively connected to the display card processor ( 21) and the power processor 11 are connected.

The structure of the present technology can be understood through the above description, and the power processor 11 and the display card processor 21 can be combined according to the corresponding combination of the structures, whereby the power supply 1 and the display card 2 ) Can be monitored and adjusted to make the operation of the display card 2 more stable and smooth. Details will be described in the following.

When assembled with the above components, as can be seen through the drawings, the power processor 11 and the display card 2 can be inserted and installed on the main board 5, and the power processor 11 is a power supply 1 The output power of) can be monitored and adjusted, and the power is transmitted into the display card 2 through the transmission connector 3. In addition, the display card processor 21 can monitor and adjust the power used when the display card 2 is operating, and the power processor 11 and the display card processor 21 are signal-connected to each other through a signal connector 4 Interact with each other. When the display card 2 needs to be overclocked, the display card processor 21 can adjust the operating state of the display card 2, such as adjusting the fan rotation speed and changing the frame rate of the screen, and at the same time, the power processor 11 ), so that the power processor 11 can adjust the power supply efficiency of the power supply 1. In this way, it is in harmony with the operating efficiency of the display card 2, and it can be much more stable when the display card 2 is operated and when overclocked. In addition, since the power processor 11 and the display card processor 21 are combined to monitor and adjust at the same time, it is much more stable and efficient than adjusting and monitoring using a single external processor.

Please refer to FIGS. 3 to 5 at the same time. These are a perspective view to a schematic diagram of a connection according to another preferred embodiment of the present invention. From the drawings, it can be seen that this embodiment and the above embodiment are similar. Here, the transmission connector 3a includes at least one power channel 31a and at least one signal channel 32a, and the power supply 1a and the display card 2a are inserted into the main board 5a. In use, the power supply 1a and the display card 2a are connected to each other only by the transmission connector 3a, and the power channel 31a connects the power supply 1a and the display card 2a. Accordingly, the power supply 1a transmits power to the display card 2a, and the signal channel 32a is connected to the power processor 11a and the display card processor 21a, respectively, so that the power processor 11a and the display card The processors 21a may be connected to each other through a signal channel 32a to allow exchange. The signal channel 32a is originally installed in the transmission connector 3a used for power transmission. For example, a signal channel 32a is added by installing a signal channel 32a in an empty space within a 6PIN connector or adding an original 6PIN connector as an 8PIN connector, but is not limited thereto. Therefore, there is no need to add a separate wire to be connected, thereby saving space and cost. When installing, only the transmission connector 3a needs to be installed, so the installation method is also quick and simple.

Therefore, the main features of the power communication device for the display card according to the present invention are improved compared to the conventional technology as follows:

1.By using the mutual cooperation of the display card processor 21 and the power processor 11, the display card processor 2 and the power supply 1 are monitored and adjusted, so that the display card 2 can operate more stably. have.

2. Since both the power channel 31a and the signal channel 32a are installed in the transmission connector 3a, the effect of signal transmission and power transmission can be achieved with only one transmission connector 3a, saving space and cost. Saving and convenient installation.

Power supply ... 1, 1a
Power Processor ... 11, 11a
Display card ... 2, 2a
Display card processor ... 21, 21a
Transmission connector ... 3, 3a
Power Channel ... 31a
Signal Channel ... 32a
Signal connector ... 4
Main board ... 5, 5a

Claims (6)

delete delete delete As a power communication device for a display card,
Power supply;
A power processor installed on the power supply to monitor and adjust a state of the power supply;
A display card installed on one side of the power supply;
A display card processor installed on the display card to monitor and adjust a state of the display card, and signal-connected to the power processor to cooperate with each other to improve stability during operation of the display card; And
Located between the display card and the power supply, both ends are connected to the power supply and the display card, respectively, and include at least one power channel and at least one signal channel therein, and both ends of the power channel are each It is connected to the power supply and the display card so that the power supply transmits a power signal to the display card, and the signal channel is located at one side of the power channel, and both ends are respectively connected to the power processor and the display card processor. A transmission connector connected to the display card processor and the power processor for signal connection to each other; Including,
The signal channel is configured in the transmission connector by adjusting the number of pins to be used among the pins of the transmission connector or adjusting the number of pins to be used by increasing the number of pins of the transmission connector. Power communication device. The method of claim 4,
The power supply and the display card, characterized in that can be connected to the main board, power communication device of the display card. delete

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