CN113836072A - Remote control process - Google Patents

Abstract

A remote control flow path is characterized in that a switched control signal is input from an operation interface of a control end and then transmitted to a PCI-E connector of an image capturing mechanism, and after signal processing and conversion are carried out by a processor, the control signal is transmitted to a controlled end by a USB-C connector of the image capturing mechanism, so that the control end and the controlled end are in online communication, and the control end controls the controlled end by the operation interface. Therefore, the control end can be connected to the PCI-E connector through the connection of the image acquisition mechanism, and then the controlled end can be remotely controlled through the USB-C connector connected with the controlled end without a switcher and a network, so that the image acquisition mechanism with the multicomputer switching function can be expanded in the existing image acquisition card category, and the controlled end can be remotely connected and remotely controlled by the control end, thereby achieving the effects of simple process, speed improvement and cost reduction.

Description

Remote control process

Technical Field

The present invention relates to a remote control process, and more particularly, to an image capturing mechanism with kvm switch function that is extended in the scope of an existing image capturing card, and more particularly, to a remote control process that can achieve the effects of simple process, high speed, and low cost.

Background

Generally, a Keyboard-Video-Mouse (KVM) Switch is installed to remotely operate the controlled end via the KVM Switch.

However, the conventional KVM switch must be connected to the network during operation, and cannot be operated once the network is disconnected. In addition, the conventional KVM switch is not only complicated in setup procedure, but also has disadvantages of high equipment and setup cost.

In order to solve the various defects in the prior art, the authors of the present application have made intensive studies to develop a remote control process to effectively overcome the defects in the prior art.

Disclosure of Invention

The present invention is directed to overcome the above-mentioned problems encountered in the prior art, and to provide a remote control process, in which a control terminal can be connected to a PCI-E connector through the connection of an image capture mechanism, and then the controlled terminal can be remotely controlled through a USB-C connector connected to the controlled terminal without a Switch or a network, so as to expand the image capture mechanism into an image capture mechanism with a KVM Switch (KVM Switch) function in the scope of an existing image capture card, and to remotely connect the image capture mechanism to the controlled terminal through the control terminal, thereby achieving the effects of simple process, increased speed and effectively reduced cost.

In order to achieve the above purposes, the invention adopts the technical scheme that: a remote control flow comprising at least the steps of:

the method comprises the following steps: a control end is provided, and the control end is provided with an operation interface and a first port.

Step two: connecting an image capturing mechanism to the control end, wherein the image capturing mechanism comprises a PCI-E connector, a processor and at least one USB-C connector, the PCI-E connector is connected with the first port, the processor is connected with the PCI-E connector and the USB-C connector, the PCI-E connector is a connecting component capable of supporting hot plugging and hot exchange and can provide +3.3V, 3.3Vaux and +12V electric power, when the PCI-E connector is used for hot exchange, the image capturing mechanism comprises a voltage controller, and when the control end is connected to the image capturing mechanism, the voltage controller provides the electric power to the control end in a progressive mode until the control end reaches the normal operation voltage level of the control end.

Step three: connecting at least one controlled end to the image capturing mechanism, wherein the controlled end is provided with a second port which is connected with the USB-C connector.

Step four: the control end inputs the switched control signal through the operation interface, the control end transmits the control signal to the PCI-E connector of the image capturing mechanism through the first port, the USB-C connector transmits the control signal to the controlled end through the second port after the signal processing and conversion are carried out through the processor, the control end and the controlled end are communicated in an online mode, and the control end controls the controlled end through the operation interface.

In the above remote control process, the control end is a personal computer or a notebook computer.

In the above remote control process, the operation interface is a keyboard, a mouse or a combination thereof.

In the above remote control procedure, the first port is a PCI express Peripheral Component Interconnect (PCI) express interface bus PCI-E X2, PCI-E X4, PCI-E X8 or PCI-E X10 PCI-E connector slot.

In the remote control procedure described above, the PCI-E connector is PCI-E Gen1, Gen2, Gen3 or Gen4 with 2, 4, 8 or 10 channels.

In the remote control process, the PCI-E connector is a connector of M.2 PCI-E, Minicard (MC) PCI-E or Thunderbolt (TB) PCI-E specification interface.

In the above remote control process, the controlled end is a personal computer, a notebook computer or a server.

In the above remote control process, the second Port is an HDMI connector or a Display Port connector.

In the remote control process, the USB-C connector includes a USB 2.0 connector.

In the above remote control process, the first port and the PCI-E connector are connected by a first transmission interface, and the second port and the USB-C connector are connected by a second transmission interface.

In the above remote control process, when the connection between the control terminal and the image capturing mechanism is a heat exchange connection, the voltage controller gradually supplies power to the control terminal until the operating voltage of the control terminal is reached by monitoring and managing the transmission interface of the PCI-E connector from the image capturing mechanism to the control terminal when the voltage controller is connected to the image capturing mechanism.

Drawings

FIG. 1 is a schematic flow diagram of the present invention.

Fig. 2 is a schematic diagram of the basic architecture of the present invention.

FIG. 3 is a block diagram of the present invention.

Reference numbers refer to:

control terminal 1

Operation interface 11

Keyboard 111

Mouse 112

First port 12

Image capturing mechanism 2

PCI-E connector 21

Processor 22

USB-C connector 23

Voltage controller 24

Controlled terminal 3

Second port 31

First transmission interface 4

Second transmission interface 5

Step one to step four s1 to s 4.

Detailed Description

Please refer to fig. 1-3, which are a flow chart, a basic architecture and a block diagram of the present invention, respectively. As shown in the figure: the invention relates to a remote control process, which comprises the following steps:

step one s 1: a control terminal 1 is provided, which has an operation interface 11 and a first port 12.

Step two s 2: connecting an image capturing mechanism 2 to the control terminal 1, wherein the image capturing mechanism 2 includes a PCI-E connector 21, a processor 22 and at least one USB-C connector 23, the PCI-E connector 21 is connected to the first port 12, the processor 22 is connected to the PCI-E connector 21 and the USB-C connector 23, and the USB-C connector 23 includes a USB 2.0 connector (not shown); the PCI-E connector 21 is a connection member capable of supporting hot plug and hot swap, and can supply +3.3V, 3.3Vaux, and +12V power. Wherein, when the PCI-E connector 21 is hot-swap, i.e. the connection between the control terminal 1 and the image capturing mechanism 2 is hot-swap connection, the image capturing mechanism 2 comprises a voltage controller 24, and when the control terminal 1 is connected to the image capturing mechanism 2, the voltage controller 24 progressively provides power to the control terminal 1 by means of monitoring and management of the transmission line from the image capturing mechanism 2 to the PCI-E connector 21 of the control terminal 1 until it reaches the normal operating voltage level of the control terminal 1.

Step three s 3: connecting at least one controlled terminal 3 to the image capturing mechanism 2, wherein the controlled terminal 3 has a second port 31, and the second port 31 is connected to the USB-C connector 23.

Step four s 4: the control end 1 inputs the switching control signal through the operation interface 11, so that the control end 1 transmits the control signal to the PCI-E connector 21 of the image capturing mechanism 2 through the first port 12, and after the signal processing and conversion are performed by the processor 22, the control signal is transmitted to the controlled end 3 through the second port 31 by the USB-C connector 23, so that the control end 1 and the controlled end 3 perform online communication, and the control end 1 controls the controlled end 3 through the operation interface 11. Thus, the control terminal 1 can be connected to the PCI-E connector 21 through the connection of the image capturing mechanism 2, and then the controlled terminal 3 can be remotely controlled through the USB-C connector 23 connected to the controlled terminal 3 without using a Switch and a network, so that the image capturing mechanism 2 having a Keyboard-Video-Mouse Switch (KVM Switch) function can be expanded in the existing image capturing card domain, and can be remotely connected to remotely control the controlled terminal 3 through the control terminal 1, thereby achieving the effects of simple process, increasing speed and effectively reducing cost.

In an embodiment of the present invention, the control terminal 1 is a personal computer or a notebook computer, the operation interface 11 is a keyboard 111, a mouse 112 or a combination thereof, and the controlled terminal 3 is a personal computer or a notebook computer or a server. Therefore, a shortcut key for starting the image capturing mechanism 2 can be set on the control terminal 1 or the keyboard 111, and when a remote control is desired, the mouse 112 clicks the shortcut key in the control terminal 1, or the keyboard 111 directly starts the shortcut key, so as to input a switching control signal through the operation interface 11, thereby achieving an effect of easy operation.

In one embodiment of the present invention, the first Port 12 is a PCI-E connector slot of PCI express peripheral component interconnect interface bus PCI-E X2, PCI-E X4, PCI-E X8 or PCI-E X10 specification, the PCI-E connector 21 is a connector of PCI-E Gen1, Gen2, Gen3 or Gen4 with 2, 4, 8 or 10 channels or m.2 PCI-E, Minicard (MC) PCI-E or thunderbolt (tb) PCI-E specification interface, and the second Port 31 is an HDMI connector or displayport connector. Therefore, the signal transmission speed can be increased to meet the actual use requirement.

In one embodiment of the present invention, the first port 12 and the PCI-E connector 21 are connected by a first transmission interface 4, the second port 31 and the USB-C connector 23 are connected by a second transmission interface 5, and the first transmission interface 4 and the second transmission interface 5 can be transmission lines. Therefore, the image capturing mechanism 2 can be connected to the control terminal 1 and the controlled terminal 3 through the first transmission interface 4 and the second transmission interface 5, respectively, and can perform the required remote operation without going through the network.

In summary, the remote control process of the present invention can effectively improve various disadvantages of the prior art, and the control end can be connected to the PCI-E connector through the connection of the image capturing mechanism, and then the controlled end can be remotely controlled through the USB-C connector connected to the controlled end without going through the switch and the network, so as to expand the image capturing mechanism with KVM switching function in the scope of the existing image capture card, i.e. to remotely connect the image capture mechanism, and the controlled end is remotely controlled by the control end, thereby achieving the effects of simple process, increasing speed and effectively reducing cost, further making the production of the present invention more advanced, more practical, more in line with the needs of users, ensuring that the requirements of the invention patent application are met, and providing patent application according to law.

However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention should not be limited thereby. Therefore, all the equivalent changes and modifications made according to the claims and the content of the specification of the present invention should be covered by the scope of the present invention.

Claims (10)

1. A remote control process, comprising the steps of:

the method comprises the following steps: setting a control end, wherein the control end is provided with an operation interface and a first port;

step two: connecting an image capturing mechanism to the control end, wherein the image capturing mechanism comprises a PCI-E connector, a processor and at least one USB-C connector, the PCI-E connector is connected with the first port, the processor is connected with the PCI-E connector and the USB-C connector, the PCI-E connector is a connecting component capable of supporting hot plugging and hot exchange and can provide +3.3V, 3.3Vaux and +12V electric power, when the PCI-E connector is used for hot exchange, the image capturing mechanism comprises a voltage controller, and when the control end is connected to the image capturing mechanism, the voltage controller provides the electric power to the control end in a progressive mode until the control end reaches the normal operation voltage level of the control end;

step three: connecting at least one controlled end to the image capturing mechanism, wherein the controlled end is provided with a second port which is connected with the USB-C connector; and

step four: the control end inputs the switched control signal through the operation interface, the control end transmits the control signal to the PCI-E connector of the image capturing mechanism through the first port, the USB-C connector transmits the control signal to the controlled end through the second port after the signal processing and conversion are carried out through the processor, the control end and the controlled end are communicated in an online mode, and the control end controls the controlled end through the operation interface.

2. The remote control flow of claim 1, wherein the control terminal is a personal computer or a notebook computer.

3. The remote control flow of claim 1, wherein the operational interface is a keyboard, a mouse, or a combination thereof.

4. The remote control flow of claim 1, wherein the first port is a PCI express peripheral component interconnect interface bus PCI-E X2, PCI-E X4, PCI-E X8, or PCI-E X10 specification PCI-E connector slot.

5. The remote control flow of claim 1 wherein the PCI-E connector is a PCI-E Gen1, Gen2, Gen3, or Gen4 connector having 2, 4, 8, or 10 channels, or a m.2 PCI-E, MinicardPCI-E or Thunderbolt PCI-E specification interface.

6. The remote control flow of claim 1, wherein the controlled terminal is a personal computer or a notebook computer or a server.

7. The remote control flow of claim 1, wherein the second Port is an HDMI connector or a Display Port connector.

8. The remote control flow of claim 1, wherein the USB-C connector includes a USB 2.0 connector.

9. The remote control flow of claim 1, wherein the first port and the PCI-E connector are connected by a first transmission interface, and the second port and the USB-C connector are connected by a second transmission interface.

10. The remote control flow of claim 1, wherein when the connection between the control terminal and the image capturing mechanism is a hot-swap connection, the voltage controller progressively powers the control terminal in connection to the image capturing mechanism by monitoring and managing a transmission interface from the image capturing mechanism to the PCI-E connector of the control terminal until an operating voltage of the control terminal is reached.

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