CN112565112B - Seat control system and seat system - Google Patents

Abstract

The invention relates to the field of computer control equipment, in particular to an agent control system and an agent system. The seat control system comprises a service unit, a data exchange unit and a main control unit; the service unit, the data exchange unit and the main control unit are respectively provided with a chip; the PCB backboard is characterized by further comprising a PCB backboard unit, wherein the PCB backboard unit is provided with a data bus and a control bus; the service unit, the data exchange unit and the main control unit are respectively connected with the PCB back board unit; the service unit is accessed to a data bus and a control bus of the PCB back plate unit; the data exchange unit is accessed to a data bus and a control bus of the PCB backboard unit; the main control unit is connected to a data bus of the PCB backboard unit. The invention can improve the transmission rate of the data signal and the control signal in the seat control system and keep the seat control system to operate stably at high speed; the occupied space of the system equipment of the seat control system or the seat system is reduced, and the small networking requirement is met.

Description

Seat control system and seat system

Technical Field

The invention relates to the field of computer control equipment, in particular to an agent control system and an agent system.

Background

KVM (keyboard, video, mouse) is the most commonly used device in a computer room management system and a command center system. Through the KVM equipment, a set of mouse and keyboard can be used for controlling a plurality of target hosts, and the equipment management work is greatly simplified. With the rapid development of the information technology, the demand of occasions such as a command and dispatch center, a conference room system, a machine room management system and the like on the seat system is increased. The seat system is a KVM technology-based system which solves the work requirement of a certain work post and the requirement of cooperation between the certain work post and different posts, and simultaneously solves the spatial separation of an information data main body and an operator for the information safety. The system solves the problems of safety of information (data) of a command center and isolation of work of each seat, and meanwhile, through processing and sharing of visual data, the system helps a user to conveniently push or acquire a signal of any position in the system when the user faces a large amount of data and needs to make a complex decision, can be remotely operated, and greatly improves the service efficiency.

With the increase of computer clusters, big data, cloud computing and large-scale cooperation requirements, the requirements for data interaction among all the seat units are higher and higher, the traditional optical fiber seat control system cannot meet the requirements by adopting a 3Gbps transmission technology, and the market provides greater challenges for the data transmission rate of the seat system. Meanwhile, the number of small networking scenes needing to apply the seat system is increased, and the problems of low bandwidth transmission, small capacity, large equipment size and the like of the seat system in the prior art cannot be applied.

Disclosure of Invention

The invention aims to overcome at least one defect (deficiency) of the prior art, and provides an agent control system and an agent system, which are used for solving the problems of low bandwidth transmission, small capacity, large equipment volume and the like of the agent system in the prior art.

The invention relates to an agent control system, which comprises a service unit, a data exchange unit and a main control unit; the service unit, the data exchange unit and the main control unit are respectively provided with a chip; the PCB back plate unit is provided with a data bus and a control bus; the service unit, the data exchange unit and the main control unit are respectively connected with the PCB back board unit; the service unit is accessed to a data bus and a control bus of the PCB back plate unit; the data exchange unit is accessed to a data bus and a control bus of the PCB backboard unit; the main control unit is connected to a data bus of the PCB backboard unit.

The PCB backboard unit provides physical link connection for the service unit, the data exchange unit and the main control unit, and rapid information transmission and communication are carried out among the units through wiring on the PCB backboard unit, so that the information transmission efficiency in the seat control system is improved; the service unit acquires a data signal and a control signal of the terminal, separates the two signals, and respectively packages and sends the two signals to the data exchange unit; the data signal reaches the data exchange unit through a data bus on the PCB back plate unit, and the control signal reaches the data exchange unit through a control bus on the PCB back plate unit. The data exchange unit is a signal exchange center of the seat control system, data signals of all service units are gathered at the data exchange unit, and data signals of other service units are obtained from the data exchange unit according to a terminal request, so that information transmission and communication among the service units are realized. And meanwhile, the data exchange unit is also a center for transmitting the control command of the main control unit, the main control unit sends the control command to the data exchange unit in the form of a control signal through a control bus on the PCB back board unit, and the data exchange unit executes the control command or transmits the control command to each service unit so that each service unit executes the control command. The functions of the control command issued by the master control unit include, but are not limited to: enabling or disabling a signal transmission channel for connecting the service unit with the receiving box and the sending box; completing parameter configuration of the data switching center and the service unit; and finishing the software upgrading of the data switching center and the service unit. The data bus and the control bus of the PCB backboard unit enable data signals and control signals between the units to be independently and rapidly transmitted, the two types of signals are not interfered with each other, and the units complete interaction rapidly and orderly, so that the operating efficiency of the seat control system is greatly improved; on the other hand, the PCB back panel unit is used as a physical link of the seat control system, so that the number of cables in the system is small, the occupied space of system equipment is effectively reduced, and the equipment environment is kept neat and attractive; the system transmission capacity is improved, the seat control system is miniaturized, and the small-size networking requirement is met.

Further, the control bus is an ethernet link. The bus bandwidth refers to the total amount of data which can be transmitted by the bus in unit time, and compared with the traditional serial port communication mode, the bandwidth of the Ethernet link is increased by several times, so that the high-efficiency and smooth management and maintenance of terminal equipment such as a sending box and a receiving box through a service unit are facilitated.

Further, the data bus is a high-speed serial bus.

Furthermore, the data bus interface on the PCB backboard unit is a high-speed transceiver port, so that the transmission characteristic of a high-speed serial bus is better adapted, and high-speed signal transmission is more stably maintained.

Further, the PCB backplane unit arranges the data bus in a differential pair routing manner. The arrangement mode of the differential pair wiring has the advantages of strong anti-interference capability, accurate time sequence positioning and the like, and the transmission efficiency of each unit on the PCB backboard unit is further improved.

Further, the PCB backboard unit is a high-speed board. The high-speed board has a low dielectric constant, provides excellent insulation for the PCB backboard unit, has small parasitic capacitance when transmitting high-speed signals, has large transmission line impedance, enables the transmission rate of the high-speed signals to be high, and allows the PCB backboard unit to be provided with longer wiring.

Further, the chips of the data exchange unit and the service unit support transmission at a rate of more than 6 Gbps.

Furthermore, the main control unit, the service unit and the data exchange unit are powered by the PCB backboard unit. Other units are powered by the PCB backboard unit through wiring, and an external power supply is replaced to connect a cable, so that the occupied space of the seat control system is further reduced.

The invention relates to an agent system, which comprises a receiving box, a sending box and the agent control system, wherein the receiving box is connected with the sending box; the receiving box and the sending box are respectively connected with the service unit of the seat control system.

Furthermore, the receiving box and the sending box are connected with the service unit of the seat control system through a high-speed optical port. The receiving box and the sending box are connected to a high-speed optical port of a service unit of the seat control system through optical fiber channels, and the signal transmission rate between the service unit and the receiving box and between the service unit and the sending box is improved.

Compared with the prior art, the invention has the beneficial effects that: the transmission rate of data signals and control signals in the seat control system is increased, and the seat control system is kept to operate stably at a high speed; the occupied space of the system equipment of the seat control system or the seat system is reduced, and the small networking requirement is met.

Drawings

Fig. 1 is a schematic diagram of an agent control system of the present invention.

Fig. 2 is a schematic diagram of the seating system of the present invention.

Description of reference numerals: a service unit 1; a data exchange unit 2; a main control unit 3; a chip 4; a PCB backplane unit 5; a receiving box 6; and a transmission box 7.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

As shown in fig. 1, the present embodiment provides an agent control system, which includes a service unit 1, a data exchange unit 2, and a main control unit 3; the service unit 1, the data exchange unit 2 and the main control unit 3 are respectively provided with a chip 4; the PCB back board unit 5 is provided with a data bus and a control bus; the service unit 1, the data exchange unit 2 and the main control unit 3 are respectively connected with a PCB back board unit 5; the service unit 1 is connected to a data bus and a control bus of the PCB backboard unit 5; the data exchange unit 2 is connected to a data bus and a control bus of the PCB backboard unit 5; the main control unit 3 is connected to the data bus of the PCB backboard unit 5.

The service unit 1 is used for connecting a sending box or a receiving box and supporting the functions of acquisition, processing, conversion, output and the like of data signals and control signals of a terminal; meanwhile, the separation of the data signal and the control signal also occurs in the service unit 1: a plurality of service units 1 are connected to a data exchange unit 2, each service unit 1 is connected to a PCB backplane unit 5 through two parallel lines, one of the lines is used for transmitting control signals and is accessed to a data bus of the PCB backplane unit 5; the other line is used for transmitting data signals such as audio and video streams and the like and is connected to a control bus of the PCB backboard unit 5. The data bus and the control bus on the PCB backplane unit 5 transmit the data signal and the control signal to the data exchange unit 2, respectively.

The data exchange unit 2 is responsible for sharing the data signals acquired by the plurality of service units 1, and the data signals are cross-output to different service units 1 according to requirements after arriving at the data exchange unit 2 through a data bus of the PCB back board unit 5; the data exchange unit 2 is also responsible for forwarding the control signals output by the service units 1 and the main control unit 3, and similarly to the data signals, the control signals reach the main body executing the control command through the control bus, and the main body of the control command may be the data exchange unit 2 itself or each service unit 1. Interaction and control between the service units, between the main control unit and the service units, and between the main control unit and the data exchange units are realized through the data exchange unit 2.

The main control unit 3 is responsible for the management function of the agent control system, the main control unit 3 sends a control command to the data exchange unit in the form of a control signal through a control bus on the PCB backplane unit 5, the data exchange unit 5 executes the control command or forwards the control command to each service unit so that each service unit executes the control command, and the functions of parameter configuration, online management, software upgrade and the like of the data exchange unit 2 and the service units 1 are completed according to the mode.

The PCB backboard unit 5 provides a physical link for the service unit 1, the data exchange unit 2 and the main control unit 3, traditional cable connection is replaced, rapid information transmission and communication are carried out among the units through wiring on the PCB backboard unit, interaction is rapidly and orderly completed by each unit, and information transmission efficiency in the seat control system is improved; in the embodiment, the ethernet link is preferably used as a control bus of the PCB backplane unit 5, and the bandwidth of the ethernet link is increased by several times, which is beneficial to efficiently and smoothly managing and maintaining the terminal devices such as the sending box and the receiving box through the service unit; the present embodiment preferably uses a high-speed serial bus as the data bus of the PCB backplane unit 5, wherein the high-speed serial bus can be SATA, PCIE, USB3.0, and fiber-based high-speed serial buses AFDX, FC, etc. And the data bus interface is a high-speed transceiver port, the service unit 1, the data exchange unit 2 and the main control unit 3 are accessed to the data bus of the PCB backboard unit 5 through the high-speed transceiver port, the transmission characteristics of a high-speed serial bus are compatible, and high-speed signal transmission is maintained more stably. Meanwhile, the PCB back board unit is used as a physical link of the seat control system, so that cables in the system are few, the occupied space of system equipment is effectively reduced, and the equipment environment is kept neat and attractive; the system transmission capacity is improved, the seat control system is miniaturized, and the small-size networking requirement is met.

The PCB backplane unit 5 of the present implementation preferably uses a high speed board of type MEG4, with the data buses arranged in differential pair routing. The high-speed plate with the MEG4 model has excellent insulation, small parasitic capacitance when transmitting high-speed signals, large transmission line impedance, and can meet the transmission of 12Gbps high-speed serial data, and preconditions are provided for high-speed transmission in the seat control system. Further, the chips of the data switching unit 2 and the service unit 1 of the present embodiment support transmission at a rate of 6Gbps or more.

The main control unit 3, the service unit 1 and the data exchange unit 2 of this embodiment are powered by the PCB backplane unit 5. Other units are powered by the wiring on the PCB backboard unit 5, and an external power supply is replaced to connect the cable, so that the occupied space of the seat control system is further reduced. In other embodiments, the main control unit 3, the service unit 1 and the data exchange unit 2 may be powered by an external power supply.

Example 2

As shown in fig. 2, this embodiment provides an agent system including a plurality of receiving boxes 6, a plurality of sending boxes 7, and the agent control system described in embodiment 1, where the number of the receiving boxes 6 and the sending boxes 7 is not limited, the receiving boxes 6 and the sending boxes 7 are respectively connected to the service units 1 of the agent control system, and each service unit 1 may correspond to one or more receiving boxes 6, one or more sending boxes 7, or both the receiving boxes 6 and the sending boxes 7.

The information source and the user source are respectively connected with the sending box 7 and the receiving box 6, the information source comprises common video signal sources such as a PC host, an IP camera and a DVD, and the user source comprises common equipment input sources such as a display, a keyboard, a mouse, a projector and a sound box. The receiving box 6 and the sending box 7 send data signals such as audio and video streams and control signals of user source operation to service units of the seat control system, a data exchange unit in the seat control system is responsible for sharing the data signals acquired by a plurality of service units, and the data signals are cross-output to different service units according to requirements after reaching the data exchange unit through a data bus of a PCB (printed circuit board) back board unit; the data exchange unit is responsible for forwarding the control signals output by the service unit and the main control unit, and the control signals reach the main body executing the control command through the control bus in the same way as the data signals, so that the random interaction and control between the service user and the information source and between the user and the user are realized.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims (10)

1. An agent control system comprises a service unit, a data exchange unit and a main control unit; the service unit, the data exchange unit and the main control unit are respectively provided with a chip; it is characterized in that the preparation method is characterized in that,

the PCB back plate unit is provided with a data bus and a control bus;

the service unit, the data exchange unit and the main control unit are respectively connected with the PCB back board unit;

the service unit is accessed to a data bus and a control bus of the PCB back plate unit;

the data exchange unit is accessed to a data bus and a control bus of the PCB backboard unit;

the main control unit is connected to a data bus of the PCB back plate unit;

the service unit acquires a data signal and a control signal of the terminal, separates the two signals, and respectively packages and sends the two signals to the data exchange unit; the data signal reaches the data exchange unit through a data bus on the PCB back plate unit, and the control signal reaches the data exchange unit through a control bus on the PCB back plate unit;

the main control unit sends a control command to the data exchange unit in the form of a control signal through a control bus on the PCB back panel unit, and the data exchange unit executes the control command or forwards the control command to each service unit so that each service unit executes the control command.

2. The agent control system according to claim 1,

the control bus is an Ethernet link.

3. The agent control system according to claim 1,

the data bus is a high-speed serial bus.

4. An agent control system according to claim 3,

and the data bus interface on the PCB back plate unit is a high-speed transceiver port.

5. The agent control system according to claim 1,

the PCB backboard unit arranges a data bus in a differential pair routing mode.

6. The agent control system according to claim 1,

the PCB backboard unit is a high-speed plate.

7. The agent control system according to claim 1,

the chips of the data exchange unit and the service unit support transmission at a rate of more than 6 Gbps.

8. The agent control system according to claim 1,

the main control unit, the service unit and the data exchange unit are powered through the PCB backboard unit.

9. A seat system comprises a receiving box and a sending box, and is characterized in that,

further comprising the agent control system of any one of claims 1-8;

the receiving box and the sending box are respectively connected with the service unit of the seat control system.

10. An agent system according to claim 9,

the receiving box and the sending box are connected with the service unit of the seat control system through a high-speed optical port.

Images