CN209608660U - Communication module and KVM switching equipment, system for KVM switching equipment - Google Patents

Abstract

The utility model relates to videos to show control field, specifically provide a kind of communication module for KVM switching equipment, it is intended to solve how easily to realize the technical issues of KVM switching equipment is communicated with mass external equipment.Every road photo signal channel of the first serial communication interface with optical interface submodule of channel control submodule is connect in communication module provided by the utility model, and the second serial communication interface is connect with every road serial communication channels of KVM switching module.The data transmission channel quantity of each optical module in communication module can be increased by optical interface submodule, each optical interface submodule is connect by one group of telecommunication optical fiber with multiple external device communications, to reduce the optical fiber wiring difficulty and cost of KVM switching equipment.Meanwhile every road serial communication channels and multichannel photo signal channel being established by channel control submodule and are communicated to connect, so that KVM switching equipment is the controllable multiple external equipments connecting with optical interface submodule by serial communication channels all the way.

Description

Communication module and KVM switching equipment, system for KVM switching equipment

Technical field

The utility model relates to the aobvious control technical fields of video, and in particular to communication module and KVM for KVM switching equipment Switching equipment, system.

Background technique

KVM switching equipment refers to controlling by one group of keyboard (Keyboard), display (Video) and mouse (Mouse) The computer peripheral of multiple servers processed, KVM switching equipment can be carried out by preset communication module with external equipment Communication.Currently, KVM switching equipment is mainly using multiple single channel communications interfaces (such as SFP interface or RJ45 interface) is based on Fiber optic telecommunications module, i.e., each single channel communications interface are only capable of connecting with an external device communication, when external equipment quantity compared with When more, this certainly will will increase the quantity of communication cable, cost and wiring difficulty.Simultaneously as the size of communication module limits, no The biggish single channel communications interface of the order of magnitude can be set, mass external equipment is led to be unable to satisfy KVM switching equipment Letter demand.

Utility model content

In order to solve the above problem in the prior art, in order to solve how easily to realize KVM switching equipment and big The technical issues of scale external equipment is communicated.The utility model provides a kind of communication module for KVM switching equipment And KVM switching equipment, system, by this for KVM switching equipment communication module can easily realize KVM switching equipment with Mass external equipment is communicated.

In a first aspect, a kind of communication module for KVM switching equipment provided by the utility model mainly includes following Structure:

Optical interface submodule comprising the both ends of multichannel photo signal channel, every road photo signal channel are respectively arranged with Light Transmit-Receive Unit, the smooth Transmit-Receive Unit are configured to carry out photoelectric conversion to the light data signal received and export and dock The electric data-signal received carries out electro-optic conversion and exports；

Channel control submodule comprising multiple first serial communication interfaces and multiple second serial communication interfaces, each First serial communication interface is connect with every road photo signal channel respectively, and each second serial communication interface switches with KVM respectively Every road serial communication channels of KVM switching module in equipment, the communication module include: every road serial communication channels connection, institute State that channel control submodule is configured to control each second serial communication interface and one or more first serial communication interfaces are logical Letter connection, so that every road serial communication channels and one or more photo signal channel are formed and communicated to connect.

Further, an optional technical solution provided by the utility model is:

The communication module further includes back panel connector, and the second serial communication of each of described channel control submodule connects Mouth is connect by the back panel connector with the road KVM switching module Zhong Mei serial communication channels respectively.

Further, an optional technical solution provided by the utility model is:

The channel control submodule is further configured to receive the channel control instruction of the KVM switching module output, And control the first specified serial communication interface of the channel control instruction and the communication connection of the second serial communication interface.

Further, an optional technical solution provided by the utility model is:

The communication module further include:

Monitoring submodule is communicated with the channel control submodule, and the monitoring submodule is configured to monitor described logical The operating status of road control submodule.

Further, an optional technical solution provided by the utility model is:

The monitoring submodule includes MCU processor.

Further, an optional technical solution provided by the utility model is:

The channel control submodule includes FPGA processor.

Further, an optional technical solution provided by the utility model is:

The message transmission rate of first serial communication interface and second serial communication interface be respectively 6bps and 12bps。

Further, an optional technical solution provided by the utility model is:

The optical interface submodule is enhanced QSFP optical module, CXP optical module or CFP optical module.

Further, an optional technical solution provided by the utility model is:

The channel control submodule is further configured to receive the channel control instruction of the KVM switching module output, And control the first specified serial communication interface of the channel control instruction and the communication connection of the second serial communication interface.

Further, an optional technical solution provided by the utility model is:

The communication module further include:

Monitoring submodule is communicated with the channel control submodule, and the monitoring submodule is configured to monitor described logical The operating status of road control submodule.

In second aspect, another communication module for KVM switching equipment provided by the utility model mainly include with Flowering structure:

Back panel connector；

Optical interface submodule comprising the both ends of multichannel photo signal channel, every road photo signal channel are respectively arranged with Light Transmit-Receive Unit, the smooth Transmit-Receive Unit are configured to carry out photoelectric conversion to the light data signal received and export and dock The electric data-signal received carries out electro-optic conversion and exports；

Channel control submodule comprising multiple first serial communication interfaces and multiple second serial communication interfaces, each First serial communication interface is connect with every road photo signal channel respectively, and each second serial communication interface passes through the back respectively Connector for substrate is connect with every road serial communication channels of KVM switching module in the KVM switching equipment, and the channel controls submodule Block is configured to receive the channel control instruction of the KVM switching module output, and control the channel control instruction it is specified the Serial commu-nication interface and the second serial communication interface communicate to connect；

Monitoring submodule is communicated with the channel control submodule, and the monitoring submodule is configured to monitor described logical The operating status of road control submodule.

In the third aspect, a kind of KVM switching equipment provided by the utility model mainly includes KVM switching module and above-mentioned skill The communication module of KVM switching equipment is used for described in any one of art scheme.

In fourth aspect, a kind of KVM switch provided by the utility model mainly includes described in above-mentioned technical proposal KVM switching equipment and multiple far-end optical transceivers, the optical interface submodule of communication module includes MPO light in the KVM switching equipment Fiber connector, the road optical interface submodule Zhong Mei photo signal channel are connect with the MPO optical fiber connector respectively；

The KVM switch further includes the first length of fibre of multichannel, the second length of fibre of multichannel and fibre distribution frame, often One end of the first length of fibre of road is connect with the MPO optical fiber connector respectively, the other end difference of every the first length of fibre of road Connect with a port of the fibre distribution frame, one end of every the second length of fibre of road respectively with it is every in the fibre distribution frame The corresponding port connection of the first length of fibre of road, the other end of every the second length of fibre of road connect with a far-end optical transceiver respectively It connects；

Wherein, the length of second length of fibre is much larger than the length of first length of fibre.

At the 5th aspect, another kind KVM switch provided by the utility model mainly includes described in above-mentioned technical proposal KVM switching equipment and multiple far-end optical transceivers, the optical interface submodule of communication module includes light wave in the KVM switching equipment Division multiplexer, the road optical interface submodule Zhong Mei photo signal channel are connect with the light wavelength division multiplexing respectively；

The KVM switch further includes that two-way third length of fibre, the 4th length of fibre of multichannel and optical wavelength division multiplexing are set Standby, one end of every road third length of fibre is connect with the light wavelength division multiplexing respectively, the other end of every road third length of fibre It is connect respectively with the optical wavelength division multiplexing equipment, one end of every the 4th length of fibre of road connects with the optical wavelength division multiplexing equipment respectively It connects, the other end of every the 4th length of fibre of road is connect with a far-end optical transceiver respectively；

The light wavelength division multiplexing is configured to the light for exporting the optical interface submodule by third length of fibre all the way Data signal transmission receives the optical wavelength division multiplexing to the optical wavelength division multiplexing equipment, and by another way third length of fibre The light data signal received is simultaneously transmitted to the optical interface submodule by the light data signal of equipment output；

Wherein, the length of the third length of fibre is much larger than the length of the 4th length of fibre.

Compared with the immediate prior art, above-mentioned technical proposal is at least had the following beneficial effects:

Communication module provided by the utility model for KVM switching equipment mainly includes optical interface submodule and channel control System module；Optical interface submodule mainly includes multichannel photo signal channel, and the both ends of every road photo signal channel are respectively set There is light Transmit-Receive Unit, light Transmit-Receive Unit is configured to the light data signal progress photoelectric conversion received and output and to reception To electric data-signal electro-optic conversion and export；Channel control submodule mainly include multiple first serial communication interfaces and Multiple second serial communication interfaces, each first serial communication interface are connect with every road photo signal channel respectively, and each second Serial communication interface is connect with the road KVM switching module Zhong Mei serial communication channels respectively, and channel control submodule is configured to control It makes each second serial communication interface and one or more first serial communication interfaces communicates to connect, so that every road serial communication is logical Road and one or more photo signal channel, which are formed, to be communicated to connect.

Based on above structure, the utility model can increase each optical module in communication module by optical interface submodule Data transmission channel quantity connects each optical interface submodule by one group of telecommunication optical fiber and multiple external device communications It connects, to reduce the optical fiber wiring difficulty and cost of KVM switching module.Meanwhile it can be by KVM by channel control submodule Multichannel photo signal channel in switching module Zhong Mei road serial communication channels and one or more optical interface submodules is established Communication connection so that KVM switching module by serial communication channels all the way i.e. it is controllable connect with optical interface submodule it is multiple External equipment meets KVM switching equipment to the communication requirement of mass external equipment.

Detailed description of the invention

Fig. 1 is shown according to the primary structure of the communication module for KVM switching equipment of the utility model one embodiment It is intended to；

Fig. 2 is the primary structure according to the communication module for KVM switching equipment of the utility model another embodiment Schematic diagram；

Fig. 3 is the primary structure schematic diagram according to the KVM switch of the utility model one embodiment；

Fig. 4 is the primary structure schematic diagram according to the KVM switch of the utility model another embodiment.

Specific embodiment

Preferred embodiments of the present invention are described with reference to the accompanying drawings.It should be understood by those skilled in the art that It is that these embodiments are used only for explaining the technical principle of the utility model, it is not intended that limit the protection of the utility model Range.

The communication module for KVM switching equipment of the utility model one embodiment is said with reference to the accompanying drawing It is bright.

Refering to attached drawing 1, Fig. 1 illustrates the main knot in the present embodiment for the communication module of KVM switching equipment Structure.As shown in Figure 1, mainly including optical interface submodule 121 and leading in the present embodiment for the communication module 12 of KVM switching equipment KVM switching module 11 in road control submodule 122, channel control submodule 122 and KVM switching equipment communicates to connect, and KVM is cut Mold changing block can be configured to the communication connection relationship according to the switching command switching KVM switching equipment and external equipment that receive. Specifically, optical interface submodule 121 may include multichannel photo signal channel in the present embodiment, every road photo signal channel Both ends are respectively arranged with light Transmit-Receive Unit, which can be configured to carry out photoelectricity turn to the light data signal received It changes and exports and electro-optic conversion is carried out to the electric data-signal received and is exported.Channel control submodule 122 may include Multiple first serial communication interfaces and multiple second serial communication interfaces, each first serial communication interface respectively with every road photoelectricity Signal path connection, each second serial communication interface are connect with every road serial communication channels respectively, channel control submodule 121 It can be configured to control each second serial communication interface and one or more first serial communication interfaces communicate to connect, so as to every Road serial communication channels and one or more photo signal channel, which are formed, to be communicated to connect.

Light Transmit-Receive Unit is referred to based on opto-electronic device (Photoelectron Devices, i.e. benefit in the present embodiment Various function elements made of electricity consumption-photon transition effects) building the unit that can be realized photoelectric conversion and electro-optic conversion. First serial communication interface and the second serial communication interface refer to can be realized serial communication (i.e. using a data line, One ground of data is successively transmitted, each data occupies a regular time length) serial line interface (Serial Interface).Serial communication channels refer to can be realized the communication channel (Communication of serial communication Channel)。

Optionally, the message transmission rate (Data Transfer Rate) of the first serial communication interface in the present embodiment Less than the message transmission rate with the second serial communication interface.For example, the first serial communication interface and the second serial communication interface Message transmission rate can be 6bps and 12bps respectively.

Optionally, communication module 12 can also include back panel connector (Backplane in the present embodiment Connector, Fig. 1 are not shown), such as backboard high speed connector；Second serial communication of each of channel control submodule 122 connects Mouth is connect by the back panel connector with 11 road Zhong Mei serial communication channels of KVM switching module respectively.

Optionally, channel control submodule 122 may be configured to receive the output of KVM switching module 11 in the present embodiment Channel control instruction, and control the first specified serial communication interface of the channel control instruction and the second serial communication interface leads to Letter connection.For example, channel control instruction may include the logical of every road serial communication channels and one or more photo signal channel Believe that link order, channel control submodule 122 are instructed according to the communication connection, by what is specified in control and communication connection instruction The photo signal channel specified in corresponding second serial communication interface of serial communication channels and communication connection instruction is corresponding The first serial communication interface establish communication connection.

Further, communication module shown in FIG. 1 can also include monitoring submodule, the monitoring submodule in the present embodiment Block can be configured to the operating status of monitor channel control submodule 122.

Optionally, optical interface submodule 121 can be using tool conventional in the aobvious control technical field of video in the present embodiment There is the optical module of multiple data transmission channels, such as enhanced QSFP (Quad Small Form-factor Pluggable) optical mode Block, CXP (120Gb/s 12x Small Form-factor Pluggable, 120Gbps) optical module or CFP (Centum Form-Factor Pluggable, 100Gbp) optical module, channel control submodule 122 may include FPGA (Field- Programmable Gate Array) processor, monitoring submodule may include at MCU (Microcontroller Unit) Manage device.It is connect it is noted that although the present embodiment provides only QSFP optical module, CXP optical module and CFP optical module these three light At the specific embodiment and MCU of this kind of channel control submodule of the specific embodiment of openning module, FPGA processor A kind of this specific embodiment of monitoring submodule of reason device is, still, it will be appreciated to those of skill in the art that this is practical new The protection scope of type is not limited to these specific embodiments, under the premise of without departing from the principles of the present invention, this field skill Other optical modules with multichannel photo signal channel can be used as optical interface submodule in art personnel, other also can be used Processor constructs channel control submodule and monitoring submodule, and the technical solution after these changes or replacement falls within this reality Within novel protection scope.

The utility model can increase each optical interface in communication module by optical interface submodule in the present embodiment Data transmission channel quantity connects each optical interface submodule by one group of telecommunication optical fiber and multiple external device communications It connects, to reduce the optical fiber wiring difficulty and cost of KVM switching equipment.Meanwhile it can be by KVM by channel control submodule Multichannel photo signal channel in switching equipment Zhong Mei road serial communication channels and one or more optical interface submodules is established Communication connection so that KVM switching equipment by serial communication channels all the way i.e. it is controllable connect with optical interface submodule it is multiple External equipment meets KVM switching equipment to the communication requirement of mass external equipment.

The communication module for KVM switching equipment in another embodiment of the utility model is carried out with reference to the accompanying drawing Illustrate, in the present embodiment for communication module described in the communication module of KVM switching equipment and aforementioned communication module embodiments Structure and function is similar, the main distinction be the quantity of optical interface submodule in the present embodiment be it is multiple, it is succinct in order to describe, herein No longer the structure and function of optical interface submodule and channel control submodule in the present embodiment is repeated.

Refering to attached drawing 2, Fig. 2 is illustrated in one embodiment for the main of the communication module of KVM switching equipment Structure.As shown in Fig. 2, for the communication module 12 of KVM switching equipment 11 mainly including 5 optical interface submodules in the present embodiment 121 (optical interface submodule 1- optical interface submodules 5 shown in Fig. 2) and 1 channel control submodule 122, channel control submodule Block 122 mainly includes 20 the first serial communication interface (first serial communication interfaces of the first serial communication interface 1- shown in Fig. 2 20) and 10 the first serial communication interfaces (second serial communication interface 10 of the second serial communication interface 1- shown in Fig. 2), first The message transmission rate of serial communication interface and the first serial communication interface is 6bps and 12bps respectively, in KVM switching equipment KVM switching module 11 mainly includes 10 road serial communication channels, and each optical interface submodule 121 includes that 4 road photosignals are logical Road.

The first serial communication interface 1-4 connects with 4 road photo signal channels of optical interface submodule 1 respectively in the present embodiment It connects, the first serial communication interface 5-8 is connect with 4 road photo signal channels of optical interface submodule 2 respectively, and the first serial communication connects Mouthful 9-12 is connect with 4 road photo signal channels of optical interface submodule 3 respectively, the first serial communication interface 13-16 respectively with light 4 road photo signal channels of interface sub-module 4 connect, the first serial communication interface 17-20 respectively with optical interface submodule 54 The connection of road photo signal channel；Second serial communication interface 1-10 is connect with 10 road serial communication channels respectively.

In a KVM switching equipment embodiment of the utility model, KVM switching equipment may include KVM switching module With the communication module for being used for KVM switching equipment described in aforementioned communication module embodiments.

In a KVM switch embodiment of the utility model, KVM switch may include aforementioned KVM switching The structures such as KVM switching equipment described in apparatus embodiments, multiple far-end optical transceivers, multiple proximal end optical transmitter and receivers and fibre distribution frame. The KVM switch in 3 pairs of the present embodiment is specifically described with reference to the accompanying drawing.

Refering to attached drawing 3, Fig. 3 illustrates the primary structure of KVM switch in the present embodiment.As shown in figure 3, this KVM switch mainly includes KVM switching equipment 21, fibre distribution frame 22,4 tunnel the first length of fibre 23,4 tunnels in embodiment Two far-end optical transceivers 25 of length of fibre 24,4 (KVM-RX optical transmitter and receiver 1 shown in Fig. 3 to KVM-RX optical transmitter and receiver 4), 4 tunnels the 5th are long It spends optical fiber 25 and 4 proximal end optical transmitter and receiver 27 (KVM-TX optical transmitter and receiver 1 shown in Fig. 3 to KVM-TX optical transmitter and receiver 4)；KVM switching equipment 21 be that KVM switching equipment described in aforementioned KVM switching equipment embodiment is (i.e. shown in fig. 1 or fig. 2 by communication module 11 and KVM The KVM switching equipment that switching module 12 is constituted), KVM switching equipment 21 includes two communication module (Fig. 3 institutes in the present embodiment The communication module 1-2 shown), in addition, the optical interface submodule in each communication module further includes MPO (Multi in the present embodiment Push On) optical fiber connector, the road optical interface submodule Zhong Mei photo signal channel connect with the MPO optical fiber connector respectively. One end of every the first length of fibre of road 23 is connect with MPO optical fiber connector respectively in the present embodiment, every the first length of fibre of road 23 other end is connect with a port of fibre distribution frame 22 respectively, one end of every the second length of fibre of road 24 respectively with optical fiber The connection of 22 the first length of fibre of the road Zhong Mei of distributing frame corresponding port, the other end of every the second length of fibre of road 24 respectively with one SFP (the Small Form-factor Pluggable) interface of far-end optical transceiver 25 connects, and the one of every the 5th length of fibre 26 of road End is connect with MPO optical fiber connector respectively, the other end of every the 5th length of fibre 26 of road respectively with proximal end optical transmitter and receiver 27 The connection of SFP interface.

Optionally, the optical interface submodule in the present embodiment is enhanced QSFP optical module (QSFP+ shown in Fig. 3), the The length of two length of fibre is much larger than the length of the first length of fibre, the equal length of the first length of fibre and the 5th length of fibre Or it is close.

Far-end optical transceiver 25 refers to being set to apart from the farther away optical transmitter and receiver of KVM switching equipment 21 in the present embodiment (Optical Transmitter And Receiver), proximal end optical transmitter and receiver 27 refers to being set to apart from KVM switching equipment 21 Closer optical transmitter and receiver.For example, the distance between far-end optical transceiver 25 and KVM switching equipment 21 are more than or equal to preset first distance Threshold value (such as 1km), the distance between proximal end optical transmitter and receiver 27 and KVM switching equipment 21 are less than or equal to preset second distance threshold value (such as 100m).

In another KVM switch embodiment of the utility model, KVM switch may include that above-mentioned KVM is cut KVM switching equipment described in exchange device embodiment, multiple far-end optical transceivers, multiple proximal end optical transmitter and receivers and optical wavelength division multiplexing equipment etc. Structure.The KVM switch in 4 pairs of the present embodiment is specifically described with reference to the accompanying drawing.

Refering to attached drawing 4, Fig. 4 illustrates the primary structure of KVM switch in the present embodiment.As shown in figure 4, this In embodiment KVM switch mainly include KVM switching equipment 31, optical wavelength division multiplexing equipment 32, two-way third length of fibre 33, 4 tunnel, 34,4 far-end optical transceivers 35 of the 4th length of fibre (KVM-RX optical transmitter and receiver 1 shown in Fig. 4 to KVM-RX optical transmitter and receiver 4) and more A proximal end optical transmitter and receiver (Fig. 4 is not shown).KVM switching equipment 31 is KVM switching equipment described in aforementioned KVM switching equipment embodiment (KVM switching equipment i.e. shown in fig. 1 or fig. 2 being made of communication module 11 and KVM switching module 12), and KVM switching equipment 31 include two communication modules (communication module 1-2 shown in Fig. 4), in addition, the light in each communication module in the present embodiment Interface sub-module further includes light wavelength division multiplexing (Fig. 4 is not shown), optical interface submodule Zhong Mei road photo signal channel difference It is connect with the light wavelength division multiplexing.One end of every road third length of fibre 33 connects with light wavelength division multiplexing respectively in the present embodiment It connects, the other end of every road third length of fibre 33 is connect with a port of optical wavelength division multiplexing equipment 32 respectively, and every road the 4th is long Degree optical fiber 34 one end connect respectively with optical wavelength division multiplexing equipment 32, the other end of every the 4th length of fibre 34 of road respectively with one The SFP interface of far-end optical transceiver 35 connects.

Optical wavelength division multiplexing equipment 32 and light wavelength division multiplexing are all based on wavelength-division multiplex technique in the present embodiment The device of (Wavelength Division Multiplexing) building, which can be by the light carrier of a variety of different wave lengths Signal merges together and is coupled in the same root optical fiber of optical link and transmitted, additionally it is possible to by the light carrier of various wavelength point From and revert to original signal.

Light wavelength division multiplexing is configured to by third length of fibre 33 all the way that optical interface submodule is defeated in the present embodiment Light data signal out is transmitted to optical wavelength division multiplexing equipment 32, and receives light wave point again by another way third length of fibre 33 With the light data signal of the output of equipment 32 and the light data signal received is transmitted to optical interface submodule.

Optionally, the optical interface submodule in the present embodiment is enhanced QSFP optical module (QSFP+ shown in Fig. 4), this The length of third length of fibre is much larger than the length of the 4th length of fibre in embodiment.

It is noted that the connection type and KVM of KVM switching equipment 31 and proximal end optical transmitter and receiver switch in the present embodiment Equipment 31 is similar with the connection type of far-end optical transceiver, succinct in order to describe, herein no longer to KVM switching equipment in the present embodiment 31 are repeated with the connection type of proximal end optical transmitter and receiver.Optionally, the optical interface submodule in the present embodiment in KVM switching equipment 31 Block can also include MPO (Multi Push On) optical fiber connector, the connection type of KVM switching equipment 31 and proximal end optical transmitter and receiver, And KVM switching equipment 21 is similar with the connection type of proximal-distal machine 27 in aforementioned KVM switch embodiment, in order to describe Succinctly, no longer KVM switching equipment 31 in the present embodiment and the connection type of proximal end optical transmitter and receiver are repeated herein.

It should be understood that the quantity of the modules in Fig. 1-4 is only schematical.According to actual needs, each module can With arbitrary quantity.

It will be appreciated by those of skill in the art that although some embodiments described herein include other embodiments is wrapped Certain features for including rather than other feature, but the combination of the feature of different embodiments means the model for being in the utility model Within enclosing and form different embodiments.For example, in claims of the utility model, embodiment claimed It is one of any can in any combination mode come using.

The utility model is limited it should be noted that above-described embodiment illustrates rather than the utility model, And those skilled in the art can be designed alternative embodiment without departing from the scope of the appended claims.In right In it is required that, word " comprising " does not exclude the presence of element or step not listed in the claims.The use of word first and second Any sequence is not indicated, these words can be construed to title.

So far, it has been combined preferred embodiment shown in the drawings and describes the technical solution of the utility model, still, this Field technical staff is it is easily understood that the protection scope of the utility model is expressly not limited to these specific embodiments.In Under the premise of the principles of the present invention, those skilled in the art can make equivalent change to the relevant technologies feature Or replacement, the technical solution after these changes or replacement are fallen within the protection scope of the utility model.

Claims (14)

1. a kind of communication module for KVM switching equipment, which is characterized in that the KVM switching module in the KVM switching equipment Including multi-path serial communication channel, the communication module includes:

Optical interface submodule comprising multichannel photo signal channel, the both ends of every road photo signal channel are respectively arranged with light receipts Bill member, the smooth Transmit-Receive Unit are configured to carry out photoelectric conversion to the light data signal that receives and export and to receiving Electric data-signal electro-optic conversion and export；

Channel control submodule comprising multiple first serial communication interfaces and multiple second serial communication interfaces, each first Serial communication interface is connect with every road photo signal channel respectively, each second serial communication interface respectively with every road serial communication Channel connection, the channel control submodule is configured to control each second serial communication interface and one or more first is serial Communication interface communication connection, so that every road serial communication channels and one or more photo signal channel are formed and communicated to connect.

2. the communication module according to claim 1 for KVM switching equipment, which is characterized in that the communication module is also Including back panel connector, the second serial communication interface of each of described channel control submodule passes through the backboard respectively and connects Device is connect with the road KVM switching module Zhong Mei serial communication channels.

3. the communication module according to claim 1 for KVM switching equipment, which is characterized in that channel control Module is further configured to receive the channel control instruction of the KVM switching module output, and controls the channel control instruction The first specified serial communication interface and the second serial communication interface communicate to connect.

4. the communication module according to claim 1 for KVM switching equipment, which is characterized in that the communication module is also Include:

Monitoring submodule is communicated with the channel control submodule, and the monitoring submodule is configured to monitor the channel control The operating status of system module.

5. the communication module according to claim 4 for KVM switching equipment, which is characterized in that the monitoring submodule Including MCU processor.

6. the communication module according to claim 1 for KVM switching equipment, which is characterized in that channel control Module includes FPGA processor.

7. the communication module according to claim 6 for KVM switching equipment, which is characterized in that described first is serial logical The message transmission rate for believing interface and second serial communication interface is 6bps and 12bps respectively.

8. the communication module according to claim 1 for KVM switching equipment, which is characterized in that the optical interface submodule Block is enhanced QSFP optical module, CXP optical module or CFP optical module.

9. the communication module according to claim 2 for KVM switching equipment, which is characterized in that channel control Module is further configured to receive the channel control instruction of the KVM switching module output, and controls the channel control instruction The first specified serial communication interface and the second serial communication interface communicate to connect.

10. the communication module according to claim 2 for KVM switching equipment, which is characterized in that the communication module is also Include:

Monitoring submodule is communicated with the channel control submodule, and the monitoring submodule is configured to monitor the channel control The operating status of system module.

11. a kind of communication module for KVM switching equipment, which is characterized in that the KVM in the KVM switching equipment switches mould Block includes multi-path serial communication channel, and the communication module includes:

Back panel connector；

Optical interface submodule comprising multichannel photo signal channel, the both ends of every road photo signal channel are respectively arranged with light receipts Bill member, the smooth Transmit-Receive Unit are configured to carry out photoelectric conversion to the light data signal that receives and export and to receiving Electric data-signal electro-optic conversion and export；

Channel control submodule comprising multiple first serial communication interfaces and multiple second serial communication interfaces, each first Serial communication interface is connect with every road photo signal channel respectively, and each second serial communication interface passes through the backboard respectively and connects The connection of the road Jie Qiyumei serial communication channels, the channel control submodule are configured to receive the KVM switching module output Channel control instruction, and control the first specified serial communication interface of the channel control instruction and the second serial communication interface leads to Letter connection；

Monitoring submodule is communicated with the channel control submodule, and the monitoring submodule is configured to monitor the channel control The operating status of system module.

12. a kind of KVM switching equipment, it is characterised in that including described in KVM switching module and any one of claims 1 to 11 Communication module for KVM switching equipment.

13. a kind of KVM switch, it is characterised in that including described in claim 12 KVM switching equipment and multiple distal end light Terminal, the optical interface submodule of communication module includes MPO optical fiber connector in the KVM switching equipment, the optical interface submodule The road Kuai Zhongmei photo signal channel is connect with the MPO optical fiber connector respectively；

The KVM switch further includes the first length of fibre of multichannel, the second length of fibre of multichannel and fibre distribution frame, every road One end of one length of fibre is connect with the MPO optical fiber connector respectively, the other end of every the first length of fibre of road respectively with institute State a port connection of fibre distribution frame, one end of every the second length of fibre of road respectively with the road the fibre distribution frame Zhong Mei the The corresponding port connection of one length of fibre, the other end of every the second length of fibre of road are connect with a far-end optical transceiver respectively；

Wherein, the length of second length of fibre is much larger than the length of first length of fibre.

14. a kind of KVM switch, it is characterised in that including described in claim 12 KVM switching equipment and multiple distal end light Terminal, the optical interface submodule of communication module includes light wavelength division multiplexing in the KVM switching equipment, the optical interface submodule The road Zhong Mei photo signal channel is connect with the light wavelength division multiplexing respectively；

The KVM switch further includes two-way third length of fibre, the 4th length of fibre of multichannel and optical wavelength division multiplexing equipment, often One end of road third length of fibre is connect with the light wavelength division multiplexing respectively, the other end of every road third length of fibre respectively with The optical wavelength division multiplexing equipment connection, one end of every the 4th length of fibre of road are connect with the optical wavelength division multiplexing equipment respectively, often The other end of the 4th length of fibre of road is connect with a far-end optical transceiver respectively；

The light wavelength division multiplexing is configured to the light data for exporting the optical interface submodule by third length of fibre all the way Signal is transmitted to the optical wavelength division multiplexing equipment, and receives the optical wavelength division multiplexing equipment by another way third length of fibre The light data signal received is simultaneously transmitted to the optical interface submodule by the light data signal of output；

Wherein, the length of the third length of fibre is much larger than the length of the 4th length of fibre.