CN103516439B - Method of supplying power to and iODF equipment - Google Patents

Abstract

The invention provides a kind of method of supplying power to and iODF equipment, described method of supplying power to comprises: iODF equipment receives the configuration information of jumping fiber, and this configuration information carries the information needing the fiber port carrying out jumping fiber; According to above-mentioned configuration information, this iODF administrative unit is powered; The adapter card at the mark of the fiber port carrying out jumping fiber and this fiber port place that the needs information of above-mentioned fiber port comprised sends to above-mentioned iODF administrative unit, the mark of the fiber port of jumping fiber and the adapter card at this fiber port place is carried out as required for this iODF administrative unit, above-mentioned adapter card is powered, and indicates the position of above-mentioned fiber port.The present invention can be implemented in iODN and powers to iODF equipment, and can realize carrying out time sharing power supply according to the adapter card of configuration information to the fiber port place needing to carry out jumping fiber in iODF administrative unit and iODF administrative unit, and then the power consumption of iODF equipment can be reduced.

Description

Method of supplying power to and iODF equipment

Technical field

The present invention relates to the communication technology, particularly relate to a kind of method of supplying power to and iODF equipment.

Background technology

Along with the development of network technology, fiber to the home has been a kind of trend, and the quantity of Fiber connection constantly increases, and makes fiber distribution network more and more intensive, and then the difficulty constructed, check and accept and safeguard is increased.Current fiber distribution network (OpticalDistributionNetwork; Hereinafter referred to as: ODN) route of equipment relies on manual operation completely with being connected, and there is fiber port connection error and the problem of searching fiber port difficulty.

In prior art, ODN equipment is passive network, is carried out the information of management of optical fibers port by paper label, and network management system cannot manage the information of fiber port, thus cannot realize the intelligent management of optical fiber.

Intelligent optical fiber distribution network (intelligentODN; Hereinafter referred to as: the iODN) information of equipment energy intelligent management fiber port, can realize the intelligent management of fibre distribution frame by backstage.Because iODN equipment is active equipment, therefore need to power to iODN equipment, but prior art does not provide the mode of powering to iODN equipment.

Summary of the invention

The invention provides a kind of method of supplying power to and iODF equipment, to realize powering to iODF equipment in iODN.

First aspect present invention provides a kind of method of supplying power to, comprising:

Intelligent optical fiber distribution frame iODF equipment receives the configuration information of jumping fiber, described configuration information carries the information needing the fiber port carrying out jumping fiber, and the information of described fiber port comprises and describedly needs the mark of the fiber port carrying out jumping fiber, the adapter card at described fiber port place and the iODF administrative unit belonging to described adapter card;

Described iODF equipment is powered to described iODF administrative unit according to described configuration information;

The described adapter card at the mark of the fiber port carrying out jumping fiber and described fiber port place that needs that the information of described fiber port comprises by described iODF equipment sends to described iODF administrative unit, for described iODF administrative unit according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, described adapter card is powered, and indicates the position of described fiber port.

In the first possible implementation of a first aspect of the present invention, the position of the described fiber port of described instruction comprises:

Described iODF administrative unit opens the indicator light of described fiber port, to indicate the position of described fiber port.

In conjunction with the first possible implementation of first aspect, in the implementation that the second of first aspect is possible, described method also comprises: described iODF equipment receives the mark of the fiber port that described iODF administrative unit sends, the mark of the fiber port that described iODF administrative unit sends is the position of the described fiber port according to described iODF administrative unit instruction, after described fiber port is inserted at the two ends of jumping fiber respectively, described iODF administrative unit reads;

If the mark of the fiber port that described iODF administrative unit sends is consistent with the described mark of the fiber port carrying out jumping fiber that needs that described configuration information carries, then described iODF equipment determination jumping fiber successful operation, and indicate described iODF administrative unit to close the indicator light of described fiber port.

A second aspect of the present invention provides a kind of intelligent optical fiber distribution frame iODF equipment, comprising: cluster management unit and at least one iODF administrative unit; Described cluster management unit comprises the first receiver module, the first supply module and sending module;

Described first receiver module, for receiving the configuration information of jumping fiber, described configuration information carries the information needing the fiber port carrying out jumping fiber, and the information of described fiber port comprises and describedly needs the mark of the fiber port carrying out jumping fiber, the adapter card at described fiber port place and the iODF administrative unit belonging to described adapter card; And described configuration information is passed to described first supply module and described sending module respectively;

Described first supply module, for receiving described configuration information from described first receiver module, powers to described iODF administrative unit according to described configuration information;

Described sending module, for receiving described configuration information from described first receiver module, the described adapter card at the mark of the fiber port carrying out jumping fiber and described fiber port place that the needs information of described fiber port comprised sends to described iODF administrative unit;

Described iODF administrative unit, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described sending module, according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, described adapter card is powered, and indicates the position of described fiber port.

In the first possible implementation of a second aspect of the present invention, described iODF administrative unit comprises: master control borad and at least one adapter card; Described master control borad comprises: the second receiver module, the second supply module and indicating module;

Described second receiver module, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described sending module; And the described adapter card at the mark of the fiber port carrying out jumping fiber and described fiber port place that needs is passed to described second supply module and described indicating module respectively;

Described second supply module, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described second receiver module, according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, described adapter card is powered;

Described indicating module, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described second receiver module, according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, indicate the position of described fiber port.

In conjunction with the first possible implementation of second aspect, in the implementation that the second of second aspect is possible, described indicating module, specifically for according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, open the indicator light of described fiber port, to indicate the position of described fiber port.

In conjunction with the implementation that the second of second aspect is possible, in the third possible implementation of second aspect, described master control borad also comprises: identification process module; Described cluster management unit also comprises: data processing module;

Described identification process module, for the position at the described fiber port indicated according to described indicating module, after described fiber port is inserted at the two ends of jumping fiber respectively, read the mark of described fiber port, and the mark of the described fiber port read is sent to described data processing module;

Described data processing module, for receiving the mark of described fiber port from described identification process module, if consistent with the described mark of the fiber port carrying out jumping fiber that needs that described configuration information carries from the mark of the described fiber port of described identification process module reception, then determine jumping fiber successful operation;

Described sending module, also for after described data processing module determination jumping fiber successful operation, sends indication information to described indicating module;

Described indicating module, also for receiving described indication information from described sending module, closes the indicator light of described fiber port according to described indication information.

Technique effect of the present invention is: iODF equipment receives the configuration information of jumping fiber, power to needing the iODF administrative unit of carrying out belonging to the fiber port of jumping fiber according to above-mentioned configuration information, and the above-mentioned adapter card at the mark of the fiber port carrying out jumping fiber and this fiber port place that needs is sent to above-mentioned iODF administrative unit, the mark of the fiber port of jumping fiber and the adapter card at this fiber port place is carried out as required for above-mentioned iODF administrative unit, above-mentioned adapter card is powered, and indicates the position of above-mentioned fiber port.Thus can be implemented in iODN iODF equipment is powered, and can realize carrying out time sharing power supply according to the adapter card of configuration information to the fiber port place needing to carry out jumping fiber in iODF administrative unit and iODF administrative unit, and then the power consumption of iODF equipment can be reduced.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the flow chart of a method of supplying power to of the present invention embodiment;

Fig. 2 is the structural representation of an iODF equipment of the present invention embodiment;

Fig. 3 is the structural representation of another embodiment of iODF equipment of the present invention;

Fig. 4 is the schematic diagram of a connected mode embodiment of cluster management unit of the present invention and iODF administrative unit;

Fig. 5 is the schematic diagram of another embodiment of connected mode of cluster management unit of the present invention and iODF administrative unit;

Fig. 6 is the schematic diagram of a connected mode embodiment of master control borad of the present invention and adapter card;

Fig. 7 is the schematic diagram of another embodiment of connected mode of master control borad of the present invention and adapter card.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

Fig. 1 is the flow chart of a method of supplying power to of the present invention embodiment, and as shown in Figure 1, this method of supplying power to can comprise:

Step 101, intelligent optical fiber distribution frame (intelligentOpticalDistributionFrame; Hereinafter referred to as: iODF) equipment receives the configuration information of jumping fiber, this configuration information carries the information needing the fiber port carrying out jumping fiber, and the information of above-mentioned fiber port comprises the mark, the adapter card at this fiber port place and the iODF administrative unit belonging to this adapter card that need the fiber port carrying out jumping fiber.

Step 102, iODF equipment is powered to above-mentioned iODF administrative unit according to above-mentioned configuration information.

Step 103, what the information of above-mentioned fiber port comprised by iODF equipment needs the adapter card at the mark of the fiber port carrying out jumping fiber and this fiber port place to send to above-mentioned iODF administrative unit, the mark of the fiber port carrying out jumping fiber and the adapter card at this fiber port place is needed according to above-mentioned for this iODF administrative unit, adapter card is powered, and indicates the position of above-mentioned fiber port.

Particularly, the position of above-mentioned fiber port is indicated to be: iODF administrative unit opens the indicator light of above-mentioned fiber port, to indicate the position of above-mentioned fiber port.

Further, after step 103, iODF equipment can also receive the mark of the fiber port that iODF administrative unit sends, the mark of the fiber port that above-mentioned iODF administrative unit sends is the position of the fiber port according to the instruction of iODF administrative unit, after above-mentioned fiber port is inserted at the two ends of jumping fiber respectively, iODF administrative unit reads;

If what the mark of the fiber port that above-mentioned iODF administrative unit sends was carried with above-mentioned configuration information needs the mark of the fiber port carrying out jumping fiber consistent, then iODF equipment determination jumping fiber successful operation, and indicate above-mentioned iODF administrative unit to close the indicator light of above-mentioned fiber port.

In above-described embodiment, iODF equipment receives the configuration information of jumping fiber, power to needing the iODF administrative unit of carrying out belonging to the fiber port of jumping fiber according to above-mentioned configuration information, and the above-mentioned adapter card at the mark of the fiber port carrying out jumping fiber and this fiber port place that needs is sent to above-mentioned iODF administrative unit, the mark of the fiber port of jumping fiber and the adapter card at this fiber port place is carried out as required for above-mentioned iODF administrative unit, above-mentioned adapter card is powered, and indicates the position of above-mentioned fiber port.Thus can be implemented in iODN iODF equipment is powered, and can realize carrying out time sharing power supply according to the adapter card of configuration information to the fiber port place needing to carry out jumping fiber in iODF administrative unit and iODF administrative unit, thus the power consumption of iODF equipment can be reduced, reduce the complexity of Power Management Design, and the problem of iODF equipment power dissipation heat radiation can be solved.

One of ordinary skill in the art will appreciate that: all or part of step realizing above-mentioned each embodiment of the method can have been come by the hardware that program command is relevant.Aforesaid program can be stored in a computer read/write memory medium.This program, when performing, performs the step comprising above-mentioned each embodiment of the method; And aforesaid storage medium comprises: ROM, RAM, magnetic disc or CD etc. various can be program code stored medium.

Fig. 2 is the structural representation of an iODF equipment of the present invention embodiment, iODF equipment in the present embodiment can realize the present invention's flow process embodiment illustrated in fig. 1, as shown in Figure 2, this iODF equipment can comprise: cluster management unit 21 and at least one iODF administrative unit 22; Wherein, cluster management unit 21 comprises the first receiver module 211, first supply module 212 and sending module 213;

First receiver module 211, for receiving the configuration information of jumping fiber, above-mentioned configuration information carries the information needing the fiber port carrying out jumping fiber, and the information of above-mentioned fiber port comprises and above-mentionedly needs the mark of the fiber port carrying out jumping fiber, the adapter card at above-mentioned fiber port place and the iODF administrative unit 22 belonging to this adapter card; And above-mentioned configuration information is passed to the first supply module 212 and sending module 213 respectively;

First supply module 212, for receiving above-mentioned configuration information from the first receiver module 211, powers to iODF administrative unit 22 according to above-mentioned configuration information;

Sending module 213, for receiving above-mentioned configuration information from the first receiver module 211, the adapter card at the mark of the fiber port carrying out jumping fiber and this fiber port place that the needs information of above-mentioned fiber port comprised sends to iODF administrative unit 22;

IODF administrative unit 22, above-mentionedly the mark of the fiber port carrying out jumping fiber and the adapter card at this fiber port place is needed for receiving from sending module 213, according to the above-mentioned adapter card needing the mark of the fiber port carrying out jumping fiber and above-mentioned fiber port place, above-mentioned adapter card is powered, and indicates the position of above-mentioned fiber port.

In above-described embodiment, first receiver module 211 receives the configuration information of jumping fiber, first supply module 212 is powered to needing the iODF administrative unit 22 of carrying out belonging to the fiber port of jumping fiber according to above-mentioned configuration information, and by sending module 213, the above-mentioned adapter card at the mark of the fiber port carrying out jumping fiber and this fiber port place that needs is sent to above-mentioned iODF administrative unit 22, the mark of the fiber port of jumping fiber and the adapter card at this fiber port place is carried out as required for above-mentioned iODF administrative unit 22, above-mentioned adapter card is powered, and indicate the position of above-mentioned fiber port.Thus can be implemented in iODN iODF equipment is powered, and can realize carrying out time sharing power supply according to the adapter card of configuration information to the fiber port place needing to carry out jumping fiber in iODF administrative unit and iODF administrative unit, thus the power consumption of iODF equipment can be reduced, reduce the complexity of Power Management Design, and the problem of iODF equipment power dissipation heat radiation can be solved.

Fig. 3 is the structural representation of another embodiment of iODF equipment of the present invention, compared with the iODF equipment shown in Fig. 2, difference is, in the iODF equipment shown in Fig. 3, above-mentioned iODF administrative unit 22 can comprise: master control borad 221 and at least one adapter card 222; Wherein, master control borad 221 can comprise: the second receiver module 2211, second supply module 2212 and indicating module 2213;

Second receiver module 2211, above-mentionedly needs the mark of the fiber port carrying out jumping fiber and the adapter card 222 at this fiber port place for receiving from sending module 213; And the above-mentioned adapter card 222 at the mark of the fiber port carrying out jumping fiber and this fiber port place that needs is passed to the second supply module 2212 and indicating module 2213 respectively;

Second supply module 2212, above-mentionedly the mark of the fiber port carrying out jumping fiber and the adapter card 222 at this fiber port place is needed for receiving from the second receiver module 2211, according to the above-mentioned adapter card 222 needing the mark of the fiber port carrying out jumping fiber and above-mentioned fiber port place, above-mentioned adapter card 222 is powered;

Indicating module 2213, above-mentionedly the mark of the fiber port carrying out jumping fiber and the adapter card 222 at this fiber port place is needed for receiving from the second receiver module 2211, according to the above-mentioned adapter card 222 needing the mark of the fiber port carrying out jumping fiber and above-mentioned fiber port place, indicate the position of above-mentioned fiber port.

Particularly, indicating module 2213 can need the mark of the fiber port carrying out jumping fiber and the adapter card 222 at this fiber port place according to above-mentioned, opens the indicator light of above-mentioned fiber port, to indicate the position of above-mentioned fiber port.

Further, above-mentioned master control borad 221 can also comprise: identification process module 2214; Above-mentioned cluster management unit 21 can also comprise: data processing module 214;

Identification process module 2214, for the position at the fiber port indicated according to indicating module 2213, after above-mentioned fiber port is inserted at the two ends of jumping fiber respectively, read the mark of above-mentioned fiber port, and the mark of the above-mentioned fiber port read is sent to data processing module 214;

Data processing module 214, for receiving the mark of above-mentioned fiber port from identification process module 2214, if consistent with the mark of the fiber port that above-mentioned configuration information carries from the mark of the above-mentioned fiber port of identification process module 2214 reception, then determine jumping fiber successful operation;

Sending module 213, also for after determining jumping fiber successful operation at data processing module 214, sends indication information to indicating module 2213;

Indicating module 2213, also for receiving above-mentioned indication information from sending module 213, closes the indicator light of above-mentioned fiber port according to above-mentioned indication information.

In the present embodiment, adapter card 222 is the equipment that multiple adapter combines formation, adapter card 222 comprises at least one fiber port, not shown in Fig. 3.

Above-mentioned iODF equipment can be implemented in iODN powers to iODF equipment, and can realize carrying out time sharing power supply according to the adapter card of configuration information to the fiber port place needing to carry out jumping fiber in iODF administrative unit and iODF administrative unit, thus the power consumption of iODF equipment can be reduced, reduce the complexity of Power Management Design, and the problem of iODF equipment power dissipation heat radiation can be solved.

Below by instantiation, the power supply process in the present invention's iODF equipment provided embodiment illustrated in fig. 3 is described.

Suppose that, in the iODF equipment shown in Fig. 3, at least one iODF administrative unit is numbered 1,2..., N respectively, at least one adapter card in each iODF administrative unit is numbered 1,2..., N respectively, at least one fiber port on each adapter card is numbered 1,2..., N respectively.Suppose the jumping fiber of No. 2 fiber ports of No. 2 fiber ports of No. 1 adapter card needing to realize No. 1 iODF administrative unit and No. 1 adapter card of No. 2 iODF administrative units, the information needing the fiber port carrying out jumping fiber is carried in the configuration information of the jumping fiber that the first receiver module 211 in cluster management unit 21 receives, in this example, the information of the fiber port carrying out jumping fiber is needed to be: No. 2 fiber ports of No. 2 fiber ports of No. 1 adapter card of No. 1 iODF administrative unit and No. 1 adapter card of No. 2 iODF administrative units.Wherein, the configuration information of above-mentioned jumping fiber can be that network management system is issued by wired or wireless mode.

Then, the configuration information of the above-mentioned jumping fiber that the first supply module 212 receives according to the first receiver module 211, powers to No. 1 iODF administrative unit and No. 2 iODF administrative units.After No. 1 iODF administrative unit and No. 2 iODF administrative units power on, the adapter card (No. 1 adapter card) of the fiber port (No. 2 fiber ports) and this fiber port place that need in No. 1 iODF administrative unit to carry out jumping fiber is sent to No. 1 iODF administrative unit by the sending module 213 in cluster management unit 21, and the adapter card (No. 1 adapter card) of the fiber port (No. 2 fiber ports) and this fiber port place that need in No. 2 iODF administrative units to carry out jumping fiber is sent to No. 2 iODF administrative units.

After the second receiver module 2211 in the master control borad 221 of No. 1 iODF administrative unit 22 receives the adapter card (No. 1 adapter card) at fiber port (No. 2 fiber ports) and this fiber port place needing to carry out jumping fiber in No. 1 iODF administrative unit, pass to the second supply module 2212 and indicating module 2213 by needing the information of carrying out the fiber port (No. 2 fiber ports) of jumping fiber and the adapter card (No. 1 adapter card) at this fiber port place; Next, the second supply module 2212 carries out the fiber port (No. 2 fiber ports) of jumping fiber and the adapter card (No. 1 adapter card) at this fiber port place as required, powers to No. 1 adapter card 222; Indicating module 2213 carries out the fiber port (No. 2 fiber ports) of jumping fiber and the adapter card (No. 1 adapter card) at this fiber port place as required, open the indicator light of No. 2 fiber ports on No. 1 adapter card 222, indicate the position of No. 2 fiber ports on No. 1 adapter card 222, to instruct the construction of jumping fiber.

Equally, after the second receiver module 2211 in the master control borad 221 of No. 1 iODF administrative unit 22 receives the adapter card (No. 1 adapter card) at fiber port (No. 2 fiber ports) and this fiber port place needing to carry out jumping fiber in No. 2 iODF administrative units, pass to the second supply module 2212 and indicating module 2213 by needing the information of carrying out the fiber port (No. 2 fiber ports) of jumping fiber and the adapter card (No. 1 adapter card) at this fiber port place; Next, the second supply module 2212 carries out the fiber port (No. 2 fiber ports) of jumping fiber and the adapter card (No. 1 adapter card) at this fiber port place as required, powers to No. 1 adapter card 222; Indicating module 2213 carries out the fiber port (No. 2 fiber ports) of jumping fiber and the adapter card (No. 1 adapter card) at this fiber port place as required, open the indicator light of No. 2 fiber ports on No. 1 adapter card 222, indicate the position of No. 2 fiber ports on No. 1 adapter card 222, to instruct the construction of jumping fiber.

After the two ends of jumping fiber are inserted into No. 2 fiber ports of No. 2 fiber ports of No. 1 adapter card of No. 1 iODF administrative unit and No. 1 adapter card of No. 2 iODF administrative units respectively, identification process module 2214 in No. 1 iODF administrative unit and No. 2 iODF administrative units master control borad 221 separately reads the mark of the fiber port of adapter card, and the mark of the fiber port of reading is sent to the data processing module 214 of cluster management unit 21.

If consistent with the mark of the fiber port that the above-mentioned configuration information that the first receiver module 211 receives carries from the mark of the above-mentioned fiber port of identification process module 2214 reception, then data processing module 214 determines jumping fiber successful operation.After data processing module 214 determines jumping fiber successful operation, sending module 213 sends indication information to indicating module 2213, after receiving above-mentioned indication information, indicating module 2213 closes the indicator light of above-mentioned fiber port according to above-mentioned indication information, represents that jumping fiber construction is correct.

The present invention is by the mode of time sharing power supply, and according to configuration information, relevant device power is given in timesharing, thus can reduce the power consumption of whole iODF equipment, and then can solve the problem of iODF equipment power dissipation heat radiation.

Below in Fig. 2 of the present invention and the iODF equipment provided embodiment illustrated in fig. 3, cluster management unit 21 is introduced with the connected mode of at least one iODF administrative unit 22.

In a kind of implementation of the present invention, cluster management unit 21 can be connected by same management bus with at least one iODF administrative unit 22, the power supply of at least one iODF administrative unit 22 is not connected mutually, as shown in Figure 4, Fig. 4 is the schematic diagram of a connected mode embodiment of cluster management unit of the present invention and iODF administrative unit, in Fig. 4, cluster management unit 21 carries out centralized control by management bus to the power supply of at least one iODF administrative unit 22, according to the configuration information received, power to relevant iODF administrative unit 22, and at least one iODF administrative unit 22 is independently-powered by cluster management unit 21, that is, the power supply of at least one iODF administrative unit 22 is not connected mutually, separately independently, like this, when having iODF administrative unit to break down at least one iODF administrative unit 22, the work of the iODF administrative unit that other do not break down can not be affected.

In another kind of implementation of the present invention, at least one iODF administrative unit 22 can be connected with cluster management unit 21 by respective management bus, the power supply of at least one iODF administrative unit 22 links together, as shown in Figure 5, Fig. 5 is the schematic diagram of another embodiment of connected mode of cluster management unit of the present invention and iODF administrative unit.In Fig. 5, cluster management unit 21 carries out decentralized control by each self-corresponding management bus of at least one iODF administrative unit 22 to the power supply of at least one iODF administrative unit 22, according to the configuration information received, power to relevant iODF administrative unit 22.In addition, in Fig. 5, the power supply of at least one iODF administrative unit 22 links together, and that is, cluster management unit 21 powers at least one iODF administrative unit 22 by unified power supply.

Below in the present invention's iODF equipment provided embodiment illustrated in fig. 3, the connected mode of master control borad 221 and at least one adapter card 222 is introduced.

In a kind of implementation of the present invention, master control borad 221 can be connected by same management bus with at least one adapter card 222, the power supply of at least one adapter card 222 is not connected mutually, as shown in Figure 6, Fig. 6 is the schematic diagram of a connected mode embodiment of master control borad of the present invention and adapter card; In Fig. 6, master control borad 221 carries out centralized control by management bus to the power supply of at least one adapter card 222, according to the configuration information received, power to relevant adapter card 222, and at least one adapter card 222 is independently-powered by master control borad 221, that is, the power supply of at least one master control borad 221 is not connected mutually, separately independently, like this, when having adapter card to break down at least one adapter card 222, the work of other adapter card do not broken down can not be affected.

In another kind of implementation of the present invention, at least one adapter card 222 can be connected with master control borad 221 by respective management bus, the power supply of at least one adapter card 222 links together, as shown in Figure 7, Fig. 7 is the schematic diagram of another embodiment of connected mode of master control borad of the present invention and adapter card.In Fig. 7, master control borad 221 carries out decentralized control by each self-corresponding management bus of at least one adapter card 222 to the power supply of at least one adapter card 222, according to the configuration information received, powers to relevant adapter card 222.In addition, in Fig. 7, the power supply of at least one adapter card 222 links together, and that is, master control borad 221 powers at least one adapter card 222 by unified power supply.

It will be appreciated by those skilled in the art that accompanying drawing is the schematic diagram of a preferred embodiment, the module in accompanying drawing or flow process might not be that enforcement the present invention is necessary.

It will be appreciated by those skilled in the art that the module in the device in embodiment can carry out being distributed in the device of embodiment according to embodiment description, also can carry out respective change and be arranged in the one or more devices being different from the present embodiment.The module of above-described embodiment can merge into a module, also can split into multiple submodule further.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

Claims (6)

1. a method of supplying power to, is characterized in that, comprising:

Intelligent optical fiber distribution frame iODF equipment receives the configuration information of jumping fiber, described configuration information carries the information needing the fiber port carrying out jumping fiber, and the information of described fiber port comprises and describedly needs the mark of the fiber port carrying out jumping fiber, the adapter card at described fiber port place and the iODF administrative unit belonging to described adapter card;

Described iODF equipment is powered to described iODF administrative unit according to described configuration information;

The described adapter card at the mark of the fiber port carrying out jumping fiber and described fiber port place that needs that the information of described fiber port comprises by described iODF equipment sends to described iODF administrative unit, for described iODF administrative unit according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, described adapter card is powered, and indicates the position of described fiber port;

The position of the described fiber port of described instruction comprises:

Described iODF administrative unit opens the indicator light of described fiber port, to indicate the position of described fiber port.

2. method according to claim 1, is characterized in that, also comprises:

Described iODF equipment receives the mark of the fiber port that described iODF administrative unit sends, the mark of the fiber port that described iODF administrative unit sends is the position of the described fiber port according to described iODF administrative unit instruction, after described fiber port is inserted at the two ends of jumping fiber respectively, described iODF administrative unit reads;

If the mark of the fiber port that described iODF administrative unit sends is consistent with the described mark of the fiber port carrying out jumping fiber that needs that described configuration information carries, then described iODF equipment determination jumping fiber successful operation, and indicate described iODF administrative unit to close the indicator light of described fiber port.

3. an intelligent optical fiber distribution frame iODF equipment, is characterized in that, comprising: cluster management unit and at least one iODF administrative unit; Described cluster management unit comprises the first receiver module, the first supply module and sending module;

Described first receiver module, for receiving the configuration information of jumping fiber, described configuration information carries the information needing the fiber port carrying out jumping fiber, and the information of described fiber port comprises and describedly needs the mark of the fiber port carrying out jumping fiber, the adapter card at described fiber port place and the iODF administrative unit belonging to described adapter card; And described configuration information is passed to described first supply module and described sending module respectively;

Described first supply module, for receiving described configuration information from described first receiver module, powers to described iODF administrative unit according to described configuration information;

Described sending module, for receiving described configuration information from described first receiver module, the described adapter card at the mark of the fiber port carrying out jumping fiber and described fiber port place that the needs information of described fiber port comprised sends to described iODF administrative unit;

Described iODF administrative unit, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described sending module, according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, described adapter card is powered, and indicates the position of described fiber port;

Described iODF administrative unit comprises: master control borad and at least one adapter card; Described master control borad comprises: the second receiver module, the second supply module and indicating module;

Described second receiver module, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described sending module; And the described adapter card at the mark of the fiber port carrying out jumping fiber and described fiber port place that needs is passed to described second supply module and described indicating module respectively;

Described second supply module, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described second receiver module, according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, described adapter card is powered;

Described indicating module, for receiving the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place from described second receiver module, according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, indicate the position of described fiber port;

Described indicating module, specifically for according to the described adapter card needing the mark of the fiber port carrying out jumping fiber and described fiber port place, opens the indicator light of described fiber port, to indicate the position of described fiber port.

4. equipment according to claim 3, is characterized in that, described master control borad also comprises: identification process module; Described cluster management unit also comprises: data processing module;

Described identification process module, for the position at the described fiber port indicated according to described indicating module, after described fiber port is inserted at the two ends of jumping fiber respectively, read the mark of described fiber port, and the mark of the described fiber port read is sent to described data processing module;

Described data processing module, for receiving the mark of described fiber port from described identification process module, if consistent with the described mark of the fiber port carrying out jumping fiber that needs that described configuration information carries from the mark of the described fiber port of described identification process module reception, then determine jumping fiber successful operation;

Described sending module, also for after described data processing module determination jumping fiber successful operation, sends indication information to described indicating module;

Described indicating module, also for receiving described indication information from described sending module, closes the indicator light of described fiber port according to described indication information.

5. the equipment according to claim 3 or 4, is characterized in that, described cluster management unit is connected by same management bus with at least one iODF administrative unit described, and the power supply of at least one iODF administrative unit described is not connected mutually; Or,

At least one iODF administrative unit described is connected with described cluster management unit by respective management bus; The power supply of at least one iODF administrative unit described links together.

6. the equipment according to claim 3 or 4, is characterized in that,

Described master control borad is connected by same management bus with at least one adapter card described, and the power supply of at least one adapter card described is not connected mutually; Or,

At least one adapter card described is connected with described master control borad by respective management bus; The power supply of at least one adapter card described links together.