CN101753319A

CN101753319A - Network equipment

Info

Publication number: CN101753319A
Application number: CN200810187205A
Authority: CN
Inventors: 曾国宏; 刘文宾; 蔡益昌
Original assignee: Wistron Neweb Corp
Current assignee: Wistron Neweb Corp
Priority date: 2008-12-18
Filing date: 2008-12-18
Publication date: 2010-06-23
Anticipated expiration: 2028-12-18
Also published as: CN101753319B

Abstract

The invention relates to network equipment which is applied to an Ethernet power supply system, and can be connected with a plurality of network cables; the network cables can respectively transmit a network signal and DC power carried on the network signal; the network equipment comprises a plurality of Ethernet connecting ports, a transformation module, a signal processing circuit and a power supply module, wherein the Ethernet connecting ports are connected with the network cables and respectively receive the network signals and DC power therein. The transformation module is coupled with the Ethernet connecting ports, separates the network signals received by the Ethernet connecting ports from the DC power, and outputs the signals to the signal processing circuit and the power supply module. The signal processing circuit receives the network signals and processes the signals, and the power supply module receives the DC power and accumulates the DC power to be used by the network equipment. The network equipment has the advantage of providing stable output voltage with quite high output power.

Description

The network equipment

Technical field

The present invention relates to a kind of network equipment, particularly relate to a kind of network equipment of Ethernet.

Background technology

Power over Ethernet (Power Over Ethernet, POE) be meant under existing Ethernet wiring infrastructure, follow the IEEE802.3af international standard, at transmission of data signals in terminal equipment (for example wireless network router, web camera or the networking telephone etc.), kind equipment provides the technology of direct current supply for this reason, thus, as long as terminal equipment connects just energy operate as normal of grid line, and need not be more in addition plug or battery provide terminal equipment required power supply, very convenient.

According to the IEEE802.3af international standard, a complete Power over Ethernet system comprises feeder ear equipment (PowerSourcing Equipment, PSE) and receiving end equipment (Powered Device, PD), consult Fig. 1, Fig. 2 and Fig. 3, the mode of its power supply is divided into two kinds, a kind of is terminal cross-over connection method (End-Span, as shown in Figures 1 and 2), the transmission direct current is to receiving end equipment 92 in the transmission data, 92 ', another kind then is that (Mid-Span as shown in Figure 3), transmits direct current by mid-span feeder ear equipment (Midspan PSE) 94 to the mid-span method.

The Power over Ethernet system also has two kinds by the principle of cable power supply, a kind of is first and second pin and the 3rd, six pins power supplies (as shown in Figure 1) by feeder ear equipment 91, another kind then is fourth, fifth pin and the 7th, the eight pins power supplies (as shown in Figure 2) by feeder ear equipment 91 ', what pay special attention to is, Arabic numerals among Fig. 1 and Fig. 2 (1,2...8) are the pins of standard five classes (Catalog 5) grid line.Consult Fig. 1, when by first and second pin and the 3rd, the power supply of six pins, power supply generator 93 is added in the mid point of transformer 95, does not influence transfer of data, and first and second pin and the 3rd, six pins can be any polarity.Consult Fig. 2, when by fourth, fifth pin and the 7th, the power supply of eight pins, fourth, fifth pin is connected to the positive pole of power supply generator 93 ', and the 7th, eight pins then are connected to the negative pole of power supply generator 93 '.

In addition, standard according to IEEE802.3af, it is 15.4 watts that feeder ear equipment can provide the maximum power of receiving end equipment, that is to say, the required power of receiving end equipment must be lower than 15.4 watts, if be higher than 15.4 watts of then standard power supplies by this, but so restriction will more and more can't be satisfied the demand of receiving end equipment now.What deserves to be mentioned is that a kind of power supply change-over device that is used for a receiving end equipment of an Ethernet electric power system of No. 095135781 patent disclosure of TaiWan, China is the application's reference frame.

Summary of the invention

Therefore, purpose of the present invention promptly is to provide a kind of network equipment that can improve power output.

So, the network equipment of the present invention is applied to the Power over Ethernet system, can connect many grid lines, these grid lines can transmit a network signal and respectively and be stated from direct current power on this network signal, this network equipment comprises a plurality of Ethernets connectivity port, one transformation module, one signal processing circuit and a supply module, wherein, Ethernet of the present invention connectivity port can be the one first Ethernet terminal and the second Ethernet terminal, connect two grid lines and reception network signal and direct current power wherein respectively, and having one first to the 4th pair of pin respectively, direct current power is at least by first pair of pin and the second pair of pin one of them or the 3rd pair of pin and the 4th pair of one of them reception of pin and output.

The transformation module is coupled to the first Ethernet terminal and the second Ethernet terminal, in order to the network signal that it received is separated back output with direct current power, wherein comprises one first transforming circuit and one second transforming circuit.Signal processing circuit then is coupled to the transformation module, is responsible for receiving the network signal that transforming circuit separated and carrying out signal processing, wherein comprises one first ethernet physical layer unit and one second ethernet physical layer unit.

First transforming circuit is coupled between the first Ethernet terminal and the first ethernet physical layer unit and is exported by the one centre cap to first pair of pin of major general and the second pair of pin one of them or the 3rd pair of pin and the 4th pair of one of them voltage of being exported of pin.And second transforming circuit is coupled between the second Ethernet terminal and the second ethernet physical layer unit and to first pair of pin of major general and the second pair of pin one of them or the 3rd pair of pin and the 4th pair of one of them voltage of being exported of pin by the output of one centre cap, and the centre cap of first and second transforming circuit mutually also (string) join.

Preferably, first transforming circuit (second transforming circuit) comprises one first transformer, second transformer, the 3rd transformer and the 4th transformer, its respectively cross-over connection between first pair of pin of the first Ethernet terminal (the second Ethernet terminal), the second pair of pin, the 3rd pair of pin and the 4th pair of pin and the first ethernet physical layer unit (the second ethernet physical layer unit).

In addition, the center tap of first transformer of first transforming circuit (second transforming circuit) is exported the output voltage of first pair of pin of the first Ethernet terminal (the second Ethernet terminal), and the center tap of second transformer of first transforming circuit (second transforming circuit) is exported the output voltage of second pair of pin of this first Ethernet terminal (the second Ethernet terminal), and first pair of pin and second pair of pin have only one of them output voltage at one time; In the same manner, the center tap of the 3rd transformer of first transforming circuit (second transforming circuit) is exported the output voltage of the 3rd pair of pin of the first Ethernet terminal (the second Ethernet terminal), and the center tap of the 4th transformer of first transforming circuit (second transforming circuit) is exported the output voltage of the 4th pair of pin of this first Ethernet terminal (the second Ethernet terminal), and the 3rd pair of pin and the 4th pair of pin have only one of them output voltage at one time.

Supply module is coupled to the transformation module, and comprise four DC-DC converters, first transformer of first transforming circuit and the center tap of second transformer couple a DC-DC converter, the 3rd transformer of first transforming circuit and the center tap of the 4th transformer couple a DC-DC converter, first transformer of second transforming circuit and the center tap of second transformer couple a DC-DC converter, the 3rd transformer of this second transforming circuit and the center tap of the 4th transformer couple a DC-DC converter, and the output of these DC-DC converters mutually also (string) connection.

First pair of pin of the first Ethernet terminal and the second Ethernet terminal is respectively its first pin and second pin, second pair of pin of the first Ethernet terminal and the second Ethernet terminal is respectively its 3rd pin and the 6th pin, the 3rd pair of pin of the first Ethernet terminal and the second Ethernet terminal is respectively its 4th pin and the 5th pin, and the 4th pair of pin of the first Ethernet terminal and the second Ethernet terminal is respectively its 7th pin and the 8th pin.Effect of the present invention is, provides to have higher output power and stable output voltage.

Description of drawings

Fig. 1 is a circuit diagram, illustrates that known Power over Ethernet device is by first and second pin and the 3rd, the power supply of six pins;

Fig. 2 is a circuit diagram, illustrates that known Power over Ethernet device is by fourth, fifth pin and the 7th, the power supply of eight pins;

Fig. 3 one circuit diagram illustrates the supply power mode of known Power over Ethernet device mid-span;

Fig. 4 is a circuit block diagram, and first preferred embodiment of the network equipment of the present invention is described;

Fig. 5 is a circuit diagram, and the internal circuit of the present invention's first preferred embodiment is described;

Fig. 6 is a circuit diagram, and the internal circuit of the present invention's second preferred embodiment is described;

Fig. 7 is a circuit diagram, and the internal circuit of the present invention's the 3rd preferred embodiment is described; And

Fig. 8 is a circuit diagram, and the internal circuit of the present invention's the 4th preferred embodiment is described.

The primary clustering symbol description:

10 ... the network equipment 264 ... the 4th transformer

1 ... Ethernet connectivity port 3 ... signal processing circuit

11 ... the first Ethernet terminal 31 ... the first ethernet physical layer unit

12 ... the second Ethernet terminal 32 ... the second ethernet physical layer unit

2 ... transformation module 4 ... supply module

25 ... first transforming circuit 41 ... first bridge rectifier

251 ... first transformer 42 ... second bridge rectifier

252 ... second transformer 43 ... the 3rd bridge rectifier

253 ... the 3rd transformer 44 ... the 4th bridge rectifier

254 ... the 4th transformer 51 ... first DC-DC converter

26 ... second transforming circuit 52 ... second DC-DC converter

261 ... first transformer 53 ... the 3rd DC-DC converter

262 ... second transformer 54 ... the 4th DC-DC converter

263 ... the

3rd transformer

81,82 ... grid line

Embodiment

About aforementioned and other technology contents, characteristics and effect of the present invention, in the detailed description of following cooperation four preferred embodiments with reference to the accompanying drawings, can clearly present.

Before the present invention is described in detail, be noted that in the following description content similarly assembly is to represent with identical numbering.

Consult Fig. 4, be first preferred embodiment of the network equipment of the present invention, this network equipment 10 is one to be used for the receiving end equipment of Power over Ethernet system, for example: the radio access bridger (Access Point, AP), modulator-demodulator or the like.In the present embodiment, this network equipment 10 connects two

grid lines

81,82, and these

grid lines

81,82 transmit one from feeder ear equipment (Power Sourcing Equipment, PSE) and the network signal of following the IEEE802.3af international standard, and a direct current power that is stated from this network signal, comprise a plurality of Ethernets connectivity port 1, a transformation module 2, a signal processing circuit 3 and a supply module 4 in the network equipment 10.

Cooperate and consult Fig. 5, the Ethernet connectivity port 1 of present embodiment is a general RJ-45 terminal in the network system now, and under the IEEE802.3af international standard, every grid line can only transmit the direct current power of certain limit, so the designer can decide the quantity of Ethernet connectivity port 1 according to the needs of heterogeneous networks equipment 10.In the present embodiment, the quantity of Ethernet connectivity port 1 is two, and for convenience of description, is defined as the first Ethernet terminal 11 and the second Ethernet terminal 12 respectively at this.This first Ethernet terminal 11 and the second Ethernet terminal 12 can be connected with two

grid lines

81,82 respectively, and receive wherein network signal and direct current power.

The first Ethernet terminal 11 has one first pair of pin (first pin of the first Ethernet terminal 11 and second pin), one second pair of pin (the 3rd pin of the first Ethernet terminal 11 and the 6th pin), one the 3rd pair of pin (the 4th pin of the first Ethernet terminal 11 and the 5th pin) and one the 4th pair of pin (the 7th pin of the first Ethernet terminal 11 and the 8th pin), and receives network signal and direct current power and the output that grid line 11 is transmitted by first pair of pin and the 3rd pair of pin.Certainly, the first Ethernet terminal 11 can only receive network signal and direct current power by first pair of pin or second pair of pin, also or only receive by the 3rd pair of pin or the 4th pair of pin, so long as the first pair of pin and the second pair of pin one of them and the 3rd pair of pin and the 4th pair of pin one of them receive network signal and direct current power and output and get final product.

The architecture of the second Ethernet terminal 12 is identical with the first Ethernet terminal 11, also has one first pair of pin (first pin of the second Ethernet terminal 12 and second pin), one second pair of pin (the 3rd pin of the second Ethernet terminal 12 and the 6th pin), one the 3rd pair of pin (the 4th pin of the second Ethernet terminal 12 and the 5th pin) and one the 4th pair of pin (the 7th pin of the second Ethernet terminal 12 and the 8th pin), and by first pair of pin and the 3rd pair of network signal and direct current power and the output that pin reception grid line 12 is transmitted.

Transformation module 2 is coupled to the first Ethernet terminal 11 and the second Ethernet terminal 12, in order to the network signal that it received is separated back output with direct current power, wherein comprises one first transforming circuit 25 and one second transforming circuit 26.And signal processing circuit 3 is coupled to transformation module 2, and the network signal that responsible reception transformation module 2 is separated also carries out signal processing, wherein comprises one first ethernet physical layer unit 31 and one second ethernet physical layer unit 32.

The first transforming circuit 25 is coupled to the first Ethernet terminal 11 and has one and is connected across the first pair of pin of the first Ethernet terminal 11 and the first transformer 251, between the first ethernet physical layer unit 31 and is connected across the second pair of pin of the first Ethernet terminal 11 and the 3rd transformer 253 and that the second transformer 252, between the first ethernet physical layer unit 31 is connected across the 3rd pair of pin between the first Ethernet terminal 11 and the first ethernet physical layer unit 31 and is connected across the 4th pair of pin of the first Ethernet terminal 11 and the 4th transformer 254 between the first ethernet physical layer unit 31.

With 251 explanations of first transformer, will be sent to the first ethernet physical layer unit 31 by first transformer 251 from the network signal of first pair of pin of the first Ethernet terminal 11 handles, and direct current power will be blocked in a side of first transformer 251, and the one first output OP1 that pulls out by the center tap of this first transformer 251 output, that is to say that the first pair of network signal that pin outputed to and the direct current power of the first Ethernet terminal 11 will separate by first transformer 251.Similarly, the one second output OP2 output that can pull out from the center tap of second transformer 252 of the direct current power exported of the second pair of pin; The 3rd pair of direct current power that pin is exported can be exported from one the 3rd output OP3 that the center tap of the 3rd transformer 253 is pulled out; The 4th pair of direct current power that pin is exported can be exported from one the 4th output OP4 that the center tap of the 4th transformer 254 is pulled out.And because present embodiment only receives also output DC power by first pair of pin and the 3rd pair of pin, so the voltage that the second output OP2 and the 4th output OP4 are exported can be zero.

Second transforming circuit 26 is coupled to the second Ethernet terminal 12 and has a cross-over connection in first pair of pin of the second Ethernet terminal 12 and first transformer 261 between the second ethernet physical layer unit 32, one cross-over connection is in second pair of pin of the second Ethernet terminal 12 and second transformer 262 between the second ethernet physical layer unit 32, one cross-over connection is in the 3rd pair of pin of the second Ethernet terminal 12 and the 3rd transformer 263 between the second ethernet physical layer unit 32, and a cross-over connection is in the 4th pair of pin of the second Ethernet terminal 12 and the 4th transformer 264 between the second ethernet physical layer unit 32.

The principle of second transforming circuit 26 is identical with first transforming circuit 25, and the direct current power that first pair of pin of the second Ethernet terminal 12 exported can be exported from the one first output OP1 ' that the center tap of first transformer 261 is pulled out; The direct current power that second pair of pin of the second Ethernet terminal 12 exported can be exported from the one second output OP2 ' that the center tap of second transformer 262 is pulled out; The 3rd pair of direct current power that pin is exported of the second Ethernet terminal 12 can be exported from one the 3rd output OP3 ' that the center tap of the 3rd transformer 263 is pulled out; The 4th pair of direct current power that pin is exported of the second Ethernet terminal 12 can be exported from one the 4th output OP4 ' that the center tap of the 4th transformer 264 is pulled out.In the same manner, present embodiment is to be received and output DC power by the first pair of pin and the 3rd pair of pin, so the voltage that the second output OP2 ' and the 4th output OP4 ' are exported is zero because of output DC power not.

Certainly, first and second can also shared same transformer to pin in the first Ethernet terminal 11, be about to that first pin is connected with the 3rd pin and second pin is connected with the 6th pin, and first pin and second pin are coupled to transformer, and also one of them is exported from its center tap; In the same manner, the 3rd and the 4th pair of pin can also shared same transformer, is about to that the 4th pin is connected with the 7th pin and the 5th pin is connected with the 8th pin, and the 4th pin and the 5th pin are coupled to transformer, and also one of them is exported from its center tap.And the second Ethernet terminal 12 can also identical principle reduce the quantity of transformer, so repeat no more.

And what deserves to be mentioned is, all transformers in the transformation module 2 are except separated network signal and direct current power, also can be used for isolating Ethernet connectivity port 1 and signal processing circuit 3, make to be coupled to the work that transformation module 2 supply module 4 afterwards can not have influence on signal processing circuit 3, and the turn ratio of all transformers was all 1: 1.Therefore, can be identical by the voltage of the output output of the center tap of transformer with the received direct current power in Ethernet connectivity port 1.

In addition, because the first Ethernet terminal 11 (or second Ethernet terminal 12) is that to receive direct current power by the first pair of pin or the second pair of pin be to be determined by feeder ear equipment, that is to say, the received voltage level of the first pair of pin can be according to different feeder ear equipment and change between the voltage of direct current power or no-voltage, so can cause and can't correctly power to receiving end equipment.Similarly, the 3rd pair of pin also has identical problem with the 4th pair of pin, and therefore, signal demand carries out rectification earlier can guarantee that just receiving end equipment obtains correct signal (or no-voltage).

Therefore, supply module 4 includes the 4th bridge rectifier 44 that the 3rd bridge rectifier 43, that second bridge rectifier 42, that first bridge rectifier 41, that is coupled to the center tap of first transformer 251 of first transforming circuit 25 and second transformer 252 is coupled to the center tap of the 3rd transformer 253 of first transforming circuit 25 and the 4th transformer 254 is coupled to the center tap of first transformer 261 of second transforming circuit 26 and second transformer 262 is coupled to the center tap of the 3rd transformer 263 of second transforming circuit 26 and the 4th transformer 264.

Four bridge rectifiers 41～44 are made up of four diode D1～D4 respectively, wherein, the anode of the diode D1 of first bridge rectifier 41 is connected the first output OP1 of first transformer 251 with the negative electrode of diode D4, the anode of diode D3 is connected the second output OP2 of second transformer 252 with the negative electrode of diode D2, the negative electrode of diode D1 is connected the positive pole of the output of first bridge rectifier 41 with the negative electrode of diode D3, the anode of diode D2 is connected the negative pole of the output of first bridge rectifier 41 with the anode of diode D4, first bridge rectifier 41 is used to integrate the output voltage of the second output OP2 of the first output OP1 of first transformer 251 and second transformer 252.

Similarly, the anode of the diode D1 of second bridge rectifier 42 is connected the 3rd output OP3 of the 3rd transformer 253 with the negative electrode of diode D4, the anode of diode D3 is connected the 4th output OP4 of the 4th transformer 254 with the negative electrode of diode D2, the negative electrode of diode D1 is connected the positive pole of the output of second bridge rectifier 42 with the negative electrode of diode D3, the anode of diode D2 is connected the negative pole of the output of second bridge rectifier 42 with the anode of diode D4,42 of second bridge rectifiers are used to integrate the output voltage of the 4th output OP4 of the 3rd output OP3 of the 3rd transformer 253 and the 4th transformer 254.

In the same manner, the anode of the diode D1 of the 3rd bridge rectifier 43 is connected the first output OP1 ' of first transformer 261 with the negative electrode of diode D4, the anode of diode D3 is connected the second output OP2 ' of second transformer 262 with the negative electrode of diode D2, the negative electrode of diode D1 is connected the positive pole of the output of the 3rd bridge rectifier 43 with the negative electrode of diode D3, the anode of diode D2 is connected the negative pole of the output of the 3rd bridge rectifier 43 with the anode of diode D4.The 3rd bridge rectifier 43 is used to integrate first output OP1 ' of first transformer 261 and the output voltage of the second output OP2 ' of second transformer 262.

The anode of the diode D1 of the 4th bridge rectifier 44 is connected the 3rd output OP3 ' of the 3rd transformer 263 with the negative electrode of diode D4, the anode of diode D3 is connected the 4th output OP4 ' of the 4th transformer 264 with the negative electrode of diode D2, the negative electrode of diode D1 is connected the positive pole of the output of the 4th bridge rectifier 44 with the negative electrode of diode D3, the anode of diode D2 is connected the negative pole of the output of the 4th bridge rectifier 44 with the anode of diode D4, therefore, the 4th bridge rectifier 44 is used to integrate the 3rd output OP3 ' of the 3rd transformer 263 and the output voltage of the 4th output OP4 ' of the 4th transformer 264.

With first bridge rectifier 41, if first pair of pin of the first Ethernet terminal 11 receives direct current power and second pair of pin is no-voltage output, then export by first output OP1 of first transformer 251 and the second output OP2 of second transformer 252 respectively, make diode D1 and D2 can open (D3 and D4 are for closing), promptly the output voltage of first bridge rectifier 41 is the voltage that the first output OP1 is exported; Otherwise if first pair of pin output no-voltage and second pair of pin receive direct current power, diode D3 and D4 then can open (D1 and D2 are for closing), so the voltage that the output voltage of first bridge rectifier 41 can be exported for the second output OP2; In like manner, the bridge rectifier operation of its excess-three is all identical with first bridge rectifier 41, so repeat no more.

Importantly, first bridge rectifier 41 of present embodiment and the output head anode of second bridge rectifier 42 interconnect, the negative pole of output end of first bridge rectifier 41 and second bridge rectifier 42 interconnects, the output head anode of the 3rd bridge rectifier 43 and the 4th bridge rectifier 44 interconnects, and the negative pole of output end of the 3rd bridge rectifier 43 and the 4th bridge rectifier 44 interconnects.Therefore, with regard to the first Ethernet terminal 11, it is to receive direct current power by first pair of pin and the 3rd pair of pin, again according to the standard of IEEE802.3af, singlely can provide 15.4 watts power to the received direct current power maximum of pin, so the output end voltage Vo1 that is produced by first bridge rectifier 41 and the 42 output parallel connections of second bridge rectifier is constant, but electric current can double, thereby can supply the power that doubles, promptly 30.8 watts power is given receiving end equipment.In the same manner, the also exportable 30.8 watts power of the current summation that produced of the 3rd bridge rectifier 43 and 44 parallel connections of the 4th bridge rectifier is given receiving end equipment.

Moreover, the supply module 4 of present embodiment also comprises two DC-DC converters 51,52, wherein, the output that first bridge rectifier 41 and second bridge rectifier 42 are connected couples one of them DC-DC converter 51, the output that the 3rd bridge rectifier 43 and the 4th bridge rectifier 44 are connected couples wherein another DC-DC converter 52, be used to provide receiving end equipment one stable supply voltage, in addition, two DC-DC converters 51,52 output interconnects (output parallel connection, be that positive pole interconnects and negative pole interconnects) and produce this supply voltage Vout, because two DC-DC converters 51,52 output can provide 30.8 watts power respectively, therefore, the network equipment 10 can provide 61.6 watts power.

In other words, if only receive direct current power by first pair of pin in the first Ethernet terminal 11 (the second Ethernet terminal 12), then the first output maximum can provide 15.4 watts power, so supply voltage Vout can be 30.8 watts because of two DC-DC converters, 51,52 its power that can provide that make parallel with one another.Certainly, the quantity of Ethernet connectivity port 1 can also be N (N＞2), as long as each Ethernet connectivity port 1 receives a direct current power respectively, and it is the output of supply module 4 is parallel with one another, the power that can obtain N * 30.8 watt is (if having only pair of pins to receive direct current power in the Ethernet connectivity port 1, then the power that can supply is N * 15.4 watt), thus, the network equipment 10 can obtain higher power.In addition, the network equipment 10 of present embodiment is to follow the IEEE802.3af international standard, also can be used on the international standard of IEEE802.3at certainly, not as limit.

What deserves to be mentioned is, the electric power that supply module 4 is produced is to be used to be supplied to the whole network equipment 10, because the required electric power difference of each circuit (for example: Ethernet connectivity port 1, signal processing circuit 3 or the like), so the network equipment 10 of present embodiment also can comprise an electric power management circuit (figure does not show), in order to receiving the electric power that supply module 4 is produced, and according to this electric power of demand assignment of different circuit to each circuit.

Consult Fig. 6, internal circuit diagram for second preferred embodiment of the network equipment of the present invention, roughly identical with first preferred embodiment, its difference is, each bridge rectifier can carry out its output being in parallel after the voltage stabilizing through DC-DC converter earlier again, that is the supply module of present embodiment is to connect a DC-DC converter 51～54 at the output of each bridge rectifier respectively, output parallel connection with each DC-DC converter 51～54 (is that output head anode interconnects again, the negative pole of output interconnects), the electric current that makes the output of each bridge rectifier the export addition that is connected in parallel to each other is to obtain 15.4 * 4=61.6 watt power output.Similarly, if the quantity of the Ethernet connectivity port 1 of the network equipment 10 of present embodiment is N (N＞2), as long as it is the output of supply module is parallel with one another, the power that can obtain N * 30.8 watt is (if having only pair of pins to receive direct current power in the Ethernet connectivity port 1, then the power that can supply is N * 15.4 watt), so still do not exceed with two Ethernet terminals 11,12.

Consult Fig. 7, internal circuit diagram for the 3rd preferred embodiment of the network equipment of the present invention, roughly identical with first preferred embodiment, its difference is, first preferred embodiment is to utilize the output parallel connection of each bridge rectifier to make current summation and improve power output, and present embodiment then is that the output series connection with each bridge rectifier makes voltage phase Calais improve power output.Therefore, as shown in Figure 6, the negative pole of the output of first bridge rectifier 41 (the 3rd bridge rectifier 43) connects the positive pole of the output of second bridge rectifier 42 (the 4th bridge rectifier 44).

In addition, the positive pole of the output of first bridge rectifier 41 is connected first DC-DC converter 51 with the negative pole of the output of second bridge rectifier 42, and the positive pole of the output of the 3rd bridge rectifier 43 of second source change-over circuit 22 is connected second DC-DC converter 52 with the negative pole of the output of the 4th bridge rectifier 44, negative pole with the output of first DC-DC converter 51 is connected with the positive pole of the output of second DC-DC converter 52 again, promptly the output of two DC-DC converters is connected mutually, make the voltage Vo1 and the Vo2 addition of output, and then 1 power output that can provide of the increase network equipment, similarly, as long as N of series connection of DC-DC converter (N＞1), and each Ethernet connectivity port 1 receives a direct current power respectively, the power that can obtain N * 30.8 watt is (if having only pair of pins to receive direct current power in the Ethernet connectivity port 1, then the power that can supply is N * 15.4 watt), so the network equipment 10 can obtain higher power.

Consult Fig. 8, internal circuit diagram for the 4th preferred embodiment of the network equipment of the present invention, roughly identical with the 3rd preferred embodiment, its difference is, bridge rectifier 41～44 can carry out the output of DC-DC converter 51～54 being connected after the voltage stabilizing through a DC-DC converter 51～54 earlier separately again, can supply 15.4 * 4=61.6 watt power output.

In sum, the network equipment 10 of present embodiment utilizes a plurality of Ethernets connectivity port 1 to receive a direct current electric power respectively, export behind the output series/parallel with its supply module 4 again, can providing network devices 10 higher power outputs and be not subjected to the restriction of IEEE802.3af international standard.

The above-described content of thought, it only is preferred embodiment of the present invention, can not limit scope of the invention process with this, promptly every simple equivalent variations and modification of being done according to claims scope of the present invention and invention description content all still belongs in the scope that patent of the present invention contains.

Claims

1. network equipment, be applied to the Power over Ethernet system, couple many grid lines, described these grid lines can transmit a network signal and respectively and be stated from direct current power on the described network signal, and described direct current power is less than the required electric power of described network device driver, and the described network equipment comprises:

A plurality of Ethernets connectivity port couples described these grid lines and reception network signal and direct current power wherein;

One transformation module is coupled to described a plurality of Ethernets connectivity port, and the network signal that described these Ethernet connectivity ports are received is separated back output with direct current power;

One signal processing circuit is coupled to described transformation module, and described signal processing circuit receives the network signal that described transformation module separated and carries out signal processing; And

One supply module is coupled to described transformation module, and described supply module receives the direct current power that described transformation module is separated, and the described network equipment is supplied with in described these direct current powers back of adding up mutually;

By this, described a plurality of Ethernets connectivity port receives the direct current power that described many grid lines transmit and adds up mutually, makes a plurality of direct current power superpositions become to be enough to drive the electric power of the described network equipment.

2. the network equipment according to claim 1, wherein, described these Ethernet connectivity ports are one first Ethernet terminal and one second Ethernet terminal, described first Ethernet terminal and the described second Ethernet terminal have one first to the 4th pair of pin respectively, and described first direct current signal is at least by described first pair of pin and the second pair of pin one of them or described the 3rd pair of pin and the 4th pair of one of them reception of pin and output.

3. the network equipment according to claim 2, wherein, described transformation module comprises:

One first transforming circuit, be coupled between described first Ethernet terminal and the described signal processing circuit and to the described first pair of pin of major general and described second pair of pin one of them or described the 3rd pair of pin and described the 4th pair of one of them voltage of being exported of pin by the output of one centre cap, and

One second transforming circuit is coupled between described second Ethernet terminal and the described signal processing circuit and is exported by the one centre cap to the described first pair of pin of major general and described second pair of pin one of them or described the 3rd pair of pin and described the 4th pair of one of them voltage of being exported of pin.

4. the network equipment according to claim 3, wherein,

Described first transforming circuit comprises:

One cross-over connection is in first pair of pin of the described first Ethernet terminal and first transformer between the described signal processing circuit, and

One cross-over connection is in second pair of pin of the described first Ethernet terminal and second transformer between the described signal processing circuit,

The center tap of first transformer of described first transforming circuit is exported the output voltage of first pair of pin of the described first Ethernet terminal, the center tap of second transformer of described first transforming circuit is exported the output voltage of second pair of pin of the described first Ethernet terminal

Described second transforming circuit comprises:

One cross-over connection is in first pair of pin of the described second Ethernet terminal and first transformer between the described signal processing circuit, and

One cross-over connection is in second pair of pin of the described second Ethernet terminal and second transformer between the described signal processing circuit,

The center tap of first transformer of described second transforming circuit is exported the output voltage of first pair of pin of the described second Ethernet terminal, the center tap of second transformer of described second transforming circuit is exported the output voltage of second pair of pin of the described second Ethernet terminal, and described first pair of pin and second pair of pin have only one of them output voltage at one time.

5. the network equipment according to claim 4, wherein,

Described first transforming circuit also comprises:

One cross-over connection is in the 3rd pair of pin of the described first Ethernet terminal and the 3rd transformer between the described signal processing circuit, and

One cross-over connection is in the 4th pair of pin of the described first Ethernet terminal and the 4th transformer between the described signal processing circuit,

The center tap of the 3rd transformer of described first transforming circuit is exported the output voltage of the 3rd pair of pin of the described first Ethernet terminal, the center tap of the 4th transformer of described first transforming circuit is exported the 4th pair of pin output voltage of the described first Ethernet terminal

Described second transforming circuit also comprises:

One cross-over connection is in the 3rd pair of pin of the described second Ethernet terminal and the 3rd transformer between the described signal processing circuit, and

One cross-over connection is in the 4th pair of pin of the described second Ethernet terminal and the 4th transformer between the described signal processing circuit,

The center tap of the 3rd transformer of described second transforming circuit is exported the output voltage of the 3rd pair of pin of the described second Ethernet terminal, the center tap of the 4th transformer of described second transforming circuit is exported the output voltage of the 4th pair of pin of the described second Ethernet terminal, and described the 3rd pair of pin and the 4th pair of pin have only one of them output voltage at one time.

6. the network equipment according to claim 4, wherein, described supply module comprises one first bridge rectifier and one second bridge rectifier, described first bridge rectifier is coupled to first transformer of described first transforming circuit and the center tap of second transformer, and described second bridge rectifier is coupled to first transformer of described second transforming circuit and the center tap of second transformer.

7. the network equipment according to claim 6, wherein, described supply module also comprises two DC-DC converters, is respectively coupled to described first bridge rectifier and second bridge rectifier, and the mutual series/parallel of the output of described these DC-DC converters.

8. the network equipment according to claim 5, wherein, described supply module comprises:

One first bridge rectifier is coupled to first transformer of described first transforming circuit and the center tap of second transformer,

One second bridge rectifier is coupled to the 3rd transformer of described first transforming circuit and the center tap of the 4th transformer,

One the 3rd bridge rectifier is coupled to first transformer of described second transforming circuit and the center tap of second transformer, and

One the 4th bridge rectifier is coupled to the 3rd transformer of described second transforming circuit and the center tap of the 4th transformer.

9. the network equipment according to claim 8, wherein, described supply module also comprises four DC-DC converters, be respectively coupled to described first bridge rectifier, described second bridge rectifier, described the 3rd bridge rectifier and the 4th bridge rectifier, and the mutual series/parallel of the output of described these DC-DC converters.

10. the network equipment according to claim 8, wherein, described supply module also comprises two DC-DC converters, couple a DC-DC converter wherein after the output of the output of described first bridge rectifier and described second bridge rectifier is parallel with one another, couple a DC-DC converter wherein after the output of the output of described the 3rd bridge rectifier and described the 4th bridge rectifier is parallel with one another, and the mutual series/parallel of the output of described these DC-DC converters.

11. according to the claim 9 or the 10 described network equipments, wherein, first pair of pin of described first Ethernet terminal and the described second Ethernet terminal is respectively its first pin and second pin, second pair of pin of described first Ethernet terminal and the described second Ethernet terminal is respectively its 3rd pin and the 6th pin, the 3rd pair of pin of described first Ethernet terminal and the described second Ethernet terminal is respectively its 4th pin and the 5th pin, and the 4th pair of pin of described first Ethernet terminal and the described second Ethernet terminal is respectively its 7th pin and the 8th pin.

12. the network equipment according to claim 11, wherein, described first Ethernet terminal and the described second Ethernet terminal are all a RJ-45 terminal.