CN1863011A - Multi-service signal light turning on system and method for PON system - Google Patents

Abstract

The invention relates to the PON system multi service signal light connecting system and the method. The invention includes: firstly, the light meeting OLT terminal of the analog signal sending part composed by the frequency changing setting and the light beaming circuit bunching by turns; secondly, the non source light allotting net is connected to the channel outputting end, every terminals of the said light allotting net without the source can be connected with the light meeting net user terminal through the wave dividing using again setting. On the light meeting OLT terminal, several down analog signal with the different frequency can be performed the transformation of the frequency by the frequency switching setting, correspondingly, several low frequency segment with the relative frequency time ration below the three; the said wave signal is performed with the photoelectricity changing through the light beaming circuit to gain the light signal with the same wave length and the said signal is imported into the light transferring net. The invention realizes the light fine transferring and the resume of transforming several analog signals to the light signal with the same wave length, the single power analog signal transferring and the double power digital signal transferring at the same time in the same system can be realized.

Description

PON system multi-service flashlight connecting system and method

Technical field

The present invention relates to optical communication field, relate in particular to a kind of PON system's multi-service flashlight connecting system and method.

Background technology

In the communication system, the signal frequency range of satellite microwave signal is 10.7～12.75GHz, and the frequency of other general analogue signal is example with CATV, and its frequency range is 45～980MHz, and clearly, the satellite microwave signal frequency exceeds general analogue signal far away.Because signal transmission characteristic to channel in transmission course of different frequency has different requirements, therefore two kinds of different transmission plans are adopted in the transmission of the transmission of satellite microwave signal and general analogue signal in present communication system.

Be illustrated in figure 1 as the transmission plan of present CATV analog signal.

This transmission system is connected and composed in turn by optical transmission circuit, fiber channel, passive optical distribution network, optical receiver.

The detailed structure of transmission system is: the optical transmission circuit in this transmission system is connected and composed in turn by amplification driving circuit and E/O photoconverter; The input of distributor connects fiber channel, and a plurality of ports of output connect the optical transmission circuit of a plurality of receiving terminals respectively; Structure in the optical receiver is identical with the structure of optical transmission circuit, only need the light output end of former optical transmission circuit light input end as the receiving terminal optical receiver, be connected with fiber channel, with the electrical input of the former optical transmission circuit electric output as the receiving terminal opto-electronic conversion, being connected with other electronic devices of receiving terminal gets final product.

The process that signal transmits in this transmission system is: frequency is at first to import the amplification driving circuit of optical transmitting set after the CATV signal of 45～980MHz enters radiating circuit, this signal is imported the E/O photoconverter after amplifying, obtain carrying the light signal of former electrical signal information; Light signal arrives passive optical distribution network after fibre channel transmission, this passive optical distribution network is divided into many branch roads with light signal, and every branch road all is connected with a receiving terminal optical receiver; Behind the light signal arrival optical receiver after the passive optical distribution network distribution, at first be converted to the signal of telecommunication by the O/E photoconverter in the optical receiver, input amplifying circuit amplifies this signal of telecommunication then; Through behind the optical receiver, light signal has been reduced to former CATV signal, sends to each user of terminal.

The shortcoming of prior art: this CATV transmission plan, the relative frequency multiplying power of the transmission signals ratio of lowest signal frequency (the highest signal frequency with) is too high, and transmission signals requires optical transmission system that strict linear propagation characteristics is arranged.The non-linear of optical transmission can influence signal transmission performance by a large amount of harmonic signal of generation.Optical transmission system realizes that difficulty is bigger.

Be illustrated in figure 2 as the reception programme of present satellite microwave signal.

This satellite microwave receiving system is connected and composed in turn by satellite earth antenna, LNA low noise amplifier, LNB lnb, RECIEVER receiver.

The signal receiving course of this satellite microwave receiving system is: at first each client that need receive the satellite microwave signal all need be set up a satellite earth antenna, directly receives the hyperfrequency RF signal (radiofrequency signal) that satellites transmits goes out by this antenna; The satellite RF signal input LNA low noise amplifier that receives amplifies this signal; Because the receiver that this RF signal can not be accepted end directly receives, so the RF signal that will be somebody's turn to do through amplifying is imported the LNB lnb, reduce the frequency of RF signal, be converted into the signal that the machine that can be received receives; But this exports client terminal at last through the received signal input receiver of conversion.

The shortcoming of prior art: this satellite microwave receiving side signal case needs each user all to use the satellite microwave signal receiving antenna, and this antenna volume is huge, expensive, is unsuitable for large-scale popularization and uses.

Though more than two kinds of schemes can realize the transmission and the reception of signal, but every kind of scheme all has weak point, and every kind of scheme only has simple function, can only transmit the signal of fixed frequency scope, can only downlink transfer, can't uplink, be difficult to satisfy the needs of present client, so be starved of a kind of comprehensively multiple business, possess analog signal optical transmission method up, the downlink transfer function simultaneously and occur for the integrated communication business.

Summary of the invention

In view of above-mentioned existing in prior technology problem, the purpose of this invention is to provide a kind of comprehensive multiple business, possess up, downlink transfer function PON system's multi-service flashlight connecting system and method simultaneously.

The objective of the invention is to be achieved through the following technical solutions:

PON of the present invention system multi-service flashlight connecting system comprises

1 optical line terminal OLT of Lian Jieing, passive optical distribution network ODN and a plurality of Optical Access Network user terminal ONU/ONT in turn;

Described OLT has the analog input interface more than 1, and is used for different analog signals is obtained having by opto-electronic conversion the light emission signal of same wavelength.

Analog signal sends part: constitute by frequency converter, blender and optical transmission circuit are connected in series successively, be used for different analog signals is obtained through opto-electronic conversion the light signal of same wavelength;

Digital signal transceiver part: constitute by the digital transmitting and receiving circuit;

Wavelength division multiplexer: parallel introduce the output signal that analog signal sends part and digital signal transceiver part, and the signal incoming fiber optic channel that wavelength division multiplexer is exported.

Analog signal receiving unit: insert opto-electronic conversion and filtering split circuit input constitutes by medium and low frequency analog signal amplifier and high frequency analog signals receiver are parallel;

Digital signal transceiver part: constitute by the digital transmitting and receiving circuit;

Wavelength division multiplexer: the end receiving optical signals that links to each other with passive optical distribution network, parallel analog signal receiving unit and the digital signal transceiver part of drawing of the other end.

Described optical transmission circuit is provided with a plurality of frequency converter interfaces.

Described high frequency analog signals receiver constitutes by up-converter circuit, lnb, receiver are connected in series in turn.

Described passive optical distribution network is formed by a plurality of light distributor multi-stage cascades, and each light distributor of the bottom is connected to a plurality of Optical Access Network user terminals.

PON of the present invention system multi-service flashlight cut-in method comprises:

A, insert the OLT terminal at light, the multiple descending analog passband signal overfrequency transducer of different frequency carries out frequency inverted, correspondingly obtains a plurality of low-frequency range microwave signals;

B, described microwave signal is carried out opto-electronic conversion, a plurality of microwave signals are converted to the light signal of same wavelength and described signal input optical transport network by optical transmission circuit.

A1, multiple descending analog signal is inserted a plurality of frequency converters respectively;

A2, frequency converter are modulated low-frequency signals, and the frequency of signal is increased to the microwave low-frequency range;

A3, frequency converter carry out demodulation to high-frequency signal, and the frequency of signal is reduced to the microwave low-frequency range.

The frequency range of each microwave signal of frequency converter output does not have same section.

Composite amplifier in B1, the described microwave signal input optical transmission circuit carries out power amplification;

Electric light in B2, the input of the microwave signal through the amplifying optical transmitting set changes switching device and carries out opto-electronic conversion, and output wavelength is the light signal of same wavelength.

At the Optical Access Network user terminal, obtain former low-frequency range microwave signal by opto-electronic conversion and filtering split circuit, restore the multiple analog signal that former light inserts the OLT terminal through frequency inverted again.

The duplex digital signal is carried out opto-electronic conversion by a digital transmission circuit in light access OLT terminal and the Optical Access Network user terminal and is obtained light signal, and described light signal process optical-fiber network transfers to the digital transmitting and receiving circuit of the other end, restores original digital signal.

When the described analog signal that is used to transmit comprises satellite-signal that 2 tunnel frequencies are 10.7～12.75GHz and 1 road CATV signal, described three kinds of signals are carried out frequency inverted and opto-electronic conversion, obtain 1 tunnel frequency and carry out light less than the light signal of 10G and send; Simultaneously, the CATV signal becomes the relative frequency multiplying power through frequency inverted and carries out optical transmission less than 3 the signal of telecommunication.

As seen from the above technical solution provided by the invention, the present invention has realized that multiple analog signal conversion is the Optical Fiber Transmission and the recovery of same wavelength light signal; Single worker's analog signal transmission and duplexing digital data transmission have been realized in same system, carrying out simultaneously.

Description of drawings

Fig. 1 is a CATV signal transmission structure schematic diagram;

Fig. 2 receives structural representation for the satellite microwave signal;

Fig. 3 is that PON multi-service flashlight inserts the overall plan structural representation;

Fig. 4 inserts OLT terminal structure schematic diagram for light;

Fig. 5 inserts OLT terminal simulation signal transmission unit separation structure schematic diagram for light;

Fig. 6 is the passive optical distribution network structural representation;

Fig. 7 is an Optical Access Network user terminal structural representation;

Fig. 8 is a satellite microwave signal receiver structural representation.

Embodiment

Core of the present invention is to insert in the overall plan at a PON multi-service flashlight as shown in Figure 3, the microwave signal that the different analog passband signal ovennodulation of multiple frequency or demodulation are converted to low-frequency range, use a road following optical device of 10G to realize that low-cost multiple signals PON light inserts; Various analog signals obtain having the light signal of same wavelength after opto-electronic conversion; Simultaneously, system can also be converted to wavelength optical signals respectively with the uplink and downlink digital signal by photoelectric device, uses a road common optical device to realize that multiple signals PON light inserts cheaply with analog signal.The optical line terminal OLT end of this equipment has analog signal (or the many service providers analog signal) input interface more than 2 kinds at least; The simulation of OLT partly contains converter circuit and hybrid circuit; This equipment optical network unit ONU end has analog signal (or the many service providers analog signal) output interface more than 2 kinds at least; The simulation of Optical Network Terminal ONT partly contains frequency changer circuit and signal filtering split circuit.

Saying that more specifically the present invention combines analog communication system and digital communication system, is that light signal uses the optical-fiber network transmission with electrical signal conversion.Described system is made up of light access OLT terminal, fiber channel and passive optical distribution network, optical access network user terminal three parts, wherein:

Light inserts the OLT terminal and comprises that analog signal sends part, digital signal photoelectricity exchanges part, division multiplexing optical device.

Analog signal sends part and is made up of a plurality of frequency converters and an optical transmission circuit.

Frequency converter can carry out frequency inverted to multiple signal, with the analog signal conversion of different frequency be relative frequency multiplying power less (＜3), frequency range is adjacent but disjoint a plurality of microwave signal.

Described a plurality of microwave signal input optical transmission circuit is imported photoelectric switching circuit through behind the composite amplifier, and the mutually different microwave signal of a plurality of frequencies is converted to the light signal that wavelength is a wavelength 1.

Digital signal photoelectricity exchanges part and is made up of a digital transmitting and receiving circuit.

The descending digital signal of transmitting terminal enters the digital transmitting and receiving circuit, and electrical signal conversion is that wavelength is the light signal of wavelength 2.

The wavelength that comes from the Optical Access Network user terminal is that the uplink optical signal of wavelength 3 transfers to the digital transmitting and receiving circuit by optical-fiber network, is reduced to former digital uplink signal in the digital transmitting and receiving circuit, exports to transmitting terminal.

The Optical Access Network user terminal comprises that analog signal receiving unit, digital signal photoelectricity exchange part and wavelength division multiplexer.

The analog signal receiving unit is made of jointly opto-electronic conversion and filtering split circuit, medium and low frequency analog signal amplifier, satellite microwave signal receiver.

Wavelength is light signal input opto-electronic conversion and filtering split circuit after wavelength division multiplexer separates of wavelength 1, and light signal at first is converted to the signal of telecommunication of different wave length, it is distinguished one by one and exports by filter according to the frequency range of each signal of telecommunication then.

The signal of telecommunication of former low and medium frequency enters the medium and low frequency analog signal amplifier and amplifies, and exports the user then to.

Former high-frequency signal such as satellite microwave signal input microwave signal receiver receive, and export the user then to.

The wavelength of light transmitting terminal is that the downlink optical signal of wavelength 2 transfers to the digital transmitting and receiving circuit by optical-fiber network, is reduced to former descending digital signal in the digital transmitting and receiving circuit, exports to the user.

The digital uplink signal of user terminal enters the digital transmitting and receiving circuit, and electrical signal conversion is that wavelength is the light signal of wavelength 3.

Below in conjunction with accompanying drawing method of the present invention is described in further detail.

The specific embodiments of the method for the invention such as Fig. 4, Fig. 5, Fig. 6, Fig. 7, shown in Figure 8 specifically comprise:

This communication system is made up of light access OLT terminal, fiber channel and passive optical distribution network, Optical Access Network user terminal.

Light inserts the OLT terminal as shown in Figure 4.

Light inserts the OLT terminal and comprises that analog signal sends part, digital signal photoelectricity exchanges part, division multiplexing optical device.

Figure 5 shows that analog signal sends part, is made of a plurality of frequency converters, an optical transmission circuit.Optical transmission circuit has a plurality of electric signal input ends and a light signal output end, and each electric signal input end all is connected with a frequency converter.Frequency converter is connected and composed by composite amplifier and photoelectric switching circuit, and frequency converter is divided into upconverter and low-converter.A plurality of frequency converters are connected with multiple signal source.

The present invention need be the low-frequency range microwave signal with multiple analog signal conversion, by opto-electronic conversion multiple microwave signal is converted to the light signal of same wavelength,

In communication process, be that the different analog signal of multiple frequency of example is imported respectively in a plurality of frequency converters with two-way satellite microwave signal and CATV signal.

Because fiber channel has nonlinear characteristic, if the relative frequency frequency multiplication of the transmission signals ratio of lowest signal frequency (the highest signal frequency with) is too high, the non-linear of optical transmission can influence signal transmission performance by a large amount of harmonic signal of generation, therefore, when the primary signal of input was carried out frequency inverted, needs guaranteed the low-frequency range microwave signal relative frequency lower (＜3) after the frequency conversion.

With primary frequency is that the two-way satellite microwave signal of 10.2～12.75GHz inputs to two low-converters respectively, demodulation through low-converter, original signal down-converts to the microwave signal of two-way relative frequency lower (＜3), and the frequency range of this microwave signal is 3.6～7.7GHz.

With primary frequency is the CATV signal input upconverter of 45～860MHz, and through the modulation of upconverter, original signal up-converts to the microwave signal of relative frequency lower (＜3), and the frequency range of this microwave signal is 2.6～3.5GHz.

As seen, but through the close situation about can not the frequency of occurrences overlapping of the frequency range of the multiple low-frequency range microwave signal of frequency inverted.

The parallel electric signal interface that mixes amplification and photoelectric switching circuit that inserts of described multiple low-frequency range microwave signal.This circuit at first carries out power amplification to the signal of telecommunication, then the signal of telecommunication through amplifying is carried out opto-electronic conversion, obtains light signal.

The frequency range of described light signal belongs to the low-frequency range microwave and relative frequency lower (＜3), is suitable for using fiber channel to transmit.

The digital signal photoelectricity exchange part that light inserts the OLT terminal is made of the digital transmitting and receiving circuit.Described digital transmitting and receiving circuit has photoelectricity equally and exchanges function, descending digital signal can be converted to the light signal that wavelength is a wavelength 2, and can will be that the uplink optical signal of wavelength 3 is reduced to the signal of telecommunication from the wavelength of Optical Access Network user terminal.

The analog signal that light inserts the OLT terminal sends part and digital signal photoelectricity exchange part parallel access wavelength division multiplexer, by wavelength division multiplexer incoming fiber optic channel.

Passive optical distribution network as shown in Figure 6.

This passive optical distribution network is made of a plurality of light distributors that are the tree cascade.

Each light distributor of the passive optical distribution network bottom all is connected to a plurality of user sides.

The light distributor on passive optical distribution network top connects the output port of fiber optic network.

The Optical Access Network user terminal as shown in Figure 7.

It is similar that Optical Access Network user terminal general structure and light insert the OLT terminal, comprises that analog signal receiving unit, digital signal photoelectricity exchange part, division multiplexing optical device.

Wherein, the analog signal receiving unit is made of opto-electronic conversion and filtering split circuit, CATV amplifier, satellite microwave signal receiver.

Opto-electronic conversion is connected wavelength division multiplexer with the light input end of filtering split circuit, and receiving the wavelength that comes from light access OLT terminal by wavelength division multiplexer is the light signal of wavelength 1; Parallel CATV amplifier and the satellite microwave signal receiver of being connected of the electrical signal of opto-electronic conversion and filtering split circuit.

The other end of wavelength division multiplexer connects the bottom light distributor of passive optical distribution network.

The satellite microwave signal receiver as shown in Figure 8, be by up-converter circuit, low noise frequently device, receiver is in sequential series constitutes.

The receiving course of analog signal is:

After light signal entered wavelength division multiplexer by fiber channel, wavelength was that the light signal of wavelength 1 enters opto-electronic conversion and filtering split circuit through separating, and light signal at first is reduced to the low-frequency range microwave signal that multiple former light inserts the OLT terminal.

The frequency range of these microwave signals is close, but does not have overlapping part, so each low-frequency range microwave signal can be separated by the different filter of frequency range.Enter CATV amplifier and satellite microwave signal receiver through the analog signal of separating, restore original CATV signal and satellite microwave signal, input in the consumer electronic device.Described satellite microwave signal receiver by upconverter, lnb, receiver is in sequential series forms.

The digital signal photoelectricity of Optical Access Network user terminal exchanges part and is made of the digital transmitting and receiving circuit.Described digital transmitting and receiving circuit has photoelectricity and exchanges function, and the digital signal of free family terminal is converted to the light signal that wavelength is a wavelength 3 in the future, and the wavelength that can insert the OLT terminal from light is that the light signal of wavelength 2 is reduced to the signal of telecommunication.

The analog signal receiving unit of Optical Access Network user terminal and digital signal photoelectricity exchange part parallel and insert wavelength division multiplexer, insert passive optical distribution network and final incoming fiber optic channel by wavelength division multiplexer.

In sum, the present invention takes into account the opto-electronic conversion ability of photoelectric device and the nonlinear characteristic of fiber channel, the analog signal conversion of multiple different frequency is become the low-frequency range microwave signal and finally obtain being fit to the light signal of the same wavelength of Optical Fiber Transmission by opto-electronic conversion; The optical transmission scheme of duplexing digital signal that the present invention simultaneously is also integrated.

The above; only for the preferable embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily or replacement all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (13)

1, a kind of PON system multi-service flashlight connecting system is characterized in that, comprising:

1 optical line terminal OLT of Lian Jieing, passive optical distribution network ODN and a plurality of Optical Access Network user terminal ONU/ONT in turn;

Described OLT has the analog input interface more than 1, and is used for different analog signals is obtained having by opto-electronic conversion the light emission signal of same wavelength.

2, PON according to claim 1 system multi-service flashlight connecting system is characterized in that, described light inserts the OLT terminal and comprises:

Analog signal sends part: constitute by frequency converter, blender and optical transmission circuit are connected in series successively, be used for different analog signals is obtained through opto-electronic conversion the light signal of same wavelength;

Digital signal transceiver part: constitute by the digital transmitting and receiving circuit;

Wavelength division multiplexer: parallel introduce the output signal that analog signal sends part and digital signal transceiver part, and the signal incoming fiber optic channel that wavelength division multiplexer is exported.

3, PON according to claim 1 system multi-service flashlight connecting system is characterized in that described Optical Access Network user terminal ONU/ONT comprises:

Analog signal receiving unit: insert opto-electronic conversion and filtering split circuit input constitutes by medium and low frequency analog signal amplifier and high frequency analog signals receiver are parallel;

Digital signal transceiver part: constitute by the digital transmitting and receiving circuit;

Wavelength division multiplexer: the end receiving optical signals that links to each other with passive optical distribution network, parallel analog signal receiving unit and the digital signal transceiver part of drawing of the other end.

4, PON according to claim 2 system multi-service flashlight connecting system is characterized in that,

Described optical transmission circuit is provided with a plurality of frequency converter interfaces.

5, PON according to claim 3 system multi-service flashlight connecting system is characterized in that,

Described high frequency analog signals receiver constitutes by up-converter circuit, lnb, receiver are connected in series in turn.

6, PON according to claim 1 system multi-service flashlight connecting system is characterized in that,

Described passive optical distribution network is formed by a plurality of light distributor multi-stage cascades, and each light distributor of the bottom is connected to a plurality of Optical Access Network user terminals.

7, a kind of PON system multi-service flashlight cut-in method is characterized in that:

A, insert the OLT terminal at light, the multiple descending analog passband signal overfrequency transducer of different frequency carries out frequency inverted, correspondingly obtains a plurality of low-frequency range microwave signals;

B, described microwave signal is carried out opto-electronic conversion, a plurality of microwave signals are converted to the light signal of same wavelength and described signal input optical transport network by optical transmission circuit.

8, PON according to claim 7 system multi-service flashlight cut-in method is characterized in that described steps A comprises:

A1, multiple descending analog signal is inserted a plurality of frequency converters respectively;

A2, frequency converter are modulated low-frequency signals, and the frequency of signal is increased to the microwave low-frequency range;

A3, frequency converter carry out demodulation to high-frequency signal, and the frequency of signal is reduced to the microwave low-frequency range.

9, according to claim 7 or 8 described PON system multi-service flashlight cut-in methods, it is characterized in that:

The frequency range of each microwave signal of frequency converter output does not have same section.

10, according to claim 7 or 8 described PON system multi-service flashlight cut-in methods, it is characterized in that described step B comprises:

Composite amplifier in B1, the described microwave signal input optical transmission circuit carries out power amplification;

Electric light in B2, the input of the microwave signal through the amplifying optical transmitting set changes switching device and carries out opto-electronic conversion, and output wavelength is the light signal of same wavelength.

11, PON according to claim 7 system multi-service flashlight cut-in method is characterized in that described method also comprises:

At the Optical Access Network user terminal, obtain former low-frequency range microwave signal by opto-electronic conversion and filtering split circuit, restore the multiple analog signal that former light inserts the OLT terminal through frequency inverted again.

12, PON according to claim 7 system multi-service flashlight cut-in method is characterized in that described method also comprises duplexing digital communication part:

The duplex digital signal is carried out opto-electronic conversion by a digital transmission circuit in light access OLT terminal and the Optical Access Network user terminal and is obtained light signal, and described light signal process optical-fiber network transfers to the digital transmitting and receiving circuit of the other end, restores original digital signal.

13, PON according to claim 7 system multi-service flashlight cut-in method,, it is characterized in that:

When the described analog signal that is used to transmit comprises satellite-signal that 2 tunnel frequencies are 10.7～12.75GHz and 1 road CATV signal, described three kinds of signals are carried out frequency inverted and opto-electronic conversion, obtain 1 tunnel frequency and carry out light less than the light signal of 10G and send; Simultaneously, the CATV signal becomes the relative frequency multiplying power through frequency inverted and carries out optical transmission less than 3 the signal of telecommunication.

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