CN204886972U - Take radio frequency to detect optical fiber amplifier of function - Google Patents
Take radio frequency to detect optical fiber amplifier of function Download PDFInfo
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- CN204886972U CN204886972U CN201520682639.2U CN201520682639U CN204886972U CN 204886972 U CN204886972 U CN 204886972U CN 201520682639 U CN201520682639 U CN 201520682639U CN 204886972 U CN204886972 U CN 204886972U
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- fiber amplifier
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Abstract
The utility model provides a take radio frequency to detect optical fiber amplifier of function, belongs to fiber communication technical field. Including optical fibre amplifier unit and MCU processor unit, inlet side at the optical fibre amplifier unit is equipped with an optical divider, a photoelectric detector and first operation amplifying unit, outlet side at the optical fibre amplifier unit is equipped with the 2nd optical divider, the 2nd photoelectric detector and second operation amplifying unit, still include a radiofrequency signal processing unit and the 2nd radiofrequency signal processing unit, a radiofrequency signal processing unit is connected with a photoelectric detector and MCU processor unit respectively, the 2nd radiofrequency signal processing unit is connected with the 2nd photoelectric detector and MCU processor unit respectively. The advantage: the problem that optical fiber amplifier still can open the laser instrument and start working when not having radiofrequency signal can be solved, the life of laser instrument and complete machine can be prolonged, can be respectively with input, outlet side radiofrequency signal is with radio frequency mode direct output for local real -time supervision or other usage.
Description
Technical field
The utility model belongs to technical field of optical fiber communication, be specifically related to a kind of fiber amplifier with radio frequency measuring ability, the I/O optical signal power particularly relating to fiber amplifier detects and the process of radio-frequency signal detection in light signal, is applied to the fiber amplifier circuit in cable TV network.
Background technology
Along with the further reach of the deep propelling of broadcasting and TV bidirectional network Transformation, the fast development of the integration of three networks and optical fiber technology, current domestic a lot of city all achieves the English full name of FTTB(: FibertoTheBuilding, Chinese is: Fiber-To-The-Building) and English full name: the FiberToTheHome of FTTH(, Chinese is: fiber to the home) scheme of registering one's residence.In the long range propagation of light, owing to being subject to impact and the restriction of the factors such as transmitting power, receiver sensitivity and fibre circuit loss decay, light pulse exports after Optical Fiber Transmission certain distance from optical sender, its amplitude can be decayed, waveform also there will be distortion, therefore, carry out the optical signal transmission growing distance, need after optical signal transmission certain distance, to add amplifier, to amplify lifting optical signal power.Fiber amplifier is owing to having the superior function of directly being amplified by light signal and obtaining applying more and more widely at optical communication field.In a lot of schemes of broadcasting and TV bilateral network, the transmission of cable TV downstream signal all have employed the mode of 1550nm optical sender+fiber amplifier+optical branching device+optical receiver, can avoid PON(English name is thus: PassiveOpticalNetwork, Chinese is: passive optical-fiber network) the long light wave of the up-downgoing 1310/1490nm of data network, correspondingly, the demand of current 1550nm fiber amplifier just constantly increases.
In the prior art, the fiber amplifier of most equipment manufacturer all can detect the power of I/O light signal, and using the data that the record Real-Time Monitoring parameter as operating state, these data also may be used for the input parameter of fiber amplifier controlling functions.Generally, when detecting within the permission input range of the power of input optical signal at fiber amplifier, fiber amplifier will be opened laser and enter normal operating conditions; There is no input optical signal power when detecting, or optical signal power beyond the permission input range of fiber amplifier time, fiber amplifier will cut out laser, make equipment be in holding state.
The theory diagram of conventional fiber amplifier as shown in Figure 1.This conventional fiber amplifier is provided with the first optical branching device 2A, the first photodetector 3A and the first operation amplifier unit 4A successively at input, and is provided with the second optical branching device 2B, the second photodetector 3B and the second operation amplifier unit 4B successively at output.Shunt light signal is sent into the first photodetector 3A, the second photodetector 3B by the first described optical branching device 2A, the second optical branching device 2B respectively, the first described photodetector 3A, the second photodetector 3B record luminous power and detect magnitude of voltage, MCU processor unit 5 is sent into after amplifying respectively again through the first operation amplifier unit 4A, the second operation amplifier unit 4B, described MCU processor unit 5 pairs of two-way detect magnitude of voltage and judge, and control fiber amplifier unit 1 according to judged result.In such scheme, if the power of the input optical signal of fiber amplifier is normal, but when causing not having radiofrequency signal in input optical signal because of front radio-frequency Network Abnormal, fiber amplifier still can be opened laser and start normal work, now, the reality of work of fiber amplifier is without any meaning, and rear class optical receiver can not obtain any useful radiofrequency signal in order to be supplied to user.
In view of above-mentioned prior art, be necessary to be improved the structure of existing fiber amplifier, for this reason, the applicant has done useful design, and technical scheme described below produces under this background.
Summary of the invention
The purpose of this utility model is to provide a kind of fiber amplifier with radio frequency measuring ability, can solve fiber amplifier when not having radiofrequency signal and still can open laser and the problem of starting working, can extend the useful life of laser and complete machine.
The purpose of this utility model reaches like this, a kind of fiber amplifier with radio frequency measuring ability, comprise fiber amplifier unit and MCU processor unit, the first optical branching device is provided with at the input side of described fiber amplifier unit, first photodetector and the first operation amplifier unit, the second optical branching device is provided with at the outlet side of fiber amplifier unit, second photodetector and the second operation amplifier unit, the first described optical branching device input optical signal, first optical branching device is connected with the first photodetector and fiber amplifier unit respectively, first photodetector connects the first operation amplifier unit, the second described optical branching device output optical signal, second optical branching device is connected with the second photodetector and fiber amplifier unit respectively, second photodetector connects the second operation amplifier unit, first operation amplifier unit is connected MCU processor unit respectively with the second operation amplifier unit, it is characterized in that: also comprise the first radiofrequency signal processing unit and the second radiofrequency signal processing unit, the first described radiofrequency signal processing unit is connected with the first photodetector and MCU processor unit respectively, the second described radiofrequency signal processing unit is connected with the second photodetector and MCU processor unit respectively.
In a specific embodiment of the present utility model, the first described radiofrequency signal processing unit comprises radio frequency detecting unit, and described radio frequency detecting unit is connected with the first described photodetector and MCU processor unit respectively.
In another specific embodiment of the present utility model, the first described radiofrequency signal processing unit also comprises radio frequency amplifying unit and operation amplifier unit, described radio frequency amplifying unit is connected with the first described photodetector and radio frequency detecting unit respectively, radio frequency detecting unit concatenation operation amplifying unit, the MCU processor unit described in operation amplifier unit connects.
In another specific embodiment of the present utility model, described radio frequency detecting unit comprises inductance L, diode D, resistance R and electric capacity C, first photodetector described in the connection of one end of described inductance L, the centre tap of inductance L connects the positive pole of diode D, the negative pole of diode D is connected with one end of one end of resistance R and electric capacity C, and the MCU processor unit described in common connection, the other end common ground of the other end of inductance L, the other end of resistance R and electric capacity C.
In another specific embodiment of the present utility model, the structure of the second described radiofrequency signal processing unit is identical with the structure of the first described radiofrequency signal processing unit.
The utility model is owing to have employed said structure, compared with prior art, the beneficial effect had is: described first, second radiofrequency signal processing unit can respectively to the input of fiber amplifier, radiofrequency signal in outlet side light signal detects, if the power of the input optical signal of fiber amplifier is normal, but when causing not having radiofrequency signal in input optical signal because of front radio-frequency Network Abnormal, MCU processor unit can judge that the radio frequency of radiofrequency signal detects magnitude of voltage and extremely closes laser, equipment is made to be in holding state, thus can the laser of extended fiber amplifier and the useful life of complete machine, input, outlet side radiofrequency signal can also directly export with RF-wise, for local Real-Time Monitoring or other purposes by first, second radiofrequency signal processing unit respectively.
Accompanying drawing explanation
Fig. 1 is the theory diagram of conventional fiber amplifier.
Fig. 2 is the theory diagram of fiber amplifier described in the utility model.
Fig. 3 is the theory diagram of the first radiofrequency signal processing unit described in the utility model.
Fig. 4 is the electrical schematic diagram of radio frequency detecting unit described in the utility model.
Embodiment
Technical spirit of the present utility model and beneficial effect can be fully understood in order to make the public; applicant will describe in detail embodiment of the present utility model below by reference to the accompanying drawings; but applicant is not the restriction to technical scheme to the description of embodiment, any changing in the form rather than substance according to the utility model design all should be considered as protection range of the present utility model.
Refer to Fig. 2, a kind of fiber amplifier with radio frequency measuring ability, comprise fiber amplifier unit 1 and MCU processor unit 5, be provided with the first optical branching device 2A, the first photodetector 3A and the first operation amplifier unit 4A at the input side of described fiber amplifier unit 1, be provided with the second optical branching device 2B, the second photodetector 3B and the second operation amplifier unit 4B at the outlet side of fiber amplifier unit 1.The first described optical branching device 2A is connected with the first photodetector 3A and fiber amplifier unit 1 respectively, first photodetector 3A connects the first operation amplifier unit 4A, the second described optical branching device 2B is connected with the second photodetector 3B and fiber amplifier unit 1 respectively, second photodetector 3B connects the second operation amplifier unit 4B, and the first operation amplifier unit 4A is connected MCU processor unit 5 respectively with the second operation amplifier unit 4B.Described fiber amplifier also comprises the first radiofrequency signal processing unit 6A and the second radiofrequency signal processing unit 6B, the first described radiofrequency signal processing unit 6A is connected with the first photodetector 3A and MCU processor unit 5 respectively, and the second described radiofrequency signal processing unit 6B is connected with the second photodetector 3B and MCU processor unit 5 respectively.
The input of the first described optical branching device 2A connects input optical signal as the input of this fiber amplifier, and input optical signal is divided into two-way by the first optical branching device 2A.One tunnel inputs the second optical branching device 2B through fiber amplifier unit 1, and the output of the second optical branching device 2B is as the output output optical signal of fiber amplifier; Another road inputs the first photodetector 3A, and the luminous power of this input shunt light signal recorded is detected magnitude of voltage and sends the first operation amplifier unit 4A to by the first photodetector 3A, inputs to MCU processor unit 5 after being amplified by the first operation amplifier unit 4A.Another output of second optical branching device 2B provides an output component light signal to the second photodetector 3B, the luminous power of this output component light signal recorded is detected magnitude of voltage and sends the second operation amplifier unit 4B to by the second photodetector 3B, inputs to MCU processor unit 5 after being amplified by the second operation amplifier unit 4B.On the other hand, first photodetector 3A exports an input radio frequency test signal to the first radiofrequency signal processing unit 6A, and the radio frequency of the input radio frequency test signal obtained is detected magnitude of voltage and exports to MCU processor unit 5 by the first radiofrequency signal processing unit 6A; Similar, second photodetector 3B exports an output radio frequency test signal to the second radiofrequency signal processing unit 6B, and the radio frequency of the output radio frequency test signal obtained is detected magnitude of voltage and exports to MCU processor unit 5 by the second radiofrequency signal processing unit 6B.MCU processor unit 5 respectively radio frequency detection magnitude of voltage and original luminous power detection magnitude of voltage judges, and implements corresponding control according to judged result to fiber amplifier unit 1.If the power of the input optical signal of fiber amplifier is normal, but when causing not having radiofrequency signal in input optical signal because of front radio-frequency Network Abnormal, MCU processor unit 5 can judge that radio frequency detects magnitude of voltage and extremely closes laser, equipment is made to be in holding state, thus can the laser of extended fiber amplifier and the useful life of complete machine.In addition, input, output radiofrequency signal also directly export with RF-wise, for local Real-Time Monitoring or other purposes by the first radiofrequency signal processing unit 6A, the second radiofrequency signal processing unit 6B respectively.
Refer to Fig. 3 and composition graphs 2, the first described radiofrequency signal processing unit 6A comprises radio frequency amplifying unit 7, radio frequency detecting unit 8 and operation amplifier unit 9, described radio frequency amplifying unit 7 is connected with the first described photodetector 3A and radio frequency detecting unit 8 respectively, radio frequency detecting unit 8 concatenation operation amplifying unit 9, operation amplifier unit 9 connects described MCU processor unit 5.
Refer to Fig. 4, in the present embodiment, described radio frequency detecting unit 8 comprises inductance L, diode D, resistance R and electric capacity C, wherein, described inductance L is radio-frequency (RF) match coil, described diode D is radio frequency detector diode, and described resistance R is load resistance, and described electric capacity C is filter capacitor.The first photodetector 3A described in the connection of one end of inductance L, the centre tap of inductance L connects the positive pole of diode D, the negative pole of diode D is connected with one end of one end of resistance R and electric capacity C, and the MCU processor unit 5 described in common connection, the other end common ground of the other end of inductance L, the other end of resistance R and electric capacity C.Radio frequency test signal inputs to diode D after inductance L, obtains a detection magnitude of voltage.Described radio frequency testing circuit 8 is not limited to said structure, also realizes by other similar circuit or special chip.
Please continue to refer to Fig. 2 ~ Fig. 4, the first described photodetector 3A exports radio frequency test signal to radio frequency amplifying unit 7, after radio frequency test signal is amplified to suitable signal strength signal intensity by radio frequency amplifying unit 7, obtain radio frequency through radio frequency detecting unit 8 again and detect magnitude of voltage, this radio frequency detects magnitude of voltage and sends into operation amplifier unit 9, inputs to MCU processor unit 5 after being amplified to suitable amplitude by operation amplifier unit 9.Meanwhile, radio frequency amplifying unit 7 also directly can export radiofrequency signal, for local Real-Time Monitoring or other purposes.In addition, if the intensity of the radio frequency test signal of the first photodetector 3A output is comparatively large, makes radio frequency test signal and radio frequency detect magnitude of voltage and be suitable for rear class process, then can omit radio frequency amplifying unit 7 and operation amplifier unit 9.In the present embodiment, because the structure of the second described radiofrequency signal processing unit 6B is identical with the structure of the first described radiofrequency signal processing unit 6A, the explanation to its operation principle is therefore omitted.
Claims (5)
1.
a kind of fiber amplifier with radio frequency measuring ability, comprise fiber amplifier unit (1) and MCU processor unit (5), the first optical branching device (2A) is provided with at the input side of described fiber amplifier unit (1), first photodetector (3A) and the first operation amplifier unit (4A), the second optical branching device (2B) is provided with at the outlet side of fiber amplifier unit (1), second photodetector (3B) and the second operation amplifier unit (4B), described the first optical branching device (2A) input optical signal, first optical branching device (2A) is connected with the first photodetector (3A) and fiber amplifier unit (1) respectively, first photodetector (3A) connects the first operation amplifier unit (4A), described the second optical branching device (2B) output optical signal, second optical branching device (2B) is connected with the second photodetector (3B) and fiber amplifier unit (1) respectively, second photodetector (3B) connects the second operation amplifier unit (4B), first operation amplifier unit (4A) is connected MCU processor unit (5) respectively with the second operation amplifier unit (4B), it is characterized in that: also comprise the first radiofrequency signal processing unit (6A) and the second radiofrequency signal processing unit (6B), the first described radiofrequency signal processing unit (6A) is connected with the first photodetector (3A) and MCU processor unit (5) respectively, the second described radiofrequency signal processing unit (6B) is connected with the second photodetector (3B) and MCU processor unit (5) respectively.
2.
the fiber amplifier of band radio frequency measuring ability according to claim 1, it is characterized in that the first described radiofrequency signal processing unit (6A) comprises radio frequency detecting unit (8), described radio frequency detecting unit (8) is connected with described the first photodetector (3A) and MCU processor unit (5) respectively.
3.
the fiber amplifier of band radio frequency measuring ability according to claim 2, it is characterized in that the first described radiofrequency signal processing unit (6A) also comprises radio frequency amplifying unit (7) and operation amplifier unit (9), described radio frequency amplifying unit (7) is connected with described the first photodetector (3A) and radio frequency detecting unit (8) respectively, radio frequency detecting unit (8) concatenation operation amplifying unit (9), the MCU processor unit (5) described in operation amplifier unit (9) connects.
4.
the fiber amplifier of band radio frequency measuring ability according to claim 2, it is characterized in that described radio frequency detecting unit (8) comprises inductance L, diode D, resistance R and electric capacity C, first photodetector (3A) described in the connection of one end of described inductance L, the centre tap of inductance L connects the positive pole of diode D, the negative pole of diode D is connected with one end of one end of resistance R and electric capacity C, and the MCU processor unit (5) described in common connection, the other end common ground of the other end of inductance L, the other end of resistance R and electric capacity C.
5.
the fiber amplifier of band radio frequency measuring ability according to claim 1, is characterized in that the structure of the second described radiofrequency signal processing unit (6B) is identical with the structure of the first described radiofrequency signal processing unit (6A).
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CN201520682639.2U CN204886972U (en) | 2015-09-07 | 2015-09-07 | Take radio frequency to detect optical fiber amplifier of function |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN105071864A (en) * | 2015-09-07 | 2015-11-18 | 江苏亿通高科技股份有限公司 | Optical fiber amplifier with radio frequency detection function |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105071864A (en) * | 2015-09-07 | 2015-11-18 | 江苏亿通高科技股份有限公司 | Optical fiber amplifier with radio frequency detection function |
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