CN201887771U - High-resolution optical fiber analogy converter with bias circuit - Google Patents
High-resolution optical fiber analogy converter with bias circuit Download PDFInfo
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- CN201887771U CN201887771U CN201020631288XU CN201020631288U CN201887771U CN 201887771 U CN201887771 U CN 201887771U CN 201020631288X U CN201020631288X U CN 201020631288XU CN 201020631288 U CN201020631288 U CN 201020631288U CN 201887771 U CN201887771 U CN 201887771U
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Abstract
Disclosed is a high-resolution optical fiber analog converter with a bias circuit. An optical fiber transmitting module circuit and an optical fiber receiving module circuit are used in an analog conversion procedure, analog signals are converted into corresponding pulse signals with frequency ranging from 0 kHz to 500 kHz by a voltage frequency conversion chip, and the pulse signals are transmitted by an optical fiber. After receiving the pulse signals, the optical fiber receiving module restores the pulse signals back into 0V-10V voltage signals by the aid of a voltage frequency conversion circuit, and the voltage signals are conditioned by the voltage bias circuit used in a signal conversion procedure. The signals enter the optical fiber transmitting module circuit and are conditioned, bias voltage is added so that the conditioned analog signals are converted into the voltage signals, then the voltage signals are converted into the pulse signals by the aid of voltage frequency, and the pulse signals are sent out by the optical fiber transmitting circuit. Alternately, the pulse signals are received by an optical fiber receiver, converted into the voltage signals by the aid of the frequency voltage and conditioned, and the bias voltage is added so that the conditioned voltage signals are eventually converted into analog signals to be sent out.
Description
Technical field
The utility model relates to a kind of chromacoder of electric component, is a kind of high-resolution analog quantity optic fiber converter with biasing circuit specifically, is mainly used in the input and the transmission of powerful electric equipment.
Background technology
In industry spot, high-power electrical equipment is widely used.The powerful magnetic field environment of powerful device requires a kind of antijamming capability strong, high-isolating, and time delay is little, and the checkout gear that transmission precision is high is used for the detection and the transmission of in-site modeling amount signal.The quality of input and transmission directly has influence on the rapidity and the accuracy of object control, and therefore, the powerful device particularly signal transmission of high-tension apparatus is a very crucial problem.And optical fiber is as a kind of high isolation, and jamproof transmission medium is widely used.Development based on the optical fiber transmission technique of optical-fibre channel, the bottleneck and the electromagnetic interference problem of the transmission of traditional microwave transmission and coaxial cable have not only been overcome, and itself also have many advantages, as, low delay, bandwidth, loss are low, transmission contains much information, long transmission distance, good confidentiality, temperature stability height, life-span are long etc., for optical fiber provides wide prospect in the application of field of signal transmissions.
In high pressure, strong magnetic field circumstance, if analog signal is directly transmitted by twisted-pair feeder, the interference meeting of high-intensity magnetic field produces considerable influence to the precision of analog signal; Simultaneously, consider safety factor, on high-tension side signal also should not directly be read by the equipment of low-pressure side, when breaking down in the high-pressure side like this, expands low-pressure system easily to.
At present many at the scheme of analog quantity Optical Fiber Transmission, the patent documentation that still finds no the aspect, pass by preliminary search is reported.Have only following paper be with present technique recently like scheme:
1, " high-precision analog amount optic fiber converter " adopts LM331 as the electric voltage frequency conversion chip, comprises SN75451 as the optical fiber chip for driving, optical fiber sending module HFBR1414T and optic fiber transceiver module HFBR2412T.
2, " the two level Optical Fiber Transmission devices of high accuracy alternating current-direct current " adopt AD652 as the electric voltage frequency conversion chip, comprise SN75451 as the optical fiber chip for driving, the 74LS04 inverter, and active crystal oscillator and optical fiber send and receiver module.
3, " a kind of electronic fuse signal transmitting apparatus " also is to adopt LM331 as the electric voltage frequency conversion chip, and the Doppler signal that produces when mainly electronic fuse being worked is modulated and transmitted.
Find by reading above-mentioned paper, existing technology for reach high-precision transportation simulator amount purpose, three kinds of scheme technical schemes have been proposed, wherein:
The electric voltage frequency conversion chip of scheme 3 also is the LM331 that adopts, and the technical disadvantages of its existence and scheme 1 are similar.
Therefore all there are some problems in prior art aspect the analog quantity Optical Fiber Transmission, especially realizing potential isolation, avoid the damage of high pressure to detection and control appliance, reduce signal attenuation, prevent to disturb, improve aspects such as certainty of measurement, still can't satisfy the requirement of some occasion remote transmission signals, therefore need further to be improved.
The utility model content
The purpose of this utility model, exactly for the existing deficiency of analog quantity fiber transmission device in the input that overcomes existing powerful electric equipment and the control system, analog quantity fiber transmission device in a kind of detection of high-power electrical equipment and the control system is proposed, it is anti-interference strong that this device has potential isolation, characteristics such as certainty of measurement height, can satisfy the industrial applications of some needs distant signal transmission, avoided the damage of high pressure to detection and control appliance, reduce signal attenuation again to the full extent, improved the control precision and the accuracy of system.
The technical scheme that its technical problem that solves the utility model adopts is: a kind of high-resolution analog quantity optic fiber converter with biasing circuit, in the analog quantity conversion, optical fiber sending module circuit and optic fiber transceiver module circuit are set, by the electric voltage frequency conversion chip analog signals is converted to the pulse signal of corresponding with it 0-500kHz frequency, then by this pulse signal of Optical Fiber Transmission.After optic fiber transceiver module receives pulse signal, by voltage frequency conversioning circuit it is reduced to the 0-10V voltage signal again.And in conversion of signals, be provided with voltage offset electric circuit signal is nursed one's health, improve the primary frequency of going back of signal.
Wherein, described optical fiber sending module circuit comprises an electric voltage frequency conversion chip, two operational amplifiers, a not circuit chip, an optical fiber chip for driving, the voltage offset electric circuit that fiber optic transmitter and voltage-stabiliser tube constitute.What optical fiber sending module circuit was imported is 0-10V voltage signal or 0-20mA current signal, 0-10V voltage signal or 0-20mA current signal at first insert "-" end of first operational amplifier by one second resistance, the output of first operational amplifier inserts "-" end of second operational amplifier by one the 5th resistance; Input and output cross-over connection at first operational amplifier have one the 3rd resistance, and the output valve of first operational amplifier is by the ratio decision of second resistance and the 3rd resistance.Between the output of first operational amplifier and the 5th resistance, have access to the voltage offset electric circuit that constitutes by first voltage-stabiliser tube, the output of the voltage offset electric circuit that first voltage-stabiliser tube constitutes is added to the output of first operational amplifier by the 13 resistance, and enters "-" end of second operational amplifier by the 5th resistance; Input and output cross-over connection at second operational amplifier have one the 6th resistance, and the output of second operational amplifier is by the ratio decision of the 5th resistance and the 6th resistance.The output of second operational amplifier converts the 0-10V voltage signal to the voltage signal of 3V-10V, insert voltage frequency conversioning circuit by the 8th resistance, convert the rectangular pulse signal that frequency is 150kHz-500kHz to, rectangular pulse signal is through filtering, with fiber optic transmitter electrical signal conversion is become light signal through the optical fiber chip for driving at last, and send to the optic fiber transceiver module circuit by optical fiber.
Described optic fiber transceiver module circuit comprises an electric voltage frequency conversion chip, two operational amplifiers, a not circuit chip, the voltage offset electric circuit that fiber optic receiver and voltage-stabiliser tube constitute.After fiber optic receiver in the optic fiber transceiver module circuit receives the pulse signal that frequency is 150kHz-500kHz, at first importing the filter circuit that is made of second resistance, first electric capacity carries out filtering and becomes rectangular pulse signal, the output of filter circuit inserts the not circuit chip, and rectangular pulse signal is carried out filter shape through the not circuit chip again; The not circuit chip inserts frequency-voltage conversion circuit by second electric capacity and the 3rd resistance, rectangular pulse signal is converted to the voltage signal of 3V-10V; Insert "-" end of four-operational amplifier again through the 9th resistance; The output of the voltage offset electric circuit that is made of first voltage-stabiliser tube is added to the output of four-operational amplifier by the 16 resistance; The output of four-operational amplifier is held by "-" that resistance inserts the 5th operational amplifier, and the 5th operational amplifier converts output signal to the output of the voltage signal of 0-10V.Input and output cross-over connection at four-operational amplifier have 1 the 11 resistance, and the output of four-operational amplifier is by the ratio decision of the 9th resistance and the 11 resistance; Input and output cross-over connection at the 5th operational amplifier have 1 the 14 resistance, and the output of the 5th operational amplifier is by the ratio decision of the 14 resistance and the 12 resistance.
Optical fiber sending module circuit and optic fiber transceiver module circuit that the utility model utilization has voltage offset electric circuit carry out the conversion of analog quantity optical fiber, compare with described 3 schemes of background, at first avoided the direct connection of hi-lo circuit signal in the Optical Fiber Transmission mode, reached the purpose of potential isolation, avoided the damage of high-pressure side, also be fit to long-distance transmissions simultaneously detection and control appliance; Moreover avoided signal attenuation to the full extent, prevented interference; The increase of biasing circuit has improved the reducing property of the analog signals of variation at a high speed, has improved certainty of measurement to a certain extent.
Description of drawings
Fig. 1 is an optical fiber sending module schematic block circuit diagram of the present utility model;
Fig. 2 is an optic fiber transceiver module schematic block circuit diagram of the present utility model;
Fig. 3 is optical fiber sending module circuit theory diagrams of the present utility model;
Fig. 4 is optic fiber transceiver module circuit theory diagrams of the present utility model.
Embodiment
Below in conjunction with drawings and Examples the utility model is further specified.
Shown in accompanying drawing 1-2, the utility model relates to a kind of high-resolution analog quantity optical fiber conversion with biasing circuit, in the analog quantity conversion, optical fiber sending module circuit and optic fiber transceiver module circuit are set, by the electric voltage frequency conversion chip analog signals is converted to the pulse signal of corresponding with it 0-500kHz frequency, then by this pulse signal of Optical Fiber Transmission.After optic fiber transceiver module receives pulse signal, by voltage frequency conversioning circuit it is reduced to the 0-10V voltage signal again.And in conversion of signals, be provided with voltage offset electric circuit signal is nursed one's health, improve the primary frequency of going back of signal.
Wherein, optical fiber sending module circuit working mode is: the current signal of input 0-10V voltage signal or 0-20mA enters optical fiber sending module circuit, entering signal modulate circuit at first, and adding bias voltage, with analog signal conversion is the signal of 3V-10V, enter voltage frequency conversioning circuit, convert the pulse signal that frequency is 150kHz-500kHz to, and pulse signal is sent by the optical fiber transtation mission circuit.Optic fiber transceiver module circuit working mode is: after the fiber optic receiver in the optic fiber transceiver module circuit receives the pulse signal that frequency is 150kHz-500kHz, convert the voltage signal of 3V-10V to by frequency-voltage conversion circuit, pass through signal conditioning circuit, and the adding bias voltage, its analog signals that finally converts 0-10V to is sent.
In the analog quantity optic fiber converter, comprise optical fiber sending module circuit and optic fiber transceiver module circuit.Wherein, described optical fiber sending module circuit comprises an electric voltage frequency conversion chip, two operational amplifiers, a not circuit chip, an optical fiber chip for driving, the voltage offset electric circuit that fiber optic transmitter and voltage-stabiliser tube constitute.What optical fiber sending module circuit was imported is 0-10V voltage signal or 0-20mA current signal, 0-10V voltage signal or 0-20mA current signal at first insert "-" end of first operational amplifier by one second resistance, the output of first operational amplifier inserts "-" end of second operational amplifier by one the 5th resistance; Input and output cross-over connection at first operational amplifier have one the 3rd resistance, and the output valve of first operational amplifier is by the ratio decision of second resistance and the 3rd resistance.Between the output of first operational amplifier and the 5th resistance, have access to the voltage offset electric circuit that constitutes by first voltage-stabiliser tube, the output of the voltage offset electric circuit that first voltage-stabiliser tube constitutes is added to the output of first operational amplifier by the 13 resistance, and enters "-" end of second operational amplifier by the 5th resistance; Input and output cross-over connection at second operational amplifier have one the 6th resistance, and the output of second operational amplifier is by the ratio decision of the 5th resistance and the 6th resistance.The output of second operational amplifier converts the 0-10V voltage signal to the voltage signal of 3V-10V, insert voltage frequency conversioning circuit by the 8th resistance, convert the rectangular pulse signal that frequency is 150kHz-500kHz to, rectangular pulse signal is through filtering, with fiber optic transmitter electrical signal conversion is become light signal through the optical fiber chip for driving at last, and send to the optic fiber transceiver module circuit by optical fiber.
Described optic fiber transceiver module circuit comprises an electric voltage frequency conversion chip, two operational amplifiers, a not circuit chip, the voltage offset electric circuit that fiber optic receiver and voltage-stabiliser tube constitute.After fiber optic receiver in the optic fiber transceiver module circuit receives the pulse signal that frequency is 150kHz-500kHz, at first importing the filter circuit that is made of second resistance, first electric capacity carries out filtering and becomes rectangular pulse signal, the output of filter circuit inserts the not circuit chip, and rectangular pulse signal is carried out filter shape through the not circuit chip again; The not circuit chip inserts frequency-voltage conversion circuit by second electric capacity and the 3rd resistance, rectangular pulse signal is converted to the voltage signal of 3V-10V; Insert "-" end of four-operational amplifier again through the 9th resistance; The output of the voltage offset electric circuit that is made of first voltage-stabiliser tube is added to the output of four-operational amplifier by the 16 resistance; The output of four-operational amplifier is held by "-" that resistance inserts the 5th operational amplifier, and the 5th operational amplifier converts output signal to the output of the voltage signal of 0-10V.Input and output cross-over connection at four-operational amplifier have 1 the 11 resistance, and the output of four-operational amplifier is by the ratio decision of the 9th resistance and the 11 resistance; Input and output cross-over connection at the 5th operational amplifier have 1 the 14 resistance, and the output of the 5th operational amplifier is by the ratio decision of the 12 resistance and the 14 resistance.
The analog quantity optic fiber converter that is proposed according to above-mentioned analog quantity optical fiber conversion method is that a kind of high-resolution analog quantity optic fiber converter with biasing circuit is made up of optical fiber sending module circuit and optic fiber transceiver module circuit two parts.
The AD650 electric voltage frequency conversion chip peripheral circuit of this analog quantity optic fiber converter is simple.This circuit is under ± 15V supply voltage, and static current of lcd is less than 15mA, and its full scale frequency height can reach 1MHz; Have very low nonlinearity: at 10kHz full scale non-linear hour degree less than 0.002%, at l0kHz full scale non-linear hour degree less than 0.005%, at 1MHz full scale non-linear hour degree less than 0.07%.AD650 can be used as voltage to frequency converter, can be used as FV convertor again.
The utility model has the advantage of:
1, employing is with the AD650 electric voltage frequency conversion chip of voltage bias peripheral circuit, the VFC(voltage to frequency converter) application circuit of device is simple, the performance requirement of peripheral cell is not high, adaptable to environment, conversion speed also is not less than general biproduct somatotype A/D device, and, also have good precision, linearity, the characteristic of integration input and certain temperature characterisitic, therefore, its performance is difficult to realize with other technology. In addition, owing to the analog quantity with frequency representation is a kind of serial data, be easy to data channel and process, frequency information can be with very high noise suppressed than transmitting at very long optical fiber transmission line.
2, because the full scale frequency of transmission pulse signal can reach 500kHz, the digital quantity that obtains after the VFC conversion is directly proportional with the full scale frequency of VFC, and the full scale frequency that therefore increases VFC just can improve the resolution ratio of A/D conversion.
3, for the analog input signal near near the conversion of the V/F zero point, when input voltage is crossed when low the VFC(voltage to frequency converter) output frequency is lower, so that its conversion accuracy descends, and when input voltage raise, the efficient of frequency inverted improved, and precision will rise. Therefore, for improving its conversion accuracy, at bias voltage of input signal stack it is changed in the higher zone of the linearity, thereby improved the conversion accuracy of V/F conversion.
Claims (7)
1. high-resolution analog quantity optic fiber converter with biasing circuit, it is characterized in that: in the analog quantity conversion, optical fiber sending module circuit and optic fiber transceiver module circuit are set, by the electric voltage frequency conversion chip analog signals is converted to the pulse signal of corresponding with it 0-500kHz frequency, then by this pulse signal of Optical Fiber Transmission; After optic fiber transceiver module receives pulse signal, by voltage frequency conversioning circuit it is reduced to the 0-10V voltage signal again; And in conversion of signals, be provided with voltage offset electric circuit signal is nursed one's health.
2. the high-resolution analog quantity optic fiber converter of band biasing circuit as claimed in claim 1, it is characterized in that: described optical fiber sending module circuit comprises an electric voltage frequency conversion chip, two operational amplifiers, a not circuit chip, an optical fiber chip for driving, the voltage offset electric circuit that fiber optic transmitter and voltage-stabiliser tube constitute; What optical fiber sending module circuit was imported is 0-10V voltage signal or 0-20mA current signal, 0-10V voltage signal or 0-20mA current signal at first insert "-" end of first operational amplifier by one second resistance, the output of first operational amplifier inserts "-" end of second operational amplifier by one the 5th resistance; Between the output of first operational amplifier and the 5th resistance, have access to the voltage offset electric circuit that constitutes by first voltage-stabiliser tube, the output of the voltage offset electric circuit that first voltage-stabiliser tube constitutes is added to the output of first operational amplifier by the 13 resistance, and enters "-" end of second operational amplifier by the 5th resistance; The output of second operational amplifier converts the 0-10V voltage signal to the voltage signal of 3V-10V, insert voltage frequency conversioning circuit by the 8th resistance, convert the rectangular pulse signal that frequency is 150kHz-500kHz to, rectangular pulse signal is through filtering, with fiber optic transmitter electrical signal conversion is become light signal through the optical fiber chip for driving at last, and send to the optic fiber transceiver module circuit by optical fiber.
3. the high-resolution analog quantity optic fiber converter of band biasing circuit as claimed in claim 2, it is characterized in that: input and output cross-over connection at first operational amplifier have one the 3rd resistance, and the output valve of first operational amplifier is by the ratio decision of second resistance and the 3rd resistance;
Input and output cross-over connection at second operational amplifier have one the 6th resistance, and the output of second operational amplifier is by the ratio decision of the 5th resistance and the 6th resistance.
4. as the high-resolution analog quantity optic fiber converter of claim 2 or 3 described band biasing circuits, it is characterized in that: described electric voltage frequency conversion chip is an AD650 electric voltage frequency conversion chip, operational amplifier is the OPA4227 operational amplifier, the not circuit chip is 74HC14D, the optical fiber chip for driving is a SN75451 optical fiber chip for driving, and fiber optic transmitter is the HFBR1414T fiber optic transmitter.
5. the high-resolution analog quantity optic fiber converter of band biasing circuit as claimed in claim 1, it is characterized in that: described optic fiber transceiver module circuit comprises an electric voltage frequency conversion chip, a not circuit chip, two operational amplifiers, the voltage offset electric circuit that fiber optic receiver and voltage-stabiliser tube constitute; After fiber optic receiver in the optic fiber transceiver module circuit receives the pulse signal that frequency is 150kHz-500kHz, at first importing the filter circuit that is made of second resistance, first electric capacity carries out filtering and becomes rectangular pulse signal, the output of filter circuit inserts the not circuit chip, and rectangular pulse signal is carried out filter shape through the not circuit chip again; The not circuit chip inserts frequency-voltage conversion circuit by second electric capacity and the 3rd resistance, rectangular pulse signal is converted to the voltage signal of 3V-10V; Insert "-" end of four-operational amplifier again through the 9th resistance; The output of the voltage offset electric circuit that is made of first voltage-stabiliser tube is added to the output of four-operational amplifier by the 16 resistance; The output of four-operational amplifier is held by "-" that resistance inserts the 5th operational amplifier, and the 5th operational amplifier converts output signal to the output of the voltage signal of 0-10V.
6. the high-resolution analog quantity optic fiber converter of band biasing circuit as claimed in claim 5, it is characterized in that: input and output cross-over connection at first operational amplifier have 1 the 11 resistance, and the output valve of first operational amplifier is by the ratio decision of the 9th resistance and the 11 resistance;
Input and output cross-over connection at second operational amplifier have 1 the 14 resistance, and the output of second operational amplifier is by the ratio decision of the 12 resistance and the 14 resistance.
7. as the high-resolution analog quantity optic fiber converter of claim 5 or 6 described band biasing circuits, it is characterized in that:
Described electric voltage frequency conversion chip is an AD650 electric voltage frequency conversion chip, and operational amplifier is the OPA4227 operational amplifier, and the not circuit chip is a HC7414D not circuit chip, and fiber optic receiver is the HFBR2412T fiber optic receiver.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102082607A (en) * | 2010-11-30 | 2011-06-01 | 株洲变流技术国家工程研究中心有限公司 | High resolution analog quantity optical fiber conversion method and converter with biasing circuit |
CN105180996A (en) * | 2015-08-04 | 2015-12-23 | 宁波摩米创新工场电子科技有限公司 | Digitization photoelectrical detection system |
CN106953632A (en) * | 2017-03-20 | 2017-07-14 | 太原工业学院 | A kind of many level adaptive circuits of code device signal optical fiber long-distance transmissions |
CN109841051A (en) * | 2019-02-22 | 2019-06-04 | 山东欧德利电气设备有限公司 | A kind of remote analog amount transmitted in both directions technology |
-
2010
- 2010-11-30 CN CN201020631288XU patent/CN201887771U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102082607A (en) * | 2010-11-30 | 2011-06-01 | 株洲变流技术国家工程研究中心有限公司 | High resolution analog quantity optical fiber conversion method and converter with biasing circuit |
CN102082607B (en) * | 2010-11-30 | 2014-04-16 | 株洲变流技术国家工程研究中心有限公司 | High resolution analog quantity optical fiber conversion method and converter with biasing circuit |
CN105180996A (en) * | 2015-08-04 | 2015-12-23 | 宁波摩米创新工场电子科技有限公司 | Digitization photoelectrical detection system |
CN106953632A (en) * | 2017-03-20 | 2017-07-14 | 太原工业学院 | A kind of many level adaptive circuits of code device signal optical fiber long-distance transmissions |
CN109841051A (en) * | 2019-02-22 | 2019-06-04 | 山东欧德利电气设备有限公司 | A kind of remote analog amount transmitted in both directions technology |
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