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CN101867365A - Circuit for converting direct-current positive and negative bipolar signal into unipolar signal through isolation - Google Patents

Circuit for converting direct-current positive and negative bipolar signal into unipolar signal through isolation Download PDF

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CN101867365A
CN101867365A CN 201010164067 CN201010164067A CN101867365A CN 101867365 A CN101867365 A CN 101867365A CN 201010164067 CN201010164067 CN 201010164067 CN 201010164067 A CN201010164067 A CN 201010164067A CN 101867365 A CN101867365 A CN 101867365A
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circuit
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direct
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CN101867365B (en
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陈超扬
马涛
奉启珠
邵曼芸
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Mornsun Guangzhou Science and Technology Ltd
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Mornsun Guangzhou Science and Technology Ltd
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Abstract

The invention relates to a circuit for converting direct-current positive and negative bipolar signal into unipolar signal through isolation, which comprises a signal input processing circuit, a MOSFET modulation circuit, a signal transformer, a driving transformer, a MOSFET demodulation circuit and a current addition circuit. In the circuit, the isolation of magnetism and electricity is performed by adopting the modulation-demodulation technology, and a polarity reversal current adder adopts a constant current signal outputted by a constant current source as an input reference signal of the inverted input end of an operational amplifier. The circuit improves the reliability of products and the conversion accuracy of the signal, and simultaneously, has a few components, reduces the cost of the products and reduces the volume of the products.

Description

A kind of circuit of converting direct-current positive and negative bipolar signal into unipolar signal through isolation
Technical field
The present invention relates to a kind of signal processing circuit, relate in particular to a kind of circuit of converting direct-current positive and negative bipolar signal into unipolar signal through isolation.
Background technology
At industrial control field, the utilization of direct-current positive/negative signal is very general, for example PLC, transmitter, Electric Machine Control etc.In actual applications, in order effectively to suppress common-mode noise between control appliance and the actuating equipment, public Signal Matching and the impedance matching of disturbing and realize control appliance interface and actuating equipment interface, usually signal is carried out effective isolation and convert unipolar signal to be complementary with other devices.
In the prior art direct-current positive/negative signal isolate convert the direct current unipolar signal to implementation method normally linear optical coupling isolate change-over circuit, its theory diagram is made up of 1 add circuit or subtraction circuit, two photoelectrical couplers (1) and (2), two biasing input circuits (1) and (2) and a differential amplifier circuit as shown in Figure 1.Add circuit or subtraction circuit are to be used for the positive/negative signal of input is converted to the single-stage signal.Because photoelectrical coupler has its distinctive work linear zone, the biasing input is the input current that is used for regulating photoelectrical coupler (1), makes it be operated in linear zone.And photoelectrical coupler (2) and biasing input (2) come the drift of coupling light electric coupling (1) and non-linear by differential amplifier circuit.Differential amplifier circuit also is used for the analog signal that obtains amplifying.
In this circuit commonly used add circuit as shown in Figure 2, according to the characteristics of amplifier " empty short " and " empty breaking ", 2 voltages of locating of N and P are 0, and the electric current that flows through 2 of N and P is 0, according to the current equation of node N, can draw:
V ref R 5 + V in R 4 = - ( - Vo ) R 6 ⇒ Vo = ( V ref R 5 + V in R 4 ) × R 6
As Vin=-5V~5V, get R 4=R 5=R 6, getting Vref is 5V, Vo=0~10V then, thus bipolar signal is converted to unipolar signal.This circuit needs strict apolegamy resistance, has both needed promptly to consider that all resistances reached unanimity, and makes the outer meeting resistance balance again, just can obtain above-mentioned computing formula.
This circuit subtraction circuit commonly used according to the characteristics of amplifier " empty short " and " empty disconnected ", utilizes superposition law as shown in Figure 3, can draw:
V o = R 5 R 5 + R 6 × V in + V ref R 4 × R f + R 5 R 5 + R 6 × V in
As Vin=-5V~5V, get R 4=R 5=R f=R 6, getting Vref is 5V, Vo=0~10V then, thus bipolar signal is converted to unipolar signal.This circuit is the same with add circuit, also needs strict apolegamy resistance, has both needed promptly to consider that all resistances reached unanimity, and makes the outer meeting resistance balance again, just can obtain above-mentioned computing formula.
The late-class circuit of this circuit add circuit or subtraction circuit partly is used to realize the isolation of input signal and output signal, circuit common as shown in Figure 4, photoelectrical coupler is made of a light-emitting diode and a light-sensitive device, the luminosity of light-emitting diode is directly proportional with electric current, when electric current increases to when causing that junction temperature raises, light-emitting diode is saturation condition, no longer in the linear work district, the biasing input circuit of photoelectrical coupler can determine to import the scope of its electric current, if but the biasing circuit design is bad, to make that photoelectrical coupler still was operated in linear zone when input current can not in very large range change; The output of two photoelectrical couplers is input to the in-phase end and the end of oppisite phase of amplifier (4) respectively by amplifier (2) and (3), difference is amplified to output again; Amplifier (5) mainly is to be used for zeroing; Wherein, the biasing input circuit of photoelectrical coupler (2) compensates the drift and the non-linear partial of photoelectrical coupler (1) by amplifying circuit, compensation proves effective, and the output of circuit is just only relevant with the input of photoelectrical coupler (1), therefore requires the characteristic of two photoelectrical couplers to reach unanimity.
Summary of the invention
The object of the invention is to provide a kind of direct-current positive/negative signal to isolate the circuit that converts the direct current unipolar signal to, and this circuit has not only improved reliability of products and conversion of signals precision greatly; Components and parts have still less reduced product cost, have dwindled small product size simultaneously.
Purpose of the present invention can realize by following scheme: a kind of circuit of converting direct-current positive and negative bipolar signal into unipolar signal through isolation, comprise the input signal processing unit, be used for converting the direct-current positive/negative voltage input signal to the direct-current positive/negative current signal; The main signal transformer is used for the isolation coupling direct-current positive/negative signal; Driving transformer is used for output and isolates the lock-out pulse drive control signal; MOS FET modulation circuit; The MOSFET demodulator circuit;
Described direct-current positive/negative signal connects the input of input signal processing unit, the output of input signal processing unit connects the centre tap of main signal primary winding, and the reference edge of input signal processing unit connects the common port of MOSFET modulation circuit;
Two outputs of MOSFETT modulation circuit connect the two ends of main signal primary winding respectively;
MOSFETT separates the two ends that two outputs making circuit connect main signal transformer secondary output winding respectively;
Elementary winding of driving transformer and secondary winding respectively have the output of two-way drive signal, connect the drive controlling end of MOSFET modulation and demodulation circuit respectively;
It is characterized in that, also comprise current adder circuit, the centre tap of described main signal transformer secondary output winding connects the input of current adder circuit, and the output of current adder circuit is a direct current unipolar signal output, and the reference edge of current adder circuit connects the common port of MOSFET demodulator circuit;
By two groups of lock-out pulse drive signals, control respectively MOSFET modulation and demodulation circuit by or the synchronous switching of conducting, realize the copped wave inversion of direct-current positive/negative current signal that the signal input processing circuit is converted to through voltage-to-current with this, direct-current positive/negative current signal after the copped wave inversion is converted into direct current monopolar current signal by current adder with the direct-current positive/negative current signal again through transformer isolation coupling output.
Current adder circuit of the present invention comprises an operational amplifier and a constant-current source; The inverting input of operational amplifier connects the output of constant-current source simultaneously as the input of current adder circuit; The in-phase input end of operational amplifier is as the reference edge of current adder circuit; The output of operational amplifier is the output of current adder circuit.Current adder circuit adopts the input reference signal of the constant current signal of constant-current source output as the operational amplifier reverse input end, utilize superposition law that the positive negative bipolar current signal of the isolation of MOSFET demodulator circuit output is converted to the single-stage current signal, for current signal in the long Distance Transmission than the voltage signal antijamming capability strong and good stability.
Be connected sample resistance between the inverting input of operational amplifier of the present invention and its output, be used for will output direct current monopolar current conversion of signals be direct current unipolar voltage signal.
Constant-current source of the present invention is formed by connecting by three terminal integrated voltage stabilizer and resistance R 3, and resistance R 3 two ends connect the adjustment end and the voltage output end of three terminal integrated voltage stabilizer respectively, adjusts end and also connects negative supply; The constant current output concatenation operation amplifier's inverting input of three terminal integrated voltage stabilizer.
Constant-current source of the present invention is formed by connecting by the adjustable voltage-stabiliser tube of three ends, NPN triode and two resistance; Resistance R 4 is connected between the anode and reference edge of adjustable voltage-stabiliser tube; The anode of adjustable voltage-stabiliser tube connects negative supply simultaneously, the reference edge of adjustable voltage-stabiliser tube connects the emitter of triode T1 simultaneously, the negative electrode of adjustable voltage-stabiliser tube links to each other with the base stage of triode T1, negative electrode is the feeder ear of three end programmable precision references, provides control signal to link to each other with the base stage of triode T1 at the same time triode T1; The base stage of triode T1 is through resistance R 3 ground connection, and the collection utmost point of triode T1 is connected to the reverse input end of operational amplifier.
Beneficial effect of the present invention is: the current adder of this circuit adopts the input reference signal of the constant current signal of constant-current source output as the operational amplifier reverse input end, carry out by sample resistance current signal being converted to voltage signal after the current add computing, more traditional add circuit or subtraction circuit structure are more simplified, and product reliability improves greatly when reducing cost; This present invention has simultaneously saved the photoelectrical coupler transmission circuit that causes transmission precision to reduce, directly adopt two groups of metal-oxide-semiconductor circuit to realize the isolation conversion of signal, more traditional add circuit or subtraction circuit carry out the circuit implementation of amplifying by photoelectric coupler isolation after the reversal, conversion accuracy improves greatly, and components and parts are also greatly simplified, thereby further improved reliability of products, reduced product cost, reduced small product size, correspondingly, the production technology of product has also been simplified, and the production difficulty reduces.
Description of drawings
Fig. 1 is the theory diagram of prior art;
Fig. 2 is the physical circuit figure of prior art with add circuit;
Fig. 3 is the physical circuit figure of prior art with subtraction circuit;
Fig. 4 is the physical circuit figure of prior art photoelectric coupler isolation amplifying circuit;
Fig. 5 is an isolation change-over circuit theory diagram of the present invention;
Fig. 6 is the physical circuit figure of the preferred embodiment of the present invention;
Fig. 7 is the physical circuit figure of another embodiment of the present invention;
Fig. 8 is the voltage oscillogram at driving transformer coiling N21, N23 two ends;
Fig. 9 is the voltage oscillogram at driving transformer coiling N22, N24 two ends;
Embodiment
The present invention can be by the following preferred concrete circuit of implementing:
As shown in Figure 5, comprise an input signal processing unit, a MOSFET modulating unit, a MOSFET demodulating unit, an isolation drive unit, signal transformer T1, and current adder circuit, signal transformer T1 is the main signal isolating transformer of former secondary equal turn numbers, by two groups of lock-out pulse drive signals, control respectively MOSFET modulation and demodulation circuit by or the synchronous switching of conducting, realize the copped wave inversion of direct-current positive/negative current signal that the signal input processing circuit is converted to through voltage-to-current with this, direct-current positive/negative current signal after the copped wave inversion is converted into direct current monopolar current signal by current adder with the direct-current positive/negative current signal again through transformer isolation coupling output.
As shown in Figure 6, above-mentioned modulating unit and demodulating unit all are made up of two metal-oxide-semiconductors, and the drain electrode of two metal-oxide-semiconductors links to each other as the common reference end, and two grids are as the drive controlling end, and two source electrodes connect the output of winding as it.Above-mentioned input signal processing unit mainly is made up of operational amplifier U1A and resistance R 1, realizes the voltage-to-current conversion of input direct-current positive/negative signal.The in-phase input end of direct-current positive/negative voltage signal Vin input operational amplifier U1A; The inverting input of operational amplifier U1A lead up to resistance R 1 be connected to ground GND1, another road be connected in the MOSFET modulating unit metal-oxide-semiconductor Q1, Q2 the drain electrode common port; The direct-current positive/negative current signal of operational amplifier U1A output output is connected to the centre tap of the elementary winding of transformer T1.The input terminal voltage of operational amplifier U1A is Vin, characteristic according to operational amplifier " empty short ", the voltage of operational amplifier reverse input end equals the voltage Vin of input in the same way, the electric current that then flows through resistance R 1 is Vin/R1, characteristic according to operational amplifier " empty disconnected ", be that the operational amplifier input is the high resistant characteristic, flow through the electric current of R1 all from the output of operational amplifier U1A elementary winding and the metal-oxide-semiconductor Q1 through transformer T1, the public point of Q2 drain electrode, so the electric current I 1 through the elementary winding of signal transformer is Vin/R1, thereby has realized the voltage-to-current conversion of direct-current positive/negative signal.
Above-mentioned current adder circuit can be made up of constant-current source and operational amplifier, present embodiment is made up of operational amplifier U2A, resistance R 2, resistance R 3 and three terminal integrated voltage stabilizer LM317, the resistance two ends connect the adjustment of three terminal integrated voltage stabilizer respectively and hold 1 pin and voltage output end 2 pin, because three terminal integrated voltage stabilizer LM317 voltage output end 2 pin and the voltage of adjusting between end 1 pin remain unchanged, select the size of resistance R 3 can reach the purpose of exporting a constant current; The constant current output of three terminal integrated voltage stabilizer connects 3 inverting inputs that connect operational amplifier.Realize conversion and the current-voltage restoring transformation of the positive negative bipolar current signal of signal to the monopolar current signal.After the direct-current positive/negative current signal is isolated through transformer T1, be connected to the inverting input of operational amplifier U2A by the centre tap of transformer T1 secondary winding; The source electrode common port of metal-oxide-semiconductor Q3, Q4 in the in-phase input end of operational amplifier U2A and the MOSFET demodulating unit is connected and ground connection; The inverting input of operational amplifier U2A links to each other with three terminal integrated voltage stabilizer LM317 input, and passes through the output of sample resistance R2 concatenation operation amplifier U2A, operational amplifier U2A output direct current unipolar voltage signal.
Above-mentioned isolation drive unit mainly is made up of driving transformer T2, adopting auto-excitation type is that the Royer circuit is controlled, its operation principle produces vibration for utilizing the magnetic core saturation characteristic, mode by self-excitation makes the voltage among driving transformer primary coil N21, N22 and secondary coil N23, the N24 form pulse square wave voltage signal alternately synchronously, is illustrated in figure 8 as the voltage waveform at coil N21, N23 two ends; Fig. 9 is the voltage waveform at coil N23, N24 two ends.The two ends of transformer T2 primary coil N21, N22 connect the metal-oxide-semiconductor Q1 in the MOSFET modulating unit, the grid of Q2 respectively, and centre tap is connected to the source electrode common port of metal-oxide-semiconductor Q1, Q2 in the modulating unit; The two ends of transformer T2 secondary coil N23, N24 connect the metal-oxide-semiconductor Q3 in the MOSFET demodulating unit, the grid of Q4 respectively, centre tap is connected to the source electrode common port of metal-oxide-semiconductor Q3, Q4 in the modulating unit, thereby for the pulse square wave voltage signal metal-oxide-semiconductor Q1, Q2 in the modulation circuit and metal-oxide-semiconductor Q3, Q4 in the demodulator circuit is synchronously carried out alternation switch control by the timed delivery that driving transformer primary coil N21, N22 and secondary coil N23, N24 self-excitation produce.
The purpose that adds modulation circuit and demodulator circuit is to realize that signal transformer isolates transmission to the direct current signal of input, hand over every straight characteristic according to transformer is logical, therefore, the direct current signal of input need be converted to the pulse ac signal earlier, promptly modulate; By after the transformer isolation conversion, restore and be promptly to carry out demodulation by original direct current signal.
The circuit working principle: the scope of input direct-current positive/negative signal Vin is-Vi~+ Vi, according to the characteristic of operational amplifier, 6 pin of operational amplifier U1A can be exported an electric current I 1 that changes with Vin, I1=Vin/R1; Then the excursion of I1 be-Vi/R1~+ Vi/R1.
When input signal is timing: suppose that Q1, Q3 are earlier open-minded simultaneously, the current signal I1=Vin/R1 of the 6 pin output of operational amplifier U1A, centre tap through the elementary winding of signal transformer T1, through signal transformer T1 primary winding coil N11, through metal-oxide-semiconductor Q1, through the centre tap of the elementary winding of driving transformer T2 primary coil,, finish to input ground GND1 through resistance R 1 through the coil N22 of the elementary winding of driving transformer T2; Because the primary and secondary umber of turn of transformer T1 equates, according to transformer characteristic, transformer T1 secondary winding can respond to one with the big or small identical electric current I 2 of I1.When closing simultaneously, Q1, Q3 have no progeny, Q2, Q4 conducting simultaneously, the current signal I1=Vin/R1 of the 6 pin output of operational amplifier U1A, centre tap through the elementary winding of signal transformer T1, through signal transformer T1 primary winding coil N12, through metal-oxide-semiconductor Q2, through the centre tap of the elementary winding of driving transformer T2 primary coil, through the coil N21 of the elementary winding of driving transformer T2, finish to input ground GND1 through resistance R 1; Because the primary and secondary umber of turn of transformer T1 equates, according to transformer characteristic, transformer T1 secondary winding can respond to one with the big or small identical electric current I 2 of I1.
When input current when negative: suppose that Q1, Q3 are first open-minded simultaneously, I1 is from the GND1 output of input ground, through resistance R 1, centre tap through the elementary winding of driving transformer T2 primary coil, coil N22 through the elementary winding of driving transformer T2, through metal-oxide-semiconductor Q1, through signal transformer T1 primary winding coil N11, through the centre tap end of the elementary winding of signal transformer T1; Because the primary and secondary umber of turn of transformer T1 equates, according to transformer characteristic, transformer T1 secondary winding can respond to one with the big or small identical electric current I 2 of I1.When closing simultaneously, Q1, Q3 have no progeny, Q2, Q4 conducting simultaneously, the cathodal current signal I1=Vin/R1 of the 6 pin output of operational amplifier U1A, I1 is from the GND1 output of input ground, through resistance R 1, through the centre tap of the elementary winding of driving transformer T2 primary coil, coil N21 through the elementary winding of driving transformer T2, through metal-oxide-semiconductor Q2, through signal transformer T1 primary winding coil N12, through the centre tap end of the elementary winding of signal transformer T1; Because the primary and secondary umber of turn of transformer T1 equates, according to transformer characteristic, transformer T1 secondary winding can respond to one with the big or small identical electric current I 2 of I1.
So far, the voltage-to-current conversion and the isolation transmission of positive/negative signal have been finished.
According to the characteristic of operational amplifier " empty short ", the voltage at operational amplifier 2 pin and 3 pin places is 0; According to the characteristic of operational amplifier " empty disconnected ", the electric current that flows into operational amplifier 2 pin and 3 pin as can be known is 0 again, and therefore, the output current of operational amplifier 6 pin is:
V out - 0 R 2 = ( I 2 + I ref ) ⇒ V out = ( I 2 + I ref ) × R 2
Because of I2=I1=Vin/R1, then have:
V out = ( V in R 1 + I ref ) × R 2
According to the characteristic of three terminal integrated voltage stabilizer LM317 as can be known, the voltage between its 1 pin and 2 pin is constant, and therefore, the electric current I ref of the resistance R of flowing through 3 is a constant current.
For example, Vin=-5V~5V need be converted to 0~5V, power taking resistance R1 is that 1000 Ω, Iref are that 5mA, resistance R 2 are that 500 Ω get final product; Be converted to 0~10V as need, R2 is taken as 100 Ω; And the like, change the size of R2, can change the size of output area.
If there is not the also exportable current signal of this circuit of sample resistance R2, for current signal in the transmission of long line than the voltage signal antijamming capability strong and good stability.
Be illustrated in figure 7 as another execution mode of the present invention, concrete principle and composition are same as the previously described embodiments, and difference is the constant-current source in the current adder circuit, and this constant-current source is formed by connecting by three end programmable precision reference AZ431, NPN triode and two resistance; Resistance R 4 is connected between anode (ANODE) the A pin and reference edge (REF) R pin of AZ431, because the voltage between the adjustable shunting a reference source of three ends AZ431 anode (A pin) and the reference edge (R pin) remains unchanged, select the size of resistance R 4 can reach the purpose of exporting a constant current; The A pin of AZ431 connects negative supply simultaneously, the R pin of AZ431 connects the emitter of triode T1 simultaneously, AZ431 negative electrode (CATHODE) C pin links to each other with the base stage of triode T1, and negative electrode C pin is the feeder ear of three end programmable precision reference AZ431, control signal is provided at the same time triode T1; The base stage of triode T1 is through resistance R 3 ground connection, and the collection utmost point of triode T1 is connected to the reverse input end of operational amplifier.
In like manner, the output current of operational amplifier 6 pin is:
V out - 0 R 2 = ( I 2 + I ref ) ⇒ V out = ( I 2 + I ref ) × R 2
Because of I2=I1=Vin/R1, then have:
V out = ( V in R 1 + I ref ) × R 2
According to the characteristic of voltage reference AZ431 as can be known, the voltage at its resistance R 4 two ends is constant, and therefore, the electric current I ref of the R4 that flows through is a constant current.
For example, Vin=-5V~5V need be converted to 0~5V, getting R1 is that 1000 Ω, Iref are that 5mA, R2 are that 500 Ω get final product; Be converted to 0~10V as need, R2 is taken as 100 Ω; And the like, change the size of R2, can change the size of output area.
Embodiments of the present invention are not limited thereto, according to foregoing of the present invention, ordinary skill knowledge and customary means according to this area, do not breaking away under the above-mentioned basic fundamental thought of the present invention prerequisite, the present invention can also make equivalent modifications, replacement or the change of other various ways, all can realize the object of the invention.

Claims (6)

1. the circuit of a converting direct-current positive and negative bipolar signal into unipolar signal through isolation comprises the input signal processing unit, is used for converting the direct-current positive/negative voltage input signal to the direct-current positive/negative current signal; The main signal transformer is used for the isolation coupling direct-current positive/negative signal; Driving transformer is used for output and isolates the lock-out pulse drive control signal; MOS FET modulation circuit; The MOSFET demodulator circuit;
Described direct-current positive/negative signal connects the input of input signal processing unit, the output of input signal processing unit connects the centre tap of main signal primary winding, and the reference edge of input signal processing unit connects the common port of MOSFET modulation circuit;
Two outputs of MOSFETT modulation circuit connect the two ends of main signal primary winding respectively;
MOSFETT separates the two ends that two outputs making circuit connect main signal transformer secondary output winding respectively;
Elementary winding of driving transformer and secondary winding respectively have the output of two-way drive signal, connect the drive controlling end of MOSFET modulation and demodulation circuit respectively;
It is characterized in that, also comprise current adder circuit, the centre tap of described main signal transformer secondary output winding connects the input of current adder circuit, and the output of current adder circuit is a direct current unipolar signal output, and the reference edge of current adder circuit connects the common port of MOSFET demodulator circuit;
By two groups of lock-out pulse drive signals, control respectively MOSFET modulation and demodulation circuit by or the synchronous switching of conducting, realize the copped wave inversion of direct-current positive/negative input signal with this, signal after the copped wave inversion is converted into the output of direct current monopolar current signal by current adder with the direct-current positive/negative current signal again through main signal transformer isolation coupling output direct-current positive/negative signal.
2. according to the circuit of the described converting direct-current positive and negative bipolar signal into unipolar signal through isolation of claim 1, it is characterized in that: described current adder circuit comprises an operational amplifier and a constant-current source; The inverting input of operational amplifier connects the output of constant-current source simultaneously as the input of current adder circuit; The in-phase input end of operational amplifier is as the reference edge of current adder circuit; The output of operational amplifier is the output of current adder circuit.
3. according to the circuit of the described converting direct-current positive and negative bipolar signal into unipolar signal through isolation of claim 2, it is characterized in that: be connected sample resistance between the inverting input of described operational amplifier and its output, be used for will output direct current monopolar current conversion of signals be direct current unipolar voltage signal.
4. according to the circuit of the described converting direct-current positive and negative bipolar signal into unipolar signal through isolation of claim 2, it is characterized in that: described constant-current source is formed by connecting by three terminal integrated voltage stabilizer and resistance R 3, resistance R 3 two ends connect the adjustment end and the voltage output end of three terminal integrated voltage stabilizer respectively, adjust end and also connect negative supply; The constant current output concatenation operation amplifier's inverting input of three terminal integrated voltage stabilizer.
5. according to the circuit of the described converting direct-current positive and negative bipolar signal into unipolar signal through isolation of claim 2, it is characterized in that: described constant-current source is formed by connecting by the adjustable voltage-stabiliser tube of three ends, NPN triode and two resistance; Resistance R 4 is connected between the anode and reference edge of adjustable voltage-stabiliser tube; The anode of adjustable voltage-stabiliser tube connects negative supply simultaneously, the reference edge of adjustable voltage-stabiliser tube connects the emitter of triode T1 simultaneously, the negative electrode of adjustable voltage-stabiliser tube links to each other with the base stage of triode T1, negative electrode is the feeder ear of three end programmable precision references, provides control signal to link to each other with the base stage of triode T1 at the same time triode T1; The base stage of triode T1 is through resistance R 3 ground connection, and the collection utmost point of triode T1 is connected to the reverse input end of operational amplifier.
6. the circuit of converting direct-current positive and negative bipolar signal into unipolar signal through isolation according to claim 1 is characterized in that, the primary and secondary of described main signal transformer such as is at number of turn coiling.
CN 201010164067 2010-04-28 2010-04-28 Circuit for converting direct-current positive and negative bipolar signal into unipolar signal through isolation Active CN101867365B (en)

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CN109962680A (en) * 2019-03-21 2019-07-02 西安联飞智能装备研究院有限责任公司 A kind of non-phase-sensitive demodulating circuits and demodulation method
CN112202337A (en) * 2020-09-27 2021-01-08 深圳市顺源科技有限公司 Direct current one-way and two-way signal isolation conversion circuit
CN112688564A (en) * 2019-10-17 2021-04-20 上海辰竹仪表有限公司 Isolation transmission circuit of transformer based on center tap removal
CN114966155A (en) * 2022-07-29 2022-08-30 深圳圣斯尔电子技术有限公司 Direct-current signal isolation module applied to airborne power supply large-current detection device
CN115826663A (en) * 2023-02-15 2023-03-21 鲁欧智造(山东)高端装备科技有限公司 High-precision bipolar numerical control constant current source control system

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CN102937455A (en) * 2012-11-26 2013-02-20 昆山北极光电子科技有限公司 Mean noise filtering method without phase delay
CN104931758A (en) * 2014-03-21 2015-09-23 上海电科电器科技有限公司 Direct-current residual current detection apparatus
CN104897953A (en) * 2015-01-30 2015-09-09 中天储能科技有限公司 Accurate lithium battery BMS system charging and discharging current sampling and calculation circuit and control method
CN107171566A (en) * 2017-06-06 2017-09-15 绵阳市维博电子有限责任公司 A kind of transformer coupled isolated amplifier of parallel connection chopping type
CN107241017A (en) * 2017-06-06 2017-10-10 绵阳市维博电子有限责任公司 The differential chopper circuit of balanced type and the isolated amplifier based on the chopper circuit
CN107241069A (en) * 2017-06-06 2017-10-10 绵阳市维博电子有限责任公司 A kind of transformer coupled isolated amplifier of connection in series-parallel chopper-type
CN107276403A (en) * 2017-06-06 2017-10-20 绵阳市维博电子有限责任公司 A kind of transformer isolation amplifier clamped with copped wave pulse signal
CN108306627A (en) * 2018-02-02 2018-07-20 上海理工大学 The amplification method of unipolarity square-wave signal
CN108649803A (en) * 2018-06-06 2018-10-12 广州金升阳科技有限公司 A kind of power supply circuit for M-BUS
CN109391286A (en) * 2018-11-30 2019-02-26 平顶山学院 Bid and purchase process information management system
CN109391286B (en) * 2018-11-30 2019-12-20 平顶山学院 Bidding purchasing process information management system
CN109617415A (en) * 2018-12-07 2019-04-12 广州金升阳科技有限公司 A kind of signal-isolated transmission circuit
CN109962680A (en) * 2019-03-21 2019-07-02 西安联飞智能装备研究院有限责任公司 A kind of non-phase-sensitive demodulating circuits and demodulation method
CN112688564A (en) * 2019-10-17 2021-04-20 上海辰竹仪表有限公司 Isolation transmission circuit of transformer based on center tap removal
CN112688564B (en) * 2019-10-17 2022-08-09 上海辰竹仪表有限公司 Isolation transmission circuit of transformer based on center tap removal
CN112202337A (en) * 2020-09-27 2021-01-08 深圳市顺源科技有限公司 Direct current one-way and two-way signal isolation conversion circuit
CN114966155A (en) * 2022-07-29 2022-08-30 深圳圣斯尔电子技术有限公司 Direct-current signal isolation module applied to airborne power supply large-current detection device
CN114966155B (en) * 2022-07-29 2022-10-14 深圳圣斯尔电子技术有限公司 Direct-current signal isolation module applied to airborne power supply large-current detection device
CN115826663A (en) * 2023-02-15 2023-03-21 鲁欧智造(山东)高端装备科技有限公司 High-precision bipolar numerical control constant current source control system

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