CN2583682Y - Direct current sensor - Google Patents
Direct current sensor Download PDFInfo
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- CN2583682Y CN2583682Y CN 02279699 CN02279699U CN2583682Y CN 2583682 Y CN2583682 Y CN 2583682Y CN 02279699 CN02279699 CN 02279699 CN 02279699 U CN02279699 U CN 02279699U CN 2583682 Y CN2583682 Y CN 2583682Y
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- winding
- iron core
- annular
- secondary winding
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Abstract
The utility model relates to a direct current sensing device, which belongs to a direct current measuring device of electrotechnology. The utility model solves the problem of direct current measurement of a rectification system of no oscillation source, no large power driving, high precision, high stability and high reliability. The device comprises a sensing head, a power supply transformer, a driver transformer, resistors, inductors, diodes, an operational amplifier, and a driver, wherein, the sensing head has the structure that a first annular detecting iron core and a second annular detecting iron core are respectively wound with a first detecting winding and a second detecting winding which has the same number of turns as the first annular detecting iron core and the second annular detecting iron core, after the first annular detecting iron core and the second annular detecting iron core are assembled, the outside of the first annular detecting iron core and the second annular detecting iron core is wound with a compensating winding, the integration is arranged in the cavity of a shielding iron core, and the outside of the shielding iron core is wound with a secondary winding. The utility model has the advantages of both open loop measurement and closed loop measurement. An oscillation, which is brought about by a high voltage gain, does not exist, and high-power driving is avoided. The utility model has the advantages of high measuring precision, high stability, strong anti-interference ability, and can be widely used for direct current on-line detection of the industries of electric smelting, electrochemistry, electroplating, electric power, electrical vehicles, etc.
Description
Technical field
The utility model belongs to the dc current measurement equipment in the electrotechnics.
Background technology
The utility model patent of patent No. ZL 01219393.3 " high-precision strong direct current transducer ", no magnetic core in its sensor housing, detecting element is arranged in pairs evenly along the housing inside circumference, be filled in around the element with epoxy resin then, and detecting element is fixed in the housing.Detecting element directly detects the magnetic field that bus current produces, and by the amplification of circuit, output signal is reached with the test board data presented output signal stack of a plurality of detecting elements and is complementary.This device has the common advantage of open loop principle, and promptly the oscillation problem that does not exist the closed-loop system high voltage gain to bring does not exist for the high-power driving problem of keeping magnetic potential balance and bringing yet; Circuit, simple in structure.Shortcoming is accuracy, the poor stability of measuring, and this patent adopts no core structure in sensor housing, analyze from principle, and it can't realize being provided with infinite a plurality of detecting element, also just can't guarantee its measurement reliability; Poor anti jamming capability, particularly anti-external magnetic field is disturbed, the influence of temperature change ability.
The utility model patent of patent No. ZL 97240789.8 " dc high-current sensor ", its circuit comprise two coupling magnetic null detector acquired signal, utilize feedback technique, and the realization magnetic potential balance is measured.This device belongs to the closed-loop measuring principle, thereby has the common advantage of closed loop principle, and promptly the precision of Ce Lianging is higher, good stability; Antijamming capability is stronger.Shortcoming: there is the oscillation problem that the closed-loop system high voltage gain brings in (one) and keeps the high-power driving problem that magnetic potential balance brings; (2) circuit debugging complexity.
Summary of the invention
The utility model provides a kind of magnetic potential self-balance and feedback compensation DC current sensing device, and with the dead-beat source, the structure of no high-power driving and high precision, high stability, high reliability operation can be widely used in the measurement of commutation system DC current.
DC current sensing device of the present utility model comprises sensing head, power transformer, driver transformer, resistance, diode, it is characterized in that:
(1) described sensing head structure is that the first identical annular of shape detects iron core and second annular detects iron core, be wound with the identical first detection winding and second of the number of turn respectively and detect winding, after assembly unit, their outsides are wound with the compensation winding, integral body places the toroidal cavity of shielding iron core, and the shielding iron core outside is wound with Secondary Winding;
(2) end of the same name of Secondary Winding is connected in series ground connection after first telefault, the measuring resistance successively, and Secondary Winding different name termination first diode cathode, first diode anode connect power transformer secondary winding end of the same name, this secondary winding different name end ground connection;
(3) first ends of the same name that detect winding link to each other with the second different name end that detects winding, and be connected with exciter transformer secondary winding different name end, this secondary winding end of the same name connects an end, first sample resistance another termination second diode anode and ground connection of first sample resistance and second sample resistance simultaneously, second diode cathode and first detects winding different name end and is connected, the second sample resistance other end concatenation operation amplification and driver input end and the 3rd diode anode, the 3rd diode cathode connect second and detect winding end of the same name;
(4) computing amplification and driver output end connect compensation winding different name end, compensation winding end of the same name is connected on the tie point of first telefault and measuring resistance after being connected in series second telefault.
Described DC current sensing device, described sensing head can be synthetic circular of two semi-rings, first annular iron core, the second annular detection iron core, shielding iron core, the first detection winding, the second detection winding, compensation winding and the Secondary Winding of detecting evenly arranged on two semi-rings, and each winding is electrically connected by lead between two semi-rings.
Described DC current sensing device, shielding iron core can be wound into ring-type by banded cold-reduced silicon sheet, and the annular of cavity is arranged in constituting through assembly unit.
The utility model had both had as the open loop of patent No. ZL 01219393.3 " high-precision strong direct current transducer " measures advantage, i.e. the oscillation problem that does not exist the closed-loop system high voltage gain to bring has also been avoided keeping magnetic potential balance and the high-power driving problem brought; The utility model also has the closed-loop measuring advantage as patent No. ZL 97240789.8 " dc high-current sensor ", i.e. higher, the good stability of measuring accuracy, and antijamming capability is strong, has the characteristic of automatic tracking and compensating, complete machine ratio of performance to price height.Can be widely used in the online detection of industry DC current such as electric smelting, galvanochemistry, plating, electric power, electric vehicle.
Description of drawings
The sensing head external form figure of Fig. 1 the utility model DC current sensing device.
Fig. 2 sensing head sectional view.
Fig. 3 the utility model DC current sensing device circuit diagram.
Embodiment
Now in conjunction with the accompanying drawings the utility model is further specified.
Shown in Figure 1, the sensing head external form of DC current sensor device be two semi-rings constitute circular, its cross section as shown in Figure 2: first annular that shape is identical detects iron core C
2Detect iron core C with second annular
3On be wound with respectively the number of turn identical first detect winding W
D1, second detect winding W
D2, through after the assembly unit they the outside around on compensation winding W
C, then their integral body is placed shielding iron core C with toroidal cavity structure
1Cavity in, at shielding iron core C
1Outward again around last Secondary Winding W
2A winding W shown in Figure 3
1Promptly transmit measured DC I
1Bus, pass from as shown in Figure 1 sensing head center hole.
Fig. 3 has provided the circuit diagram of DC current sensing device.Secondary Winding W among the sensing head T
2End of the same name connect the secondary balancing electric current I successively
2SThe first telefault L
1, measuring resistance R
SThe back links to each other the different name end and the first diode D with the earth
1Negative electrode link to each other the first diode D
1Anode and power transformer T
1The end of the same name of secondary winding link to each other, the different name end of secondary winding is connected to earth point; First detects winding WD
1End of the same name and second detect winding WD
2The different name end link to each other after, be connected to exciter transformer T
2Secondary winding different name end, its end of the same name is simultaneously with two detection signals, the first sample resistance R
1With the second sample resistance R
2An end link together; Resistance R
1The other end and the second diode D
2Anode be connected to ground, diode D simultaneously
2Negative electrode and first detect winding WD
1The different name end join; Resistance R
2The other end simultaneously with the input end of computing amplification and driver A, and the 3rd diode D
3Anode link to each other the 3rd diode D
3Negative electrode be connected to second and detect winding W
D2End of the same name; The output terminal of computing amplification and driver A and compensation winding W
CThe different name end link to each other the end of the same name and the second compensation electric current I of compensation winding
2CThe second telefault L
2An end link to each other, the other end is connected to the first telefault L
1With measuring resistance R
sOn the node of series connection.
After this device puts into operation, by power transformer T
1Through diode D
1The half-wave current Secondary Winding W that flows through is provided
2, in half period by shielding iron core C
1With Secondary Winding W
2, set up the secondary balancing electric current I automatically
2SWith primary measured current I
1Between the direct current magnetic potential balance, this magnetic potential balance is that it has avoided the use high-power electronic device to drive the secondary balancing electric current I by the decision of the characteristic of the approximate rectangular magnetization curve of iron core
2SActive method, and realize the direct current magnetic potential balance.It is different from the direct current magnetic potential balance that is made of high open-loop voltage gain (generally greater than 1000 times), PID governing loop and high-power driven source driving in the traditional closed loop system, thereby does not have the vibration and the high-power driving problem of system.Because this magnetic potential balance does not generally have the degree of accuracy height of closed-loop system magnetic potential balance, the utility model reasonably becomes core design the center cavity structure, at shielding iron core C
1Zero ampere-turn is set in the cavity detects iron core C
2, C
3With detection winding W
D1, W
D2Poor in order to the ampere-turn that detects above-mentioned direct current magnetic potential balance in this semiperiod.Through exciter transformer T
2After excitatory, detect winding W
D1, W
D2Output current signal through diode D2, D3 and sample of signal resistance R 1, R2 and computing amplification and driver A, output DC compensation electric current I
2CFeed back to compensation winding W
CThereby, realize detecting iron core C
2, C
3The compensation of direct current zero ampere-turn, kept high-precision direct current magnetic potential balance.The utility model is because of primary measured current I
1Magnetic potential W
1I
1, the overwhelming majority is by Secondary Winding W
2By ac power transformer T
1The electric current magnetic potential W that provides
2I
2SSelf-poise is fallen, by residue magnetic potential W
1I
1-W
2I
2SThe offset current I that produces
2CJust very little, the power consumption of computing amplification and driver A is little, and reliability height, price are also low.More meaningfully, detect iron core C
2, C
3, detect winding W
D1, W
D2, compensation winding W
C, the offset current feedback system that constitutes such as electronic module A, it is the direct current self compensating system of a low-voltage enlargement factor, rather than the closed loop feedback system of high voltage enlargement factor formation, thereby the oscillation problem that does not also exist the closed-loop system high voltage gain to bring, yet the offset current I of this feedback system
2CThe characteristic that still has the closed-loop system automatic tracking and compensating.Though it is to be operated under the situation of half period the secondary balancing electric current I that this direct current magnetic potential balance flows back to the feedback bucking-out system with difference
2SWith the second compensation electric current I
2CThe filter inductor of flowing through respectively L
1And L
2After, can obtain desirable direct current.The secondary balancing electric current I
2SWith the second compensation electric current I
2CBy measuring resistance R
SSuperpose, obtain the secondary current I of this DC current sensing device
2=I
2S+ I
2CThereby, realize secondary ampere-turn W
2I
2With a direct current ampere-turn W
1I
1Magnetic potential balance W almost completely
2I
2≈ W
1I
1, the number of turn of measured DC bus is 1 circle, i.e. W usually
1=1, Secondary Winding W
2With compensation winding W
CThe number of turn identical, i.e. W
2=W
CBe multiturn, so the little electric current I of secondary
2=(W
1/ W
2) I
1Represent tested once big electric current exactly, coefficient of ratio W
1/ W
2For once with the turn ratio of Secondary Winding, be a constant.Secondary current I
2Flow through measuring resistance R
S, on measuring resistance, obtain magnitude of voltage I
2R
S, to meet the demands with the digital implementation of voltage signal output, computer sampling etc.
Claims (3)
1. a DC current sensing device comprises sensing head, power transformer, driver transformer, resistance, diode, it is characterized in that:
(1) described sensing head structure is that the first identical annular of shape detects iron core and second annular detects iron core, be wound with the identical first detection winding and second of the number of turn respectively and detect winding, after assembly unit, their outsides are wound with the compensation winding, integral body places the toroidal cavity of shielding iron core, and the shielding iron core outside is wound with Secondary Winding;
(2) end of the same name of Secondary Winding is connected in series ground connection after first telefault, the measuring resistance successively, and Secondary Winding different name termination first diode cathode, first diode anode connect power transformer secondary winding end of the same name, this secondary winding different name end ground connection;
(3) first ends of the same name that detect winding link to each other with the second different name end that detects winding, and be connected with exciter transformer secondary winding different name end, this secondary winding end of the same name connects an end of first sample resistance and second sample resistance simultaneously, first sample resistance another termination second diode anode and ground connection, second diode cathode and first detects winding different name end and is connected, the second sample resistance other end concatenation operation amplification and driver input end and the 3rd diode anode, the 3rd diode cathode connect second and detect winding end of the same name;
(4) computing amplification and driver output end connect compensation winding different name end, compensation winding end of the same name is connected on the tie point of first telefault and measuring resistance after being connected in series second telefault.
2. DC current sensing device as claimed in claim 1, it is characterized in that described sensing head is synthetic circular of two semi-rings, first annular iron core, the second annular detection iron core, shielding iron core, the first detection winding, the second detection winding, compensation winding and the Secondary Winding of detecting evenly arranged on two semi-rings, and each winding is electrically connected by lead between two semi-rings.
3. DC current sensing device as claimed in claim 1 or 2 is characterized in that shielding iron core is wound into ring-type by banded cold-reduced silicon sheet, has the annular of cavity in constituting through assembly unit.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 02279699 CN2583682Y (en) | 2002-10-25 | 2002-10-25 | Direct current sensor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 02279699 CN2583682Y (en) | 2002-10-25 | 2002-10-25 | Direct current sensor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN2583682Y true CN2583682Y (en) | 2003-10-29 |
Family
ID=33742713
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 02279699 Expired - Fee Related CN2583682Y (en) | 2002-10-25 | 2002-10-25 | Direct current sensor |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN2583682Y (en) |
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101027563B (en) * | 2004-05-29 | 2010-05-12 | 莱姆汉姆有限公司 | Improvement in current measure device and its related improvement |
| CN101571557B (en) * | 2009-06-09 | 2010-12-08 | 华中科技大学 | DC high-current metering device |
| CN102109548A (en) * | 2009-12-23 | 2011-06-29 | 力博特公司 | Current detection circuit with current compensation and temperature compensation |
| CN102759649A (en) * | 2011-04-21 | 2012-10-31 | Abb股份有限公司 | Current sensor operating in accordance with the principe of compensation |
| CN107942123A (en) * | 2017-12-14 | 2018-04-20 | 华中科技大学 | A kind of direct current measuring devices |
-
2002
- 2002-10-25 CN CN 02279699 patent/CN2583682Y/en not_active Expired - Fee Related
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101027563B (en) * | 2004-05-29 | 2010-05-12 | 莱姆汉姆有限公司 | Improvement in current measure device and its related improvement |
| CN101571557B (en) * | 2009-06-09 | 2010-12-08 | 华中科技大学 | DC high-current metering device |
| CN102109548A (en) * | 2009-12-23 | 2011-06-29 | 力博特公司 | Current detection circuit with current compensation and temperature compensation |
| CN102109548B (en) * | 2009-12-23 | 2013-11-06 | 力博特公司 | Current detection circuit with current compensation and temperature compensation |
| CN102759649A (en) * | 2011-04-21 | 2012-10-31 | Abb股份有限公司 | Current sensor operating in accordance with the principe of compensation |
| CN102759649B (en) * | 2011-04-21 | 2015-06-24 | Abb股份有限公司 | Current sensor operating in accordance with the principe of compensation |
| CN107942123A (en) * | 2017-12-14 | 2018-04-20 | 华中科技大学 | A kind of direct current measuring devices |
| CN107942123B (en) * | 2017-12-14 | 2024-02-02 | 华中科技大学 | Direct current measuring device |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C19 | Lapse of patent right due to non-payment of the annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |