US2380521A - Electric regulating apparatus - Google Patents
Electric regulating apparatus Download PDFInfo
- Publication number
- US2380521A US2380521A US524906A US52490644A US2380521A US 2380521 A US2380521 A US 2380521A US 524906 A US524906 A US 524906A US 52490644 A US52490644 A US 52490644A US 2380521 A US2380521 A US 2380521A
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- Prior art keywords
- winding
- windings
- core
- leg
- buck
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- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05F—SYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES
- G05F1/00—Automatic systems in which deviations of an electric quantity from one or more predetermined values are detected at the output of the system and fed back to a device within the system to restore the detected quantity to its predetermined value or values, i.e. retroactive systems
- G05F1/10—Regulating voltage or current
- G05F1/12—Regulating voltage or current wherein the variable actually regulated by the final control device is ac
- G05F1/32—Regulating voltage or current wherein the variable actually regulated by the final control device is ac using magnetic devices having a controllable degree of saturation as final control devices
Definitions
- One of the objects of the invention is to provide electric regulating apparatus in which regulation is eil'ected automatically with no moving parts
- Another object of the invention is to provide electric regulating apparatus which maintains constant regulating characteristics regardless of changes in external conditions such as temperature, humidity, aging of the parts and the like.
- Still another object is to provide apparatus in which regulation is accomplished automatically by varying the saturation or a transformer connected in the circuit,
- a still further object of the invention is to provide electric regulating apparatus including a transformer having a plurality of windings a portion of which are controlled in response to variations in the output circuit to maintain the output circuit constant.
- the secondary windings 23 may be omitted, if desired, but are preterably included to prevent wave form distortion.
- the windings l9 and 23 are controlled by variably saturating the portion of the core on which they are carried and for this purpose the cross leg l'l carries three saturating windings.
- the main or base saturating winding shown at 24 is opposed by a buck winding 25 and is assisted by a boost winding 28.
- the degree 01' saturation depends entirely on the winding 24.
- the base saturating winding 24 is supplied with current through a rectifier 21 connected to the winding through a rheostat 2B and supplied from a transformer 29 whose primary is connected across the output circuit I l.
- the buck and boost 25 and 2B are supplied Irom rectifiers 3i and 32 which are also supplied irom the output circuit ii.
- the circuit shown in Figure 1 connects a supply circuit III to an output circuit I i in which the voltage is to be maintained constant regardless of voltage variations in the supply circuit.
- the supply and output circuits are connected through a transformer including a core I: or generally rectangular outline with a first leg it, an opposite end leg I4 and a pair of intermediate legs ligand 16. This construction provides in effect two interconnected closed sections.
- a cross leg I! is provided in one or the sections extending centrally between the legs l4 and It.
- the core carries a series'ot primary windings connected to the supply circuit and including a main primary winding II on the leg l3 and spaced primary windings It on the leg ii on opposite sides or the cross leg IT.
- the several primary windings are connected in series.
- the core also carries a plurality of secondary windings connected to the output circuit II including a small winding II on the leg II. a main secondary winding 22 on the leg I! and spaced the rectifiers 3
- Figure 2 shows characteristic curves for the re actance 33 and resistance 34, the reactance curve being indicated at 33' and resistance curve at 84'. The values of the reactance and resistance are adjusted so that the curves will cross at the point where the output circuit voltage is to be maintained.
- these rectifiers are preferably supplied through constant potential to constant current type regulating devices.
- constant current type regulating devices are of the resonant type and include a pair or inductive reactors 35 connected in series with a condenser '36 connected across the line between them to form a T-resonant circuit.
- Adjustable rheostats I! are preferably provided to vary the voltage supply thereby to vary the current output of the circuits.
- the resonant circuits are connected to primary windings ll of transformers 1
- the current supplied to the transformer 38 will vary only with the voltage in theoutput circuit II.
- the current supplied to the buck and boost windings will be independent 01 any slight variations in the rectiiiers and will be controlled solely in response to voltage variations in the output circuit as modified by the reactance 33 and resistance 31.
- the circuit as above described will maintain the voltage in the output circuit ii substantially constant within very close limits under all operating conditions.
- By varying the arrangement of the several windings on the transformer core it is possible with the same circuit to regulate for constant power or for other conditions than voltage.
- Electric regulating apparatus comprising a magnetic core, a primary winding on the core connected to a supply circuit, a secondary winding on the core connected to an output circuit, three saturating windings on the core including a base winding, a buck winding and a boost winding, rectifiers connecting said windings respectively to one of the circuits, an inductive reactance in series with the rectifier for the buck winding, and a resistance in series with the rectiher for the boost winding.
- Electric regulating apparatus comprising a magnetic core, a primary winding on the core connected to a supply circuit, a secondary winding on the core connected to an output circuit, three saturating windings on the core including a base winding, a buck winding and a boost winding, a rectifier connecting the base winding to one oi the circuits, a pair oi constant potential to constant current regulating devices connected to the output circuit, rectifiers connecting said devices to the buck and boost windings respectively, an inductive reactance in series with one or the last named rectifiers, and a resistance in series with the other of the last named rectifier-s.
- Electric regulating apparatus comprising a magnetic core, a primary winding on the core connected to a supply circuit, a secondary winding on the core connected to an output circuit, three saturating windings on the core including a base winding, a buck winding and a boost winding, a rectifier connecting the base winding to one of the circuits, a pair of constant potential to constant current regulating devices connected to the output circuit, transformers connected to the regulating devices, rectifiers connecting the transformers to the buck and boost windings respectively, an inductive reactance in series with the rectifier for the buck winding, and a resistance in series with the rectifier for the boost. winding.
- Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality oi primary windings in series on the core with one winding on said one of the sections on each side of the leg, a secondary winding on the core, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, rectifiers connecting the saturating windings to the secondary winding, and means connected to the rectifiers for the buck and boost windings to cause the current to change different amounts in the buck and boost windings in response to a change in voltage in the secondary winding.
- Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one of the sections on each side of the leg, a secondary winding on the core, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, rectifiers connecting the secondary winding to the saturating windings, an inductive reactance in series with the rectifier a for the buck winding, and a resistance in series with the rectifier for the boost winding.
- Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one of the sections on each side of the leg, a secondary winding on the core, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, a rectifier connecting the bme winding to the secondary winding, a pair oi constant potential to constant current regulating devices connected to the secondary winding, rectifie'rs connecting the regulating devices to the buck and boost windings, an inductive reactance between the regulator and rectifier supplying the buck winding, and a resistance between the regulator and rectifier supplying the boost winding.
- Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one of the sections on each side 01 the leg, a plurality of secondary windings on the core with one on each side of the leg on said one of the sections, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, rectifiers connecting the secondary wind-. ing to the saturating windings, an inductive reactance in series with the rectifier for the buck winding, and a resistance in series with the rectiher for the boost winding.
- Electric regulating apparatus comprising l magnetic core having a pairlol connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one o! the sections on each side of the leg, a plurality of secondary windings on the core with one on each side of the leg on said one of the sections, a plurality of saturating windings 'on said leg including a base winding, a buck winding and a boost winding, rectiflers connecting the secondary winding to the saturating windings, .a pair of constant potential to constant current regulating devices connected to the secondary winding, transformers connecting said devices to the rectiflers for the buck and boost windings. an inductive reactance between the transformer and rectifier supplying the buck winding, and a resistance between the transformer and rectifier supplying the boost winding.
Description
July 31, 1945. E HAUG 2,380,521
ELECTRIC REGULAIING APPARATUS Filed March 3, 1944 Patented July 31, 1945 ELECTRIC REGULATING APPARATUS Eugene H. Hang. Glencoe, 111., assignor to La Salle National Bank, Chicago, 111., as trustee Application March a, 1944, Serial No. 524,906 8 Claims. (01. 171-119) This in"ention relates to electric regulating apparatus and more particularly to apparatus for automatically maintaining constant conditions in a circuit.
One of the objects of the invention is to provide electric regulating apparatus in which regulation is eil'ected automatically with no moving parts Another object of the invention is to provide electric regulating apparatus which maintains constant regulating characteristics regardless of changes in external conditions such as temperature, humidity, aging of the parts and the like.
Still another object is to provide apparatus in which regulation is accomplished automatically by varying the saturation or a transformer connected in the circuit,
A still further object of the invention is to provide electric regulating apparatus including a transformer having a plurality of windings a portion of which are controlled in response to variations in the output circuit to maintain the output circuit constant.
The above and other objects and advantages will be more readily apparent from the following description when read in connection with the accompanying drawing, in which- Figure l is a circuit diagram of regulating apparatus embodying the invention; and
The base saturating winding 24 is supplied with current through a rectifier 21 connected to the winding through a rheostat 2B and supplied from a transformer 29 whose primary is connected across the output circuit I l. The buck and boost 25 and 2B are supplied Irom rectifiers 3i and 32 which are also supplied irom the output circuit ii.
In order to vary the current supply to the buck and boost windings to a dlflerent degree in respouse to variations in the voltage supplied to Figure 2 illustrates characteristic curves of a portion of the apparatus.
The circuit shown in Figure 1 connects a supply circuit III to an output circuit I i in which the voltage is to be maintained constant regardless of voltage variations in the supply circuit. The supply and output circuits are connected through a transformer including a core I: or generally rectangular outline with a first leg it, an opposite end leg I4 and a pair of intermediate legs ligand 16. This construction provides in effect two interconnected closed sections. A cross leg I! is provided in one or the sections extending centrally between the legs l4 and It.
The core carries a series'ot primary windings connected to the supply circuit and including a main primary winding II on the leg l3 and spaced primary windings It on the leg ii on opposite sides or the cross leg IT. The several primary windings are connected in series.
The core also carries a plurality of secondary windings connected to the output circuit II including a small winding II on the leg II. a main secondary winding 22 on the leg I! and spaced the rectifiers 3| and 32, an inductive reactance 33 is connected in series with the rectifier 3| and a resistance 34 is connected in series with the rectifier 32. Both the reactance 33 and resistance 34 may be made adjustable for setting the voltage value to be maintained in the output circuit. Figure 2 shows characteristic curves for the re actance 33 and resistance 34, the reactance curve being indicated at 33' and resistance curve at 84'. The values of the reactance and resistance are adjusted so that the curves will cross at the point where the output circuit voltage is to be maintained. 'Upon an increase in voltage above this value the current supplied to the buck winding 25 will exceed that to the boost winding 26 so that the effective saturation of the transformer core is reduced, This causes an increase in the alternating current flux in the leg l6, increasing the number 01' eflective primary turns. The eflective secondary turns are also increased but the percentage of increase is less since there are primary turns relative to the number of secondary turns. An increase in primary current will result to produce a corresponding increase in secondary voltage.
In order to maintain the current from the rectifiers ii and 32 directly proportional to the volt age in the output circuit regardless oi changes in temperature, humidity or unequal aging of the rectifier elements, these rectifiers are preferably supplied through constant potential to constant current type regulating devices. As shown such regulating devices are of the resonant type and include a pair or inductive reactors 35 connected in series with a condenser '36 connected across the line between them to form a T-resonant circuit. Adjustable rheostats I! are preferably provided to vary the voltage supply thereby to vary the current output of the circuits. The resonant circuits are connected to primary windings ll of transformers 1| whose secondary windings are connected through the reactor ll and resistance 84 to the rectifiers ll and 32 respectively. with this construction the current supplied to the transformer 38 will vary only with the voltage in theoutput circuit II. Thus the current supplied to the buck and boost windings will be independent 01 any slight variations in the rectiiiers and will be controlled solely in response to voltage variations in the output circuit as modified by the reactance 33 and resistance 31.
The circuit as above described will maintain the voltage in the output circuit ii substantially constant within very close limits under all operating conditions. By varying the arrangement of the several windings on the transformer core it is possible with the same circuit to regulate for constant power or for other conditions than voltage.
While one embodiment of the invention has been shown. and described in detail herein, it will be understood that this is for the purpose of illustration only and is not intended as a definition of the scope of the invention, reference being had for this purpose to the appended claims.
What is claimed is:
1. Electric regulating apparatus comprising a magnetic core, a primary winding on the core connected to a supply circuit, a secondary winding on the core connected to an output circuit, three saturating windings on the core including a base winding, a buck winding and a boost winding, rectifiers connecting said windings respectively to one of the circuits, an inductive reactance in series with the rectifier for the buck winding, and a resistance in series with the rectiher for the boost winding.
2. Electric regulating apparatus comprisinga magnetic core, a primary winding on the core connected to a supply circuit, a secondary winding on the core connected to an output circuit, three saturating windings on the core including a base winding, a buck winding and a boost winding, a rectifier connecting the base winding to one oi the circuits, a pair oi constant potential to constant current regulating devices connected to the output circuit, rectifiers connecting said devices to the buck and boost windings respectively, an inductive reactance in series with one or the last named rectifiers, and a resistance in series with the other of the last named rectifier-s.
3. Electric regulating apparatus comprising a magnetic core, a primary winding on the core connected to a supply circuit, a secondary winding on the core connected to an output circuit, three saturating windings on the core including a base winding, a buck winding and a boost winding, a rectifier connecting the base winding to one of the circuits, a pair of constant potential to constant current regulating devices connected to the output circuit, transformers connected to the regulating devices, rectifiers connecting the transformers to the buck and boost windings respectively, an inductive reactance in series with the rectifier for the buck winding, and a resistance in series with the rectifier for the boost. winding.
4. Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality oi primary windings in series on the core with one winding on said one of the sections on each side of the leg, a secondary winding on the core, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, rectifiers connecting the saturating windings to the secondary winding, and means connected to the rectifiers for the buck and boost windings to cause the current to change different amounts in the buck and boost windings in response to a change in voltage in the secondary winding.
5. Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one of the sections on each side of the leg, a secondary winding on the core, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, rectifiers connecting the secondary winding to the saturating windings, an inductive reactance in series with the rectifier a for the buck winding, and a resistance in series with the rectifier for the boost winding.
6. Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one of the sections on each side of the leg, a secondary winding on the core, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, a rectifier connecting the bme winding to the secondary winding, a pair oi constant potential to constant current regulating devices connected to the secondary winding, rectifie'rs connecting the regulating devices to the buck and boost windings, an inductive reactance between the regulator and rectifier supplying the buck winding, and a resistance between the regulator and rectifier supplying the boost winding.
'1. Electric regulating apparatus comprising a magnetic core having a pair of connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one of the sections on each side 01 the leg, a plurality of secondary windings on the core with one on each side of the leg on said one of the sections, a plurality of saturating windings on said leg including a base winding, a buck winding and a boost winding, rectifiers connecting the secondary wind-. ing to the saturating windings, an inductive reactance in series with the rectifier for the buck winding, and a resistance in series with the rectiher for the boost winding.
' 8. Electric regulating apparatus comprising l magnetic core having a pairlol connected closed sections and a cross leg in one of the closed sections, a plurality of primary windings in series on the core with one winding on said one o! the sections on each side of the leg, a plurality of secondary windings on the core with one on each side of the leg on said one of the sections, a plurality of saturating windings 'on said leg including a base winding, a buck winding and a boost winding, rectiflers connecting the secondary winding to the saturating windings, .a pair of constant potential to constant current regulating devices connected to the secondary winding, transformers connecting said devices to the rectiflers for the buck and boost windings. an inductive reactance between the transformer and rectifier supplying the buck winding, and a resistance between the transformer and rectifier supplying the boost winding.
EUGENE H. HAUG.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US524906A US2380521A (en) | 1944-03-03 | 1944-03-03 | Electric regulating apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US524906A US2380521A (en) | 1944-03-03 | 1944-03-03 | Electric regulating apparatus |
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US2380521A true US2380521A (en) | 1945-07-31 |
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US524906A Expired - Lifetime US2380521A (en) | 1944-03-03 | 1944-03-03 | Electric regulating apparatus |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2777987A (en) * | 1954-01-13 | 1957-01-15 | Forest C Deal | Voltage regulator compensating voltage and frequency changes |
US2864993A (en) * | 1955-11-10 | 1958-12-16 | Hobart Brothers Co | Welding transformer with compound secondary winding |
US2908864A (en) * | 1952-06-19 | 1959-10-13 | Jr Francis H Shepard | Frequency meter |
-
1944
- 1944-03-03 US US524906A patent/US2380521A/en not_active Expired - Lifetime
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2908864A (en) * | 1952-06-19 | 1959-10-13 | Jr Francis H Shepard | Frequency meter |
US2777987A (en) * | 1954-01-13 | 1957-01-15 | Forest C Deal | Voltage regulator compensating voltage and frequency changes |
US2864993A (en) * | 1955-11-10 | 1958-12-16 | Hobart Brothers Co | Welding transformer with compound secondary winding |
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