US2721303A - Voltage regulators - Google Patents
Voltage regulators Download PDFInfo
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- US2721303A US2721303A US470276A US47027654A US2721303A US 2721303 A US2721303 A US 2721303A US 470276 A US470276 A US 470276A US 47027654 A US47027654 A US 47027654A US 2721303 A US2721303 A US 2721303A
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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
- G05F1/33—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 with plural windings through which current to be controlled is conducted
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- This invention relates to a voltage regulator which includes two magnetic amplifier units, a bridge sensing circuit, and a winding on one of the magnetic amplifier units which compensates for the load current.
- the invention has particular reference to a voltage regulator arrangement which is devoid of electron discharge devices and includes no container enclosing a vacuum.
- the invention has further reference to voltage regulators which employ magnetic amplifier arrangements comprising two saturable cores mounted adjacent to each other.
- voltage regulators have been designed and used which employ electron discharge devices such as triodes and pentodes in amplifier circuits in order to produce a control current which can be applied to a saturable reactor and vary the impedance in a series or parallel circuit to control the output voltage.
- Other voltage regulators use a single transformer arrangement, the core of which is partially saturated, for voltage regulation without the use of amplifier circuits. These latter regulators have not produced good regulation, the output voltage varying several percent when the input voltage is varied over a range of plus or minus percent.
- the present invention employs two magnetic amplifier units, the cores of each being operated at a value of magnetic flux which partially saturates the cores.
- One of the objects of the invention is to provide an improved voltage regulator which avoids one or more of the disadvantages and limitations of prior art arrangements.
- Another object of the invention is to provide an accurate voltage regulator which will have long life and not be subject to the failures which are generally inherent in regulators containing electron discharge devices and lamps containing heated filaments.
- Another object of the invention is to provide a voltage regulator which is able to withstand considerable vibration and mechanical shock without changing its operating characteristics.
- Another object of the invention is to simplify the construction and assembly of voltage regulators.
- Another object of the invention is to shorten the reaction time of sensing systems employed in voltage regulators.
- the invention comprises an alternating current supply for two saturable core magnetic amplifiers.
- Each magnetic amplifier includes two similar saturable cores.
- a load winding encloses a section of each of said cores and is connected in series with a rectifier for producing a direct current magnetizing component for the core material.
- a bridge sensing circuit which includes two resistors and two dry plate rectifiers is connected across the output terminals of the regulator and supplies direct current for a control winding which encloses both sections of the cores of one of the magnetic amplifier arrangements.
- the load windings of this magnetic amplifier are connected through rectifiers to a similar control winding which encloses both sections of the other magnetic amplifier cores.
- a feature of the invention includes a winding in series with one of the load coils which includes both sections of the second magnetic amplifier core.
- Other features of the invention include anti-hunt circuits for both magnetic amplifier arrangements and a negative feed-back circuit which includes windings which enclose both sections of the cores in each unit.
- the drawing is a schematic diagram of connections of the voltage regulator.
- input terminals 10, 11, are to be connected to an alternating current supply system which may vary in voltage over a wide range of values.
- a transformer 19 has its primary winding connected to terminals 10 and 11 and its secondary winding connected to rectifiers 12, 13, at its upper terminal and to windings on the magnetic amplifier at its lower terminal.
- the other sides of rectifiers 12, 13, are connected to conductors 14 and 15 which in turn are connected through a filter circuit 16 to load terminals 17, 18, to which is connected a direct current load 20.
- a first magnetic amplifier 21 includes two similar closed saturable cores 22 and 23.
- Two load windings 24 and 25 are wound on core sections of cores 22 and 23.
- Each of the load windings has one of its terminals connected to conductor 26 which in turn is connected to secondary winding 29.
- the other side of winding 24 is connected to rectifier 27 and conductor 15.
- the upper end of winding 25 is connected in series with a third load winding 28 which acts as a compensating control winding responsive to variations in the load circuit.
- the upper terminal of winding 28 is connected to rectifier 30 which in turn is connected to conductor 14 and terminal 17 through filter 16.
- a second magnetic amplifier 30 includes two similar closed saturable cores 31 and 32 arranged in a manner similar to cores 22 and 23.
- One leg of core 31 is enclosed by a load winding 33 which is connected to a source of alternating current 34, in this case the secondary winding 35 of a transformer.
- the other side of winding 33 is connected to a rectifier 36 and conductor 37 which is connected to a control winding 38 on the first magnetic amplifier 21.
- Control winding 38 and load coil 28 are both wound so as to enclose a section of each of the cores 22 and 23.
- a second load winding 40 encloses one section of core 32 and is connected between a terminal of Winding 33 and a rectifier 41.
- the other side of rectifier 41 is connected to conductor,42 and the other side of winding 38.
- the degree of saturation in cores 31, 32 is controlled by the current in winding 43 which encloses a leg of each of the cores 31, 32.
- Winding 43 is connected to opposite points of a bridge sensing circuit 44 which includes rectifiers 45 and 46 and resistors 47 and 48.
- the bridge is supplied with direct current by means of conductors 50 and 51 which are connected to opposite junction points of the bridge circuit.
- Winding 43 is connected to the other two opposing junction points.
- Each magnetic amplifier 21 and 30 is supplied with an anti-hunt circuit, one circuit including a winding 52 on both sections of cores 22 and 23, a capacitor 53, and a variable resistor 54. The other sides of the resistor and the capacitor are connected to terminals 17, 18.
- a similar anti-hunt circuit includes a winding 55 which encloses both sections of cores 31 and 32 and includes in series connection a varaible resistor 56 and a capacitor 57. The terminals of this anti-hunt circuit are likewise connected to terminals 17 and 18 by way of conductors 50 and 51.
- a negative feed-back circuit is connected between the two amplifiers 2i and 30.
- This circuit includes a winding 69 which encloses both legs of cores 31 and 32 and a similar winding 61 which encloses both legs of cores 22 and 23.
- this circuit is as follows: When an alternating current supply system is connected to terminals and 11 full wave rectification results and direct current power is made available at terminals 17 and 18. When the upper end of winding 29 is positive, the circuit may be traced from this terminal, through rectifier 12, over conductor 14, through inductor 62 of filter 16, to terminal 17, load 23, terminal 18, conductor 15, rectifier 27, load winding 24, conductor 26, and the lower end of winding 29. This portion of the wave supplies core 22 with unidirectional magnetic flux.
- Control of the saturation of cores 22 and 23 is maintained by control winding 33.
- a circuit may be traced from this point through rectifier 65, over conductor 42, through control winding 38, conductor 37, rectifier 36, winding 33, and back to the lower end of winding 35.
- the lower end of winding 35 is positive a circuit may be traced from this point over conductor 66, winding 40, rectifier 41, conductor 42, control winding 38, conductor 37, rectifier 67, to the upper end of winding 35.
- control winding 38 receives full-wave rectified current and includes load windings 33 and 40 in series connection so that any variation of the saturation value of cores 31, 32, will infiuence the current in winding 33 and therefore control the saturation value of cores 22 and 23.
- Bridge circuit 44 is composed of two resistors 47 and 48 and two dry plate rectifiers and 46.
- the resistors are chosen so that their resistance varies only slightly with change in applied voltage while the rectifier units have a nonlinear current-voltage characteristic and their resistance therefore varies considerably with applied voltage.
- Two opposite junction points of the bridge are connected to the load terminals 17 and 1S and under normal operating conditions the bridge is balanced or nearly so. This means that the current through the opposite junction points and the control winding 43 is either Zero or a very small value.
- the voltage supplied to the bridge 44 causes the bridge to be unbalanced and sends a current (either positive or negative) through winding 43 and thereby changes the saturation value of cores 31 and 32, causing a change in reactance value of windings 33 and 40.
- the above action causes a change in the current supplied to winding 38 which in turn causes a large change in saturation of cores 22 and 23, thereby changing the reactance value of windings 24 and 25 and changing the impedance in series with the supply circuit so that the voltage across load 2% is returned to its normal value.
- this device will produce voltage regulation without the use of winding 28 but it has been found that a wider range of voltage variation on terminals 10 and 11 can be regulated by the use of this compensating Winding in series with winding 25.
- the action of winding 28 increases the saturation of cores 22 and 23 thereby reduces the reactance values of windings 24 and 25 and compensates for the increased voltage drop across these two windings.
- the action of winding 28 is to compensate for changes in load without the need for the usual regulating action caused by the bridge circuit 44 and amplifier circuit 30, these circuits being used mainly when the voltage of the alternating current supply is varied.
- an anti-hunt circuit is includes in each magnetic amplifier and the ends of these circuits are connected to the load terminals.
- Each circuit includes a series capacitor 53 and 57 so that no direct current from the load terminals passes through windings 52 and and only the rapid variations of the voltage across terminals 17 and 18 are communicated to these windings.
- transient voltage surges within the amplifier system can be reduced by providing a feedback circuit which includes windings Gtland 61.
- a rapid variation of flux in cores 31 and 32 produces a current in windings 60 and 61 which acts in a negative manner to oppose the flux generated by the current in control winding 38. This action is transient and does not affect the amplifying action of the two magnetic amplifiers for voltage changes which do not include high frequency transient effects.
- a voltage regulator for an alternating current supply circuit comprising; a first magnetic saturable core arrangement which includes two similar closed cores; a first winding on one section of one of said cores which is connected in series with a terminal of said supply circuit, a rectifier, and the negative terminal of an output circuit which is connected to a direct current load; a second winding on one section of the other of said cores which is connected in series with said terminal of the supply circuit, a winding which encloses a section of both of said cores, a rectifier, and the positive terminal of said output circuit; a second magnetic saturable core arrangement which includes two similar closed cores; 2.
- first winding on one section of one of said cores which is connected in series with a source of alternating current, a rectifier, and a first control winding which encloses a section of both of the cores in said first core arrangement; a second winding on a section of the other of said cores of the second core arrangement which is connected in series with said source of alternating current, a rectifier, and the other terminal of the control winding coupled to a sensing circuit which is coupled to the direct current load and is responsive to voltage variations thereon; rectifiers connected to one terminal of the alternating current supply circuit for supplying full wave rectification to the load circuit; and rectifiers connected to said source of alternating current for supplying full wave rectification to said first control winding.
- a voltage regulator as set forth in claim 1 which includes a negative feed-back circuit comprising a winding which encloses both cores of said first core arrangement connected to a winding which encloses both cores of said second core arrangement.
- a voltage regulator as set forth in claim 1 which includes an anti-hunt circuit for each of the magnetic core arrangements, said anti-hunt circuits each including a winding which encloses both sections of said magnetic cores and which are connected in series with a capacitor to the load circuit.
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- General Physics & Mathematics (AREA)
- Radar, Positioning & Navigation (AREA)
- Automation & Control Theory (AREA)
- Control Of Voltage And Current In General (AREA)
Description
Oct. 18, 1955 N. SILVER 2,721,303
VOLTAGE REGULATORS Filed Nov. 22, 1954 A. C. SUPPLY LOAD .C. CONTROL ANTIHUNT NATHANIEL SILVER INVENTOR ATTO RNEY United States Patent Ofiiice 2,721,303 Patented Oct. 18, 1955 VOLTAGE REGULATORS Nathaniel Silver, Stamford, Conn., assignor to Sorensen & Company, Incorporated, Stamford, Conn.
Application November 22, 1954, Serial No. 470,276
Claims. (Cl. 321-48) This invention relates to a voltage regulator which includes two magnetic amplifier units, a bridge sensing circuit, and a winding on one of the magnetic amplifier units which compensates for the load current.
The invention has particular reference to a voltage regulator arrangement which is devoid of electron discharge devices and includes no container enclosing a vacuum. The invention has further reference to voltage regulators which employ magnetic amplifier arrangements comprising two saturable cores mounted adjacent to each other.
Many types of voltage regulators have been designed and used which employ electron discharge devices such as triodes and pentodes in amplifier circuits in order to produce a control current which can be applied to a saturable reactor and vary the impedance in a series or parallel circuit to control the output voltage. Other voltage regulators use a single transformer arrangement, the core of which is partially saturated, for voltage regulation without the use of amplifier circuits. These latter regulators have not produced good regulation, the output voltage varying several percent when the input voltage is varied over a range of plus or minus percent. The present invention employs two magnetic amplifier units, the cores of each being operated at a value of magnetic flux which partially saturates the cores. The use of two magnetic amplifiers produces a regulation across the load circuit which is a considerable improvement over the prior art and the absence of electron discharge devices and other elements requiring a vacuum and a heated filament eliminates the failure due to breakage, broken filaments, and short-circuited elements within such devices.
One of the objects of the invention is to provide an improved voltage regulator which avoids one or more of the disadvantages and limitations of prior art arrangements.
Another object of the invention is to provide an accurate voltage regulator which will have long life and not be subject to the failures which are generally inherent in regulators containing electron discharge devices and lamps containing heated filaments.
Another object of the invention is to provide a voltage regulator which is able to withstand considerable vibration and mechanical shock without changing its operating characteristics.
Another object of the invention is to simplify the construction and assembly of voltage regulators.
Another object of the invention is to shorten the reaction time of sensing systems employed in voltage regulators.
The invention comprises an alternating current supply for two saturable core magnetic amplifiers. Each magnetic amplifier includes two similar saturable cores. A load winding encloses a section of each of said cores and is connected in series with a rectifier for producing a direct current magnetizing component for the core material. A bridge sensing circuit which includes two resistors and two dry plate rectifiers is connected across the output terminals of the regulator and supplies direct current for a control winding which encloses both sections of the cores of one of the magnetic amplifier arrangements. The load windings of this magnetic amplifier are connected through rectifiers to a similar control winding which encloses both sections of the other magnetic amplifier cores. A feature of the invention includes a winding in series with one of the load coils which includes both sections of the second magnetic amplifier core. Other features of the invention include anti-hunt circuits for both magnetic amplifier arrangements and a negative feed-back circuit which includes windings which enclose both sections of the cores in each unit.
For a better understanding of the present invention together with other and further objects thereof, reference is made to the following description taken in connection with the accompanying drawing.
The drawing is a schematic diagram of connections of the voltage regulator.
Referring now to the drawing, input terminals 10, 11, are to be connected to an alternating current supply system which may vary in voltage over a wide range of values. A transformer 19 has its primary winding connected to terminals 10 and 11 and its secondary winding connected to rectifiers 12, 13, at its upper terminal and to windings on the magnetic amplifier at its lower terminal. The other sides of rectifiers 12, 13, are connected to conductors 14 and 15 which in turn are connected through a filter circuit 16 to load terminals 17, 18, to which is connected a direct current load 20.
A first magnetic amplifier 21 includes two similar closed saturable cores 22 and 23. Two load windings 24 and 25 are wound on core sections of cores 22 and 23. Each of the load windings has one of its terminals connected to conductor 26 which in turn is connected to secondary winding 29. The other side of winding 24 is connected to rectifier 27 and conductor 15. The upper end of winding 25 is connected in series with a third load winding 28 which acts as a compensating control winding responsive to variations in the load circuit. The upper terminal of winding 28 is connected to rectifier 30 which in turn is connected to conductor 14 and terminal 17 through filter 16.
A second magnetic amplifier 30 includes two similar closed saturable cores 31 and 32 arranged in a manner similar to cores 22 and 23. One leg of core 31 is enclosed by a load winding 33 which is connected to a source of alternating current 34, in this case the secondary winding 35 of a transformer. The other side of winding 33 is connected to a rectifier 36 and conductor 37 which is connected to a control winding 38 on the first magnetic amplifier 21. Control winding 38 and load coil 28 are both wound so as to enclose a section of each of the cores 22 and 23.
A second load winding 40 encloses one section of core 32 and is connected between a terminal of Winding 33 and a rectifier 41. The other side of rectifier 41 is connected to conductor,42 and the other side of winding 38. The degree of saturation in cores 31, 32, is controlled by the current in winding 43 which encloses a leg of each of the cores 31, 32. Winding 43 is connected to opposite points of a bridge sensing circuit 44 which includes rectifiers 45 and 46 and resistors 47 and 48. The bridge is supplied with direct current by means of conductors 50 and 51 which are connected to opposite junction points of the bridge circuit. Winding 43 is connected to the other two opposing junction points.
Each magnetic amplifier 21 and 30 is supplied with an anti-hunt circuit, one circuit including a winding 52 on both sections of cores 22 and 23, a capacitor 53, and a variable resistor 54. The other sides of the resistor and the capacitor are connected to terminals 17, 18. A similar anti-hunt circuit includes a winding 55 which encloses both sections of cores 31 and 32 and includes in series connection a varaible resistor 56 and a capacitor 57. The terminals of this anti-hunt circuit are likewise connected to terminals 17 and 18 by way of conductors 50 and 51.
In order to reduce transients and to make the regulator more stable a negative feed-back circuit is connected between the two amplifiers 2i and 30. This circuit includes a winding 69 which encloses both legs of cores 31 and 32 and a similar winding 61 which encloses both legs of cores 22 and 23.
The operation of this circuit is as follows: When an alternating current supply system is connected to terminals and 11 full wave rectification results and direct current power is made available at terminals 17 and 18. When the upper end of winding 29 is positive, the circuit may be traced from this terminal, through rectifier 12, over conductor 14, through inductor 62 of filter 16, to terminal 17, load 23, terminal 18, conductor 15, rectifier 27, load winding 24, conductor 26, and the lower end of winding 29. This portion of the wave supplies core 22 with unidirectional magnetic flux. During the second half of the alternating current cycle when the lower end of winding 29 is positive the circuit may be traced from this terminal over conductor 26, through load winding 25, series load winding 28, rectifier 3t), conductor 14, inductor 62, terminal 17, load 2%, terminal 18, conductor l5, rectifier l3, and the upper end of winding 29. This portion of the alternating current wave produces a unidirectional flux in core 23. It will be obvious from the above circuit construction that the degree of saturation of cores 22 and 23 determines the reactance of windings 24 and 25, together with winding 28, determines the value of direct current voltage available at terminals 17 and 18 and a change of saturation in cores 22 and 23 will obviously change the output voltage.
Control of the saturation of cores 22 and 23 is maintained by control winding 33. When the upper end of transformer secondary is positive a circuit may be traced from this point through rectifier 65, over conductor 42, through control winding 38, conductor 37, rectifier 36, winding 33, and back to the lower end of winding 35. When the lower end of winding 35 is positive a circuit may be traced from this point over conductor 66, winding 40, rectifier 41, conductor 42, control winding 38, conductor 37, rectifier 67, to the upper end of winding 35. The above described circuits show that control winding 38 receives full-wave rectified current and includes load windings 33 and 40 in series connection so that any variation of the saturation value of cores 31, 32, will infiuence the current in winding 33 and therefore control the saturation value of cores 22 and 23.
It will be evident from the above description that this device will produce voltage regulation without the use of winding 28 but it has been found that a wider range of voltage variation on terminals 10 and 11 can be regulated by the use of this compensating Winding in series with winding 25. When load 20 is changed so as to draw more current from the supply line and through windings 25 and 28, the action of winding 28 increases the saturation of cores 22 and 23 thereby reduces the reactance values of windings 24 and 25 and compensates for the increased voltage drop across these two windings. The action of winding 28 is to compensate for changes in load without the need for the usual regulating action caused by the bridge circuit 44 and amplifier circuit 30, these circuits being used mainly when the voltage of the alternating current supply is varied.
It has been found by experiment that the time constants of the circuits involved produce a result which is sometimes greater than the required result. That is, an over-shooting eifect is often evident. This results in an oscillatory condition which is generally described as hunting. In order to counteract this effect, an anti-hunt circuit is includes in each magnetic amplifier and the ends of these circuits are connected to the load terminals. Each circuit includes a series capacitor 53 and 57 so that no direct current from the load terminals passes through windings 52 and and only the rapid variations of the voltage across terminals 17 and 18 are communicated to these windings. When transients or other abrupt changes in the direct current voltage are present the action of windings 52 and 55 causes a damping action and hunting is eliminated.
it has also been found that transient voltage surges within the amplifier system can be reduced by providing a feedback circuit which includes windings Gtland 61. A rapid variation of flux in cores 31 and 32 produces a current in windings 60 and 61 which acts in a negative manner to oppose the flux generated by the current in control winding 38. This action is transient and does not affect the amplifying action of the two magnetic amplifiers for voltage changes which do not include high frequency transient effects.
While there have been described and illustrated specific embodiments of the invention, it will be obvious that various changes and modifications can be made therein without departing from the field of the invention which should be limited only by the scope of the appended claims.
I claim:
1. A voltage regulator for an alternating current supply circuit comprising; a first magnetic saturable core arrangement which includes two similar closed cores; a first winding on one section of one of said cores which is connected in series with a terminal of said supply circuit, a rectifier, and the negative terminal of an output circuit which is connected to a direct current load; a second winding on one section of the other of said cores which is connected in series with said terminal of the supply circuit, a winding which encloses a section of both of said cores, a rectifier, and the positive terminal of said output circuit; a second magnetic saturable core arrangement which includes two similar closed cores; 2. first winding on one section of one of said cores which is connected in series with a source of alternating current, a rectifier, and a first control winding which encloses a section of both of the cores in said first core arrangement; a second winding on a section of the other of said cores of the second core arrangement which is connected in series with said source of alternating current, a rectifier, and the other terminal of the control winding coupled to a sensing circuit which is coupled to the direct current load and is responsive to voltage variations thereon; rectifiers connected to one terminal of the alternating current supply circuit for supplying full wave rectification to the load circuit; and rectifiers connected to said source of alternating current for supplying full wave rectification to said first control winding.
2. A voltage regulator as set forth in claim 1 which includes a negative feed-back circuit comprising a winding which encloses both cores of said first core arrangement connected to a winding which encloses both cores of said second core arrangement.
3. A voltage regulator as set forth in claim 1 which includes an anti-hunt circuit for each of the magnetic core arrangements, said anti-hunt circuits each including a winding which encloses both sections of said magnetic cores and which are connected in series with a capacitor to the load circuit.
4. A voltage regulator as set forth in claim 1 in which the sensing circuit includes a four-armed bridge containing two resistors and two dry plate rectifiers.
S. A voltage regulator as set forth in claim 4 in which said bridge sensing circuit comprises the two resistors connected in opposite sides of the bridge and the dry plate rectifiers are also connected in opposite sides, a first pair of opposite junction points of the bridge are connected to the load terminals, and a second pair of opposite junction points are connected to said second control winding.
References Cited in the file of this patent UNITED STATES PATENTS 2,306,998 Claesson Dec. 29, 1942 2,567,725 Morgan Sept. 11, 1951 2,611,889 Huge Sept. 23, 1952 2,653,293 Huge Sept. 22, 1953
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US470276A US2721303A (en) | 1954-11-22 | 1954-11-22 | Voltage regulators |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US470276A US2721303A (en) | 1954-11-22 | 1954-11-22 | Voltage regulators |
Publications (1)
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US2721303A true US2721303A (en) | 1955-10-18 |
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Application Number | Title | Priority Date | Filing Date |
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US470276A Expired - Lifetime US2721303A (en) | 1954-11-22 | 1954-11-22 | Voltage regulators |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2763828A (en) * | 1953-05-27 | 1956-09-18 | Westinghouse Electric Corp | Magnetic amplifier |
US2816260A (en) * | 1956-07-31 | 1957-12-10 | Donald G Scorgie | Regulated d. c. power supply |
US2945172A (en) * | 1957-05-16 | 1960-07-12 | Power Equipment Company | Current supply apparatus |
US3068396A (en) * | 1957-03-18 | 1962-12-11 | Superior Electric Co | Automatic voltage regulator |
US3241052A (en) * | 1961-10-24 | 1966-03-15 | Udylite Corp | Reactor loading circuit |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2306998A (en) * | 1940-02-02 | 1942-12-29 | Claesson Per Harry Elias | Automatic voltage and current regulating device |
US2567725A (en) * | 1950-10-31 | 1951-09-11 | Gen Electric | Three phase control system employing saturable reactors |
US2611889A (en) * | 1948-03-23 | 1952-09-23 | Lorain Prod Corp | Regulated rectifier |
US2653293A (en) * | 1947-10-17 | 1953-09-22 | Lorain Prod Corp | Battery charger |
-
1954
- 1954-11-22 US US470276A patent/US2721303A/en not_active Expired - Lifetime
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2306998A (en) * | 1940-02-02 | 1942-12-29 | Claesson Per Harry Elias | Automatic voltage and current regulating device |
US2653293A (en) * | 1947-10-17 | 1953-09-22 | Lorain Prod Corp | Battery charger |
US2611889A (en) * | 1948-03-23 | 1952-09-23 | Lorain Prod Corp | Regulated rectifier |
US2567725A (en) * | 1950-10-31 | 1951-09-11 | Gen Electric | Three phase control system employing saturable reactors |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2763828A (en) * | 1953-05-27 | 1956-09-18 | Westinghouse Electric Corp | Magnetic amplifier |
US2816260A (en) * | 1956-07-31 | 1957-12-10 | Donald G Scorgie | Regulated d. c. power supply |
US3068396A (en) * | 1957-03-18 | 1962-12-11 | Superior Electric Co | Automatic voltage regulator |
US2945172A (en) * | 1957-05-16 | 1960-07-12 | Power Equipment Company | Current supply apparatus |
US3241052A (en) * | 1961-10-24 | 1966-03-15 | Udylite Corp | Reactor loading circuit |
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