US2197934A - Power-regulating device - Google Patents

Power-regulating device Download PDF

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Publication number
US2197934A
US2197934A US195594A US19559438A US2197934A US 2197934 A US2197934 A US 2197934A US 195594 A US195594 A US 195594A US 19559438 A US19559438 A US 19559438A US 2197934 A US2197934 A US 2197934A
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circuit
potential
power
load
current
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US195594A
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Winfield R Koch
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RCA Corp
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RCA Corp
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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05FSYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES
    • G05F1/00Automatic 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
    • G05F1/66Regulating electric power

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  • This invention relates to power-regulating devices such as are operable to cause aconstant amount of power to be supplied toa variable load circuit. It has for its principal object the I provision of an improved apparatus and method of operation whereby the .power supplied to a load circuit is maintained constant irrespective of variations in the operating conditions of this circuit. This result is attained without the use 2. of the mechanical contacts usually involved in such regulating apparatus.
  • the improvedregulatorof this invention is based on the principle that the resultant sum or difference of two different frequency potentials impressed on a nonlinear element is proportional to the product of the amplitudes of these potentials. By making these amplitudes in direct proportion respectively to the current through and to the voltage across the load circuit, it is thus N possible to derive a control potential which is always proportional to the power delivered to the load.
  • a further feature of the invention is the detection of this resultant or control potential and the application of the detected pc- I tential to thevinput circuit of an electron discharge device through which power is supplied to the load circuit.
  • Such a power regulator has many useful applications. Thus, it operates to supply power to N the filament of a standard light source with a higher degree of constancy than can be realized from the use of a voltage or current regulator.
  • such a regulator I is useful in holding the generator input at a safe constant value, thus facilitating and amplifying an adjustment which is otherwise difficult for the reason that the generator input current and voltage change with every variation of the generator output.
  • the single figure of the drawing is a wiring diagram of a power regulator embodying the invention.
  • This regulator is illustrated as applied to a load circuit III-ll which is supplied with power 50 from a suitable source (not shown) through leads "-12, a regulating device l3 of the electron discharge type, and a resistor ll.
  • Responsive to the voltage of the load circuit ll-ll is an amplifier it which has its electron discharge path connected to this circuit through quency fa.
  • through the secondary windings 20 and 26 and a bias potential source 2' l is the input circuit of a mixing tube or electron discharge device 28.
  • the output circuit of the device includes the primary circuit 29 of a transformer 30 and a plate potential source 3
  • the resultant potential thus made available at the secondary winding 32 of the transformer 30 is detected by a rectifier 33, and the detected resultant potential appearing at the terminals of a resistor 34 is applied to the control grid 35 of the regulating tube l3.
  • the amplitude of an output current uct of the voltage across the load and the current through it will therefore be directly proportional to the voltage across the load, and to the current through resistor l4 and thence through the load, and therefore proportional to the product of the voltage and ourrent, which is the power in the load circuit.
  • the bias potential applied to the control tube grid 35 is made more negative when the power delivered to the load through the circuit ill-ll tends to increase and vice versa, thus maintaining the power delivered at a substantially constant value.
  • any increase in power delivered to the load as exhibited by an increase in the current and/or voltage, or product of the two, will result in an' increase in negative bias on the grid of the tube B and a compensating reduction in applied current and voltage, tending to maintain the power to the load constant.
  • a regulating device provided with a cathode and anode and with a grid for controlling the current transmitted between said cathode and anode, an impedance device, a load circuit connected between said terminals through said impedance device and said cathode and anode, means for deriving from said impedance device one frequency potential which is dependent on the current of said circuit, means for deriving from said load circuit another frequency potential which is dependent on the voltage of said circuit, and means for applying the detected resultant of said different frequency potentials to said grid.
  • a load circuit means for deriving from said circuit a potential proportional to the load current, means for amplifying and modulating said potential at a predetermined frequency, means connected with the load circuit for amplifying the load potential, means for modulating said potential at a second predetermined frequency, means for combining said modulated potentials, means for detecting the resultant potential, a load control tube having a control grid, and means for applying to said control grid said resultant potential.

Description

'April 23, 1940. w, KOCH 2,197,934
POWER-REGULATING DEVICE Filed uarcx; 12, 1938 Snnmtor Patented Apr. 23, 1940 UNITED STATES rowea-anooui'rmo nsvrca Winfield R. Koch, Haddonfleld, N. 1. assignor to Radio Corporation of America, a corporation of Delaware Application March 12, 1938, Sen-mi No. 195,594 40am. (Cl.171-,31 2) This invention relates to power-regulating devices such as are operable to cause aconstant amount of power to be supplied toa variable load circuit. It has for its principal object the I provision of an improved apparatus and method of operation whereby the .power supplied to a load circuit is maintained constant irrespective of variations in the operating conditions of this circuit. This result is attained without the use 2. of the mechanical contacts usually involved in such regulating apparatus.
The improvedregulatorof this invention is based on the principle that the resultant sum or difference of two different frequency potentials impressed on a nonlinear element is proportional to the product of the amplitudes of these potentials. By making these amplitudes in direct proportion respectively to the current through and to the voltage across the load circuit, it is thus N possible to derive a control potential which is always proportional to the power delivered to the load. A further feature of the invention is the detection of this resultant or control potential and the application of the detected pc- I tential to thevinput circuit of an electron discharge device through which power is supplied to the load circuit.
Such a power regulator has many useful applications. Thus, it operates to supply power to N the filament of a standard light source with a higher degree of constancy than can be realized from the use of a voltage or current regulator.
Likewise, in adjusting an oscillation generator.
.for maximum output efllciency, such a regulator I is useful in holding the generator input at a safe constant value, thus facilitating and amplifying an adjustment which is otherwise difficult for the reason that the generator input current and voltage change with every variation of the generator output.
The invention will be better understood from the following description considered in connec tion with the accompanying drawing and its scope is indicated by the appended claims.
The single figure of the drawing is a wiring diagram of a power regulator embodying the invention.
This regulator is illustrated as applied to a load circuit III-ll which is supplied with power 50 from a suitable source (not shown) through leads "-12, a regulating device l3 of the electron discharge type, and a resistor ll.
Responsive to the voltage of the load circuit ll-ll is an amplifier it which has its electron discharge path connected to this circuit through quency fa.
the tuned primary circuit 16 of a transformer ll,
its screen gird directly connected to the circuit,
and has appliedto its control grid 18 from a generator 19 electrical oscillations of a frequency fa. ,Under these conditions, there is delivered to-the secondary winding 20 of the transformer l1 9. potential which varies in amplitude as the voltage of the circuit I0 ll and has a fre- Likewise connected across the resistor H are the anode and screen grid paths of, amplifier 2| which has applied to its control grid 22, from an oscillation generator 23, electrical oscillations of a different frequency fb. The anode circuit of the amplifier 22 is completed through the tuned rated class C.
Coupled to the amplifiers i5 and 2| through the secondary windings 20 and 26 and a bias potential source 2' l is the input circuit of a mixing tube or electron discharge device 28. The output circuit of the device includes the primary circuit 29 of a transformer 30 and a plate potential source 3|. This transformer is tuned to pass either the sum frequency or the difference frequency of fa and fl).
When the two potentials, having frequencies Ia and ID, with amplitudes proportional to the voltage across the load and to the current through the load, respectively, are applied to the input circuit of mixing tube 28, the plate current will have components of many frequencies. These components have been treated in such well-known texts as Communication EngineeringEveritt, 1st ed., and Radio Engineering Terman, 2nd ed. Because of the selectivity secured by the tuned transformer 30, only the component having a frequency fa+fb (or fajb) is of interest.
The resultant potential thus made available at the secondary winding 32 of the transformer 30 is detected by a rectifier 33, and the detected resultant potential appearing at the terminals of a resistor 34 is applied to the control grid 35 of the regulating tube l3. In accordance with accepted authorities such as those hereinbefore referred to, the amplitude of an output current uct of the voltage across the load and the current through it. The control or bias potential derived from the rectifier or diode 33 will therefore be directly proportional to the voltage across the load, and to the current through resistor l4 and thence through the load, and therefore proportional to the product of the voltage and ourrent, which is the power in the load circuit.
Under these conditions, the bias potential applied to the control tube grid 35 is made more negative when the power delivered to the load through the circuit ill-ll tends to increase and vice versa, thus maintaining the power delivered at a substantially constant value. In other words, any increase in power delivered to the load, as exhibited by an increase in the current and/or voltage, or product of the two, will result in an' increase in negative bias on the grid of the tube B and a compensating reduction in applied current and voltage, tending to maintain the power to the load constant.
I I claim as my invention:
1. The combination of power supply terminals, 2. regulating device provided with a cathode and anode and with a grid for controlling the current transmitted between said cathode and anode, a load circuit connected to said terminals through said cathode and anode, means for deriving one frequency potential which is dependent on the current of said circuit and another frequency potential which is dependent on the voltage of said circuit, and means for applying the detected resultant of said different frequency potentials to said grid.
2. The combination of power supply terminals,
a regulating device provided with a cathode and anode and with a grid for controlling the current transmitted between said cathode and anode, an impedance device, a load circuit connected between said terminals through said impedance device and said cathode and anode, means for deriving from said impedance device one frequency potential which is dependent on the current of said circuit, means for deriving from said load circuit another frequency potential which is dependent on the voltage of said circuit, and means for applying the detected resultant of said different frequency potentials to said grid.
3. The combination of power supply terminals, a regulating device provided with a cathode and anode and with a grid for controlling the current transmitted between said cathode and anode, a resistor, a load circuit connected to said terminals through said resistor and said cathode and anode, means including one amplifier for deriving from said resistor one frequency potential which is dependent on the current of said circuit, means for modulating the output of said amplifier at one frequency, another amplifier connected to said load circuit for deriving a potential which is dependent on the voltage of said circuit, means for modulating the output of said other amplifier at a diiferent frequency, means for combining the outputs of said amplifiers, means for detecting the resultant of said combined output, and means for applying to said grid a potential dependent on said detected resultant output.
4. In a power regulating system, the combination of a load circuit, means for deriving from said circuit a potential proportional to the load current, means for amplifying and modulating said potential at a predetermined frequency, means connected with the load circuit for amplifying the load potential, means for modulating said potential at a second predetermined frequency, means for combining said modulated potentials, means for detecting the resultant potential, a load control tube having a control grid, and means for applying to said control grid said resultant potential.
WINFIELD R. KOCH.
US195594A 1938-03-12 1938-03-12 Power-regulating device Expired - Lifetime US2197934A (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2497908A (en) * 1946-07-01 1950-02-21 La Verne R Philpott Synchronous voltage regulator system
US2567692A (en) * 1948-05-10 1951-09-11 Western Electric Co Apparatus for controlling electrical power
US2579223A (en) * 1945-06-27 1951-12-18 William R Baker Regulated power supply
US2585679A (en) * 1948-01-12 1952-02-12 Atomic Energy Commission High-voltage regulator
US2604618A (en) * 1950-03-01 1952-07-22 Donald R Middleton Regulated rectifying apparatus
US2640962A (en) * 1946-03-05 1953-06-02 Us Navy Constant current device
US2769135A (en) * 1955-02-25 1956-10-30 Philco Corp Current regulating system
US2870396A (en) * 1953-08-14 1959-01-20 Charles H Jones Electronic current regulator
US3388318A (en) * 1963-07-30 1968-06-11 Onnetics Inc Hall effect constant power regulator

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2579223A (en) * 1945-06-27 1951-12-18 William R Baker Regulated power supply
US2640962A (en) * 1946-03-05 1953-06-02 Us Navy Constant current device
US2497908A (en) * 1946-07-01 1950-02-21 La Verne R Philpott Synchronous voltage regulator system
US2585679A (en) * 1948-01-12 1952-02-12 Atomic Energy Commission High-voltage regulator
US2567692A (en) * 1948-05-10 1951-09-11 Western Electric Co Apparatus for controlling electrical power
US2604618A (en) * 1950-03-01 1952-07-22 Donald R Middleton Regulated rectifying apparatus
US2870396A (en) * 1953-08-14 1959-01-20 Charles H Jones Electronic current regulator
US2769135A (en) * 1955-02-25 1956-10-30 Philco Corp Current regulating system
US3388318A (en) * 1963-07-30 1968-06-11 Onnetics Inc Hall effect constant power regulator

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