US2372432A - Voltage regulator - Google Patents

Voltage regulator Download PDF

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Publication number
US2372432A
US2372432A US487521A US48752143A US2372432A US 2372432 A US2372432 A US 2372432A US 487521 A US487521 A US 487521A US 48752143 A US48752143 A US 48752143A US 2372432 A US2372432 A US 2372432A
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voltage
tube
control
circuit
output
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US487521A
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Eugene O Keizer
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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
    • G05F1/10Regulating voltage or current
    • G05F1/46Regulating voltage or current wherein the variable actually regulated by the final control device is dc
    • G05F1/607Regulating voltage or current wherein the variable actually regulated by the final control device is dc using discharge tubes in parallel with the load as final control devices

Definitions

  • This invention relates generally to voltage regulating apparatus and more particularly to a voltage regulator for a source of direct voltage wherein the voltage is regulated by duplex control of a variable impedance connected across the output of the voltage regulating circuit.
  • variable impedance devices such as thermionic tubes, connected across the output of the voltage regulating circuit and responsive to a portion oi the output voltage for controlling the shunt impedance provided by a variable impedance path.
  • Th instant invention contemplates a unique improvement pon existing systems whereby the voltage control circuit includes a series resistor between the voltage source and the load; the applied voltage is regulated by a conventional gaseous discharge voltage control device in shunt therewith; a multi-control electrode thermionic tube is connected in shunt with the load; and gaseous discharge voltage regulators may be included in the cathode circuitof the thermionic tube. A portion of the regulated applied voltage is "applied to one of the control electrodes of the thermionic tube to control the shunt impedance provided thereby which, in turn, varies the voltage drop across the series resistor.
  • Additional voltage control is provided by applying a portion of the output voltage across the load to a second control electrode of the thermionic tube to provide additional degenerative control of the current through the shunt connected thermionic tube which, in turn, provides additional control of the voltage drop across the series resistor.
  • variable shunt impedance regulator tube may be a beam pentode in which the screen electrode is employed as a balancing electrode, and the control grid is employed as the degenerative electrode. It should be understood that these electrodes may be interchanged within the spirit and scope of the inventlon.
  • any a variable impedance is connected in shunt with the voltage applied to a load and the voltage across a series resistor in the voltage supply circuit is varied by controlling the conductivity of the shunt impedance.
  • Another object of the invention is to provide an improved voltage control circuit which includes a series resistor in the voltage supply circuit, means for regulating the voltage applied to the input of said resistor, means forregulating voltage derived from the output of said resistor, means responsive to a portion of the regulated input voltage for controlling the voltage drop across the series resistor and means responsive to a portion of the output regulated voltage for controlling degeneratively the impedance of the shunt impedance path.
  • a source of unregulated direct input voltage is connected to the input terminals l, 2, the terminal I being at positive potential.
  • One terminal of a gaseous discharge type voltage regulator 8 such as, for example, the RCA- type VR-l50, is connected to the input terminal I and to one terminal of a series resistor '4.
  • the remaining resistor terminal is connected to one terminal of a load device 5.
  • the remaining terminal of the voltage regulator 3 is connected through the resistive element of a potentiometer 6 to one terminal of a. second resistor l.
  • the remaining terminal of the second resistor is connected to the negative input terminal 2, and to the remaining terminal of the load device 5.
  • the terminal of the series resistor 4 which is connected to the load device 5, is also connected to the anode of a thermionic electron discharge tube 8, such as for example, a beam pentode tube.
  • the movable contact of the potentiometer 6 is connected to the screen electrode of the beam pentode tube 8.
  • the cathode of the beam pentode tube 8 is connected through a second gaseous discharge type voltage regulator 9 to the junction of the terminals of the potentiometer 6 and the second resistor 'l.
  • a third gaseous discharge type voltage regulator tube Ill is connected across the second resistor 1.
  • the resistive element of a second potentiometer H is connected across the terminals of th load device 5.
  • the movable contact of the second potentiometer H is connected to the control electrode of the beam penother type of multi-grld tube may be substituted for the beam pentode 8, providing the operating characteristics thereof are suitable tor the parv terminals I, 2 is smoothed partially by means of the gaseous discharge type regulator 3 connected across the input terminals.
  • the portion of the intiallly regulated input voltage derived from the potentiometer 6 and applied to the screen electrode of the beam pentode tube 8 varies the conductivity of the tube 8 in a manner which providesreasonably fine regulation of the voltage drop across the series resistor 43 and hence the output voltage applied to the load device 6.
  • the screen potential is adjusted to the order of the rated value for the tube.
  • a voltage regulator for a source of D. 0. potential comprising a transmission circuit includ- Q,372,432 7 ing a series resistor, means for applying said po tential tothe input of said circuit, means for deriving an output voltage from said circuit, an
  • a cathode and a plurality of control electrodes means connecting said anode and said cathode of said tube across the output of said circuit, means connected to one of said control electrodes and responsive to a portion of said applied potential for controlling the impedance of said tube,
  • Apparatus of the type described in claim 3 including a gaseous discharge voltage regulator, and means connecting said gaseous regulator in series with said first voltage divider connected across said input of said circuit.
  • Apparatus of the type described in claim 3 including a gaseous discharge voltage regulator, and means connecting said gaseous regulator in series with said cathode of said tube connected across said output of said circuit.
  • Apparatus of the type described in claim 3 including a first gaseous discharge voltage regulator, means connecting said gaseous regulator in series with said first voltage divider connected across said input of said circuit, a second gaseous discharge voltage regulator, and means connecting said second gaseous regulator in series with said cathode of said tube connected across said output of said circuit.
  • Apparatus of the type described in claim 3 including a load device connected across said output of said circuit.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • General Physics & Mathematics (AREA)
  • Radar, Positioning & Navigation (AREA)
  • Automation & Control Theory (AREA)
  • Amplifiers (AREA)

Description

March 27, 1945. I O K I E 2,372,432
VOLTAGE REGULATOR Filed May 18, 1943 3nventor I'lgcrzb 0.152 90)" (Ittorneg Patented 27, 1945 VOLTAGE REGULATOR Eugene OQK'eiser, Princeton, N. J., assignor to America, a corporation of Radio Corporation of Delaware Application May'lB, 1943, Serial No. 487,521 'I'Chims. (or. 111-312) This invention relates generally to voltage regulating apparatus and more particularly to a voltage regulator for a source of direct voltage wherein the voltage is regulated by duplex control of a variable impedance connected across the output of the voltage regulating circuit.
Conventional voltage regulators have included variable impedance devices, such as thermionic tubes, connected across the output of the voltage regulating circuit and responsive to a portion oi the output voltage for controlling the shunt impedance provided by a variable impedance path.
Th instant invention contemplates a unique improvement pon existing systems whereby the voltage control circuit includes a series resistor between the voltage source and the load; the applied voltage is regulated by a conventional gaseous discharge voltage control device in shunt therewith; a multi-control electrode thermionic tube is connected in shunt with the load; and gaseous discharge voltage regulators may be included in the cathode circuitof the thermionic tube. A portion of the regulated applied voltage is "applied to one of the control electrodes of the thermionic tube to control the shunt impedance provided thereby which, in turn, varies the voltage drop across the series resistor. Additional voltage control is provided by applying a portion of the output voltage across the load to a second control electrode of the thermionic tube to provide additional degenerative control of the current through the shunt connected thermionic tube which, in turn, provides additional control of the voltage drop across the series resistor.
Applicant's improved system provides voltage control within extremely narrow limits notwithstanding considerable variations in applied voltage. For example, a 45 percent change in the input voltage may be regulated by the instant system to provide less than of 1 percent variation in output voltage applied to the load. For low power voltages of the type employed in conventional receiver circuits, the variable shunt impedance regulator tube may be a beam pentode in which the screen electrode is employed as a balancing electrode, and the control grid is employed as the degenerative electrode. It should be understood that these electrodes may be interchanged within the spirit and scope of the inventlon.
Among the objects of the invention are to provide an improved voltage control circuit for a source of direct potential. Another object of the invention is to provide an improved method of and means for regulating direct voltages wherein tode tube 8. It should be understood that any a variable impedance is connected in shunt with the voltage applied to a load and the voltage across a series resistor in the voltage supply circuit is varied by controlling the conductivity of the shunt impedance. Another object of the invention is to provide an improved voltage control circuit which includes a series resistor in the voltage supply circuit, means for regulating the voltage applied to the input of said resistor, means forregulating voltage derived from the output of said resistor, means responsive to a portion of the regulated input voltage for controlling the voltage drop across the series resistor and means responsive to a portion of the output regulated voltage for controlling degeneratively the impedance of the shunt impedance path.
The invention will be described in further detail by reference to the accompanying drawing of which the single figure is a schematic circuit diagram of one embodiment thereof.
Referring to the drawing, a source of unregulated direct input voltage, not shown, is connected to the input terminals l, 2, the terminal I being at positive potential. One terminal of a gaseous discharge type voltage regulator 8 such as, for example, the RCA- type VR-l50, is connected to the input terminal I and to one terminal of a series resistor '4. The remaining resistor terminal is connected to one terminal of a load device 5. The remaining terminal of the voltage regulator 3 is connected through the resistive element of a potentiometer 6 to one terminal of a. second resistor l. The remaining terminal of the second resistor is connected to the negative input terminal 2, and to the remaining terminal of the load device 5.
The terminal of the series resistor 4 which is connected to the load device 5, is also connected to the anode of a thermionic electron discharge tube 8, such as for example, a beam pentode tube. The movable contact of the potentiometer 6 is connected to the screen electrode of the beam pentode tube 8. The cathode of the beam pentode tube 8 is connected through a second gaseous discharge type voltage regulator 9 to the junction of the terminals of the potentiometer 6 and the second resistor 'l. A third gaseous discharge type voltage regulator tube Ill is connected across the second resistor 1. The resistive element of a second potentiometer H is connected across the terminals of th load device 5. The movable contact of the second potentiometer H is connected to the control electrode of the beam penother type of multi-grld tube may be substituted for the beam pentode 8, providing the operating characteristics thereof are suitable tor the parv terminals I, 2 is smoothed partially by means of the gaseous discharge type regulator 3 connected across the input terminals. The portion of the intiallly regulated input voltage derived from the potentiometer 6 and applied to the screen electrode of the beam pentode tube 8 varies the conductivity of the tube 8 in a manner which providesreasonably fine regulation of the voltage drop across the series resistor 43 and hence the output voltage applied to the load device 6. The screen potential is adjusted to the order of the rated value for the tube. However, some obiectionable variations in the output voltage will still result from relatively large variations in the voltage applied to the input terminals i, 2. These residual voltage variations are partially compensated by the second and third gaseous discharge type voltage regulators s, it which are connected in series with the cathode of the beam pentode tube 8. The gaseousdischarge regulators 9, to reduce the total voltage applied between anode and cathode of the tube 8 to the order of the rated value thereof. The efiect thereof is to provide an improved percentage of regulation over the regulation which would be possible if the total output voltage were applied across the control tube 8. However, additional control of the output voltage applied to the load device is obtained by deriving a portion of said output voltage from the second potentiometer ii and applying this voltage to the control electrode of l the beam pentode tube 8. If the voltage balance provided by the potentials applied to the screen electrode is imperfect. the voltages derived from the second potentiometer H and applied to the control electrode will operate in a degenerative fashion to minimize the output voltage variations applied to the load device 5.
If the extremely fine voltage regulation men tioned heretofore is not required, or if the volt age to be regulated is of the order of the rated voltage-tor the control tube 8, it may be found desirable to eliminate one or more of the gase= ous discharge type voltage regulators described. In this event, the dual control of the tube 8 will still provide much improved voltage regulation over existing systems utilizing a single thermionic type voltage regulator stage.
Thus the invention described comprises an improved voltage regulator circuit for direct voltages wherein the ordinary voltage regulation of a thermionic tube connected across a load device is supplemented by the degenerative action of a portion of the output voltage applied to a sup= plemental control electrode of the regulator tube.
I claim as my invention:
1. A voltage regulator for a source of D. 0. potential comprising a transmission circuit includ- Q,372,432 7 ing a series resistor, means for applying said po tential tothe input of said circuit, means for deriving an output voltage from said circuit, an
electron discharge tube having at least an anode,
a cathode and a plurality of control electrodes. means connecting said anode and said cathode of said tube across the output of said circuit, means connected to one of said control electrodes and responsive to a portion of said applied potential for controlling the impedance of said tube,
and means connected to another of said control across the output of said circuit, means connected to one of said control electrodes and responsive to a portion of said applied potential for controlling the voltage drop across said series resistor. and means connected to the other oi said control electrodes and responsive to a portion of said derived voltage for degeneratively control ling the current through said tube.
3. A voltage regulator for a source of D. C. potential comprising a transmission circuit including a series resistor, means for applying said potential to the input of said circuit, means for connecting a load device to the output of said circuit, a first voltage divider connected across said input of said circuit, a second voltage divider connected across said output oi said cir= cult, an electron discharge device having at least an anode, a cathode and two control electrodes, means connecting said cathode and said anode across said output of said circuit, means connecting one of said control electrodes to said first voltage divider and means connecting another of said control electrodes to said second voltage divider.
4-. Apparatus of the type described in claim 3 including a gaseous discharge voltage regulator, and means connecting said gaseous regulator in series with said first voltage divider connected across said input of said circuit.
5. Apparatus of the type described in claim 3 including a gaseous discharge voltage regulator, and means connecting said gaseous regulator in series with said cathode of said tube connected across said output of said circuit.
6. Apparatus of the type described in claim 3 including a first gaseous discharge voltage regulator, means connecting said gaseous regulator in series with said first voltage divider connected across said input of said circuit, a second gaseous discharge voltage regulator, and means connecting said second gaseous regulator in series with said cathode of said tube connected across said output of said circuit.
7. Apparatus of the type described in claim 3 including a load device connected across said output of said circuit.
EUGENE O. KEIZER.
US487521A 1943-05-18 1943-05-18 Voltage regulator Expired - Lifetime US2372432A (en)

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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2445171A (en) * 1945-05-30 1948-07-13 Gen Electric Regulator
US2471976A (en) * 1946-04-18 1949-05-31 Bell Telephone Labor Inc Voltage regulation
US2497918A (en) * 1945-09-21 1950-02-21 Edward C Taylor Current-control apparatus for potential-measuring apparatus
US2576100A (en) * 1945-07-13 1951-11-27 Research Corp Voltage stabilizing system and tube
US2602915A (en) * 1950-05-26 1952-07-08 Sorensen & Company Inc Voltage regulator
US2710940A (en) * 1951-02-24 1955-06-14 Rca Corp Electronic voltage regulator system
US2751550A (en) * 1953-10-12 1956-06-19 Bell Telephone Labor Inc Current supply apparatus
US2794915A (en) * 1953-06-16 1957-06-04 Walter G Wadey Regulated vacuum-tube bias supply
US2814772A (en) * 1951-08-28 1957-11-26 Frederick S Goulding Electrical circuits using cold-cathode triode valves
US2858498A (en) * 1955-09-27 1958-10-28 Itt Voltage regulators
US2906941A (en) * 1958-06-10 1959-09-29 Bell Telephone Labor Inc Current supply apparatus
US3004209A (en) * 1957-05-01 1961-10-10 Lewis Eng Co D.c. regulator and control circuit

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2445171A (en) * 1945-05-30 1948-07-13 Gen Electric Regulator
US2576100A (en) * 1945-07-13 1951-11-27 Research Corp Voltage stabilizing system and tube
US2497918A (en) * 1945-09-21 1950-02-21 Edward C Taylor Current-control apparatus for potential-measuring apparatus
US2471976A (en) * 1946-04-18 1949-05-31 Bell Telephone Labor Inc Voltage regulation
US2602915A (en) * 1950-05-26 1952-07-08 Sorensen & Company Inc Voltage regulator
US2710940A (en) * 1951-02-24 1955-06-14 Rca Corp Electronic voltage regulator system
US2814772A (en) * 1951-08-28 1957-11-26 Frederick S Goulding Electrical circuits using cold-cathode triode valves
US2794915A (en) * 1953-06-16 1957-06-04 Walter G Wadey Regulated vacuum-tube bias supply
US2751550A (en) * 1953-10-12 1956-06-19 Bell Telephone Labor Inc Current supply apparatus
US2858498A (en) * 1955-09-27 1958-10-28 Itt Voltage regulators
US3004209A (en) * 1957-05-01 1961-10-10 Lewis Eng Co D.c. regulator and control circuit
US2906941A (en) * 1958-06-10 1959-09-29 Bell Telephone Labor Inc Current supply apparatus

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