US2363909A - Electric circuit - Google Patents

Electric circuit Download PDF

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Publication number
US2363909A
US2363909A US461964A US46196442A US2363909A US 2363909 A US2363909 A US 2363909A US 461964 A US461964 A US 461964A US 46196442 A US46196442 A US 46196442A US 2363909 A US2363909 A US 2363909A
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resistance
resistor
circuit
current
capacitor
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US461964A
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Harold C Stewart
Kenneth D Beardsley
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General Electric Co
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General Electric Co
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02HEMERGENCY PROTECTIVE CIRCUIT ARRANGEMENTS
    • H02H7/00Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions
    • H02H7/16Emergency protective circuit arrangements specially adapted for specific types of electric machines or apparatus or for sectionalised protection of cable or line systems, and effecting automatic switching in the event of an undesired change from normal working conditions for capacitors

Definitions

  • This invention relates to electric circuits and more particularly to improvements in non-linear impedance networks.
  • resistor reduces its resistance to a low enough value quickly enough in response to capacitor overvoltages the additional protective equipment could be eliminated.
  • a negative resistance-current characteristic resistance material which is fast enough for this purpose. It is used in lightning arresters and is described and claimed in McEachron Patent 1,822,742 which is assigned to the assignee of the present application.
  • these difflculties are eliminated by combining a linear resistor and a non-linear resistor of the above type, the two bein connected in parallel with each other. Under all conditions such a combination presents a maximum resistance low enough to avoid abnormal magnetizing current troubles while presenting a high enough resistance during normal load currents to prevent excessive losses and presenting a relatively low resistance when currents in the main circuit become excessive.
  • An object of the invention is to provide a new and improved electric circuit.
  • Another object of the invention is to provide a new and improved non-linear resistance control circuit.
  • a further object of the invention is to provide a new and improved impedance network.
  • FIG. 1 illustrates diagrammatically an embodiment of the invention and Fig. 2 shows the resistance-current and resistancevoltage characteristics of the non-linear network shown in Fig. 1.
  • Fig. 1 there is shown therein an altemating-current circuit I the source end of which is connected to any suitable source of alternating current through a switch 2 and the load end of which is connected to a load 3 through a transformer 4 of conventional construction; that is to say, it has a magnetic core which is normally operated near the knee of its saturation curve.
  • a series capacitor 5 the purpose of which is to neutralize comprising a linear resistor 6 and a non-linear resistor 1, the two being connected in parallel with each other.
  • linear resistor is meant a conventional resistor whose resistance value is substantially constant throughout the normal range of currents which flow through it and the normal range of voltages which are impressed across it.
  • the non-linear resistor 1 is preferably of the type described and claimed in the above-mentioned McEachron patent and it has a negative resistance-current characteristics in the sense that its resistance varies inversely with the current.
  • the constants of the resistance characteristic of resistor l are so chosen that throughout the normal range of currents in circuit I the resistance of resistor T will still be substantially higher than the resistance of resistor 6 so that throughout the normal range of load currents the losses in the network are held to a relatively low value.
  • the resistance of resistor 1 upon the occurrence of excessive currents, such as overloads or short circuit cur rents of the order of ten times full-load current, the resistance of resistor 1 will substantially instantaneously drop to a, value which is very much lower than that of resistor 6 so that, in effect, the capacitor 5 will be virtually short circuited, thus preventing injury to the capacitor by reason of excessive voltage stresses occurring therein.
  • Fig. 2 there are shown resistance-voltage and resistance-current characteristics of a typical network of the type shown in Fig. 1.
  • the resistance stays at a relatively very high and relatively constant value over the lower range of voltages and currents beyond which the resistance falls oil. rela tively rapidly until finally at relatively very high values of voltage and current the resistance approaches zero as a limit.
  • the linear resistor determines the characteristic of the network
  • the non-linear resistor determines the characteristics of the network
  • both resistors play a substantial part in shaping the characteristic curve of the network.
  • a substantially instantaneously-acting non-linear resistor having a maximum resistance at zero current which is so high that said resistor is substantiall an insulator, said resistor having a minimum resistance at high values of current which is so low as to constitute a virtual short circuit between its terminals, and means for substantially reducing the effective maximum resistance of said non-linear resistor without materially changing the effective value of its minimum resistance comprising a linear resistor connected in parallel therewith.
  • an alternating-current circuit for conducting power from a source to a load, a series capacitor connected in said circuit, a. saturable core reactance connected across said circuit on the load side of said capacitor, a linear resistor connected across said capacitor for suppressing abnormal exciting currents in said reactance, and a negative resistance-current characteristic resistor connected across said capacitor for protecting it from overvoltages.

Description

1944- H. c. STEWART ET AL 2,363,909
ELECTRIC CIRCUIT Filed Oct. 14, 1942 Fig].
a, Rl C 2 CORE NORMALLY OPERATED IJ/ IVAR KNEE OF SATURATION CURVE n I v L To ALTERNAT/NE 5 3 cumes/vr SOURCE I m EandI lhventors. Harold C. Stewart Kenneth D. B eardsley,
by 5 r/ The; Attorney.
- Patented Nov. 28, 1944 ELECTRIC CIRCUIT Harold C. Stewart and Kenneth D. Beardsley, Plttsfleld, Mass., assignors to GeneralElectric Company, a corporation of New York Application October 14, 1942. Serial No. 461,964
3 Claims.
This invention relates to electric circuits and more particularly to improvements in non-linear impedance networks.
In the present assignee's Buell Patent 2,120,855 there is described a system wherein a linear resistor which is connected across a series capacitor transformer inrush magnetizing current places on the capacitor, and the resistor serves to dissipate this charge. As shown in the patents, there is a maximum value of this resistance for any. particular circuit above which suppression of the abnormal exciting currents will not occur. Obvious- 1y, it is desirable that this resistance not be substantially below this maximum value in order to prevent unnecessary losses in the circuit. However, when such a relatively high resistance is used overload or short circuit currents in the c=rcuit produce objectionable voltage stresses, in the capacitor so that additional protective equipment is necessary for efiectively short circuiting the capacitor when short circuit conditions are such as to produce these overvoltages.
If the resistor reduces its resistance to a low enough value quickly enough in response to capacitor overvoltages the additional protective equipment could be eliminated. There is a negative resistance-current characteristic resistance material which is fast enough for this purpose. It is used in lightning arresters and is described and claimed in McEachron Patent 1,822,742 which is assigned to the assignee of the present application. The resistance characteristic of that material is defined by the equation RI==C where R is its instantaneous resistance in ohms, I is its instantaneous current in amperes. a is an exponrent, and for currents of very high value the resistance falls to a very low value. Unfortunately, such a resistance characteristic is not suitable for the prevention of abnormal magnetizing currents because of the relatively large change in resistance which would occur throughout the normal variation in load current from no-load to full-load. Thus, if a choice were made which would adequately prevent abnormal exciting currents during no-load, then on full-load-the resistor would have an excessive loss. If a-reasonable value of resistance is chosen based on normal load operation the abnormal exciting current conditions could persist for an appreciable and objectionable length of time on no-load or light-load.
In accordance with this invention these difflculties are eliminated by combining a linear resistor and a non-linear resistor of the above type, the two bein connected in parallel with each other. Under all conditions such a combination presents a maximum resistance low enough to avoid abnormal magnetizing current troubles while presenting a high enough resistance during normal load currents to prevent excessive losses and presenting a relatively low resistance when currents in the main circuit become excessive.
An object of the invention is to provide a new and improved electric circuit.
Another object of the invention is to provide a new and improved non-linear resistance control circuit.
A further object of the invention is to provide a new and improved impedance network.
The invention will be better understood from the following description taken in connection with the accompanying drawing and its scope will be pointed out in the appended claims.
In the drawing Fig. 1 illustrates diagrammatically an embodiment of the invention and Fig. 2 shows the resistance-current and resistancevoltage characteristics of the non-linear network shown in Fig. 1.
Referring now to Fig. 1, there is shown therein an altemating-current circuit I the source end of which is connected to any suitable source of alternating current through a switch 2 and the load end of which is connected to a load 3 through a transformer 4 of conventional construction; that is to say, it has a magnetic core which is normally operated near the knee of its saturation curve. Connected in the circuit I is a series capacitor 5 the purpose of which is to neutralize comprising a linear resistor 6 and a non-linear resistor 1, the two being connected in parallel with each other. By linear resistor is meant a conventional resistor whose resistance value is substantially constant throughout the normal range of currents which flow through it and the normal range of voltages which are impressed across it. The non-linear resistor 1 is preferably of the type described and claimed in the above-mentioned McEachron patent and it has a negative resistance-current characteristics in the sense that its resistance varies inversely with the current.
As the combined resistance of the two resistors 6 and 1 can never be greater than the lower valued resistor, it will be seen that at zero current in the circuit I corresponding to zero voltage across the capacitor 5 and the resistance network the eifective resistance of the combination will be substantially the resistance of the resistor 6 even though the resistance of the resistor 1 has an infinitely high value. This value of resistance for resistor 6 is so chosen that at no-load on the circuit any abnormal magnetizing currents in the transformer 4 resulting from operation of the switch 2 or Voltage surges on the circuit will be,
suppressed. The constants of the resistance characteristic of resistor l are so chosen that throughout the normal range of currents in circuit I the resistance of resistor T will still be substantially higher than the resistance of resistor 6 so that throughout the normal range of load currents the losses in the network are held to a relatively low value. However, upon the occurrence of excessive currents, such as overloads or short circuit cur rents of the order of ten times full-load current, the resistance of resistor 1 will substantially instantaneously drop to a, value which is very much lower than that of resistor 6 so that, in effect, the capacitor 5 will be virtually short circuited, thus preventing injury to the capacitor by reason of excessive voltage stresses occurring therein.
In Fig. 2 there are shown resistance-voltage and resistance-current characteristics of a typical network of the type shown in Fig. 1. As will be seen from this figure, the resistance stays at a relatively very high and relatively constant value over the lower range of voltages and currents beyond which the resistance falls oil. rela tively rapidly until finally at relatively very high values of voltage and current the resistance approaches zero as a limit. Thus, over the initial range of small currents the linear resistor determines the characteristic of the network, whereas over the higher range of currents and voltages the non-linear resistor determines the characteristics of the network, whereas between the low and the high ranges both resistors play a substantial part in shaping the characteristic curve of the network.
It should be understood that while the novel non-linear resistance network has been described in connection with a series capacitor, it is in no wise limited to such use and this novel network can be used in any electrical circuit or system where the type of characteristic shown in Fig. 2 will prove of value. Although the capacitor 5 has been shown as directly connected in the circuit, it should be understood that in practice this capacitor will usually be made up of a series-parallel connection of relatively small-size capacitor units and this series-parallel connection may either be connected directly in the circuit or it may be con nected therein indirectly by means of a series transformer.
While there has been shown and described, a particular embodiment of this invention, it will be obvious to those skilled in the art that various changes and modifications can be made therein without departing from the invention and, therefore, it is aimed in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the invention.
What we claim as new and desire to secure by Letters Patent of the United States, is:
1. In combination, a substantially instantaneously-acting non-linear resistor having a maximum resistance at zero current which is so high that said resistor is substantiall an insulator, said resistor having a minimum resistance at high values of current which is so low as to constitute a virtual short circuit between its terminals, and means for substantially reducing the effective maximum resistance of said non-linear resistor without materially changing the effective value of its minimum resistance comprising a linear resistor connected in parallel therewith.
2. In combination, an alternating-current circuit for conducting power from a source to a load, a series capacitor connected in said circuit, a. saturable core reactance connected across said circuit on the load side of said capacitor, a linear resistor connected across said capacitor for suppressing abnormal exciting currents in said reactance, and a negative resistance-current characteristic resistor connected across said capacitor for protecting it from overvoltages.
3. In combination, an alternating-current circuit for conducting power from a source to a load, a transformer connected between said circuit and said load, a series capacitor connected in said circuit between said source and said transformer, a linear resistor connected across said capacitor for suppressing abnormal exciting currents in said transformer, and a non-linear resistor connected across said capacitor for protecting it from over voltages, said non-linear resistor having a. characteristic expressed by the equation RI=C where R is the instantaneous value of its resistance in ohms, I is the instantaneous value of its current in amperes and a and C are constants.
. HAROLD C. STEWART.
KENNETH D. BEARDSLEY.
US461964A 1942-10-14 1942-10-14 Electric circuit Expired - Lifetime US2363909A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2725515A (en) * 1952-01-12 1955-11-29 Westinghouse Electric Corp Voltage reference device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2725515A (en) * 1952-01-12 1955-11-29 Westinghouse Electric Corp Voltage reference device

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