US2311543A - Illuminating apparatus of the gaseous glow tube type - Google Patents

Illuminating apparatus of the gaseous glow tube type Download PDF

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US2311543A
US2311543A US332198A US33219840A US2311543A US 2311543 A US2311543 A US 2311543A US 332198 A US332198 A US 332198A US 33219840 A US33219840 A US 33219840A US 2311543 A US2311543 A US 2311543A
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tube
transformer
potential
terminals
current
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US332198A
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Robert S Horn
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CLYDE L HUNSICKER
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CLYDE L HUNSICKER
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B41/00Circuit arrangements or apparatus for igniting or operating discharge lamps
    • H05B41/14Circuit arrangements
    • H05B41/36Controlling
    • H05B41/38Controlling the intensity of light
    • H05B41/39Controlling the intensity of light continuously
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S315/00Electric lamp and discharge devices: systems
    • Y10S315/05Starting and operating circuit for fluorescent lamp

Definitions

  • This invention relates generally to electrical illuminating apparatus making use of one or more gaseous glow discharge tubes.
  • Such tubes are commonly used for display signs and contain gases such as neon, helium, argon, or mercury vapor.
  • the degree of illumination afforded by a single tube can be varied from a maximum value to a value such that the illumination is practically imperceptible.
  • Another object of' the invention is to provide apparatus particularly adapted for gaseous discharge tubes such as are used in the electric sign industry, whereby the intensity of illumination can be adjusted to desired values, or may be varied intermittently or periodically to secure certain desired effects.
  • Figure l is a circuit diagram illustrating one embodiment of the invention.
  • Figure 2 is a circuit diagram illustrating a second embodiment in which a single transformer is employed.
  • a gaseous glow discharge tube l which may be of conventional construction.
  • such tubes have a definite breakdown potential, and it is customary to operate them by connecting the terminals to the secondary of an alternating current transformer, so that a potential is applied to the tube terminals substantially in excess of the break-down potential. If an effort is made to vary the intensity of illumination produced by the tube, simply by varying the voltage supplied from the secondary of the transformer, 'the range of variation is quite limited, because when the potential applied to the terminals of the tube falls below a certain critical value, the tube starts to flicker, or ceases to function entirely.
  • I apply potentials to the terminals of the tube Hi from two different sources, which in this instance are represented by'the secondaries of the two trans formers II and I2.
  • Transformer H has its primary directly connected to the current supply lines I3.
  • the primary of transformer i2 is connected to the same current supply lines, but in conjunction with the variable reactor l4.
  • the potential applied to transformer l2 can be adjusted, thereby adjusting the potential across the terminals of the transformer secondary over a relatively wide range.
  • the secondary of transformer H is shown connected directly across the terminals of tube N, in series with the resistor 16.
  • the secondary of transformer I2 is also connected across the terminals of tube iii in series with another resistor Transformer II is such that the potential across its secondary is relatively high compared to the break-down potential of tube iii.
  • the secondary of transformer II can supply a potential of the order of 5 000 volts.
  • Resistor l6 has a relatively high value of resistance, as for example of the order of 50 to megohms.
  • the circuit formed by the secondary of transformer H and whatever additional resistance or impedance is employed shouldbe such that the circuit cannot supply of itself suflicient current to the tube Hi to produce a substantial amount of illumina tion of the tube.
  • the potential applied by this circuit is such that the gas within the tube is continuously maintained in ionized condition.
  • the transformer I2 (or the circuit in which ,the secondary is included) serves to supply illumihating current to the tube l0.
  • the power transformer l2 can have a maximum secondarypotential of the order of 1,200 volts, and the resistor I! can be of the order of 100,000 ohms.
  • Resistor I'l serves the purpose of preventing the circuit which includes the secondary of transformer l2, from absorbing or short circuiting oilie ionizing potential supplied by transformer Operation of the. apparatus described above is as follows: Assuming that the transformers II and I2 are being supplied with current from the lines I3; potential supplied by transformer ll maintains the gas within tube I0 continuously ionized.
  • the current from this source is'insuillcient to illuminate the tube to a substantial degree.
  • Current supplied from transformer I! does, however, illuminate the tube, and the degree of illumination can be varied by ad- Justing the setting of the variable reactance ll. Assuming that this reactance enables variation of the secondary potential of transformer I! between virtually zero and maximum, the illumination of the tube It can also be varied between a minimum value at which illumination is virtually imperceptible, and maximum illumination.
  • variable reactor H is-a convenient expedient for varying the degree of illumination. However, in place of such a reactor, one can utilize other means for securing similar results, as for example a transformer with one or more tops on its primary winding.
  • my apparatus In connection with display signs making use of a plurality of gaseous discharge tubes,'my invention can be applied for the purpose of adjusting the level of illumination, or if desired periodic variations in light intensity can be 'had by means of suitable motor driven mechanism to attract utmost attention. Inplace of using the more conventional types of tubes, I can employ tubes which are provided with fluorescent coatings to modify the light spectrum.
  • I make use of a single transformer It provided with two secondaries l9 and 20.
  • a single primary winding II is connected to the current supply lines. Winding It serves to supply current to the tube Ill and is shown connected in series with the resistor 11.
  • Winding 20 provides the ionizing potential and is connected in series with resistor It.
  • the transformer is made to have a substantial magnetic leakage by virtue of the core legs 22, and one side leg of the transformer between the legs 22 and the leg upon which winding I! is applied, is provided with the supplemental winding 23.
  • Current flow through the winding 23 is controlled by the variable'resistor 24.
  • the power supplied by the secondary I! can be adjusted between maximum and minimum limits, thus varying the degree of illumination of the tube ll accordingly.
  • a gaseous' glow discharge tube having two terminals
  • a gaseous glow discharge tube having two terminals, and two sources of alternating potential of like frequency connected to the two terminals of the tube, one source serving to continuously supply potential to maintain ionization of the gas within the tube without sufficient current flow to illuminate the tube to a substantial degree, and the other serving to supply sufllcient current to illuminate.
  • the tube the last named source being adjustable to vary the degree of illumination and being of insufficient potential to of itself maintain the tube illuminated.
  • a gaseous glow discharge tube having two terminals, two sources of alternating potential of like frequency connected to the two terminals of the tube, one serving to continuously supply potential sufllcient to maintain ionization of the gas within the tube without suflicient current flow to illuminate. the tube to a substantial degree, and the other source supplying suillcient current to the tube to illuminate the same, and being of insufllcient potential to of itself maintain the tube illuminated, and means for adjusting the current flow from said last named source to vary illumination of the tube I over a substantial range.
  • a gaseous flow discharge tube having a pair of terminals
  • transformer means for exciting said tube said transformer means including a'primary winding adapted to be supplied with alternating current and a pair of secondaries, circuits serving to con nect the two terminals of the tube in parallel with both said secondaries, one secondary being capable of continuously supplying a relatively high potential capable of maintaining the gas within the tube continuously ionized and having sufllcient impedance so that current flow through the tube by virtue of such circuit is insuflicient to illuminate the tube to a substantial degree, the circuit said secondaries being adapted to apply alternating currents to the tube of the same frequencyas that employed to excite the transformer primary.

Description

R. s. HORN 2,311,543 ILLUMINATING APTARATUS OF THE GASEOUS GLOW TUBE TYPE Feb.v 16, 1943.
Filed April 29, 1940 INVENTOR ILLUlVIINATING APPARATUS OF THE GASEOUS GLOW TUBE TYPE Robert S. Horn, San Francisco, Calif., assignor of one-half to Clyde L. Hunsicker, San Francisco, Calif.
Application A ril 29, 1940', Serial No. 332,198
4 Claimsr This invention relates generally to electrical illuminating apparatus making use of one or more gaseous glow discharge tubes. Such tubes are commonly used for display signs and contain gases such as neon, helium, argon, or mercury vapor.
It is an object of the invention to provide apparatus of the above character which will make possible a wide adjustment in the degree of illumination afforded by a tube. For example. by the use of my apparatus the degree of illumination afforded by a single tube can be varied from a maximum value to a value such that the illumination is practically imperceptible.-
Another object of' the invention is to provide apparatus particularly adapted for gaseous discharge tubes such as are used in the electric sign industry, whereby the intensity of illumination can be adjusted to desired values, or may be varied intermittently or periodically to secure certain desired effects.
Further objects and features of the invention will appear from the following description in which certain embodiments of the invention have been set forth in detail in conjunuction with the accompanying drawing.
Referring to the drawing:
Figure l is a circuit diagram illustrating one embodiment of the invention; and
Figure 2 is a circuit diagram illustrating a second embodiment in which a single transformer is employed.
Referring first to Figure l of the drawing, I have shown a gaseous glow discharge tube l which may be of conventional construction. As is well known, such tubes have a definite breakdown potential, and it is customary to operate them by connecting the terminals to the secondary of an alternating current transformer, so that a potential is applied to the tube terminals substantially in excess of the break-down potential. If an effort is made to vary the intensity of illumination produced by the tube, simply by varying the voltage supplied from the secondary of the transformer, 'the range of variation is quite limited, because when the potential applied to the terminals of the tube falls below a certain critical value, the tube starts to flicker, or ceases to function entirely.
In carryingout the present invention, I apply potentials to the terminals of the tube Hi from two different sources, which in this instance are represented by'the secondaries of the two trans formers II and I2. Transformer H has its primary directly connected to the current supply lines I3. The primary of transformer i2 is connected to the same current supply lines, but in conjunction with the variable reactor l4. By means of this reactor, the potential applied to transformer l2 can be adjusted, thereby adjusting the potential across the terminals of the transformer secondary over a relatively wide range.
The secondary of transformer H is shown connected directly across the terminals of tube N, in series with the resistor 16. The secondary of transformer I2 is also connected across the terminals of tube iii in series with another resistor Transformer II is such that the potential across its secondary is relatively high compared to the break-down potential of tube iii. For example, with a tube having a break-down potential of the order of 2500 volts, the secondary of transformer II can supply a potential of the order of 5 000 volts. Resistor l6 has a relatively high value of resistance, as for example of the order of 50 to megohms. Irrespective of the particular resistor values employed, the circuit formed by the secondary of transformer H and whatever additional resistance or impedance is employed, shouldbe such that the circuit cannot supply of itself suflicient current to the tube Hi to produce a substantial amount of illumina tion of the tube. However, the potential applied by this circuit is such that the gas within the tube is continuously maintained in ionized condition.
The transformer I2 (or the circuit in which ,the secondary is included) serves to supply illumihating current to the tube l0. For the values stated above by way of example, the power transformer l2 can have a maximum secondarypotential of the order of 1,200 volts, and the resistor I! can be of the order of 100,000 ohms. Resistor I'l serves the purpose of preventing the circuit which includes the secondary of transformer l2, from absorbing or short circuiting oilie ionizing potential supplied by transformer Operation of the. apparatus described above is as follows: Assuming that the transformers II and I2 are being supplied with current from the lines I3; potential supplied by transformer ll maintains the gas within tube I0 continuously ionized. However, the current from this source is'insuillcient to illuminate the tube to a substantial degree. Current supplied from transformer I! does, however, illuminate the tube, and the degree of illumination can be varied by ad- Justing the setting of the variable reactance ll. Assuming that this reactance enables variation of the secondary potential of transformer I! between virtually zero and maximum, the illumination of the tube It can also be varied between a minimum value at which illumination is virtually imperceptible, and maximum illumination.
It will be evident that the apparatus described above is capable of certain modifications. For example, instead of providing the resistor l6, one can rely upon a small capacitance to complete the high potential-ionizing circuit. In fact, in actual practice it has been found possible to simply connect one side of the transformer secondary .to one terminal of the tube III with the other terminal of the secondary unconnected. The circuit in this instance is actually completed by virtue of capacitance through the transformer windings and connecting circuits. One can also dispense with the resistance IT by using a transformer having sufllcient resistance in its secondary winding. The
variable reactor H is-a convenient expedient for varying the degree of illumination. However, in place of such a reactor, one can utilize other means for securing similar results, as for example a transformer with one or more tops on its primary winding.
Usefulness of my apparatus will be apparent from the foregoing. In connection with display signs making use of a plurality of gaseous discharge tubes,'my invention can be applied for the purpose of adjusting the level of illumination, or if desired periodic variations in light intensity can be 'had by means of suitable motor driven mechanism to attract utmost attention. Inplace of using the more conventional types of tubes, I can employ tubes which are provided with fluorescent coatings to modify the light spectrum.
produced. I
In the embodiment of Figure 2, I make use of a single transformer It provided with two secondaries l9 and 20. A single primary winding II is connected to the current supply lines. Winding It serves to supply current to the tube Ill and is shown connected in series with the resistor 11. Winding 20 provides the ionizing potential and is connected in series with resistor It. To control the current supplied by winding IS, the transformer is made to have a substantial magnetic leakage by virtue of the core legs 22, and one side leg of the transformer between the legs 22 and the leg upon which winding I! is applied, is provided with the supplemental winding 23. Current flow through the winding 23 is controlled by the variable'resistor 24. By adjusting the setting of resistor 24, the power supplied by the secondary I! can be adjusted between maximum and minimum limits, thus varying the degree of illumination of the tube ll accordingly.
I claim: 1
1. In electrical illuminating apparatus, a gaseous' glow discharge tube having two terminals, and
\ .two sources of alternating potential of like frequency connected to the two terminals of the tube, one source serving to continuously supply a potential to maintain ionization of the gas within the tube without sumcient current flow to illuminate the tube to a substantial degree, and the other serving to supply sufllcient current to the tube to illuminate the same and being of insufllcient potential to of itself maintain the tube illuminated.
2. In electrical illuminating apparatus, a gaseous glow discharge tube having two terminals, and two sources of alternating potential of like frequency connected to the two terminals of the tube, one source serving to continuously supply potential to maintain ionization of the gas within the tube without sufficient current flow to illuminate the tube to a substantial degree, and the other serving to supply sufllcient current to illuminate.
the tube, the last named source being adjustable to vary the degree of illumination and being of insufficient potential to of itself maintain the tube illuminated.
3. In electrical illuminating apparatus, a gaseous glow discharge tube having two terminals, two sources of alternating potential of like frequency connected to the two terminals of the tube, one serving to continuously supply potential sufllcient to maintain ionization of the gas within the tube without suflicient current flow to illuminate. the tube to a substantial degree, and the other source supplying suillcient current to the tube to illuminate the same, and being of insufllcient potential to of itself maintain the tube illuminated, and means for adjusting the current flow from said last named source to vary illumination of the tube I over a substantial range.
4. In electrical illuminating apparatus, a gaseous flow discharge tube having a pair of terminals,
transformer means for exciting said tube, said transformer means including a'primary winding adapted to be supplied with alternating current and a pair of secondaries, circuits serving to con nect the two terminals of the tube in parallel with both said secondaries, one secondary being capable of continuously supplying a relatively high potential capable of maintaining the gas within the tube continuously ionized and having sufllcient impedance so that current flow through the tube by virtue of such circuit is insuflicient to illuminate the tube to a substantial degree, the circuit said secondaries being adapted to apply alternating currents to the tube of the same frequencyas that employed to excite the transformer primary.
ROBERT a. norm.
US332198A 1940-04-29 1940-04-29 Illuminating apparatus of the gaseous glow tube type Expired - Lifetime US2311543A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2676249A (en) * 1948-04-28 1954-04-20 Remington Rand Inc Discharge tube isolation circuit
US2945012A (en) * 1958-01-08 1960-07-12 Goodrich Co B F Polymerizable polyesters and polymers thereof
US3603841A (en) * 1968-03-01 1971-09-07 Matsushita Electronics Corp Fluorescent lamp device with luminosity control
US4350934A (en) * 1980-07-23 1982-09-21 Westinghouse Electric Corp. Discharge device ballast component which provides both voltage transformation and variable inductive reactance

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2676249A (en) * 1948-04-28 1954-04-20 Remington Rand Inc Discharge tube isolation circuit
US2945012A (en) * 1958-01-08 1960-07-12 Goodrich Co B F Polymerizable polyesters and polymers thereof
US3603841A (en) * 1968-03-01 1971-09-07 Matsushita Electronics Corp Fluorescent lamp device with luminosity control
US4350934A (en) * 1980-07-23 1982-09-21 Westinghouse Electric Corp. Discharge device ballast component which provides both voltage transformation and variable inductive reactance

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