US3221167A - X-ray system with reduced inverse voltage - Google Patents

X-ray system with reduced inverse voltage Download PDF

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US3221167A
US3221167A US325940A US32594063A US3221167A US 3221167 A US3221167 A US 3221167A US 325940 A US325940 A US 325940A US 32594063 A US32594063 A US 32594063A US 3221167 A US3221167 A US 3221167A
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resistor
voltage
transformer
rectifier
ray tube
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US325940A
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Louis L Weisglass
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X RAY Mfg CORP OF AMERICA
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X RAY Mfg CORP OF AMERICA
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05GX-RAY TECHNIQUE
    • H05G1/00X-ray apparatus involving X-ray tubes; Circuits therefor
    • H05G1/08Electrical details
    • H05G1/10Power supply arrangements for feeding the X-ray tube
    • H05G1/14Power supply arrangements for feeding the X-ray tube with single-phase low-frequency ac also when a rectifer element is in series with the X-ray tube
    • H05G1/16Reducing the peak-inverse voltage

Definitions

  • the present invention relates to X-ray systems and more particularly to such a system in which the inverse voltage, during the half-wave of the alternating current cycle when the X-ray tube is non-conducting, is materially reduced.
  • the X-ray tube In many X-ray systems and particularly those used in dentistry, the X-ray tube is energized and hence produces X-rays during only half-waves of the alternating current cycle because an X-ray tube actually is a self-rectifier and hence passes current only in one direction. Since the X-ray tube is usually energized from a high voltage transformer, during alternate half-waves when the X-ray tube is non-conducting and hence no X-rays are being produced, the voltage tends to build up very high since the secondary of the transformer is not loaded and no voltage drops are encountered in this half cycle, jeopardizing the insulation of the transformer and the X-ray tube as well.
  • Such prior art systems have comprised a resistor connected across a half-wave rectifier with both in a series circuit with the primarywindingof the high voltage energizing transformer.
  • the voltage drop across the resistor caused by the primary current in the energizing circuit during the alternate halfwave when the X-ray tube is non-conducting, is intended to reduce the primary voltage of the high tension transformer, commonly referred to as inverse voltage, during such alternate half-wave.
  • inverse voltage commonly referred to as inverse voltage
  • Another object of the present invention is the provision of an X-ray system for reducing the inverse voltage across the high voltage energizing transformer wherein such inverse voltage is practically independent of the shape of the current wave and the phase angle and hence is not erratic.
  • a further object of the present invention is the provision of an X-ray system for reducing the inverse voltage across the high voltage energizing transformer wherein the resistor in series with the transformer primary is kept at a relatively low value.
  • an X-ray system in which a relatively low value resistor shunted across a rectifier is connected in series with the primary winding of the high voltage transformer, so that a voltage drop occurs across such resistor only during alternate half-Waves of the alternating current cycle when the X-ray tube is non-conducting.
  • a second higher value resistor together with a rectifier in series therewith and in electrical opposition to the rectifier in parallel with the low value resistor, are connected across the transformer primary.
  • This high resistor across the primary winding institutes an artificial load circuit, the current peak of which is in phase with the primary voltage.
  • the ensuing load current causes an appreciable drop in the low resistor in series with the transformer primary thus reducing the primary voltage sufiiciently during the inverse half-wave.
  • This voltage drop is predictable and therefore free from erratic behaviour.
  • the voltage reduction can be substantial as desired whereby the value of the low series connected resistor can be kept relatively low.
  • the artificial in-phase load thus provided is accordingly elfective only during the inverse half-wave since the transformer primary load circuit is itself rectified by the series connected rectifier. This rectifier being in electrical opposition to the artificial load rectifier enables the series connected rectifier to be sufiiciently low in resistance that no deleterious effects result to the magnetic circuit of the high voltage transformer.
  • the X-ray tube 5 is connected for energization to the secondary winding 6 ofa high voltage transformer 7, with such secondary being grounded at G and having a milliammeter 8 in series therewith.
  • the thermionic cathode of the X-ray tube 5 receives heating energy from a low voltage transformer 9, the primary winding of which is energized from the customary commercial source of supply Ll-LZ.
  • the primary winding 10 of the high voltage transformer 7 receives energy from an auto-transformer 12 at a voltage as selected by the adjustment of the movable contractor 13 and for a period of time corresponding to the desired X-ray exposure time as preselected by a timer 14.
  • the auto-transformer likewise is energized from the commercial supply source L1-L2.
  • a first relatively low ohmic value resistor 15 is connected in series with the transformer primary winding 10 and across a rectifier 16, while-a second higher ohmic value resistor 17 in series with a second rectifier 18 are shunted across the transformer primary 10 and hence in electrical parallel therewith. It is also to be noted that the rectifier 18 is connected in electrical opposition to the first mentioned rectifier 16 so that rectifier 16 is conducting during the useful half-waves of the alternating current cycle resulting in current flow through the primary winding 10 from the end designated to the other end, with attendant conduction of current through the X-ray tube and the production of X-rays.
  • the present invention provides the second resistor 17 and rectifier 18 in electrical parallel with the transformer primary 10.
  • current from the auto-transformer 12 thus passes through the transformer primary and the parallel circuit including the higher value resistor 17 and rectifier 18 in the direction indicated by the arrows, as well as through the lower valve resistor 15.
  • This added load of the resistor 17 is therefore in phase with line voltage resulting in no load peak coinciding with voltage peak and causing a definite voltage drop across resistor 15.
  • the high voltage drop occurring across the higher value resistor 17 thus has no adverse effect upon the transformer primary 10 and such higher voltage drop, together with that simultaneously occurring across low value resistor 15, operates to reduce the inverse voltage across the high voltage transformer which operation is practically independent of the shape of the current Wave and phase angle and is exceptionally dependable in achieving the desired result.
  • Actual inverse suppression of the voltage across the transformer as high as approximately thirty percent below the no-load voltage is obtainable with a ratio of approximately five to one between the high resistor 17 at about 50 ohms and the low resistor at 10 ohms.
  • a further reduction in this inverse can be achieved by slightly increasing the value of low Iesistor and decreasing the value of high resistor 17 4 so long as the relationship therebetween remains substantially the same as above noted.
  • An X-ray system comprising:
  • an artificial load circuit connected in parallel with the primary winding of said high potential transformer and to said source of alternating current electrical energy, said artificial load circuit comprising a second resistor of higher ohmic-value than said first resistor and a series connected rectifier and operable during alternate half-waves of the alternating current cycle when said first rectifier is non-conducting to cause current to pass through both said resistors with the peak of said current in phase with the voltage across the primary winding of said high potential transformer, to cause a substantial voltage drop in said resistor shunted across the first rectifier by the fiow of artificial load current independent of the shape of the current wave and its phase angle, to thereby substantially reduce the inverse voltage otherwise impressed upon said transformer during such alternate half-waves when said X-ray tube is non-conducting.

Description

Nov. 30, 1965 w ss ss 3,221,167
X-RAY SYSTEM WITH REDUCED INVERSE VOLTAGE Filed NOV. 26, 1963 INVENTOR. LOU/S L. WE/SGLASS A 7' TORNEV United States Patent 3,221,167 X-RAY SYSTEM WITH REDUCED INVERSE VOLTAGE Louis L. Weisglass, New York, N.Y., assignor to X-Ray Mfg. Corporation of America, Great Neck, N.Y., a corporation of New York Filed Nov. 26, 1963, Ser. No. 325,940 2 Claims. (Cl. tl102) The present invention relates to X-ray systems and more particularly to such a system in which the inverse voltage, during the half-wave of the alternating current cycle when the X-ray tube is non-conducting, is materially reduced.
In many X-ray systems and particularly those used in dentistry, the X-ray tube is energized and hence produces X-rays during only half-waves of the alternating current cycle because an X-ray tube actually is a self-rectifier and hence passes current only in one direction. Since the X-ray tube is usually energized from a high voltage transformer, during alternate half-waves when the X-ray tube is non-conducting and hence no X-rays are being produced, the voltage tends to build up very high since the secondary of the transformer is not loaded and no voltage drops are encountered in this half cycle, jeopardizing the insulation of the transformer and the X-ray tube as well. Also there is a considerable phase shifting between the primary current and voltage due to the rectified load of the transformer secondary by the X-ray tube as its own rectifier. This particular phenomenon has long been recognized in the art and systems are now known which attempt to reduce the magnitude of such inverse voltage.
Such prior art systems have comprised a resistor connected across a half-wave rectifier with both in a series circuit with the primarywindingof the high voltage energizing transformer. In such circuit arrangement the voltage drop across the resistor, caused by the primary current in the energizing circuit during the alternate halfwave when the X-ray tube is non-conducting, is intended to reduce the primary voltage of the high tension transformer, commonly referred to as inverse voltage, during such alternate half-wave. Analysis of the primary current in systems of this type reveals that the phase shift is very great and its form so pronounced thatthe voltage drop across the resistor is not sufliciently high at the peak of the inverse voltage.
Although raising the ohmic value of the resistor to as high as ohms increases the etfectiveness, of the circuit, by bringing the circuit closer to half-wave energization of the transformer during such alternate half-wave, nevertheless, the voltage drop across the resistor and hence the shape of the primary current wave is absolutely dependent upon the phase angle of shift between primary current and line voltage Consequently, the voltage drop across even a higher value resistoris not of constant value but on the other hand erratic and unpredictable. Moreover, high value resistors in series with the transformer primary winding is not a solution to the problem since such high resistance merely serves to disturb the magnetic circuit of the high voltage transformer and all too frequently increases very greatly the eifect known as magnetic feedback to the low voltage cathode heating transformer for the X-ray tube.
It is accordingly the primary object of the present invention to provide an X-ray system having a reduced inverse voltage across the high voltage energizing transformer during the alternate half-waves of the alternating current cycle when the X-ray tube is non-conducting wherein the operation of such system is entirely reliable for its intended purpose.
3,221,1fi7 Patented Nov. 30, 1965 Another object of the present invention is the provision of an X-ray system for reducing the inverse voltage across the high voltage energizing transformer wherein such inverse voltage is practically independent of the shape of the current wave and the phase angle and hence is not erratic.
A further object of the present invention is the provision of an X-ray system for reducing the inverse voltage across the high voltage energizing transformer wherein the resistor in series with the transformer primary is kept at a relatively low value.
The foregoing objects of the present invention, together with other objects which will become apparent from the following description, are achieved by the provision of an X-ray system in which a relatively low value resistor shunted across a rectifier is connected in series with the primary winding of the high voltage transformer, so that a voltage drop occurs across such resistor only during alternate half-Waves of the alternating current cycle when the X-ray tube is non-conducting. In addition a second higher value resistor, together with a rectifier in series therewith and in electrical opposition to the rectifier in parallel with the low value resistor, are connected across the transformer primary.
This high resistor across the primary winding institutes an artificial load circuit, the current peak of which is in phase with the primary voltage. The ensuing load current causes an appreciable drop in the low resistor in series with the transformer primary thus reducing the primary voltage sufiiciently during the inverse half-wave. This voltage drop is predictable and therefore free from erratic behaviour. The voltage reduction can be substantial as desired whereby the value of the low series connected resistor can be kept relatively low. The artificial in-phase load thus provided is accordingly elfective only during the inverse half-wave since the transformer primary load circuit is itself rectified by the series connected rectifier. This rectifier being in electrical opposition to the artificial load rectifier enables the series connected rectifier to be sufiiciently low in resistance that no deleterious effects result to the magnetic circuit of the high voltage transformer.
The present invention can be readily understood by those skilled in the art by reference to the accompanying drawings wherein the single figure is a circuit diagram of the X-ray system of the present invention for the reduction of inverse voltage.
Referring now to such drawing in detail, the X-ray tube 5 is connected for energization to the secondary winding 6 ofa high voltage transformer 7, with such secondary being grounded at G and having a milliammeter 8 in series therewith. The thermionic cathode of the X-ray tube 5 receives heating energy from a low voltage transformer 9, the primary winding of which is energized from the customary commercial source of supply Ll-LZ. The primary winding 10 of the high voltage transformer 7 receives energy from an auto-transformer 12 at a voltage as selected by the adjustment of the movable contractor 13 and for a period of time corresponding to the desired X-ray exposure time as preselected by a timer 14. The auto-transformer likewise is energized from the commercial supply source L1-L2.
A first relatively low ohmic value resistor 15 is connected in series with the transformer primary winding 10 and across a rectifier 16, while-a second higher ohmic value resistor 17 in series with a second rectifier 18 are shunted across the transformer primary 10 and hence in electrical parallel therewith. It is also to be noted that the rectifier 18 is connected in electrical opposition to the first mentioned rectifier 16 so that rectifier 16 is conducting during the useful half-waves of the alternating current cycle resulting in current flow through the primary winding 10 from the end designated to the other end, with attendant conduction of current through the X-ray tube and the production of X-rays.
During the alternate half-waves of the alternating current cycle current flows through the transformer primary in the opposite direction and since the X-ray tube 5 is selfrectifying it is non-conducting during such alternate halfwave, resulting in the production of a high inverse voltage which all too frequently causes disastrous effects, such as breaking down the transformer insulation or damaging the X-ray tube. During this alternate halfwave when the X-ray tube is non-conducting such high inverse voltage is reduced to some extent by the current flow through the low value resistor 15 causing a voltage drop thereacross since current cannot pass through the rectifier 16 during such alternate half-wave. However, the voltage drop actually ensuing across resistor 15 is entirely dependent on the phase angle of shift between the current through the resistor and the line voltage which thus determines the shape of the current wave. Such dependency consequently makes the voltage drop across the resistor 15 erratic and hence far from constant magnitude.
Increasing the ohmic value of the resistor 15 with the object of raising the voltage drop thereacross in order to decrease the inverse voltage across the transformer does not solve the problem because, as previously herein mentioned, this disturbs the magnetic circuit of the high voltage transformer and frequently produces excessive magnetic feed-back to the filament heating transformer 9 which is in close proximity with the high tension transformer 7. Accordingly, the present invention provides the second resistor 17 and rectifier 18 in electrical parallel with the transformer primary 10. During the alternate half-wave, when the X-ray tube 5 and rectifier 16 are nonconducting, current from the auto-transformer 12 thus passes through the transformer primary and the parallel circuit including the higher value resistor 17 and rectifier 18 in the direction indicated by the arrows, as well as through the lower valve resistor 15.
This added load of the resistor 17 is therefore in phase with line voltage resulting in no load peak coinciding with voltage peak and causing a definite voltage drop across resistor 15. Also, the high voltage drop occurring across the higher value resistor 17 thus has no adverse effect upon the transformer primary 10 and such higher voltage drop, together with that simultaneously occurring across low value resistor 15, operates to reduce the inverse voltage across the high voltage transformer which operation is practically independent of the shape of the current Wave and phase angle and is exceptionally dependable in achieving the desired result. Actual inverse suppression of the voltage across the transformer as high as approximately thirty percent below the no-load voltage is obtainable with a ratio of approximately five to one between the high resistor 17 at about 50 ohms and the low resistor at 10 ohms. A further reduction in this inverse can be achieved by slightly increasing the value of low Iesistor and decreasing the value of high resistor 17 4 so long as the relationship therebetween remains substantially the same as above noted.
It should thus become obvious to those skilled in the art that an X-ray system has been provided by the present invention wherein the inverse voltage during the alternate half-waves of the alternating current cycle when the X-ray tube is non-conducting is materially reduced without causing any adverse effects to the high tension transformer or the system in its entirety.
Although one specific embodiment of the invention has been herein shown and described it is to be understood that still further modifications thereof may be made without departing from the spirit and scope of the appended claims.
I claim:
1. An X-ray system comprising:
(a) an X-ray tube,
(b) a high potential transformer provided with a primary and a secondary winding with said secondary winding connected to said X-ray tube for energizing the latter to cause production of X-rays,
(c) a source of alternating current electrical energy connected to said high potential transformer and operable to cause energization thereof during the entire alternating current cycle,
(d) a low ohmic-value resistor having a first rectifier shunted across said resistor and in series with said source, and
(e) an artificial load circuit connected in parallel with the primary winding of said high potential transformer and to said source of alternating current electrical energy, said artificial load circuit comprising a second resistor of higher ohmic-value than said first resistor and a series connected rectifier and operable during alternate half-waves of the alternating current cycle when said first rectifier is non-conducting to cause current to pass through both said resistors with the peak of said current in phase with the voltage across the primary winding of said high potential transformer, to cause a substantial voltage drop in said resistor shunted across the first rectifier by the fiow of artificial load current independent of the shape of the current wave and its phase angle, to thereby substantially reduce the inverse voltage otherwise impressed upon said transformer during such alternate half-waves when said X-ray tube is non-conducting.
2. An X-ray system as set in claim 1 wherein the ohmic-value between said resistors has a relationship approximating five to one.
References Cited by the Examiner UNITED STATES PATENTS 1,890,330 12/1932 Kearsley 250l00 2,008,496 7/1935 Garretson 250 2,089,358 8/1937 Gross 250100 2,495,122 1/ 1950 Morrison 250100 RALPH G. NILSON, Examiner.
WILLIAM F. LINDQUIST, Assistant Examiner.

Claims (1)

1. AN X-RAY SYSTEM COMPRISING: (A) AN X-RAY TUBE, (B) A HIGH POTENTIAL TRANSFORMER PROVIDED WITH A PRIMARY AND A SECONDARY WINDING WITH SAID SECONDARY WINDING CONNECTED TO SAID X-RAY TUBE FOR ENERGIZING THE LATTER TO CAUSE PRODUCTION OF X-RAYS, (C) A SOURCE OF ALTERNATING CURRENT ELECLTRICAL ENERGY CONNECTED TO SAID HIGH POTENTIAL TRANSFORMER AND OPERABLE TO CAUSE ENERTIZATION THEREOF DURING THE ENTIRE ALTERNATING CURRENT CYCLE, (D) A LOW OHMIC-VALUE RESISTOR HAVING A FIRST RECTIFIER SHUNTED ACROSS SAID RESISTOR AND IN SERIES WITH SAID SOURCE, AND (E) AN ARTIFICIAL LOAD CIRCUIT CONNECTED IN PARALLEL WITH THE PRIMARY WINDING OF SAID HIGH POTENTIAL TRANSFORMER AND TO SAID SOURCE OF ALTERNATING CURRENT ELECTRICAL ENERGY, SAID ARTIFICIAL LOAD CIRCUIT COMPRISING A SECOND RESISTOR OF HIGHER OHMIC-VALUE THAN SAID FIRST RESISTOR AND A SERIES CONNECTED RECTIFIER AND OPERABLE DURING ALTERNATE HALF-WAVES OF THE ALTERNATING CURRENT CYCLE WHEN SAID FIRST RECTIFIER IS NON-CONDUCTING TO CAUSE CURRENT TO PASS THROUGH BOTH SAID RE-
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3511996A (en) * 1966-04-27 1970-05-12 Hitachi Ltd X-ray generator having means for preventing d.c. magnetization of the transformer core
FR2371852A1 (en) * 1976-11-22 1978-06-16 Siemens Ag RADIOLOGICAL GENERATOR FOR RADIODIAGNOSIS, INCLUDING AN X-RAY TUBE WITH DIRECT HEATING
US5339349A (en) * 1992-10-26 1994-08-16 Xeno Millan Y Portable x-ray unit

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1890330A (en) * 1930-02-06 1932-12-06 Gen Electric Apparatus for and method of operating rectifying load devices
US2008496A (en) * 1934-04-21 1935-07-16 Harry D Garretson Inverse suppressor for x-ray systems
US2089358A (en) * 1934-05-28 1937-08-10 Gen Electric X Ray Corp Inverse reducer circuit
US2495122A (en) * 1947-07-10 1950-01-17 Ritter Co Inc Method of and apparatus for energizing self-rectifying loading devices

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1890330A (en) * 1930-02-06 1932-12-06 Gen Electric Apparatus for and method of operating rectifying load devices
US2008496A (en) * 1934-04-21 1935-07-16 Harry D Garretson Inverse suppressor for x-ray systems
US2089358A (en) * 1934-05-28 1937-08-10 Gen Electric X Ray Corp Inverse reducer circuit
US2495122A (en) * 1947-07-10 1950-01-17 Ritter Co Inc Method of and apparatus for energizing self-rectifying loading devices

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3511996A (en) * 1966-04-27 1970-05-12 Hitachi Ltd X-ray generator having means for preventing d.c. magnetization of the transformer core
FR2371852A1 (en) * 1976-11-22 1978-06-16 Siemens Ag RADIOLOGICAL GENERATOR FOR RADIODIAGNOSIS, INCLUDING AN X-RAY TUBE WITH DIRECT HEATING
US5339349A (en) * 1992-10-26 1994-08-16 Xeno Millan Y Portable x-ray unit

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