US2113696A - X-ray installation for short-time exposures - Google Patents

X-ray installation for short-time exposures Download PDF

Info

Publication number: US2113696A
Authority: US; United States
Prior art keywords: circuit; condenser; ray tube; ray; tube
Prior art date: 1931-02-14
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Expired - Lifetime

Application number

US589696A

Other languages

English (en)

Inventor

Kuntke Alfred

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Koninklijke Philips NV

Original Assignee

Philips Gloeilampenfabrieken NV

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1931-02-14

Filing date

1932-01-29

Publication date

1938-04-12

1932-01-29 Application filed by Philips Gloeilampenfabrieken NV filed Critical Philips Gloeilampenfabrieken NV

1938-04-12 Application granted granted Critical

1938-04-12 Publication of US2113696A publication Critical patent/US2113696A/en

1955-04-12 Anticipated expiration legal-status Critical

Status Expired - Lifetime legal-status Critical Current

Links

238000009434 installation Methods 0.000 title description 29
238000004146 energy storage Methods 0.000 description 38
238000010438 heat treatment Methods 0.000 description 27
238000004804 winding Methods 0.000 description 15
238000009825 accumulation Methods 0.000 description 13
230000005284 excitation Effects 0.000 description 10
238000006073 displacement reaction Methods 0.000 description 5
239000004020 conductor Substances 0.000 description 4
238000010276 construction Methods 0.000 description 3
238000010586 diagram Methods 0.000 description 3
238000009877 rendering Methods 0.000 description 3
230000015556 catabolic process Effects 0.000 description 2
241000282326 Felis catus Species 0.000 description 1
101100400378 Mus musculus Marveld2 gene Proteins 0.000 description 1
230000007423 decrease Effects 0.000 description 1
238000007599 discharging Methods 0.000 description 1
230000005684 electric field Effects 0.000 description 1
150000003278 haem Chemical class 0.000 description 1
210000000936 intestine Anatomy 0.000 description 1
230000005855 radiation Effects 0.000 description 1
210000002784 stomach Anatomy 0.000 description 1

Images

Classifications

- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05G—X-RAY TECHNIQUE
- H05G1/00—X-ray apparatus involving X-ray tubes; Circuits therefor
- H05G1/08—Electrical details
- H05G1/10—Power supply arrangements for feeding the X-ray tube
- H05G1/22—Power supply arrangements for feeding the X-ray tube with single pulses
- H05G1/24—Obtaining pulses by using energy storage devices
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05G—X-RAY TECHNIQUE
- H05G1/00—X-ray apparatus involving X-ray tubes; Circuits therefor
- H05G1/08—Electrical details
- H05G1/58—Switching arrangements for changing-over from one mode of operation to another, e.g. from radioscopy to radiography, from radioscopy to irradiation or from one tube voltage to another

Definitions

the installation may be constructed in difierfrom a condenser which has been charged to a ent ways.
a condenser which has been charged to a ent ways.
Such a condenser may be caused to disto the charging circuit that the same switch charge by switching on the current for heating serves for the closing or the interrupting of both the cathode of the X-ray tube and by thus makcircuits.
the charging circuit comprises an in- It is, however, preferable to employ a device candescible cathode discharge tube, an electricalby which the discharge'is prevented until the ly-influenced member bringing about the actuaincandescible cathode has attained that.
temtion of the switch located in the discharge cirperature at which the emission of useiulrays occult (tor example, a magnet coil or the heating 15 curs.
it has already been sugwire of a bimetallic strip) maybe connected in gested to include in the discharge circuit a spark parallel or in series with the said incandescible gap adapted to break down at a predetermined cathode. This member may act directly on the voltage.
Suchaspark gap may be so constructed switch, but may also be an intermediate relay that at an arbitrary instant it can be made conwhich in its turn closes or interrupts an auxiliary ductive, for example, by movably mounting one circuit.
a. switch may be used which only in- The purpose of my invention is to improve such terrupts the heating current of the cathode of the an installation and it relates to an X-ray instaldischarge tube, or again a switch may be used 5.
lation provided with a condenser connected to a w the d of wh c e pp y olta i the charging circuit and to a discharge circuit; the chargi g circuit is switched. off.
Figure 1 is a schematic diagram showing the ticularly apparel er hweconditions where circuit arrangement of an installation in which 50 the picture has to be taken at a definite inst n the charging circuit and the discharge circuit and -where a repeated exposure is either imposare switched on d ir by closing or breaking sible or is a d with great difficulties, for the heating circuit of the cathodes of the rectifier ample, in making radiographs of the stomach tube and of the X-ray tube;
FIG. 1 is a schematic diagram showing a circuit arrangement of an installation comprising a relay
FIGS. 3 and 4 are schematic diagrams showing similar installations in which the exciting circuit of the relay is connected to the heating current circuit of a discharge tube included in the charging circuit.
a condenser i is charged through a rectifying tube 3 from the secondary winding of a transformer 2, whose primary winding is connected by conductors 4 to an alternating current network; a resistance ll being placed in one of the conductors 4.
the installation further comprisestransformers 5 and 6, whose primary windings are also connected to the alternating current network, and whose secondary windings supply the heating currents for the incandescible cathodes of the rectifying tube 3 and of the X- ray tube 1 respectively.
transformers 5 and 6 One end of the primary windings of transformers 5 and 6 is directly connected to one of the conductors 4; the other ends of these windings lead to contacts 8 and 9, respectively, of a switch Hi. If the switch it is placed on the contact 8, the transformer 5 is switched on and the incandescible cathode of the rectifier tube 3 is heated. This causes the transformer 2 to supply rectified alternating current to the condenser I, which, therefore, some time after the current has been switched on, is charged up to the maximum value of the available tension.
the resistance H limits the current and also determines the time of charge.
the switch II! is placed on the contact 9 so that current is allowed to flow through the contact 8 to the transformer 6, thus bringing the cathode of the X-ray tube 1 to incandescence.
the incandescible cathode of the rectifier tube 3 is deenergized so that the charging currentcircuit is blocked. Thereby a direct supply of energy by the transformer 2 to the X-ray tube I is precluded.
FIG. 2 in which similar parts are denoted by the same reference numerals, merely differs from the installation of Fig. 1 in that the heating current for the incandescible cathode of the X-ray tube is supplied by a separate transformer I3 and not by the transformer 6, and that the transformer 6 serves for the excitation of a relay I4.
the discharge circuit of the condenser I may be closed after the incandescible cathode of the X-ray tube has already attained its temperature.
the relay I4 is constructed as a normally open relay, that is to say it closes its armature contact when the excitin current is switched on. If, as soon as the condenser l is charged, the switch I is placed on the contact 9, the'charging current is switched off, the cathode of tube 1 is heated up, and the relay It, being energized shortly thereafter, closes the discharge current.
switch I! is provided for switching on the primary current of transformer I5. If switch I! is brought into the position shown, the incandescible cathode of the rectifier tube 3 is extinguished and as a result the charging current circuit is blocked; At the same time, however, the relay I is deenergized, which establishes the path for the discharging current.
the heating circuit of the cathode of the X- ray tube 1 is shown in this case to be independent of the switch ii; the primary of the heating transformer It! being connected directly to the supply conductors G.
the relay l5 may consist of a spark gap in which one of the electrodes is movable and in which, due to such deenergization of the relaya breakdown of the gap may occur.
a very effective form of construction of such a relay is dia grammatically shown in the drawings as consisting of two vertically-aligned spherical bodies 68 and i9. Within the body i9 is arranged the magnet winding of a relay whose armature consists of a pin located behind an aperture in the wall of the body 19 and held fast by the magnetic force of the energized relay. If the exciting current of the relayis switched off, this pin drops to protrude through the aperture to the outside.
the strong concentration of the electric field between the electrodes i8 and I9 which concentration is due to the pointed shape of the armature, causes the instantaneous breakdown of the spark gap.
the electrodes of the spark gap may have otherwise shaped surfaces which permit the application of a great potential difference for a relatively small interelectrode distance.
Discharge of the condenser I may also be caused with the aid of a switch included in the primary circuit of the transformer 2; such a switch being denoted by 20 in Figure 4.
Fig. 4 also comprises a time-delay relay 2
the contacts of relay 2i are located in the primary circuit of the heating current transformer l3 whose circuit, however, is not controlled by the switch 20.
the switch 20 After having been closed, is reopened, the primary windings of the transformers 2 and I6, and therefore also the exciting circuits of the relays l5 and II, become deenergized.
the relay [5 immediately closes the discharge circuit, but the relay 2i, due to its time delay, does not switch off the heating current of the cathode of the X- ray tube 1 at the same instant, but only after the radiograph has been made.
the installation can consemoment at which the condenser I has taken up a sufficiently high charge to make the radiograph.
'I'he charging current produces across the ends of the resistance 22 a potential diiference owing to which the glow-discharge tube 23 is ignited and emits light.
the condenser voltage has attained such a value that the voltage across the resistance 22 drops below a value sufficient to keep the glow-discharge tube 23 ignited, the extinguishing of this tube indicates that the condenser I has a sufiicient charge and that the X-ray photograph can be made.
Fig. 4 also shows a condenser 24!, connected in parallel .to the glow-discharge tube 23 for the purpose of preventing the continuous alternating displacement currents flowing in the charging circuit from influencing the ignition of the glow-discharge tube.
Such alternating displacement currents are caused by, the fact that the anode and cathode of the rectifier 3 form a small condenser which is connected in series with the condenser I, and the transformer 2'.
the transformer 2 applies an alternating voltage to these two series condensers, which causes-in addition to the charging current-a continuous alternating displacement current to flow through the circuit consisting of the transformer 2, resistance 22, condenser I, and the condenser formed by the electrodes of the rectifier tube 3.
This alternating displacement current continues after the direct charging current ceases to flow, and may be sufficiently large to cause in the resistance 22 a voltage drop in excess of the ignition voltage of the tube 23. This would cause the tube 23 to remain ignited and thus give an incorrect indication.
the condenser His provided across the discharge tube 23; the capacity of the condenser relative to the other portion of the charging circuit being so large that the voltage drop across this condenser is smaller than the ignition voltage of the discharge" tube 23.
An X-ray installation comprising an X-ray tube, a high voltage condenser, a charging circuit for said condenser, a discharge circuit for said condenser including the X-ray tube, a contactor and a coil to close said contactor, and an energizing'circuit for said coil, said coil when, energized closing said contactor and establishing the discharge circuit, and means to control the fiow of current in said charging circuit and in said energizing circuit, said means including a twoposition switch which'in one position prevents current flow in said'charging circuit and permits current flow in said energizing circuit, and when in its other position permits current flow'in said charging circuit and prevents current flow in said energizing circuit.
An X-ray installation comprising a high voltage condenser, a. charging circuit and a discharge circuit therefor, a high voltage alternating current supply and a rectifying discharge tube having an incandescible cathode connected in said charging circuit, an X-ray tube having an anode and an incandescible cathode connected in said discharge circuit, said discharge circuit also comprising a movable switch member, electric actuating means to move said member, said electric actuating means when de-energized causing closure of said discharge circuitthrough said member, a common source for the cathode of the rectifier and said electric'actuating means, and a switch to disconnect said source from said rectifier cathode and from said actuating means and thereby interrupt the flow of current in the charging circuit and establish the discharge circuit.
An X-ray installation comprising a high voltage transformer having output terminals, a high voltage condenser, an X-ray tube having an anode and an incandescible cathode, a rectifying discharge tube having an anode and an incandescible cathode, the anode of said rectifying discharge tube being connected to one output terminal of said transformer and the cathode of said X-ray tube being connected to the other output terminal of said transformer, said condenser being connected between said latter output terminal and the cathode of said rectifying discharge tube, an electrically energizable relay having a switch member, the cathode of said rectifier and the anode of said Y-ray tube being interconnected by said switch member when the latter is closed, a second transformer to supply heating current to the cathode of the rectifier tube and to energize said relay, and a third transformer to supply heating current to thecathode of said X-ray tube, and a switch to de-energize said second transformer, and
An X-ray installation comprising a high voltage condenser, a charging circuit therefor comprising a rectifier tube having an incandescible cathode, a discharge circuit for said condenser comprising an X-ray tube having an anode and an incandescible cathode, a switch member in said discharge circuit and electromagnetic actuating means for said switch member, a common source to energize the cathode of the rectifier tube and said switch actuating means, and an interrupter to disconnect said source from said rectifier cathode and switch actuating means and thereby cause interruption of the flow of current in the charging circuit and establishment of the discharge circuit.
An X-ray installation comprising a high voltage condenser, a charging circuit therefor, a rectifier tube having an incandescible cathode in saidcharging circuit, a discharge circuit for said condenser, an X-ray, tube having an incandescible cathode and an anode, and a switch member in said discharge circuit, electrical actuating means for said switch member, a common source to energize the cathode of the rectifier-tube and said switch actuating means, an interrupter to disconnect said source simultaneously from the cathode of the rectifier and said actuating means and to thereby cause interruption of the chargcathode of the X-ray tube, said circuit remaining energized after the interruption of the charging circuit.
An X-ray installation comprising a .high voltage condenser and a charging circuit therefor, a rectifier tube having an incandescible cathode and a source of supply of-high voltage in saidcharging circuit, a discharge circuit, an X-ray tube having an incandescible cathode and a movable member in said discharge circuit, means for electrically retaining said movable member in open-circuit position, a heating circuit for the incandescible cathode of the X-ray tube, and a common circuit for the heating of the incandescible cathode of the rectifier and for energizing the means for electrically retaining said member, a time delay means to controlthe heating circuit of the X-ray tube, a switch member adapted to control said common circuit, said switch member when closed causing energization of the incandescible cathode of the rectifier tube and of the retaining means for said movable member, and also causesconnection of the source of
An X-ray installation comprising an X-ray tube, a high voltage condenser, a charging circuit for said condenser and a second circuit to discharge said condenser through the Xray tube, andmeans to indicate that the condenser is charging and the moment at which it is charged to a predetermined value, said means comprising a resistor disposed in the charging circuit and a glow-discharge tube connected across said resistor, the ignition voltage of saidtube being lower than the voltage drop in said resistor when the condenser has been charged to the desired value.
An X-ray installation comprising an X-ray tube, a high voltage condenser, a charging circuit and a discharge circuit for said condenser, means to indicate the extent of charge of said condenser, said means including a resistor connected in said charging circuit, a glow discharge indicator tube, a second condenser, said indicator tube and second condenser being each in multiple with said resistor, the ignition voltage of said indicator tube being smaller than the voltage drop in the resistor while the condenser is being charged and the capacity of the second condenser being sufiiciently large that thevoltage drop across this condenser caused by the alternating displacement current is below the ignition voltage of, the indicator tube when the first condenser is fully charged.
An X-ray installation comprising an X ray tube, a high-voltage condenser, means including a switch and circuit for charging said condenser, adischarge circuit for said condenser including said X-ray tube, a contactor and a; coil to close said contactor, and means for energizing said coil comprising an auxiliary circuit including said switch, said coil when energized closing said contactor and establishing the discharge circuit, said switch being adapted to assume two positions, in one of which positions it prevents current flow in the condenser charging circuit and closes said auxiliary circuit to cause the energization of said coil.
An X-ray installation comprising an X-ray tube, a high-voltage condenser, a charging circuit and a discharge circuit for said condenser, a source of high voltage in said charging circuit, said discharge circuit including said X-ray tube, and means to control the flow of current in said circuits and'including a two-position switching device, said means preventing the flow of current in said charging circuit when said device is movedfrom one position andpreventing the flow of current in said discharge circuit'when said device is moved from its second position into said first position.
An X-ray installation comprising a high voltage condenser, a charging circuit for said condenser including a-high-voltage supply source,
a discharge circuit for said condenser including an X-ray tube having an incandescible cathode and a movable member which in one position interrupts said discharge circuit, means to electrically retain said member in open circuit position, a.
a heating current supply transformer having a secondary winding in said common circuit and a primary winding, a supply circuit including said primary winding and a switch member, a heating circuit ⁇ or the X-ray tube cathode, a second heating current transformer having -a secondary winding in said heating circuit and a primary winding having supply leads, and a time lag relay in one of said latter supply leads and having an energizing coil connected in parallel with the primary winding of said first heating current transformer, said relay being opened at a predetermined time after the deenergization of said coil.
An X-ray installation comprising an X-ray tube having an incandescible cathode, an alternating current supply, a high-voltage condenser and a charging circuit therefor including a rectifier tube having an incandescible cathode, a discharge circuit for said condenser comprising said x ray tube and a high-tension switch member adapted to establish the discharge circuit, means for heating the, cathode of said X-ray tube comprising an auxiliary circuit directly connected to said current supply, a time delay switch for controlling said auxiliary circuit and having electric actuating means which when energizedcause the switch to interrupt said auxiliary circuit after a predetermined time interval, a network current circuit for energizing the cathode of said rectifier tube and said high-tension switch member, said actuating means being electrically connected to and energized from said network circuit, and a switch in said network circuit to interrupt the energization of said rectifier tube cathode, of said high-tension switch, and of
an X-ray system for taking X-ray photographs in a short interval of time, the combination with an energy storage means connected to a source of rectified alternating current energy for accumulating an electrical charge in said energy storage means, and an X-ray tube connected to said energy storage means and adapted to be energized by the energy accumulated therein, 01 means connected to said energy storage means and said X-ray tube and operable to control the energization of the latter, and means associated with said last mentioned means and said source of energy and operable to render said last mentioned means eflective to cause energization of said X-ray tube by the accumulated charge, and to interrupt the accumulation of a charge in said energy storage means from said source prior-to rendering said last mentioned means effective to prevent said rectified alternating current source from imposing a sinusoidal wave upon the X-ray tube excitation energy.
an X-ray system for taking X-ray photographs in a short interval of time, the combination with an energy storage means connected to a source 01. pulsating electrical energy for accumulating a charge in said energy storage means, and an X-ray tube connected to said en- ,ergy storage means and adapted to be energized the energy. being supplied to said' X-ray tube during the accumulation of said charge and op-.
an X-ray system for taking X-ray photographs in a short interval of time, the combination with an energy storage means for accumulating a charge from a source of rectified alternating current energy, and an X-ray tube adapted to be energized upon release of said charge from said energy storage means, of means connected to said energy storage means and said X-ray tube and operable to prevent any excitation of said X-ray tube during the accumulation of said charge and for causing release of said charge to said X-ray tube, and means operable to cause said last mentioned means to release said charge to said X-ray tube and to interrupt said rectified alternating current source prior to the release of said charge in order to prevent the imposition-of a sinusoidal wave form from the alternating current source upon the X-ray tube excitation energy.
an X-ray system for taking X-ray photographs in a short interval of time, the combination with an energy storage device connected to a source of pulsating electrical energy for accumulating 'a. charge, and an x-ray tube connected to said energy storage device and adapted to be energized by the charge accumulated therein,'oi a switching device connected to said X-ray tube and said energy storage device for controlling the energization of said X-ray tube, and means associated with said switching device and operable to render the latter operative to cause energization of said x-ray-tube by the accumucitation energy.
an X-ray system for taking X-ray photographs in a shortinterval of time, the combination with an energy storage means connected to a sourceof rectified alternating current energy for accumulating an electrical charge in said energy storage means, and .an X-ray tube connected to said energy storage means and adapted to be energized by the charge accumulated therein, of means connected to said energy storage means and to said X-ray tube and operable to controlthe energization of the latter, and means associated with said last mentioned means and said source of energy and operable to render said last mentioned means effective to cause energization of said X-ray tube by the accumulated charge, and to interrupt the accumulation of a charge in said energy storage means to prevent said rectified alternating current source from imposing a sinusoidal wave form upon the X-ray tube excitation energy.
an X-ray system for taking X-ray photographs in a short interval of time, the combination with an energy storage means connected to a source of rectified alternating current energy for accumulating an electrical charge in said energy storage means, and an X-ray tube connected to said energy storage means and adapted to be energized by the charge accumulated therein, of
an energy storage means for taking X-ray photographs in a short interval of time, the combination of an energy storage means, a source of rectified alternating current energy connected to said energy storage means for accumulating an electrical charge therein, an X-ray tube connected to said energy storage means and adapt ed to be energized by the energy accumulated therein, means connected to said energy storage means and said X-ray tube and operable to control the energization of the latter, means associated with said second mentioned means and operable to render said second mentioned means effective to cause energlzation of said X-ray tube by the accumulated charge, and means associated with said source of rectified alternating current and operable to interrupt the accumulation of a charge in said energy storage means from said source prior to the operation of said last mentioned means to prevent said rectified alternating current source from imposing a sinusoidal wave ergy storage means and to said X-ray tube and operable to prevent excitation of said X-ray tube during the accumulation of said charge and for causing release of said charge to said
said means associated with said discharge circuit and said heating circuitand. operable to control the two-position switching device, said means causing .the energization of said heating circuit when said device assumes one of its positions and causing the deenergization of said heating circuit and permitting the flow of current in said discharge circuit when said device is moved into its other position.
An X-ray installation comprising an X-ray tube, a high-voltage condenser, a charging circuit for said condenser comprising a high-voltage transformer for supplying charging current to the condenser, a discharge circuit for said condenser including said X-ray tube, a movable member adapted to assume two positions and when in one position establishing said discharge circuit, electric actuating means to move said member from one position to another position, and means including a two-position switching device for controlling said charging circuit and said elec tric actuating means, said device when moved into one position causing the flow of current in said charging circuit and when moved to its other position causing the interruption of the flow of current in the charging circuit and the establishment of the discharge circuit.

Landscapes

X-Ray Techniques (AREA)
Apparatus For Radiation Diagnosis (AREA)

US589696A 1931-02-14 1932-01-29 X-ray installation for short-time exposures Expired - Lifetime US2113696A (en)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
NL55618A NL35574C (fr)	1931-02-14	1931-02-14	roentgeninstallatie voor opnamen van korten duur

Publications (1)

Publication Number	Publication Date
US2113696A true US2113696A (en)	1938-04-12

Family

ID=39817171

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
US589696A Expired - Lifetime US2113696A (en)	1931-02-14	1932-01-29	X-ray installation for short-time exposures

Country Status (6)

Country	Link
US (1)	US2113696A (fr)
BE (2)	BE386382A (fr)
DE (1)	DE627728C (fr)
FR (1)	FR742628A (fr)
GB (1)	GB376199A (fr)
NL (1)	NL35574C (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2420844A (en) *	1944-06-15	1947-05-20	Westinghouse Electric Corp	Short exposure x-ray apparatus

1931
- 1931-02-14 NL NL55618A patent/NL35574C/fr active
- 1931-04-03 DE DEN31854D patent/DE627728C/de not_active Expired
1932
- 1932-01-29 US US589696A patent/US2113696A/en not_active Expired - Lifetime
- 1932-02-06 FR FR742628D patent/FR742628A/fr not_active Expired
- 1932-02-09 GB GB3846/32A patent/GB376199A/en not_active Expired
- 1932-02-11 BE BE386382A patent/BE386382A/fr unknown
1933
- 1933-10-30 BE BE399412A patent/BE399412R/fr active

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US2420844A (en) *	1944-06-15	1947-05-20	Westinghouse Electric Corp	Short exposure x-ray apparatus

Also Published As

Publication number	Publication date
GB376199A (en)	1932-07-07
BE386382A (fr)	1932-03-31
FR742628A (fr)	1933-03-10
NL35574C (fr)	1935-06-15
BE399412R (fr)	1933-11-30
DE627728C (de)	1936-03-21

Publication	Publication Date	Title
US2061011A (en)	1936-11-17	Circuit arrangement for electrical time control
US2509005A (en)	1950-05-23	Flashtube triggering circuits
US1691395A (en)	1928-11-13	Circuit-control apparatus
US2021034A (en)	1935-11-12	Glow discharge relay
US3591826A (en)	1971-07-06	Microwave oven power supply circuit having hot-wire relays
US2113696A (en)	1938-04-12	X-ray installation for short-time exposures
US3678371A (en)	1972-07-18	Lamp control circuit with high leakage reactance transformer and controlled bilateral switching means
US2215804A (en)	1940-09-24	Circuit interrupting apparatus
US2253185A (en)	1941-08-19	Electric discharge apparatus
US2883554A (en)	1959-04-21	Control means for regulating the output of x-ray apparatus
GB706944A (en)	1954-04-07	Improvements in or relating to x-ray apparatus
US2916669A (en)	1959-12-08	Starting circuit for gaseous discharge lamps
US1956416A (en)	1934-04-24	High voltage discharge apparatus
US4499452A (en)	1985-02-12	Modulation installation for sector supply of charge elements
US2129383A (en)	1938-09-06	X-ray system for taking short exposure x-ray photographs
US2384647A (en)	1945-09-11	X-ray timer
US2998548A (en)	1961-08-29	Voltage generators for flash lamps
GB2037509A (en)	1980-07-09	Improvements in or Relating to Electronic Trigger Systems
US1901865A (en)	1933-03-21	X-ray installation
US2719234A (en)	1955-09-27	Electronic contacting of x-ray generator
US2404614A (en)	1946-07-23	Electric control circuit
US2102883A (en)	1937-12-21	Device for charging condensers
US3428809A (en)	1969-02-18	Scr circuit for terminating an x-ray exposure at a precise point
US3436595A (en)	1969-04-01	Illuminating lamp power supply
US2217483A (en)	1940-10-08	X-ray apparatus

US2113696A - X-ray installation for short-time exposures - Google Patents

Info

Links

Images

Classifications

Definitions

Landscapes

Applications Claiming Priority (1)

Publications (1)

Family

ID=39817171

Family Applications (1)

Country Status (6)

Cited By (1)

Cited By (1)

Also Published As

Similar Documents