US3453574A - High-frequency,wide-band transformer - Google Patents

High-frequency,wide-band transformer Download PDF

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US3453574A
US3453574A US715352A US3453574DA US3453574A US 3453574 A US3453574 A US 3453574A US 715352 A US715352 A US 715352A US 3453574D A US3453574D A US 3453574DA US 3453574 A US3453574 A US 3453574A
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transformer
frequency
wide
band
present
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US715352A
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Theodore De Parry
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US Atomic Energy Commission (AEC)
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01FMAGNETS; INDUCTANCES; TRANSFORMERS; SELECTION OF MATERIALS FOR THEIR MAGNETIC PROPERTIES
    • H01F27/00Details of transformers or inductances, in general
    • H01F27/28Coils; Windings; Conductive connections
    • H01F27/288Shielding

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  • This invention relates to transformers and more particularly to high-frequency, wide-band transformers having a high turns ratio.
  • High-frequency, wide-band transformers enjoy a wide usage in the electrical art. For example, application therefor. is found in the radiofrequency section of particle accelerators. It is difficult, using the present state of the art, to obtain a high-frequency, wide-band transformer having a high turns ratio, a high coupling coefficient and a flat broad-band response. When the turns ratio is above 2 to 1, it is difiicult to obtain efficient coupling in the standard high-frequency transformer. Further, flat broadband frequency response is not readily available in transformers having high turns ratios.
  • the transformer of the present invention to provide wide-band transformer having a high Summary of the invention
  • the transformer of the present invention comprises core means and a cable wound about said core means including an inner conductor and an outer conductor surrounding the inner conductor.
  • the outer conductor of the cable is sectionally discontinuous.
  • Means are provided for electrically interconnecting each of the 3,453,574 Patented July 1, 1969 outer conductor sections.
  • the inner and outer conductors each form a winding of the transformer.
  • FIG. 1 is a diagram of a transformer constructed according to the present invention.
  • FIG. 2 is a drawing of the transformer of FIG. I having a different turns ratio connection.
  • FIG. 3 is a schematic of a transformer constructed according to the present invention together with the testing circuit therefor.
  • FIG. 4 is a graphical representation of the characteristics obtained with the transformer of FIG. 3.
  • a coaxial cable 10 comprising an inner conductor 12 and an outer conductor 14 is helically wound about a ferrite toroidal core 16.
  • the inner conductor 12 comprises the primary winding of the transformer having input terminals 18 and 20.
  • the outer conductor 14 comprises the secondary winding of the transformer with output terminals 22 and 24.
  • the transformer of FIG. 1 is shown in a center-tap push-pull configuration having a 4 to 1 step down turns ratio.
  • the outer conductor 14 is made sectionally discontinuous and the leading and lagging ends (a and b) of the sections 26 through 40 in each half of the transformer are connected as shown so that the secondary winding is electrically equivalent to a single turn of a conductor about a magnetic core wound with four primary turns.
  • the present invention is not to be limited thereto, nor is the structure limited to a toroidal core configuration.
  • Other core shapes such as rectangular and H- shaped cores
  • other winding configurations may be substituted therefor.
  • turns ratios other than that illustrated are obtainable according to the present invention by different interconnection of the sections of the outer conductor 14.
  • a turns ratio of 2 to 1 may "be obtained with the transformer of FIG. 1 by interconnecting the leading and lagging ends (26b to 28a, 30b to 32a, 34a to 36b, 38a to 40b) of the sections of outer conductor 14, as shown in FIG. 2.
  • FIG. 3 a schematic equivalent is shown for the transformer of FIG. 1.
  • the transformer 42 was constructed according to the structure of the transformer of FIG. 1 in a push-pull center-tap configuration and a 3 to 1 turns ratio (6 turn primary, 2 turn equivalent sec ondary).
  • a signal generator 44 provided a constantamplitude signal at a frequency variable bet-ween kilohertz and 50 megahertz. This signal was applied across the primary winding 46 of transformer 42.
  • the output voltage from the secondary Winding 48 of transformer 42 was measured and recorded by recorder 50.
  • the results obtained with the transformer 42 of FIG. 3 are shown in the graphical plot of FIG. 4.
  • the curve 52 represents the input voltage applied to the primary winding 46 and the curve 54 represents the output voltage from the secondary winding 48.
  • the voltage applied to the primary winding 46 was maintained at a constant amplitude (6 volts) throughout the frequency spectrum tested. It is to be noted that the transformer 42 exhibited a completely flat response to 10 megacycles and only a 30% deviation therefrom between 10 megacycles and 19 megacycles.
  • the specific performance data of the transformer 42 indicated that the coupling coefiicient between the primary and secondary windings 46 and 48 approached 1 and that stray inductance loss was lowered by the configuration-of the transformer. It is to be noted that the amount of coupling and/or stray inductance loss may be varied as a function of the diameters of the two conductors forming the cable 10. Similar results were obtained with the windings 46 and 48 of transformer 42 having turns ratios of 6 to 1 and 10 to 1.
  • a transformer comprising a toroidal core, first and second like coaxial cables each spirally wound in the same directional sense around the periphery of an associated portion of said toroidal core, the outer conductors of said coaxial cables being sectionally discontinuous, the inner and outer conductors of said coaxial cables each forming windings of said transformer, means for electrically grounding one pair of adjacent ends of the inner conductors of said coaxial cables, the other pair of 'adjacent ends of the inner conductors of said coaxial cables being terminals to the transformer windings formed thereby, means for electrically grounding one pair of adjacent ends of the outer conductors of said coaxial cables, and alternate related ends therefrom of said discontinuous sections of said outer conductors, the other pair of adjacent ends of the outer conductors of said coaxial cables being terminals to the transformer windings formed thereby, and means for connecting to an associated one of said other pair of adjacent ends of said outer conductors alternate related ends therefrom of said discontinuous sections of said outer conductor.

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Coils Or Transformers For Communication (AREA)

Description

y 1, 1969 T. DE PARRY 3,453,574
HIGH-FREQENCL WIDE-BAND TRANSFORMER Filed March 22, 1968 Sheet 0 1 2 In 2/8 to) Theodore de Pa/gy July 1, 1969 T. DE PARRY 3,453,574
HIGH-FREQENCY WIDE-BAND TRANSFORMER Filed March 22, 1968 Sheet 2 of 2 .5 5mm. C o f? 2 D GENER/YTOR 1g 4% v 6 12 6 Moms 5 M T 1/ w v y FREQUENCY (Me/5) F 5- 4 In zfeflor 2726040119 46 Par 1y United States Patent Oflice U.S. Cl. 336-182 1 Claim ABSTRACT OF THE DISCLOSURE Contractual origin of the invention The invention described herein was made in the course of, or under, a contract with the United States Atomic Energy Commission.
Background of the invention This invention relates to transformers and more particularly to high-frequency, wide-band transformers having a high turns ratio.
High-frequency, wide-band transformers enjoy a wide usage in the electrical art. For example, application therefor. is found in the radiofrequency section of particle accelerators. It is difficult, using the present state of the art, to obtain a high-frequency, wide-band transformer having a high turns ratio, a high coupling coefficient and a flat broad-band response. When the turns ratio is above 2 to 1, it is difiicult to obtain efficient coupling in the standard high-frequency transformer. Further, flat broadband frequency response is not readily available in transformers having high turns ratios.
Accordingly, it is one object of the present invention to provide an improved high-frequency, wide-band transformer.
It is another object of the a high-frequency, turns ratio.
It is another object of the present invention to provide a high-frequency, wide-band transformer having a high coupling coefiicient between the windings thereof.
It is another object of the present invention to provide a high-frequency, wide-band transformer having minimal stray inductance loss.
It is another object of the present invention to provide a high-frequency, wide-band transformer having a flat response and a turns ratio in excess of 2 to 1.
Other objects of the present invention will become more apparent as the detailed description proceeds.
present invention to provide wide-band transformer having a high Summary of the invention In general, the transformer of the present invention comprises core means and a cable wound about said core means including an inner conductor and an outer conductor surrounding the inner conductor. The outer conductor of the cable is sectionally discontinuous. Means are provided for electrically interconnecting each of the 3,453,574 Patented July 1, 1969 outer conductor sections. The inner and outer conductors each form a winding of the transformer.
Brief description of the drawings Further understanding of the present invention may best be obtained from consideration of the accompanying drawings wherein:
FIG. 1 is a diagram of a transformer constructed according to the present invention.
FIG. 2 is a drawing of the transformer of FIG. I having a different turns ratio connection.
FIG. 3 is a schematic of a transformer constructed according to the present invention together with the testing circuit therefor.
FIG. 4 is a graphical representation of the characteristics obtained with the transformer of FIG. 3.
Description of the preferred embodiment In FIG. 1, a coaxial cable 10 comprising an inner conductor 12 and an outer conductor 14 is helically wound about a ferrite toroidal core 16. The inner conductor 12 comprises the primary winding of the transformer having input terminals 18 and 20. The outer conductor 14 comprises the secondary winding of the transformer with output terminals 22 and 24. The transformer of FIG. 1 is shown in a center-tap push-pull configuration having a 4 to 1 step down turns ratio. To obtain this structure, the outer conductor 14 is made sectionally discontinuous and the leading and lagging ends (a and b) of the sections 26 through 40 in each half of the transformer are connected as shown so that the secondary winding is electrically equivalent to a single turn of a conductor about a magnetic core wound with four primary turns. It is to be noted that, though the aforedescribed example illustrates a center-tap push-pull transformer configuration, the present invention is not to be limited thereto, nor is the structure limited to a toroidal core configuration. Other core shapes (such as rectangular and H- shaped cores) and other winding configurations may be substituted therefor. Further, it will be appreciated that turns ratios other than that illustrated are obtainable according to the present invention by different interconnection of the sections of the outer conductor 14. For example, a turns ratio of 2 to 1 may "be obtained with the transformer of FIG. 1 by interconnecting the leading and lagging ends (26b to 28a, 30b to 32a, 34a to 36b, 38a to 40b) of the sections of outer conductor 14, as shown in FIG. 2.
Turning to FIG. 3, a schematic equivalent is shown for the transformer of FIG. 1. The transformer 42 was constructed according to the structure of the transformer of FIG. 1 in a push-pull center-tap configuration and a 3 to 1 turns ratio (6 turn primary, 2 turn equivalent sec ondary). A signal generator 44 provided a constantamplitude signal at a frequency variable bet-ween kilohertz and 50 megahertz. This signal was applied across the primary winding 46 of transformer 42. The output voltage from the secondary Winding 48 of transformer 42 was measured and recorded by recorder 50. The results obtained with the transformer 42 of FIG. 3 are shown in the graphical plot of FIG. 4. The curve 52 represents the input voltage applied to the primary winding 46 and the curve 54 represents the output voltage from the secondary winding 48. The voltage applied to the primary winding 46, as stated, was maintained at a constant amplitude (6 volts) throughout the frequency spectrum tested. It is to be noted that the transformer 42 exhibited a completely flat response to 10 megacycles and only a 30% deviation therefrom between 10 megacycles and 19 megacycles. The specific performance data of the transformer 42 indicated that the coupling coefiicient between the primary and secondary windings 46 and 48 approached 1 and that stray inductance loss was lowered by the configuration-of the transformer. It is to be noted that the amount of coupling and/or stray inductance loss may be varied as a function of the diameters of the two conductors forming the cable 10. Similar results were obtained with the windings 46 and 48 of transformer 42 having turns ratios of 6 to 1 and 10 to 1.
Though the foregoing examples have indicated that the cable 10 from which the transformer is constructed is of a coaxial construction, it is to be understood that for the practice of the present invention it is only necessary that an inner conductor be used which is completely surrounded by an outer conductonThus, rectangular conductors may be used provided one is inserted within the other.
Persons skilled in the art will, of course, readily adapt the general teachings of the invention to embodiments far different from the embodiments illustrated. Accordingly, the scope of the protection afforded the invention should not be limited to the particular embodiment illustrated in the drawings and described above, but should be determined only in accordance -with the appended claim.
The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:
1. A transformer comprising a toroidal core, first and second like coaxial cables each spirally wound in the same directional sense around the periphery of an associated portion of said toroidal core, the outer conductors of said coaxial cables being sectionally discontinuous, the inner and outer conductors of said coaxial cables each forming windings of said transformer, means for electrically grounding one pair of adjacent ends of the inner conductors of said coaxial cables, the other pair of 'adjacent ends of the inner conductors of said coaxial cables being terminals to the transformer windings formed thereby, means for electrically grounding one pair of adjacent ends of the outer conductors of said coaxial cables, and alternate related ends therefrom of said discontinuous sections of said outer conductors, the other pair of adjacent ends of the outer conductors of said coaxial cables being terminals to the transformer windings formed thereby, and means for connecting to an associated one of said other pair of adjacent ends of said outer conductors alternate related ends therefrom of said discontinuous sections of said outer conductor.
References Cited UNITED STATES PATENTS 1,827,191 10/1931 Casper 336 XR 2,348,325 5/1944 'Brown 336-195 XR 3,005,965 10/1961 Wertanen 336-195 XR 3,066,266 11/1962 Fisher 336229 XR 3,195,076 7/1965 Morrison 336181 XR 3,260,977 7/ 1966 Coltman 336-l81 FOREIGN PATENTS 867,044 4/ 1961 Great Britain.
LEWIS H. MYERS, Primary Examiner.
T. J. KOZMA, Assistant Examiner.
US. Cl. X.R. 336195, 229
US715352A 1968-03-22 1968-03-22 High-frequency,wide-band transformer Expired - Lifetime US3453574A (en)

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Cited By (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3675176A (en) * 1970-05-12 1972-07-04 Racal Mobilcal Ltd Electrical transformers
US3702453A (en) * 1971-07-19 1972-11-07 Atomic Energy Commission Temperature-compensated trimming windings for water-cooled magnet coils
FR2542527A1 (en) * 1983-03-09 1984-09-14 Commissariat Energie Atomique Fast pulse-amplifier
US4777466A (en) * 1985-04-25 1988-10-11 Senter For Industriforskning Connector arrangement for electrical circuits in underwater installations, and transformer particularly for use in such arrangement
US4806896A (en) * 1986-01-17 1989-02-21 Mitsubishi Denki Kabushiki Kaisha Electromagnetic shield for electromagnetic apparatus
US5130678A (en) * 1990-07-17 1992-07-14 Rockwell International Corporation Transmission line transformer with DC isolation
US5301096A (en) * 1991-09-27 1994-04-05 Electric Power Research Institute Submersible contactless power delivery system
US5341083A (en) * 1991-09-27 1994-08-23 Electric Power Research Institute, Inc. Contactless battery charging system
US5705971A (en) * 1993-05-14 1998-01-06 Allen-Bradley Company, Inc. Low leakage coaxial transformers
EP0932168A2 (en) * 1998-01-26 1999-07-28 ABB Daimler-Benz Transportation (Technology) GmbH Coaxial transformer
EP1075699A1 (en) * 1998-05-01 2001-02-14 Abb Ab A power current booster transformer
US7009486B1 (en) * 2003-09-18 2006-03-07 Keithley Instruments, Inc. Low noise power transformer
US20090002111A1 (en) * 2007-01-11 2009-01-01 William Lee Harrison Wideband planar transformer
US20100295646A1 (en) * 2007-01-11 2010-11-25 William Lee Harrison Manufacture and use of planar embedded magnetics as discrete components and in integrated connectors
GB2534233A (en) * 2015-01-16 2016-07-20 Elena Rybtchinskaia Isolating transmission line transformer
GB2536931A (en) * 2015-03-31 2016-10-05 E2V Tech (Uk) Ltd A transformer

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1827191A (en) * 1930-06-06 1931-10-13 Bell Telephone Labor Inc Shielded inductance
US2348325A (en) * 1941-04-26 1944-05-09 Rca Corp Electrical transformer
GB867044A (en) * 1958-08-11 1961-05-03 Ass Elect Ind Improvements relating to pulse transformers
US3005965A (en) * 1956-02-08 1961-10-24 Urho L Wertanen Electrical impedance devices
US3066266A (en) * 1959-03-17 1962-11-27 Alan J Fisher Radio frequency transformer
US3195076A (en) * 1961-07-07 1965-07-13 Westinghouse Electric Corp Impedance matching balun employing a ferrite core
US3260977A (en) * 1964-07-02 1966-07-12 Westinghouse Electric Corp Electrical apparatus

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1827191A (en) * 1930-06-06 1931-10-13 Bell Telephone Labor Inc Shielded inductance
US2348325A (en) * 1941-04-26 1944-05-09 Rca Corp Electrical transformer
US3005965A (en) * 1956-02-08 1961-10-24 Urho L Wertanen Electrical impedance devices
GB867044A (en) * 1958-08-11 1961-05-03 Ass Elect Ind Improvements relating to pulse transformers
US3066266A (en) * 1959-03-17 1962-11-27 Alan J Fisher Radio frequency transformer
US3195076A (en) * 1961-07-07 1965-07-13 Westinghouse Electric Corp Impedance matching balun employing a ferrite core
US3260977A (en) * 1964-07-02 1966-07-12 Westinghouse Electric Corp Electrical apparatus

Cited By (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3675176A (en) * 1970-05-12 1972-07-04 Racal Mobilcal Ltd Electrical transformers
US3702453A (en) * 1971-07-19 1972-11-07 Atomic Energy Commission Temperature-compensated trimming windings for water-cooled magnet coils
FR2542527A1 (en) * 1983-03-09 1984-09-14 Commissariat Energie Atomique Fast pulse-amplifier
US4777466A (en) * 1985-04-25 1988-10-11 Senter For Industriforskning Connector arrangement for electrical circuits in underwater installations, and transformer particularly for use in such arrangement
US4806896A (en) * 1986-01-17 1989-02-21 Mitsubishi Denki Kabushiki Kaisha Electromagnetic shield for electromagnetic apparatus
US5130678A (en) * 1990-07-17 1992-07-14 Rockwell International Corporation Transmission line transformer with DC isolation
US5301096A (en) * 1991-09-27 1994-04-05 Electric Power Research Institute Submersible contactless power delivery system
US5341083A (en) * 1991-09-27 1994-08-23 Electric Power Research Institute, Inc. Contactless battery charging system
US5705971A (en) * 1993-05-14 1998-01-06 Allen-Bradley Company, Inc. Low leakage coaxial transformers
EP0932168A2 (en) * 1998-01-26 1999-07-28 ABB Daimler-Benz Transportation (Technology) GmbH Coaxial transformer
EP0932168A3 (en) * 1998-01-26 2000-05-31 ABB Daimler-Benz Transportation (Technology) GmbH Coaxial transformer
EP1075699A1 (en) * 1998-05-01 2001-02-14 Abb Ab A power current booster transformer
US7009486B1 (en) * 2003-09-18 2006-03-07 Keithley Instruments, Inc. Low noise power transformer
US20090002111A1 (en) * 2007-01-11 2009-01-01 William Lee Harrison Wideband planar transformer
US7821374B2 (en) * 2007-01-11 2010-10-26 Keyeye Communications Wideband planar transformer
US20100295646A1 (en) * 2007-01-11 2010-11-25 William Lee Harrison Manufacture and use of planar embedded magnetics as discrete components and in integrated connectors
US8203418B2 (en) 2007-01-11 2012-06-19 Planarmag, Inc. Manufacture and use of planar embedded magnetics as discrete components and in integrated connectors
GB2534233A (en) * 2015-01-16 2016-07-20 Elena Rybtchinskaia Isolating transmission line transformer
GB2536931A (en) * 2015-03-31 2016-10-05 E2V Tech (Uk) Ltd A transformer
GB2536931B (en) * 2015-03-31 2020-03-11 Teledyne E2V Uk Ltd A transformer
US10896779B2 (en) 2015-03-31 2021-01-19 Teledyne Uk Limited Triaxial cable transformer

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