Your search keyword '"Smith, Ivor R."' showing total 14 results

1. A 1-MV magnetically insulated Tesla transformer

Author

Istenic, Marko, Novac, Bucur M., Luo, Jing, Kumar, Rajesh, and Smith, Ivor R.

Subjects

Electric transformers -- Electric properties, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

This paper describes the successful development of a 1-MV magnetically insulated Tesla transformer. Full details of the construction are provided, together with the basis of the design procedure. Preliminary results for the prototype transformer are presented and discussed, and future paper is outlined. Index Terms--High-voltage techniques, magnetic insulation, pulsed-power systems, transformers.

Published

2008

2. Use of the aluminum powder cascade technique to stabilize liner implosions

Author

Novac, Bucur M., Rankin, Douglas F., and Smith, Ivor R.

Subjects

Magnetic flux -- Measurement, Phase transformations (Statistical physics) -- Research, Magnetic fields -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

Electromagnetic flux compression requires high-quality liners, with copper being a much more effective material than the aluminum used in previous experiments at Loughborough for producing fields of 300 T. Unfortunately, similar small-size copper liners cannot be economically manufactured with sufficiently precise tolerances to prevent the development of liner instabilities during an implosion, leading to a much lower magnetic flux density than anticipated. The paper describes how the performance can however be dramatically improved by the use of an aluminum powder cascade, and presents results showing that the use of this technique has enabled flux densities up to 350 T to be generated using only a 70-kJ capacitor bank. Index Terms--Instabilities, liner implosions, phase transitions, ultrahigh magnetic fields.

Published

2006

3. A 10-GW pulsed power supply for HPM sources

Author

Novac, Bucur M., Istenic, Marko, Luo, Jing, Smith, Ivor R., Brown, John, Hubbard, Martin, Appelgren, Patrik, Elfsberg, Mattias, Hurtig, Tomas, Moller, Cecilia, Larsson, Anders, and Nyholm, Sten E.

Subjects

Microwave circuits -- Design and construction, Electric transformers -- Design and construction, Electric circuit analysis, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

A research activity involving the detailed consideration of novel high-voltage transformers for pulsed-power applications has recently begun at Loughborough University. Although the main goal is the demonstration of a compact and lightweight unit employing magnetic insulation under vacuum conditions, the initial stage of the work is directed toward the development of a conventional air-cored transformer as a main component in a compact power supply for high power microwave sources. In cooperation with the Swedish Defence Research Agency (FOI), the power supply has been tested with a microwave source of the vircator type. The power generator for the system uses a 70-kJ/25-kV capacitor bank and an exploding wire array to generate a 150-kV voltage pulse in the primary circuit of a transformer. A pressurized S[F.sub.6] spark gap in the secondary circuit sharpens the high-voltage output so that pulses approaching 500 kV and with a rise time well below 100 ns are generated on a 20-[ohm] high-power resistor, with the peak power in excess of 10 GW. Experimental results are presented from final testing of the system, where a reflex triode vircator replaces the 20-[ohm] resistor. Measurements of the microwave emission using free-field sensors are presented, and comments are made with the microwave emission from the same vircator when powered by a Marx generator at FOI. Index Terms--Compact pulsed-power systems, high-power microwaves (HPMs), high-voltage transformers (HVTs), opening switches (OSs).

Published

2006

4. A compact battery-powered half-megavolt transformer system for EMP generation

Author

Sarkar, Partha, Braidwood, Sean W., Smith, Ivor R., Novac, Bucur M., Miller, Richard A., and Craven, Richard M.

Subjects

Electromagnetic pulse -- Analysis, Radar circuits -- Design and construction, Circuit design -- Analysis, Circuit designer, Integrated circuit design, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

High-power electromagnetic pulses are of importance in a variety of applications such as transient radar and particle accelerators and when investigating the effect of strong radio-frequency impulses on electronic systems. With all these possibilities in mind, a compact and portable source has been developed by the Plasma and Pulsed Power Group, Loughborough University, U.K., in collaboration with the Defense Science and Technology Laboratory, U.K. The source is based on a pulsed resonant Tesla transformer that produces nanosecond rise-time pulses at voltages exceeding 0.5 MV. In addition to the Tesla transformer, the other major components include a pulse forming line, a high-voltage fast spark gap switch, and a half-wavelength dipole antenna. The pulsed radiated electric field measured at 10 m from the source has a peak amplitude of 12.4 kV/m. Index Terms--Electromagnetic pulse (EMP) generation, pulse forming line (PFL), spark gap switch, Tesla transformer.

Published

2006

5. An insulator-metallic phase transition cascade for improved electromagnetic flux-compression in [theta]-pinch geometry

Author

Novac, Bucur M., Smith, Ivor R., Rankin, Douglas F., and Hubbard, Martin

Subjects

Electromagnetism -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

During an initial phase of an ongoing research program at Loughborough University, ultrahigh magnetic fields of up to 300 T (3 MG) have been generated. These have been produced using only 63 kJ from a fast capacitor bank to implode an Aluminum liner in a [theta]-pinch geometry, and 14.7 kJ from a slow capacitor bank to provide an initial magnetic field. The paper analyzes various ways of improving both the [theta]-pinch magnetic flux-compression efficiency and its reproducibility. As a practical illustration, experimental evidence is presented to demonstrate the benefits obtained from the use of an insulator-metallic phase transition cascade made from powder aluminum. Index Terms--Electromagnetic implosions, magnetic flux-compression, phase-transition, shock waves.

Published

2004

6. 2-D modeling of electromagnetic flux-compression in [theta]-pinch geometry

Author

Novac, Bucur M., Smith, Ivor R., and Hubbard, Martin

Subjects

Electromagnetism -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

A major research program underway at Loughborough University involves the generation of ultrahigh magnetic fields up to 300 T (3 MG) by means of magnetic flux-compression. A high pulsed current is discharged into a single-turn driving coil surrounding a liner, with various aspects of the associated practical work being presented in a companion paper. This paper explains the two-dimensional filamentary modeling technique that b used to provide detailed prediction of the liner implosion, driving coil dynamics and magnetic field diffusion through all the metallic elements of the arrangement. The main typical results from numerical experiments are presented and experimental data are compared with theoretical predictions. Index Terms--Electromagnetic implosions, magnetic flux-compression, numerical analysis.

Published

2004

7. Accelerating conductors by electromagnetic action through metallic shields

Author

Novac, Bucur M., Smith, Ivor R., Jarvis, Paul E., and Abbott, Carl J.

Subjects

Induction, Electromagnetic -- Usage, Fasteners -- Research, Fasteners -- Design and construction, Business, Electronics, Electronics and electrical industries

Abstract

This paper describes a novel technique for producing an electromagnetic force to accelerate a conducting projectile situated on the remote side of a metallic shield, for use in novel electromagnetic fasteners. The theoretical background for the technique is explained and is supported by measurements of the velocity achieved by the projectile in a prototype unit. The effect of the initial separation between the drive coil and the projectile is investigated, and it is shown that the shield material has little influence on the projectile dynamics. Index Terms--Aircraft maintenance, diffusion processes, electromagnetic induction, magnetic shielding.

Published

2003

8. A powerful magnetic stimulator for medical applications

Author

Novac, Bucur M., Smith, Ivor R., Young, Antony J., Miller, Ronald A., and Lynn, Bruce

Subjects

Electric fields -- Usage, Magnetic fields -- Usage, Therapeutics, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

This paper describes the development of a prototype high-energy supply system for producing high-intensity electric and magnetic field impulses for use in medical applications. After presenting the technical requirements and the main design features, the paper focuses on the numerical modeling of the double-coil arrangement that produces the impulses. Predicted time variations of both the circuit currents and the spatial and temporal variations of the electric and magnetic field distributions are compared with full-scale experimental results from the prototype system. Methods of increasing the field intensities are also suggested and results from an optimized design are presented. These indicate an ability to stimulate physical structures such as the renal pacemaker, resulting in a ureteric peristalsis wave. Recent experimental findings are presented from what is probably the most powerful magnetic stimulator so far built, and the practical applications of the work are discussed. Index Terms--Electric field effects, magnetic field effects, medical treatment, pulse power systems.

Published

2002

9. Electrooptic measurement of 500-kV pulsed voltages

Author

Shah, Rishi D., Cliffe, Robert J., Smith, Ivor R., Novac, Bucur M., and Senior, Peter

Subjects

Voltage -- Measurement, Optoelectronics, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

This paper describes a voltage probe in which the electrooptic Pockels effect is used in the measurement of ultrafast 500-kV pulses. Electrical isolation is provided between the high-voltage and the measurement circuits, and the probe is suitable for use in many applications where more conventional techniques are inapplicable. A special-purpose capacitive voltage divider attenuates the 500 kV to a level acceptable by the crystal of a Pockels Cell. The attenuated voltage then modulates light from a laser system passing through the crystal, with the emerging signal being converted into electrical form and fed to a digital storage oscilloscope to provide a very accurate recording proportional to the divider input voltage. Experimental results confirm both the very fast response of the probe and its high-voltage capability. Index Terms--Optoelectronics, Pockels effect, pulsed high-voltage measurements.

Published

2002

10. Loughborough 2-D simulation of MURI flux-compression generators

Author

Novac, Bucur M. and Smith, Ivor R.

Subjects

Power systems (Machinery) -- Models, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

A number of single-pitch minihelical flux-compression generators have been designed, manufactured and tested by Texas Tech University and the University of Missouri-Rolla, as part of a Multidisciplinary University Research Initiative (MURI). Several other Institutions have collaborated in the program, by providing theoretical predictions of the output performance of a generator without having access to the experimental data or making any consequent parameter changes in their numerical codes. As part of this activity, the Plasma and Pulsed Power Group at Loughborough University, Leicestershire, U.K., has used its extensively documented and well-proven two-dimensional (2-D) filamentary modeling approach in conducting detailed theoretical considerations of the behavior of one of the generators. A number of fundamental features of the simulation are described in the paper, such as the inclusion of phase transition in the conductors and the effect of the very high electric field intensity in the contact point region. The ability of the code to provide accurate predictions of the actual generator performance for very-high-input currents is provided by the good agreement achieved with experimental results presented by TTU. Index Terms--Explosive generators, magnetic flux-compression, numerical analysis.

Published

2002

11. Fast calculation of harmonic torque pulsations in a VSI/induction motor drive

Author

Abdulrahman, Shakir M., Kettleborough, J. Gordon, and Smith, Ivor R.

Subjects

Torque -- Analysis, Electric motors -- Vibration, Rotational motion (Rigid dynamics) -- Research, Business, Computers, Electronics, Electronics and electrical industries

Abstract

This paper describes a frequency-domain model for the accurate and efficient prediction of harmonic torque pulsations in 3-phase VSI/induction motor drives, which enables rapid considerations to be given to their potentially harmful effects in producing uneven shaft rotation. A detailed analysis is presented for both quasi-square wave (QSW) and optimal PWM modes of switching operation, with the latter technique designed to improve the low-speed drive performance by eliminating low-order harmonic components. A comparison is made with practical results obtained from an experimental 0.56 kW drive and from a comprehensive time-domain model using a numerical solution of the machine equations.

Published

1993

12. Consideration of an Autonomous Compact Source for High-Power Microwave Applications

Author

Novac, Bucur M. and Smith, Ivor R.

Subjects

Pulse generators -- Design and construction, Electric transformers -- Design and construction, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

The use of explosively driven flux compressors as light and compact autonomous single-shot power supplies for high-power microwave applications requires special attention to be paid to the conditioning and matching elements of the overall system, due to the fast-rising high-voltage output step that is needed. This paper addresses various schemes by which this may be achieved and, based on proven techniques, a practical approach using a high-voltage transformer is described in detail. In addition, it is shown that future developments in long conduction plasma opening switches and fast-pulse compressors will open the way to much more compact and higher performance systems, with characteristics that could also match the requirements of high-power lasers and ion-beam generators. Index Terms--Flux compression, pulsed power supply.

Published

2000

13. Accurate Modeling of the Proximity Effect in Helical Flux-Compression Generators

Author

Novac, Bucur M., Smith, Ivor R., and Enache, Mugurel C.

Subjects

Magnetic flux -- Research, Electric coils -- Usage, Electric generators -- Design and construction, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

Two-dimensional (2-D) modeling techniques using a filamentary-mesh approach are very well established for use in helical flux-compression generator design and provide results that have been verified experimentally. However, none of the published numerical codes appear to describe adequately certain details involved in calculating the resistance of the helical stator coil. In particular, the skin and proximity effects that arise from diffusion of the magnetic field into the conductor are clearly three-dimensional (3-D) phenomena, and their influence is represented approximately by either existing formulae or a one-dimensional (1-D) description. In most published codes, the formulae that are used provide merely a steady-state approximation to the proximity effect. The present paper outlines a new detailed approach that has been developed for use with an existing 2-D model which forms the first element of an overall more detailed modeling code. It is shown that the scale of the proximity effects in a helical coil carrying a pulsed current can be many times greater than those predicted by the conventional formulae. Index Terms--Coil modeling, flux compression.

Published

2000

14. A Novel Flux Compression/Dynamic Transformer Technique For High-Voltage Pulse Generation

Author

Novac, Bucur M., Smith, Ivor R., Goh, Swee-Eng, Enache, Mugurel C., Gregory, Keith, Senior, Peter, and Stewardson, Rod H.

Subjects

Electric transformers -- Research, Magnetic flux -- Research, Pulse generators -- Research, Business, Chemistry, Electronics, Electronics and electrical industries

Abstract

This paper presents the basic concepts that underlie a fundamental research activity initiated recently at Loughborough University, U.K. A novel technique is described that enables the so-termed shock-wave-driven flux compression process to be performed inside a laboratory, without the need for any high-explosive charge, and results from preliminary proof-of-principle experiments are analyzed. Details of the necessary ancillary equipment, such as fast (T A / s) generators, electric guns, high-voltage helical transformers, and special transducers are presented, together with a study of the dielectric/metallic phase transition in aluminum powder. The paper concludes by showing how the different concepts can be combined, leading to a high-voltage pulse generator with a fast-rising output. Index Terms--High voltage transformer, magnetic flux-compression.

Published

2000