Thomas Eriksson
ABB Ltd
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Featured researches published by Thomas Eriksson.
IEEE Transactions on Applied Superconductivity | 1999
Thomas Eriksson; Jakob Blomgren; Dag Winkler; T. Holst; Y.Q. Shen
A SQUID picovoltmeter working at 77 K has been constructed with a bandwidth of 37 kHz. The white noise of the picovoltmeter was 32 pV//spl radic/Hz with the input shorted. For an optimal source resistance of 0.8 /spl Omega/ the noise temperature was 46 K. The picovoltmeter was constructed from a multilayer high-T/sub c/ SQUID-magnetometer coupled to the signal source via a 10-turn copper coil. The mutual inductance between the coil and the SQUID washer was 0.7 nH. To reduce the noise contributions of the first-stage room temperature amplifier, additional positive feedback (APF) was used together with direct read-out electronics. As a demonstration, the current-voltage characteristics of another SQUID was measured with the picovoltmeter.
Physica C-superconductivity and Its Applications | 2002
Thomas Eriksson; Jakob Blomgren; Dag Winkler
Abstract In the design and development of high voltage insulation systems, partial discharge measurements are often used for system characterization and evaluation. One commonly used sensor for such measurements is the Rogowski sensor, which is a type of induction coil. Since the sensor itself has low resistance it produces very little voltage noise. Hence, the noise limit of the measurement is often set by the preamplifier. Recent development of SQUID picovoltmeters shows excellent noise performance, especially for sensors with low source impedances. We have evaluated the possibility to use the SQUID picovoltmeter as preamplifier for Rogowski type sensors. The designed voltmeter has a voltage noise of 110 pV/ Hz and a bandwidth of 250 kHz. Measurements of sensors with inductances between 0.5 and 40 μH have been performed.
IEEE Transactions on Applied Superconductivity | 2001
Jakob Blomgren; Thomas Eriksson; Dag Winkler
An HTS SQUID picovoltmeter was constructed, which in two different configurations gave a voltage noise of e/sub n/=3.2pV//spl radic/Hz and a current noise of i/sub n/=310 pA//spl radic/Hz, and a voltage noise of e/sub n/=75 pV//spl radic/Hz and a current noise of i/sub n/=10 pA//spl radic/Hz, respectively. The low frequency noise was reduced to below 1 Hz using bias current reversal. The SQUID is coupled to the input coil via an intermediate flip-chip flux transformer. Measurements were performed to determine the input coil to SQUID mutual inductance for different input coil configurations.
IEEE Transactions on Applied Superconductivity | 2001
Thomas Eriksson; Jakob Blomgren; Dag Winkler
In the design and development of high voltage insulation systems, partial discharge measurements are often used for system characterization and evaluation. The aim of this work was to investigate the SQUID sensor as an amplifier in a high voltage environment. An HTS SQUID amplifier has been developed and tested under laboratory conditions. Different SQUIDs and a number of different input configurations have been investigated. Preliminary data indicate that the system has a performance similar to a commercial system used as reference. However, calculations and simulations show that the new method has potential for further improvement.
Physica C-superconductivity and Its Applications | 2002
Jakob Blomgren; Thomas Eriksson; E.J. Tarte; Dag Winkler
Abstract We have measured the electrical and the white noise properties of a high-Tc SQUID at 65 K, using a room temperature low noise amplifier and a high-Tc SQUID-based voltage amplifier. Operating at 65 K, the voltage amplifier had a voltage noise of 50 pV/ Hz , a current noise of 15 pA/ Hz and a 3 dB bandwidth of 300 kHz. We have found that the measured white voltage noise exceeded the theoretically expected noise by a factor of 2.
Archive | 1996
Tord Bengtsson; Lars-Gunnar Dahlberg; Thomas Eriksson; Akbar Kheirmand; Mats Leijon; Henry Siberg; Dick Rudolfsson; Dag Winkler
Archive | 1996
Thomas Eriksson; Mats Leijon
Archive | 2010
Thomas Eriksson; Lars Bånghammar
Archive | 1998
Thomas Eriksson; Kenneth Johansson
Archive | 2009
Thomas Eriksson; Stefan Halen; Jonas Hedberg