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Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system

The transverse coupling impedance has been measured in the ISR in the vertical plane and found to be mostly inductive with a phase angle of about 50 degrees for the lowest mode. The resistive part of this impedance is compensated below 1 MHz by a transverse feedback system. However, by applying to t...

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Autor principal: Peschardt, E
Lenguaje:eng
Publicado: 1980
Materias:
Acceso en línea:http://cds.cern.ch/record/879238
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author Peschardt, E
author_facet Peschardt, E
author_sort Peschardt, E
collection CERN
description The transverse coupling impedance has been measured in the ISR in the vertical plane and found to be mostly inductive with a phase angle of about 50 degrees for the lowest mode. The resistive part of this impedance is compensated below 1 MHz by a transverse feedback system. However, by applying to the kicker the signals from two pick-ups giving respectively a resistive and an inductive compensation, the phase angle of the feedback can be varied. The signal levels from the two pick-ups are individually adjusted with the correct settings obtained from the information given by the beam transfer function. In this way the stability margin is increased without changing the electronic gain of the feedback. A special set-up has been developed for the measurement of beam transfer functions at low frequencies (10 kHz to 1 MHz). (0 refs).
id cern-879238
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1980
record_format invenio
spelling cern-8792382019-09-30T06:29:59Zhttp://cds.cern.ch/record/879238engPeschardt, ECompensation of the resistive and reactive transverse wall impedance in the ISR with a feedback systemNuclear PhysicsThe transverse coupling impedance has been measured in the ISR in the vertical plane and found to be mostly inductive with a phase angle of about 50 degrees for the lowest mode. The resistive part of this impedance is compensated below 1 MHz by a transverse feedback system. However, by applying to the kicker the signals from two pick-ups giving respectively a resistive and an inductive compensation, the phase angle of the feedback can be varied. The signal levels from the two pick-ups are individually adjusted with the correct settings obtained from the information given by the beam transfer function. In this way the stability margin is increased without changing the electronic gain of the feedback. A special set-up has been developed for the measurement of beam transfer functions at low frequencies (10 kHz to 1 MHz). (0 refs).oai:cds.cern.ch:8792381980
spellingShingle Nuclear Physics
Peschardt, E
Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system
title Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system
title_full Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system
title_fullStr Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system
title_full_unstemmed Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system
title_short Compensation of the resistive and reactive transverse wall impedance in the ISR with a feedback system
title_sort compensation of the resistive and reactive transverse wall impedance in the isr with a feedback system
topic Nuclear Physics
url http://cds.cern.ch/record/879238
work_keys_str_mv AT peschardte compensationoftheresistiveandreactivetransversewallimpedanceintheisrwithafeedbacksystem