Lattice changes in the PEP-II high energy ring have made the concept of driving four cavities with a single klystron an attractive option. This paper examines the topology from a RF feedback point of view. Sources of error are identified and their magnitudes are estimated. The effect on the performance of the longitudinal impedance reducing feedback loops is calculated using control theory and Mathematics. 1
A CW Klystron operating at 476 MHz has been developed jointly by SLAC and Communications and Power I...
The LHC RF consists of eight superconducting single-cell 400.8 MHz cavities per beam, with each cavi...
The purpose of this thesis is to describe the design of electronic circuitry for accurately locking ...
The RF system of the PEP-II collider uses two fast feedback loops around each klystron and set of ca...
A model of the RF feedback system for PEP-II has been developed to provide time-domain simulation an...
The paper presents an overview of the design of the RF system for the PEP-II B Factory. An RF statio...
The direct and comb loop feedback around the RF cavities in PEP-II is critical in reducing longitudi...
A model of the beam and RF system for PEP-II has been developed to allow both time-domain simulation...
An RF feedback system using a parallel comb-filter has been developed in order to cope with longitud...
The Pedersen analysis of the low-level rf feedback system assumes that all bunches oscillate in phas...
Feedback systems installed for control of coupled-bunch longitudinal instabilities in PEP-II collide...
Heavy beam loading in PEP-II has driven the design of the low level RF system to contain feedback lo...
Several high-current accelerators use feedback techniques in the accelerating RF systems to control ...
The direct and comb loop feedback around the RF cavities in PEP-II is critical in reducing longitudi...
1% amplitude and l{degree} phase. The feedback control system requires a phase-stable RF reference s...
A CW Klystron operating at 476 MHz has been developed jointly by SLAC and Communications and Power I...
The LHC RF consists of eight superconducting single-cell 400.8 MHz cavities per beam, with each cavi...
The purpose of this thesis is to describe the design of electronic circuitry for accurately locking ...
The RF system of the PEP-II collider uses two fast feedback loops around each klystron and set of ca...
A model of the RF feedback system for PEP-II has been developed to provide time-domain simulation an...
The paper presents an overview of the design of the RF system for the PEP-II B Factory. An RF statio...
The direct and comb loop feedback around the RF cavities in PEP-II is critical in reducing longitudi...
A model of the beam and RF system for PEP-II has been developed to allow both time-domain simulation...
An RF feedback system using a parallel comb-filter has been developed in order to cope with longitud...
The Pedersen analysis of the low-level rf feedback system assumes that all bunches oscillate in phas...
Feedback systems installed for control of coupled-bunch longitudinal instabilities in PEP-II collide...
Heavy beam loading in PEP-II has driven the design of the low level RF system to contain feedback lo...
Several high-current accelerators use feedback techniques in the accelerating RF systems to control ...
The direct and comb loop feedback around the RF cavities in PEP-II is critical in reducing longitudi...
1% amplitude and l{degree} phase. The feedback control system requires a phase-stable RF reference s...
A CW Klystron operating at 476 MHz has been developed jointly by SLAC and Communications and Power I...
The LHC RF consists of eight superconducting single-cell 400.8 MHz cavities per beam, with each cavi...
The purpose of this thesis is to describe the design of electronic circuitry for accurately locking ...
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