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Bergoz IPCT DC/AC Current Transducer |
| Bergoz FCT Current Transformer |
| Bergoz NPCT |
High sensitivity for low current. Differential and net current measurements of multiple conductors. Large internal diameter enables high voltage isolation. |
| The Fast Current Transformer (FCT) is a wideband AC transformer with a rise time down to 175ps and a bandwidth up to 2GHz. |
| The New Parametric Current Transformer (NPCT) is a zero-flux DC current transformer. |
•Peak Current: ±10mA .. ±5000mA •Resolution: 10uA •Bandwidth: DC – 4.2kHz |
| •Bandwidth up to 1.75GHz 200-ps risetime •Droop down to 0.1%/μs down to 160 Hz lower cutoff freqency •Extra-high sensitivity up to 5 V/A |
| •Full scale range from ±20mA to ±20A controlled by TTL levels •5 μA/sqrt(Hz) resolution in every range •1 μA/sqrt(Hz) or lower resolution on option |
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Bergoz CWCT |
| Bergoz ACCT |
| Bergoz ICT, Turbo-ICT, BCM |
The CWCT is a current transformer with strict limits on lower and upper cut-off frequencies, tailored to the beam RF. |
| The ACCT is non-interceptive current transformer. |
| The Integrating Current Transformer (ICT) is a capacitively shorted transformer and a fast read out transformer in a common magnetic circuit designed to measure the charge in a very short pulse with high accuracy. |
•Beam repetition frequency 60~500 MHz •Average current with 1 μA resolution •Fast beam loss interlock 1 μs •Linearity error <1.5% •Beam loss resolution <1 % |
| •Output current range range from ±10mA to ±2A full scale. •Frequency response from 5Hz to 350kHz •DC current up to 1A does not saturate the sensor •Radiation hard sensors available. |
| •Integrates a very fast pulse with rise time in the order of picoseconds with no significant loss |
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Bergoz MX-BPM / LR-BPM |
| Bergoz S-BPM |
| Bergoz VWM |
The Bergoz Multiplexed Beam Position Monitor (MX-BPM) is an electronics module… |
| The S-band / L-band Beam Position Monitor (S–BPM) is an electronics module for fast analog processing of beam pickups signals. |
| The VWM is based on the wire resonant frequency dependence on its tension, itself dependent on its temperature |
•On-board microstrip filters that elminate the need for costly tubular filters •GaAs switches to provide superior button to button isolation and low insertion loss •On-board systhesized local oscillator |
| •Non-interceptive beam position measurement. •Beam charge range > 1000. |
| •Transverse profile and position monitor •Fixed multi-wire sensor or moving sensor •For beams: Photon from infrared to keV, Electron, proton from keV to GeV and Neutrons |