Inicio  /  Instruments  /  Vol: 3 Par: 1 (2019)  /  Artículo
ARTÍCULO
TITULO

Transformer Coupling and Its Modelling for the Flux-Ramp Modulation of rf-SQUIDs

Paolo Carniti    
Lorenzo Cassina    
Marco Faverzani    
Elena Ferri    
Andrea Giachero    
Claudio Gotti    
Matteo Maino    
Angelo Nucciotti    
Gianluigi Pessina and Andrei Puiu    

Resumen

Microwave SQUID (Superconducting QUantum Interference Device) multiplexing is a suitable technique for reading a large number of detector channels, using only a few connecting lines. In the HOLMESexperiment, this is based on inductively coupled rf-SQUIDs fed by TES (Transition Edge Sensors). Operation of the whole rf-SQUID chain is achieved with a single transmission line, by means of the recently introduced flux-ramp modulation technique?a sawtooth signal which allows signal reconstruction while operating the rf-SQUIDs in an open loop condition. Due to the crucial role of the sawtooth signal, it is very important that it does not suffer from ground-loop disturbances and electromagnetic interference (EMI). Introducing a transformer between the sawtooth source and the SQUID is very effective in suppressing disturbances. The sawtooth signal has both slow and fast components, and the frequency can vary between a few kHz up to a MHz, depending on the TES signal and SQUID characteristics. A transformer able to handle such a broad range of conditions must have very stringent characteristics and needs to be custom designed. Our solution exploits standard commercial and inexpensive transformers for LAN networks, stacked in a user-selectable number, to better fit the bandwidth requirements. A model that allows handling of the low- and high-frequency operating range has been developed.

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Revista: Applied Sciences

 
Tung, W.-S. Wu, H.-H. Chiang, Y.-C.     Pág. 1852 - 1856