Ultra-Stable Fiber-Optic Reference Distribution for SwissFEL C-Band Linacs Based on S-Band Radio-Over-Fiber Links and Frequency Doubler / Power Amplifiers

Hunziker, Stephan; Arsov, Vladimir; Buechi, Florian; Dach, Miroslaw; Heiniger, Markus; Kaiser, Maik; Kramert, Reinhold; Romann, Albert; Schlott, Volker

doi:10.18429/JACoW-IBIC2017-TUPCC17

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RIS citation export for TUPCC17: Ultra-Stable Fiber-Optic Reference Distribution for SwissFEL C-Band Linacs Based on S-Band Radio-Over-Fiber Links and Frequency Doubler / Power Amplifiers

TY - CONF
AU - Hunziker, S.
AU - Arsov, V.R.
AU - Buechi, F.
AU - Dach, M.
AU - Heiniger, M.
AU - Kaiser, M.G.
AU - Kramert, R.
AU - Romann, A.
AU - Schlott, V.
ED - Liu, Zhengzheng
ED - Lidia, Steven
ED - McCausey, Amy
ED - Schaa, Volker RW
TI - Ultra-Stable Fiber-Optic Reference Distribution for SwissFEL C-Band Linacs Based on S-Band Radio-Over-Fiber Links and Frequency Doubler / Power Amplifiers
J2 - Proc. of IBIC2017, Grand Rapids, MI, USA, 20-24 August 2017
C1 - Grand Rapids, MI, USA
T2 - International Beam Instrumentation Conference
T3 - 6
LA - english
AB - The reference distribution for the SwissFEL accelerator is based on ultra-stable Libera Sync 3 fiber-optic links operating at 3 GHz with <2.4fs added timing jitter. While s-band injector RF stations are directly supplied with these actively stabilized reference signals at 2.9988GHz, the same 3 GHz optical links are used to transmit reference signals at 2.856GHz (half c-band frequency) to the c-band LINACs, combined with a frequency doubler-amplifier at the link end. A novel zero AM/PM-conversion frequency-doubler and an amplitude-/phase-controlled power amplifier have been implemented in a compact 1HU 19inch unit. Key design concepts and measurement results will be presented. It will be shown that this inexpensive doubler-amplifier system adds only insignificant jitter and drift to the transmitted reference signals. As the same actively stabilized 3GHz links can be used for s- and c- band RF stations, development of a more expensive 6GHz fiber-optic link could be avoided. A higher quantity of the same link type can thus be manufactured and the number of spares is reduced as only one link type is utilized for the SwissFEL injector and LINAC RF reference signals.
PB - JACoW
CP - Geneva, Switzerland
SP - 189
EP - 192
KW - ion
KW - FEL
KW - detector
KW - timing
KW - controls
DA - 2018/03
PY - 2018
SN - 978-3-95450-192-2
DO - 10.18429/JACoW-IBIC2017-TUPCC17
UR - http://jacow.org/ibic2017/papers/tupcc17.pdf
ER -