PCaPAC2014 - List of Keywords (electron)

Paper	Title	Other Keywords	Page
WPO013	Status of the FLUTE Control System	controls, EPICS, Ethernet, linac	63
	S. Marsching, N. Hiller, V. Judin, A.-S. Müller, M.J. Nasse, R. Ruprecht, M. Schuh KIT, Karlsruhe, Germany
	The accelerator test facility FLUTE (Ferninfrarot, Linac- Und Test-Experiment) is being under construction nearby ANKA at the Karlsruhe Institute of Technology (KIT). FLUTE is a linac-based accelerator facility for generating coherent THz radiation. One of the goals of the FLUTE project is the development and fundamental examination of new concepts and technologies for the generation of intensive and ultra-broad-band THz pulses fed by femtosecond electron-bunches. In order to study the various mechanisms influencing the final THz pulses, data-acquisition and storage systems are required that allow for the correlation of beam parameters on a per-pulse basis. In parallel to the construction of the accelerator and the THz beam-line, a modern, EPICS-based control system is being developed. This control system combines well-established techniques (like S7 PLCs, Ethernet, and EPICS) with rather new components (like MicroTCA, Control System Studio, and NoSQL databases) in order to provide a robust, stable system, that meets the performance requirements. We present the design concept behind the FLUTE control system and report on the status of the commissioning process.
	Slides WPO013 [1.313 MB]

WPO038	A Modular Personnel Safety System for VELA based on Commercial Safety Network Controllers	network, operation, controls, laser	123
	M.D. Hancock, B.G. Martlew STFC/DL, Daresbury, Warrington, Cheshire, United Kingdom
	STFC Daresbury Laboratory has recently commissioned VELA (Versatile Electron Linear Accelerator), a high performance electron beam test facility. It will be used to deliver high quality, short pulse electron beams to industrial users to aid in the development of new products in the fields of health care, security, energy and waste processing and also to develop and test novel compact accelerator technologies. In the early stages of the design it was decided to use commercial Safety Network Controllers and I/O to implement the Personnel Safety System in place of the electro-mechanical relay-based system used on previous projects. This provides a high integrity, low cost solution while also allowing the design to be modular, programmable and easily expandable. This paper describes the design and realisation of the VELA Personnel Safety System and considers its future development. In addition, the application of the system to the protection of high-power laser systems and medical accelerators will also be discussed.

Paper

Title

Other Keywords

Page

WPO013

Status of the FLUTE Control System

controls, EPICS, Ethernet, linac

63

S. Marsching, N. Hiller, V. Judin, A.-S. Müller, M.J. Nasse, R. Ruprecht, M. Schuh
KIT, Karlsruhe, Germany

The accelerator test facility FLUTE (Ferninfrarot, Linac- Und Test-Experiment) is being under construction nearby ANKA at the Karlsruhe Institute of Technology (KIT). FLUTE is a linac-based accelerator facility for generating coherent THz radiation. One of the goals of the FLUTE project is the development and fundamental examination of new concepts and technologies for the generation of intensive and ultra-broad-band THz pulses fed by femtosecond electron-bunches. In order to study the various mechanisms influencing the final THz pulses, data-acquisition and storage systems are required that allow for the correlation of beam parameters on a per-pulse basis. In parallel to the construction of the accelerator and the THz beam-line, a modern, EPICS-based control system is being developed. This control system combines well-established techniques (like S7 PLCs, Ethernet, and EPICS) with rather new components (like MicroTCA, Control System Studio, and NoSQL databases) in order to provide a robust, stable system, that meets the performance requirements. We present the design concept behind the FLUTE control system and report on the status of the commissioning process.

Slides WPO013 [1.313 MB]

WPO038

A Modular Personnel Safety System for VELA based on Commercial Safety Network Controllers

network, operation, controls, laser

123

M.D. Hancock, B.G. Martlew
STFC/DL, Daresbury, Warrington, Cheshire, United Kingdom

STFC Daresbury Laboratory has recently commissioned VELA (Versatile Electron Linear Accelerator), a high performance electron beam test facility. It will be used to deliver high quality, short pulse electron beams to industrial users to aid in the development of new products in the fields of health care, security, energy and waste processing and also to develop and test novel compact accelerator technologies. In the early stages of the design it was decided to use commercial Safety Network Controllers and I/O to implement the Personnel Safety System in place of the electro-mechanical relay-based system used on previous projects. This provides a high integrity, low cost solution while also allowing the design to be modular, programmable and easily expandable. This paper describes the design and realisation of the VELA Personnel Safety System and considers its future development. In addition, the application of the system to the protection of high-power laser systems and medical accelerators will also be discussed.