PULse POwer for Kicker Systems (PULPOKS) workshop 2018

12 Mar 2018, 08:30 → 14 Mar 2018, 11:30 Europe/Zurich

6/2-004 (CERN)

Overview

In March 2018 a Pulse Power for Kicker Systems workshop is to be held at CERN, and will address several topics associated with pulse power for kickers, as well as providing a forum for discussion between experts in this specialised domain.

The Pulse Power for Kicker Systems workshop 2018 is supported by ARIES (the successor of EuCARD2) and FCC.

Booking form Pulsed Power Workshop.docx

Group photo

PULPOKS-WS_poster-v4.pdf

Monday 12 March

Welcome

1 Welcome

Speaker: Brennan Goddard (CERN)

PULPOKS_Welcome.pdf

PULPOKS_Welcome.pptx

2 Overview of the workshop

Speaker: Mike Barnes (CERN)

CERN_Overview-Barnes.pdf

CERN_Overview-Barnes.pptx

Introduction

3 Volunteers: up to 3-4 min (1 slide/minute) each to introduce themselves & their labs, and interesting projects

10:00 Coffee break

Session 1 : Valve switches

Convener: Laurent Sylvain Ducimetiere (CERN)

4 Electrostatic chopper for Super MuSR muon beamline

"Electrostatic chopper for Super MuSR muon beamline"

The upgrade to the MuSR muon beamline at ISIS will include an electrostatic chopper, designed to improve the timing resolution of muon experiments. The chopper is required to switch from +80 kV (±40 kV on each plate) to 80 kV in 10 ns, sweeping the beam across an aperture at a precise time. A feasibility study has been undertaken and a design based on thyratrons is being developed. This talk will present our conceptual design, some of the problems we expect to face and potential solutions. Beneficial discussion around this topic will include experiences of designing and operating similar systems at other facilities.

Speaker: Jonny Ranner (STFC)

Electrostatic chopper for Super MuSR muon beamline.pdf

Electrostatic chopper for Super MuSR muon beamline.pptx

5 Pulsing Kickers by Thyratrons at Elettra (1990...2018)performance during operations of ELLETRA

Speaker: Piergiorgio Tosolini (Elettra Sincrotrone Trieste)

PULPOKS2018Elettra.pdf

PULPOKS2018Elettra.pptx

6 Statistical Life-Time Analysis of Thyratrons in CERN Kicker Systems

"Statistical Life-Time Analysis of Thyratrons in CERN Kicker Systems"

CERN has a long experience working with thyratrons in kicker systems.
A large variety of thyratrons from E2V are in use.
After a brief reminder about thyratron devices, the talk will give a summary of the tubes used in CERN kicker systems and their performance in terms of lifetime and reliability.

Speaker: Luc Sermeus (CERN)

PULPOKS_12March2018.pdf

PULPOKS_12March2018.pptx

12:00 Lunch

Session 2 : HV cables, connectors and feedthroughs

Convener: Jonny Ranner (STFC)

7 Experience with HV cables and connectors

"Cables"

High voltage cables and wires of many types are needed in any high voltage system. There is sometimes a choice in construction type for pulse applications, especially with fast rise or fall time. Wires and cables used for DC high voltage do not typically perform well when long lifetimes, > 10^8 pulses, are required. An overview cable construction types, issues with pulse shape, and issues with high voltage will be presented. Two examples will be presented, one using a commercial DC connector and cable for several µs rise time pulses at 30 kV and one of a semi custom cable connector with a semi custom cable with rise time of 15 ns for kicker use at 60 kV. Experience in the USA with procurement of pulse forming cable will also be presented.

Speaker: Christopher Jensen

CERNCables-Fermi-V2.pdf

CERNCables-Fermi-V2.pptx

8 Overview of HV Cables and Connectors, Cable Procurement and Future Work

Speaker: Thomas Kramer (CERN)

PULPOKS_HV_Cables_v2.pdf

PULPOKS_HV_Cables_v2.pptx

Session 3 : Triggering

Convener: Piergiorgio Tosolini (Elettra Sincrotrone Trieste)

9 Light Triggering of Thyristors

“Light Triggering of Thyristors”

Appropriate illumination of thyristor structure with a laser beam can lead to commutation characteristics improvement. One electron-hole pair is photo-generated within a few femtoseconds, silicon, an indirect band gap photoconductive material, exhibits large absorption depths for 1 μm photons wavelength. The controlling source photon energy needs to be greater than the photoconductor bandgap energy in order to “pump” the electrons into conduction band. Small closure time, improved maximal di/dt ratings and controlling source electrical insulation are the main advantages of this method.
The presentation will discuss the basics of thyristor light activation, motivations for development and tests demonstrations done on market available SCR devices (Silicon Controlled Rectifier).

Speaker: Janusz Pawel Rodziewicz (CERN)

4-3_PULPOKS_Light_Triggering.pdf

4-3_PULPOKS_Light_Triggering.pptx

PULPOKS_Light_Triggering.pdf

PULPOKS_Light_Triggering.pptx

15:00 Coffee break

Session 4 : Pulsed measurements and online monitoring and analysis

Convener: Etienne Carlier (CERN)

10 Internal Post-Operation Check (IPOC) System for Kicker Magnet Current Waveform Surveillance

Speaker: Nicolas Magnin (CERN)

IPOC - PULPOKS Workshop 12.03.18.pdf

IPOC - PULPOKS Workshop 12.03.18.pptx

11 Pulsed measurements and online monitoring and analysis

"Measurements and diagnostic of kickers pulses through ADC systems"

ALBA is a 3rd generation synchrotron light source operating for users since 2012. Since 2014 the storage ring is operated in top-up mode with injections every 20min. The injection into the storage ring is performed using a septum and a closed bump created by 4 kickers. The kickers must have identical, shape, amplitude and be perfectly synchronized to avoid perturbations on the stored beam that will affect the brightness of the photon beam. To measure the kickers pulses and to able to control the differences online we have recently installed a system based on analog-to-digital converters cards (ADCs) with a large sampling rate and good resolution. The presentation will summarize the installation and programming of the ADCs as well as its integration into the accelerator control system. Measurements will be presented that show the resolution achieved as well as the correlation of the acquired data with other machine parameters.

Speaker: Nuria Ayala (ALBA-CELLS synchrotron)

PULPOKSslides_final.pdf

PULPOKSslides_final.pptx

12 Pulse Current Monitoring for Fast Pulsed Magnets at BESSY II and MLS Light Sources

“Pulse Current Monitoring for Fast Pulsed Magnets at BESSY II and MLS light sources”

The BESSY II and MLS storage rings are 3rd generation light sources. While the first one is usually operated in the top-up-injection mode, where injection efficiencies above 90% are required, the second one requires every 6 hours a dedicated injection procedure to refill for user operations.
To support the commissioning and operation of the both storage rings, modular pulse current monitoring systems have been developed. These are based on National Instruments PXI technology, and programmed with LabVIEW. The so retrieved data is processed, and then transferred by the help of an in-house made ‘CA-Lab’ client software into the EPICS based machine control system. The systems are retained in continuous 24/7 operation since they were introduced about 5 years ago.
The measurement of pulse currents on all pulsed deflection magnets is essential for the stable and uninterrupted operation of the accelerators. Strategies to unveil unwanted operational conditions of the pulsed elements, e.g. instabilities or misfiring, are also discussed.

Speaker: Olaf Dressler (Helmholtz-Zentrum Berlin)

Pulsed_Currents_Monitoring_Systems_Dressler.pdf

Pulsed_Currents_Monitoring_Systems_Dressler.ppsx

13 High stability resonant kicker system for Swiss Free Electron Laser (SwissFEL) at Paul Scherrer Institute

"High stability resonant kicker system for Swiss Free Electron Laser (SwissFEL) at Paul Scherrer Institute"

To increase SwissFEL efficiency, a double bunch operation is planned in order to serve simultaneously two experimental stations at the full linac repetition rate. The kicker system has to separate two electron bunches that are 28 ns apart and send them to two separate beamlines. Since the stability of the electron beam is crucial for the performance of the free electron laser a novel concept of high stability resonant kicker based bunches separation was adopted. Sub-part-per-million pulse-to-pulse kickers’ amplitude stability was measured using balancing method.

Speaker: Dr Martin Paraliev (Paul Scherrer Institute)

2018_03_12_RKickerMeas_PULPOKS_CERN.pdf

2018_03_12_RKickerMeas_PULPOKS_CERN.pptx

19:30 Dinner

Tuesday 13 March

Session 5 : Solid state switches and modulators

Convener: Mike Barnes (CERN)

14 Superfast Thyristor-Based Switches Operating in Impact-Ionization Wave Mode

"Thyristor-Based Switches Operating in Impact-Ionization Wave Mode for Pulsed Power Applications"

Thyristors of tablet design with diameters of silicon wafers of 40 to 56 mm and an operating voltage of 2 to
2.4 kV DC were triggered by an external overvoltage pulse applied across the thyristor main electrodes. In
experiments a voltage rise rate across the thyristor was changed from 1 to 6 kV/ns. Under such conditions
the thyristor closing process occurred due to initiation and propagation of a fast ionization front across the
semiconductor structure, which fills the structure with dense electron-hole plasma within 200 to 400 ps. The
thyristor based switches contained 2 to 9 series connected thyristors and operated in this triggering mode in
different discharge circuits. Operating voltage was 5 to 20 kV, capacitance of discharge capacitors was 2 μF
to 1.2 mF, and stored energy was 0.4 to 15 kJ.The experimental results obtained covered the following range
of discharge parameters: discharge current amplitude of 10 to 200 kA, current rise rate of 15 to 130 kA/μs,
current rise time (0.1-0.9 level) of 0.4 to 5 μs, pulse duration (FWHM) of 1 to 20 μs, and switching efficiency
of 0.85 to 0.97. Effect of the voltage rise rate at the triggering stage as well as temperature of the silicon
wafer on the thyristors main switching characteristics will be shown. Results of the thyristors testing in pulse
repetition mode will be given. The experimental circuitry, tested switches design, and results obtained will be
discussed.

Speaker: Anton Gusev (Institute of Electrophysics)

Gusev_PULPOKS_2018.pdf

Gusev_PULPOKS_2018.pptx

15 Experience in rad hard tests of LBDS

"Experience in rad hard tests of LBDS"

LHC beam dumping system (LBDS) employs altogether 800 HV GTO like thyristors and 480 HV triggering IGBTs. It delivers up to 1 million amperes to 30 extraction and 20 dilution magnets in order to safely deposit both 7 TeV beams on their respective dump blocks. Because of crucial importance of reliable operation of LBDS for LHC safety, various failure mode were investigated, one of them being Single Event Burnout (SEB) of HV semiconductors used. In house developed method for non-destructive measurement of SEB cross-section was used for measurement of this parameter for all HV semiconductors used and mitigations were applied where necessary. Based on these measurements the probability of SEB related failure rate of LBDS was evaluated.

Speaker: Viliam Senaj (CERN)

LHC beam dumping system and its radiation hardness.pdf

LHC beam dumping system and its radiation hardness.pptx

16 Experience of Solid-state modulators for HV kickers and septa at SOLEIL

"Experience of Solid-state modulators for HV kickers and septa at SOLEIL"

The pulsed systems for beam injection & extraction at SOLEIL only use solid-state switches in the pulsers. During the technical design of the machine, this had been a strong requirement in order to get excellent availability and reliability of the equipment themselves but also to obtain excellent Top-Up performance, particularly for the 4 storage ring kicker systems. The presentation will go over the design and performance we have obtained for over 10 years of operation at SOLEIL.

Speaker: Patrick Alexandre (Synchrotron SOLEIL)

SOLEIL_SolidState_Pulsers_Vdef.pdf

SOLEIL_SolidState_Pulsers_Vdef.pptx

17 Marx generators for kickers

Speaker: Luis Manuel Dos Santos Redondo (ISEL Instituto Superior de Engenharia (PT))

Session 5_Marx generators for kickers.pdf

10:10 Coffee break

18 Inductive Adders for CLIC DR Kickers and FCC Injection Kicker Systems

Speakers: David Woog (CERN), Janne Holma (CELLS (ES))

Holma_PULPOKS_2018_v2_12_3_18.pdf

Holma_PULPOKS_2018_v2_12_3_18.pptx

Woog_PULPOKS_Inductive_Adder.pdf

Woog_PULPOKS_Inductive_Adder.pptx

19 The Ultra-Fast Kicker Strip-line with a FID Pulse Generator + Prototype for the New EBS Kicker Magnet, using Solid-state Switches

Speaker: Marc Dubrulle (ESRF)

PULPOKS_ESRF.pdf

PULPOKS_ESRF.pptx

Session 6 : Modelling software and simulation

Convener: Martin Paraliev (Paul Scherrer Institute)

20 CST simulations of speed limitations of inductive adder topology

"CST simulations of speed limitations of inductive adder topology"
C.Gough, S.Dordevic

Using time domain simulations, the progression of E and H fields inside an IVA (Inductive Voltage Adder) can
be visualised in 3D. The pulse generator sources are idealised voltage sources with minimum series impedance.
A rise time of 4ns is typically used. Faster rise times lead to multiple resonant modes in the structure; these
modes are sometimes asymmetric, and these modes make interpretation difficult. Many lengths and geometries of
an IVA are tried to find an optimum for speed. For practical application, the design of fast switches with
minimial series impedance is dominating the problem, not the IVA itself.

Speakers: Christopher Gough (Paul Scherrer Institut), Martin Paraliev (Paul Scherrer Institute), Saldana Dordevic (Paul Scherrer Institut)

CST Simulation of Speed Limitation of Inductive Adder Technology V1.0.pdf

CST Simulation of Speed Limitation of Inductive Adder Technology V1.0.pptx

11:55 Lunch

21 PSpice and Opera-2d modelling: a very brief review

This presentation briefly reviews using PSpice and Opera-2d for modelling frequency dependent resistance and inductance, such as skin effect and proximity effect: the PSpice equivalent circuit can be used in both frequency- and time-domain PSpice simulations. In addition the presentation briefly reviews modelling of a multi-gap thyratron for time-domain simulation of turn-on: this allows the modelling of pre-pulse displacement current.

Speakers: Laurent Sylvain Ducimetiere (CERN), Luc Sermeus (CERN), Mike Barnes (CERN)

Frequency_Dependent_Parameters.pdf

Frequency_Dependent_Parameters.pptx

Session 7 : Kicker Systems and Magnets Materials

Convener: Montse Pont (CELLS-ALBA)

22 NLK designed by Soleil and MAX-IV and recently installed at MAX-IV

"The Multipole Injection Kicker"

Transparent Top-Up injection in the next generation of storage rings (DLSRs), such as MAX-IV 3 GeV ring, is very challenging as dynamic apertures & available room shrink very quickly in the design of the lattices! One solution is to use a Non Linear Kicker to kick in the injected beam while not affecting the stored beam, using the non-linear behavior of the magnetic field. MAX-IV and SOLEIL have been collaborating for more than six years on the design, manufacture and installation of such pulsed magnet system in their storage rings. The presentation will go over some main challenges of the project from the initial specifications to the first measurements with beam.

Speaker: Patrick Alexandre (Synchrotron SOLEIL)

MIK_PULPOKS_Pub.pdf

MIK_PULPOKS_Pub.pptx

23 FAIR SIS-100 Kicker Systems

Speaker: Sebastian Heberer (GSI)

PULPOKS SIS100 Kicker.pdf

PULPOKS SIS100 Kicker.pptx

24 Magnetic materials

"Magnetic Materials"

Magnetic materials are used in many different pulse applications, from small pulse transformers to kicker magnets. The use of these materials in pulse application has some unique considerations. A short review of basic magnetic material concepts, some material fabrication background, and some pulse measurement techniques will be presented. Two examples with emphasis on soft ferrite materials will be presented, one of a fast ferrite kicker magnet and one of a saturating ferrite for kicker pulse sharpening. Recent experience in the USA with procurement of large ferrite shapes will also be presented.

Speaker: Christopher Jensen

CERNMagnetic-FermiLab-V2.pdf

CERNMagnetic-FermiLab-V2.pptx

15:00 Coffee break

25 Experience and procurement of ferrites and alternative materials

Kicker magnets require dedicated magnetic material to achieve good field uniformity with fast rise and fall time. Historically CERN uses 8C11/CMD5005, NiZn, ferrite to accomplish this and recent procurement has shown increased difficulties in obtaining the required large cores, mainly due to the difficulty in machining to our strict tolerances. Nevertheless, other types of ferrite, with higher Curie temperature are being considered. In addition, it is our intention to experiment in a near future with alternative materials and at the present two options are being considered.
This presentation will present the currently used ferrite options, highlighting the difficulties in supply, and will discuss alternative options including strip-wound cores and Nano-crystalline materials.

Speakers: Laurent Sylvain Ducimetiere (CERN), Luis Miguel Coralejo Feliciano (CERN), Mike Barnes (CERN), Viliam Senaj (CERN), Wim Weterings (CERN)

Experience and procurement of ferrites and alternative materials.pdf

Experience and procurement of ferrites and alternative materials.pptx

Session 8 : Impedance shielding / Coatings

Convener: Marc Dubrulle (ESRF)

26 Metallization/coating of kicker magnets

Speakers: Laurent Sylvain Ducimetiere (CERN), Mike Barnes (CERN), Tobias Stadlbauer (CERN)

CERN_coating_PULPOKS_2018-v03.pdf

CERN_coating_PULPOKS_2018-v03.pptx

27 Shielding of MKI/MKE kicker magnets

Speakers: Mike Barnes (CERN), Vasileios Vlachodimitropoulos (CERN)

Impedance Mitigation Techinics for Kicker Magnets_Final.pdf

Impedance Mitigation Techinics for Kicker Magnets_Final.pptx

Wrap-up

28 Feedback: what worked well?, can be done better?

Wednesday 14 March

29 Meet the guides at Restaurant 2

30 Visit (AD & LEIR)