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1 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2010 1 S1-Global RF Preparation KEK S. Fukuda Content Time Schedule of S1 Global in KEK Achieving Goal.

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Presentation on theme: "1 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2010 1 S1-Global RF Preparation KEK S. Fukuda Content Time Schedule of S1 Global in KEK Achieving Goal."— Presentation transcript:

1 1 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2010 1 S1-Global RF Preparation KEK S. Fukuda Content Time Schedule of S1 Global in KEK Achieving Goal of S1-global HLRF and LLRF in KEK DRFS Test in S1-Global

2 2 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Time Schedule and Contents of S1 Global (Revised)

3 3 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Proposed S1 Global Schedule (By Hayano) 67891011121 20102011 Module Connection Module-C Same as A Cooling Test Inspection of Cryogenics Cool Down Test Module-A Coupler&Cavity 2K RF Processing @ a cavity Module-A Coupler Room temp. RF Processing @a cavity 9 weeks S1G experiment Stop Cooling Cool Down Cool down Module-C Same as A Heat Load Measurement (1week) Cavity low-power measurement Parallel operation of #1-RF Station And #2-RF Station Heat Load Measurements (2week) 4 weeks 5 weeks 4 weeks ICHEP2010 July21-28,Paris Japan Acc. Meeting 2010 IPAC2010 May23-28,Kyoto LINAC2010 Sep12-17,Tsukuba Disassemble 、 Return Cavities Optimization of power distribution 3 weeks DRFS

4 4 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Procedure of Cavity with jacket (By Hayano) 8 weeks Module C (INFN module) Module A (KEK module) 9 weeks 2009.01~2010.02 2010.03~2010.04 Connection of Module C (INFN module) and Module A (KEK module) in the Tunnel 6 weeks 2010.05~2010.06 Finish / Under Going

5 5 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 1: Low Power Measurement of an individual cavity of 8 cavities Q-value, Frequency, Coupler adjustment, Tuner adjustment, Response for piezo, Micro phonics, Mechanical vibration and HOM 2. : Thermal Load Measurements ( static ) 4 weeks (2010.06-07) 1 week (2010.07) Contents of Test in S1 Global (By Hayano) 3 Sets of NWA and CT (KEK,DESY,FNAL),Computer Control First Cooling and Test Second Cooling and Test 1: Lorentz Detuning measurements, comparison, correction survey Preparation of auto-measurements software by LLRF group 4 weeks (2010.10) 2: Achievement of average maximum accelerating field and investigation of stability and failure rate after long operation. 2 weeks (2010.11) 3 : Thermal Load Measurements ( static and dynamic ) 2 weeks (2010.12) 4 : Demonstration of DRFS System 3 week(2010.12)

6 6 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Purpose (Achieving Goal) of S1 Global SC Cavity Test under the Internal Collaboration  Cavity Evaluation of 3 Region (US, EU and Japan) Achieving the Average Maximum Accelerating Field  Cavity Evaluation of 3 Regions (US, EU and Japan)  HLRF introduces Q adjustment mechanism and power adjustment mechanism to support this purposes. Demonstration of DRFS

7 7 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 HLRF &LLRF Configuration

8 8 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 HLRF Status in KEK Two RF Stations will be available at the period of S1 global. –#1 2.5 MW available: mainly used for coupler processing –#2 5MW available –#3 10MW from Horizontal MBK – Maybe not operable In order to have an efficient program for cavity evaluation, 2 RF stations (#1 & #2) will be used. Individual coupler processing and cavity processing, two 4-successive runs will be possible. Ql adjustment by phase-shifter and reflector after circulator, and a variable tap-off hybrid will be used for power variation. #1 Station #2 Station #3 Station STF Building Klystron Gallery

9 9 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Possible PDS Scheme for S1 global For S1 global, KEK cavities are tested using KEK’s PDS and EU&US cavities are tested using SLAC VTO. All power dividers enable us to vary the power including the SLAC VTO (0-100%) and Ql is also adjustable. SLAC VTO – already delivered from SLAC

10 10 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Proposed Layout for S1 Global

11 11 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Coupler Processing and Cavity Survey

12 12 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Variation in Loaded Q By adjusting the Ql, flat cavity V Is achieved. By adjusting the power Level, maximum cavity field gradient Of each cavity will be expected.

13 13 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Ql Adjustment mechanism is introduced Ql Adjustment is possible to use the reflector and phase shifter as shown in left figure. Phase shifter Reflector WeWe We expect that Ql is adjusted by individual tuner and  & reflector is auxiliary function.

14 14 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 LLRF Study at S1-Global (More detail->S. Michizono’s talk) 1 st Stage of S1-Global LLRF Each 4-cavities is driven by a klystron (in order to reduce the conditioning time). Digital LLRF controls are located near No.2 klystron. Only fast interlock (MPS) system will be located at #1 klystron. 2 nd stage of S1-global LLRF All the cavities are driven by #2 klystron (5MW Output).

15 15 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 DRFS Demonstration (For 3 week)

16 16 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 DRFS Test in S1 Global Original plan of 4 weeks in S1 global will be reduced to 2 weeks plan because of LLRF program. Instead, DRFS test period will increase from 1 week to 3 weeks. Demonstration of 2-klystron DRFS system 1/3 of DRFS test periods are exhausted with setup of DRFS system: MA klystrons, MA modulator, cabling etc. Running of basic operation. Evaluation of high-voltage relay Crowbar operation trial RF performance in PDS test without circulator LLRF control for the 5% voltage drop due to the bouncer- circuit-less operation

17 17 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Layout for DRFS in S1-Global First test is conducted In klystron hall. DC P/S is installed In klystron hall. DC cable of 30m Klystrons and MA modulator are moved to tunnel after the first test And used for S1-gloabl.

18 18 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Klystron and PDS in DRFS of S1 Global View from the klystron side (corridor side) View from the regular PDS side Regular PDS Disconnect point from regular PDS to PDS of DRFS

19 19 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 DRFS Power Supply/Modulator In FY09, prototype DC modulator And MA modulator are ordered. Capability for 2 klystron loads Due to small budget, bouncer circuit are not used in S1-G. Compensation of sag for RF is covered by LLRF feedback. (If this attempt is successful, reduction of capacitors are benefit for cost). Crowbar circuit using thyratron is introduced. Possibility for crowbar-less is tested. This is strongly depend on the klystron durability for HV discharge. MA modulator is based on J-Parc design and studied the shunt resistor reduction. (strong effect for cost) Basic Diagram of P/S& modulator of S1-G

20 20 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Global S1 3 rd stage New digital LLRF systems (uTCA) will be installed to the tunnel. Fast interlock will be also located at the tunnel. Piezo compensation from the ground level

21 21 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Important LLRF Theme in DRFS In S1-global, due to the budget short, P/S doesn’t employ voltage sag compensation (bouncer circuit). This results in 5% voltage droop and causes RF phase variation. LLRF feedback tries to compensate this phase variation. If this attempt goes well, capacitors of DC P/S can decrease the amount of corresponding to 5% sag. (Cost saving effect). DRFS without circulator requires the pair of cavities of which property are almost same. In DRFS, LLRF studies the effect of cavity pairing. Also diagnosis of Ql using the position of pulse tail waveform. Detail will be described in S. Michizono’s talk.

22 22 LCWS10 Beijing S1 Global RF Prep (S. Fukuda) 29/3/2009 Summary Preparation of S1 global testing including the time schedule is reported. Purpose of S1 global is to demonstrate SC cavities are operated with average maximum accelerating field with the internal collaboration. In order to fulfill this purpose, HLRF introduce Ql and power adjustable way using reflector and phase-shifter. This will help for all cavities to achieve the maximum performance. PDS plan for the S1 global is shown in this report. SLAC VTO will be planed to be introduced for EU and UA cavity system LLRF plan for S1 global is also reported DRFS test period is increased to 3 weeks and test plan is explained.

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