), O ) KAERI/CR-380/2010

KSTAR nj

(KSTAR Device Upgrade Project)

KSTAR NBI-1 ^ll ^

(Beam Extraction Test and Initial Operation of KSTAR NBI-1 System) 4 T=z

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- 5 - SUMMARY

I . Title Beam extraction test and initial operation of KSTAR NBI-1 system

II. Purposes and Necessities The heating and current drive device by a neutral beam injection(NBI) is a kind of auxiliary heating and current drive device, which produces a high-quality by heating the KSTAR plasmas with sufficient energy and sustains the plasma for a long time operation. The NBI device consists of an ion source, a power supply system, and a beam line system. The power supply system consists of a filament power supply, an arc power supply, an acceleration power supply, and many other power supplies. The filament power supply and an arc power supply are used for the generation of arc plasma in the ion source. The acceleration power supply is used for the extraction and acceleration of ion particles produced by the ion source plasmas. The beamline system consists of a neutralizer to produce the neutral beams from the extracted ion beams, bending magnet to bend the residual ion beams, a set of ion dumps, a calorimeter, a cryo —pump system, and a vacuum chamber (tank). An experimental neutral beam injection system, called as the NB Test —stand(NBTS), was developed and being operated until this time from 1996 in the Korea Atomic Energy Research Institute(KAERI). The KAERI has supported the design and fabrication of power supply(PS) system, control and data acquisition(CODAQ) system, and beamline(BL) system for the first KSTAR NBI(NBI-l), based on the experience of development and experiments in the NETS. Therefore, the KAERI was involved in the effective development of PS system, CODAQ system, and BE system for the NBI-1 device. The KAERI has participated in the beam extraction and initial operation of NBI-1 system, based on these experiences of design, fabrication, and operation for the NBI device, and has developed the optimal and reliable operation technologies for the KSTAR NBI-1 device.

- 6 - El. Contents and Scopes Scopes of the R&D Contents of the R&D Supervising the installation and Supervising the installation and disconnection works of ion source -1 disconnection of ion source -1 in the in the main chamber and the NBI-1 connection of power cables Managing the discharge and beam Managing the discharge and beam extraction experiments of ion extraction experiments source -1 in the NBI-1 device Managing the neutral beam extraction Managing the neutral beam extraction and beam power measurement of ion and beam power measurement source -1 in the NBI-1 Managing the conditioning of beam Supporting the preparation of beam port before the neutral beam injection, injection experiments and the beam and the responsibility for a joint injection into tokamak session-leader to support the neutral beam injection into KSTAR tokamak Producing the resultant report of Producing the resultant report of capability tests for the NBI-1, and capability tests for the NBI-1 responsible for the research results produced during the experiments

IV. Results The KAERI has consulted and supported the normal and amicable operation of KSTAR NBI-1 system after finishing the manufacturing and installation. The installation of the first ion source has been finished in the NBI-1 system. The stable and effective discharge and beam extraction tests have been done by using this ion source. The KAERI has confirmed the stable region of beam extractions and has determined the extracting conditions of effective neutral beam extraction with these results. Using the extracted neutral beam, the KAERI has succeeded the neutral beam injection into the KSTAR core plasmas

V. Application Plan of the Project Results The stable operations technology has been obtained of NBI heating and

- 7 - current drive device, and these results must be helpful for the development, test, and operation of the next NBI —2 device.

- 8 - CONTENTS

Chapter 1. Introduction ...... 13 Section 1 Objectives of the R&D...... 13 Section 2 Necessary of the R&D...... 13 Section 3 Strategy of the R&D...... 14

Chapter 2. Assessment of Domestic/International Status of the Art....15

Chapter 3. Details and Results of the R&D...... 17 Section 1 Introduction to the KSTAR NBI-1 system ...... 17 1. Long pulse ion source ...... 17 2. Beamline structure...... 18 7}. Main vacuum tank...... 19 t-E Bending magnet ...... 20 4% Neutralizer...... 21 5j-. Ion dump...... 23 nE Calorimeter ...... 23 tiE Cryopump ...... 24 A\. Cooling water supply ...... 25 3. Power supply ...... 30 7}. Introduction ...... 30 t-E Installation of NBI-1 power supply ...... 32 4% Test of NBI-1 power supply ...... 35 4. Control system structure...... 40 ?E Hardware structure...... 41 t-E Software structure...... 42 Section 2 Installation of the ion source ...... 44 Section 3 Discharge test of the ion source ...... 47 1. Output test of discharge power supply ...... 47 2. Test of arc discharge ...... 53 Section 4 Test of the ion beam extraction and neutralization ...... 61 1. Output test of high voltage power supply ...... 61

- 9 - 2. Test of beam extraction and neutralization ...... 62 Section 5 Test of the neutral beam injection ...... 77 Section 6 Summary of the experimental results...... 84

Chapter 4. Comparison to Project Objectives and Assessment of Technical Contributions to Related Fields...... 85 1. Comparison to project objectives and assessment ...... 85 2. Technical contributions to related fields...... 85

Chapter 5. Utilization Plans for R&D Results and Products ...... 86

Chapter 6. Technical Informations Obtained during the R&D Processes ...... 87

Chapter 7. References...... 88

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7>. 7113...... 30 4- NBI-1 11 441 41 ...... 32 4- NBI-1 11 441 1! ...... 35 4. NH 131 41 (Control system structure) ...... 40

7>. 431H 44...... 41 4- 4431H 41...... 42 1 2 1 141 44...... 44 I 3 4 141 41 1! ...... 47 1. 4111 4114 ...... 47 2. 4341 14 ...... 53 II 4 ! 144 4# 4 444 14...... 61 l. 314 11 #4 14 ...... 61

- 11 - 2. 11# 1 111 11 ...... 62 4 5 4 ^4 11 ...... 77 4 6 1 41314 o_4...... 84

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13 - 43^ ^

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- 24 - 4-4 #4-24 M444 4% ^A SM 44. KSTAR NBI A^A 4^-§-7l-g- —(Main pump)4 A A 4#4 xt^t.] ofis. ~10™5 mbar4 -§-7l 4"4& 44 4 A t A 444 2xio 6 £/sA 4=^2# 7>44 3442 42# 444 442# ^^5] 9XA-. 3442-^4(Cryo-sorption) 42# GHe 4 #4, 4444, 15 °K 3442-^ A 442 ^44 167115] 3g= 2#£. 41:44 $14. 15 °K 344 2-^4 44# # A 244 A 44444 4^4 4#4& 471 AAA, #2 A H# 4# 4# 4t11 2^4 27fl5i 4422 A44 $10.4, 4 42# 424# 42# 444 4 4 4. G-M 4444 44444 44 444 4444 44. 3442 ^4# 4#7l 4 2nd-stage cold-heacH 444 $1# ##44. 4#(Baffle)4 44 444144 44 44 44 244 44 =444 3444 42, 4*11422 44444-. 2^ 8# a. 4-4-5- 424 i1^! 4-4-43 $14-.

34 8. 34-4-5- 424 4-2:

4. 444" -^"h"(Cooling water supply)

4 442 444 4444 LPIS-144 4-8-44 444 44 4-44 5. 14- 42 4, 4# 44 44t11#2# 34 94 - 44[16], W4 44€ LPIS-24

- 25 - LPIS-34 « ^-6. -fr## S21 MMMM $14. LPIS-2, -3# M#M US-LPIS4 444 M#^# #### 44# 4444 444 444 44°14. LPIS-1M 4 MMM ^.44# ^44 #44 4M4 44# 444 44M JAEAMM 444 4^-4, 4444 444 #4# KAERI NBTSCNeutral Beam Test-Stand) M MM4 4 44# M#°.s 44444[15], M#4-24 °1#4-3M4 4#€ 444 #4 # 4# a 24 4^-4, M# 44 444 #4 ^-4 10M4 44.

5. 1. LPIS-1M 444 #4 #4 5

Ion Source

Water flow Pressure! Water Flange Temp. CH4" 44 Size rate(lpm) kg/cm^2) Quality Type (°C) Manifol #4^ Ion d Remarks Source- 1 In M& 4 4 In Out Out 02 In Out In Out In Out (Op.) -cm (IAEA) <8p G1 - 1 47.7 27 35.2 7 2 >5.0 i 1 Dm <8p Gl-2 47.7 27 35.2 7 2 >5.0 i 1 Dm <8p G2-1 47.7 27 35.2 7 2 >5.0 i 1 Dm One-to uc <8p G2-2 47.7 27 35.2 7 2 >5.0 i 1 h Dm connecto <8p G3-1 59.6 27 35.7 7 2 >5.0 i 1 r Dm Ml 4?) <8p G3-2 59.6 27 35.7 7 2 >5.0 i 1 Dm KAERMR1 4 <8p G4 - 1 59.4 27 35.7 7 2 >5.0 i 1 4 Dm 1/2" hose <8p 4444 4 G4-2 59.4 27 35.7 7 2 >5.0 i 1 (Nitta 44 Dm ARCIBuck Moore) Accelator Ion <8p et) - 1 20 27 47.7 5 2 >5.0 i 1 inlet pm (side wall) Pressure# Source ARC(Buck ^3-4 7barS #4 1 <8p Hanssen et) - 2 20 27 47.7 5 2 >5.0 i 1 4 (4## & (IAEA pm Quick (side wall) MC-Nylon # 2010 ARC(Buck 44 4) Connecto et) - 3 <8p connector4 70 27 47.7 5 2 >5.0 i 1 r (Back-plat pm 4#4 #44 (KAERI e) 4#) 44 4 Filament - <8p 20 27 47.7 5 2 >5.0 i 1 44 # 1 Dm #) Filament - <8p 20 27 47.7 5 2 >5.0 i 1 2 Dm Langmuir <8p 0.5 27 47.7 5 2 >5.0 i 1 1/2" hose probe - 1 Dm Langmuir <8p 4 4 44 0.5 27 47.7 5 2 >5.0 i 1 8}4 4mm probe - 2 Dm Swagelok Langmuir <8p fitting or 6mm 0.5 27 47.7 5 2 >5.0 i 1 probe - 3 Dm (KAERI hosekl 4 Langmuir <8p 4 0.5 27 47.7 5 2 >5.0 i 1 44) probe - 4 Dm (KAERI Langmuir <8p 0.5 27 47.7 5 2 >5.0 i 1 44) probe - 5 Dm

5. 2. LPIS-24 3M 444 #4 #4 (US LPIS Me)

- 26 - PressureOtg/cm -1 flow rate(lpm) Water Temp.ftO Water Quality CH^ Flange Type 4 S Size I/S— 2jl I/S In Manifold Rem 2&3 In Out (Op. Out 02 In Out In Out In Out arks ‘o"TT -cm (20 ) # 11 v*> 190. <8p 10-12 12mm 12mm G1 95.4 27 35.2 8 3 >5.0 2 2 8 pm bar /r Li hose hose 192. <8p 12mm 12mm G2 96.4 27 35.2 8 3 >5.0 2 2 8 pm hose hose 238. 119. <8p 12mm 12mm G3 27 35.7 8 3 >5.0 2 2 one-touch 4 2 hose hose pm connector 237.118. <8p 12mm 12mm G4 27 35.7 8 3 >5.0 2 2 6 8 pm o_ hose hose Filament <8p 6mm 6mm insulator 9 4.5 27 47.7 5-7 3 >5.0 1 1 pm hose hose plate Filament <8p 6mm 6mm positive 9 4.5 27 47.7 5-7 3 >5.0 1 1 Ion pm hose hose Plate Source Filament 2&3 1.5 <8p pSmm 6mm 27 47.7 5-7 3 >5.0 2 2 (KAERI negative pm hose hose 2011-2 Elate 012\!) Arc (Mag <8p 20mm 20mm netic 924 462 27 47.7 5-7 3 >5.0 1 1 Bucket pm hose hose bucket) 0-dump 340. 170. <8p 20mm 20mm 27 47.7 5-7 >54) 1 plate 8 4 pm hose hose E-dump <8p omm insulator 9 4.5 27 47.7 5-7 3 >5.0 1 1 pm hose hose's plate Langmui <8p 6mm 6mm r probe 15.2 7.6 27 47.7 5-7 3 >5.0 1 1 pm hose hose plate Langmui <8p 6mm 6mm r probe 22.8 11.4f 47.7 5-7 3 >5.0 1 1 pm hose hosk sensor

27 LPIS-ial

9. c- G-s-sa-"#- a-

I 1 =L^ =l^ 10. LPIS-24 LPIS-3S1 ^44 44^14

444 4##4 JLe.44 441:44. 444, 4444 44^1 3:5.4 &-°4 444 44# 4# 45 44. 4444 44 4-6.5. 44 444^ 444 4444. a 34 NBI-144 3;^ 01444 4444 444 4 444 44444 4444 444^ 444 444 444.

5. 3. NBI-1 444 444 444 44 44

Beam Line

Water flow Pressure! Water Flange Temp. CH4" sflS Size rate(lpm) kg/cm^2) Quality Type (°C) Mani fold Remarks Upg I/S( In MG rade lea) In Out Out 02 In Out In Out In Out (Op.) -cm ‘o"TT Tie & slip -on slip-o <8p RF I/S Scraper 270 27 90 36.7 10 3 >1.0 i 1 RF n RF :i5A RF15A pm 20b lObar ar slip -on slip-o RF RF Neutralizer <8p 450 150 27 32.3 10 3 >1.0 2 2 RF n RF 40A-s40A-sch #1 pm 20b lObar ch20 10 ar slip -on slip-o RF RF Neutralizer <8p 900 300 27 52.4 10 3 >1.0 1 2 RF n RF 65A-s 50A-sch #2 pm 20b lObar ch20 10 ar slip -on slip-o RF RF B/M 140 <8p 468 27 <65 10 3 >1.0 1 1 RF n RF 80A-s 80A-sch Scraper 4 pm 20b lObar ch20 10 ar D2 irins

slip •flSJ : -on slip-o RF RF <8p 20bar, A B/M Coil 108 36 27 46.9 10 3 >1.0 1 1 RF n RF 50A-s 50A-sch pm P : 2bar 20b lObar ch20 10 n* H ar M. 4^- Bj j3_ 316 1 105 4 slip (# i/s-14 -on slip-o RF RF B/M M. <8p 4 7} (Hy 27 <65 10 3 >1.0 1 1 RF n RF 80A-s 80A-sch N-Dump pm perv 20b lObar ch20 10 4 apot FMlal 4 ar ron #) Typ e) Ion dump 390 130 27 65 10 3 >1.0 <8p 1 1 slip slip-o RF RF

29 -on 125A- RF n RF 125A-sc 0 0 pm sch 20b lObar h 10 20 ar slip -on slip-o RF RF 120 <8p 400 27 65 10 3 >1.0 2 2 RF n RF 80A-s 80A-sch 0 pm 20b lObar ch20 10 ar 157 slip 524 RF 2 -on slip-o RF <8p 100A- BL Scraper 27 36.1 10 3 >1.0 1 1 RF n RF lOOA-sc (4 pm sch (4 20b lObar h 10 i) 20 ar slip RF -on slip-o RF 340 113 <8p 100A- Calorimeter 27 64.8 10 3 >1.0 1 1 RF n RF lOOA-sc 8 6 pm gch 20b lObar h 10 20 ar 180 slip 600 RF 0 -on slip-o RF Beam Duct <8p 100A- 27 36.9 10 3 >1.0 1 1 RF n RF lOOA-sc Scraper (4 pm sch (4 20b lObar h 10 3) 20 3L ar

3. 4-S "S" h "7] (Power supply)

7}. 7fl3

>4 4 4" 4 447] (Neutral Beam Injector, NBI)-§- 4 444- 131-3- #434# 44

443 >4 A] 7] 7] 444 o }3_ x\Q^7]7} ^344. 34, 4714 01^-4- §1#43 7>^5>7l 444 7»(G1) 44 4>7l4 Q1 44 ^44 4 80% 434 44(444 G1 44^44 4 5%)# 4^44 44 4314XG2) 4-0 ^717} 4344. 3. 44 444 44# 44471 44 4XG3) 44 4444 44 44# 44 434 -§-35- 4-g-5q4 4 444 (BM)-§- 44 ^44 4 4444 4444 Break-down 4 444 41, G1 7» 444 4444 4-444- 44 434 4-4 441 4433^4 -§-4514 444# >444 -§-33 4444 444 >44 (Surge blocker) -§- 44^>7l >4 #344. 444 4# 44444#4 7fl>34 3.4 114 44. 34 11414 4443 44 >4-4, 43 44 4-44 4 4-44- »4-§- 444-444 44444 444 G1 7> >444# 2:4 444 344" 444(High Voltage Deck) 44 4444. 444 °1 # 444>4#> 44 4444 44 4444 444 44 4444 G1 7»44 444 44# >443 §14. 34 124 NBI-1 44 ^>4 43^4 44141434 4, a 44 >3 44^44 44 #4 4444.

a 4. >3 44^44 4^

- 30 - Power supply system for NBI-1 Acceleration P.S.(G1 P.S.) lOOkV, GOA (3 set of P1VTR and an LVTR) Gradient P.S. (G2 P.S.) Passive Type (65%~90% of the G1 voltage, 4.8 A) Deceleration?.S. (G3 P.S.) -5kV, ISA (phase controlled SCR & HF inverter) Arc P.S. 160V, 1800A (chopper control type) Filament P.S. 16V, 300A x 12 (rectifier & inverter type) Surge Blocker P.S. 18 V, 120 A (rectifier & inverter type) Bending Magnet P.S. 25V, 750A (rectifier & inverter type)

A dll illrI-:■ :fc

V v r

f ?rc ra " ,1 -jd - Co:

=L^ 11. NBI <9^51

- 31 F- :

=L^ 12. NBI 4 #4 4€##44 #4451

4. NBI-1 4€ ##4 #4

NBI-1 4#4# 44^44 4#^# =L$ 13444 #4 4—(yard), 444, D3 #4 44#4 #5. 4444, Surge blocker# #4444 4 #4 5-44 4444 4 4. 4# 444 #44 J%4# 4445.# 44 #4444 4#44 44# #44 4. 4H44 44 20 kV, 30 kV, 50 kV4 44 44# #44# HVTR 4 4444 ^3.7} 444^3-, 4444# 444 44 4 44 6 kV4 4# 44# #44# 6 44 LVTR4 4444 S14-. #44 44 4#4# 1244 VCB, 244 Mold-type 444 #4 4444 SI4. ^4 14# °>#4 #44 HVTR4 ^#44 ^4 15# 444 4#4 LVTR, zz-43. :±4 16# 444 4#4 #44 444- LVTR4 44.

- 32 - nrinfisin I ic

IlVdct*. j- |------Yfinrl r, SJlii ;n:i hV,-iri C “: GI I'^l * — —'

=L^ 13. NBI-1 4^H0-§- + #*1 44

=L^ 14. 4"44 ^44 HVTR4

33 =L^ 16. 4714 444 444 LVTR4

D3 #4^ 3-44 444 (High voltage deck), G2 44 trid 7) (G2 resistor tank), DC high voltage sensing panel, high voltage pulse sensing panel, G3 #4" 44tr47l, G3 44444, FET high voltage switch, G1 44 44444, 343 6.6 kV AC 4 4-§- VCB4 380 V AC 4 €-8- 4444 44 144 4444 $14. 344 444 4

- 34 - #49 4-399, #445 ## # surge blocker# 994 #444 $14. 3# 174 D3 #4 M #991; 4 5#44.

3# 17. D3 #4 M #991; 4 5#

4. NBI-1 99 #|-9 49

3# 184 44 5944 high voltage switch4 44# 4 $154, 3 944 3# 194 44 3# 1944 3.44 EP-15055 #49 #4 494 444 72 V 94, 49 9#4 44 444 44 20 us, 5 ys44. 444 49 994 44 44 5E9 494 494 44 494 44 9944, 49 444 60 A44. 3# 204 3 4 214 G1 444 4449 49, G2 49 #4 49, 34 jl hvs 99 49 94 4944. 3# 229 43444 4494 49 4944 95## 10 sec4 4. 39 234 1244 9445 9944 499 4544, 39 249 Surge blocker bias 494 49 45544. 444 44949 9944 12.58 m • Q, 162 m - 84 4, 4 4494 2:4444 #44 44 16 V, 2400 A, 18 V, 111.1 A44. 39 259 G3 49994 49 49354 99 - 5 kV9 4 9949 15.6 A44. 39 269 Surge blocker4 499 971971 49 49 995-44, 4599 95 kV, Bias 9# 40 A, 9994 44 3.5 cm444 45 994 99 499 39 274 94. 39 27 4 4944 95. #9 444# 4994 4= 2 J4 94 44, 444 99 100 kV9 59445 95 4449 5 J 449# #99 # 94.

- 35 - HVS TANK

HJPCT1

zi^ 18 . high voltage switch-^ A1 ^ s|.

Vep-ii 50k (72 V)

IPGT2 IbUAl

1 r l i

m «.= v < * # 1# 0 A •• m 1 oo A XI

• ^rnpUlu* 77,0 V 72 0 72 * 72 * »4« 40 Ou» n*cv» • \ mv • linn to • a 00 O 00 o too #00 IM polfMl Coupling I lmpj«Sinrr fia-ndwkitfi uqci m A iw?i «C> II Ofi :on| zi^ 19 . high voltage switch-^ A1 ^ -4^ (time : 20 us/div)

36 - =l^ 20. Gl, G2 ## 4^

BlSMrt ■lirlF Iplrf. |J.H 1 ■ I-| ■ il II.ml :i.|l Id|p m IK un ■ tl L1 6 B|Lli>j|| ■"1 i"" " "

37 a 4 21. G1 44 44- #4 44

MB______- y ______TIK__

(1 54V. 1557A) voltage '------/-j--- II |« T current V ......

#" - '*• ' # # 'Hw Minn #".' d i* t ■ uwf *#!■¥> to- liii 1** Opt '"l"-1‘ ## a p» —i &i» i u lit ' 11

a 4 22. 4a 44 44^4- #4 44 (154 V, 1557 A)

Filament P/S llummy fn^intnr (|?.5fi ml?) 16V 3600A

a4 23. 44 44 4S-. Rdummy = 12.58 m • Q

! Dummy resistor (162 rn£?) Z~ BiasP/S ItiV !20A (18V, 1 i%1A##

a4 24. surge blocker bias 44 44 4 Rdummy = 162 m ohm

- 38 - v 1)11 aye

current

■ 1 ■■ ■■■ flP ? iTS V -.31 B-TC * - 1 MV 1 M Ml!. -# Itlti -i i k' ib:: i r« mi^__ m ■■ ■ —JPI ■i lul jL IE

=l^ 25. G3 M a ] (-5 kV, 15.6 A)

HVS Tank

DG635 HV Deck Rectifier 50kV 30kV 20kV

LV Pulse iTest Wire Rectifier Sen 0.6k 60Ea 36kV larc(PCT) HVDC

DfO|E

HVDC

26. Surge blocker A1 Vf TlTiTt

39 Vfculn- 1DO.COM 00 K* flO.CO*

10 DOM ODOM ODOM 4 DOM ZOOM ODOM -ZOOM ■4 DOM -1.CC -0.76 -0.66 -0.25 -0 00 0 25 0 50 0.75 1.00 125 1.50 1.75 2.C0 TIME

27. Surge blocker % 4rAl 'll %%

4. (Control system structure)

=L$ 28% NBI-lir %%%?! 44*11 %% Al^^ NBI-1 %*1%

o]# 44% NBI KSTAR ^#*1 iuh 4

- 40 - NBI ilQJAI^U Single line diagram

PXjC-tn^cd sysLtiui

epics

VB1 cfJitml rnf.m Mh W r'ccwoLli

"Inkamak tinlt

EPICS PE £2

Vmimn nance cartTdllerj ‘tea Lie SlLoitiiSS ; -ttu. MFC: [IK. libylializ-tr) : ’ta IMT 3 IMF 4 l'MT 5 U-cKyi ?^)

=l^ 28. NBI-1 #4 444#^

7>. 4^414 #4

=L$ 29# NBI-1 #4 44 4#^ 4#44 #4## #4 44 44^1 44# NBI 4 4 #4 KSTAR ^r44#4 4444. ^44 #4 4444 4# NBI-14 #4 44 444 ##7l# *1 E)5]]o]s}y] f|# 4 #4 4# ## PLCCProgrammable Logic Controller) 4 4, 444 4#4#4 #444 4# ## 44# ##47l fit!: 4#44# HMT 4-4 TC EPICS server# 4#444. ETOS 4#44# ##zi4 4 7}# 4 Serial to Ethernet convert box# 4 #711 4 4 4## 4 #444 4 2) 4 o| ## 7>4 4#44# EPICS4 4711471 4*114 4444 EPICS Server# PLC tag # EPICS PV(Process Value)# 4#4 44 PV# #444714 #444 44 PLC tag4 444# 444 44# #44444 #44# 44 7>#44, 44 OPI 44 4 Server# #444. NBI 4444 4444 Si# EPICS Server# 44 NBI-1 4 44 #4 #4# 4#7l 44 444# 41444 441 KSTAR LTU(Local Timing Unit)71- 4444 4#4, LTU 4## MFC Controller^ 4444 7>### 444#

- 41 4l##JL, JL# E)1 4 4 ##55 4# D TACQ #44 5## #5 # # ###.

Ni-RI Con:rol Network

^ ®*| ^ N3] Control Room

EPiCS Eervier EPICS Ss'ver (Ma n. PLC. LTU1 Ben mime PLC

p/^ ^IC Waterline PLC

"FTCS Server (D-TAGQ, MDSPI'js) HMT 7C ###5 -PICS So-ver

=L^ 29. NBI-1 #4 #4 ##4 #544

#. 4

#4144 414 55544 #4# 44 PLC 445 4 #4 #5, 44 OPI #44 714 30# #4 45# #4# # 45# 44444. 444 #4# #44# 45#

44-4# 44# #4# 4# ### #41 4 44 #41 #44# 44# #4 # r#

5 441 #4 414 4#4# ## # 454, 44 4# ## #4# # ts D-TACQ 44# 4414 MDSplus 4#4# #444 4 4# # 4## #4# # 4#. tl4 31# NBI-1 4#44 ##414441 44 4#4 ## #454#.

- 42 - - ei7 -

(io-fk k>Ik t-ihn os

:-J W< rt: Bjvii &

i ^TUjUnl.hlTJiil P ^ t ■;,3 &

Ti- hr# V - K P-.-It ii-F-i?3

h~ P3 / SB p —i--^.;

It iihk#ln^e^l

?"■ f -:i h 3^ T-^nj oi:^q ^;|j: =L^ 31. NBI-1 4^44 %%-B] 44 44 S

42^ °1^ ^-4

NBI-1 4^444 Al-g-5]^ LPIS-1 4>iS> 2008\4 >4445] 4444444 4(KAERI)44 444^# 4^)444. 4f, 20104 7#4 47M>444>(NFRI) s. 4 >44 44> 44 444. 4444 44 4^4^1> 4> £>4 7»4 G4 zl^h ^4> €s-4s(Bellows)7l- »> 44 44, 4>44 >44 -M4 >4 444. ^ 32> 4> >4-4 44> ls^-2f &4>a. 44.

- 44 - 4f, 444i: KAERI5. 4444 444 ^44&# 3144 4, 44 NFRI5. 44 4# 44 4^4. NFRI5. 4444 44:4^ NBI-1 ^444 44 444 444 44 444-14 4444 4444 444 4^44 444. zi4 334 NBI-1 ^4^ 44 4 444

zz-4 33. NBI-14 444 LPIS-1 444

- 45 - KSTAR #44" #4 #4# #47)31 #4 # #4 A?\ 4(Stray ) 4 #544 $154, 4 ## 7}7l## 4 #4 4#4 7>4t4# 4 #4 4 314^ 4# # $14. 447-1, 4### 444 7}714 444& #444 44. 4## 4 44 #4 44# 444 ^# 7}7144 417l# <0.2 Gauss44. 3.4 34# 4#44 7}7] 4 43145. #4444 5## iL4#3 44. 4#4, 3^ 35# 4#44 444(3. 4# 444 54), 441 #44, 444 ##457> 4444 4# 3#44. 7}4^M1 414 431, 44 4 44 ## #444 “KSTAR 44 4#44 4 #443l"44 4 *34454, # 4443H14 #W 444 4444 4# #44 ##4 4#44.

34 34. 7}44 43141# #444 4##

- 46 - 3 4 35. 444, 714 5#4, 444 4 #4

43^ W

1.

#444 ^^4^4 9>4 #-444(4445 7}444#- o>3. ^^)#4 cH# # 4 ### #-444 4: ##-. #4, 4#455#b1 M4444# 7] #7} $1= 20 m4 7l 4 #4 4444-# ## # 47l 4#44. 4 4455#e1# ##4:4 #44:4 4- 45# 447} 4 #4 #4# 4-5, 44 4# 54 (Calibration)# 4t4, #4 #4# 44 #44 444 4# 44(Sensor)## 4 #5 #4 44# 4# 444. 3-4 36# ##-45# 7>## 4, NBI 444444 4#44 444# W45 44 #4# #4444 -$.#5535#- 4#4bis. #44 44444. 4 44, NBI 4 4444 #44# ##-45 44(NB 44444# 44#)# 445. 4#44 44 4 #44541 #7>## 445#- ~2 V 45 ### #444#-. 3# 37# 44#- #44 #44 NBI #1444 4#444# 44454 47}## 44-4:44. 4 44, NBI 44444 #4## 4445 4#(NB 44444# 444)# 4#44 4-44

- 47 - Filament Pre-Heating Test Filament-#1,7 Date: 100820

36. nbi 4^^44 7>«^

Filament voltage setting value [V]

=L^ 37. NBI 4^^44

- 48 - 443, »]7>£]^ 44S4 ~10 A 45. 444^4. °1 44# 7l 5AS. #44S ^ 444 4441 cfltt S444 #4 44 4 44. 43.44°ll 444# 444 4-^l(#444 Open 44 HI 4 47>sq# 43-44# NBI 4444 4#444i #44554. 3^ 38# NBI 4444 4 #444 #44 4 34444. 4 44, NBI 44444 #44# 43.444 4444 47}4# 444 44 4444 44# 4 44. 34 394 NBI-1 444 4444 “44 44444 44 44”4 iL4#3 44. 34 404 #447> 444 5#44 NBI-1 43^4 7} 444 4, 44 44444 °^44 4^4 M 4414 4444, KSTAR 54 44 4444 4^471 44 “NBI-1 44444 44 44”44. 34 414 NBI-1 43^& 444 4, 444 444 5444 4# #444(44, 44, 44# #5 #)4 4#4 44 4444 4444# S4#3 44. 34 42# 4445 444 4 3444 #31411 4 #4444-1444 4##^# ###4 444 4435 44 4 44 44.

Arc P/S Output Test by CV-mode Date: 100823

.(in Control room) .(in Ion source)

Arc voltage setting value [V]

34 38. NBI 4444 4#444 #44 #344

- 49 - NB1-T POWER SUPPLY CONTROL C5M i ill rnw i \nm:___ ;iPUf 1 IKj IHi HEBE LEilFH -i. jj, 1__*tfi„ mh ' «■«'"< "4PL_*aBiua ■/ m awi— km hi ' huiu fjfl i:ui rv >-A'...... (Hi JL| V'Vl I'M ™ I ooo I SO SOOO i 20 2 O! 200 \ s. o' EV'U IWI jlilAHI | Cl ‘■'IIJlIbp..1 m L|VJ Jm.. i>t :-rtre. hi ir«u |vi wh |vi t40 3DO« t MOU 4.0= IT. O yo_ u V ^E: me j U2 ys w.j if i'. ■ hi' :kii 41 HEl |v u:: t'Q II}: u: uni : f I) vt> Jtv IV V m i yg] 111 11 n r Ml- j 117 HI UH Kl I till [».. In.* i: i n i I LUT u ■ "■ 1-| i ■ j MX HI t:tU [1] | it 1-too.o 5 II I OO l i?v; i EiO iiliE: t I MIL j IN IE IFr I. xo -1 W2 live I innir flu ca 1 20 I OO OO i. OHO 2. 000 ft. fi ■jij II 'Fill |(L, Mil-; I V-l | 'ilfl ;u| ii ] Lgw | n h l ■i D s'.- ”.n ■ ini I OO J OOC 20. OUO g? - 51*5 ■ " ■ ' ■ I lililll lit; IKS 11 III- ' V * 1 b l# j . . - hi'," ^ ■ S“ rdFl ’■1 fs:1" JB.id o BMW ini mi »in v; ■ i g J|:I

T,?M1 - - ' Fi | “l;;- = [J ■ — IMF — ■■■r^’.3 r. “IJ Fl, Return value i' itu-. = L i

F* I ■■■ ■ ■ ■ ■■ - T *-feT..t ...-.V.!.

JtEzA 4 | ilh'-ifci r'w I tg | Itmm w j>vr V- V.

39. NBI-1 9^

50 =l^ 40. NBI-1 9^

51 y?j jisut Ft]am*:nJ- f8 , 9) >t 3 Unbalance (?)

gemm m 0- stop ^g|

oi =i sy

[ai OMA duci)

setyE $ y

— ^ 4^7]

52 2. 4-3.4" 4 A]-y

NBI-l 4^# £^}7l 44°H A| 7} (Operator) 4 44 NBI-1 4S^4 4## 4, #44^, 4€#4 #444, 4# Gate-valve 4444, #444 -8-4 ifl 51 44 s44 4# 44431, 4# 4#e}s# "44 44"4 444444. 34 43 £ 444 4"9 44 44# S4#s 44. 4444# 4444 444 4h 4 #4 4S 447>4(Filament pre-heating)# 4444 444S $44 #4 44 #S 4 4 ##### 4144s, 444SS444 14(4)47} 4## 44444 ##7} 4 4. 4444 444 # 4#4, 444s 447}4# 2 V~12 V 4444 2 V 44 s 444444 #*344 #444-. 4 4, #4444- #4#44-l(0MA 44)4 4444 44# 4444, 44447} 444714 44 4# 444 #44 44441 4 447}4# 44444 44.

1 ijaw HI -■ /■j: C-' M>:-|! 1 \ ,". -1hmi n '1 1 p"i-;l 111 1 Kri :'k'lv:v: .1 pf| 1 | mjm 1 Upj. iii V. h 1 II i nil Vi lie- !■ ■ - »vf 'J!I>VTF ,'J_ 1F !_■ U ._sr i.ji i_-ti .i ._U m :u ±h jm -■<' _Y u a p.r 1JK ; .ill ■-J L'; i.™ '!!' —«: L» N- ■'.L- p.|T..H *> <■'■! 1 r.i ^ n H ■ Pi 14 n » H Ifl P 11 1 '"1 pr H " w r* m IAV.I :ir X1 < ih vi i-k liL jV ■.. Eu:i Zrii ■ 1 -i : XfY -V '■. V TWV. 1 HH--i'-I,^ . ^■■srv i:* 4.x.' rt-t\ w h hvj ^ .-j /fWAP . ] w '% 11 T4=:i. :ih■ mvv niiLi 1 in imJ fi Jil IIm I" X^V.' 4 r k 1 ■. 1.1 F. .

■:; j a

O h

a ■s 1.1 ■ <:-a Y- x< K, .! 34C1 >“.= ::? ii L' -x l> :■: hi .:■£ :■■:■: rr.-::* <:> :=1

■":■ V. -.y h ix. ': "?" v:r - r

cjz Y hi m 1:: 3.-3 c::- <■ v ” ’ " i, Hi" *■■

s4 43. NBI-1 4444# 44 “4444”

LPIS-1# 44-Cusp 4-44# 7}4# a }44- 44^ #4s4 4^344 444 4 4 4 4### 7}4 4-44 7}^4s #444 $I4(s4 1 #s). 7}^# 4 444# 70.6 cmx32 cm^S, #4# 33 cm44, 4#44 # #4# 4 123 / 44. #4^4 447N41714 43.44# 4 #4 3 mm°ls, 444 444 44# 7}4 127fl4 4 44ss 4#4 4 ##ss^Ei ##4# 14 4 47} 4 s## 44 4444. LPIS-14 434-4# #44 14444 4#4 441 4s44(Arc power) S# 4s 44(Arc voltage)SS S44# 4444-4f}SH(Space charge-limited mode) 4 4

- 53 - #4 #1#44- #3 ##3## #34# 70 kW#4 3#4#3 #4 #31 44# 4 S3#, 4443 71-##. ## 444 # 4# #-3.44# #44 (Constant power, CP) 33 #4(4 #<57 V, ##<1044 A)# #####. 4443 ##a) ##### 16 V(dc), 300 A(xl2 £t) CW#3, #3.### ##### 160 V, 1800 A CW#4. 4 2}^^ #3### 3## 3#33## ##31 #5l£]ol ^3#, 3# #--# 3(HV-deck) 44# ##44. 4443#- #3### 31##3# 44# #3 4# ##4# ##33. 31###. ####-31 #33# #4 ##31## #*11#, #3 444 444344# ## CP# CV 333 #444. #3### ### 4443 7># ##### #3## 1~23 ## #3# #31 44. 70 kW#4 #44 #3## # ## ###, 4443 4## 11.7 -12.0 V## #7>##, # 7>#4°tM4 31# ## ## ####3 3### 4#. 4443 44# ### #44 333^# # *H# 4-#31 7>## 7>##3# 31##3 $14. #3### til###(Unbalance) 31# # ## 34 ### #3i@# VME 31 ##1- 1## 44#3 ###- #3### # ### $14- #3 til5#Aj #Ell# #3## 1## 127fl# ###3# 33# # 3 #!#;# ###(#= 10 % ##)7> 44##-##- ###31 44. LPIS-1# ##3 # ##71### 8 % ##(#31 #<10 %)# ##43 ti!5#37> #-71# #3 7131# ## ##3##1# #3# ###33# #-##4#. #4## 44# ## #4### 4###-#-!## 444# #4 2~6xl0"3 mbar #3, NBI-1 4#^ #-7l(tij## ##1 3##3 $1# 31## 3x4x5 m3# #44#) #### ~2xl0"7 mabr#$14. 44# ### 443 #31# 4#4 Puffing 4#4# ##4# ^#4#3#, 1/# #3# ##-#71#- #4 4# 31 #7l(Mass flow meter, MFC)# ##3, ##4# #4M1 #44 #7}#3 #31 #3(Electron dump plate) 31 444 2711# #314#4# ### #4# #43 *#344. 443 #31# #4# #- #44 #-#4 ### 4##4#-2 4(Cell) #4# 433 4## 7>#44. li #44## #4## #7}Tg334# # 2 m 4#4 4# ### #-$3#, ##4 # 31 Puffing #3 ### #4# 4 $14 271 ?13l3#( Gas starvation)# #7) # 4 ##-. 443 #31# 4#### 15 psis. Puffing# 43 $14. NBI-1 #3 ^4 4 #4#### ### 8711# 34## 43 44# 4#4# ~6xl05 i/s# till#433 44# #4 4 #4. #4## 4 4 #3 ### 16711# 3##3 43# 4 #43, tifl #43# ~l.2xio 6 i/s#4. LPIS-14 tid 4# 44#4 3#44(High resistivity water, —7.0 MS • cm)# 444# 444 44, #444 6 bar# ##33 444# 44# # 3, 44# 4#4 10 bar3 44# 43 $14. 444##- 4431# #34# 4# ##43# RS-232 #4 #4#1#3# #4 VME-#4 31### ## 4 7H## 4#El (pc)3 444 #4431 44 431 #4# #4444-1# ^4 #4-31 4### $13#, #31 444 #344

- 54 - #441 44433 #444. 3^ 44# #4#4-4-l(0MA 43)4 444 4# MFC5] 7144433 4443 $134, °1 #4414 44714# 434 #444 4. LPIS-14 #4^4 #4714 4 4 44# LPis-14 7}44# #44# 44 43 3 (Conductance) 4 4#43 a]] 7] #33 444^4.

T =4s 10"2 -1------1------1------1------1------1------1------1------1------1------1------1------1------'------r (measured) • Pneutralizer-1 A Consource (estimated)

E E,

1

CL 10"3

J___ I___ I___ I___ I___ I___ I___ I___ I___ I___ I___ I___ I___ I___ L 100 150 200 250 300 350 400 450 500 550

Gas Flow-Rate [scorn]

3^ 44. #4444-l(OMA 43)4 4444

43. #4 4 4^44 zz.4 4544 34#3 $14. °1 4, LPIS-14 € 3 4444(Pulse duration)# 3343, 4344# 70 kW, #443 7}"^^ 12.1 V44, 4 4] #4# 230 seem# #44^4. 4 4444 #443 7>444# 1-4 (1-Step) 7}

- 55 - Pac=70 WJ, Vllaret=12.1 V, Flow-rde^=230 seem [A]

2 Current

Filament

[A]

Current

Filament

[A]

Current Filament

[A]

— r i — Current

| Filgmert-# 4-1 I Filamert-#iTl Filament

[A]

Current Filament

[A]

2 Current

Arc

[A]

Current

Filament

I Filament-#? |

0 2 4 6 8 10 12 14 16 0 2 4 6 8 10 12 14 16 Total

3 4 45. 43444 4444 #444

^4 12- nl^ o>3. &7]444 #444 #4# 44 ifljL °l^r #434 4£4 Steady-state 4^14 344^^1 ms7> #3 ^>7l 4#44. KSTAR NBI-1 o]-a4435. 44## 4443 44. 444 44# &7M #44 4^# 4471 4«114 44 3(Short pulse) 44#4 ^ 0.0,]^ 0>3.ti01-^ #2^nM cflft #443 7>^3l4# 4#4444 4444 °1 £44 #41 4 4## 47)-5}t)] £] 44. °1 44 # “Pre-arc beam extraction" °14 3 #4#4, "Pre-arc discharged 4444 #44^# 3^ 4644 Mud $14. °1 4, 70 kW°l3, 444£ 44# 12.1 V, 714 t^### 230 sccm4 4, # 4444# 4 #44. 43-44 £44 #4 44#4(<50 ms) 44# 444 43, °1 4444 444 344(01, G2, G3 44)4 47144, 43444 7fl4ts 4444 4444 44. Pre-arc4 444 444 LPIS-14 444 44# 444 # 4435. <50 ms44.

- 56 - P =70 kVV, V,. =12.1 V, Row-rate =230 seem

- 1000

- 800 <

- 600 0 - 400 1

- 200

Time [s]

34 46. "Pre-arc discharge" 4 4^44 #44^

LPIS-14 43444 cfltt 444s 714444 4444# 34 4744 424, 4 4 4344 44^r 10-70 kW, 4*11444 230 seem, #2 444%T& 3 2:°!4. 4344 44 44(Upper limitation) 4 #44S 444 44443 #44S 444 444471 4441 444 200 A4 ^44s 714444 444 44 444 4. 4344. 44 4 4(Lower limitation) 4 27] 4344 4t41414 4444 43 # 4344 44444 442S 4443 44. 4344 444 34 48414 244 44te 714444 44 4344 444 444 44 4444. 444^ 71444 & 471444 44, 43444 47143 43444 4244. 34 4944 244 11.9 V4 12.0 vs. 344 444s 71^4444 70 kW44 4344# ^71444 44 43444 43444: 47144. 0.1 V 444 #44s 71444 344 43 44 44# 44444 444 4444 4*14 5-44, 444 #44ss444 1 4 44^1 4#^ 4 71444#4714 444 43444 44 44 4 ^444 44- 44.

- 57 - TCB5=4 S' Ta,c=3 S' FRcBS=230 SCCm

14.5 - 14.0 - Filament Current Limit Region (lf|<200 A per filament) 13.5 - 13.0 - 12.5 -

12.0 - 11.5 -

11.0 - ArcTrip(Unable) Region 10.5 -

Arc Power [kW]

47. LPIS-l^l <4-3*1 £*l

FR =230 seem

1000 -

Arc Voltage [V]

48. ileHlE 7>^*l 0tM 454 o>3^=-3i|. ^6\] alt! <4-3#*!

- 58 - o$i _£, JJi _D -O, rk a$: xi £ |U & 14 111 V, ^ ±2 3 n & 'm mlH S| o #: ,12 .12 U & 44 W 4X tfH rti. n$ 1H >4 XL N1 rh n£ Arc Voltage [V] 41 t4 rk jft. ^ j, 5 40 0 O — r-k rh 4% w|m Hi kJ ol g g § w o m$, xf. ^ dS, ch r-h l oh _o X^ [till 42 42 o$i 11 £ oh nr <4 it lm & 4L ^ itfi g 1° 4 u s jx °v ^ 4)1 4J4 Hi , □£ r.2 _4, m2 Cd 4> da xl s? mk jo im W m2 -O, iM 44 o$i xl * ra 1H ^ 44 44 Arc jh 14 oh _d do rh rh rti II m2 lo 11 A [Ulo MH rh Power cn Hi Ji 41 m2 r$i CD 41 rk —' *% -a ; x Hi rk itfi ±2 kJ x x e v * "h x 41 ch 42 k [kVV| Hi _0[r & % * Olh-1 rfx oh < |m \> ^ h> 44 ja -a 14 £. nfi ,12 m$ -h 01, m rh rh x W na M l«i rir ,12 44 HV t< -2j lo Hi h-1 Jr, < 4X h-1 !-> i2 <1 xl *2 44 Hi Hi -a XI n$ & 14 rlrn do n$ < ^ U -o, Hi 4° 4^ oA o m rh o JE 14 oh t* h-1 oh 4> h-1 ,12 ^ 44 6$ ria W r4 14 rh ol, VJ, lo rh *2 44 M »1l Hr *% HJ ^ rim < ^ Jo mlH 4i 41 Hu rk 44 O 4> 4u A Hi 44 S Arc Current [A] g rh 14 f w kJ mjm r°4 1H im 4m oh rk h> ^ rh rh ^ rh da ra 4m o|yi “v oh ki -a _v m£ n$ rir 41 hi itM r°4 mu ^ nr oh 44 =5 s, T re =3 s, VB=11.7 V or 11.9 V(at 50kW,70kW) o o cn [scorn]

X 4 O O source)

O o GO Ion

(in

|XJ O O Flow-rate

_ _ Gas

co cn

% 5 CD

fo^UsfU M r& W B"C 'OS Bfcn: apL-tafa -k^,Rr llofetir'Eio W-b

1000 k o^i 0, A _E 4° do _h d$ [U|o Hu tfib (iijo A 4> 22 \o ilti I2 rH£ 0[, * # ok 4> id, nh k> M kJ riM _2, id, c& r4, r3 Hu XI U id 4(11 °|L m2 r4i dE 8 nr id 1> *2 o V Measured Value [kVl nr rfa ta Hi acc L J 41 I s IH rlo rE o 6 41 ki < r4i =l(u riL Hu tiE °4 a 4 rA oooooooooo 4> 4(u a * * §i ok r3 m{H' r2 rl° s J3, 0 JE #' rlo 1> 8 S « 1CD ME 4s J 41 oii rujo l—i x (22 _o a mail 8 M* o\)l x cii oi,

^80=)Z#:rA/°A)°^oq% $ a SP 14 4s _2, CD A 4> & Jol< 3 ° 3 cii ck i2 [^0 0, _£ CQ 4H I §1 ? Ki id, ^ riL tub _2, o s ki _ii 4m id c -S x M ki dSt 0, CD *2 ^ c ni -0 rh r°k d|o (o|i 4> I 41 iiiiu ‘s Hn 0 citL ^2, 1 0 r°k # <1 h-i 1

r.2 Q 001 r3 *SriL oil A 1 i—1 -|o|i 4H sI nr _£ 4m rE '■& ^ < 2! 9 0 6 0 0 ^ * CD mh <> 41 _k L 41 X 41 riL 4> io, id 4(u o[m ck 22 ^ J V Measured Value [kVl °4 0 l id 4> g #' MH gg L J ok B Jffi jy, rE iiiaL 001, r3 m2 r0 oi, in a 41 id % cE, _o A oir 4H 8 0 o mlo id -S, £ 41 _a 4d ED mh # 4> ^ mh ^ ^ r.2 o Date: 101007

Expected Measured

Input I (in Shunt-Resistor) [mA]

#4 53. 44-43KG2) 4 #(!««) #44- 44(100 Q)4| #5# 444 4# #4 4#

2. ^

44#44 £44-7} 4 #4# “4444” 4=4^ #4 544 #4. 4 4444 4 4#44 444# 5# 4##4 #444# 4444 44 $14. 4444 ^h ]h (G radient grid, G2)4 47}## 44# 7}^44#5#4 4444 4 (# 25 kQ)# 44 44444 84 %°\] 444# 44# 44 4444 44. 5. 54 55# G2 4 ##44 4 44 54# s414 444:# 120 kV G1 44# 4 $55 444 #4 KSTAR #4"4# 44 D3# NBI-1 4444 #4 G2 44417] la.4 #4 4444. ^-4 564 57# NBI-1 44444 #447} 4^1 #444 4#4# 4#44 #45. 4 44 # 4# “444 #1 4444”4 “4#4 #1 4444”44. 5. 6# NBI-1 4#144 4#4 #44#4 44 #4# 444 444.

- 62 - - G9 -

**4 hh IH W 1 w ■ tit#4 FAV a 1 L «J *-ti H k ■ XMS « ' **Wl Hfi Kti « i titititii * a M* w ■i « *rX* KM i» titi F »:* au IIP ti til « II. Sell 1*- W H »

20 tO^U && TO A^t 021 -tzr^-6-k {ofe&n: -g-g^ -Tok kuafl^-fek 20 G 3

»kR» is- to ■g'k'o" S[o [h T-I9N TG!

[ii-ir.Hi pi! .- 9 ijT A i=- j 'i w:i imci in h :: i“. :■! :sc> S 1 3n ;&1 :i X s: <1 i: :: 2 ra “ > ■ ■ :?r' ■: T < Up !■ y»:: : tii., K > C X -M =. ■' i ■.:i . -?K ■ M- 1 >.T ^ h L :■ >:■: ■•: "■ 1.. :' -... * : ■ . K j : y i4 1 -■■- >'| ZStil lit 1 j:x 1: ■: ii I!“ i x:: M ycij Kl, >i ti" >j .1 til <. :< . jlJfp •!“* r'- ■- ■ ► ■ p T 1 . > "1, 1 IF- t::i OK-. i. '1 ■ 4 1 :■■■■■-. . W -i. h!. + ■ W'U ■'■ -1 .:■: F. . 1 —■ T r” K ■■ =■■■: 1 <■:■ >ijl > ::-■ ■:: '::'X see :■ ■: -ci. y r. — : ■- E| ■:: < ■ K 1. ' . 0"j rw ■ :■■ U ■■: 4 ■ r. ij :■ . ?: n i ' 1 ■ ■' .0: ."■>, :■ -:i -: :r ■:. :■ L 1: Vi *X: , J 1 j A e. ■:::r v ;r r= -"■ "X yo "i'j S ■ ■ i- x iv . 1.. :. ■;s ■ ■ :■: til? ii- "•■"J ■ "■ tii •lvj -u - :■ : > 1 RK= n.r 1 P(T ,r-r "1-. ' y r"L?? i!i . -.'K -d . ' h-.. .1 ■ ■:i ■■ ■ ■■« ■■. O!.'- "K" 11 " -- ■ r ■ .■ v. p„ w a , A.. VL.mj A .=, J\ IV i ..■ X «■ ... :j i ■ 1 .|T l IX : i "■= e.'5„ til h --: <1:1., 3! M%CX q i". <. ■rt, :: :!G ■■■ .1 ' " p; K ■■ S""1M r 1- L ' El art L'S M L'.\ .v. m Ip. jf. n. H h. hr. Fl hr. h| --. H M Ji M L^. VI k.A A>-1 'fr - P-'H >. - -V ■ - *1 »l ■■ ■■ ■ 1 'N 1 ! SkJ A "ii ■ r+M ■■■ 1 |i:)|ki:\'\i :v ^il<.|-ij:>ij |JJV/VJ^.L^ in i:.r,ir[i ImpHjg vlM ■ qfcl '# +■ +.■ i I ■ ■= -■ I ■ " < ► ■ I .". . i , ^ H . , A ■tejaiir: 14 HKitU KD 103 SE.CK

55. KSTAR D3#4 ¥<& G2 ^3

64 56. NBI-1 ^471 W #4##

hjjfl Local N pke rE-TiDE C^ii4i.Vmi- H i:i:« !■_■■ I *.li I m.ii i Kn k jy™» ns™ '**»*■ BC2 □□ 3Dio,:Mj:i».ii:r

KTj.q

V-KlHjTl Ctynicrpiior

Gai F^e-.ng B

Weler Tooling 0 - iLuanmwi 1 wnq

LN2

t.i. Aipi-no-.ru DrnSini Kji=-c

:vi rminri-.hu

Cfllanirpinc

tjk Inlvripck (WJ

wiuk

=l^ 57. NBI-1

65 5. 6. NBI-1 43^4 #4## 41#

59 S4 a 9 fl=! r.tJtB- S-W Ppl

ilb. V. Lf ; :■:■ iduk lEdl 7 r ■ I ■ : ;M- ■ --i j ::i. Uvs^riini;:' 1 V - f ! 1 95 'S; 9 BJe .. e1-;/-, G:: r .f '- ■■ ■- Z lj-, BhtilllitU MAC B .- -. : 1 .-.■.■= s - -.-y •. fi-il ^15H VEhEl lllbU Kj.Ll? .3 i F lTL oKn'.-n r-E^E-lrie:-.' ■f 10 Dl PlTic ly ee^tinmio 1 1 PrllpllikFf'&l. IT rjgp Ftiiat i=lhp BIX- nf-r. 7J! till la: C,:X>:| BMM 11 1 z-- Tttmr Flub :ji' 111! lui !3 TlitUl1 '.4 L.'E1 ititi . « FWfe- 3 3 ImSI>n %: :■ -■■■r IS ------TPfl 2£ ft is 6 F. v -h -Be. ;; -r—■ SiS^e ' " 2: ■ CrtJ k F25 Ciir|i :- -T : :i 9 :a Hl-aifrir- HKS IS Ti GtiCt iirgr 1' . 1..." -.:■■■. r f:'. FMEl i2E Til Funs .■=s:^- !•■ rr - leh t 6

£ pnr t 6 : = ! =.= IT!.. ;■ n :J IcrtrocTiii £lflHHrfMCWlP*4IEI I E

44# 44# #44#. 447^4- jL^oj. Hi-pot 4^, M 44# #W #4 4 ^ 4S.# #4 A 4414 $4(3^ 434 54 ##). 4444 (Decelerating power supply) 4 4#4(Negative output) 4 4I4, 4444(Decelerating voltage) 4 if- -2.0 kV—2.5 kV# 4444. 44444 44#4# -5 kV/20 A44, 444 44 444 4444 4444# 4444 44# 4*344. 34 58# LPIS-1# 4 4#4 4444 85 kV/25 A, #3.44# 28 kW, #3 4444 14 #4 W 4^4 4 #4 4# 4 4. 4 4, #4# 44# 4#44 4444 #4444-14 #444#  44 240 seem# 230 seem AS. 4 44$ 4. 3 4 59# 4444 85 kV/32 A 4 44#(5 #) 44#4 444 44# 44# &4#3 $4. #4 60# 4^44 4#4 7>4 ## $#444(100 kV/ 42 A, 4 #H1 rfl# #444# iL$#3 $4. 34 6144 a# 4 4444-4 #444# 4#4 7}##444 7>#4#(44#) 4- 4s4$b]$44 44# #£ #4#5. 44# # $4. 4#4# 44# 4H4 4#47}#4 4## 4##444 44## 44 44 4#44# >2.0 kV44. LPIS-1 4*3 #-III(Prototype -HI) 7>##$ $#4 4#(Optics)# 3| 62# 44 IGUN 4#4 #4*34#5. 4444-. 444, 4### 44# 2.0 a.m.u. # 4#4$3, 7>#4<4# 120 kV4 444". 444 4 444#(Beam perveance)# 4 # #44"## 7}4 #4 4 1.68 micropervG microverv=A • V~3/2)44.

- 66 - Main Chamber Pressure Arc Voltage [V] Filament Voltage [V] [arbt. unit] 58. 8 8 6 8 O M -tx O) CO O M

S-A^Ej E ^ -lA IS P L Z

|i S

4 1 ( ^ # #

1 &) CD 8 8

"4 Neutralizer-#1 Pressure [arbt. unit]

Decel. Voltage [kV]

85 =i a

kV/25

A

3 1 1 #

§ 8 8 8 _ _ _

SI Decel. Current [A] Gradient Current [A] Accel. Current [A] Main Chamber Pressure Arc Voltage [V] Filament Voltage [V] [arbt. unit] _ o 8 8 8 8 8 8 8 8 8 8 OM-txO)COOM-tx =L^

59. :nri

Time

[s]

&)

& tt 1

CD ° 8 8 8 00 Neutralizer-#1 Pressure Arc Current [A] Filament Current [A] | [arbt. unit] Decel. Voltage [kV] Gradient Voltage [kV] Accel. Voltage [kV] 3i 08888 85

kV/32

Time A

[s]

8 2 8 8 Decel. Current [A] Gradient Current [A] Accel. Current [A] M

[V]

O [A]

CO

O) Voltage

Current

-tx

M

Accel. Filament O [A]

[kV]

[A] [V]

Current

Voltage

Current Voltage

Arc Arc Gradient Gradient

[A]

[kV]

Pressure Pressure

unit] unit]

Current

Voltage

[arbt. [arbt. Chamber

Decel. Decel. Neutralizer-#1 Main

Time [s] Time [s]

=L^ 60. 7 H ^ *1^(100 kV/ 42 A, 4 & )4 tfl [°C]

[A]

Current Temperature

Beam V\foter

Cooling

Decel Voltage [kV] 61. 44444 471444 4# 714444 4&4444 4 4-^ M

NBI-1 IS-1 Accelerator at 120 keV: V™ = 0.84 x V_,

1 -Grid thickness = 3.0mm 2nd-Gap = 7.0 mm Ion mass = 2.0 ()

Beam Perveance [juperv]

=l^ 62. 4^3w-m(Prototype-m) 7144a) 4444 4 #4 44

4#44 4#4# 4#«]al 44# #4 444 4 4 A) a) 44 EM (Gas target)# #44# #44 #^eg x>tijo.5. 4 ##a) 4#«](D+, D2\ Ds+)# 4 ##a) £-#b! 4 4 4 (##)(Ful#, half-, third-energies)# 7\A # #Ad 4 4 tid(D°(E), D°(E/2), D°(E/3))o.5. 4444. 4#tid4 ##4 &## yHHMHal o]#

h ] 4444 4 4" A]4 4 Ai a) 4 4 7] 4 (Background gas) 4 £-4 a) Full—°il

Id A] «]4 44 ### 4 #4 4 si-o. ^ 634 Ai a# 4 ###a) 95 % 4444# 4 #4 4444 44#4 AiTgcs 4 #4 0.5. 4# 44. Full-444 tija) 4#g ###&## 80 kV4 100 kV4 4 44 58 %4 50 %°14. 44 4### 4 444 (Bending magnet, BM)# 7}# A] ?] A| (Tum-on4 Turn-Off) #&s)444 4714# 4#4 44^7}^a) ^44# 4714 4# 44. 44444 714 €(Gas cell) 4#4A1 44444 #4 4 #4# 41 ##a] 4#

- 70 - 4 —(Full-, half-, third-energy dump)5. 514 4 4 ^ 4, 4 fe- 44 4 -44 4 KSTAR #4^4 #?M e}^l 444^ 44 4-AS. 44 ^43444 #44 4 444 4^ 444 4##4 tfl# 54^44 444 Sj7l 4#44. 44444 4 7>4^r 4#4 5Z-4 6444 4 ^(^3:4 #^r344 4444 ^ 444 4 444 4 7l 4 4*114 4444. ^4444 4-£4 ^4 TdTiM 44, Full-444 4# 60£4 4£5. #1444 44. 44:4 44444 a4444 80 kV4 120 kV4 444 44 385 A4 485 A44.

95 % Equilibrium Neutralization Fraction (D-Beam) M i \ 40 keV 50 keV bu keV 70 keV

100 keV

Gas Line-Density [#/cm 2 ]

=l^ 63. 7>444 4^4 4444 444444 44 44^4 4# 443: 4444 4 #4 4 44 %#

- 71 Coil Current [A]

0 200 3^0435 600 800 1000 1200 1400 1600

120 -

100 - Magnet Working line

Beam Energy [keV]

3fl 64. 444rA4 4444 'll 44-4(BM)4 4714 444 4# 4#4#

LPIS-14 4 AS# (Arc efficiency, 4#4 444# 44, A/kW)4 30 kV~85 kV4 4(4-4)444 444 3^ 6544 A4^3 $14. 4-as#4 4 44# S44 4^40.6—1.1 A/kW44. 4 444 -70 kW4 43.444 120 kV/65 A4 4444 4#444 ##4# A4^3 44. 7># 4444 44 4 #44 444 444 34 6644 44. 4 3^44 ^4 4as . $44 44 2010 KSTAR ^44 444 A444 80 kV, -1.0 MW4 #444-4# 4#A 5 44 1.15 microperv4 444 IGUN 3AS 444 4444. 444, LPIS-14 463w-m 7>44S444 IOO kV4 444444 40 A4 444# 4## #7> $1 4.

- 72 - Beam Voltage [kV]

65. 30 kV~85 kV^l tflft LPISl^l °\3.S.&(Arc efficiency)

Total Shot for Prototype Accelerator Date: 100907-101125

------IGUN Estimated (by 1.15 jjperv of D-Beam) o Tbeam=0.1 s o Tbeam=0.2s o Th=,m=0.3~0.5 s o Tbeam=0.6~1 s o Tbeam=2.5~3 s o T >10 s

Beam Voltage [kV|

=L^ 66. 7>^ 80 kV, ~1.0 MW a) 715-9.5. 1.15 microperv^l IGUN SB5 Tll'tirt!:

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- 74 - [%]

Efficiency

Neutralization I g I , 12 u Hu Hi Hu s r|° r°k r3 & & * & J|> ^2, . J, jh jn J2 A tiSl

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=60 kV: Tbeam =3 s, Vtilarmt =11.7V, Par =10-24 kW, GFR IS =250 seem =80 kV: Tteam =1 s, V||ameit =11.7 V, Pait =28~42 kW, GFR|S=230~320 seem ^ r£ ^ no Ki

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[%] 101011 Date: A m=385 l s, =1 bsam T seem, =250 naM|ze| GFR kW, P„=30 kV, -80

| Efficiency Neutralization |

{§^"5-3“ Lo fetb-Rr to^-fegi t a l b t a ^ Mb-FoM to A3! 08-0G 69 £tt Ratio

(in of

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Water

[arbt.

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unit]

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KSTAR 244 4441 44 4 Beam shine-through tile4 4 4241 #4 Beam duct tile# #2 44441 444 4444. #44 44 244 44# Inboard# 444 Til

77 £] EE, c] Inboard tileE 4" 4 4"^]# #4 °i: 4"4, ZZ-4 74# Inboard tile-2] #E# #44-# 4^4 4444. H-EE44# U04 444 2] 7># ^>^2f L04 4444 7># 4"4#4 44 4 4 4.4"if 4" 4 #4 4 # ftn]-. zl%] 75# Beam shine- through tile, Beam duct tile(protector), Inboard tile#2] -&E# # a ] #EE zle]]EE zlb] ## 4 = B] ##44, T#*}# 44 4 ZL2]]=# #444, 444±# #4sM0> ##. 4 44- A]o]] £E#4-t tiflo) 3}^ #£### °>Hfl^ #4: • Beam shine-through tile #E • Beam duct plate #E 4 duct 4]# #4 • Inboard tile #E • Ion dump plate #E 4 4## #E • 4£vS 7}^ 4## #E

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£iz-1Lc:m (E^L03j IET-L07)

zi%| 74. KSTAR Inboard tile4 Ouptboard tile^l

- 79 - ZL%| 75. Beam shine-through tile, Beam duct tile(protector), Inboard tile# 4 ### ZLSfl^S. zz.9^7r 499 #9

997} 44# KSTAR #9 71 Bl# NBI 9 ^5: £94 4 KSTAR slave #9 4 Til 94. KSTAR #4^4 49(#9, #4^4 9#)#4 99 #4# NBI 999 til9 -99 (Emergency stop)# ##44 #4. #, til 9 9-99 #4^4 94 A]0,1 370,1 vixl ^^7)A}Hiol KSTAR 495. 7419711 49, KSTAR 9##7l 494 99# 4 NBI U9 9944 944 7)71 4#4, KSTAR4 NBI9 9e]## 9# 9944 #49 44# *19 94. zl9 76# 99^1 44 NBI-1 9999 949 49-944 #5444 4719# 44# 9471 7}7]# iL493i 714. 471# 9714 4#- 444 714# #44 94

7} zz.9 774 714. 4 #444# #99 #44# #444 94954, 44 444 # 9# #7>5. 94 444 #44 44 4 955 44. KSTAR 94 #4^44 9 47149# 714-11 4, 9# #999#9 44# zz.9 zl4 = 7> zl9 7844. zi9 79 # NBI# 4#44 KSTAR 9494^4444 L-H £E 9444-4 #49 444 4. 4 4444 9 9 7194, SESE KSTAR 549 #4^44 H-mode #9# 44 4# NBI 9-971 94471 4## 444# 9# 49# 9 714.

- 80 - =L^ 76.

Date: 101115-101118

10 12 14 16 18

Duct Pressure(E-6) [mbar]

=L^ 77. ^71# ^^4

- 81 = l ^

Electron Density Ha Line-Intensity Plasma Current

78. [E19m _3] [arbt. unit] [kA]

KSTAR

^

Time

[s]

00 r\o # 4 ^

, 4

Time

[s] ^ 4 f-LJ. Evolution rot KiiTflk *426C1

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83 46^

U on vn * oyys ais ™ kwccp-rFuv^ ^2) * oi n 2 Ei ^ 2 = ™ 50-00 V, #73-1130 A (at 70 kW) * ^d^'il’-■ AP- MM 11-7 - 12.2 V * 0|TCP I SI ?t?3 >OTsw«

\J ui^-ti #<2im * Arc efficiency = O.fi-1.1 A/kW * 7E|!j 41^ 2Ph {Suppressing Voltage) - 2.0-2 5 kV ■ Optimum yearn Pefveariee : 1.21 pperv (with 0.73° at 30 kVJ * ^ A : 1 ()(] MfW A, 4,? k (- 1./ MWI)ti) : MO kV/2f] Ar M u s {1.0 MW [YJ ■ Ion species ratio = 74 %(D') : 23 ) : 3 %(DS') at 04 kV

'j ej4

■ Sti ol rv^ « 53 % at 30 kV (with full energy bnam) * : 90 kV/35 A, 2.5 s (-1.5 MW D°) : Hh kV/;i2 Ar s'7 s {—1.4 MW \Y>)

- 84 - se&otonsi 7|oiE

41W

71144 “41# 4445. 4 444#"# #44 #^14^54, 4#4# #54 “KSTAR NBI-1 45^4 44# 44 4 &4#4 4# 7%#"# #44 44444. 4 44# #W554, 20104£ #44^14 44 #5(80 kV, ~1 MW, 2 s)# 5 4 44(~150 %) 444. 4M51 NB Test-stand #444# 4455. 44, 4 4 4CNFRI & KAERI)4 t!1#44 4444# KSTAR NBI 4^44 4# 444 4# #5 #44 444 7141-4 455 4444.

41211 7M#.

445 544 44441 NBI 44# 4#44 44 445 H-mode #44 544 454, 4# 4# 444 #5 444441 #4#4 444 4#4445 711441 NBI 444 #544 44 4#4 ^ 455 4444. NBI 444 7%#4444 4# 5 4# 44, 544 7>#7l! ^ 54# #44# #4 7fl#4 44 #44# 4445 54, 44 44 444# 444 444 #4# 444.

- 85 - X-1I5S- si

NBI-l 0^2}, ^ NBI-2 7li#, ^ #A 4 @j^7l #& 4^-# 4 $14.

- 86 - *1169- @f *0 oil 4=9 &

2010 KSTAR Campaign 7] Zt 444 44 NIFS (National Institute for Fusion Sceince)44 LHD NBI 44^^ #44 4444 Dr. Nagaoka7> 104** 1*44 4*44 KSTAR NBI-14H 4444# *^44, NIFS4 NBI 45^144 *54 444 444-0-5. ^444 *44. 114444 44 JAEA4 Dr. Watanabe 44(4 24)4 NFRI# 4444 1444 44444 4444, NBI-1 4 544 44*4 444 444 45 44 44# 444.

- 87 - XII73-

[1] B. H. Oh, Y. S. Cho, S. R. In, S. H. Jeong, K. R. Kim, K. W. Lee, D. H. Chang, D. S. Chang, Y. K Cho, M. Y. Park,and C. S. Seo, Test focility for KSTAR NBI system, J. Accel. Plasma Res., Vo. 6, No. 1 (2001) 1. [2] Byung-Hoon Oh, Sang-Ryul In, Kwang-Won Lee, Seung-Ho Jeong, Chang-Suk Seo, and Doo-Hee Chang, Development of a large beam focility, Nukleonika, Vol. 51, No. 1 (2006) 37-42. [3] Doo-Hee Chang, Min-Seok Seo, Byung-Hoon Oh, Jinchoon Kim, and Tae-Seong Kim, Measurement of the Beam Power Transmission in the KSTAR Neutral Beam Test-Stand System, J. Korean Phys. Sci., Vol. 50, No. 1 (2007) 93-96. [4] D. H. Chang, S. R. In, K. W. Lee, J. T. Jin, D. S. Chang, S. H. Jeong, B. H. Oh, Y. S. Bae, Y. M. Park, H. L. Yang, Design of Neutral Beam Injection System for KSTAR Tokamak, Fusion Eng. Des., To be published, 2011. [5] Doo-Hee Chang, Seung Ho Jeong, Tae-Seong Kim, Kwang Won Lee, Sang Ryul In, Jung-Tae Jin, Dae-Sik Chang, Byung-Hoon Oh, Young-Soon Bae, Jong-Su Kim, Wook Cho, Hyun-Taek Park, Young-Min Park, Hyung-Lyeol Yang, Kazuhiro Watanabe, Masayuki Dairaku, Hiroyuki Tobari, Mieko Kashiwagi, Masaya Hanada, and Takashi Inoue, Results of Beam Extraction Performance for the KSTAR Neutral Beam Injector, Jpn. J. Appl. Phys., To be published, 2011. [6] R. Hemsworth, H. Decamps, J. Graceffa, B. Schunke, M. Tanaka, M. Dremel, A. Tanga, H. P. L. De Esch, F. Geli, J. Milnes, T. Inoue, D. Marcuzzi, P. Sonato and P. Zaccaria, Status of the ITER heating neutral beam system, Nucl. Fusion, Vol. 49, No. 4 (2009) 1 15. [7] D. Ciric, D. P. D. Brown et al., Overview of the JET neutral beam enhancement project, Fusion Eng. Des., Vol. 82 (2007) 610-618. [8] H. W. Kugel, G. M. Gammel et al., Measurement of neutral beam species, impurities, spatial divergence, energy dispersion, pressure, and reionization using the TFTR U.S. Common Long Pulse Ion Source, Rev. Sci. Instrum., Vol. 60 No. 1, (1989) 37-52. [9] K. H. Burrel et al., Inject 2 MW of Neutral Beam Power in the Counter Direction on DIII-D and Begin Physics Experiments, GAC25590 (September

- 88 - 2006). [10] Y. Ikeda et al., Progress of Neutral Beam Injection System on JT-60U for Long Pulse Operation, J. Korean Phys. Soc., Vol. 49 (2006) S43-S47. [11] B. H. Oh, K. R. Kim, and B. H. Choi, Discharge characteristics of a long pulse ion source for the Korea Superconducting Tokamak Advanced Research neutral beam system, Rev. Sci. Instrum., Vol. 71, No. 2 (2000) 1140-1143. [12] D. H. Chang, B. H. Oh, and C. S. Seo, Development and Testing of a Prototype Long Pulse Ion Source for the KSTAR Neutral Beam System, J. Korean Nuclear Soc., Vol. 36, No. 4 (2004) 357-363. [13] Doo-Hee Chang, Seung-Ho Jeong, Byung-Hoon Oh, Kwang-Won Lee and Chang-Seog Seo, Arc Discharge EfSciency of a Multi-megawatt Long Pulse Ion Source for the KSTAR Neutral Beam Injector, Plasma Sources Sci. Technol., Vo. 14 (2005) 336-341. [14] Doo-Hee Chang, Seung Ho Jeong, and Byung-Hoon Oh, Energy Distribution of a Prototype KSTAR Neutral Beam Ion Source for 300 s Arc Discharge, Jpn. J. Appl. Phys., Vol. 47, No. 2 (2008) 1076-1078. [15] 4], KSTAR rm • ^F7(W7l^f- 3#3] 4, 3^hM3M9-€), 2007. [16] 4], 71^^-71-g- yj^Ajy, 5; viejo] A/y^g ^ 2009.

- 89 - X\ X]

MiLuiAlwlji: inis ##laa

KAERI/CR-380/2010

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#^1^7l^|H (lOT&oliflSl) ###-, kstar, #yyy-y 7}% y y#, yyA> BIBLIOGRAPHIC INFORMATION SHEET

Performing Org. Sponsoring Org. Stamdard Report No. INIS Subject Code Report No. Report No. KAERI/CR-380/2010 Development of the power supply system and Title / Subtitle beam line system for the neutral beam injector Project Manager J.T. Jin (Nuclear Fusion Engineering Development Division) and Department Researcher and W. S. Song, K. W. Lee, S. R. In, D. H. Chang, B. R. Kim (KAERI) Department Publication Publication Daejeon Publisher KAERI 2010. 01. Place Date 210 X 297 Page 72p. 111. & Tab. Yes(O), No ( ) Size mm

Note

Classified Open( U ), Restricted( ), Report Type Research Report Class Document

Sponsoring Org. Contract No.

Abstract (15-20 Lines)

Construction of a fleutral Beam Injector for KSTAR was planned by National Fusion Research Institiite(NFRI) and now the project is in progress. Because the power supply systen i and beam line system construction companys participated in this project have no experiences and/ or even if companys have some experiences, many o1 r design factors changed, it was necessary to be supported by Korea Atomic Eriergy Research Institute(KAERI). So the project to consult and support constructing design of the power supply system and t >eam line system for the KSTAR NBI has progressed during 11 months frst of the designs are finished and some of the parts are started to construct Subject Keywords fusion, plasma heating, neutral beam, power supply system, (About 10 words) beam line system