KAERI/RR-2181/2001

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Radiation Environment Protection

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Maintenance and Fabrication of Electronic Equipment KAERT

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- 4 - SUMMARY

I. Project Title

Maintenance and Fabrication of Electronic Equipment

II. Objetives and Importance of the Project

There are many nuclear pilot plants in KAERI. The typical plants are PIEF( Post-Irradiated Examination Facility), RWTF (Radioactive Waste Treatment Facility), Hot test Loop and RWFTF(Radioactive Waste Form Test Facility). Since nuclear materials are treated in these plants, safe operation is always required in particular. In Those plants, a lot of systems and equipment are used for process control, data processing, safety management, etc. And also, more than a hundred instrument are employed in various laboratories for test and experiment. Most of the equipment and instruments are very sensitive, and they could make dangerous hazard due to unexpected malfunction. Therefore, they have to be operated in good condition and repaired completely in case they are out of order so as to minimize the environmental pollution and the radiation damage.

III. Scope and Contents of Project

This project has been developed to maintain and repair the nuclear electronic equipment and instruments in KAERI. Therefore the following have been carried out: 1. Calibration and correction of process equipment ; total 82 items which are 23 items including six differential switches of pool water treatment system in FIFE and 59 items including 6 level transmitters in RWFTF 2. Improvement of aged process equipment ; total 2 equipment which are alarming logic of pool water treatment system in FIFE and lamp control module (IND-100) of RMS control panel

- 5 - in RWTF 3. Repair of electronic equipment ; total 48 equipment in 3 laboratories including one ion implanter of nuclear physics engineering team 4. Calibration and correction of radiation monitoring equipment ; total 52 instruments including one hand foot contamination monitor in PIEF 5. Fabrication of electronic equipment ;total 73 items including one sequential sampler

IV. Results and Proposal for Applications

By the results of this project, we are able to solve the problems on maintenance and repair of electronic equipment, and able to have research works done effectively in KAERI. In addition, this project would provide us with the opportunity to improve the maintainability and instrumentation, and also to develop similar systems, as applied to the pilot plants. With the technology and experiences gained through this project we will be able to improve the technonogy of radiation and to contribute to the domestic development of radiation equipment.

- 6 - CONTENTS

Chapter 1. Introduction...... 13

Chapter 2. Main Discourse...... 15 Section 1. Correction and Adjustment of Process

Equipment and Maintenance...... 15

1. Post irradiated examination facility ...... 15 2. Radioactive waste treatment facility ...... 21

Section 2. Improvement of Aged Process Equipment ••• 23

1. Improvement of alarming system in unit 211...... 23 2. Improvement of RMS lamp control modules ...... 33 Section 3. Maintenance of Electronic Instruments RMS

Equipment in Laboratories ...... 37

1. Electronic instruments of internal laboratories ...... 37 2. Electronic instruments of external laboratories ...... 44 3. Radiation monitoring system equipment ...... 44 Section 4. Geant Simulation Program for Radiation Instrument...... 46

1. Introduction of Geant simulation program ...... 46 2. Geant simulation for selection of semiconductor detectors ...... 47 3. Fault detection of pipes using Geant simulation ...... 52 4. Design of thickness detection system using Geant simulation ...... 59

Section 5. Fabrication of Equipment ...... 53

1. Fabrication of sequential sampler control modules for a simulation of radioactivity expansion ...... 63 2. Design and fabrication of electronic circuit modules for MAFF system ...... 74

Section 6. Results ...... 78

- 7 - Chapter 3. Conclusion...... 117

References...... 119

- 8 - *1-

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1. GEANT Simulation Program 4|T-...... 46 2. 4^4] 4 #4 44-0- GEANT Simulation ...... 47 3. GEANT# 44-4 44^4 4# A4 Simulation ...... 52 4. ^4] A44 44# 44 GEANT Simulation ...... 59 4| 51! 7] 7] 4] =5]-...... 63

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- 10 - 24 2-9. PLC 4 4 4 #4 44 4 #2 ...... 35 24 2-10. PLC r]]4224 #422 442...... 36 24 4-1. GRANT Program^ 7]] 4=2...... 46 2 4 4-5. GEANT Simulation 0!] 4-§"4. Si 4 #7] geometry ...... 48 2 4 4-6. 344 geometry 0!] 4 107}] £] event# # 4] 4 2#...... 49 2 4 4-7. Geometry 0!] 4 1007}] £] event# # 4§ fS# 4] 4 2-#...... 50 2 4 4-8. 4 °!] v| 4 4 444°!] rfl# Simulation 44...... 51 24 4-9. GEANT Simulation 0]] #-§-% 7] 444 ...... 53 24 4-10. 344 geometry 0!] 4 1007]] a] event# 44 # 4] 4 2,#...... 53 24 4-11. Defect 1# #7]]% 4] 4 #7] ^ A] g] energy loss ...... 54 24 4-12. Defect 1# #7]] 2 u]] ^ #7] oi] 4 g] energy loss ...... 55 24 4-13. Defect 1# #7]] 2 u]] 4 #7] 4 4 g] energy loss ...... 56 24 4-14. defect/} °]##4] 44 4#7]°]] 4#4^ 44m4 ^4...... 58 24 4-15. #4] 4^4 4#7]°] 44^] ^...... 59 24 4-16. GEANT code 0!] 4 44 geometry 4 2.#...... 60 24 4-17. Geometry 0!]4 1007]]a] event# 4]4 2#...... 61 24 4-18. #4]# GEANT0!] 44 2444 44...... 62 24 5-1. 4^4 f42...... 64 24 5-2. Vcc 4442...... 65 24 5-3. 42414 42...... 66 24 5-4. 4224#44M 42...... 67 24 5-5. 44^ 41442...... 69 24 5-6. 44 2242...... 70 24 5-7. 244 42...... 70 24 5-8. ^444 42 #4-...... 71 24 5-9. #4 41442...... 71 24 5-10. 4244 #4.4 44: &442]0] 4442 44...... 74

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- 16 - 5. 1-3. 44^#^#4 LI60.1# 447l LI60.14 a###

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- 17 - (4) 44# ^ 444 w ^ #4 25# 44 2.44 #4 4=o]^_ ^ #o]#a##4^a 304 35# 444 4# ^#44 44# ^ #4##4^a4 #444 444 444 444 4(PI30, 35)4 4444.

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- 22 - 4 2H ^ til 7^

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44 2-1. 4#4# 444 #44 PLC#

- 23 - a 2-1. #MSMS ^Sl g#

Li’S 41s til 3 4M LO-10 20 mmWC #10 LW-10 50 mmWC LO-15 20 mmWC #15 LW-15 50 mmWC LO-20 20 mmWC #20 LW-20 50 mmWC LW+0+60.2 1600 mmWC 88.9% LW-60.3 80 mmWC 4.4% S3 PW-151.2 5.5 bar ^S25& 60 PW-152.2 5.5 bar sealing water SIS dPIW+25 1.5 bar w# % LA+80.4 S)3 LO-80.2 105.9 mmWC LO-80.3 132.4 mmWC 80 LA+80.5 133 mmWC (HN03) LO+80.4 999 mmWC FIP-80 8 mA 25% LA+85.5 1065.4 mmWC 84.2% S3 LO+85.4 999 mmWC 85 LO-85.2 133.2 mmWC (NaOH) LO-85.3 106.6 mmWC FIP-85 8 mA 25% sump unit 211-£| 26, 31, 36 drip tray LW+51 30 mmWC 51 S355 LW+55 LA+55.2 50 mmWC 89% (MAW) LO-55.3 10 mmWC 3.7% sump53 LW+53 50 mmWC SI 3. 555,n1 El -2) ## sump S3 55SMI S3 5033 Sifl# S3 PO-551.2 4.5 bar S A 551-21 sealing water SIS 50 LA+50.2 50 mmWC 89% (LAW) LO-50.3 10 mmWC 3.7% S3 50S soigSf-SS ## LW+54 50 mmWC sump sump54 501 Si ##5] # sealing PO-501.2 4.5 bar water SIS

- 24 - CABLE DUCT 40*60 TRANSDUCER 6A 2Z0/24V SMPS SIGNAL CABLE CP1-BKM3A O O □

0 0 TRANSDUCER SIGNAL

CP2-QKM3A o O

DUCT o 0

CP3-9KM3A 0 o □

o o CONSENT 40*60 FILTER NOISE TERMINAL CABLE CABLE R1 PLC

O O R2 <>FG GOLDSEC

DUCT

UNIT DUCT POWER M2N- M66P AC Ac

BLOCK R3

MAIN CABLE R4

UNIT CPU CPUA M2N- 40*60 40*60

BOARD R5 N0.1 POINT 32 X IN DC24V UNIT INPUT MX41 M2N- 001 0000-

R6 (M38B)

F DUCT POINT RELAY 32 OUT UNIT OUTPUT MY M2N- 002F Y 0020- R7

13 R8

IN POINT 32 DC24V UNIT INPUT 2002 # 40*60

^ R9 POINT IN 32 DC24V UNIT INPUT 2002 # R

10 g POINT IN 32 DC24V UNIT INPUT 2002 g BLOCK TERMINAL

8

N0.2

CABLE DUCT 40*60 AOWV 21 lUNIT/MCCIi m T4H 07 08 0 0 0 0

PLC GOLDSEC MAIN BOARD (M38B) CP2 8KM-6A X Y 14CA 15CA R0 5 AC 0000- 0020- 2002 2002 2002 -o 00 IF 002F ^ -a * 4 # NOISE FILTER °FG -O O- 6 AC M2N- M2N- M2N- M2N- y M66P CPUA MX41 MY 13 POWER CPU INPUT OUTPUT INPUT INPUT INPUT UNIT UNIT UNIT UNIT UNIT UNIT UNIT DC24V RELAY DC24V DC24V DC24V IN OUT IN IN IN 32 32 32 32 32 POINT POINT POINT POINT POINT

2-2.

ZL$

CP3 8KM-6A

T221 o o EXT-M/C : I.IA IN (TKylNS NITKK) 1^-55.3 4-aw 1&2 OUT SIGNAL ISOLATOR N221 T221 ...... ^V ...... A ...... — 0 0 DTSI-777-2

LKM

PANEL ANALOG INDICATOR

4-20mA £----- > 1*----- >

I-0-55.3 LO-55.3

2-3.

^

m

■> P24 xom

LEVEL CONTROLLER - LO-55.3 MX41-01-01 MX4H1-02

INPUT INPUT P24 P24 m TXT-M/C 9f 18 T8

XOOOO X010 /4O.01 X0010 0------1 -o o- 19 LAMP TEST L0-10 O...... X0Q1 .. XOO01 X011/40.02 X0011 2 0—0 O- 20 ALARM KLAXON TEST LO-15 -Q X002 X0002 XO12/40.03 X0012 3 0-0 O—0- 21 ALARM KLAXON STOP LO-20 - X003 X0003 XO13/42.05 X0013 U4 4 0—O O—0 22 ALARTA CIRCUIT FAULT KLAXON STOP LA+50.2 XO14/42.08 X0014 O X004 5 X0004 0—O O—If- 23 M 0 LA+55.2 Q X005 X0005 X015/42. X0015 6 0-0 O- 24 0 LA+80.5 X016/42.14 X0016 0 X006..... 7 X0006 -O O—If- 25 0 LA+85.5 O X007- X0007 XQ17/43.01 X0017 8 0—O O—0 26 0 LWT51 Q X008 X0008 XO18/43.02 X0018 10 -O O—0 28 0 LW+53 Q X009 X0009 X019/43.09 X0019 11 0—O Q—-0 29 LW-10 0 2-4. X00A XOOOA -4—O O—4X01A/43.10 X001A 12 30 0 LW-15 Q X00B XOOOB LX01B/43.11 X001B 13 0—O O- 31 0 LW-20 0 XOOC xoooc r 1XQ1C/41.Q2 X001C 14 _0 o -- eF 32 0 U0-50.3 LBV11 CON’T IJ()» f 1 f) 0 xooo XOOOO X0010 15 4-cT6 4—1- 33 0 IjO-55.3 LISVItL CON'T OOff f|?| um. CON'T LOW il {j o - - XOOE xoqoe X01E X001E 16 o o ------34 0 XOOF XOOOF X01F X001F -o o- 17 o o- 35 0

9 D24V . C0M1 27 P24V COM3

18 024V COM2 36 P24V COM4 MY 13-02-02 MY]3-02-0t 15CA MCA OUTPUT OUTPUT 15CA MCA i.\r <9 0 Y0020 Y0020 40.07 Y0030 1.5 L0-10 Y0021 Y0021 TO. 08 (3 is LO-IG Y0022 Y0022 40.09 i, ) LS IjO-20 (3 Y0023 Y0023 42.03 , * ? ' > LA+50,2 © LO-50.3 Y0024 Y0024 42.09 ^ Y0034 1 i(3 LA+55.2 LO-55.3 Y0025 Y0025 42.12 £s ? ^ ^ £ ( 1 ) LA+80.5 3 LA+50.2 (212UNIT (C) Y0026 Y0026 42.15 ^ , } Y0036 LA+85.5 3 LO-50.3 (212USIT tiapRELW (Cl Y0027 Y0027 43.01 t , ?0 LS LW+51 Y0028 43.02 Y0028 10 , ? LS LW+53 rn Y0029 Y0029 43.09

1 > LS LW-10 YW2A Y002A 43.10 j; ? 12 i LS UH5 2-5. Y002B Y002B 43.11 Y003B Y003B 13 ’ > •

LS LVJ-20 9 rz.^ Y0Q2C 14 1 , ? LS LO-50.3 rn Y0021) Y002D 41.08 15 LS LO-55.3 1 Y002E Y002E 16

Y002F Y002F Y003F 17

C0W1

COM2 18 MY13—02—01 MY 13-02-02 15CA 14CA OUTPUT OUTPUT 15CA MCA 9 0 TB 0 0 Y0020 Y0020 40.07 Y0030 YOO30 , | 19 —RL010 LS L0-10 UHO 0V Y0021 40.08 Y0031 Y0021 20 Y0031 / RL015 LS LO-15 LO-15 k Y0022 Y0022 40.09 j 7 Y0032 Y0032 z 1RL020 9 \ I.S 3.0-20 Ij0-20 21 V Y0023 Y0023 42.03 Y0033 Y0033 z RL050.3 22 LA+50.2 L0-50.3 k ...... ' £3

Y0024 Y0024 42.09 ^ Y0034 Y0034 z RL055.3 23 k LA+55.2 1 k LO-55.3 W Y0025 Y0025 42.12 7 Y0035 Y0035 z U50.2 9 > 24 k V LA+80.5 LA+50.2 (212i:NfT )KMAY (C) Y0026 Y0026 42.15 , 7 Y0036 Y0036 / Lor,o.:t * i 25 k 'K LA+B5.5 L0-50.3 (212UNIT 4!&>RELAY (C) Y0027 Y0027 43.01 ^ , 7 Y0037 Y0037 z BUZZER 1 > 26 LS LW+51 KLAXON BUZZER k 'M Y0028 Y0028 43.02 ^ Y0038 Y0038 V 10 1! lf 28 LS LW+53 W Y0029 Y0029 43.09 Y0039 Y0039 5 i # LS LW-10 29 Y002A Y002A 43.10 £ Y003A 12 Y003A cd LS LW-15 5 t 30 i CM Y002B Y002B 43.11 i 7 Y003B Y0038 k 31 LS LW-20 w Y002C Y002C 41.07 ^ Y003C Y003C 14 . 7 32 LS L0-50.3 5 t n Y002D Y002D 41.08 c Y003D Y0030 15 , 7 33 LS LO-55.3 9 > Y002R Y002E Y003E Y003E 16 34

Y002F Y002F Y003F Y003F 17 35

C0M1 COM3 27

COM2 18 COM4 36 EXT - 212 UNIT

41.15

L0 - 50.3 415: 4 |

212.143 42.06 2-7. LA + 50.2 2.08 10CA 3.01 1.01 0 0- 0 0

I R1 09

R1 R1 R2 R2 R3 R3 R4 R5 i

R2 w 10 8 0 0 0 0 0 0 0 0 f 12.01 15.01 11.01 14.01 10.01 13.01 3.02 4.02

RL010 RL010 RL015 RL015 RL020 RL020 RL050.3 RL055.3 0 00 1 CM 0 W 2.11 n R8 (BUZZER)

BZO1(409) 0------

30CA 0 2. ##44] 7]#444## RMS 49 :2: PLC#

IND1004 Field*!] #4^ ### #4 4^4 4 MAFF, Alilog*l]4 49 #4 &] #4 ^ 43# #x}4 44 #4 #444 4#34 4^4-4 '44% '42% '4 2

4'# 42## ##4 #38 4f]4 49=: # 4 2& 443)&*] #. IND1004 3) 2(waming) 397%, 4 2(alarm) 397% 4 2# 787]] 3 o]#4# 4 4. 34# 4447} 244s 444#*1] 7]] #44 444 444 document# schematic diagram °] 44 §}-=} 44 *14# 2.# x}#7} #x]3 #44 moulding 4 4 Si 4 #e] x}3|] 7} #7}##4 IND1004 #4# PLC# 444 4 2334)4423 444##.

7}. #24] 4 #39 z} junction box*!] 4 2# 444## PLC4 4423 444#2, 4 444 #7] 4 PLC #44 7]#4 -44 # 3.44 # 4# ##4 444#2, 42#

# 79 # 4 4# ##_&## 44 # ### 7] #23 #ze] ## #44 f 33 3 ^# %!]####. 4]##4 4 ### 44 44 # LG 444 GLOFA GM4 442# PLC# # ###34 , j& 2-2# ### PLC #4 #34 ] 4 2# ##3.# 242 Sit}-.

#4 2-24} ## 2-34 7]#4 IND-10023 #4 # 442## PLC3 #44 43:44s.## ## #42 4#. 3.4 2-93} 2-104 PLC 444#4 4444

2 # plc 4432# 4422 442# ## 242 4#.

2 2-2. #24 4 2.# 4 #2

# # 2#4 # 4 # 4 442# GM4-PA2A AC220/DC24V 10A 2 CPU 2# GM4-CPUA 44 <8 #4 10244 1

44-22 GM4-B08E - 1 442# GM4-D24B DC24V, 324 6 #42#GM4-RY2A relay #4, 164 10

- 33 - 4# 2-3. PLC& 7% 4^ IND-100

34 FROM : TAG 03.1 POWER TR NOJ FUSE mow : TCR46V-0007(L-HXX)7) 0006(1-0006) AC220V +46V -48 V 0 fi R

A 6 A. / V C J------4 MK MCC8 ABS32A/20A B DC48 V WCC8 BKM 8 A Q/ Q'

PLC MCC8 BKM BA PIC GLOFA CM 0 0 & -H8 V -48 V R220 l R221 V

T220 T221 ■5T -o o IDjo K in T co w

FI/M a P23V < ’do ROSIER SUPPL^ > 4ZF P2W DC ROSIER SUPPLY o M220/DC2W j 10A M24V CM nPn

AC220VAC 2? CONSENT R220 T220 R220 T220

PLC WFB A3S32A/1M

PIC GLOFA G&M MAIN BOARD SX 0.0.0~ 0.0.15 0.1.31

OUTPUT OUTPUT UNfT UWfT DC24V 0C24V RELAY OUT 32 32 16 POINTS ROOTS POOTS

G4C-E121 (e-M CABLE 1.2M) PLC GLOFA GM4 EXTEND BCARD (GM4-BQ8E)

1.6.15 1.7.15

OUTPUT OUTPUT OUTPUT OUTPUT UNIT IMT IMT RELAY RELAY RELAY RELAY RELAY OUT OUT OUT our OUT 16 16 16 16 16 POINTS POINTS FOOTS ROOTS POINTS

2-10. PLC

36 44^4 5^4 54).44 444 7] 4 4545" A1 4 7] 254 45)444 4 44 44 4545454 ion implanter 5) <5 2-it 4 475, 4545-4 71 44 4 5544444 54-544-44 5 4944s, 44444 445 544544 45444455 PRM470A 5 25AS, 5-551 45 254)44 554 55.

1. 54 55-54 iLr

- Ion Implanter 453)4. : 4#4554 5417))# 5 4 : Ion source circuit 54 44 2.454 : 24444 fit 54

- Metal Implanter 443)5 : 31)#4^44 4417))# 5 4 : Ion source circuit 54 44 2454 : 24444 fit 54

- Omni Graphic X-Y Recorder 4445 : Houston Instrument Co. 5 4 : X, Y5 Motor 54 45 2454 : Amp.4 TR S4|

- XRF 414315 Diano Co., U.S.A. 4 54#5 4A l4 44554 54

- Air Sampler 414 4 5 : Eberline 5 4 : Motor 54 45 A454 : Air Sampler 5 2-4 2.4

- 37 - Strip Chart Recorder 414314 Sambon, U.S.A. 4 4 44 44 a.44el Signal Processing IC 514]

MAFF RMS (^44 4444) 414314 : Merlin Gerin 4 4.44 444 : HG1, HG2 SAD module 44

Stack monitor 44314 Canberra, U.S.A. 4 4 44 #4 ^444 4 €4" S 44

^4^4444(HFM-7) 443|4 Eberline 4 4 4444 a.444 ^#7] 4 4H

Chemical balance, PM400 414314 Mettler, Switzerland 4 4 4.44 ^444 44 444 44

I.R. spectrophotometer 414314 Perkin Elmer, France 4 4444 -4- '4 Bridge 3! kL OP amp. 51-41

Electronic Balancer, PC-8000 414314 : Mettler, France 4 4 : Meter 44 #4

- 38 - Kr Monitor Merlin Gerin 4 4444 3444 High Voltage module 44

Multichannel Analyzer, Model 8100 4 43)4 : Canberra, U.S.A. 4 4 : 44 #44 3.444 : Oscillation 3) 5L

Emission Spectrography 443)4 Camaca, France. 4 44 44 -4- L4 Connector 44 -3 4 pH Meter, 410 443)4 Fischer, U.S.A. 4 4#4 -4- L4 4 ^44 44

Chemical Balance, PC 8000-82 443)4 Mettler Instrument AG, Switzerland 4 4 4444 #4 3444 Balancing unit 34

Omni Graphic X-Y Recorder, 2000 443)4 : Houston Instrument, U.S.A. 4 4 : X, Y4 4444 3444 : X, Y4 control unit 3444

I.R. Spectrophotometer, 4230 IR Beckmam, U.S.A. 4 4444 #44 i444 443)334 ^4

Flameless A.A. Spectrophotometer 443)4 : Alein, Australia 4 44 #4 Control Unit 3.4

VG Quadrapole Mass Spectrometer 443)4 Beckmam, U.S.A. 4 4 4444 3444 44 44 34

Hand/foot monitor 443)4 : Nardeux, France 4 4 : 3##, #44 4444 # 3444 : Count module 44

LVDT Conditioner 443)4 : Tacussel, France 4 4 : 44 43 3444 : Transformer 34

Electronic Recorder, PD 265 4444 Sefram, France 4 4 44 #44 3444 Pen Drive 3)3-

XRF 44314 Diano Corporation, 4 4 4444 #4 3444 44443)3 34

- 40 - PH Monitor 44314 Beckmam, U.S.A. 4 444 1444 Compare unit A 4

Spectrophotometer 44314 Varian, Australia. 4 44 #4 -4- Meter Display '4

Speed Controller System, TR 9020 443)4 : Minarik Electronic, U.S.A. 4 4 : Speed Control 44 3.44 Si : Diode, SCR a 4

Furnance Controller 4 43)4 : Sybron Thermolyne, Australia 4 4 : 4554 #4 2444 : 44543) 5(TRIAC 3)5) 44

Process timer H3BF-8 443)4 : Shulemberg, France 4 4 : Timing 4444 2.444 : 443)5. 44

Electronic Balancer, PC-8000 443)4 : Mettler, France 4 4:444 #4 2444 : Drive unit 24

Transceiver, PRC-3 443)4 : Kuk Jae, Korea

- 41 4 4. #4 ^444 '44- L34

Infrared Analyzer 41444 : 4 4 : 44 4^ 3.444 : 44 444

Flameless A.A. 4444 Tacussel, France 4 344 3444 PCB board IC 3 4

D/P Transmitter 4444 : Shulemburg, France 4 4444 °14 i4s '4 OP amp. 3-4

X-Y Recorder 4444 : Beckmam, U.S.A. 4 4 : X, Y4 44 4^ 3444 : 44444 4# 34

X-Y Recorder, RE-0089 4444 : Allen, U.S.A. 4 4 : X, Y4 44 4^ 3444 : Output Drive4

Multichannel Analyzer, Model 8100 4444 : Canberra, U.S.A. 4 4 : 4-444 44 3444 : H-sweep 43 34

- 42 - Spectroscope Amplifier, TT 100 44314 : Tacussel, France 4 4 : 44 44 3.44s! : Preamp., Control Unit

Optical Pyrometer 44314 Smibo, Switzerland 4 444 '21 Moving coil 2 4

PH Monitor 44314 : Beckmam, U.S.A. 4 4 : PH Ft 4 4 S] : Comparator S] 5L

I.R. Spectrometer 4 44 4 : Safas, Monaco 4 4 : Frequency 4^§ y l 44 Z44sl : TOF 44-314.

Electronic Controller 44314 : 4 4 : 4444 #4 z444 : 443|g.

Eddy current tester, IC-5060 4 4314 : licence CEA, France 4 4 : 4444 #4 2.44s! : Connector Unit

Emission spectrograph 4 4314 : Camaca, France

- 43 - 4 3^4 1444 : TR, IC 341

- Automatic Buret 4444 : Tacussel, France ^ 4 : M 4# 3.444 : Amp Unit

Emission Graph 4444 : Technal, U.S.A. 4 444 444 : Main Amp. 4-

- Multichannel Analyzer, Model 8100 41444 Canvberra, U.S.A. ^ 4 44#4 -4" l4 Main board CPU -341

2. 34 4444 34

4. 444 44444 444 4444 - Portable Radiation Monitor, PRM-470A, 14 4444 : Comet Industrial Co. 4 - 44 #4 i444 4445. 34 4#43 IC 3*11

- Non-Nuclear Verification Instrument, NNV-470As, 2d! 4444 : Comet Industrial Co. ^ 4 : - M 4^ 3 444 : - 44444 OP Amp IC 3 4 - 43 3.34

- 44 - 3. 4444444 44

444 ^^4 ^4-#4444, 4443#^14#4444, 444414#^ AL

44 4 44 444444 44444444 4% ^.#.44 44# a 3- -4 44.

a 3-1. ^4 RMS 44 g.# 44

444 444 4 - #4^.4444 : 24 - Kr-gas : HC5, HC6 - Alilog ^Aj-Jf A] .gA]^ 134 .HH4, Preamp, log amp.,Threshold board - MAFF .HC1, HC2, HC3, Preamp, 4444 - Stack Monitor .Iodine, Noble gas, beta particle - Aal, Aa2, Aa3 ,Aa4 - API, AP2 ,AP3, AP4 - AHL, AHR Detector System 44 - I/F converter, 3.444 S_, Preamp 444 - DAC/Timer Z3M4# - MPU Board 244 4444 .buffer, RAM - Low power supply - #4^.4444 - 4 #44 S/W Customizing .PLC ## .communication to PLC .Slit 4 4M - MAFF ,HE4-4,HH-l,HH4-4,Rate Meter(SAD), 444414# Preamp 104 4444 - Alilog .HF5, HF6, HH6,Log amp., Threshold board - ^4&444#444 .#4-44444 14(4 #4 ^41) 44 44 24 -444#44#4 .#44444444 14

- 45 - 41 4#i ticiAl-4i 41 A"71 9] GEANT Simulation Program

1. GEANT Simulation Program ?}] j!

GEANT program# #44 CERN 4##44 2 444 114 4 #7] 4 #4 44!#2g. GEANT# 4 #44 444 ^#7] 4 7lW^l #^# 4442, 444 #& 44 elements, compounds, mixtures #4 #### 44 ^## # 44. 244 4 #4## #44# 444 H4#4 44, 44, ## 4, energy loss# 4# 4^-# 44 444 #444 # 44. 44# 4 & - 4# 444 444 4# • #4 4441#] 4 A 4 #4 2 44. GEANT program# 4444 #4 A 4##44 44# 4 4 4 #4 # 4A 4 444 444 4 444 4^4 44 &44#A 444 4 %#4# 4# 21144# #4 44 44 44# ##2A4 4#44 4## #42 44, 4#

44 #4 ## 714# # 44. 24 4-144 sau ^s] 7114^# u4#4.

Inwajlisflsn ■ ■ I 7 4k ' .w^-Ti

l.uup rivti y ^nl

Certgrjir*on (or mptm or i«ni inl'iil kinomorifi

Lwp U*-' llJtCi.5.. |M ludlrvg iii> iotimdar|iK gunwnted

tdudul (fflCtinij 01 ■ in r^n ! biKlt

flUMtdlng ilf hill lb mu :1njLLjr^ jHl TS und ill spjiH 0M11& in rliii> ^(",ur(ul,t iWfZ

Output r.| : :in mi rvtr.i

Sian^rd L.bAN I Hh notion

2 4 4-1. GEANT Programs] 4#A

- 46 - GEANT Program 0!] A) a }-^5]o ]x ]^ #4# 4#4 44 44# # $14. GSVERT44# 44 444 &7] 44(x,y,z)# 444#, GSKINE# 44 4 44 &7] ##4# 4444. GUSTEP## #44 GSKING# 44 444 tracking °1] 44 1 4# 4444, GSMIXT0!] a ] material4 4 4# 4 444. UGEOM4 444 4 GSTMED# tracking medium^] 4 4# 4 442, GSVOLU# tracking medium4 7] 444 ### 4444, GSROTM4 tracking medium4 mother volume 0!] 44 rotation 4 kL# 4 4 42, GSPOS0!] 4 tracking medium4 mother volume 0!] 44 44 44# 4 4 44. HBKDEF 44# hbook 444 444# 4444# 4# 44m# HROPEN4 hbook 4 4## 444# 444# HBOOKl## 4444. GUOUT4# hbook 444 444# 44# 4 44 parameter# 444#4 #4m# HFILL4 444 $1 4.

2. 4 #4 44-0- GEANT Simulation

Si 4#4# 444 4 #4# 4-0-4 44 4## 2.33 g/cm^]## 444 4 #  444 444# 444 01 #4, M#4# 444 4#4z 444 4 444 4#44 444 #4 4 44 4 Hkzs 4 44144# #4 #44] 4 #4 4-0- /I## #4 4## 444 PM Si 4#4# 4-0-4## simulabon ###^# 444014. Si 4#4# 4-0-4 44 ## #4#/]- 44 #444 444 444 4-0-# #4# 4 444 4444. # #44 4#4# 4-0-4 /]-#444 4444 44 44!&# 4 #4 4-0-4# 4#44 444 4 4444 Preamp44 444 4#4 4## 44 444 44. #4 4-24 geometry 4 444# 4## user code# 4444 #4 44# 4^8 4014. #4 4-244 444 #4# 44 #444 444 x#4 44# 44444 4444 4#44 44## 4444# /M44 Simulation# 4014. 444# 4444 444# 44 0.122, 0.622, 0.835, 1.2 MeV44 4 4401 #4, 100471]°] 4444 44401# 4, 4#44 #### 444 loss # 444014. 344 geometry 44 104#] event# 44# 44 ##°1 #4 4-34 444 01#, #4 4-4# geometry 4 4 1004 #1 event# 44 Si# 44 ### 444 #444. 4 444 4 444 GEANT Simulation 14# #4 4-54 444014.

- 47 - 0.01 0.145 0.2551 0.2621 0.355 0.515

Polyethylen

0.045 0.255 0.2586 0.305 0.415 0.550

4-2. GEANT Simulation°ll -M-o'-S Si ^ #7] geometry

- 48 - 4-3. 3 #49 geometry 0!] # 107}]£] event# 99 A31= 4| S]

- 49 - 4-4. Geometry 0!] 1007}] £] event# # 43 fl.# 4| S] 2.#

50 in i 3. GRANT# ##4 4### 4# ## Simulation

4## #^]# ^u] 4#3& #:4 ^|# defect?} ## ## 4 4#### defect^ ## 44# 4# Simulation# ##444- 3# 4-6# GRANT Simulation# ### #444 ### 444 3 #4. 3# 4-7# GRANT0!] # geometry# code #3. lOO^flS] # ## # 4# # ## 2.## 3 4 ### 444 3 #4. 4### ##/} 6 mm# ## 4#2g.A] ### 30 cm #4. 44### 2mCi Co-60# #-§.#-#3# 4### 444  44 5.08 cm# BG04### 4#4#4.

44####44 4#/]# 44# 44# z##g. 43, X## ### #4# 4 44## 444 44# 44#4. 44### 44%]]# ###3 cm#3 4 # 4## 0.5 cm0]#, ##/} 3 cm0]4. °] ## ### #4 Simulation## defectl# ##43 defect2/} ## # defectl# # 44#& 0.0, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0 mm ## 4## 44# #4 44# #4# 10047]]# #4si# # 4### #44 # 4# ## #44#4. S4, defectl# ##44 #:3 defect24 #44 4 0.0, 0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0 mm ##44# 444 44 44# #4# 100#/]]# #4^# 4 4## 4 #44 #4# ## #44#4. 4 #44 #44 4### event# 4# 4# a# 44. 34 4-84# 34 4-1044# Defect 14 #4% 4 4#44#4 energy loss# 3# 4#4. Defect 2# Defect 14 ## 44 #44# 4 #4 #444 4#4. 3 4#/] 4# 4#4 #44# 5. 4-14 444 44. 3# 4-11# defect/} #### 4 4 4#/H 4#4# #44# 44# 444# 3### 4.

- 52 - T5 cm 30 cm >5 trfl

6 mm o mm

4-6. GRANT Simulation^] 4-§-% 7]

53 50000

4oaag

30000

20000

10000

0 1 1 ■ 1 1 1 1 1 1 ■ 1 1

Total E Loss in BOOfMijV] y = 0 cm Tnlol E Loss in 0OO(U-cV) y = 0 05 cm 50000

40000

3D000

20000

10000

0

Tot; I E Lnss in BOO(UcV) y = Q.1 CTO Total E Loss in BGOfMetO y =* 0,1 5 cm

4-8. Defect l1?} # 4| 7AikA °1] energy loss

- 54 - ■ ■ I

"Total E Loaa in BGQ(MeV) y = 0.2 cm Total E Loaa In BGD(WeV) y = D.25 cm

in rvit? x f y — -_._i i_iui iului l. i_utiti in duu | m

4-9. Defect l1?} # 4| ^#7]o]]a ]*] energy

- 55 - "Total E Loaa m SGQ(MeV) y = 0.4 cm Total E Loss In B£D(UeV) y = D.-45 cm

Total E 1-033 m BCQ(McV) y = ".5 err.

4-10. Defect l1?} # 4| 7AikA <41 Ai S] energy loss

- 56 - a 4-2. GRANT# 40] Simulation#4

44^1 defect 1 defect 2 0 90908 83654 0.5 91036 83429 1.0 88508 83390 1.5 85498 83173 2.0 81678 82487 2.5 79997 81817 3.0 80316 81219 3.5 80315 80587 4.0 80272 80169 4.5 80189 80091 5.0 80245 80215

- 57 - ^4

Counters

4-ll. 80000 82000 84000 86000 88000 90000 92000

------defect/}

4444

44 -

Height 58

4#/]4 -

( mm

4#44

4444 • ■

Defect Defect

44 2 1

4. #4 #^7] 44# ^14 GRANT Simulation

#4 4^7] 444 44 44444 4 #4 4 4444 #3 4 4#4 4# 444 44#4 4# 44# 44a 4 #44 GRANT 2.4 44 444 44 4 7l#44. 4 4444 4#4 4444 4 ### ##4##- 4 7>4 ##4#, 4 44 4 %7i] ##444 4444 444Z 4# 4## 7]e^.g. 4 4#&4 4# 4 4#444 4444# #44 #3# 7M3 44. #4# 4 44 4#44 7}##4 44## #^ax} 4443 4# #^&4 4#44 #444# 44 4 #34# 4#4 4. 4 44 4## #4 #4344 ##4 ^4 51 44# 444 # 4444 3.44 3##7^ 4 4 7fl4 34 #4 ## Array 44& 4#4# 4#44. 34 4-12# 44 NDC4 4#4 #4 #444 44 4#4-4 3 ## 444 3 #4. 4 #4# #4, ##, ##4 ai! # W# 4 ^44 #44 4# # 4# #^4# 4 4#4# #4&4 4444# Am24l(60 keV)# 4##4. 4 4444 44141# ^#g# 4#43 44.

RG1 1

RG9

RG7 RG8

RG4

RG2 2 O m ion RG3.

RG1

34 4-12. #4 #^# 4 #4 4 444 #3

GRANT4 Code4 444 geometry^ 3 ## 3 4 4-134 444 44. 3 4 4-14# GRANTS] geometry 4 4 1007}] 4 event# 44 Hr 44 3## 4444. 3 4 4-134 4# 4444 4# 4 #4 4 4 Am-241 (Point

- 59 - Source & 7^)2. 4z 4^44 #4# 4^7} 1.04 #44(CH)2. 7^44 444 GEANT4 4% &444 144 71 l 4-154 #4 4444. 44 li 44 Csl# 4-0-444. 44L& 4#4# arrays 44 1^4 4#44 # 4# CZT, Nal 42-2- 444 1^# 4 4444.

UNIV specific at tons

Til 4-13. GEANT code 4 4 44 geometry 4 2-4

- 60 - 4-14. Geometry 0!] 1007}] £] event# # A31= 4|S] 2.#

61 L=D. 1 nun t=0.2 nun

40 50 60 40 50 60

Totel E Loss in Csl (KeV} Total l Loss in Csl (KeV) Tstal E Loss in Csl {LrV>

Tate I E Loss in Csl [KeV; Total E Loss in Csl (KeV)

dl 4-15. 441 GEANT4 41 2-411 14

- 62 - 4 5^ 7]7MM

1. 4-###4 &4#%# 44

7}. ?!]_& a. 2.## 44 #4444 rj]4 &4#%# #47}&44-44 ^ 4434444 1995434 444 43# 44 44% 444. 4 4 4% Sequential Sampler433 %4- Sequential Sampler# 444 4443.4 44% 44 444 44 444 4# 4444 44 44# 4444 4% 3 4%%443 4444 3## 4444 44 44 %%#%# 44 #4 43 44 444444 4 44444 444 4 4444 444 44#4 444 5-S. #7]# 344# 7]4# #3 4%. Sequential Sampler# #7]4 #4 4 #^# 4444 ###% 44 44# 444# 4] 4 #3 #44 # %#4 4 444# 444# 4444 #44 4444 4434 #4144 4 #4 #4# 444 44. ( 444# %44#^%444 443 4144%#)

4. #4 - CPU : Intel 8032AH - Memory : 32KB RAM, 32KB EPROM - 12V 444 Battery3 44 - #4^4^34 #444 - 1 : 124 Distributor# 4 4 4 7] # 4 4 2-4 4 on/off 44 - #444444 #4 4 447}# ( 4# 0# - 2254, 15444) - Mode time #4 #44 - 44 #444 44 7}# - Audible Buzzer #4 - 434 0T# 4 @# 4%33 - 434 #4#3 #47}#

- 4444 34 7]# - 4 ##444 4 #31= 544#

- On/Off #44, Start, Stop, Skip #44, Test #44 #4" - ## 4444 4# - Programmed Air Sampling

- 63 - Buzzer Power Supply

Elec. parts.

Switch

o o A i r Bag

3-4 5-1. 4^

4. 44-45. (1) 4 ^ #4 Sequential Sampler 4 444 44144# DC Power Supply, 444 5# 4 4 4 IC, ^ 444- 444 IC, 45 444, 444 444, I/O 4 #A5 44 %#4 444 4444 44444 DC 9V 4444 4444. 4445# 444 IC# LM7805C# 4444 DC +5V(3A)# 44455 # 445# 4^54 4544# 44 ^ 4^^444444 44# TR 2SD525 # 444^4. ^44## 44454 44# 4444 ##44###5 CPU 4 Intel 8032AH# 4&45 32KB4 RAM# 32KB4 EPROM# 44444. 4czm4444 444 44 45# 4^^4444 444 4444444 44 4 #4 4 Sequential Sampler^ 44##55 #4 5 4 44 START,

- 64 - STOP, SKIPS] 37]-4 key switch 4 4 ft ^ 4444 toggle and temporary SPOT #444 44 44#4# # 4 #4. s4 4#^ #4444 4% # Buzzer# 4-0-44 4#44 ### 44444. 4#444 FOBS] 3.7]# 100mm x 190mm 0]13] 4 #4 4## 44 22P edge connector# 4-0-44.4. Al —^ 47]]S] #4## 3^ 5-14 44444.

(2) Power supply 444 #-#4 4444 DC +9V4 444# #44 4444 4 44# Ql 4 444- IC LM7805C4 4# DC +5V& 4444 Vcc s# 44#& 4-0-4 4 44. LM7805C# 3A4 4#### 4z 4#4 4444 ^4# TO2204 4-. Q1°] 444:4# 25V/10HF4 44# #44 Cl# 4-0-4^3 #444#

447>4^ 25V/10iiF4 44# #44 C24 luF4 44 #44 # 44 a > #444. Vcc Power Supply 4 4## 34 5-24 44444.

Vcc Power Supply

SW1 o —^ QI LM7805C/TQ220 Vcc IN OUT 5 Q C1 Z C2 (D + 03 25V/10uF 1 uF 25V/10uF BAT-

34 5-2. Vcc 444

(3) Pump Control 47] 444 #7]# &447] 44 #4 444#4 4## 4447] 44 4 g.g.4 34 5-34 44 4^4 ON/OFF444 #44#4 2SD525# 4-0-4# 3(Q2) 4443# 4°]35_ #hl#4 Intel 8032H4 Digital Out 47} P15# A} -0-4#4(PCON). 44^-# Dl# ####& 4-0-4 1N414844 ^4 ^4# 444 2KQ4 7}44# VRl# Q24 4444 4#444. #44 SW2# 44s#4 442.## 44# 4 4-0-44 4#4-TM44-.

- 65 - PUMP CONTROL

VccO VccO

PUMP+

D1 PCON 1N4148 PUMP-

2SD525

(4) Distributor Control

a. 1244# 4^-4 4 444 4^/} 4^4z 4 #44 s# 444 444 4" 4^# 4^mel44# 4-444 4. U-Ei^r DC +5VS #44# 442-B^ go. 5. & 4^4 2^44 0N/0FF444# 444. 44# m#4^4& Q3 41 2SD525# 4-W^z 444^# 44ag. aEa_5] Intel 8032H4 Digital Out 44 P14# 4#444(DC0N). 44#^ D2# 1N4148& 4&^-S#44. o.^ 5-44 4czm44Ei 4&# 44444.

- 66 - VccO DISTRIBUTER CONTROL D+ D2 L 1N4148 Vcc C5 1 uF O D-

R6 R4 4.7K 10K R5 Q3 DCON ^\/\/^ 2SD525 1K

5-4. 4^1=44444

(5) Digital Control 44 #4^]44&# zz_4 5-5444 44 44 ag. aE #44 U1 Intel 8032AH4 4^ 4]2.4& 32KB4 SRAM(U6), 32KB4 EPR0M(U5)# 4-0-44 4^444. 4^4^ #4# 44 4^4# U3^& 74LS138# 4-0-444. 8032AH# 4#4s4 4-0-2.^^. 4^442 Pl[0..7]4 P3[2..5]# I/O 44& 44444. 4^4^ 4H44 ADDR[13..15]4 44 4^4% o_4 NADN Gate U4 74LS21# #44 44 SRAM 4 62C2564 204 CS44 4#4 4 44. 44 EPROM 4 U5 270256# 8032AH4 294 4 PSEN 44# #44 Enable/Disable44. 8032AH4 #4 #4## 11.0592MHz 4 444#4 XI 4 4# 4444. 8032AH4 I/O# a 5-14 44 4444 44.

- 67 - 5-1. 8032AH4] I/O ##

Pin NO.(Port Pin NO.(Port I/O Assignment I/O Assignment Name) Name) 1 (P1.0/) TIMECODE1 7 (P1.6) START 2 (P1.1/T2X) TIMECODE2 8 (P1.7) SKIP 3 (P1.2) TIMECODE4 12 (P3.2) DINDEX 4 (P1.3) TIMECODE8 13 (P3.3) DPOSSIG 5 (P1.4) BUZZER 14 (P3.4) DCON 6 (P1.5) STANDBY 15 (P3.5) PCON

- 68 - Vcc C6 R10 9_ DIGITAL CONTROL 25V/10uF 80K pATA[0..7] U1 U2 31 39 DATAO DATAO 3 ADDROy EAA/P POO 38 DATA1 1DATA1 4" DO QO 5 ADDRIy I C7 19 P0.1 "37 DATA2 DATA2 T D1 Q1 6 ADDR2y ||30pF TT X1 P0.2 36 DATA3 DATA3 8" D2 02 3 ADDR3y| 11.0592MH; X1 P0.3 35 DATA4 DATA4 13 D3 03 12 ADDR4y □ 18 P0.4 "34 DATA5 DATA5 14" D4 04 15 ADDRSy I |C8 X2 P0.5 33 DATA6 DATA6 17 D5 05 16 ADDR6y| [30pF P0.6 32 DATA7 DATA7 18" D6 06 19 ADDR7y P0.7 D7 07 RESET 21 ADDR8 / 11 P2.0 32 ADDR9 ^/ 1, G P2.1 33 ADDR10 ^/ OC DPOSSIG P3.2 P2.2 34 ADDR11 ^/ 74LS373 DCON 14C P3.3 P2.3 35 ADDR12 ADDRI0..151 X PCON 15 P3.4 P2.4 26 ADDR13 P3.5 P2.5 27 ADDR14 / TIMECODE1 1 P2.6 38 ADDR15 y \ ADDR131 TIMECODE2 2 P1.0/T2 P2.7 ADDR14 2 TIMECODE4 3 P1.1/T2X 17 RD ADDR15 3 TIMECODE8 4 P1.2 RD "16 WR BUZZER 5 P1.3 WR .29 PSbN Vcc STANDBY 6 P1.4 PSEN *30 9_ START 7 P1.5 ALE/P 11 SKIP 8 P1.6 TXD 10 C G2AY6 P1.7 RXD C G2BY7 8032AH r 74LS138 JP3 ADDR[0 15] y \DDR[0..15]

DATA[0..7]

US U6 \ APPRO 10 11 DATAO / \ADDR0 10 11 DATAOy ADDR1 9 AO GO 12 DATA! y \ADDR1 AO DO 12 DATA1 y ADDR2 8 A1 01 13 DATA2 / \ADDR2 8 A1 D1 13 DATA2y ADDR3 7 02 15 DATA3 / \ADDR3 7 A2 D2 15 DATA3y ADDR4 6 A3 03 16 DATA4 y \ADDR4 6 A3 D3 16 DATA4y ADDR5 5 A4 04 17 DATA5 y \ADDR5 5 A4 D4 17 DATASy ADDR6 4 AS 05 18 DATA6 y \ADDR6 4 AS D5 18 DATA6y ADDR7 3 A6 06 19 DATA? y \ADDR7 3 A6 D6 19 DATATy ADDR8 25 A7 07 \ADDR8 25 A7 D7 ADDR9 24 A8 \ADDR9 24 A8 ADDR10 21 A9 \ADDR10 21 A9 ADDR11 23 A10 \ADDR11 23 A10 ADDR12 2 A11 \ADDR12 2 A11 ADDR13 26 A12 \ADDR13 26 A12 ADDR14 27 A13 \ADDR14 A13 \ ADDRH^ A14 A14 JP4U " VPP 20 JUMPER PSEN 22 “RO­ 22 CS 20 Ob TOR” 27 Ob CE WE X 27C256 HY62C256/L

5-5.

(6) Time Code 4 Key Switch Time code^ 4bit^| aa VS1 S-1010A# 16^^]^! ^ 4 is^r^lAg. 4^1 0-225^4^1^1

- 69 - #444 4444# #4# # 44. 4 444 44 44# ^A]zg_2i^44 44 44# 4 #4.

Key Switch# 44&## 4#444 4# #4 4 34 KEY14 STANDBY #44# 4334444 4#33 14 44# #4 44# 4444 KEY24 START #44# Time code44 444 4444## 444 44 #4# 4 444 44# 44. KEY34 SKIP #44# 4334444 44# 1444 4##3 4#44 4# 4## 4z44.

KEY SWITCH

KEY1 STANDBY TIME CODE —O STANDBY VS1 TIMECODE8 START 1 START TIMEC0DE4 2 TIMECODE2 3 TIMECODE1 SKIP 4 SKIP S-1010A %

34 5-6. 44 2EI]S 34 5-7. 344 43

(7) Connector 444## PCB 444 ^4 #44 BRl# #44 4# 444 43# #3 434 4 434 44 #4# 34 5-84 #4. #44 JPl# 4 4#33 4# 4# 444444.

- 70 - EDGE CONNECTION JP1 (9PIN CONNECTOR) BR1 Vcc jpi BAT+ Q BAT+ PUMP+ * PUMP+ PUMP- < R13 £ PUMP- D+ u D+ D- > 4.7K 4 [T DINDEX y DINDEX DPOSSIG 2 DPOSSIG BAT- 1 B7VT

10 BAT+ CON9 PUMP+ 12 PUMP- 13 D+ 14 15 DINDEX 16 DPOSSIG 17 BAT- 19 20 MSV20

5-8. #^1^4 44

(8) Buzzer control ^ 5-9# #4 4. 44 SU1# ON/OFF 4M44 #4# #44 #4 Q4 2N2222A# 44 a# ###4 8Q32AH# 5# 4# #44 BUZZER### 4#44.

BUZZER CONTROL

D3 1N4148

BUZZER

BUZZER Q4 2N2222A

R9 68

4. (1) Artwork# PCB # 4 4 #4 #4# OrCAD Capture 9.15- 4# 44 A# Artwork 4 Layout# Cadence PCB tool# 44444. 44 5-1# 444 PCB ##44 A}# 5-2# 4#^ 4 44# #44 4444-.

- 71 > 5 cn i

-jn fljti I ■Vj IN) nS I o

(Xu rM s 5 (2) Parts List

Item Quantity Reference Parts

1 1 BR1 MSV20 2 3 C1,C2,C6 25V/10uF 3 8 C3,,C5,C9,C10,C11,C12,C13 luF 4 2 C7,C8 30pF 5 3 D1,D2,D3 1N4148 6 1 JP1 CON9 7 1 JP2 D. SELECT 8 1 JP3 CON3 9 1 JP4 JUMPER 10 1 KEY1 STANDBY 11 1 KEY2 START 12 1 KEY3 SKIP 13 1 Q1 LM7805C/T0220 14 2 Q3,Q2 2SD525 15 1 Q4 2N2222A 16 6 R1,R2,R6,R7,R12,R13 4.7K 17 3 R3,R5,R8 IK 18 1 R4 10K 19 1 R9 68 20 1 RIO 80K 21 1 Rll 330 22 1 SU1 BUZZER 23 1 SW1 SW SLIDE-SPDT 24 1 SW2 SW SPOT 25 1 U1 8032AH 26 1 U2 74LS373 27 1 U3 74LS138 28 1 U4 74LS21 29 1 U5 27C256 30 1 U6 HY62C256/L 31 1 VR1 2K 32 1 VS1 S-1010A 33 1 XI 11.0592MHz

- 73 - 2. 44# #42.4 44444 MAFF 2# 44

44# #42.4 44# 444 MAFF 2## 444 #4# 444# 444, 44 4444 ^##44 4444# 44 4 #442.2. 444# 44-3)2. s#&4 #444 4444# #444 444 #4# #444 4444 #4 44z, 4444 ## 444 #2 4444 4444# #44# 44 #2 #4 #4 4444# #44# 4444. 4 44# 44 24-M4440]) sr)), ^g- 44414#44444 64/} 4444 4#4 4444 #s))3)2 2f3)-2. 44 444 2-#4#2 444 44#44 44# #443. 44.

/}. 44 4445-444 44# 444 3.4 5-104 #44 44 44 Preamp, Amp,

Discriminator, Counter/Timer 2-4 JL 44 4 #434 Control# 4 4 4 4 4# 4 #4# 4 2-## °) #4 44. Preamp# PM Tube4 #44# High Voltage

Bias4 4 AC Coupling 44 4## Anode### 444 4#4 4 4 4 44 3. 44 4s2. ##44 44. Amp# 4s s4# ^4 ^ 4444# #4144 °] #4 Discriminator4 4 4"# 4 4 4 44 4 4# 4#4 #4 44 Discriminator 0!] Ai # 444# 4 #4 #7} 44# Threshold Level 4 4 4 4# Digital Logic 4S2. 4## 44 4#4 444# Counter 0!]4 4#7} .4#4 l!iS 4#4 #4. Counter/Timer# Discriminator 0!]4 444# Logic Pulse #44 44#4 Count44 4444 44# #4# 444# ##42 ##4 444# 442.2. 4# 42.4s# 4444. 4 #444# 444 44# 2 44 Timer# fif 41 #4 Counter 4 4 5.44# 4 4 Logic# 44444 #4# 44 Interface 3]## #444.

(1) 44-312. 2.# #4 44-3)2.2.## 4# 7]##°]2 4444 441 S# #44 NIM Bin0!] 2f 44 #4444. 2.#4°!1 4s 44# 7fl# 4s<4 444 44## 4444, 44# NIM Bin4 Back Plane0!] 444 44 S# #44 NIM Connector# #44 #4 4444.

(2) NIM bin 4# S## 44424 4#4 4 Rack Frame0]4, 4 2#°1] 44# ##4

- 74 - Counter / PM Tube Preamp Amplifier Discriminator Basement Timer

High Voltage Data Analysis & Power Supply Interface

5-10. 444 4^ 443] s #4

7] 44% NIM Connector# %% %%# 44% PCB ^ ^%(%% #%# %7] 4% #e]#)AS #44#. 7]%^% NIM Module Slot# 871] 7} 4 A ##.

(3) NIM %%%# A# NIM Biu4 A]z,^o]] A}#5]^ ## %%# ##%# %# S# S# 110V/220V# H4AS %#, #%## 44# ±24V, ±12V # ±6V S# ±24V# ±12V# %# %#4 1A, ±6V# %# 4#4 2A4 44# ## % 4 #A%, Line Regulation 0.005%, Load Regulation 0.1%4 444 4 44 S# 4%%#. NIM Bin4 27fl Slot# ##%# A#4#.

(4) High Voltage Power Supply/Preamp/Amp/Discriminator RMS 4A^# 444 4#AS 7fl%% NIM s#44, 444 44% 44 44 %#7M] z#4 444^ 44# ##%s, s4# ##%# #4% 7|]p] ## #44 4 #4 4 Anode %S# ##%4 Preamp^ 114 AS 4#%4. Preamp# #44% ### #^%A Amp44 %A4 4^# ### #44 % A4 44# 4% Discriminator 4 4 4 %4- Discriminator# 44% Threshold # 7}%A# 4# A S44 7}#% Level Control^] 4%4 44% #4 4# Logic Pulse# 44 %4- 444 Logic Pulse# 50Q Driver# #4 S## 4% #4% 50Q Driver AS #4# 7}4#. S% A%%4# %## 4# 4 s^## s%4# s4%4 4#4 %S# 4#%4 44# %%## #4%4 4% Analog %S# #4%4. NIM Bin4 271] Slot# 4#%# S#4#.

- 75 - (5) RMS Logic Control with Counter/Timer 44 #4 40 1 RMS 4#33 NIM

Discriminator 0!] a ] #44 #3# #7] 4 o_-g_ <|j 4 a ] 4# 4 Counts} 3. 3 44 # 4 #44 RMS4] ALARM, ALERT, PREALARM, RAPID #4 7]## 44. 7pt 7]4 #44 444 Sample 9] Preamp, Amp ^ Discriminator# # 44 ##4 4#^# 44433 3444 4444 #4444 4#4 #^4 3# 4# Parameter^ ##4 34# #^#4, 4#4-444 #44# 4-# # ^4# 43# 4433 ##44 RMS Logic# #^44. #44 44# 3# 444 44# #44 LED# ##44, #34 4# Connector# #44 44# 4 Relay# ##44 44 #3# 4]#44. RMS# #44 444# 444## #4 #4444 4## #44 444# 4#4# 4#4## 4# Interface44# a }##. 4444 4##43# 3# 4#4 LINUX OS# 7}4# Server# ##44 Etliemet# 4#44 4#4 4 ##3# #434, 33 4##4&4 RS-232# #4 444 4# 4## 44 4. NIM Bin4 27} Slot# 4#4# 3#4#.

(6) Driver/Relay Box Module RMS Control Module 0!]# #44# 4# 4343# 4#444 4##4 4 A] 3444 #4# 5!]#°] 4##44 #4 # 444 Relay# ##44 44 Relay 3#°]4. 444 Relay# 4#4 Logic 433Jf£] Relay Driver# #4 4 ##44 #4##44 44# 4# Connector# #44 4#44 4#4# # 44. 44433 87}4 #4# 7}44 444 Relay 4#4# s#4 44# #44 4#44, 44 44# #3°] 44## 4#44. 44 444# 4 4 44 ON/OFF#4# #4## LED# 7}44.

# 5-24 44 5-3# 444 MAEE 3#4 #3 #44 344 3## 44 343 44.

- 76 - 5. 5-2. MAFF 2.#^ 44

4 4 m-S- 44 - 8 slot NIM bin - NIM Connector & Power Strip - Stainless Guide - ±24V, ±12V : 1A - ±6V : 2A NIM %.# - Line Regulation 0.005% - Load Regulation 0.1% - High Voltage 0 ~ 2000V - Ripple : Less than lOmV at Full Load H.V.P.S ./Preamp/Amp - g-metal Shield for EMI Protection /Discriminator - LED 7-segment Display - 44 44 x\$_ #4 - Discrimination Output : TTL 50 Q Drive - LINUX OS Network Server System 414" - Programmable 100MHz Counter & Timer RMS Logic Control - RMS Alarm Logic 45 4] 44 44 71 4 4] °] with Counter/Timer - Ethernet ^ RS-232 44 - 41 <4 El 3.4 4

- 77 - 4 6^ #4

#4 1444 44#^ 44# a 6-14 #4. a 6-1. 20014 s 44#^ 44

4^4### #41 4 4 4 _^A}^A]^A]^^| ##A]e]^]# 4444 ^5.4(234) .44^444 : 64 .#s444 : 34 .44444 44^4^44 : 54 .44444 : 57D -#4 44444 .###4 44-^4^44 : 24 #44444 .44447] : 27]] 337-5.4 -4-4-4ji3M4#4444 44-44 3375.4(597]]) .Level transmitter : 67}| 824 .Level high alarm : 87]| .Level indicator : 67]| .#S444 : 64 .Pressure liigh alarm : ?7l| .Pressure switch low alarm : 24 .Level switch : 24 .^42:44 : 54 .4444444 : 174 .444444 : Ion implanter 5142.# # 64 -#4 4#/444 .4-44:44 : Gamma scanning system 4 154 484 444 7] 5,4 ,&4w4444 : Mass spectrometer # 274 .S4-#4444 : ^45.4444 # 134 -44444 .27.4-4 4#4 4 44 : Stack monitor # 244 4-44 4444 524 .^H44#4444 : MAFF # 10 44 .44- 44 : 54 -444444 -^44^M44 ##4445-4# PLCS 7]]4 44 5l4 4444 -#4-4 414 #4 4 4 44 444444# 4444 24 44 4 s 5]o ]2.^(IND-100) PLCS 7]] 4 5] 4 -44#44 5.444# #44#444 44s# -4#/44# 44 44 (704) 24 44 4# ^ -RMS MAFF 5# 44 (734 44 .Power supply, Analog module, Relay driver, S#) main processor

- 78 - *tl 3& ^5 ^

#444 4# ^4#4, 4444 4 4444444 4 4% #4 #44 #444# #44 44#4# 4#44 4# 4444# 3L&4P-& 4^4 # 4## 44444.

A/B 444 RMS 4## 4444 4.444 #44 444 4444 4#4 444 #7}#4 4-9-7} 4^4 & Msjz 42-4, #4 # 4-4 44# 4 44#7} 4444 444444 4#7} 4# 44. 44-7^ #4# 4 2444 444 2#4# #24# 2^ %7}4A]^# 24M^A]41^ ##A]4#42|- 444#4^7l#44444 #444444 4% ##4 #^# #^4^2, 2 4^44444 ##44444 444& #444 44 z44 444 444 % 4 24 #4 44444#44444 44444 4#4 444444 424 4s#4 IND-100# PLC# 4#44 44424#2 4#e}44.

444P-2 %4 #44 %7}^A]^o]] A}^5jz 4# 444714- 4-44 4-0-4 #### 44=4 44444 444 #444 2# 44# 441444 %# 44-&4 4-22 4#4 4# 4444 444^ 4#4 7^44 44 44 #224 44 5 444 -8-444.

444# 4%M#42 #44 44444# 4444 44 44444 24 44-8- #47}2444 #-#4 4444# 44 7% 44-4 704 44 44^-4 %7il 4x}444# 44 #44 4444 4-8-4Z 44.

^4#44444 444#7]2444444 MAFF4 44-s|2. 2### 4

44 44444 #442# 44 4444P-4, 444444 4444 44#

444 444 444 4-8-4# 44 44 4# 444 44 444 444 42 #4 4 44 24# #4 444 444# #24 # 444 44 ##4 44

44.

444 444#4414 4#42 4# 444 44444# 4444 #22

- 79 - *1 #4"4 ##4# 4## 4"^ 44^-4, S# 44 4^7]^0_&^44

#44 44 444 44^ 4444 #444 M4 4# #44 4^4^-&

44 44# # 4^-44 ^444.

s #x}444 z##44 #^#44 #4 4 #4 4 4444^4 44444 4#4 44 4 4 ^.#4 44 4 #44 4 #44 4 4 #4# g. 4444z 44 #f #44 4# 444 44-4# 4z4 #4# #44 44# # 4# ##& 4444.

- 80 - t s a

[1] Control Regulation, 1900C 1184, SGN. [2] Technical Note, H0118, SGN. [3] ^ n^, sq 314^1 ^7}^, KAERI/RR-546/86, 1986. [4] DPC8 Technical Manual-Maintenance Manual, 1901.40.3034, SGN. [5] Motor Operated Valve, 1901.40.3018, SGN. [6] KOLAS-99-002. [7] G Programming Reference Manual, National Instrument, 1998.. [8] Data Acquisition Basics Manual, National Instrument, 1998..

[9] Glenn F. Knoll, Radiation Detection and Measurement, 2nd Ed., John Wiley & Sons, 1989.

[10] Curtis D. Johnson, Process Control Instrumentation Technology, 6th Ed., Prentice Hall, 2000.

[11] Nuclear Measurements in Industry, Elsevier, Amsterdam, 1989.

[12] Technical Notes on Error Sources using Gamma and X-ray

Densitometers, Thuming Instruments Limited. [13] 7]]# ^ <>]_§_ #u] 7%#, KAERI/RR- 1997/99.

[14] "Design Aspects of Gamma Densitometers for Void Fraction Measure­

ments in Small Scale Two Phase Flow", Nuclear Instruments and Methods 190 (1981) 135-148.

[15] Wfr ^ 4^, 3#7]7] ^ ^ KAERI/RR-2090/00, 2000. [16] Nicholas Tsoulfanidis, Measurement and Detection of Radiation, 2nd. Ed., Taylor & Francis, 1995. [17] W.B.Mann et al, Radioactivity Measurements, Pergamon Press, 1991.

- 81 &lkkkkkk k Ik k"ff |x kkk lo-lx "kk>k |k k Hz k k kklxk kk-klk (ktk kkODsrkk klkk

kkokklk |k k k# cT 1? |s-|xk kiMVIM jo kk |v-fk lo# kk k k k is "k jk |n#kkk tk kk^Hx #OT^d -f-OOTGNI jo# ST k |k ■§:#3xk kkklk kkkkk to k k ts kk k k kkk k#Ik"Sk kk-S-kk ## kk k k kkk# # k#k> #k## kkk k k Ik# k kkk k# # k k> k k s~k Ik* x# kk kk &|Y-kk{Y-k ^ k k lb k#

jb#0Z-9T) ## kkkkkk |y 1 :# kiv. kk kkk k

X)Z kk##

k s k |o k ZT TOOZ kkk

( taSIJALJAl ) k k # kk k k # k ( ISIWW ) k k # ( ksmn ) k & k kk k kkkkk

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Performing Org. Sponsoring org. Standard Report INIS Subject Report No. Report No. No. Code KAERI/RR- 2181/2001

Title/Subtitle Maintenance and Fabrication of Electronic Equipment

Project Manager and Chung Chong-Fun ( MMIS Team ) Dept. Moon Byung-Soo ( MMIS Team ) Researcher and Dent.

Pub.Place D ub.Date 2001. 12

Page Size 29.7 Cm Note 2( Special Project Classified Op, Report Sponsoring Org Abstract! 15-20 Providing te problems of electronic insti welopment work, and made it d In addition, we have improved the performance of the alarming system of the unit211 in PIEF and the lamp control module(INDlOO) in RWTF using PLCs. And also, electronic circuit modules for MAFF system which is an instrument for airborne monitoring in radiation area have been designed and fabricated.

Subject Keywords (About 10 words) Maintenance & repair of instruments, Support of research & development work, Maintenance and fabrication of electronic equipment, Radiation monitoring system