CMP 200 INSTALLATION & SERVICE MANUAL
Contents
1. 1 MD 0831 x ON OFF OFF 1 47 15 J8 6 J3 6 ass Ab oe 2 P lt MD 0831 I ON 9 S1 E l 1 13 3 Y t I 52 CONSOLE ON KEYBOARD ASSEMBLY BOARD im Eege Se U54 X J6 12 O BUFFER MAIN CONTACTOR 5 DRIVE TO MD 0831 SOFT START MD 0831 lt D7 SOFT START J6 11 CONTACTOR DRIVE 0 TO MD 0831 DATA ADDRESS amp CONTROL BUS H V AUXILIARY BOARD GENERATOR CONTROL BOARD DRAWN DATE G SANWALD 11 FEB 2003 S SYSTEM ON Steve Blake 18 FEB 2003 DES MFG AUTH EDWOOD FEB 13 03 MD 0832 REV A SHEET 1 OF 2 REFERENCE RENARKS THE VOLTAGE WAVEFORM AT THIS TEST POINT IS DEPICTED IN FIGURE 1 BELOW 1 LOW APPROXIMATELY 0 VDC ENERGIZES THE MAIN POWER CONTACTOR IN THE GENERATOR 12 VDC NOT ENERGIZED THIS CONTACTOR IS ENERGIZED AFTER THE MAIN BUS CAPACITORS ARE CHARGED APPROXIMATELY 10 SECONDS AFTER POWER ON 3 LOW APPROXIMATELY 0 VDC ENERGIZES THE SOFT START CONTACTOR K2 ON THE H V AUXILIARY BOARD 12 VDC NOT ENERGIZED THIS CONTACTOR IS ENERGIZED FOR A MAXIMUM OF APPROXIMATELY 10 SECONDS AFTER POWER ON IN ORDER TO CHARGE THE DC BUS CAPACITORS lt gt MAXIMUM 1 SEC 5 V FIGURE 1 GENERATOR SWITCHED ON DRAWN DATE G SANWALD 11 FEB 2003 S SYSTEM ON Steve2. I DE gt 1 gt lt OF poi 20 1 Ze Cw I WO 20O l lt ma 1 Y I boro 1 20 rH zu Q Lo H AS x ei 57 KEE OSs 5 8g ZO SS lt I lt r U ee ewe CS ee ee ee U 5 s s ii EE gt dom lt S80 U2 x l UU gt Q gt 7 wus m gt ed lt 7 LU 002 O x We CONV D7 SAAN AT DATABUS DO ei LL m D0 D7 gt 2 lt DATABUS LO N 5 D CPLD amp en lt 2 5 z m 5 D s 8 0 I Z 259 G 852 u 5 a o LLI LL ke 2 D m gt 2 QM O O N O N 84 25 24 lt l X gt 2 C lt N LO io z E EQZ x 22 5 gt 09 D x i 2 5 NS 5 gt gt 9 gt gt O 89 4 gt 4 29 4 d al gt x X 09 74 i a A x 5 lt An gt ZvVLY af X
3. Canada Inc Functional Drawing Index MD 0832 Filament Drive and mA Control Aux 24VAC 24VDC Power Dist optional THE PART NUMBER OF THE ORIGINAL AEC BOARD IN THE GENERATOR FOR WHICH THIS MANUAL WAS PREPARED IS LISTED BELOW AEC BOARD PART NUMBER AS ORIGINALLY SHIPPED See Drawing List for the AEC Board Part Number for this particular unit MF 0863C REFER TO PAGE 4 FOR LOGIC LEVELS NOTES ETC REFERENCED BY THIS SYMBOL F1 O MAINS F2 INPUT 4 F5 J F4 s THIS SHEET DEPICTS 1 PH UNITS REFER TO PAGE 2 FOR 3 PH 400 480 V UNITS AND PAGE 3 FOR 3 PH 208 V UNITS H V AUXILIARYBOARD J9 7 E4 ER 10 11 24 V 12V D10 24 VAC TO MD 0833 E1 O INVERTER BOARD E2 x d O J5 7 12 V ON OFF COMMAND 2 THIS TRANSFORMER AND FRON MOOG 1 1 ASSOCIATED WIRING IS ONLY FITTED ON UNITS 210 HIR 12 CONFIGURED FOR WITH THE 24VAC s i D4 24VDC POWER DIST 2 OPTION GES EH F6 STARTER 1 1 MD 0837 SE iji 4oov 751 Nee ss K2 d e lt 75 peed By gt ees pi lt ll 120v s I 5 SOFT START CONTACTOR DRIVE SOFT START D8 FROM MD 0832 ZS Se U5 SENSE TO MD 0832 lt F9 BUCKY
4. 2 L J 19 7 o gt 07 45 15 15 R54 1 O 2 4 H 300V y OJjov AEC 4 o O J7 10 5 10 date m lt CH3 Ra PT REF E ee __ 4 I J 300 500 V an 1 9 1 H gt 39 45 PTSTOP o gt Kee HE L Pea J14 4 T START 14 8 d RI 4 48 START lt CH 4 7 SS 2 4 9 1 4 4 lt 2 MIDDLE J14 3 lt 9 0 M FIELD SEL II JI sp L J14 2 H L R J dh STRT gt J490 FIELD SEL f Il I 1 R14 Il RN4B i V _ 4 R FIELD SEL EE 14 12 lt v LE R35 SIGNAL SAMPLE 214 9 CR pa amp HOLD GROUND 7 R36 GENERATOR CONTROL BOARD AEC BOARD THIS SHEET APPLIES TO AEC BOARD ASSEMBLY 734614 L ANALOG SWITCH THESE ARE SWITCHES THAT ARE DRAWN DATE REFER TO CHAPTER 3D FOR INSTALLATION AND CALIBRATION DETAILS SWITCHED ON OFF BY APPLYING THE APPROPRIATE LOGIC LEVEL THE 12V OUTPUTS ON J1 TO J4 AND J11 14 ARE NOT SHOWN ON DESIGNATES A FACTORY CONFIGURED LOGIC OR SIGNAL LEVEL AEC 18 03 THIS DIAGRAM THESE ARE DETAILED ON THE CONNECTOR PIN OUT BOARDS ARE CONFIGURED AT THE
5. LOW APPROXIMATELY 0 VDC FOR APPROXIMATELY 1 8 SEC DURING PREP THEN PULSED LOW FOR 500 MSEC EVERY 5 SECONDS DURING PREP REFER TO FIGURE 2 LOW APPROXIMATELY 0 VDC ENERGIZES K4 ON THE H V AUXILIARY BOARD 12 VDC NOT ENERGIZED THIS RELAY IS ENERGIZED AFTER THE MAIN BUS CAPACITORS ARE CHARGED APPROXIMATELY 10 SECONDS AFTER POWER ON 5 V lt THIS APPROACHES 0 V AS CURRENT INCREASES lt PULSE WIDTH INCREASES AS CURRENT INCREASES K5 DE ENERGIZED FIGURE 2 K5 ENERGIZED lt APPROXIMATELY 1 8 SEC PREP STARTED DRAWN DATE SANWALD 11 FEB 2003 LOW SPEED CHECKED Steve Blake 18 FEB 03 STARTER DES MFG AUTH woop FEB 13 03 MD 0837 REV SHEET 2 OF 2 REFER TO PAGE 7 FOR LOGIC LEVELS NOTES ETC REFERENCED BY THIS SYMBOL U2 U 7 2 7 z Z O CHAMBER 4 SELECT 2 555 SS 7 O CHAMBER 3 SELECT 7 J7 4 2 O CHAMBER 2 SELECT 2 777277 O CHAMBER 1 SELECT DRIVER 46 START 27 7 O LEFTFIELD SELECT J 8 TO AEC BOARD MIDDLE FIELD SELECT TOLLES RIGHT FIELD SELECT AS APPLICABLE FOR THE AEC BOARD IN YOUR UNIT J7 9 l VOLTAGE AMPLIFIER 7 G gt COMPARATOR 4 E E a 101 R102 J7 45 H sa S 23B EE PT REF 1 PT STOP U3 U56D TP22 3 ss R10 DATA ADDRESS amp CONTROL BUS GENERATOR CONTROL BOARD DRAWN DATE SANWALD 13 FEB 2003 CHECKED Steve Bla
6. gt 3 NO OF gt INVERTER BOARD MOSFET INVERTER INCLUDES Q1 Q16 MODEL THE H T TRANSFORMERS MAY USE TWO PAIRS OF SECONDARY WINDINGS OR THREE SECONDARIES DEPENDING ON GENERATOR AS SHOWN ABOVE INVERTER BOARD E2 560 to 670 VDC GENERATOR CONTROL BOARD PART OF H V OIL TANK TO J6 1 TO J6 4 H T PRIMARY CURRENT SENSE TO PAGE 1 THIS PAGE DEPICTS 50 KW UNITS WITH TWO INVERTERASSEMBLIES REFER TO PAGE 3 FOR 30 32 40KW UNITS THAT USE ONE INVERTER ONLY KV CONTROL amp FEEDBACK lt lO e 2 e i LL 2 5 LL oi S A o HI Aj 5 D m 5 8 o 2 10 5 IO ei LL m PART OF INVERTER SHOOT THROUGH DETECTOR CIRCUIT SHOOT THRU TO J10 1 INVERTER SENSE TO PAGE 1 TO J10 3 MOSFET INVERTER E1 325 to Ge INCLUDES 01 016 L TO E9 AND E10 OF H V TANK PAGE 2 GENERATOR A CONTROL BOARD INVERTER BOARD E2 325 to 670 VDC H T PRIMARY CURRENT TO J6 1 SENSE TO PAGE 1 TO J6 4 NOTE REFERENCE REMARK A NARROW PULSE WILL BE PRESENT AT THIS TEST POINT IF AN INVERTER SHOOT THROUGH HAS BEEN DETECTED THE VOLTAGE WAVEFORM AT THIS TEST POINT IS DEPICTED IN FIGURE 1 BELOW 1 THIS PULSE MAY BE VERY DIFFICULT O DETECT AS THE INVERTER DRIVE WILL BE SHUT DOWN WHEN A SHO
7. 020 U36A S U21 U34 U55 Q15 D16 D19 8 CURRENT SENSE TPi9 2 Al T1 E R72 O 6 1 0 J6 4 DRAWN DATE Le X RAY G SANWALD 11 FEB 2003 KV CONTROL ENABLE H T PRIMARY CURRENTSENSE CHECKED s Steve Blake 18 FEB 03 amp FEEDBACK DES MFG AUTH GENERATOR CONTROL BOARD ED WOOD FEB 13 03 MD 0835 REV A SHEET 1 OF 3 J9 8 TO J9 7 TO J9 5 J2 CATHODE HV MULT ASSY CATHODE HV ANODE BOARD HV CATHODE BOARD TANK LID BOARD Ram e a a a a c c c ces a u u u u ee u a oe lt lt lt a ce lt a a a x a u a ce pn a i u a u u u a a es c a u a c a a a x x u x x a x x x x x x x a a a a TO J9 6 kV FEEDBACK TO PAGE 2 INVERTER SHOOT THRU SENSE TO PAGE 1 INVERTER SHOOT THRU SENSE TO PAGE 1 i g 9 O O PART OF INVERTER SHOOT THROUGH DETECTOR CIRCUIT E1 560 to 670 VDC E2 560 to 670 VDC PART OF INVERTER SHOOT E1 560 to 670 VDC THROUGH DETECTOR CIRCUIT DE T GE Zo ZW KO
8. DEPENDING ON GENERATOR OUTPUT POWER SEE FIGURE 2 5 V FIGURE 1 12 VDC OV 0 VDC Te SANWALD KV CONTROL amp FEEDBACK DES MFG AUTH ED WOOD FEB 13 03 MD 0835 REV A __ SHET3OF3 PAGE 3 FOR Salal TE N la x S DI e LL SI lt lt m m lt ul ee E LL a Lu kl T O lt l Oa F lt 3 m 5 Sj Q gt e 2 EE 1 x lt gt 2 9 SIS 9 o 6 2 eee 1 lt I lt m EE WEE EE ee Ist E E E sus ee E EE EE EE eee 71 _ _ _ _ _ __ __ __ __ __ _ _ ___ 1 gt G FE EE EN Tr egen x Ge x I be x gt x 4 1 l 1 Se IL HEEN I O 1 _ _ 11 ___ 2 __
9. REGULATOR 24 VDC TO MD 0833 U12 L1 D3 D7 ETC 9 15V 8 20 TP J3 3 CONSOLE BOARD 15V SWITCHING TP9 d REGULATOR CIRCUIT U9 AND ASSOCIATED Coy l 2 480V I __ 22 DRAWN DATE SANWALD 11 FEB 2003 BUS 8 POWER THIS SHEET DEPICTS 3 PH DISTRIBUTION DES MFG AUTH 400 480 V UNITS REFER TO GENERATOR CONTROL BOARD MD 0831 REV F PAGE 1 FOR 1 PH UNITS AND PAGE 3 FOR 3 PH E3 E4 E5 E6 E8 E10 E11 CONFIGURE THE BUCKY OUTPUTS FOR 24 VDC 120 VAC 240 VAC REFER TO CHAPTER 8 FOR DETAILS SHEET 2 OF 4 208 V UNITS ES E14 E15 E16 CONFIGURE THE LOW SPEED STARTER BOOST VOLTAGE FOR 120 240 VAC REFER CHAPTER 2 FOR DETAILS H V AUXILIARY BOARD e a AC MAINS F2 a IT AI KEE 1 bai L E1 O INVERTER BOARD E2 12 EMC CAPACITOR BOARD I E 9 J5 7 J10 1 d J10 3 15 30 J5 1 4 12 V ON OFF D7 COMMAND 2 THIS TRANSFORMER AND ae FROM MD 0832 ASSOCIATED WIRING IS MAIN CONTACTOR DRIVE N i ONLY FITTED ON UNITS FROM MD 0832 gent WW CONFIGURED FOR 120 VAC BOOST OR zl 112 D F7 WITH THE 24VAC E16 E15 gt 24VDC POWER DIST ao AO A OPTION 1 TO LOW SPEED F6 STARTER Ld MD 0837 N C N C seated I
10. 1 SWITCHES THAT ARE SWITCHED ON OFF BY APPLYING THE APPROPRIATE LOGIC LEVEL DRAWN DATE SANWALD 13 FEB 2003 CHECKED Steve Blake 18 FEB 03 AEC CH 1 N C LEFT RIGHT LEFT RIGHT MIDDLE START 12V SIGNAL 12V GROUND 2 N C LEFT RIGHT LEFT RIGHT MIDDLE START 12V SIGNAL 12V GROUND AEC CH 3 N C LEFT RIGHT LEFT RIGHT MIDDLE START 12V SIGNAL 12V GROUND 4 N C LEFT RIGHT LEFT RIGHT MIDDLE START 12V SIGNAL 12V GROUND MD 0838 REV C SHEET 6 OF 7 DES MFG AUTH ED WOOD FEB 13 03 REFERENCE EE 1 GENERATES A PULSE PER FIGURE 1 WHEN THE RAMP IS APPROXIMATELY 5 OF THE AEC REFERENCE IF THE RAMP IS ON THE CORRECT TRAJECTORY 2 AEC REFERENCE VOLTAGE 0 TO 10 VDC DEPENDING ON AEC TECHNIQUE THE LENGTH OF THE AEC EXPOSURE IS PROPORTIONAL TO THEAEC REFERENCE VOLTAGE 3 AEC STOP PT STOP SIGNAL THIS IS NORMALLY HIGH APPROXIMATELY 5 VDC SWITCHING LOW WHEN THE AEC RAMP THE AEC REFERENCE VOLTAGE REFER TO FIGURE 1 4 AEC RAMP THIS IS ASIGNAL RAMPING FROM 0 TOWARD 10 VDC THE ACTUAL MAGNITUDE WILL DEPEND ON THE AEC TECHNIQUE REFER TO FIGURE 2 5 AS PER 4 222262 PWM OUTPUT THIS WILL BE VARIABLE WIDTH PULSES PULSE WIDTH INCREASING AT INCREASING LOAD UP TOA MAXIMUM OF 50 DUTY CYCLE REFER TO FIGURE 4 AEC RAMP OR DC VOLTAGE THIS IS ARAMP OR DC VOLTAGE DEPENDING ON AEC CHAMBER TYPE INTEGRATING OR NON INTEGRATING REFER TO FIGURE
11. 12 V LOW FILAMENT DEMAND FIGURE 1 oy 12 V HIGH FILAMENT DEMAND OV 5 V TP25 OV FIGURE 2 5 V TP24 OV PRAWN SANWALD FILAMENT DRIVE CHECKED amp MA CONTROL DES MFG AUTH ED WOOD FEB 13 03 MD 0836 REV B SHEET 3 OF 8 F7 J7 4 V VA P o no M 120 240 VAC e LOW l l tie le le 0831 4 Fe U MAIN GROUND 5 5 V U44 7 i 2 D 7 Lo R197 R196 16 5 J11 5 A gt 2 e Lux 2 l l l l l K4 J6 1 J11 1 62 Lu DATA ADDRESS amp CONTROL BUS H V AUXILIARY BOARD GENERATOR CONTROL BOARD REFER TO PAGE 2 FOR LOGIC LEVELS NOTES ETC REFERENCED BY THIS SYMBOL DRAWN DATE G SANWALD 11 FEB 2003 LOW SPEED CHECKED AR Steve Blake 18 FEB 03 STARTER SHEET 1 OF 2 DES MFG AUTH EDWOOD FEB 13 03 MD 0837 REV B 1 MAIN STATOR CURRENT SENSE IF MAIN CURRENT IS LOW THIS WILL BE APPROXIMATELY 5 VDC PULSES AT 120 HZ WILL PRESENT AS SHOWN IN FIGURE 1 NORMAL STATOR CURRENT 2 PHASE SHIFT STATOR CURRENT SENSE IF SHIFT CURRENT IS LOW THIS WILL BE APPROXIMATELY 5 VDC PULSES AT 120 HZ WILL BE PRESENTAS SHOWN IN FIGURE 1 AT NORMAL STATOR CURRENT
12. 13 PAGE 3 o lt 1 SELECT TL Gebeier e gn 7 J7 11 J5 11 SE 43 3 a lt START 2 12V J3 4 Kees 1 2 2 7 4 i 1 7 1 5 R12 J3 8 d t Jl lt CH SELECT LJ I RS J3 5 1 lt 4 Ee ITA lt i SELECT gt 4 1 4 47 0 e J3 9 R14 pe x 47 15 lh kl I l RAMP O 4 21 T 5 6 wo e 9 NO CONNECTION gt o 7 9 17 1 8 td C 1 e 1 v _ e eee ae Le WE ET MIDDLE y 1 SELECT usa m ae Ke J4 4 rt STARTI gt START gt oO o 4 8 S y V R7 J4 5 SAMPLE CH4 tg amp HOLD SELECT Bee J4 9 R8 12V GENERATOR CONTROL BOARD AEC BOARD THIS SHEET APPLIES TO AEC BOARD ASSEMBLY 737998 REFER TO CHAPTER 3D FOR INSTALLATION AND CALIBRATION DETAILS DESIGNATES ANALOG SWITCH THESE ARE
13. 24V 12 24V 12 24V Fee START gt 56 Sege J12 3 SCH Ze SC E 4240020 MFIELD SEL 7 7 5 7 LIR LEFT FIELD SELECT a L FIELD SEL en a D MIDDLE FIELD SELECT KH 02 KH CL Q4 R FIELD SEL J7 9 E J5 9 RIGHT FIELD SELECT o O O O SIGNAL LEFT O MIDDLE RIGHT 6 6 5 GROUND FROM PAGE 1 EE 300V 300v AEC CH 18 413 1 J7 19 J5 19 a 4 TP20 r e CH 1 1 34 300 500 i SC kee EE TP23 Le Ee 4 STRT ei S2A J13 4 Dany lt 4 lt 2 SRTA J7 13 J5 13 TP5 6 TP7 4 lt 2 I S4 12 y _ 13 3 START FROM 2 n 9 770 1772 4 72 0 7 MIDDLE 33 10 j 5 S2B gt f 2 2 0 FIELD SEL MD 0831 J7 17 J5 17 U4B 1 Pa R2 J13 2 1C11 s r e L R 3 e 539 0 L FIELD SEL l _ v T et v eieiei R3 SE R FIELD SEL J7 11 J5 11 Wf dee EE O 12 r lt 1 R53 I 2 sl 4 1 9 3 7 0 SIGNAL 1 9 7 El lt 1 07 7 RA S2D y SA TA GROUND R11 lt CH2 Dr
14. 3 8 amp 8 AS PER 7 EXCEPT THAT THE RAMP OR DC VOLTAGE WILL BE POSITIVE GOING AND OF THE SAME MAGNITUDE 22222902 THE VOLTAGE AT THIS TEST POINT IS THE OUTPUT OF THE AEC CHAMBER REFER TO THE AEC CHAMBER MANUFACTURERS DOCUMENTATION FOR DETAILS THIS IS THE START SIGNAL HIGH 5 VDC START ANALOG SWITCHES CLOSED LOW 0 VDC START ANALOG SWITCHES OPEN THIS WILL BE ANEGATIVE DC VOLTAGE THE MAGNITUDE OF THE DC VOLTAGE IS DEPENDENT ON THE AEC TECHNIQUE IN USE AS PER 7 EXCEPT THAT THE POLARITY WILL BE POSITIVE 13 THE POLARITY AND MAGNITUDE OF THE RAMP AT THIS POINT SHOULD BE APPROXIMATELY THE SAME AS THE PT RAMP OUTPUT NOTE REFERENCE 4 5 V FIGURE 1 d AEC STOP 6 lt 10 VDC FIGURE 2 OV OV FIGURE 3 Op lt 10 VDC INTEGRATING NON INTEGRATING AEC CHAMBERS AEC CHAMBERS 200 kHz 12 VDC DATE CHECKED Steve Blake 18 FEB 03 DES MFG AUTH ED WOOD FEB 13 03 MD 0838 REV C SHEET 7 0F7 081 081 SZ SZ 2 Du 5V 5V 5V 5V 2 Tue 052 083 083 052 72 N TXD RXD RXD TXD ar IS Le TP10 TP11 R11 RS 232 LAPTOP J4 lt 825 3 TXD Tek na 7 RTS DATABUS L 2 RXD 00 07 _ 8 CTS 5 ooo me CONSOLE BOARD GENERATOR CONTROL BOARD 1 A PULSE TRAIN WILL OBSERVED AT 10 TP11 DURING CONSOLE GENERATOR COMMUNICATION THE TXD AND RXD LEDs ON
15. 5 1 i de T 1 x Teon x 12 222 5 qu SEEN 1 Ee 2 _3 L 2a LEL 444 1 I OO I 7 i 00 R S KOL peene eZ N S A I tot I Lian ZE FE 4 2 N EF f E or lt 5 El lt a l gt 1 x 2 lt 5120 lt OO gt its O I Z Z lt O LLI gt 1 1 l le 4 Q d 5 ee 1 l E l 00 lt lt S L l gt O ZA D I goo ee a 4 W gt gt lt es l 1 x LN Ai lt D Al l be IO I 5 _ Li OO K 4 lege roe I lt 4 2 2 112 6
16. 910 3 116 1 0016 3 8 R127 Ae i i Lod Lod E R122 U2 e q q J9 5 84 49 7 CPLD 2 TP27 q wana N i pps 5 KV FEEDBACK SIGNAL FROM PAGE 2 R128 R124 U28B LO J9 8 INVERTER SHOOT THRU 5 DETECTOR CIRCUITS U30B all 5V 5V 3 e GATE DRIVE CIRCUIT 3 x I U2 FOR INVERTER 3 INCLUDES 09 10 12 13 7 J5 1 CPLD 2 H INVERTER DRIVE SIGNAL ES CONTINUED ON PAGE 2 x 1 I ron 1 lt 1 120 121 i 1 1 l l l a KE L 1 1 15 TP5 DEMAND ERROR AMPLIFIERS LO See X VCO INCLUDES U19
17. DRIVE 4 J6 6 J11 6 _ TO MD 0833 i o 5 10 R13 K6 35 O ee 22 35 V J1 4 J12 6 24 VDC TO MD 0833 35 V d 02 E3 E4 E5 E6 E8 E10 E11 CONFIGURE THE BUCKY OUTPUTS FOR 24 VDC 120 VAC 240 VAC REFER CHAPTER 8 FOR DETAILS ES E14 E15 E16 CONFIGURE THE LOW SPEED STARTER BOOST VOLTAGE FOR 120 240 VAC REFER CHAPTER 2 FOR DETAILS D39 GENERATOR CONTROL BOARD 12V eo J15 1 11 12V SWITCHING 5 REGULATOR CIRCUIT J15 3 U15 AND ASSOCIATED COMPONENTS J15 5 12 V J15 6 5V J15 2 35 V 35 V 15 4 i FILAMENT SUPPLY BOARD REGULATOR CIRCUIT U10 AND ASSOCIATED COMPONENTS 12 V J7 13 12 24 V 7219 0838 FOR PINOUTS OF THE 12 TP14 AND 24 VDC SUPPLIES des Y J7 11 24V P AEC BOARD 12V SWITCHING REGULATOR CIRCUIT FLUORESCENT LAMP U12 AND ASSOCIATED COMPONENTS LCD DISPLAY ASSEMBLY 24 V BACKLIGHT POWER SUPPLY WW 01 Q2 T1 ETC ON OFF 5 20VDC 1 43 8 POWER SUPPLY FROM MD 0832 amp REGULATOR 012 11 D3 D7 ETC 9 15V 8 J3 3 20V 10 24V CONSOLE BOARD 15V SWITCHING REGULATOR CIRCUIT U9 AND ASSOCIATED COMPONENTS DRAWN DATE 1 G SANWALD 11 FEB 2003 CHECKED Steve Blake 18 FEB 2003 DC BUS amp POWER DISTRIBUTION MD 0831 REV F SHEET 1 OF 4 DES MFG AUTH ED WO
18. INTERFACE DES MFG AUTH EDwoop FEB 13 03 MD 0833 REV C SHEET 2 0F 2 5V 5V N N ail N D PAGE 2 FOR LOGIC LEVELS NOTES ETC REFERENCED BY THIS SYMBOL MD 0835 U40 DRIVER DATA ADDRESS amp CONTROL BUS HANDSWITCH DATA ADDRESS amp ASSY CONTROL BUS X RAY ASSEMBLY L mm mm mm rm pm rm mn mm mn mm rm rm mm CONSOLE GENERATOR BOARD X RAY EXPOSURE RADIOGRAPHIC DES MFG AUTH ED FEB ae MD 0834 REV A SHEET 1 OF 2 REFERENCE RENARRS LOW APPROXIMATELY 0 VDC X RAY REQUESTED HIGH APPROXIMATELY 24 VDC X RAY NOT REQUESTED 1 2 LOW APPROXIMATELY 0 VDC PREP REQUESTED HIGH APPROXIMATELY 24 VDC PREP NOT REQUESTED PRAW g SANWALD X RAY EXPOSURE CHECKED RADIOGRAPHIC DES MFG AUTH EDWOOD FEB 13 03 MD 0834 REV A SHEET ZOE REFER TO PAGE 2 FOR LOGIC LEVELS NOTES P 8 _ _ INVERTER SHOOT THRU INVERTER SHOOT THRU ETC REFERENCED BY SN SENSE FROM PAGE 2 SENSE FROM PAGE 2 THIS SYMBOL v Y Y SS 1V 20 kV OF R126 1 HEN Ge 10 17
19. K2 5 240 SEE R17 1 210 _ MD 0841 lt l VI 1 13 411 12 lt Il J OW 5 H SOFT START CONTACTOR DRIVE SOFT START D8 FROM MD 0832 ZN us SENSE TO MD 0832 F9 BUCKY DRIVE 4 J6 6 J11 6 TO MD 0833 kamami E10 R13 K6 35 V E _ D 11 12 D10 24 MD 0833 24 VDC TO 35 V MD 0833 24 V 29 _ 35 V 26V J12 9 THIS SHEET DEPICTS 3 PH 208 V UNITS REFER TO PAGE 1 FOR 1 PH UNITS AND PAGE 2 FOR 3 PH 400 480 V UNITS H V AUXILIARYBOARD TP9 E3 E4 E5 E6 E8 E10 E11 CONFIGURE THE BUCKY OUTPUTS FOR 24 VDC 120 VAC 240 VAC REFER CHAPTER 8 FOR DETAILS ES E14 E15 E16 CONFIGURE THE LOW SPEED STARTER BOOST VOLTAGE FOR 120 OR 240 VAC REFER CHAPTER 2 FOR DETAILS 12V 115 1 11 12V SWITCHING REGULATOR CIRCUIT J15 3 U15 AND ASSOCIATED COMPONENTS J15 5 12 V J15 6 5V 115 2 TP13 35 V 35 V 12 15 4 5 5V SWITCHING FILAMENT SUPPLY BOARD REGULATOR CIRCUIT U10 AND ASSOCIATED D4 COMPONENTS 42 J7 13 12V 24 0838 FOR PINOUTS OF THE 12 VDC TP14 AND 24 VDC SUPPLIES 5 7 17 Y J7 11 24V Bei 12V SWITCHING REGULATOR CIRCUIT FLUORES
20. L 34 Cam M 3 cam R Reeg J4 1 4 5 R SELECT 1 252 2 ANODE KS SELECT ST CATH L Re bn oo _ _ 166 cam M _ Met emt R56 R70 J14 1 2 76 GROUND x m ANODE v o CATH L So M 799 cam R DRAWN DATE G SANWALD 13 FEB 2003 CHECKED Steve Blake 18 FEB 03 MD 0838 REV C DES MFG AUTH ED WOOD FEB 13 03 SHEET 2 OF 7 300V gt J 300 V 1 J11 H V J1 1 RIGHT 12V 12V 12V 12V 12V V T 2 eg e 300 500 D D x D D 45V gt O R 45 V INCLUDES U7 AND T1 CHAMBER 1 SELECT O U3F gt 2 des gt CH 1 eg SS RN3B H Zo _ 24 H V START J114 J1 8 055 51 DS2 53 054 LEFT START SZ XZ 222 MIDDLE 17 2 IER D6 RN4A FIELD SEL CHAMBER 4 SELECT o O gt E CH A d TP9 L FIELD SEL J7 3 J5 3 D5 USC RN3D CONVERTER CHAMBER 3 SELECT o 4 Ka E CH 3 12 24 CIRCUIT R FIELD SEL U3B 12VDCTO45VDC 1 SIGNAL yor _ x x CHAMBER 2 SELECT O a E ee 2 GROUND F 1 1 START 3 STRT SET J2 2 e a VALUE x 300V gt l lJi j D c YeCCY o 300 V 2 U3A k jiz 6 FEARI if 300 500 45V gt 45 V 12V
21. THE CONSOLE BOARD AND GENERATOR CONTROL BOARD WILL FLASH TO INDICATE THE PRESENCE OF THESE PULSES 2 THIS LED SHOULD FLASH AT ACONSTANT 1 HZ RATE INDICATING THAT THE CPU IS FUNCTIONAL DRAWN S SANWALD Ces FEB 2003 Deene Geer bas 0 DES MFG AUTH WOOD FEB m MD 0839 REV A SHEET 1 OF 1 502 Naa DATABUS 07 M 1 r 3 06 15V ___ y 2 50 p J4 1 __ Q4 44 6 WS 1 d 41 BEE 1 s pe DS4 gt J4 2 XZ O U11 J4 3 5V 5V 5V J4 4 J4 5 18 js lg 84 U13 ag ag CONTROLLER 44 9 ree DRIVER 15 J 84 R54 OS R53 21 D7 GENERATOR CONTROL BOARD SWITCHED 15V TEST 15V TEST 15V DOSE DOSE OPTO RELAY GROUND GROUND DAP CHAMBER DRAWN DATE SANWALD 11 FEB 2003 CHECKED Steve Blake 18 FEB 03 DES MFG AUTH ED WOOD FEB 13 03 MD 0840 REV A SHEET 1 OF 1 F5 F4 THE PRIMARY TAP WLL BE SET TO MATCH THE LINE VOLTAGE IN USE 480V 400V 240V 210V 120V 0V TO AC MAINS SEE MD 0831 SHEETS 1TO3 CUSTOM INTERFACE BOARD 24 VDC 75W MAX 24 VAC 150W MAX 2003 AUX 24 I 24VDC POWER DIST OPTIONAL 15 JULY 2003 JAC DES MFG AUTH J CUNNINGHAM MD 0841
22. X SECH N LO LO al all CH LO zl X X C o e OY QY DY 0 Res 3 99 tC eee aC ees EEN 1 5 5 HI 5 5 CZA Q l ae lt 29 l e l gt lt We zx lt n E E S EE WEEN J 1 gt T LL gt e lt EE A Q 5 T red a gt DI Om I d gt Fe I J LLI LLI A 2 S O 5 lt lt 7 7 74 l ee Hey i See x REFERENCE RENARKS 1 4 VOLTAT THIS TEST POINT 1 AMP OF FILAMENT DEMAND LOW APPROXIMATELY 0 VDC ENERGIZES K1 ON THE FILAMENT SUPPLY BOARD SMALL FILAMENT HIGH APPROXIMATELY 12 VDC DE ENERGIZES K1 LARGE FILAMENT 3 0 6 VOLTAT THIS TEST POINT 1 AMP ACTUAL FILAMENT CURRENT 1 VOLTAT THIS TEST POINT 1 OF ACTUAL FILAMENT CURRENT 5 PWM OUTPUT THE WAVEFORM WILL BE AS PER FIGURE 1 FOR LOWAND HIGH FILAMENT CURRENT DEMAND A NARROW PULSE WILL BE PRESENT THESE TEST POINTS DURING SEVERE ANODE OR CATHODE OVER CURRENTS I E TUBE OR TANKARCS REFER TO FIGURE 2 THESE PULSES MAY VERY DIFFICULT TO OBSERVE AS THE HIGH VOLTAGE WILL SHUT DOWN WHENA FAULT IS DETECTED THUS REMOVING THE OVER CURRENT SITUATION Approx 25 usec 40 kHz
23. 45 R264 Q23 cO N Y GENERATOR CONTROL N 7 f f 2 Z Z Z Z Z Z f CPLD f Z Z 2 2 2 2 2 f Z Z 2 2 2 Z DATA ADDRESS amp CONTROL BUS DRAWN DATE SANWALD 11 FEB 2003 ROOM CHECKED Steve Blake 18 INTERFACE DES MFG AUTH EDWOOD FEB 13 03 MD 0833 REV C SHEET 1 OF 2 BUCKY 2 READY HIGH APPROXIMATELY 5 VDC BUCKY 2 NOT READY DOOR INTERLOCK CLOSED HIGH APPROXIMATELY 5 VDC DOOR INTERLOCK OPEN THERMAL SWITCH CLOSED HIGH APPROXIMATELY 5 VDC THERMAL SWITCH OPEN APPROXIMATELY 0 VDC APPROXIMATELY 0 VDC APPROXIMATELY 0 VDC LO NOTE REMARKS LOW APPROXIMATELY 0 VDC BUCKY 1 START HIGH APPROXIMATELY 12 VDC BUCKY 1 NOT REQUESTED TO START LOW APPROXIMATELY 0 VDC BUCKY 1 READY HIGH APPROXIMATELY 5 VDC BUCKY 1 NOT READY LOW APPROXIMATELY 0 VDC 40 5 1 0 INTERLOCK CLOSED HIGH APPROXIMATELY 5 VDC 40 5 1 0 INTERLOCK OPEN LOW APPROXIMATELY 0 VDC 72 5 1 0 INTERLOCK CLOSED HIGH APPROXIMATELY 5 VDC 72 5 1 0 INTERLOCK OPEN LOW APPROXIMATELY 0 VDC BUCKY 2 START HIGH APPROXIMATELY 12 VDC BUCKY 2 NOT REQUESTED TO START 6 LOW w 8 LOW DRAWN DATE G SANWALD 11 FEB 2003 Steve Blake 18
24. Blake 18 FEB 2003 DES MFG AUTH EDWoop FEB 13 03 MD 0832 REV A SHEET 2 OF 2 BUCKY 1 GROUND BUCKY 1 OUT BUCKY 1 START BUCKY 1 READY INTERLOCK 1 INTERLOCK 2 BUCKY RETURN BUCKY 2 GROUND BUCKY 2 OUT BUCKY 2 START 24 VAC OUT 24 VDC OUT BUCKY 2 READY THERMAL SWITCH ROOM LIGHT BUCKY DRIVE 12V FROM MD 0831 24 VDC e 1 RETURN 110 220 227 20 46 13 J11 13 J11 14 42 6 J11 15 J2 5 a J J J11 16 N 3 J J2 2 J2 1 J J4 4 J6 19 J4 2 i 24 VAC 1 J11 19 IER 18 K3 0831 J6 18 ABC i 24 VDC IL J11 6 F11 FROM J11 5 MD 0831 Z ZS P 24V 7 J11 2 F12 2 4 574 TP17 111 1 26 17 1011 17 24 I 15 J4 6 Z 2 U4 J4 5 2 4 44 10 26 10 911 10 J4 9 iy 1 5 GA R26 R25 Zich we J7 2 2 4 J6 9 2 Ne A D11 J6 20 11 4 H V AUXILIARY BOARD J11 9 J11 20 REFER TO CHAPTER 3 OF THE SERVICE MANUAL FOR ADDITIONAL DETAILS REGARDING INTERFACING OF BUCKYS INTERLOCKS ETC REFER TO PAGE 2 FORLOGIC LEVELS NOTES ETC REFERENCED BY THIS SYMBOL 040 5V R199 U44 BUFFER BUFFER BUFFER H H gt U40 DRIVER 5V CH N 044 BUFFER 5V N N 044 BUFFER 5V R198 U44 BUFFER 12V ZN 0
25. CENT LAMP U12 AND ASSOCIATED D6 COMPONENTS LCD DISPLAY ASSEMBLY 24 BACKLIGHT POWER SUPPLY 01 Q2 1 ETC 039 ON OFF 5 20VDC 1 43 8 POWER SUPPLY FROM MD 0832 8 REGULATOR U12 L1 D3 D7 ETC TP9 15 8 J33 20V TP10 24V 15V SWITCHING 4 REGULATOR CIRCUIT U9 AND ASSOCIATED COMPONENTS D2 GENERATOR CONTROL BOARD CONSOLE BOARD DRAWN DATE SANWALD 11 FEB 2003 CHECKED Steve Blake 18 FEB 2003 DISTRIBUTION MD 0831 REV F SHEET 3 OF 4 DES MFG AUTH ED WOOD FEB 13 03 DC BUS amp POWER REFERENCE gt LOW APPROXIMATELY 0 VDC DISABLES THE 5 V 12 V AND 15 V REGULATORS GENERATOR SWITCHED OFF HIGH APPROXIMATELY 24 VDC ENABLES THESE REGULATORS GENERATOR SWITCHED ON VIA THE CONSOLE ON OFF SWITCHES OR VIA THE ON OFF SWITCHES ON THE GENERATOR CONTROL BOARD 24 VDC IS PRESENT AT THIS POINT WHEN THE GENERATOR IS SWITCHED ON ENERGIZING K1 ON THE GENERATOR CONTROL BOARD THE VOLTAGE WAVEFORM AT THIS TEST POINT IS DEPICTED IN FIGURE 1 BELOW 18 us 4 V FIGURE 1 s e SANWALD DC BUS amp POWER CHECKED DISTRIBUTION DES MFG AUTH EDWOOD FEB 13 03 MD 0831 REV F x SHEE40F4 REFER TO PAGE 2 FOR LOGIC LEVELS NOTES ETC REFERENCED BY THIS SYMBOL SS 07 16 08 7 J3 7 24 V ON OFF
26. DE M CATH M L CATH L GROUND ANODE R CATH R ANODE M CATH M ANODE L CATH L ANODE R CATH R ANODE M CATH M L CATH L GROUND ANODE R CATH R ANODE M CATH M ANODE L CATH L MD 0838 REV C SHEET 4 OF 7 8 7 2 1 2 CH 1 OUT CHAMBER 4 SELECT 4 SELECT FROM SHT 5 CHAMBER 3 SELECT 3 SELECT CHAMBER 2 SELECT E 2 SELECT CHAMBER 1 SELECT 1 SELECT INVERTING 26 15 6 12 de 15 7 R63 LEFTFIELD SELECT LEFT SELECT J7 8 15 8 MIDDLE FIELD SELECT o SS MIDDLE SELECT CH2 OUT RIGHT FIELD SELECT G 492 RIGHT SELECT PROM SETS FROM PAGE 1 Kai H 5 V REGULATOR J7 13 35 13 CH 3 OUT ae 6 5 5 S717 05 17 0831 O O PAGE 3 i 17 11 15 11 Y 12V CH1 SELECT 7 R59 R1 CH2 TP4 2 4 SS E J45 25 15 a o O a 2 R60 1 REF 7 52 450 1 3 4 gt CH4 OUT 7 1 FROM SHT 5 PISTOP o U11A oO R3 CH4 SELECT 7 j R4 U10 GENERATOR CONTROL AEC BOARD THIS SHEET APPLIES TOAEC BOARD ASSEMBLY 137992 THIS 1 DESIGNATES AN ANALOG SWITCH THESE I C SWITCHES PAGE SHOWS THE SIGNAL PROCESSING CIRCUITS THE INPUT oe THATARE SWITCHED ON OFF BY APPLYING THE A
27. OD FEB 13 03 F3 1 O 12V i SS 1 AC MAINS I i a A INVERTER INPUT BOARD TP11 12V SWITCHING 9 E2 REGULATOR CIRCUIT S e A U15 AND ASSOCIATED COMPONENTS F5 50 KW UNITS USE F4 EMC CAPACITOR TWO INVERTER BOARDS V 42V weg eal BOARD ALTERNATE TRANSFORMER USED ON UNITS WITH THE ay AUX 24VAC 24VDC POWER b J5 7 J10 1 5 310 3 DISTRIBUTION OPTION 1 ON OFF TP13 480 D7 COMMAND 2 N ii FROM MD 0832 35 V 400 4 I MAIN CONTACTOR DRIVE 2545 5V SWITCHING FILAMENT SUPPLY BOARD 240V Is REGULATOR CIRCUIT gt SEE Se 46 2 41125 010 AND ASSOCIATED 210V II MD 0841 120 240 VAC D4 COMPONENTS lt 11 LOW SPEED Ee E15 F7 STARTER Ee EE im S MD 0837 12V 211 14 OV 2 i 2 g s REFER MD 0838 AEC FOR 480V os PINOUTS OF THE 12 VDC 14 AND 24 VDC SUPPLIES AEC BOARD FLUORESCENT LAMP LCD DISPLAY ASSEMBLY 240V SE 24V SOFT START ad CONTACTOR DRIVE G FROM 0832 AA T MD 0832 12V SWITCHING REGULATOR CIRCUIT BUCKY DRIVE 4 16 jia 2 MD 0833 24 E11 BACKLIGHT POWER SUPPLY 12 01 Q2 T1 ETC 039 re X E ese 010 ON OFF 5 20VDC 24 VACTO COMMAND 1 43 8 SUPPLY 1 MD 0833 FROM MD 0832 amp
28. OT THROUGH IS DETECTED THUS REMOVING THE FAULT CONDITION AS PER 1 A NARROW PULSE WILL BE PRESENTAT THIS TEST POINT IF KV OVER VOLTAGE HAS BEEN DETECTED 130 KV FOR 125 KV UNITS 163 KV FOR 150 KV UNITS REFER TO FIGURE 1 THIS PULSE MAY BE VERY DIFFICULT TO DETECT AS THE HIGH VOLTAGE WILL BE SHUT DOWN WHEN THE OVER VOLTAGE CONDITION IS DETECTED THUS REMOVING THE FAULT CONDITION 2 3 4 LOW APPROXIMATELY 0 VDC X RAY REQUESTED BY THE CPU HIGH APPROXIMATELY 5 VDC NO X RAY REQUEST BY THE CPU 5 A NARROW PULSE WILL BE PRESENTAT THIS TEST POINT IF INVERTER OVER CURRENT HAS BEEN DETECTED THE VOLTAGE WAVEFORMAT THIS TEST POINT IS DEPICTED IN FIGURE 1 BELOW THIS PULSE MAY BE VERY DIFFICULT O DETECT AS THE INVERTER DRIVE WILL BE SHUT DOWN WHEN AN OVER CURRENT CONDITION S DETECTED THUS REMOVING THE FAULT CONDITION 6 LOW APPROXIMATELY 0 VDC NO FAULT PRESENT ALLOW AN X RAY EXPOSURE HIGH APPROXIMATELY 5 VDC X RAY EXPOSURE INHIBITED LOW APPROXIMATELY 0 VDC X RAY REQUESTED BY CONSOLE HIGH APPROXIMATELY 5 VDC X RAY NOT REQUESTED 8 APPROXIMATELY 0 VDC NAND GATES U17A U17B DISABLED HIGH APPROXIMATELY 5 VDC NAND GATES ENABLED THUS ALLOWING INVERTER GATE DRIVE o LOW 0 VDC H V TANK CONNECTED HIGH APPROXIMATELY 5 VDC H V TANK NOT CONNECTED 10 THE VOLTAGE 2 AND SHOULD BE A50 DUTY CYCLE SQUARE WAVE RANGING IN FREQUENCY FROM APPROXIMATELY 80 kHz TO APPROXIMATELY 250 kHz
29. PPROPRIATE DRAWN DATE CIRCUITS ARE SHOWN ON THE PREVIOUS PAGE LOGIC LEVEL 0V OFF 5V SANWALD 13 FEB 2003 CHECKED REFER CHAPTER 3D FOR INSTALLATION AND CALIBRATION DETAILS wama DES MFG AUTH ED WOOD FEB 13 03 MD 0838 REV C SHEET 5 OF 7 RIGHT 5V 5V 5V 5V SELECT NO CONNECTION o 5 120 lt 4 LO LO LO o LEFT DS1 SZ 052527 083 XZ 054525 SELECT MIDDLE J1 3 J7 2 J5 2 geen SELECT ji CHAMBER 4 SELECT CH 4 SELECT STARTI START y 344 ee E3 R62 4 R40 Se Z lt D12 3 1 J1 8 CHAMBER 3 SELECT O e CH 3 SELECT L S 9 J7 4 J5 4 R63 4 R38 CH 1 CHAMBER 2 SELECT E 2 SELECT o 42 J7 5 J5 5 R64 5 J1 9 CHAMBER 1 SELECT o Ee CH 1 SELECT INVERTING 12 BUFFER R65 START 759 J7 7 B J5 7 R66 J2 2 LEFT FIELD SELECT en J7 8 15 8 R67 MIDDLE FIELD SELECT Ed J7 9 5 9 68 MIDDLE J2 3 RIGHT FIELD SELECT O SELECT 12V 12 4 START gt 12 12V 12V ee R3 J2 5 112V 45V ZN 011 ZS 010 7 09 03 2 RIGHT MIDDLE LEFT SELECT 271 SELECT SELECT SELECT J2 9 FROM PAGE 1 REGULATOR Q3 Q2 Q1 12V J7 13 J5 13 i D 0502052 T NO CONNECTION 2 0 FROM 7 17 15 17 J3 2 MD 0831 2 7
30. PTER 3D FOR INSTALLATION AND CALIBRATION DETAILS R CATH R ANODE M CATH M ANODE L CATH L GROUND R CATH R ANODE M CATH M ANODE L CATH L R CATH R ANODE M CATH M ANODE L CATH L GROUND R CATH R ANODE M CATH M L CATH L RIGHT SELECT LEFT R6 a RN2 RN2 J3 2 SELECT I J3 5 EI me 6 13 6 18 23 3 Ki J3 4 MIDDLE 5 SELECT J3 shell R14 RN8 7 RNB CH T S lt LEFT i J13 5 SELECT J13 6 Y J13 3 RIGHT R28 3 10 7RN10 J13 4 SELECT 1 113 1 RN10 113 2 48 lt J13 7 CH 3 SELECT CH 3 OUT SHT 6 AEC CH 4 RIGHT SELECT LEFT R44 gRN12 RN12 J4 2 SELECT Wee J4 5 lt RN12 12 24 1 U9B iB J4 6 18 Ki J4 3 J4 4 MIDDLE Y SELECT J4 shell R52 RN14 RN14 378 3 ARN14 14 lt LEFT Ts J14 5 SELECT J14 6 14 3 RIGHT 3 16 7RN16 J14 4 SELECT CH ere RN16 RN16 714 2 48 a A o lt J14 7 CH4 SELECT CH 4 OUT SHT 6 DESIGNATES AN ANALOG SWITCH THESE ARE I C SWITCHES o o THAT ARE SWITCHED ON OFF BY APPLYING THE APPROPRIATE LOGIC LEVEL 0V OFF 5V ON DRAWN DATE G SANWALD 13 FEB 2003 CHECKED Steve Blake 18 FEB 03 DES MFG AUTH ED WOOD FEB 13 03 ANODE R CATH R ANO
31. REV A SHEET 1 OF 1
32. TIME OF ORDER TO BE COMPATIBLE DES MFG AUTH TABLES IN CHAPTER 3D WITH THE SPECIFIED AEC CHAMBER S FOR EXAMPLE THE START E 0838 6 SIGNAL THE CHAMBER MAY FACTORY CONFIGURED BE ACTIVE ED WOYE FEB 13 03 R79 ADJUSTS THE 45V 300V AND 500V OUTPUTS FROM THE DC TO DC LOW 0 V ACTIVE HIGH 12 V OR ACTIVE HIGH 24 V SHEET 3 OF 7 CONVERTER CIRCUIT REFER TO CHAPTER 3D FOR DETAILS 1 RIGHT SELECT LEFT R5 a EN 5 J1 2 SELECT ch DN 711 lt O U2A 11 6 1 3 J1 4 MIDDLE SELECT J1 shell R13 RN7 RN7 o ol a RN7 RN7 lili lt 5 I pe F U2B N LEFT 2 411 5 SELECT J11 6 RIGHT R27 RN9 6 7 RN9 2 J11 4 SELECT 111 1 p u SH 11 7 CH 1 SELECT CH 1 OUT SHT 6 AEC CH 2 RIGHT SELECT LEFT R43 J2 2 SELECT So 125 RN11 12 1 lt a pr p a O U8B 12 6 g bs il J2 4 MIDDLE SELECT J2 shell R51 RN13 13 5 E 3 sRN13 TI 2 8 U16A LEFT x J12 5 SELECT J12 6 4112 3 RIGHT R57 RN15 15 119 4 SELECT ppa a 112 1 SH U16B J12 7 2 Y SELECT CH 2 OUT SHT 6 THIS SHEET APPLIES BOARD ASSEMBLY 737992 THIS PAGE SHOWS THE INPUT CIRCUITS THE SIGNAL PROCESSING CIRCUITS ARE CONTINUED ON THE NEXT PAGE REFER TO CHA
33. e x 5 GE v AEC BOARD THIS SHEET APPLIES TO AEC BOARD ASSEMBLY 733347 REFER TO CHAPTER 3D FOR INSTALLATION AND CALIBRATION DETAILS DESIGNATES AN ANALOG SWITCH THESE I C SWITCHES 75 SWITCHED ON OFF BY APPLYING THE APPROPRIATE LOGIC LEVEL OV OFF 12V L SELECT E pS Oo PP O a PN p ee ee F YA s S 132 GE aL Ji 1 R SELECT 1 402 2 ANODE SELECT 004 cami R74 ES E ZER cam M rgen 6 Jiti GROUND lili 19 ANODE V o CATH L 14 CATH M MIS OATH R L SELECT A 21 CH 2 2 2 R SELECT 4 SELECT J54 CATH L R77 be 750 cam M SS Zum H 412 4 6 GROUND X 19 ANODE CATH L 457 CATH M 215 R s Be J3 1 CH 3 2 R SELECT 7 49 NC SELECT 44 CATH L N oe 35 R20 17771 CATH R 546 cam M 3 R18 R17 J13 1 P GROUND x ep P ANODE v CATH
34. ke 18 FEB 03 SHEET 1 OF 7 DES MFG AUTH ED WOOD FEB 13 03 MD 0838 REV C CHAMBER 4 SELECT CHAMBER 3 SELECT CHAMBER 2 SELECT CHAMBER 1 SELECT START LEFT FIELD SELECT MIDDLE FIELD SELECT RIGHT FIELD SELECT FROM PAGE 1 FROM MD 0831 PAGE 3 PT RAMP PT REF PT STOP GENERATOR CONTROL BOARD 12V 12V 12V 12V 051 052 053 054 NZ Z2 SZ N O gt CH lt 47 2 5 2 R43 4 gt 920 J7 3 ae pon E 4 j 1012 U2C 7 4 ea R30 a SE U2B J7 5 l J5 5 E you 2 Z lt Z lt Z lt Z lt D13 016 2 015 014 x J7 6 J5 6 Y Y Y Y xz _ les Hgv Sa wasa R63 2 e De wm lte lt SELECT S R SELECT 2 8 030 25 N SSES D18 ZN 019 ZN 44 v 055 DC Y d R26 gt gt a J7 13 J5 13 17 14 35 14 vee 52025 1 eege 7 7 17 J5 17 TP2 TP4 a poo J7 18 15 18 By J SE J l 4 Eege SAMPLE J7 11 J5 11 GER IJ amp HOLD EE V J7 12 _ 35 12 012 8 Dr H rei m 4 k 2 TP3 x nee R3 D d J7 15 J5 15 R14 124 r j lt ae e Kees DE ge gS ee t Fp 2 U10B SH 0 J5 10 U10A U9B 2 K 8 G
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