ACS 600 ACS 600Ã. (PFC) 5.x

Transcript

1 ACS 600 3)& ACS 600 (PFC) 5.x

2

3 ACS 600 (PFC) 5.x 3ABD B BASED ON: 3AFY R $%%

4

5 $&6 Ä LLL

6 $&6 Ä $&6 $&6 $&6 $&6 $&6 $&6 Ä$&6 $&6 $&6 $&6 $%% $&6 $&6 LY

7 $&6 &'3 $&6 Y

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10 YLLL

11 3)& $&6 $%% $&6 LLLLY $&6 $&6 $&6 3)& $&6

12 $ $&6 %3)& 3)& & $&6 $&6 $&6 $&6

13 $&6 &'3 $&6 &'3 $&6 [ &'3 [ $&6 $&6 $&6 $&6 $&6 $&6

14 $&6 &'3 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz ACT PAR FUNC DRIVE ENTER LOC RESET REF REM I 0 /$1*8$*( $&6

15 $&6 &'3,' / 5 I = 0 = 1 L Hz I ACT VAL bar CURRENT A FREQ Hz ACT / / ENTER 1 L Hz I 10 START/STOP 01 EXT1 STRT/STP/DIR DI1 PAR ENTER 1 L Hz I UPLOAD <=<= DOWNLOAD =>=> CONTRAST 7 FUNC ENTER ACS kw ID- ASAA5000 xxxxxx ID NUMBER 1 DRIVE ENTER ID LOC REM / I RESET 0 REF

16 $&6 &'3 ACS kw ID NUMBER 1 $&6

17 $&6 &'3 $&6 5(6(7)$8/7 1 L +]I 2 LAST FAULT +OVERVOLTAGE 1121 H 1 MIN 23 S $&6 $&6-1. ACT 1 L Hz ACTUAL VALUE1 1 I CURRENT FREQUENCY 2. ACT 1 L Hz ACT VAL bar I CURRENT A FREQ Hz

18 $&6 &'3 1. ACT 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz 2. ( ) 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz ENTER 1 L 45.0 Hz I 1 ACTUAL SIGNALS 03 CURRENT A 1 L 45.0 Hz I 1 ACTUAL SIGNALS 04 TORQUE % 5.a.a.b ) ENTER 1 L 45.0 Hz I ACT VAL bar TORQUE % FREQ Hz 5.b, ACT FUNC PAR DRIVE 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz

19 $&6 &' ACT 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz 1 L 45.0 Hz I 1 LAST FAULT +OVERCURRENT 6451 H 21 MIN 23 S 3. (UP) 4. DOWN) 1 L 45.0 Hz I 2 LAST FAULT +OVERVOLTAGE 1121 H 1 MIN 23 S RESET 1 L 45.0 Hz I 2 LAST FAULT H MIN S 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz 1. ACT 1 L 45.0 Hz ACS kw ** FAULT ** ACS 600 TEMP 2. RESET 1 L 45.0 Hz 2 ACT VAL bar CURRENT A FREQ Hz

20 $&6 &'3 $& PAR ENTER 1 L 45.0 Hz 2 10 START/STOP/DIR 01 EXT1 STRT/STP/DIR DI1 1 L 45.0 Hz 2 11 REFERENCE SELECT 01 KEYPAD REF SEL REF1 (+]) 1 L 45.0 Hz 2 11 REFERENCE SELECT 03 EXT REF1 SELECT AI1 1 L 45.0 Hz 2 11 REFERENCE SELECT 03 EXT REF1 SELECT [AI1] 5. ( ) ( ) 1 L 45.0 Hz 2 11 REFERENCE SELECT 03 EXT REF1 SELECT [AI2] 6a..a.b ). ENTER 1 L 45.0 Hz 2 11 REFERENCE SELECT 03 EXT REF1 SELECT AI2 6b. ACT FUNC PAR DRIVE 1 L 45.0 Hz 2 11 REFERENCE SELECT 03 EXT REF1 SELECT AI1

21 $&6 &'3 ACS g g g 62)7:$5(9(56,21 $33/6:9(56,21 g ( ). 3.. FUNC ENTER 1 L 45.0 Hz 2 UPLOAD <=<= DOWNLOAD =>=> CONTRAST 4 1 L 45.0 Hz 2 UPLOAD <=<= DOWNLOAD =>=> CONTRAST 4 1 L 45.0 Hz 2 =>=>=>=>=>=>=> DOWNLOAD

22 $&6 &'3 1.. FUNC 1 L 45.0 Hz 2 UPLOAD <=<= DOWNLOAD =>=> CONTRAST 4 2. ( ). 1 L 45.0 Hz 2 UPLOAD <=<= DOWNLOAD =>=> CONTRAST ENTER 1 L 45.0 Hz 2 CONTRAST [4] L 45.0 Hz 2 CONTRAST [6] 5.a.a.b ). ENTER 1 L 45.0 Hz 2 UPLOAD <=<= DOWNLOAD =>=> CONTRAST 6 5.b ACT FUNC PAR DRIVE 1 L 45.0 Hz 2 UPLOAD <=<= DOWNLOAD =>=> CONTRAST 4

23 $&6 &'3,',' $&6 $&6 / $&6 $&6 / $&6 LOC REM LOC REM $%%

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25 $&6 &'3 $&6 / 5 1 L 45.0 Hz I Hz I,' Hz I,2 / 5 I 0 LOC REM

26 $&6 &'3 1. ACT FUNC PAR 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz ( ) ( ). REF 1 L [ 45.0 Hz ] I ACT VAL bar CURRENT A FREQ Hz 1 L [ 48.0 Hz ] I ACT VAL bar CURRENT A FREQ Hz 4.a (QWHU ENTER 1 L 48.0 Hz I ACT VAL bar CURRENT A FREQ Hz 4.b ACT FUNC PAR DRIVE 1 L 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz

27 $&6 $&6 $&6 $&6 3)& 3)& 3)& $&6 $&6 21 $&[ $&[ 0XOWLGULYH $&[ $&6 )

28 CDP312 PANEL Vx.xx... ACS 600 xx kw ID NUMBER 1 1 -> 0.0 rpm O FREQ 0.00 Hz CURRENT 0.00 A POWER 0.00 % g 3$5 g g g (17(5 g (17(5 1 -> 0.0 Hz O 99 START-UP DATA 01 LANGUAGE ENGLISH 1 -> 0.0 Hz O 99 START-UP DATA 01 LANGUAGE [ENGLISH] 1 -> 0.0 Hz O 99 START-UP DATA 02 APPLICATION MACRO []

29 '7& g g g 6&$/$5 1 -> 0.0 Hz O 99 START-UP DATA 04 MOTOR CTRL MODE [DTC] 3 motor 690 Y 400 D 660 Y 380 D 415 D 440 D Cat. no ABB Motors M2AA 200 MLA 4 IEC 200 M/L 55 No Ins.cl. F IP 55 V Hz kw r/min A cos IA/IN t E/s GAA ADA /C3 6210/C3 180 IEC 34-1 USP USP ((' *8 1 * $&6 9$& 9$& 9$& 9$& 9$& 9$& *, KG *, KG 1 -> 0.0 Hz O 99 START-UP DATA 05 MOTOR NOM VOLTAGE [ ] 1 -> 0.0 Hz O 99 START-UP DATA 06 MOTOR NOM CURRENT [ ]

30 +] USP N: 1 -> 0.0 Hz O 99 START-UP DATA 07 MOTOR NOM FREQ [ ] 1 -> 0.0 Hz O 99 START-UP DATA 08 MOTOR NOM SPEED [ ] 1 -> 0.0 Hz O 99 START-UP DATA 09 MOTOR NOM POWER [ ] $&6 1 -> 0.0 Hz O ** WARNING ** ID MAGN REQ g g 12 67$1'$5' 5('8&(' 1 -> 0.0 Hz O 99 START-UP DATA 10 MOTOR ID RUN [NO] 0RWRU,'5XQ 12 / LOC REM 1 L-> 0.0 Hz I ** WARNING ** ID MAGN 1 L-> 0.0 Hz O g g ** WARNING ** ID DONE

31 g $&7 g 5() g g g 1 L->[xxx] Hz I FREQ xxx Hz CURRENT xx A POWER xx % g $&6 89: g g 1 L-> 0.0 Hz O 20 LIMITS 01 MINIMUM SPEED [ ] 1 L-> 0.0 Hz O 20 LIMITS 02 MAXIMUM SPEED [ ] 1 L-> 0.0 Hz O 22 ACCEL/DECEL 02 ACCELER TIME 1 [ ] 1 L-> 0.0 Hz O 22 ACCEL/DECEL 03 DECELER TIME 1 [ ],2

32 ', $, g / g ', $&6 $, $, LOC REM 3)& $33/,&$7,210$&52 LOC REM ', 3)& $33/,&$7,210$&52

33 $&6 Ä 01 LANGUAGE. / 02 APPLICATION MACRO 03 APPLIC RESTORE 04 MOTOR CTRL MODE NO; YES. DTC; SCALAR.. 05 MOTOR NOM VOLTAGE 1/2 * U N of ACS * U N of ACS MOTOR NOM CURRENT 1/6 * I 2hd of ACS * I 2hd of ACS MOTOR NOM FREQ 08 MOTOR NOM SPEED 09 MOTOR NOM POWER Hz rpm kw. 10 MOTOR ID RUN NO; STANDARD; REDUCED. $&6 $%%

34 /$1*8$*( $&6 $&6 (QJOLVK8.É$P)UHQFK6SDQLVK3RUWXJXHVH (QJOLVK8.É$P*HUPDQ,WDOLDQ'XWFK (QJOLVK8.É$P'DQLVK6ZHGLVK)LQQLVK (QJOLVK$P +3 N: $&6 86(56$9( 86(56$9( 86(5/2$' 86(5/2$' $33/,&5(6725( $33/,&$7,210$&52 $33/,&5(6725( <(6 3)& 86(50$&52 86(50$&52,2&+* $33/,&$7,210$&52

35 02725&75/02'( /7$*( &855( )5(48(1&< '7& '7& $&6 $&6 '7& $%% 6&$/$5 '7& $&6 6&$/$5 '7& '7& $&6 $&6 $& '7& $&6, KG, KG $&6, KG, KG $&6 +] +]

36 ((' $&6 Ä /LPLWV ((' ((' :(5 $&6 N: N: 02725,'581 $&6 12 ` 6&$/$5&21752/ ` 67$1'$5' 5('8&(' 67$1'$5' 5('8&(' 5HGXFHG È

37 3)& ', ÈÈ Ä 0,1,08063((' 0$;,08063(('! È 0$;,080&855(17!È, KG 0$;, (!È / 67$1'$5' 5('8&(' LOC REM 1 L 45 Hz O 99 START-UP DATA 10 MOTOR ID RUN [STANDARD] (17(5 1 L 45.0 Hz O ACS kw **WARNING** ID RUN SEL

38 581(1$%/( 3)& 21,',',' 1 L 45.0Hz I ACS kw **WARNING** MOTOR STARTS 1 L 45.0Hz I ACS kw **WARNING** ID RUNNING 1 L 45.0Hz I ACS kw **WARNING** ID DONE $&7

39 $&6 $&6 3,' 01 SPEED SPEED rpm, rpm 02 FREQUENCY 1,2) FREQ Hz 03 CURRENT 1,2) CURRENT A / 04 TORQUE TORQUE % POWER POWER % DC BUS VOLTAGE V DC BUS V V 07 MAINS VOLTAGE MAINS V V 08 OUTPUT VOLTAGE OUT VOLT V 09 ACS 600 TEMP ACS TEMP C 10 EXTERNAL REF 1 EXT REF1 rpm, Hz 1 11 EXTERNAL REF 2 EXT REF2 % 2 12 CTRL LOCATION 2) CTRL LOC LOCAL; EXT1; EXT2 13 OP HOUR COUNTER OP HOURS h 1$0& 14 KILOWATT HOURS KW HOURS kwh N:K 15 APPL BLOCK OUTPUT APPL OUT % 16 DI6-1 STATUS DI '& 17 AI1 (V) AI1 (V) V

40 18 AI2 (ma) AI2 (ma) ma 19 AI3 (ma) AI3 (ma) ma 20 RO3-1 STATUS RO3-1 21AO1 (ma) AO1 (ma) ma 22 AO2 (ma) AO2 (ma) ma / 23 ACTUAL VALUE 1 1) ACT VAL1 NO;Bar;%;C; mg/l;kpa 24 ACTUAL VALUE 2 ACT VAL2 NO;Bar;%;C; mg/l;kpa 3, 3, 25 CONTROL DEVIATION 26 PFC OPERATION TIME CONT DEV % 3, (3, ) PFC OP T h 27 ACTUAL FUNC OUT ACTUAL F. 1) PFC. 2) Hand/Auto.

41 / 01 SPEED REF 2 S REF 2 % È 02 SPEED REF 3 S REF 3 % È TORQ REF 2 T REF 2 % È 10 TORQ REF 3 T REF 3 % È TORQ REF USED T USED R % È SPEED EST SPEED ES % È 0$;,080)5(48(1&< 0,1,080)5(- 48(1&< $&6 $ &

42 $&6 $&6 1$0& $&6 $&6 LOC REM USP È EXT1 EXT2 EXT REF1 (rpm) EXT REF2 (%) $&6 / 1 L -> 45.0 Hz I

43 $&6 1,2& 5 1 -> 45.0 Hz I 1 R -> 45.0 Hz I 6(/(&7 (;7 (;7 (;7(;7 (;7 (; ',5 (;75() 6(/(&7 (;7 (; ',5 (;75()6(/(&7 3)& 3, $&6 )5(48(1&<6(/2 &2167

44 ACS 600 Reference selection Analogue Inputs AI1...AI EXT1/ EXT2 SELECT CONST FREQ SEL KEYPAD REF SELECT Reference source selection Digital Inputs DI1...DI EXT REF2 SELECT EXT REF1 SELECT AI1-3,DI1-6, COMM.MOD. KEYPAD 10 EXTERNAL REF 1 Group 12 CONSTANT FREQ EXT1 NOT SEL EXTERNAL Speed Controller Group 25 CRITICAL FREQ EXT2 CH0 NAMC board (COMM.MODULE) AI1-3,DI1-6, COMM.MOD. Process ref. EXTERNAL KEYPAD KEYPAD PFC A P P L I C A T I O N 15 APPL BLOCK OUTPUT PFC Hand/Auto 11 EXTERNAL REF 2 Frequency reference REF2(%) REF1(Hz) KEYPAD MINIMUM FREQ MAXIMUM FREQ Group 22 ACCEL/DECEL Group 23 SPEED CTRL Torque Controller 2.09 TORQ REF 2 CONTROL PANEL MAXIMUM TORQUE 2.10 TORQ REF 3 REF 2.13 TORQ REF USED LOC REM Start/Stop, Direction NOT SEL KEYPAD Start/Stop DI1-6, COMM.MOD. EXT1 EXTERNAL REQUEST FORWARD Direction KEYPAD EXT2 REVERSE NOT SEL DI1-6, COMM.MOD. KEYPAD YES, DI1-6, COMM.MOD. Start/Stop/Direction source selection EXT1 STRT/STP/DIR EXT2 STRT/STP/DIR DIRECTION RUN ENABLE

45 3)& $ $&6 $&6 3)& $&6 3)& $&6 3)& $&6 $33/,&5(6725( <(6 $33/,&5(6725(

46 (PFC) 3)& * $&6 * $&6 * 3)& 3, 3, $&6 3)& 3)& * $&6 3)& *3)& 3)& $, $&6 $, ', ', ', $2 $2 3, / $&6 3)& 3,

47 3)& 3 ~ ACS 600 PI +24 V DI3 2) DI2 ( 1) RO2 RO1 ~ ~~ 1 L -> 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz LOC REM Pump 2 On/Off Pump 1 On/Off M 3~ Pump 1 Pump 2 1 -> 45.0 Hz I ACT VAL bar CURRENT A FREQ Hz AI2 DI6 M 3~ +24 V d.c. ~230 V a.c.

48 ACS 601/604 ACS 607 X21 X2 1 1 REF +10 V d.c. 10 ma 2 2 GND 3 3 AI1+ 2 : V 4 4 AI1- (PI ) PT 5 5 AI2+ 1: ma (PI ) 6 6 AI2-7 7 AI3+ Hz 8 8 AI3-9 9 AO1+ : ma AO AO2+ 1: ma AO2- (PI ) X22 X DI DI2 : 1 Off/On 3 15 DI3 : 2 Off/On 4 16 DI4 X28 ( ) 1 Trans 2 GND 5 17 DI DI6 / VDC +24 V d.c 100 ma B DGND 4 A+ X23 X2 5 6 GND +24 V VDC 24 V d.c. 250 ma 2 23 GND X25 X2 X29 ( ) 1 Trans 2 FAULT 3 B- 4 A+ 5 GND V 230 V a.c. 230 V a.c. A2 A2 A1 A RO11 1 M RO RO13 X26 X RO21 2 M RO RO23 X27 X RO V a.c RO RO )& 1,2& $&6 $&6, 1,2&. $&6,1,2&,2.

49 COMM. MODULE EXT REF2 SELECT EXT REF1 SELECT CONSTANT FREQ Group 12 EXT1/EXT2 SELECT KEYPAD REF SELECT CONST FREQ SELECT AI1;..;MAX(AI3,AI3) COMM. MODULE KEYPAD EXT1 External EXT2 Local NAMC-01 Ch0 NO YES AI1;..;MAX(AI3,AI3) COMM. MODULE KEYPAD AI1;..;AI3 NO External Local AI1;..;AI3 NO PFC Block PI CONTROLLER Group 80 PFC- CONTROL Group 81 REF (%) REF1 (Hz) Start/Stop Control Signals CRITICAL FREQ Group 25 MINIMUM FREQ MAXIMUM FREQ ACCEL/DECEL Group 22 SPEED CTRL Group 23 ACTUAL INPUT1 SEL ACTUAL INPUT2 SEL MAXIMUM TORQUE REF LOC REM RELAY OUTPUTS Group 13 NOT SEL DI1,..;DI6 COMM. MODULE EXT1 Local REQUEST Start/Stop KEYPAD External FORWARD Direction NOT SEL DI1,..;DI6 EXT2 REVERSE COMM. MODULE KEYPAD YES; DI1;..;DI6; COMM. MODULE EXT1 STRT/STP/ DIR EXT2 STRT/STP/ DIR DIRECTION RUN ENABLE )&

50 (;7 (;7 (;7 ', $, (;7 ', $, (;7 (;7 ', (;7 )5(48(1&< &855(17 &75//2& EXT1 (Hz) = 1 L -> 45.0 Hz I FREQ Hz CURRENT A CTRL LOC LOCAL :, /., LOC REM. PLC / EXT2 (%) = Hz A 1 -> 45.0 Hz I FREQ Hz CURRENT A CTRL LOC EXT1 ( ): AI 1 / DI1 M 3

51 X VREF GND AI1+ AI1- AI2+ AI2- AI3+ 9'& P$ 9 P$ rpm 8 9 AI3- AO1+ 10 AO1- P$! A AO2+ AO2- P$! X22 1 DI1 2 DI2 3 DI3 4 DI4 5 DI5 (;7 (;7 6 DI DVDC +24DVDC 9'& P$ 9 DGND X VDC GND 250 ma 9'& X RO11 RO12 RO 13 5($'< DI5 (;7 (; X26 RO21 RO22 RO ,1* X RO 31 RO 32 RO 33 3 )$8/7 1,2& $&6 $&6 1,2& $&6 1,2& 1,2&,2

52 ACS EXT1/ EXT2 SELECT CONST SPEED SEL KEYPAD REF SELECT AI1...AI3 DI3 DI4(SPEED4) EXT REF2 SELECT EXT REF1 SELECT Group 12 CONSTANT SPEEDS DI1...DI6 AI1 EXT1 EXTERNAL Group 25 CRITICAL FREQ KEYPAD NOT SEL CH0 NAMC board (COMM.MODULE) EXT2 KEYPAD MINIMUM FREQ MAXIMUM FREQ AI2 EXTERNAL Group 22 ACCEL/DECEL KEYPAD REF2(%) KEYPAD REF1(Hz) Group 23 SPEED CTRL REF LOC REM NOT SEL KEYPAD Statr/Stop DI1 EXT1 REQUEST KEYPAD EXTERNAL FORWARD Direction EXT2 REVERSE NOT SEL DI6 KEYPAD YES EXT1 STRT/STP/DIR EXT2 STRT/STP/DIR DIRECTION RUN ENABLE

53 3)& / $33/,&$7,210$&52 86(56$9( (17(5 1. $33/,&$7,210$&52 86(5/2$' 2. (17(5 86(50$&52,2&+*. : $&6

54

55 $&6 $&6 $&6 Ä,2,2,2 16 SYSTEM CONTR INPUTS 15 ANALOGUE OUTPUTS 14 RELAY OUTPUTS 13 ANALOGUE INPUTS 12 CONSTANT SPEEDS 11 REFERENCE SELECT 10 START/STOP/DIR 26 MOTOR CONTROL 25 CRITICAL SPEEDS 24 TORQUE CTRL 23 SPEED CTRL 22 ACCEL/DECEL 21 START/STOP 20 LIMITS DRIVE 70 DDCS CONTROL 51 COMMUNIC. MODULE 33 INFORMATION 32 SUPERVISION 31 AUTOMATIC RESET 30 FAULT FUNCTIONS 98 OPTION MODULES 99 START-UP DATA START-UP DATA 92 D SET TR ADDR 90 D SET 40.1 REC PID GAIN ADDR 40.2 PID INTEG TIME 40.3 PID DERIV TIME 40.4 PID DERIV FILTER. FIELDBUS DATASETS 81 PFC CONTROL 80 PI CONTROL CONTROL CONNECTIONS PROTECTION, INFORMATION AND COMMUNICATION PFC APPLICATION

56 67$576723'LU $&6 / EXT1 STRT/STP/DIR (O) NOT SEL; Digital Inputs; KEYPAD; COMM. MODULE EXT1 / / EXT2 STRT/STP/DIR (O) NOT SEL; Digital Inputs; KEYPAD; COMM. MODULE EXT2 / / DIRECTION (O) FORWARD; REVERSE; REQUEST (; ',5 (;7(;76(/(&7 (;7 1276(/ ', (;7 ',', 9'& 9'& ',5(&7,21 21 ', ', ', ', 9'& 9'& ',5(&7,21 5(48(67 21

57 ',33 3 ', ', ',5(&7,21 ',33 ',33 ', 9'& 9'& ',5(&7,21 5(48(67 ',333 ', 3 ', ', ',5(&7,21 5(48(67 ', 9'& 9'& ',5(&7,21 21 ', ', ', ', 9'& 9'& ',5(&7,21 5(48(67 21.(<3$' (;7 ',5(&7,21 5(48(67 &20002'8/(

58 (; ',5 (;7 1276(/',',',33',33',333', ',.(<3$'&20002'8/( (; ',5 ',5(&7,21 )25:$5' 5(9(56( 5(48(67 (; ',5 (; ',5 : 3)& 2 $&6 )25:$5' 5()(%

59 5HIHUHQFHVHOHFW 2 $&6 / KEYPAD REF SEL EXT1/EXT2 SELECT (O) EXT REF1 SELECT (O) EXT REF1 MINIMUM EXT REF1 MAXIMUM EXT REF2 SELECT (O) EXT REF2 MINIMUM REF1 (+]); REF2 (%) DI1... DI6; EXT1; EXT2; COMM. MODULE KEYPAD; Analogue Inputs; COMM. MODULE; (0... ) +] 1 (0... ) +] 1 KEYPAD; Analogue Inputs; COMM. MODULE % EXT REF2 MAXIMUM % 2.(<3$'5()6(/ 5()+] 5()È +] 3)& 5()È 5()È (;7(;76(/(&7 2 (;7 (;7

60 (;7 (;7 ',', '& (;7 &20002'8/( (;7 (;7 (;75()6(/(&7 2.(<3$' $, $, $, ',', 9 9'& (;7 $,$,$,$,$,$,$,$,$,$,$,$, 0,1$,$,0,1$,$,0$;$,$,0$;$,$, &20002'8/( (;75()0,1,080 +] 5() $,$, $, $

61 (;75()0$;,080 +] 5() $,$, $, & (;75()6(/(&7 2 (;75()0,1,080 $,$, $, * 3)& 5() * / 0$;,080)5(48(1&< 0,1,080)5(48(1&< & (;75()0$;,080 5() $,$, $, * 3)& * / 0$;,080)5(48(1&< 0,1,080)5(48(1&< &

62 Hz 500 % MAXIMUM AI 10 V 20 ma 52 Hz EXT REF1 MAXIMUM 100 % 11.8 EXT REF2 MAXIMUM 0 Hz 0 % 120 Hz 100 % MINIMUM AI 0/2 V 0/4 ma 0 Hz EXT REF1 MINIMUM 0 % 11.7 EXT REF2 MINIMUM (;75() 0$;,080$,0$;,080$, 0$;,080$, 0,1,080 $,0,1,080$, 0,1,080$, (;75()

63 12 Constant Freq ( ) 2 $&6 6-3 / / 1 CONST FREQ SEL (O) NOT SEL; Digital Inputs 2 CONST FREQ Hz 1 3 CONST FREQ Hz 2 4 CONST FREQ Hz 3 3)& &2167)5(46(/ 127 6(/ 3)& 3, &2167)5(46(/ 1276(/ ',)5(4',)5(4 ', 1 2 9'& = () 6-4 DI4,5. DI4 DI

64 &2167)5( Hz &2167)5( Hz &2167)5( Hz

65 13 Analogue inputs ( ) $&6 6-5 / MINIMUM AI1 0 V; 2 V; TUNED VALUE; TUNE 2 MAXIMUM AI1 10 V; TUNED VALUE; TUNE / AI1.. AI1.. 3 SCALE AI % AI1. 4 FILTER AI s AI1. 5 INVERT AI1 NO; YES 1. 6 MINIMUM AI2 0 ma; 4 ma; TUNED VALUE; TUNE 7 MAXIMUM AI2 20 ma; TUNED VALUE; TUNE AI2.. AI2.. 8 SCALE AI % AI2. 9 FILTER AI s AI2. 10 INVERT AI2 NO; YES MINIMUM AI3 0 ma; 4 ma; TUNED VALUE; TUNE 12 MAXIMUM AI3 20 ma; TUNED VALUE; TUNE AI3.. AI SCALE AI % AI3. 14 FILTER AI s AI3. 15 INVERT AI3 NO; YES 3.

66 0,1,080$, 0$;,080$, 99781('9$/8(781( $, $, (;75()0,1,080 (;75()0,1, $/8( $&6 $,0,1)81&7,21 (17(5 781( (17( ( 781(' ('9$/8(781( $, $, (;75()0$;,080 (;75()0$;,080 9 (17(5 781( (17( ( 781('9$/8( 6&$/($, $, $, È ),/7(5$, PV

67 [%] t,19(57$, 12<(6 <(6 0,1,080$, 0$;,080$, P$P$781('9$/8(781( $, $, 781('9$/8( $&6 (;75()0,1,080 P$ (;75()0,1,080 P$ (17(5 781( (17(5 P$ 781( P$ P$781('9$/8(781( $, $, (;75()0$;,080 (;75()0$;,080 P$ (17(5 781( (17(5 781('9$/8( 781(

68 6&$/($, ),/7(5$,,19(57$, 0,1,080$, 0$;,080$, 6&$/($, ),/7(5$,,19(57$, 6&$/($, ),/7(5$,,19(57$, 0,1,080$, 0$;,080$, 6&$/($, ),/7(5$,,19(57$, SCALE AI1 100 % 10 V +] SCALE AI3 10 % +] AI1 + AI3 = EXT REF1 20 ma EXT REF1 MAXIMUM +] 40 % +] 60 % +] +] 0+] 0 +] 0 V 0 ma 0+] $,$, +] $, È $, È

69 5HOD\RXWSXWV $&6 / RELAY RO1 OUTPUT RELAY RO2 OUTPUT RELAY RO3 OUTPUT EXT2RELOUTPUT EXT2RELOUTPUT 2 5(/$< $57 3)& 067$573)& $57 ` $872&+$1*(,17(59$/ `.(<3$'5()6(/ 5()È $872&+$1*(,17(59$/ 12786(' 5($'< $&6 5811,1* $&6 )$8/7

70 )$8/7 )$8/7567 $&6 67$//:$51 67$//)/7 0277(03:51 '(/$<7,0( 67$//)81&7,21 67$//)81&7, (03)/7 $&67(03:51 $&6 $&67(03)/7 $&6 )$8/7:$51 :$51,1* 5(9(56(' (;7&75/ 5()6(/ '&29(592/7 '&81'(592/ )5(4/,0 63((')81&7,21 )5(4/,0 63((')81&7,21 63(('/,0,7 63(('/,0,7

71 &855(17/,0 &855(17)81&7,21 5()/,0 5())81&7,21 5()/,0 5())81&7,21 67$57(' $&6 /2662)5() 5()/,0,7 5()/,0,7 &855(17/,0,7 $763((' È $&7/,0 3,' $&7)81&7,21 $&7/,0 $&7)81&7,21 &20002'8/( 5() & $&7/,0,7 $&7/,0,7 5(/$< (/$< $57 067$57 067$57 3)& 3)& 3)& : M2 START : ` : AUTOCHANGE INTERVAL, NBR OF AUX MOTORS 1. ` : KEYPAD REF SEL REF2 (%) AUTOCHANGE INTERVAL, NBR OF AUX MOTORS 1.

72 5(/$< (/$< $57 067$57 M3 START 3)& 3)& 3)& : M3 START : ` : AUTOCHANGE INTERVAL, NBR OF AUX MOTORS 1. ` : KEYPAD REF SEL REF2 (%) AUTOCHANGE INTERVAL, NBR OF AUX MOTORS 2. 0$*15($'< 86(56(/ 86(50$&52 (;75(/ ($'<5811,1*)$8/7)$8/763(('/,0$&7/,0 5(/$< (;75(/ )& 5($'<5811,1*)$8/7)$8/763(('/,0$&7/,0 5(/$<

73 $QDORJXHRXWSXWV 2 $&6 / ANALOGUE OUTPUT 1 (O) INVERT AO1 NO; YES MINIMUM AO1 0 ma; 4 ma FILTER AO s AO SCALE AO % ANALOGUE OUTPUT 2 (O) INVERT AO2 NO; YES MINIMUM AO2 0 ma; 4 ma FILTER AO s AO SCALE AO % 2 $1$/2*8( $2 6&$/($2 6&$/($2 È 12786(' 63((' )5(48(1&< &855(17 P$ PV P$ PV P$ PV

74 72548( 32:(5 PV '&%8692/7 P$ È P$ È PV P$ È $&6 9DF 9 GF 9 $&6 9 DF 9GF9 PV /7 P$ PV 5()(5(1&( $&6 P$ È PV &21752/'(9 3,' P$ È P$ È $&78$/ P$ È PV $&70,1,080 $&70$;,080 P$ $&70$;,080 PV $&78$/ $&70,1,080 $&70$;,080 P$ $&70$;,080 PV 3,& )& 3,&215() PI $&78$/)81& $&78$/9$/8(6(/ )81&6&$/( &20002'8/( PV PV 5() & $&78$/

75 ,19(57$2 <(6 $2 0,1,080$2 P$ P$ ),/7(5$2 $2 PV È 6&$/($2 $2 È P$ $2 $ P$ $ $ $2 &855(17 $2 P$ P$ &855(17 $ È P$ P$ $1$/2*8( ,19(57$2 0,1,080$2 ),/7(5$2 6&$/($2 k * 5 A = 7.5 A => k = 1.5 = 150 % È $1$/2*8( ,19(57$2 0,1,080$2 ),/7(5$2 6&$/($2

76 6\VWHP&WULQSXWV $& RUN ENABLE2 YES; DI1... DI6; COMM. MODULE / PARAMETER LOCK2 OPEN; LOCKED; PASS CODE FAULT RESET SEL NOT SEL; DI1... DI6; ON STOP; COMM. MODULE USER MACRO IO CHG(2) NOT SEL; DI1... DI LOCAL LOCK2 OFF; ON PARAM SAVE2 SAVE..; DONE 581(1$%/( $&6 &'3 <(6 ',', 9'& $&6 $&6 &20002'8/( $&6 9'& & 3$5$0(7(5/2&. 23(1 /2&.(' 3$66&2'(

77 3$66&2'( )$8/75(6(76(/ 1276(/',', 1276(/ &20002'8/( & 86(50$&52,2&+* 1276(/',', 5(/$< $33/,&$7,210$&52 86(50$&52,2&+* 8VHU0DFURVDYH /2&$//2&. 2)) /2&5(0

78 3$5$06$9( 6$9('21( 6$9(

79 /LPLWV $& MINIMUM FREQ HZ HZ MAXIMUM FREQ HZ HZ / MAXIMUM CURRENT MAXIMUM TORQUE 0 % I hd % I hd 0 % % SCALAR OVERVOLTAGE CTRL UNDERVOLTAGE CTRL ON; OFF ON; OFF 0,1,080)5(48(1&< 3)& 0$;,080)5(48(1&< 3)& 0$;,080&855(17 $&6 È, KG $&6 0$;, ( $&6 È 29(592/7$*(&75/ 6&$/$5 2)) Ä $&6 2))

80 81'(592/7$*(&75/ 2)) $&6

81 6WDUW6WRS 2 $& / 01 START FUNCTION2 AUTO; DC MAGN; CNST DC MAGN. 02 CONST MAGN TIME ms ms. 03 STOP FUNCTION 2 COAST; RAMP. 67$57)81&7,21 $8720$7,& $&6 $8720$7,& 02725&75/02'( '&0$*1 PV V $& &75/02'( &167'&0$*1 &21670$*17,0( 02725&75/02'(

82 &21670$*17,0( 6723)81&7,21 &2$67 $&6 5$03 '(&(/7,0( '(&(/7,0( : PFC 21.3 STOP FUNCTION COAST AUTOCHANGE INTERVAL

83 $FFHO'HFHO 2 $&6 / ACC/DEC 1/2 SEL (O) ACC/DEC 1; ACC/DEC 2; DI1... DI6 / ACCEL TIME s DECEL TIME s ACCEL TIME s DECEL TIME s 0 ( 1 ) 0 ( 1 ) 0 ( 2 ) 0 ( 2 ) ACC/DEC RAMP SHPE EM STOP RAMP TIME s./ S $&&'(& 6(/2 ', ', 9'& 9 '& $&&(/7,0( 0$;,080 )5(48(1&< 0,1,080)5(48(1&< $&6 '(&(/7,0( 0$;,080 )5(48(1&< 0,1,080)5(48(1&<

84 21 $&6 $&6 $&&(/7,0( '(&(/7,0( $&6 $&&(/7,0( '(&(/7,0( $&&'(& 5$036+3( V V 6 6 6

85 V 1 s 0.2 s 5 s 1 s 15 s 3 s 6 = x s x s ( $037,0( 1',2 V : 3)&

86 6SHHG&WUO 6&$/$5 $& GAIN INTEGRATION TIME 0.01 s s. 03 SLIP GAIN 0.0 % %. 3,' 63((' / $&6 0$;, ( 3,'

87 A B C D A : : INTEGRATION TIME GAIN B :, C :,. B D : : INTEGRATION TIME GAIN t È + -, + + +

88 *$,1 È È % = K p = 1 T I = = 0 T D = = 0 = K p * e e = t,17(*5$7,217,0( % K p * e = K p = 1 T I = > 0 T D = = 0 K p * e e = T I t 6/,3*$,1 È È È USP 6/,3*$,1 È USP USPUSP USP È

89 &ULWLFDO)UHT $& / 01 CRIT FREQ SELECT OFF; ON. 02 CRIT FREQ 1 LOW Hz CRIT FREQ 1 HIGH Hz CRIT FREQ 2 LOW Hz CRIT FREQ 2 HIGH Hz 2. $&6 /2: +,*+ &5,7)5(4/2: &5,7)5(4+,*+ &5,7)5(46(/(&7 21 +]

90 FREQ Low1 High1 Low High 2 90 FREQ ref +]+] +]+]

91 0RWRU&RQWURO 2 $&6 / FLUX OPTIMIZATION(O) FLUX BRAKING(O) IR COMPENSATION(O) NO; YES. NO; YES. 0 % %. )/8;237,0,=$7,21 )/8;%5$.,1* 02'( $& &75/ SPEEDout [rpm] 3000 t [s] 02'( 02725&75/

92 ,5&203(16$7,21 6&$/$5 È,5 U (%) U N IR f (Hz),5 8 1

93 )DXOW)XQFWLRQV $& / 1 AI<MIN FUNCTION FAULT; NO; PRESET FREQ; LAST FREQ AI <. 2 PANEL LOSS FAULT; PRESET FREQ; LAST FREQ ACS EXTERNAL FAULT NOT SEL; DI1-DI6. 4 MOTOR THERM PROT 5 MOT THERM P MODE 6 MOTOR THERM TIME FAULT; WARNING; NO DTC; USER MODE; THERMISTOR s 63 %... 7 MOTOR LOAD CURVE %. 8 ZERO SPEED LOAD %. 9 BREAK POINT Hz. 10 STALL FUNCTION FAULT; WARNING; NO. 11 STALL FREQ HI Hz. 12 STALL TIME s. 13 UNDERLOAD FUNC NO; WARNING; FAULT. 14 UNDERLOAD TIME s. 15 UNDERLOAD CURVE 16 MOTOR PHASE LOSS NO; FAULT. 17 EARTH FAULT NO; FAULT. 18 PRESET FREQ Hz

94 19 COMM FAULT FUNC 20 COMM FLT TIME- OUT FAULT;NO; CONST SP 15; LAST FREQ 0.1S...60S ''&6 35(6(7)5(4 21 COMM FAULT RO/AO ZERO;LAST VALUE $,0,1)81&7,21 9P$ $,$, $, 35(6(7)5(4 /$67)5(4 )$8/7 12 3$1(//266 35(6(7)5(4 /$67)5(4 $&6 $&6 35(6(7)5(4 35(6(7)5(4 /$67)5(4 (;7(51$/)$8/7 )$8/735(6(7)5(4/$67)5(4 $,0,1)81&7, (/ ',', 9'& $&6

95 ( )$8/7 :$51,1* 12 $&6 È È 0277+(50302'( $&6 $& (507,0( '7& '7& /2$'&859( '7& (50 7,0(=(5263(('/2$' %5($.32,17 86(502'( (507,0( 02725/2$'&859(=(5263(('/2$' %5($.32,17 7+(50,6725,2 ',; 9; NΩ ', )$8/7 NΩ ',

96 ,(& $&6 ', PP 9$& $&6,2 ', 0277+(50302'( 7+(50,6725 ', (50302'( 7+(50,6725 Q) T 10 nf T 6 18 DI V d.c. ; 1, 2 & $ & 6 ; $ & DI V d.c. ; 1, 2 & $ & 6 X2; $ & 6

97 (507,0( È '7& 0277+(503 02'( 86(502'( 1(0$ 8/ WW V V V t 100 % 63 % t 02725/2$'&859( &855(17 È MOTOR NOM CURRENT ( % ) MOTOR LOAD CURVE ZERO SPEED LOAD BREAK POINT Speed

98 =(5263(('/2$' %5($.32,17 67$//)81&7, /2$' &859( =(5263(('/2$' 67$//7,0( FAULT WARNING NO $&6 67$//)5(4+, 02725&75/02'( 67$//7,0( T ( 30.11) f 7 67$//)5(4+, 67$//7,0( 81'(5/2$')81& 81'(5/2$'&859( 81'(5/2$'7,0( È

99 81'(5/2$'7,0( 12 :$51,1* )$8/7 )$8/7 $& &75/02'( 81'(5/2$'&859( T M (%) % % 30 % f N 2.4 * f N 7 0 I $6(/266 )$8/7 12 $&6 È 02725&75/02'( $&6

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101

102 $XWRPDWLF5HVHW $&6 / NUMBER OF TRIALS TRIAL TIME s DELAY TIME s OVERCURRENT NO; YES OVERVOLTAGE NO; YES UNDERVOLTAGE NO; YES 180%(52)75,$/ AI SIGNAL<MIN NO; YES 81'(592/7$*( 29(5&855(1729(592/7$*( $,6,*1$/0,1 $&6 75,$/7,0( 75,$/7,0( '(/$<7,0( 180%(52)75,$/6 $&6 $&6 29(5&855(17 <(6 $&6 29(592/7$*( <(6 $&6

103 81'(592/7$*( <(6 $&6 $,6,*1$/0,1 <(6 Ä $,6,*1$/0,1

104 6XSHUYLVLRQ $& FREQ1 FUNCTION NO; LOW LIMIT; HIGH LIMIT / FREQ1 LIMIT Hz Hz FREQ2 FUNCTION NO; LOW LIMIT; HIGH LIMIT;ABS LOW LIMIT FREQ2 LIMIT Hz Hz CURRENT FUNCTION NO; LOW LIMIT; HIGH LIMIT:ABS LOW LIMIT. 06 CURRENT LIMIT A. 07 REF1 FUNCTION NO; LOW LIMIT; HIGH LIMIT REF1 LIMIT Hz REF2 FUNCTION NO; LOW LIMIT; HIGH LIMIT REF2 LIMIT % ACT1 FUNCTION NO; LOW LIMIT; HIGH LIMIT ACT1 LIMIT % ACT2 FUNCTION NO; LOW LIMIT; HIGH LIMIT ACT2 LIMIT % 2.

105 )5(4)81&7,21 5(/$< (/$< (/$< (;75(/ /2:/,0,7 +,*+/,0,7 12 USP ABS LOW LIMIT 0 -ABS LOW LIMIT /2:/,0,7 +,*+/,0,7 $%6/2:/,0,7 )5(4/,0,7 += += )5(4)81&7,21 )5(4)81&7,21 )5(4/,0,7 += += &855(17)81&7, $%6/2:/,0,7 )5(4)81&7,21 (;75(/ &855(17/,0,7 $$ 5())81&7, $%6/2:/,0,7 )5(4)81&7,21 (;75(/ 5()/,0,7 += 5())81&7, $%6/2:/,0,7 )5(4)81&7,21 (;75(/ 5()/,0,7 È $&7)81&7,21 52 $%6/2:/,0,7 )5(4)81&7,21 $&7/,0,7 È

106 $&7)81&7,21 52 $%6/2:/,0,7 )5(4)81&7,21 $&7/,0,7 È

107 ,QIRUPDWLRQ / SOFTWARE VERSION APPL SW VERSION xxxxxxxx ACS 600 xxxxxxxx TEST DATE DDMMYY (,, ) 62)7:$5(9(56,21 $&6 AHxxxxyx $ $&6 H PFC $33/6:9(56,21 $&6 [\[ [\[ AHAxxxyx $ $&6 H PFC $ 7(67'$7( $&6 [\[ [\[

108 &RPPXQLFDWLRQ 0RGXOH &20002'8/($'$37(5$'$37(52

109 ''&6&RQWURO ''&6 $&6 ''&6 ''&6 $&6 / CHANNEL 0 ADDR ch0 ch0 ABB Advant ACS CHANNEL 3 ADDR ch3 ACS 600 DriveWindow ACS 600 PC

110 80 PI Controller (PI ) $33/,&$7,210$&52 3)&, $& / / 01 PI GAIN PI. 02 PI INTEG TIME s PI. 03 ERROR VALUE INV NO; YES PI. 04 ACTUAL VALUE SEL (O) ACT1; ACT1 - ACT2; ACT1 + ACT2; ACT1 * ACT2; ACT1/ACT2; MIN(A1,A2); MAX(A1,A2); sqrt(a1 - A2); sqa1 + sqa2 PI. 05 ACTUAL1 INPUT SEL 06 ACTUAL2 INPUT SEL AI1; AI2; AI3 1. AI1; AI2; AI ACT1 MINIMUM % ACT1 MAXIMUM % ACT2 MINIMUM % ACT2 MAXIMUM % ACT1 UNIT SCALE ACTUAL 1 UNIT NO; bar; %; ec ; mg/l; kpa 13 ACT2 UNIT SCALE ACTUAL 2 UNIT NO; bar; %; ec ; mg/l; kpa 2 15 ACTUAL FUNC SCALE 3, 0,1,080)5(48(1&< ( ) 0$;,080 )5(48(1&< ( ).

111 3,*$,1 3, 1 È 3, È 0$;,080)5(48(1&< ( ) +] 3, +] 0$;,080)5(48(1&< +] 3,. PI 10% 50% Hz (=0.5X0.1X60 Hz) Hz (=1.0X0.1X60 Hz) Hz (=3.0X0.1X60 Hz) 15 Hz (=0.5X0.5X60 Hz) 30 Hz (=1.0X0.5X60 Hz) 60 Hz (>3.0X0.5X60 Hz) ( 20.2 MAXIMUM FREQUEN- CY ) 3,,17(*7,0( 1 1s 100 % PI PI t 6-18 PI,. 3, È (55259$/8(,19 (3, ) ( ) (UURU9DOXH,QYHUW <(6

112 $&78$/9$/8(6(/ $&78$/,1387 6(/ 12$,$, $, $&7$&7$&7$&7$&7$&7$&7 $&7$&70,1$$0$;$$VTUW$$VT$VT$ 3, $&78$/,13876(/ $&7 $&78$/,13876(/ $&7 $ $&7 $ $&7 0,1$$ $&7 $&7 VTUW$$ $&7$&7 VT$VT$ $&7 $&7 3, VTUW$$ VT$VT$ $&7 $&78$/,1387 6(/ 12$,$, $, $&70,1,080 1 $&7 È, 1 (9 P$) $, (, ) = È $, (, ) $, (, ) $&78$/0,1, = È È 99 $&70$;,080 1 È È

113 1 (9 P$) $, ( ) = È $, ( ) $, ( ) $&78$/0$;, = È È V(100 %) 100 % 10 V(100 %) 100 % 100 % 100 % 8 V(75 %) 8 V(80 %) 60 % 4 V(25 %) 2 V(0 %) 0 V 0 % 4 V(40 %) 0 V(0 %) 0 % 20 % 0 % 0 % AI 2 V/4 ma 1 75 % 1 25 % AI 0 V/0 ma 1 80% 1 40 % 1 = 20 % 1 = 60 % $&70,1,080 $&70$;,080 $&781,76&$/( $&78$/81,7 $&78$/81,7 NO; bar; % ;ec ; kpa $&781,76&$/( $&78$/81,7 NO bar, %,ec, mg/l, kpa.

114 $&78$/)81&6&$/( $&78$/9$/8(6(/ $1$/2*8(

115 81 PFC Control ( ) / $33/,&$7,210$&52 3)& $& / SET POINT PANEL; EXTERNAL CONST SET POINT % 81.3 REFRENCE STEP % REFRENCE STEP % REFRENCE STEP % SLEEP DELAY s SLEEP LEVEL Hz WAKE UP LEVEL % START FREQ Hz START FREQ Hz START FREQ Hz LOW FREQ Hz LOW FREQ Hz LOW FREQ Hz AUX MOT START DLY s AUX MOT STOP DLY s NBR OF AUX MOTORS ZERO;... ; THREE AUTOCHANGE INTERV 0 min... h AUTOCHANGE LEVEL % INTERLOCKS ON; OFF REGUL BYPASS CTRL NO; YES PI PFC START DELAY ms

116 6(732,17 (;7(51$/ (;75()6(/(&7 5() 3$1(/ 3)&.(<3$'5()6(/ L &21676(732,17 &21676(732,17 3, 6(732,17 3$1(/, 3, 5()(5(1&(67(3 È $&6 &21676(732,17 5()5(1&(67(3 5()5(1&(67(3 % 5()5(1&(67(3 % 5()5(1&(67(3

117 6/((3'(/$< 6-19 ACS SLEEP LEVEL ACS 600 6/((3/(9(/ 6-19 ACS 600 ACS t d =, 81.6 t<t d t d MINIMUM FREQUENCY ACS 600 :$.(83/(9(/ 6-21 $&6

118 67$57)5( ACS START FREQ 1 +1 Hz AUX MOT START DLY 81.9 START FREQ 1-1 Hz ACS START FREQ LOW FREQ LOW FREQ MAXIMUM FREQUENCY - 1Hz 67$57)5( ACS START FREQ 2 +1 Hz AUX MOT START DLY START FREQ 2-1 Hz ACS START FREQ LOW FREQ LOW FREQ MAXIMUM FREQUENCY - 1Hz 67$57)5( ACS START FREQ 3 +1 Hz AUX MOT START DLY START FREQ 3-1 Hz ACS START FREQ LOW FREQ LOW FREQ MAXIMUM FREQUENCY - 1Hz

119 /2:)5( ACS LOW FREQ 1 1 Hz AUX MOT STOP DLY LOW FREQ Hz ACS 600 FREQ LOW FREQ START MINIMUM FREQUENCY + 1 Hz 81.9 START FREQ MINIMUM FREQUENCY LOW FREQ LOW FREQ= MINIMUM FREQUENCY+2HZ /2:)5( ACS LOW FREQ 2 1 Hz AUX MOT STOP DLY LOW FREQ Hz ACS 600 FREQ LOW FREQ START MINIMUM FREQUENCY + 1 Hz START FREQ MINIMUM FREQUENCY LOW FREQ, LOW FREQ= MINIMUM FREQUENCY+2HZ /2:)5( ACS LOW FREQ 3 1 Hz AUX MOT STOP DLY LOW FREQ Hz ACS 600 FREQ LOW FREQ START MINIMUM FREQUENCY + 1 Hz START FREQ MINIMUM FREQUENCY LOW FREQ LOW FREQ= MINIMUM FREQUENCY+2

120 $8;02767$57'/< 81.9 START FREQ 1. $8; '/< LOW FREQ START FREQ Hz AUX MOT START DLY f max LOW FREQ 1-1 Hz f min AUX MOT STOP DLY / %52)$8; ACS 600 : ( RELAY RO1 OUTPUT (O), RELAY RO2 OUTPUT (O) and RELAY RO3 OUTPUT (O)) PFC 98 I/O 1',2

121 : ( AUTOCHANGE INTERVAL) $872&+$1*(,17(59$/ AUTOCHANGE LEVEL 0 h 00 min ACS STOP FUNCTION COAST ACS 600 ACS 600 $872&+$1*(/(9(/ f ac = Par % 1 + Par ( ) Par f ac = Par = AUTOCHANGE LEVEL ( ) Par = NUMBER OF AUX MOTORS ( ) Par = MAXIMUM FREQUENCY ( ) NBR OF AUX MOTORS AUTOCHANGE LEVEL 52 Hz 81.2 MAXIMUM FREQUENCY 1. ACS Hz = 25% / (100% / (1+2))*52 Hz AUTOCHANGE INTERVAL ACS 600

122 PFC START DELAY 5. PFC * * * * AUTOCHANGE LEVEL 20.1 MINIMUM FREQUENCY 20.2 MAXIMUM FREQUENCY AUTOCHANGE INTERVAL ACS 600

123 ,17(5/2&.6 $&6 OFF DI2 DI3 DI4 Par : (motor no.1) ACS : (motor no.1) ACS 600. RO1 (motor no.2) RO1. 2 : (motor no.1) ACS 600. RO1 (motor no.2) RO1. RO2 (motor no.) RO. 3 : (motor no.1) ACS 600. RO1 (motor no.2) RO1. RO2 (motor no.) RO. RO3 (motor no.) RO. : ( $872&+$1*(,17(59$/)

124 ON, DI2 DI3 DI4 Table Par : DI2 DI2 RO1 RO1. 1 : DI2, DI3 DI2 DI RO1, RO2 RO1 RO 2 : DI2, DI3, DI4 DI2 DI DI RO1, RO2, RO3 RO1 RO RO3, 3 : DI2, DI3, DI4 DI2 DI DI PFC NDIO (DI1) PFC,2 (NDIO, ). PFC NDIO 98 RO1, RO2, RO3 RO1 RO RO3, PFC NDIO (DO1) PFC NDIO 1 PFC NDIO 98 3)& 3)&

125 DI2: DI3 DI4 DI6 +24 V RO21 RO22 RO23 RO31 RO32 RO33 ACS 600 ~230 V a.c. ~230 V a.c. On/Off On/Off 3 3 K1 K2.1 M 3~ M1 M 3~ M PFC M REGUL BYPASS CTRL NO YES PI $&6 $&6 $&6 PI PI $&78$/9$/8(6(/ PI

126 = 3 M 3~ P1 1 3 M 3~ P2 2 3 M 3~ P3 P1 P2 ACS 600 P3 3 3 ~ ( ) Frequency / [Hz] Max. freq. Start freq. 2 Start freq.1 No aux. motors ON Freq. for M1 1 aux. motor ON Freq. for M2 2 aux. motors ON Freq. for M3 Low freq.2 Low freq.1 Min. freq. Control Signal [%] 33% 66% 100% PFC START DELAY 1. ACS PFC

127 3. PFC PFC PFC ACS 600

128 '6(75(&$''5 &20002'8/($'$37(5 / D SET 3 VAL D SET 3 VAL D SET 3 VAL &

129 '6(775$''5 &20002'8/($'$37(5 / D SET 2 VAL (fixed) $& D SET 2 VAL D SET 2 VAL D SET 4 VAL D SET 4 VAL D SET 4 VAL &

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132

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141 A - $&6 $&6 $ PFC ACT VAL1 CURRENT FREQ 3 FREQ CURRENT2 CTRL LOC $ ( ) / PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus 1.01 SPEED SPEED rpm = -100 % = 100 % 1.02 FREQUENCY FREQ Hz = -1 Hz 100 = 1 Hz 1.03 CURRENT CURRENT A = 1 A 1.04 TORQUE TORQUE % = -100 % = 100 % 1.05 POWER POWER % = 0 % = 100 % 1.06 DC BUS VOLTAGE V DC BUS V V = 1 V A A-1

142 A A-2 ( ) / PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus 1.07 MAINS VOLTAGE MAINS V V = 1 V 1.08 OUTPUT VOLTAGE OUT VOLT V = 1 V 1.09 ACS 600 TEMP ACS TEMP C = EXTERNAL REF 1 EXT REF1 Hz = 1 Hz 1.11 EXTERNAL REF 2 EXT REF2 % = 0 % = 100 % / / ( ACS 600 ) 1.12 CTRL LOCATION CTRL LOC (1,2) LOCAL; (3) EXT1; (4) EXT ( ) 1.13 OP HOUR COUNTER OP HOURS h = 1 h 1.14 KILOWATT HOURS KW HOURS kwh = 100 kwh 1.15 APPL BLOCK OUTPUT APPL OUT % = 0 % = 100 % 1.16 DI6-1 STATUS DI AI1 [V] AI1 [V] V = 0.01 V 1.18 AI2 [ma] AI2 [ma] ma =0.0 1 ma 1.19 AI3 [ma] AI3 [ma] ma = 0.01 ma 1.20 RO3-1 STATUS RO AO1 [ma] AO1 [ma] ma =0.01 ma 1.22 AO2 [ma] AO2 [ma] ma = 0.01 ma 1.23 ACTUAL VALUE 1 ACT VAL1 No; bar; %; C; mg/l; kpa = 0 % = 100 % 1.24 ACTUAL VALUE 2 ACT VAL2 No; bar; %; C; mg/l; kpa = 0 % = 100 % 1.25 CONTROL DEVIATION CONT DEV % = -100 % = 100 % 1.26 PFC OPERAT. TIME PFC OPT h ACTUAL FUNC OUT ACTUAL F

143 A-3. ( ) / PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus 2.01 SPEED REF 2 S REF 2 % = 0 % 2.02 SPEED REF 3 S REF 3 % = 100 % 2.09 TORQ REF 2 T REF 2 % = 0 % 2.10 TORQ REF 3 T REF 3 % = 100 % 2.13 TORQ REF USED T USED R % SPEED ESTIMATED SPEED ES % = 0 % = 100 % A-4 ( ). ( ) / PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus 3.01 MAIN CTRL WORD MAIN CW (Decimal) MAIN STATUS WORD MAIN SW (Decimal) AUX STATUS WORD AUX SW (Decimal) LIMIT WORD 1 LIMIT W (Decimal) FAULT WORD 1 FAULT W (Decimal) FAULT WORD 2 FAULT W (Decimal) SYSTEM FAULT SYS FLT (Decimal) ALARM WORD 1 ALARM W (Decimal) ALARM WORD 2 ALARM W (Decimal) & A A-3

144 A A-4 A-1. (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto 99 START-UP DATA LANGUAGE (0) ENGLISH; (1) ENGLISH(AM); (2) DEUTSCH; (3) ITALIANO; (4) ESPANOL; (5) PORTUGUES; (6) NEDERLANDS; (7) FRANCAIS; (8) DANSK; (9) SUOMI; (10) SVENSKA ( ) ENGLISH ENGLISH APPLICATION MACRO (O) (1) PFC; (2) HAND/AUTO; (3) USER 1 LOAD; (4) USER 1 SAVE; (5) USER 2 LOAD; (6) USER 2 SAVE ( ) PFC HAND/AUTO APPLIC RESTORE (O) (0) NO; (1) YES ( ) NO NO MOTOR CTRL MODE (O) (0) DTC; (1) SCALAR ( ) DTC DTC MOTOR NOM VOLTAGE 1/2 U N... 2 U N ( )U N $& = 1 V 0 V 0 V (O) MOTOR NOM 1/6 I 2hd... 2 I 2hd ( )I 2hd $& = 0.1 A 0.0 A 0.0 A CURRENT (O) MOTOR NOM FREQ (O) 8 Hz Hz ( ) = 0.01 Hz 50.0 Hz 50.0 Hz MOTOR NOM SPEED 1 rpm rpm ( ) = 1 rpm 1 rpm 1 rpm (O) MOTOR NOM POWER (O) 0 kw kw ( ) = 1 kw 0.0 kw 0.0 kw MOTOR ID RUN (O) (1) NO; (2) STANDARD; (3) REDUCED ( ) NO NO 10 START/STOP/DIR EXT1 STRT/STP/DIR (O) (1) NOT SEL; (2) DI1; (3) DI1,2; (4) DI1P,2P; (5) DI1P,2P,3; (6) DI1P,2P,3P; (7) DI6; (8) DI6,5; (9) KEYPAD; (10) COMM. MODULE EXT2 STRT/STP/DIR (O) (1) NOT SEL; (2) DI1; (3) DI1,2; (4) DI1P,2P; (5) DI1P,2P,3; (6) DI1P,2P,3P; (7) DI6; (8) DI6,5; (9) KEYPAD; (10) COMM. MODULE ( ) DI1 DI ( ) DI6 DI DIRECTION (O) (1) FORWARD; (2) REVERSE; (3) REQUEST ( ) FORWARD FORWARD

145 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto 11 REFERENCE SELECT KEYPAD REF SEL (1) REF1(Hz); (2) REF2(%) ( ) REF1 (Hz) REF1 (Hz) EXT1/EXT2 SELECT (O) (1) DI1; (2) DI2; (3) DI3; (4) DI4; (5) DI5; (6) DI6; (7) EXT1; (8) EXT2; (9) COMM. MODULE EXT REF1 SELECT (O) (1) KEYPAD; (2) AI1; (3) AI2; (4) AI3; (5) AI1+AI3; (6) AI2+AI3; (7) AI1-AI3; (8) AI2-AI3; (9) AI1*AI3; (10) AI2*AI3; (11) MIN(AI1,AI3); (12) MIN(AI2,AI3); (13) MAX(AI1,AI3); (14) MAX(AI2,AI3); (15) COMM. MODULE ( ) EXT2 DI ( ) AI1 AI EXT REF1 MINIMUM Hz = 0.01 Hz 0 Hz 0 Hz EXT REF1 MAXIMUM Hz = 0.01 Hz 52 Hz 52 Hz EXT REF2 SELECT (O) (1) KEYPAD; (2) AI1; (3) AI2; (4) AI3; (5) AI1+AI3; (6) AI2+AI3; (7) AI1-AI3; (8) AI2-AI3; (9) AI1*AI3; (10) AI2*AI3; (11) MIN(AI1,AI3); (12) MIN(AI2,AI3); (13) MAX(AI1,AI3); (14) MAX(AI2,AI3); (15) COMM. MODULE ( ) AI1 AI EXT REF2 MINIMUM 0 % % = 0 % = 100 % EXT REF2 MAXIMUM 0 % % = 0 % 5000 = 500 % 0 % 0 % 100 % 100 % 12 CONSTANT FREQ CONST FREQ SEL (O) (1) NOT SEL; (2) DI4 (FREQ1); (3) DI5 (FREQ2); (4) DI4, ( ) NOT SEL NOT SEL CONST FREQ Hz = 0.01 Hz 25 Hz 25 Hz CONST FREQ Hz Hz 30 Hz CONST FREQ Hz Hz 35 Hz 13 ANALOGUE INPUTS MINIMUM AI1 (1) 0 V; (2) 2 V; (3) TUNED VALUE; (4) TUNE ( ) 0 V 0 V MAXIMUM AI1 (1) 10 V; (2) TUNED VALUE; (3) TUNE ( ) 10 V 10 V SCALE AI % = 0 % = 100 % FILTER AI s s = 0 s 1000 = 10 s 100 % 100 % 0.10 s 0.10 s INVERT AI1 (0) NO; (65535) YES ( ) NO NO MINIMUM AI2 (1) 0 ma; (2) 4 ma; (3) TUNED VALUE; (4) TUNE ( ) 4 ma 4 ma A A-5

146 A A-6 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto MAXIMUM AI2 (1) 20 ma; (2) TUNED VALUE; (3) TUNE ( ) 20 ma 20 ma SCALE AI % = 0 % = 100 % FILTER AI s s = 0 s 1000 = 10 s 100 % 100 % 0.10 s 0.10 s INVERT AI2 (0) NO; (65535) YES ( ) NO NO MINIMUM AI3 (1) 0 ma; (2) 4 ma; (3) TUNED VALUE; (4) TUNE ( ) 4 ma 4 ma MAXIMUM AI3 (1) 20 ma; (2) TUNED VALUE; (3) TUNE ( ) 20 ma 20 ma SCALE AI % = 0 % = 100 % FILTER AI s s = 0 s 1000 = 10 s 100 % 100 % 0.10 s 0.10 s INVERT AI3 (0) NO; (65535) YES ( ) NO NO 14 RELAY OUTPUTS RELAY RO1 OUTPUT (O) RELAY RO2 OUTPUT (O) RELAY RO3 OUTPUT (O) EXT2 REL OUTPUT1 (O) EXT2 REL OUTPUT2 (O) Relay outputs 1, 2 & 3: Relay output 1: (1) M1 START; Relay output 2: (1) M2 START; Relay output 3: (1) M3 START; (2) NOT USED; (3) READY; (4) RUNNING; (5) FAULT; (6) FAULT(-1); (7) FAULT(RST); (8) STALL WARN; (9) STALL FLT; (10) MOT TEMP WRN; (11) MOT TEMP FLT; (12) ACS TEMP WRN; (13) ACS TEMP FLT; (14) FAULT/WARN; (15) WARNING; (16) REVERSED; (17) EXT CTRL; (18) REF 2 SEL; (19) DC OVERVOLT; (20) DC UNDERVOL; (21) FREQ 1 LIM; (22) FREQ 2 LIM; (23) CURRENT LIM; (24) REF 1 LIM; (25) REF 2 LIM; (26) STARTED; (27) LOSS OF REF; (28) AT SPEED; Relay output 1 & 2: (29) ACT 1 LIM; (30) ACT 2 LIM; (31) COMM MODULE Relay output 3: (29) MAGN READY; (30) USER 2 SEL (31) COMM MODULE (1) READY; (2) RUNNING; (3) FAULT; (4) FAULT(-1); (5) FREQ 1 LIM; (6) ACT 1 LIM; (1) READY; (2) RUNNING; (3) FAULT; (4) FAULT(-1); (5) FREQ 2 LIM; (6) ACT 2 LIM; ( ) M1 START READY M2 START RUNNING FAULT FAULT(-1) RUNNING RUNNING FAULT FAULT

147 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto 15 ANALOGUE OUTPUTS ANALOGUE OUTPUT1 (O) (1) NOT USED; (2) SPEED; (3) FREQUENCY; (4) CURRENT; (5) TORQUE; (6) POWER; (7) DC BUS VOLT; (8) OUTPUT VOLT; (9) REFERENCE; (10) CONTROL DEV; (11) ACTUAL 1; (12) ACTUAL 2; (13) PICON OUTP; (14) PICON REF; (15) ACTUAL FUNC; (16) COMM. MODULE ( ) FREQUENCY FREQUENCY INVERT AO1 (0) NO; (65535) YES ( ) NO NO MINIMUM AO1 (1) 0 ma; (2) 4 ma ( ) 0 ma 0 ma FILTER AO s s = 0 s 1000 = 10 s SCALE AO1 10 % % = 10 % = 1000 % 2.00 s 2.00 s 100 % 100 % ANALOGUE OUTPUT2 (O) (1) NOT USED; (2) SPEED; (3) FREQUENCY; (4) CURRENT; (5) TORQUE; (6) POWER; (7) DC BUS VOLT; (8) OUTPUT VOLT; (9) REFERENCE; (10) CONTROL DEV; (11) ACTUAL 1; (12) ACTUAL 2; (13) PICON OUTP; (14) PICON REF; (15) ACTUAL FUNC; (16) COMM. MODULE ( ) ACTUAL 1 CURRENT INVERT AO2 (0) NO; (65535) YES ( ) NO NO MINIMUM AO2 (1) 0 ma; (2) 4 ma ( ) 0 ma 0 ma FILTER AO s s = 0 s 1000 = 10 s SCALE AO2 10 % % = 10 % = 1000 % 2.00 s 2.00 s 100 % 100 % A A-7

148 A A-8 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto 16 SYSTEM CTR INPUTS RUN ENABLE (O) (1) YES; (2) DI1; (3) DI2; (4) DI3; (5) DI4; (6) DI5; (7) DI6; (8) COMM. MODULE ( ) YES YES PARAMETER LOCK (O) (0) OPEN; (65535) LOCKED ( ) OPEN OPEN PASS CODE (O) * * FAULT RESET SEL (O) (1) NOT SEL; (2) DI1; (3) DI2; (4) DI3; (5) DI4; (6) DI5; (7) DI6; (8) ON STOP; (9) COMM. MODULE ( ) NOT SEL NOT SEL USER MACRO IO CHG (O) (1) NOT SEL; (2) DI1; (3) DI2; (4) DI3; (5) DI4; (6) DI5; (7) DI ( ) NOT SEL NOT SEL LOCAL LOCK (0) OFF; (65535) ON ( ) OFF OFF PARAMETER SAVE (0) DONE; (1) SAVE ( ) DONE DONE 20 LIMITS MINIMUM FREQ -120 Hz Hz = 0.01 Hz 0.00 Hz 0.00 Hz MAXIMUM FREQ -120 Hz Hz = 0.01 Hz Hz Hz MAXIMUM CURRENT 0.0 % I hd % I hd = 0 % = 200 % % I hd % I hd MAXIMUM TORQUE 0.0 % % = 1 % % % OVERVOLTAGE CTRL (0) NO; (65535) YES ( ) ON ON UNDERVOLTAGE CTRL (0) NO; (65535) YES ( ) ON ON 21 START/STOP START FUNCTION (O) (1) AUTO; (2) DC MAGN; (3) CNST DC MAGN ( ) AUTO AUTO CONST MAGN TIME 30.0 ms ms = 1 ms ms ms STOP FUNCTION (1) COAST; (2) RAMP ( ) COAST COAST

149 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto 22 ACCEL/DECEL ACC/DEC 1/2 SEL (O) (1) ACC/DEC 1; (2) ACC/DEC 2; ( ) ACC/DEC 1 ACC/DEC 1 (3) DI1; (4) DI2; (5) DI3; (6) DI4; (7) DI5; (8) DI ACCEL TIME s s = 0 s 3.00 s 3.00 s DECEL TIME s s = 1800 s 3.00 s 3.00 s ACCEL TIME s s s s DECEL TIME s s s s ACC/DEC RAMP SHPE 0.00 s s = 1 s 0.00 s 0.00 s EM STOP RAMP TIME 0.00 s ,97 s = 1 s 3.00 s 3.00 s 23 SPEED CTRL GAIN = = INTEGRATION TIME 0.01 s s = 1 s 2.50 s 2.50 s SLIP GAIN 0.0 % % = 1 % 100 % 100 % 25 CRITICAL FREQ CRIT FREQ SELECT (0) OFF; (65535) ON ( ) OFF OFF CRIT FREQ 1 LOW 0 Hz Hz = 0.01 Hz 0 Hz 0 Hz CRIT FREQ 1 HIGH 0 Hz Hz Hz 0 Hz CRIT FREQ 2 LOW 0 Hz Hz Hz 0 Hz CRIT FREQ 2 HIGH 0 Hz Hz Hz 0 Hz 26 MOTOR CONTROL FLUX OPTIMIZATION (0) NO; (65535) YES ( ) YES YES (O) FLUX BRAKING (O) (0) NO; (65535) YES ( ) YES YES IR COMPENSATION (O) 0 % % ( SCALAR ) = 1 % 0 % 0 % A A-9

150 A A-10 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto 30 FAULT FUNCTIONS AI<MIN FUNCTION (1) FAULT; (2) NO; (3) PRESET FREQ; (4) LAST FREQ ( ) FAULT FAULT PANEL LOSS (1) FAULT; (2) PRESET FREQ 15; (3) LAST FREQ ( ) FAULT FAULT EXTERNAL FAULT (1) NOT SEL; (2) DI1; (3) DI2; (4) DI3; (5) DI4; (6) DI5; (7) DI ( ) NOT SEL NOT SEL MOTOR THERM PROT (1) FAULT; (2) WARNING; (3) NO ( ) NO NO MOT THERM P MODE (1) DTC; (2) USER MODE; (3) THERMISTOR ( ) DTC DTC MOTOR THERM TIME s s = 1 s (calculated) (calculated) MOTOR LOAD CURVE 50.0 % % = 1 % % % ZERO SPEED LOAD 25.0 % % = 1 % 74.0 % 74.0 % BREAK POINT 1.0 Hz Hz = 1 Hz = 300 Hz 45.0 Hz 45.0 Hz STALL FUNCTION (1) FAULT; (2) WARNING; (3) NO ( ) FAULT FAULT STALL FREQ HI 0.5 Hz Hz = 0.5 Hz 5000 = 50 Hz 20.0 Hz 20.0 Hz STALL TIME s s = 1 s s s UNDERLOAD FUNC (1) NO; (2) WARNING; (3) FAULT ( ) NO NO UNDERLOAD TIME 0 s s = 1 s s s UNDERLOAD CURVE ( ) MOTOR PHASE LOSS (0) NO; (65535) FAULT ( ) FAULT FAULT EARTH FAULT (0) NO; (65535) FAULT ( ) FAULT FAULT PRESET FREQ 0 Hz Hz = 0.01 Hz Hz Hz COMM FAULT FUNC (1) FAULT; (2) NO; (3) PRESET FREQ; (4) LAST FREQ ( ) FAULT FAULT COMM FAULT TIMEOUT 0.1 s s = 0.1 s 6000 = 60 s 1.00 s 1.00 s COMM FAULT RO/AO (0) ZER0; (65535) LAST VALUE ( ) ZERO ZERO 31 AUTOMATIC RESET NUMBER OF TRIALS TRIAL TIME 1.0 s s = 1 s = 180 s 30.0 s 30.0 s

151 (O) $&6 ( ) PROFIBUS ( ) 6 0 ) Modbus/ Modbus Plus PFC Hand/Auto DELAY TIME 0.0 s s = 0 s 300 = 3 s 0.0 s 0.0 s OVERCURRENT (0) NO; (65535) YES ( ) NO NO OVERVOLTAGE (0) NO; (65535) YES ( ) NO NO UNDERVOLTAGE (0) NO; (65535) YES ( ) NO NO AI SIGNAL<MIN (0) NO; (65535) YES ( ) NO NO 32 SUPERVISION FREQ1 FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT; (4) ABS LOW LIMIT ( ) NO NO FREQ1 LIMIT Hz Hz = 0.01 Hz 0 Hz 0 Hz FREQ2 FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT; (4) ABS LOW LIMIT ( ) NO NO FREQ2 LIMIT Hz Hz = 0.01 Hz 0 Hz 0 Hz CURRENT FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT ( ) NO NO CURRENT LIMIT A = 1 A 0 A 0 A REF1 FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT ( ) NO NO REF1 LIMIT 0 Hz Hz = 0.01 Hz 0 Hz 0 Hz REF2 FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT ( ) NO NO REF2 LIMIT 0 % % = 1 % 0 % 0 % ACT1 FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT ( ) NO NO ACT1 LIMIT 0 % % = 0 % 10 = 1 % 0 % 0 % ACT2 FUNCTION (1) NO; (2) LOW LIMIT; (3) HIGH LIMIT ( ) NO NO ACT2 LIMIT 0 % % = 0 % 10 = 1% 0 % 0 % 33 INFORMATION SOFTWARE VERSION ( ACS 600 ) ( ) ( ) APPL SW VERSION ( ACS 600 ) ( ) ( ) TEST DATE ( ) ( ) ( ) A A-11