SDC45/46 User`s Manual
Contents
1. Eb 3 Breakpointdecimal point position Same as linearization 1 ERO AX Breakpoint A1 EE RAE Breakpoint A2 eba 3 BreakpointA3 rhe 2 Breakpoint A4 pn 3 BreakpointA5 gt a AGE 3 Breakpoint A6 tAE 3 BreakpointA7 St A 0 Breakpoint A8 eba 3 BreakpointA9 thA B A BreakpointAtO kb 3 BreakpointA thA i 3 BreakpointA12 Eb AS 3 BreakpointA13 pu 3 BreakpointAt4 Eb A 5 3 BreakpointA15 Eb A 3 BreakpointAt6 EBA A BreakpointAt7 thA B 3 BreakpointAt8 Eb A 3 BreakpointA19 kbASG 3 BreakpointA20 Byrne Breakpoint B1 kbbde 3 BreakpointB2 eh 3 Breakpoint B3 bk A BreakpointB4 Byr Breakpoint B5 tbb05 3 BreakpointB6 Sa S X Breakpoint B7 tb b 08 3 BreakpointB8 thks 3 Breakpoint B9 bb A BreakpointB10 bbb dd 3 BreakpointB11 kl 3 BreakpointB12 fbb 3 BreakpointB13 tb M 3 BreakpointB14 bb S A BreakpointB15 bb A BreakpointB16 bb 3 BreakpointB17_ bbb dB 3 BreakpointB18 bbb 3 BreakpointB19 il 3 Breakpoint B20 Display Linearization Item Settings and descriptions Initial User Remarks group number value setting auxiliary display Same as linearization 1 O Q9 913 oles la O O O lio O lio 2 22 2 PARA BANK SETTINGS group number Vis setting auxiliary displa be Breakpoint deine2. Lock level Data registered to function key e MV in manual mode MV e Lock bank Multiple SP bank Recipe bank Event setting bank A fo CI Other than above EA O x 2 39 2 PARA BANK SETTINGS B Monitor bank auxiliary display aL Alarm tendon 1 Hexadecimal value Note 1 a a lAlaminformation2 S At X Alarminfomationg do amina Alarm information 4 PaP 4 JPV oopi S amp Ip a e SP loop 1 A SP loop 2 MV loop 1 oa IM loop 2 Akk HeatsideMV oop1 Anhe amp HeatsideMV loop 2 uti t CooksideMV loop 1 uti CooksideMV oop2 Ll AT progress loop 1 An a ATprogress loop2 SPna 6L SP group selection loop 1 FJ SP group selection loop 2 CAP PID group selection loop 1 a PID group selection loop 2 PV t3ttHgdgd Pu PV PV PV o amp X JMPBf ncudngesimaion S S O CTi value Current atoutputON OOOO amp CT2valueCurrentatoutputON OOOO Ll amp CTi value Current at output OFF gt SSS amp J CT2value Currentatoutput OFF SO DES GE a AAA RE e AAA Er lSourcefrequeny OO JUE aUP t Continuous output percent output 1 Enabledtor current output or oULP A Continuous output percent output2 Joontinuous voltage output 3 Continuous output percent output 3 otk Continuous output percent output 4 Lm Continuous output percent output 5 Continuous outpu
3. amp Ratio 0 001 to 32 000 11 7 Tow Thermocouple mV input burnout 0 Upscale at burnout 1 No burnout detection Linearization table group 0 Disabled 1 Group 1 2 Group 2 definition 3 Group 3 4 Group 4 5 Group 5 6 Group6 7 Group7 8 Group 8 Range type 0 Not used For details refer to the PV input 49 1t0 5 V 50 0to 5 V 51 0to 10V range table in the SDC45 46 Installation Instructions No CP UM 5445E Be sure not to set a range type number that is not supported Decimal point position 0 No decimal point 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point a Temperature unit 19999 to 32000 U 1999 9 The decimal point position is s high limit determined by the decimal point position for the PV Set by means of the adjustment Cannot be set by direct input of a numerical value using the keys B 8I Linear scaling low limit 19999 to 32000 U ool The decimal point position is ie scaling high limit determined by the decimal point position for the PV ue root extraction dropout 0 0 Square root extraction is not performed VETA 1 to 10 0 Pu i A Filter 0 00 Nofilter 0 01t012000s Bias 19999 to 32000 U ls decimal point position is determined by the decimal point for the PV pl x Raio 10 001t032000 11 000 Bu 45 3 Thermocouple mV input burnout De Linearization table group 0 Disabled 1 Group 1 2 Group 2 defin
4. o o NO CH Output high limit 204 Integral time for cool side EM Derivative time for cool side EM Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 12 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa SP 205 LSP Same as SP group 1 lo Sameas SP group 1 EGG 805 Event9mainsetting EGG 5b 2 55 Event 9 sub setting E ap Event10 main setting Elosb 205 Event10 sub setting EI 05 Event11 main setting Ef amp 5b 205 _ Event11 sub setting E 205 Event 12 main setting Elesb 805 Event 12 sub setting Ei3 ap Event13 main setting Elas ap Event13 sub setting EM ap Event14 main setting EMSb 805 Event14 sub setting Eis abs Event15 main setting Eis sb 805 Event 15 sub setting E abs Event16 main setting ESakl 205 Event16 sub setting P ap Proportionalband abs Integraltime abs Derivativetime oL abs jOutputlowlimit 285 Output high limit 805 Manual reset 2 85 Proportional band for cool side 2 05 Itegraltimeforcoolside 2 05 Derivativetimeforcoolside 285 Output low limit for cool side 2 05 Output high limit for cool side 205 Initial output of PID control 206 LSP Sameas SP gr
5. AA CoD O 3 D O o ue O 7 o The decimal point position is determined by the setting for the decimal point position in the input computation bank Same as for FO1 Same as for FO1 2 35 2 PARA BANK SETTINGS Display Auxiliary display Settings and descriptions Initial User Remarks value setting Mathematical logical operations Same as for FO1 Same as for FO1 PR B1 Ce Setting 1 Page ees Settng2 PH 03 ees Settings Computation unit output check point value Mathematical logical operations 0 NOP No operation First order lag filter Ratio bias High low limiter Change rate limiter Differentiation Advance delay Absolute value Linearization table Maximum value hold Minimum value hold Hold 14 to 38 can be set with compu tation unit 07 only Preset value Soft preset value No operation Addition subtraction Multiplication Division High selector Low selector Switch selector Change point selector Soft switching selector Setting 3 0 to 255 Contact input 1024 to 2047 Contact input monitor 0 OFF 1 ON Contact output monitor Computation unit output check 19999 to 32000 U point value The decimal point position is determined by the setting for the decimal point position in the input computation bank For more details on the 1024 to 2047 range see the Standard bit codes list page 4 1 The decimal point position is determined by the setting for
6. Cote 5 Outputtype e 5 Linearization table group definition fa 03 1 Loop channel definition Linearization table group definition Latch O None 1 Latch at ON 2 Latch at OFF except for initialization at OFF Time proportional cycle mode 0 Priority is controllability 1 Priority is actuator service life 2 18 2 PARA BANK SETTINGS Display Output number Item Settings and descriptions Remarks auxiliary display value setting ee Minimum ON OFF time 0 to 300 ms 5 0 to 120 0 s for relay output 0 1 to 120 0 s for voltage pulse output When set under 50 relay output is 50 ms min When set at 0 time is 1 ms min except relay output es Time proportional cycle 2 0 definition 3 Group 3 4 Group 4 5 Group 5 6 Group 6 7 Group 7 8 Group 8 A E A Eeer selection 2 Corrected by AC2 input only Fo Output type Same as output 1 EH Same as output 1 Latch FEE Time proportional cycle mode 2 Minimum ON OFF time Time proportional cycle EXE Linearization table group definition olo Power voltage correction selection HESS 3 JOutputtype Output type Same as output 1 Em Same as output 1 tPoge A laten of tPo 83 3 Timeproportionaloycle mode nl Minimum ON OFF time Time proportional cycle EE Linearization table group definition Power voltage correction selection b d 4 Output type Same as output 1 EPoD2 Yo lath Br vu Time proportional cycle mode
7. EVENTstateatREADY EP G5 wu Decimalpointposition EP G Em Hysteresis EP GB8 Cv ONdelay EP O3 GV OFFdelay EP G1 8 amp Operationtype Same as event 1 EP 28 Loop channel definition EP 03 88 l Directreverse EEN 88 Standby EP OS o EVENTstateat READY EP O5 88 Decimalpointposition EP 07 08 Hysteresis EP GB 28 ON dela EP O3 28 OFFdelay EP G 03 Operationtype Same as event 1 EP G C5 Loop channeldefinition EP G3 85 Direct reverse EEN 09 Standby EP G5 89 EVENTstateat READY EP G5 0 9 Decimalpointposiion EP G 05 Hysteresis EP a 89 ONdelay EP O3 Go OFFdelay EP G wu Operationtype Same as event 1 EP Ge Loop channeldefiniion EP G3 10 Direct reverse EEN 9 Standby EP OS i EVENTstateat READY EP G5 9 Decimalpointposition EP G i Hysteresis EP GB8 ONdelay EP O3 9 OFFdelay EP G tt Operation type Same as event 1 EP Ge 1t Loop channel definition EP G3 du Directreverse EEN 1t Standby EP G5 ff EVENTstateat READY EP G5 1t Decimalpointpositon EP G du Hysteresis EP GB du JONdelay EP O3 if OFFdelay EP G o Operationtype Sameas event 1 EP dd Loop channeldefiniion EP 03 t Di
8. InputbitpolartyD Fe E aE pi OFFdelaytme OFF delay time 0i Polarity O Direct 1 Reverse op P Latch 0 None 1 Latch at ON 2 Latch at OFF except for initialization at OFF bF G 2 Operationtype Operation type Same as logical operation 1 nu Same as logical operation 1 bF G2 82 ImputassignmentA bF 03 62 InputassignmentB bF ge InputassignmentC gt bF 05 O InputassignmentD bF 06 Ge lnputbitpolaritya ERT Ge InputbitpolarityB bF 08 Ge ImputbitpolariyC bF 08 Ge ImputbitpolariyD bF ta ONdelay time bF e OFFdelaytime gt El 82 Polarity bF i3 Ge Leg bF 0 83 Operationtype Same as logical operation 1 bF G2 9 nputassigomentA bF 03 03 nputassigomentB LbF O4 O3 nputassippmentC bF 05 O3 InputassignmentD bF 08 O3 ImputbitpolariyA bF 07 O3 InputbitpolarityB bF 08 O3 ImputbitpolariyC bF 09 O3 ImputbitpolariyD bF 63 ONdelay time SEI 83 OFFdelaytime gt bF i O3 Polarit El O3 latch o bF 0 8 Operationtype Same as logical operation 1 EES GN ImputassignmentA bF 03 o InputassignmentB gt bF O4 o linputassigamentC gt bF 05 0 ImputassignmentD bF 08 0 ImputbitpolariyA ERT 0 InputbitpolarityB bF 08 0 ImputbitpolariyC El o InputbitpolarityD gt El o ON
9. Zii _ Event15 main setting Ei5 5b Zii _ Event15 sub setting ES ati Event16mainsetting ESSkl ti Event16 sub setting P ai Proportionalband Po ati Integraltime d ati JjDervaivetime a SI Output low limit 2il jOutputhighlimt ett Manual reset 2 04 Proportional band for cool side Gti Integraltime for cool side Gti Derivative time for cool side 244 Output low limit for cool side 244 Output high limit for cool side t Initial output of PID control amp i LSP Sameas SP group 1 2 68 Event9mainseting e Event9 sub setting ata Event 10 main setting e Event 10 sub setting ee Event 11 main setting Ge Event 11 sub setting 2 68 Event 12 main setting ata Event 12 sub setting e Event 13 main setting e Event 13 sub setting e Event 14 main setting ete in sett 2 ee ee ee ete ete EE e O NO CH Same as SP group 1 248 Eventi4subseting amp fe Event 15 main setting te Eventibsubseting Integral time ade Derivativetime Output low limit ao o O w l gt Ia o o Q o o SIS lo l5 o o NO CH Output high limit 248 Integral time forcoolside 2 48 Derivative time for cool side 2 4 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o
10. amp M Eventi2subsetting_ amp M Event13 main setting amp M Eventi3subsetting_ amp M Event14 main setting 8M in sett Le TI NEM 2M 2m eM RM 2M e O NO CH 24 Eventi4subseting 24 Event 15 main setting 2 Event 15 sub setting Integral time at Derivativetime Output low limit ao er O w l gt IO o S C C2 O o ale le ls 12 O o O NO CH Output high limit 24 Integral time forcoolside M Derivative time for cool side 2 Output low limit for cool side Initial output of PID control a 2 e QI II o S Co o oo s3o a 9 o 9 O O Remarks Same as SP group 1 3 17 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SP ais LSP SameasSP group 1 Same as SP group 1 EDS Ai Event9 main setting dd oa sb eis Event sub setting E G ais Event10mainsetting Elo sb om Event 10 sub setting EI eis Eventitmainsetting Efi5b eis Event11 sub setting EG ais Y Event 12 main setting Elasb Ai Event12 sub setting EI om Event13mainsetting Ei35b ais Event13 sub setting EM 215 Event14 main setting EM Sb eis Event14subsetting Et5 ai Eventi mainseting Et55b eis Event15 sub setting ES ai Eventi
11. bF 03 o InputbitpolarityD a om ON delay time bF 1 OFFdelaytme bF i o Polariy bF i3 o batch bF G 88 Operationtype bF G 88 InputassignmentA bF 03 868 InputassigomentB bF O4 08 InputassignmentC bF O5 88 InputassignmentD bF O amp e InputbitpolartyA bF G1 Oa InputbitpolartyB gt bF 08 88 InputbitpolarityC gt bF 03 08 nputbitpolartyD gt bF i amp 08 ONdelaytime gt SEIL 8 OFFdelaytime bF e Polarity bF i3 88 latch o k i 0 Operationtype bF G 84 InputassignmentA bF 03 0 l InputassignmentB bF O4 0 inputassignmentC bF 65 09 l InputassignmentD bF O5 829 InputbitpolarityA gt SEI 84 InputbitpolartyB gt bF 08 0 InputbitpolarityC gt bF 03 84 InputbitpolartyD gt BF GA oo O ON delay time bF 1 09 OFFdelaytime bF i 09 Polarity La 2 30 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 IL O O O O m O Q Sl B B B B fame as logical operation 1 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 2 PARA BANK SETTINGS Display Logical opera Item Settings and descriptions Initial User Remarks tion number value setting
12. f4 Integral time forcoolside MM Derivative time for cool side Output low limit for cool side Initial output of PID control a 2 e QI II o S Co o oo s3o a 9 o 9 O O Remarks Same as SP group 1 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SP Tv e Same as SP group 1 Same as SP group 1 EG mm Event main setting E EG Sb 415 Eventtsubsetting Ede 415 Event2mainseting EG2 Sb 415 Event2subsettng gt EG3 mm Event3main setting EG3 5b 415 Event3sub setting EM 445 Event 4 main setting ECSb 445 Event4sub setting EOS 415 Event5 main setting E05 5b 415 Event 5 sub setting gt EG 415 Event6 main setting E06 5k dis Event6subsetting EG mm Event7mainsetting EGLSb 15 Event7subsetting EG8 vm Event8mainsetting EGB Sb 415 Event8sub setting gt P dis Proportionalband gt 1 i Integraltime d ais Derivativetime oL 1 Output low limit ts Output high limit PES ll Manual reset 445 Proportional band for cool side 445 Integral time for cool side dis Derivative time for cool side 15 Initial output of PID control Same as SP group 1 f Event 1 main setting 4 Eventi sub setting 4 Event3sub setting gt e O NO CH Same as
13. 00000 to OFFFF The bit structure of each is shown below Digital input information I Bit 12 DI C4 bit 8 DI C3 bit 4 DI C2 bit 0 DI C1 other bits are undefined Digital input information 2 Bit 12 DI C8 bit 8 DI C7 bit 4 DI C6 bit 0 DI C5 other bits are undefined Digital input information 3 Bit 12 DI D4 bit 8 DI D3 bit 4 DI D2 bit 0 DI D1 other bits are undefined Digital input information 4 Bit 12 DI D8 bit 8 DI D7 bit 4 DI D6 bit 0 DI DS other bits are undefined Digital input information 5 Bits 0 to 15 Undefined Digital input information 6 Bits 0 to 15 Undefined Digital input information 7 Bit 12 Undefined bit 8 Undefined bit 4 DI F2 bit 0 DI F1 other bits are undefined Note 3 2 PARA BANK SETTINGS For Go to ak digital output information ON OFF for 16 bits is expressed in hexadecimal format 00000 to OFFFF The bit struc ture of each is shown below Digital output information I Bit 12 DO C4 bit 8 DO C3 bit 4 DO C2 bit 0 DO C1 other bits are undefined Digital output information 2 Bit 12 DO C8 bit 8 DO C7 bit 4 DO C6 bit 0 DO C5 other bits are undefined Digital output information 3 Bits 0 to 15 Undefined Digital output information 4 Bits 0 to 15 Undefined Digital output information 5 Bit 12 DO E4 bit 8 DO E3 bit 4 DO E2 bit 0 DO E1 other bits are undefined Digital output information 6 Bit 12 DO ES bit 8 DO E7 bit 4 DO E6 bit 0 DO ES oth
14. BreakpointAtO thAid 5 BreakpointAti__ t i 5 BreakpointA12 kb 5 BreakpointAt8 thA m 5 BreakpointA14 bb 5 BreakpointA15 bp 5 BreakpointAt6 eb 5 Breakpoint A17 thA 8 5 BreakpointA18 kb 5 BreakpointA19 2 23 2 PARA BANK SETTINGS Display Linearization Item Settings and descriptions Initial User Remarks group number value setting auxiliary displa rhb x Breakpoint B1 Same as linearization 1 H9999 Same as linearization 1 tbb 2 5 Breakpoint B2 32000 k 5 BreakpointB3 bk 5 BreakpointB4 Eb bs 5 BreakpointB5 tibg 5 l BreakpointB6 ET Ss Breakpoint B7 thata 5 BreakpointBB Byr Breakpoint B9 fbb 5 BreakpointB10 gt bbb ii 5 BreakpointB14 fbb de 5 BreakpointBi2 gt tb 3 5 BreakpointBi3 bbb M 5 BreakpointB14 bb S 5 BreakpointB15 kel 5 BreakpointB16 bbb 5 BreakpointBi7 bb 5 BreakpointB18 kb 4 5 BreakpointBi9 kobe 5 BreakpointB20 Ebo E Linearization decimal point position Same as initialization 1 Same as initialization 1 ERO O Breakpoint A1 i MAGE amp Breakpoint A2 ERA 6 Breakpoint A3 EBA 6 BreakpointA4 EROS 6 Breakpoint A5 8028 5 BreakpointA6 EBI 5 Breakpoint A7 kb E BreakpointAB HAGA E Breakpoint A9
15. ER 0 amp 03 Decimal point position RES ERE 03 Hysteresis os EP 08 03 JON delay oo Eroa 03 OFF dey roo er m Operation type Same as event o same as event 1 FP 02 0M l Loopichanneldefmiion ES ERES Ow Directireverse o ER DM Ow Standby O o ER 05 o EVENTstMeatREADY o EP 05 64 Decimal point position A ERE Hysteresis MS i EP 08 Ow JON delay oo Eroa do OFF dey roo era 65 Operation type Sameas event Do Same as event 1 EP BP 65 Loopichannel definition 5 ER 03 05 lDirectreverse o ER DM 05 Standby o EP 05 05 EVENT state at READY ER 0 amp 05 Decimal point position 0 ERE 05 Hysteresis Ls EF 08 05 JON delay oo Erpa 05 OFF delay oo 2 8 2 PARA BANK SETTINGS auxiliary display value setting EP O 8 amp Operation type Same as event 1 Same as event 1 EPR GE 86 Loop channel definition E EP 03 06 Directheverse ro EP O4 86 Standby OJ i EP OS 86 EVENTstateat READY 0 gt EP 06 86 Decimalpointpositon O gt EP 07 86 Hysteresis EP GB 86 ONdelay EP OS 86 OFFdelay EP G wu Operationtype Same as event 1 EP 8 Loop channel definition EP G3 if Direct reverse EP O4 Cv Standby EP G5 87
16. dt Event 8 main setting dd Event 8 sub setting Proportional band E D 8 E ti Integral time 15 Derivativetime Output low limit ao al O w O1 O CA o o S N lolS S O CH CH NO CH Output high limit 4 Integral time forcoolside HI Derivative time for cool side t Output low limit for cool side Initial output of PID control a 2 e QI II o S Co o oo s3o a 9 o 9 O O Remarks Same as SP group 1 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SPO Ir tsps Same as SP group 1 Same as SP group 1 Ei ett Event mainsetting E EGLSb Lit Eventisubsetting Ede tt Event2mainseting E l Sh fdh Event2sub setting gt EG3 dit Event3main setting E03 5k dit EventSsubsetting EM Int Event 4 main setting EGM Sb tt Event4subsetting E05 i Event5main setting EG5 5b ii Event5sub setting gt EG di Event6main setting EGB Sb ii Event6subsetting ESTO aih Event7mainsetting EGLSb tt Event7subsetting EG8 tt Event8mainsetting EGB Sb ttt Event8sub setting gt P adh Proportionalband gt gt ett Integraltime d tf Derivativetime e it Output low limit Aii Output high limit FEE o Manual reset t Proportional band for co
17. external disturbance 2 Stable control characteristics that EIDEM Heat cool control dead zone 100 0 to 100 0 ool RR L amp Initial output of PID control 10 0 to 4110 0 00 S Abnormal PV definition 0 If a PV alarm ALO1 to ALO6 occurs Cannot be set on the SDC45A 1 If a PV1 alarm ALO1 or ALO2 occurs 46A 45R 46R 2 If a PV2 21 alarm ALO3 or AL04 occurs 3 If a PV22 alarm ALO5 or ALO6 occurs PID control initialization 0 Auto 1 Not initialized 2 Initialized if SP value different from the current value is input EHE T LII 0 No decimal point Affected by the decimal point decimal point position 1 1 digit after decimal point positions for integral time and 2 2 digits after decimal point derivative time NE Eks L lo Output after AUTO e MANUAL change 0 Bumpless transfer 1 Preset E Preset MANUAL value 10 0 to 110 0 When the power is turned ON if the operation mode is MANUAL the MV is the preset MANUAL value ERAS L MVincrease change limit 10 00 No limit Frang t MVdecreasechangelimit on to 320 00 s ErmB7 ic Heat cool selection 0 Normal 1 Energy saving 101 bo Le MVlowlimitatAT O to 110 0 Frang Lo MVhigh limitatAT Zone operation O acini NN by SP value When zone PID is used set the 1 Changed by PV value PID group selection priority to me PID function 19999 to 32000 U The decimal position is determined by the decimal p 2 12 2 PARA BANK
18. gt 390 00 gt 100 0 500 1 1 1 100 0 Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side Derivative time for cool side Output low limit for cool side 30 oof 100 0 y O gt 5 OJOJU s ele ft O o CH O E o e e E E gt o O 5 5 3 3 Pa SA O O O O O O o o Ka Ka o oe D D l 4 Same as PID1 50 Same as PID1 Same as PID1 50 Same as PID1 Same as PID1 Same as PID1 50 Same as PID1 Same as PID1 50 Same as PID1 2 3 2 PARA BANK SETTINGS auxiliary display value value setting P tf Proportionalband 16 Same as pp 50 Same as PID1 ii ha lntegraltime ie 1901 dd Derivativetime 16 30 h Output low limit 16 oH tt jOututhighlimt 16 eE 6 tt Manualreset 16 P et tt Proportional band for coolside 16 i ie hi Integraltime for cool side 16 Li Derivative time for cool side 16 Li Output low limit for cool side 16 _ Output high limit for cool side EH Loop 2 PID bank L2 z Display Loop number Item PID Settings and descriptions Auxiliary display value value setting Proportional band 0 1 to 3200 0 95 50 Pai te Integral time 1 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 120 The decimal point position is
19. mo eegen ooo pe Same as logical operation 1 Input ER A c wm WE 70 bF O4 8 ImputassigamentC bF 05 8 l InputassignmentD bF 05 10 lInputbitpolartya KCL 1 InputbitpolarityB bF 08 8 InputbitpolarityC bF 09 8 InputbitpolarityD ESPA ON delay time bF t dm OFFdelaytime CSL dm Polary bF 13 1 lathh o bF G1 t Operationtype Same as logical operation 1 bF De ii InputassignmentA bF 03 1i InputassignmentB bF O4 ii ImputassigamentC bF 05 ii ImputassigamentD bF 06 ft InputbitpolarityA KCL ff lInputbitpolartyB bF 08 it InputbitpolarityC Cl ii lInputbitpolartyD REI es ON delay time SEIL t OFFdelaytime EI da Polary bF 13 IL Lathh O bF Gi 8 Operationtype Same as logical operation 1 bF De 1 InputassignmentA bF 03 d InputassignmentB bF O4 12 InputassigamentC bF 05 E InputassignmentD bF 06 E InputbitpolarityA bF 01 te InputbitpolarityB bF 08 d InputbitpolarityC bF 09 d InputbitpolarityD bF 8 ONdelaytime bF it se OFFdelaytime bF i i Polarity 3 3 3 3 3 bF 13 t latch bF 8 i3 Operationtype Same as logical operation 1 bF Do 3 InputassignmentA bF 03 i3 InputassignmentB bF O4 i3 InputassignmentC bF 05 13 lInputassignmen
20. the decimal point position in the input computation bank Same as for FO1 ESPE FEB Mathematicalllogical operations Same as for F01 PAI FO amp Seting1 PA B8 FAB Settng2 PH 03 Fos Settings et SEL FOB Contactinput d FAB Contact input monitor do FEB Contact output monitor Computation unit output check point value Ff Mathematical logical operations Same as for FO1 PH O FO amp Setting Page eg Settng2 et SEL FG Contactimput d eg Contact input monitor do Fim Contact output monitor Computation unit output check point value ESPE F Mathematicalllogical operations Same as for F01 PR D Fi Seting1 PAGO Fi Setinpo PH 03 Fi Settings SEL Fi Contactimput d Fi Contact input monitor do Fi Contact output monitor Computation unit output check point value 2 36 Same as for FO1 Same as for FO1 CH CH CH CH CH NO NO NO NO NO A gt 4A gt A 2 PARA BANK SETTINGS B Display key bank Hr Display MS display Item Settings and descriptions Initial User Remarks Status number value setting F key number Auxiliary display iliary displa 1 Multi status MS display Top 1024 to 2047 1568 Setting range is 1024 to 2047 Status priority For details see the Standard bit codes list page 4 1 Multi status MS display Top 0 Lit 1 Slow flashing 2 Double fla
21. 2 Reference voltage SameasoutputAC input 1 Ate a friter o 2 20 CH CH e e O O 2 PARA BANK SETTINGS B Linearization table bank Display Linearization Item Settings and descriptions Initial User Remarks group number value setting auxiliary display Breakpoint decimal point position 0 No decimal point 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point E Breakpoint A1 19999 to 32000 U 1999 9 The decimal point position is FEF Breakpoint A2 ER determined by the decimal point EFE Breakpoint A3 position for breakpoint BAG Breakpointas bp L Breakpointas kb ADE 4 Breakpointas kb t Breakpointar EEE Breakpoint A8 EFE L Breakpoint A9 Eb R 0 Lt BreakpointAtO kb L BreakpointA t i 1i BreakpointAt2 kb 4 Breakpointais eb i BreakpointAt4 bb Lt Breakpoint A15 Eb R 5 Breakpointato EBA CL BreakpointAt7_ thA 8 i BreakpointA18 t 1 BreakpointA19 gt tb RL2D BreakpointA20 AO Li Breakpoint B1 tbb02 i BreakpontB2 eba BreakpointB3 bb 1t BreakpointB4 tbb05 1t BreakpointB5 Ehl 4 Breakpoint B6 IA 4 Breakpoint B7 Fab i BreakpointB8 Fab i BreakpointB9 bb BreakpointBt0 bb i 1 BreakpointBt1_ bb de i BreakpointBi2 Fab Lt BreakpointBiS Eb Breakp
22. 320 00 s no integral control action when determined by the decimal point set at 0 0 0 or 0 00 positions for the integral time and Derivative time 1 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 30 derivative time 320 00 s no derivative control action when set at 0 0 0 or 0 00 Output low limit 10 0 to 110 0 Do Derivative time for cool side CO CH Wu CH 1000 500 1 50 1 O to 32000 s 0 0 to 3200 0 s or 0 00 to 120 The decimal point position is 320 00 s no integral control action when determined by the decimal point set at 0 0 0 or 0 00 positions for the integral time and 1 0 to 32000 s 0 0 to 3200 0 s or 0 00 to REI derivative time 320 00 s no derivative control action when set at 0 0 0 or 0 00 1 Loge 110 0 96 poop 1 100 0 0000000 sol 120 gt CO CH w IO NO O e O o Derivative time for cool side Same as PID1 Same as PID1 1100 0 500 120 Same as PID1 Same as PID1 100 0 500 50 120 gt 30 Same as PID1 50 Same as PID1 120 gt 30 00 gt 1000 500 ETE 120 gt 30 00 gt Output high limit for cool side 4 100 0 2 4 2 PARA BANK SETTINGS auxiliary display value value setting P 05 L Proportionalband 5 Same as PD 50 SameasPID1 3 05 L integraltime LS 120 gt df L Dervatvetme 5 ot 05 L jOutputlowlimt 5 00 gt 1000 500 50 j
23. 80 6 Breakpoint A10 freA ti 6 l BreakpointAt pl 5 BreakpointAt2 tb 6 BreakpointAt3_ t M 6 BreakpointAt4 gt bb E Breakpoint 15 pl 6 BreakpointAt6 tb 5 Breakpoint A17 pl e Breakpoint A18 pg e BreakpointAt9 bhAa 6 BreakpointA20 thail E BreakpointB1 gt i E BreakpointB2 gt k 6 BreakpointB3 Ehm 6 Breakpoint B4 b s 65 BreakpointBS ESPE 5 Breakpoint B6 kO E BreakpointB7 thbO08 E Breakpoint B8 k 5 BreakpointB9 bb i 6 BreakpointB10 kb fi 6 BreakpointBt1 bb 5 BreakpointBt2 tbb i3 E BreakpointB18 kbb M E BreakpointB14 bb S 6 BreakpointB15 kel 5 BreakpointB16 tb f 6 BreakpointBi7_ kg 6 BreakpointB18 fbb 9 E BreakpointB19 Be amp Breakpoint B20 2 24 2 PARA BANK SETTINGS Breakpoint decimal point position Same as linearization 1 Same as linearization 1 Breakpoint A1 BADE T BreakpointA2 RADI wo Breakpoint A3 EbRLO4 Q1 BreakpointA4 E 1 Breakpoint A5 kb ADE 1 BreakpointAG gt EBI 1 Breakpoint A7 BADGE 7 Breakpointas HAGA Y Breakpoint A9 thA 0 7 BreakpointAtO Eb AE Ti BreakpointAti t P Y BreakpointA12 kb 1 Breakpointais eb 1 BreakpointAt4 bb 1 BreakpointA15 Eb A 6 1 Breakpointato eb ji BreakpointA17 thA 8 7 BreakpointA18 eba i BreakpointA19 APG BreakpointA20 tibag 1 BreakpointB1 ERA X Breakp
24. Differentiation Advance delay Absolute value Linearization table Maximum value hold Minimum value hold Hold Preset value Soft preset value 14 to 38 can be set with compu tation unit 07 only Addition subtraction Multiplication Division High selector Low selector Switch selector Change point selector Soft switching selector The decimal point position is determined by the setting for the decimal point position in the input computation bank For more details on the 1024 to2047 range see the Standard bit codes list page 4 1 The decimal point position is determined by the setting for the decimal point position in the input computation bank Same as for FO1 Same as for FO1 CH CH no no gt gt Same as for F01 1024 R EH Output computation bank 27 7 Display Auxiliary display Settings and descriptions Initial User value setting 0 No decimal point 1 1 digit after decimal point a Decimal point position 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point 2 PARA BANK SETTINGS ad CH Remarks NE ind FOL Input 1 2048 to 3071 2048 E For more details on the 2048 to IA Input 2 2048 3071 range see the Standard numerical codes list page 4 2 Mathematical logical operations 0 NOP ad i a No operation First order lag filter Ratio bias High low limiter Change rate limiter Differe
25. EGG Contact input monitor O OFF 1 ON E Contact output monitor AF Computation unit output check 19999 to 32000 U The decimal point position is point value determined by the setting for the decimal point position in the input computation bank ESPE Fiz Mathematical logical operations Same as for F01 0 SameasforFO1 PH D F amp Setting PA ge Foe Setinpo PH 03 Foe Settings SEL Ce Contactinput FER Canta reu mentor FEZ Contact Contact output monitor monitor Computation unit output check point velg ESPE Co Mathematicallogical operations Same as for FO1 PH 0 Foz Settngt PA ge FOi Setting2 PH 03 ce Settings et SEL FOR Contactinut FG Contact input monitor do Fiz Contact output monitor Computation unit output check point value ESPE Fo Mathematical logical operations Same as for F01 PA Gi Fo Jengi PRE FOM Setinga_ PR 03 Cou Settings ath SER E Contact input d FEM Contact input monitor do FEM Contact output monitor Computation unit output check point value ESPE Ces Mathematicallogical operations Same as for F01 PAi ees Setting PA ge FOS Settng2 PH 03 FOS Settings et SEL ees Contactimput d ees Contact input monitor de FoS Contact input monitor Same as for F01 Same as for F01 Same as for F01 hb hb o e 3 O O NO NO NO
26. NO A BA BA A 2 33 2 2 PARA BANK SETTINGS Display Auxiliary display Settings and descriptions Initial User Remarks value setting WB Computation unit output check Same as for FO1 Same as for FO1 point value Mathematical logical operations Same as for FO1 PA gt ees Setting Paco Fo Setingo PH 03 ces Settings Computation unit output check point value Mathematical logical operations 0 NOP Setting 1 Setting 2 Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value Mathematical logical operations Setting 1 Setting 2 Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value Mathematical logical operations Setting 1 Setting 2 Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value Mathematical logical operations Setting 1 Setting 2 Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value Go i Mii No operation 19999 to 32000 U Oto 255 1024 to 2047 0 OFF 1 ON 19999 to 32000 U Same as for FO1 Same as for FO1 1024 Same as for FO1 Same as for FO1 a oof gt of 1024 p No operation First order lag filter Ratio bias High low limiter Change rate limiter
27. S O 5 c O lt 9ic c Is v gt D a 5 2 5 3 S e a dE o DO o 2 D 3 D gt 3 a o Q Sis Q o CH CH o S ce wm o D O E E D c E 23 Q E 3 H O O CH o e o D 2 6 2 PARA BANK SETTINGS E SP configuration bank 57747 Display Loop number Item Settings and descriptions Initial User Remarks auxiliary displa value setting BAG LI SP low limit 19999 to 32000 U 1999 9 The decimal point position is EN LE SP ome limit 3200 0 determined by the decimal point positions for the loop PV SP SP ramp unit 0 No decimal point s 1 No decimal point min 2 No decimal point h 3 0 1 s 4 0 1 min 5 0 1 h 6 0 01 s 7 0 01 min 8 0 01 h 9 0 001 s 10 0 001 min 11 0 001 h Copal Li SPramp upforLSP loU noramp 1 to 32000 U The decimal point position is CSP 03 Li ISPramp downforLSP o determined by the SP ramp unit ES t RSP tracking JO Notracking 1 Tracking gt O ESROS Li SP ramp up for RSP OU noramp 1to 32000 U 0 The decimal point position is CSP 05 LL SPramp downforRSP 0 determined by the SP ramp unit ESPE Li LSPbias 19999to 32000U O The decimal point position is positions for the loop PV SP Coppi LL PVstartforLSP JO PV start enabled wl i SPE L amp PV start for RSP 1 PV start disabled 9 dq Digital RSP selection O Disabled SDC4
28. Same as event 1 EP G2 t6 Loop channeldefinition EP 03 Directreverse EP a mp Standby EP G5 is EVENTstate at READY EP DE 5 Decimal point position EP U1 i6 Hysteresis EP 08 i6 ON dela el E Bro Same as event 1 Same as event 1 00 Ef E NN 1 of of 0 op NC NE 00 gt oof of NEN SS uM REN p WER L N 5 00 oof of 1 op of En op 5 00 gt 00 2 10 2 PARA BANK SETTINGS Settins range is 0 to 3071 For more details on the 2048 to 3071 range see the Standard Affected by the decimal point positions for integral time and derivative time E Control bank UC Ge Display Loop number Item Settings and descriptions Initial User Remarks auxiliary display value setting LAP O3 tf RMVassignment Jomes Loop PV SP decimal point 0 No decimal point position 3 3 digits after decimal point 4 4 digits after decimal point EMOS L Control range low limit 19999 to 32000 U olo 3 The decimal point position is Control range lI NN limit determined by the decimal point positions for the loop PV SP Enea LL Initial output of PID control 10 0 to 110 0 oof Po Abnormal PV definition If a PV alarm ALO1 to ALO6 occurs Cannot be set on the SDC45A If a PV22 alarm ALO5 or ALO6 occurs O Poa Preset MANUAL value 10 0 to 110 0
29. User auxiliary displa value setting Loop 1 SP group 1 to SP system group max 16 CTE pee ee Loop 2 SP group 1 to SP system group max 16 LIEN Display Settings and descriptions Initial User auxiliary display group value setting We i ET MIN Frei Li PID group definition 1 tto16 Tr 1 i aseo h ep 2 Sameas SP group 1 00 i F de Li PID group definition 1 PID L PID L PID L PID L PID L PID L PID L PID L PID group definition L PID L PID 02 U ch group definition group definition group definition group definition group definition group definition group definition group definition 02 02 02 02 02 02 102 02 U U U U U U U U B I l lI l lI sch lI I sech group definition group definition r 02 02 Ww 02 02 U U U U U PID L PID L PID group definition group definition group definition Remarks When SP group selection is used set the SP group selection priority to setting value Remarks The decimal point position is determined by the decimal point position for the loop PV SP Same as SP group 1 3 SP EV BANK SETTINGS m 4m m l B Loop 2 multi SP bank 2 5 Display Loop number Item SP Settings and descriptions Initial User Remarks auxiliary displa group value setting LSP 1 SP low limit to SP high limit The decimal point position is determined by the decimal point position fo
30. display Status 1025 Status priority top priority Multi status MS display Third Condition priorit Multi status MS display Third Decimal point position priority Multi status MS display Third scaling low limit priority Multi status MS display Third scaling high limit priorit F key basic registration rsp Isp Same as multi status MS display Status top priority E al O o o No registration 1 Item setting RUN READY selection AT Start Stop selection O Setting range is O to 255 2 4 5 LSP RSP selection 6 7 8 5 D lt Backup through output selection User defined bit 1 selection User defined bit 2 selection 9 User defined bit 3 selection 10 User defined bit 4 selection 11 User defined bit 5 selection 12 User defined bit 6 selection 13 User defined bit 7 selection 14 User defined bit 8 selection Fh Be LC Fkey assignment item 1 rsplsp key 00000 Invalid FR 03 4 F key assignment item 2 rsp lsp key Communication address for RAM is set FROM i F key assignment item 3 rsplspkey by hexadecimal value FR 05 Fkeyassignment item 4 rspllsp key F key assignment item 8 rsp lsp key 0 Setting range is 00000 to OFFFF e e e al e 2 37 2 PARA BANK SETTINGS Display MS display Settings and descriptions Initial User Remarks Status number value setting F key number Auxiliary UF LED nu
31. ev key pressed for 2 s 3 To display a bank to be set press the sp ev key A key or v key 4 When a desired bank is displayed press the enter key 5 To display an item to be set press the sp ev key A key v key lt key or gt key 6 When a desired item is displayed press the enter key 7 Change the set value with the A key V key lt key or gt key 8 To set the set value you have changed press the enter key 9 To set other items in the same bank repeat the operation from step 5 To set desired set data in other bank continue the operation from step 2 10 To exit the setting press the display key 2 PARA BANK SETTINGS B Mode bank oof Display Loop number Item Settings and descriptions Initial User Remarks auxiliary displa value setting RUN READY RUN mode RUN READY mode AUTO MANUAL AUTO mode AUTO MANUAL mode a oe Auto tuning AT stop start OF DEN LSP RSP LSP mode LSP RSP mode a 8 Backup Through output Backup mode local MV om Through output mode remote MV Ms i UN MANUAL mode se E xil an AT Start prp wee hal ww E Loop 1 PID bank 2 z Display Loop number Item PID Settings and descriptions Initial User Remarks auxiliary displa value value setting Egi t Proportional band 1 1011032000 ___ 50 __ Integral time 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 120 The decimal poin
32. key Used to set the PARA bank 13 enter key Used in initiating setup and to confirm changed values 14 f1 f2 key Used for user assigned functions SDC46 only 15 at key Used to execute cancel auto tuning or for user assigned functions 16 rsp Isp key Used to change between remote and local set point or for user assigned functions 17 Loader jack Jack for connection of PC loader cable with cap 1 1 1 PRELIMINARIES B Method of key operations O Key operations when setting PARA bank 1 Press the display key to return to the operation display 2 To select a bank keep the para key pressed for 2 s 3 To display a bank to be set press the para key A key or V key 4 When a desired bank is displayed press the enter key 5 To display an item to be set press the para key A key v key lt key or gt key 6 When a desired item is displayed press the enter key 7 Change the set value with the A key V key lt key or gt key 8 To set the set value you have changed press the enter key 9 To set other items in the same bank repeat the operation from step 5 To set desired set data in other bank continue the operation from step 2 10 To exit the setting press the display key O Key operations when setting SP EV bank 1 Press the display key to return to the operation display 2 To select a bank keep the sp
33. o 9 18 lo ls S o e eo eo 3 16 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa SP 2 j SP SameasSP group 1 lo Sameas SP group 1 E03 ais Event9mainsetting Da sb 843 Event sub setting E 213 Event 10 main setting Elos o Event 10 sub setting EI 80 Event11 main setting Eil eis Eventitsubsetting ER AG Event 12 main setting Elesb eis Event12subsetting E3 213 jEventi3mainseting EI akl o Event13 sub setting EM 213 Event14mainsetting EMSb eis Event14subsetting Eis ais Eventi5mainsetting Eis sb 843 Eventibsubsetng Ei ais Eventi6mainsetting ESakl 2 13 Event 16 sub setting P 13 Proportionalband Po Ef Integraltime ais Derivativetime k amp i3 Outputlowlimit 2634 Output high limit RO Manual reset iX Proportional band for cool side ai Integral time for cool side ai Derivative time for cool side 263 Output low limit for cool side 2 3 Output high limit for cool side amp i3 Initial output of PID control LSP Sameas SP group 1 amp M Event9 main setting amp M Event9subsetting amp M Eventi main setting amp M Event10 sub setting amp f Eventi main setting amp Event 11 sub setting amp M Eventi2mainseting
34. o dones 2 18 Posion proportional bank P ooooooooooccccccccccrrcccccccr rr 2 20 SG TE RR EE Veg turre vac 2 20 AC Input b nk vr re prado ro daga 2 20 Linearization table bank CSC 2 21 Internal contact input bank UC 2 26 Digital output bank za 0 6 cece ccc cece eee e eee een e eee eeeeeeenees 2 28 Logical operation bank 5 Nee 2 29 User defined bank L 1100 oooooocccccccccccccccccoccc enhn 2 32 Temperature and pressure compensation bank P Z547 2 32 Input operation bank Ge Fo 2 33 Output operation bank ot Fohl 2 35 Display key bank re 2 37 RS 485 communication bank 5155 ooooooooooooooommmmmmmmsmsms 2 2 38 Lock bank GC ot Fi TE Ee 2 38 Monitor bank rea iu R 2 40 Instrument information bank o 2 43 3 SP EV BANK SETTINGS B SP group selection bank 5752 ccc cece cece cece nene cce cce era 3 1 B Loop 1 multi SP bank L AIP 3 1 BH Loop 2 multi SP bank 61257 vases o her REA rry EEN 3 2 E Loop 1 recipe bank Er El esvesksaauuas duh ir da ie 3 3 M Loop 2reclbe bank Le rio csesuses sk dri a e at CO Yo ER Rte o Rs 3 11 BE RE ede sen ato EE EE 3 19 Mm Event setup bankK Jure bo redada 3 19 4 STANDARD BIT CODES AND STANDARD NUMERICAL CODES E Standard Bit COOGS s ictericia 4 1 En Standard numerical CodesS oooooooooooooonoccooconooososooso 4 2 111 1 PRELIMINARIES B Names and function of p
35. or 0 00 to 120 Foe mmm 320 00 s no integral control action when set at 0 0 0 or 0 00 Derivative time O to 32000 s 0 0 to 3200 0 s or 0 00 to Ee mmm 320 00 s no derivative control action when set at 0 0 0 or 0 00 loh 46 Output low limit 10 0 to 110 0 96 o agi jOutputhighlimt Proportional band for cool side 0 1t032000 1501 RE ok PE 486 Integral time for cool side 0 to 32000s 0 0 to 3200 0 s or 0 00 to 120 set at 0 0 0 or 0 00 Derivative time for cool side O to 32000 s 0 0 to 3200 0 s or 0 00 to 30 AE ME mmm 320 00 s no derivative control action when IE set at 0 0 0 or 0 00 ak al CH CO k alo o e ojo LE Output low limit for cool side 10 0 to 110 0 E Output high limit for cool side ei 404 Initial output of PID control e O O aH A8 Output high limit gt IE A Manual reset P C 458 Proportional band for cool side PE 458 Integral time for cool side dt 458 Derivative time for cool side let 458 Output low limit for cool side 488 Output high limit for cool side la 09 Initial output of PID control 1000 00 se 408 SP SameasSP group 1 po LEO ue Eventimainsetting E LEG Sb tie Event1 sub setting mes Ege 488 Event2mainsetting NEN EG2 Sb ue Event2subseting EE E03 ue Event3mainsetting EA EO3 5b 02 Event 3 sub setting En ue E
36. type type page 6 11 in the installation and configuration manual OE Wet o ar Same as internal contact 1 input fo Same as internal contact 1 input CEA 36 03 82 Loop channel definition pe Ge weight CDI OX Operationtype Same as internal contact 1 input Ese O3 inputtype 6 83 3 Loop chamneldefinition COM ca wem CDI o Operationtype Same as internal contact 1 input JC 84 mputtype j 03 OM Loop chamneldefinition pe o wem ear D Operationtype Same as internal contact 1 input Joel oe Imputtype 36 03 85 Loop channel definition PE 25 Weight Same as internal contact 1 input Same as internal contact 1 input alas zx jek al al al al AB oO Same as internal contact 1 input e O BS 2 26 2 PARA BANK SETTINGS Display Internal contact Item Settings and descriptions Initial User Remarks input number value setting auxiliary displa EE fe Operation pe 50000 Same as internal contact 1 input Same as internal contact 1 input 85 Input type ee ee x o oe Weight Lug Prot o jOpertiontyp Lo gt epa DL linputtpe 1158 j 03 Ci Loop channel definition ESO 0 weg O il j 01 88 Operationtype of ese om Imputtype 1150 gt j 03 08 Loop channel definition poo Pro oe wenn ET pc oa Op
37. 0 to 2047 1 Output of input computation F7 For more details on the 1024 to 2 Output of output computation F7 2047 range see the Standard Dio bit codes list ker 4 1 er o t Reverse MV tracking signal Jo Greet t Reverse MV tracking signal D 076 fixed range is O to 3071 1 Output of input computation F7 For more details on the 2048 to 2 Output of output computation F7 3071 range see the Standard Others numerical codes list page 4 2 FE be Output at READY 10 0 to 110 0 O0 o ooo L amp Output at READY a E Ge INN 1 MV is output if PV is abnormal DITE Output at PV alarm 10 0t0 1100 O to 110 0 L amp jFxedvalueouput 10 0to 110 0 E ro fru G8 L Fixedvalueoutput3 A 08 L Fixedvalueoutput4 Auz t Fixedvalueoutpu5 gt AE Eee u ll t Fixed value output6 pop u fe L Fixedvalueoutput7 p Ruiz L Fixedvalueoutput8 E ASS L Scalingsystem Cannotbe set R5 00 L Scaling low limit Ill R5 03 L amp Scaling high limit e EAS L Trackingmode 1 PG CR5 05 L SPoutputfilter e CRSDE L SPitrackingsignal pp MV tracking selection 0 OFF Setting range is 0 to 2047 1 Output of input computation F7 For more details on the 1024 to 2 Output of output computation F7 2047 range see the Standard ren bit codes list page 4 1 bre LES Reverse MV tracking sig
38. 01 em Operationtype NON NN JC 28 mputtype Hu Doca on Loop channel definition peer 28 Weight SSS O 2 27 2 PARA BANK SETTINGS B Digital output bank zz Display Digital output Item Digital Settings and descriptions Initial User Remarks number output value setting auxiliary displa column Output type Column C 1024 OFF 1025 ON 1090 Setting range is 1024 to 2047 1088 Event 1 1089 Event 2 For details refer to Standard 1090 Event 3 1091 Event 4 bit codes list page 4 1 1092 Event 5 1093 Event 6 1094 Event 7 1095 Event 8 1096 Event 9 1097 Event 10 1098 Event 11 1099 Event 12 1100 Event 13 1101 Event 14 1102 Event 15 1103 Event 16 Others ul ERN O O o 2 Latch at OFF except for initialization at OFF Fee LES maesti EI nl do C 2 2 Jaen ColumC 0 rm mm mm fe get 3 Latch ColumC o fom pa gole H Latch Column gl o gol 5 Outputtype Column Same as digital output column C 1 gatal 5 Latch Column C EA C mm numm SS efe E Latch ColumC EA eid Outputtype Column Same as digital output column C 1 gatal A Latch ColumnC o ard 8 Outputtype Column Same as digital output column C 1 po 1106 Setting range is 1024 to 2047 For details refer to Standard bit codes list page 4 1 ERES Output type Column E 1024 OFF 1025 ON 1088 Event 1 1089 Event 2 1090 Event 3 1091 Event 4 1092 Event 5 1093 Event 6 1094 Event 7 1
39. 095 Event 8 1096 Event 9 1097 Event 10 1098 Event 11 1099 Event 12 1100 Event 13 1101 Event 14 1102 Event 15 1103 Event 16 Others t T ID emi 2 Latch at OFF except for initialization at OFF Fr p a D I do Edge amp Latch ColumE E ii aos eee fag ge ED 3 Latch ColumnE Ea geff H Outputtype Column E Same as digital output column E 1 ge ED M Latch ColumnE EN e Eb 5 Outputtype ColumnE Same as digital output column E 1 de E 5 Latch ColumE D e Eb amp Outputtype ColumnE Same as digital output column E 1 do Ee E Latch CoumE EE geff 1 Outputtype ColumnE Same as digital output column E 1 sadel 1 Jaen CoumE D de ED 8 Outputtype ColumEl Same as digital output column E 1 Same as digital output column E 1 dad E gt fis ome KS 2 28 2 PARA BANK SETTINGS ROGER operation bank tion number Se setting auxiliary display ey Operation type 1 Operation 1 A and B or C and D E 2 Operation 2 A or B and C or D 3 Operation 3 A or B or C or D 4 Operation 4 A and B and C and D EE 1024 to 2047 1024 EE For details refer to Standard 8 amp 4 InputassignmentB assignment B EN bit codes list page 4 1 2683 Pi meum B Input assignment C bF 05 oi InputassignmentD POTE EE assignment D bF 05 oi Inputbitpolartya pit poranit A O Direct 1 Reverse SEI O6 InputbitpolartyB bF G8 O6 InputbitpolartyC bF Gi
40. 1 sub setting E 203 Event 12 main setting Elasb ava Event12 sub setting EI 263 Event13 main setting Ei35b 263 Event13 sub setting EM 263 Event14 main setting EM Sb 803 Event 14 sub setting Eis ava Event15mainsetting Eis sb 203 Event15subsetting EIS amp 03 Event16mainsetting Ef sb 203 Eventt6subseting 83 Proportionalband axa Integraltime d apa Derivative time oL aba Output low limit 283 Output high limit 283 Manual reset 2 03 Proportional band for cool side 263 ntegraltimeforcoolside 2 03 Derivative time for cool side 2 03 Output low limit for cool side 2 03 Output high limit for cool side Gba Initial output of PID control am LSP Sameas SP group 1 204 Event9 main setting 204 Event 9 sub setting 2 04 Event 10 main setting 204 Event 10 sub setting 204 Event 11 main setting 04 Event 11 sub setting 204 Event 12 main setting 204 Event 12 sub setting 204 Event13 main setting 204 Event 13 sub setting 204 Event14 main setting 204 in sett em am am em em am am e O NO CH Same as SP group 1 204 Event 14 sub setting 2 04 Event 15 main setting 204 Event 15 sub setting Integral time 204 Derivative time Output low limit ao o O w l gt Ia o o Q o o SIS lo l5
41. 120 gt 30 00 5 1000 gt Same as PID1 5 0 SameasPID1 120 30 oo 1000 500 50 120 gt Derivative time for cool side 30 utput low limit for cool side 00 Output high limit for cool side 100 0 Proportional band Same as PID1 50 Same as PID1 ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side gJ N Same as PID1 120 gt 390 00 gt 100 0 500 100 0 Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side Derivative time for cool side Output low limit for cool side 30 oof 100 0 y Cc c D O c gt gt Q O 2 y 3 3
42. 2000 Ld The decimal Lr position is determined by the decimal Put Gs Flowrate scaling high limit ee a O Square root extraction dropout 0 0 Square root extraction is not performed 0 1 to 10 0 Pu Filter 1000 Nofilter 0011012000 oo TI EE Bas A A A Ratio TJooottos2000 11 000 Linearization table group O Disabled 1 Grpup 1 2 Grpup 2 definition 3 Grpup 3 4 Grpup 4 5 Grpup 5 6 Grpup 6 7 Grpup 7 8 Grpup 8 2 PARA BANK SETTINGS B Input computation bank mr value setting Decimal point position 0 No decimal point 1 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point kn r for fame 2048 to 3071 2048 Formore details on the 2048 to Le EE 2 dl 3071 range see the Standard numerical codes list page 4 2 gt NE operations 0 NOP No operation y First order lag filter Ratio bias High low limiter Change rate limiter I Differentiation Advance delay E Absolute value Linearization table Maximum value hold e Minimum value hold Hold Preset value Soft preset value ER Setting 1 19999 to 32000 U The decimal point position is determined by the setting for Setting 2 EE decimal point position in Lm ER re DE computation bank PH 03 oi settings o zes mmus input 1024 to 2047 EM EE more details on the 1024 to 2047 range see the Standard FF codes list page 4 1
43. 45A 46A 45R 46R 1 Enabled 0 When disabled the PV input is used as the RSP SDC45V 46V 0 When disabled the RSP assignment is used as the RSP Digital RSP SP low limit to SP high limit The decimal point position is determined by the decimal point for the loop PV SP erdi 12 RSPratiot 0 001 to 32 000 1000 rage L RSPratio2 er AGI L RSPratio3 rA gH L RSPratio4 er ABS L RSPratio5 rAGE L RSPratio6 cc L RSPratio7 enoa Le RSPrato8 2 7 2 PARA BANK SETTINGS M Event configuraiton bank E Display Event number Item Settings and descriptions Initial User Remarks auxiliary displa value setting Operation type No event 1 PV high limit 2 PV low limit Setting range is 0 to 255 PV high low limit 4 Deviation high limit Refer to M Event operation Deviation low limit 6 Deviation high low limit types polarity hysteresis main Deviation high limit final SP reference settings and sub settings page Deviation low limit final SP reference 6 5 in the installation and Deviation high low limit final SP reference configuration manual 10 SP high limit 11 SP low limit 12 SP high low limit 13 MV high limit 14 MV low limit 15 MV high low limit 16 MFB high low limit 17 to 25 Undefined 26 Standard numerical bit high limit 27 Standard numerical bit low limit 28 Standard numerical bit high low limit 29 to 60 Undefined Alarm status 62 READY statu
44. 5A 46A 45R 46R 1 Enabled 0 When disabled the PV input is used as the RSP SDC45V 46V 0 When disabled the RSP assignment is used as the RSP Digital RSP SP low limit to SP high limit The decimal point position is determined by the decimal point for the loop PV SP eri LL RSPrato 0 001to32 000 1 000 rre Li RSPratio2 rr a d RSPratos gt EA BD LL RSPrato4 gt SS ags ii RSP ratos mM rrADE LL RSPratio6 gt IrrROT LL RSPratio7 NENE ref LL RSPratio8 EMEN Leo ee Seem 19999 to 32000 U 27000 1999 9 The decimal point position is Bi ul ME limit MEM determined by the decimal point positions for the loop PV SP m Ex 1 No decimal point min 2 No decimal point h 3 0 1 s 4 0 1 min 5 0 1 h 6 0 01 s 7 0 01 min 8 0 01 h 9 0 001 s 10 0 001 min 11 0 001 h espa La SP ramp up forLSP_ JOU No ramp 1 to 32000 U O The decimal point position is SP 03 L SPramp downforlSP_ lo determined by the SP ramp unit ese L RSPtrackng O Notracking 1 Tracking 0 5P 05 La SPramp upforRSP OU No ramp 1 to 32000 U 0 The decimal point position is ESP 06 t SPramp downforRSP D determined by the SP ramp unit ESET be LSPbias 19999to 32000U 0 The decimal point position is positions for the loop PV SP SPY L PVstartforLSP 10 PV start enabled SPE Lea PV start for RSP 1 PV start disabled a S Digital RSP selection O Disabled SDC
45. 8 156 Operationtype Same as logical operation 1 Sams as logical oneralion 1 bF 02 16 InputassignmentA bF 03 16 InputassignmentB bF e ImputassignmentC bF D05 ds ImputassignmentD bF 06 i InputbitpolartyA CDI 1 5 InputbitpolartyB bF 08 15 Inputbitpolarty C bF 03 mp lInputbitpolartyD bei e ONdelaytme b d 16 JOFFdelaytime b k User defined bit gt udbre User defined bit2 mz User definedbit3 d dt User defined bit4 Udb05 User defined bit5 tights User defined bit6 idb Userdefmedbit7 User defined bit 8 B Temperature and pressure compensation bank Lu value setting Compensation method 0 No compensation 1 Temperature compensation 2 Pressure compensation 3 Temperature and pressure compensation Unit for temperature correction 0 Celsius C 1 Fahrenheit F Setting cannot be changed if PV 2 Kelvin K 1 is a thermocouple or RTD a N Design temperature for 1999 9 to 3200 0 temperature correction Unit for pressure correction 0 MPa 1 kPa 2 Pa 3 vet 4 mmH20 Design pressure for pressure 1999 9 to 3200 0 correction Decimal point position 0 No decimal point for flow rate setting 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point A Flow rate scaling low limit 19999 to 3
46. Advancedfunction display password 11 O32 Advanced function display password 12 033 Advanced function display password 13 E 034 Advanced function display password 14 s Advanced function display password 15 CDI Advanced function display password 16 038 Month day 033 Hour minute EE Display brightness O Standard 1 Slightly dark 2 Dark Cannot be set on the SDC45A 46A 45R 46R o e CH e e al e CH 2 14 2 PARA BANK SETTINGS a Ei B Priority bank 5 55 Display Settings and descriptions Initial User Remarks auxiliary display value setting d SP group selection 0 Setting value priority 1 Internal contact input priority PID group selection 0 Setting value priority 1 Internal contact input priority 2 Zone PID function priorit RUN READY mode selection 0 Setting value priority 1 Internal contact input priorit a H AUTO MANUAL mode 0 Setting value priority selection 1 Internal contact input priorit LSP RSP mode selection 0 Setting value priority 1 Internal contact input priority Backup through output mode 0 Setting value priority selection 1 Internal contact input priorit Release all latches 0 Setting value priority 1 Internal contact input priority OUT linearization table use 0 Setting value priority group 1 Internal contact input priorit Operation display change 0 display key 1 Setting value display key 2 Internal co
47. Event3mainsetting EO35b 403 Event3subsetting EM LAO Event 4 main setting EGS 403 Event4subsetting EG diz Event5 main setting EO5 5b i3 Event5sub setting EGB 13 Event6 main setting E0 amp 5k 403 Event6subsetting EG 40 Event7mainsetting EGLSb 403 Event7subsetting EG8 40 Event8mainsetting EDBSb 403 Event8sub setting efi Proportionalband Po i Integraltime d 40 Derivativetime e f Output low limit X Output high limit di Manual reset 443 Proportional band for cool side X Integral time for cool side di Derivative time for cool side tia Initial output of PID control Same as SP group 1 f Event 1 main setting f Event subseting f Event3sub setting gt e O NO CH EET M EET EM AM ENT M LN AM ZEN EGH tft Event4mainseting ED4Sb 4 Event4subsetting f Event main setting dd Event5 sub setting f Event6 main setting 4 Event6subseting EGI ett Event7mainsetng ESB t Event7subsetting f Event8 main setting dd Event8 sub setting ff Proportional band M EET M LN M MX Integral time 48 Dervaivetime Output low limit ao al O w O1 O CA o o S N lolS S O CH CH NO CH Output high limit
48. Event4mainseting ED4Sb 406 Event4subsettng 405 Event main setting 405 Event S sub setting 485 Event 6 main setting 405 Event 6sub setting EGI 105 Event7mainsetting EDL5b 406 Event7subsetting 405 Event8 main setting 405 Event 8sub setting 485 Proportional band ENT AN ENT NN ENT AN ENT NN EET AN Integral time BE Dervaivetime Output low limit ao al O w O1 O CA o o S N lolS S O CH CH NO CH Output high limit 405 Integral time forcoolside 405 Derivative time for cool side 405 Outputlow limit for cool side Initial output of PID control a 2 e QI II o S Co o oo s3o a 9 o 9 O O Remarks Same as SP group 1 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SP Io tsps Same as SP group 1 Same as SP group 1 EG 487 Eventtmainsetting EBASb 487 Event1 sub setting EG 487 Event2main setting EGesb 407 Event2sub setting gt EG3 487 Event3main setting E03 5k 487 Event3sub setting EM o Event 4 main setting EGM Sb 487 Event4sub setting E05 487 Event5main setting E0S 5b 407 Event5sub setting gt EGB 487 Event6main setting E06 5k 487 Event6sub setting ESTO 487 Event7 main setting EGLSb 487 Event7 sub s
49. Minimum ON OFF time Same as output 1 Time proportional cycle Era MM IL Linearization table group definition Power voltage correction selection EGG 5 Outputtype Output type Same as output 1 Page 5 latch EE Time proportional cycle mode Minimum ON OFF time Same as output 1 Time proportional cycle E Linearization table group definition Power voltage correction selection 2 19 2 PARA BANK SETTINGS B Position proportional bank 77 Display Loop number Item Settings and descriptions auxiliary display value setting Output type 0 Position proportional control stop Settins range is 0 to 3071 1 MV of loop 1 For more details on the 2048 to 2 Heat MV of loop 1 3071 range see the Standard 3 Cool MV of loop 1 numerical codes list page 4 2 4 MV of loop 2 5 Heat MV of loop 2 6 Cool MV of loop 2 2048 to 3071 According to the Standard numerical codes list Control type 0 MFB control estimated position control 1 MFB control close at burnout 2 Estimated position control 3 Estimated position control positioning at power supply ON PP 03 Deadzone 105t0280 ll 1 Aiming at life PP 05 Motorautoajust O Stop 1 Start PR DE Imputwithmotor fully closed Oto8000 pf PP 81 Imputwithmotorfully open 1 0to8000 1 11 PP 88 1 Motorfullclose fullopentme 5 0t02400s 11 11 PP 03 flop gt tiloopt2 lop2 pep Linearization table group O Disable
50. No CP SP 1265E SDC45 46 Digital Indicating Controller User s Manual for Displays and Settings DDD D gg gg eege EEE EE Thank you for purchasing the SDC45 46 Digital Indicating Controller This manual contains a complete list of SDC45 46 displays and settings For assistance in correctly setting the SDC45 46 keep this manual nearby for handy reference For details about how to change the set tings refer to the installation and con figuration manual CP SP 1218E for the SDC45 46 Yamatake Corporation RESTRICTIONS ON USE This product has been designed developed and manufactured for general purpose application in machinery and equipment Accordingly when used in applications outlined below special care should be taken to implement a fail safe and or redundant design concept as well as a periodic maintenance program e Safety devices for plant worker protection e Start stop control devices for transportation and material handling machines e Aeronautical aerospace machines e Control devices for nuclear reactors Never use this product in applications where human safety may be put at risk NOTICE Be sure that the user receives this manual before the product is used Copying or duplicating this user s manual in part or in whole is forbid den The information and specifications in this manual are subject to change without notice Considerable effort has been made to ensure that this manual is fr
51. Nov 2007 W 2nd Edition Issued in Nov 2008 W
52. Outputscaling low limit e 06 NM Outputscaling high limit reno ME determined by the decimal point E the output Col Linearization table group definition ied Rape um selection e 0 5 Outputrange Sameasoutput3 E Same as output 3 e 03 5 Loop chamneldefinition Col 5 Output decimal point position BS e 05 5 Output scaling low limit e 06 5 Outputscaling high limit e e 0 5 Linearization table group definition ied E E selection e 0 amp Outputrange Sameasoutput3 2 Same as output 3 fo G2 amp Outputtype e 03 6 Loop channel definition Re e O4 amp Output decimal point position e 05 amp Outputscaling low limit e 0 amp amp Output scaling high limit E CTI Hm selection e 0 t Outputrange Sameasoutput3 0 Same as output 3 o ga Y Output type of gt e O4 Output decimal point position E e 05 A Output scaling low limit 00 eese 3 ouput eating ngh imt 100 eamm SS e EE correction een AS OFF 1 Loop 1 MV Setting range is O to 2047 but 7 2 Loop 1 Heat side MV for heat cool control to 1023 are undefined 3 Loop 1 Cool side MV for heat cool control For more details on the 1024 to 4 Loop 2 MV 2047 range see the Standard 5 Loop 2 Heat side MV for heat cool control bit codes list page 4 1 6 Loop 2 Cool side MV for heat cool control Others
53. SETTINGS B MV bank rs Display Loop number Item Settings and descriptions Initial User Remarks Auxiliary displa value setting udi Li Output at READY 10 0 to 110 0 owl o ude Lt Output at READY heat A AM gt Av 03 LL Output at READY cool Output operation at PV alarm 0 Control calculations continue 1 MV i TEGE output if PV is abnormal EC output at PV alarm 10 0t0 110 0 O to 110 0 it Fixed value output1 10 0to 110 0 EE A4 08 tf Fixedvalueoutpu3 E Ss Da t Fixedvalueoutput4 doi ud tt Fixedvalue output5 E mus dd h Fixedvalue output6 EM rte h Fixedvalueoutpu7 AA rta Li Fixedvalueoutput8 EAN CRS 01 LGL Scalingsystem O Fixed 1 SPreference 2 PVreferenee O Le ASHE Lt Scaling low limit 19999 to 32000 U op The decimal point position is determined by the decimal point positions for the loop PV SP ESN be uil high limit ss 1 Tracking mode 1024 OFF 1025 0N 1152 DI C1 1024 Setting range is 1024 to 2047 1153 DI C2 1154 DI C3 1155 DI C4 For details refer to 1156 DI C5 1157 DI C6 1158 DI C7 Standard bit codes page 4 1 1159 DI C8 1176 DI F1 1177 DI F2 Others CRS 05 tt SP output filter 0 00 No filter 0 01 to 120 00 s JE oO SP tracking signal 2048 to 3071 2048 Cannot be on the SDC45A 46A 45R 46R For the SDC45V 46V see the Standard numerical codes list page 4 2 MV tracking selection O OFF Setting range is
54. SP EV BANK SETTINGS E RSP bank 57 Display Item Settings and descriptions Initial User Remarks auxiliary displa value setting SP t J RSP Display is enabled and setting is disabled Pid tf PID group definition toie Ja o SP La RSP amp jDisplayis enabled and setting is disabled Pid t PID group definition foto A o B Event setup bank number value setting Eni Event main setting 1 19999to 32000 U The decimal point position is EGB IL l Eventsubsetting 1 ERE determined by the decimal point position for the event configura tion Event sub setting Event sub setting esch I I l I l I l Lo lI I o sech 3 19 4 B Standard bit codes STANDARD BIT CODES AND STANDARD NUMERICAL CODES The range of the standard bit codes is 1024 to 2047 Nos not stated in the list are undefined Therefore do not use such codes The standard bit codes are set values common to the following items Output type Ge D 4 of output bank ON OFF output bit codes 1088 Event 1 1090 Event 3 1091 Event 4 1092 Event 5 1093 Event 6 1094 1096 1097 1099 Event 12 1100 Event 13 1101 Event 14 1102 Event 15 1103 Event 16 Event16 1166 1167 1177 1217 1219 1221 1157 1158 1159 1160 1161 1162 1163 1164 1165 1 Input type of internal contact input bank Output type Zac 4 6 geb 0 Of digital outp
55. SP group 1 tis M tis M e EE ENTM ENTM EO3 Sb EOM e Event4mainseting EGM Sb ti Event4subsettng dt Event main setting 16 Event Ssub setting tt Event main setting 15 Event6subseting EGI t Event7mainsetting EGLSb tis Event7subsetting 15 JEvent8main setting 16 JEvent8subsettng 15 Proporionalband E E ENTM Does Integral time 15 Derivativetime Output low limit ao o O w l gt Ia o o Q o o SIS lo l5 o o NO CH Output high limit 15 Integral time forcoolside 15 Derivative time for cool side 15 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 10 3 SP EV BANK SETTINGS EH Loop 2 recipe bank 2 7 4 Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa p o T ME faq 204 Event 9 main setting 19999 to 32000 U Dash ai Event9subseting Em ami Event10mainsetting Elos agi _ Event10 sub setting EI 281 _ Event11 main setting Eil 204 _ Event11 sub setting E gt _ Event12 main setting Elesb ei Event12subsetting E3 ap _ Event13 main setting Elab agi Event13 sub setting EM 281 _ Event14 main setting EMSb ei Event14
56. When the power is turned ON if the operation mode is MANUAL the MV is preset MANUAL value EMGS Li MV increase change limit 0 00 No limit Eko Li MV low limitat AT 10 0 to 110 0 gei doi Erd i MV high limit at AT ooo 1 O Fea MH Li Zone 2 determined by the decimal point reed S Li Zone 3 GEN positions for the loop PV SP k Li jZone6 BENE kd Li oner O EE PV assignment 0 NOP 1 PV1 input channel 2 PV2 21 input channel 3 PV22 input channel 1 1 digit after decimal point Control action 0 Reverse heat 1 Direct cool 2 Heat cool md MN type 0 Normal regular control characteristics 1 Immediate response control characteristics for fast response to external disturbance 2 Stable control characteristics that minimize up down PV fluctuation If a PV1 alarm ALO1 or ALO2 occurs 46A 45R 46R PID control initialization Auto 1 Not initialized Initialized if SP value different from the current value is input Ets Li MV decrease change limit 0 01 to 320 00 s Zone operation O iii MN MN by SP value When zone PID is used set the 1 Changed by PV value PID group selection priority to Zone PID function Eid E Li Zone4 Fraa t Zone hysteresis Oto32000U 6 9 RSP assignment 4 Results of input computation numerical codes ilst page 4 2 5 Flowrate Cannot be set on the SDC45A corrected for temperature and pressure 46A 45R 46R 2 2 digits after decimal point WENN C
57. a a O O O O O O o o o o D D bh bf ob I I job al O O1 O SIS5 S NlolL SlolS y o Slo 4 Same as PID1 Same as PID1 50 Same as PID1 Same as PID1 50 Same as PID1 2 5 2 PARA BANK SETTINGS Display Loop number Item Settings and descriptions auxiliary display value value setting Same as PID1 5 0 SameasPIDi oito L integraltime 1 120 0 ii L Derivativetime 11 30 imi 00 gt 1000 500 roportional band for cool side 50 ntegral time for cool side 1 120 erivative time for cool side 1 30 utput low limit for cool side ch e O O o Same as PID1 NO CH ntegral time Derivative time Output high limit roportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset roportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side P
58. aa Eventi4subseting gt ea Event15 main setting 208 Event 15 sub setting 208 Event 16 main setting ee Event 16 sub setting ea Proportionalband EZ eee Integral time d 282 Derivativetime a ape Output lowlimit oM 62 Output high limit E agro Manual reset PC ge Proportional band for cool side JC age Integral time for cool side dt age Derivative time for cool side at age Output low limit for cool side S Output high limit for cool side ES 208 Initial output of PID control o 2 o co O e O O O on A o e The decimal point position is determined by the decimal point position for the loop PV SP The decimal point position is determined by the decimal point position for the event configura The decimal point position is determined by the decimal point position for the control parameter The decimal point position is determined by the decimal point position for the control parameter Same as SP group 1 3 11 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SP aba LSP SameasSP group 1 Same as SP group 1 E03 ava Event9mainseting dd E04 5b 2 03 Event9 sub setting E 263 Event10 main setting E akl 8203 Event10 sub setting EI ava Event11 main setting EiiSb ava Event1
59. arts O Front panel of SDC45 gr eee C OO KK e DD ems no O Description 1 2 3 4 5 6 7 8 O Front panel of SDC46 Lp Ld E BERBFBFBER D o ao KS cE E GG C gt co or 16 15 14 14 8 Upper display Displays PV present temperature etc or setup items Lower display Displays SP set temperature etc and other parameters Auxiliary display Displays group No loop No and channel No of setup item The series of connections from PV input to PID operation through to control output is generically called a loop Multi status indicator Indicates MV or DI DO status Mode indicators rdy Lights up in READY mode rsp Lights up in RSP remote setting input mode man Lights up in MANUAL mode outl 7 Light up when the output is ON SDC45 out1 5 Always lit when the output is current or continuous voltage User function indicators uf1 4 Light under user assigned conditions SDC45 uf1 uf2 Loop number indicators pvl pv2 Light up to indicate which loop has the displayed PV value a VLI lt gt keys Used to increment decrement numeric values and shift between digits or settable items 9 auto man key Used to change AUTO MANUAL mode 10 sp ev key Used to set the SP EV bank 11 display key Used to change the display contents in the operation dis play mode 12 para
60. d 1 Group 1 2 Group 2 definition 3 Group 3 4 Group 4 5 Group 5 6 Group 6 7 Group 7 8 Group 8 B CT input bank 24 Display CT input number Item Settings and descriptions auxiliary display value setting CT operation type 0 Continuous current measurement 1 Heater burnout detection of OUT 1 2 Heater burnout detection of OUT2 3 Heater burnout detection of OUT3 4 Heater burnout detection of OUT4 5 Heater burnout detection of OUT5 IA debe i CT measurement wait time 30to 300 ms 390 E 03 amp Number of CT turns 100 to 4000 turns 800 000 00 0 y CEO Number of CT power wire loops value value CEO Short circuit detection value 0 0 to 350 0A E 08 0 0 to 350 0A 0 0 to 3200 05 Condition for restoration of 1024 to 2047 standard bit codes unmeasured value debi e CT operation type SameasoutputCT input 1 Cite A CT measurement waittime E 03 amp NumberofCTtums CE O A Number of CT power wire loops ed value ited A miin value pe a Short circuit detection value Ce c8 2 Hysteresis t 04 a Delaytime Condition for restoration of unmeasured value B AC input bank 7 Display AC input numbe Item Settings and descriptions Initial User Remarks auxiliary displa value setting RC 8 Reference voltage 4 00to11 00V CO O co O N S o RO az A E RC 02 t Filter om No filter 0 01 to 120 00 s RC 8
61. delaytime gt b d om OFFdelaytime El om Polarity bra om aen eo NO A Same as logical operation 1 O MIT JI Same as logical operation 1 O NO A 2 29 2 PARA BANK SETTINGS Display Logical opera Item Settings and descriptions Initial User Remarks tion number value setting onl a EE ud 5 omone ooo type 05 input assigninent A A TP bF O4 O5 InputassignmentC gt bF 05 O5 ImputassignmentD bF O amp o Inputbitpolarty A SEI o inputbitpolariyB bF G8 oo ImputbitpolariyC bF 03 oo InputbitpolarityD gt ESA ON delay time bF 1 85 OFFdelaytime bF i 85 jPolanty bF i3 05 Ja bF O 25 Operationtype bF G 86 ImputassignmentA bF 03 86 InputassignmentB bF O4 86 ImputassignmentC gt bF 05 86 ImputassignmentD bF O amp e InputbitpolartyA bF O e Inputbitpolarty B bF O8 86 limputbitpolariyC bF 03 oe InputbitpolarityD gt ESA ON delay time bF 1 86 OFFdelaytime bF e Polarity bF i3 e Lath bF G 27 jOpertionte bF G o l InputassignmentA gt bF 03 o l InputassignmentB bF O4 81 ImputassignmentC bF O5 o inputassignmentD bF O amp o ImputbitpolariyA EI o InputbitpolartyB bF 08 OL lnputbitpolartyt
62. earization 1 19998 d Same as linearization 1 EE 3200 0 Byr 8 Breakpoint B3 EPR Breakpoint B4 Eb bs 8 BreakpointB5 gt bb 6 8 BreakpointB6 tbm 8 BreakpointB7 thha 8 BreakpointB8 gt bk 8 BreakpointB9 gt bb 8 BreakpointB10 gt bb dd 8 BreakpointBt1_ bb te 8 BreakpointB12 Ebb 8 BreakpointB13 tbb M 8 BreakpointB14 bb i 8 BreakpointB15 gt bb 5 8 BreakpointB16 gt ebb 8 BreakpointBi7 bb 8 BreakpointB18 bb i 8 BreakpointB19 Ebba 8 BreakpointB20 gt B Internal contact input bank es type 0 No function 1 SP group selection 2 PID group selection 3 Fixed value output selection 4 Multi ratio selection 5 Linearization use group selection for output 21 RUN READY selection 22 AUTO MANUAL selection 23 LSP RSP selection 24 AT Stop Start selection 25 Backup through output selection 41 Control action direct reverse selection 42 SP ramp enabled disabled selection 43 Operation display selection Timer Stop Start selection Release all latches Input type 1024 OFF 1025 ON 1152 DI C1 Setting range is 1024 to 2047 1153 DI C2 1154 DI C3 1155 DI C4 For details refer to Standard bit 1156 DI C5 1157 DI C6 1158 DI C7 codes page 4 1 1159 DI C8 1176 DI F1 1177 DI F2 Others Loop channel definition O All loops 1 Loop 1 2 Loop 2 Setting range is O to 127 the meaning is different depending on For details refer to M Operation the operation
63. ee from inaccuracies and omissions If you should find an error or omis sion please contact Yamatake Corporation In no event is Yamatake Corporation liable to anyone for any indirect special or consequential damages as a result of using this product 2007 Yamatake Corporation ALL RIGHTS RESERVED The Role of This Manual A total of 4 different manuals are available for the SDC45 46 Read them as necessary for your specific require ments If a manual you require is not available contact Yamatake Corporation or its dealer SDC45 46 Digital Indicating Controller Installation Instructions Manual No CP UM 5445E This manual is supplied with the SDC45 46 Personnel in charge of design and or manufacture of a system using the SDC45 46 must thoroughly read this manual This manual describes the safety precautions installation wiring primary specifications and transitions of key operations and displays For further information about operation refer to another manual Installation and Configuration SDC45 46 Digital Indicating Controller User s Manual for Displays and Settings Manual No CP SP 1265E This manual The manual is a reference document necessary to set or change data The manual lists up the displays setup items setting ranges and initial values SDC45 46 Digital Indicating Controller User s Manual for Installation and Configuration Manual No CP SP 1218E Personnel in charge of design manufacture operation and
64. ent10 sub setting 4 Event 11 mainsetting 24 Event 11 sub setting 2 60 Event12mainsetting ato Event12 sub setting ato Event13 main setting 268 Event 13 sub setting ato Eventi4mainsetting 2 in sett 8 2 a 2 a peito atm e O NO CH 2 48 Eventi4subseting amp 15 Event 15 main setting 2 48 Event 15 sub setting Integral time ad Derivativetime Output low limit ao er O w l gt IO o S C C2 O o ale le ls 12 O o O NO CH Output high limit 2 4 Integral time forcoolside ff Derivative time for cool side 2 4 Output low limit for cool side Initial output of PID control a 2 e QI II o S Co o oo s3o a 9 o 9 O O Remarks Same as SP group 1 3 15 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SP at LSP SameasSP group 1 Same as SP group 1 E04 ati Event9mainsetting dd Dash 214 Event9 sub setting EG ett Event10mainsetting E Sb ti EventiOsubseting EI SI Eventitmainsetting Efi5b att Event11subsetting ER RI Event 12 main setting Elasb Zii _ Event12 sub setting EI ati _ Event13 main setting EI Skl ti Event13 sub setting EM ati Event14mainsetting EMSb Zii Event14subsetting ES
65. er bits are undefined 2 43 2 PARA BANK SETTINGS B Instrument information bank ei value setting e bit F Winformation 1 ROMID PP TI O Cl Rer ROM version 1 ad ROM version 2 Pe SLP loader information Fm ap EST information t 86 Manufacturing date code yeap Pep PG Ciad ON VE 3 month da Hgd O8 ISeralnumber Pa PP epa Formanufacturersevice IL O ento Formanufacturersevice Pep TI y O tete Formanufacturersevice IL y O ode For manufacturer service Hd i3 Formanufacturer service eo For manufacturer service Pets Formanufacturerservice eds Formanufacturerservice Hd 3 Formanufacturerservice id ie Formanufacturerservice tea Jrormanufacturerservico For manufacturer service For manufacturer service For manufacturer service For manufacturer service For manufacturer service For manufacturer service For manufacturer service For manufacturer service For manufacturer service For manufacturer service t 38 For manufacturer service Bee For manufacturer service t 38 For manufacturer service po Jo Gesa Formanutacturer serviee Too Do LL 2 44 3 SP EV BANK SETTINGS B SP group selection bank a Display Loop number Item Settings and descriptions Initial
66. er decimal point Decimal point position 0 No decimal point 4 4 digits after decimal point 1 1 digit after decimal point Temperature unit 0 Celsius C 1 Fahrenheit F 2 Kelvin K 2 2 digits after decimal point 19999 to 32000 U determined by the decimal point position for the PV 0 Performed internal 1 Not performed external 2 Terminal temperature compensation is done by a sensor on another channel Set by means of the adjustment procedure Cannot be set by direct input of a numerical value using the 19999 to 32000 U pl Linear scaling low limit determined by the decimal point Linear scaling high limit position for the PV Square root extraction dropout 0 0 Square root extraction is not performed 0 1 to 10 0 6 Pl 4 Tome 10 00 No filter 0 01to 120 00 s oof S Bias 19999 to 32000 U The decimal point position is determined by the decimal point position for the PV Punt Ratio 0 001 to 32 000 1000 00000000 Thermocouple mV input burnout 0 Upscale at burnout 1 No burnout detection Linearization table group 0 Disabled 1 Group 1 2 Group 2 definition 3 Group 3 4 Group 4 5 Group 5 6 Group 6 7 Group 7 8 Group 8 2 2 digits after decimal point PN 2 Range low limit 19999 to RT U Range type 0 Not used 1 K 2 E 3 J 4 T 5 B For details refer to the PV input 6 R 7 S 8 WRe5 26 9 PR40 20 range table in the SDC45 46 Ni NiMo 11 N 12 PLII Installation Instr
67. erationtype A eve 89 mputtype 1160 36 03 08 Loop channel definition EE A Gi e E Operation type E v ese 6 Imputtype 1161 j 03 4 Loop channel definition Ki PE 8 Weight 00000 Exp jE 05 tt Operationtype Lol gt jC O8 tt linputtype 1162 j 03 t Loop channel definition E A Poem 11 Weight O E a jC 05 f Operationtype of gt eve f lnputtype 1168 gt 36 03 12 Loop ehanneldefiniton ET PE da Weight i O Lede roi ia Operationtype a T c G2 i3 Imputtype 1164 36 03 13 Loop ehanneldefiniton gt PE 2 Weight o Ea 9 jj 05 8 Operationtype 0 E JC t lnputtype HE j 03 t Loop channeldefinition EE A peo w Weight L jE 05 5 Operationtype E BEA Input type 1166 36 03 S Loop channel definition E PO PE is Weight Lr JC 1 6 Operationtype pop ese i Imputtype 1167 j 03 i Loop channeldefinition Keen PE mp Weight o ETA jjC 05 fi Operationtype o eve Inputtype 1168 j 03 D Loop channel definition Ex poem a Wegt O 1 5 Pest i Operation type of gt jC O8 18 lnputtpe 1160 gt 36 03 8 Loop ehanneldefiniton af 7 EOM tm weg i O pep jC 05 tm Operationtype E ese limputtype Ei 1 16 03 4 Loop channel definition MEN 4 Poem 8 Weight O A j
68. etting EG8 487 Event8main setting EGB Sb 407 Event8sub setting gt P 48 Proportionalband gt JI 48 Integraltime d 48 Derivativetime oL 48 Output low limit 81 Output high limit D Manual reset 487 Proportional band for cool side 81 Integral time for cool side 487 Derivative time for cool side 48 initial output of PID control Same as SP group 1 408 Event main setting 488 Eventi sub setting 408 Event3 sub setting gt e O NO CH Same as SP group 1 Ak ENTUM 408 ENT NN ENT NN 408 EO3 Sb EO 08 Event4mainsetting EGM Sb 408 Event4subsettng 48 Event 5 main setting 488 Event5subselting 48 Event main setting om Event subseting EGI 08 Event7mainsetting FORSK 108 Event7subsetting 48 Event8 main setting 408 Event8subselting 408 Proportionalband IE ER ENT NN ENT NN WR Integral time 408 Dervaivetime Output low limit mel ao Y O co l lo O D I o o SIBjo SI S o o NO CH Output high limit 408 Integral time for coolside 486 Derivative time for cool side 88 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 SP EV BANK SETTINGS Display Loop number Ite
69. event 6 Lety T Eventdelayremainingtime event et 58 8 Eventdelay remaining time event8 sa t Eventdelayremainingtime event S O tudo Eventdelayremainingtime event 10 et ti 3 Event delay remaining time event 11 ETE Event delay remaining time event 12 EEE Event delay remaining time event 13 ty M E Eventdelayremainingtime event14 ty 5 1 Eventdelayremainingtime event 15 tu 8 Event delay remaining time event 16 Number of days continuously energized 1 the equivalent of one day time less than 6 continuous Ee is Dor included E EEP LC EEPROM write cycles st the equivalent of 100 cycles _ er ess 7 EBEN Log Reserved for future use SO Caio t For manufacturer service oo Cage A Formanufacturerservice ss ERROR 3 For manufacturer service ss ERG M For manufacturer service ss RLOS 5 jFormanacuersevice ss Caio amp jFormanacwersevie SS ERLI X Formanufacturerservice ss crag amp Formanufacturerservice ss crag t jFormanacuersevice ss RLIG a jFormanacuersevie Ss ERRE 3 Formanufacturerservice ss crue jJFormanfacwersevie SO CRI 5 For manufacturer service oo CRM amp Formanufacturerservice ss CALAS Formanufacturerservice ss CAL B 8 amp Formamufacturerservice SS ERA t jJFormanfacuersevice ss cris A jFormanacwersevie SO Caia X For manufacturer ser
70. it for cool side Proportional band Integral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side Same as PID1 mb ajo wlz lajo w Izs 15 O w IO m no W SEI S So la 2 Kielen e O O Output low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit N Same as PID1 ul wmIT O 9 19115 Q O O roportional band for cool side ntegral time for cool side Output low limit for cool side Same as PID1 O ntegral time utput high limit al CH CH C1 C O1 w 01 O WIR IAS no e D Sek EE s Cer roportional band for cool side ntegral time for cool side Derivative time for cool side ho O lo 2 2 2 PARA BANK SETTINGS Display Loop number Item Settings and descriptions auxiliary display value value setting P tt Proportionalband 10 Same as pp 50 SameasPIDi i tt Jmtegraltime Im 120 ts tt Derivativetime 10 sof ail tt Outputlowlimit 10 00 Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side 50 NO O k ml sala O S 5 8 O Proportional band ntegral time Derivative time Output low limit Output high limit Manual rese
71. ition 3 Group 3 4 Group 4 5 Group 5 6 Group 6 7 Group 7 8 Group 8 2 17 2 PARA BANK SETTINGS EH Output bank e auxiliary displa value setting Output range Current output 0 4to20mA 1 0to 20 mA Continuous voltage output 0 1to5V 1 0t05V 2 0to 10V Output type 0 0 fixed 1 MV Setting range is O to 3071 but 8 2 Heat side MV for heat cool control to 2047 are undefined 3 Cool side MV for heat cool control For more details on the 2048 to 4 PV loop 5 SP 6 Deviation PV SP 3071 range see the Standard 7 PV input channel Others numerical codes list page 4 2 Loop channel definition O Invalid 1 Loop 1 chamnel 1 Setting range is O to 99 2 Loop 2 channel 2 Output decimal point position 0 No decimal point 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point The decimal point position is Co 25 Output scaling low limit 19999 to 32000 U VEN a Ge scaling high limit Linearization table group 0 Disabled 1 Group 1 2 Group 2 definition 3 Group 3 4 Group 4 5 Group 5 6 Group 6 7 Group 7 8 Group 8 Power voltage correction O Disabled 1 Corrected by AC1 input aaa on the SDC45R 46R selection 2 Corrected by AC2 input ifa G vu Outputrange Output range Same as output 3 Foe as output 3 fo G nu Outputtype e 03 MN Loop channel definition e O4 Output decimal point position e 05 MN
72. loop 1 ramp down 1665 During SP ramp of loop 2 ramp down 1696 Backup through output status of loop 1 1792 All typical alarms logical OR of all alarms to be displayed 1826 PV input high limit alarm PV22 1840 1841 1842 1856 1857 1880 1888 1896 1952 1953 1976 RTC alarm 4 1 4 STANDARD BIT CODES AND STANDARD NUMERICAL CODES B Standard numerical codes The range of the standard numerical codes is 2048 to 3071 Nos not stated in the list are undefined Therefore do not use such codes The standard numerical codes are set values common to the following items e Output type Ca 92 of output bank continuous output 94 t e Lighting status 15 24 of display and key bank MS display numerical codes 2304 2305 PV2 PV21 2306 2320 2321 2336 2337 2352 2353 2384 2416 2417 2432 2433 2448 2449 2464 MFB1 Motor opening feedback value 1 including estimation 2480 MFB1 Motor opening feedback value 1 measurement value 2496 2497 2512 2513 2528 2529 2544 2545 2560 2561 2592 2608 2624 2656 2657 2658 2659 2660 2661 2662 2663 2664 2665 2666 2667 2668 2669 2670 2671 2720 MV used for position propotional control 4 2 Revision History date mm azbil Yam at ake Corporation Specifications are subject to change without notice 08 Advanced Automation Company 1 12 2 Kawana Fujisawa Kanagawa 251 8522 Japan URL http www azbil com ist Edition Issued in
73. m Settings and descriptions Initial User and SP group value setting auxiliary displa SP vm j SP Same as SP group 1 lo Sameas SP group 1 Ei 489 Event main setting E04Sb 409 Event1 sub setting Ene 48 Event2 main setting ED25b 40 Event2subsetting E03 40 Event3main setting EG3 5b 409 Event3subsettng EM Im Event 4 main setting EGS 409 Event 4 sub setting EG 40 Event5main setting EO5 5b 40 Event5sub setting Eg 40 Event6 main setting E0 amp 5k 409 Event 6 sub setting ES 40 Event7main setting E0uSk 40 Event7 sub setting Esa 409 Event8 main setting 085k 40 Event8subseting P agm Proportionalband Po 48 Integraltime d 428 Derivativetime ei 48 Output low limit 48 Output high limit 08 Manual reset eta Proportional band for cool side 48 Integral time for cool side 48 Derivative time for cool side 489 Initial output of PID control Same as SP group 1 4 JEventimainsetting 1 amp Event1subsetting amp Event3sub setting gt e O NO CH ENT EN EET uM ENTM D D ENTM ZEN EH tis Event4mainseting ED4Sb tim Event4subsetting ff Event main setting dd JEvent5subsettng dd Event main setting 1 amp EventGsubselting_ EMT t Event7mainseting EDL5b tim Event7sub setting
74. main setting Ef sb ais Event16 sub setting om Proportionalband IL ais Jntgratime d ais Derivative time a 245 Output low limit 26 Outputhighlimit ROG Manual reset e ts Proportional band for cool side 2 45 Integral time for cool side 2 45 Derivative time for cool side ets Output low limit for cool side ets Output high limit for cool side ts Initial output of PID control af LSP Same as SP group 1 2 46 Event9 main setting ais Event9 sub setting ais Event 10 main setting ais Event 10 sub setting 46 Event 11 main setting 46 Event 11 sub setting 2 66 Event12 main setting ais Event 12 sub setting ais Event 13 main setting ais Event 13 sub setting ais Event 14 main setting 266 in sett 246 EFT 26 EFIE 266 2 EI e O NO CH Same as SP group 1 amp 15 Event 14 sub setting 2 Event 15 main setting 2 45 Event 15 sub setting Integral time 26 Derivative time Output low limit ao o O w l gt Ia o o Q o o SIS lo l5 o o NO CH Output high limit 2 16 Integral time forcoolside 8 Derivative time for cool side 2 46 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 18 3
75. mber display auxiliary displa F key basic registration at key Same as F key rsp lsp key at ke at ke at ke at key Same as F key rsp lsp key key assignment item 5 at key key assignment item 6 at key key assignment item 7 at ke key assignment item 8 at ke key basic registration fl key Same as F key rsp lsp key Same as F key rsp lsp key key assignment item 1 f1 ke e e e CH F F F F F F F key assignment item 2 f1 key F key assignment item 3 f1 ke F key assignment item 4 f1 key F key assignment item 5 f1 ke F key assignment item 6 f1 ke F key assignment item 7 f1 key F key assignment item 8 f1 ke F key basic registration f2 key Same as F key rsp lsp key F key assignment item 1 f2 ke f2 ke 12 ke 12 ke f2 key f2 key f2 key FR Y 4 Fkeyassignment item 8 f2 key NM t UF LED condition uft LED 1024 to 2047 1600 UF LED status uf1 LED 0 Standard lit when condition is ON 1 Reverse lit when condition is OFF 2 Standard flashing when condition is ON 3 Reverse flashing when condition is OFF Same as F key rsp lsp key e e e O Ke Setting range is 1024 to 2047 For details see the Standard bit codes list page 4 1 Same as uf1 LED UF LED condition uf2 LED Same as uf1 LED a UF LED status uf2 LED O 27 RO E N E I FE 3 UF LED condition uf3LED Same as uf LED Fuge 3 UFLED status Joeren of ELE
76. nal 0 Direct 1 Reverse A A MV tracking signal 0 0 fixed 1 Output of input computation F7 Setting range is O to 3071 For more details on the 2048 to 3071 range see the Standard numerical codes list page 4 2 2 Output of output computation F7 Others 2 13 2 PARA BANK SETTINGS B Setup bank GG Display Auxiliary display Item Settings and descriptions value setting Loop type O 1 loop 1 2 loops independent 2 1 loop RSP 3 1 loop computer backup 4 1 loop internal cascade i 5 2 loops with RSP on one side of 1 loop model 1 6 1 loop computer backup with RSP 7 1 loop internal cascade with RSP Computer backup type 0 Computer backup type 1 Cannot be set on a one input 1 Computer backup type 2 model 2 Computer backup type 3 Release all latches 0 Latch is continued 1 Latch is released If the Release all latches function is used set its priority setting to Preset value SP change in operation mode 0 Change disabled 2 SP group recipe group change enabled EE O Multi SP_t Recipe 101 jUseofreipe 0 MuliSP t Recipe ot SP system group IET E O o Sampling cycle 0 25ms 1 50 ms 2 Cannot be set on the SDC45V 2 100 ms 3 300 ms 46V 45R 46R ec Star delay at power ON Oto60s pop D Operation display mode O No change Cannot be set if the operation screen specification 1 to 9 Screen number of operation display display change setting Ge 23 in 10 t
77. ntact input display ke Linearization table group used Setting value priority for position proportional control 1 Internal contact input priority SP group selection 0 Setting value priority 1 Internal contact input priorit PID group selection 0 Setting value priority 1 Internal contact input priority 2 Zone PID function priority p s RUN READY mode selection 0 Setting value priority 1 Internal contact input priorit UE AUTO MANUAL mode selection 0 Setting value priority 1 Internal contact input priorit Er LSP RSP mode selection 0 Setting value priority 1 Internal contact input priorit Backup through output mode 0 Setting value priority Cannot be set selection 1 Internal contact input priority 2 15 2 PARA BANK SETTINGS B PV bank F ul Display PV input number Item Settings and descriptions Initial User Remarks auxiliary displa value setting Range type 0 Not used 1 K 2 E 3 J 4 T 5 B 51 For details refer to the PV input 6 R 7 S 8 WRe5 26 9 PR40 20 range table in the SDC45 46 Ni NIMo 11 N 12 PLII 13 DIN U Installation Instructions No CP DINL 15 Au Fe UM 5445E Be sure not to set Pt100 200 to 850 C a range type number that is not Pt100 200 to 300 C supported JPt100 200 to 640 C JPt100 200 to 300 C 4 to 20 mA 42 0 to 20 mA 0t0 10 mV 44 10 to 10 mV Oto 100 mV 46 100 to 100 mV Oto 1 V 48 1to 41V 1t05V 50 0to 5V 51 0t0 10V 1 3 3 digits aft
78. ntiation Advance delay Absolute value Linearization table Maximum value hold Minimum value hold Hold Preset value Soft preset value The decimal point position is determined by the setting for the decimal point position in the input computation bank FEL Setting 3 0 to 255 F Contact input monitor 0 OFF 1 ON Contact input 1024 to 2047 1024 For more details on the 1024 to 2047 range see the Standard bit codes list page 4 1 Contact output monitor Computation unit output check point value FDA Mathematical logical operations Same as for FO1 PR D Fae Setting PAGE Faz Setting2 PR 03 Fae Settings SEL Ce Contactinput_ d Ce Contact input monitor do FB Contact output monitor Computation unit output check point value ERE FER Mathematical logical operations Same as for FO1 PR Gi Fo Settingt PAGE Fo Setting2 gt PR 03 Foi Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value Mathematical logical operations Setting 1 Setting 2 Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value Mathematical logical operations Setting 1 Setting 2 Setting 3 Contact input Contact input monitor Contact output monitor Computation unit output check point value 19999 to 32000 U Same as for FO1 CH no
79. o 255 No change the priority bank is other than 1 Preset operation display O to 300s 10 Cannot be set if the operation screen return delay display change setting Pr Z3 inthe priority bank is O B Power frequency 0 50Hz 1 60Hz Not available on AC power models frequency is automatically detected On DC power models sets the AC Start up system 0 Cold start 1 Hot start ENE Maximum power failure time 5 to 32000s for hot start power frequency for peripheral i Power failure detection SDC45A 46A 45R 46R devices Cannot be set on the SDC45A 46A 45R 46R Selection is fixed as 0 0 No power interruption 1 Power interrupted SDC45V 46V 0 No power interruption 1 Power interrupted in excess of power failure upper limit time for cold start or hot start Eder Advanced function display password 1 00000 to OFFFF hexadecimal value E bee Advanced function display password 2 E De3 Advancedfunction display password 3 OzM Advanced function display password 4 025 Advanced function display password 5 026 Advanced function display password 6 887 Advanced function display password 7 A setting for special functions Normally set at 00000 2 Power interrupted for less than the hot 088 Advanced function display password 8 089 Advanced function display password 9 038 Advanced function display password 10 031
80. oint B2 eba 1 BreakpointB3 the 1 Breakpoint B4 tbb05 1 jBreakpontBo bbs 1 Breakpoint B6 bh Q1 BreakpointB7 Byr woo Breakpoint B8 Fab 1 BreakpointB9 bb 1 BreakpointB10 gt bb ii 1 BreakpointB tbb i 1 BreakpointB12 Fab 1 BreakpointB13 Eb 1 BreakpointBi4 bb 5 1 BreakpointBl5 bb 5 1 BreakpointB16 bb 1 BreakpointBi7 bb 1 BreakpointB18 bb 4 ji BreakpointB19 Faken 1 BreakpointB2o eh 8 amp Breakpoint decimal point position Same as linearization 1 Same as linearization 1 EAD B Breakpoint A1 MAGE amp Breakpoint A2 kb 8 BreakpointAS EBI 8 Breakpoint A4 bp 8 BreakpointA5 HAGE B Breakpoint A6 BAST 8 BreakpointA7 Ebc 8 Breakpoint A8 kb 8 Breakpointa9 Eb A O 8 BreakpointAtO Eb R 1 8 BreakpointAti_ EBRO 8 BreakpointA12 bp 8 BreakpointAt3 Display Linearization Item Settings and descriptions Initial User Remarks group number value setting auxiliary display tht Ld ER M 8 BreakpointAt4 tH 5 8 Breakpoint A15 tH i 8 BreakpointA16 ER f 8 BreakpointAt7 jo i 8 BreakpointAt8 Breakpoint A19 ELE m 8 fereapoma 2 25 2 PARA BANK SETTINGS Display Linearization Item Settings and descriptions Initial User Remarks group number value setting E E E Same as lin
81. ointB14 bk JBreakpointB15 bb BreakpointB16 bb BreakpointBi7 gt bb 8 4 BreakpointB18 bb BreakpointB19 tibl i BreakpointB2o tb dP Breakpoint decimal point position Same as linearization 1 EAD R Breakpoint A1 the a Breakpoint A2 Eo 2 Breakpoint A3 thee Breakpoint A4 Eb AOS 2 BreakpointA5 pe BreakpointA6 BAST BreakpointA7 Ebc 2 Breakpoint A8 kb e BreakpointA9 thA 0 2 BreakpointAtO EbR 1 Breakpoint A11 EBRO 2 BreakpointA12 bp BreakpointA13 eb 2 BreakpointAt4 thA e BreakpointA15 gt thA i a BreakpointAt6 eb BreakpointA17 thA ia BreakpointA18 Eb A 2 BreakpointA19 Same as linearization 1 SE So o S e te O O CH O lio O lio 2 21 2 PARA BANK SETTINGS 1999 9 Same as linearization 1 3200 0 Same as linearization 1 Breakpoint B1 Breakpoint B2 eba 2 BreakpointBS Byr o Breakpoint B4 bb 65 8 BreakpointBS thhO05 amp Breakpoint B6 bbt a BreakpointB7 Ehl a Breakpoint B8 bb Bo 2 BreakpointBO kb 2 BreakpointB10 bbb dd 2 BreakpointB11 bb 2 BreakpointB12 bk A BreakpointB18 bb amp BreakpointB14 bk BreakpointB15____ bb BreakpointB16 bbb f 2 BreakpointB17 bb 2 BreakpointB18 bb amp BreakpointB19 thha 8 BreakpointB20
82. ol side i Integral time for cool side 4 44 Derivative time for cool side i Initial output of PID control Same as SP group 1 1 amp Eventi main setting 1 amp Eventi sub setting 442 Event3sub setting gt e O NO CH Same as SP group 1 ta ENTUM 8 e 8 EO3 Sb EOM diz Event4mainseting EGM Sb diz Event4subsetting Event5 main setting 4 Event5 sub setting t Event6 main setting dd Event6 sub setting EMT es Event7main setting EGLSb ti Event7subsetting tz Event8 main setting 4 Event8 sub setting Proportionalband e EET EFT LE EIN Integral time ta Dervaivetime Output low limit ao o O w l gt Ia o o Q o o SIS lo l5 o o NO CH Output high limit t Integral time forcoolside 4 Derivative time for cool side 4 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa SP dia SP Same as SP group 1 lo Sameas SP group 1 Egi 40 Event mainsetting EDASb 403 Event subsetting Eg 1X Event2 main setting EDER 5b 403 Event2sub setting E3 40
83. olside 2 68 Derivative time for cool side 8 88 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 14 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa SP am sP SameasSP group 1 lo Sameas SP group 1 E03 abs Event9 main setting Da sb 204 Event9 sub setting E ap Event10mainsetting Elosb 209 Event10 sub setting EI 20 _ _ Event11 main setting Eis 20 Event11 sub setting E 20 Event 12 main setting Elesb 205 Event12 sub setting EI ap _ _ Event13 main setting Elab 209 Event 13 sub setting EM ap Event14 main setting EMSb 205 Event14 sub setting Eis 20 Eventi5 main setting Ei5 5b 208 Event 15 sub setting E Ap Eventi6 main setting ESakl 209 Event 16 sub setting P ap Proportionalband abs Integraltime abs Derivativetime a abs Output low limit 28 Output high limit e08 Manual reset 20 Proportional band for cool side 2 0 Itegraltimeforcoolside 04 Derivativetimeforcoolside 28 Outputlowlimitforcoolside 04 Output high limit for cool side 284 initial output of PID control ais LSP Sameas SP group 1 2 60 Event9mainseting ato Event9 sub setting ato Event10 main setting ato Ev
84. ontrol algorithm 0 PID A deviation derivative 1 Ra PID EnbOB Li Heat cool control dead zone 100 0 to 100 0 foo If a PV2 21 alarm ALO3 or ALO4 occurs Integral time derivative time No decimal point decimal point position 1 digit after decimal point 2 digits after decimal point Ft Li Heat cool selection 0 Normal 1 Energy saving fo Etd i3 Lg Zonei 19999to 32000U 3200 0 The decimal point position is EE ti Zones PV assignment 0 NOP 1 PV1 input channel 2 PV2 21 input channel 3 PV22 input channel RSP assignment 4 Results of input computation 5 Flowrate corrected for temperature and pressure fobia Lt RMVessgnment Others Loop PV SP decimal point position 0 No decimal point 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point Settins range is O to 3071 For more details on the 2048 to 3071 range see the Standard numerical codes ilst page 4 2 Cannot be set on the SDC45A 46A 45R 46R 2 11 2 PARA BANK SETTINGS auxiliary display ve setting EE 2 hehe Rs vev 2 PID B PV derivative ARES L Control range low limit 19999 to 32000 U Ge a The decimal point position is Control range high limit determined by the decimal point positions for the loop PV SV AT type 0 Normal regular control characteristics 1 Immediate response control characteristics for fast response to
85. or maintenance of a system using SDC45 46 must thoroughly read this manual This manual also describes the installation wiring connections for communication all functions and settings of the SDC45 46 operating procedures trouble shooting and detailed specifications SLP C45 Smart Loader Package for SDC45 46 Digital Indicating Controller Manual No CP UM 5458E This manual is supplied with the SLP C45 Smart Loader Package The man ual describes the software used to make various settings for SDC45 46 using a personal computer Personnel in charge of design or setting of a system using SDC45 46 must thoroughly read this manual The manual describes installation of the software into a personal computer operation of the person al computer various functions and setup procedures Contents The Role of This Manual 1 PRELIMINARIES Names and function of parts EE EE 1 1 Method of key Operations oooooooooooccccccrrorccccccarrrrr ccoo 1 2 2 PARA BANK SETTINGS Mode bike 2 1 Loop 1 PID bank LIF rencor e bs eux et n EE S hn E EEN d 2 1 Loop 2 PID bank LES 8 exerce AER EN EE ah 2 4 SP configuration bank GD of 2 7 Event configuration bank Co eofi eee 2 8 Control bank Ler L TETA 2 11 MV bank ecesseusor basato UE In 2 13 Setup bank Kg eg Push dca a bu o ad ed E RU aa rd ata dues 2 14 Priority bark ar EE 2 15 Pak J ss 2 16 Output Dank GUE 4524355094 v bbb
86. oup 1 206 Event9mainseting 206 Event9subseting 206 Event 10 main setting 206 Event 10 sub setting 206 Event 11 main setting 206 Event 11 sub setting 2 06 Event 12 main setting 2 06 Event 12 sub setting 2 06 Event13 main setting 2086 Event 13 sub setting 2 06 Event 14 main setting EFT NI in sett EFT AN EFT NI EFT NI EET NI EFT NI EFT NI ELM e O NO CH 206 Event 14 sub setting 2 06 Event 15 main setting 2 06 Event 15 sub setting Integral time 2 06 Derivative time Output low limit ao er O w l gt IO o S C C2 O o ale le ls 12 O o O NO CH Output high limit 2 66 Integral time forcoolside 2 66 Derivative time for cool side 2 86 Outputlow limit for cool side Initial output of PID control a 2 e QI II o S Co o oo s3o a 9 o 9 O O Remarks Same as SP group 1 3 13 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa se am usp SameasSP group 1 Same as SP group 1 E03 as Event9mainseting dd Dash 207 Event9 sub setting E est Event10mainsetting E Sh Am Event10subsettng EI 207 Eventitmainsetting EiLzkl as Event11subsetting EG om Event 12 main setting Elasb 207 Event12subseting EI e
87. pot poston Same as linearization 1 ETA Same as linearization 1 li el A1 CN kb Breakpointas kb BreakpointA4 pn M BreakpointA5 RGE Mo Breakpoint A6 BAST M BreakpointA7 FEF Breakpoint A8 Eb LOS uv BreakpointAQ gt Ebi 4 BreakpointA10 feb d BreakpointA gt EBRO M BreakpointA12 Eb H 3 M BreakpointAt3 thA M BreakpointAt4 bb M Breakpoint A15 Eb 6 BreakpointAt6 EBA BreakpointAt7 Eb A 8 4 BreakpointAt8 Eb A iG BreakpointA19 Eb Feo M BreakpointA20 kb M BreakpointB1 the 4 BreakpointB2 HAS 4 Breakpoint B3 Fb M BreakpointB4 EOS 4 Breakpoint B5 tb b05 M BreakpointB6 EFE Breakpoint B7 tb b08 BreakpointB8 gt ths Breakpoint B9 bb M BreakpointB10 Fabi M BreakpointB11 bb d M BreakpointB12 Fab M BreakpointB13 bb M MH BreakpointB14 bb i H BreakpointB15 bb M BreakpointB16 bb M BreakpointB17 bb 4 BreakpointB18 fbb M BreakpointB19 tb be0 M BreakpointB20 pr Breakpoint decimal point position Same as linearization 1 Same as linearization 1 bi 5 BreakpointAt BADE 5 BreakpointA2 RADI 5 Breakpoint A3 BAD 5 BreakpointA4 ERAS 5 Breakpoint A5 kb ADE 5 BreakpointAG gt that 5 Breakpoint A7 BADGE 5 BreakpointA8 EAS 05 Breakpoint A9 EBRO 5
88. r the loop PV SP Prest t PID group definition 1 ttot6 PAPP Same as SP group 1 oo Same as SP group 1 Panel te PID group definition 2 L PID group definition L PID group definition L PID group definition L PID group definition L PID group definition L PID group definition L PID group definition L PID group definition L PID group definition 3 e 02 02 02 02 02 02 02 U U U U U U U I o I I wech sch Lo LA lI o lI lI r 02 02 02 02 02 02 U U U U U U PID group definition L PID group definition L PID group definition L PID group definition L PID group definition 3 SP EV BANK SETTINGS EH Loop 1 recipe bank Jet Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa po T NES EO oi Event 1 main setting 19999 to 32000 U ED Ash 404 Eventisubseting ED 404 Event2mainsetting EGe Sb 181 Event2subsettng E03 ami JEventgmainsetting EG35b 404 Event3subsetting EO4 404 Event4mainseting EM Sb 404 Event4sub setting Egs 404 Event5mainseting E0S 5b 8i Event5 sub setting gt EOE 8i Event6 main setting E 65b 404 Event6sub setting EGI api Event7mainsetting EGL5b 404 Event7subsetting E08 404 Event8mainsetting EGB Sb 8i Event8 sub setting PL 486 Integral time 0 to 32000 s 0 0 to 3200 0 s
89. rectreverse EEN j Standby EP OS t EVENTstateat READY EP G5 j Decimalpointpositon EP G1 v Hysteresis EP GB8 t ONdelay EP O3 t OFFdelay EP G 3 Operationtype Same as event 1 EP Ge 13 Loop channeldefinition EP G3 43 Direct reverse EEN 2 Standby EP 05 i3 EVENTstateatREADY Same as event 1 Same as event 1 Same as event 1 Same as event 1 Same as event 1 Same as event 1 Same as event 1 2 2 PARA BANK SETTINGS Display Event number Item Settings and descriptions Initial User Remarks ma NEDNNDN displa m Same as event 1 Same as event 1 oe C 4 Hysteresis A EP 08 i ONdelay EP 04 i3 OFFdely EP G1 M Operation type Operation type Same as event 1 Same as event 1 EP G2 H Loop channeldefiniton EP 03 t Directreverse EP a NH Standby EP 05 H EVENTstateat READY ERA Decimal point position EP U1 Hysteresis EP 08 H jONdeay EP 03 t J OFFdelay 1 1 1 EP O 5 Operationtype Same as event 1 EP G2 15 Loop channeldefiniton EP 03 5 Directreverse gt ECHT 5 Standby gt EP 05 1 EVENTstateatREADY EES iS Decimal point position ERE iS Hysteresis EP 08 1 ONdelay gt EP 03 15 jOFFdely gt EP O 5 Operationtype
90. roportional band ntegral time Derivative time Output low limit Output high limit 2I O 5 V JO O VIS IVIS O O c a IS oc IC D O g 5 Let 3 5 oe a e 5 E O SIS IS js O o e a Le IG p gs 3 p gs D 3 GE 3 o 33 DIS gt 2 O lo o mn o D U o 3 a 8 lo es O Cy I O O Olo e O O Same as PID1 1 1 1 Same as PID1 1 1 Same as PID1 Same as PID1 100 0 500 1 120 1 1 1000 Same as PID1 Same as PID1 100 0 1 120 1 1 Same as PID1 1 1 Same as PID1 U ao 2 Im lo oo lola o o lola C2 OT O O CO CH Oi CO CH al CH CH al o roportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side CO CH al e w In N SI S w 153 91 Q S o e S lols lo lo 1918 Jo O O O O Same as PID1 ntegral time utput high limit roportional band for cool side ntegral time for cool side erivative time for cool side h bh ar ak Lech fs ajalalalala a Loch Leck Leck sch Lech Lech fr ech lech fs Lech Leck fr ech lech fs Zar fos fos D D D DO D O DO O O JO O1 O1 O1 OT O1 O1 O1 O1 O1 O1 O RA TRA JA AJA AJA AIRJA RARJO O QO QGIG O IOG OAO G JGIOIPNIDRININNINIDININ IN IN JP FAs fA lech fs O OJ LIS IPIZIO OJUIS UJOJO UIS U Z OU Is O D CID o US e O 5
91. s MANUAL status 64 RSP status AT start status During SP ramp status Control direct action status Through output status 69 Undefined 70 Timer status L EP G Bi Loop channeldefintion 1 Loop1 2 Loop2 1 SetimgrangeisOto99 EP 03 84 Directreverse d0 Direct t Reverse FF Pape pas Bee ppp 2 Standby Standby at SP change EP OS 84 EVENT state at READY O Continued 1 Forced OFF 0 Decimal point position 0 No decimal point 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point Hysteresis 0 to 32000U 5 The decimal point position is determined by the decimal point position for event configuration ER 08 Gi ON delay a fm era Gi OFF delay roof SS EP 0i ce Operation type Same as event 0 Same as event EP 02 G Loopichannel definition 31 EP 03 G Direotireverse Lo ER DM 62 Standby Lo ER 05 ge EVENT state at READY ro ER 0 amp 82 Decimal point position Lo ERE 02 Hysteresis Ls ER 08 02 ON delay ail Eroa ge OFF dely oo era 03 Operation type Same as event 1 o same as event 1 EP 62 63 Loopichannel definition a A EPF 03 03 lDirectreverse o ER DM 03 Standby o ER 05 03 EVENT state at READY o
92. setting Same as PID1 5 0 SameasPIDi Jm Li Integral time 120 d 04 Li Derivativetime 4 30 gt imi 00 1000 500 roportional band for cool side 50 ntegral time for cool side o erivative time for cool side d o Output low limit for cool side ntegral time Derivative time Output low limit Output high limit roportional band for cool side ntegral time for cool side Output low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side e O O eg A Same as PID1 50 Same as PID1 1901 30 Erin 100 0 500 50 120 30 gt E Same as PID1 100 0 1 100 0 5 U gt DIS U gt DOIS U 3 DIS U Ge IOC DOIS D O e Se 2 2 18 3 P 2 2 S S S 3 3 a Fig IS CH Fo gt FO gt 5 gt 5 Fo 5 SIS E O lt o E 5 c 5 5 S E 8 S c E E Y amp D Di I D S S gt lo az lt lt lt Z HES o lt o a D D D D A o Ko 2 o gt l D zo 3 2 ct D ct ct ct a ze D Q 3 o o 2 3 3 3 D 3 3 2 El BEE 3 c 3 3 IE D ES D D i o e s o 3 3 Q g O O O O 3 gt alo ala o O Q O lo o Q Q re E a 2 8 2 lo o o o 8 a a a a o o D T D D D D Output low limit for cool side Output high lim
93. setting EGM Sb 403 Event4sub setting EGS 4683 Event5main setting E0S 5b 453 Event5sub setting gt EG O3 Event6main setting E06 5k 403 Event6subsettng EG 483 Event7mainseting E0TSk 403 Event7subsetng Ea 483 Event8mainsetting EGB Sb 453 Event 8 sub setting gt P 463 Proportionalband gt gt 483 Integraltime d 423 Derivativetime oL 83 Output low limit 483 Output high limit 03 Manual reset 483 Proportional band for cool side 483 Integral time for cool side 4683 Derivative time for cool side 483 Initial output of PID control Same as SP group 1 ti Event 1 main setting 484 Event 1 sub setting 404 Event3 sub setting gt e O NO CH Same as SP group 1 ENTE 40 i i M EO3 Sb EO4 dim Event4mainseting EGM Sb 404 Event4subsetting fi Events main setting 404 Event5subseting dim Event6 main setting 404 Event6subseting EGI 404 Event7mainsetting EGLSb 404 Event7 sub setting fi Event8 main setting fi Event8subselting 484 Proportional band h h i io Integral time 04 Derivativetime Output low limit mel ao Y O co l gt lo O D I o o SIBjo SI S o o NO CH Output high limit 404 Integral time for cool side di Derivative
94. shes 1 Setting range is 0 to 3071 Condition priority 3 Fast flashing 4 Left to right 5 Right to left 6 Reciprocating between left and right 7 Deviation OK loop 1 8 Deviation OK loop 2 Deviation graph loop 1 Deviation graph loop 2 MV graph loop 1 MV graph loop 2 Heat side MV graph loop 1 Heat side MV graph loop 2 Cool side MV graph loop 1 Cool side MV graph loop 2 DI DO monitor columns C F DI DO monitor column D DI DO monitor column E Event status monitoring Others Multi status MS display Top 0 No decimal point 1 Decimal point position priority 1 1 digit after decimal point 2 2 digits after decimal point 3 3 digits after decimal point 4 4 digits after decimal point Multi status MS display Top 19999 to 32000 U The decimal point position is scaling low limit priorit determined by the decimal point Multi status MS display Top position for the MS display scaling high limit priority Multi status MS display Second Same as multi status MS display EAE Same as multi status MS display Status priority Status top priority Status top priority Multi status MS display Second Condition priorit Multi status MS display Second Decimal point position priorit Multi status MS display Second scaling low limit priority Multi status MS display Second scaling high limit priority Multi status MS display Third Same as multi status MS
95. st Event13mainsetting EI Skl Am _ Event13 sub setting EM am Event14 main setting EMSb 207 Event14 sub setting ES as Event15 main setting Et55b 207 Eventi5subseting EIS as Event16 main setting ESSkl Am Event16 sub setting est Proportionalband Po am Integraltime d am Derivative time oh 287 Output low limit 20 Output high limit 20 Manual reset amp 81 Proportional band for cool side Em Integral time for cool side 07 Derivative time for cool side amp 81 Output low limit for cool side 207 Output high limit for cool side 81 Initial output of PID control 288 LSP Sameas SP group 1 208 _ Event9 main setting 2 08 Event 9 sub setting 208 Event 10 main setting 2 08 Event 10 sub setting 208 Event 11 main setting 08 Event 11 sub setting 2 08 Event 12 main setting 2 08 Event 12 sub setting 2 08 Event13 main setting 2 08 Event 13 sub setting 2 08 Event 14 main setting ME in sett Er EFT EFT EFT NI ac EFT NN 208 e O NO CH Same as SP group 1 208 Event 14 sub setting 268 Event 15 main setting 2 08 Event 15 sub setting Integral time 208 Derivative time gt Output low limit ao o O w l gt Ia o o Q o o SIS lo l5 o o NO CH Output high limit 208 Integral time forco
96. sub setting E ami Eventi5 main setting Eis sb 204 Event15subsetting ER ami Eventi6 main setting ESakl 20 _ Event16 sub setting P gi Proportionalband 0 1 to 92000 LB Integral time 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 120 320 00 s no integral control action when set at 0 0 0 or 0 00 Derivative time 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 320 00 s no derivative control action when set at 0 0 0 or 0 00 al 284 Output low limit 10 0 to 110 0 aH ema jOutputhighlimt Proportional band for cool side 0 1 to 3200 0 1501 z e04 P E e Integral time for cool side 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 120 320 00 s no integral control action when set at 0 0 0 or 0 00 Derivative time for cool side 0 to 32000 s 0 0 to 3200 0 s or 0 00 to 30 320 00 s no derivative control action when set at 0 0 0 or 0 00 Era al O CO el e e e ojo 204 Output low limit for cool side 10 0 to 110 0 284 Output high limit for cool side jot 284 Initial output of PID control SP age er SameasSP group 1 E03 age Event 9main setting Da sb ave Event9 sub setting E ave Event10mainsetting Ess age Event10 sub setting gt ea Event1tmainsetting gt 208 l Eventitsubsetng gt ea Event12 main setting ave Eventi2subsetting_ 208 Event13 main setting ae l Eventi3subsetng ea Event 14 main setting
97. t Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side Output high limit for cool side Proportional band ntegral time Derivative time Output low limit Output high limit Manual reset Proportional band for cool side ntegral time for cool side erivative time for cool side utput low limit for cool side 30 oof gt 100 0 4 5 5 O lO U S5 c 5 S gt O gt 3 o o O e o D a esch seh k k ee ee melk k ss zb o a le pe el zb k eh seh k o mel seh zeck o o o mh aoclolalolaololololalaololalalalalalalalalalalalolololuo llull lll ln Po JP Po P Po Po io ia ia ia ajaja fjafajafajaofajalalolololololo lo sala o 2 o o o SSIS S 21915 SI O ojo U 4 4 y U 1 1 Same as PID1 1 y 1 120
98. t percent output 6 Continuous output percent output6 S jolt Y Continuous output percent output 7 ott 4 Output ON OFF output 1 Enabled for relay output or att 2 Output ON OFF output2 voltage pulse output pre Output ON OFF output 5 Output ON OFF output 4 Output ON OFF output 5 ott amp OutputON OFF output6 S otib X Output ON OFF output OOOO d a Digital input information Hexadecimal value Note 2 d a Digital input information S Digital input information Digital input information Digital inputinformation 4 d 5 Digital inputinformation d 6 IDigitalinputinformation SS O d X Digitalimputinformation S O do Digital output information Hexadecimal value Note 3 do amp jDigtalouputiformaion SSS O do X Digital outputinformaton SSS O do M Digital output information SSS do 5 jDigtalouputiformaion SS Digital output eneen do IS Digital output information fr A 2 40 2 PARA BANK SETTINGS Zum display t Event Event delay remaining time event 1 lt lt lt remaining He event 1 Unit s 2231 E 3 03 3 Eventdelayremainingtime events M Eventdelayremainingtime event 4 g5 5 Eventdelayremainingtime event 5 DE E Event delay remaining time
99. t position is 320 00 s no integral control action when determined by the decimal point set at 0 0 0 or 0 00 positions for the integral time and Derivative time O to en 5 0 0 to 3200 0 s or 0 00 to 30 derivative time 320 00 s no derivative control action when e 0 0 or 0 00 1 10 0 to 110 0 96 ooo re a Integral time for cool side 1 0 to 3200 5 0 0 to 3200 0 s or 0 00 to The decimal point position is 320 00 s no integral control action when determined by the decimal point set at 0 0 0 or 0 00 positions for the integral time and Derivative time for cool O to SC s 0 0 to 3200 0 s or 0 00 to 30 derivative time side 320 00 s no derivative control action when set at 0 0 0 or 0 00 Output low limit for cool side 1 10 0to 110 0 00 Output high limit for cool side 100 0 Proportional band 2 Same as PID1 50 SameasPID1 ntegral time EE 120 Derivativetime 2 30 Output low limit 2 oo Output high limit 2 Manualreset 2 tegra BG for cool eae EE 1000 FET Same as PID1 5 0 SameasPIDi ntegral He EEN 120 Derivative time____ 3 30 Outputlowlimit 3 oo Output high limit 3 100 0 Manualreset 3 500 50 Integral ane for cool ae 120 30 ECON __ Output high limit for cool side 100 0 2 1 2 PARA BANK SETTINGS Display Loop number Item Settings and descriptions auxiliary display value value
100. tD bF 06 13 InputbitpolarityA bF 81 i3 InputbitpolarityB bF 08 i3 InputbitpolarityC bF 09 i3 InputbitpolarityD bF i3 jONdelaytim b dt 13 OFFdelaytime bF i 13 Polarity bF 13 da laten O bF 8 M Operationtype Same as logical operation 1 bF G8 M InputassignmentA bF 03 M InputassignmentB bF OM ft InputassigamentC bF 05 t lInputassignmentD bF 05 M InputbitpolarityA FT t lInputbitpolartyB bF 08 M InputbitpolarityC bF 09 M linputbitpolarityD BF M ON delay time bF 1 f amp OFFdelaytime b d f amp Polarity baten a TAB eo o nel n O A A e MIT D gt O MIT D gt same as logical operation 1 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 Same as logical operation 1 2 31 2 PARA BANK SETTINGS tion number cate setting auxiliary displa ME amp gene Jenson pi same sogn open 45 Input assignment A GT ae bF OM 5 inputassignmentC bF 05 s ImputassignmentD bF 05 5 InputbitpolarityA EI 15 lInputbitpolartyB bF 08 15 linputbitpolarityC bF 03 15 lInputbitpolartyD EE II IS O ON delay time b ti 4 OFFdelaytme bF i2 5 Polarity bF 13 5 latch o bF
101. time for cool side 04 Output low limit for cool side Initial output of PID control ao 2 e QI II o S Co o o 9 18 lo ls S o e eo eo 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User and SP group value setting auxiliary displa SP dos SP SameasSP group 1 0 SameasSP group 1 eat 485 Event main setting E04Sb 485 Eventisubseting Ene 485 Event2main setting EGe 5b 485 Event 2 sub setting 03 05 Event3main setting E03 5k 485 Event3sub setting EM 05 Event 4 main setting EGS 485 Event4sub setting EG 485 Event5main setting EO5 5b 485 Event 5 sub setting Eag 485 Event6 main setting ED6 5b 485 Event6sub setting eat 405 Event7mainsetting EGLSb 405 Event7sub setting EG8 405 Event8main setting 085k 485 Event 8 sub setting 85 Proportionalband Po 85 Integraltime d 05 Derivativetime e 85 Output low limit 85 Output high limit 05 Manual reset 45 Proportional band for cool side 485 Integral time for cool side 435 Derivative time for cool side 485 Initial output of PID control Same as SP group 1 486 Event main setting 486 Eventi sub setting 406 Event3 sub setting gt e O NO CH 405 IE ENT NN ENT AN ENT NN ENT AN ZEN EO 406
102. uctions No CP DINU 14 DINL 15 Au Fe 5445E Be sure not to seta P 1100 200 to 850 C range type number that is not Pt100 200 to 300 C supported JPt100 200 to 640 C JPt100 200 to 300 C 4 to 20 mA 42 0 to 20 mA Oto 10 mV 44 10 to 10 mV Oto 100 mV 46 100 to 100 mV 47 0 to 1 V 48 1 to 1 V 49 1 to 5 V 50 0 to 5V 51 0 to 10 V 3 3 digits after decimal point 9 xe position for the PV Decimal point position 0 No decimal point 4 4 digits Se decimal point Cold junction compensation 0 Performed internal 1 Not performed external 2 Terminal temperature compensation is done by a sensor on another channel 1 1 digit after decimal point Temperature unit 0 Celsius 1 Fahrenheit F 2 Kelvin K 2 16 2 PARA BANK SETTINGS Display PV input number Item Settings and descriptions Initial User Remarks auxiliary display value setting Zener barrier adjustment 20 00 to 20 00 Q Set by means of the adjustment procedure Cannot be set by direct input of a E deu value using the keys poe S Linear scaling low limit 19999 to 32000 U The decimal point position is BL scaling high limit EE by the decimal point BE for the PV te root extraction dropout 0 0 Square root extraction is not e 0 1 to 10 0 Puni e Filter Jm No filter _0 01 to 120 00 s 00 Bias 19999 to 32000 U The decimal point position is determined by the decimal point EE the PV Fu
103. ut C E column terminal Vad Input assignment A B C D e amp z to BF 55 of logical operation K L Lighting conditions o n i e for display and key bank MS display q Lighting conditions FL 74 for display and key bank UFLED setting KI L Tracking selection A Dad 5746 of MV bank MV racking selection Ge 14 of MV bank bit codes 1235 1237 OUT7 ON OFF status 1444 Results of logical operation 7 Results of logical operation 8 Results of logical operation 9 Results of logical operation 10 Results of logical operation 11 Results of logical operation 12 Results of logical operation 13 Results of logical operation 14 Results of logical operation 15 Results of logical operation 16 1504 1505 1506 Key status para 1507 1508 Key status at 1509 Key status f1 1510 Key status f2 Standard Meaning of standard bit bit codes 1511 Key status up 1512 Key status left 1513 1514 1515 1516 1545 Key status right Key status down Key status display Key status enter Communication status normal receipt on a byte basis Communication status normal transmission on a byte basis Communication status an error received Power failure detection 1550 1551 1584 1585 1600 1601 1616 1547 1548 1549 1617 LSP RSP status of loop 2 During SP ramp of loop 1 ramp up 1648 1649 During SP ramp of loop 2 ramp up 1664 During SP ramp of
104. v UF LED condition uf4LED Same as uf LED 1024 Same as uf1 LED ride M UFLED status urd LED ol B RS 485 communication bank 5455 Display Auxiliary display Settings and descriptions Initial User Remarks value setting CPL MODBUS 0 CPL 1 MODBUS ASCII format 2 MODBUS RTU format Station address l0 Disabled 1to 127 Transmission speed O 4800 bps 1 9600 bps 2 19200 bps 2 3 38400 bps Eque read Data format data length 0 7 bits 1 8 bits ends Data format parity O Even parity 1 Odd parity 2 Noparity o Ir rons Data format stop bit 0 1 bit 1 2 bits O 1bit 1 2bis pop Segen reams SS 2 38 2 PARA BANK SETTINGS E Lock bank ax Display Auxiliary display Item Settings and descriptions Remarks value setting Key lock setting change O Not locked 1 Lock level 1 EINE Refer to next page 2 Lock level 2 3 Lock level 3 Key lock display O Not locked 1 Lock level 1 2 Lock level 2 HET RS 485 Orme lock Er 0 Not locked 1 Locked Etot RS 485 communication lock Write te ft Loader communication lock Read Lief Loader communication lock Write po PASS Password display 0 O Key lock setting change display al lt O Key lock display display ac c The relation between lock level and data or settings is as shown below O display or setting change is enabled X display or setting change is disabled
105. vent4 main setting MEN LEOU Sb tie Event 4 sub setting a Eos d l Event5main setting E EOS Sb 452 Event5subseting RS E06 ge Event mainsetting nn EO5 Sb ue Event 6 sub setting HE Eo ue Event7mainsetting E LEGLSb de Event7 sub setting eme Eos ide l Event8main setting NEN EGR Sb ue Event8subseting EE P ge jPropotiolband 50 p 408 Integral time ML 9 d 408 Derivativetime 30 ot ge Output low limit oo p SS m mn p EE O on esch o eo O The decimal point position is determined by the decimal point position for the loop PV SP The decimal point position is determined by the decimal point position for the event configura The decimal point position is determined by the decimal point position for the control parameter The decimal point position is determined by the decimal point position for the control parameter Same as SP group 1 3 3 3 SP EV BANK SETTINGS Display Loop number Item Settings and descriptions Initial User Remarks and SP group value setting auxiliary displa SP 483 SP SameasSP group Same as SP group 1 EGP 483 Event mainsetting EOLabl 403 Eventtsubsetting EG 4683 Event2main setting EG2 5b 453 Event2sub setting gt EG3 403 Event3mainseting E03 5k 403 Event3subsetting EM 403 Event 4 main
106. vice PG CALST amp For manufacturer service PG RLSB 2 For manufacturer service PG RLSS 3 For manufacturer service PG ERGO v For manufacturer service PG CRLE 5 For manufacturer service PG RL amp 2 E For manufacturer service PG ORGA 7 For manufacturer service PG 2 42 O Note 1 For Az to L alarm information ON OFF for 16 bits is expressed in hexadecimal format 00000 to OFFFF The bit structure of each is shown below Alarm information 1 Bit 0 ALO1 PV1 input over range Bit 1 ALO2 PVI input under range Bit 2 ALO3 PV2 PV21 input over range Bit 3 ALO4 PV2 PV21 input under range Bit 4 ALOS PV22 input over range Bit 5 ALO6 PV22 input under range Bit 6 to 15 Undefined Alarm information 2 Bit 0 AL21 MFB input failure Bit 1 AL22 Motor adjustment failure Bit 4 AL25 CT1 input failure Bit 5 AL26 CT2 input failure Bit 2 3 6 to 15 Undefined Alarm information 3 Bits O to 15 Undefined Alarm information 4 Bit 0 AL71 PV1 cold junction compensation failure Bit I AL72 PV2 cold junction compensation failure Bit 4 AL81 Battery low Bit 5 AL82 Internal clock failure Bit 6 AL83 Board configuration problem Bit 12 AL96 Main board failure Bit 13 AL97 parameter failure Bit 14 AL98 adjustment data failure Bit 15 AL99 ROM failure Bit 2 3 7 to 11 Undefined Note 2 For gi to digital input information ON OFF for 16 bits is expressed in hexadecimal format
107. vice ss cred M Formanufacturerservice ss EAB 5 Formanufacturerservice ss ARLES amp Formanufacturerservice ss RLEe3 X jFormanacuersevice ss RLE amp jFormanfacuersevice ss RLeS t jFormanfacwersevie SO 826 A Formanufacturerservice SS EAEI 3 Formanufacturerservice ss RLEB M Formanufacturerservice ss EAA 5 jFormanfacuersevice ss CRL30 amp Formanufacturerservice ss CALZ X jFormanfacwersevie SO crue amp Formanufacturerservice Ss CRL33 t jFormanacuersevie ss CRL34 a jFormanacuersevice ss CRL35 A Formanufacturerservice ss CRL3E M Formanufacturerservice S CALA 5 For manufacturer service SO CRL38 amp Formanufacturerservice SS ERLA X jFormanfacwersevie ss 2 41 2 PARA BANK SETTINGS mum display For manufacturer service MT M RLH3 3 For manufacturer service PG ALM v For manufacturer service PG ALS 5 For manufacturer service PG CALMs amp For manufacturer service PG ALT 3 For manufacturer service PG ERLE 8 For manufacturer service PG CRLMS i For manufacturer service PG RLSO 2 For manufacturer service PG ALSI 3 For manufacturer service PG RLS2 v For manufacturer service PG RLS3 a For manufacturer service PG CALS 6 For manufacturer service PG CALSS Y For manufacturer service PG CALSE 8 For manufacturer ser
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