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2. 0 0 2 0 e 29 000 f SV p ET Ed Pl sy and Remote Ramping I 23 5 mm setup screen group GRP SCAN Y 2 1 SV No 1 0 000 eet tnn 2 10 SV No 10 0 000 2 Remote SV 0 000 SCI 2 12 SV Limt I 0 000 SV Limt H 50 000 SV Select KEY SCAN Y 2 13A REM Biad 0 000 t REM Filt OFF REM Sc L 0 000 VREM Sc H 50 000 t gt 2 13B REM Model RSV REM Trck NO SCANI rem p p OFF REM Time OFF SCRN 2 14 RAMP Dowrkd OFF RAMP Up OFF P RAMP Unit Min RAMP Rate X1 I SCAN Matters Related to SV Setting 1 Setting of set value SV Group 2 1 SV No 1 Setting range Within SV limits Initial value O unit 0 000 Ten SV values maximum can be set suitably for your intended use Note 1 In case Mode 0 or 1 is selected in 6 1 4 Setting of mode only two items SV No 1 and Remote SV are shown Note 2 Remote SV is only for monitoring it cannot be set or changed by front key operation Note 3 To change SV value and to switch SV No is not possible during execution of auto tuning AT LAT 2 Setting of SV limits Group 2 12 SV Limt I 4 0 000 Setting range Within measuring range but SV
3. EENES SMN Em 3 Switching SF SV No MEXEU OI soo inse cnn oce dr iet ie boe o TE RE ratita A Switching to femote SV ER A sene dadasen kes 5 Explanation about group OSCE 6 Explanation about group 0 2 Screen C O To External Input OUtpUL ono ette rte ee pii bo ere ap ee P Ege cod c eraot arci reb s ren sees 8 Connecting Devices for Instrument Terminals 22 neret tree ero fatto o DA tradu epe esee ere eee geste eee duse tae 8 1 24 pinqplig eee NO NT ON 82 Mult SV No switching deviee E E E A E din T EOE O EO 0 Error Messapes PV DISDlay ute horno treo EOE oa GS Ee ISTA ORTI DES caso 9 1 Problems found m check up upon application OF DOWet i i itinere rete ecrit bete eti eco tote pote eH VE ASESIR pe bebo eec EES 9 2 Problems with PV Input E A 11 Sheet for Recording Set Paramelets iustos emot it QU e ER aes 52 53 1 Introduction 1 1 Check before use This product has been fully checked for quality assurance prior to shipment Nevertheless you are requested to make sure that there is no error damage or shortage of delivered items by confirming the model codes and checking the external view of the product and the number of accessories 1 Confirmation of model codes Check the model codes stuck to the case of the product to ascertain if the respective codes designate what was specified when you ordered the product referr
4. 7 7 Lus 912 14 2 2 M3 9 30 p 40 Unit mm 2 4 Wiring N Caution Always disconnect this product from any power source during wiring operation to prevent electrical shock Avoid touching the wired terminal and charged devices while supplying power 1 Wiring operation should be done according to the instruction for the terminal arrangement in section 2 5 Exercise care that no wrong connection is made 2 Crimp terminal should accommodate the M3 5 screw and should have a width of less than 7 mm FF T T E 7 2 mm Less than 7 mm l y 3 For thermocouple input select the compensation wire suitable to the thermocouple type 4 For R T D input leads should be less than 5 in resistance and three leads should have the same resistance 5 Input signal line should be conducted safety apart from the high voltage power line 6 Shield wiring single point grounding is effective for static induction noise 7 Short interval twisted pair wire for input signal is effective for electromagnetic induction noise 8 When wiring use wire 1 mm minimum in sectional area of 600V Grade Polyvinyl Chloride insulated wire or equivalent wire which has the same ratings 9 Earth grounding should be performed with earth resistance less than 100 and with wire thicker than 2 mm 10 Terminal cover A terminal cover is attached to the terminal portion of the instrument It is detached easily
5. Outi Cyc Output 1 cycle 1 200 sec 30 sec Contact 3 sec SSR Out2 Cyc Err outi Output 2 cycle Description of function Output 1 in case of Scale Over 1 200 sec Setting range 0 5 105 0 30 sec Contact 3 sec SSR Initial value Err Out2 Output 2 in case of Scale Over 50 0 5 105 0 W Unit Measuring Range Group Group 7 UNIT RANGE Group PV Bias Description of function PV bias Setting range 9999 9999 unit Initial value 0 unit PV Filt PV filter OFF 1 300 OFF Pt Type Type of R T D Pt100 JPt100 Pt100 CJ Comp Key Lock 1 UNIT RANGE Group Reference junction compensation Description of function Measurement unit INTER EXTER Setting range C F Only for linear input K Only for thermocouple BRK Only for linear input Initial value Key Lock 1 UNIT RANGE Group Rounding of fraction in lowest decimal place Measuring range Description of function Position of decimal point 1 17 thermocouple 18 19 thermocouple kelvin 1 16 R T D 1 7 voltage mV 1 7 voltage V 4 5 Current mA Setting range XXXXX XXXX X XXX XX XX XXX X XXXX 6 thermocouple 18 thermocouple 14 R T D 2 voltage mV 6 voltage V 5 Current mA Initial value Scale on higher limit side Key Lock 1 Scale on lower limit side E Lock Initializa
6. RAMP Up Out2 Cyc RAMP Unit Err Outl Err Out2 Unit Measuring range setting group Group 7 User set value PV Bias PV Filt Pt Type CJ Comp Unit Lock Initialization group Group 8 User set value EVENT DO setting group Group 4 Set Point User set value Diffrntl Delay Inhibit Charact Set Point User set value Diffrntl Delay Inhibit Charact Mode Set Point Diffrntl Delay Inhibit Charact Mode Set Point Diffrntl Delay Inhibit Charact Mode Set Point Diffrntl Delay Inhibit Charact Option group Group 5 User set value Aol Mode Aol SC L Aol SC H Ao2 Mode Ao2 SC L Ao2 SC H DH DI4 HBA Curr HLA Curr HA Mode Addr Mode MEM CTRL BCC DELY Nn Ww Mode Set Point Diffrntl Delay Inhibit Charact Mode Set Point Diffrntl Delay Inhibit Charact Mode Set Point Diffrntl Delay Inhibit Charact 12 1 Specifications Display LED display LCD display LED lamp indication Display accuracy Temperature range for maintaining accuracy Display resolution Sampling cycle 2 Setti
7. Note 4 Auto tuning stops when 1 Scale Over occurs 2 power goes off 3 time of ON or OFF exceeds about 200 minutes 4 STANBY is selected 5 Exel or Exe2 of initialization is executed 37 2 Setting of auto tuning point Group 1 1 Auto Tuning STOP Setting range 0 10000 unit AT Point 0 000 Initial value 0 unit If you want to avoid hunting resulting from limit cycle with set SV value in executing auto tuning set a hypothetical SV value AT point to carry out auto tuning at a point apart from the actual SV value py In case AT is executed with SV lt PV Hypothetical SV point e ere Pore Xerces cree HIGH AT point SV value AT point HypotheticaliSV point eeepc ee enfe lusu LOW PV In case AT is executed with SV PV Note 1 AT point is absolute value input of difference between SV value and hypothetical SV value Note 2 When 0 is set as AT point SV value works as AT point Note 3 In case PV value is included in AT point SV value works as AT point 3 Auto manual of control output Group 1 2 Control A M AUTO Setting range AUTO MANUAL Control Exe EXEC Initial value AUTO Ramping Run STOP Operation LOCAL Whether control output is to be operated automatically AUTO or manually MANUAL can be selected O Conditions for execution common to front key input and external input 1 Auto tuning is not in execution 2 STANBY is not on Note 1 When MANUAL is sele
8. REM P B OFF REM Timelg OFF Remote linear delay time REM Time is the parameter used to set the length of time to be taken for reflecting a change in remote input in REM OUTI output The longer REM time the more slowly a change in remote is reflected in REM OUTI Note 1 If REM Time OFF a change in remote input is reflected directly in REM OUT1 Matters Related to Ramp Setting This setting is used only when Mode 2 or 3 has been set in 6 1 4 Setting of mode If Mode 1 or 4 has been set this screen is not displayed What is ramp control It is the function that when set value SV value is changed it undergoes the change gradually according to set time and amount of change lest the load be changed abruptly 11 Setting of ramp value Group 2 14 RAMP Down 4 OFF Setting range RAMP_Down OFF 1 9999 RAMP Up OFF RAMP Up OFF 1 9999 RAMP Unit Min Initial value RAMP Down OFF RAMP Rate X1 RAMP Up OFF RAMP Down OFF RAMP Up 3 OFF RAMP Unit Min RAMP Rate X1 In this screen downward ramp value RAMP Down and upward ramp value RAMP Up are set Note 1 Whether to use downward ramp value RAMP Down or upward ramp value RAMP Up during execution of ramp control is automatically selected by the instrument Note 2 It is possible to change downward ramp value RAMP Down or upward ramp value RAMP Up during execution of ramp control When changed ramp contro
9. With inhibit action Note 1 The event action turns ON when Scale Over occurs on the event setting side W Inhibit OFF gt Without inhibit action Note 2 Event action turns OFF when Scale Over occurs on the event setting side Note 3 If you want to output alarm when Scale Over occurs after setting Inhibit OFF assign Scale Over to other event or DO On Inhibit Action Itis possible to keep ON signal waiting if PV value is in the ON range of event action when power is applied or STANBY is released and to output ON signal when the PV value returns to the OFF range of event action and then enters the ON range of event action Example PV Low has been assigned to EV1 and Inhibit ON has been set Event action ON range Event action OFF range 7 PV value Event action signal ON nene Event action signal OFF fr A A Action set point SV value on PV lower limit absolute value 100 C 150 C Note 4 Inhibit action gets on when power is applied or STANBY is released and remains off at any time other than the above Note 5 If PV value is in the ON range of event action when power is applied or STANBY is released and setting of inhibit action is changed to Inhibit OFF the inhibit action is canceled immediately and ON signal is output Note 6 If PV value is in the OFF range of event action when power is applied or STANBY is released inhibit action is canceled 6 Setting of output characteristics Group 4 1B 4 8B The setting is re
10. measuring Initial value 0 unit REM Filt Remote filter OFF 1 300 OFF REM Sc L Remote scale REM Sc H Remote scale Description of function Remote mode Within measuring range RSV 0 00 100 00 CTRL but REM Sc L REM Sc H Setting range Lower limit of measuring range 0 0096 CTRL Higher limit of measuring range 100 0096 CTRL Initial value Remote tracking NO YES Remote proportional coefficient OFF 0 1 999 9 RAMP Down Remote delay time Description of function Downward ramp OFF 1 9999 Setting range OFF 1 9999 Initial value OFF RAMP Up Upward ramp OFF 1 9999 OFF RAMP Unit Unit for ramp control Unit Sec Unit Min Unit Min RAMP Rate Ramp rate 46 xl x0 1 W PID Group Group 3 PID Group Description of function Setting range Initial value Proportional band 96 OFF 0 1 999 9 3 096 Integral time sec OFF 1 6000 sec 120 sec Differential time sec OFF 1 3600 sec 30 sec Action hysteresis 1 9999 unit 20 unit Setting of zone Within measuring range 0 unit Key Lock 1 Manual reset 50 0 50 0 0 0 1 output 50 0 2 outputs PID Group Description of function Setting range Initial value Proportional band 96 OFF 0 1 999 9 3 096 Integral time sec OFF 1 6000 sec 120 sec Rate time sec OFF 1 3600 sec 30 sec Acti
11. 0 1A 0 0 55 0A 3 FS When sine wave is 50Hz Selectable between holding mode and real mode 1 sec 250 msec min every second both at On time and Off time Isolated between CT input and DI input various outputs insulated from each other not insulated between sensor input and remote input and system Assigned to event outputs Maximum 2 points individual setting individual output Selectable from PV SV DEV OUTI and OUT2 0 10mV DC output resistance 10 0 10V DC load current I mA max 4 20mA DC load resistance 300 max 0 1 FS of displayed value Approx 0 01 1 10000 200 msec 0 2 sec Within measuring range inverse scaling possible Insulated between analog outputs and various inputs and system various outputs insulated from each other analog outputs not insulated from each other RS 232C RS 422A and RS 485 Half duplex start stop synchronization system 1200 2400 4800 9600 and 19200 bps Selectable from 7 bits 8 bits no parity and even parity 0 99 ASCII code SR25 conforming protocol Delay time selectable memory mode selectable Insulated between communication signals and various inputs and system various outputs insulated from each other 57 10 General Specification Data storage Operating ambient temperature humidity range Storing temperature Supply voltage Power consumption Input noise removal ratio Applicable standards nsulation
12. 2 Proportional band Integral time Derivative time Action hysteresis Dead band Higher lower output limiter Setting range Control output characteristics External control input Remote mode Remote proportional coefficient Remote primary delay time JIS Pt JPt 3 wire type multi range 5 max wire Approx ImA 10 10 0 10 0 20 0 50 10 50 0 100 100 100mV DC or 1 1 0 1 0 2 0 5 1 5 0 10 10 10V DC Multi input programmable scaling 500k min 4 20 0 20mA DC Multi input programmable scaling 250 9999 unit OFF 1 300 sampling cycle 0 2 sec Insulated between input and DI input outputs insulated from each other not insulated between input and system remote input and CT input In case of I output Expert PID control with auto tuning function In case of 2 outputs Expert PID PID control with auto tuning function During RA Heating cooling action During DA Heat 4 heat action By PID No 01 10 10 types 1 200 sec in case of contact or SSR drive voltage output By PID No 01 10 10 types 1 200 sec in case of contact or SSR drive voltage output 240V AC 2 5A resistive load 4 20mA DC load resistance 600 max 12 1 5V DC load current 30mA max 0 10V DC load current 2mA max Contact output Current output SSR drive voltage Voltage output Approx 1 8000 with current voltage output 0 5 FS 5 100 output within accuracy maintaining temperature range 200 msec Individua
13. 6 OUT 2 57 3 SCRN TO d 1 Explanation about group 0 0 screen Group 0 0 SV No currently in use gt pon DEV 0 886 Deviation value 2 Setting of SV value Group 0 0 When the lt and v key to call the initial screen of monitor group Group Set value SV value currently in use 25 000 1 3 AAN m Deviation 5 FS key is pressed in the initial screen of the monitor group the rightmost digit of the SV value flashes Move the flashing figure to a digit whose figure is to be changed and you can change the SV value of SV No in execution by pressing the keys After making sure that the change has been made correctly register the data by pressing the key Upon registration the SV value stops flashing SVNo SVNo SVNo SVNo SVNo a 25 0001 2 25 000 T 5 28 000 t oe 28 000 t 4 25 000 T DEV Pura aaa iff DEV Paaaa aaa i DEV ul DEV Pia aaa rf DEV Praga naa ai 0 886 m 0 886 m 0 886 0 886 m 0 164 L 4 KI ENT 3 Switching of SV No in execution Group 0 0 When the lt gt key is pressed in the initial screen of monitor group the SV No flashes and can be changed by pressing the and v keys After making sure that the change has been made correctly register the data by pressing the EN T ke
14. UNIT RANGE screen Group 7 0 by the use of the GRP change is to be made Use the C 2 0 0 7 0 Te 25 000 f UNIT RANGE DEV Premier Unit and Range Scale 0 886 m setup screen group GRP The screen configuration for each of the input types is shown below key and press the key to select a parameter on the screen TC Input R T D Input 7 0 7 0 Unit and Range Scale t Unit and Range Scale setup screen group setup screen group 7 1 7 1 PV Bias 0 0 PV Bias 0 0 PV Filt OFF PV Filt OFF CJ Comp INTER RTD Type Pt100 7 2 7 2 Unit Y Y Unit 3 Figur NO Figer NO Range 6 Range 14 K1 0 0 800 0 0 0 200 0 SCRN SCRN 1 Setting of the PV bias Group 7 1 PV Bias PV Filt RTD Type 0 0 OFF Pt100 Initial value O unit PV bias is the function of correcting the PV value display that is an error due to a sensor instrument or the like is corrected so that the PV value Setting range 9999 9999 unit SCRN Current or voltage input 7 0 UNIT RANGE Unit and Range Scale setup screen group Hi 7 1 PV Bias 0 0 PV Filt OFF SCAN 7 2 Unit 4 Range 2 0 mv 10 mv SCAN 7 3 PV D P O XXXX X PV Sc L 0 0 PV Sc H 100 0 SCAN
15. V Initial value Voltage mV input Range No 2 0 10mV Current mA input Range No 5 4 20mA Voltage V input Range No 6 0 10 V 8 Setting of decimal point Group 7 3 This setting is only for linear input This screen is not displayed for R T D or TC input PV D P O XXXX X Setting range XXXXX X XXXX PV Sc L 0 0 Initial value XXXX X PV Sc Hi 100 0 In the case of voltage or current input the position of decimal point in the PV display screen is set 9 Setting of PV scaling Group 7 3 This setting is only for linear input This screen is not displayed for R T D or TC input PV D P XXXX X Selectable range 19999 26000 unit PV Sc I 1 0 0 Measuring range Minimum span 100 unit PV Sc H 100 0 Maximum span 25000 unit Within the above range any can be set Sc L Sc H should be satisfied though Initial value Sc L 0 unit PV D P XXXX X Sc H 1000 unit PV Sc L 0 0 PV Sc H3 100 0 In the case of voltage or current input set a measuring range scaling Note 1 Changing this parameter automatically brings Exe1 of initialization into execution 6 3 Output group Group 6 Press the G RP key to call the OUTPUT screen Group 6 0 and press the to be made Use the C 2 SCAN key to move to a screen in which a setting or a change is key for selecting a parameter on the screen 0 0 6 0 a 25 0001 OUTPUT borr
16. input Ramp control is not executed by moving from local SV No to remote SV No When YES has been selected in 6 7 8 Setting of remote tracking ramp control is not executed by moving from remote SV No to local SV No If power turns OFF during execution of ramp control ramp control is stopped and the SV value of targeted SV No serves as SV value DISP or v monitor lamp begins to flash and ramp control is executed key and is registered by means of the key to call the initial screen Group 0 0 of the monitor group Then pressing the c 2 key causes SV No ENT key the RUN Ramp Down 0 01 S SVNo Ramp Up 0 02 S 02 Ramp Unit Min DEV Ramp Rateld X0 1 0 886 DISP SVNo 02 DEV 0 886 25 000 5 Prada m c 2 29 000 Lv SVNo 01 DEV 0 88 30 000 C Note 4 A change of mode in 6 1 4 Setting of mode is not possible during execution of ramp control For temporarily stopping ramp control which is being executed see 6 8 5 Temporary stop restart of ramp control 36 SVNo 01 DEV ENT 0 386 30 000 6 8 Control group Group 1 Press the GR P key to call the CONTROL screen Group 1 0 Then press the SCRN key to move to a screen in which a setting or a change is to be made Use the S
17. no use Figur YES iii The number of display digits remains exactly as the set measuring range Figur NO sirio The lowest decimal place of display digits set as the measuring range is rounded Note 1 A change in this parameter setting automatically brings Exe1 as the initialization setting into execution zs 7 Setting of range Group 7 2 Unit Figur on YES Range a 14 0 0 200 0 A measuring range is selected from the following table Note 1 A change in this parameter setting automatically brings Exe1 as the initialization setting into execution W Thermocouple input Gold iron chromel W R T D Pt100 JPt100 Pt100 JPt100 Common to Pt100 and JPt100 JPt100 Measuring range Measuring range Note 2 Note 3 Note 4 Note 5 Initial value Range No 6 K thermocouple 0 0 800 0 C In the case of B thermocouple accuracy is not guaranteed at temperatures below 400 C 750 F The precision for PR40 20 is 0 3 FS 1 C The precision for K thermocouple Kelvin is 10 0 30 0 K 0 75 FS 1K 30 0 70 0 K 0 30 FS 1K 70 0 350 0 K 0 25 FS 1K The precision for the gold iron chromel thermocouple is 0 25 FS 1K Initial value Range No 14 Pt100 0 0 200 0 C Note 6 The precision of 50 C 120 F span input is 40 2 FS M Linear input current or voltage Range No Voltage mV Current mA Voltage
18. resistance Dielectric strength Protective structure Material of case External dimensions Mounting Panelthickness Size of mounting hole Weight By non volatile memory EEPROM 10 50 C 90 RH max no dew condensation 20 65 C 100V 240V AC 10 50 60Hz Maximum 15 VA 60 dB minimum 50 60Hz Common mode 140 dB minimum 50 60Hz Normal mode Safety IEC1010 1 and EN61010 1 EMC ENS5011 Class A Group I EMI emission EN50082 2 1995 EMS immunity During EMC testing the apparatus continues to operate at a measurement accuracy within 2 of the range Between input output terminal and power supply terminal 500V DC 20 M minimum Between input output terminal and ground terminal 500V DC 20 M minimum 1 min at 2300V AC between input output terminal and power supply terminal Responsive current 5mA 1 min at 2300V AC between power supply terminal and ground terminal Responsive current 5mA The front operating panel is dust proof and drip proof equivalent to IP65 PPO resin molding equivalent to UL94V 1 H96xW96xD138 panel depth 125 mm When terminal coveris used panel depth 130 mm When direct type plug is used panel depth 180 mm Push in panel one touch mount 1 4 5 Panel thicker than 4 5 mm can be mounted by means of mounting metal fittings H92xW92 Approx 600g 58 59 Distributed in New Zealand by N Intech INSTRUMENTS LTD Christchurch
19. shown in the screen 6 SV No currently in use Explanation about group 0 2 screen Group 0 2 SV No 01 PID No SV 25 000 OUT 1 91 6 3 OUT 2 5753 A 01 PID No currently in use Set value SV value currently in use 1 Output value of control output 1 96 1 Output value of control output 2 96 Note 1 In the case of one output type instrument output value of OUT2 is not shown in the screen A1 7 External Input Output Option W External Input Selection of local SV No and external control by assigning to DI can be carried out by means of no voltage contact input signal from external or open collector input signal V 5V 1 max 2 4mA J O O Contact Open collector Y eel lore Q O 1 Selection of local SV No Local SV No can be selected by external input In order to use this function you have to select EXT in 6 7 3 Setting of selection switch of multi SV No to light the ESV lamp in the front panel Example of use SV No can be selected from outside the instrument when 24 pin plug for external input output an accessory to this instrument is used and BIN code digital switch is connected to pin Nos 12 COM 7 SEL1 6 SEL2 5 SEL4 and 4 SEL8 For 24 pin plug and BIN code digital switch multi SV No switching device see Chapter 8 Connecting Devices for Instrument Terminals If you do not have BIN code digital switch selec
20. stops The punctuation mark turns to while a change is being made Auto Tuning O STOP Auto Tuning STOP Auto Tuning STOP Auto Tuning STOP AT Point 10 00 C AT Point 10 00 AT Point 01 00 AT Point 01B 00 C Auto Tuning STOP AT Point 15 00 C 2 lt LA ENT 2 Change of letter condition or the like When there are two or more parameters press the ST 2 key to move the cursor J to the parameter to be changed Use the _ or v key to change to a desired condition Press the EN T key to register the data after confirming that the change has been made correctly Upon registration of the data the letters stop flashing The punctuation mark turns to while a change is being made Control A M AUTO Control A M AUTO Control A M AUTO Control A M AUTO Control Exe EXEC Control Exel EXEC Control Exe yyy Control Exe J STANBY Ramping Run STOP Ramping Run STOP Ramping Run STOP Ramping Run STOP Operation LOCAL Operation LOCAL Operation LOCAL Operation LOCAL 73 ENT
21. the case of contact output and 2 4 sec in the case of SSR drive voltage output If an excessively long time is set for cycle time in a control system with a short delay time an adverse effect may be produced on the result of control In the case of one output the parameter Out 2 Cyc is not displayed on the screen Output cycle cannot be set during the execution of auto tuning AT or ramp control 3 Setting of output against Scale Over Group 6 2 Err Outi 0 0 Setting range 5 0 105 0 Err Out2 0 0 Initial value 0 0 Err Outl 0 0 Err Out2 4 0 0 Control output value for use when measured input value goes out of range can be set Note 1 Note 2 Note 3 In the case of one output the parameter Err Out 2 is not displayed on the screen Output against Scale Over cannot be set during the execution of auto tuning AT For contact and SSR drive voltage output output against Scale Over automatically becomes 0 if P OFF is set and ON OFF control is selected in 6 6 1 Setting of proportional band P 15 6 4 Option group Group 5 This group has setting screens of optional functions analog output DI heater break alarm and communication These screens are not shown if the optional functions are not added in your instrument Press the LG RP key to call the OPTION screen Group 5 0 and move to a screen in which setting or a change to be made by the use of the SCRN k
22. with P or P D when OFF is set for I integral time If a value is set on the side the control result moves in the plus direction and it moves in the minus direction if a value is set on the side The amount of movement is in proportion to numerical value Note 1 Even when auto tuning is executed with I OFF I OFF remains unchanged and the value of Manual Reset MR is automatically calculated and setting is made 6 Setting of zone Group 3 1A PID 1 Pi 3 0 Setting range Within measuring range Ii 120s Da 30s Initial value 0 unit MR 0 0 vz oneg 0 0 In this screen a zone required for the zone PID function is set for each PID No When set value SV exceeds zones as illustrated below this function automatically switches PID Nos to be executed Zone PID function PID No 3 zone value foe ee everett cence retenes pipe PID No 2 PID No 2 zone value frasa PID No 1 zone value pgs PN PID No 1 In the area in which no zone is set Time i the nearest PID No is used Set value SV Note 1 When the same zone value is set for two or more PID Nos the smallest PID No is executed Note 2 To use the zone PID function 6 6 9 Setting of zone hysteresis and 6 6 10 Setting of zone PID mode should be carried out in addition to setting of zone 28 7 Setting of dead band Group 3 1B This setting is only for the two output type The screen is not displayed in the case of one ou
23. 1 Seting of set value SVI san M 2 Setting of SV limits 3 Setting of s lection switch of multi S V INO ccccsssvacesscvssasestbeavesssscugesaveccesveateisescssvacessyveiajensveavecdessvacdsoesssasacesenssbsceeeceasneas O Matters Related to Remote Setting 4 Setting of Temote b s aa es Gan S Seting OF remote filter Lasse 6 Setting OF remote Salerno di A di aS TEENAAN AERE TSS ANARE 7 Setting of remote mode 8 Setting of remote tracking 9 Setting of remote proportional coefficient 10 Setting of remote linear delay time tpe dis cc eat O Matters Related to Ramp Setting 1 1 Setting of ramp value 12 Setting of ramp unit 13 Setting of ramp rate 12 Specifications 68 evelli 1 Exec tion stop of auto tuning AT rescisi n terri it ree ir isa 2 Setting of auto UITAE O kr 3 Auto manual of Control output aria pete P DEED ECHTE AGNE 4 Bxecution standby OM CODtfOl cosas rre ee ays aee iei ec p eL en d I PU RET 51 AStop restarbor ramp controle ciere deant lia in ici ia EUN PATER D i rino PARED 6 Selection of COMUNICACION ricino 6 9 Monitor group Group Distant iei Ai Ei a arini ARa esii NA a EN EE VET EE EEL E E 1 Explanation about eroupiO O scree PT
24. 4 assignment Description of function Heater break alarm current value Within measuring range PV and SV 100 0 100 0 DEV 0 100 0 OUT1 and OUT2 but Ao2 Sc_L Ao2 SC H Setting range Nop Manual Remote Auto Tune Stanby Dir Act Stop Direct Setting range OFF 0 1 50 0A Lower limit value of measuring range Higher limit value of measuring range Initial value Initial value HLA Curr Heater loop alarm current value OFF 0 1 50 0A HA Mode Key Lock 1 OPTION Group Commu Address Heater break loop alarm mode Description of function Machine address Communication rate LOCK REAL Setting range 1200 bps 2400 bps 4800 bps 9600 bps 19200 bps Initial value 1200 bps Length of data parity TE1 TE2 7N1 7N2 8El 8E2 8N1 8N2 Key Lock 1 Communication protocol mode 49 SR25 Mode Standard SR25 Mode OPTION Group Key Lock 1 Description of function Communication memory mode Setting range EEP RAM Initial value Control code Standard mode only STX ETX CR STX ETX CRLF Q CR STX ETX CR Check sum Standard mode only Add Add two s cmp XOR NONE W Output Group Group 6 OUTPUT Group Key Lock 1 OUTPUT Group Key Lock 1 Out Actn Description of function Output characteristics 0 99 Setting range Rev Act Dir Act Initial value Rev Act
25. Auckland www intech co nz Ph 6433430646 098271930 tech co Fx 6433430649 098271931 salesQintech co nz The contents of this manual are subject to change without notice Temperature and Humidity Control Specialists SHIMADEN CO LTD Head Office 2 30 10 Kitamachi Nerima Ku Tokyo 179 0081 Japan Phone 81 3 3931 7891 Fax 81 3 3931 3089 E MAIL exp dept shimaden co jp URL http www shimaden co jp PRINTED IN JAPAN 60
26. F HA Mode LOCK CT detects the current level in the load wire while control output 1 is ON and it judges as abnormality and outputs an alarm whenever a lower current level than set current value is detected Even if control output 1 turns OFF the alarm output is maintained Note 1 To use the heater break alarm it is necessary to assign HBA to an event or external output in 6 5 1 Setting of event action and DO action mode 6 Setting of current value for the heater loop alarm Group 5 4 CT Current 10 0A Setting range OFF 0 1 50 0A HBA Curr OFF Initial value OFF HLA Curry OFF HA Mode LOCK CT detects the current level in the load wire while control output 1 is OFF and it judges as abnormality and outputs an alarm whenever a higher current level than set current value is detected Even if it turns ON the alarm output is maintained Note 1 To use the heater break alarm it is necessary to assign HLA to an event or external output in 6 5 1 Setting of event action and DO action mode 19 7 Setting of the heater break loop alarm mode Group 5 4 CT Current I 10 0A Setting range LOCK REAL HBA Curr OFF Initial value LOCK HLA Curr OFF HA Mode Y LOCK You can select either the lock mode or the real mode for alarm output Lock mode LOCK Once alarm is output the alarm output is locked fixed and the alarm keeps being output even if the CT current level returns to normal The alarm o
27. Limt_L SV Limit H SV Limt H 50 000 Initial value SV Limt_L Lower limit value of measuring range SV Select KEY SV Limt_H Higher limit value of measuring range SV Limt_L 0 000 SV Limt H3 50 000 SV Select KEY Higher limit SV Limt_H and lower limit SV Limt L of setting range for set value SV can be set Note 1 Remote SV value is also subject to SV limits 3 Setting of selection switch of multi SV No Group 2 12 This screen is not displayed unless external input output control signal DI DO is added When MODE 0 or MODE I has been selected in 6 1 4 Setting of mode this screen is not displayed either SV Limt L 0 000 Setting range KEY EXT SV Limt H 50 000 Initial value KEY SV Select KEY It can be selected whether multi SV No is selected by means of front key KEY or externally EXT O When SV Select KEY is set Select SV No by using front key in the monitor group screen Group 0 0 O When SV Select EXT is set ESV lamp in front panel lights Select SV No externally Matters Related to Remote Setting 4 Setting of remote bias Group 2 134 REM Bias 0 000 Setting range 9999 9999 unit REM Filt OFF Initial value O unit REM Sc L 0 000 VREM Sc H 50 000 X Remote bias corrects error in remote set input value 5 Setting of remote filter Group 2 13A REM Bias 0 000 Setting range OFF 1 300 REM Filtg OFF Initial valu
28. OR NOILd0 Lo OG INSAg Cd AS TONINO dj 08 0 09 os Ob OE oz OF dnoj6 dnoj6 bue Buunseapun dnoj 1ndino dnoi6 uondo dnou ogaue 3 dnoj did dureu ejouleu AS dno16 jouog dnojB 10p1uop 4 dnog 9 dnog G dnog y dnog dnog z dnog I dnou5 0 dnog weibeig 19J9ue1eg uaa19s IT 6 6 Functions of the Respective Groups In Chapter 6 the basic operations of this instrument and the setting procedure are described Follow the procedure referring to the LCD screen parameter diagram in Chapter 5 6 1 Lock Initialization group Group 8 Press the GR P key to call the LOCK INIT screen Group 8 0 onto display Then press the SCRN key to move to a screen in which a setting or a change is to be made Use the C key for selecting a parameter on the screen 8 0 SVNo 01 DEV 3 5 0 0 25 000 5 0 5 THLE bid LOCK INIT Key lock and Initial setup screen group SCRN GRP 8 1 1 Setting of keylock Group 8 1 Key lock Disp ret OFF OFF Inital None SCAN MODED 3 OUT SV I RAMP Dual Multi Up Down Key lock OFF Setting range OFF Lock1 Lock2 Lock3 Disp ret 60 s Initial value OFF Inital None In order to avoid an unintended data change by erroneous operation a keylock selected one from Lock1 Lock2 and Lock3 is applied When locked each of the affected LCD screens shows the I mark
29. SR253 Series Digital Controller Instruction Manual Thank you for purchasing the Shimaden SR253 Series Please check that the delivered product is the correct item you ordered Please do not begin operating this product until you have read this instruction manual thoroughly and understand its contents SHIMADEN CO LT D SR253F 1BE NOV 2001 Notice Please ensure that this instruction manual is given to the final user of the instrument Preface This instruction manual is meant for those who will be involved in the wiring installation operation and routine maintenance of the SR253 series This manual describes the care installation and wiring procedures for the operation series Keep this manual at the work site during operation of the SR253 series While using this instrument you should always follow the guidance provided herein For matters regarding safety potential damage to equipment and or facilities additional instructions are indicated by the following headings WARNING Exercise extreme caution as indicated This heading indicates hazardous conditions that could cause injury or death of personnel N CAUTION Exercise extreme caution as indicated This heading indicates hazardous conditions that could cause damage to equipment and or facilities NOTE This heading indicates additional instruction and or notes For matters regarding safety A Warning SR253 series controller is designed for contro
30. T Ex OUT 2 Volt COM RS 232C 30 000 O Series 2 Types of input output and measuring range Functions at each option 4 2 How to move LCD screens and cursor 1 Moving to initial screen of monitor group Pressing the D IS P key calls the initial screen of the monitor group onto the display 2 Moving from group to group To move from one group to another group press the GR Pj key in the initial screen of the group 3 Moving to the first screen of a group When the GRP key is pressed in a screen of any group other than the monitor group the initial screen of that group is displayed 4 Moving within a group Pressing the SCRN key calls screens of the group one by one in order 5 Moving the cursor on the screen When two or more parameters are shown in a screen pressing the lt gt key moves the cursor 2 flashes to the next parameter 4 3 Data change and registration 1 Change of numerical value When there are two or more parameters press the C key to move the cursor 2 to the parameter to be changed When the 4 key is pressed the rightmost digit of the value flashes Further pressing the lt key moves the flashing figure to a digit whose figure is to be changed Use the A or Vv key to change the figure Press the EN T key to register the data after confirming that the changed value is correct Upon registration of the data the flashing
31. V value 3 PID No display Displays current PID No 4 Output display Q Displays control output value in bar graph and numerically 5 Deviation display Displays difference deviation between PV value and SV value in bar graph and numerically 96 6 Set parameter display Displays various set parameters as selected by front key operation 21 characters x 4 lines Key switches 1 DI S P display key For use to return to the initial screen of the monitor group Q G RP group key For use to move between groups 3 SCRN screen key For use to move within a group 4 gt parameter key For use to move the cursor gt Je 3 This cursor blinks continuously 5 4 shift key or use to move from digit to digit of set value 6 v down key data 7 A upkey For use to increase a number in setting a parameter value or data 8 ENT entry key For use to register a parameter value or data For use to decrease a number in setting a parameter value or amp Monitoring lamps orange 1 EVI Lights when EVI is on 8 DOS Lights when DOS is on amp Monitoring lamps green 1 AT Flashes during the execution of auto tuning 2 MAN Flashes during manual operation of control output 3 OUTI For current or voltage output the brightness of the lamp changes in proportion to the strength of control output 1 For contact o
32. blem Note 2 With the occurrence of any of the problems shown in the table all outputs turn off or to 096 PV value went over lower limit 10 FS of measuring range PV value went over higher limit 110 FS of measuring range Count fell below lower limit Count exceeded higher limit 1 A HH R T D 1 burnt out 7 2 B R T D 2 burnt out 8 3 B 9 R T D 3 burnt out or more than two points burnt out uy HH Thermocouple burnt out In the case of thermocouple input reference junction compensation is on the lower limit 1 Lu In the case of thermocouple input reference junction compensation is ELLE on the higher limit A D problem Note 1 If any of the above messages are displayed check input and CJ If nothing is wrong with them there may be some other cause and you should call the agent or our business office Note 2 In case A D is out of order it should be dealt with in the same way as when PV or REM goes over their higher limits 44 10 List of Parameters W Control Group Group 1 Control Group Description of function Setting range Initial value Auto Tuning Execution stop of auto tuning STOP STOP EXEC Key Lock 2 AT Point Auto tuning point 0 10000 unit 0 unit Control Group Description of function Setting range Initial value Control A M Auto manua
33. comes in accord with a control temperature display not an actual temperature display 2 Setting of the PV filter Group 7 1 PV Bias PV Filt 4 RTD Type 0 0 OFF Pt100 Initial value OFF If a noise is included in the PV input it may adversely affect control results due to the unsteadiness of the PV display The PV filter is used to reduce such an effect and to stabilize control Filter operation is carried out by linear delay operation Setting range OFF 1 300 Time constant T sec set value x sampling cycle sec of the PV input From the above equation T 300x0 2 60 sec Thus the PV filter with a time constant of 60 sec maximum can be applied Accordingly the larger the set value the longer the time constant and the more effectively noise can be removed It should be noted however that too large of a time constant may sometimes have a detrimental effect on the result of control in a highly responsive control system 10 key to move to a screen in which setting or a 3 Setting of R T D type Group 7 1 This setting is only for R T D input The screen is not displayed in the case of TC or linear input PV Bias 0 0 Setting range JPt100 Pt100 PV Filt OFF Initial value Pt100 RID Type Pt100 Selection between Pt100 and JPt100 as the type of sensor R T D used for input is made 4 Setting of reference junction compensation Group 7 1 This setting is onl
34. cted the MAN lamp in the front panel flashes Note 2 If power is turned off during MANUAL output and turned on again MANUAL continues MANUAL Output Operating Method When MANUAL is selected on the Control A M parameter and registered the MAN lamp in the front panel flashes To operate control output manually call the initial screen of the monitor group Group 0 0 by the use ofthe DI S P key From there move to the group 0 1 screen of the group by means of the SCRN key Make sure that cursor Y is shown in the top left corner of the LCD screen Then press the lt q key to move the flashing figure to a digit whose figure is to be changed and set the value of control output 1 OUT1 by means of the A and CV keys Control A M SMANUAL SVNo 25 000 Y four 0 50 10 pourr 9 50 100 Control Exe EXEC 02 91 6 MENENEEEEEEENN oh 6 i c 5 p 100 Ramping Run STOP DEV Pyg ui ri our2 9 50 100 our2 0 50 10 Operation LOCAL 0 886 m 57 3 M 57 3 DISP SCRN KI In case optional function of control output 2 OUT2 is added move to the OUT2 parameter by means of the C 2 key and set a value in the same way as OUTI 30071 0 50 100 OUTI 0 50 100 01 65 tml tat 91 2 eee 07 M 6 gt MA th pour Na 57 3 MENEEN 57 3 2 Note 1 In the one output type instrument neither output value n
35. ction Output 1 is for heating control and Output 2 is for cooling control Dir Act direct action Both Output 1 and Output 2 are for heating control 2 stage heating Rev Act reverse action Dir Act direct action OUT OUT 100 f 100 OUTI OUT2 0 i Pi pl P2 pi 0 A Set value SV LOW amp Measured value PV gt HIGH DB Set value SV LOW lt lt Measured value PV gt HIGH Note 1 For DB in the above diagram for Dir Act refer to 6 6 7 Setting of dead band Note 2 To switch output characteristics is not possible during the execution of auto tuning AT or ramp control 14 2 Setting of output cycle Group 6 1 This setting is only for contact or SSR drive voltage output This screen is not displayed in the case of voltage or current output Out Actn Rev Act Outl Cyc 3 s Out2 Cyc 30 s Out Actn Rev Act Setting range 1 200 sec Outl Cyc 3s Initial value In the case of SSR drive voltage output 3 sec Out2 Cyc 30 s In the case of contact output 30 sec For SSR drive voltage output control is carried out through voltage pulse and for contact output through ON and OFF time ratio duty of relay contact Cycle time which is the basic cycle of the duty can be set T Note 1 Note 2 Note 3 Note 4 ON Cycle time T 1 200 sec Generally cycle time is 20 30 sec in
36. ctive setting from 8 types NOP AT MAN REM STOP STBY DA DIR Non voltage contact open collector input 5 points from DOI to DOS Individual setting individual output Selective designation from 19 types Details are the same as EV option Open collector output 24V DC 50mA max Insulated between DI input DO output and various inputs and system various outputs insulated from each other not insulated between DI input and DO output 256 7 Heater Break Alarm Option Alarm action Setting Current setting range Setting resolution Display Amperage display Display accuracy Output holding Sampling cycle Minimum time for action confirmation solation Output method 8 Analog Output Option The number of analog outputs Analog output type Output rating Output accuracy Output resolution Output updating cycle Output scaling solation 9 Communication Function Option Communication type Communication system Communication rate Data bit length Communication address Communication code Communication protocol Others solation Heater amperage detected by externally attached CT special CT provided single phase Alarm output On upon detection of heater break while control output is On Alarm output On upon detection of heater loop alarm while control output is Off Off 0 1 50 0A Off setting HB or HL alarm action stops
37. displayed EV 1 Mode DEV High Set Point 25 000 Vpiffrntl Q 0 020 Setting range 1 9999 unit Initial value 20 unit Setting an action hysteresis between ON action and OFF action can avoid chattering and the like and ensure stable event action Example When PV is Low ON Action hysteresis OFF 4 Action set value SV value LOW PV p HIGH 4 Setting of delay time Group 4 1B 4 8B The setting is required only when any of the event types 1 8 is set for event action and DO action modes When any of the event types 9 19 is set these screens are not displayed EV d Setting range OFF 1 9999 unit ME n OFE Initial value OFF Inhibit OFF Charact Open Once a delay time is set when a factor requiring output of ON signal to event and DO outputs arises ON signal is output not immediately but only after a certain time delay time elapses ON Delay time OFF Occurrence of factor Output of ON signal Note 1 In case the factor for signal output disappears within the delay time the delay time is cleared without outputting ON signal If the factor arises again the time count is redone from the beginning Note 2 When OFF is set for delay time signal is output simultaneously with the occurrence of a factor for ON signal output Note 3 Delay time can be changed within delay time after occurrence of a factor for ON signal output Nevertheless delay time is counted from th
38. e Lower limit value 0 O Imt L 0 0 Higher limit value 10096 01 Lmt H 4100 0 02 Lmt L 0 0 _02 Lmt H 100 0 Tn this screen lower and higher limits of control output values corresponding to PID Nos are set Note 1 In case the instrument is of the one output type parameters related to two outputs are not shown Note 2 For Contact and SSR drive voltage output output limits become invalid in case OFF is selected in 6 6 1 Setting of proportional band P for ON OFF control 29 9 Setting of zone hysteresis Group 3 11 Zone HYSA 2 0 Setting range 0 10000 unit Zone PID Singl Initial value 20 unit REM PID 01 SF 0 40 For set zone values the following hysteresis can be set This hysteresis applies to all the set zone values however Set value SV PID No 3 zone value Hysteresis PID No 2 zone value PID No 1 zone value lt lt r PID No 1 PID No 2 PID No 1 PID No 2 PID No 3 10 Setting of zone PID mode Group 3 11 Zone HYS 2 0 Setting range Singl Zone Zone PIDO Singl Initial value Singl REM PID 01 SE 0 40 The PID function mode can be selected between Zone and Singl Using the zone PID function SV No remains unaffected Not using the zone PID function PID No is switched correspondingly to SV No 11 Setting of remote PID No Group 3 11 Zone HYS 2 0 Setting range 1 10 Zone PID Singl Initial val
39. e OFF REM Sc L 0 000 VREM Sc H 50 000 t If remote input has noise unstable remote SV indication may produce an adverse effect on control result A remote filter is used to reduce such effect and stabilize control Filter operation is carried by linear delay operation Time constant T sec set value x sampling cycle of remote input sec From the above equation T 300 x 1 3 2 100 sec Thus remote filter with a time constant of 100 sec maximum is applied Accordingly the larger the set value the longer the time constant and the more effectively noise can be removed It should be noted however that too large a time constant may have a detrimental effect on the result of control in highly rsponsive control system 32 6 Setting of remote scale Group 2 13A REM Bias 0 000 Setting range Within measuring range RSV REM Filt OFF 0 00 100 0096 CTRL REM Sc L 0 000 but REM Sc L REM Sc H lREM Sc_H 50 000 Initial value REM Sc L Lower limit of measuring range RSV 0 0096 CTRL REM Sc H Higher limit of measuring range RSV REM Bias 0 000 100 00 CTRL REM Filt OFF REM Sc L 0 000 Y TREM sc HE 50 000 Setting range of SV for remote set input can be set Note 1 For setting of remote scale when REM Mode CTRL has been set see 6 7 7 Setting of remote mode 7 Setting of remote mode Group 2 13B REM ModeL RSV Setting range RSV CTRL REM Trck NO Initial va
40. e apparatus has a heater break alarm option When Code 2 is selected 305 Model ETL rd id a eu Pr Hl e it hu vd When Code 3 is selected 50A Model CTL 12 S36 8 n 2 24 pin plugs To be attached when the instrument is equipped with external input and output control signal option When Code 1 is seledted 24 pin plug clamp filter a a 1 set When Code 2 is selected 24 pin plug 1 m cord with crimp terminal clamp filter sss 1 set Note 1 Contact our representative or our local office concerning any problems with the product accessories or related items 1 2 Caution for use 1 Avoid operating keys of the front panel with hard or sharp objects or motions Lightly touch the operating key with finger tip for operation 2 Avoid using solvents such as thinner wipe gently with a dry cloth 2 Installation 2 1 Installation site N Caution In the case where there is an intention to operate this product at one of the following sites be aware that the occurrence of fire and or other dangerous situations is considerable Exercise caution and avoid these places when selecting an operational site 1 Any place where inflammable or corrosive gas dust or smoke is generated or is filled with same 2 Any place exposed to water sunlight or high radiant heat from other equipment 3 Any place where the ambient temperature for the instrument is below 10 C or above 50 C 4 Any place where the instrument i
41. e occurrence of the output factor not from the time at which the change is made See the following examples Example 1 Delay time set at 15S Changed to 10S when 5S has elapsed after the occurrence of factor ON j ON Delay time 15S OFF When delay time is changed off 5 10 15 from 15S to 10S in 5S after 1 occurrence of factor T Occurrence of factor Output of ON signal Occurrence of factor Output of ON signal Set at Delay 15S Change to Delay 10S Example 2 Delay time set at 15S Changed to 20S when 5S has elapsed after the occurrence of factor ON m ON i BO oo Delay time 158 A gt Delay time 208 gt OFF i i When delay time is changed off _i i i i 5 10 15 from 15S to 20S in 5S after 5 10 15 20 T occurrence of factor n Occurrence of factor Output of ON signal Occurrence of factor Output of ON signal Change to Delay 208 Set at Delay 15S 24 5 Setting of inhibit action Group 4 1B 4 8B The setting is required only when any of the event types 1 8 is set for event action and DO action modes When any of the event types 9 19 is set these screens are not displayed EV 1 Setting range ON OFF Delay OFF Initial value OFF Inhibitg OFF Charact Open When you set inhibit action select ON or OFF by taking the event action for Scale Over as well as inhibit action W Inhibit ON gt
42. econds or longer Note 4 Once items selected from the above 8 types are assigned to Dis external control takes preference that is similar types of setting by front key operation are not possible Note 5 In case a similar type of action is assigned to two or more Dis only the assignment to DI with the smallest number is valid For example if Manual is assigned to DI1 and DI2 the assignment to DI2 is invalid Note 6 Assignment of any action except Direct to a DI maintains the action even after the setting of the DI is released For example if Stanby is assigned to DI1 and DI1 is set at Nop by external signal in this state Stanby still works When you want to execute external control upon completion of setting follow the instruction in Chapter 7 External Control Input Output Notes on Direct Function DI or communication signals can be output to an Event and DO Fig 1 shows relations between DIs and Events DOs For communication refer to the separate Instruction Manual on Communication Interface EV1 Requirements for use of direct function EV2 1 Assign Direct to a DI to be input EV3 2 Assign Direct to EV and DO to be output DH DO1 DI gt 1 4 DI2 DO2 MENO Ten DI3 DO3 DO gt 1 4 DI4 DO4 Fig 1 Relations between Dls and Events DOs Example of use of Direct function If you want to output DI signal to EV3 as illustrated in Fig 1 the DI input which can be output to EV3 is DI3 1 Assign Direct to DI3 S
43. ee 6 4 3 Setting of DI assignment 2 Assign Direct to EV3 See 6 5 1 Setting of event action and DO action mode 3 When input to DI is turned ON OFF EV3 output turns ON OFF See Chapter 7 External Input Output 18 O Matters Related to Setting of Heater Break Alarm 4 Display of CT current Group 5 4 Heater break alarm and heater loop alarm are usable when control output 1 is of contact Y or SSR drive voltage P They cannot be used if control output I is of current I or voltage V y CT Current 10 0A Display range 0 0 54 9A HBA Currla OFF HLA Curr OFF HA Mode LOCK This screen shows current detected by the current detector CT When current detected by CT exceeds 55 0A HB HH is shown in the CT current display screen When current detected by CT lowers to 0 0A or below HB LL is shown in the CT current display screen In the event CT fails to detect any current is shown in the CT current indication screen O Connection of current transformer CT Pass a load wire through the hole of CT which is provided as an attachment to the instrument The wire from CT to temperature controller SR253 has no polarity d To be connected to CT input terminal of temperature controller N Heater load wire 5 Setting of current value for the heater break alarm Group 5 4 CT Current 10 0A Setting range OFF 0 1 50 0A HBA Curr OFF Initial value OFF HLA Curr OF
44. en every time the changes successively Stop pressing when the screen of the PID No to be set or changed is displayed U parameter GRP key to call the PID screen Group 3 0 Next press the on the screen PID group for 2 output type 2 0 0 3 0 SVNo 0 w 20 000 AAA PD DEV Pi m r i PID and Out Limit 3j4 23 5 mmm setup screen group GRP SCAN 3 1A PID 1 PIM 3 0 Ii 120s Da 30s MR 0 0 Jzone 0 0 I gt Y 3 18 PID 1 Pay 3 0 gt I2 120s Da 30s WDB 0 0 I 2 3 10 I 01 Lmt MS 0 0 3 I Oi Lmt H 100 0 SCAN 1 02 Lmt Ls 0 0 I O2 Lmt H 100 0 I SCRN Y 3 2 PID 2 Pi 3 0 Ii 120s Du 30s MR 0 0 lzone 0 0 3 10 PID 10 Pil 3 0 Ia 120s Da 30s MR 0 0 V zone 0 0 I SCRN Yo 341 Zone HY 2 0 Zone PID Singl REM PID 01 SE 0 40 I SCRN P 1 D4 PID of output 1 P l gt D4 PID of output 2 SCRN 26 key and the screen with the PID No currently being used is key in any of the PID GRP SCRN se the gt key is pressed the PID No key for selecting a PID group for 1 output type 0 0 3 0 a 29 000 Y PID 01 CNM EEE 4 DEV E i i i T UP PID and Out Limit 3 5 mi setup screen group GRE E 3 14 PID 1 P
45. et and changed by front key operation or through communication optional function is selected LOCAL Various data are set and changed by front key operation Setting and changing data through communication is not possible COMM Various data are set and changed through communication Setting and changing data by front key operation is not possible Note 1 For this parameter selection and setting of COMM lt LOCAL can be made through communication but selection and setting of only COMM gt LOCAL is possible by front key operation For details please refer to the separate Instruction Manual on Communication Interface Note 2 Screens are not shown if the communication optional functions are not added in your instrument 39 6 9 Monitor group Group 0 In the monitor group the states of set value deviation value and control output are displayed in three screens In the initial screen of the monitor group Group 0 0 switch between SV value setting and SV No in execution is possible In case a screen of any other group than the monitor group is on display press the DIS P 0 0 For moving to another screen of the monitor group use the SCRN key 5 1 0 0 Aol Model PV SVNo 25 000 ie Aol Sc L 0 000 01 3 5 di Aol Sc H 50 000 DISPI pev Paa i tP 3 5 z SCRN 0 1 OUTIL El 100 Petrie 91 6 outa ht i 57 3 MEUM SCRN 0 2 SV No 01 PID No 01 sv 25 000 t OUT 1 91
46. etween ON and OFF at that time works to avoid chattering or the like and to stabilize control E di OFF A T Setting point P 3 Setting of integral time I Group 3 1A PID 1 Pus 3 0 Setting range OFF 1 6000 sec Tif 120s Di 30s Initial value 120 sec MR 0 0 lzone 0 0 This is the function to correct offset constant deviation caused by proportional action The longer the integral time the weaker the correcting action and vice versa Nevertheless too short an integral time causes integral hunting with the control results showing oscillation 4 Setting of differential time D Group 3 1A BED A Pi 3 0 Setting range OFF 1 3600 sec Ti 120s Dig 30s Initial value 30 sec MR 0 0 Zone 0 0 A change in control output is estimated overshoot due to integration is suppressed and stability of control is improved The shorter the differential time the weaker the differential action and vice versa If it is too long however the control result may oscillate Note 1 Even when auto tuning is executed with DZOFF D OFF remains unchanged 27 5 Setting of manual reset MR Group 3 1A PID 1 Pas 3 0 Setting range 50 0 50 0 Ii OFF Di 30s Initial value 0 0 for 1 output type MR 0 0 50 0 for 2 output type Vzone 0 0 This is the function to make correction manually while watching the result of controlling offset produced by carrying out control action
47. ey Use the C gt key for selecting a parameter on the screen 0 0 5 0 SVNo m 25 000 1 OPTION DEV Pra idet iP Option relation setup 3 5 EE Screen group mE SCAN Y 5 1 Aol Model PV Aol Sc L 0 000 Aol Sc H 50 000 Ao2 Model sv Ao2 Sc_L 0 000 Y Ao2 Sc H 50 000 I SCAN Y 5 3 DI1 NOP OFF DI2 NOP OFF DI3 NOP OFF DI4 NOP OFF 5 4 CT Current 0 0A HBA Curr a 50 0 A HLA Curr OFF HA Mode REAL I SCAN Y 55A COMM RS 422A Addi BPS 19200 DATA 8EL t Mode Standard Paal 5 5B MEM Y RAM CTRL STX ETX CR SCAN scc aaa DELY 40 SCRN cies O Matters Related to the Setting of Analog Output 1 Setting of analog output assignment Group 5 1 2 Aol Modela PV Aol Sc L 0 000 Aol Sc H 50 000 Ao2 Model SV Ao2 Sc L 0 000 Ao2 Sc H 50 000 Measuring range PV SV DEV OUTI OUT2 Initial value Analog output 1 PV Analog output 2 SV The following can be assigned to analog outputs 1 and 2 1 PV measured value 2 SV set value 3 DEV deviation 4 OUT 1 control output 1 5 OUT 2 control output 2 Only when the instrument is of the two output type Note 1 Analog output is produced even when STANBY has been selected i
48. igher limit deviation value action 2 DEV Lower limit deviation value action 3 DEV Out of range deviation value action 4 DEV Within range deviation value action 5 PV Higher limit absolute value action 6 PV Lower limit absolute value action 7 SW Higher limit absolute value action 8 SV Lower limit absolute value action 9 AT Auto turning in execution ON 100 MAN In manual operation ON 11 REM Inremote operation ON 12 RUN Ramp control in execution ON 13 STBY Control action not in execution ON 14 SO Scale over of PV and REM ON 15 PVSO Scale over of PV ON 16 REMSO Scale over of REM ON 17 DIR During direct output ON 18 HBA During heater break alarm output ON option 19 HLA During heater loop alarm output ON option DEV PV and SV events allow the following setting Hysteresis 1 9999 unit Inhibit action With without selectable Action delay Off 1 9999 sec Switching of output characteristics Individually selectable between normal open and normal close Insulated between EV outputs and various inputs and system various outputs insulated from each other 6 DI Input DO Output Optional in common The number of DI inputs DI input type DI input rating The number of DO outputs DO output type DO output rating solation Multi SV selection 4 points control inputs 4 points Total 8 points Exclusive use for multi SV selection binary input Sele
49. il 3 0 Ii 120s Da 30s MR 0 0 lzone 0 0 gt ESI Y 31C 1 01 Lmt MA 0 0 amp SCAN I Oi Lmt H 100 0 SCAN Y 3 2 PID 2 Piff 3 0 Iss 1208 Des 30s gt MR 0 0 izone 0 0 p 3 10 PID 10 PAD 3 0 Ta 120s Di 30s MR 0 0 N Zone 0 0 I SCRN Yo 341 Zone HYJ 2 0 Zone PID Singl REM PID 01 SF 0 40 I SCRN 1 Setting of proportional band P Group 3 1A PID 1 Pil 3 0 Setting range OFF 0 1 999 9 Ii 120s Di 30s Initial value 3 096 MR 0 0 Zone 0 0 A rate of a change in control output to measuring range is set Control output changes in proportion to difference deviation between measured PV value and set SV value The wider the proportional band the smaller the change in control output The narrower the proportional band the larger the control output Nevertheless too narrow a proportional band causes control to oscillate hunting with the control result resembling ON OFF action When OFF is set for proportional band ON OFF control is carried out Note 1 When OFF is selected for P auto tuning cannot be executed 2 Setting of action hysteresis DF Group 3 1A PID 1 Pl OFF Setting range 1 9999 unit DFi 4 2 0 Initial value 20 unit lzone 0 0 Setting P 0 OFF starts ON OFF control Setting action hysteresis DF b
50. ing to the following code table 23 4 5 6 7 8 9 10 SR253 eE3s Item Code and Description 1 Series MPU loaded Multi function controller 2 Input 1 Thermocouple 2 R T D 3 Voltage mV 4 Current mA 6 Voltage V 3 Output 1 Y Contact I Current P SSR drive voltage V Voltage 4 Output 2 N Without Y Contact I Current P SSR drive voltage V Voltage 5 Event output heater 0 Without break alarm 1 Event contact output 3 points 2 Event contact output 3 points heater break alarm heater current 30A 3 Event contact output 3 points heater break alarm heater current 50A 6 Remote setting input 04 4 20mA DC not insulated 14 4 20mA DC insulated 05 1 5V DC not insulated 15 1 5V DC insulated 06 0 10V DC not insulated 16 0 10V DC insulated Standard 06 7 Analog output 00 Without 13 One output 0 10mV DC 23 Two outputs 0 10mV DC 14 One output 4 20mA DC 24 Two outputs 4 20mA DC 16 One output 0 10V DC 26 Two outputs 0 10V DC 8 External input and 0 Without 1 With output control signal 2 With Cord equipped L 1 9 Communicative interface 0 Without 5 RS 485 6 RS 442A 7 RS 232C 10 Remarks 0 Without 9 With 2 Checking accessories O Standard accessories St EG PPS TT I set CQ Wnt A RAN 1 sheet O Optional accessories 1 Current transformer CT for heater break alarm To be equipped when th
51. it RAMP Rate Note 1 OPTION group Group 6 PID group Group 3 All parameters except m_O Lmt_L m_O Lmt_H m O Lmt L m 03 Lmt H m 1 10 UNIT RANGE group Group 7 PV Bias PV Filt EVENT DO group Group 4 Set point of each EVENT DO Diffrntl of each EVENT DO LOCK INIT group Group 8 Note 1 In case CTRL is selected in 6 7 7 Setting of remote mode these are not initialized even when Exe1 is executed 4 Setting of mode Group 8 2 MODEL 3 OUT Dual SV Multi RAMP Up Down Setting range One output type Modes 0 and 2 Modes 1 and 3 are not displayed Two output type Modes 0 1 2 and 3 Initial value One output type Mode 2 Two output type Mode 3 For selection from Modes 0 to 3 consult the following table showing control output the number of SV setting points and whether or not ramp control is engaged Control output OUT Singl 1 output Set value SV Singl SV No 1 Remote SV Ramp control RAMP Dual 2 outputs Singl SV No 1 Remote SV Unusable Singl 1 output SV No 1 10 Remote SV Multi Up Down Usable Dual 2 outputs SV No 1 10 Remote SV Multi Note 1 No change of mode is possible during the execution of AT or ramp control Up Down Usable 6 2 Unit Measuring range group Group 7 In this group LCD screen configuration differs depending on the type of input Call the
52. key to select a parameter on the screen 0 0 1 0 v 25 000 Y CONTROL E GRP DEV P m pua ii P Control screen group dh 3 5 SCRN 1 1 Auto Tuning M STOP AT Point 0 000 1 2 Control A M JAUTO Control Exe EXEC Ramping Run STOP Operation LOCAL SCRN 1 1 Execution stop of auto tuning AT Group 1 1 Auto Tuningig STOP Setting range STOP EXEC AT Point 0 000 Initial value STOP This parameter is used to execute or stop auto tuning AT What is auto tuning AT Optimum PID constants are automatically calculated by the limit cycle method and control is carried out by using such values O Conditions for execution common to front key input and external input 1 Ramp control is not in execution 2 MANUAL is not on 3 P 0 ON OFF control has not been selected 4 STANBY is not on 5 Remote SV is not in use 6 PV value is not over Scale Note 1 As output limits affect AT execution lower limit and higher limit values of control output should be set in 6 6 8 Setting of output limit before executing AT Note 2 Only control output 1 executes AT when DA characteristic two stage heating has been selected in the two output type Control output 2 executes AT at 0 or with lower limit output limiter left as it is Note 3 During execution of AT AT lamp in the front panel flashes and the lamp goes out upon termination or stop of AT
53. l PID 10 types setting for each SV No and Remote SV Zone PID i e PID setting for each zone of SV values is also possible Selectable between individual PID and zone PID Off 0 1 999 9 Off setting On Off action Off 1 6000 sec Off setting With manual reset Off 1 3600 sec 1 9999 unit during On Off action Off 0 1 999 9 Off setting On Off action Off 1 6000 sec Off 1 3600 sec 1 9999 unit during On Off action 20000 20000 unit Higher limit lower limit to be set on every individual PID 5 0 105 0 lower limit lt higher limit RA DA switchable by front key switch or external control input DI Remote input usable as external control input Remote SV input external control input selectable Off 0 1 999 9 Off 1 9999 sec E55 Manual control Output setting range Output resolution Auto manual switch solation 5 Event Output Option The number of outputs Output rating Setting selection solation Y P 0 0 100 0 LV 5 0 105 0 0 196 Balanceless bumpless action within proportional band range Switching by front key switch or external control input DI Insulated between control output and various inputs outputs and system not insulated between 1 output and 2 outputs Total 3 points from EVI to EV3 Contact output 240V AC 1 0A resistive load Individual setting individual output Selectable from following 19 types output designation 1 DEV H
54. l is carried out immediately with new values Note 3 If downward ramp value RAMP Down or upward ramp value RAMP Up is turned OFF during execution of ramp control ramp control stops and the SV value of the targeted SV No serves as SV value 35 12 Setting of ramp unit Group 2 14 RAMP Down OFF RAMP Up OFF RAMP Unit Min RAMP Rate X1 Setting range Unit Sec Unit Min Initial value Unit Min In this screen second Sec or minute Min is selected as the unit of the rate of change Note 1 The unit of ramp time can be changed during execution of ramp control When changed ramp control is carried out immediately on the new unit 13 Setting of ramp rate Group 2 14 RAMP Down OFF RAMP Up OFF RAMP Unit C Min RAMP Ratelf X1 Setting range x 1 x 0 1 Initial value x 1 For the position of decimal point of PV display on set unit x 1 or x 0 1 can be selected Note 1 Ramp rate can be changed during execution of ramp control When changed ramp control is carried out immediately at the new ramp rate How to Execute Ramp Control O a Q 3 4 Note 1 Note 2 Note 3 To begin with press the to flash When target SV No is selected by means of the AT is not in execution STANBY is not on RAMP_Down or RAMP_Up is not OFF Neither Mode 0 nor Mode 1 not selected in 6 1 4 Setting of mode Conditions for execution common to front key input and external
55. l of control output AUTO AUTO MANUAL Control Exe Execution standby of control EXEC STANBY Ramping Run Temporary stop restart of ramp control STOP STOP RUN Operation Communication LOCAL LOCAL Key Lock 2 COMM Note 1 Legend Key Lock 1 The parameters are locked when Lock1 Lock2 or Lock3 is set Key Lock 2 The parameters are locked when Lock2 or Lock3 is set Key Lock 3 The parameters are locked when Lock3 is set The parameters are initialized when Exe1 is selected in setting of initialization 45 m SV Remote Ramp Group Group 2 SV Group Key Lock 3 SV Group Key Lock 1 SV Group Key Lock 1 SV Group Key Lock 1 SV Group Key Lock 1 Description of function Target set value 1 Target set value 2 Target set value 3 Target set value 4 Target set value 5 Target set value 6 Target set value 7 Target set value 8 SV No Target set value 9 SV No 10 SV Limt H EA AAA Ao ET OF Target set value 10 Description of function Set value limit SV Limt_L SV Select REM Bias Set value limit Selection switch of Multi SV No Description of function Remote bias Setting range Within set value limiter Setting range Within measuring range but SV L lt SV H Setting range 9999 9999 unit Initial value Initial value Lower limit of measuring range Higher limit of
56. lling temperature humidity and other physical subjects It must not be used in any way that may adversely affect the safety health or working conditions of those who come into contact with the effects of its usage When used adequate and effective safety countermeasures must be provided at all times No warranty express or implied is valid in the case of using this product without the use of proper safety countermeasures correspondingly A Warning e Before you start to use this instrument place it in a control panel or the like and avoid touching the terminals e You should not draw the instrument out of its case nor should you put your hand or any dielectric into said case Such an act may result in death or serious bodily injury from electric shock N Caution To avoid damage to the connected equipment facilities or the product itself due to a fault of the product safety countermeasure must be taken before usage such as proper installation of the fuse and the overheating protection device No warranty express or implied is valid in the case of usage without having implemented proper safety countermeasures A Caution The A mark on the plate affixed to the instrument On the nameplate affixed to the case of your instrument the AN mark is printed This is to warn you of the risk of electrical shock which may result if the charger is touched while it is energized A means to allow the power to be turned off such as a switch
57. lue RSV REM P B OFF REM Time OFF There are the following two remote modes RSV mode Remote input is used as general RSV remote SV input CTRL mode Remote input is used as external control input In this mode the following parameters need to be set Remote scale REM Sc L Sc H Remote proportional coefficient REM P B Remote linear delay time REM Time On External Control CTRL mode In the event there is a disturbance factor in the control system and the disturbance can be identified and be reflected in the control system beforehand more accurate control can be achieved by taking the factor as external control input in control operation This is the object of this function External control operates as follows Rough block diagram OUT1 Control output SV O Control output 1 PID_OUT1 PV DEV Control output PV input O 20 2 limiter PID operation OUT1 PID OUT1 REM OUT1 External control REM input gt operation REM_OUT1 Note 1 This external control works only for control output 1 On External Control Operation REM Sc L Sc H REM Sc L Sc H cs pora 0 5xP B 96 o a o a 0 5xP B REM_OUT1 REM OUT1 24 4 0 096 0 5xP B 0 5xP B ScL Sc H Sc H Sc_L 0 100 0 100 0V REM voltage input 10V OV REM voltage input 10V 4mA REM current input 20mA 4mA REM cu
58. n 6 8 4 Execution standby of control Note 2 In the instrument with one analog output the Ao2 parameters are not shown on the screen 2 Setting of analog output scaling Group 5 1 2 Aol Mode EV Ao2 Mode sv Setting range Shown in the following table Aol Sc MA 0 000 Ao2 Sc Ma 0 000 Initial value Shown in the following table Aol Sc Hr 50 000 Ao2 Sc BE 50 000 Aol Mode PV Ao2 Mode SV Aol Sc L 0 000 Ao2 Sc L 0 000 Aol Sc HI 50 000 Ao2 Sc Hf 50 000 Scaling of analog outputs 1 and 2 can be set Mode Setting range Initial value Sc L Lower limit value of measuring range Sc H Higher limit value of measuring range Within measuring range Within measuring range Sc L Lower limit value of measuring range Sc H Higher limit value of measuring range 100 0 100 0 Sc_L 100 0 Both Sc_L lt Sc_H and Sc_L gt Sc_H are allowed only Sc_H 100 0 when Sc_L z Sc_H 100 0 Sc_L 0 Sc_H 100 0 100 0 Sc_L 0 Sc_H 100 0 Note 1 In the instrument with one analog output the parameters Ao2 Sc L and Ao2 Sc_H are not shown on the screen 17 O Matters Related to Setting of DI 3 Setting of DI assignment Group 5 3 DIL NOP OFF Measuring range 8 types as shown in the following table DI2 NOP OFF Initial value DI1 4 NOP DI3 NOP OFF DI4 NOP OFF For the purpose of carrying out external cont
59. ng Local setting Setting range Multi SV value setting Multi SV value setting Higher and lower limit setting limiter Remote setting Setting accuracy Setting signal Sampling cycle Remote scaling Remote bias Remote filter Local remote switching Direct tracking function Ramp control 3 Setting range Input Thermocouple External resistance allowable range Input impedance Burnout function Reference junction compensation Internal reference junction compensation accuracy 7 segment green LED 5 digits height of character 14 mm Measured value PV display 128x32 full dot matrix liquid crystal display Basic display 21 digits 4 lines with LED back light Set value SV SV No display and set parameter display Action status display 16 types for 1 output 17 types for 2 outputs AT MAN STBY RUN ESV REM COM EV1 EV2 EV3 DO1 DO2 DO3 DO4 DOS OUTI OUT2 TC input 0 1 FS 1 C Pt input 0 1 FS 0 1 C mV mA input 0 1 FS 1 digit 23 C 5 C Depends on measuring range and scaling 0 0001 0 001 0 01 0 1 1 200 msec 0 2 sec By 8 front key switches Same as measuring range Setting of 10 points maximum possible Selectable by front key switches or DI input binary code Higher lower limit individual setting as desired within measuring range lower limit value lt higher limit value By external analog signals Not insulated standard 0 10V I
60. nsulated optional 0 1 FS 1 digit 0 10V 1 5V DC 4 20mA DC Selectable from code selection table 3 times sec 200 400 msec Possible within measuring range inverse scaling possible 9999 unit OFF 1 300 Sampling cycle Approx 1 3 sec By front key switch or external operation Remote set value switchable to local set value bumplessly Increment Decrement control 1 9999 unit min or sec individual setting 0 1 999 9 unit min or sec individual setting B R S K E J T N PLII PR40 20 WRe5 26 L U DIN 43710 Gold amp iron Chromel multi input multi range 100 max Influence of external resistance 1p V 10 500k min Standard feature up scale Selectable between internal reference junction compensation external reference junction compensation 1 0 C within range from 18 to 28 C 54 R T D Lead wire tolerable resistance Amperage Voltage Input impedance Current Receiving impedance PV bias PV filter Isolation 4 Control Control mode Control output 1 Multi PID Control output 1 proportional cycle Control output 2 applicable only to apparatus with optional function of 2 outputs Multi PID Control output 2 proportional cycle Control output type rating Output resolution Output accuracy Operation output updating cycle Multi PID Zone PID mode Control output 1 Proportional band Integral time Derivative time Action hysteresis Control output
61. nt 8 Communication related setting Lu tret rr impe Re HERO EH VEG EE FEIER Fee p E ESSE e Fee ER eden 20 6 5 Even DO sroup Groups ANN RON 21 25 13 Setting OF event action and DO acblon mode oc ice ve ima xc orare eir Hei ee oie eb abdo Eee p et QE 22 2 Setting uestes C 23 3 Setting of Action hysteresis RE E M M 23 4 Setting of delay time C M 24 5 Setting of inhibit action 25 6 SEIS of output characteris tiesinio serr vsert 25 6 6 PID group Groups RP astro dodne labia T Seline of proportional band Plinio Pa oiv erus OAE EEE ASE EA EAE 2 Setting of action hysteresis DE siasii M snper m 4 Setting of differential tme D enorme tiere O 5 Setting of manual reset MIR ss cca 6 SOT OE TS 7 SSetting Of dead Band ve iso ao aiit aped rai tete ip tee mia diee ee eid po e DTP Epid o D e DR ERE 8 Setting of output ror DH 9 Setting of ZONE OSOS iS id ri id ti rtr eine ne teen oe eoe Fev ia dc avevo ei dE Teka LO Setting Of zone PID MOS c EE Dry Sete ob remote PID NO ua 12 Setting of farget value funca o oit rie e xc ro rre eis ee et eerie eee POE celeb DEED RU Te SHEER EUR 6 7 SV Remote Ramp group Group M O Matters Related to SV Setting
62. o Ld DEV x M ica i N Control output setup 3 5 mum Screen group GRP SCRN Y 6 1 Out Actn A Rev Act Outl Cyc 358 Out2 Cyc 30 s SCAN 6 2 Err Outi 0 0 Err Out2 0 0 SCRN TT 1 Set of output characteristics direct action reverse action Group 6 1 Out Actn 4 Rev Act Outl Cyc 3 8 Out2 Cyc 30 s Setting range Dir Act Rev Act Initial value Rev Act For control action characteristic of control output Dir Act or Rev Act can be selected O When the instrument is of one output type and MODE 0 or MODE 2 has been selected in 6 1 4 Setting of mode Rev Act reverse action In this action the higher the measured value PV than the set value SV the lower the output becomes This action is generally used for heating control Dir Act direct action The higher the measured value PV than the set value SV the higher the output becomes This action is generally used for cooling control Rev Act reverse action Dir Act direct action OUT OUT 100 100 gt OUT1 OUT1 Pi P 096 l 0 l A A Set value SV Set value SV LOW amp Measured value PV HIGH LOW lt lt Measured value PV HIGH O When he instrument is of the two output type and MODE 1 or MODE 3 has been selected in 6 1 4 Setting of mode Rev Act reverse a
63. odel DEV Low Set Point 25 000 Diffrntl 0 020 SCI 4 3 EV 3 Mode HBA SCRN 4 4 DE 1 Model Auto Tuning 4 8 DE 5 Model Stanby 21 1 Setting of event action and DO action mode Group 4 1A 4 8A EV 1 Modell DEV High Set Point 25 000 lpiffrnti 0 020 t DO 5 Model Stanby Setting range 19 types listed below Nevertheless HBA and HLA can be set only when the instrument has the optional function of heater break alarm Initial value Initial value DEV High DEV Low Scale Over Auto Manual Remote RUN Stanby HBA When Tuning HB is equipped In the event action and DO action mode there are the following 19 events which are possible to monitor In this screen events selected from them are assigned to event and external outputs O Types of Events 1 DEV High 2 DEV Low 3 DEV Outside 4 DEV Inside Higher limit deviation value action Lower limit deviation value action Action outside higher lower limits of deviation Action inside higher lower limits of deviation See the diagrams below 5 PV High PV higher limit absolute value action 6 PV Low PV lower limit absolute value action 7 SV High SV higher limit absolute value action 8 SV Low SV lower limit absolute value action 9 Auto Tuning While auto tuning in action ON 10 Manual While manual control in action ON 11 Remote While remote c
64. on hysteresis 1 9999 unit 20 unit Key Lock 1 Dead band 20000 20000 unit 0 unit PID Group Description of function Setting range Initial value Lower limit value of output 1 limit 5 0 104 9 0 0 Higher limit value of output 1 limit 4 9 105 0 100 0 Lower limit value of output 2 limit 5 0 104 9 0 0 Key Lock 1 Higher limit value of output 2 limit 4 9 105 096 100 096 m 1 10 Description of function Setting range Initial value Zone hysteresis 0 10000 unit 20 unit Zone PID Zone PID mode Singl Zone REM PID Remote PID No 01 10 Key Lock 1 SF Target value function 0 00 1 00 47 W EVENT DO Group Group 4 EVENT DO Group Event 1 Event 2 Event 3 DO 1 DO2 DO 3 DO 4 DO 5 Description of function Action mode Setting range DEV High DEV Low DEV Outside DEV Inside PV High PV Low SV High SV Low Auto Tuning Manual Remote Run Stanby Scale Over PV Scale Over REM Scale Over Direct HBA with heater break alarm option HLA with heater loop alarm option Initial value EVI DEV High EV2 DEV Low EV3 Scale Over HBA DO1 Auto Tuning DO2 Manual DO3 Remote DO4 Run DOS Stanby Set Point Action set point only for DEV PV and SV DEV High 0 25000 unit DEV Low 25000 0 unit DEV Outside 0 25000 unit DEV Inside 0 25000 unit PV High within measuring range PV Low within measuring range SV High within measu
65. on the top left The keylock parameter is not locked though SCRN hock AA Parameters except SV AT MANUAL and STANBY are locked I oe 5 5 ee Parameters except SV are locked LOCK A All parameters are locked For more details see the list of parameters in Chapter 10 2 Setting of screen return time Group 8 1 Key lock OFF Setting range OFF 10 120 sec Disp ret 60 s Initial value 60 sec Inital None This is the function to automatically return to the initial screen of the monitor group 0 0 when none of the keys are operated during a screen return time set This will not function in the screens of Group 0 1 and 0 2 3 Setting of initialization Group 8 1 Key lock OFF Disp ret 60 s Setting range None Exel Exe2 Initial value None Inital 3 None This is the function to return registered set data to its initial value None No initialization Exel Only the parameters shown in the following Table 1 are initialized For more details see the list of parameters in Chapter 10 Exe2 All the parameters of each group are initialized CONTROL Group Group 1 Auto Tuning AT Point Control A M Ramping Run OPTION group Group 5 Aol Sc L Aol Sc H Ao2 Sc_L Ao2 Sc_H Table 1 Parameters to be initialized by selecting Exe1 SV Remote Ramp group Group 2 Each SV value SV Limt_L SV Limt_H REM Bias REM Filt REM Sc_L REM Sc_H RAMP Down RAMP Up RAMP Un
66. ontrol in action ON 12 Run While ramp control in action ON 13 Stanby While control action is off ON 14 Scale Over When PV and REM get out of range ON 15 PV Scale Over When PV gets out of range ON 16 REM Scale Over When REM gets out of range ON 17 Direct During direct output ON 18 HBA During output of heater break alarm ON option 19 HLA During output of heater loop alarm ON option 1 Q 3 4 5 6 Y 8 DEV High DEV Low DEV Outside DEV Inside PV High PV Low SV High SV Low ON ON ON ON ON_ON ON ON ON ON OFF A OFF 4 4 OFFAOFFA OFF A amp A OFF OFF 4 OFF OFF OFF cow PY ma cow PY no tow 9 Han A Action set value a SV value Note 1 In the above diagrams ON and OFF mean that the respective actions are activated or not Nevertheless the back output differs depending on Open or Close selected in 6 5 6 Setting of output characteristics Note 2 In case a type of event is changed parameters of set action point Set Point action hysteresis Diffrntl delay time Delay inhibit action Inhibit and output characteristics Charact are initialized 22 2 Setting of action point Group 4 1A 4 8A The setting is required only when any of the event types 1 8 is set for event action and DO action modes When any of the event types 9 19 is set these screens are not displayed EV 1 Setting range DEV High 0 25000 unit Initial
67. or a breaker should be installed in the external power circuit to be connected to the power terminal of the instrument Fix the switch or the breaker adjacently to the instrument in a position which allows it to be operated with ease and with an indication that it is a means of turning the power off Fuse Since the instrument does not have a built in fuse do not forget to install a fuse in the power circuit to be connected to the power terminal Fuse Rating 250V AC 1 0A medium lagged or lagged type When you wire tighten the terminal connections firmly Use the instrument with a power voltage and frequency within their rated ranges A voltage current different from that of the input specification should not be added on the input terminal It may reduce the life of the product and or result in problems with the product Voltage current of a load to be connected to the output terminal should be within a rated range Otherwise the temperature will rise and reduce the life of the product and or result in problems with the product The SR253 series controller is provided with a draft hole for heat discharge Take care to prevent metal or other foreign matter from obstructing it Failure to do so may result in problems with the product Do not block the draft hole or allow dust or the like to adhere to it Any rise in temperature or insulation failure may result in a shortening of the life of product and or problems with the product It should be n
68. or output bar graph for OUT2 is shown in the screen 38 4 Execution standby of control Group 1 2 Control A M AUTO Setting range EXEC STANBY Control Exe J EXEC Initial value EXEC Ramping Run STOP Operation LOCAL This is the function to keep control output event output and external output on standby and to start control only after input is steadied STANBY Control is out of operation and control output is set at 0 EXEC Ordinary control is carried out Note 1 Upon selecting STANBY the STBY lamp in the front panel flashes Note 2 Analog output is output even in the state of STANBY Note 3 If power is turned off in the state of STANBY and turned on again STANBY continues 5 Stop restart of ramp control Group 1 2 Control A M AUTO Setting range STOP RUN Control Exe EXEC Initial value STOP Ramping Runy STOP Operation LOCAL While ramp control is being carried out it can be stopped temporarily and restarted STOP Ramp control being executed stops temporarily The RUN lamp in the front panel lights and the SV display stands still RUN Temporarily stopped ramp control is restarted The RUN lamp in the front panel flashes and the SV display changes to target SV value 6 Selection of communication Group 1 2 Control A M AUTO Setting range LOCAL COMM Control Exe EXEC Initial value LOCAL Ramping Run STOP Operation J LOCAL Whether various data are to be s
69. oted that repeated tolerance tests against voltage noise surge etc may lead to deterioration of the instrument Remodeling the instrument or using it in an anomalous way is prohibited For safe and proper use of the instrument observe the instructions described in this manual Contents Page TOO PEE C 1 181 Check before se n ekskrementer des ERE PE De 1 1 Confirmation of model Codes ici id a adn 1 2 Checking A NN 1 152 Caution FOr EP D 1 Installation is 2 2 1 installation ES 2 22 nnde 2 2 3 External dimensions nd panel Cutout eterne ertet bie rete iras 2 1 SR253 External dimensions and panel GUtOUL iere cccsesvesestucispveskatecsecpuessiedisdssbusbecassionetssaotsscarioeeesusdiartaviendacserbaluetbelanayeced 2 2 Dimension of current transformer CT for heater break alarm sess enne 2 p ED ic 3 2 5 Terminal rransement IagFalhi c np conosci erp OO 4 2 6 Terminal arrangement table iiie eerte iie RA dies 4 Front Panel oo c M 5 3 1 Diagram of front panel and NAMES OF Parts cecccasesccsecssesssssucssdsssobsusssoscasscoussededivsussu
70. ounding terminal Grounding COM Common NO Normal open Contact output Control output terminal No 1 NC Nomal close G Voltage current or SSR drive output Common N N Control output terminal No 2 us Maa Contact output option Voltage current or SSR drive output Common Event heater break alarm output Normal open EV1 Normal close is also terminal option Nomal open EV2 possible depending on Nomal open EV3 parameter setting Heater break alarm CT input CT input terminal option 3 3 1 3 2 O Front Panel Diagram of front panel and names of parts STBY RUN ESV REM COM EV1 EV2 EV3 DO1 DO2 DO3 DO4 DOS Ooo lt Monitoring lamps orange lt 000000 Monitoring lamps green Pb B BB g LP o o o o B lt O LED indicator o o C 2 LCD liquid crystal display indicator Hereinafter to be referred to as LCD Y Key switches BOB ele a Q SR253 SHIMADEN Instruction for front panel LED indicator 1 Measured PV value display Displays current measured value 2 Error message display Displays an appropriate message in the case of an error such as Scale Over LCD indicator 1 Set SV No display Displays current SV No Set SV value display Displays current S
71. per tretaen eroe tet orte eet Fra esee teh ehe ERANSUS ENS NAISA ea eb ENANA censores 11 Ty Setting OF PAM M 12 13 Setas OF decima POE s conci tire m ERE OVER ee 13 Oy Setting OEP V scalp etsosotecr prie bene ers nap been ot t n bee eoe i eR eiie P bonus T eiae AE 13 6 3 Output group Group 6 n 14 15 1 Setting of output characteristics direct action reverse action rissies riren i no Eeee SEESE rS SEEE aran ari 14 2 Setting OF output bydde iii ii eiii E dd iii da 15 3 Setting of output against Scale Ovaciones orita dieras catedra 15 O ia AA RN 16 20 O Matters Related to the Setting of Analog Output 1 Setting of analog output assignment oneri seen Hte y ias Ip REEL o Se ESEE aE Eia e Sose iaei ataiko riri esde oas iest 17 2 Setting of analog Output Scaling sese eere ar aies e PIRE EANAN POR EE EEA N ELEN EERTE TO NE 17 Matters Related to Setting of DI 3 Setting OF DL ASSIM ini J 18 O Matters Related to Setting of Heater Break Alarm 4 Display OF CT Current ji litio ao intel ici 19 5 Setting of current value for the heater break alarm apor aaa 19 6 Setting of current value for the heater Io0p alarm ueteri tnnt ertt eret te sepe tbe eb A e eR eben Bede ea Ea eus 19 7 Setting of the heater break loop alarm mode is 5 aeree bent naten Nna nseri a eese te bon sb een sede siendo iii aenea aue 20 O Matters Related to Setting for Communication Environme
72. quired only when any of the event types 1 8 are set in event action and DO action modes When any of the event types 9 19 are set these screens are not displayed EV 1 Setting range Open Close Delay OFF Initial value Open Inhibit OFF Charact Open Output characteristics of event and DO outputs can be selected between Open Normal open and Close Normal close Open Normal open When event is out of action the contact remains open When DO is out of action the output transistor is in an inactive state Close Normal close When event is out of action the contact remains closed When DO is out of action output transistor is in an active state 25 6 6 PID group Group 3 The configuration of this group differs depending on whether the instrument has one output or two outputs as control output 0 As this instrument can work with multi PIDs corresponding to multi SVs PID constants can be registered at PID Nos corresponding to SV Nos 0 When the Auto Tuning AT function is used PID values are set automatically You need not set them Refer to 6 8 1 Execution stop of auto tuning Depending on the object of control however it may be required to correct PID values even when auto tuning is executed Press the displayed This is only when the PID screen was called from any of the other screen groups If you press the group screens and press the SCRN key the screen of PID No 1 is displayed Th
73. r SSR drive voltage output the lamp lights when control output 1 turns on and goes out when it turns off 4 OUT2 For current or voltage output the brightness of the lamp changes in proportion to the strength of control output 2 For contact or SSR drive voltage output the lamp lights when control output 2 turns on and the lamp goes out when it turns off 5 STBY In execution standby control this lamp lights when output is held in a standby STANBY state 6 RUN Flashes during the execution of ramp control It lights when ramp control is temporarily stopped 7 ESV Lights when external switch EXT is set in multi SV No selection switching 8 REM Lights when remote setting REM is set in SV No selection 9 COM Lights when parameters or the like are set via communication COM 4 Key Switch Operation and Description of Screens 4 1 Application of power Upon applying power on the LCD display the following initial screens appear for about 1 5 seconds each followed by the initial screen of the monitor group On these initial screens confirm that this instrument is as specified when your original order was placed Initial screen upon power application Initial screen of the monitor group INPUT RTD EV YES DI O YES SVNo Application gt lt A SR253 ge RANGE 0 000 50 000 pe REM v HB NO 01 25 000 of power CONTROLLER OUT 1 Contact Aol V Ao2 NO DEN TR ID GER
74. ring range SV Low within measuring range 25000 unit 25000 unit 25000 unit 25000 unit Higher limit value of measuring range Lower limit value of measuring range Higher limit value of measuring range Lower limit value of measuring range Diffrntl Action hysteresis only for DEV PV and SV 1 9999 unit 20 unit Delay Delay time only for DEV PV and SV OFF 1 9999 sec Inhibit Inhibit action only for DEV PV and SV OFF ON Charact Key Lock 1 Output characteristics only for DEV PV and SV 48 Open Close W OPTION Group Group 5 OPTION Group Analog Out1 Aol Mode Description of function Analog output 1 assignment Setting range PV SV DEV OUTI OUT2 Initial value Analog output 1 scaling Key Lock 1 OPTION Group Analog Out2 Analog output 1 scaling Description of function Analog output 2 assignment Within measuring range PV and SV 100 0 100 0 DEV 0 100 0 OUT1 and OUT2 but Aol Sc L z Aol Sc_H Setting range PV SV DEV OUTI OUT2 Lower limit value of measuring range Higher limit value of measuring range Initial value Analog output 2 scaling Key Lock 1 OPTION Group Dim m 1 4 Analog output 2 scaling Description of function DII assignment DD assignment DI3 assignment Key Lock 1 OPTION Group Heat Brak HBA Curr DI
75. rol by means of no voltage contact signals externally actions to be executed can be selected from the following 8 types and may be assigned to DII through 4 Description of action When not in operation Signal detection Nop No Manual Switching control output between auto and manual ON Manual Remote Setting REM SV changing LOC SV setting ON REM SV set Auto Tune Switching ON OFF of AT ON edge AT execution Stanby Switching execution pause of control ON pause Dir Act Switching direct reverse action of output characteristics ON Direct action Switching pause restart of ramp control ON Pause in ramp control Only during execution of ramp control Switching ON OFF of EV and DO output ON EV and DO outputs ON For details see the explanation of Direct below Stop Direct Note 1 When not in operation When items shown in these columns are in operation those shown in the Description of action columns are unable to be brought into execution by external control The same applies to front key operation Note 2 Timing of detection of external control input signals Level input Action continues while the contact is ON Edge input When a contact is ON for 0 3 seconds or longer its action starts and continues after the contact is OFF When it turns ON and remains for 0 3 seconds or longer again the action is stopped Note 3 External control input may not be detected unless ON or OFF continues for 0 3 s
76. rrent input 20mA Note 1 Note 2 Note 3 Note 4 Note 5 For P B see 6 7 9 Setting of remote proportional coefficient REM OUT REM input value Sc H Sc L 2 Sc H Se L x P B 96 Here linear delay operation on the above REM OUT I is carried out by the use of REM Time Note that REM OUT I is restricted as follows 100 0 REM OUTI lt 100 0 96 For REM Time see 6 7 10 Setting of remote linear delay time External control operation is not carried out when remote input value goes over scale When REM has been assigned to DI input external control operation is carried out as follows If DI to which REM has been assigned is OFF gt External control operation is not carried out If DI to which REM has been assigned is ON External control operation is carried out In the event external control operation is started before the control system and REM input become stable control action may lack stability We recommend you to begin external control operation only after the control system and REM input are somewhat stabilized 8 Setting of remote tracking Group 2 13A REM Mode RSV Setting range YES NO REM Trek NO Initial value NO REM P B OFF REM Time OFF Remote SV value can be copied in SV value of any local SV No In case REM Trck YES O When KEY has been selected in 6 7 3 Setting of selection switch of multi SV No Upon moving from remote SV No to desired local SV No b
77. s in close proximity to a device which generates high frequency waves 5 Where highly intense vibration or impact is generated or transferred 6 Where the relative humidity is 90 RH or below dew point 7 Where the elevation is in excess of 2 000 m 2 2 Mounting N Caution For safety s sake and to maintain the functional level expected of the product do not remove it from its case If it is required to be removed from its case for replacement or for repair contact our business office in your neighborhood 1 Machine the mounting hole by referring to panel cutout below 2 Applicable thickness of the mounting panel is from 1 0 to 4 5 mm 3 As this product provides mounting fixture insert the product from the front panel for installation 2 3 External dimensions and panel cutout 1 SR253 External dimensions and panel cutout 138 55 When I O connector lead is attached When terminal cover is attached 130min El El 30 E Ie a i al E 8 92 Ei EX B E E PANEL CUTOUT 92 H x 92 W 40 8 Omm 2 Dimension of current transformer CT for heater break alarm For 0 30A CTL 6 S For 0 50A CTL 12 S36 8 rex We
78. sedssevsesansvedispvsseacsassssetbsnedassterusbacvsedcesstiveesdcesveney 5 3 2 Tistruetion for front panel nica M 5 Key Switch Operation and Description of SCEGEHS ci eee terr pf D ree HT etos eere EH eda i ED ve OR pe eee 6 4 1 Apple tonof power 5555 entiende eene a idas 6 422 Howto move B e Directa toli dm T S 6 4 3 Data change and registration PM 6 1 Change of numerical value ws 6 2 Change of letter Condition or the like 4 rne tbi riot rere etis titio be erede su peel een ee REEE o a E ERR PA PEE RETE 6 LCD Screen Parameter PIETar UT 7 Functions of the Respective Groups 8 6 1 Lock Tnitialization group Group 8 8 9 1 Setting of keylock 8 2 Setting of screen return time 8 3 Setting of initialization 9 4 Setting of mode a O 6 2 Unit Measuring range group Group Tiran ii a reed eee deese ETE QR eee ERR con d aep d gres enl esee eh ee raga 10 13 1 Setting of Me PV bl s M 10 2 Sens OPE PV Ble Luna se o feit eh ie ori de nte tetigi aning 10 H SENE OPI T DYPE Ke EIE 11 4 Setting OF reference Junction compensatorias aaron diia jaa pirita 11 5 Setting of measurins unit D ii dl i 11 6 Setting of rounding of lowest decimal place s iret o r
79. sip S ueaJoS z SJON Kan e 5 eui sseid seui POOP Jo pios YOU UM peurej sueeJos 0 BAO OL SJON H i DERIO jtm e c rcs 1 070 S Ha 1 1 H soe ita SOZI I I3TTG Wau uojouny jeuondo Joy U39195 I b 86 i Vi eexzaweesssssdul e teARALL so e ita OT Gia isea WIN E T i l i Ore vere i ueaJos puepuelg I i 28185 AS 1 TUFT AS WFT AS SOW 8819s UO S JON MI 1 Eu ETE zo vat ET taper soe sta Sor e A EMT 07 it v e NYOS Ne 5 e3ouew CON TE A 0 001 000 SZ 070 SION MOT A3G X XXXX 1 a L ov NES B NEDS 0 00v 0 001 TM E G LE Gr mag 7 TW201 uorgeaedo b abueg 0000s mes oso dOlS uny Burdurey ON 3nbr4 0 0 y 000 0 Tos 440 DAX 9X34 TO13UO0D atun 0 0 p c dg E SPOW zov SENDE OinV W v TO79U0D cL c9 ces alv at A NDS jene AES 0457 BUON Teymur WHINI duoj f3 s og AQ zmo 00005 Hos tow 000 5z 340 3e3 dstq 330 rad Ad sc 049 ano 0000 T2S Tov TH A3G 2 330 4207 Kex 3 00 seta Ad MESA 32V mo 1 24 a se eee 1 8 A 1 9 rs Viv El Nos NES Nos Nos EOS p nox5 usozos dn3 s p dnozb usazos dnas nozB users L dnoxB users dnoxB u88z08 dnjos p dnox6 usozos dn3 s a dnoaB usazos dnqes TETAITUT pue yooq Aey aTea5 ebuey pue pun dn3es 3nd3no To1quoy uor3erex uor3do UOTJPTST OG pue INTAJ 3TUTT 3M0 pue qid Burdueg ejousy pue AS inoiB ueeios o13u05 asia HH HE MHE a 141385 idH5 iuo n 3 LINI O01 PONY LINO LN41NO S
80. t SV No by applying contact signals to 24 pin plug terminals as shown in the following table When SV No 5 is to be selected Short across pin Nos 12 COM 7 SEL1 and 5 SEL3 SR253 VO 24 pin plug SW COM SV SEL1 SV SEL2 No 7 SEL1 SV SEL4 No 6 SEL2 No 5 SEL4 SV SEL8 No 4 SEL8 The mark shows shorting between the pin No and COM Note 1 When SV No 0 is selected it becomes SV No 1 and selection of any between No 11 and No 15 makes it SV No 10 2 External control Actions assigned to DIs can be controlled by external no voltage contact input signal or open collector input signal To use this function it is necessary to assign actions to the respective DIs in 6 4 3 Setting of DI assignment Example of use Actions assigned from outside the instrument can be controlled when switch is connected to external input output 24 pin plug Nos 12 COM 11 DO1 10 DO2 9 DO3 and 8 DO4 and contact signals are applied VO 24 pin plug DI COM DH DI2 DI3 DI4 42 8 Connecting Devices for Instrument Terminals 8 1 24 pin plug Pin arrangement of external input output 24 pin plug Pin No External contact input Pin No Open collector output SL SEL8 SL SELA SL SEL2 SL SEL1 DI4 DI3 DI2 DI1 SV DI COM gt BIN CODE 1 2 3 4 5 6 7 8 9 10 11 N Exterior view of 24 pin plug available separatel
81. tion Group Group 8 LOCK INIT Group Description of function Key lock The key lock parameter is not locked 19999 26000 unit Minimum span 100 unit Maximum span 25000 unit but Sc_L lt Sc_H Setting range OFF LOCK I excluding SV and CONTROL LOCK2 excluding SV LOCK3 all parameters 1000 unit Initial value OFF Disp Ret Time for screen to reappear OFF 10 120 sec Initial Key Lock 1 LOCK INIT Group Key Lock 1 Initialization Description of function 51 None EXE1 Parameters marked with EXE2 All including those marked with Setting range One output 00 02 Two outputs 00 01 02 03 Initial value 02 for one output type 03 for two output type 11 Sheet for Recording Set Parameters SV Remote Ramp setting group Group 2 and PID setting group Group 3 SV set value User set value Multi SV No 9 10 PID set value output 1 Set value for output limits output 1 PID set value output 2 Set value for output limits output 2 User set value SV Limt L User set value Zone HYS SV Limt H Zone PID SV Select REM PID REM Bias REM Filt REM Sc_L REM Sc_H REM Mode REM Trck REM P B REM Time SF Output group Group 6 User set value Out Actn RAMP Down Out Cyc
82. tput PID 1 Setting range 20000 20000 unit P2 3 0 Initial value O unit Is 120s De 30s lpB 3 0 0 To carry out two output control by taking characteristics of the object of control and the energy saving effect into account action range of control output 2 can be set as shown in the following action characteristic diagrams Example When MODE 1 or MODE 3 is selected in 6 1 4 Setting of mode and Rev Act in 6 3 1 Setting of output characteristics ac output alaani Control output 2 Control output 1 Solid line E p Control output 2 Dotted line OD Of O DB 0 Unit 50 p p 2 20000 lt DB lt 0 unit 20000 gt DB gt 0 unit 0 A A DB DB 0 DB A Set value SV LOW Measured value PV gt HIGH Example When MODE 1 or MODE 3 is selected in 6 1 4 Setting of mode and Dir Act in 6 3 1 Setting of output characteristics Control output 1 Control output 2 Control output 1 Solid line x Control output 2 Dotted line 0 D DB 0 Unit E 20000 lt DB lt 0 unit 20000 gt DB gt 0 unit 100 50 0 A x DB DB 0 DB A Set value SV LOW Measured value PV HIGH 8 Setting of output limit Group 3 1C 01 Lmt LJ 0 0 Setting range Lower limit value 5 0 104 9 01 Lmt H 100 0 Higher limit value 4 9 105 0 02 Lmt L 0 0 Lower limit value Higher limit value though A HORN Y Initial valu
83. ue 1 REM PID 01 SE 0 40 Remote PID corresponding to remote SV can be changed from PID Nos 1 through 10 The setting does not work however in case PID function is being used 12 Setting of target value function Group 3 11 Zone HYS 20 Setting range 0 00 1 00 Zone PID Singl Initial value 0 40 REM PID 01 sra 0 40 If set value is subjected to overshooting or undershooting during PID control it is corrected by this function with reference to control results SF 0 00 Ordinary PID operation is carried out SF gt Small Corrective function against overshooting works weakly SF gt Large Corrective function against overshooting works strongly Note 1 Setting of a target value function is valid only when an integral action has been selected Pl or PID action 30 6 7 SV Remote Ramp group Group 2 Press the GRP key to call SV screen Group 2 0 Then press the SCRN key and the screen of SV No currently in use is displayed This functions only when the screen 2 0 has been called from another group In case the GR P key is pressed in the same group to return to the initial screen of the group and the SCRN key is pressed the screen of SV No 1 is displayed The SV No changes successively every time the SCRN key is pressed thus moving to the screen of SV No to be set or changed Use the key for selecting a parameter in the screen
84. utput cannot be turned off unless OFF is set for alarm current value or power is turned off Real mode REAL If CT current level returns to normal while alarm is being output the alarm output will automatically turn off Matters Related to Setting for Communication Environment 8 Communication related setting Group 5 5 A B COMM RS 422A Add 201 BPS 19200 DATA 8E1 Mode Standard MEM 3 RAM CTRL STX ETX CR BCC Add DELY 40 For communication related setting see the separate Instruction Manual on Communication Interface 20 6 5 Event DO group Group 4 The screens of this group are not displayed when EV and DO are not set as optional on the screens concerned On the description of each setting explanation is made on EV but this explanation applies to DO as well Press the GRP key to call the EVENT DO screen Group 4 0 and move to a screen in which setting or a change is to be made by the use of the SCRN key Use the lt 2 key for selecting a parameter on the screen 0 0 4 0 SVNo On 25 000 t EVENT DO DEV Pi Piri EVENT and DO relation 3 5 a setup screen group GRP SCAN Y 41A EV 1 Model DEV High Set Point 25 000 VDiffrntl 0 020 t lt gt 4 18 Ev 1 SCAN Delay B OFF Inhibit OFF Charact Open SCRN 4 2 EV 2 M
85. v EV2 Xe i Q Remote setting input pmi ES e nba IE Eno I PM 2 bee e et d Input gt THE B mw em Ee i 3e 1 I Current or REM pus er e FE Output 2 voltage input TC input R T D input TT EXT i nets com O Get to Tr A at m8 coru 4 16 A E i M 7 7 AF J ES RS 422A M s ofn E gt l l B DC i RS 485 ale ESL A 8 LLRA t i Mu 188 na ol Ex B MADE IN JAPAN 9 9 9 Heater break alarm CT input terminals External input output 24 pins option Open collector output External contact input option amp 4 DO COM SV D1 COM 3 3 Relay 63 DO 1 D11 9 0 34 Relay DO2 D12 Relay DO 3 D13 9 9 gt Relay DO4 D14 Relay DO5 SV SEL1 2 9 v 1 SV SEL2 9 gin Maximum 50mA Maximum 24V DC SV SEL 4 9 34 CODE Diode for protection of internal transistor SV SEL 8 2 9 gt Rating 100V 1A 2 6 Terminal arrangement table Name of terminal Terminal No Description Analog output terminal No 1 option Analog output No 1 Analog output terminal No 2 option Analog output No 2 Remote setting input terminal Remote setting input Input terminal Voltage current or thermocouple input Power terminal AC power supply Gr
86. value DEV High 25000 unit Mode DEV High DEV Low 25000 0 unit DEV Low 25000 unit Set Point M 25 000 DEV Outside 0 25000 unit DEV Outside 25000 unit Diffrntl 0 020 DEV Inside 0 25000 unit DEV Inside 25000 unit PV High Within measuring range PV High Higher limit value of measuring range PV Low Within measuring range PV Low Lower limit value of measuring range SV High Within measuring range SV High Higher limit value of measuring range SV Low Within measuring range SV Low Lower limit value of measuring range In this screen action points of event output and external output are set DEV High DEV Low DEV Outside DEV Inside Deviation value input PV High PV Low SV High SV Low Absolute value input In the case of DEV Outside or DEV Inside inputting a positive deviation value and setting a positive action point automatically sets a negative action point to form a range of action points Example When SV value 50 C Mode DEV Outside Set Point 20 00 C is set ON ON gt a positive action point and a negative action point are decided and the action point range as shown in the right diagram is formed 3 Setting of action hysteresis Group 4 1A 4 8A A OFFA OFF 1 1 1 1 1 30 C 50 C 70 C The setting is required only when any of the event types 1 8 is set for event action and DO action When any of the event types 9 19 is set these screens are not
87. when lateral force is applied During a wiring operation it should be removed Once wiring is completed re attach it reliably by pressing it into the top and bottom grooves in the terminal portion 11 Noise filter If the instrument appears to have noise interference caused by the power supply use a noise filter to prevent erroneous functioning Install a noise filter on the grounded panel and make the wire connecting the noise filter OUT terminal and the power supply terminal on the controller as short as possible Make this wire as short as possible Noise filter Controller 2 3 IN OUT 100 240V AC 100 240 V AC 50 60Hz Aam Grounding Recommended noise filter TDK ZMB2203 13 2 5 Terminal arrangement diagram Power supply uly Free supply T 100 240V AC 12 For grounding Control output Current output Event output option Relay contact Voltage output output SSR drive voltage output Output 1 Analog output option l DA v ES ssi 1 an 11 190 COM TON AA 13 ham Output EVI 50 60Hz 15VA He peee aava ng NO iud ind 14 e
88. y Upon registration the SV No stops flashing 29 000 n m 25 000 m 25 000 mu A 500 T 02 D 03 DEV Pana DEV Paaa DEV Pia P a DEV Pia Paa a 0 886 m 0 886 m 0 886 m 1 368 tener 73 ENT Note 1 In the case of SV Select EXT the ESV lamp flashing SV No cannot be changed by front key operation 40 4 Switching to Remote SV Switching to Remote SV is available on the initial screen of monitor group group 0 0 key as 01202 gt gt 10 gt REM In the SV No in execution of switching select by using the Resistering by ENT cannot be done key allows you to switch However when remote function is assigned to DI switching with the SV No in execution Ww 294000 1 m 29 000 7 g 24 500 X mw 20 000 ew 2 000 T 01 01 REM REM DEV Print DEV Pura aaa rt pv Pr gt pv Pr gt DEV Papia aaa rt 0 886 0 886 0 886 0 886 5 886 3 CA ENT 5 Explanation about group 0 1 screen Group 0 1 Output value of control output 1 96 gt Output value of control output 2 96 Output bar graph of control output 1 96 OUT1 91 6 OUT2 57 3 0 50 100 0 FEE OE OL Gg gn g g Output bar graph of control output 2 96 Note 1 In the one output type instrument neither output value nor output bar graph of OUT2 is
89. y attached with connection cord with crimp terminal shielding wire and mark band 1000 mm i gt 100 mm H EN O O Ic 3 6 o Leo 0 e KE Use clamp filter in a position close to the plug 9 Shielding wire e e Model CA2530 01 9 e Note 1 If you need connection cords which are longer than 1000 mm call our local business office 8 2 Multi SV No switching device Exterior view of multi SV No switching device available separately terminal arrangement and panel cut out A 4555 1 5 DI COM 2 ree SVSEL1 SV No SELECTOR 3 r e17 sv seL2 e 4 Lo 048 y SV SEL4 Go LO oo 9 SV SEL8 Y KA251 SHIMADEN v Model KA251 Unit mm H48xW48xD 100mm Exterior view Diagram of terminal arrangement Panel cut out size For switching SV No externally use this device together with the above mentioned 24 pin plug attached with connection cords 43 9 Error Messages PV Display 9 1 Problems found in check up upon application of power Error message Cause ROM problem RAM problem EEPROM problem Note 1 If any of the messages shown in the table are displayed repair or replacement will be necessary Turn the power off as quickly as possible and call the agent or our business office A D pro
90. y for TC input The screen is not displayed in the case of R T D or linear input PV Bias 0 0 Setting range INTER EXTER PV Filt OFF Initial value INTER CJ Com INTER Selection is made as to whether reference junction compensation is carried out internally or externally Usually it is done in the instrument but it should be done externally if higher accuracy is required 5 Setting of measuring unit Group 7 2 Unit 3 Setting range TC thermocouple input C F K Figur YES R T D thermoresistance input C F Range 14 Current or voltage input C F NONE no indication of unit 0 0 200 0 Initial value C The unit of input is set Note 1 When this parameter setting is changed Exe1 as an initialization setting is automatically brought into execution Note 2 In the case of TC input changing from C or F to K automatically brings the range to 18 Note 3 In the case of TC input changing from K to C or F automatically brings the range to 6 6 Setting of rounding of lowest decimal place Group 7 2 This setting is only for TC or R T D input The screen is not displayed in the case of linear input Unit Y Setting range YES NO Figur 4 YES Initial value YES Range 14 DU 200 0 J Whether or not to leave the lowest decimal place of set measuring range can be chosen by this setting If your measuring range does not have functions this function is of
91. y key operation remote SV value is copied in SV value of the local SV No Notwithstanding if Remote is assigned in 6 4 3 Setting of DI assignment and REM SV LOC SV has been switched by means of external contact signal the remote SV value is copied in SV value of SV No 1 O When EXT has been selected in 6 7 3 Setting of selection switch of multi SV No Upon moving from remote SV No to local SV No selected by external switch by means of external control signal remote SV value is copied in SV value of the local SV No In case REM Trck NO Remote tracking does not function Note 1 In case remote SV values goes over Scale remote tracking does not function 34 9 Setting of remote proportional coefficient Group 2 13A This parameter is valid only when REM Mode CTRL REM Mode RSV Setting range OFF 0 1 999 9 REM Trck NO Initial value OFF REM P B 4 OFF REM Time OFF Remote proportional coefficient REM P B is the parameter for setting a percentage at which a value whose range is specified in Remote Scale is output to REM OUTI The larger REM P B the larger REM OUTI value The smaller REM P B the smaller REM OUTI value Note 1 When REM P B OFF external control operation is not carried out 10 Setting of remote linear delay time Group 2 13A This parameter is valid only when REM Mode CTRL REM Mode RSV Setting range 1 9999 control cycle 0 2 sec REM Trck NO Initial value OFF

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