ETC442_e240805 SV60584 184906 An 01 En PID Temperaturregler ETC442
User Manual: SV60584
Open the PDF directly: View PDF .
Page Count: 4
Download | |
Open PDF In Browser | View PDF |
english Read this document carefully before using this device. The guarantee will be expired by damaging of the device if you don't attend to the directions in the user manual. Also we don't accept any compansations for personal injury, material damage or capital disadvantages. ENDA ETC442 PID TEMPERATURE CONTROLLER Thank you for choosing ENDA ETC442 temperature controller. * 48 x 48mm. * Selectable sensor type. * Input offset feature. * Automatic calculation of PID parameters (SELF TUNE). °C ETC442 HEAT Enter PID parameters of the system if they are known at the beginning. Otherwise, Self-Tune should be activated. * Configurable Heat/Cool control. * Input offset feature * Adjustable main output during sensor failure. * Parameter access protection on 3 levels. * Change over automatically as actuators between 0-100% * Programming just by using keypad. PV ALR SV SET HSET ENDA ASET TEMPERATURE CONTROLLER TECHNICAL SPECIFICATIONS Sensor type Temperature range °F °C J (Fe-CuNi) Thermocouple K (NiCr-Ni) Thermocouple T (Cu-CuNi) Thermocouple S (Pt10Rh-Pt) Thermocouple R (Pt13Rh-Pt) Thermocouple Pt 100 Resistance Thermometer Pt 100 Resistance Thermometer EN 60584 EN 60584 EN 60584 EN 60584 EN 60584 EN 60751 EN 60751 0... 600 °C 0...1200°C 0... 400°C 0...1600°C 0...1600°C -200...600 °C -99.9...300.0 °C +32... +1112 °F +32... +2192 °F +32... +752 °F +32... +2912 °F +32... +2912°F -328... +1112 °F -99.9...+543.0°F* Accuracy 0,2% (of full scale) 0,2% (of full scale) 0,2% (of full scale) 0,2% (of full scale) 0,2% (of full scale) 0,2% (of full scale) 0,2% (of full scale) 1 digit 1 digit 1 digit 1 digit 1 digit 1 digit 1 digit * Display restricted ENVIRONMENTAL CONDITIONS Ambient/storage temperature Max. relative humidity Rated pollution degree Height 0 ... +50°C/ -25... +70°C, (without condense) 80% up to 31 °C decreasing linearly 50% at 40 °C . According to EN 60529 Front panel : IP60 Rare panel : IP20 Max. 2000m Do not use the device in locations subject to corrosive and flammable gases. up to date: 240805, modification reserved and can be change any time previous notice ! ELECTRICAL CHARACTERISTICS Supply Power consumption Wiring Line resistance Data retention EMC Safety requirements 230V AC +10% -20%, 50/60Hz or 24V AC 10%, 50/60Hz Max. 5VA 2.5mm² screw-terminal connections For thermocouple max.100W, for 3 wired Pt 100 max. 20W EEPROM (> 10 years) EN 61326-1: 1997, A1: 1998, A2: 2001 (Performance criterion B for standard EN 61000-4-3) EN 61010-1: 2001 (Pollution degree 2, overvoltage category II) OUTPUTS HEAT ALARM Life expectancy for relay Relay : NO+NC, 250V AC, 2A (for resistive load), or 12V DC 20mA logic output Relay : NO, 250V AC, 2A ( for resistive load), can programmed as NC function. Mechanical 30.000.000 operation; Electrical 300.000 operation CONTROL Control type ,Control algorithm A/D converter Sampling time Proportional band Integral time Derivative time Control period Hysteresiz Actuator function (P.Err.) Single set-point and alarm control On-Off / P, PI, PD, PID (selectable) Better than 15 bits 400ms Adjustable between 0% and 100%. If Pb=0%, ON/OFF control is selected. Adjustable between 0.0 and 100.0 minutes Adjustable between 0.00 and 25.00 minutes Adjustable between 4 and 250 seconds Adjustable between 1 and 50°C (122°F) Change over automatically as actuators between 0-100% power by sensor defect HOUSING Housing type Dimensions Weight Enclosure material Suitable for flush-panel mounting according to DIN 43 700. W48xH48xD87mm Approx. 250g (incl. packaging) Self extinguishing plastics. While cleaning the device, don`t use solvents (thinner, benzine, acid etc.) or corrosive materials 1/4 TERMS °C HEAT (7) PV ( 1 ) Process value during normal operation Mnemonic parameter code during programming ALR ( 2 ) Set point during normal operation. Data value during programming ( 3 ) Increment key during normal operation and programming Parameter selection key during programming ( 4 ) Decrement key during normal operation If only this key is pressed in normal operation, software version number is seen. ASET Parameter selection during programming TEMPERATURE CONTROLLER ( 5 ) Alarm set key during normal operation Menu selection key during programming ( 6 ) Heat (main) set key during normal operation Parameter selection key during programming 4 digit seven segment red LED SV SET HSET ENDA ( 1 ) PV display ( 2 ) SV display 4 digit seven segment yellow LED PV display :7mm SV display :7mm Microswitch Character heights ( 3 ),( 4 ),( 5 ),( 6 ) Keypad ( 7 ) State indicator 2 red LEDs for HEAT and ALARM outputs ALARM OUTPUT TYPES SV Band Alarm Deviation Alarm A.tyP.= Band A.tyP.= dE. SV ON SV ON ON OFF OFF A.StA.= HI ON ON ON OFF OFF A.StA.= Lo OFF HyS.A. HyS.A. HyS.A. SV+ASV +300 -300 (ASV min = -300, ASV max = +300) (IfinP = Pt.0, ASV min = -30.0 ASV max = +30.0) ASV = Set point of alarm output SV = Set point of Heat output A.StA.= bIHI HyS.A. SV-ASV ASV ASV min = beginning of scale ASV max = end of scale A.StA.= boHI OFF SV+ASV 300 300 SV = Set point of heat output ASV = Set point of alarm output (ASV min = 0, max = 300 ) (IfinP = Pt.0, ASV min = 0.0 ASV max = +30.0) Band Alarm With Inhibition A.tyP.= bAn.I. SV+ASV SV+ASV SV SV SV-ASV SV-ASV ON OFF ON OFF Band alarm is possible Beginning Beginning of procedure of procedure SV =Set point of heat output ASV = Set point of alarm output (ASV min: 0 max: 300 ) By the diagrams are shown only switching examples for positive ASV-Parameters ! Independent Alarm A.tyP.=IndE Band alarm is possible MODIFICATION OF HEAT AND ALARM SET POINTS 130 150 PV SV SET HSET H.SEt 150 PV SET SV HSET H.SEt 149 PV SET SV HSET H.SEt 150 PV When H.SEt is released, it returns to normal operation. SET SV HSET SET key until the massage H.Set appears on the display. Then, the value is adjusted by using First, press and hold keys. HSET A.SEt 250 PV SV ASET ASET A.SEt 249 PV SV ASET A.SEt 250 PV SV ASET When A.SEt is released, it returns to normal operation. First, press and hold key until the massage A.Set appears on the display. Then, the value is adjusted by using keys. ASET H.SEt is the value of uPL. parameter and the minimum of it is the value of LoL. parameter. If independent alarm is selected, A.SEt value can be adjusted between the limits of the full scale. If deviation alarm is selected, A.SEt value can be adjusted between -300 and +300. If band alarm is selected, A.SEt value can be adjusted between 0 and +300. NOTE: The maximum of Error Messages ---150 PV SV Temperature value is higher than the end of the scale PV ---- SV 150 Temperature value is lower than the beginning of the scale PFA 150 PV SV Temperature sensor is broken or over temperature PSC 150 PV SV Pt 100 or a sensor line is short circuited 2/4 ASET H.StA. = Configuration of the heat output. H.StA. = HEAt means heating control. H.StA. = cooL means cooling control. H.StA. HEAt S.Str. run P.Err. 0 HyS.H. = Hysteresis of the heat output. Adjustable between 1 and 50 °C/F. This parameter is only to seen by Pb = 0 seen. HyS.H. 2 HSET press and hold S.Str. run 5 sseconds later key until flashing of the run message. Then if S.Str. S.tun. When holding HSET SET HyS.H. 6 HyS.H. 6 HSET SET key, the value of parameter flashes and using HSET SET HyS.H. 5 HyS.H. 6 HSET SET A.Lo.L. = Alarm value lower limit. If InP. or UnIt. parameters are changed, the minimum value of the A.Lo.L. parameter changes to the minimum scale value of the selected sensor type. The maximum value is the value of A.UP.L. Parameter. A.UP.L. = Alarm value upper limit. If InP. or UnIt. parameters are changed, the maximum value of the A.UP.L. parameter changes to the maximum scale value of the selected sensor type. The minimum value is the value of A.Lo.L. parameter. UnIt = The temperature unit. Selectable as °C or °F. Note : If the temperature unit is changed, the value of the UPL., Lol., A.UP.L., A.Lo.L. parameters changes automatically. Offset value is added to the measurement value. Adjusted between -99 and +99°C. The normal value is 0. oFFS. = Offset value. If InP. or UnIt. parameters are changed, the minimum value of the Lo.L. parameter changes to the minimum scale value of the selected sensor type. The maximum value is the value of uPL. parameter. LoL. = Set point lower limit. key is pressed and held 0.6 seconds, SET HSET ASET A.Con.= ConF.Parameters of configuration menu access level code. nonE = Not visible. P.yES = Visible and modification can be done. P. no = Visible and not modified. A.ALr.= Parameters of alarm menu access level code. nonE = Not visible P.yES = Visible and modification can be done. P. no = Visible and not modified. A.HEA .= Parameters of heat menu access level code. nonE = Not visible P.yES = Visible and modification can be done. P. no = Visible and modified. tC.CA. CAL. key is pressed, calibration for TC input tC.CA. End Returns to the normal operation mode. A.CAL.= Calibration menu. no = Not visible yES = Calibration can be done. 5 seconds later A.CAL. no activated. A.tun.= S.tun. self tune menu. A.tun. no = Not vsible yES yES = Self tune procedure can be A.Con. P.yES A.ALr. P.yES A.HEA. P.yES SET HSET Pt.CA. CAL. tC.CA. End key is pressed, calibration for Pt 100 5 seconds later Values on the displays are default values. Before starting calibration procedure, make a connection between terminal 1 and 2. Then connect a 212.02ohm referance resistor should be connected between terminal 2 and terminal 3 or apply 300 C from Pt-100 calibrator. input starts. The messages C.Str, a for digit number and Cal are seen in sequence on the lower display. After 5 seconds End message is seen. If the four digit number is 3895 or 3896 or 3897, this means Pt 100 calibration was successful. Otherwise, Calibration procedure should be repeated. When holding HSET SET key the message "run" flashes. In this case if Pt.CA. run HSET Press and hold SET NOTE 2 ° 3/4 Before starting calibration procedure, 50.000mV referance voltage must be applied to the thermocouple inputs. Returns to the normal operation mode starts. Then the messages C.Str, a for digit number and Cal are seen in sequence on the lower display. After 5 seconds End message is seen. If the four digit number is 4999 or 5000 or 5001, it means TC calibration was successful. Otherwise calibration procedure should be repeated. When holding HSET SET ASET HSET SET S.cod. = Security menu access S.cod. code. It 0 should be 666. SECU. key the message "run" flashes. In this case if tC.CA. run HSET press and hold SET NOTE 1 (See Note 2 below) Pt.CA. = In this case, the Pt.CA. calibration of Pt 100 input can run be made. (See Note 1 below) temperature is calibrated by this parameter. It is not displayed if input type is rt.CA. = The environment tC.CA. = In this case, the tC.CA. calibration of thermocouple run input can be made. the value of the selected parameter changes rapidly. If waited enough, the value increases 100 at each step. After 1 second following the release of the key, initial condition is returned. The same procedure is valid for the decrement key. If ASET S.cod.= Calibration menu. S.cod. access code 0 It should be 555. CAL. uPL. = Set point upper limit. If InP. or UnIt. parameters are changed, the maximum value of the UPL. parameter changes to the maximum scale value of the selected sensor type.The minimum value is the value of LoL parameter. key is pressed, Self-tune procedure begins and the measurement value is keys the requested value can be adjusted. HSET SET Modification of Parameter ASET Before starting sef-tune procedure, be sure A.tun parameter is YES in theSECU menu. S.tun. rt.CA. 25.0 ASET HSET ASET InP. = Type of sensor and scale. Pt = Pt 100 -200 to +600°C Pt.0 = Pt 100 -99.0 to 300.0°C FE.cn. = J (Iron vs. Copper-Nickel) 0 to +600°C nc.nA. = K (Nickel-Cr.vs. Nickel-Alum.) 0 to +1200°C c.cn. = T (Copper vs. Copper-Nickel) 0 to +400°C P10.r. = S (Platinum-10%Rhodium vs. Pt.) 0...+1600°C P13.r. = R (Platinum-13%Rhodium vs. Pt.) 0...+1600°C Note : If the selected sensor type is changed, the value of the UPL., Lol., A.UP.L., A.Lo.L. parameters changes automatically. Press any key to disactive the self-tune procedure. A.Lo.L.. 0 a.UP.L. 600 Unýt. °C oFFS. 0 Lo.L. 0 ýnP. FE.cn. ConF. ASET Entering from the programme mode to the run mode: If no key is pressed within 20 seconds during programming mode, the data is stored automatically and the normal mode is entered. Alternatively, the same function occurs first pressing key and then pressing SET keys together. The message S.tun. flashes until the end of the Self-tune procedure. If ýt is succeeded, A.tun. parameter is automatically becomes "no" and S.tun. menu is canceled. When Self-tune procedure begins, the measurement value should be lower than the set point at least 5% of the full scale. If the measurement value is closer to a set point than this rate, self-tune is not be able to started and the message Err. is indicated on the lower display. HSET SET HSET SET 25 S.tun. energised during the sensor failure. If A.SAF.= oFF, the alarm output is not energised during the sensor failure. A.SAF. = The security state of alarm A.SAF. output during a sensor failure. oFF If A.SAF.= on , the alarm output is and Hi... For Lo. alarm output is energised below the alarm set point. For Hi. alarm output is energised above the alarm set point. If band alarm is seleceted, this parameter can be bIHI or boHI. bIHI means alarm is activated outside the band. .= The state of alarm output. A.StA. IfA.StA independent or deviation alarm is Hý. selected, the alarm output can be Lo. dE. = Deviation bAnd = Band bAn.I. = Band alarm with inhibition. A.tyP. = Function of alarm output. A.tyP. Four kinds of functions can be selected. ýndE. indE.= Independent during a sensor failure. Adjustable between 0% and 100%. If this parameter is adjusted to a value closer to the energy requirements of the system at the set point, process temperature is prevented to rise or drop to dangerous levels. SET ASET HyS.A .= Hysteresis of the alarm HyS.A. output. 2 Adjustable between 1 and 50°C. ALr. key, the programming mode is enabled. P.Err. = Actuator function. This parameter is used to adjust the main output point. Adjustable between 0% and 100%. If this parameter is set to 0, the output power becomes 0 at the set point. If it is adjusted to 50% output power becomes 50% at the set point. Using this parameter the energy requirements of the system is adjusted at the set point. So the set point can be achieved by minumum fluctuations and in the shortest time. P.rES. = The ratio of output power at the set Ct = Control period. Adjustable between 4 and 250 seconds. Setting Pb = 0 this parameter is not seen. SET HSET Adjustable between 0.00 and 25.00 minutes. If td = 0.00, derivation effect is not used. Setting Pb = 0 this parameter is not seen. td = Derivative time. Adjustable between 0.0 and 100.0 minutes. If ti = 0.0, integral effect is not used. Setting Pb = 0 this parameter is not seen. ti = Integral time. = Proportional band. Adjustable between 0% and 100% Setting Pb = 0% On-Off control is selected. Pb ASET key is pressed while holding P.rES. 0 Ct 20 tý 4.0 Pb 4 HEAt ASET if For activating Self-tune procedure, press and hold indicated in the above display. HSET SET DIMENSIONS Depth 2 87mm 1 °C ETC442 HEAT 48mm 54mm PV For removing mounting clamps: - Push up the flush-mounting clamp asshown in the figure left. - Then, pull out the clamp in direction 2. ALR SV SET HSET ENDA Temperature compansation sensor ASET TEMPERATURE CONTROLLER Connection cables Panel cut-out 51mm +0.6 mm 45 +0.6 mm 45 60mm Flush mounting adaptor Panel Note 1) While panel mounting, additional distance required for connection cables should be considered. 2) Panel thickness should be maximum 10mm. 3) It is free space (80mm) at backside to take apart the instrument from panel ATTENTION ! / CONNECTION DIAGRAM ENDA ETC 442 is intended for installation in control panels. Make sure that the device is used only for intented purpose. During an installation in a panel, all of the cables that are connected to the device must be free of energy. The device must be installed so that is protected against inadmisable humidity, vibrations, severe soiling and make sure that the operation temperature is not exceeded. All input and output lines that are not connected to the supply network must be laid out as shielded and twisted cables.These cables should not be close to the power cables or components. The shielding must be grounded on the instrument side. The electrical connections must be carried on by a qualified staff and must be according to the relevant locally applicable regulations. Terminal Connection ETC442-SSR Terminal Connection ETC442 ENDA INDUSTRIAL ELECTRONICS ENDA INDUSTRIAL ELECTRONICS ETC442 PID TEMPERATURE CONTROLLER ETC442.SSR PID TEMPERATURE CONTROLLER 8 9 10 + TC Pt 100 - 3 11 4 12 5 13 14 8 230V AC +10% -20% 50/60Hz 5VA 10 HEAT AC 250V 2A RESISTIVE LOAD + TC SURAN Industrieelektronik Im Mitteldorf 26 / D-72160 Horb a.N HEAT LOGIC OUT 12V DC 20mA 12 13 ALARM AC 250V 2A RESISTIVE LOAD Logic output of the instrument ETC442-SSR is not electrically insulatedfrom the internal circuits. Therefore, when using a grounding thermocouple, do not connect the logic output terminals to the ground. 230V AC Supply Cable size : 1,5mm² Fuse must be connected ! For J-K-T-S-R type thermocouple : Use suitable compansation cables. Don't use jointed cables. Pay attention to the polarities of the thermocouple cables as shown in the figure right For resistans thermometer : When 2 wired Pt 100 is used, terminals 1 and 2 must be short circuited. 5 + - Main switch 4 5 3 Pt 100 4 5 Tel.: +49 (0)7451 / 625 617 Fax: +49 (0)7451 / 625 0650 Note : 1)Cables for supply must be IEC60799 or IEC60245 conform. 2)Main switch should be with in easy reach and should be indicated ! TC - SENSOR INPUT : Fuse F 100 mA 250V AC + L N 4 11 SN: XXXXXXXXX + 184-253V AC 8 50/60Hz 5VA 9 3 14 If necessary use for the load separate fuse ! Supply : Pt 100 - ALARM AC 250V 2A RESISTIVE LOAD SN: XXXXXXXXX NOTE : 230V AC +10 % -20% 50/60Hz 5VA 9 Supply HEAT Output Order code ETC442 Relay 230V AC +10% -20% Logic output ETC442-SSR ETC442-24 Relay 24V AC 10% Logic output ETC442-24-SSR E-mail : info@suran-gmbh.de Internet : www.suran-gmbh.de 4/4
Source Exif Data:
File Type : PDF File Type Extension : pdf MIME Type : application/pdf PDF Version : 1.3 Linearized : Yes Page Count : 4 XMP Toolkit : XMP toolkit 2.9.1-13, framework 1.6 About : uuid:e64c432e-917a-4d8c-a020-355375ba9fbf Mod Date--Text : �� Creation Date--Text : �� Producer : Corel PDF Engine Version 1.0.0.458 Creator Tool : CorelDRAW Version 12.0 Modify Date : 2006:03:30 09:35:23+02:00 Metadata Date : 2006:03:30 09:35:23+02:00 Document ID : uuid:1b768de9-c1d6-48b0-a6f2-c77a18ce31a4 Format : application/pdf Title : ETC442_e240805.cdr Creator : Test Create Date : D:20051219175651 Author : TestEXIF Metadata provided by EXIF.tools