Operating Instructions DMP 96 E - Z - 2P/3P DMP 96 E - Y
Contents
1. Please read the installation notes attentively and observe all listed points when installing the unit If these notes are ignored function interferences can occur the required EMV guide lines are not complied with and CE conformity is no longer fulfilled Ensure before connecting and commissioning of the unit that the operating volt age and the required operating voltage ratio of the unit comply with those at the location see rating plate and technical data If necessary carry out the appro priate measures Ensure that the control voltage and load voltage at the loca tion is switched off and secured against switch on for the pe riod of installing the unit The electrical connections are to be carried out in accordance with the connection diagram and the appropriate national regulations Use multi core cable end at wiring with flexible jumper wire Arrange the supply lines to the unit in such a way that they are free from tensile load un der all conditions and that they are not in any possible danger of being cut off or crushed Shielded cables must be used for sensor leads for thermocouples shielded compensatory leads The sensor leads must be arranged spatially separated from the load leads and control leads power lines Compensatory leads for thermocouples must not be intermediately clamped with normal clamps as otherwise additional thermocouples are created which could falsify the measuring result Connect the shield2. D O L D Operating Instructions from program version 310M0 DMP 96 E Z 2P 3P DMP 48 ES Z 2P 3P DMP 48 EW Z 2P 3P DMP 96 E Y 2P 3P DMP 48 ES Y 2P 3P DMP 48 EW Y 2P 3P with configurable input as Single channel controller Z Sensor Pt 100 Thermocouple Standard signal 2P Two point controller Continuous controller Y NTC UUA 2 25 K NTC UUA 10 K PTC KTY 10 6 3P Three point controller Three point stepping controller Potentiometer 1kQ 100kQ DMP 96 E DMP 48 ES DMP 48 EW Q00 O DMP 48 EW 00O Operating and display elements Actual value display in operating mode LED is lit if output K 2 is active parameter display in input mode LED flashes if output K 2 is locked Nominal value display in operating mode Switching key controller manual actuator parameter value in input mode LED is lit if logic output is active Jump to input level and operating level confirmation key LED flashes if logic output is locked keying through the parameters on one level LED is lit if logic input is activated Increasing code value parameter value LED 1s litif outputiK 11 active 0 Reducing code value parameter value LED flashes if output K 1 is locked The display elements K 1 K 2 and A in locked condition Limit contact with locking break contact LED flashing tact ratio approx 1 5 LED on LED OFF Limit contact with locking make contact LED flashing tact ratio ap
3. itself To correct the controller parameters yourself you will need in depth knowledge of regulating methods Lifetime of relays independent of cycle time The self tuning level code 111 Display Opti on Opti OFF During self tuning extreme conditions can occur in the plant The self tuning procedure must be monitored continuously After self tuning the parameter CY X at the parameter level must be checked Lifetime of relays independent of cycle time Start up Discontinuation Inspection of the tuning The inspection of the tuning is important for the correct setting of the process The inspection of the settings can be carried out by observation of the controller proce dure or by recording the controller curve with a suitable recording apparatus Lifetime of the relay Period per switch Period after which the 10 switching cycles are ing cycle reached 8 hour day operation with 500 VA load approx 11 4 years approx 5 7 years approx 2 8 years This table is not valid for SSR relays solid state relays Error messages alling below range exceeding range sensor faulty interruption or short circuit hermocouple sensor lead balancing lead cross polarity standard signal cross polarity hermocouple ambient temperature of the unit gt 70 C or lt 10 Err 3 Forced correction of parameters in dependence of ranges After any change of configuration or re configuration of the ype of input th
4. without internal temperature compensation lt 80 ppm T Standard signal cross polarity protection zero point correction 999 9999 units 0 20 mA DC 4 20 mA DC 0 50 mV DC 0 10 V DC 2 10 V DC input resistance current input resistance voltage calibration accuracy linearity error Ri 1210 Ri gt 100 KQ lt 0 15 of measuring range extent lt 0 1 of measuring range extent temperature drift character lt 100 ppm C Sensor NTC UUA 2 25 K two wire connection 25 100T Sensor NTC UUA 10 K two wire connection 0 1506 Sensor PTC KTY 10 6 two wire connection 50 1256 sensor break protection short circuit protection zero point correction maximum power loss approx 1 6 mW calibration accuracy UUA 2 25 K lt 0 15 refer to range 10 100 UUA 10 K lt 0 15 refer to range 15 150 KTY 10 6 lt 0 15 refer to range 50 125 linearity error UUA 2 25 K lt 0 15 refer to range 10 100 UUA 10 K lt 0 15 refer to range 15 150 KTY 10 6 lt 0 15 refer to range 50 125 temperature drift character lt 100 ppm Potentiometer 1kQ 100kQ with zero point correction 999 9999 units input resistance voltage Ri gt 100 kQ calibration accuracy lt 0 15 of measuring range extent linearity error lt 0 1 of measuring range extent temperature drift character lt 100 ppm Input digital external potential free contact contact voltage approx 5 V DC Common data measuring cycle 500 ms resoluti
5. 006 DMP 48 ES 2 2P 3P XXXXX XXXXX XXXXX XXXX XXXX wae Programmversion XXXXX Fabriknummer XXXXXX PXX FXX HXX X Betriebsspannung XXX V AC XX VA Schaltleistung 500 VA bei 230 V AC Schutzklasse ll Schutzgrad front panel IP 50 Umgebungstemp 0 506 Number of pages 2 m0e310s doc according to order
6. A 2 25 K 20 Sensor PTC KTY 10 6 unit of 07 Voltage 2 10 VDC Potentiometer 1kQ 100kKQ version Y Unit type tYPE 01 Two point controller with 2 limit contacts 01 controller output output K 1 limit contact 1 output K 2 limit contact 2 logic output actual value setpoint value fixed value analogue output Two point controller with 2 limit contacts controller output logic output limit contact 1 output K 1 limit contact 2 output K 2 actual value setpoint value fixed value analogue output Continuous P D controller Two point controller with hys teresis setting for SSR and 3 limit contacts controller output analogue output limit contact 1 output K 1 limit contact 2 output K 2 limit contact 3 logic output Three point controller with 1 limit contact controller output output K 1 heating controller output output K 2 cooling limit contact 1 logic output actual value setpoint value fixed value analogue output Three point controller with 1 limit contact controller output output K 1 heating controller output logic output cooling limit contact 1 output K 2 actual value setpoint value fixed value analogue output Three point controller with 1 limit contact controller output logic output heating controller output output K 1 cooling limit contact 1 output K 2 actual value setpoint value fixed value analogue output Three point controller with 2 limit contacts controller output analogue o
7. ads must be connected to earth at the side of the unit seperate cable channel for measuring leads and signal leads gt thermocouple RC protection circuit according to manu facturers details logic input contactor relay lo ic output 09 pi CO00000000 Orno OMNoannRoOno o _ U l output 1 operating voltage cable channel for voltage supply load leads control leads min 1 5 mm2 Order code identification of the unit Input analogue configurable Sensor Pt 100 Thermocouple Standard signal configurable NTC UUA 2 25 K NTC UUA 10K PTC KTY 10 6 Potentiometer 1kQ 100kQ Operating voltage Output analogue no analogue output 0 1 V 0 2 1 V config 0 2 V 0 4 2 V config 0 5 V 1 5 V config 0 20 mA 4 20 mA conf 0 10 V 2 10 V config Measuring range configurable Logic input configurable Output K 1 K 2 relay logic output Logic output Rating plate If making technical enquiries the following details are important article number DMP 96 E DMP 48 ES DMP 48 EW unit type order code program version works number operating voltage contact load protection class protection mode working temp range unit type article number program version works number Date 18 04 2
8. ation at the outputs can in the event of an FAUL error cause substantial damage to persons and property Error allocation output K 1 K 2 logic output on output active in event of an error OFF output inactive in event of an error Locked limit contacts are unlocked in the event of an error Error allocation analogue output output signal in event of an error in refer to size of output 0 20 mA 0 1 V DC 0 2 V DC 0 5 V DC 0 10 V DC according to order FLt 1 OFF FLt 2 OFF FLt L OFF FLt A 0 0 The nominal value input level Code 925 Setting the nominal value is only possible with code input if pa rameter Cod u is on at the range limit level Nominal value 1 Nominal value 2 appears only with configuration Con L 01 SEt 1 0 SEt 2 0 m0e310q doc Number of pages 4 Date 01 02 2007 DMP 96 E DMP 48 ES DMP 48 EW 3 DOLD GmbH x i F 5 Display Nominal value setting via operating level setting setting Nominal value 1 SEt 1 0C Nominal value 2 appears only with configuration Con L 01 SEt 2 0C Regulation ratios Manual actuator only with function Two point controller Continuous controller TYPE 01 02 03 The unit can con figured as PID controller also be used as manual actuator If the parameters Ctr 1 Ctr L or Ctr A are set to 02 or 04 and Auto is set to OFF then switching from controller operation to manual actuator operatio
9. e unit type the display range and the nominal value range the parameters in dependence of ranges will automatically adapted to the new configuration in the back ground With error message Err 3 all relevant parameters must be checked and adapted to the new configuration Err 3 can be acknowl edged by set ting code 101 or by switch ing the unit OFF ON Units with potentiometer input Please note No monitoring of sensor fault or lead fault Operating instructions Technical data Input analogue Sensor Pt 100 two wire connection three wire connection 100 600 6 sensor break protection short circuit protection circuit balancing or calibration of safety barriers maximum 50 Q each lead with two wire connection automatic wire resistance compensation maximum 50 Q each lead with three wire connection sensor current constant 1 mA DC calibration accuracy lt 0 15 of measuring range extent linearity error lt 0 1 of measuring range extent Thermocouple Fe CuNi TypeL 0 8500 NiCr Ni TypeK 0 1200 Fe CuNi TypeJ 0 850 PtRh Pt TypeS 0 1700 C sensor break protection and cross polarity protection internal temperature compen sation error recognition with cold junction temperature of the unit gt 70 or lt 10 influence of the lead resistance lt 2uv Q calibration accuracy lt 0 15 of measuring range extent linearity error lt 0 15 of measuring range extent temperature drift character
10. easurements per second are sufficient for accurate function The logical cohesion of the temperature controller must then be transferred to the ap propriate dimensions Substantial damage to persons and property can be caused through improper use application installation configuration or operation within a plant Important The unit must not be used as a safety device it serves as process controller process control as well as process monitoring The unit must not be installed in the EX area If everything with process dimensions from the EX area and the unit is installed outside the EX area all supply lines of the unit which lead into the EX area must be directed over safety barriers The satisfactory and safe operation of the unit presupposes that the unit is transported stored and installed with due care and that it is properly fitted This unit must be installed configured commissioned and parameters have been setting by qualified persons only who are familiar with the installation commissioning and servicing or comparative units as well as with the installa tion for which the unit is used and must have knowledge of measuring control and regulating methods The operating personnel of the plant in which the unit is to be used must be in structed in its operation by qualified persons Please note the contents of these manual especially the notes of installation commis sioning and adaptation of the unit to the co
11. emperature compensation on OFF no evaluation of the internal temperature compensation Display range start inPt 06 10 23 Display range end inPt 06 10 23 configuration inLo gt inhi with inverted input signal Note actual value lt 999 Digit UFL is displayed actual value gt 9999 Digit OFL is displayed Configuration analogue output output size according to order 01 0 20 mA 0 1 V DC 0 2 V DC 0 5 V DC 0 10 V DC 02 4 20 mA 0 2 1 V DC 0 4 2 V DC 1 5 V DC 2 10 V DC 03 4 20 mA 0 2 1 V DC 0 4 2 V DC 1 5 V DC 2 10 V DC Extension to function 02 the output value will become lower as the minimum size of output according to order 0 20 mA 0 1 V DC 0 2 V DC 0 5 V DC 0 10 V DC analogue output 01 output analogues to the actual value 02 output analogues to the setpoint value 03 fixed value of current or fixed value of voltage Inverse operation of the continuous controller inLo 0 Digit inhi 9999 Digit SEL A 01 in A on inverse operation of the continuous controller OFF OFF direct operation of the continuous controller DOLD GmbH Code 955 setting Regulation ratio in with fixed value StA A fixed value of current or fixed value of voltage 0 0 100 refers to size of output 0 20 mA 0 1 V DC 0 2 V DC 0 5 V DC 0 10 V DC according to order Output value of the last regulation ratio after stopped regu StP A lation only wit
12. h Two point controller Continuous control on ler TYPE 03 on output value of the regulation ratio 0 OFF output value of the last regulation ratio Configuration Logic input the contact must be opened or closed Con L for a minimum of 0 5 seconds so that the required function occurs 00 00 logic input no function 01 switching nominal value burden regulation ratio contact open nominal value 1 regulation ratio 1 contact closed nominal value 2 regulation ratio 2 02 stop function contact closed controller output deactivated and lower display dark 03 programming disabled contact closed programming enabled contact closed programming disabled unlocking limit contacts Li X 08 13 Nominal value setting Cod u on nominal value setting via nominal value input level Code 925 OFF OFF nominal value setting via operating level Nominalvaluerangestart ALO 0 Nominal value range end rAhi With configuration rALo rAhi nominal value setting at the 600C operating level or at the nominal value setting level is not possi 9999 Digit ble With configuration rAhi lt rALo switching between the set values at the operating level or at the nominal value setting level is possible with the buttons A or Cv E Range start output analogues to the actual value or to the AnLo setpoint value tYPE 01 02 04 05 06 08 oc starting value for 0 mA 0 V resp 4mA 0 2V 0 4V 1V 2V DC 0 Digit Range end o
13. h on the operating voltage of the unit Lead balancing or zero point correction When operating the unit with a resistance thermometer with the two wire method the lead resistance as well as a safety barrier is noticeable through a constant temperature measuring error This temperature measuring error can be corrected on the range limit setting level code 955 with the parameter Corr Furthermore the temperature difference between the temperature of the meas uring point the temperature sensors the unit and the temperature of the process can be equalised with this parameter Temperature differences between measuring point and proc ess should be kept to a minimum by selecting the measuring point This substantially improves the controller result When the temperature sensor is fitted improperly overheating or under cooling can occur and therefore damage to personnel or material Setting the operating nominal value Depending on configuration of the parameter Cod u at the range limit setting level code 955 you can set your operating nominal value at the operating level or at the nominal value input level code 925 Please note If the nominal value is taken out of adjustment during the operation of the plant then the plant must first build up to the new value It means there will be some instability in the regulation until the actual value has set itself to the new nominal value During operation as PID controller with rela
14. l range open 10 as function 03 with locking 13 as function 06 with locking Please note 08 13 Unlocking possibilities with logic input with parame ter setting Con L 04 or via level code 109 With configuration Li 1 Li 2 Li L 08 13 Limit contact with locking and Con L 04 the appropriate limit contact re mains locked until power switch off Automatic function controller manual actuator Auto only with function Two point controller Continuous con on troller with PID character TYPE 01 02 03 Ctr 1 Ctr L Ctr A 02 or 04 on controller OFF manual actuator switching between controller manual actuator via and reverse Li 1 00 Li 2 00 Li L 00 Display Parameters of the parameter level Works G setting The parameters appears independent of the configured function in code level 855 K 1 Controller output with hysteresis Two point controller tYPE 01 Ctr 1 01 03 Three point controller tYPE 04 05 06 07 CtP 1 01 hysteresis K 1 Controller output with PID character Three point controller tYPE 04 05 06 07 CtP 1 02 death band K 1 Controller output with PID character Two point controller tYPE 01 Ctr 1 02 04 Three point controller tYPE 04 05 06 07 CtP 1 02 proportional band integral time setting 0 portion 0 derivative time setting 0 portion 0 cycle time Set the PID ret
15. ll out housing for mounting control panel as per DIN 43 700 with a B fastener as per DIN 43 835 M 4 screw clamp Material PPO glass fiber reinforced Noryl GFN2SE1 self extinguishing non dripping fire protection class UL 94 V1 Front panel dimensions DMP 96 E 96 x 96 mm DMP 48 ES DMP 48 EW 96 x 48 mm Control panel cutout DMP 96 E 92 0 8 x g2 0 8 mm DMP 48 ES DMP 48 EW 92 0 8 x 45 0 6 mm Recess depth 101 mm CE conformity Generic emission EN 50 011 IGEneric immunity EN 61 000 6 2 Harmonic current emissions EN 61 000 3 2 Flicker EN 61 000 3 3 IEC EU guidelines applying toEU electromagnetic compatibility 89 336 EWG EU low tension 73 23 EWG Subject to technical and functional change 4 m0e310q doc Number of pages 4 Date 01 02 2007 DMP 96 E DMP 48 ES DMP 48 EW D O L D Safety notes and Installation notes DMP 96 E Z 2P 3P DMP 96 E Y 2P 3P DMP 48 ES Z 2P 3P DMP 48 ES Y 2P 3P DMP 48 EW Z 2P 3P DMP 48 EW Y 2P 3P Read and observe these safety notes and installation notes before commissioning the unit into operation Read and ob serve the operating instructions added to the unit Safety notes Please read these notes on safety attentively and note the listed points They concern the safety of persons and of the equipment The unit is concepted mainly as a temperature controller However it can also be used for other slow changing physical dimensions where two m
16. n and reverse is possible with button Regulation ratio 1 appears only with configuration Ctr 1 Ctr L or Ctr A 02 or 04 and Auto OFF Regulation ratio 2 appears only with configuration Ctr 1 Ctr L or Ctr A 02 or 04 Auto OFF and Con L 01 The limit contact unlocking level Code 109 At this level the limit contacts can be unlocked by setting code 109 The error acknowledging level Code 101 At this level the error message Err 3 can be acknowledged by setting code 101 Please note Error messages Err 3 Adapting the PID controller automatically to the controlled system the self tuning set nominal value and tune the controller let controller stabilise and operate the plant evaluate controller efficiency and correct controller parameters if necessary The self tuning works according to the setting rules of Ziegler Nichols With con trolled systems of a higher order and with controlled systems with greater dead times and delay times it does not always lead to optimal results The controller parameters must be corrected only with greater actual value fluctuations after self tuning The tuning on the heating side is only possible if heat is removed from the system so that the temperature falls again below the nominal value The tuning on the cooling side is only possible if the system develops its own heat so that the temperature after cooling rises above the nominal value by
17. ntrolling system the safety regulations affixed to the unit the respective safety regulations for the installation and the operation of electric plant keep these manual for later applications The regulations mentioned in these manual are valid for all EC countries For application in a country outside the EC the appropriate national regulations must be observed This unit has been manufactured and tested according to DIN EN 61010 part 1 protection measures for electronic measuring units and has left our factory ina safety and operational technical satisfactory condition Mounting location of the unit The mounting location must be free from vibrations The unit must not be mounted in the proximity of motors transformers valves and other inductive loads The ambient temperature at the mounting location can be 0 50T with a relative humidity of lt 75 without dewing Aggressive gases and vapours can quickly destroy the unit Any fitting position is suitable Fitting of the unit Insert the unit from the front side into the control panel cutout Suspending the fastener in the lateral nipple of the grip by the back of the control panel Thereby the flat sides of the fastener must border of the housing The fastener must be tighten against the back of the control panel symmet rical with a screwdriver Any fitting position is suitable Please note Don t resort to force Installation notes
18. of the sensor lead with the unit as close as possible to the fit ting board and lay the lead with a minimum of 1 5 mm cross section from this point to the earthed collecting bar Inductive loads such as contactors valves motors transformers etc switched from the unit as well as inductive loads installed in the same control cabinet or in the same plant must be suppressed with unit specific interference suppress ers The load circuits and control circuits of the unit relays must be fused against overload These manual do not contain all notes on the regulations standards etc which must be observed and followed when working with the unit in connection with plants These regulations standards etc must be compiled and observed by the operator of the unit application specific Commissioning and adaptation of the unit The unit is supplied pre configured to an application so by switching on some function is present This pre configuration is suitable for the given requirements in only a few cases it means the unit must be adapted to the controller system of the plant in which it is to be used Switch on Check the wiring again carefully Incorrect wiring of the unit can lead to serious damage to the unit and the plant Ensure that the load voltage of the plant is switched off at the initial switch on of the unit because the unit is not yet adapted to the plant and can therefore possibly cause error functions Now switc
19. oller output with PID character Three point controller tYPE 04 CtP 2 02 proportional band integral time setting 0 portion 0 derivative time setting 0 portion 0 cycle time K 2 Limit contact absolute tYPE 01 02 03 05 06 07 Li 2 01 04 08 11 limit absolute hysteresis K 2 Limit contact following to the nominal value tYPE 01 02 03 05 06 07 Li 2 02 05 09 12 limit relative hysteresis K 2 Limiting comparator tYPE 01 02 03 05 06 07 Li 2 03 06 10 13 symmetric spreading hysteresis 0 5 or 5 Digit fix Logic output as controller output with hysteresis Two point controller tYPE 02 Ctr L 01 03 Three point controller tYPE 05 06 CtP L 01 hysteresis Logic output as controller output with PID character db L Three point controller tYPE 05 06 CtP L 01 death band 0 0 0 Digit Logic output as controller output with PID character Two point controller tYPE 02 Ctr 02 04 Three point controller tYPE 05 06 CtP L 02 proportional band Pb L 5 0T integral time setting 0 portion 0 ti L 250 s derivative time setting 0 portion 0 td L 50 s cycle time Logic output as Limit contact absolute tYPE 01 03 04 07 08 Li L 01 04 08 11 limit absolute hysteresis Logic output as Limit contact following to the nominal value tYPE 01 03 04 07 08 Li L 02 05 09 12 limit rela
20. on 212 Bit Outputs 2 Relay outputs K 1 and K 2 make contact with integrate spark quenching 4 7nF contact load lt 250 V AC lt 8 A resistive load type 500 VA with 106 switching cycles or Logic outputs for SSR instead of K 1 or K 2 typically 0 10 V DC maximum 10 mA 1 Logic output for SSR typically 0 10 V DC maximum 10 mA 1 Analogue output option output size according to order resolution 10 Bit current configurable idle proof load lt 400 Q 0 20 mA 4 20 mA voltage configurable short circuit proof maximum load current 10 mA 0 1 V DC 0 2 1 V DC 0 5 V DC 1 5 V DC 0 2 V DC 0 4 2 V DC 0 10 V DC 2 10 V DC Energy supply Operating voltage 230 V AC 10 48 62 Hz Rate of power input lt 4 5 VA Special voltages 115 V AC 48 V AC 24 V AC 24 V DC other special voltages ask the producer protection the unit has a built in thermal protection Climatic requirements according to 75 relative humidity without dewing working temperature range 0 500 storage temperature range 30 70 Electric safety according to DIN EN 61 010 excess voltage category IIl degree of contamination 2 according to DIN EN 60 335 protection class Il isolation group C according to DIN VDE 0110 b type of protection DIN EN 60 529 front panel optionally IP 64 with the proper mounting and a suitable sealing ring IP 50 housing IP 30 connections screwed socket strips nominal cross section 2 5 mm IP 20 Housing mounting Pu
21. output Analogue output 01 Three point controller with hysteresis setting 02 Three point controller with PID character The analogue output can configured as controller output with Ctr 1 04 Ctr L 04 Ctr A 04 CtP 1 02 CtP 2 02 CtP L 02 CtP A 02 Operating instructions Parameters of the configuration level Code 855 hysteresis setting parameter Ctp A 01 also be used as Display Works setting logic output for triggering a SSR woo Three point stepping controller configuration of the con troller outputs Outputs K 1 and K 2 are assigned to the controller function The configuration of the outputs is not necessary Configuration of the limit contacts only for outputs without controller function Output K 1 Output K 2 Logic output Function Limit contact absolute 00 07 output no function 01 make contact referenced to increasing temperature 04 break contact referenced to increasing temperature 08 as function 01 with locking 11 as function 04 with locking Function Limit contact following to the nominal value 00 07 output no function 02 make contact referenced to increasing temperature 05 break contact referenced to increasing temperature 09 as function 02 with locking 12 as function 05 with locking Function Limiting comparator 00 07 output no function 03 limiting comparator in the approval range closed 06 limiting comparator in the approva
22. perating mode z odE 925 CodE 109 CodE 101 CodE 111 If within approx 30 seconds timeout no key is activated automatic jump back to operating mode The possibly altered value is not accepted With the star key the timeout can be restarted extended If an incorrect code number is accepted for jumping to a level then FALS ap pears on the display You have to wait for timeout and for the jump back to oper ating mode before you can input a new code number approx 30 seconds After this a new code input can be carried out Limit contact unlocking level for unlocking the limiting values Error acknowledging level to ack Inowledge the error message Err 3 Yy yvyYy Vv YY VY Vvvyy y vv vy Vv vi ee yyy Self tuning level starting and discontinuing of the tuning Dold GmbH Blumenstr 33 70736 Fellbach Tel 0711 95152 0 FAX 0711 95152 19 www dold regler de info dold regler de 1 DOLD GmbH Ase Display Parameters of the definition level code 1155 WS setting With standard signal input and potentiometer input the range d limits must be set at the range limit level code 955 Type of input 01 Sensor Pt 100 02 Fe CuNi Type L 03 Fe CuNi Type J 04 NiCr Ni Type K 05 PtRh Pt Type S 06 Voltage 0 10 V DC Current 0 20 mA 01 Current 4 20 mA unit of Voltage 0 50 mV DC version Z Sensor NTC UUA 10 K Sensor NTC UU
23. prox 5 1 LED on LED OFF The operating structure Read and observe these operating instructions before com In operating mode missioning the unit into operation Read and observe the Display added pages Safety notes and Installation notes P press for short time SEHI Operating level 2J Cod u OFF nominal value setting Configuration of the unit Configuration and programming of the unit ieee pore Parameter setting at the various levels 3 seconds until Display CodE Definition level define the type of 1155 input and the type of unit CodE 855 CodE 55 current value after 10 steps after 10 steps v v Display Configuration level configurate the i only when function controller function the limiting values is released ay Ra current value after 10 steps after 10 steps Parameter level adapt the unit to the controller system Range limit setting level set the range limits and carry out the lead balancing adjust until CodE 955 CodE 355 Linearization level to program the linearity graph CodE 655 restart timeout extend during input Error definition level determine the character of the outputs in case of an error Nominal value input level nominal value setting via code input Cod u CodE 755 After accepting the last parameter jump back into o
24. tive hysteresis Logic output as Limiting comparator tYPE 01 03 04 07 08 Li L 03 06 10 13 symmetric spreading hysteresis 0 5 or 5 Digit fix Analogue output with hysteresis Two point controller tYPE 03 Ctr A 01 03 Three point controller tYPE 07 CtP A 01 hysteresis 10 Digit Analogue output db A Three point controller tYPE 07 CtP A 01 death band 0 0 0 Digit Analogue output with PID character Continuous controller tYPE 03 Ctr A 02 04 Three point controller tYPE 07 CtP A 02 proportional band integral time setting 0 portion 0 derivative time setting 0 portion 0 Pb 2 5 06 ti 2 250 s td 2 50 s CY 2 30 s LA 2 0C HY 2 1 0 Lr 2 0 HY 2 1 0 bd 2 7 5 06 50 Digit HY L 7 1 00 10 Digit 50 Digit HY A 1 06 Pb A 5 0T ti A 250 s td A 50 s Display Works setting rAnG Parameters of the range limit setting level Code 955 After any change of configuration or re configuration of the nominal value range the nominal value settings must be moni tored at the operating level or at the nominal value setting level Code 925 and adapted to the nominal value range The pa rameter settings are dependant on the input definitions Lead balancing or zero point correction Corr 0 Evaluation of the internal temperature compensation Co Co on evaluation of the internal t
25. urn parameter according to your experiences or your measurements or start a self tuning K 1 and K 2 Controller outputs Three point stepping controller tYPE 08 proportional band integral time setting 0 portion 0 derivative time setting 0 portion 0 cycle time motor running time Set the PID return parameter according to your experiences or your measurements or start a self tuning K 1 Limit contact absolute tYPE 02 03 Li 1 01 04 08 11 limit absolute hysteresis K 1 Limit contact following to the nominal value tYPE 02 03 Li 1 02 05 09 12 limit relative hysteresis K 1 Limiting comparator tYPE 02 03 Li 1 03 06 10 13 symmetric spreading hysteresis 0 5 or 5 Digit fix K 2 Controller output with hysteresis Three point controller tYPE 04 CtP 2 01 hysteresis HY 1 1 0 10 Digit db 1 0 0C 0 Digit Pb 1 5 06 ti 1 250 s td 1 50 s CY 1 30 s Pb 1 5 06 ti 1 250 s td 1 50s CY 1 30s run 60 s LA 1 0 HY 1 1 06 Lr 1 0C HY 1 1 0T 5 0 50 Dig HY 2 1 00 10 Digit 2 m0e310q doc Number of pages 4 Date 01 02 2007 DMP 96 E DMP 48 ES DMP 48 EW Operating instructions Display Works setting db 2 0 0C 0 Digit Parameters of the parameter level Code 55 K 2 Controller output with PID character Three point controller tYPE 04 CtP 2 01 death band K 2 Contr
26. utput analogues to the actual value or to the Anhi setpoint value tYPE 01 02 04 05 06 08 100 range end for 20 mA DC 1VDC 2VDC 5VDC 10V DC 1000 Digit Display resolution depend on type of input inPt dECP Pt 100 Thermocouple NTC PTC inPt 01 05 20 22 00 resolution 1C 01 resolution 0 10 Standard signal Potentiometer inPt 06 10 23 00 resolution 1 02 resolution 0 01 01 resolution 0 1 03 resolution 0 001 Linearization Lin F on using the programmable linearity graph OFF OFF using the internal linearity graph Linearization range start 0 999 9 9999 Digit LLo 0 Digit Linearization range end 100 999 9 9999 Digit Lhi 1000 D oQ oO Parameters of the linearization level Code 655 A 01 7 b 01 A 02 7 p 02 AXX X value of pair 1 A 01 Y value of pair 1 b 01 X value of pair 2 A 02 Y value of pair 2 b 02 X value of the last pair A n n X value of the last pair n maximum 32 Y value of the last pair b n n Y value of the last pair n maximum 32 Identification the end of the linearization A n 1 enter input 1 Please note A XX X value of the linearization function Fixing d the several ranges of the linearity graph b XX AXX A XX values must be set increased A 01 lt A 02 lt lt A n Y value of the linearization function Parameters of the error definition level Code 755 Incorrect error alloc
27. utput heating controller output output K 1 cooling limit contact 1 output K 2 limit contact 2 logic output Three point stepping controller with PD character and 1 limit contact controller output controller output limit contact 1 actual value setpoint value fixed value K 1 heating resp valve open K 2 cooling resp valve close logic output analogue output Display peer of the configuration level Works setting The parameters appears independent of the unit type tYPE CFG code 1155 After changing configuration or re configuration the controller character and the switching function of the limit con tacts the appropriate parameters must be set at the parameter level code 55 or be adapted to the controlled system Two point controller Continuous controller Configuration of the controller output Output K 1 Logic output for triggering a SSR Analogue output 01 Two point controller cooling with hysteresis setting to higher temperature 02 Two point controller cooling with PID character 03 Two point controller heating with hysteresis setting to lower temperature 04 Two point controller heating with PID character The analogue output can configured as cooling or heating con troller with hysteresis setting parameter Ctr A 01 or 03 also be used as logic output for triggering a SSR Three point controller configuration of the controller outputs Output K 1 Output K 2 Logic
28. y output it can be some time after switch on before the controller relay re sponds and the unit is seen to carry out its task due to the PID typical time character Dold GmbH Blumenstr 33 70736 Fellbach Tel 49 0 711 95152 0 FAX 49 0 711 95152 19 www dold regler de info dold regler de 1 DOLD GmbH Safety notes and Installation notes Terminal connection diagram in dependence on version logic output SSR type 0 10 V DC max 10 mA relay output dependent on version Caution Terminals and terminals do not have the same potential input unit of version Z sensor Pt 100 sensor Pt 100 2 lead tto tte current 3 De e T thermo standard signal element 47nF 250VAC 3 lead voltage U IF input unit of version Y NTC PTC logic input volts approx 5 V DC i potentiometer logic output SSR i type 0 10 V DC max 10 mA thd tts i e 24 V DC operating voltage I i e 230 V AC 50 60 Hz OAN OA KWND analogue output option output voltage Umax 10 V DC max load current 10 mA i 3 output current Imax 20 mA load lt 400 Q O0O00000000 ojo mi Ta a 0 DMP 96 E DMP 48 ES EW Wiring diagram Wiring example To enable effective discharge of interferences the shielding of the sensor leads and signal le
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