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Summary of Contents for ProMinent DULCOMETER D1Cb
- Page 1 Assembly and operating instructions DULCOMETER D1Cb / D1Cc ® Please carefully read these operating instructions before use! · Do not discard! The operator shall be liable for any damage caused by installation or operating errors! Technical changes reserved. Teile Nr. 986362 BA DM 187 09/11 EN...
- Page 2 ProMinent Dosiertechnik GmbH Im Schuhmachergewann 5 - 11 69123 Heidelberg Telephone: +49 6221 842-0 Fax: +49 6221 842-419 email: info@prominent.de Internet: www.prominent.com 986362, 4, en_GB © 2011...
- Page 3 Supplemental instructions General non-discriminatory approach In order to make it easier to read, this document uses the male form in grammat‐ ical structures but with an implied neutral sense. It is aimed equally at both men and women. We kindly ask female readers for their understanding in this simplification of the text.
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Page 4: Table Of Contents
Table of contents Table of contents Introduction......................8 1.1 Explanation of the safety information............. 8 1.2 Users' qualifications..................10 1.3 General Safety Information................11 1.4 Correct and proper use................13 1.5 ID Code......................14 Functional description................... 17 2.1 Wall mounting/control panel installation............18 2.2 Electrical construction.................. - Page 5 Table of contents Commissioning..................... 52 5.1 Initial commissioning ................... 52 5.1.1 Selection of the Operating Language............52 5.1.2 Selection of the Measured Variable and Measuring Range...... 54 5.2 Activation Code for Extended Functions............55 5.2.1 Extended Functions Obtainable with the Activation Code......55 Operating diagram/ Display Symbols..............
- Page 6 Table of contents 8.5.1 Description of the Calibration of pH Sensors ........... 88 8.5.2 Calibration of pH Sensors. Description of the Setting Ranges ....91 8.5.3 Calibration of pH Sensors. Description of the Error Messages ....91 8.5.4 Testing the Redox Sensor ................ 92 8.5.5 Description of the Calibration of Fluoride Sensors........
- Page 7 Table of contents 12.4 Chemical Resistance................142 12.5 Dimensions and weights................143 Electrical Data ....................144 Spare parts and accessories DULCOMETER ® D1Cb / D1Cc......148 Standards Complied With .................. 150 Disposal of Used Parts..................151 Declaration of Conformity................... 152 Index........................
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Page 8: Introduction
Introduction Introduction These operating instructions provide infor‐ mation on the technical data and functions DANGER! of the DULCOMETER ® controllers of the series D1Cb / D1Cc. Nature and source of the danger Consequence: Fatal or very serious injuries. Measure to be taken to avoid this The controllers DULCOMETER ®... - Page 9 Introduction Type of information CAUTION! Hints on use and additional informa‐ Nature and source of the danger tion Possible consequence: Slight or minor injuries, material damage. Source of the information, additional measures Measure to be taken to avoid this danger Information! Caution! Denotes hints on use and other...
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Page 10: Users' Qualifications
Trained user A trained user is a person who fulfils the requirements made of an instructed person and who has also received additional training specific to the system from ProMinent or another authorised distribution partner. Trained qualified per‐ A qualified employee is deemed to be a person who is able to sonnel assess the tasks assigned to him and recognize possible haz‐... -
Page 11: General Safety Information
Customer Service department refers to service technicians, department who have received proven training and have been authorised by ProMinent to work on the system. Note for the system operator The pertinent accident prevention regulations, as well as all other generally acknowl‐... - Page 12 Introduction NOTICE! WARNING! Operating errors! Correct and proper use Possible consequence: Fatal or very Damage to the product or its sur‐ serious injuries roundings – The unit should only be operated – The unit is not intended to by adequately qualified and tech‐ measure or regulate gaseous or nically expert personnel solid media...
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Page 13: Correct And Proper Use
Introduction NOTICE! NOTICE! Correct sensor operation Correct and proper use Damage to the product or its sur‐ The unit is intended to measure and roundings regulate liquid media. The marking of the measured variables is located on – Correct measuring and dosing is the controller and is absolutely only possible if the sensor is binding. -
Page 14: Id Code
D1Cb / D1Cc Type of mounting W Wall mounted D1Cb (IP 65) Control panel installation D1Cc (IP54) Version 00 with LCD and keypad / with ProMinent logo Operating voltage 90...253 V, 50/60 Hz (wide voltage power unit) Certification CE mark... - Page 15 Introduction DULCOMETER controller series D1Cb / D1Cc ® Bromine Chlorine 0/4...20 mA standard signal general Chlorine Dissolved oxygen dioxide Fluoride Ozone Hydrogen per‐ Conductivity oxide Connection of the measured variable mA input (standard signal 0/4-20 mA, all measured variables) mV input (pH/ORP) Correction variable none Temperature Pt 100/PT1000 (for...
- Page 16 Introduction DULCOMETER controller series D1Cb / D1Cc ® M Alarm and 2 solenoid valve relays Pump activation none 2 pumps via pulse frequency Control character‐ istic none Proportional control PID control...
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Page 17: Functional Description
Functional description Functional description Brief functional description The DULCOMETER D1Cb / D1Cc 4-wire measuring transducer/controller is a device ® designed to measure/control a measured variable. In the mA measuring version, the measured variable can be changed without restrictions in the device menu. In the mV measurement version, the menu of the DULCOMETER ®... -
Page 18: Wall Mounting/Control Panel Installation
Functional description Connection of the measured vari‐ able to: Character Measured variable mV input mA input (hydrogen peroxide) Chlorite 0/4...20 mA standard signal general Conductivity *with measured value transducer Description of the terminal connections for mA and mV: see Fig. 11 and Fig. 12 Description of the operating menu of the measured variables via mV connection: Ä... -
Page 19: Electrical Construction
Functional description The electrical connection is made through originally sealed, push-out cable cut-outs on the underside of the lower section of the housing. A wall bracket for wall mounting is located on the rear of the lower section of the housing. -
Page 20: Block Circuit Diagram
Functional description 2.2.1 Block circuit diagram NOTICE! Connection of mV or mA sensors The DULCOMETER ® D1Cb / D1Cc is suitable for the connection of mV or mA sen‐ sors. It is not possible to connect mV and mA sensors simultaneously. Fig. -
Page 21: Galvanic Isolation
Functional description 2.2.2 Galvanic Isolation WARNING! Protective low voltage/Mains voltage Possible consequence: Fatal or very serious injuries If relay 1 or 2 is operated with protective low voltage, no mains voltage may be con‐ nected to the other relay. Kontaktausgang 2 / Kontaktausgang 1 / mA Ausgang / Alarmausgang /... -
Page 22: D1Cb Mounting
D1Cb mounting D1Cb mounting User qualification, mechanical mounting: trained qualified personnel, NOTICE! Ä Chapter 1.2 ‘Users' qualifica‐ tions’ on page 10 Material damage to electrostatically User qualification, electrical installa‐ sensitive components tion: Electrical technician, see Components can be damaged or Ä... -
Page 23: Scope Of Supply
D1Cb mounting Scope of supply The following parts belong to the standard scope of supply of a DULCOMETER ® series D1Cb controller. Identifier Quantity D1Cb controller Half screw connection, com‐ plete (set) M12 x 1.5 threaded connec‐ tion, complete (set) Assembly material, complete, 3P Universal (set) Measured variable labels... -
Page 24: Installation (Wall Mounted)
D1Cb mounting Installation (Wall Mounted) The device can be installed directly on the wall with the aid of the wall bracket. Fig. 3: Fixing material for wall mounting 1. 3 x Round head screws 5x45 2. 3 x Washers 5.3 3. -
Page 25: Installation - Control Panel Mounted (Optional)
D1Cb mounting Installation - Control Panel Mounted (Optional) CAUTION! Dimensional variations Possible consequence: material damage – Photocopying the punched template can result in dimensional deviations – Use the dimensions shown in Fig. 4 and mark on the control panel Fig. 4: Punched template, drawing number 3140-3 /not to scale CAUTION! Material thickness of control panel Possible consequence: material damage... - Page 26 D1Cb mounting Fig. 5: The material thickness of the control panel must be at least 2 mm to ensure secure fixing 1. 1 x Foam rubber caulk strip d3 2. 6 x Galvanised steel retaining brackets 3. 6 x Galvanised PT cutting screws 4.
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Page 27: Wall Mounted Installation Of D1Cb (Electrical)
D1Cb mounting Using the dimensions shown in Fig. 4 mark the precise position of the device on the control panel Mark the corner points and drill (drill diameter 12 - 13 mm) With a punching tool or jigsaw make the opening as per the punched template drawing Chamfer the cut edges and check whether the sealing surfaces are smooth for the caulk strip... -
Page 28: Opening The Device
D1Cb mounting 3.4.1 Opening the device Fig. 6: Opening the device Loosen the 4 captive screws (1). Lift the upper section of the device from the lower section (2). A wide flathead screwdriver may be of assistance. Insert the upper section with both guide rails into the lower section (3 and 4) (parked position) -
Page 29: Electrical Installation (Wall Mounted)
D1Cb mounting Remove cable sheathing over a 3.4.2 Electrical Installation (Wall sufficient length Mounted) Fit screw connection (1), pressure ring (2) and seal (3) onto cable NOTICE! Insert cable and fittings into the threaded hole Threaded holes Using a suitable tool, punch out the Align the cable and push in until threaded holes according to the enough cable is in the control... -
Page 30: Electrical Installation (Control Panel Mounted)
D1Cb mounting 5. Screw connec‐ 6. Lock nut tion M12 x 1.5 M12x1.5 Fit lock nut M12x1.5 (6) on the inside Fit screw connection M12x1.5 (5) from the outside and tighten firmly 3.4.3 Electrical Installation (Control Panel Mounted) Proceed as described under "Electrical Installation (Wall Mounted)". -
Page 31: Installation Of Coaxial Cable To Guard Terminal Xe1
D1Cb mounting 3.4.4 Installation of Coaxial Cable to Guard Terminal XE1 CAUTION! Maximum length of the coaxial cable 10 m Incorrect reading due to too long a coaxial cable Possible consequence: Slight or minor injuries, material damage The maximum length of the coaxial cable may not exceed 10 m when using redox or pH sensors. -
Page 32: Cable Cross-Sections And Cable End Sleeves
D1Cb mounting optional Programmierschnittstelle RC-Schutzbeschaltung Schirmklemme Sicherung Klemmenanordnung Ausführung Wandgerät Detail Anschluss Koaxialkabel D1Cb Konfektionierung Koaxialkabel zum Anschluss an D1Cb oder vorkonfektioniert in den Varianten Fig. 9: Preparation of coaxial cable 3.4.5 Cable Cross-Sections and Cable End Sleeves Minimum cross-sec‐ Maximum cross- Stripped insulation tion... -
Page 33: Protective Rc Circuit (Optional)
D1Cb mounting 3.4.6 Protective RC Circuit (Optional) A protective RC circuit is recommended for operation with consumers, which present an inductive load (e.g. motor metering pumps or solenoid metering pumps). In these applications a protective RC circuit prevents wear and tear of the Ä... -
Page 34: Terminal Wiring Diagram
D1Cb mounting 3.4.7 Terminal Wiring Diagram Fig. 10: Terminal layout... - Page 35 D1Cb mounting Magnetventil 1(heben) Magnetventil 2(senken) Grenzwertrelais 1 Grenzwertrelais 2 Relais 3 / Alarm Fig. 11: Terminal diagram with assignment options 1...
- Page 36 D1Cb mounting Temperatur Potenzialausgleich Temperatur Normsignal-Eingang Stromquelle Normsignal-Eingang ProMinent Umformer Extern Pumpe 1,heben (potenzialfrei) Extern Pumpe 2,senken (potenzialfrei) Normsignal-Ausgang1 Digital Eingang "Pause" oder Störgröße Fig. 12: Terminal diagram with assignment options 2...
- Page 37 D1Cb mounting Pumpe 1 (heben) Pumpe 2 (senken) Fig. 13: Protective RC circuit terminal diagram...
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Page 38: Switching Of Inductive Loads
D1Cb mounting Switching of inductive loads C=k * I k=0,1...2 (dependent on the application). Only use capacitors of class X2. If you connect an inductive load, i.e. a Units: R = Ohm; U = Volt; I = Ampere; consumer which uses a coil (e.g. an C = µF alpha motorised pump), then you must protect your controller with a... - Page 39 D1Cb mounting WARNING! Mains voltage Possible consequence: Fatal or very serious injuries If mains voltage is connected to one of the terminals XR1-XR3 or XP, then no protective low voltage may be con‐ nected to any other of these terminals (SELV).
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Page 40: D1Cc Mounting
D1Cc mounting D1Cc mounting User qualification, mechanical mounting: trained qualified personnel, NOTICE! Ä Chapter 1.2 ‘Users' qualifica‐ tions’ on page 10 Material damage to electrostatically User qualification, electrical installa‐ sensitive components tion: Electrical technician, see Components can be damaged or Ä... -
Page 41: Dulcometer ® D1Cc Scope Of Supply
D1Cc mounting DULCOMETER D1Cc scope of supply ® The following parts belong to the standard scope of supply of a DULCOMETER ® series D1Cc controller. Identifier Quantity D1Cc controller Retaining bracket Measured variable labels D1C/D2C Operating Manual General safety notes Mounting - control panel installation DULCOMETER ®... - Page 42 D1Cc mounting +0,5 +0,6 A0696 Fig. 16: Mounting - control panel installation DULCOMETER D1Cc ® DIN 43700 instruction ProMinent recommendation...
- Page 43 D1Cc mounting Fabricating the opening: ® S T O S T A A0697 Fig. 17: Screw the studs forward A drilling punched 1:1 template is enclosed with the device as a mounting aid. Its use will ensure optimal positioning of the device on the control panel. Align and secured the punched drilling template in the appropriate position on the control panel using a spirit level Mark the four corners using a centre punch and drill four holes using a 6 mm Ø...
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Page 44: Electrical Installation (Control Panel Mounted)
D1Cc mounting Insert the device from the outside in the opening, attach the retaining bracket and push backwards up to the stop ð All four holes retaining brackets must be attached, as otherwise protection rating IP54 cannot be adhered to. Using a suitable screw driver, screw the studs forwards, see Fig. -
Page 45: Installation Of Coaxial Cable To Guard Terminal Xe1
D1Cc mounting 4.3.1 Installation of Coaxial Cable to Guard Terminal XE1 CAUTION! Maximum length of the coaxial cable 10 m Incorrect measured value due to too long a coaxial cable Possible consequence: Slight or minor injuries. Material damage. The maximum length of the coaxial cable may not exceed 10 m when using redox or pH sensors. - Page 46 D1Cc mounting Terminal order panel type mounting Fabrication of the coaxial cable connection to the D1Cc or pre-fabricated for the variants A0698 Fig. 18: Preparation of coaxial cable...
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Page 47: Cable Cross-Sections And Cable End Sleeves
D1Cc mounting 4.3.2 Cable Cross-Sections and Cable End Sleeves Minimum cross-sec‐ Maximum cross- Stripped insulation tion section length Without cable end 0.25 mm 1.5 mm sleeve Cable end sleeve 8 - 9 mm 0.20 mm 1.0 mm without insulation Cable end sleeve 10 - 11 mm 0.20 mm 1.0 mm... -
Page 48: Terminal Diagram
D1Cc mounting 4.3.3 Terminal diagram Magnetventil 1(heben) Magnetventil 2(senken) Grenzwertrelais 1 Grenzwertrelais 2 Relais 3 / Alarm Fig. 19: Terminal diagram with assignment options 1... - Page 49 D1Cc mounting Temperatur Potenzialausgleich Temperatur Normsignal-Eingang Stromquelle Normsignal-Eingang ProMinent Umformer Extern Pumpe 1,heben (potenzialfrei) Extern Pumpe 2,senken (potenzialfrei) Normsignal-Ausgang1 Digital Eingang "Pause" oder Störgröße Fig. 20: Terminal diagram with assignment options 2...
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Page 50: Switching Of Inductive Loads
D1Cc mounting Switching of inductive loads C=k * I k=0,1...2 (dependent on the application). Only use capacitors of class X2. If you connect an inductive load, i.e. a Units: R = Ohm; U = Volt; I = Ampere; consumer which uses a coil (e.g. an C = µF alpha motorised pump), then you must protect your controller with a... - Page 51 D1Cc mounting WARNING! Mains voltage Possible consequence: Fatal or very serious injuries If mains voltage is connected to one of the terminals XR1-XR3 or XP, then no protective low voltage may be con‐ nected to any other of these terminals (SELV).
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Page 52: Commissioning
Commissioning Commissioning Users' qualification: Trained user Start menu during initial commis‐ sioning WARNING! The "Language setting during initial Sensor run-in periods commissioning" menu appears only This can result in hazardous incorrect once. metering Later changes to the operating lan‐ Take into consideration run in periods guage can then be made via the when commissioning "General Settings/Information"... - Page 53 Commissioning NOTICE! Resetting the operating language In the event that a foreign and thus non-comprehensible operating lan‐ guage has been set, the DULCOMETER ® D1Cb / D1Cc can be reset to the basic "English" setting. If you find yourself in the continuous display 1, then by simultaneously pressing the keys DULCOMETER...
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Page 54: Selection Of The Measured Variable And Measuring Range
Commissioning 5.1.2 Selection of the Measured Variable and Measuring Range WARNING! Incorrect metering due to incorrect measuring range Possible consequence: Fatal or serious injuries. – The measuring range of the sensor is essential for the measuring range! – If the assignment of the measuring range is modified, the settings must be checked in all menus –... -
Page 55: Activation Code For Extended Functions
Activation code Access to further functions can optionally be provided by means of an activation code. Should you require additional operating literature for these functions, this can be obtained on the homepage of ProMinent Dosiertechnik, Heidelberg. unlocking general setting Identcode:... - Page 56 Commissioning NOTICE! Activation code When ordering the activation code, it is imperative that you ensure that the serial number (Srnr) corresponds exactly to that of the DULCOMETER ® D1Cb / D1Cc. Otherwise a charge‐ able activation code will be provided, which will not work.
- Page 57 Commissioning DULCOMETER D1Cb / D1Cc software upgrade ® Software default setting Software preset Default setting - measured variable Universal Peracetic acid Bromine Chlorine Chlorine dioxide Fluoride Hydrogen peroxide Chlorite 0/4-20 mA standard signal general Oxygen Ozone Conductivity Connection of the measured variable Standard signal 0/4-20 mA, all measured variables mV input for pH/redox via guard terminal Correction variable...
- Page 58 Commissioning DULCOMETER D1Cb / D1Cc software upgrade ® Control input none Pause Signal output none Analogue signal output 0/4-20 mA Power activation Alarm and 2 limit relays Alarm and 2 solenoid valve relays Pump activation none 2 pumps via pulse fre‐ quency Control characteristic none...
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Page 59: Operating Diagram/ Display Symbols
Operating diagram/ Display Symbols Operating diagram/ Display Symbols Overview of equipment/Control elements Fig. 26: Overview of equipment/Control elements Function Description 1st respective measured variable Affix the measured variable label here. 2. Display 3. START/STOP key Start/Stop the control and metering functions 4. -
Page 60: Display Symbols
Operating diagram/ Display Symbols Function Description 5. UP key To increase a displayed numerical value and to change the variables (flashing display). move up in the operating menu. 6. DOWN key To lower a displayed numerical value and to change the variables (flashing display). To move down in the operating menu. -
Page 61: Permanent Display 1
Operating diagram/ Display Symbols Meaning Comment Symbol Solenoid valve 2 activation off Symbol right Solenoid valve 2 activation on Symbol right Stop key pressed Manual dosing Fault Measured value rises very quickly Trend of measured value dis‐ play Measured value rises quickly Trend of measured value dis‐... -
Page 62: Continuous Display 2
Operating diagram/ Display Symbols Continuous display 3 5. Measured variable ("chlorine" in this example) 6. Status line Not all symbols are visible simultane‐ ously in the permanent display 1. The scope of the symbols depends on what is required. Continuous display 2 Fig. - Page 63 Operating diagram/ Display Symbols This setting only changes the display range of the bar graph! A change to the measuring range of the DULCOMETER D1Cb / D1Cc is not ® possible using this function.
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Page 64: Operating Diagram
Operating diagram/ Display Symbols Operating diagram Access code Access to the setting menu can be blocked with an access code – If the access code has been correctly selected for a setting menu, then all of the – other setting menus are also accessible Fundamentally the continuous displays 1 - 3 and the calibration menu are freely accessible. - Page 65 Operating diagram/ Display Symbols Permanent display 1 Permanent display 2 Permanent display 3 Calibration Calibration notes menu Various Access code, correct Setting menus Parameter Access code setting A0001_GB Fig. 30: Access code The number and scope of the setting menus depends on the design of the device.
- Page 66 Operating diagram/ Display Symbols You can set and change numerical values as follows: T ext 1 Selection 1 T ext 2 Selection 2 T ext 1 Selection 1 T ext 2 Selection 2 A0007_GB Fig. 31: Settable values flash on and off Settable values flash on and off You can lower or increase values using the keys You can switch between the settable values using the...
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Page 67: Reduced / Complete Operating Menu
Operating diagram/ Display Symbols ð You can now save the entire modified numerical value using the key. By multiple pressing of the key you access the next menu point Reduced / Complete Operating Menu The DULCOMETER ® D1Cb / D1Cc allows settings to be made in two different compre‐ hensive menus (reduced / complete). -
Page 68: General Settings
Operating diagram/ Display Symbols General settings 6.9.1 Access code Access to the setting menu can be prevented by an access code. The DULCOMETER ® D1Cb / D1Cc is delivered with the access code "5000". Even a security lock is applied using the access code, the calibration menu remains freely accessible. general setting Identcode: alarm relay... -
Page 69: Measured Variables And Operating Menus For Amperometric Sensors
Measured Variables and Operating Menus for Amperometric Sensors Measured Variables and Operating Menus for Ampero‐ metric Sensors Users' qualification: instructed per‐ Ä Chapter 1.2 ‘Users' qual‐ sons, see ifications’ on page 10... -
Page 70: Reduced / Complete Operating Menu
Measured Variables and Operating Menus for Amperometric Sensors Reduced / Complete Operating Menu The DULCOMETER ® D1Cb / D1Cc allows settings to be made in two different compre‐ hensive menus (reduced / complete). All of the parameters of the controller are preset and can be changed in the complete operating menu. -
Page 71: Reduced Operating Menu
Measured Variables and Operating Menus for Amperometric Sensors The measuring ranges can be selected in the following ppm increments: 0.5, 2, 5, 10, 20, 50, 100, 200, 1000, 2000, 5000, 10000, 20000. Reduced Operating Menu The reduced operating menu allows the key parameters to be set. The following overview shows the settings that can be selected:... - Page 72 Measured Variables and Operating Menus for Amperometric Sensors Permanent display 1 0.60 auto.: 30.0 °C mea. val 0.60 ppm Permanent display 2 feed fwd: 70 % only with control ctrlout: 59 % (w = setpoint ) w= 0.60 ppm Permanent display 3 0.60 ppm Positive values of setting variable: Measured value lift Negative values of setting variable: Measured value lower...
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Page 73: Complete Operating Menu / Description Of All Measured Variables
Measured Variables and Operating Menus for Amperometric Sensors Complete Operating Menu / Description of All Measured Variables The complete operating menu allows all controller parameters to be set. The following overview shows the settings that can be selected: Permanent display 1 0.60 auto.: 30.0°C... -
Page 74: Calibration Of All Amperometric Measured Variables
Measured Variables and Operating Menus for Amperometric Sensors Calibration of All Amperometric Measured Variables WARNING! Danger of incorrect metering This can result in hazardous incorrect metering During initial commissioning, the measured variable and the measuring range of the Ä Chapter 5.1.2 ‘Selection of the sensor must be set prior to calibration. -
Page 75: Calibration Of The Sensor For Amperometric Measured Variables
Measured Variables and Operating Menus for Amperometric Sensors Error message Condition Remarks * Calibration not possible! < 3 mA Check sensor/cable Zero point low (only with 4 - 20 mA sen‐ Repeat calibration in water sors) without metering medium Calibration not possible! >... -
Page 76: Calibration Of Zero Point And Slope
Measured Variables and Operating Menus for Amperometric Sensors 7.6.2 Calibration of Zero Point and Slope Necessity of calibrating the zero point Calibration of the zero point is not NOTICE! generally necessary. Calibration of the zero point is only necessary if the Prerequisites for correct calibration of sensor is operated at the lower limit of the sensor slope... - Page 77 Measured Variables and Operating Menus for Amperometric Sensors Calibration of amperometric sensors: ð The display now shows the slope (in the reduced and complete oper‐ value determined for the zero ating menu) point and slope. Refer to the Error Message table should an The sensor is fitted, flushed with sample error be dis‐...
- Page 78 Measured Variables and Operating Menus for Amperometric Sensors Calibration of amperometric sensors: Zero point (only in the complete operating NOTICE! menu) Then definitively calibrate the slope A container with water, which is free of with a suitable reference method (e.g. additives that could falsify the measured DPD.
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Page 79: Setting The Measured Value
DULCOMETER D1Cb / D1Cc. ® To match a sensor from Prominent to the DULCOMETER D1Cb / D1Cc, please only ® ‘General Settings’ , see Ä Chapter 5.1.2 ‘Selection of the Measured use the menu under Variable and Measuring Range’... - Page 80 Measured Variables and Operating Menus for Amperometric Sensors only with correction value correcting value correction value temperature setting ? automatic A0020_GB Fig. 40: Correcting value The correction variable compensates for the effect of the temperature of the medium on the measured value. The correction variable is the temperature of the medium to be measured.
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Page 81: Measured Variables And Operating Menus For Potentiometric Sensors
Measured Variables and Operating Menus for Potentiometric Sensors Measured Variables and Operating Menus for Potentio‐ metric Sensors Users' qualification: instructed per‐ Ä Chapter 1.2 ‘Users' qual‐ sons, see ifications’ on page 10 Measured variables pH, ORP, fluoride CAUTION! Influence of temperature on the pH or fluoride measurement Possible consequence: Slight or minor injuries. -
Page 82: Reduced / Complete Operating Menu
Measured Variables and Operating Menus for Potentiometric Sensors Reduced / Complete Operating Menu The DULCOMETER ® D1Cb / D1Cc allows settings to be made in two different compre‐ hensive menus (reduced / complete). All of the parameters of the controller are preset and can be changed in the complete operating menu. -
Page 83: Reduced Ph / Redox / Fluoride Operating Menu
Measured Variables and Operating Menus for Potentiometric Sensors Redox measured variable Typical measuring range Measuring range -1000 mV … + 1000 mV Resolution 1 mV Fluoride measured variable Measuring range Measuring range 0..10 ppm 0..99.99 ppm Resolution 0.01 ppm Reduced pH / Redox / Fluoride Operating Menu The reduced operating menu allows the key parameters to be operated. - Page 84 Measured Variables and Operating Menus for Potentiometric Sensors Permanent display 1 7.20 temp.: 33.2 °C Temperature specification only with correction variabl e Permanent display 2 mea. val 7.20 pH 70 % feedfwd: only with control ctrlout: -59 % (w = setpoint ) 7.00 pH Positive values of setting variable: Measured value lift...
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Page 85: Complete Operating Menu/Description Of Ph / Orp / Fluoride
Measured Variables and Operating Menus for Potentiometric Sensors Fig. 42: Reduced pH / redox / fluoride operating menu (shown with the example of pH) Complete Operating Menu/Description of pH / ORP / Fluoride The complete operating menu is for setting all the parameters of the DULCOMETER ®... - Page 86 Measured Variables and Operating Menus for Potentiometric Sensors 3.60 Cont. display 1 m 30.0 °C Cont. display 2 measured value 3.60 only with control ctrlout: (w=setpoint) 3.00 pH Cont. display 3 7.20 pH -1.45 15.45 calibration zero p.: 0.0mV slope 25 °C 59.16mV / pH Only with fluoride...
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Page 87: Calibration Of Ph, Orp And Fluoride Sensors
Measured Variables and Operating Menus for Potentiometric Sensors Calibration of pH, ORP and During calibration, the DULCOMETER ® Ä Chapter 1.2 ‘Users' D1Cb / D1Cc, see Fluoride Sensors qualifications’ on page 10 sets the control ‘0’ . Exception: a basic load or outputs to a manual control value has been set. -
Page 88: Description Of The Calibration Of Ph Sensors
Measured Variables and Operating Menus for Potentiometric Sensors 8.5.1 Description of the Calibration of pH Sensors 8.5.1.1 2-Point Calibration 2-Point Calibration Recommended as the standard method Calibration of pH sensors with temperature as the correction variable When calibrating with temperature as the correction variable, the temperature of the buffer solution must be set in "manual"... - Page 89 Measured Variables and Operating Menus for Potentiometric Sensors Two test containers with a buffer solution are required for calibration. The pH value of the buffer solutions should be at least 2 ph values apart. The sensor should be rinsed thor‐ oughly with water when changing the buffer solution.
- Page 90 Measured Variables and Operating Menus for Potentiometric Sensors 8.5.1.2 1-Point Calibration One test container with a buffer solution is required for calibration. Select Calibration menu 1-Point Calibration Immerse the sensor in the test con‐ Recommended only for special appli‐ tainer with buffer solution (e.g. pH cations e.g swimming pool water Move the sensor gently until the pH value displayed no longer changes...
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Page 91: Calibration Of Ph Sensors. Description Of The Setting Ranges
Measured Variables and Operating Menus for Potentiometric Sensors 8.5.2 Calibration of pH Sensors. Description of the Setting Ranges Setting Possible values Starting Increment Lower value Upper value Remarks value Calibration Reading 0.1 ℃ 0 °C 100 ℃ temperature Buffer Reading 0.01 pH -1.45 pH 15.45 pH... -
Page 92: Testing The Redox Sensor
Measured Variables and Operating Menus for Potentiometric Sensors 8.5.4 Testing the Redox Sensor CAUTION! Correct sensor operation / Run-in time Damage to the product or its surroundings – Correct measuring and metering is only possible if the sensor is working per‐ fectly –... - Page 93 Measured Variables and Operating Menus for Potentiometric Sensors Immerse redox sensor in the test container with redox buffer solution (e.g. 465 mV) Start test with ð Test is running. A buffer value is suggested once the waiting time has expired. Adjust displayed value of "buffer"...
- Page 94 Measured Variables and Operating Menus for Potentiometric Sensors 8.5.4.2 Testing Redox Sensors Buffer Values Tables Table: Possible buffer values Possible values Setting Starting Increment Lower value Upper value Remarks value Buffer Reading 1 mV -1,500 mV +1,500 mV values 185-265 mV 220 mV 425-505 mV 465 mV...
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Page 95: Description Of The Calibration Of Fluoride Sensors
Measured Variables and Operating Menus for Potentiometric Sensors 8.5.5 Description of the Calibration of Fluoride Sensors Temperature setting and specification only with correction value calibration calibration calibration calibration sensor insolut. 1 1.00ppm= 184.4mV calib. 1 active solut. 1 1.7 ppm mea. - Page 96 Measured Variables and Operating Menus for Potentiometric Sensors In "Temperature Correction In "Temperature Correction Value automatic" operating Value automatic" operating mode the calibration display mode the calibration display appears appears Measure the temperature of the cal‐ Measure the temperature of the cal‐ ibrating solution 1 using the ther‐...
- Page 97 Measured Variables and Operating Menus for Potentiometric Sensors 8.5.5.1.2 1-Point Calibration of the ð The display of the Fluoride Sensor DULCOMETER ® D1Cb / D1Cc shows the result of the calibra‐ Calibration of fluoride. Description of 1- tion. If the calibration result is point calibration correct, confirm by pressing One container with a calibrating solution is...
- Page 98 Measured Variables and Operating Menus for Potentiometric Sensors Using the keys enter the determined concentration for the calibration solution in ppm into the DULCOMETER ® D1Cb / D1Cc Confirm the ppm value by pressing...
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Page 99: Temperature Correction Value For Ph And Fluoride Sensors
Measured Variables and Operating Menus for Potentiometric Sensors Temperature correction value for pH and fluoride sensors CAUTION! Influence of temperature on the pH or fluoride measurement Possible consequence: Slight or minor injuries. Material damage. Temperature changes in the sample water lead to a change in the slope of the cali‐ bration lines (pH, fluoride) and to a displacement of the zero point with pH sensors or the standard potential E for fluoride sensors. - Page 100 Measured Variables and Operating Menus for Potentiometric Sensors Temperature correction value for pH and fluoride sensors Possible values Factory setting Increment Lower value Upper value Manual temperature 25 °C 0.1 °C 0 °C 100 °C compensation...
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Page 101: Measured Variables And Operating Menus For The Standard Signal General
Measured Variables and Operating Menus for the Standard Signal General Measured Variables and Operating Menus for the Standard Signal General Users' qualification: instructed per‐ Adjusting the sensor output signal Ä Chapter 1.2 ‘Users' qual‐ sons, see To match the DULCOMETER ®... - Page 102 DULCOMETER ® D1Cb. NOTICE! Calibration ProMinent also offers the possibility of one-point or two-point calibration of the "standard signal general" meas‐ ured variable. This calibration option should only be used if the manufac‐ turer of the sensor or measuring...
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Page 103: Changing The Measured Variable
Measured Variables and Operating Menus for the Standard Signal General Changing the Measured Variable WARNING! Incorrect metering due to incorrect measured variable Possible consequence: Fatal or serious injuries – The measured variable/measuring range of the sensor is essential for the meas‐ ured variable/measuring range! –... -
Page 104: Reduced / Complete Operating Menu
Measured Variables and Operating Menus for the Standard Signal General Reduced / Complete Operating Menu The DULCOMETER ® D1Cb / D1Cc allows settings to be made in two different compre‐ hensive menus (reduced / complete). All of the parameters of the controller are preset and can be changed in the complete operating menu. -
Page 105: Description Of All Standard Signal Measured Values/Measured Variables
Measured Variables and Operating Menus for the Standard Signal General Range assignment table Possible values Starting value Increment Lower value Upper value Lower signal 4 mA 0 mA limit 4 mA Assigned 0 - 100.0 % 0.1 % -5 % 105 % measuring 0 - 20.00 mA... -
Page 106: Reduced Operating Menu
Measured Variables and Operating Menus for the Standard Signal General Possible values Measured vari‐ Increment Lower value Upper value Measuring able range* Flow rate 0.001 m 0.000 m 10.00 m 9.999 m 0.1 m 0.0 m 105.0 m 100 m 1,050 m 1,000 m 0.1 gal/h... - Page 107 Measured Variables and Operating Menus for the Standard Signal General Permanent display 1 0.60 auto.: 30.0 °C mea. val 0.60 Permanent display 2 feed fwd: 70 % only with control ctrlout: 59 % (w = setpoint ) w= 0.60 ppm Permanent display 3 0.60 % Positive values of setting variable: Measured value lift...
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Page 108: Complete Operating Menu / Description Of All Measured Variables
Measured Variables and Operating Menus for the Standard Signal General Complete Operating Menu / Description of All Measured Variables The complete operating menu allows all control unit parameters to be set. The following overview shows the settings that can be selected: Permanent display 1 auto.: 30.0°C... -
Page 109: Calibrating The Standard Signal
Measured Variables and Operating Menus for the Standard Signal General Calibrating the Standard Signal In the restricted operating menu: The DULCOMETER ® D1Cb / D1Cc calibrates the zero point. In the complete operating menu: The DULCOMETER ® D1Cb / D1Cc carries out a two- point calibration. -
Page 110: Calibration Of The Zero Point Of The Standard Signal General
Measured Variables and Operating Menus for the Standard Signal General During the calibration, the DULCOMETER D1Cb / D1Cc sets the control outputs to "0". ® Exception: a basic load or a manual control value has been set. This remains active. The mA standard signal outputs are frozen. -
Page 111: Two-Point Calibration Of The Standard Signal General
Measured Variables and Operating Menus for the Standard Signal General Calibration in the restricted operating menu Select the calibration menu. Then press Enter the actual value suitable for the respective measured variable determined using the measuring method with the keys in the DULCOMETER ®... - Page 112 Measured Variables and Operating Menus for the Standard Signal General Calibration in the complete operating menu Select the calibration menu. Then press Confirm prompt with the key Enter the actual value 1 suitable for the respective measured variable determined using the measuring method with the keys in the DULCOMETER ®...
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Page 113: Operating Menus Independent Of Measured Variables
Operating Menus Independent of Measured Variables Operating Menus Independent of Measured Variables Users' qualification: instructed per‐ Ä Chapter 1.2 ‘Users' qual‐ sons, see ifications’ on page 10 Operating Menus Independent of Measured Variables This section describes of the DULC‐ OMETER D1Cb / D1Cc operating ®... -
Page 114: Pumps
Operating Menus Independent of Measured Variables 10.1 Pumps CAUTION! Observe the operating manual for the pump Possibility of damage to the pump. Faults in the process. – The pump must be set to "External Control" operating mode – Observe the maximum stroke rate for the pump –... - Page 115 Operating Menus Independent of Measured Variables Possible values Factory setting Increment Lower value Upper value Remarks Strokes Critical when setting the stroke rate is the flow rate of the pump in relation to the respective process. Observe the maximum pump frequency...
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Page 116: Setting The Relays
Operating Menus Independent of Measured Variables 10.2 Setting the Relays Relay combination Relay 1 and relay 2 can be configured independently of each other. Thus any combi‐ nation of "Off / Limit / Actuator / SV / Timer" is possible. Possible values Factory setting Increment... -
Page 117: Setting And Functional Description Of The Relays
Operating Menus Independent of Measured Variables 10.2.1 Setting and Functional Description of the Relays 10.2.1.1 Setting and Functional Description of "Relay Off" only with realy „off“ relay adjustment relay relay1 setting ? relay2 A0224_GB Fig. 56: Relay off The functionality of the relays is switched off. 10.2.1.2 Setting and Functional Description of "Relay Used as a Limit Relay"... - Page 118 Operating Menus Independent of Measured Variables Limit relay used as an actuator Extended functions The limit relays can also be defined in such a way that they react like an – actuator. If, for example, a limit relay is activated, then it is deactivated if the pause contact is closed and for a subsequent time delay t (if t >...
- Page 119 Operating Menus Independent of Measured Variables At the end of the (Timer) cycle time, the DULCOMETER D1Cb / D1Cc closes the corre‐ ® sponding timer relay for the duration of "t on" (Timer). "Pause" interrupts the timer. If the clock is visible on the LCD display, then the timer can be reset to the beginning of the cycle using the enter key.
- Page 120 Operating Menus Independent of Measured Variables 10.2.1.5.1 Switching Times of the Solenoid Valves The switching times of the DULCOM‐ ETER ® D1Cb / D1Cc (solenoid valve) depend on the cycle time and the "min‐ imum time" (smallest permissible switching time of the connected device). The control value determines the ratio t cycle and thus also the switching times.
- Page 121 Operating Menus Independent of Measured Variables First theoretical switching time < min. time Cycle Cycle Cycle min. time theoretical Cycle Cycle Cycle min. time actual A0026_GB Fig. 63: Theoretical switching time < min. time The DULCOMETER ® D1Cb / D1Cc does not switch on for a certain number of cycles until the sum of the theoretical switching times exceeds the "min.
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Page 122: Setting The Limits
Operating Menus Independent of Measured Variables 10.3 Setting the Limits limits fault limit 2 upper limits hyst.: 4.0 ppm 150.0 ppm setting ? ∆t on: limit 1 lower control: 10.0 ppm relay 1 relay 2 - active closed - active closed ∆... - Page 123 Operating Menus Independent of Measured Variables Possible values Factory set‐ Increment Lower value Upper value Remarks ting Checkout 9999 s Results in time limits message ∆t on and alarm, Off = 0 s, function switched off No message, no alarm Control Limit value Active closed...
- Page 124 Operating Menus Independent of Measured Variables Measured value Upper limit value "Hysteresis“ "Hysteresis" Lower limit value Limit value transgression A0009_GB Fig. 66: Hysteresis If the relays are defined as limit relays, they will also switch to the alarm relay when a limit is transgressed and the direction of the limit transgression will be shown on the dis‐...
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Page 125: Setting The Control
Operating Menus Independent of Measured Variables 10.4 Setting the Control manuel dosing control control 10 % regulated value setting ? regulated positiv ↑ negativ ↓ set point 0.60 ppm PID-control ctrl parameter normal 10 % xp = control value Ti = set point 2 upper Td = 0.60 ppm... - Page 126 Operating Menus Independent of Measured Variables With control with a dead zone, the control variable does not change with measured values within the dead zone. The setting ranges are specified by the DULCOMETER ® D1Cb / D1Cc. Setting values of the control Possible values Factory set‐...
- Page 127 Operating Menus Independent of Measured Variables Possible values Factory set‐ Increment Lower value Upper value Remarks ting Control 2500 s Function off parameter = 0 s Additive -100 % +100 % basic load Manual - 100 % +100 % dosing ↑...
- Page 128 Operating Menus Independent of Measured Variables threshhold Transgression of the checkout time If a transgression of the [checkout time] repeatedly occurs, then you must clear the error in the process or redetermine and reset the values for the [checkout times] and Fig.
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Page 129: Set Ma Output
Operating Menus Independent of Measured Variables 10.5 Set mA output control with mA-Output control mA-Output only with mA-Output control value: control value positive ↑ 0 mA= mA-Output mA-Output 20 mA = negative ↓ -100% measured value setting ? 0…20 mA mA-Output measured value 0.00 ppm... - Page 130 Operating Menus Independent of Measured Variables Possible values Factory set‐ Increment Lower value Upper value Remarks ting Measured 0 ppm ...max. 0.01 ppm 0 ppm Upper limit Minimum value Measuring of meas‐ range 0.1 range range uring range - 1 pH...max. 0.01 pH -1 pH Measuring...
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Page 131: General Settings
Operating Menus Independent of Measured Variables 10.6 General settings general setting identcode operating menu alarm relay information D1CBxxxxxxxxxx pause reduced Vxxxxxxxxxxx operating menu English Srnr: xxxxxxxxxx Calib timer access c.: 5000 A0016_GB Fig. 71: General settings The functions described below can be selected in this menu. 10.6.1 Setting the Measured Variable/Measuring Range WARNING! -
Page 132: Sub-Functions Of The "General Settings" Menu
Operating Menus Independent of Measured Variables as the "Calibration timer" message is 10.6.2 Sub-Functions of the visible. If another message is shown alter‐ "General Settings" Menu nately, it is necessary to wait until the The following sub-functions can be found "Calibration timer"... - Page 133 Operating Menus Independent of Measured Variables 10.6.2.4 Change Measured Vari‐ – d = day able – h = hour – m = minute Change Measured Variable Zero point (without unit) In the "Change Measured Variable" menu Gradient (without unit) item are listed all of the measured varia‐ bles which can be enabled by the ena‐...
- Page 134 Operating Menus Independent of Measured Variables 10.6.2.10 Sensor Monitoring (pH Sensor mV Only) PID control With configured pH measured variables, it An I term is generally only present if, is possible to monitor a sensor connected in the setting menu ‘ set control? ’ to the potentiometric input for fault states.
- Page 135 Operating Menus Independent of Measured Variables be set in such a way that, for example, during this period the sample water, which contains sufficient feed chemical (e.g. chlorine), for the typical process, flows to the sensor. For PID control: The control value issued following the Pause and the expiry of the ‘...
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Page 136: Maintenance
Maintenance Maintenance Users' qualification: trained user, see Ä Chapter 1.2 ‘Users' qualifications’ WARNING! on page 10 Danger from electrical voltage The DULCOMETER ® D1Cb / D1Cc is Possible consequence: Fatal or very maintenance free. serious injuries. – There may still be mains voltage 11.1 Fuse replacement DULC‐... - Page 137 Maintenance Fuse change The mains fuse is located in a sealed fuse holder inside of the device, see Fig. 10. Disconnect the controller from the mains power Open the controller and put the upper section of the housing into its "parked position"...
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Page 138: Summary Of Error Texts
Maintenance 11.2 Summary of Error Texts Error Error text Symbol Effect on Effect on Alarm with Remarks actuating control acknowl‐ variable edgement Actuating Check Basic load Stop Function variable sensor can be exceeds switched control time of reading Upper and Input Basic load Stop Signal... - Page 139 Maintenance Error Error text Symbol Effect on Effect on Alarm with Remarks actuating control acknowl‐ variable edgement Correction Temp. Basic load Stop Pt100 variable - input signal upper/ >138.5 Ω lower signal, signal <100 Ω breached Pt1000 signal >1385 Ω signal, <...
- Page 140 Maintenance Operating Message Symbol Effect on Effect on Alarm with Remarks step text actuating control acknowl‐ variable edgement During Basic load No error calibration treatment of sensors of meas‐ ured vari‐ able Sensor Basic load 25%> gradient sensor too low gradient Sensor Basic load...
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Page 141: Technical Data
Technical data Technical data 12.1 Ambient conditions DULCOMETER D1Cb / D1Cc ® Permissible ambient conditions: Wall mounted: 0° C – 50° C Control panel installa‐ 0° C – 50° C tion: All versions: 10 to 95% relative air humidity (non-condensing) Permissible storage conditions: All versions: -10°... -
Page 142: Material Data
Technical data 12.3 Material Data Part Material Housing lower and upper section PPE-GF10 Bracket on rear of housing lower section PPE-GF20 Membrane keypad Polyester PET membrane Seal CR foam rubber Angle bracket and screws Galvanically galvanised steel M5 screws Stainless steel A2 12.4 Chemical Resistance The device is resistant to normal atmos‐... -
Page 143: Dimensions And Weights
Technical data 12.5 Dimensions and weights D1Cb Complete device: 198 x 200 x 76 mm (W x H x D) Packaging: 390 x 295 x 155 mm (W x H x D) Weight of device without packaging: approx. 1.2 kg Gross weight of device with packaging: approx. -
Page 144: Electrical Data
Electrical Data Electrical Data Mains connection Nominal voltage range: 100 – 230 VAC ± 10 % Frequency 50 – 60 Hz Current consumption 95 – 250 mA The mains connection is isolated from other switching parts by reinforced insulation. The device has no mains switch;... - Page 145 Electrical Data NOTICE! Do not supply with voltage For the connection of an external semi-conductor or mechanical switch. mA Output Current range: 0/3.8 – 23 mA In the event of a fault: 3.6 or 21.5 mA Max. apparent ohmic resistance: 450 W at 20.5 mA Max.
- Page 146 Electrical Data 2 digital outputs isolated galvanically from each other and from all other connections via OptoMos relays. mA Input Current measuring range 0...24 mA Voltage output for passive transmitters: approx. 21 V/max. 35 mA/ Ri min. 50 W Measuring accuracy: ±...
- Page 147 Electrical Data Not galvanically isolated from the mA and temperature inputs. Terminal for the connec‐ tion of an electrode for compensating for the potential of the measuring liquid Temperature input Temperature measuring range: 0...100 °C Measuring flow: approx. 0.96 mA Measuring accuracy: ±...
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Page 148: Spare Parts And Accessories Dulcometer ® D1Cb / D1Cc
Spare parts and accessories DULCOMETER® D1Cb / D1Cc Spare parts and accessories DULCOMETER D1Cb / ® D1Cc Spare parts and accessories DULCOMETER ® D1Cb Spare parts Part number Fine fuse 5x20 T 1.6A 732411 Threaded connection M12x1.5 compl. metric 1032245 Half screw connection compl. - Page 149 Spare parts and accessories DULCOMETER® D1Cb / D1Cc Spare parts and accessories DULCOMETER D1Cc ® Spare parts Part number Fine fuse 5x20 T 1.6A 732411 Guard terminal top part 733389 D1C/D2C measured variable labels 1030506 Accessories Part number 2 pole female multipoint connector for relays and power 731043 supply 3 pole female multipoint connector for alarm relays...
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Page 150: Standards Complied With
Standards Complied With Standards Complied With DIN EN 61010 Safety requirements for electrical units for measuring, control, reg‐ ulating and laboratory devices DIN EN 61326 Electrical equipment for measuring, control and laboratory use - EMC requirements (for class A and B devices) DIN EN 55014-1 EMC Requirements of household appliances Part 1 Emitted... -
Page 151: Disposal Of Used Parts
– Note the current national regula‐ tions and legal standards which apply in your country ProMinent Dosiertechnik GmbH, Heidel‐ berg will take back decontaminated used devices providing that they are covered by adequate postage. You can find the currently valid decon‐... -
Page 152: Declaration Of Conformity
Declaration of Conformity Declaration of Conformity EC Declaration of Conformity ProMinent Dosiertechnik GmbH Im Schuhmachergewann 5 - 11 DE - 69123 Heidelberg hereby declare that, the product specified in the following complies with the relevant basic health and safety rules of the EC Directive, on the basis of its functional concept and design and in the version marketed by us. - Page 153 Declaration of Conformity EC Declaration of Conformity ProMinent Dosiertechnik GmbH Im Schuhmachergewann 5 - 11 DE - 69123 Heidelberg hereby declare that, the product specified in the following complies with the relevant basic health and safety rules of the EC Directive, on the basis of its functional concept and design and in the version marketed by us.
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Page 154: Index
Index Index Access code......... 68 Environmental conditions....141 Activation code........55 Actuating outputs......76, 87 Fixing material ........24 Actuator..........124 Foam rubber ........27 Air humidity........141 Ambient conditions......141 General non-discriminatory approach..3 General settings......... 131 Cable end sleeves ......29 Cable sheathing ........ - Page 155 Index Polyester PET membrane....142 Storage conditions......141 PPE-GF10.......... 142 Switching times........121 PPE-GF20.......... 142 Pressure ring ........29 Terminal diagram......... 44 Projection of device ......27 Terminal wiring diagram ...... 30 Protective low voltage ......21 Theoretical switching time....121 Punched template .......
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