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QS_IFC 300__en__100909_4000070303_R06
+ 2. M IFC 300 Quick Start Signal converter for electromagnetic flowmeters Electronic Revision: ER 3.3.xx (SW.REV. 3.3x) The documentation is only complete when used in combination with the relevant documentation for the sensor. ©KROHNE 08/2010-4000070303-QS IFC 300 ROb en KROHNE ■ CONTENTS 1 Safety instructions 4 2 Installation 5 2.1 Intended use ..................................................................................................................... 5 2.2 Scope of delivery............................................................................................................... 5 2.3 Storage ............................................................................................................................. 6 2.4 Transport.......................................................................................................................... 6 2.5 Installation specifications ................................................................................................ 6 2.6 Mounting of the compact version..................................................................................... 7 2.7 Mounting the field housing, remote version.................................................................... 7 2.7.1 Pipe mounting.........................................................................................................................7 2.7.2 Wall mounting.........................................................................................................................8 2.7.3 Mounting plate, field housing .................................................................................................9 2.7.4 Turning the display of the field housing version .................................................................. 10 2.8 Mounting the wall-mounted housing, remote version .................................................. 11 2.8.1 Pipe mounting....................................................................................................................... 11 2.8.2 Wall mounting....................................................................................................................... 12 2.8.3 Mounting plate, wall-mounted housing ............................................................................... 13 3 Electrical connections 14 3.1 Safety instructions.......................................................................................................... 14 3.2 Important notes on electrical connection...................................................................... 14 3.3 Electrical cables for remote device versions, notes...................................................... 15 3.3.1 Notes on signal cables A and B............................................................................................ 15 3.3.2 Notes on field current cable C.............................................................................................. 15 3.3.3 Requirements for signal cables provided by the customer................................................. 16 3.4 Preparing the signal and field current cables (except TIDALFLUX) ............................. 17 3.4.1 Signal cable A (type DS 300), construction........................................................................... 17 3.4.2 Preparing signal cable A, connection to signal converter................................................... 18 3.4.3 Length of signal cable A........................................................................................................ 20 3.4.4 Signal cable B (type BTS 300), construction.........................................................................21 3.4.5 Preparing signal cable B, connection to signal converter...................................................21 3.4.6 Length of signal cable B ....................................................................................................... 24 3.4.7 Preparing field current cable C, connection to signal converter......................................... 25 3.4.8 Preparing signal cable A, connection to measuring sensor................................................27 3.4.9 Preparing signal cable B, connection to measuring sensor................................................ 28 3.4.10 Preparing field current cable C, connection to measuring sensor ................................... 29 3.5 Connecting the signal and field current cables (except TIDALFLUX) ........................... 30 3.5.1 Connecting the signal and field current cables, field housing ............................................31 3.5.2 Connecting the signal and field current cables,wall-mounted housing.............................32 3.5.3 Connecting the signal and field current cables, 19" rack-mounted housing (28 TE)..........33 3.5.4 Connecting the signal and field current cables, 19" rack-mounted housing (21 TE)..........34 3.5.5 Connection diagram for measuring sensor, field housing ..................................................35 3.5.6 Connection diagram for measuring sensor, wall-mounted housing...................................36 3.5.7 Connection diagram for measuring sensor, 19" rack-mounted housing (28 TE)................37 3.5.8 Connection diagram for measuring sensor, 19" rack-mounted housing (21 TE)................38 2 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en CONTENTS ■ 3.6 Preparing and connecting the signal and field current cables (only TIDALFLUX) ....... 39 3.6.1 Cable lengths........................................................................................................................39 3.6.2 Signal cable A (type DS 300), construction...........................................................................40 3.6.3 Preparing signal cable A, connection to signal converter...................................................41 3.6.4 Prepare signal cable A, connect to measuring sensor........................................................42 3.6.5 Signal cable B (type BTS 300), construction.........................................................................43 3.6.6 Preparing signal cable B, connection to signal converter...................................................43 3.6.7 Preparing signal cable B, connection to measuring sensor................................................45 3.6.8 Preparing field current cable C, connection to signal converter.........................................46 3.6.9 Preparing field current cable C, connection to measuring sensor.....................................47 3.6.10 Interface cable ....................................................................................................................49 3.6.11 Connection of cables........................................................................................................... 50 3.7 Grounding the measuring sensor.................................................................................. 51 3.7.1 Classical method................................................................................................................... 51 3.7.2 Virtual reference (not valid for TIDALFLUX 4000 & OPTIFLUX 7300 C)...............................52 3.8 Power supply connection ............................................................................................... 52 3.9 Inputs and outputs, overview ......................................................................................... 55 3.9.1 Combinations of the inputs/outputs (I/0s) ........................................................................... 55 3.9.2 Description of the CG number.............................................................................................. 56 3.9.3 Fixed, non-alterable input/output versions.......................................................................... 57 3.9.4 Alterable input/output versions............................................................................................ 59 3.10 Electrical connection of the inputs and outputs.......................................................... 60 3.10.1 Field housing, electrical connection of the inputs and outputs.........................................60 3.10.2 Wall-mounted housing, electrical connection of the inputs and outputs.......................... 61 3.10.3 19" rack-mounted housing (28 TE), electrical connection of the inputs and outputs....... 62 3.10.4 19" rack-mounted housing (21 TE), electrical connection of the inputs and outputs....... 63 3.10.5 Laying electrical cables correctly....................................................................................... 63 4 Start-up 64 4.1 Switching on the power.................................................................................................. 64 4.2 Starting the signal converter ......................................................................................... 64 5 Notes 65 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 3 p SAFETY INSTRUCTIONS Emam Warnings and symbols used QDANGER! This information refers to the immediate danger when working with electricity. DANGER! These warnings must be observed without fail. Even partial disregard of this warning can lead to serious health problems and even death. There is also the risk of seriously damaging the device or parts of the operators plant. WARNardi A! Disregarding this safety warning, even if only in part,poses the risk of serious health problems. There is also the risk of damaging the device or parts of the operator's plant. CAUTION! Q° Disregarding these instructions can result in damage to the device or to parts of the operator's plant. a /NFORMA T/ON! These instructions contain important information for the handling of the device. HANDLING • This symbol designates all instructions for actions to be carried out by the operator in the specified sequence. RESULT This symbol refers to all important consequences of the previous actions. Safety instructions for the operator CAUTION! Installation, assembly, start-up and maintenance may only be performed by appropriately Q trained personnel. The regional occupational health and safety directives must always be observed. ® LEGAL NOTICE! The responsibility as to the suitability and intended use of this device rests solely with the user. The supplier assumes no responsibility in the event of improper use by the customer. Improper installation and operation may lead to loss of warranty. In addition, the "Terms and Conditions of Sale"apply. They appear on the back of the invoice and form the basis of the purchase contract. a /NFORMA T/ON! • Further information can be found on the supplied CD-ROM in the manual, on the data sheet, in special manuals, certificates and on the manufacturer's website. • Ifyou need to return the device to the manufacturer or supplier;please fill out the form contained on the CD-ROM and send it with the device. Unfortunately, the manufacturer cannot repair or inspect the device without the completed form. 4 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en INSTALLATION p 2.1 Intended use The electromagnetic flowmeters are designed exclusively to measure the flow and conductivity of electrically conductive, liquid media. DANGER! EX For devices used in hazardous areas, additional safety notes apply,please refer to the Ex documentation. WARNING! If the device is not used according to the operating conditions(refer to chapter "Technical dataJ, e! the intended protection could be affected. 2.2 Scope of delivery a /NFORMA T/ON! Inspect the cartons carefully for damage or signs of rough handling. Report damage to the carrier and to the local office of the manufacturer. a /NFORMA T/ON! iCheck the packing list to check if you received completely all that you ordered. a /NFORMA T/ON! Look at the device nameplate to ensure that the device is delivered according to your order. Check for the correct supply voltage printed on the nameplate. 10 02 0 OO Figure 2-1:Scope of delivery 1� Device in the version as ordered 2� Documentation(calibration report,Quick Start,CD-Rom with product documentation for measuring sensor and signal converter) 3I Signal cable(only for remote version) 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 5 INSTALLATION Possible scope of delivery for signal converter/ measuring sensor Measuring sensor Measuring sensor+signal converter IFC 300 Compact Remote field Remote wall- Remote rack-mounted housing mounted housing housing R (28 TE) or(21 TE) 0PTIFLUX 1000 OPTIFLUX 1300 C OPTIFLUX 1300 F OPTIFLUX 1300 W OPTIFLUX 1300 R OPTIFLUX 2000 OPTIFLUX 2300 C OPTIFLUX 2300 F 0PTIFLUX 2300 W OPTIFLUX 2300 R OPTIFLUX 4000 0PTIFLUX 4300 C 0PTIFLUX 4300 F 0PTIFLUX 4300 W 0PTIFLUX 4300 R OPTIFLUX 5000 OPTIFLUX 5300 C OPTIFLUX 5300 F OPTIFLUX 5300 W OPTIFLUX 5300 R OPTIFLUX 6000 OPTIFLUX 6300 C OPTIFLUX 6300 F 0PTIFLUX 6300 W OPTIFLUX 6300 R OPTIFLUX 7000 OPTIFLUX 7300 C - - - WATERFLUX 3000 WATERFLUX 3300 C WATERFLUX 3300 F WATERFLUX 3300 W WATERFLUX 3300 R TIDALFLUX 4000 - TIDALFLUX 4300 F - - 2.3 Storage • Store the device in a dry, dust-free location. • Avoid continuous direct sunlight. • Store the device in its original packing. • Storage temperature: -50...+70°C/-58...+158°F 2.4 Transport Signal converter • No special requirements. Compact version • Do not lift the device by the signal converter housing. • Do not use lifting chains. • To transport flange devices, use lifting straps.Wrap these around both process connections. 2.5 Installation specifications a /NFORMA T/ON! iThe following precautions must be taken to ensure reliable installation. • Make sure that there is adequate space to the sides. • Protect the signal converter from direct sunlight and install a sun shade if necessary. • Signal converters installed in control cabinets require adequate cooling, e.g. by fan or heat exchanger. • Do not expose the signal converter to intense vibration. The flowmeters are tested fora vibration level in accordance with lEC 68-2-3. 6 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en I INSTALLATION p 2.6 Mounting of the compact version a /NFORMA T/ON! The signal converter is mounted directly on the measuring sensor. For installation of the flowmeter,please observe the instructions in the supplied product documentation for the measuring sensor. 2.7 Mounting the field housing, remote version a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. 2.7.1 Pipe mounting 10 � 02 � OO Figure 2-2:Pipe mounting of the field housing 10 Fix the signal converter to the pipe. 410 02 Fasten the signal converter using standard U-bolts and washers. 30 Tighten the nuts. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 7 INSTALLATION 2.7.2 Wall mounting • R Figure 2-3:Wall mounting of the field housing © 1) Prepare the holes with the aid of the mounting plate. For further information refer to Mounting plate, field housing on page 9. 2� Use the mounting material and tools in compliance with the applicable occupational health and safety directives. 3� Fasten the housing securely to the wall. Mounting multiple devices next to each other o O O o O o 0 0 a a b O O • O O O a>_600 m m/23.6" b>_250mm/9.8" 8 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en INSTALLATION 2.7.3 Mounting plate, field housing a c b O Dimensions in mm and inch [mm] [inch] 60 2.4 b 100 3.9 09 00.4 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 9 p INSTALLATION MERIM 2.7.4 Turning the display of the field housing version , 10 • �Z 00•,OG 0000 • �rE)-n ` srU�� ` lO • ` 0 0 0 Figure 2-4:Turning the display of the field housing version The display of the field housing version can be turned in 90' increments. 10 Unscrew the cover from the display and operation control unit. ( Using a suitable tool, pull out the two metal puller devices to the left and right of the display. 30 Pull out the display between the two metal puller devices and rotate it to the required position. 40 Slide the display and then the metal puller devices back into the housing. ( Re-fit the cover and tighten it by hand. A CAUTION! The ribbon cable of the display must not be folded or twisted repeatedly. a /NFORMA T/ON! Each time a housing cover is opened, the thread should be cleaned and greased. Use only resin- free and acid-free grease. Ensure that the housing gasket is properly fitted, clean and undamaged. 10 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en INSTALLATION p 2.8 Mounting the wall-mounted housing, remote version a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. 2.8.1 Pipe mounting 1 02 O 8 0 0 8 Figure 2-5:Pipe mounting of the wall-mounted housing /� 10 Fasten the mounting plate to the pipe with standard U-bolts, washers and fastening nuts. 02 Screw the signal converter to the mounting plate with the nuts and washers. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 11 p INSTALLATION 2.8.2 Wall mounting � � 3 KVAMA QZD vvvvvvvvvvvvv C Ci O 0 0 O Figure 2-6:Wall mounting of the wall-mounted housing /lF,N, 10 Prepare the holes with the aid of the mounting plate. For further information refer to Mounting plate, wall-mounted housing on page 13. ( Fasten the mounting plate securely to the wall. 30 Screw the signal converter to the mounting plate with the nuts and washers. Mounting multiple devices next to each other a a o 0 0 o o 0 0 o o 0 0 o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 o 0 0 0 o 0 0 0 0 a>_240mm/9.4" 12 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en INSTALLATION 2.8.3 Mounting plate, wall-mounted housing a c b O O CDd h e O O f 9 Dimensions in mm and inch [mm] [inch] a 09 00.4 b 64 2.5 c y16 0.6 d 6 0.2 e 63 2.5 f 4 0.2 9 64 2.5 h 98 3.85 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 13 p ELECTRICAL CONNECTIONS 3.1 Safety instructions QDANGER! All work on the electrical connections may only be carried out with the power disconnected. Take + note of the voltage data on the nameplate! QDANGER! Observe the national regulations for electrical installations! DANGER! EX For devices used in hazardous areas, additional safety notes apply,please refer to the Ex documentation. AWARNING! Observe without fail the local occupational health and safety regulations.Any work done on the electrical components of the measuring device may only be carried out by properly trained specialists. a /NFORMA T/ON! Look at the device nameplate to ensure that the device is delivered according to your order. Check for the correct supply voltage printed on the nameplate. 3.2 Important notes on electrical connection QDANGER! Electrical connection is carried out in conformity with the VDE 0100 directive "Regulations for + electrical power installations with line voltages up to 1000 V"or equivalent national regulations. 0 UT/ON! Q0Use suitable cable entries for the various electrical cables. • The sensor and converter are configured together in the factory. For this reason,please connect the devices in pairs. Ensure that the sensor constant 6K/GKL /see type platesl are identically set. • if delivered separately or when installing devices that were not configured together set the converter to the DN size and GK/GKL of the sensor. 14 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.3 Electrical cables for remote device versions, notes 3.3.1 Notes on signal cables A and B a /NFORMA T/ON! 1 The signal cables A (type DS 300I with double shield and B(type BTS 300J with triple shield ensure proper transmission of measured values. Observe the following notes: • Lay the signal cable with fastening elements. • It is permissible to lay the signal cable in water or in the ground. • The insulating material is flame-retardant to EN 50625-2-1, IEC 60322-1. • The signal cable does not contain any halogens and is unplasticized, and remains flexible at Low temperatures. • The connection of the inner shield is carried out via the stranded drain wire (1). • The connection of the outer shield is carried out via the shield (601 or the stranded drain wire (6), depending on the housing version. Observe the following notes. • The signal cable type B cannot be used with options with "virtual reference"! 3.3.2 Notes on field current cable C QDANGER! All versions except T/DALFLUX.• A non-shielded three-wire copper cable is sufficient for the field current cable. if you nevertheless use shielded cables, the shield must NOTbe connected in the housing of the signal con vertex. Only TIDALFLUX.- A shielded two-wire copper cable is used as the field current cable. The shielding MUST be connected in the housing of the measuring sensor and signal converter. a /NFORMA T/ON! The field current cable is not part of the scope of delivery. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 15 p ELECTRICAL CONNECTIONS 3.3.3 Requirements for signal cables provided by the customer a /NFORMA T/ON! If the signal cable was not ordered, it is to be provided by the customer. The following requirements regarding the electrical values of the signal cable must be observed. Electrical safety • To EN 60811 (Low Voltage Directive) or equivalent national regulations. Capacitance of the insulated conductors • Insulated conductor/insulated conductor < 50 pF/m • Insulated conductor/shield < 150 pF/m Insulation resistance Riso ' 100 GQ x km Umax < 24 V ' imax < 100 mA Test voltages • Insulated conductor/inner shield 500 V • Insulated conductor/insulated conductor 1000 V • Insulated conductor/outer shield 1000 V Twisting of the insulated conductors • At least 10 twists per meter, important for screening magnetic fields. 16 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ■ ELECTRICAL CONNECTIONS p 3.4 Preparing the signal and field current cables (except TIDALFLUX) a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. The electrical connection of the outer shield is different for the various housing variants. Please observe the corresponding instructions. 3.4.1 Signal cable A (type DS 300), construction • Signal cable A is a double-shielded cable for signal transmission between the measuring sensor and signal converter. • Bending radius:>_ 50 mm/2" fill il\� O Figure 3-1:Construction of signal cable A (1) Stranded drain wire(1)for the inner shield (101, 1.0 mm2 Cu/AM 17(not insulated,bare) (2) Insulated wire(2),0.5 mm2 Cu/AWG 20 (a) Insulated wire(3),0.5 mm2 Cu/AWG 20 (4) Outer sheath (5) Insulation layers © Stranded drain wire(6)for the outer shield(60) 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 17 p ELECTRICAL CONNECTIONS 3.4.2 Preparing signal cable A, connection to signal converter Field housing a /NFORMA T/ON! 1 Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The outside shield (60) is connected in the field housing directly via the shield and a clip. • Bending radius:>_ 50 mm/2" Required materials: • PVC insulation tubing, 02.5 mm/0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 2x wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 3) a b Ibl ftl 10 02 03 O�I6o1 � Figure 3-2:signal cable A,preparation for field housing a=80mm/3.15" b=10mm/0.39" 10 Strip the conductor to dimension a. Trim the outer shield to dimension b and pull it over the outer sheath. (2) Cut off the inner shield (10) and the stranded drain wire (6). Make sure not to damage the stranded drain wire (1). 30 Slide an insulating tube over the stranded drain wire (1). 40 Crimp the wire end ferrules onto the conductors (2, 3) and stranded drain wire. �5 Pull the heat-shrinkable tubing over the prepared signal cable. 18 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p Wall mounted housing a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The connection of the outer shield (60) is carried out in the wall-mounted housing via the stranded drain wire (6). • Bending radius: >_ 50 mm/2" Required materials • Push-on connector 6.3 mm /0.25", insulation to DIN 46245 for conductor G = 0.5...1 mmz/ AWG 20...17 • PVC insulation tubing, 02.5 mm/0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 2x wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 3) a (6) 1 Figure 3-3:Signal cable A,preparation for wall-mounted housing a=80mm/3.15" 10 Strip the conductor to dimension a. 0 Cut off the inner shield (10) and the outer shield (60). Make sure not to damage the stranded drain wires (1) and (6). 0 Slide the insulation tubing over the stranded drain wires. 0 Crimp the push-on connector onto the stranded drain wire (6). Crimp the wire end ferrules onto the conductors (2, 3) and stranded drain wire (1). © Pull the heat-shrinkable tubing over the prepared signal cable. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 19 kl ELECTRICAL CONNECTIONS 3.4.3 Length of signal cable A /NFORMA T/ON! 1 For temperatures of the medium above 150°C/300°F, a special signal cable and a ZD intermediate socket are necessary. These are available including the changed electrical connection diagrams. Measuring sensor Nominal size Min. electrical Curve for signal conductivity cable A DN [mm] [inch] [PS/cm] OPTIFLUX 1000 F 10...150 3/8...6 5 Al OPTIFLUX 2000 F 25...150 1...6 20 Al 200...2000 8...80 20 A2 0PTIFLUX 4000 F 2.5...150 1/10...6 1 Al 200...2000 8...80 1 A2 OPTIFLUX 5000 F 2.5...100 1/10...4 1 Al 150...250 6...10 1 A2 OPTIFLUX 6000 F 2.5...150 1110...6 1 Al WATERFLUX 3000 F 25...600 1...24 20 Al 10 � 600 1800 A2 Al 100 300 10 30 1 5 10 100 1000 6000 Figure 3-4:Maximum length of signal cable A 1� Maximum length of signal cable A between the measuring sensor and signal converter[m] © Maximum length of signal cable A between the measuring sensor and signal converter[ft] (2) Electrical conductivity of the medium being measured[µS/cm] 20 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.4.4 Signal cable B (type BTS 300), construction • Signal cable B is a triple-shielded cable for signal transmission between the measuring sensor and signal converter. • Bending radius:>_50 mm/2" il t O o (20) O (30) Figure 3-5:Construction of signal cable B (1) Stranded drain wire for the inner shield(10), 1.0 mm2 Cu/AWG 17(not insulated,bare) (2) Insulated wire(2),0.5 mm2 Cu/AWG 20 with stranded drain wire(20)of shield (3) Insulated wire(3),0.5 mm2 Cu/AWG 20 with stranded drain wire(30)of shield (4) Outer sheath (5) Insulation layers © Stranded drain wire(6)for the outer shield(60),0.5 mm2 Cu/AWG 20(not insulated,bare) 3.4.5 Preparing signal cable B, connection to signal converter Field housing a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The outside shield (60) is connected in the field housing directly via the shield and a clip. • Bending radius:>_ 50 mm/2" Required materials • PVC insulation tubing, 02.0...2.5 mm/0.08...0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 4 wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors 2 and 3 and the stranded drain wires (20, 301 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 21 p ELECTRICAL CONNECTIONS 10 a b ;2LO-0-0.0le — (20) (60) (30) C6) (1) (60) (20) J V I (30) Figure 3-6:Signal cable B,preparation for field housing a=80mm/3.15" b=10mm/0.39" 1) Strip the conductor to dimension a. Trim the outer shield to dimension b and pull it over the outer sheath. 3� Cut off the inner shield (10), the stranded drain wire (6) and the shields of the insulated con- ductors. Make sure not to damage the stranded drain wires (1, 20, 30). 4� Slide the insulation tubing over the stranded drain wires (1, 20, 30). �5 Crimp the wire end ferrules onto the conductors and stranded drain wires. © Pull the heat-shrinkable tubing over the prepared signal cable. 22 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en � I ELECTRICAL CONNECTIONS p Wall-mounted housing a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The connection of the outer shield (60) is carried out in the wall-mounted housing via the stranded drain wire (6). • Bending radius: >_ 50 mm/2" Required materials: • Push-on connector 6.3 mm /0.25", insulation to DIN 46245 for conductor G = 0.5...1 mm2/ AWG 20...17 • PVC insulation tubing, 02.5 mm/0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 4 wire end ferrules to DIN 46 228: E 0.5-8 for insulated conductors 2 and 3 and the stranded drain wires (20, 30) a (6) (1 (20) (30) (1) (201 (301 Figure 3-7:Signal cable B,preparation for wall-mounted housing a=80mm/3.15" /� 10 Strip the conductor to dimension a. Cut off the inner shield (10),the outer shield (60)and the shields for the conductor(2,3). Make sure not to damage the stranded drain wires (1, 6, 20, 30). 0 Slide the insulation tubing over the stranded drain wires. Crimp the push-on connector onto the stranded drain wire (6). Crimp the wire end ferrules onto the conductors and stranded drain wires (1, 20, 30). © Pull the heat-shrinkable tubing over the prepared signal cable. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 23 kl ELECTRICAL CONNECTIONS 3.4.6 Length of signal cable B /NFORMA T/ON! 1 For temperatures of the medium above 150°C/300°F, a special signal cable and a ZD intermediate socket are necessary. These are available including the changed electrical connection diagrams. Measuring sensor Nominal size Min. electrical Curve for signal conductivity cable B DN [mm] [inch] [PS/cm] OPTIFLUX 1000 F 10...150 3/8...6 5 B2 OPTIFLUX 2000 F 25...150 1...6 20 B3 200...2000 8...80 20 B4 0PTIFLUX 4000 F 2.5...6 1/10...1/6 10 B1 10...150 3/8...6 1 B3 200...2000 8...80 1 B4 OPTIFLUX 5000 F 2.5 1/10 10 B1 4...15 116...112 5 B2 25...100 1...4 1 B3 150...250 6...10 1 B4 OPTIFLUX 6000 F 2.5...15 1110...1/2 10 B1 25...150 1...6 1 B3 WATERFLUX 3000 F 25...600 1...24 20 B1 10 � 600 1800 011 B4 B3 B2 B1 4100 300 10 30 1 5 10 100 1000 6000 Figure 3-8:Maximum length of signal cable B 1Q Maximum length of signal cable B between the measuring sensor and signal converter[m] ® Maximum length of signal cable B between the measuring sensor and signal converter[ft] Q3 Electrical conductivity of the medium being measured[µS/cm] 24 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en M ELECTRICAL CONNECTIONS p 3.4.7 Preparing field current cable C, connection to signal converter QDA n shi Anon-shielded three-wire copper cable is sufficient for the field current cable. lfyou + nevertheless use shielded cables, the shield must NOTbe connected in the housing of the signal converter. a /NFORMA T/ON! 1 Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • Field current cable C is not part of the scope of delivery. • Bending radius:>_50 mm/2" Required materials: • Shielded 3-wire copper cable with suitable heat-shrinkable tubing • DIN 46 228 wire end ferrules: size according to the cable being used Length and cross-section of field current cable C Length Cross-section AF (Cu) [m] [ft] [mm21 [AWGI 0...150 0...492 3 x 18 150...300 492...984 3 x 1.50 Cu ) 3 x 14 300...600 984...1968 3 x 12 1� Cu=copper cross-section 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 25 p ELECTRICAL CONNECTIONS Mr'qM In the wall-mounted housing version the connection terminals are designed for the following cable cross-sections: • Flexible cable<_ 1.5 mm2/AWG 14 • Solid cable<_ 2.5 mm2/AWG 12 Or— iO 2� a Oaf �3 7 8 9 Figure 3-9:Field current cable C,preparation for the signal converter a=80mm/3.15" 10 Strip the conductor to dimension a. ( Remove any shield that is present. 30 Pull a shrinkable tube over the prepared cable. 40 Crimp the wire end ferrules onto the conductors 7, 8 and 9. 26 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.4.8 Preparing signal cable A, connection to measuring sensor a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The outer shield (60) is connected in the terminal compartment of the measuring sensor directly via the shield and a clip. • Bending radius:>_50 mm/2" Required materials • PVC insulating tube, 02.0...2.5 mm/0.08...0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 2 wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 31 O a b (6) O (1) (60) (1) (60) 2 3 Figure 3-10:Preparing signal cable A,connection to measuring sensor a=50mm/2" b=10mm/0.39" 10 Strip the conductor to dimension a. 0 Trim the outer shield (60) to dimension b and pull it over the outer sheath. 0 Remove the stranded drain wire (6) of the outer shield and the inner shield (10). Make sure not to damage the stranded drain wire (1) of the inner shield. 0 Slide an insulating tube over the stranded drain wire (1). 0 Crimp the wire end ferrules onto conductors 2 and 3 and the stranded drain wire (1). © Pull the heat-shrinkable tubing over the prepared signal cable. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 27 p ELECTRICAL CONNECTIONS 3.4.9 Preparing signal cable B, connection to measuring sensor a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The outer shield (60) is connected in the terminal compartment of the measuring sensor directly via the shield and a clip. • Bending radius:>_50 mm/2" Required materials • PVC insulation tubing, 02.0...2.5 mm /0.08...0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 2x wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 3) O a b (6) O (1) (20) (60) (30) (1) (60) 2 3 Figure 3-11:Preparing signal cable B,connection to measuring sensor a=50mm/2" b=10mm/0.39" 10 Strip the conductor to dimension a. 0 Trim the outer shield (60) to dimension b and pull it over the outer sheath. 0 Remove the stranded drain wire (6) of the outer shield and the shields and stranded drain wires of the insulated conductors (2, 3). Remove the inner shield (10). Be sure not to damage the stranded drain wire (1). 0 Slide an insulating tube over the stranded drain wire (1). 0 Crimp the wire end ferrules onto conductors 2 and 3 and the stranded drain wire (1). © Pull the heat-shrinkable tubing over the prepared signal cable. 28 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.4.10 Preparing field current cable C, connection to measuring sensor a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The field current cable is not included in delivery. • The shield for field current cable C can be connected to the measuring sensor. • Bending radius:>_ 50 mm/2" Required materials • Heat-shrinkable tubing • 3 wire end ferrules to DIN 46 228: size according to the cable being used Or- 10 20 a a 03 7 8 LAM 9 Figure 3-12:Field current cable C,preparation for the measuring sensor a=50mm/2" /� 10 Strip the conductor to dimension a. 02 Remove any shield that is present. 30 Pull a shrinkable tube over the prepared cable. 40 Crimp the wire end ferrules onto the conductors 7, 8 and 9. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 29 p ELECTRICAL CONNECTIONS 3.5 Connecting the signal and field current cables (except TIDALFLUX) QDANGER! Cables may only be connected when the power is switched off. QDANGER! The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. DANGER! EX For devices used in hazardous areas, additional safety notes apply,please refer to the Ex documentation. WARNING! Observe without fail the local occupational health and safety regulations.Any work done on the ' electrical components of the measuring device may only be carried out by properly trained specialists. 30 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en 11 ELECTRICAL CONNECTIONS p 3.5.1 Connecting the signal and field current cables, field housing • The outer shield of signal cable A and/or B is connected electrically with the housing via the clip of the strain relief. • If a shielded field current cable is used, the shield must NOT be connected in the housing of the signal converter. • Bending radius:>_50 mm/2" .�r OO OO II .V —J Figure 3-13:Electrical connection of the signal and field current cables,field housing /� 1T Remove the locking screw and open the housing cover. �2 Pass the prepared signal and field current cables through the cable entries and connect the corresponding stranded drain wires and conductors. 30 Secure the field current cable using the clip.Any shield that is present must NOT be connect- ed. 4� Secure the signal cable using the clip. This also connects the outer shield to the housing. (5) Close the housing cover and secure it with the locking screw. a /NFORMA T/ON! Each time a housing cover is opened, the thread should be cleaned and greased. Use only resin- free and acid-free grease. Ensure that the housing gasket is properly fitted, clean and undamaged. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 31 p ELECTRICAL CONNECTIONS 3.5.2 Connecting the signal and field current cables, wall-mounted housing • The outer shield of signal cable A and/or B is connected via the stranded drain wire. • If a shielded field current cable is used, the shield must NOT be connected in the housing of the signal converter. • Bending radius:>_50 mm/2" 30 3 2 20 1 ■ O 9 8 7 Q Q p p IFII LLLLr71 MMMMJJJJ TR�T UJLJ_ 0 Figure 3-14:Electrical connection of the signal and field current cables,wall-mounted housing /� 10 Open the housing cover. 02 Pass the prepared signal cable through the cable entry and connect the corresponding strand- ed drain wires and conductors. 30 Connect the stranded drain wire of the outer shield. 40 Pass the prepared field current cable through the cable entry and connect the corresponding conductor. Any shield that is present must NOT be connected. 05 Tighten the screw connections of the cable entry and close the housing cover. a /NFORMA T/ON! Ensure that the housing gasket is properly fitted, clean and undamaged. 32 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en M ELECTRICAL CONNECTIONS Q 3.5.3 Connecting the signal and field current cables, 19" rack-mounted housing (28 TES 96 "•' 10 X0, 2IS) (1) 2 3 8 9 ' zM M M 1 �' o M22 _27 —2. —3. : z O bm m m m m m m M m 32 b! dm m m m m m m m m� o M M ; M M M, M d� IS) 7 Figure 3-15:Connection signal cable A and field current cable 1� Signal cable A © Shield and insulated wires 2 and 3 Q3 Field current cable (-� I11 • o ©©©o ' • Wl 301 IS) ®' (1) 2 3 3i 8 9 ' z o M z 2 4 6 8 10 12 14 16 18 ; 20 22 24 26 28 30 32 O bM b, � dm m m m m m m m m o 0 0; m m m, m d� (S) (20) (30) 7 Figure 3-16:Connection signal cable B and field current cable 1� Signal cable B ® Shield and insulated wires 2 and 3 Z3 Field current cable 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 33 kl ELECTRICAL CONNECTIONS r 3.5.4 Connecting the signal and field current cables, 19" rack-mounted housing (21 TES xzn x1 (1) II IIII 2 .i 3 Q X1 Z- - - - - - - - - - - - - - - - _ 0 2 4 6 18 10 12 14 16 18 20 22 24 26 28 30 32 0 di— — — — — — — — — — — — — — — d M _2 3 �^L 0 1 7 8 9 i z— — — — — — — �— — — '— — — — — — z 0 2 4 6 8 10 12 14 � 16 18 20 22 24 26 28 30 32 0 d— — — — — — —J— — — — — — d Figure 3-17:Connection signal cable A and field current cable 1Q Signal cable A Q Shield and insulated wires 2 and 3 �3 Field current cable xz xi [1) II [20) 10 i 2 4 o3 (6) [30) Q (20) (30) x 1 z'— — — ME — — — — — — z 0 �2 4 6 ;8 10 12 14 16 18 20 22 24 26 28 30 32 0 d�— — — — — — — — — — — — — — — d (1) _2 3__' X2 0 1 7 8 9 z— — — — — — — '— — — �— — — — — — z 0 2 4 6 8 10 12 14 16 18 20 � 22 24 26 28 30 32 0 d— — — — — — — n — —J— — — — — — d Figure 3-18:Connection signal cable B and field current cable 1Q Signal cable B Q Shield and insulated wires 2 and 3 (3 Field current cable 34 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.5.5 Connection diagram for measuring sensor, field housing QDANGER! �j The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. • If a shielded field current cable is used, the shield must NOT be connected in the housing of the signal converter. • The outer shield of signal cable A or B in the signal converter housing is connected via the strain relief terminal. • Bending radius of signal and field current cable: >_ 50 mm/2" • The following illustration is schematic. The positions of the electrical connection terminals may vary depending on the housing version. 4 40 30 3 2 20 1 9 8 7 4 40 30 3 2 20 1 9 8 7 (10) (10) 1D 10 (60) 0 0 O (601 0 01(2)1 1 02 ® 03 Oo o Oo 0 (5) © OO 3 2 1 9 8 7 - 3 2 1 Figure 3-19:Connection diagram for measuring sensor,field housing 1� Electrical terminal compartment in housing of the signal converter for signal and field current cable. 22) Signal cable A 3� Signal cable B 4� Field current cable C 5� Connection box of measuring sensor © Functional ground FE 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 35 p ELECTRICAL CONNECTIONS 3.5.6 Connection diagram for measuring sensor, wall-mounted housing QDANGER! �j The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. • If a shielded field current cable is used, the shield must NOT be connected in the housing of the signal converter. • The outer shield of the signal cable is connected in the signal converter housing via the stranded drain wire. • Bending radius of signal and field current cable: >_ 50 mm/2" • The following illustration is schematic. The positions of the electrical connection terminals may vary depending on the housing version. 4 40 30 3 2 20 1 9 8 7 4 40 30 3 2 20 1 9 8 7 O (10) O (10) (60) (6) (60) (b) 00 � 00 O s0 OO 4 1 3 2 1 9 8 7 © 4 L3 L2 Ll 9 8 7IP Figure 3-20:Connection diagram for measuring sensor,wall-mounted housing 1� Electrical terminal compartment in housing of the signal converter for signal and field current cable. 22) Signal cable A 3� Signal cable B 4� Field current cable C 5� Connection box of measuring sensor © Functional ground FE 36 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en M ELECTRICAL CONNECTIONS p 3.5.7 Connection diagram for measuring sensor, 19" rack-mounted housing (28 TO QDANGER! �j The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. • If a shielded field current cable is used, the shield must NOT be connected in the housing of the signal converter. • The outer shield of the signal cable is connected in the signal converter housing via the stranded drain wire. • Bending radius of signal and field current cable: >_ 50 mm/2" • The following illustration is schematic. The positions of the electrical connection terminals may vary depending on the housing version. 24 22 20 20 32 32 32 24 24 22 22 20 20 32 32 32 z z z d b z d d z z d z d b z d L. (10) 1 (10) 1 (D (1) (601'--- b 6 (60) 02 ® 03 Oo o Oo 0 3 2 1 3 2 1 Figure 3-21:Connection diagram for measuring sensor, 19"rack-mounted housing(28 TE) 1� Electrical terminal compartment in housing of the signal converter for signal and field current cable. 2Z Signal cable A 3Z Signal cable B 4� Field current cable C 5� Connection box of measuring sensor © Functional ground FE 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 37 p ELECTRICAL CONNECTIONS MrP�W 3.5.8 Connection diagram for measuring sensor, 19" rack-mounted housing (21 TO QDANGER! �j The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. • If a shielded field current cable is used, the shield must NOT be connected in the housing of the signal converter. • The outer shield of the signal cable is connected in the signal converter housing via the stranded drain wire. • Bending radius of signal and field current cable: >_ 50 mm/2" • The following illustration is schematic. The positions of the electrical connection terminals may vary depending on the housing version. 6 4 2 16 18 20 6 6 4 4 2 16 18 20 X1 d d d z z z X1 z d d z d z z z [301 [201 1� 1 10 1 [601 O OO 0 [601 O OO OO O 4� (4) 0 4 1 3 2 Li 7 1 8 1 9 Figure 3-22:Connection diagram for measuring sensor, 19"rack-mounted housing(21 TE) 1� Electrical terminal compartment in housing of the signal converter for signal and field current cable. 22) Signal cable A 3Z Signal cable B 4� Field current cable C 5� Connection box of measuring sensor © Functional ground FE 38 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en M ELECTRICAL CONNECTIONS p 3.6 Preparing and connecting the signal and field current cables (only TI DALFLUX) QDANGER! Cables may only be connected when the power is switched off. QDANGER! The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. DANGER! EX For devices used in hazardous areas, additional safety notes apply,please refer to the Ex documentation. AWARNING! Observe without fail the local occupational health and safety regulations.Any work done on the electrical components of the measuring device may only be carried out byproperly trained specialists. 3.6.1 Cable lengths QThemaCAUTION! ° The maximum allowed distance between the flowsensorand the converteris determined by the shortest cable length. Interface cable: maximum length is 600 m / 1968 ft. Type B (BTS) signal cable: maximum length is 600 m/ 1968 ft. Type A(DS) signal cable: maximum length depends on the conductivity of the fluid: Electrical conductivity Maximum length [PS/cm] [m] [ft] 50 120 394 100 200 656 200 400 1312 >400 600 1968 Field current cable: The cross section of the cable determines the maximum length: Cross section Maximum length [mm21 [AWGI [ml [ft] 2 x 0.75 2 x 18 150 492 2 x 1.5 2 x 14 300 984 2 x 2.5 2 x 12 600 1968 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 39 p ELECTRICAL CONNECTIONS 3.6.2 Signal cable A (type DS 300), construction • Signal cable A is a double-shielded cable for signal transmission between the measuring sensor and signal converter. • Bending radius:>_50 mm/2" oil O 10 O O Figure 3-23:Construction of signal cable A (1) Stranded drain wire(1)for the inner shield (101, 1.0 mm2 Cu/AWG 17(not insulated,bare) Insulated wire(2),0.5 mm2 Cu/AWG 20 Insulated wire(3),0.5 mm2 Cu/AWG 20 Outer sheath Insulation layers © Stranded drain wire(6)for the outer shield(60) 40 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.6.3 Preparing signal cable A, connection to signal converter Field housing a /NFORMA T/ON! 1 Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The outside shield (60) is connected in the field housing directly via the shield and a clip. • Bending radius:>_ 50 mm/2" Required materials: • PVC insulating tube, 02.5 mm/0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 2 wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 3) a b (b) f�l 10 02 03 �O (60) � Figure 3-24:Signal cable A,preparation for field housing a=80mm/3.15" b=10mm/0.39" 10 Strip the conductor to dimension a. Trim the outer shield to dimension b and pull it over the outer sheath. 02 Cut off the inner shield (10) and the stranded drain wire (6). Be sure not to damage the strand- ed drain wire (1). 30 Slide an insulating tube over the stranded drain wire (1). 40 Crimp the wire end ferrules onto the conductors (2, 3) and stranded drain wire. �5 Pull the heat-shrinkable tubing over the prepared signal cable. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 41 p ELECTRICAL CONNECTIONS � I 3.6.4 Prepare signal cable A, connect to measuring sensor a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. Required materials • PVC insulation tubing, 02.0...2.5 mm /0.08...0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the twisted stranded drain wires (1) and (6) • 2x wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 3) O a (6) (11 (601 �O (1)+(6) 2 3 Figure 3-25:Prepare signal cable A,connect to measuring sensor a=50mm/2" 0 Strip the conductor to dimension a. 410 0 Cut the outer shields (60) and (10). Make sure not to damage the stranded drain wires (1) and (6). 0 Twist the stranded drain wires (6) of the outer shield and the drain wire (1 J of the inner shield (10). 40 Slide an insulating tube over the stranded drain wires (1) and (6). 0 Crimp the wire end ferrules onto conductors 2 and 3 and the stranded drain wires (1) and (6). © Pull the heat-shrinkable tubing over the prepared signal cable. 42 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.6.5 Signal cable B (type BTS 300), construction • Signal cable B is a triple-shielded cable for signal transmission between the measuring sensor and signal converter. • Bending radius:>_50 mm/2" il t O o (20) O (30) Figure 3-26:Construction of signal cable B (1) Stranded drain wire for the inner shield(10), 1.0 mm2 Cu/AWG 17(not insulated,bare) (2) Insulated wire(2),0.5 mm2 Cu/AWG 20 with stranded drain wire(20)of shield (3) Insulated wire(3),0.5 mm2 Cu/AWG 20 with stranded drain wire(30)of shield (4) Outer sheath (5) Insulation layers © Stranded drain wire(6)for the outer shield(60),0.5 mm2 Cu/AWG 20(not insulated,bare) 3.6.6 Preparing signal cable B, connection to signal converter Field housing a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The outside shield (60) is connected in the field housing directly via the shield and a clip. • Bending radius:>_ 50 mm/2" Required materials • PVC insulating tube, 02.0...2.5 mm/0.08...0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the stranded drain wire (1) • 4 wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors 2 and 3 and the stranded drain wires (20, 301 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 43 p ELECTRICAL CONNECTIONS 10 a b ;2LO-0-0.0le — (20) (60) (30) C6) (1) (60) (20) 0 MEK (30) Figure 3-27:Signal cable B,preparation for field housing a=80mm/3.15" b=10mm/0.39" 1) Strip the conductor to dimension a. Trim the outer shield to dimension b and pull it over the outer sheath. 3� Cut off the inner shield (10), the stranded drain wire (6) and the shields of the insulated con- ductors. Make sure not to damage the stranded drain wires (1, 20, 30). 4� Slide the insulation tubing over the stranded drain wires (1, 20, 30). �5 Crimp the wire end ferrules onto the conductors and stranded drain wires. © Pull the heat-shrinkable tubing over the prepared signal cable. 44 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.6.7 Preparing signal cable B, connection to measuring sensor a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. Required materials • PVC insulation tubing, 02.0...2.5 mm /0.08...0.1" • Heat-shrinkable tubing • Wire end ferrule to DIN 46 228: E 1.5-8 for the twisted stranded drain wires (1) and (6) • 2x wire end ferrules to DIN 46 228: E 0.5-8 for the insulated conductors (2, 3) O a (6) (t) (20) (60) (30) (t1+(61 OO 2 i 3 Figure 3-28:Preparing signal cable B,connection to measuring sensor a=50mm/2" 10 Strip the conductor to dimension a. 410 02 Cut the outer shields (60), (10), the shields around the insulated conductors (2, 3) and the stranded drain wires (20, 301 . Make sure not to damage the stranded drain wires (1) and (6). 30 Twist the stranded drain wires (6) of the outer shield and the drain wire (1) of the inner shield (10). 40 Slide an insulating tube over the stranded drain wires (1) and (6). 05 Crimp the wire end ferrules onto conductors 2 and 3 and the stranded drain wires (1) en (6). © Pull the heat-shrinkable tubing over the prepared signal cable. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 45 El ELECTRICAL CONNECTIONS 3.6.8 Preparing field current cable C, connection to signal converter QDANGER! A shielded two-wire copper cable is used as the field current cable. The shielding MUSTbe + connected in the housing of the measuring sensor and signal converter. a /NFORMA T/ON! 1 Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • Field current cable C is not part of the scope of delivery. • Bending radius:>_50 mm/2" Required materials: • Shielded 2-wire copper cable, with fitted heat-shrinkable tubing • DIN 46 228 wire end ferrules: size according to the cable being used a 0 b 0 Figure 3-29:Preparation of field current cable C a=80mm/3.15" b=10mm/0.4" 1) Strip the conductor to dimension a. Trim the outer shield to dimension b and pull it over the outer sheath. 3� Crimp wire end ferrules onto both conductors. 4� Pull a shrinkable tube over the prepared cable. 46 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.6.9 Preparing field current cable C, connection to measuring sensor a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. • The field current cable is not part of the scope of delivery. • The shield is connected in the terminal compartment of the converter directly via the shield and a clip. • The shield is connected in the sensor via the special cable gland. • Bending radius:>_50 mm/2" Required materials • Shielded 2-wire insulated copper cable • Insulating tube, size according to the cable being used • Heat-shrinkable tubing • DIN 46 228 wire end ferrules: size according to the cable being used a 0 b Figure 3-30:Preparation of field current cable C a=125mm/5" b=10mm/0.4" 10 Strip the conductor to dimension a. 02 Trim the outer shield to dimension b and pull it over the outer sheath. 3I Crimp wire end ferrules onto both conductors. 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 47 p ELECTRICAL CONNECTIONS At flow converter side: Connecting shielding under clamp in connection box of converter rn�x�x �1, 7 Figure 3-31:Clamping of shields 1Q Field current cable ® Signal cable At flow sensor side: Connecting shielding via special cable gland 1 3 4 50 2mm/3/32" 7 Figure 3-32:Connecting the shield within the cable gland 1Q Wires © Isolation (3 Shielding 4� Isolation Q5 Feed cable through dome nut and clamping insert and fold shielding over clamping insert.Make sure that the braided shield overlaps the 0-ring by 2 mm/3/32". © Push clamping insert into body. © Tighten the dome nut. 48 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.6.10 Interface cable The data interface cable is a shielded, 3 x 1.5 mm2 LIYCY cable. The standard length 10 m/ 32.8 ft is included in the delivery. Preparing the interface cable a b 1 � 2 3 Figure 3-33:Preparing the interface cable a=100mm/4" b=10mm/0.4" 10 Strip the conductor to dimension a. Z2 Trim the outer shield to dimension b and pull it over the outer sheath. 3I Crimp the wire end ferrules onto the conductors 1, 2 and 3. Connect the shielding at both sides of the cable via the special cable gland. Connecting shielding via special cable gland 1 2 3 4 2mm/3/32" Figure 3-34:Connecting the shield within the cable gland 1� Wires 22) Isolation 3Z Shielding 4� Isolation 5� Feed cable through dome nut and clamping insert and fold shielding over clamping insert.Make sure that the braided shield overlaps the 0-ring by 2 mm/3/32". © Push clamping insert into body. (7 Tighten the dome nut. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 49 kl ELECTRICAL CONNECTIONS 3.6.11 Connection of cables iL Y Y O 0 0 0 0 0 0 0 0 0 0 Figure 3-35:Electrical connection 11) Unscrew the cover to reach the connectors © Unscrew the cover to reach the connectors (3 Field current cable 4Q Interface cable 6 Signal cable IDS or BTSJ Connection diagram 7 g 1 202330E CD r W 10 ® 03 40 05 ®•-- 101112 7 8 A B I C D E 1 2 3 - Figure 3-36:Connection diagram 1� Protective Earth connection(PE) ® Mains power neutral(NJ �3 Mains power live M 4Q Field current cable ® Interface cable © Signal cable.Shown is the BTS cable. In case of IDS cable,do not use connectors 20 and 30. © Connect housing to PE 50 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p Flow sensors with protection class IP 68 can not be opened anymore. The cables are factory connected and labeled as follows. t0 02 (1 Mans Te�m(na(s Electro a`5 70'77,7zr7 jer ""I �coils' Te�m�na(s 9.8 ` ��terf^als -D-E 11 Term O �efm'2 Figure 3-37:Labeled cables for IP 68 versions 1) Mains power(10=blank, 11 =blue, 12=black) 2� Field current(7=white,8=green) Z3 Data interface(black wires,C=marked"1", D=marked"2",E=marked "31 4� Electrodes(1 =blank,2=white,3=red) 3.7 Grounding the measuring sensor 3.7.1 Classical method QACAUTION! There should be no difference in potential between the measuring sensor and the housing or ° protective earth of the signal converter! • The measuring sensor must be properly grounded. • The grounding cable should not transmit any interference voltages. • Do not use the grounding cable to connect more than one device to ground at the same time. • In hazardous areas, grounding is used at the same time for equipotential bonding.Additional grounding instructions are provided in the separate Ex documentation,which are only supplied together with hazardous-duty equipment. • The measuring sensors are connected to ground by means of a functional grounding conductor FE. • Special grounding instructions for the various measuring sensors are provided in the separate documentation for the measuring sensor. • The documentation for the measuring sensor also contain descriptions on how to use grounding rings and how to install the measuring sensor in metal or plastic pipes or in pipes which are coated on the inside. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 51 p ELECTRICAL CONNECTIONS 3.7.2 Virtual reference (not valid for TIDALFLUX 4000 & OPTIFLUX 7300 C) For pipelines which are electrically insulated on the inside (e.g. have an inner liner or are made completely out of plastic), it is also possible to measure without additional grounding rings or electrodes. The signal converter's input amplifier records the potentials of both measuring electrodes and a patented method is used to create a voltage which corresponds to the potential of the ungrounded medium. This voltage is then the reference potential for signal processing. That means there are no interfering potential differences between the reference potential and the measuring electrodes during signal processing. Ungrounded use is also possible for systems with voltages and currents in the pipelines, e. g. electrolysis and galvanic systems. a /NFORMA T/ON! 1 if there is a virtual reference with wall housing, voltage is permitted between PE/FE of the converter and the measuring sensor! Thresholds for measuring operation with the virtual reference Size >_DN10/>_3/8" Electrical conductivity >_200 pS/cm Signal cable use only A(type DS 300) Signal cable length <_50 m/<_ 150 ft 3.8 Power supply connection QDANGER! The device must be grounded in accordance with regulations in order to protect personnel + against electric shocks. DANGER! EX For devices used in hazardous areas, additional safety notes apply,please refer to the Ex documentation. • The protection category depends on the housing versions (IP65...67 to IEC 529/ EN 60529 or N E MA4/4X/6). • The housings of the devices, which are designed to protect the electronic equipment from dust and moisture, should be kept well closed at all times. Creepage distances and clearances are dimensioned to VDE 0110 and IEC 664 for pollution severity 2. Supply circuits are designed for overvoltage category III and the output circuits for overvoltage category II. • Fuse protection (IN<_ 16 A) for the infeed power circuit, as well as a separator(switch, circuit breaker) to isolate the signal converter must be provided close to the device. The separator must conform to IEC 60947-1 and IEC 60947-3 and must be marked as the separator for this device. 52 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 100...230 VAC (tolerance range: -15%/+10%) • Note the power supply voltage and frequency (50...60 Hz) on the nameplate. • The protective ground terminal PE of the power supply must be connected to the separate U- clamp terminal in the terminal compartment of the signal converter For 19" rack-mounted housing please refer to the connection diagrams. a /NFORMA T/ON! 1 240 VAC+5%is included in the tolerance range. 12...24 VDC (tolerance range: -55%/+30%) • Note the data on the nameplate! • When connecting to functional extra-low voltages, provide a facility for protective separation (PELV) (acc. to VDE 0100/VDE 0106 and/or IEC 364/ IEC 536 or relevant national regulations). a /NFORMA T/ON! 1 12 VDC- 10%is included in the tolerance range. 24 VAC/DC (tolerance range:AC: -15%/+10%; DC: -25%/+30%) • AC: Note the power supply voltage and frequency (50...60 Hz) on the nameplate. • DC: When connecting to functional extra-low voltages, provide a facility for protective separation (PELV) (acc. to VDE 0100/VDE 0106 and/or IEC 364/ IEC 536 or relevant national regulations). a /NFORMA T/ON! 1 12 V is not included in the tolerance range. 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 53 p ELECTRICAL CONNECTIONS ■ Power supply connection (excluding 19" rack-mounted housing) 0 PE O • • • • 02 FE L- L+ �3 FE 1 N L 1� 100...230 VAC(-15%/+10%).22 VA 2� 24 VDC(-55%/+30%), 12 W 3� 24 VAC/DC(AC:-15%/+10%; DC:-25%/+30%),22 VA or 12 W Power supply connection for 19" rack-mounted housing (28 TO L(L+) PE(FE) N (L-) Power supply connection for 19" rack-mounted housing (21 TO X2 , X, , X2 Z 20 28 30 32 O 00 d oe U N L (L-) (L+) a /NFORMA T/ON! 1 For safety reasons the manufacturer has connected the 28d contacts internally to the 28z, 30z and 32z contacts. You are advised to also connect contacts 28z, 30z and 32z to the external protective conductor. A CAUTION! The protective conductor contacts must not be used to loop through the PE connection. 54 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.9 Inputs and outputs, overview 3.9.1 Combinations of the inputs/outputs (1/0s) This signal converter is available with various input/output combinations. Basic version • Has 1 current output, 1 pulse output and 2 status outputs/ limit switches. • The pulse output can be set as status output/limit switch and one of the status outputs as a control input. Ex i version • Depending on the task, the device can be configured with various output modules. • Current outputs can be active or passive. • Optionally available also with Foundation Fieldbus and Profibus PA Modular version • Depending on the task, the device can be configured with various output modules. Bus systems • The device allows intrinsically safe and non intrinsically safe bus interfaces in combination with additional modules. • For connection and operation of bus systems, please note the separate documentation. Ex option • For hazardous areas, all of the input/output variants for the housing designs C and F with terminal compartment in the Ex d (pressure-resistant casing) or Ex e (increased safety) versions can be delivered. • Please refer to the separate instructions for connection and operation of the Ex-devices. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 55 kl ELECTRICAL CONNECTIONS 3.9.2 Description of the CG number CG 3 o (2) o0 0 © 0 Figure 3-38:Marking(CG number)of the electronics module and input/output variants 1Q ID number:0 © ID number:0=standard;9=special (3 Power supply option/measuring sensor option 4Q Display(language versions) Q5 Input/output version(1/0) © 1st optional module for connection terminal A ® 2nd optional module for connection terminal B The last 3 digits of the CG number(S5 ,©and©) indicate the assignment of the terminal connections. Please see the following examples. Examples for CG number CG 300 11 100 100...230 VAC&standard display; basic 1/0: la or Ip&Sp/Cp&Sp& Pp/Sp CG 300 11 7FK 100...230 VAC&standard display; modular 1/0: la& PN/SN and optional module PN/SN &CN CG 300 81 4EB 24 VDC&standard display; modular 1/0: la& PJSa and optional module Pp/Sp& Ip Description of abbreviations and CG identifier for possible optional modules on terminals A and B Abbreviation Identifier for CG No. Description la A Active current output Ip B Passive current output Pa/Sa C Active pulse,frequency,status output or limit switch (changeable) Pp/Sp E Passive pulse,frequency,status output or limit switch (changeable) PN/SN F Passive pulse,frequency,status output or limit switch according to NAMUR(changeable) Ca G Active control input Cp K Passive control input CN H Active control input to NAMUR Signal converter monitors cable breaks and short circuits acc.to EN 60947-5-6. Errors indicated on LC display. Error messages possible via status output. Ilna P Active current input Ilnp R Passive current input - 8 No additional module installed - 0 No further module possible 56 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en M ELECTRICAL CONNECTIONS El 3.9.3 Fixed, non-alterable input/output versions This signal converter is available with various input/output combinations. • The grey boxes in the tables denote unassigned or unused connection terminals. • In the table, only the final digits of the CG no. are depicted. • Connection terminal A+ is only operable in the basic input/output version. CG no. Connection terminals A+ A A- B B- C C- Basic I/Os (standard) 1 0 0 IP+HART®passive 10 SP/Cp passive (Z SP passive PP/SP passive 02 la+ HART®active 10 Ex i 10s (option) 2 0 0 la+HART®active PN/SN NAMUR (2) 3 0 0 IP+ HART®passive PN/SN NAMUR 2 1 0 la active PN/SN NAMUR la+HART®active PN/SN NAMUR Cp passive 3 1 0 la active PN/SN NAMUR IP+ HART®passive PN/SN NAMUR Cp passive 2 2 0 Ip passive PN/SN NAMUR la+HART®active PN/SN NAMUR Cp passive 3 2 0 Ip passive PN/SN NAMUR IP+ HART passive PN/SN NAMUR Cp passive 2 3 0 Ilna active PN/SN NAMUR la+HART active PN/SN NAMUR Cp passive 330 Ilna active PN/SN NAMUR IP+ HART passive PN/SN NAMUR Q Cp passive 240 Ilnp passive PN/SN NAMUR la+HART active PN/SN NAMUR Q Cp passive (2) 340 Ilnp passive PN/SN NAMUR IP+HART passive PN/SN NAMUR Cp passive (2) 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 57 El ELECTRICAL CONNECTIONS C G no. Connection terminals A+ A A- B B- C C- PROFIBUS PA (Ex i) (option) D 0 0 PA+ PA- PA+ PA- FISCO Device FISCO Device D 1 0 la active PN/SN NAMUR PA+ PA- PA+ PA- Cp passive ® FISCO Device FISCO Device D 2 0 Ip passive PN/SN NAMUR PA+ PA- PA+ PA- Cp passive © FISCO Device FISCO Device D 3 0 1Ina active PN/SN NAMUR PA+ PA- PA+ PA- Cp passive © FISCO Device FISCO Device D 4 0 IInp passive PN/SN NAMUR PA+ PA- PA+ PA- Cp passive © FISCO Device FISCO Device FOUNDATION Fieldbus (Ex i) (option) E 0 0 V/D+ V/D- V/D+ V/D- FISCO Device FISCO Device E 1 0 la active PN/SN NAMUR V/D+ V/D- V/D+ V/D- Cp passive ® FISCO Device FISCO Device E 2 0 Ip passive PN/SN NAMUR V/D+ V/D- V/D+ V/D- Cp passive (Z) FISCO Device FISCO Device E 3 0 IIna active PN/SN NAMUR V/D+ V/D- V/D+ V/D- Cp passive © FISCO Device FISCO Device E 4 0 IInP passive PN/SN NAMUR V/D+ V/D- V/D+ V/D- Cp passive 02 FISCO Device FISCO Device 1� function changed by reconnecting © changeable 58 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS El 3.9.4 Alterable input/output versions This signal converter is available with various input/output combinations. • The grey boxes in the tables denote unassigned or unused connection terminals. • In the table, only the final digits of the CG no. are depicted. • Term. = (connection) terminal CG no. Connection terminals A+ A A- B B- D AN Modular IOs (option) 4__ max. 2 optional modules for term.A+ B la+HART®active Pa/Sa active 10 8__ max. 2 optional modules for term.A+ B IP+ HART®passive Pa/Sa active 10 6__ max. 2 optional modules for term.A+B la+HART®active PP/Sp passive 1D B__ max. 2 optional modules for term.A+B IP+ HART®passive PP/Sp passive 1O 7__ max. 2 optional modules for term.A+ B la+HART®active PN/SN NAMUR 1) C__ max. 2 optional modules for term.A+ B IP+ HART passive PN/SN NAMUR 10 PROFIBUS PA (option) D max. 2 optional modules for term.A+B PA+(2) PA-(2) PA+(1) PA- (1) FOUNDATION Fieldbus (option) E__ max. 2 optional modules for term.A+B WD+(2) WD- (2) WD+(1) WD- (1) PROFIBUS DP (option) F_0 1 optional module for Terminati RxD/TxD- RxD/TxD- Terminati RxD/TxD- RxD/TxD- term.A on P P(2) N(2) on N P(1) N(1) Modbus (Option) G__ Z max. 2 optional modules for term.A+ B Common Sign. B Sign.A (D1) (DO) H__ 03 max. 2 optional modules for term.A+ B Common Sign. B Sign.A (D1) (DO) 1Q changeable © not activated bus terminator a3 activated bus terminator 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 59 p ELECTRICAL CONNECTIONS 3.10 Electrical connection of the inputs and outputs a /NFORMA T/ON! Assembly materials and tools are not part of the delivery. Use the assembly materials and tools in compliance with the applicable occupational health and safety directives. 3.10.1 Field housing, electrical connection of the inputs and outputs DANGER! Allllwork on the electrical connections may only be carried out with the power disconnected. Take + note of the voltage data on the nameplate! • For frequencies above 100 Hz, shielded cables are to be used in order to reduce radiation from electrical interferences (EMC). • Terminal A+ is only operable in the basic version. '�� .. .. .. ... .. I\ I\ I\ .. .. .. .. . .. \I \I \I .. • A A- A+B B- C C- D D- • • 10 20 Figure 3-39:Terminal compartment for inputs and outputs in field housing 1T Open the housing cover 40 �2 Push the prepared cable through the cable entry and connect the necessary conductors. 3I Connect the shield if necessary. 410 • Close the cover of the terminal compartment. • Close the housing cover. a /NFORMA T/ON! Each time a housing cover is opened, the thread should be cleaned and greased. Use only resin- free and acid-free grease. Ensure that the housing gasket is properly fitted, clean and undamaged. 60 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en ELECTRICAL CONNECTIONS p 3.10.2 Wall-mounted housing, electrical connection of the inputs and outputs QDANGER! All work on the electrical connections may only be carried out with the power disconnected. Take + note of the voltage data on the nameplate! • For frequencies above 100 Hz, shielded cables are to be used in order to reduce radiation from electrical interferences (EMC). The shield must be electrically connected using 6.3 mm/0.25" push-on connectors (insulation to DIN 46245) in the 1/0 terminal compartment. • Terminal A+ is only operable in the basic version. O � � A A- A+ B B- C C- D D- O o 0 0 0 o O o IT+r � e T Figure 3-40:Connection of inputs and outputs in wall-mounted housing 1) Open the housing cover Push the prepared cables through the cable entry and connect them to the supplied connector plugs 4). 3I Connect the shield if necessary. 4� Route the connector plugs with the clamped conductors into the sockets provided for that pur- pose. 05 Close the housing cover. a /NFORMA T/ON! 1 Ensure that the housing gasket is properly fitted, clean and undamaged. 08/2010-4000070303-OS IFC 300 R06 en www.krohne.com 61 p ELECTRICAL CONNECTIONS 3.10.3 19" rack-mounted housing (28 TE), electrical connection of the inputs and outputs QDANGER! All work on the electrical connections may only be carried out with the power disconnected. Take + note of the voltage data on the nameplate! • For frequencies above 100 Hz, shielded cables are to be used in order to reduce effects from electrical interferences (EMC). • Terminal A+ is only operable in the basic version. S1 S2 00;00 1 D- D A+ A- A zM M ■ M m m M M M M M M EL z 0 b 2 ■ 10 b O d d C- C B- B Figure 3-41:Terminal compartment for inputs and outputs in rack-mounted housing 1� Shielding • Connect the conductor to the multipolar plug according to the illustration. 4100 • The signal cable shield is connected to the Pin S. • Press the plug into the connector. 62 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en M M ELECTRICAL CONNECTIONS 3.10.4 19" rack-mounted housing (21 TE), electrical connection of the inputs and outputs QDANGER! All work on the electrical connections may only be carried out with the power disconnected. Take + note of the voltage data on the nameplate! • For frequencies above 100 Hz, shielded cables are to be used in order to reduce effects from electrical interferences (EMC). • Terminal A+ is only operable in the basic version. X2 X, X2 o, D D- B B- z�M M M M M M M ,M z O � 2 4 6 8 10 12 14 ! 1 _A+ A A- A+ C C- Figure 3-42:Terminal compartment for inputs and outputs in rack-mounted housing /� • Connect the conductor to the multipolar plug according to the illustration. • Press the plug into the connector. 3.10.5 Laying electrical cables correctly 03 10 Figure 3-43:Protect housing from dust and water 10 Lay the cable in a loop just before the housing. 02 Tighten the screw connection of the cable entry securely. 30 Never mount the housing with the cable entries facing upwards. 40 Seal cable entries that are not needed with a plug. 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 63 START-UP 4.1 Switching on the power Before connecting to power, please check that the system has been correctly installed. This includes: • The device must be mechanically safe and mounted in compliance with the regulations. • The power connections must have been made in compliance with the regulations. • The electrical terminal compartments must be secured and the covers have been screwed on. • Check that the electrical operating data of the power supply are correct. Switching on the power. 4.2 Starting the signal converter The measuring device, consisting of the measuring sensor and the signal converter, is supplied ready for operation.All operating data have been set at the factory in accordance with your order specifications. When the power is switched on, a self test is carried out. After that the device immediately begins measuring, and the current values are displayed. A A I Par, + 12345.6 x/y + 123 .45 y 3 + 12.3 °Y r i +1234.56 z3 Figure 4-1:Displays in measuring mode(examples for 2 or 3 measured values) x,y and z denote the units of the measured values displayed It is possible to change between the two measured value windows, the trend display and the list with the status messages by pressing the keys T and �. 64 www.krohne.com 08/2010-4000070303-OS IFC 300 R06 en NOTES A 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 65 NOTES 66 www.krohne.com 08/2010-4000070303-QS IFC 300 R06 en NOTES A 08/2010-4000070303-QS IFC 300 R06 en www.krohne.com 67 r� r . rti,y • •• M• • • •• AW to ri KROHNE product overview • Electromagnetic flowmeters • Variable area flowmeters • Ultrasonic flowmeters • Mass flowmeters • Vortex flowmeters • Flow controllers L • Level meters 3 • Temperature meters 0 • Pressure meters v • Analysis products • Measuring systems for the oil and gas industry 0 • Measuring systems for sea-going tankers 0 0 U LL 0 M Head Office KROHNE Messtechnik GmbH 0 Ludwig-Krohne-Str. 5 D-47058 Duisburg (Germany) 0 Tel.:+49 (0)203 301 0 0 Fax:+49 (0)203 301 10389 z infofdkrohne.de & The current list of all KROHNE contacts and addresses can be found at: KROHNE Y o www.krohne.com