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Installation Manual

P/N 20002372, Rev. B
June 2005

Micro Motion

LF-Series Flowmeters

Sensor/Transmitter Installation
Manual

Summary of Contents for Micro Motion LF Series

Page 1: ...Installation Manual P N 20002372 Rev B June 2005 Micro Motion LF Series Flowmeters Sensor Transmitter Installation Manual ...

Page 2: ...n Inc All rights reserved Micro Motion is a registered trademark of Micro Motion Inc The Micro Motion and Emerson logos are trademarks of Emerson Electric Co All other trademarks are property of their respective owners ...

Page 3: ...ow 6 2 4 2 Vertical pipeline 6 2 5 Mounting the sensor 7 2 6 Grounding the sensor 7 Chapter 3 Installing the Field Mount Transmitter 9 3 1 Overview 9 3 2 Determining an appropriate location 9 3 2 1 Environmental requirements 10 3 2 2 Hazardous area classifications 10 3 2 3 Power source 10 3 2 4 Distance from sensor 11 3 2 5 Accessibility for maintenance 12 3 3 Mounting the transmitter 12 3 4 Groun...

Page 4: ...O Transmitters 31 7 1 Overview 31 7 2 Channel configuration 31 7 3 mA output wiring 32 7 4 Frequency output wiring 34 7 5 Discrete output wiring 37 7 6 Discrete input wiring 40 Chapter 8 I O Wiring FM FB and PA Transmitters 43 8 1 Overview 43 8 2 FOUNDATION fieldbus wiring 43 8 3 Profibus PA wiring 44 Chapter 9 I O Wiring DIN AN Transmitters 47 9 1 Overview 47 9 2 Transmitter outputs 47 9 2 1 mA o...

Page 5: ...specifications 69 A 3 LF Series transmitter specifications 71 A 3 1 Output options and output option codes 71 A 3 2 LF Series FM transmitters 72 A 3 3 LF Series DIN transmitters 76 Appendix B Return Policy 79 B 1 New and unused equipment 79 B 2 Used equipment 79 Appendix C CE Certification 81 C 1 Overview 81 C 2 CE compliance information 82 Index 93 ...

Page 6: ...iv LF Series Flowmeters Sensor Transmitter Installation ...

Page 7: ...dentifying the component type from the part number on the tag 1 2 Safety Safety messages are provided throughout this manual to protect personnel and equipment Read each safety message carefully before proceeding to the next step WARNING Improper installation in a hazardous area can cause an explosion For information about hazardous applications refer to Micro Motion approvals documentation shippe...

Page 8: ... only LF Series DIN rail mount transmitter with the 2 mA 1 FO outputs option board multivariable configurable To identify your sensor and transmitter type see Section 1 6 1 4 Transmitter codes used in this manual In this manual codes are used to identify specific LF Series transmitter types The codes are listed in Table 1 1 Table 1 1 Transmitter codes Transmitter type Code LF Series field mount tr...

Page 9: ...M CIO transmitters see Chapter 7 LF Series FM FB or PA transmitters see Chapter 8 LF Series DIN AN transmitters see Chapter 9 LF Series DIN CIO transmitters see Chapter 10 1 6 LF Series model numbers The LF Series sensor model number has the following form LFxMxxxxxxxxxxx The first four characters identify the sensor model The LF Series transmitter model number has the following form LFTxxxxxxxx w...

Page 10: ...4 LF Series Flowmeters Sensor Transmitter Installation ...

Page 11: ...roduct The EC declaration of conformity with all applicable European directives and the complete ATEX Installation Drawings and Instructions are available on the internet at www micromotion com atex or through your local Micro Motion support center 2 3 Determining a location Choose a location for the sensor based on the requirements described in this section The following general guidelines can he...

Page 12: ...stream 2 3 4 Shutoff valve After the sensor and transmitter have been installed you must perform the zeroing procedure During the zeroing procedure flow through the sensor must be halted and the sensor tubes must be completely full of process fluid A shutoff valve downstream from the sensor is recommended to halt flow during the zeroing procedure For more information about zeroing refer to the ins...

Page 13: ...sor s mounting plate must be grounded to earth If national standards are not in effect follow these grounding guidelines Use copper wire 14 AWG 2 5 mm2 or larger wire size for grounding Keep all ground leads as short as possible less than 1 Ωimpedance Connect ground leads directly to earth or follow plant standards CAUTION Improper grounding could cause measurement error To reduce the risk of meas...

Page 14: ...8 LF Series Flowmeters Sensor Transmitter Installation ...

Page 15: ...er see Section 3 4 Supply power to the flowmeter see Section 3 5 Rotate the display if desired and the transmitter has a display see Section 3 6 3 2 Determining an appropriate location To determine an appropriate location for the transmitter you must consider the environmental requirements of the transmitter hazardous area classification location of power source cable lengths accessibility for mai...

Page 16: ...all the transmitter in an environment where relative humidity is between 5 and 95 non condensing at 140 F 60 C Vibration limits The transmitter meets IEC 68 2 6 endurance sweep 5 to 2000 Hz 50 sweep cycles at 1 0 g 3 2 2 Hazardous area classifications If you plan to mount the transmitter in a hazardous area verify that the transmitter has the appropriate hazardous area approval Each transmitter ha...

Page 17: ... length between the sensor and the transmitter is 1000 ft 300 m Micro Motion supplies 4 wire cable to connect the sensor to the transmitter The cable is fitted with a Eurofast connector for connection to the sensor Cable can be ordered in lengths ranging from 6 5 ft 2 m to 500 ft 150 m For longer cable lengths contact the factory Table 3 1 Typical power cable resistances at 68 F 20 C Gauge Resista...

Page 18: ...ng and wall mounting are shown Ensure that the transmitter is mounted and oriented in a way that will allow easy access to the terminals and to the display if your transmitter has a display Figure 3 2 4 wire remote Wall mount or pipe mount CAUTION Condensation or excessive moisture entering the transmitter could damage the transmitter and result in measurement error or flowmeter failure To reduce ...

Page 19: ...d U bolts are required Contact Micro Motion to obtain a pipe mount installation kit if required Figure 3 3 Transmitter components field mount transmitters 3 4 Grounding the transmitter If national standards are not in effect follow these transmitter grounding guidelines Use copper wire 14 AWG 2 5 mm2 or larger wire size for grounding Keep all ground leads as short as possible less than 1 Ωimpedanc...

Page 20: ...eutral wire on terminal 9 2 Ground the power supply using the equipment ground also under the Warning flap 3 A user supplied switch may be installed in the power supply line For compliance with low voltage directive 73 23 EEC European installations a switch in close proximity to the transmitter is required Figure 3 4 Wiring the transmitter power supply 3 6 Rotating the display If your transmitter ...

Page 21: ...b bezel pin terminals are disengaged from the display module 6 Rotate the display module to the desired position 7 Insert the sub bezel pin terminals into the display module pin holes to secure the display in its new position 8 If you have removed the display screws line them up with the matching holes on the sub bezel then reinsert and tighten them 9 Place the display cover onto the main enclosur...

Page 22: ...owmeters Sensor Transmitter Installation Installing the Field Mount Transmitter Figure 3 5 Display components Display cover Display screws Display module Main enclosure Sub bezel Pin terminals Cap screw End cap clamp ...

Page 23: ...ection 4 4 Supply power to the flowmeter see Section 4 5 4 2 Determining an appropriate location See Figure 4 2 5 for the DIN rail mount installation architecture To determine an appropriate location for the transmitter you must consider the temperature requirements of the transmitter hazardous area issues location of power source cable lengths and accessibility for maintenance Figure 4 1 Installa...

Page 24: ...inals at a load current of 330 mA 6 3 watts maximum At startup the transmitter power source must provide a minimum of 1 0 amp of short term current per transmitter To size the cable refer to Table 4 1 and use the following formula as a guideline CAUTION Applying AC voltage to the transmitter will damage the device To avoid damaging the transmitter do not connect it to an AC power supply Table 4 1 ...

Page 25: ...0 m For longer cable lengths contact the factory 4 2 5 Accessibility for maintenance Ensure that the transmitter is mounted in a location that will allow easy access to the terminals and the front panel 4 3 Mounting and removing the transmitter The transmitter is designed to be mounted on a 35 mm rail The DIN rail must be grounded See Figure A 3 for dimensions If the temperature is above 113 F 45 ...

Page 26: ... away from the transmitter 3 Lift the transmitter from the rail 4 4 Grounding the transmitter If national standards are not in effect follow these transmitter grounding guidelines Use copper wire 14 AWG 2 5 mm2 or larger wire size for grounding Keep all ground leads as short as possible less than 1 Ωimpedance Connect ground leads directly to earth or follow plant standards CAUTION Improper groundi...

Page 27: ...ansmitter ground the DIN rail A rail clip in the base of the transmitter housing grounds the transmitter to the DIN rail 4 5 Supplying power In all installations power must be provided to the transmitter Refer to Section 4 2 3 for information on the transmitter s power supply requirements Connect the power supply to terminals 11 and 12 Terminate the positive wire on terminal 11 and the negative wi...

Page 28: ...22 LF Series Flowmeters Sensor Transmitter Installation ...

Page 29: ...ied by Micro Motion consists of one pair of 18 AWG 0 75 mm2 wires brown and black which should be used for the VDC connection and one pair of 22 AWG 0 35 mm2 wires blue and white which should be used for the RS 485 connection 3 To connect To a field mount transmitter connect the four wires from the sensor to terminals 1 4 on the mating connector of the transmitter See Figure 5 1 Do not ground the ...

Page 30: ...DIN transmitter 4 wire cable Mating connector transmitter VDC Brown VDC Black RS 485 A Blue RS 485 B White User supplied or factory supplied cable Maximum cable length 1000 ft 300 m Sensor terminals Sensor terminals 4 wire cable Transmitter terminals for sensor connection Maximum cable length 1000 ft 300 m RS 485 B White RS 485 A Blue VDC Black VDC Brown User supplied or factory supplied cable ...

Page 31: ...3 W The power supply may be used to power any number of sensors but must not be used to power other devices Use shielded wiring The power supply must not allow power surges or conducted radio frequency interference RFI to propagate through to its output The power supply must not be grounded In EU countries the power supply must meet the requirements of the EMC directive The power supply cable must...

Page 32: ...85 cable is 1000 feet 300 meters long or longer and termination is required the total termination must be 175 ohm or above e Close the wiring compartment 3 At the power supply connect the power supply wires from the sensor to the power supply matching positive and negative and The brown wire is VDC the black wire is VDC Table 5 1 Typical power cable resistances at 68 F 20 C Gauge Resistance 1 1 Th...

Page 33: ... wiring requirements depend on how you will use the analog functionality and the HART or Modbus protocol This chapter describes several possible configurations Figure 6 1 shows the wiring requirements for the mA output terminals 1 and 2 and the frequency output terminals 3 and 4 Figure 6 2 shows the wiring requirements for the mA output terminals 1 and 2 if it will be used for HART communications ...

Page 34: ...g wiring Figure 6 2 HART analog single loop wiring mA output loop 820 Ω maximum loop resistance Frequency receiving device 00042 Output voltage level is 24 VDC 3 820 Ω maximum loop resistance For HART communications 600 Ω maximum loop resistance 250 Ω minimum loop resistance HART compatible host or controller ...

Page 35: ...iguration tool Note The RS 485 communication wires must be shielded Other devices RS 485 A RS 485 B Primary controller Multiplexer HART compatible host or controller HART compatible transmitters SMART FAMILY transmitters Note For optimum HART communication make sure the output loop is single point grounded to an instrument grade ground 24 VDC loop power supply required for passive transmitters 600...

Page 36: ...30 LF Series Flowmeters Sensor Transmitter Installation ...

Page 37: ...can use a HART Communicator or ProLink II software to configure channels See the transmitter configuration manual for more information If Channel B is configured as a frequency output or discrete output it can also be configured to use either internal or external power Channel C can be configured to use either internal or external power independent of its output configuration Internal power means ...

Page 38: ...ency output Internal or external 2 2 You must provide power to the outputs when a channel is set to external power Discrete output Internal or external C 5 6 Frequency output default 3 3 When configured for two frequency outputs dual pulse frequency output 2 is generated from the same signal that is sent to the first frequency output Frequency output 2 is electrically isolated but not independent ...

Page 39: ...nd PA I O Wiring FM CIO Sensor Wiring Figure 7 2 Basic mA wiring Figure 7 3 HART analog single loop wiring mA1 mA2 820 Ω maximum loop resistance 420 Ω maximum loop resistance 820 Ω maximum loop resistance For HART communications 600 Ω maximum loop resistance 250 Ω minimum loop resistance HART compatible host or controller ...

Page 40: ...ower Figure 7 8 Note If both Channel B and Channel C are configured for frequency output the Channel C signal is generated from the Channel B signal with a user specified phase shift The signals are electrically isolated but not independent This configuration is used to support dual pulse and quadrature modes For more information see the transmitter configuration manual HART compatible host or con...

Page 41: ...rnal power Figure 7 6 Frequency output Terminals 3 4 Channel B External power Note See Figure 7 13 for output voltage versus load resistance Counter Output voltage level is 15 VDC 3 00042 Note See Figure 7 15 for recommended resistor versus supply voltage CAUTION Excessive current will damage the transmitter Do not exceed 30 VDC input Terminal current must be less than 500 mA Pull up resistor Coun...

Page 42: ...Terminals 5 6 Channel C External power Output voltage level is 15 VDC 3 Note See Figure 7 14 for output voltage versus load resistance Counter 00042 Note Refer to Figure 7 15 for recommended resistor versus supply voltage CAUTION Excessive current will damage the transmitter Do not exceed 30 VDC input Terminal current must be less than 500 mA Counter 3 30 VDC Pull up resistor 00042 ...

Page 43: ...of proper wiring for these configurations Channel B internal power Figure 7 9 Channel B external power Figure 7 10 Channel C internal power Figure 7 11 Channel C external power Figure 7 12 Figure 7 9 Discrete output 1 Terminals 3 4 Channel B Internal power Figure 7 10 Discrete output 1 Terminals 3 4 Channel B External power Total load Note See Figure 7 13 for output voltage versus load information...

Page 44: ...igure 7 12 Discrete output 2 Terminals 5 6 Channel C External power Note See Figure 7 14 for output voltage versus load Total load Note See Figure 7 15 for recommended resistor versus supply voltage CAUTION Excessive current will damage the transmitter Do not exceed 30 VDC input Terminal current must be less than 500 mA 3 30 VDC Pull up resistor or DC relay ...

Page 45: ...3 4 Channel B Internal power Figure 7 14 Output voltage vs load resistance Terminals 5 6 Channel C Internal power Maximum output voltage 15 VDC 3 0 500 1000 1500 2000 2500 Load resistance ohms 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 High level output voltage volts Maximum output voltage 15 VDC 3 0 1000 2000 3000 4000 5000 Load resistance ohms 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 High level ou...

Page 46: ...igurations If external power is configured power may be supplied by a PLC or other device or by direct DC input See Table 7 2 for input voltage ranges Table 7 2 Input voltage ranges for external power VDC Range 3 30 High level 0 0 8 Low level 0 8 3 Undefined 4400 5 10 15 20 25 30 Supply voltage volts External pull up resistor range ohms Recommended resistor value range 400 600 800 4200 4000 3800 3...

Page 47: ...itters I O Wiring FM AN I O Wiring FM FB and PA I O Wiring FM CIO Sensor Wiring Figure 7 16 Discrete input Terminals 5 6 Channel C Internal power Figure 7 17 Discrete input Terminals 5 6 Channel C External power PLC or other device OR VDC see Table 7 2 Direct DC input see Table 7 2 ...

Page 48: ...42 LF Series Flowmeters Sensor Transmitter Installation ...

Page 49: ...n 1 6 It is the user s responsibility to verify that the specific installation meets the local and national safety requirements and electrical codes 8 2 FOUNDATION fieldbus wiring Connect the communication wires according to the diagram in Figure 8 1 Follow all local safety regulations WARNING A transmitter that has been improperly wired or installed in a hazardous area could cause an explosion Ma...

Page 50: ... installed in a hazardous area could cause an explosion Make sure the transmitter is wired to meet or exceed local code requirements Install the transmitter in an environment that complies with the hazardous area approval tag on the transmitter See Appendix A Fieldbus power supply FOUNDATION fieldbus per FOUNDATION fieldbus wiring specification Spur to fieldbus per FOUNDATION fieldbus wiring speci...

Page 51: ...FB and PA I O Wiring FM CIO Sensor Wiring Figure 8 2 Connecting the Profibus PA communication wires Bus power supply Profibus PA segment per Profibus PA User and Installation Guideline published by PNO Spur to Profibus PA segment per Profibus PA User and Installation Guideline published by PNO Terminals 3 6 Terminals 1 2 Note Terminals 3 through 6 are not used Note The Profibus communication termi...

Page 52: ...46 LF Series Flowmeters Sensor Transmitter Installation ...

Page 53: ...puts Table 9 1 describes the outputs and communication protocols available for the LF Series DIN rail mount AN transmitter Note The term channel is used to refer to the output terminal pairs 9 2 1 mA output wiring The following wiring diagrams are examples of proper wiring for the mA output on the LF Series DIN rail mount AN transmitter The following options are shown Basic mA output wiring Figure...

Page 54: ...ransmitters Figure 9 1 Basic mA output wiring Figure 9 2 HART analog single loop wiring 820 Ω maximum loop resistance mA output HART compatible host or controller 820 Ω maximum loop resistance For HART communications 600 Ω maximum loop resistance 250 Ω minimum loop resistance ...

Page 55: ... transmitter Figure 9 4 Basic frequency output wiring ProLink II v2 x HART Communicator or AMS software 600 Ωmaximum resistance 250 Ω minimum resistancee HART compatible transmitters SMART FAMILY transmitters Note For optimum HART communication make sure the output loop is single point grounded to an instrument grade ground 24 VDC loop power supply required for HART 4 20 mA passive transmitters LF...

Page 56: ...te host Terminals 33 and 34 support Modbus RS 485 communication with a remote host For an example of wiring see Figure 9 6 For terminal information see Table 9 2 Figure 9 6 Wiring to a remote host Open circuit output voltage 15 VDC 3 High level output voltage volts 0 1000 2000 3000 4000 5000 Load resistance ohms 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 RS 485 B RS 485 A Remote host ...

Page 57: ...or Transmitter Installation 51 I O Wiring DIN AN Transmitters I O Wiring DIN CIO Return Policy Specifications I O Wiring DIN AN Table 9 2 Wire terminal assignments for Modbus RS 485 RS 485 signal Transmitter terminal A 33 B 34 ...

Page 58: ...52 LF Series Flowmeters Sensor Transmitter Installation ...

Page 59: ...Figure 10 1 You can use ProLink II software to configure the channels See the transmitter configuration manual for more information If Channel B is configured as a frequency output or discrete output it can also be configured to use either internal or external power Channel C can be configured to use either internal or external power independent of its output configuration Internal power means tha...

Page 60: ... discrete output are required configure Channel B as the frequency output and Channel C as the discrete output discrete output 2 Internal or external 3 C 31 32 Frequency output default 5 5 When configured for two frequency outputs dual pulse frequency output 2 is generated from the same signal that is sent to the first frequency output Frequency output 2 is electrically isolated but not independen...

Page 61: ...diagrams in this section are examples of proper wiring for the LF Series DIN CIO transmitter s primary and secondary mA outputs The following options are shown Basic mA output wiring Figure 10 2 HART analog single loop wiring Figure 10 3 HART multidrop wiring Figure 10 4 Figure 10 2 Basic mA output wiring 820 Ω maximum loop resistance mA1 output mA2 output 420 Ω maximum loop resistance ...

Page 62: ...loop resistance For HART communications 600 Ω maximum loop resistance 250 Ω minimum loop resistance ProLink II v2 x HART Communicator or AMS software HART compatible transmitters SMART FAMILY transmitters Note For optimum HART communication make sure the output loop is single point grounded to an instrument grade ground 24 VDC loop power supply required for HART 4 20 mA passive transmitters LF Ser...

Page 63: ...nal power Figure 10 5 Channel B external power Figure 10 6 Channel C internal power Figure 10 7 Channel C external power Figure 10 8 Note If both Channel B and Channel C are configured for frequency output the Channel C signal is generated from the Channel B signal with a user specified phase shift The signals are electrically isolated but not independent This configuration is used to support dual...

Page 64: ...ls 31 32 Channel C Internal power Note See Figure 10 15 for recommended resistor versus supply voltage 000042 Counter Pull up resistor 3 30 VDC CAUTION Excessive current will damage the transmitter Do not exceed 30 VDC input Terminal current must be less than 500 mA 000042 Counter Output voltage level is 15 VDC 3 with high resistance load Note Refer to Figure 10 14 for output voltage versus load r...

Page 65: ...nnel C and also on whether you have configured the terminals for internal or external power The following diagrams are examples of proper wiring for these configurations Channel B DO1 internal power Figure 10 9 Channel B DO1 external power Figure 10 10 Channel C DO2 internal power Figure 10 11 Channel C DO2 external power Figure 10 12 3 30 VDC Pull up resistor Counter Note Refer to Figure 10 15 fo...

Page 66: ...put 1 wiring Terminals 23 24 Channel B External power Total load Note See Figure 10 13 for output voltage versus load information Pull up resistor or DC Relay 3 30 VDC Maximum sink current 500 mA Note Refer to Figure 10 15 for recommended resistor versus supply voltage CAUTION Excessive current will damage the transmitter Do not exceed 30 VDC input Terminal current must be less than 500 mA ...

Page 67: ...Internal power Figure 10 12 Discrete output 2 wiring Terminals 31 32 Channel C External power Note See Figure 10 14 for output voltage versus load Total load Pull up resistor or DC Relay 3 30 VDC Maximum sink current 500 mA Note Refer to Figure 10 15 for recommended resistor versus supply voltage CAUTION Excessive current will damage the transmitter Do not exceed 30 VDC input Terminal current must...

Page 68: ... Output voltage vs load resistance Terminals 31 32 Channel C Internal power 0 500 1000 1500 2000 2500 High level output voltage volts Load resistance ohms 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Open circuit output voltage 15 VDC 3 Open circuit output voltage 15 VDC 3 High level output voltage volts 0 1000 2000 3000 4000 5000 Load resistance ohms 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 ...

Page 69: ...e configurations Internal power Figure 10 16 External power Figure 10 17 If external power is configured power may be supplied by a PLC or other device or by direct DC input See Table 10 2 for input voltage ranges Table 10 2 Input voltage ranges for external power VDC Range 3 30 High level 0 0 8 Low level 0 8 3 Undefined 4400 5 10 15 20 25 30 Supply voltage volts External pull up resistor range oh...

Page 70: ...llation I O Wiring DIN CIO Transmitters Figure 10 16 Discrete input Terminals 31 32 Channel C Internal power Figure 10 17 Discrete input Terminals 31 32 Channel C External power PLC or other device OR VDC see Table 10 2 Direct DC input see Table 10 2 ...

Page 71: ... AN 10 7 Wiring to a remote host Terminals 33 and 34 support Modbus RS 485 communication with a remote host For an example of wiring see Figure 10 18 For terminal information see Table 10 3 Figure 10 18 Wiring to a remote host Table 10 3 Terminal assignments for Modbus RS 485 RS 485 signal Transmitter terminal A 33 B 34 RS 485 B RS 485 A Remote host ...

Page 72: ...66 LF Series Flowmeters Sensor Transmitter Installation ...

Page 73: ... the LF Series FM transmitter without a display Figure A 3 shows the dimensions of the LF Series DIN transmitter Figure A 1 LF Series FM transmitter with display 6 13 16 174 1 25 2 1 4 57 4 5 16 110 8 7 16 214 9 5 16 237 3X 1 2 14 NPT or M20 X 1 5 3 15 16 99 2 11 16 69 1 7 8 47 4 11 16 119 2 7 16 62 4 11 16 119 4 3 4 120 1 3 4 45 2 1 4 57 To 1 2 NPT or M20 4 1 2 114 2 13 16 71 4X Ø3 8 10 3 11 16 9...

Page 74: ... 5 13 16 148 1 25 2 1 4 57 4 5 16 110 7 7 16 188 8 5 16 211 3X 1 2 14 NPT or M20 X 1 5 2 11 16 69 2 7 16 62 1 7 8 47 4 1 16 104 4 7 16 113 4 3 4 120 1 3 4 45 2 1 4 57 To 1 2 NPT or M20 4 1 2 114 2 13 16 71 4X Ø3 8 10 Wall mount To centerline of 2 pipe pipe mount 4 1 2 114 2 15 16 74 13 16 21 3 11 16 93 2 13 16 71 Dimensions in inches mm ...

Page 75: ...umetric flow rate equals the maximum mass flow rate divided by the fluid s density lb hr kg hr gal hr l hr Nominal flow range 2 2 Micro Motion has adopted the terminology nominal flow range The upper limit of this range is the flow rate at which water at reference conditions causes approximately 15 psid 1 bar of pressure drop LF2M 0 474 0 215 0 057 0 215 LF3M 3 020 1 37 0 362 1 37 LF4M 30 422 13 8...

Page 76: ...r Optional 0 5 of rate or of rate whichever is greater Mass flow repeatability 0 05 of rate or of rate whichever is greater Mass flow reproducibility 0 05 of rate or of rate whichever is greater Zero stability lb hr kg hr LF2M 0 0004 0 0002 LF3M 0 0022 0 001 LF4M 0 1264 0 012 Liquid density Range 2 2 Contact factory for applications with fluid density between 0 3 and 0 5 g cm3 0 to 0 3 g cm3 and 0...

Page 77: ...5 C Table A 5 Materials of construction Component Material Wetted parts 316L stainless steel 316L VAR and high alloy ferritic stainless steel 17 7PH Process seals Viton fluoroelastomer 1 Buna Kalrez or EPDM 1 Viton is a registered trademark of DuPont Performance Elastomers Housing Epoxy painted aluminum Table A 6 Physical specifications Weight 3 5 lb 1 6 kg Fittings See product data sheet Table A ...

Page 78: ...d pair shielded signal cable Additional lengths up to 1000 ft 300 m can be purchased Hardware for installing the transmitter on the mounting bracket is included The transmitter can be rotated on the mounting bracket 360 in 90 increments Interface Display optional Segmented 2 line display with LCD screen with optical controls and flowmeter status LED is standard LCD line 1 lists the process variabl...

Page 79: ...e pair is used for the RS 485 connection to the sensor One pair is used to supply power to the sensor Plug connectors accept stranded or solid conductors 24 to 12 AWG 0 2 to 2 5 mm2 Table A 11 FM transmitter input output signals All transmitters One 4 wire sensor signal input connection with ground Output option code 1 or 3 1 mA 1 FO One active 4 20mA output Not intrinsically safe Isolated to 50 V...

Page 80: ...put Can be configured for internal or external power Not intrinsically safe Power Internal active 15 VDC 7 mA maximum source current External passive 3 to 30 VDC maximum Can report reset all totals reset mass total reset volume total or start sensor zero Output option code 6 FOUNDATION fieldbus One FOUNDATION fieldbus H1 output Manchester encoded digital signal conforms to IEC 1158 2 Output option...

Page 81: ...tallation Overvoltage Category II Pollution Degree 2 The transmitter fieldbus circuit is passive and draws its power from the fieldbus segment Current draw from the fieldbus segment is 11 5 mA AC power 85 to 265 VAC 50 60 Hz 6 watts typical 11 watts maximum DC power 18 to 100 VDC 6 watts typical 11 watts maximum At startup transmitter power source must provide a minimum of 1 5 amperes of short ter...

Page 82: ... 1000 ft 300 m can be purchased Status LED Three color LED status light on face of transmitter indicates flowmeter condition at a glance using a solid green yellow or red light Zero in progress is indicated by a flashing yellow light Zero button A zero button on the face of the transmitter can be used to start the transmitter zero process Table A 18 DIN transmitter electrical connections Input and...

Page 83: ...safe Isolated to 50 VDC from all other outputs and earth ground Maximum load limit mA1 820 ohms mA2 420 ohms Can report mass flow volume flow density temperature or drive gain Output is linear with process from 3 8 to 20 5 mA per NAMUR NE43 June 1994 One active or passive frequency pulse output Not intrinsically safe Can report mass flow or volume flow which can be used to indicate flow rate or to...

Page 84: ... 330 mA Table A 22 DIN transmitter environmental limits Ambient temperature limits Operating 40 to 131 F 40 to 55 C Storage 40 to 185 F 40 to 85 C If temperature is above 113 F 45 C and you are mounting multiple transmitters they must be mounted at least 8 5 mm apart Humidity limits 5 to 95 relative humidity non condensing at 140 F 60 C Vibration limits Meets IEC68 2 6 endurance sweep 5 to 2000 Hz...

Page 85: ...partment B 1 New and unused equipment Only equipment that has not been removed from the original shipping package will be considered new and unused New and unused equipment requires a completed Return Materials Authorization form B 2 Used equipment All equipment that is not classified as new and unused is considered used This equipment must be completely decontaminated and cleaned before being ret...

Page 86: ...80 LF Series Flowmeters Sensor Transmitter Installation ...

Page 87: ...ation 81 Index CE Certification Appendix C CE Certification C 1 Overview This appendix contains information related to compliance with Electro Magnetic Compatibility EMC directive 89 336 EEC Low Voltage Directive 73 23 EEC and ATEX directive 94 9 EC ...

Page 88: ...h ground Low Voltage Directive 73 23 EEC All LF Series transmitters that use AC power A user supplied switch must be installed in the power supply line in close proximity to the transmitter ATEX Directive 94 9 EC Transmitter models LFT 1 3 4 6 7 L When cable entries are used they shall conform to clause 7 2 6 of EN 50021 In an ambient temperature of less than 20 C suitable cable and cable entries ...

Page 89: ...se Lavspændings direktiv 73 23 EØF Alle transmittere i LF serien som bruger vekselstrøm Der skal installeres en brugerleveret kontakt til netstrømsledningen i nærheden af transmitteren ATEX direktivet 94 9 EF Transmittermodeller LFT 1 3 4 6 7 L Hvis der bruges kabelindgange skal de være i overensstemmelse med paragraf 7 2 6 i EN 50021 Når den omgivende temperatur er under 20 C skal der anvendes ka...

Page 90: ...t de LF serie die wisselstroom gebruiken Een door de gebruiker aangeschafte schakelaar moet vlakbij de transmitter in de stroomvoorzieningsleiding worden geïnstalleerd ATEX richtlijn 94 9 EG Transmitter modellen LFT 1 3 4 6 7 L Als er kabelingangen worden gebruikt moeten zij voldoen aan clausule 7 2 6 van EN 50021 Als de omgevingstemperatuur lager is dan 20 C moeten kabels en kabelingangen of leid...

Page 91: ...pelinsuojuksen pää on maadoitettava Matalajännitedirektiivi 73 23 ETY Kaikki vaihtovirtaa käyttävät LF sarjan lähettimet Käyttäjän on asennettava kytkin jännitteensyöttölinjaan lähelle lähetintä ATEX direktiivi 94 9 EY Lähetinmallit LFT 1 3 4 6 7 L Jos käytetään kaapeliläpivientejä niiden on täytettävä standardin EN 50021 lausekkeen 7 2 6 vaatimukset Ympäröivän lämpötilan ollessa kylmempää kuin 20...

Page 92: ...ransmetteurs Série LF avec alimentation c a Un interrupteur fourni par l utilisateur doit être installé sur la ligne d alimentation électrique à proximité immédiate du transmetteur Directive 94 9 EC ATEX Transmetteurs modèles LFT 1 3 4 6 7 L Les entrées de câble utilisées doivent être conformes à la clause 7 2 6 de la norme EN 50021 Si la température ambiante est inférieure à 20 C il faut utiliser...

Page 93: ...ngs richtlinie 73 23 EEC Alle LF Serie Auswerte elektroniken die eine AC Spannungsversorgung haben Ein vom Anwender beigestellter Schalter muss in der Zuleitung der Spannungsversorgung nahe der Auswerteelektronik installiert werden ATEX Richtlinie 94 9 EC Auswerteelektronik Modell LFT 1 3 4 6 7 L Werden Kabelverschraubungen verwendet sollten diese konform mit Absatz 7 2 6 der EN 50021 sein Wenn di...

Page 94: ...ti i trasmettitori Serie LF che usano la potenza AC Bisogna installare un interruttore non in dotazione nella linea d alimentazione in prossimità al trasmettitore Direttiva ATEX 94 9 EC Trasmettitore Modello LFT 1 3 4 6 7 L Se sono usati degli ingressi del cavo questi saranno in conformità alla clausola 7 2 6 di EN 50021 Se la temperatura ambiente è meno di 20 C vanno usati cavo e ingressi del cav...

Page 95: ... i LF serien som bruker vekselstrøm Det må monteres en bryter skaffes av kunden på strømforsynings ledningen i nærhet av transmitteren ATEX direktiv 94 9 EC Transmittermodellene LFT 1 3 4 6 7 L Dersom kabelinnføringer brukes skal disse være i samsvar med paragraf 7 2 6 av EN 50021 Når omgivelsestemperaturen er under 20 C skal det brukes kabel og kabelinnføringer sertifisert for disse forholdene En...

Page 96: ...de Baixas Tensões 73 23 EEC Todos os transmis sores da Série LF que utilizam corrente CA O utilizado tem de instalar um interruptor na linha de fornecimento de corrente perto do transmissor Directiva ATEX 94 9 EC Transmissor modelos LFT 1 3 4 6 7 L Quando são utilizadas entradas de cabo estas devem estar em conformidade com os termos da cláusula 7 2 6 da EN 50021 Quando a temperatura ambiente for ...

Page 97: ...en tierra física Directiva de bajo voltaje 73 23 EEC Todos los transmi sores de la serie LF que usen alimenta ción de CA Se debe instalar un interruptor suministrado por el usuario en la línea de la fuente de alimentación cerca del transmisor Directiva ATEX 94 9 EC Modelos de transmisores LFT 1 3 4 6 7 L Cuando se usan entradas de cable éstas deben cumplir con la cláusula 7 2 6 de EN 50021 En un e...

Page 98: ... direktivet 73 23 EEC Alla LF seriens transmittrar som använder växelström En användarlevererad brytare måste installeras i strömförsörjningsledningen nära transmittern ATEX direktiv 94 9 EC Transmittermodeller LFT 1 3 4 6 7 L När kabelingångar används skall de uppfylla artikel 7 2 6 i EN 50021 I en omgivningstemperatur lägre än 20 C skall kabel och kabelingångar eller skyddsrör lämpliga för detta...

Page 99: ...transmitter 10 F Flow direction arrow 6 Flowmeter components 2 FOUNDATION fieldbus wiring 43 Frequency output wiring DIN rail mount AN transmitter 47 49 DIN rail mount CIO transmitter 57 field mount AN transmitter 28 field mount CIO transmitter 34 G Grounding DIN rail mount transmitter 20 field mount transmitter 13 sensor 7 H HART multidrop wiring DIN rail mount AN transmitter 49 DIN rail mount CI...

Page 100: ... Series model numbers 3 sensor 2 transmitter 2 Location DIN rail mount transmitter 17 field mount transmitter 9 M mA output wiring DIN rail mount AN transmitter 47 DIN rail mount CIO transmitter 55 field mount AN transmitter 28 field mount CIO transmitter 32 Modbus RS 485 wiring DIN rail mount AN transmitter 50 DIN rail mount CIO transmitter 65 Mounting DIN rail mount multiple transmitters 19 DIN ...

Page 101: ... 53 power source 18 specifications 76 temperature limits 17 wiring power supply 21 field mount components 13 dimensions with display 67 without display 68 distance from sensor 11 environmental requirements 10 grounding 13 hazardous areas 10 humidity limits 10 installation 9 installation architecture 9 location 9 mounting 12 output wiring AN transmitters 27 CIO transmitters 31 FB transmitters 43 PA...

Page 102: ...96 LF Series Flowmeters Sensor Transmitter Installation ...

Page 103: ......

Page 104: ...ocess Management Wiltonstraat 30 3905 KW Veenendaal The Netherlands T 31 0 318 495 670 F 31 0 318 495 689 Micro Motion United Kingdom Emerson Process Management Limited Horsfield Way Bredbury Industrial Estate Stockport SK6 2SU U K T 0800 966 180 F 0800 966 181 Micro Motion Japan Emerson Process Management Shinagawa NF Bldg 5F 1 2 5 Higashi Shinagawa Shinagawa ku Tokyo 140 0002 Japan T 81 3 5769 6...

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Emerson Micro Motion LF Series, Installation Manual

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