Page 1 Edition 09/2023 OPERATING INSTRUCTIONS SITRANS F Coriolis ﬂowmeters SITRANS FC620/FC640 www.siemens.com/ﬂow...
Page 2: Table Of Contents
Table of contents Table of contents Introduction ............................... Scope of application.......................... Target group............................Document history ..........................Product compatibility ......................... Applicable documents ........................Explanation of safety instructions and symbols ................Safety................................10 Intended use ............................. 10 Technical conditions.......................... 10 General safety instructions........................ 10 Warranty..............................
Page 3 Table of contents Accuracy of temperature ........................33 Repeatability ............................. 34 Calibration conditions........................34 8.9.1 Mass flow calibration and density adjustment ..............34 8.9.2 Density calibration........................ 35 8.9.3 Calibration for gases ......................35 8.10 Process conditions ..........................36 8.10.1 Process pressure effect ....................... 36 8.10.2 Process fluid temperature effect ..................
Page 4 Table of contents 12.2.1 Installation dimensions ......................100 12.2.2 Installation site ........................100 12.2.3 Instructions........................... 101 12.2.4 Sanitary installation......................102 12.3 Unpacking ............................103 12.4 Sensor installation..........................103 12.4.1 General installation rules ..................... 103 12.4.1.1 Avoiding creation of noise....................104 12.4.2 Installation in pipe ........................
Page 5 Table of contents 15.3.4 Setting zero point ......................... 147 15.3.5 Performing autozero ......................148 15.4 Advanced settings..........................148 15.4.1 Setting hardware write-protection ..................148 15.4.2 Modbus hardware setting ....................150 15.4.3 PROFIBUS PA hardware setting ..................152 15.4.3.1 Access to Hardware DIP switches ..................152 15.4.3.2 Setting hardware write-protection ..................
Page 6 Table of contents 19.4 Wiring ..............................177 19.5 Commissioning..........................177 20 Advanced functions ..........................178 20.1 Overview ............................178 20.2 Concentration and petroleum measurement..................179 20.3 Batching function..........................180 20.4 Viscosity function ..........................181 20.5 Tube Health Check ........................... 182 20.6 Measurement of heat quantity......................
Page 7: Introduction
FC6x0 Introduction Scope of application 1 Introduction 1.1 Scope of application These instructions apply to the following Siemens SITRANS FC products: ▪ SITRANS FC1x0 ▪ SITRANS FC6x0 ▪ SITRANS FC7x0 ▪ SITRANS FC5x0 ▪ SITRANS FC Spare transmitter and Spare sensor.
Page 8: Applicable Documents
– HART A5E52748515 – Profibus PA A5E52748624 – Modbus A5E52748619 All relevant manuals can be downloaded from: http://www.siemens.com/ flowdocumentation. 1.6 Explanation of safety instructions and symbols Signal words Warning notices are intended to alert users to potential hazards when working with the flow meter.
Page 9 FC6x0 Introduction Explanation of safety instructions and symbols Symbols on the Meaning nameplates FM/CSA marking NEPSI marking INMETRO marking DNV GL type approval marking 3-A Sanitary approval marking China RoHS marking Taiwan Safety (TS) marking Russia Pattern approval marking Belarus Pattern approval marking A5E52748375-AA, 2023/09 9 / 194...
Page 10: Safety
Siemens sales organization. Operational safety cannot be ensured in the event of any improper or not intended use. Siemens is not liable for damage arising from such use. The flow meter described in this Operating Instructions is a class A device according to EN 61326-1 and may only be used in an industrial environment.
Page 11 / or environmental harm. ▶ Siemens will not take any liability regarding damage caused by corrosion / erosion. ▶ If corrosion / erosion may happen, the user has to check periodically if the necessary wall thickness is still in place.
Page 12 Any repair, modification, replacement or installation of replacement parts is permitted only if it's complying with this Operating Instructions. Other work must be first authorized by Siemens. Siemens does not assume liability for damage caused by unauthorized work on the flow meter or by improper use.
Page 13: Warranty
The warranty terms for this device are described in the quotation. If a defect for which Siemens is responsible occurs in the device during the warranty period, Siemens will repair that defect at its own cost. If you believe that the device is defective, please contact us and provide a detailed description of the problem.
Page 14: Product Specification
FC6x0 Product specification Scope of delivery 4 Product specification 4.1 Scope of delivery The scope of delivery of the flow meter must be checked for completeness using the following list: Tab. 1: Overview: Scope of delivery of the flow meter Compac Remote Spare Spare...
Page 15: Identification
304/1 4301 1234567 MANUFACTURED: 2023 PT: 60 bar AMB. TEMP.: -40...+60 Made in Germany SIEMENS AG, DE-76181 Karlsruhe Order code Serial number Year of manufacture Ambient temperature range Material wetted parts Flow direction Warning with the request to read the documentation...
Page 16: Transmitter
FC6x0 Product specification Identification 4.2.1.2 Transmitter Main nameplate SITRANS FC640 FLOWMETER MODEL: 7ME4464-4FA11-3AB3-Z A10+B01+E06+F11 SERIAL-No.: 1234567 MANUFACTURED: 2023 SUPPLY: 24VAC or 100...240VAC, 50/60Hz 24VDC or 100...120VAC; 10W AMB. TEMP.: -40...+60 Made in Germany DE-76181 Karlsruhe Order code Serial number Year of manufacture Power supply range Ambient temperature range Warning with the request to read the documentation...
Page 17: Order Code Description
FC6x0 Product specification Identification Transmitter label Transmitter Transmitter back cover Label Spare serial number Hardware revision Serial number Date of Ex works/ Update Main software revision Device Revision / Device Revision Compatibility Sensor software revision Type of Communication Indicator software revision Supported "IDENT NUMBERS"...
Page 18: Flow Meter Components
FC6x0 Product specification Flow meter components Device options (item -Z) can be selected and specified individually. 7 M E 4 4 x 8 9 10 11 13 14 15 16 Product group: MASS Sensor Sensor Transmitter variant Sensor type and size Connector size Process connection / Pressure Process connection / Pressure...
Page 19 FC6x0 Product specification Flow meter components Remote type Process connections Terminal box Cable entry for connecting cable Display cover Sensor connection cover Back cover for inputs and outputs, and power supply Blind plug Inputs/outputs cable entry Power supply cable entry Connecting cable A5E52748375-AA, 2023/09 19 / 194...
Page 20: Transport And Storage
FC6x0 Transport and storage Transport 5 Transport and storage 5.1 Transport The following rules apply when transporting the flow meter: ▶ Observe the transport-related instructions on packaging. ▶ In order to avoid damage, do not unpack the flow meter until it is at the installation site.
Page 21: Storage
FC6x0 Transport and storage Storage 5.2 Storage Please note the following rules apply when storing the flow meter: Risk of damage to the flow meter due to storage in a damp environment NOTICE ▶ Protect flow meter from rain and humidity. ▶...
Page 22: Measuring Principle And Flow Meter Design
FC6x0 Measuring principle and flow meter design Measuring principle 6 Measuring principle and flow meter design 6.1 Measuring principle The measuring principle is based on the generation of Coriolis forces. For this purpose, a driver system (E) excites the two measuring tubes (M1, M2) in their first resonance frequency.
Page 23 FC6x0 Measuring principle and flow meter design Measuring principle The small deformation overlying the fundamental vibration is recorded by means of pick- offs (S1, S2) attached at suitable measuring tube locations. The resulting phase shift Δ φ between the output signals of pick-offs S1 and S2 is proportional to the mass flow. The output signals generated are further processed in a transmitter.
Page 24: Flow Meter
FC6x0 Measuring principle and flow meter design Flow meter Temperature The measuring tube temperature is measured in order to compensate the effects of measurement temperature on the flow meter. This temperature approximately equals the fluid temperature and is made available as a measured quantity at the transmitter as well. 6.2 Flow meter The SITRANS FC Coriolis flow meter consists of: ▪...
Page 25 FC6x0 Measuring principle and flow meter design Flow meter Fig. 8: Configuration of the SITRANS FC remote type - long neck Transmitter Sensor terminal box Sensor Connecting cable Process connections General All available properties of the SITRANS FC Coriolis flow meter are specified by means of specifications an order code.
Page 26 FC6x0 Measuring principle and flow meter design Flow meter Transmitter Properties Order code position 7 ▪ Down to 0.15 % mass flow accuracy for liquids SITRANS FCT020 ▪ Down to 0.75 % mass flow accuracy for gases ▪ Down to 4 g/l (0.25 lb/ft³) accuracy for density ▪...
Page 27: Application And Measuring Ranges
▪ Liquids ▪ Gases ▪ Mixtures, such as emulsions, suspensions, slurries Possible limitations applying to measurement of mixtures must be checked with the responsible Siemens sales organization. The following variables can be measured using SITRANS FC: ▪ Mass flow ▪ Density ▪...
Page 28 FC6x0 Application and measuring ranges Measuring range overview FCS600 FCS600 FCS600 FCS600 DN65 DN15 DN25 DN40 Process fluid temperature range -70 – 150 °C Standard (-94 – 302 °F) -70 – 230 °C Mid-range [} 39] (-94 – 446 °F) 0 – 350 °C High (32 – 662 °F) - Nominal mass flow - Maximum mass flow - Minimum mass flow The nominal mass flow Q is defined as the mass flow of water (temperature: 20 °C) at 1 bar pressure loss along the flow meter.
Page 29: Accuracy
FC6x0 Accuracy Overview 8 Accuracy In this chapter, maximum deviations are indicated as absolute values. All accuracy data are given in ± values. 8.1 Overview Achievable accuracies for liquids The value D specified for accuracy of mass flow applies for flow rates exceeding the flat mass flow limit Q .
Page 30: Mass Flow Accuracy
FC6x0 Accuracy Mass flow accuracy Meter size Zero point stability Z in kg/h (lb/h) FCS600 DN15 0.15 (0.33) FCS600 DN25 0.5 (1.1) FCS600 DN40 1.6 (3.5) FCS600 DN65 5 (11) 8.3 Mass flow accuracy Above mass flow Q , maximum deviation is constant and referred to as D .
Page 31: Accuracy Of Density
FC6x0 Accuracy Accuracy of density Meter size Order code Order code flat flat in % in kg/h in kg/h in % position 13 position -Z in kg/ 5000 -0.05 1, 2, 3 8330 0.032 FCS600 DN65 0.75 5000 (100000) 6700 0.394 0.35 6700...
Page 32: For Gases
Notice: In case of a spare sensor combined with a transmitter in use, the original accuracy specification may be affected. For calibration services, please contact Siemens Service department. Specified deviation of density is achieved within the following limits, see table below:...
Page 33: For Gases
-Z in % 0.35 Notice: In case of a spare sensor combined with a transmitter in use, the original accuracy specification may be affected. For calibration services, please contact Siemens Service department. 8.6 Volume flow accuracy 8.6.1 For liquids The following formula can be used to calculate the accuracy of liquid volume flow: ∆ρ...
Page 34: Repeatability
FC6x0 Accuracy Repeatability Sensor size FCS600 DN2 FCS600 DN4 FCS600 DN15 FCS600 DN25 FCS600 DN40 0.0075 0.0050 Deviation of temperature Formula for ΔT = 1.0 °C + 0.008 × │T - 20 °C│ specified temperature range ΔT Maximum deviation of temperature High and Low Process fluid temperature in °C (6.5)
Page 35: Density Calibration
16 barg (232 psig) and 50 barg (725 psig) Different gases can be considered by entering characteristic gas sound velocity and related temperature coefficient Only with SITRANS FC HART firmware rev.4 or later. For details please contact your local Siemens sales organization. A5E52748375-AA, 2023/09 35 / 194...
Page 36: Process Conditions
FC6x0 Accuracy Process conditions 8.10 Process conditions 8.10.1 Process pressure effect Process pressure effect is defined as the change in sensor flow and density deviation due to process pressure change away from 1barg reference condition. This effect can be corrected by dynamic pressure input or a fixed process pressure. Tab. 2: Process pressure effect, wetted parts stainless steel 1.4404/ 316L and Ni alloy C-22/ 2.4602 Meter size...
Page 37 FC6x0 Accuracy Process conditions Temperature effect on density measurement (liquids) 7 M E 4 4 x 8 9 10 11 13 14 15 16 Process fluid temperature influence: Formula for metric values = ±k × abs (T - 20 °C) ρ...
Page 38 FC6x0 Accuracy Process conditions Meter size Order code Order code Order code k in g/l × 1/°C (lb/ft³ × 1/°F) position 8+9 position 12 position 13 1, 3, 6, 7 0.07 (0.0024) 2, 3, 7 4, 8 0.19 (0.0066) 4F, 4G, 4H, 4J 1, 6 0.028 (0.0010) 2, 3, 7...
Page 39: Operating Conditions
High 4, 8 (32 – 662) With process connection type G2 and G6 temperature range is: -10 – 140 °C (14 – 284 °F) With SITRANS FC HART firmware rev.4 or later. For details please contact your local Siemens sales organization. A5E52748375-AA, 2023/09 39 / 194...
Page 40: Density
FC6x0 Operating conditions Process conditions 9.1.2 Density Meter size Measuring range of density in kg/l (lb/ft³) FCS600 DN2 FCS600 DN4 FCS600 DN15 0 – 5 (0 – 312) FCS600 DN25 FCS600 DN40 FCS600 DN65 0 – 2,5 (0 – 156) Density measuring range for NTEP custody transfer approval Tab. 5: Density measuring ranges (C16) Option Measuring range of density...
Page 41 FC6x0 Operating conditions Process conditions ASME class 150, JPI class 150 p in bar (psi) 20 (290) 18 (261) 16 (232) 14 (203) 12 (174) 10 (145) 8 (116) 6 (87) 4 (58) 2 (29) T in °C -150 -100 (32) (122) (212) (302) (572) (-238) (-148)
Page 42 FC6x0 Operating conditions Process conditions ASME class 600, JPI class 600, EN PN63 p in bar (psi) 100 (1450) 80 (1160) 63 (914) 60 (870) 40 (580) 20 (290) -150 -100 T in °C (-58) (-238) (-148) (32) (122) (212) (302) (392) (482) (572) (662) (°F) -196 (-321)
Page 43 FC6x0 Operating conditions Process conditions JIS 10K, JIS 20K p in bar (psi) 40 (580) 35 (508) 30 (435) 25 (363) 20 (290) 15 (218) 10 (145) 5 (76) -150 -100 T in °C (662) (-238) (-148) (-58) (32) (122) (212) (302) (392) (482) (572)
Page 44 FC6x0 Operating conditions Process conditions Clamp process connection according to DIN 32676 series C (Tri-Clamp) p in bar (psi) 30 (435) 20 (290) 16 (232) 10 (145) T in °C (-58) (32) (122) (212) (302) (392) (°F) (14) (284) Fig. 19: Allowed process pressure as a function of process fluid temperature Clamp connection compatible to DIN 32676 series C up to 2"...
Page 45 FC6x0 Operating conditions Process conditions Calculations for ASME flanges are based on ASME B16.5 Material group 2.2 (316/316L dual certified). ASME class 900 compatible to process connection ASME B16.5 p in bar (psi) 160 (2320) 149 (2161) 140 (2030) 120 (1740) 100 (1450) 91 (1320) 80 (1160) 60 (870)
Page 46: Insulation And Heat Tracing
In such case it is possible to request a customized design from the responsible Siemens sales organization. In the event of a burst pipe, the rupture disc provides an acoustic signal in applications with gases.
Page 47: Secondary Containment
FC6x0 Operating conditions Process conditions 7 M E 4 4 x 8 9 10 11 13 14 15 16 Overview of device options for insulation and heat tracing for remote type Options Description FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 ▪...
Page 48: Ambient Conditions
FC6x0 Operating conditions Ambient conditions Burst pressure in bar (psi) 49 (710) 120 (1740) 80 (1160) 9.2 Ambient conditions Allowed ambient and storage temperature of SITRANS FC depends on the below components and their own temperature limits: ▪ Sensor ▪ Transmitter ▪...
Page 49: Allowed Ambient Temperature For Sensor
FC6x0 Operating conditions Ambient conditions Ranges and specifications Transmitter: 10 – 500 Hz, 1g Resistance to vibration acc.: IEC 60068-2-6 (not with option Jxx) Sensor: 25 – 100 Hz, 4g Electromagnetic compatibility (EMC) ▪ IEC/EN 61326-1, Table 2 ▪ IEC/EN 61326-2-3 ▪...
Page 50 FC6x0 Operating conditions Ambient conditions Temperature range °C (°F) specification Standard, compact 60 (140) type Order code: 40 (104) Pos. 12: 1 20 (68) 0 (32) -20 (-4) -40 (-40) °C -200 -100 (-328) (572) (-148) (32) (212) (392) (°F) Fig. 26: Allowed process fluid and ambient temperatures, compact type (except process connection type G2 and G6) Ambient temperature...
Page 51 FC6x0 Operating conditions Ambient conditions Temperature range °C (°F) specification Standard, remote type 80 (176) Order code: 60 (140) Pos. 12: 1 49 (120) 40 (104) 20 (68) 0 (32) -20 (-4) -35 (-31) -40 (-40) °C -200 -100 (-328) (392) (°F) (-148)
Page 52 FC6x0 Operating conditions Ambient conditions Temperature range °C (°F) specification Medium, remote type 80 (176) Order code: 60 (140) Pos. 12: 3 58 (136) 40 (104) 20 (68) 0 (32) -20 (-4) -35 (-31) -40 (-40) °C -200 -100 (-328) (-148) (32) (392)
Page 53 FC6x0 Operating conditions Ambient conditions Ambient temperature Process fluid temperature Temperature range °C (°F) specification Standard, remote type 80 (176) Order code: 60 (140) Pos. 12: 6 49 (120) 40 (104) 20 (68) 0 (32) -20 (-4) -35 (-31) -40 (-40) °C -200 -100...
Page 54: Temperature Specification In Hazardous Areas
FC6x0 Operating conditions Ambient conditions Temperature range °C (°F) specification High, remote type 80 (176) Order code: 60 (140) Pos. 12: 8 40 (104) 20 (68) 0 (32) -20 (-4) -35 (-31) -40 (-40) °C -200 -100 (-328) (392) (572) (662) (-148) (32)
Page 55 FC6x0 Operating conditions Ambient conditions Order code: The following figure shows the relevant positions of the order code: Pos. 6: 6 Pos. 12: 1, 6 7 M E 4 4 x Pos. 14: A, B 8 9 10 11 13 14 15 16 Pos.
Page 56 FC6x0 Operating conditions Ambient conditions Order code: The following figure shows the relevant positions of the order code: Pos. 6: 6 Pos. 12: 1, 6 7 M E 4 4 x Pos. 14: C, E, G 8 9 10 11 13 14 15 16 Pos.
Page 57 FC6x0 Operating conditions Ambient conditions Order code: The following figure shows the relevant positions of the order code: Pos. 6: 6 Pos. 12: 1, 6 7 M E 4 4 x Pos. 14: D, F, H 8 9 10 11 13 14 15 16 Pos.
Page 58 FC6x0 Operating conditions Ambient conditions Order code: The following figure shows the relevant positions of the order code: Pos. 6: 6 Pos. 12: 2 7 M E 4 4 x Pos. 14: D, F, H 8 9 10 11 13 14 15 16 Pos.
Page 59 FC6x0 Operating conditions Ambient conditions Order code: The following figure shows the relevant positions of the order code: Pos. 6: 6 Pos. 12: 3, 7 7 M E 4 4 x Pos. 14: D, F, H 8 9 10 11 13 14 15 16 Pos.
Page 60 FC6x0 Operating conditions Ambient conditions Order code: The following figure shows the relevant positions of the order code: Pos. 6: 6 Pos. 12: 3, 7 7 M E 4 4 x Pos. 14: D, F, H 8 9 10 11 13 14 15 16 Pos.
Page 61: Mechanical Specification
FC6x0 Mechanical specification Design 10 Mechanical specification 10.1 Design The SITRANS FC6x0 flow meter is available with two design types: ▪ Compact type, sensor and transmitter are firmly connected ▪ Remote type – Standard neck – Long neck Fig. 37: Remote type sensor with standard neck for meter size DN2 and DN4 Fig. 38: Remote type sensor with standard and long neck for meter size DN15, DN25 and DN40 7 M E 4 4 x 8 9 10 11...
Page 62 FC6x0 Mechanical specification Design The design influences the temperature specification for Ex-approved SITRANS FC, see Explosion Proof Type Reference Manual: ▶ ATEX A5E52487402 ▶ IECEx A5E52595170 ▶ FM/CSA A5E52487431 ▶ NEPSI A5E52595174 ▶ Korea Ex A5E52778071 A5E52748375-AA, 2023/09 62 / 194...
Page 63: Material
FC6x0 Mechanical specification Material 10.2 Material 10.2.1 Sensor Material wetted parts Sensor parts which are wetted by process fluid are available with the following materials: 7 M E 4 4 x 8 9 10 11 13 14 15 16 Material Order code position 8+9 Measuring tubes made of nickel alloy...
Page 64: Nameplates
FC6x0 Mechanical specification Material 7 M E 4 4 x 8 9 10 11 13 14 15 16 Housing material Coating Design type Order code position 14 Compact type Standard coating Remote type C, D Aluminum Al-Si10Mg(Fe) Compact type Corrosion protection coating Remote type E, F...
Page 65: Heat Tracing
FC6x0 Mechanical specification Material 10.2.4 Heat tracing These device options are available only for remote type with long neck. 7 M E 4 4 x 8 9 10 11 13 14 15 16 Material of Component Material components Insulation housing Stainless steel 1.4301/304 Mineral wool, RAL-quality label, approved acc.
Page 66: Process Connections, Dimensions And Weights Of Sensor
FC6x0 Mechanical specification Process connections, dimensions and weights of sensor 10.3 Process connections, dimensions and weights of sensor Remote type (with standard neck) *with process connection adapter 0AK1 **with process connection 0DK1 Fig. 39: Dimensions for FCS600 DN2 and DN4 in mm A5E52748375-AA, 2023/09 66 / 194...
Page 67 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor ø 102 L1 ±5 ø 102 Remote type Remote type Compact type (with standard neck) (with long neck) (with transmitter) Fig. 40: Dimensions for meter sizes FCS600 DN15, DN25 and DN40 L1 ±5 Ø...
Page 68 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Meter size in mm (inch) 1000 FCS600 DN65 (33.5) (14.9) (39.4) (35.2) (5.1) (6.3) (11.9) (13.8) (21.5) Tab. 26: Dimensions without length L1 Meter size in mm (inch) FCS600 DN2 (5.4) (2.3) (5.5) FCS600 DN4...
Page 69 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections 7 M E 4 4 6 compatible to ASME B16.5 (AISI 8 9 10 11 13 14 15 16 316/ AISI 316L dual certified) Tab. 28: Overall length L1 and weight of sensor (process connections: ASME, wetted parts: stainless steel) Process connections Order code FCS600 DN15...
Page 70 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 pos. DN65 Option Weight Weigh Weigh 10+11 in mm in kg in mm in mm in mm (inch) (lb) (inch) in kg (inch)
Page 71 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 pos. Weight Weight Weight Weight 10+11 in mm in kg in mm in kg in mm in kg in mm in kg (inch)
Page 72 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 connections position Weight Weight Weight 10+11 in mm in kg in mm in kg in mm in kg (inch) (lb) (inch) (lb) (inch) (lb)
Page 73 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 connections position Weight Weight Weight 10+11 in mm in kg in mm in kg in mm in kg (inch) (lb) (inch) (lb) (inch) (lb)
Page 74 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 pos. Weight Weight Weight Weight 10+11 in mm in kg in mm in kg in mm in kg in mm in kg (inch)
Page 75 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 pos. Weight Weight Weight Weight 10+11 in mm in kg in mm in kg in mm in kg in mm in kg (inch)
Page 76 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 pos. Weight Weight Weight Weight 10+11 in mm in kg in mm in kg in mm in kg in mm in kg (inch)
Page 77 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor 7 M E 4 4 6 8 9 10 11 13 14 15 16 Tab. 33: Overall length L1 and weight of sensor (process connections: EN, wetted parts: Ni alloy C-22/2.4602) Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65...
Page 78 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 pos. 10+11 L1 Weight Weight Weight Weight in mm in kg in mm in kg in mm in kg in mm in kg (inch)
Page 79 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Meaning of "–": not available Process connections with internal thread 7 M E 4 4 6 8 9 10 11 13 14 15 16 Tab. 37: Overall length L1 and weight of sensor (process connections: G thread, wetted parts: stainless steel) Process Order code...
Page 80 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Clamp process 7 M E 4 4 6 connections according to DIN 8 9 10 11 13 14 15 16 32676 series A Tab. 39: Overall length L1 and weight of sensor (process connections: DIN 32676 series A clamp, wetted parts: stainless steel) Process connections Order code...
Page 81 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Clamp process 7 M E 4 4 6 connection according to JIS/ISO 8 9 10 11 13 14 15 16 2852 Tab. 41: Overall length L1 and weight of sensor (process connections: JIS/ISO 2852 clamp, wetted parts: stainless steel) Process connections Order code FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65...
Page 82 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Order code pos. FCS600 DN15 FCS600 DN25 FCS600 DN40 FCS600 DN65 10+11 in mm (S31) in mm (S31) in mm (S31) in mm (S31) (inch) in mm (inch) in mm (inch) in mm (inch)
Page 83 FC6x0 Mechanical specification Process connections, dimensions and weights of sensor Meter size Material of wetted Order code pos. Internal diameter Wall thickness in parts in mm (inch) mm (inch) Stainless steel 13.40 1.24 3E, 3F, 3G, 1.4404/316L (0.528) (0.049) Nickel alloy 13.40 1.24 FCS600 DN25...
Page 84: Transmitter Dimensions And Weights
FC6x0 Mechanical specification Transmitter dimensions and weights 10.4 Transmitter dimensions and weights Transmitter dimensions 87.8 67.8 Fig. 42: Dimensions of transmitter in mm (left: transmitter with display, right: transmitter without display) Tab. 45: Overall length L1 - L4 and height H1 - H4 of transmitter (material: stainless steel, aluminum) Material L1 in mm...
Page 85 FC6x0 Mechanical specification Transmitter dimensions and weights Order code Design type Housing material of Weight pos. 14 transmitter in kg (lb) C, D, E, F Aluminum max. 4.4 (9.7) Remote G, H Stainless steel 12.5 (27.6) A5E52748375-AA, 2023/09 85 / 194...
Page 86: Transmitter
FC6x0 Transmitter 11 Transmitter SITRANS FCT020 Transmitter SITRANS FCT040 Transmitter For general purpose application For demanding and critical application SIEMENS SITRANS SIEMENS SITRANS Transmitter Advanced Total Health Dynamic Wizard for easy Event type functions Check Pressure setup Management Compensation acc. NAMUR...
Page 87: Electrical Interfaces
FC6x0 Transmitter Electrical interfaces ● Supported / - not supported 11.1 Electrical interfaces Depending on the selected interface protocol up to 4 in and/or outputs (I/O) are available, partially configurable. 7 M E 4 4 x 8 9 10 11 13 14 15 16 (I/O1) (I/O2) (I/O3) (I/O4) Order code...
Page 88 FC6x0 Transmitter Electrical interfaces For HART communication devices, it is supplied on the current output lout1. The current output may be operated in compliance with the NAMUR NE43 standard. Value Nominal output current 4 – 20 mA Maximum output current range 2.4 –...
Page 89: Analog Inputs
FC6x0 Transmitter Electrical interfaces 11.1.1.2 Analog inputs Active current input An individual analog power input is available for external analog devices. The active current input lin is provided for connecting a two-wire transmitter with an output signal of 4 – 20 mA. Value Nominal input current range 4 –...
Page 90: Analog Output Specification
FC6x0 Transmitter Electrical interfaces 11.1.1.3 Analog output specification Analog output If mass- or volume flow, density, temperature, pressure or concentration is measured via specification lout current output Iout two additional deviation effects have to be taken into account. ▪ The Iout –base specification ∆I contains all combined effects of output adjustment, base linearity, power supply variation, load resistance variation, short and long term drift for...
Page 91 FC6x0 Transmitter Electrical interfaces Terms Value Internal power supply 24 V ±20 % Maximum pulse rate 10000 pulses/s Frequency range 0 – 12.5 kHz SITRANS FC 24 V P/Sout+ P/Sout- Fig. 49: Active pulse output connection P/Sout ① Load resistance ② Electronic counter Connection of an electromechanical counter Terms...
Page 92 FC6x0 Transmitter Electrical interfaces SITRANS FC 24 V P/Sout+ P/Sout- Fig. 51: Active pulse output P/Sout with internal pull-up resistor ① Electronic counter Passive pulse output Maximum voltage and correct polarity must be observed for wiring. P/Sout Value Maximum load current ≤...
Page 93 FC6x0 Transmitter Electrical interfaces SITRANS FC 24 V P/Sout+ P/Sout- Fig. 54: Active status output connection P/Sout ① External device with load resistance Active status output Value P/Sout with internal Internal pull-up resistor 2.2 kΩ pull-up resistor Internal power supply 24 V ±20 % SITRANS FC 24 V...
Page 94: Digital Inputs
FC6x0 Transmitter Electrical interfaces A relay must be connected in series to switch alternating voltage. Passive pulse or Output signals according to EN 60947-5-6 (previously NAMUR, worksheet NA001): status output P/Sout 1kΩ (NAMUR) SITRANS FC P/Sout+ 10kΩ P/Sout- Fig. 58: Passive pulse or status output with switching amplifier connected in series ①...
Page 95 FC6x0 Transmitter Electrical interfaces Order code Connection terminal assignment position -Z I/O1 +/- I/O2 +/- I/O3 +/- I/O4 +/- Iout1 P/Sout1 Sout P/Sout2 E06+F12 Write-protect Active Passive Passive Passive Iout1 P/Sout1 P/Sout2 E06+F13 Write-protect Active Passive Passive P/Sout2 Iout1 P/Sout1 Active E06+F21 Write-protect...
Page 96: Modbus
FC6x0 Transmitter Electrical interfaces Iout2 Analog current output P/Sout1 Pulse or status output P/Sout2 Pulse or status output Intrinsically safe outputs are only available in combination with selecting Ex approval of the device, see order code position 15 in the table of chapter Order code description. 11.1.4 Modbus Modbus interface is available with configurable I/O option.
Page 97 FC6x0 Transmitter Electrical interfaces SITRANS FC Fig. 60: PROFIBUS PA connection ① PROFIBUS PA ② Termination ③ DP/PA-Coupler ④ PROFIBUS DP ⑤ HOST Supported Functions Profile PA Rev. 3.02 compliant, supporting: ▪ Condensed Status (NE107) ▪ Device identification number (IDENT_NUMBER) adaption Function Blocks Description Flow...
Page 98: Power Supply
For remote type devices, a connecting cable has to be used to connect the sensor to the transmitter. The device specifications, stated in this document, are valid only if one of the original Siemens connecting cables is used. Cable length limitations to be considered:...
Page 99: Installation
FC6x0 Installation Location and position of installation 12 Installation 12.1 Location and position of installation SITRANS FC Coriolis flow meters can be mounted horizontally, vertically and at an incline. The measuring tubes should be completely filled with the fluid during flow measurement as accumulations of air or formation of gas bubbles in the measuring tube may result in errors in measurement.
Page 100: Installation Instructions
FC6x0 Installation Installation instructions Installation position Fluid Description Vertical, direction of flow towards the top (recommended) The sensor is installed on a pipe with the direction of flow towards the top. Accumulation of gas bubbles or solids Liquid/gas is avoided. This position allows for complete self-draining of the measuring tubes.
Page 101: Instructions
Install flow meter far removed from motors, transformers or other transmitters. ▶ If the plan calls for installing two sensors of the same kind back-to-back, use a customized design. Contact the responsible Siemens sales organization. ▶ Operate the flow meter below an elevation of 2000 m above sea level.
Page 102: Sanitary Installation
FC6x0 Installation Installation instructions ▶ Avoid letting the sensor run idle while taking the measurement, e.g. when installed in front of an air gap to containers in case of filling applications. Doing so may result in incorrect measurements. To avoid this, install a restriction in the open downpipe or use an orifice gauge with a diameter smaller than the nominal pipe width.
Page 103: Unpacking
FC6x0 Installation Unpacking Sensor installation ▶ For compliance with 3-A sanitary standards, a vertical installation of sensor with fluid (remote or compact flowing upwards (self-draining) is recommended, as shown in figure below. version) Fig. 65: Vertical (self-draining) installation ▶ A horizontal installation of sensor with tubes down, as shown in figure below, shall be drained via air purge.
Page 104: Avoiding Creation Of Noise
FC6x0 Installation Sensor installation Fig. 67: Avoid: Slope and mismatch ▶ Avoid fixing anything directly to the sensor. Doing so may result in increased deviations. Fig. 68: Installation to be avoided: Fixing the sensor Fig. 69: Recommended installation: use the piping to support the sensor Pipe Sensor ▶...
Page 105: Installation In Pipe
FC6x0 Installation Sensor installation 12.4.2 Installation in pipe Depending on process connections, the sensor is connected to the pipe by means of flanges, terminals or thread. The order code provides information on the process connections selected. Risk of injury due to escaping fluids and damage, if fixing materials are DANGER inappropriate or not professionally installed ▶...
Page 106 FC6x0 Installation Sensor installation Fig. 71: Fixing the flange Pipe flange Gasket Sensor flange Bolt Internal thread For process connections with an internal thread, the connection must be installed in connection accordance with the following figure. Fig. 72: Internal thread connection Sensor Gasket (not use in case of NPT) Pipe Use of seal tape for installation...
Page 107: Installation Recommendation For Viscosity Function
FC6x0 Installation Sensor installation 12.4.3 Installation recommendation for viscosity function In order to use this function an external differential pressure transmitter (separate order) measuring the pressure difference at the flow line is necessary. The accuracy of the estimated viscosity is strongly depending on the accuracy of the pressure transmitter and the correct position and implementation of the pressure taps.
Page 108: Insulation And Heat Tracing
FC6x0 Installation Insulation and heat tracing PROFIBUS PA Fig. 74: Positioning of pressure taps / PROFIBUS PA communication line ① Mounting flanges ⑤ PROFIBUS PA Communication line ② Pressure taps ⑥ PROFIBUS PA Junction box ③ SITRANS FC ⑦ Other flow elements PROFIBUS PA ④...
Page 109: Customer-Supplied Insulation
FC6x0 Installation Transmitter installation Risk of overheating the transmitter due to increased ambient temperature WARNING Failure of measuring electronics ▶ Observe the maximum allowable ambient temperature for the transmitter. ▶ Install the transmitter at a sufficient distance from heat sources. 12.5.2 Customer-supplied insulation For insulation provided by the customer it is important to select a sensor with the appropriate design type (remote type, sensor with long neck).
Page 110 FC6x0 Installation Transmitter installation 2. Using an Allen wrench (size: 3.0), turn the locking screw on display screw plug clockwise to remove. 3. Unscrew display cover from transmitter housing. 4. Remove the two screws from the display. A5E52748375-AA, 2023/09 110 / 194...
Page 111 FC6x0 Installation Transmitter installation 5. Remove the display from housing by pulling forward. 6. Rotate display and push back into housing in the orientation desired. The display can be removed and replaced by loosening the connector. NOTICE A5E52748375-AA, 2023/09 111 / 194...
Page 112: Rotating Transmitter Housing (Compact Type)
FC6x0 Installation Transmitter installation 7. Tighten screws. 8. Screw display cover back onto transmitter housing. 9. Using an Allen wrench (size: 3.0), turn the locking screw on display screw plug counter-clockwise to tighten. 12.6.2 Rotating transmitter housing (compact type) The transmitter housing can be installed in any one of four orientations. Short-circuit hazard caused by penetrating water WARNING Failure of measuring electronics...
Page 113 FC6x0 Installation Transmitter installation Insufficient sensor grounding connection WARNING Electric shock and ignition in hazardous areas ▶ Use a minimum torque of 4.3 Nm when tightening the screws. Damage to flow meter NOTICE Rotating the transmitter housing several times in the same direction may damage the connection between sensor and transmitter.
Page 114: Rotating The Terminal Box (Remote Type)
FC6x0 Installation Transmitter installation 4. Place transmitter housing. 5. Tighten the four fixing screws. 12.6.3 Rotating the terminal box (remote type) The terminal box can be installed in any one of four orientations. 1. Loosen the four fixing screws and remove the cover. 2.
Page 115: Installing Transmitter On Pipe (Remote Type)
FC6x0 Installation Transmitter installation 3. By using an Allen wrench, remove the bottom fixing screws and rotate the terminal box at an angle of 90°, 180° or 270°. 4. Place the terminal box and tighten the bottom fixing screws using a minimum torque of 7.4 Nm.
Page 116 FC6x0 Installation Transmitter installation Installation at high vibration levels NOTICE The mounting bracket for the pipe installation of the transmitter may not be suitable for installation environments with very high levels of vibration. In this case the user is advised to employ more rugged methods of fixation using the threaded bottom holes directly.
Page 117: Installation Check List
FC6x0 Installation Installation check list 3. Fasten retaining clip to bracket using the nuts. 12.7 Installation check list The following checks must be performed once the flow meter is installed in the pipe: Check Performed? State and specification of device ▪...
Page 118: Wiring
Risk of injury due to electrical shock, as well as sparking and damage to WARNING the flow meter, if an inappropriate connecting cable is used ▶ It is imperative that an original connecting cable and original glands from Siemens are used. ▶ Install cables tension-free.
Page 119: Grounding Connections
FC6x0 Wiring Grounding connections Be aware that improper earthing, false wiring and use of cable out of specification may NOTICE lead to instrument damage and/or disturbance of other sensitive electrical equipment due to increased electromagnetic emissions/immunity. Be aware that wrong input voltage may lead to disturbance of other sensitive electrical NOTICE equipment due to increased electromagnetic emissions.
Page 120: Connecting Cable Installation
Siemens are used. In order to ensure the IP code, the cable must be professionally installed at the entries. If necessary, the cable may be shortened using the enclosed termination kit.
Page 121: Connection Terminals
Connecting cable installation If the connecting cable, included in the delivery, is too short, additional lengths can be procured through the Siemens sales organization. 13.3.1 Connection terminals The delivery includes an operating tool for connecting the connecting cable to the connection terminals.
Page 122 FC6x0 Wiring Connecting cable installation green blue white brown yellow drain wire Fig. 80: Terminated standard connecting cable L5x/L6x, transmitter side Connection scheme of standard connecting cable option L5x/L6x Tab. 46: Version coaxial wire Standard connecting cable option L5x/L6x Signal Coaxial wire Coaxial wire pair colour Wire type Wire colour...
Page 123 FC6x0 Wiring Connecting cable installation Installation of fire retardant connecting cable option L7x/L8x D– D– S1– S1– S2– S2– Fig. 81: Transmitter and sensor interconnection diagram Sensor Transmitter Potential equalization system shield wire Fig. 82: Terminated fire retardant connecting cable L7x/L8x, transmitter side Connection scheme of fire retardant connecting cable option L7x/L8x Tab. 48: Version L7x/L8x L7x/L8x cable...
Page 124: Connecting The Connecting Cable To Sensor
FC6x0 Wiring Connecting cable installation 13.3.2 Connecting the connecting cable to sensor Use the cable end without shield wire to connect to the sensor (observe labeling). NOTICE If the cable is not terminated or was shortened, observe the separate instructions in the NOTICE included terminating set.
Page 125: Connecting The Connecting Cable To Transmitter
FC6x0 Wiring Connecting cable installation 13.3.3 Connecting the connecting cable to transmitter 1. Loosen the four screws from the sensor connection cover and remove cover. 2. Remove connector nut from cable gland and pull out clamped insert. 3. Push cable through connector nut and clamped insert. 4.
Page 126: Transmitter
FC6x0 Wiring Transmitter 13.4 Transmitter 13.4.1 HART and Modbus communication 13.4.1.1 HART communication HART interface For devices with HART communication, the HART interface, along with the analog signal, is available at the output Iout1. A load resistance of 230 – 600 Ω at Iout1 is recommended.
Page 127: Output Signals
FC6x0 Wiring Transmitter Master Pull Up Balanced Pair Common Pull Down LT: Line Termination SITRANS FC Slave n Fig. 84: Modbus connection 13.4.1.3 Output signals Galvanic isolation All circuits for inputs, outputs and power supply are galvanically isolated from each other. Active current One or two current outputs are available depending on order code position -Z.
Page 128 FC6x0 Wiring Transmitter U - 10.5 V 0.0236 A 10.5 U in V Fig. 86: Maximum load resistance as a function of an external power supply voltage Load resistance External power supply voltage The diagram shows the maximum load resistance R as a function of voltage U of the connected voltage source.
Page 129 FC6x0 Wiring Transmitter Active pulse output Connection of an electronic counter P/Sout Maximum voltage and correct polarity must be observed for wiring. Terms Value Load resistance > 1 kΩ Internal power supply 24 V ±20 % Maximum pulse rate 10000 pulses/s Frequency range 0 –...
Page 130 FC6x0 Wiring Transmitter Active pulse output Value P/Sout with internal Internal power supply 24 V ±20 % pull-up resistor Internal pull-up resistor 2.2 kΩ Maximum pulse rate 10000 pulses/s Frequency range 0 – 12.5 kHz SITRANS FC 24 V P/Sout+ P/Sout- Fig. 90: Active pulse output P/Sout with internal pull-up resistor ①...
Page 131 FC6x0 Wiring Transmitter SITRANS FC Pulse+ Pulse- Fig. 92: Passive pulse output connection with electronic counter ① Passive pulse ② Load resistance ③ Electronic counter SITRANS FC Pulse+ Pulse- Fig. 93: Passive pulse output connection with electromechanical counter ① Passive pulse ② Protective diode ③...
Page 132 FC6x0 Wiring Transmitter Active status output Since this is a transistor contact, maximum allowed current as well as polarity and level of P/Sout output voltage must be observed during wiring. Value Load resistance > 1 kΩ Internal power supply 24 V ±20 % SITRANS FC 24 V...
Page 133: Input Signals
FC6x0 Wiring Transmitter SITRANS FC P/Sout+ or Sout+ P/Sout- or Sout- Fig. 97: Passive status output connection P/Sout or Sout for solenoid valve circuit ① Relay ② Solenoid valve ③ Magnetic valve power supply ④ Protective diode A relay must be connected in series to switch alternating voltage. Passive pulse or Output signals according to EN 60947-5-6 (previously NAMUR, worksheet NA001): status output P/Sout...
Page 134 FC6x0 Wiring Transmitter Value Nominal input current range 4 – 20 mA Maximum input current range 2.4 – 21.6 mA Internal load resistance SITRANS FC ≤ 160 Ω SITRANS FC Iin+ Iin- Fig. 100: Connection of external device with active current output ①...
Page 135: Profibus Pa Connection Terminals
FC6x0 Wiring Transmitter Status input Sin Do not connect a signal source with electric voltage. The status input is provided for use of voltage-free contacts with the following specification: Switching status Resistance Closed < 200 Ω Open > 100 kΩ SITRANS FC Sin+ Sin-...
Page 136: Profibus Pa Communication
FC6x0 Wiring Transmitter PROFIBUS PA: PA communication Pulse Passive: Pulse / Frequency output (only for calibration) Intrinsically safe (IS) outputs are only available in combination with selecting Ex approval of the device, see Operating Instructions A5E52595189, chapter Ex approval. 13.4.4 PROFIBUS PA communication PROFIBUS PA PROFIBUS PA interface of SITRANS FC is based on PROFIBUS PA protocol (Profile interface...
Page 137: Power Supply
FC6x0 Wiring Transmitter SITRANS FC Pulse+ Pulse- Fig. 103: Passive pulse output connection with electronic counter ① Passive pulse ② Load resistance ③ Electronic counter SITRANS FC Pulse+ Pulse- Fig. 104: Passive pulse output connection with electromechanical counter ① Passive pulse ② Protective diode ③...
Page 138 FC6x0 Wiring Transmitter Risk of damage to the flow meter due to incorrect power supply NOTICE ▶ The specified power supply must be observed (see Operating Instructions). ▶ The power-supply cable must be designed for the power supply used with a minimum diameter of 0.5 mm.
Page 139 FC6x0 Wiring Transmitter 3. Unscrew back cover from transmitter housing in counter-clockwise direction. 4. Attach cable glands. 5. Connect wires to connection terminals. Connect the grounding conductor to the grounding screw (see chapter Connection NOTICE terminals, figure 30, point 2). 6.
Page 140: Wiring Check List
FC6x0 Wiring Wiring check list 8. Screw back cover onto transmitter housing in clockwise direction. 9. Using an Allen wrench (Size: 3.0), loosen the locking screw in counter-clockwise direction. 13.5 Wiring check list The following checks must be performed once the flow meter is connected electrically: Risk of injury from electrical shock due to insufficiently closed housing WARNING ▶...
Page 141 FC6x0 Wiring Wiring check list Be aware that improper treatment of cable entry and/or cable terminal may lead to NOTICE disturbance of other sensitive electrical equipment due to increased electromagnetic emissions. Check Performed? Are cables intact? Are power-supply and signal cables connected correctly? Do the cables have a lower point where liquid can drip immediately before they enter the cable glands? Are the cables installed tension-free?
Page 142: Commissioning
FC6x0 Commissioning 14 Commissioning 1. Activate external power switch. 2. Perform check of piping installation. 3. Check flow meter for device errors, warnings or alarms, see chapter on Troubleshooting [} 156]. 4. Configure the transmitter, and perform autozero, see chapter on Default settings [} 146]. ð...
Page 143: System Configuration And Operation
15.2 Display All of the functions described here are also available via digital communication. Numerical values that are entered via the display are limited to 6 digits. SITRANS FCT040 Siemens Fig. 105: Display layout Measured quantities and units IR switches Status icon and time...
Page 144 FC6x0 System configuration and operation Display Impairment of the display NOTICE If the device is operated for a longer period and is subjected to high temperatures or high humidity in the process, the display may be impaired. ▶ Replace display unit as described in Rotating and replacing the display [} 109] Observe the following instructions to ensure that the IR switches are functional: ▶...
Page 145 FC6x0 System configuration and operation Display Status Description Status Description icon icon Upload parameter enabled Download parameter enabled Status icons HART Total health result: good Total health result: warning (only indicated when display total (only indicated when display total health result is active) health result is active) Total health result: bad state Tube Health Check with result: OK...
Page 146: Default Settings
FC6x0 System configuration and operation Default settings Abbreviation Measured quantity or identification NV1, NV2 Net volume flow rate 1, 2 Corrected net volume flow rate Drive current Viscosity 24hours totalizer 1 24hours totalizer 2 24hours totalizer 3 Gas void fraction The following values are only available for the trend display to record data on the microSD card.
Page 147: Setting Date
FC6x0 System configuration and operation Default settings 15.3.2 Setting date 1. Press [SET] switch for 2 seconds to enter [Operation level]. 2. Press [▼] switch until the [Maintenance] menu is selected. 3. Press [SET] switch to enter the [Device setup] menu. 4.
Page 148: Performing Autozero
FC6x0 System configuration and operation Advanced settings 2. Close valves in front of and after the flow meter and stop the flow. 3. Wait until density, temperature and pressure are stabilized. 4. In case of fluids, compare the density displayed on the SITRANS FC with the fluid density in order to rule out gas accumulations in the measuring tube.
Page 149 FC6x0 System configuration and operation Advanced settings It is not possible to release the hardware write-protection via HART, Modbus or other communication software. 1. Switch off power supply. 2. Loosen the locking screw by turning it clockwise with an Allen wrench (size: 3.0). 3.
Page 150: Modbus Hardware Setting
FC6x0 System configuration and operation Advanced settings Factory setting The factory setting of the Burnout mode is High. SW1-1 position Burnout mode Output value if Burnout in mA High 21.6 15.4.2 Modbus hardware setting Switch settings 1. Switch off power supply. 2.
Page 151 FC6x0 System configuration and operation Advanced settings 4. Remove 2 screws from the display. 5. Remove the display from housing by slowly pulling forward. ð The switch can be seen. 6. Set the desired address. 7 6 5 4 Address 7.
Page 152: Profibus Pa Hardware Setting
FC6x0 System configuration and operation Advanced settings Address switch SW (ADDRESS: 7) Device address Position Description Address SW” settings between position 0 and 6 are the Hardware device address. Parameter value setting is the device address. Software Factory setting SW (ADDRESS: 0-6) Hardware address can be set from 1 to 127.
Page 153 FC6x0 System configuration and operation Advanced settings 3. Unscrew display cover from transmitter housing. 4. Remove 2 screws from the display. 5. Remove the display from housing by slowly pulling forward. ð The switch can be seen. A5E52748375-AA, 2023/09 153 / 194...
Page 154: Setting Hardware Write-Protection
FC6x0 System configuration and operation Advanced settings 6. Set the desired address and switch position. Address 7. Push display into housing. 8. Fasten the display with 2 screws. 9. Screw display cover back onto transmitter housing. 10. Tighten the locking screw by turning it counterclockwise with an Allen wrench (size: 3.0).
Page 155: Setting The Bus Address
FC6x0 System configuration and operation Advanced settings 15.4.3.3 Setting the bus address This section describes the procedure to set bus address in the transmitter. Every device in PROFIBUS PA must be assigned a unique address in the range of 0(0x00) to 126(0x7e).
Page 156: Troubleshooting
Function Manual. Possible malfunctions that may occur during commissioning are explained below and remedying them is explained. If you cannot remedy the malfunction using these explanations, contact the Siemens service center. 16.1 Malfunction of operation Tab. 54: Different kinds of malfunction of operation: causes ans remedies...
Page 157: Zero Point Unstable
FC6x0 Troubleshooting Zero point unstable 16.2 Zero point unstable Tab. 55: Different kinds of malfunction for zero point unstable: causes ans remedies Malfunction Possible causes Remedy – Check that the measuring tube in the Measuring tube not sensor is completely filled with fluid. completely filled with Correct installation, see Installation fluid...
Page 158 Faulty temperature – Check temperature measurement circuits measurement TP1 – TP3 of connecting cable. – If corrosion or erosion due to corrosive fluids is suspected, contact Siemens and Corrosion and erosion have density and mass flow recalibrated, if necessary. Contaminated –...
Page 159 FC6x0 Troubleshooting Display deviating Malfunction Possible causes Remedy – Check parameter LRV and URV of the Incorrect parameter corresponding output signal, and correct, Output signal if necessary. deviating from – Check measured quantity output and, if measured quantity Incorrect measured necessary, correct;...
Page 160: Maintenance And Repair
FC6x0 Maintenance and repair 17 Maintenance and repair Applicable country-specific regulations for opening and repairing electrical devices must be observed. Risk of injury and damage to the flow meter due to ignition after sparking, DANGER if there is mechanical impact ▶...
Page 161: Exterior Cleaning
2. Use only cleaning agents that do not corrode the surface of the flow meter. 17.2 Recalibration and calibration service For recalibration, flow meters should be sent to the manufacturer Siemens. For additional information regarding service products and their availability, go to the Siemens homepage or contact a local Siemens sales partner.
Page 162 8. Select a spare part and add it to your watch list. ð The watch list opens. 9. Click "Add to cart of Industry Mall". ð The Siemens Industry Mall opens and you can order your spare part. A5E52748375-AA, 2023/09 162 / 194...
Page 163: Sensor Replacement
FC6x0 Sensor replacement Dismantling of the defective sensor 18 Sensor replacement 18.1 Dismantling of the defective sensor The defective SITRANS FC sensor has to be dismantled. The dismantling flow depends on the flow meter type (compact or remote). The rules according to the Explosion Proof Type Reference Manual apply, especially the chapter “Operation, maintenance and repair”: ▪...
Page 164: Disconnect Remote Type Sensor
FC6x0 Sensor replacement Dismantling of the defective sensor Compact type Fig. 107: Connecting interfaces on sensor compact type Display (if available) Power supply cable entry Communication cable entry Transmitter housing back cover Fig. 108: Connecting interfaces on transmitter housing back cover Terminal box power and I/O Grounding screw for connecting grounding conductor Grounding terminal for external potential equalization (transmitter) Power supply cable entry...
Page 165: Disconnect Compact Type Sensor
FC6x0 Sensor replacement Dismantling of the defective sensor 1. Open the terminal cover. Operating tool 2. Disconnect all cables with the operating tool. 3. Remove the cable gland and cable. 4. Disconnect the sensor potential equalization. 18.1.3 Disconnect compact type sensor Life-threatening injuries from electric shock WARNING ▶...
Page 166: Remove Defective Sensor
FC6x0 Sensor replacement Installation of the Spare sensor Remove transmitter 1. After disconnection the transmitter is removed by unscrewing the four clamping bolts. and disconnect from defective sensor 2. Lift the transmitter housing: 3. Turn the transmitter housing around for disconnection. 4.
Page 167: Parameter Setting Procedure
FC6x0 Sensor replacement Wiring In addition, the sensor specific parameters can be found on: ▪ the calibration certificate of the sensor: ▪ the additional nameplate of the sensor: 16.8 Communication There are two possibilities to configure the transmitter with all relevant settings to ensure possibilities a possibilities proper operation: ▪...
Page 168: Transmitter Replacement
FC6x0 Transmitter replacement Dismantling of the defective transmitter 19 Transmitter replacement 19.1 Dismantling of the defective transmitter The defective SITRANS FC transmitter has to be dismantled. The dismantling flow depends on the flow meter type (compact or remote). The rules according to the Explosion Proof Type Reference Manual apply, especially the chapter “Operation, maintenance and repair”: ▪...
Page 169: Disconnect Remote Type Transmitter
FC6x0 Transmitter replacement Dismantling of the defective transmitter Transmitter housing back cover Fig. 110: Connecting interfaces on transmitter housing back cover Terminal box power and I/O Grounding screw for connecting grounding conductor Power supply cable entry Grounding terminal for external potential equalization 19.1.2 Disconnect remote type transmitter Life-threatening injuries from electric shock WARNING...
Page 170: Remove Defective Transmitter
FC6x0 Transmitter replacement Dismantling of the defective transmitter 7. Disconnect the power cables from L/+ and N/- “power supply connection terminals”. Grounding screw 8. Remove “Grounding screw for connecting grounding conductor”. 9. Remove potential equalization from “Grounding terminal for potential equalization”. 19.1.3 Remove defective transmitter After disconnection the transmitter has to be removed by unscrewing the four clamping bolts.
Page 171 FC6x0 Transmitter replacement Dismantling of the defective transmitter 4. Disconnect the power cables from L/+ and N/- “Power supply connection terminals”. Grounding screw 5. Remove “Grounding screw for connecting grounding conductor”. 6. Remove potential equalization from “Grounding terminal for potential equalization” (if used).
Page 172: Remove Microsd Card (Transmitter With Display Only)
FC6x0 Transmitter replacement Dismantling of the defective transmitter 4. Disconnect all wires from the transmitter with the operating tool. Operating tool 19.1.5 Remove microSD card (transmitter with display only) In case of defective transmitter with display the microSD card can be used to set up the Spare transmitter by following the procedure after removal of transmitter: 1.
Page 173: Installation Of The Spare Transmitter
The factory backup file of the defective transmitter is stored on the microSD in the directory “SIEMENS” attached to the defect SITRANS FC at delivery time. Please make sure to use a differing file name in case of coping to microSD of the Spare...
Page 174: Set Up Process Variable Units
FC6x0 Transmitter replacement Parameter setting Display 7 M E 4 4 x 8 9 10 11 13 14 15 16 1. Position 16: Display Order code Position 16 – possible values Mapping Without display With display Only SITRANS FCT020 transmitters can be delivered without a display (value 1 in order code position 16).
Page 175: Set Up Sensor Relevant And Sensor Specific Parameters
FC6x0 Transmitter replacement Parameter setting 0:g/s 1:g/min 2:g/h 3:kg/s 4:kg/min 5:kg/h 6:kg/d MASS_FLOW MASS flow unit R/W3 7:t/min 8:t/h 9:t/d 10:lb/s 11:lb/min 12:lb/h 13:lb/d 14:User unit For this device, configured for mass flow measurement, all relevant parameters like Qnom, Qmax are saved in kg/h in the factory-backup file. To change the mass flow unit over the display, please execute the following sequence: 1.
Page 176: Set Up Customer Specific Parameters
FC6x0 Transmitter replacement Parameter setting 4. Go to menu item “[Diag/Service] ► [Param bkup/restore] ► [Restore]” 5. Execute “[DL snsr cnst SD]” 6. Check all sensor relevant settings of the exchange transmitter 19.3.5 Set up customer specific parameters The default setting for customer specific parameters is as follows: Tab. 58: Assignment: default setting for customer specific parameters Parameter name: Default Setting:...
Page 177: Set Up System Related Parameters
FC6x0 Transmitter replacement Wiring Mass flow and density accuracy 7 M E 4 4 x 8 9 10 11 13 14 15 16 The parameter [Liquid gas select] has to be set to “Gas” if the mass flow and density accuracy value on position 13 is 9 and position -Z is N1A or N2A.
Page 178: Advanced Functions
FC6x0 Advanced functions Overview 20 Advanced functions 20.1 Overview Transmitter Communication type and I/O Functional SITRANS SITRANS Available type Mandatory I/O scope FCT020 FCT040 PROFIBU HART Modbus Order code E06, E07 (pos. 7 and 4, 9 E14 + Fxx E10 + Fxx + Fxx pos.
Page 179: Concentration And Petroleum Measurement
For questions regarding a specific application, contact the responsible Siemens sales organization. The appropriate density coefficients must be determined prior to using this option and input into the transmitter. To do so, the recommendation is to determine the necessary parameters from density data using DTM in the Pactware program or the calculation tool included in the delivery.
Page 180: Batching Function
Following is a table that lists possible pre-configured concentrations. The desired data sets must be requested by the customer to the Siemens sales organization at the time the order is placed. The customer is responsible to ensure chemical compatibility of the material of the wetted parts with the measured chemicals.
Page 181: Viscosity Function
FC6x0 Advanced functions Viscosity function ▪ one-stage mode with single valve ▪ two-stage mode to control two valves for accurate filling Without using an external flow computer, data related to the process can be transmitted via communication protocol. The error management function allows the user to set alarms and warnings accordingly the application needs.
Page 182: Tube Health Check
FC6x0 Advanced functions Tube Health Check In order to use the function a pressure measurement device (separate order) directly connected to the analog input of the SITRANS FC is necessary. Based on iteration process, SITRANS FC finds the value of viscosity μ that returns a Δp closed to the measured Δp.
Page 183 FC6x0 Advanced functions Measurement of heat quantity Formula for total calorific energy Σ E = Σ (Q × × Δt) Calorific energy Mass flow rate Calorific value variable Δt Time interval between two measurements Other formula based on volume and corrected volume are included in the function and can be set using the display.
Page 184: Approvals And Declarations Of Conformity
Details about all standards that are fulfilled are show in the tables below. Not all options are available in all countries. For details please contact your local Siemens Sales Organization. 21.1 Legal equipment standards and norms...
Page 185: Application And Industry Related Standards
▪ ANSI / NACE-MR0175 / ISO15156-2 ▪ ANSI / NACE-MR0175 / ISO15156-3 NACE ▪ NACE MR0103 For details please see Siemens declaration about NACE conformity A5E53186128. 3-A Sanitary standards in combination with process connection types G2, G6 and J1 EHEDG...
Page 186: Communication Interface Standards
SITRANS FC is registered as a measuring instrument in the following countries: ▪ China Local type approvals Please contact your Siemens representative regarding respective “Pattern Approval Certificate of Measuring Instruments” and for export to these countries. 21.3 Communication interface standards Communication interface standards...
Page 187 FC6x0 Approvals and declarations of conformity Hazardous area Approval type Approval or certificate EU Directive 2014/34/EU ATEX approval: DEKRA 23ATEX0031 X II2G or II2(1)G or II2D or II2(1)D 2813 Applied standards: ATEX ▪ EN 60079-0 ▪ EN 60079-1 ▪ EN 60079-7 ▪...
Page 188 FC6x0 Approvals and declarations of conformity Hazardous area Approval type Approval or certificate Applied standards: ▪ GB/T 3836.1 ▪ GB/T 3836.2 NEPSI (CN) ▪ GB/T 3836.3 ▪ GB/T 3836.4 ▪ GB/T 3836.31 Applied standards: Notice of Ministry of Labor No 2016-54 harmonized with ▪...
Page 189: Dismantling And Disposal
Note the following items before returning the shipment: ▶ Clean flow meter thoroughly. No harmful chemicals must remain in or on the flow meter. Siemens only accepts completely drained and cleaned flow meters. ▶ The form "Decontamination Declaration" must be filled in completely and sent to Siemens along with the flow meter.
Page 190: Specifications
FC6x0 Specifications Lifetime definition 23 Specifications Specifications for sensor and transmitter are listed in the Operating Instructions of the corresponding product family. 23.1 Lifetime definition Lifetime for SITRANS FC: 20 years at ambient temperature ≤ 40 °C. This value is based on stable environmental condition for safety applications, see Safety Instructions A5E52748634.
Page 191: Product Documentation And Support
Additional information on our technical support can be found at Technical Support (http:// www.siemens.com/automation/csi/service). Service & support on In addition to our technical support, Siemens offers comprehensive online services at the Internet Service & Support (http://www.siemens.com/automation/serviceandsupport). A5E52748375-AA, 2023/09 191 / 194...
Page 192 Product documentation and support A.2 Technical support Contact If you have further questions about the device, contact your local Siemens representative at Personal Contact (http://www.automation.siemens.com/partner). To find the contact for your product, go to "all products and branches" and select "Products &...
Page 193 A5E52748375-AA, 2023/09 193 / 194...
Page 194 Published by Siemens AG Digital Industries Process Automation Östliche Rheinbrückenstr. 50 76187 Karlsruhe, Germany Siemens Industry Online Support...

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