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Siemens SITRANS F FUS380 Operating Instructions Manual
Siemens SITRANS F FUS380 Operating Instructions Manual

Siemens SITRANS F FUS380 Operating Instructions Manual

Ultrasonic flowmeters
Table of Contents

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SITRANS F
Ultrasonic Flowmeters
FUS380/FUE380
Operating Instructions
09/2016
A5E00730100-AB
Introduction
Safety notes
Description
Installing/Mounting
Connecting
Commissioning
Functions
Service and maintenance
Troubleshooting/FAQs
Technical data
Parameter lists
Settings
1
2
3
4
5
6
7
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10
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B

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Table of Contents
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Summary of Contents for Siemens SITRANS F FUS380

  • Page 1 Introduction Safety notes Description SITRANS F Installing/Mounting Ultrasonic Flowmeters FUS380/FUE380 Connecting Commissioning Operating Instructions Functions Service and maintenance Troubleshooting/FAQs Technical data Parameter lists Settings 09/2016 A5E00730100-AB...
  • Page 2 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
  • Page 3: Table Of Contents

    Table of contents Introduction..............................7 Preface.............................7 History............................7 Items supplied..........................8 Checking the consignment.......................9 Device identification.........................9 Further Information.........................12 Safety notes..............................13 General safety instructions.....................13 Lithium batteries........................13 Laws and directives........................13 Installation in hazardous area....................14 Certificates..........................14 Description..............................15 Overview..........................15 System components.......................15 Design............................16 Features..........................16 Principle of operation......................18 Installing/Mounting............................21 Flowmeter installation......................21 Sensor installation........................21 4.2.1...
  • Page 4 Table of contents 5.3.2 Transmitter side........................40 5.3.3 Wiring energy calculator......................43 Sealing of FUE380.........................43 5.4.1 User sealing...........................43 5.4.2 Verification sealing.........................44 Commissioning............................45 Operating the local display.....................45 Navigating the menu structure....................46 Start-up routine........................47 Commissioning via PDM......................48 6.4.1 Installing and connecting the IrDA interface adapter.............49 6.4.2 Installing the device driver......................50 6.4.3...
  • Page 5 Table of contents Parameter lists............................85 Identification...........................85 Output............................86 Diagnostic..........................88 Meter setup..........................93 Human Interface........................95 Unit conversion table......................96 Settings...............................97 Factory settings........................97 Factory settings for Modbus communication................98 Ordering of spare parts......................99 Index.................................101 FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 6 Table of contents FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 7: Introduction

    The content reflects the technical status at the time of publishing. Siemens reserves the right to make technical changes in the course of further development.
  • Page 8: Items Supplied

    The device can be delivered as either a compact or a remote system. Compact system ● Sensor SITRANS FUS300 ● Transmitter SITRANS FUS080 or FUE080 ● Siemens Process Instrumentation documentation disk containing certificates, and manuals ● Safety note ● Calibration report Remote system ●...
  • Page 9: Checking The Consignment

    Introduction 1.5 Device identification Note Scope of delivery may vary, depending on version and add-ons. Make sure the scope of delivery and the information on the nameplate correspond to your order and the delivery note. Checking the consignment 1. Check the packaging and the device for visible damage caused by inappropriate handling during shipping.
  • Page 10 Introduction 1.5 Device identification Transmitter system nameplate 123412H123 FDK:087H2503 123412H123 2.03 1.000000 2015 ① System number (order code identifying selected options and system serial number) ② Transmitter production code and serial number ③ Sensor production code and serial number ④ Maximum flow value (qs), Nominal flow value (qp), Minimum flow value (qi) ⑤...
  • Page 11 (PS) at +15 °C 0200 (PS) at +200 °C (TS) 13.5 Bar 0200 Fluid group PED/G2 Siemens A/S, Flow Instruments, 6430 Nordborg, Denmark Made in France ① Sensor production code and serial number ② Dimension (nominal size ordered) ③ Process connections ④...
  • Page 12: Further Information

    Product information on the Internet The Operating Instructions are available on the documentation disk shipped with the device, and on the Internet on the Siemens homepage, where further information on the range of SITRANS F flowmeters may also be found: Product information on the internet (http://www.siemens.com/flow)
  • Page 13: Safety Notes

    Safety notes General safety instructions CAUTION Correct, reliable operation of the product requires proper transport, storage, positioning and assembly as well as careful operation and maintenance. Only qualified personnel should install or operate this instrument. Note Alterations to the product, including opening or improper modifications of the product are not permitted.
  • Page 14: Installation In Hazardous Area

    Material compatibility Siemens Flow Instruments can provide assistance with the selection of wetted sensor parts. However, the full responsibility for the selection rests with the customer and Siemens Flow Instruments can take no responsibility for any failure due to material incompatibility.
  • Page 15: Description

    Description Overview The SITRANS F US ultrasonic flowmeter systems consist of a sensor and a transmitter. This system consists of sensor type FUS300 or SONOKIT and the transmitters type FUS080 or FUE080. The transmitter type FUS080 is for the standard flowmeter series SITRANS FUS380 or SONOKIT series.
  • Page 16: Design

    Description 3.4 Features Design The transmitter type SITRANS FUS080 is designed with fiberglass reinforced polyamide enclosure for remote or compact installation in normal areas. The remote versions are available with up to 30 meter distance from flowmeter to transmitter. When ordered as a compact version in the series FUS380 and FUE380 the transducer cables are pre-mounted at the sensor.
  • Page 17: Functions

    Description 3.4 Features Applications The main application for flowmeters type SITRANS FUS380 / SONOKIT and the type- approved version FUE380 is measurement of water flow in district heating plants, local networks, boiler stations, substations, chiller plants, irrigations plants, and other general water applications.
  • Page 18: Principle Of Operation

    Description 3.5 Principle of operation Principle of operation Physical principle Figure 3-1 Velocity distribution along sound path A sound wave travelling in the same direction as the liquid flow arrives at point B from point A in a shorter time than the sound wave travelling against the flow direction (from point B to A). The difference in sound transit time indicates the flow velocity in the pipe.
  • Page 19 Description 3.5 Principle of operation Figure 3-2 Measuring principle The ultrasonic signal is sent directly between the transducers. The advantage gained by sending signals from point to point is an extremely good signal strength. FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 20 Description 3.5 Principle of operation FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 21: Installing/Mounting

    Installing/Mounting Flowmeter installation The flowmeter installation is done in two steps: 1. Sensor installation 2. Transmitter installation Environment SITRANS F flowmeters are suitable for indoor and outdoor installations. ● Make sure that temperature and ambient specifications indicated on the device type plate/ label are not exceeded.
  • Page 22 Installing/Mounting 4.2 Sensor installation It is also important to centre the flowmeter in relation to flanges and gaskets. Make sure that the flowmeter is positioned as low as possible to prevent air from being trapped in the flowmeter at the transducers. Find a position on the pipeline where the inlet pipe tothe flowmeter has a straight length as specified below.
  • Page 23 Installing/Mounting 4.2 Sensor installation Triple bend 3 x 90° bends in two planes L2: Min. 20 x pipe diameter L1: 3 x pipe diameter Valves and pumps Valves L2: Min. 10 x pipe diameter, fully open valve L1: 3 x pipe diameter Partially opened valves L2: Min.
  • Page 24 Installing/Mounting 4.2 Sensor installation L2: Min. 20 x pipe diameter L1: 3 x pipe diameter Orienting the sensor Horizontal orientation: sensors with terminal box must be mounted with the terminal box in upwards or downwards position. Sensor without terminal box (remote versions) must be mounted with the transducers in the vertical plane.
  • Page 25 Avoid installation at a point where there is a free outlet after the flowmeter. The flowmeter pipe section may be installed in either a horizontal or vertical position. Note To obtain maximum battery lifetime of the Lithium Thionyl Chloride battery pack, Siemens recommends installing the flowmeter transmitter in an upright position. FUS380/FUE380...
  • Page 26: Reduction

    4.2.3 Insulation Siemens always recommends insulation of the sensor in both the compact and the remote versions. This recommendation applies to both battery-powered and mains-powered versions. The insulation will prevent heat transfer to the transmitter (compact versions) or terminal box (remote versions).
  • Page 27: Transmitter Installation (Compact/Remote Versions)

    Installing/Mounting 4.3 Transmitter installation (compact/remote versions) For media temperatures above 120 °C (248 °F) only remote installation is allowed. Temperatur specifications for non-insulated sensors FUS 380 FUE 380 ① Compact and remote versions ② Remote versions only Temperatur specifications for insulated sensors FUS 380 FUE 380 ①...
  • Page 28: Installation Wall Mounting Kit (Remote Transmitter)

    Installing/Mounting 4.3 Transmitter installation (compact/remote versions) There are two mounting versions of the transmitter (as shown in figures below): ● remote transmitter ● compact transmitter Note The matched paired transmitter and sensor shall be mounted together. At installation, please check that the system nameplates of transmitter and sensor have the same system serial number.
  • Page 29: Battery-Powered Transmitter

    20 Hz is approximately 4.2 years. Siemens recommends replacing batteries after maximum 6 years. For the replacement, see Battery replacement (Page 63) and Start-up routine (Page 47). Every time a battery plug is reconnected, the unit runs a start-up routine, see Start-up routine (Page 47).
  • Page 30 Installing/Mounting 4.3 Transmitter installation (compact/remote versions) FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 31: Connecting

    Connecting SITRANS FUS380 and FUE380 is delivered in one of the three versions: ● Battery-powered only ● Mains-powered ● Mains-powered with battery back-up Determine the transmitter power source type by reading the label or via the product code. NOTICE Verification sealing SITRANS FUE380 systems are protected by a verification sealing.
  • Page 32: Compact System

    Connecting 5.2 Compact system Compact system Connect the compact flowmeter using the following steps. Connecting battery (battery-powered versions and mains-powered versions with back-up battery) Plug in male battery plug. Ensure that the wire is inserted into the small channel leading from plug to battery.
  • Page 33 Connecting 5.2 Compact system 1. Replace blind plug with cable gland. 2. Push power supply cable through open gland. 3. Connect power supply to L1, N and protective earth (PE) and tighten cable strap (C). 4. Tighten cable gland for power supply cable (approx. 20 Nm). Connecting output signal cable(s) If no output signals are needed, proceed with "Finishing connection".
  • Page 34 Connecting 5.2 Compact system 3. Connect output cable(s). 4. Tighten cable gland for output cable(s) (approx. 20 Nm). Note Cables with voltage Keep the output signal cable(s) separated from cables with voltages > 60 V. Note Ingress protection To guarantee the IP67 (NEMA 4X/6) degree of protection, use cables with the required specifications.
  • Page 35: Remote System

    Connecting 5.3 Remote system Finishing connection Mount the transmitter. Note Grounding To ensure identical potential for sensor and transmitter, a direct grounding of transmitter and sensor is recommended. Remote system Connect the remote flowmeter using the following steps. 5.3.1 Sensor side Preparing connection Remove the four transducer protection cups.
  • Page 36 Connecting 5.3 Remote system NOTICE Verification sealing For SITRANS FUE380 systems, the cable length setting is protected by a verification sealing. The verification sealing must only be broken by the user with the acceptance of the local authorities. Connecting transducer cables 1.
  • Page 37 Connecting 5.3 Remote system 3. Smoothly push the cables one by one from underneath the base through the glands and adjust all cable ends approximately 100 mm from the upper frame of base. Note Make sure that the right cable gland entries are used: ●...
  • Page 38 Connecting 5.3 Remote system Figure 5-1 Wiring diagram, base of connection board FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 39 Connecting 5.3 Remote system 4. Mount the connection board back in wall mounting kit and connect the grounding wire plug to the grounding terminal (PE) on the PCB. 5. Tighten both transducer cable glands to ensure they are firmly sealed (recommended torque: approx.
  • Page 40: Transmitter Side

    Connecting 5.3 Remote system Note Bending transducer cables Make sure that the transducer cables are not overbent. Minimum cable bend radius is 50 mm. 5.3.2 Transmitter side Connecting battery (battery-powered versions and mains-powered versions with back-up battery) Plug in male battery plug. Ensure that the wire is inserted into the small channel leading from plug to battery.
  • Page 41 Connecting 5.3 Remote system WARNING Wire insulation The insulation between the connected mains supply and the low voltage supply for the flowmeter must be rated with at least double or reinforced insulation at mains voltage. For field wiring installation: Ensure that the National Installation Code of the country in which the flowmeters are installed is met.
  • Page 42 Connecting 5.3 Remote system 3. Connect output cable(s). 4. Tighten cable gland for output cable(s) (approx. 20 Nm). Note Cables with voltage Keep the output signal cable(s) separated from cables with voltages > 60 V. Note Ingress protection To guarantee the IP67 (NEMA 4X/6) degree of protection, use cables with the required specifications.
  • Page 43: Wiring Energy Calculator

    Connecting 5.4 Sealing of FUE380 Note Grounding To ensure identical potential for sensor and transmitter, a direct grounding of transmitter and sensor is recommended. 5.3.3 Wiring energy calculator An energy calculator is typically connected via the pulse output A (terminals 56 and 57) of the transmitter.
  • Page 44: Verification Sealing

    Connecting 5.4 Sealing of FUE380 5.4.2 Verification sealing These illustrations show how the device is verification sealed. On sensor body In transmitter bottom Under transmitter display frame Note For type-approved and verified FUE380 flowmeters The HW key is located behind the display and is thereby protected by the display sealing. The verification sealing may only be broken with the acceptance of the local authorities.
  • Page 45: Commissioning

    Commissioning Commissioning the device: Resetting the battery lifetime, see Start-up routine (Page 47). It is recommended to read the basic guide to the local display and the menu structure in Operating the local display (Page 45) and Commissioning via PDM (Page 48) before commissioning the device.
  • Page 46: Navigating The Menu Structure

    Commissioning 6.2 Navigating the menu structure Battery status There are two symbols for battery charge status: ● "Battery full" indicates battery charge above the warning level (6-year hour counter). ● "Battery low" indicates battery charge below the warning level and that the battery should be replaced.
  • Page 47: Start-Up Routine

    Commissioning 6.3 Start-up routine Menu Parameter Display example Comments Menu 4 Alarm codes Each code refers to a specific alarm. Menu 5 Display test Check of all segments. Dis‐ play toggles between all seg‐ ments on/off. Start-up routine 1. Power-up device. 2.
  • Page 48: Commissioning Via Pdm

    Commissioning 6.4 Commissioning via PDM Commissioning via PDM SIMATIC PDM (Process Device Manager) is a software package for configuring, parameterizing, commissioning, and maintaining field devices (for example transducers). Among other features, SIMATIC PDM contains a simple process for monitoring process values, interrupts and status/diagnosis signals of a field device.
  • Page 49: Installing And Connecting The Irda Interface Adapter

    Commissioning 6.4 Commissioning via PDM 6.4.1 Installing and connecting the IrDA interface adapter Note IrDA driver installation For installation of the IrDA driver, refer to the instructions delivered with the adapter. 1. Connect IrDA adapter to PC 2. Mount adapter on FUS080 When the IrDA adapter is connected correctly, a small icon appears on the taskbar of your PC.
  • Page 50: Installing The Device Driver

    Installing the device driver Install the PDM device driver as follows: 1. Close SIMATIC PDM (if already open). 2. Open Device Integration Manager from [Start → All Programs → Siemens Automation → SIMATIC → SIMATIC PDM]. FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 51 Commissioning 6.4 Commissioning via PDM 3. Click on [I accept the License Agreement]. 4. Click on depending on whether the source is zipped or not. 5. Browse to the folder where the source files are located and click on the folder. 6.
  • Page 52: Adding The Device To The Network

    6. Right click on MODBUS network and select [Insert New Object → Object] 7. Click on [Assign Device Type] and assign the MODBUS device to SITRANS FUS/E080 [Devices → MODBUS → Sensors → Flow → Ultrasonic → SIEMENS AG → SITRANS FUS/ E080] and click [OK].
  • Page 53: Configuring The Device

    Commissioning 6.4 Commissioning via PDM 6.4.4 Configuring the device In the following it is described how to configure the device by defining all sensor specific parameters. Note Measurement accuracy A correct flowmeter installation is required to ensure optimum measurement accuracy. Read all parameters Before any parameterization is done it is necessary to read all parameters from the device into the offline table of SIMATIC PDM.
  • Page 54: Optimizing The System

    Commissioning 6.4 Commissioning via PDM Load the parameters to the device by clicking on . Check the option [Load changed parameters only] to speed up the communication and avoid errors. For overview of the parameters see Parameter lists. 6.4.5 Optimizing the system After storage of the settings, the parameters can be set according to use.
  • Page 55 Commissioning 6.4 Commissioning via PDM Setting Pulse Output and Maximum Flow (Q ) via SIMATIC PDM 1. In SIMATIC PDM navigate to menu [Device → Pulse guide]. The "guide" calculates the pulse-frequency at the max flow condition and tells you how close you are on over-speeding the pulse-output.
  • Page 56: Output A, Terminals 56/57

    Commissioning 6.4 Commissioning via PDM Note HW key protected parameters For type-approved and verified FUE380 flowmeter the settings are HW key protected and can be only read, but not changed via PDM. The HW key is located behind the display and is thereby protected by the display sealing.
  • Page 57: Output B, Terminals 66/67

    Commissioning 6.4 Commissioning via PDM 6.4.7 Output B, terminals 66/67: The output B setting must be selected according to application specific requirements (default setting = Alarm). Preset to alarm indication: Example: If track 1 is not measuring, a appears on display. Failure code F1 appears in display menu 4, and relay output terminals switch to Off.
  • Page 58 Commissioning 6.4 Commissioning via PDM View process values The system is now ready for normal operation. 1. Select [View → Process Variables] to see all measured process values. 2. Verify that the fields show the expected values. Note Measured Track Values The Measured Track Values should show stable values within the normal range, i.e.
  • Page 59: Functions

    Functions Unit selection The device is delivered with totalizer and flow rate units in m and m /h, respectively, as standard. However, it is possible to manually configure the device to operate with other units. Changing the units Go via PDM menu [Device → Unit guide (offline)]. Select the new unit from the list and click on [Apply Change of Units].
  • Page 60: Number Of Decimal Digits

    Functions 7.4 Hardware key Number of decimal digits For the display values (totalizers in menu 1 and 2 and flow in menu 3) Auto adjust decimal point is the default setting. This means that the number of digits after the decimal point automatically will be reduced with increasing number of digits before the decimal point.
  • Page 61 Functions 7.4 Hardware key Figure 7-3 HW key behind the display (placed on the right pins) Note Important In this mode, with the HW key installed, many parameters in PDM are opened. If these parameters are changed, it can seriously affect the meter accuracy and operation. Be careful when writing new parameters.
  • Page 62 Functions 7.4 Hardware key FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 63: Service And Maintenance

    ● Seal integrity of the process connections, cable entries, and cover screws ● Reliability of power supply, lightning protection, and grounds NOTICE Repair and service must be carried out by Siemens authorized personnel only. Note Siemens defines flow sensors as non-repairable products.
  • Page 64 Service and maintenance 8.2 Battery replacement Battery lifetime The battery lifetime depends on the frequency of mains supply failure. Under normal temperature and working conditions a battery can have an operation lifetime of up to 6 years. 1. Unscrew battery cover and remove old battery pack. 2.
  • Page 65 Service and maintenance 8.2 Battery replacement 3. Connect battery. Ensure that wire is inserted into small channel leading from plug to battery. 4. Remount battery cover. Note Every time a battery is fitted and connected, the unit runs a start-up routine. A battery replacement does not influence the transmitter settings and accumulated process values.
  • Page 66: Technical Support

    ● Information about field service, repairs, spare parts and lots more under Services. Additional Support If you have additional questions about the device, please contact your local Siemens representative and offices at: FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 67: Application-Specific Data - Qualification Certificate

    Service and maintenance 8.4 Application-specific data - Qualification certificate Local contact person (http://www.automation.siemens.com/partner) Application-specific data - Qualification certificate In case the device needs service, the technical support team will typically request information about the application and the flowmeter. ● Prepare a sketch of the installation/application.
  • Page 68 Service and maintenance 8.4 Application-specific data - Qualification certificate 1. In PDM click on [Device → Qualification Certificate]. 2. Click on [Generate qualification certificate]. 3. Click on [Close]. FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 69 Service and maintenance 8.4 Application-specific data - Qualification certificate The Qualification Certificate is now available via Microsoft Word. Add the required application information in the document (see Figure 8-1 Qualification certificate (page 1) (Page 69), Figure 8-2 Qualification certificate (page 2) (Page 70) and Figure 8-3 Qualification certificate (page 3) (Page 71)).
  • Page 70 Service and maintenance 8.4 Application-specific data - Qualification certificate Figure 8-2 Qualification certificate (page 2) FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 71: Return Procedures

    Service and maintenance 8.5 Return procedures Figure 8-3 Qualification certificate (page 3) Return procedures Enclose the delivery note, the cover note for return delivery together with the declaration of decontamination form on the outside of the package in a well-fastened clear document pouch. FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 72: Battery Disposal

    In accordance with EU directive 2006/66/EC, batteries are not to be disposed of via municipal waste disposal services. Waste industrial batteries from our products are accepted back by Siemens and by the local Siemens representatives. Please follow the return procedures of Siemens or talk to your local Siemens partner (http://www.automation.siemens.com/partner).
  • Page 73: Troubleshooting/Faqs

    Path 2 (lower path) not measuring No water in lower part of pipe and/or cables or transducer 2A or 2B defective Internal software failure Contact Siemens customer support Internal software failure Contact Siemens customer support Power supply warning ● Mains power fails (only mains-powered versions with battery back-up) ●...
  • Page 74: Diagnosing With Pdm

    Troubleshooting/FAQs 9.2 Diagnosing with PDM Error Error Remedy/Cause code Flow exceeds preset flow rate in unit Flowrate too high (max. speed 10 m/s) Pulse output A overflow Pulse output exceeds 100 Hz or 50% duty cycle Pulse output B overflow Pulse output exceeds 100 Hz or 50% duty cycle Datalogger warning/alarm Datalogger warning monitors whether actual con‐...
  • Page 75 Troubleshooting/FAQs 9.2 Diagnosing with PDM Diagnosing with PDM Access the device status via [Diagnostic → Device Status]. Online process values are available under menu [View → Display]. The Measured Track Values tab shows the gain steps and the flow velocities for path 1 and path 2.
  • Page 76 Troubleshooting/FAQs 9.2 Diagnosing with PDM ① Gain step ② Gain step max ③ Gain step min ④ Transducer distance [mm] Figure 9-2 SITRANS FUS080 Gain step vs. Transducer distance Gain step The graph above shows which gain step to expect for a particular transducer distance (face to face distance).
  • Page 77 Troubleshooting/FAQs 9.2 Diagnosing with PDM In case of angular misalignment between transducer faces, the gain step will increase as shown in the table below: Angular misalignment Gain step increase 2° 3° 4° 5° Flow velocity error conditions Condition Cause Δ flow velocity values (between path 1 and path 2) ●...
  • Page 78 Troubleshooting/FAQs 9.2 Diagnosing with PDM FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 79: Technical Data

    Technical data 10.1 FUS380 and FUE380 systems Table 10-1 Technical data SITRANS FUS380 and FUE380 Description Specification Enclosure design/material Fiber glass reinforced polyamide in light-gray color Enclosure IP67 according to EN 60529 and DIN 40050 (NEMA 4X/6) Wall mounting kit Terminal box made of fiber glass reinforced polyamide in light-gray color with 2 + 2 cable glands (output, supply and transducer cables) and a stainless steel bracket for wall or pipe mounting...
  • Page 80: Battery

    Technical data 10.2 Battery Description Specification Outputs (standard) ● Two passive, galvanically isolated open drain-mos outputs (output A and B) ● Max. ±35 V, 50 mA ● Output A: Preset to pulse output for forward flow (default: 100 l/ pulse) ●...
  • Page 81: Sensor For Fus380 And Fue380

    Technical data 10.3 Sensor for FUS380 and FUE380 Every 5 minutes the advanced power management system of the transmitter calculates the battery consumption and the remaining battery operation time. For battery versions, only the internal battery pack has a nominal capacity of 34 Ah giving a typical operation time up to 6 years in a revenue application.
  • Page 82: Dimensional Drawings For Fus380 And Fue380

    Technical data 10.5 Sensor dimensions for FUS380 and FUE 380 Description Specification Pipe materials ● DN 100 to 1200: Carbon Steel EN 1.0345 / p235 GH, painted in light gray ● DN 50 to DN 80: Die-cast bronze G-CuAn 10/W2.1050.01 (EN1982) Transducer design ●...
  • Page 83 Technical data 10.5 Sensor dimensions for FUS380 and FUE 380 Size PN 16 PN 25 PN 40 Weight Weight Weight Material Lift 350 +0/-2 Bronze 350 +0/-2 350 +0/-2 Steel 350 +0/-2 350 +0/-2 Steel 500 +0/-3 500 +0/-3 Steel 500 +0/-3 500 +0/-3 500 +0/-3...
  • Page 84 Technical data 10.5 Sensor dimensions for FUS380 and FUE 380 Size PN 16 PN 25 PN 40 Weight Weight Weight Material Lift inch inch inch inch inch inch 23.62 23.62 Steel 20.48 13.90 +0/-0.12 +0/-0.12 24.61 24.61 Steel 22.45 15.91 +0/-0.12 +0/-0.12 29.53...
  • Page 85: Parameter Lists

    Parameter lists The following tables show the various parameters available via PDM. The parameters are accessible at three different levels: ● Read: Maintenance level ● Read/Write (R/W): Specialist level (write access is only permitted after entering the user password; default password is 1000) ●...
  • Page 86: Output

    PDM. 40129 Maximum flow Qmax Maximum flow 40008 Vendor name Siemens A/ Read Siemens A/S Flow Instruments, Den‐ mark 40001 Module type Product de‐ 0 to 14 Read Type of flowmeter pendent 40002 Software version 2.03...
  • Page 87 Parameter lists A.2 Output Modbus Parameter Default Value range Ac‐ Description Address value cess level 43001 106 Flow rate Read Actual flow value 43136 107 Relative flow rate Read Actual flow value in relation to Qmax 43035 108 Actual velocity for path 1 Read The actual flow velocity for path 1 in m/s (SI-unit)
  • Page 88: Diagnostic

    Parameter lists A.3 Diagnostic Modbus Parameter Default Value range Ac‐ Description Address value cess level Communication For editing the communication settings, use PDM device menu "Communication Setting" 40833 591 Device Communication Ad‐ 1 to 247 Read Meter has default address value 1 dress with selectable address up to 247 40834...
  • Page 89 Parameter lists A.3 Diagnostic Modbus Parameter Default Value Access Description Address value range level 40808 Operating hours since 3.4E+38 h Read Total operation hours since last power power up 40807 Numbers of power up 0 to 65535 Read Total number of power-ups since first power-up.
  • Page 90 Parameter lists A.3 Diagnostic Modbus Parameter Default Value Access Description Address value range level 40265 Path 2 fault hours e.g. 36 h Read; Read Total hours fault active. Valid only for 2-path solutions and if alarm is enabled 40266 Path 2 fault counter e.g.
  • Page 91 Parameter lists A.3 Diagnostic Modbus Parameter Default Value Access Description Address value range level 40294 Low power fault disap‐ Last fault dd-mm- Read Last time the fault disappeared. pears disappear yyyy, Valid only if alarm is enabled date hh:mm:ss Flow overflow alarm out‐ No, Yes Select "Yes"...
  • Page 92 Parameter lists A.3 Diagnostic Modbus Parameter Default Value Access Description Address value range level 40323 Consumption fault ap‐ Last fault dd-mm- Read First time the fault appeared. pears appear yyyy, Valid only if alarm is enabled date hh:mm:ss 40326 Consumption fault disap‐ Last fault dd-mm- Read...
  • Page 93: Meter Setup

    Parameter lists A.4 Meter setup Modbus Parameter Default Value Access Description Address value range level 40808 Operating hours since 1105 h 3.4 E+38 Read Total operation hours since first power power up 40807 Numbers of power up e.g. 4 0 to 65535 Read Total number of power-ups since first power-up.
  • Page 94 Parameter lists A.4 Meter setup Modbus Parameter Default Value Access Description Address value range level 40151 Adjustment Factor - 2 to 2 Meter correction factor for customer ad‐ justment of the calculated flow value. Can be used at installations where a reference meter is used to get reference to the true flow rate 40196...
  • Page 95: Human Interface

    Parameter lists A.5 Human Interface Modbus Parameter Default Value Access Description Address value range level 40147 Sample frequency HW key The frequency at which the flow is measured 40167 Rn for path 1 Product 3.4E+38 Read R-factor for path 1. dependent For FUS080/SONOKIT (retrofit) instal‐...
  • Page 96: Unit Conversion Table

    Parameter lists A.6 Unit conversion table Unit conversion table The following tables show examples of totalizer and flow rate units. More are available via SIMATIC PDM tool Table A-6 Totalizer units Unit Correction factor Default *100 0.01 Gallon (US) 264.1721 G*100 (100*Gallon) 2.641721 G*1000 (1000*Gallon)
  • Page 97: Settings

    Settings Factory settings The transmitter is configured at the factory according to the order specification. For the calibration / configuration of the flowmeter the application specific pipe dimensions and the specific transducer locations can require an update (for example transmitter is used with the SONOKIT sensor system).
  • Page 98: Factory Settings For Modbus Communication

    Settings B.2 Factory settings for Modbus communication Parameter Factory settings Possible settings Flow unit factor 3600 (for flow unit m Auto set from unit guide Totalizer volume unit factor Auto set from unit guide Flow unit text Auto set from unit guide, but only m can be shown on display Totalizer unit text Auto set from unit guide, but only m...
  • Page 99: Ordering Of Spare Parts

    Settings B.3 Ordering of spare parts Ordering of spare parts Ensure that your ordering data is not outdated. The latest ordering data is always available on the Internet: Process instrumentation catalog (http://www.siemens.com/ processinstrumentation/catalogs) FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 100 Settings B.3 Ordering of spare parts FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...
  • Page 101: Index

    Index Installation Indoor/outdoor, 21 Pipe mounting, 28 Wall mounting, 28 Battery indicator Internet Reset, 47 Contact person, 12, 66 Battery specifications, 80 Flow documentation, 12 Support, 66 Introduction, 7 Commissioning with PDM, 48 Compliance, 13 Laws and directives, 13 Conductor terminal, 32, 40 Lithium batteries Contact person, 12 Return, 72...
  • Page 102 Index Safety, 13 Instrument safety standards, 14 Scope of delivery, 9 Service, 63, 66 Support, 66 Temperature specifications, 21 Transit time, 18 View process values, 58 Wire insulation, 32, 41 FUS380/FUE380 Operating Instructions, 09/2016, A5E00730100-AB...

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