1. Manuals
  2. Brands
  3. Endress+Hauser Manuals
  4. Measuring Instruments
  5. Proline Prosonic Flow 93
  6. Operating instructions manual

Endress+Hauser PROline prosonic flow 93 Operating Instructions Manual

Profibus-dp/-pa ultrasonic flow measuring system
Hide thumbs Also See for PROline prosonic flow 93:
Table of Contents

Advertisement

Quick Links

Download this manual
BA 076D/06/en/12.02
50102133
Valid as of software version:
V 1.05.XX (amplifier)
V 2.02.XX (communication)
PROline prosonic flow 93
PROFIBUS-DP/-PA
Ultrasonic Flow Measuring
System
Operating Instructions

Advertisement

Table of Contents
loading

Related Manuals for Endress+Hauser PROline prosonic flow 93

Summary of Contents for Endress+Hauser PROline prosonic flow 93

  • Page 1 PROline prosonic flow 93 BA 076D/06/en/12.02 50102133 PROFIBUS-DP/-PA Valid as of software version: V 1.05.XX (amplifier) V 2.02.XX (communication) Ultrasonic Flow Measuring System Operating Instructions...
  • Page 2 Brief operating instructions PROline Prosonic Flow 93 PROFIBUS-DP/-PA Brief operating instructions These brief operating instructions explain how to configure your measuring device quickly and easily: Safety instructions Page 7 Please read the safety instructions through carefully. ▼ Connecting the transmitter Page 48 Install the sensors using the transmitter software.
  • Page 3 PROline Prosonic Flow 93 PROFIBUS-DP/-PA Brief operating instructions ▼ “SENSOR INSTALLATION” Quick Setup Page 82, 86 Measuring devices with a local display: Use this “Quick Setup” ( Page 78) to determine the data required for sensor installation such as sensor distance (1), wire length, pipe materials, sound velocity in liquids, etc.
  • Page 4 Brief operating instructions PROline Prosonic Flow 93 PROFIBUS-DP/-PA Customer-specific configuration Complex measurement tasks require the configuration of additional functions which you can individually select, set and adapt to your process conditions 0000 0001 0002 0003 0009 … using the function matrix. There are two options open:...

  • Page 5: Table Of Contents

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA Table of Contents Table of Contents Safety instructions ....7 3.3.11 Installing the wall thickness measuring sensors DDU 19 (accessories) ..37 Designated use .
  • Page 6 Table of Contents PROline Prosonic Flow 93 PROFIBUS-DP/-PA System integration ..... 96 6.4.1 Cyclic data exchange ... . 99 6.4.2...

  • Page 7: Safety Instructions

    Strict compliance with the instructions in these Operating Instructions is mandatory. x Endress+Hauser will be happy to assist in clarifying the chemical resistance properties of parts wetted by special fluids, including fluids used for cleaning. However the user is responsible for the choice of fluid-wetted materials as regards their in-process resistance to corrosion.

  • Page 8: Return

    Endress+Hauser: x Always, enclose a fully completed “Declaration of Contamination” form. Only then can Endress+Hauser transport, examine and repair a returned device. x Enclose special handling instructions if necessary, for example a safety data sheet as per EN 91/155/EEC.

  • Page 9: Identification

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 2 Identification Identification Device designation The “Prosonic Flow 93” flow measuring system consists of the following components: x Prosonic Flow 93 transmitter x Prosonic Flow W and U and Prosonic Flow P sensors 2.1.1 Nameplate of the transmitter...

  • Page 10: Nameplate Of The Sensor

    2 Identification PROline Prosonic Flow 93 PROFIBUS-DP/-PA 2.1.2 Nameplate of the sensor ENDRESS+HAUSER PROSONIC FLOW P XXXXX-XXXXXXXXXXXX Order Code: XA059D/ 12345678901 RY 2001 Ser.No.: 06/a3/..P-CL-1F-L-B Type: DN100-DN4000 -40°C (-40°F) ... +80°C (+175°F) OPEN CLOSE IP68 0032 NEMA TYPE 6P...

  • Page 11: Nameplate Of The Prosonic Flow U Sensors

    Laboratory Procedures” and with the EMC requirements of EN 61326/A1. The measuring system described in these Operating Instructions thus complies with the statutory requirements of the EC Directives. Endress+Hauser confirms successful testing of the device by affixing the CE mark.

  • Page 12: Registered Trademarks

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA Registered trademarks ® SilGel Registered trademark of Wacker-Chemie GmbH, Munich, D ® PROFIBUS Registered trademark of PROFIBUS Nutzerorganisation e.V., Karlsruhe, D T-DAT™, F-CHIP™, FieldTool™, FieldCheck™, Applicator™ Registered or registration-pending trademarks of Endress+Hauser Flowtec AG, Reinach, CH Endress+Hauser...

  • Page 13: Installation

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Installation Incoming acceptance, transport and storage 3.1.1 Incoming acceptance Note the following points: x Check the packaging and the contents for damage. x Check the shipment, make sure nothing is missing and that the scope of supply matches your order.

  • Page 14: Installation Conditions

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Installation conditions 3.2.1 Dimensions The dimensions and the fitting lengths of the measuring sensors and the transmitter are on Page 152 ff. 3.2.2 Mounting location Correct measuring is possible only if the pipe is full. Avoid the following mounting locations: x Do not install at the highest point in the run.

  • Page 15: Orientation

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation 3.2.3 Orientation Vertical orientation Recommended orientation with upward direction of flow (View 1). Entrained solids sink down. Gases rise away from the measuring sensor when fluid is not flowing. The piping can be completely drained and protected against build-up.

  • Page 16: Inlet And Outlet Runs (Insertion Version)

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.2.5 Inlet and outlet runs (Insertion version) If possible, install the sensor well clear of assemblies such as valves, T-pieces, elbows, etc. If several flow obstructions are installed, the longest inlet or outlet run must be con- sidered.

  • Page 17: Installation Instructions

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Installation instructions 3.3.1 Installing tensioning bands (Clamp On) For W / P sensors DN 50...200 Push one of the supplied threaded studs on the tensioning band (or both studs in the case of sound velocity measurement).
  • Page 18 3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Fig. 10: Tensioning band installation for DN 250...4000 For U sensors - DN 15...100 The procedure for installing the tensioning bands for the U sensor is explained on Page 25 in the "Installing the sensor Prosonic Flow U" Section.

  • Page 19: Use Of Weld Studs For W / P Sensors

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation 3.3.2 Use of weld studs for W / P sensors Weld studs can be used instead of tensioning bands for the following types of installation of the W / P Clamp On measuring sensors.

  • Page 20: Installing The Measuring Sensors Prosonic Flow P

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.3 Installing the measuring sensors Prosonic Flow P 2 or 4 traverses version Fix a tensioning band for small or large nominal diameters as described on Page 17. Fix the sensor holder to the pipe using the threaded stud. Tighten the locking nut using a spanner (AF 13).
  • Page 21 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Coat the contact surface of the sensors with an even (approx. 1 mm thick) layer of coupling fluid (from the centre to the groove, see Page 117). Then carefully insert the sensor into the sensor holder. Press the sensor cover onto ▲...

  • Page 22: Installing The Measuring Sensors Prosonic Flow P/W (Clamp On)

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.4 Installing the measuring sensors Prosonic Flow P/W (Clamp On) 1 or 3 traverses version Fix a tensioning band for small or large nominal diameters as described on Page 17. Install the second tensioning band (threaded stud on the opposite side). The second tensioning band must still be moveable.
  • Page 23 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Push both of the sensor holders onto the pipe over the threaded studs and tighten the locking nuts using a spanner (AF 13). Fig. 16: Installing the sensor holders Coat the contact surface of the sensors with an even (approx. 1 mm thick) layer of coupling fluid (from the centre to the groove, see Page 117).

  • Page 24: Installing The Measuring Sensors Prosonic Flow W (Clamp On)

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.5 Installing the measuring sensors Prosonic Flow W (Clamp On) 2 or 4 traverses version Fix a tensioning band for small or large nominal diameters as described on Page 17. Do not fasten the second tensioning band. You must still be able to move the second tensioning band along the pipe.

  • Page 25: Installing The Measuring Sensors Prosonic Flow U (Clamp On)

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation 3.3.6 Installing the measuring sensors Prosonic Flow U (Clamp On) In the case of pipes in the DN 15…32 nominal diameter range, use the retaining vee (a) supplied to reinforce the pipe. This retaining vee is only included in the DN 15….40 installation set (see Accessories on Page 119).
  • Page 26 3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Set the sensor distance on the sensor assembly by moving the sensors (c) along the assembly frame and tightening the sensor fixing nuts (d). Preferably, the sensor position is set symmetrically to the rail centre.
  • Page 27 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Push down the screws (h) of tensioning band lock and tighten with a screwdriver so the bands cannot slip. If so desired, shorten the tensioning band then to the desired length. " Caution! x Danger of injury! Avoid sharp edges when shortening the tensioning band.

  • Page 28: Explanation Of Terms For Prosonic Flow W (Insertion Version)

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.7 Explanation of terms for Prosonic Flow W (Insertion version) The graphic below provides you with an overview of the terms used when installing Prosonic Flow W (Insertion version). α Fig. 25: Explanation of terms...

  • Page 29: Installing The Measuring Sensors Prosonic Flow W (Single Path Insertion Version)

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation 3.3.8 Installing the measuring sensors Prosonic Flow W (single path Insertion version) Determine the installation area (e) on the pipe section: – Installation location: Page 14 – Inlet/outlet run: Page 16 – Space required by the measuring point: approx. 1 x pipe diameter.
  • Page 30 3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Draw the sensor distance (a) from the middle line starting from the first drillhole. Project the middle line to the back of the pipe and draw it on. Fig. 28: Installing the measuring sensors, steps 5 and 6 Mark the drillhole on the middle line on the back of the pipe.
  • Page 31 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Insert the sensor holders into the two drillholes. To adjust the weld-in depth, both sensor holders can be fixed with the special tool for insertion depth regulation and then aligned using the tie rod. The sensor holder must be flush with the inner side of the pipe.

  • Page 32: Installing The Measuring Sensors Prosonic Flow W (Dual Path Insertion Version)

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.9 Installing the measuring sensors Prosonic Flow W (dual path Insertion version) Determine the installation area (e) on the pipe section: – Installation location: Page 14 – Inlet/outlet run: Page 16 – Space required by the measuring point: approx. 1 x pipe diameter.
  • Page 33 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation You can correct the middle line with the arc length. Fig. 34: Installing the dual path measuring sensors, steps 5 and 6 Project the corrected middle line onto the other side of the pipe and draw this on (half pipe circumference).
  • Page 34 3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 11. Insert the sensor holders into the first two drillholes. To adjust the weld-in depth, both sensor holders can be fixed with the special tool for insertion depth regulation (optional) and then aligned using the tie rod. The sensor holder must be flush with the inner side of the pipe.
  • Page 35 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Fig. 39: Installing the dual path measuring sensors, step 13 14. Then screw the sensors into the sensor holders by hand. If you use a tool, the maximum torque permissible is 30 Nm.

  • Page 36: Installing The Sound Velocity Measuring

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.10 Installing the sound velocity measuring sensors DDU 18 (accessories) Fix a tensioning band for small or large nominal diameters as described on Page 17. The two threaded studs must be positioned opposite each other on either side of the pipe.

  • Page 37: Installing The Wall Thickness Measuring Sensors Ddu 19 (Accessories)

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation 3.3.11 Installing the wall thickness measuring sensors DDU 19 (accessories) Variant 1 Fix a tensioning band for small or large nominal diameters as described on Page 17. Coat the contact surface of the sensor with an even (approx. 1 mm thick) layer of coupling fluid (starting from the groove, through the centre and to the opposite side).

  • Page 38: Installing The Wall-Mount Transmitter Housing

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3.3.12 Installing the wall-mount transmitter housing There are various ways of installing the wall-mount housing: x Direct wall mounting x Panel mounting (with separate mounting set, accessories o Page 119) x Pipe mounting (with separate mounting set, accessories o Page 119) "...
  • Page 39 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 3 Installation Panel mounting Prepare the opening in the panel (Fig. 44). Slide the housing into the panel cutout from the front. Screw the fasteners onto the wall-mount housing. Screw the threaded rods into the brackets and tighten until the housing is firmly fixed to the panel wall.

  • Page 40: Post-Installation Check

    3 Installation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Post-installation check Perform the following checks after installing the measuring device on the pipe: Device condition and specifications Notes Is the device damaged (visual inspection)? Does the device correspond to specifications at the measuring point, see Page 143 ff.

  • Page 41: Wiring

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring Wiring Warning! When connecting Ex-certified devices, please refer to the notes and diagrams in the Ex- specific supplement to these Operating Instructions. Please do not hesitate to contact your E+H sales office if you have any questions.
  • Page 42 4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA Spurs (PROFIBUS-DP) Note the following points: x Length of spurs < 6.6 m (at a max. of 1.5 MBit/s) x At transmission rates > 1.5 MBit/s, spurs should not be used. The line between the cable connector and the bus driver in the field device is called a spur.
  • Page 43 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring Use a pointed object to adjust the positions of the miniature switches on the I/O board. Installation is the reverse of the removal procedure. SW 1 SW 1 390 Ω 220 Ω 390 Ω...

  • Page 44: Profibus-Pa Cable Specifications

    4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4.1.2 PROFIBUS-PA cable specifications Cable type Twin-core cables are required for connecting the device to the fieldbus. In analogy with IEC 61158-2 (MBP), four different cable types (A, B, C, D) can be used with the fieldbus, only two of which (cable types A and B) are shielded.
  • Page 45 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring Maximum overall cable length The maximum network expansion depends on the type of explosion protection and the cable specifications. The overall cable length is made up of the length of the main cable and the length of all spurs (>1 m).

  • Page 46: Connecting The Sensor Connecting Cable

    4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA Connecting the sensor connecting cable 4.2.1 Connecting Prosonic Flow P / W / U / DDU 18 / DDU 19 Warning! x Risk of electric shock. Switch off the power supply before opening the device. Do not install or wire the device while it is connected to the power supply.

  • Page 47: Cable Specifications

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring Legend: View A Detail B Connection compartment cover Sensor cable plug, channel 1, upstream Sensor cable plug, channel 1, downstream Sensor cable plug, channel 2, upstream Sensor cable plug, channel 2, downstream Cable gland cover...

  • Page 48: Connecting The Measuring Unit

    4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA Connecting the measuring unit 4.3.1 Connecting the transmitter Warning! x Risk of electric shock. Switch off the power supply before opening the device. Do not install or wire the device while it is connected to the power supply. Failure to comply with this precaution can result in irreparable damage to the electronics.

  • Page 49: Terminal Assignment

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring (DGND) N (L–) (+5 V) L1 (L+) DP (B) / PA (+) DP (A) / PA (–) 20 21 22 23 24 25 26 27 Fig. 49: Connecting the transmitter (wall-mount housing), cable cross-section: max. 2.5 mm Cable for power supply: 85...260 V AC, 20...55 V AC, 16...62 V DC...

  • Page 50: Fieldbus Connector

    4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4.3.3 Fieldbus connector Note! This connector can only be used for a PROFIBUS-PA device. The connection technology of PROFIBUS-PA allows measuring devices to be connected to the fieldbus via uniform mechanical connections such as T-boxes, junction boxes, etc.

  • Page 51: Potential Equalisation

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring Technical data (fieldbus connector): Connection cross section 0.75 mm Connector thread PG 13.5 Degree of protection IP 67 in accordance with DIN 40 050 IEC 529 Contact surface CuZnAu Housing material Cu Zn, surface Ni...

  • Page 52: Degree Of Protection

    4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA Degree of protection Transmitter (wallmount housing) The transmitter fulfill all the requirements for IP 67. Compliance with the following points is mandatory following installation in the field or servicing, in order to ensure that IP 67 protection is maintained: x The housing seals must be clean and undamaged when inserted into their grooves.
  • Page 53 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 4 Wiring Flowrate measuring sensors U (Clamp on) The flowrate measuring sensors U fulfill all the requirements for IP 52 degree of protec- tion. Compliance with the following points is mandatory following installation in the field or servicing, in order to ensure that IP 52 protection is maintained: x Only use cables supplied by E+H with the corresponding sensor connectors.

  • Page 54: Post-Connection Check

    4 Wiring PROline Prosonic Flow 93 PROFIBUS-DP/-PA Post-connection check Perform the following checks after completing electrical installation of the measuring device: Device condition and specifications Notes Are cables or the device damaged (visual inspection)? Electrical connection Notes Does the supply voltage match the specifications on the nameplate? 85...260 V AC (45...65 Hz)

  • Page 55: Operation

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Operation Quick operation guide You have a number of options for configuring and commissioning the device: 1. Local display (optional) o Page 56 The local display enables you to read all of the important parameters directly at the measuring point, configure device-specific parameters in the field and commission the instrument.

  • Page 56: Operation Via The Local Display

    5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Operation via the local display 5.2.1 Display and operating elements The local display enables you to read all important parameters directly at the measuring point and configure the device using the “Quick Setup” or the function matrix.
  • Page 57 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Display (operating mode) The display area consists of three lines in all; this is where measured values are displayed, and/or status variables (direction of flow, bar graph, etc.). You can change the assignment of display lines to different variables to suit your needs and preferences ( o see the “Description of Device Functions”...
  • Page 58 5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Icons The icons which appear in the field on the left make it easier to read and recognise measured variables, device status, and error messages. Icon Meaning System error Process errors Fault message (with effect on outputs)

  • Page 59: Brief Guide To The Function Matrix

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation 5.2.2 Brief guide to the function matrix Note! x See the general notes on Page 60. x Function descriptions o “Description of Device Functions” manual. HOME position o F o Enter the function matrix Select a block (e.g.
  • Page 60 There is no need to change these parameters under normal circumstances and consequently, they are protected by a special code known only to the E+H service organisation. Please contact Endress+Hauser if you have any questions. Endress+Hauser...

  • Page 61: Error Messages

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Disabling the programming mode Programming mode is disabled if you do not press a key within 60 seconds following automatic return to the HOME position. You can also disable programming in the “ACCESS CODE” function by entering any number (other than the customer's code).

  • Page 62: Communications: Profibus-Dp/-Pa

    5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Communications: PROFIBUS-DP/-PA 5.3.1 PROFIBUS-DP/-PA technology PROFIBUS (Process Fieldbus) is a standardised bus system based on the European standard EN 50170, Volume 2, which has been successfully used for many years in production and process automation (chemical industry and process engineering).
  • Page 63 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation General information Prosonic Flow 93 can be equipped with a PROFIBUS-DP interface (decentral periphery) in accordance with the fieldbus standard PROFIBUS-DP (EN 50170 Volume 2) which utilises the RS485 transmission technology. As a consequence, Prosonic Flow 93 can exchange data with automation systems which satisfy this standard.

  • Page 64: Profibus-Pa System Architecture

    5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5.3.3 PROFIBUS-PA system architecture PROFIBUS PA Fig. 60: PROFIBUS-PA system architecture 1 = Automation system, 2 = Commuwin II operating program, 3 = Segment coupler, 4 = PROFIBUS-DP RS 485 (max. 12 MBit/s), 5 = PROFIBUS-PA IEC 61158-2 (MBP) (max. 31.25 kbit/s)
  • Page 65 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Project planning For additional project planning information on the PROFIBUS-DP fieldbus, see the Operating Instructions BA 198F/00/en “Field Communication - PROFIBUS-DP/-PA: Guidelines for project planning and commissioning”. Function blocks The PROFIBUS uses predefined function blocks to describe the function blocks of a device and to specify uniform data access.

  • Page 66: Acyclic Data Exchange

    A Class 2 master can access the blocks that are shown in the illustration below. The parameters which can be operated by the Endress+Hauser operating program (Commuwin II) are shown on Page 68 ff. in the form of a matrix.

  • Page 67: Operation Via Profibus Configuration Programs

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Operation via PROFIBUS configuration programs The user can obtain special configuration and operating programs offered by different manufacturers for use in configuration. These can be used for configuring both the PROFIBUS-DP/-PA parameters and all of the device-specific parameters. The predefined function blocks allow uniform access to all the network and device data.

  • Page 68: Commuwin Ii Operating Program

    5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5.4.2 Commuwin II operating program Commuwin II is a program for remote operation of field and control-room equipment. Commuwin II can be used irrespective of the device type and the mode of communication (HART or PROFIBUS standard).
  • Page 69 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Device matrix channel 1 (partial matrix) Endress+Hauser...
  • Page 70 5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Device matrix channel 2 (partial matrix) Endress+Hauser...
  • Page 71 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Sensor data channel 1+2 (partial matrix) Endress+Hauser...
  • Page 72 5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Display functions (partial matrix) Endress+Hauser...
  • Page 73 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Diagnosis / Alarm / Simulation / Version info / Channel 1+2 (partial matrix) Endress+Hauser...
  • Page 74 5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Physical Block (operation via profile) Endress+Hauser...
  • Page 75 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Transducer Block Flow / channel 1+2 (operation via profile) Endress+Hauser...
  • Page 76 5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Analog Input Block (operation via profile) Endress+Hauser...
  • Page 77 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation Totalizer Block (operation via profile) Endress+Hauser...

  • Page 78: Hardware Configuration

    5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Hardware configuration 5.5.1 Configuration of write protection A jumper on the I/O board provides the means of activating or deactivating hardware write protection. Warning! Risk of electric shock. Exposed components carry dangerous voltages. Make sure that the power supply is switched off before you remove the cover of the electronics compartment.

  • Page 79: Configuration Of The Device Address

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 5 Operation 5.5.2 Configuration of the device address Note the following points: x In the case of a PROFIBUS-DP/-PA device, it will always be necessary to configure the address. Valid device addresses lie within the range 0…125. Each address can only be used once in a PROFIBUS-DP/-PA network.
  • Page 80 5 Operation PROline Prosonic Flow 93 PROFIBUS-DP/-PA Endress+Hauser...

  • Page 81: Commissioning

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Commissioning Function check Make sure that all final checks have been completed before you start up your measuring point: x “Post-installation check” checklist o Page 40 x “Post-connection check” checklist o Page 54...

  • Page 82: Commissioning Via The Local Display

    6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Commissioning via the local display 6.2.1 “Sensor Installation” Quick Setup Use this “Quick Setup” to determine the sensor distance required for sensor installation. ENDRESS+HAUSER Setup 1001 Quick Setup Sensor 2000 HOME-POSITION HOME-POSITION Language ➀...
  • Page 83 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Note! The display returns to the cell SETUP SENSOR (1001) if you press the ESC key combination during interrogation. ➀ Selection of the system units only influences the functions UNIT TEMPERATURE (0422), UNIT LENGTH (0424) and UNIT VELOCITY (0425).

  • Page 84: Commissioning" Quick Setup

    6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6.2.2 “Commissioning” Quick Setup If the measuring device is equipped with a local display, all the device parameters important for standard measuring mode can be configured easily and quickly using the “Commissioning” Quick Setup menu (Fig. 66).

  • Page 85: Commissioning With Local Display

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning 6.2.3 Commissioning with local display Note! You must enter a numerical code (factory setting: 93) before altering device functions, numerical values or factory settings o Page 60. The following steps have to be carried out one after the other:...

  • Page 86: Commissioning Via A Configuration Program

    6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Commissioning via a configuration program 6.3.1 Sensor installation For sensor installation, the various configuration and operating programmes (such as Commuwin II, FieldTool etc.) do not have any “Quick Setup” menus which correspond to the local operation.
  • Page 87 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Procedure (determining data for sensor installation) You can use the following tables to select and configure, in the correct order, the func- tions required to install the sensor: x “Clamp On” sensor installation o Page 87 x “Insertion”...
  • Page 88 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA LINER MATERIAL(6528) LINER MATERIAL LINER MATERIAL CH1/CH2 Liner material (V4H8) Liner sound velocity SOUND VELOCITY LINER (6529) SOUND VELOCITY LINER ADJUSTMENT/PIPE CH1/CH2 SOUND VEL. LINER CH1/CH2 (V5H1) Liner thickness LINER THICKNESS (6530) LINER THICKNESS...
  • Page 89 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning “Insertion” sensor installation Procedure Local display (Quick Setup) FieldTool Commuwin II ▼ ▼ ▼ Selection - Input - display BASIC FUNCTION BASIC FUNCTION Manufacturer-specific Transducer SENSOR DATA CH1/CH2 SENSOR DATA CH1/CH2 Block “PROSONIC 93 PBUS”: ▼...
  • Page 90 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA “Liquid sound velocity” measurement (only for Clamp On) Procedure Local display (Quick Setup) FieldTool Commuwin II ▼ ▼ ▼ Selection - Input - display BASIC FUNCTION BASIC FUNCTION Manufacturer-specific Transducer SENSOR DATA CH1/CH2 SENSOR DATA CH1/CH2 Block “PROSONIC 93 PBUS”:...
  • Page 91 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning “Pipe sound velocity” measurement (only for Clamp On) Procedure Local display (Quick Setup) FieldTool Commuwin II ▼ ▼ ▼ Selection - Input - display BASIC FUNCTION BASIC FUNCTION Manufacturer-specific Transducer SENSOR DATA CH1/CH2 SENSOR DATA CH1/CH2 Block “PROSONIC 93 PBUS”:...
  • Page 92 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA “Wall thickness” measurement (only for Clamp On) Procedure Local display (Quick Setup) FieldTool Commuwin II ▼ ▼ ▼ Selection - Input - display BASIC FUNCTION BASIC FUNCTION Manufacturer-specific Transducer SENSOR DATA CH1/CH2 SENSOR DATA CH1/CH2 Block “PROSONIC 93 PBUS”:...

  • Page 93: Commissioning, Configuration Of The Bus Interface

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning 6.3.2 Commissioning, Configuration of the BUS interface Operation with Commuwin II is described in the E+H documentation BA 124F/00/a2. Steps 1–5 can be dealt with in the same order as described in Section 6.2.3 “Commissioning with local display”.
  • Page 94 All the relevant data are described in the “System Integration” Section (see Page 96). We recommend that the “Coupling Documentation” be used for step-by-step configuration. This can be obtained from Endress+Hauser Process Solutions for various automation systems and programmable logic controls.

  • Page 95: Rescaling The Input Value

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning 6.3.3 Rescaling the input value In the Analog Input function block, the input value or input range can be scaled in accordance with the automation requirements. Example: x The system unit in the Transducer Block is m x The measuring range of the sensor is 0...30 m...

  • Page 96: System Integration

    6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA System integration The device will be ready for system integration once commissioning has been effected via the local display or the Class 2 master (Commuwin II). The PROFIBUS-DP system will require a description of the device parameters, e.g. output data, input data, data format and supported transmission rate so that it can integrate the field devices into the bus system.
  • Page 97 3 = Profile 3.0 x = Extended identification 15xx = ID No. The GSD files for all Endress+Hauser devices can be acquired in the following manner: x Internet (Endress+Hauser) o http://www.endress.com (Products o Process Solutions o PROFIBUS o GSD files) x Internet (PNO) o http://www.profibus.com (GSD library)
  • Page 98 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Standard and extended formats The modules of some GSD files are transmitted with an extended identification (e.g. 0x42, 0x84, 0x08, 0x05). These GSD files can be found in the “Extended” folder. All GSD files that have a standard identification (e.g. 0x94) can be found in the “Standard”...

  • Page 99: Cyclic Data Exchange

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning 6.4.1 Cyclic data exchange Structure of a cyclic data telegram In the case of PROFIBUS-DP/-PA, the cyclic transmission of analogue values to the automation system is effected in data blocks 5 bytes in length. The measured value is portrayed in the first 4 bytes in the form of floating point numbers in accordance with IEEE 754 standard (see IEEE floating point number).
  • Page 100 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Note! x Prosonic Flow 93 has eight Analog Input function blocks to which various process variables can be assigned as required. x Totalizers 1–3 can be configured in various combinations with the totalizer controls.
  • Page 101 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Input data Input data are: x Volume flow channel 1 x Sound velocity channel 1 x Flow velocity channel 1 x Volume flow channel 2 x Sound velocity channel 2 x Flow velocity channel 2...
  • Page 102 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Input Process parameter Access Comment/Data format Factory byte type setting unit 32-bit floating point number Volume flow CH1 0, 1, 2, 3 read (IEEE-754) (Channel: 273) Illustrated Page 99 Status read Status code Page 112 –...
  • Page 103 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Input Process parameter Access Comment/Data format Factory byte type setting unit Status – read Status code Page 112 – volume flow difference 32-bit floating point number (IEEE-754) Average flow velocity – read Illustrated...
  • Page 104 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Example of SET_TOT and MODE_TOT: If the control variable SET_TOT is set to “1” (1 = Reset the totalizer) the value of the totalizer will be set to “0”. The value of the totalizer will now be added up starting from “0”.
  • Page 105 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Control variables (output data) manufacturer-specific Prosonic Flow 93 is capable of processing control variables (output data) during cyclic data exchange. An example of this could be activating positive zero return. The following table shows the control variables (output data) that can be transmitted to Prosonic Flow 93.
  • Page 106 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Note! Only activate the data blocks which are to be processed in the automation system. This will improve the data throughput rate of a PROFIBUS-DP/-PA network. A double-arrow symbol (direction alternating) will appear on the display to show that Prosonic Flow 93 is communicating with the automation system.

  • Page 107: Configuration Examples With Simatic S7 Hw-Konfig

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning 6.4.2 Configuration examples with Simatic S7 HW-Konfig Example 1: Full configuration using the manufacturer-specific GSD file Slot 1-3: AI volume flow CH1, AI sound velocity CH1, AI flow velocity CH1 Slot 4-6: AI volume flow CH2, AI sound velocity CH2,...
  • Page 108 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Configuration data Byte length Byte length Data blocks Status Access type (Input) (Output) Block designation Extended block Standard block identification identification 0...4 – Volume flow CH1 + active read 0x42, 0x84, 0x94 status 0x08, 0x05 5...9...
  • Page 109 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Example 2: Replacing measured variables with placeholders (EMPTY_MODULE) using the manufacturer-specific GSD file: Slot 1: AI volume flow CH1 Slot 2-9: Place holder (EMPTY_MODULE) Slot 10: Totalizer 2 “without control“ Slot 11: Totalizer 3 + control (SETTOT_MODETOT_TOTAL)
  • Page 110 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Example 3: Configuration of the measured variables without placeholders (EMPTY_MODULE) using the manufacturer-specific GSD file. Slot 1: AI volume flow CH1 Slot 2: AI sound velocity CH1 This configuration transmits the volume flow channel 1 and the sound velocity channel 1.
  • Page 111 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Example 4: Full configuration using the Profile GSD files PA039741.gsd (RS 485) and PA139741.gsd (IEC 61158-2 (MBP)) Slot 0: AI volume flow CH1 Slot 1: AI sound velocity CH1 Slot 2: Totalizer 1 + control...
  • Page 112 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Status code The status codes which are supported by the AI Blocks (Analog Input), TOT (Totalizers 1...3) and display value are listed in the following table. The coding of the status corresponds to the “PROFIBUS-PA Profile for Process Control Devices - General Requirements”...

  • Page 113: Application-Specific Commissioning

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Application-specific commissioning 6.5.1 Zero point adjustment A zero point adjustment is generally not necessary. Experience shows that the zero point adjustment is advisable only in special cases: x To achieve highest measuring accuracy with very low flow rates.
  • Page 114 6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Performing a zero point adjustment (with local display Operate the system until normal operating conditions resume. Stop the flow (v = 0 m/s). Check the shut-off valves for leaks. Check that operating pressure is correct.
  • Page 115 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 6 Commissioning Performing a zero point adjustment (with configuration program Operate the system until normal operating conditions resume. Stop the flow (v = 0 m/s). Check the shut-off valves for leaks. Check that operating pressure is correct.

  • Page 116: Data Storage Device (Dat, F-Chip)

    6 Commissioning PROline Prosonic Flow 93 PROFIBUS-DP/-PA Data storage device (DAT, F-Chip) T-DAT (transmitter DAT) The T-DAT is an exchangeable data storage device in which all transmitter parameters and settings are stored. The operator has to transfer specific parameterisation values from the EEPROM to the T-DAT and vice versa.

  • Page 117: Maintenance

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 7 Maintenance Maintenance The Prosonic Flow 93 flow measuring system requires no special maintenance. Exterior cleaning When cleaning the exterior of measuring devices, always use cleaning agents that do not attack the surface of the housing and the seals.
  • Page 118 7 Maintenance PROline Prosonic Flow 93 PROFIBUS-DP/-PA Endress+Hauser...

  • Page 119: Accessories

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 8 Accessories Accessories Various accessories, which can be ordered separately from Endress+Hauser, are available for the transmitter and the sensor. The E+H service organisation can provide detailed information on the ordering codes of your choice.
  • Page 120 8 Accessories PROline Prosonic Flow 93 PROFIBUS-DP/-PA Accessory Description Order Code Installation set, Clamp On – Without sensor fastening DK9IC sensor fastening for – Tensioning bands DN 50...200 DK9IC Prosonic Flow W/P – Tensioning bands DN 200...600 DK9IC sensors – Tensioning bands DN 600...2000 DK9IC –...
  • Page 121 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 8 Accessories Accessory Description Order Code FieldTool Configuration and service software for flowmeters DXS10 ***** in the field: – Commissioning, maintenance analysis – Configuring measuring devices – Service functions – Visualisation of process data – Trouble-shooting –...
  • Page 122 8 Accessories PROline Prosonic Flow 93 PROFIBUS-DP/-PA Endress+Hauser...

  • Page 123: Trouble-Shooting

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Trouble-shooting Trouble-shooting instructions Always start trouble-shooting with the checklist below, if faults occur after start-up or during operation. The routine takes you directly to the cause of the problem and the appropriate remedial measures.
  • Page 124 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Faulty connection to control system No connection can be made between the control system and the flowmeter. Check the following points: Supply voltage Check supply voltage Terminal 1/2 (Page 49) Transmitter Device fuse...

  • Page 125: System And Process Error Messages

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting System and process error messages General notes The measuring device always assigns system and process errors which occur to two types of error messages, resulting in different weightings. Error message type “Fault message”:...
  • Page 126 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Amplifier EEPROM S AMP SW-EEPROM device failure...
  • Page 127 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Compatibility A / C COMPATIB. device failure Cause: Amp.
  • Page 128 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Interruption between S SENS. DOWN CH2...
  • Page 129 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Interruption between S SENSOR UP CH2...
  • Page 130 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Save to T-DAT failed S LOAD T-DAT...
  • Page 131 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Attenuation of S SIGNAL LOW CH1...
  • Page 132 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Interference CH1 P INTERFERENCE CH1 non specific...
  • Page 133 PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Simulation failsafe S SIM. FAILSAFE substitute set...
  • Page 134 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Device status and Device status message Initial status Measured Cause/remedy diagnosis message (Display) Analog Input Block/ value Quality / (Control system) Totalizer Block Substatus / Alarm limit Zeropoint adjustment 0-ADJ. FAIL CH2 non specific...

  • Page 135: Process Errors Without Messages

    Returning devices to E+H The procedures on Page 8 must be carried out before you return a flowmeter requiring repair or calibration to Endress+Hauser. Always enclose a duly completed “Declaration of Contamination” form with the flowmeter. You will find a copy of this form at the back of these Operating Instructions.

  • Page 136: Spare Parts

    9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Spare parts Section 9.1 contains a detailed trouble-shooting guide. The measuring device, more over, provides additional support in the form of continuous self-diagnosis and error messages. Trouble-shooting can entail replacing defective components with tested spare parts.

  • Page 137: Installing And Removing Electronics Boards

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Installing and removing electronics boards x Risk of electric shock. Exposed components carry dangerous voltages. Make sure that the power supply is switched off before you remove the cover of the electronics compartment.
  • Page 138 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Fig. 72: Wall-mount housing: Removing and installing electronics boards Housing cover Electronics module Ribbon cable (display module) Screws of electronics compartment cover Aperture for installing/removing boards Power unit board Amplifier board Sensor signal cable...

  • Page 139: Installation / Removal Of Sensor W "Insertion

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Installation / removal of sensor W “Insertion” The active part of the flowrate measuring sensor W “Insertion” can be replaced without interrupting the process. Pull the sensor connector (1) out of the sensor cover (3).

  • Page 140: Replacing The Device Fuse

    9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Replacing the device fuse Warning! Risk of electric shock. Exposed components carry dangerous voltages. Make sure that the power supply is switched off before you remove the cover of the electronics compartment. The device fuse is on the power unit board (Fig. 74).

  • Page 141: Software History

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 9 Trouble-shooting Software history Software version / Changes to software Changes to documentation date Amplifier V 1.01.00 / 05.2002 Original software – Compatible with: – FieldTool – Commuwin II (version 2.07.02 and higher) – PROFIBUS-DP/-PA version 3.0 V 1.05.00 / 12.2002...
  • Page 142 9 Trouble-shooting PROline Prosonic Flow 93 PROFIBUS-DP/-PA Endress+Hauser...

  • Page 143: Technical Data

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10 Technical data Technical data 10.1 Technical data at a glance 10.1.1 Application x Measuring the flow rate of liquids in closed piping systems. x Applications in measuring, control and regulation technology for monitoring processes.

  • Page 144: Input

    10 Technical data PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10.1.3 Input Measured variable Flow velocity (transit time difference proportional to flow velocity) Measuring range Typically v = 0...15 m/s with the specified measuring accuracy for Prosonic Flow W/P Typically v = 0...10 m/s with the specified measuring accuracy for Prosonic Flow U...

  • Page 145: Power Supply

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10 Technical data 10.1.5 Power supply Electrical connection see Page 48 ff. Supply voltage Transmitter: x 85...260 V AC, 45...65 Hz x 20...55 V AC, 45...65 Hz x 16...62 V DC Measuring sensors: powered by the transmitter x For potential equalisation no special measures are necessary.

  • Page 146: Performance Characteristics

    10 Technical data PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10.1.6 Performance characteristics x Medium temperature range: +28 °C ± 2 K Reference operating x Ambient temperature range: +22 °C ± 2 K conditions x Warm-up period: 30 minutes Installation: x Inlet run >10 x DN x Outlet run >...

  • Page 147: Operating Conditions

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10 Technical data 10.1.7 Operating conditions Installation Installation instructions Any orientation (vertical, horizontal) Restrictions and additional installation instructions o Page 14 ff. Clamp On version o Page 15 Inlet and outlet run Insertion version o Page 16...
  • Page 148 10 Technical data PROline Prosonic Flow 93 PROFIBUS-DP/-PA x Transmitter Prosonic Flow 93: Degree of protection IP 67 (NEMA 4X) x Flowrate measuring sensors Prosonic Flow P (Clamp On): IP 68 (NEMA 6P) x Flowrate measuring sensors Prosonic Flow W (Clamp On)

  • Page 149: Mechanical Construction

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10 Technical data 10.1.8 Mechanical construction Design / dimensions see Page 152 ff. Weight Transmitter wall-mount housing: 6.0 kg Measuring sensors: x Flowrate measuring sensors P incl. mounting rail and tensioning band: 2.8 kg x Flowrate measuring sensors W (Clamp On) incl. mounting rail and tensioning bands: 2.8 kg...

  • Page 150: Human Interface

    The measuring system is in conformity with the statutory requirements of the EC Directives. Endress+Hauser confirms successful testing of the device by affixing the CE mark. Certification The Prosonic Flow 93 flowmeter has passed all the test procedures implemented and PROFIBUS-PA has been certified and registered by the PNO (PROFIBUS User Organisation).

  • Page 151: 10.1.12 Accessories

    10 Technical data 10.1.12 Accessories Various accessories, which can be ordered separately from Endress+Hauser, are available for the transmitter and the sensor (see Page 119). The E+H service organisation can provide detailed information on the ordering codes of your choice.

  • Page 152: Dimensions Of Wall-Mount Housing

    10 Technical data PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10.2 Dimensions of wall-mount housing > 50 11.5 11.5 Fig. 76: Dimensions of wall-mount housing Endress+Hauser...

  • Page 153: Dimensions Of P Sensors

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10 Technical data 10.3 Dimensions of P sensors 2 or 4 traverses version Fig. 77: Dimensions of P sensor (2 or 4 traverses version) a = Sensor distance can be determined using Quick Setup b = Pipe outer diameter (defined by the application) 1 or 3 traverses version Fig.

  • Page 154: Dimensions Of W Sensors (Clamp On)

    10 Technical data PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10.4 Dimensions of W sensors (Clamp On) Fig. 79: Dimensions of W sensor (Clamp On) a = Sensor distance can be determined using Quick Setup b = Pipe outer diameter (defined by the application) 10.5...

  • Page 155: Dimensions Of W Sensors (Insertion Version)

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA 10 Technical data 10.6 Dimensions of W sensors (Insertion version) Single path version ~ 150 Fig. 81: Dimensions of W sensor (Insertion version, single path) A = View A a = Pipe outer diameter (defined by the application)
  • Page 156 10 Technical data PROline Prosonic Flow 93 PROFIBUS-DP/-PA Endress+Hauser...

  • Page 157: Index

    PROline Prosonic Flow 93 PROFIBUS-DP/-PA Index Index Commuwin II ......69 Local operation ......59 Accessories .
  • Page 158 Index PROline Prosonic Flow 93 PROFIBUS-DP/-PA Hardware configuration Nameplate Device addressing ..... . . 79 Prosonic Flow U sensors ....11 Write protection (access to device parameters) .
  • Page 159 PROline Prosonic Flow 93 PROFIBUS-DP/-PA Index Registered trademarks ..... . 12 Wall thickness measurement ....37 Repair .
  • Page 160 Index PROline Prosonic Flow 93 PROFIBUS-DP/-PA Endress+Hauser...
  • Page 161 Declaration of contamination Dear customer, Because of legal determinations and for the safety of our employes and operating equipment we need this “Declaration of contamination” with your signature before your order can be handled. Please put the completely filled in declaration to the instrument and to the shipping documents in any case. Add also safety sheets and/or specific handling instructions if necessary.
  • Page 162 Mexico – México, D.F Croatia – Zagreb Tel. (3) 94 40 80, Fax (9) 54 80 38 ❑ Endress+Hauser (México), S.A. de C.V. ❑ Endress+Hauser GmbH+Co. Sweden – Sollentuna Tel. (5) 5 55 68 24 07, Fax (5) 5 55 68 74 59 Malaysia –...

This manual is also suitable for:

Proline prosonic flow clamp on 93pProsonic flow clamp on 93w

Table of Contents