Pressure transmitter. SITRANS P500 with HART. Operating Instructions 09/2010 SITRANS

Pressure transmitter Operating Instructions 09/2010 SITRANS

Introduction 1 General safety notes 2 SITRANS Pressure transmitter Operating Instructions Description 3 Install 4 Connecting 5 Operate 6 Commissioning 7 Alarm, error and system messages 8 Service and maintenance 9 Technical data 10 Dimension drawings 11 A Appendix B List of abbreviations 7MF5**3 09/2010 A5E02344528-05

Legal information Legal information Warning notice system This manual contains notices you have to observe in order to ensure your personal safety, as well as to prevent damage to property. The notices referring to your personal safety are highlighted in the manual by a safety alert symbol, notices referring only to property damage have no safety alert symbol. These notices shown below are graded according to the degree of danger. DANGER indicates that death or severe personal injury will result if proper precautions are not taken. WARNING indicates that death or severe personal injury may result if proper precautions are not taken. CAUTION with a safety alert symbol, indicates that minor personal injury can result if proper precautions are not taken. CAUTION without a safety alert symbol, indicates that property damage can result if proper precautions are not taken. NOTICE indicates that an unintended result or situation can occur if the corresponding information is not taken into account. If more than one degree of danger is present, the warning notice representing the highest degree of danger will be used. A notice warning of injury to persons with a safety alert symbol may also include a warning relating to property damage. Qualified Personnel The product/system described in this documentation may be operated only by personnel qualified for the specific task in accordance with the relevant documentation for the specific task, in particular its warning notices and safety instructions. Qualified personnel are those who, based on their training and experience, are capable of identifying risks and avoiding potential hazards when working with these products/systems. Proper use of Siemens products 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. The permissible ambient conditions must be adhered to. The information in the relevant documentation must be observed. Trademarks All names identified by are registered trademarks of the Siemens AG. The remaining trademarks in this publication may be trademarks whose use by third parties for their own purposes could violate the rights of the owner. Disclaimer of Liability We have reviewed the contents of this publication to ensure consistency with the hardware and software described. Since variance cannot be precluded entirely, we cannot guarantee full consistency. However, the information in this publication is reviewed regularly and any necessary corrections are included in subsequent editions. Siemens AG Industry Sector Postfach 48 48 90026 NÜRNBERG GERMANY order number: A5E02344528 P 03/2011 Copyright Siemens AG 2010. Technical data subject to change

Table of contents 1 Introduction... 7 1.1 Purpose of this documentation...7 1.2 History...7 1.3 Notes on warranty...7 1.4 Product information...8 1.5 Conformity with European directives...8 2 General safety notes... 9 2.1 General information...9 2.2 Correct usage...9 2.3 Laws and directives...9 2.4 Checking the consignment...10 2.5 Transportation and storage...10 2.6 Measures...11 2.7 Qualified Personnel...12 3 Description... 13 3.1 System configuration...13 3.2 Application range...14 3.3 Structure...15 3.4 Structure of the nameplate and approval plate...16 3.5 Functional principle...18 3.5.1 Operation of the electronics...18 3.5.2 Measuring cell operation...19 3.5.2.1 Measuring cell for differential pressure and flow rate...20 3.5.2.2 Measuring cell for level...21 3.5.3 Remote seals...22 3.6 SIMATIC PDM...23 4 Install... 25 4.1 Safety notes for installation...25 4.2 Instructions for installation...28 4.3 Sealing connecting elements...29 4.4 Installation (except level)...30 4.4.1 Instructions for installation (except level)...30 4.4.2 Assembly...31 Operating Instructions, 09/2010, A5E02344528-05 3

Table of contents 4.5 "Level" installation... 32 4.5.1 Instructions for level installation... 32 4.5.2 Installation for level... 32 4.5.3 Connection of the negative pressure line... 33 4.5.3.1 Measurement in an open container... 33 4.5.3.2 Measurement in a closed container... 34 4.5.3.3 Measurement on closed vessels with heavy condensation... 35 4.6 "Remote seal" installation... 36 4.6.1 Remote seal installation... 36 4.6.2 Installation of the remote seal with the capillary line... 37 4.7 Rotating the measuring cell over the enclosure... 41 4.8 Rotating display... 42 5 Connecting... 43 5.1 Safety notes for connection... 43 5.2 Connecting the device... 46 5.3 Connecting the Han plug... 47 5.4 Connecting the M12 connector... 48 6 Operate... 51 6.1 Operation overview... 51 6.1.1 Display in measurement view... 53 6.1.2 Display in the navigation view... 54 6.1.3 Display in the parameter view... 54 6.2 Parameter description... 55 6.2.1 Overview of the menu structure... 55 6.2.2 "1 Quickstart"... 57 6.2.2.1 "1.1 Commissioning"... 57 6.2.3 "2 Setup"... 71 6.2.3.1 "2.1 Input"... 71 6.2.3.2 "2.2 Output"... 88 6.2.3.3 "2.3 Simulation"... 90 6.2.3.4 "2.4 Service"... 92 6.2.3.5 "2.5 Display"... 96 6.2.3.6 "2.6 Mechanical Construction"... 107 6.2.4 "3 Diagnostics"... 111 6.2.4.1 "3.1 Alarm list"... 111 6.2.4.2 "3.2 Identification"... 111 6.2.4.3 "3.3 Process Variables"... 112 6.2.4.4 "3.4 Hardware Exchanges"... 113 6.2.4.5 "3.5 Diagnostic Setup"... 113 6.2.4.6 "3.6 Operatinghours Counter"... 118 6.2.4.7 "3.7 MinMaxPointer"... 118 6.2.4.8 "3.8 Limiter"... 120 6.2.4.9 "3.9 Statistics"... 124 6.2.4.10 "3.10 Logbook"... 126 6.2.5 "4 Communication"... 126 6.2.5.1 "4.1 Protocol"... 126 6.2.5.2 "4.2.. 4.20 HART-Variable4"... 127 4 Operating Instructions, 09/2010, A5E02344528-05

Table of contents 6.2.5.3 "4.3 Analog Output"...127 6.2.5.4 "4.21 HART Writeprotect"...128 6.2.5.5 "4.22 Burst Mode"...128 6.2.6 "5 Security"...129 6.2.6.1 "5.1 " in preparation...129 6.2.6.2 "5.2 Keypad Lock"...129 6.2.6.3 "5.3 Access Management"...130 6.2.6.4 "5.4 Auto Log Out"...131 6.2.7 "6 Language"...131 6.3 Description of the operating functions...132 6.3.1 Operating functions through HART communication...132 6.3.2 Selection of the measuring modes...133 6.3.2.1 Overview of measuring modes...133 6.3.2.2 Measuring mode "Pressure"...134 6.3.2.3 Measuring mode "Level"...135 6.3.2.4 Measuring mode "Volume"...137 6.3.2.5 Measuring mode "Mass"...138 6.3.2.6 "Volume flow" measurement type...139 6.3.2.7 "Mass flow" measurement type...140 6.3.2.8 "User" measurement type...142 6.3.3 Setting zero point and limit point...144 6.3.4 Flow characteristic...145 6.3.5 Correction of the flow characteristic...147 6.3.6 Setting the current limits...147 6.3.7 Simulation...148 6.3.7.1 Overview of simulation...148 6.3.7.2 Simulation as fixed value...149 6.3.7.3 Simulation with a ramp function...149 6.3.8 Zero point calibration (position correction)...150 6.3.9 sensor calibration...151 6.3.9.1 Sensor calibration...151 6.3.9.2 Trimming the sensor...151 6.3.10 Current sensor trim...153 6.3.11 Diagnostic functions...154 6.3.11.1 Calibration timer and service timer...154 6.3.11.2 Min/max indicator...155 6.3.11.3 Limit monitor...156 6.3.12 Process tag data...158 7 Commissioning... 159 7.1 Safety notes for commissioning...159 7.2 Instructions on commissioning...160 7.3 Differential pressure and flow rate...161 7.3.1 Safety notes for commissioning with differential pressure and flow rate...161 7.3.2 Commissioning in gaseous environments...162 7.3.3 Commissioning for liquids...163 7.3.4 Commissioning with vapor...165 Operating Instructions, 09/2010, A5E02344528-05 5

Table of contents 8 Alarm, error and system messages... 167 8.1 Overview of messages and symbols... 167 8.2 Messages... 168 9 Service and maintenance... 171 9.1 Safety notice for maintenance... 171 9.2 Notes for servicing... 172 9.3 Notes for servicing of the remote seal... 172 9.4 Modular structure... 173 9.5 Return procedure... 174 10 Technical data... 175 10.1 Overview of technical data... 175 10.2 Input point... 176 10.3 Output... 177 10.4 Measuring accuracy... 178 10.5 Operating conditions... 181 10.6 Construction... 183 10.7 Display, keyboard and auxiliary power... 185 10.8 Certificates and approvals... 186 10.9 HART communication... 189 11 Dimension drawings... 191 11.1 SITRANS P500 for differential pressure, flow rate and absolute pressure from the differential pressure series... 191 11.2 SITRANS P500 for level... 192 A Appendix... 195 A.1 Certificate... 195 A.2 Literature and catalogs... 195 A.3 Overview... 196 A.4 Technical support... 203 B List of abbreviations... 205 Glossary... 207 Index... 211 6 Operating Instructions, 09/2010, A5E02344528-05

Introduction 1 1.1 Purpose of this documentation These instructions contain all information that you will require to commission and use the device. Read these instructions carefully prior to installation and commissioning. In order to use the device correctly, first make yourself acquainted with its principle of operation. The instructions are aimed both at persons mechanically installing the device, connecting it electronically, configuring the parameters and commissioning it as well as service and maintenance engineers. 1.2 History This history establishes the correlation between the current documentation and the valid firmware of the device. The documentation of this edition is applicable for the following firmware: Edition Firmware and hardware identity nameplate System integration Installation path for PDM 01-04 Unpublished versions of the operating instructions 05 09/2010 1) to SP05 FW: 35.01.00 HW: 11.01.01 PDM 6.0 1) ; Dev. Rev.3 DD; 01.00.00 Dev. Rev.1 SitransP500 Note 1.3 Notes on warranty The contents of this manual shall not become part of or modify any prior or existing agreement, commitment or legal relationship. The sales contract contains all obligations on the part of Siemens AG as well as the complete and solely applicable warranty conditions. Any statements regarding device versions described in the manual do not create new warranties or modify the existing warranty. 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. Operating Instructions, 09/2010, A5E02344528-05 7

Introduction 1.4 Product information 1.4 Product information The programming manual is an integral part of the CD, which is either supplied or can be ordered. The programming manual is also available on the Siemens homepage. On the CD, you will also find the specification sheet with the ordering data, the Software Device Install for SIMATIC PDM for additional installation, and the required software. See also Product information on SITRANS P in the Internet (http://www.siemens.com/sitransp) Catalog process instrumentation (http://www.siemens.com/processinstrumentation/catalogs) 1.5 Conformity with European directives The CE mark on the device shows conformity with the provisions of the following European Directives: EMC 2004/108/EC ATEX 94/9/EC DGRL 97/23/EC Directive of the European Parliament and of the Council on the approximation of the laws of the Member States relating to electromagnetic compatibility and repealing Directive 89/336/EEC. Directive of the European Parliament and the Council on the approximation of the laws of the Member States concerning equipment and protective systems intended for use in potentially explosive atmospheres. Directive of the European Parliament and of the Council on the approximation of the laws of the Member States concerning pressure equipment. The standards applied and their associated versions can be found in the enclosed EC Declaration of Conformity. 8 Operating Instructions, 09/2010, A5E02344528-05

General safety notes 2 2.1 General information This device left the factory free from safety problems. In order to maintain this status and to ensure safe operation of the device, please observe the safety information and warnings contained in these instructions. Safety information and symbols must be observed without exception. They must not be removed and must be maintained in legible condition at all times. 2.2 Correct usage The device may only be used for the purposes specified in these instructions. Insofar as they are not expressly stated in these instructions, all changes to the device are the sole responsibility of the user. 2.3 Laws and directives Disregard of provisions and laws during connection and installation increases the risk of explosions and leaks dues to improper application. To avoid these risks during connection and installation, you should comply with the test certifications, provisions and laws applicable in your country. For hazardous areas, these are for example: IEC 60079-14 (international) National Electrical Code (NEC - NFPA 70) (USA) Canadian Electrical Code (CEC) (Canada) EN 60079-14 (previously VDE 0165, part 1) (EU) Working reliability regulation (Germany) Operating Instructions, 09/2010, A5E02344528-05 9

General safety notes 2.4 Checking the consignment 2.4 Checking the consignment 1. Check the packaging and the device for visible damage caused by inappropriate handling during shipping. 2. Report any claims for damages immediately to the shipping company. 3. Retain the damaged parts for clarification. 4. Check the scope of delivery by comparing the shipping documents with your order for correctness and completeness. WARNING Using a damaged or incomplete device Danger of explosion. Do not start up any damaged or incomplete devices. See also Technical data (Page 175) Return procedure (Page 174) 2.5 Transportation and storage To guarantee sufficient protection during transport and storage, observe the following: Keep the original packaging for subsequent transportation. Devices/replacement parts should be returned in their original packaging. If the original packaging is no longer available, please ensure that all shipments are properly packaged to provide sufficient protection during transport. Siemens cannot assume liability for any costs associated with transportation damages. CAUTION Insufficient protection during storage The packaging only provides limited protection against moisture and infiltration. Provide additional packaging as necessary. Special conditions for storage of the device are listed in section "Technical data (Page 175)". 10 Operating Instructions, 09/2010, A5E02344528-05

General safety notes 2.6 Measures 2.6 Measures For the sake of safety, the following precautions must be observed: WARNING "Flameproof enclosure" type of protection Only open devices with type of protection "Flameproof enclosure" in hazardous areas when the power to the device is turned off, otherwise there is a risk of explosion. WARNING "Intrinsic safety" protection type Only connect the device to certified intrinsically safe circuits. These circuits must comply with the technical data indicated on the nameplate or in the certificates and approvals. If the circuits do not comply with the information in the certificates and approvals, the safety required for the approval is longer guaranteed. The "ia" protection level of the device is decreased to the "ib" protection level when intrinsically safe circuits having the "ib" protection level are connected. WARNING Type of protection "limited energy" nl (zone 2) Devices with "limited energy" type of protection may be connected and disconnected while in operation. Type of protection "non-sparking" na (zone 2) Devices with "non-sparking" protection may only be connected and disconnected when off circuit. WARNING Exposure to aggressive and hazardous process media The device can be operated both at high pressure and with aggressive and hazardous process media. Therefore, improper use of this device may lead to serious injury and or considerable damage to property. Above all, it must be noted when the device was in use and is to be exchanged. WARNING Explosion hazard through electrostatic charging To prevent electrostatic charges building up in a hazardous environment, the key cover must be closed during operation and the screws must be tightened. Temporary opening of the key cover for purposes of operating the transmitter may be performed at any time, even during operation; after which the screws should be tightened again. Operating Instructions, 09/2010, A5E02344528-05 11

General safety notes 2.7 Qualified Personnel CAUTION Electrostatic Sensitive Devices (ESD) This device contains electrostatic sensitive devices. Electrostatic sensitive devices may be destroyed by voltages that are undetectable to a human. Voltages of this kind occur as soon as a component or an assembly is touched by a person who is not grounded against static electricity. The damage to a module as a result of overvoltage cannot usually be detected immediately. It may only become apparent after a long period of operation. Protective measures against discharge of static electricity: Make sure that no power is applied. Before you work with modules, first discharge any static charges from your body, for example by touching a grounded object. Devices and tools used must be free of static charge. Hold modules only by their edges. Do not touch connector pins or conductor tracks on a module with the ESD notice. 2.7 Qualified Personnel Qualified personnel are people who are familiar with the installation, mounting, commissioning, and operation of the product. These people have the following qualifications: They are authorized, trained or instructed in operating and maintaining devices and systems according to the safety regulations for electrical circuits, high pressures and aggressive as well as hazardous media. For explosion-proof devices: They are authorized, trained, or instructed in carrying out work on electrical circuits for hazardous systems. They are trained or instructed in maintenance and use of appropriate safety equipment according to the safety regulations. 12 Operating Instructions, 09/2010, A5E02344528-05

Description 3 3.1 System configuration Overview The pressure transmitter can be used in a number of system configurations: as a stand-alone version, supplied with the necessary auxiliary power as part of a complex system environment, e.g. SIMATIC S7 System communication Communication is via the HART protocol, using: HART Communicator (load 230... 1100 Ω) PC with HART modem, on which appropriate software is installed, e.g. SIMATIC PDM (load 230... 500 Ω) Control system which can communicate via the HART protocol, e.g. SIMATIC PCS7 Figure 3-1 Possible system configurations Operating Instructions, 09/2010, A5E02344528-05 13

Description 3.2 Application range 3.2 Application range Overview Depending on the variant, the pressure transmitter measures corrosive, non-corrosive and hazardous gases, vapors and liquids. With appropriate parameterization, you can also use the differential pressure transmitter for the following measurement types: Level Volume Mass Volume flow Mass flow The output signal is always a load-independent direct current between 4 and 20 ma upon which a HART protocol is superimposed. You can install the "Intrinsically safe" or "Flameproof enclosure" version of the transmitter in hazardous areas. The devices have an EC type-examination certificate and meet the regulations applicable to them, for example, the harmonized CENELEC standards in Europe. Transmitters with remote seals of different shapes can be delivered for special applications. For example, measuring high-viscosity substances is a special application. Differential pressure and flow rate This version measures corrosive, non-corrosive and hazardous gases, vapors and liquids. You can use this version for the following measurement types: Differential pressure Positive or negative relative pressure In combination with a restrictor device: flow rate q ~ p The smallest differential pressure span is 1.25 mbar (0.5 inh2o); the largest differential pressure span is 1250 mbar (502 inh2o). Level This version with mounting flange measures the level of non-corrosive, corrosive and hazardous liquids in open and closed containers. The smallest measuring span is 1.25 mbar (0.5 inh2o); the largest span is 1250 mbar (502 inh2o). The nominal diameter of the mounting flange is DN 80 or DN 100 or 3" or 4". The negative connection of the measuring cell is kept open when measuring the level of open containers. This measurement is referred to as "measurement against atmosphere". The negative connection is normally connected with the container when measuring the level of closed containers. This balances the static pressure. Wetted parts are made of various materials, depending on corrosion resistance requirements. 14 Operating Instructions, 09/2010, A5E02344528-05

Description 3.3 Structure 3.3 Structure Depending on a customer-specific order, the device comprises different parts. 1 Approval plate 8 Measuring cell with process flanges 2 Safety latch 9 Cable inlet, optional with cable gland 3 Blanking plug 10 Electrical terminal compartment 4 Keys cover 11 Cover (rear) for electrical terminal compartment 5 Cover (front), optionally with an inspection window 12 Protective conductor connection 6 Display (optional) 13 Nameplate 7 Measuring point label 14 Retaining screws (both sides), twist proofing of the measuring cell in relation to the electronics enclosure Figure 3-2 Device view of the transmitter The electronic enclosure is made of aluminum die casting. The enclosure has a removable circular cover at the front and the back. Depending on the device version, the cover 5 is provided with an inspection window. Through the inspection window, the measured values can be read from the display (optional) 6. The user must not use the service connector located behind the display 6. The service plug is for the exclusive use of the manufacturer. The cable inlet 9 to the electrical terminal compartment on the left or right side can be used selectively. The corresponding unused opening is closed with a blanking plug 3. The protective conductor terminal 12 is located on the rear of the housing. The electrical terminal compartment 10 for power supply and shield is accessible when you unscrew the cover 11. Operating Instructions, 09/2010, A5E02344528-05 15

Description 3.4 Structure of the nameplate and approval plate Underneath the electronics housing is the measuring cell with its pressure caps on which the process connections 8 are located. The modular structure of the pressure transmitter allows you to replace the measuring cell, application electronics, connection board, pushbutton module, and the optional display when required. On the upper face of the enclosure you can see crosshead screws which secure the cover 4, under which the 3 keys for local operation are located. 3.4 Structure of the nameplate and approval plate Nameplate structure The nameplate with the order number and other important data, such as the design details and technical data can be found on the side of the enclosure. SITRANS P500 Transmitter for differential pressure 7MF5603-1DA00-0AD1-Z +E00 F.-Nr. B1-F908-9000001 PED/SEP V H: DC 10.5-45 V (non IS) 4-20 ma HART Mat.: Connec. Diaphr. O-ring Filling 1. 4404 1. 4404 FKM (FPM) Silicone oil Measuring span : 62.5-6250 mbar Rated pressure : PN 160 Schutzart IP 65 SIEMENS AG twistlock screw D-76181 Karlsruhe made in France 0045 HW: 01.01.00 / FW: 35.00.10 1 Order number 2 Serial number 3 Firmware (FW) and hardware (HW) numbers Example of a nameplate 16 Operating Instructions, 09/2010, A5E02344528-05

Description 3.4 Structure of the nameplate and approval plate Structure of the approval plate The approval plate is located on the side opposite the nameplate. For the Ex-version of the transmitter, the information on the respective certificate is also listed. SITRANS P500 II 1/2 G Ex d ia IIC T4/T6 T a : -40...+85 C (-40...+185 F) Temperature class T4 T a : -40...+60 C (-40...+140 F) Temperature class T6 U=45V BVS09ATEXE027 Observe EC-Type Examination Certificate! SIEMENS AG D-76181 Karlsruhe twistlock screw Figure 3-3 Example of an approval plate 1 1a 1b 1c 1d Characteristics of the hazardous area Category of the operating range Type of protection Group (gas, dust) Maximum surface temperature (temperature class) Operating Instructions, 09/2010, A5E02344528-05 17

Description 3.5 Functional principle 3.5 Functional principle 3.5.1 Operation of the electronics Description 1 Measuring cell sensors 7 HART modem 2 Measuring amplifier 8 Buttons (local operation) 3 Analog-to-digital converter 9 Display 4 Microcontroller 5 Digital-to-analog converter IA Output current 6 Each with an EEPROM in the measuring UH Auxiliary power cell and in the electronics Figure 3-4 Operation of electronics with HART communication, simplified illustration Function The input pressure is converted into an electrical signal by the sensor 1. This signal is amplified by the measuring amplifier 2 and converted in an analog-todigital converter 3. 18 Operating Instructions, 09/2010, A5E02344528-05

Description 3.5 Functional principle The digital signal is analyzed in a microcontroller 4 and corrected with regard to linearity and thermal characteristics. It is then converted in a digital-to-analog converter 5 to the output current of 4 to 20 ma. A diode circuit provides reverse polarity protection. The measuring cell specific data, electronics data and parameterization data are saved in two EEPROM 6. One EEPROM is located in the measuring cell, the other is incorporated in the electronics. Operation Use the keys 8 to navigate and set different parameters. If your device has a display 9, you can perform the parameter settings locally and track messages from the device visually. Other settings can be implemented with a computer using a HART modem 7. 3.5.2 Measuring cell operation CAUTION Toxic and hot media leaks If the measured signal fails because of sensor breakage, the seal diaphragm and the overload system may also be destroyed. In the worst case scenario of devices with a destroyed seal diaphragm, the process medium leaks on the side ventilated with reference pressure. In case of sensor breakage, deactivate the lines to the device or depressurize the lines. In the following sections, the process variable to be measured is called general inlet pressure. Overview The following principles of operation are described: Differential pressure and flow rate Level The following process connections are available, for example: ¼ - 18 NPT Flanged connection In accordance with EN 61518 Operating Instructions, 09/2010, A5E02344528-05 19

Description 3.5 Functional principle 3.5.2.1 Measuring cell for differential pressure and flow rate 1 Silicon pressure sensor 6 Overload diaphragm 2 Inlet pressure P+ 7 Filling liquid 3 Process flange with process connection 8 Seal diaphragm 4 O-ring 9 Inlet pressure P- 5 Measuring cell body Figure 3-5 Function diagram of the measuring cell for differential pressure and flow rate The differential pressure is transmitted via the seal diaphragm 8 and the fill fluid 7 to the silicon pressure sensor 1. If the measuring limits are exceeded, the seal diaphragm 8 is displaced so far that it lies against the bodies of the measuring cell 5. This protects the silicon pressure sensor 1 against overload. Differential pressure causes the measuring diaphragm of the silicon pressure sensor to be displaced. The displacement changes the resistance value of the four piezo resistors in the measuring diaphragm in a bridge circuit. The change in the resistance causes a bridge output voltage proportional to the differential pressure. 20 Operating Instructions, 09/2010, A5E02344528-05

Description 3.5 Functional principle 3.5.2.2 Measuring cell for level 1 Process flange with process connection 6 Filling liquid of the measuring cell 2 O-ring 7 Seal diaphragm in the measuring cell 3 Silicon pressure sensor 8 Capillary tube with the fill fluid of the mounting flange 4 Measuring cell bodies 9 Flange with a tube 5 Overload diaphragm 10 Seal diaphragm on the mounting flange Figure 3-6 Function diagram of the measuring cell for level The input pressure (hydrostatic pressure) acts hydraulically on the seal diaphragm at the mounting flange 10 on the measuring cell. The differential pressure existing at the measuring cell is transmitted via the fill fluid 6 to the silicon pressure sensor 3. If the measuring limits are exceeded, the seal diaphragm on the measuring cell 7 is displaced so far that it lies against the bodies of the measuring cells 4. This protects the silicon pressure sensor 3 against overload. Differential pressure causes the measuring diaphragm of the silicon pressure sensor to be displaced. The displacement changes the resistance value of the four doped piezo resistors arranged in a bridge circuit in the measurement diaphragm. The change in resistance causes the bridge output voltage to vary in proportion to the differential pressure. Operating Instructions, 09/2010, A5E02344528-05 21

Description 3.5 Functional principle 3.5.3 Remote seals Product description A remote seal measuring system comprises the following elements: Remote seal Transmission line, e.g. capillary line Measuring device NOTICE Malfunction of the remote seal measuring system If you separate the components of the remote seal measuring system, this results in malfunctioning of the system. Do not separate the components under any circumstances. The measuring system based on a hydraulic principle is used to transfer pressure. The capillary line and the remote seal diaphragm are the most sensitive components in the remote seal measuring system. The material thickness of the remote seal diaphragm is only 0.1 mm. The smallest of leakages in the transmission system leads to the loss of transmission fluid. The loss of transmission fluid results in inaccuracies in the measurement and failure of the measuring system. In order to avoid leaks and measuring errors, please observe the installation and maintenance instructions in addition to the safety notes. 22 Operating Instructions, 09/2010, A5E02344528-05

Description 3.6 SIMATIC PDM 3.6 SIMATIC PDM SIMATIC PDM is a software package for configuring, parameter assignment, commissioning, diagnostics and maintenance of this device and other process devices. SIMATIC PDM offers simple monitoring of process values, alarms, and device status information of the transmitter. SIMATIC PDM allows the process device data to be: displayed set modified saved diagnosed checked for plausibility managed simulated Operating Instructions, 09/2010, A5E02344528-05 23

Description 3.6 SIMATIC PDM 24 Operating Instructions, 09/2010, A5E02344528-05

Install 4 4.1 Safety notes for installation You can install the transmitter in different areas of application. Depending on the area of application and the system configuration, there may be differences in the installation. For all devices WARNING Destruction of device If external loads act on the device, it could be destroyed. In the worst case, process medium could escape. It is therefore essential to prevent external loads from acting on the device. WARNING Protection against incorrect use of the measuring instrument Make sure that the selected materials for the wetted parts of the measuring instrument are suitable for the process media used in order to ensure both the safety of the personnel and the device. Use the device only within the measuring spans for pressure, overload pressure limits and voltage limits specified on the nameplate. Otherwise, hot and toxic media may leak and lead to personal injury. CAUTION Risk of burns Install additional touch protection for surface temperatures > 70 C. The touch protection must be designed in such a way that the maximum permissible ambient temperature at the device is not exceeded. The permissible ambient temperatures for the device can be found in the technical data or on the nameplate. Operating Instructions, 09/2010, A5E02344528-05 25

Install 4.1 Safety notes for installation CAUTION Risk of injury Install the device such that automatic emptying is ensured and the entire process medium is drained. Otherwise, the residual process media may cause damage. For example, do not install the device at the bottom of the tank, install it on its side, instead. CAUTION Improper installation or modification can damage the device and thus invalidate the approval. Do not modify the device. In particular, use the cable entries, which are certified for the corresponding approval, for the cable connection. NOTICE The electrical terminal compartment may only be opened for installation, to make electrical connections, or for maintenance. NOTICE If the device is partially or completely open, the degree of protection specified in the technical data is no longer guaranteed. Mount the device as specified. The properties associated with the degree of protection are not guaranteed unless the device is properly mounted. General explosion protection WARNING Use You may only use this device in combustible and/or hazardous areas if it is marked for this use. Special explosion protection WARNING Flame penetration distances Following device installation, all flame penetration distances must have a clearance of at least 30 mm from stationary parts that are not part of the device. Otherwise, the safety of the flameproof device is not guaranteed. 26 Operating Instructions, 09/2010, A5E02344528-05

Install 4.1 Safety notes for installation WARNING For operation in Zone 0 The transmitter corresponds to category 1/2 and may be installed in Zone 0. The EC-type examination certificate applies to installation of the device in the walls of containers and pipelines in which explosive gas/air or vapor/air mixtures occur only under atmospheric conditions; for pressure: 0.8 to 1.1 bar (11.6 to 19.9 psi); temperature: -20 to +60 C (-4 to +140 F) The permissible ambient temperature range for the transmitter is: see nameplate or technical data. The operator may use the device under non-atmospheric conditions outside the limits specified in the EC-type examination certificate (or the certification applicable in the country of use) at the operator's own risk if safety measures which may be necessary in accordance with use conditions (explosive mixture) have been taken. Make sure to comply with the limit values specified in the general technical data in all cases. The installation must be sufficiently tight (IP67 according to EN 60529). For instance, an industry standard (e.g. DIN, NPT) threaded connector is suitable for the IP67 degree of protection. Operating Instructions, 09/2010, A5E02344528-05 27

Install 4.2 Instructions for installation 4.2 Instructions for installation Note Protect the transmitter against: Direct thermal radiation Rapid temperature fluctuations Heavy contamination Mechanical damage The installation location should satisfy the following criteria: easily accessible as close as possible to the measurement location free from vibration within the permitted ambient temperature values Note Perform position error correction After installation of the transmitter, perform a position error correction, so as to compensate for any work offset arising from the installation location. See "1.1.4 Trim Mounting Offset" (Page 59) Note Work offset The work offset arising from the installation position can be found in the technical data. See Measuring accuracy (Page 178). 28 Operating Instructions, 09/2010, A5E02344528-05

Install 4.3 Sealing connecting elements 4.3 Sealing connecting elements Siemens optionally delivers a metric thread M20 x 1.5 or a conical thread 1/2-14 NPT for the cable gland or the blanking plug. The metric threads are sealed using O-rings as standard. If you are using flat gaskets for a M20 x 1.5 thread, improper mounting can result in sealing problems. Instructions for the sealing methods: Thread sealant For metric and tapered threads To seal the thread, use suitable liquid sealant, e.g. Loctite. Completely remove all the sealant residue when resealing the threads following disassembly. Check the thread for possible damage and replace the damaged parts. During installation, make sure that the cable gland or the blanking plug is completed screwed in. Teflon tape For tapered thread only Make sure that you do not wrap the Teflon tape around threads more than two to three times. We recommend using tape with a thickness of 0.1 mm. If you use thicker tape, you must reduce the number of wraps. Count the threads in the engagement length. Make sure that when you screw in the cable gland with Teflon tape that the total number of threads has not been reduced by more than one thread. Flat gasket For metric thread only Make sure that the flat gasket has a maximum thickness of a thread lead. For example, the flat gasket for a M20 x 1.5 thread has a maximum thickness of 1.5 mm (0.06"). Count the threads in the engagement length. Make sure that when you screw in the cable gland with the flat gasket that the total number of threads has not been reduced by more than one thread. Operating Instructions, 09/2010, A5E02344528-05 29

Install 4.4 Installation (except level) 4.4 Installation (except level) 4.4.1 Instructions for installation (except level) Conditions NOTICE Compare the desired operating data with the data on the nameplate. Note Protect the transmitter against: Direct heat radiation Rapid temperature fluctuations Heavy contamination Mechanical damage The installation location is to be as follows: Easily accessible As close as possible to the measuring point Vibration-free Within the permitted ambient temperature values Installation configuration The transmitter may in principle be configured above or below the pressure tapping point. The recommended configuration depends on the aggregate state of the medium. Installation configuration for gases Install the transmitter above the pressure tapping point. Lay the pressure tubing with a constant gradient to the pressure tapping point, so that any condensation produced can drain in the main line and thereby avoid corruption of the measured values. Installation configuration for vapor and liquid Install the transmitter below the pressure tapping point. Lay the pressure tubing with a constant gradient to the pressure tapping point so that any gas pockets can escape in the main line. 30 Operating Instructions, 09/2010, A5E02344528-05

Install 4.4 Installation (except level) 4.4.2 Assembly Fastening without the mounting bracket You can fasten the transmitter directly on both pressure caps. Fastening with the mounting bracket You can use a tube clamp to fasten the mounting bracket to a horizontal or vertical mounting tube of diameter 50 mm (2 "). Alternatively you can attach the mounting bracket to the wall. Fasten the transmitter mounting bracket using the four screws provided. Figure 4-1 Fastening the transmitter on the mounting bracket with horizontal differential pressure lines Figure 4-2 Fastening the transmitter on the mounting bracket with vertical differential pressure lines Operating Instructions, 09/2010, A5E02344528-05 31

Install 4.5 "Level" installation 4.5 "Level" installation 4.5.1 Instructions for level installation Conditions NOTICE Compare the desired operating data with the data on the nameplate. Note Protect the transmitter against: Direct heat radiation Rapid temperature fluctuations Heavy contamination Mechanical damage Note Select the height of the mounting flange such that the pressure transmitter is always mounted below the lowest fill height to be measured. The installation location is to be as follows: Easily accessible The measuring point must be as close as possible Vibration-free Within the permitted ambient temperature values 4.5.2 Installation for level Note Seals are required for the installation. The seals must be compatible with the medium to be measured. Seals are not included in the delivery. 32 Operating Instructions, 09/2010, A5E02344528-05

Install 4.5 "Level" installation Procedure To install the transmitter for level, proceed as follows: 1. Attach the seal to the container's mating flange. Ensure that the seal is centrically positioned and that it does not restrict the movement of the flange's seal diaphragm in any way as otherwise the tightness of the process connection is not guaranteed. 2. Screw on the transmitter's flange. 3. Observe the installation position. 4.5.3 Connection of the negative pressure line 4.5.3.1 Measurement in an open container Connection of the negative line is not necessary when measuring in an open container, since the negative side is connected to the atmosphere. Formula: Start of scale value pma = ρ g hu Full scale value pme = ρ g ho + hu Start of scale value ΔpMA Start of scale value to be adjusted ho Full scale value ΔpME Full scale value to be adjusted p Pressure ρ Density of the measured medium in the container g Acceleration due to gravity Measurement assembly on an open container Operating Instructions, 09/2010, A5E02344528-05 33

Install 4.5 "Level" installation 4.5.3.2 Measurement in a closed container When taking measurements in a closed container without or with little condensation formation, the negative pressure line is not filled. Formula: Start of scale value ΔpMA = ρ g hu Full scale value ΔpME = ρ g ho hu Start of scale value ΔpMA Start of scale value to be adjusted ho Full scale value ΔpME Full scale value to be adjusted p Pressure ρ Density of the measured medium in the container g Acceleration due to gravity Measurement assembly on a closed container: no or little condensation separation When taking measurements in a closed container with strong condensation formation, you must fill the negative pressure line (mostly with the condensation of the measured medium) and install a condensation pot. For measurement on open vessels there is no need to connect the minus pipework, since the minus side is open to the atmosphere. 34 Operating Instructions, 09/2010, A5E02344528-05

Install 4.5 "Level" installation 4.5.3.3 Measurement on closed vessels with heavy condensation When taking measurements in a closed container with strong condensation formation, you must fill the negative pressure line (mostly with the condensation of the measured medium) and install a condensation pot. You can shut off the device e.g. using a two-way valve block 7MF9411-5AA. Formula: Start of scale value ΔpMA = g (hu ρ - hv ρ') Full scale value ΔpME = g (ho ρ - hv ρ') ' - hu Start of scale value ΔpMA Start of scale value to be set ho Full scale value ΔpME Full scale value to be set hv Gland distance ρ Density of the medium in the vessel p Pressure ρ ' Density of fluid in the negative pressure line, corresponds to the temperature prevailing there. g Acceleration due to gravity Measurement assembly on a closed container: strong condensation formation The process connection on the negative side is a female thread 1 /4-18 NPT. Lay the line for the negative pressure using a seamless steel tube 12 mm x 1.5 mm. Operating Instructions, 09/2010, A5E02344528-05 35

Install 4.6 "Remote seal" installation 4.6 "Remote seal" installation 4.6.1 Remote seal installation General installation instructions Keep the measuring system in the factory packing until it is installed in order to protect it from mechanical damage. When removing from the factory packing and installing: ensure that damage to and mechanical deformations in the membrane are prevented. Never loosen the sealed filling screws on the remote seal and the measuring instrument. Do not cause damage to the remote separating membrane; scratches on the remote separating membrane, e.g. due to sharp-edged objects, are the main starting points for corrosion. Select suitable gaskets for sealing. Use a gasket having an adequately large inner diameter for flanging. Insert the gasket concentrically; contact with the membrane leads to deviations in measurements. When using gaskets made of soft materials or PTFE: follow the guidelines of the gasket manufacturer, especially regarding the tightening torque and setting cycles. At the time of installation, use suitable fastening components such as screws and nuts that are compliant with fitting and flange standards. Excessive tightening of screwed joints on the process connection may displace the zero point on the pressure transmitter. Note Commissioning If a shut-off valve exists, open the shut-off valve slowly when commissioning in order to avoid pressure surges. Note Permissible ambient and operating temperatures Install the pressure measuring device such that the permissible limits of ambient and measured medium temperatures are not overshot or undershot even with the consideration of the effect of convection and heat radiation. Note the effect of temperature on the measuring accuracy. When selecting the remote seals, ensure that fittings and flange components have adequate pressure-temperature resistance by selecting suitable materials and pressure ratings. The pressure rating specified on the remote seal applies to reference conditions according to IEC 60770. For the maximum permissible pressure at higher temperatures, please refer to the standard specified on the remote seal. 36 Operating Instructions, 09/2010, A5E02344528-05

Install 4.6 "Remote seal" installation Using remote seals with pressure measuring device for hazardous areas: When using remote seals with pressure measuring device for hazardous areas, the permissible limits of ambient temperatures for the transmitter must not be exceeded. Hot surfaces on the cooling section (capillaries or cooling elements) are a possible source of ignition. Initiate suitable measures. When remote seals with a flame arrestor are used, the pressure measuring instrument determines the permissible ambient temperature. In the case of potentially explosive gaseous atmosphere, the temperature around the flame arrestor must not exceed +60 C. 4.6.2 Installation of the remote seal with the capillary line Notes Do not rest the measurement assembly on the capillary line. Do not bend capillary lines; risk of leakages and/or risk of considerable increase in the response time of the measuring system. Owing to the risk of bending and breakages, pay attention to mechanical overloads at the joints such as capillary line-remote seal and capillary line-measuring instrument. Unwinding the excess capillary lines with a radius of at least 150 mm. Fasten the capillary line such that there are no vibrations. Permissible height differences: When installing the pressure measuring instrument above the measuring point, keep the following in mind: in the case of remote seal measuring systems with silicone, glycerin or paraffin oil filling, the maximum height difference of H1max = 7 m must not be exceeded. If halocarbon oil is used as a fill fluid, this maximum height difference is H1max = 4 m, see installation type G. If negative overpressure is observed during measurements, reduce the permissible height difference accordingly. Operating Instructions, 09/2010, A5E02344528-05 37

Install 4.6 "Remote seal" installation Installation type for differential pressure and flow rate measurements Installation type D Start of scale value: pma = pstart - ρoil * g * HV Full scale value: pme = pend - ρoil * g * HV Legend pma pme pstart pend ρoil g HV Start of scale value to be adjusted Full scale value to be adjusted Start of scale value Full scale value Density of the filling oil in the capillary line of the remote seal Local gravitational acceleration Gland distance Installation types for level measurements (closed containers) Installation type E Start of scale value: pma = ρfl * g * HU - ρoil * g * HV Full scale value: pme = ρfl * g * HU - ρoil * g * HV 38 Operating Instructions, 09/2010, A5E02344528-05

Install 4.6 "Remote seal" installation Legend pma pme ρfl ρoil g HU HO HV Start of scale value to be adjusted Full scale value to be adjusted Density of the measured medium in the container Density of the filling oil in the capillary line of the remote seal Local gravitational acceleration Start of scale value Full scale value Gland distance Installation type G H1 7 m (23 ft), for halocarbon oil, however only H1 4 m(13.1 ft) Start of scale value: pma = ρfl * g * HU - ρoil * g * HV Full scale value: pme = ρfl * g * HO - ρoil * g * HV Pressure transmitter for differential pressure above the upper measuring point, no vacuum Installation type H Start of scale value: pma = ρfl * g * HU - ρoil * g * HV Full scale value: pme = ρfl * g * HO - ρoil * g * HV Below the lower measuring point Operating Instructions, 09/2010, A5E02344528-05 39

Install 4.6 "Remote seal" installation Installation type J H2 7 m (23 ft), for halocarbon oil, however only H1 4 m(13.1 ft) Start of scale value: pma = ρfl * g * HU - ρoil * g * HV Full scale value: pme = ρfl * g * HO - ρoil * g * HV Between the measuring points, no vacuum Legend pma Start of scale value to be adjusted pme Full scale value to be adjusted ρfl Density of the measured medium in the container ρoil Density of the filling oil in the capillary line of the remote seal g Local gravitational acceleration HU Start of scale value HO Full scale value HV Gland distance 40 Operating Instructions, 09/2010, A5E02344528-05

Install 4.7 Rotating the measuring cell over the enclosure 4.7 Rotating the measuring cell over the enclosure You can rotate the pressure transmitter housing by approximately 370 relative to the the measuring cell. Rotating the transmitter, for example, when it is installed at an angle, facilitates its operation. This keeps the keys and the power supply connection in a position where they can still be operated. 1 2 3 Measuring cell Retaining screw (both sides) Transmitter housing Figure 4-3 Range of rotation with transmitters for differential pressure Twisting procedure CAUTION Device damage Avoid damaging the device by not twisting the transmitter past the end stops. 1. Loosen both retaining screws 2 (hexagon socket-head screw 2.5 mm). 2. Twist the transmitter housing 3 against the measuring cell 1. 3. Tighten both retaining screws 2 (torque: 3.4 to 3.6 Nm). Operating Instructions, 09/2010, A5E02344528-05 41

Install 4.8 Rotating display 4.8 Rotating display The display in the electronics housing can be rotated in increments of 90. Procedure WARNING Danger Only open devices with type of protection "Flameproof enclosure" in hazardous areas when the power to the device is turned off, otherwise there is a risk of explosion. Proceed as follows: 1. Unscrew the cover of the electronics housing. 2. Loosen the two screws on the display and remove it towards the front. 3. The digital display can be rotated in steps of 90. Rotate the display to the desired position. 4. Mount the display, and secure it using the two screws. 5. Screw the cover back on as far as it will go. 42 Operating Instructions, 09/2010, A5E02344528-05

Connecting 5 5.1 Safety notes for connection For all devices WARNING If auxiliary power is required, check that it corresponds with that on the nameplate and with the test certification valid for your country. CAUTION Incorrect measurement values due to incorrect grounding It is not permissible to ground the device using the "+" connection. This can lead to malfunctions with permanent damage to the device. If necessary, ground the device using the "-" connection. General explosion protection WARNING Risk of explosion Non-compliance with the stipulations and laws during connection and installation increases the risk of explosion due to improper use. When connecting and installing, follow only the test certifications, stipulations and laws applicable in your country in order to avoid the risk of explosion. For example, for hazardous areas these are: IEC 60079-14 (international) National Electrical Code (NEC - NFPA 70) (USA) Canadian Electrical Code (CEC) (Canada) EN 60079-14 (earlier VDE 0165, T1) (EU) Ordinance on Industrial Safety and Health (Germany) Operating Instructions, 09/2010, A5E02344528-05 43

Connecting 5.1 Safety notes for connection WARNING Explosion protection Connect the device to the equipotential bonding. Free cable ends are not permitted in hazardous areas. Use suitable protection types, e.g., flameproof enclosure Ex "d" or increased safety Ex "e", to protect the free cable ends. For shielded cables in hazardous areas, note that only end is permitted to be grounded. Install a potential equalising cable if grounding on both ends is required. WARNING Cable glands The cables must be matched to the cable glands. If you use the cable glands M20 x 1.5 and ½-14" NPT, which can be ordered separately, only the cables having a diameter of 6 to 12 mm must be laid into the device. After installation, make sure that the cables are positioned securely and that the seals are in the correct position. Type of protection "na", "nl", "ic" In the case of devices with type of protection "na", "nl" and "ic" (Zone 2), only use cables having a diameter of 8 to 12 mm owing to the required tensile strength, or use a suitable cable gland in case of smaller diameters. CAUTION Cable damage Insulation on cables can be damaged if they are used in elevated ambient temperatures. For this reason, if cables are to be operated in an ambient temperature T 60 C, use heat-resistant cables approved for an ambient temperature at least 20 K higher. Also, ensure that you use appropriate cables for operation in low temperatures. WARNING The inlet openings for the electrical connections must be sealed. For this purpose, use only cable glands or plugs that are suitable for the type of protection that is required. 44 Operating Instructions, 09/2010, A5E02344528-05

Connecting 5.1 Safety notes for connection Special explosion protection WARNING Intrinsically safe circuits Only connect the device to certified intrinsically safe circuits. These circuits must comply with the technical data indicated on the nameplate or in the certificates and approvals (e.g., EC type-examination certificates). If the circuits do not comply with the information in the certificates and approvals, the safety required for the approval is longer guaranteed. Cables for use in hazardous areas in Zones 1 and 2 or 20, 21 and 22 must satisfy the requirements for having a test voltage 500 V AC applied between the conductor/ground, conductor/shield and shield/ground. Note To improve the reliability: Install the signal cable separately from cables with voltages > 60 V. Use cable with twisted strands. Stay away from large electrical systems. Use shielded cable to guarantee the full specification according to HART. Connect a load resistor of at least 230 Ω into the signal circuit in series in order to guarantee fault-free HART communication. When power supply isolators are used for HART transmitters, e.g. SITRANS I, a load resistor is already installed in the device. Operating Instructions, 09/2010, A5E02344528-05 45

Connecting 5.2 Connecting the device 5.2 Connecting the device Procedure 1. Unscrew the cover of the electrical cable compartment. This side of the housing is marked "FIELD TERMINALS". 2. Insert the connecting cable through the cable gland. 3. Connect the device to the existing protective bonding circuit. 4. Connect the wires to the connecting terminals "+" and "-". Observe the polarity when doing this. If necessary, ground the device using the "-" connection. 5. If necessary, ground the shield to the screw of the ground terminal. This is electrically connected with the external protective conductor connection. 6. Screw the cover back on as far as it will go. 1 Power supply isolator with installed load resistor 4 Connecting terminals 2 Auxiliary power 5 Protective conductor connector/equipotential bonding terminal 3 Ground terminal 6 Cable entry for auxiliary power/analog output Figure 5-1 Schematic electrical connection 46 Operating Instructions, 09/2010, A5E02344528-05

Connecting 5.3 Connecting the Han plug 5.3 Connecting the Han plug WARNING The connector may only be used for Ex ia devices and non-ex devices; otherwise the safety required for the approval is not guaranteed. Note Observe the protection class of the Han plug when defining the protection class. The contact parts for the coupling socket are also supplied. Procedure 1. Slide the sleeve and the screwed joint on the cable. 2. Strip approx. 8 mm of the cable ends. 3. Crimp the contact parts on the cable ends. 4. Assemble the coupling socket. IA Output current UH Auxiliary power Connector pin assignment with Han 7D or Han 8D plug Operating Instructions, 09/2010, A5E02344528-05 47

Connecting 5.4 Connecting the M12 connector 5.4 Connecting the M12 connector Procedure CAUTION A conductive connection must not exist between the shield and the connector housing. WARNING The connector may only be used for Ex ia devices and non-ex devices; otherwise the safety required for the approval is not guaranteed. Note Observe the protection class of the M12 connector when defining the protection class. For devices in which a connector is already available on the housing, the connection is established using a cable jack. 1. Thread the parts of the cable jack as described by the connector manufacturer. 2. Strip approximately 18 mm of the bus cable 1. 3. Twist the shield. 4. Thread the shield in the insulating sleeve. 5. Draw 8 mm of shrink sleeve over the cable, wires and shield up to the reference edge 2. 6. Screw the cable ends and the shield in the pin insert. 7. Fix the parts of the cable jack as described by the connector manufacturer. Figure 5-2 Preparing the connecting cable 1 Reference edge for stripping 3 Insulating sleeve over the shield 2 Reference edge for the dimension 4 Shrink sleeve specifications for cable assembly 48 Operating Instructions, 09/2010, A5E02344528-05

Connecting 5.4 Connecting the M12 connector Pin assignment Layout for M12 connector Layout for M12 jack 1 M12 x 1 thread 1 Positioning slot 2 Positioning catch 1 + 1 + 2 Not connected 2 Not connected 3-3 - 4 Shield 4 Shield Middle jack not assembled Operating Instructions, 09/2010, A5E02344528-05 49

Connecting 5.4 Connecting the M12 connector 50 Operating Instructions, 09/2010, A5E02344528-05

Operate 6 6.1 Operation overview General information The following description contains and overview of the operating functions which you can perform on the device and the safety instructions which you have to adhere to in the process. You can operate the device via the local user interface or via HART communication. Local user interface The local user interface consists of a display and three keys. Keys Display Description of the display and functionality of the keys To deactivate the key block, keep the key depressed for two seconds. Note Temperature dependency of the display If you operate the pressure transmitter at temperatures below -10 C, the liquid crystal display will become sluggish. There are three different view types: Measured value view Navigation view Parameter view Operating Instructions, 09/2010, A5E02344528-05 51

Operate 6.1 Operation overview Table 6-1 Display of the menu navigation Measured value view Navigation view Parameter view The key takes you up and down again. The functions of the buttons depend on the current view. The types of view and the functions of the buttons in the various types of views are described in the following. Zero-point adjustment The legend "ZERO" on the device identifies which keys should be pressed for the zero-point adjustment. Keep both the keys depressed for exactly as long as the set damping. See also Zero point calibration (position correction) (Page 150) "1.1.5 Damping" (Page 59) 52 Operating Instructions, 09/2010, A5E02344528-05

Operate 6.1 Operation overview 6.1.1 Display in measurement view 1 2 3 4 Figure 6-1 Measured value unit Measured value 2nd, 3rd or 4th display value Measurement type (PV) Example display in measurement view In the measurement view you can read the current measured value 2, the selected measurement type 4 in the defined units 1. If the 2nd, 3rd and 4th display values are selected, these are also displayed alternatively. Manual switching between the 2nd, 3rd and 4th display values with the keys and. Change measured value view into the main menu using key. Icon Designation Description/meaning Data exchange Display when the HART communication is activated Characteristic Display when a user-specific characteristic is used. Characteristic Display when a root extraction characteristic is used. Operating Instructions, 09/2010, A5E02344528-05 53

Operate 6.1 Operation overview 6.1.2 Display in the navigation view Select the six main menu items with the corresponding assigned submenus. Navigate within the menus with the buttons and. Select submenus using the key. Note If, with the top menu item highlighted, you press the key, you switch back to the measurement view. Or if no further sub-menu is available, when the is pressed, the display switches back to the parameter view. Figure 6-2 Example of display in the navigation view 6.1.3 Display in the parameter view In parameter view you can set a value for the previously selected parameter or read the current value. Manually changing the parameters that can be set using the and keys. Accept value or change parameter view into navigation view using the key. 1 Parameter name 4 Adjustable value 2 Parameter number 5 Parameter limits 3 Old value Figure 6-3 Example of display in the parameter view Icon Designation Description/meaning Write protection ON Display if a parameter is read-only. 54 Operating Instructions, 09/2010, A5E02344528-05