Page 1 SITRANS F Ultrasonic Flowmeters FST030 Function Manual Edition 04/2017 Answers for industry.
Page 3 Introduction Quick Start Setup SITRANS F Maintenance and diagnostics Ultrasonic Flowmeters FST030 Communication Security Function Manual Language Support This Function Manual applies to Siemens products SITRANS FST030 with order codes commencing 7ME372 04/2017 A5E35693328-AA...
Page 4 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Page 5: Table Of Contents
Table of contents Introduction ............................17 Function Manual scope ......................17 Purpose of this documentation ....................17 Quick start wizards ........................17 Support ........................... 17 Product compatability......................18 Document history ........................18 Device documentation package ....................19 Quick Start ............................21 Quick commissioning ......................
Page 6 Table of contents 3.1.4.1 Process medium type ......................28 3.1.4.2 Expected sound velocity ......................28 3.1.4.3 Process temperature ......................29 3.1.4.4 Process pressure ........................29 3.1.4.5 Kinematic viscosity ......................... 29 3.1.4.6 Process density ........................30 3.1.5 Sensor selection........................30 3.1.5.1 Sensor model .........................
Page 7 Table of contents 3.2.2.1 Units ............................47 3.2.2.2 Custom units ........................... 47 3.2.2.3 Custom conversion factor ....................... 47 3.2.2.4 Decimal places ........................48 3.2.2.5 Low flow cut-off ........................48 3.2.2.6 Alarm and warning limits ......................48 3.2.3 Standard flow volume ......................50 3.2.3.1 Units ............................
Page 8 Table of contents 3.2.11.1 Units ............................71 3.2.11.2 Decimal places ........................72 3.2.11.3 Alarm and warning limits ......................72 3.2.12 Standard kinematic viscosity ....................74 3.2.12.1 Units ............................74 3.2.12.2 Decimal places ........................74 3.2.12.3 Alarm and Warning limits ....................... 74 3.2.13 API gravity ..........................
Page 9 Table of contents 3.4.1 Current input ......................... 108 3.4.2 Digital input ........................... 109 3.4.3 Channel 1 - output with HART ....................109 3.4.3.1 Loop current mode ........................ 109 3.4.3.2 Active operation (read only) ....................110 3.4.3.3 PV selection .......................... 110 3.4.3.4 Direction ..........................
Page 10 Table of contents 3.4.6.18 Alarm class ........................... 164 3.4.6.19 NAMUR status signal ......................165 3.4.6.20 Polarity ..........................165 3.4.6.21 On delay ..........................165 3.4.6.22 Off delay ..........................166 3.4.7 Channel 4 - input/output ....................... 166 3.4.7.1 Operation mode ........................166 3.4.7.2 Change operation mode ......................
Page 11 Table of contents 3.6.4.1 Damping value ........................204 3.6.4.2 Process values (1) ........................ 204 3.6.4.3 Process values (2) ........................ 205 3.6.5 View 1 ........................... 205 3.6.5.1 View ............................205 3.6.5.2 1st value ..........................206 3.6.5.3 Graph scale mode ......................... 206 3.6.5.4 2nd value ..........................
Page 12 Table of contents 3.6.8.9 Trend scale mode ........................ 222 3.6.8.10 Trend log time window ......................222 3.6.8.11 Trend scale lower limit ......................222 3.6.8.12 Trend scale upper limit ......................223 3.6.9 View 5 ..........................223 3.6.9.1 Enable or disable ......................... 223 3.6.9.2 View .............................
Page 13 Table of contents 4.1.16.3 Serial number ........................238 4.1.16.4 Order number ........................238 4.1.16.5 Comm. interface serial number ..................... 238 4.1.17 Local display ......................... 239 4.1.18 I/O electronics ........................239 4.1.19 DSL ............................240 4.1.20 Sensor ........................... 240 4.1.20.1 Type (read only) ........................240 4.1.20.2 Sensor type (read only)......................
Page 14 Table of contents 4.3.3.1 Transmitter cassette ......................254 4.3.3.2 Local display ........................255 4.3.3.3 I/O cassette .......................... 256 4.3.3.4 Sensor cassette ........................257 Diagnostics ........................... 258 4.4.1 Sensor ..........................258 4.4.1.1 Receiver signal........................258 4.4.1.2 Reynolds number (read only) ....................258 4.4.1.3 Path 1 ...........................
Page 15 Table of contents Characteristics ........................281 4.6.1 Transmitter ..........................281 4.6.1.1 Design (read only) ......................... 281 4.6.1.2 Hazardous area approval (read only) ................... 281 4.6.2 DSL ............................281 4.6.2.1 DSL variant (read only) ......................281 SensorFlash .......................... 282 4.7.1 Eject ............................282 4.7.2 Installed (read only) ......................
Page 16 Table of contents Audit trail ..........................305 4.9.1 Parameter change log ......................305 4.9.2 Clear parameter change log (write only) ................305 4.9.3 Firmware update change log ....................306 4.9.4 Clear FW update change log (expert) .................. 306 4.10 Self test ..........................306 4.10.1 Display test ...........................
Page 17 Table of contents 5.3.5 Floating point byte order ....................... 322 5.3.6 Integer byte order ........................322 5.3.7 Register mapping ........................322 5.3.7.1 Enable mapping ........................322 5.3.7.2 Source register 1..20......................323 5.3.7.3 Target register 1..20 ......................323 5.3.8 Modbus units ......................... 324 5.3.8.1 Mass flow unit ........................
Page 18 Table of contents FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 19: Introduction
The device offers a set of wizards which will guide you through configuration of parameters essential for your application. The quick commissioning wizards are described in the Commissioning chapter of the device Operating Instructions. Support For product support, or to contact a Siemens representative, see Technical support (Page 337). FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 20: Product Compatability
Introduction 1.5 Product compatability Product compatability The following table shows major changes in the documentation compared to the previous edition. Edition Remarks Product compatibility Compatibility of device integration package 04/2017 HART SIMATIC PDM V8.2 or EDD: 1.00.00 or later First •...
Page 21: Device Documentation Package
Introduction 1.7 Device documentation package Device documentation package The user documentation package for this product includes the following documents Document Purpose Intended users Availability Application plan- Contains all information needed to Plant design en- Sent to the customer with • ning sheets gineers, control Quote...
Page 22 Introduction 1.7 Device documentation package FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 23: Quick Start
Quick Start The quick start wizard topics and introductory explanations are listed below. For detailed quick start wizard procedures refer to the FST030 Operating Instructions manual. Quick commissioning Description Quick commissioning - The Quick commissioning wizard will guide you through configuration of parameters essential for your application.
Page 24 Quick Start 2.5 Copy configuration FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 25: Setup
Setup Sensor settings 3.1.1 Length unit Description Unit for length values. Setting ft; m; in; cm; mm Default Related Path Setup → Sensor settings → Length units 3.1.2 Pipe settings 3.1.2.1 Pipe class Description Pipe class - Read only. Can only be changed via the Sensor Wizard. Indicates the pipe class chosen from the pipe data library included in the sensor setup wizard.
Page 26: Wall Thickness
Setup 3.1 Sensor settings Related Path Setup → Sensor settings → Pipe settings → Outer pipe diameter 3.1.2.4 Wall thickness Description Pipe wall thickness. Setting m to 0.5 m Default 0.001 m Related Path Setup → Sensor settings → Pipe settings → Wall thickness 3.1.2.5 Pipe material Description...
Page 27: Liner Settings
Setup 3.1 Sensor settings 3.1.2.7 Liner settings Liner thickness Description Pipe liner thickness Setting 0.0 m to 0.5 m Default 0.0 m Related Path Setup → Sensor settings → Pipe settings → Liner settings → Liner thickness Liner material Description Liner material - Read only.
Page 28: Inner Pipe Diameter
Setup 3.1 Sensor settings Setting 0.0 m to 0.01 m Default 0.0001 m Related Path Setup → Sensor settings → Pipe settings → Inner pipe roughness 3.1.2.9 Inner pipe diameter Description Read only. Calculated inner diameter of pipe (clamp-on). Setting Default 0.0 m Related...
Page 29: Disturbed Flow Profile Compensation - Settings
Setup 3.1 Sensor settings 3.1.3.2 Disturbed flow profile compensation - settings Setting Enable; Disabled Default Disabled Related Path Setup → Sensor settings → Upstream and downstream conditions → Disturbed flow profile compensation 3.1.3.3 Type of upstream condition Description Compensation for upstream pipe geometry. Setting Straight run;...
Page 30: Downstream Distance
Setup 3.1 Sensor settings Setting Straight run; Single elbow; Double elbow (in-plane); Double elbow (out-of-plane); Reducer; Expansion Default Straight run Related Path Setup → Sensor settings → Upstream and downstream conditions → Type of downstream condition 3.1.3.7 Downstream distance Description The distance to the downstream flow disturbance.
Page 31: Process Temperature
Setup 3.1 Sensor settings Related Path Setup → Sensor settings → Fluid settings → Expected sound velocity 3.1.4.3 Process temperature Description Temperature of media used for compensation. Input during setup. Setting -273.0 °C to 400.0 °C Default 20.0 °C Related Path Setup →...
Page 32: Process Density
Setup 3.1 Sensor settings 3.1.4.6 Process density Description Density of media used for compensation. Input during setup. Setting 0.0 kg/m³ to 2000.0 kg/m³ Default 1000.0 kg/m³ Related Path Setup → Sensor settings → Medium characteristics → Process density 3.1.5 Sensor selection 3.1.5.1 Sensor model Description...
Page 33: Sensor Crystal Projection
Setup 3.1 Sensor settings Setting 80000.0 m/s to 4000000.0 m/s Default 1100000.0 m/s Related Path Setup → Sensor settings → Sensor selection → Nominal sensor frequency 3.1.5.4 Sensor crystal projection Description Length of the crystal projection onto the emitting surface of the sensor (clamp-on). Access level: Expert user only.
Page 34: Sensor Fixed Time
Setup 3.1 Sensor settings 3.1.5.7 Sensor fixed time Description Fixed time in sensor wedge. Access level: Expert user only. Setting 2.0 x 10 s to 200.0 x 10 Default 10.61 x 10 Related Path Setup → Sensor settings → Sensor settings → Sensor fixed time 3.1.5.8 Mounting hole offset Description...
Page 35: Temperature Compensation Factor
Setup 3.1 Sensor settings Related Path Setup → Sensor settings → Sensor selection → Temperature code of the sensor 3.1.5.11 Temperature compensation factor Description Temperature compensation factors for the sensors. Setting 0.0001 to 0.0009 Default 0.000638 Related Path Setup → Sensor settings → Sensor selection → Temperature compensation factor 3.1.5.12 Length of sensor cables Description...
Page 36: Path 1
Setup 3.1 Sensor settings Setting 0 to 31 Default Related Path Setup → Sensor settings → Path settings → Installed paths 3.1.6.2 Path 1 3.1.6.2.1 Sensor frequency Description Desired sensor frequency for path 1. Read only. Setting 80000.0 Hz to 4000000.0 Hz Default Related Path...
Page 37 Setup 3.1 Sensor settings 3.1.6.2.3 Sensor spacing Description Sensor spacing - Distance between the front faces of the sensors for path 1. Setting -100.0 m to 100.0 m Default 0.0 m Related Path Setup → Sensor settings → Path settings → Path 1 → Sensor spacing 3.1.6.2.4 Zero point adjustment Description Zero point adjustment.
Page 38: Path 2
Setup 3.1 Sensor settings 3.1.6.3 Path 2 3.1.6.3.1 Sensor frequency Description Desired sensor frequency for path 2. Read only. Setting 80000.0 Hz to 4000000.0 Hz Default Related Path Setup → Sensor settings → Path settings → Path 2 → Sensor frequency 3.1.6.3.2 Path geometry Description The number of crossings the signal makes through the pipe (Reflect or direct geometry for...
Page 39: Necessary Number Of Measuring Paths
Setup 3.1 Sensor settings 2.1.6.3.4 Zero point adjustment Description Zero point adjustment. Can only be changed via the Sensor Wizard. Note Important Please stop all flow in the pipe and perform this function. The flow velocity is measured prior and after the function has been applied. Setting 5 to 300 Default...
Page 40: User Calibration
Setup 3.1 Sensor settings 3.1.7 User calibration 3.1.7.1 Slope Description A single point flow correction applied to volume flow equally at any flow rate. Q = Q * Slope (e.g. Slope of 0.99 = -1% correction) Setting 0.5 to 2.0 Default Related Path...
Page 41: Multipoint Calibration
Setup 3.1 Sensor settings 3.1.8 Multipoint calibration 3.1.8.1 Enable multipoint calibration Description Enable or disable the multipoint calibration. Setting Disabled; Enabled Default Disabled Related Path Setup → Sensor settings → Multipoint calibration 3.1.8.2 Asymmetric calibration table Description Note Access level: Expert user only Only available for LUILOCAL_CURRENT_LUI_ACCESS_LEVEL == SUP AND PID_ProtectCalibrationTable == 0 AND PID_EnableUserCalibrationTable == 1 Usage of the calibration table:...
Page 42: Multipoint Calibration Table
Setup 3.1 Sensor settings Related Path Setup → Sensor settings → Calibration point 3.1.8.4 Multipoint calibration table 3.1.8.4.1 Calibration point 1 - 20 Description Calibration points 1 through 20 for unidirectional flow or calibration points 1 through 20 for bidirectional positive flow. If 0.0 the calibration point is not used. Access level: Expert user only.
Page 43: Flow Direction
Setup 3.1 Sensor settings 3.1.9 Flow direction Description The calibrated flow direction is indicated by the arrow on the sensor. If the system requires installation of the sensor with the flow running in the opposite direction, the Flow Direction parameter must be changed from Positive to Negative to totalize correctly. The sensitivity and the accuracy of the sensor do not change with reverse flow.
Page 44: Minimum Ringdown Delay
Setup 3.1 Sensor settings Access level: Expert user only. Setting 1 to 10 Default Related Path Setup → Sensor settings → Miscellaneous → Number of pulses to be transmitted 3.1.10.3 Minimum ringdown delay Description The minimum ringdown delay is needed for optimized signal processing. Access level: Expert user only.
Page 45: Sensor Size
Setup 3.2 Process values The wizard configures the device for use with the Siemens sensor test blocks including sensor size and sensor path. It also allows for saving the setting. 3.1.11.2 Sensor size Sensor size Sensor path Path 1; Path 2 Path 1;...
Page 46: Custom Units
Setup 3.2 Process values Setting l/s (liters per second); l/min (liters per minute); l/h (liters per hour); I/d (liters per day); Ml/d (million liters per day); hI/s (hectoliters per second); hI/min (hectoliters per minute); hI/min (hectoliters per hour); hI/min (hectoliters per day); m³/s (cubic meters per second); m³/min (cubic meters per minute);...
Page 47: Decimal Places
Setup 3.2 Process values Related Path Setup → Process values → Volume flow → Custom conversion factor 3.2.1.4 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places;...
Page 48 Setup 3.2 Process values 3.2.1.6.2 Upper warning limit Description Exceeding this limit causes a warning. Setting -896.40 m /h to 896.40 m Default 896.40 m Related Path Setup → Process values → Volume flow → Alarm and warning limits → Upper warning limit 3.2.1.6.3 Lower warning limit Description Falling below this limit causes a warning.
Page 49: Mass Flow
Setup 3.2 Process values Related Path Setup → Process values → Volume flow → Alarm and warning limits → Hysteresis 3.2.2 Mass flow 3.2.2.1 Units Description Select units for displayed mass flow rate. Units are not applied at communication interface. Setting g/s (grams per second);...
Page 50: Decimal Places
Setup 3.2 Process values Related Path Setup → Process values → Mass flow → Custom conversion factor 3.2.2.4 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places;...
Page 51 Setup 3.2 Process values 3.2.2.6.2 Upper warning limit Description If mass flow value exceeds this limit a warning is triggered. Setting -3682800.00 kg/h to +3682800.00 kg/h Default 3682800.00 kg/h Related Path Setup → Process values → Mass flow → Alarm and warning limits → Upper warning limit 3.2.2.6.3 Lower warning limit Description If the mass flow value falls below this limit a warning is triggered.
Page 52: Standard Flow Volume
Setup 3.2 Process values Related Path Setup → Process values → Mass flow → Alarm and warning limits → Hysteresis 3.2.3 Standard flow volume 3.2.3.1 Units Description Select units for displayed standard volume flow rate. Units are not applied at communication interface.
Page 53: Decimal Places
Setup 3.2 Process values Setting Default Related Path Setup → Process values → Standard volume flow → Custom conversion factor 3.2.3.4 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places;...
Page 54 Setup 3.2 Process values Related Path Setup → Process values → Standard volume flow → Alarm and warning limits → Upper alarm limit 3.2.3.6.2 Upper warning limit Description Exceeding this limit causes a warning. Setting -10800000.00 Sm /h to +10800000.00 Sm Default 3600.00 Sm Related...
Page 55: Standard Temperature
Setup 3.2 Process values 3.2.3.6.5 Hysteresis Description Hysteresis that affects the alarm and warning limits. Setting -10800000.00 Sm /h to +10800000.00 Sm Default 0.00 Sm Related Path Setup → Process values → Standard volume flow → Alarm and warning limits → Hysteresis 3.2.3.7 Standard temperature Description...
Page 56: Flow Velocity
Setup 3.2 Process values Related Path Setup → Process values → Standard volume flow → Air density at standard conditions 3.2.4 Flow velocity 3.2.4.1 Units Description Select units for displayed flow velocity. Units are not applied at communication interface. Units for flow velocity values. Setting m/s (meters per second);...
Page 57: Decimal Places
Setup 3.2 Process values Related Path Setup → Process values → Flow velocity → Custom conversion factor 3.2.4.4 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places;...
Page 58 Setup 3.2 Process values 3.2.4.6.2 Upper warning limit Description If process value exceeds this limit a warning is triggered. Setting -9999997952 m/s to +9999997952 m/s Default 9999997952 m/s Related Path Setup → Process values → Flow velocity → Alarm and warning limits → Upper warning limit 3.2.4.6.3 Lower warning limit Description If process value falls below this limit a warning is triggered.
Page 59: Sound Velocity
Setup 3.2 Process values Related Path Setup → Process values → Flow velocity → Alarm and warning limits → Hysteresis 3.2.5 Sound velocity 3.2.5.1 Units Description Select units for displayed sound velocity. Units are not applied at communication interface. Setting m/s (meters per second);...
Page 60: Decimal Places
Setup 3.2 Process values Related Path Setup → Process values → Sound velocity → Custom conversion factor 3.2.5.4 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places;...
Page 61 Setup 3.2 Process values 3.2.5.5.3 Lower warning limit Description if the process value falls below this limit a warning is triggered. Setting -9999997952 m/s to +9999997952 m/s Default -9999997952 m/s Related Path Setup → Process values → Sound velocity → Alarm and warning limits → Lower warning limit 3.2.5.5.4 Lower alarm limit Description...
Page 62: Liquident
Setup 3.2 Process values 3.2.6 LiquIdent 3.2.6.1 Alarm and warning limits 3.2.6.1.1 Upper alarm limit Description Exceeding this limit causes an alarm. Setting -9999997952 m/s to 9999997952 m/s Default 9999997952 m/s Related Path Setup → Process values → LiquIdent → Alarm and warning limits → Upper alarm limit 3.2.6.1.2 Upper warning limit Description Exceeding this limit causes a warning.
Page 63: Temperature Slope Factor
Setup 3.2 Process values 3.2.6.1.4 Lower alarm limit Description Falling below this limit causes an alarm. Setting -9999997952 m/s to 9999997952 m/s Default -9999997952 m/s Related Path Setup → Process values → LiquIdent → Alarm and warning limits → Lower alarm limit 3.2.6.1.5 Hysteresis Description Hysteresis that affects the alarm and warning limits.
Page 64: Density
Setup 3.2 Process values Related Path Setup → Process values → LiquIdent → Pressure slope factor 3.2.7 Density 3.2.7.1 Units Description Displays units for displayed density. Units are not applied at communication interface. Read only. Setting μg/l (micrograms per liter); μg/m³ (micrograms per cubic meter); mg/l (milligrams per liter); g/ml (grams per milliliter);...
Page 65: Decimal Places
Setup 3.2 Process values Related Path Setup → Process values → Density → Custom conversion factor 3.2.7.4 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places;...
Page 66: Kinematic Viscosity
Setup 3.2 Process values 3.2.7.5.3 Lower warning limit Description if density value falls below this limit a warning is triggered. Setting 0.00 kg/m³ to +10000.00 kg/m³ Default 1.00 kg/m³ Related Path Setup → Process values → Density → Alarm and warning limits → Lower warning limit 3.2.7.5.4 Lower alarm limit Description If density value falls below this limit an alarm is triggered.
Page 67: Decimal Places
Setup 3.2 Process values Read only. Setting /s (square meters per second); cSt (1 centistoke = 1 mm /s); St (stokes, 1St = 1cm Default /s (square meters per second) Related Path Setup → Process values → Kinematic viscosity→ Units 3.2.8.2 Decimal places Description...
Page 68 Setup 3.2 Process values Related Path Setup → Process values → Kinematic viscosity → Alarm and warning limits → Upper warning limit 3.2.8.3.3 Lower warning limit Description If process value falls below this limit a warning is triggered. Setting -9999997952 m²/s to +9999997952 m²/s Default -9999997952 m²/s Related...
Page 69: Pressure
Setup 3.2 Process values 3.2.9 Pressure 3.2.9.1 Units Description Select units for displayed pressure. Units are not applied at communication interface. Setting mbar (millibar); bar; Pa (pascals); kPa (kilopascals); MPa (Megapascals); psi (pounds per square inch); kgf/cm² (kilogram force per square cm); mmH2O (millimeters of water at 68 °F);...
Page 70 Setup 3.2 Process values Related Path Setup → Process values → Pressure → Alarm and warning limits → Upper alarm limit 3.2.9.3.2 Upper warning limit Description If process value exceeds this limit a warning is triggered. Setting -9999997952 Pa to +9999997952 Pa Default 9999997952 Pa Related...
Page 71: Medium Temperature
Setup 3.2 Process values 3.2.9.3.5 Hysteresis Description Sets the hysteresis for alarm and warning limits. The hysteresis is the distance between the limits for activation and deactivation of an alarm/warning. Setting 0 Pa to +9999997952 Pa Default 0.00 Pa Related Path Setup →...
Page 72: Alarm And Warning Limits
Setup 3.2 Process values 3.2.10.3 Alarm and warning limits 3.2.10.3.1 Upper alarm limit Description Exceeding this limit causes an alarm. Setting -272.77 to +400.00 °C Default 280.00 °C Related Path Setup → Process values → Medium temperature → Alarm and warning limits → Upper alarm limit 3.2.10.3.2 Upper warning limit Description...
Page 73: Standard Density
Setup 3.2 Process values 3.2.10.3.4 Lower alarm limit Description Falling below this limit causes an alarm. Related Setting -272.77 to +400.00 °C Default -270.00 °C Related Path Setup → Process values → Medium temperature → Alarm and warning limits → Lower alarm limit 3.2.10.3.5 Hysteresis Description...
Page 74: Decimal Places
Setup 3.2 Process values Related Path Setup → Process values → Standard density → Units 3.2.11.2 Decimal places Description Decimal places Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places; 5 decimal places; 6 decimal places Default 2 decimal places Related...
Page 75 Setup 3.2 Process values 3.2.11.3.3 Lower warning limit Description Falling below this limit causes a warning. Setting 0.00 kg/m³ to +10000.00 kg/m³ Default 1.00 kg/m³ Related Path Setup → Process values → Standard density → Alarm and warning limits → Lower warning limit 3.2.11.3.4 Lower alarm limit Description...
Page 76: Standard Kinematic Viscosity
Setup 3.2 Process values 3.2.12 Standard kinematic viscosity 3.2.12.1 Units Description Select unit for displayed standard kinematic viscosity. Unit is not applied at communication interface. Read only. Setting /s (square meters per second); cSt (1 centistoke = 1 mm /s); St (stokes, 1 St = 1cm Default /s (square meters per second) Related...
Page 77 Setup 3.2 Process values 3.2.12.3.2 Upper warning limit Description Exceeding this limit causes a warning. Setting -9999997952 m²/s to +9999997952 m²/s Default +9999997952 m²/s Related Path Setup → Process values → Standard kinematic viscosity → Alarm and warning limits → Up- per warning limit 3.2.12.3.3 Lower warning limit Description...
Page 78: Api Gravity
Setup 3.2 Process values Setting 0.00 m²/s to +9999997952 m²/s Default 0.00 m²/s Related Path Setup → Process values → Standard kinematic viscosity → Alarm and warning limits → Hys- teresis 3.2.13 API gravity 3.2.13.1 Alarm and warning limits 3.2.13.1.1 Upper alarm limit Description Exceeding this limit causes an alarm.
Page 79: Standard Api Gravity
Setup 3.2 Process values Setting -9999997952 °API to +9999997952 °API Default -9999997952 °API Related Path Setup → Process values → API gravity → Alarm and warning limits → Lower warning limit 3.2.13.1.4 Lower alarm limit Description Falling below this limit causes an alarm. Setting -9999997952 °API to +9999997952 °API Default...
Page 80 Setup 3.2 Process values Setting -9999997952 °API to +9999997952 °API Default +9999997952 °API Related Path Setup → Process values → Standard API gravity → Alarm and warning limits → Upper alarm limit 3.2.14.1.2 Upper warning limit Description Exceeding this limit causes a warning. Setting -9999997952 °API to +9999997952 °API Default...
Page 81: Specific Gravity
Setup 3.2 Process values Related Path Setup → Process values → Standard API gravity → Alarm and warning limits → Lower alarm limit 3.2.14.1.5 Hysteresis Description Hysteresis that affects the alarm and warning limits. Setting 0.00 °API to +9999997952 °API Default 0.00 °API Related...
Page 82 Setup 3.2 Process values Related Path Setup → Process values → Specific gravity → Alarm and warning limits → Upper warning limit 3.2.15.1.3 Lower warning limit Description Falling below this limit causes a warning. Setting -9999997952 SGU to +9999997952 SGU Default -9999997952 SGU Related...
Page 83: Standard Specific Gravity
Setup 3.2 Process values 3.2.16 Standard specific gravity 3.2.16.1 Alarm and warning limits 3.2.16.1.1 Upper alarm limit Description Exceeding this limit causes an alarm. Setting -9999997952 SGU to +9999997952 SGU Default +9999997952 SGU Related Path Setup → Process values → Standard specific gravity → Alarm and warning limits → Upper alarm limit 3.2.16.1.2 Upper warning limit Description...
Page 84: Totalizers
Setup 3.3 Totalizers 3.2.16.1.4 Lower alarm limit Description Falling below this limit causes an alarm. Setting -9999997952 SGU to +9999997952 SGU Default -9999997952 SGU Related Path Setup → Process values → Standard specific gravity → Alarm and warning limits → Lower alarm limit 3.2.16.1.5 Hysteresis Description...
Page 85: Units
Setup 3.3 Totalizers 3.3.1.2 Units Description Select units for displayed Totalizer 1. The set of units depends on the selected process value. Units are not applied at communication interface. Setting Process value = Mass flow: g (grams); kg (kilograms); t (1 t = 1000 kg); STon (1 STon = 2000 lb);...
Page 86: Decimal Places
Setup 3.3 Totalizers 3.3.1.5 Decimal places Description Sets the decimal places for the process value displayed in the local display. Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places; 5 decimal places; 6 decimal places Default 2 decimal places Related...
Page 87: Preset
Setup 3.3 Totalizers Related Path Setup → Totalizers → Totalizer 1 → Reset 3.3.1.9 Preset Description Reset Totalizer 1 to selected preset value. After selecting OK the user is asked for the PRESET value. The PRESET value units depend on the selected Process value. Therefore the range of the Preset value is for: ●...
Page 88 Setup 3.3 Totalizers 3.3.1.10.2 Upper warning limit Description Warning is triggered if Totalizer 1 value is above the limit. Setting Process value = Mass flow: -9999997952 kg to +9999997952 kg Process value = Volume flow: -9999997952 m³ to +9999997952 m³ Process value = Standard volume flow: -9999997952 Sm³...
Page 89: Totalizer 2
Setup 3.3 Totalizers 3.3.1.10.5 Hysteresis Description Hysteresis sets the alarm and warning limits. The hysterious is the distance between the limits for activation and deactivation of an alarm/warning. Setting Process value = Mass flow: 0.00 kg to +9999997952 kg Process value = Volume flow: 0.00 m³ to +9999997952 m³ Process value = Standard volume flow: 0.00 Sm³...
Page 90: Custom Units
Setup 3.3 Totalizers Setting Process value = Mass flow: g (grams); kg (kilograms); t (1 t = 1000 kg); STon (1 STon = 2000 lb); T (1 T = 2240 lb); oz (ounces); lb (pounds); Process value = Volume flow: l (li- ters);...
Page 91: Direction
Setup 3.3 Totalizers Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places; 5 decimal places; 6 decimal places Default 2 decimal places Related Path Setup → Totalizers → Totalizer 2 → Decimal places 3.3.2.6 Direction Description...
Page 92: Preset
Setup 3.3 Totalizers 3.3.2.9 Preset Description Reset Totalizer 2 to selected preset value. After selecting OK the user is asked for the PRESET value. The PRESET value units depend on the selected Process value. Therefore the range of the Preset value is for: ●...
Page 93 Setup 3.3 Totalizers Setting Process value = Mass flow: -9999997952 kg to +9999997952 kg Process value = Volume flow: -9999997952 m³ to +9999997952 m³ Process value = Standard volume flow: -9999997952 Sm³ to +9999997952 Sm³ Default Process value = Mass flow: +9999997952 kg Process value = Volume flow: +9999997952 m³...
Page 94: Totalizer 3
Setup 3.3 Totalizers 3.3.2.10.5 Hysteresis Description Hysteresis sets the alarm and warning limits. The hysterious is the distance between the limits for activation and deactivation of an alarm/warning. Setting Process value = Mass flow: 0.00 kg to +9999997952 kg Process value = Volume flow: 0.00 m³ to +9999997952 m³ Process value = Standard volume flow: 0.00 Sm³...
Page 95: Custom Units
Setup 3.3 Totalizers Setting Process value = Mass flow: g (grams); kg (kilograms); t (1 t = 1000 kg); STon (1 STon = 2000 lb); T (1 T = 2240 lb); oz (ounces); lb (pounds); Process value = Volume flow: l (li- ters);...
Page 96: Direction
Setup 3.3 Totalizers Setting Auto; No decimal place; 1 decimal place; 2 decimal places; 3 decimal places; 4 decimal places; 5 decimal places; 6 decimal places Default 2 decimal places Related Path Setup → Totalizers → Totalizer 3 → Decimal places 3.3.3.6 Direction Description...
Page 97: Preset
Setup 3.3 Totalizers 3.3.3.9 Preset Description Reset Totalizer 3 to selected preset value. After selecting OK the user is asked for the PRESET value. The PRESET value units depend on the selected Process value. Therefore the range of the Preset value is for: ●...
Page 98 Setup 3.3 Totalizers Setting Process value = Mass flow: -9999997952 kg to +9999997952 kg Process value = Volume flow: -9999997952 m³ to +9999997952 m³ Process value = Standard volume flow: -9999997952 Sm³ to +9999997952 Sm³ Default Process value = Mass flow: +9999997952 kg Process value = Volume flow: +9999997952 m³...
Page 99: Reset All Totalizers
Setup 3.4 Inputs and outputs 3.3.3.10.5 Hysteresis Description Hysteresis sets the alarm and warning limits. The hysterious is the distance between the limits for activation and deactivation of an alarm/warning. Setting Process value = Mass flow: 0.00 kg to +9999997952 kg Process value = Volume flow: 0.00 m³...
Page 100 Setup 3.4 Inputs and outputs Channel HW configuration SW configuration (fixed when ordering) available to the user Signal output Outputs: Current output (0/4-20 mA) • Frequency ouput • Pulse output • Status output • – Alarm class – Alarm item –...
Page 101 Setup 3.4 Inputs and outputs Channel HW configuration SW configuration (fixed when ordering) available to the user Signal input/output Inputs: Current input (0/4-20 mA) • Digital input: • – Totalizer reset – Remote zero adjust – Force outputs – Freeze process values Outputs: Current output (0/4-20 mA) •...
Page 102 Setup 3.4 Inputs and outputs ● LiquIdent - Available with Oil software option only. ● API gravity ● Standard API gravity ● Specific gravity ● Standard specific gravity All process variables are available through Channels 1 to 4. The accuracy specified for the analog output signal applies only within the range 4 to 20 mA. Lower limit (4 mA) and upper limit (20 mA) can be assigned to any specific flow values.
Page 103 Setup 3.4 Inputs and outputs For channel 1 the range is 3.5 mA to 25 mA Output scaling configuration Below are four examples describing configuration possibilities for a current output. Positive flow with negative scaling ① Low flow cut-off ② Upper range value ③...
Page 104 Setup 3.4 Inputs and outputs Positive flow across zero with positive scaling ① Lower range value ② Low flow cut-off ③ Upper range value ④ Upper saturation limit ⑤ Lower saturation limit ⑥ Lower fault current ⑦ Span Current output setting ●...
Page 105 Setup 3.4 Inputs and outputs Bidirectional flow across zero with positive scaling ① Lower range value ② Low flow cut-off ③ Upper range value ④ Upper saturation limit ⑤ Lower saturation limit ⑥ Lower fault current ⑦ Span Current output setting ●...
Page 106 Setup 3.4 Inputs and outputs Bidirectional flow with symmetrical scaling ① Upper range value ② Lower range value ③ Low flow cut-off ④ Upper fault current ⑤ Upper saturation limit ⑥ Lower saturation limit ⑦ Span Current output setting ● Process value = Mass flow ●...
Page 107 Setup 3.4 Inputs and outputs Example ● Pulse output configuration (channels 2 to 4) – Operation mode = Pulse output – Process value = Mass flow – Amount per pulse = 1 kg – Pulse width = 1 ms ● Measured mass flow value = 10 kg/s (constant) Result: ●...
Page 108 Alarm class / NAMUR status signals The options depend on the setting selected in Staus icons, either NAMUR status signals or Alarm class (Siemens Standard). Redundancy mode (frequency) If both channel 2 and channel 3 are configured as frequency outputs, channel 3 can be configured for redundancy mode to follow channel 2 shifted by 90˚or 180˚.
Page 109 Setup 3.4 Inputs and outputs Figure 3-2 Positive flow - channel 3 leads by 90° Figure 3-3 Negative flow - channel 3 lags by 90° Channel 2 configured as positive direction and channel 3 set to redundancy mode 180˚ Figure 3-4 Positive/negative flow - channel 3 lags by 180°...
Page 110: Current Input
Setup 3.4 Inputs and outputs Figure 3-7 Positive flow - channel 3 leads by 180° Figure 3-8 Negative flow - channel 3 lags by 180° 3.4.1 Current input The current input allows to provide an additional process value to the device for compensation purposes.
Page 111: Digital Input
Setup 3.4 Inputs and outputs 3.4.2 Digital input If the input signal is activated with a logical signal (15 to 30 V DC) and the Polarity is set to Active high level, the meter carries out an activity selected in the menu Input function: ●...
Page 112: Active Operation (Read Only)
Setup 3.4 Inputs and outputs 3.4.3.2 Active operation (read only) Description Shows application possibilities. Setting Active operation not possible, use passive wiring; Active operation possible, hardware is able to drive the current loop Default Related Path Setup → Inputs and outputs → Channel 1 - output with HART → Active operation 3.4.3.3 PV selection Description...
Page 113: Loop Current Scale
Setup 3.4 Inputs and outputs 3.4.3.5 Loop current scale Description Sets current output scaling according to desired measurement range. Format: <Nominal range> (<lower fault current>) <lower saturation limit> to <upper saturation limit> (<upper fault current>) [<Description>] Setting 4 to 20 mA (3.50) 3.8 to 20.5 (22.6) NAMUR 4 to 20 mA (3.75) 4.0 to 20.8 (22.6) US Default 4 to 20 mA (3.50) 3.8 to 20.5 (22.6) NAMUR...
Page 114: Fail-Safe Activation Condition
Setup 3.4 Inputs and outputs 3.4.3.8 Fail-safe activation condition Description Defines the condition the fail-safe behaviour of the channel becomes active and determines the channel availability. Setting Invalid process value; Maintenance alarm or Failure (NAMUR) Default Maintenance alarm or Failure (NAMUR) Related Path Setup →...
Page 115: Fail-Safe Value
Setup 3.4 Inputs and outputs 3.4.3.11 Fail-safe value Description Output value in case of a fault and when fail safe mode configured to Fail-safe value. Note Important Values are specific to Channel 1. Setting 3.5 mA to 25.0 mA Default 3.5 mA Related Path...
Page 116: Active Operation (Read Only)
Setup 3.4 Inputs and outputs 3.4.4.2 Active operation (read only) Description Shows application possibilities. Setting Active operation not possible, use passive wiring; Active operation possible, hardware is able to drive the current loop Default Related Path Setup → Inputs and outputs → Channel 2 - output → Active operation 3.4.4.3 Fail-safe activation condition Description...
Page 117 Setup 3.4 Inputs and outputs 3.4.4.4.2 Direction Description Flow direction filter applicable for process values mass flow/volume flow/flow velocity/standard volume flow rate (only hydrocarbon and gas applications). Setting Positive; Negative; Bidirectional; Bidirectional (symmetric) Default Positive Related Path Setup → Inputs and outputs → Channel 2 - output → Current output → Direction 3.4.4.4.3 Loop current scale Description Sets current output scaling according to desired measurement range.
Page 118 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Current output → Upper range value 3.4.4.4.5 Lower range value Description Sets value at 0% of measuring span and corresponds to a loop current of 0/4 mA. Setting and Default are sensor specific, depending on the setting in Process value and depending on the Units setting.
Page 119: Frequency Output
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Current output → Fail-safe behaviour 3.4.4.4.8 Fail-safe value Description Output value in case of a fault and when fail-safe behaviour configured to fail-safe value. Setting 0.0 mA to 25.0 mA Default...
Page 120 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Frequency output → Process value 3.4.4.5.2 Direction Description Flow direction filter applicable for process values mass flow/volume flow/flow velocity/standard volume flow rate (only hydrocarbon and gas applications). Setting Positive;...
Page 121 Setup 3.4 Inputs and outputs 3.4.4.5.5 Upper range value Description Sets value at 100% of measuring span and corresponds to Frequency value high. Setting and Default are sensor specific, depending on the setting in Process value and depending on the Units setting. Setting -3682800.00 kg/h to +3682800.00 kg/h Default...
Page 122: Pulse Output
Setup 3.4 Inputs and outputs Setting Minimum frequency; Maximum frequency; Last valid value; Current value; Fail-safe value Default Last valid value Related Path Setup → Inputs and outputs → Channel 2 - output → Frequency output → Fail-safe behav- iour 3.4.4.5.9 Fail-safe value Description Output value in case of a fault and when fail-safe mode configured to Fail-safe value.
Page 123 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Pulse output → Process value 3.4.4.6.2 Direction Description Flow direction filter. Setting Positive; Negative; Bidirectional Default Positive Related Path Setup → Inputs and outputs → Channel 2 - output → Pulse output → Direction 3.4.4.6.3 Pulse units Description Units of pulse duration values of Ch2 in pulse mode.
Page 124 Setup 3.4 Inputs and outputs 3.4.4.6.5 Custom conversion factor Description Conversion factor for user specific pulse values. Setting Default Related Path Setup → Inputs and outputs → Channel 2 - output → Pulse outputs → Custom conversion factor 3.4.4.6.6 Amount per pulse Description Amount of value to generate an output pulse.
Page 125 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Pulse output → Pulse width units 3.4.4.6.9 Pulse width Description Pulse duration. Setting 0.00 s to 4.00 s Default 0.10 s Related Path Setup →...
Page 126: Status Output
Setup 3.4 Inputs and outputs 3.4.4.6.12 Fail-safe value Description Output value in case of a fault and when fail-safe behaviour configured to fail-safe value. Setting 0.0 pulses/s to 12500.0 pulses/s Default 1.0 pulses/s Related Path Setup → Inputs and outputs → Channel 2 - output → Pulse output → Fail-safe value 3.4.4.6.13 Fail-safe minimum time Description Minimum time the output stays in fail-safe mode.
Page 127 Setup 3.4 Inputs and outputs Setting 05 DSL voltages; 06 DSL Storage; 07 Flow measurement; 08 DSL internal; 14 Path 1: No signal; 15 Path 2: No signal; 16 Path 3: No signal; 17 Path 4: No signal; 19 Electronics temp.;...
Page 128 Setup 3.4 Inputs and outputs 3.4.4.7.5 Process alarms (2) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only. Setting 132 Std. vol. flow above alarm limit; 133 Std. vol. flow above warning limit; 134 Std. vol. flow below warning limit;...
Page 129 Setup 3.4 Inputs and outputs Setting 256 Standard density above alarm limit; 257 Standard density above warning limit; 258 Standard density below warning limit; 259 Standard density below alarm limit; 260 API gravity above alarm limit; 261 API gravity above warning limit; 262 API gravity below warn- ing limit;...
Page 130 Setup 3.4 Inputs and outputs 3.4.4.7.10 Device alarms Description Device alarms - If one of the selected events appears this affects the status icon, the related status output, and the alarm on the communication interface. Setting 148 Transm. temp. above alarm limit; 149 Transm. temp. below alarm limit; 150 Sensor signal disrupted;...
Page 131 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Status output → Input/output alarms (2) 3.4.4.7.13 Simulation alarms (1) Description Selection of alarm items that impact the output. Mainly simulation alarms. Applicable if Status mode = Alarm item.
Page 132 Setup 3.4 Inputs and outputs Bit 4: Maintenance required (MR) Bit 5: Function check (FC) Setting Maintenance alarm; Function check; Process value alarm; Process value warning; Mainte- nance demanded; Maintenance required Default None Related Path Setup → Inputs and outputs → Channel 2 - output → Status output → Alarm class 3.4.4.7.16 NAMUR status signal Description Selection of NAMUR status signals which impact the status output.
Page 133: Channel 3 - Input/Output
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 2 - output → Status output → On delay 3.4.4.7.19 Off delay Description Set the time delay between resetting alarm condition and de-activating the output. Setting 0.0 s to 100.0 s Default 0.0 s...
Page 134: Active Operation (Read Only)
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Change operation mode 3.4.5.3 Active operation (read only) Description Shows application possibilities. Setting Active operation not possible, use passive wiring; Active operation possible, hardware is able to drive the current loop Default Related...
Page 135 Setup 3.4 Inputs and outputs Setting Volume flow; Mass flow; Standard volume flow (only hydrocarbon and gas applications); Flow velocity; Sound velocity; LiquIdent (only hydrocarbon applications); Density; Kinemat- ic viscosity; Pressure; Medium temperature; Standard density (only hydrocarbon and gas applications); Standard kinematic viscosity (only hydrocarbon applications); API gravity (only hydrocarbon applications);...
Page 136 Setup 3.4 Inputs and outputs 3.4.5.5.4 Upper range value Description Sets value at 100% of measuring span and corresponds to a loop current of 20 mA. Setting and Default are sensor specific, depending on the setting in Process value and depending on the Units setting.
Page 137 Setup 3.4 Inputs and outputs 3.4.5.5.7 Fail-safe behaviour Description Current output reaction in case of a fault. Setting Lower fault current; Upper fault current; Last valid value; Current value; Fail-safe value Default Lower fault current Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current output → Fail-safe behav- iour 3.4.5.5.8 Fail-safe value Description...
Page 138: Frequency Output
Setup 3.4 Inputs and outputs 3.4.5.6 Frequency output 3.4.5.6.1 Redundancy mode Description Sets the Redundancy mode. The frequency on channel 3 will follow frequency on channel 2 with 90° or 180° shift. Setting Off. Channel 3 runs in independently; 90°. Channel 3 follows frequency on channel 2 with a 90°...
Page 139 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Frequency output → Direction 3.4.5.6.4 Frequency value high Description Upper frequency value. Upper nominal output range boundary. Setting 0.0 Hz to 12500.0 Hz Default 10000.0 Hz Related...
Page 140 Setup 3.4 Inputs and outputs 3.4.5.6.7 Lower range value Description Sets value at 0% of measuring span and corresponds to Frequency value low. Setting and Default are sensor specific, depending on the setting in Process value and depending on the Units setting. Setting -108000000.00 kg/h to +10800000000.00 kg/h Default...
Page 141: Pulse Output
Setup 3.4 Inputs and outputs Setting 0 s to 100 s Default Related Path Setup → Inputs and outputs → Channel 3 - input/output → Frequency output → Fail-safe minimum time 3.4.5.6.11 Fail-safe value Description Output value in case of a fault and when fail-safe mode configured to fail-safe value. Setting 0.0 Hz to 12500.0 Hz Default...
Page 142 Setup 3.4 Inputs and outputs Setting Mass flow; Volume flow; Standard volume flow rate (only hydrocarbon and gas applica- tions) Default Volume flow Related Path Setup → Inputs and outputs → Channel 3 - input/output → Pulse output → Process value 3.4.5.7.3 Direction Description Flow direction filter.
Page 143 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - outputs → Pulse output → Custom units 3.4.5.7.6 Custom conversion factor Description Conversion factor for user specific pulse values. Setting Default Related Path Setup → Inputs and outputs → Channel 3 - output → Pulse outputs → Custom conversion factor 3.4.5.7.7 Amount per pulse Description...
Page 144 Setup 3.4 Inputs and outputs 3.4.5.7.9 Pulse width units Description Units of pulse duration value used to configure Ch3 pulse width. Setting s (seconds); ms (milliseconds); μs (micro seconds) Default s (seconds) Related Path Setup → Inputs and outputs → Channel 3 - input/output → Pulse output → Pulse width units 3.4.5.7.10 Pulse width Description Pulse duration.
Page 145: Status Output
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Pulse output → Fail-safe behav- iour 3.4.5.7.13 Fail-safe value Description Output value in case of a fault and when fail-safe behaviour configured to Fail-safe value. Setting 0.0 pulses/s to 12500.0 pulses/s Default...
Page 146 Setup 3.4 Inputs and outputs 3.4.5.8.2 Sensor alarms (1) Description Selection of alarm items that impact the output. Mainly sensor alarms. Applicable if Status mode = Alarm item. Setting 05 DSL voltages; 06 DSL Storage; 07 Flow measurement; 08 DSL internal; 09 Oil Density; 10 Oil Viscosity;...
Page 147 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Status output → Process alarms 3.4.5.8.5 Process alarms (2) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only.
Page 148 Setup 3.4 Inputs and outputs Setting 256 Standard density above alarm limit; 257 Standard density above warning limit; 258 Standard density below warning limit; 259 Standard density below alarm limit; 260 API gravity above alarm limit; 261 API gravity above warning limit; 262 API gravity below warn- ing limit;...
Page 149 Setup 3.4 Inputs and outputs 3.4.5.8.10 Channel 1 alarms Description Channel 1 alarms - The output is active when one of the alarm items occurs. Setting 153 CH1 loop cur. in lower saturation; 154 CH1 loop cur. in upper saturation; 155 CH1 loop current deviation;...
Page 150 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Status output → Input/output alarms (1) 3.4.5.8.12 Input/output alarms (2) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. Availability of certain settings depends on Hardware and Software configuration.
Page 151 Setup 3.4 Inputs and outputs Setting 289 Sound velocity simulated; 290 Flow velocity simulated; 291 Pressure simulated; 292 Kin. viscosity simulated; 293 Aux. temperature simulated; 294 Sensor temperature simu- lated; 296 CH5 simulated; 297 CH6 simulated; 288 Std. volume flow simulated; 299 Standardizing factor simulated;...
Page 152 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Status output → NAMUR status signal 3.4.5.8.17 Polarity Description Logical polarity of status output. Setting Active high level; Active low level Default Active high level Related Path...
Page 153: Digital Input
Setup 3.4 Inputs and outputs 3.4.5.9 Digital input 3.4.5.9.1 Input function Description Sets the input functionality. Setting Off; Reset totalizer 1; Reset totalizer 2; Reset totalizer 3; Reset all totalizers; Zero point adjustment; Force outputs; Freeze process values Default Related Path Setup →...
Page 154 Setup 3.4 Inputs and outputs Setting 0.00 pulses/s to 12500.00 pulses/s Default 1.00 pulses/s Pulse output Setting 0; 1 Default Status output Related Path Setup → Inputs and outputs → Channel 3 - input/output → Digital input → Forced value (Ch2) 3.4.5.9.4 Forced value (Ch4) Description...
Page 155: Current Input
Setup 3.4 Inputs and outputs 3.4.5.9.5 Delay time Description The debounce time used to delay the hardware input signal can be configured. Setting 0.0 ms; 0.5 ms; 1 ms; 1.5 ms; 2 ms; 2.5 ms; 3 ms; 3.5 ms; 4 ms; 4.5 ms; 5 ms; 5.5 ms; 6 ms;...
Page 156 Setup 3.4 Inputs and outputs Change process value - selection enable the changing of the process value Setting Off; Pressure; Medium temperature; Density; Kinematic viscosity; Sensor temperature; Auxiliary temperature Default Related Setup → Inputs and outputs → Channel 3 - input/output → Current input → Change process Path value 3.4.5.10.3 Loop current scale...
Page 157 Setup 3.4 Inputs and outputs 3.4.5.10.5 Lower range value Description Lower pressure value that is mapped to the upper nominal range boundary selected by current mode. Applicable if process value = Pressure. Setting Default 0.0 Pa Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current input → Lower range value 3.4.5.10.6 Medium temperature Description...
Page 158 Setup 3.4 Inputs and outputs Setting Default 1.00 m²/s Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current input → Kinematic vis- cosity 3.4.5.10.9 Sensor temperature Description Sensor temperature Setting -50.0 °C to 200.0° C Default 200.0°...
Page 159 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current input → Density 3.4.5.10.12 Kinematic viscosity Description Kinematic viscosity Setting Default 0.00 m²/s Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current input → Kinematic vis- cosity 3.4.5.10.13 Sensor temperature Description...
Page 160: Channel 3 - Relay
Setup 3.4 Inputs and outputs 3.4.5.10.15 Fail-safe value Description Input value in case of a fault and when fail-safe behaviour is configured to Fail-safe value. Applicable if process value = Fail-safe value. Setting Default 0.0 Pa Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current input → Fail-safe value 4.5.3.10.16 Fail-safe minimum time Description Minimum time the input stays in fail-safe mode.
Page 161: Status Mode
Setup 3.4 Inputs and outputs 3.4.6.2 Status mode Description Select the functionality for the status output. Setting Alarm class; Alarm item Default Alarm class Related Path Setup → Inputs and outputs → Channel 3 - relay → Status mode 3.4.6.3 Sensor alarms (1) Description Selection of alarm items that impact the output.
Page 162: Process Alarms (1)
Setup 3.4 Inputs and outputs 3.4.6.5 Process alarms (1) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. Setting 96 Mass flow above alarm limit; 97 Mass flow above warning limit; 98 Mass flow below warning limit;...
Page 163: Process Alarms (4)
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - relay → Process alarms (3) 3.4.6.8 Process alarms (4) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only.
Page 164: Device Alarms
Setup 3.4 Inputs and outputs 3.4.6.10 Device alarms Description Device alarms - If one of the selected events appears this affects the status icon, the related status output, and the alarm on the communication interface. 3.4.6.11 Device alarms - settings Setting 148 Transm.
Page 165: Input/Output Alarms (2)
Setup 3.4 Inputs and outputs Setting 195 CH2 loop cur. in lower saturation; 196 CH2 loop cur. in upper saturation; 197 CH2 cable break; 198 CH2 output frequency too low; 199 CH2 output frequency too high; 200 CH2 pulse overflow; 201 CH3 loop cur.
Page 166: Simulation Alarms (1)
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - relay → Input/output alarms (2) 3.4.6.16 Simulation alarms (1) Description Selection of alarm items that impact the output. Mainly simulation alarms. Applicable if Status mode = Alarm item. Setting 160 Mass flow simulated;...
Page 167: Namur Status Signal
Setup 3.4 Inputs and outputs Bit 4: Maintenance required (MR) Bit 5: Function check (FC) Setting Maintenance alarm; Function check; Process value alarm; Process value warning; Mainte- nance demanded; Maintenance required; None Default Related Path Setup → Inputs and outputs → Channel 3 - relay → Alarm class 3.4.6.19 NAMUR status signal Description...
Page 168: Off Delay
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 3 - relay → On delay 3.4.6.22 Off delay Description Set the time delay between resetting alarm condition and de-activating the output. Setting 0.0 s to 100.0 s Default 0.0 s Related...
Page 169: Active Operation (Read Only)
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Change operation mode 3.4.7.3 Active operation (read only) Description Shows application possibilities. Setting Active operation not possible, use passive wiring; active operation possible, hardware is able to drive the current loop Default Related...
Page 170 Setup 3.4 Inputs and outputs Setting Volume flow; Mass flow; Standard volume flow (only hydrocarbon and gas applications); Flow velocity; Sound velocity; LiquIdent (only hydrocarbon applications); Density; Kinemat- ic viscosity; Pressure; Medium temperature; Standard density (only hydrocarbon and gas applications); Standard kinematic viscosity (only hydrocarbon applications); API gravity (only hydrocarbon applications);...
Page 171 Setup 3.4 Inputs and outputs 3.4.7.5.4 Upper range value Description Sets value at 100% of measuring span and corresponds to a loop current of 20 mA. Setting and Default are sensor specific, depending on the setting in Process value and depending on the Units setting.
Page 172: Frequency Output
Setup 3.4 Inputs and outputs 3.4.7.5.7 Fail-safe behaviour Description Current output reaction in case of a fault. Setting Lower fault current; Upper fault current; Last valid value; Current value; Fail-safe value Default Lower fault current Related Path Setup → Inputs and outputs → Channel 4 - input/output → Current output → Fail-safe behav- iour 3.4.7.5.8 Fail-safe value Description...
Page 173 Setup 3.4 Inputs and outputs Setting Volume flow; Mass flow; Standard volume flow (only hydrocarbon and gas applications); Flow velocity; Sound velocity; LiquIdent (only hydrocarbon applications); Density; Kinemat- ic viscosity; Pressure; Medium temperature; Standard density (only hydrocarbon and gas applications); Standard kinematic viscosity (only hydrocarbon applications); API gravity (only hydrocarbon applications);...
Page 174 Setup 3.4 Inputs and outputs Setting 0.0 Hz to 12500.0 Hz Default 0.0 Hz Related Path Setup → Inputs and outputs → Channel 4 - input/output → Frequency output → Frequency value low 3.4.7.6.5 Upper range value Description Sets value at 100% of measuring span and corresponds to Frequency value high. Setting and Default are sensor specific, depending on the setting in Process value and depending on the Units setting.
Page 175 Setup 3.4 Inputs and outputs Setting 0.0 s to 100.0 s Default 0.0 s Related Path Setup → Inputs and outputs → Channel 4 - input/output → Frequency output → Damping value 3.4.7.6.8 Fail-safe behaviour Description Frequency output reaction in case of a fault. Setting Minimum frequency;...
Page 176: Pulse Output
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Frequency output → Fail-safe value 3.4.7.7 Pulse output 3.4.7.7.1 Process value Description Select process value for the pulse output. Setting Mass flow; Volume flow; Standard volume flow rate (only hydrocarbon and gas applica- tions) Default Volume flow...
Page 177 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Pulse output → Pulse units 3.4.7.7.4 Custom units Description User specific string to define custom pulse units. Setting Default Related Path Setup → Inputs and outputs → Channel 4 - input/output → Pulse output → Custom units 3.4.7.7.5 Custom conversion factor Description Conversion factor for user specific pulse values.
Page 178 Setup 3.4 Inputs and outputs 3.4.7.7.7 Pulses per amount Description Number of pulses which will be output when configured amount is reached. Setting 1 to 65535 Default Related Path Setup → Inputs and outputs → Channel 4 - input/output → Pulse output → Pulses per amount 3.4.7.7.8 Pulse width units Description...
Page 179: Status Output
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Pulse output → Fail safe behav- iour 3.4.7.7.11 Fail-safe value Description Output value in case of a fault and when fail-safe behaviour configured to Fail-safe value. Setting 0.0 pulses/s to 12500.0 pulses/s Default...
Page 180 Setup 3.4 Inputs and outputs 3.4.7.8.2 Sensor alarms (1) Description Selection of alarm items that impact the output. Mainly sensor alarms. Applicable if Status mode = Alarm item. Setting 05 DSL voltages; 06 DSL Storage; 07 Flow measurement; 08 DSL internal; 09 Oil Density; 10 Oil Viscosity;...
Page 181 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Status output → Process alarms 3.4.7.8.5 Process alarms (2) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only.
Page 182 Setup 3.4 Inputs and outputs Setting 256 Standard density above alarm limit; 257 Standard density above warning limit; 258 Standard density below warning limit; 259 Standard density below alarm limit; 260 API gravity above alarm limit; 261 API gravity above warning limit; 262 API gravity below warn- ing limit;...
Page 183 Setup 3.4 Inputs and outputs 3.4.7.8.10 Channel 1 alarms Description Channel 1 alarms - The output is active when one of the alarm items occurs. Setting 153 CH1 loop cur. in lower saturation; 154 CH1 loop cur. in upper saturation; 155 CH1 loop current deviation;...
Page 184 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Status output → Input/output alarms (1) 3.4.7.8.12 Input/output alarms (2) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. Availability of certain settings depends on Hardware and Software configuration.
Page 185 Setup 3.4 Inputs and outputs Setting 289 Sound velocity simulated; 290 Flow velocity simulated; 291 Pressure simulated; 292 Kin. viscosity simulated; 293 Aux. temperature simulated; 294 Sensor temperature simu- lated; 296 CH5 simulated; 297 CH6 simulated; 288 Std. volume flow simulated; 299 Standardizing factor simulated;...
Page 186 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Status output → NAMUR status signal 3.4.7.8.17 Polarity Description Logical polarity of status output. Setting Active high level; Active low level Default Active high level Related Path...
Page 187: Digital Input
Setup 3.4 Inputs and outputs 3.4.7.9 Digital input 3.4.7.9.1 Input function Description Sets the input functionality. Setting Off; Reset totalizer 1; Reset totalizer 2; Reset totalizer 3; Reset all totalizers; Zero point adjustment; Force outputs; Freeze process values Default Related Path Setup →...
Page 188 Setup 3.4 Inputs and outputs 3.4.7.9.4 Forced value (Ch3) Description Forced value when forcing is active. Setting 3.5 mA to 25 mA Default 4.0 mA Related Path Setup → Inputs and outputs → Channel 4 - input/output → Digital intput → Forced value (Ch3) 3.4.7.9.5 Delay time Description...
Page 189: Current Input
Setup 3.4 Inputs and outputs 3.4.7.10 Current input 3.4.7.10.1 Process value Description Assignments of the current input value to a process value. Read only. Setting Off; Pressure; Density; Kinematic viscosity; Medium temperature; Sensor temperature (current input) Auxiliary temperature (current input) Default Related Path...
Page 190 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Current input → Loop current scale 3.4.7.10.4 Upper range value Description Upper pressure value that is mapped to the upper nominal range boundary selected by current mode.
Page 191 Setup 3.4 Inputs and outputs 3.4.7.10.7 Density Description Density Setting -14000.00 kg/m³ to 14000.00 kg/m³ Default 14000.00 kg/m³ Related Path Setup → Inputs and outputs → Channel 4 - input/output → Current input → Density 3.4.7.10.8 Kinematic viscosity Description Kinematic viscosity Setting Default 1.00 m²/s...
Page 192 Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - input/output → Current input → Medium tempera- ture 3.4.7.10.11 Density Description Density Setting -14000.00 kg/m³ to 14000.00 kg/m³ Default 0.08 kg/m³ Related Path Setup → Inputs and outputs → Channel 3 - input/output → Current input → Density 3.4.7.10.12 Kinematic viscosity Description Kinematic viscosity...
Page 193 Setup 3.4 Inputs and outputs 3.4.7.10.14 Fail-safe behaviour Description Reaction in case of a fault at the current input. Setting Last valid value; Fail-safe value Default Last valid value Related Path Setup → Inputs and outputs → Channel 4 - input/output → Current input → Fail-safe behav- iour 3.4.7.10.15 Fail-safe value Description...
Page 194: Channel 4 - Relay
Setup 3.4 Inputs and outputs 3.4.8 Channel 4 - relay 3.4.8.1 Operation mode Description Select the operation mode for the relay output. Setting Off; Status output Default Status output Related Path Setup → Inputs and outputs → Channel 4 - relay → Operation mode 3.4.8.2 Status mode Description...
Page 195: Sensor Alarms (2)
Setup 3.4 Inputs and outputs 3.4.8.4 Sensor alarms (2) Description Selection of alarm items that impact the output. Mainly sensor alarms. Applicable if Status mode = Alarm item. Setting 32 Auxiliary input; 34 Invalid flow meas.; 35 Failure on CH5 or CH6; 36 Configuration 2; 37 DSL system monitor Default None...
Page 196: Process Alarms (3)
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - relay → Process alarms (2) 3.4.8.7 Process alarms (3) Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only.
Page 197: Totalizer Alarms
Setup 3.4 Inputs and outputs 3.4.8.9 Totalizer alarms Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only. Setting 136 Totalizer 1 above alarm limit; 137 Totalizer 1 above warning limit; 138 Totalizer 1 - below warning limit;...
Page 198: Input/Output Alarms
Setup 3.4 Inputs and outputs 3.4.8.12 Input/output alarms Description Selection of alarm items that impact the output. Applicable if Status mode = Alarm item. For hydrocarbon and gas applications only. Setting 186 CH3 input current too low; 187 CH3 input current too high; 188 CH3 external failure; 189 CH4 input current too low;...
Page 199: Namur Status Signal
Setup 3.4 Inputs and outputs Setting Maintenance alarm; Function check; Process value alarm; Process value warning; Mainte- nance demanded; Maintenance required; None Default Related Path Setup → Inputs and outputs → Channel 4 - relay → Alarm class 3.4.8.15 NAMUR status signal Description Selection of NAMUR status signals which impact the status output.
Page 200: Off Delay
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 4 - relay → On delay 3.4.8.18 Off delay Description Set the time delay between resetting alarm condition and de-activating the output. Setting 0.00 s to 100.00 s Default 0.00 s Related...
Page 201: Calibration
Setup 3.4 Inputs and outputs Related Path Setup → Inputs and outputs → Channel 5 - input → RTD configuration → RTD type 3.4.9.2.2 RTD wire configuration Description Wire configuration of connected RTD. Setting 2-wire RTD; 3-wire RTD; 4-wire RTD Default 4-wire RTD Related...
Page 202: Channel 6 - Input
Setup 3.4 Inputs and outputs 3.4.9.3.2 Slope Description Calibration slope. Setting Default Related Path Setup → Inputs and outputs → Channel 5 - input → Calibration → Slope 3.4.10 Channel 6 - input 3.4.10.1 Process value Description Assignment of the current input value to a process value. Setting Off;...
Page 203: Calibration
Setup 3.4 Inputs and outputs 3.4.10.2.2 RTD wire configuration Description Wire configuration of connected RTD. Setting 2-wire RTD; 3-wire RTD; 4-wire RTD Default 4-wire RTD Related Path Setup → Inputs and outputs → Channel 6 - input → RTD configuration → RTD wire configu- ration 3.4.10.2.3 RTD wire resistance Description...
Page 204: Date And Time
Setup 3.5 Date and time Setting 0.5 to 2.0 Default Related Path Setup → Inputs and outputs → Channel 6 - input → Calibration → Slope Date and time 3.5.1 Current date and time Description Displays the current date and time. Read only.
Page 205: Brightness
Setup 3.6 Local display In view 1 only measurement or diagnostic views can be selected. In views 2 to 6 all view types can be selected. Measurement views ● Single value ● Three values ● 1 value and bargraph ● 1 value and graph ●...
Page 206: Contrast
Setup 3.6 Local display Related Path Setup → Local display → Backlight 3.6.3 Contrast Description Adjust contrast to improve local display conditions. Setting 0%; 10%; 20%; 30%; 40%; 50%; 60%; 70%; 80%; 90%; 100% Default Related Path Setup → Local display → Contrast 3.6.4 Damping 3.6.4.1...
Page 207: Process Values (2)
Setup 3.6 Local display Related Path Setup → Local display → Damping → Process values (1) 3.6.4.3 Process values (2) Description Available process values for the meter. Setting API gravity; Standard API gravity; Specific gravity; Standard specific gravity; Rate of change Default Specific gravity...
Page 208: 1St Value
Setup 3.6 Local display 3.6.5.2 1st value Description The display 1st process value can be selected. This process value is shown in all view types. Setting Volume flow; Mass flow; Standard volume flow; Flow velocity; Sound velocity; Liquid identi- fier; LiquIdent; Density; Kinematic viscosity; Totalizer 1; Totalizer 2; Totalizer 3; Pressure; Medium temperature;...
Page 209: 3Rd Value
Setup 3.6 Local display 3.6.5.5 3rd value Description The display 3rd process value can be selected. Setting Volume flow; Mass flow; Flow velocity; Sound velocity; Density; Kinematic viscosity; Total- izer 1; Totalizer 2; Totalizer 3; Pressure; Medium temperature Default Medium temperature Related This parameter is only available if View 1 is set to Three values, Six values or Six diagnostic values.
Page 210: 6Th Process Value
Setup 3.6 Local display 3.6.5.8 6th process value Description The display 6th process value can be selected. Setting Volume flow; Mass flow; Flow velocity; Sound velocity; Density; Process viscosity; Process pressure; Fluid temperature; Reference density; Totalizer 1; Totalizer 2; Totalizer 3 Default Fluid temperature Related...
Page 211: Trend Scale Lower Limit
Setup 3.6 Local display 3.6.5.11 Trend scale lower limit Description The Trend scale lower limit defines the scaling lower limit of the value axis for the fixed mode. Setting Default Related This parameter is only available if Trend scale mode is set to Fixed. Path Setup →...
Page 212: View
Setup 3.6 Local display 3.6.6.2 View Description The display View 2 can be configured. Setting Single value; Three values; Totalizer; 1 value and bargraph; 1 value and graph; Six values; Six diagnostic values; Alarm list Default Single value Related If Single value or Dosing is selected, 1st process value must be configured. If Three values is selected, 1st process value, 2nd process value and 3rd process value must be configured.
Page 213: 3Rd Process Value
Setup 3.6 Local display Setting Mass flow; Volume flow; Density; Fluid Temperature; Corrected Volume flow; Reference Density; Totalizer 1; Totalizer 2; Totalizer 3 Default Density Related This parameter is only available if View is set to Three Values, Six Values or Six Diagnostic Values.
Page 214: 6Th Process Value
Setup 3.6 Local display Setting Mass flow; Volume flow; Density; Fluid Temperature; Corrected Volume flow; Reference Density; Totalizer 1; Totalizer 2; Totalizer 3 Default Totalizer 1 Related This parameter is only available if View is set to Six Values or Six Diagnostic Values. Path Setup →...
Page 215: Trend Scale Lower Limit
Setup 3.6 Local display Setting 1 Minute; 5 Minutes; 15 Minutes; 30 Minutes; 1 Hour; 2 Hours; 3 Hours Default 5 Minutes Related This parameter is only available if View is set to Totalizer or 1 Value and Graph. Path Setup →...
Page 216: View 3
Setup 3.6 Local display 3.6.7 View 3 3.6.7.1 Enable or disable Description In this parameter View 3 can be enabled. Setting Disabled; Enabled Default Enabled Related If Enabled is selected, all parameters for View 3 must be configured. Path Setup → Display → View 3 → Enable or disable 3.6.7.2 View Description...
Page 217: Graphic Scale Mode
Setup 3.6 Local display Setting Volume flow; Mass flow; Standard volume flow; Flow velocity; Sound velocity; Liquid identi- fier; LiquIdent; Density; Kinematic viscosity; Totalizer 1; Totalizer 2; Totalizer 3; Pressure; Medium Temperature; Standard density; Standard kinematic viscosity; API gravity; Syandard API gravity; Specific gravity; Standard specific gravity Default Volume flow Related...
Page 218: 4Th Process Value
Setup 3.6 Local display Setting Volume flow; Mass flow; Standard volume flow; Flow velocity; Sound velocity; Liquid identi- fier; LiquIdent; Density; Kinematic viscosity;Totalizer 1; Totalizer 2; Totalizer 3; Pressure; Medium Temperature; Standard density; Standard kinematic viscosity; API gravity; Syandard API gravity; Specific gravity; Standard specific gravity Default Sound velocity Related...
Page 219: 6Th Process Value
Setup 3.6 Local display 3.6.7.9 6th process value Description The display 6th Process Value can be selected. Setting Mass flow; Volume flow; Density; Fluid Temperature; Corrected Volume flow; Reference Density; Totalizer 1; Totalizer 2; Totalizer 3 Default Totalizer 2 Related This parameter is only available if View is set to Six Values or Six Diagnostic Values.
Page 220: Trend Scale Lower Limit
Setup 3.6 Local display 3.6.7.12 Trend scale lower limit Description The Trend Scale Lower Limit defines the scaling lower limit of the value axis for the fixed mode. Setting Default Related This parameter is only available if Trend Scale Mode is set to Fixed. Path Setup →...
Page 221: View
Setup 3.6 Local display 3.6.8.2 View Description The display View 4 can be configured. Setting Single value; Three values; Totalizer; 1 value and bargraph; 1 value and graph; Six values; Six diagnostic values; Alarm list Default Six diagnostic values Related If Single Value or Dosing is selected, 1st Process Value must be configured.
Page 222: 3Rd Value
Setup 3.6 Local display Setting Transmitter internal temperature; DSL temperature; Measured current CH5; Measured current CH6; Ch1 value; Ch3 value; Ch4 value; Auxiliary temperature; Sensor temperature; Reynolds number; RxGain up path 1; RxGain down path 1; SNR up path 1; SNR down path 1;...
Page 223: 5Th Value
Setup 3.6 Local display Setting Transmitter internal temperature; DSL temperature; Measured current CH5; Measured current CH6; Ch1 value; Ch3 value; Ch4 value; Auxiliary temperature; Sensor temperature; Reynolds number; RxGain up path 1; RxGain down path 1; SNR up path 1; SNR down path 1;...
Page 224: Trend Scale Mode
Setup 3.6 Local display Related This parameter is only available if View is set to Six Values or Six Diagnostic Values. Path Setup → Display → View 4 → 6th value 3.6.8.9 Trend scale mode Description The Trend Scale Mode can be selected with automatic scaling or fixed scaling. Setting Auto;...
Page 225: Trend Scale Upper Limit
Setup 3.6 Local display Related This parameter is only available if Trend Scale Mode is set to Fixed. Path Setup → Display → View 4 → Trend Scale Lower Limit 3.6.8.12 Trend scale upper limit Description The Trend Scale Upper Limit defines the scaling upper limit of the value axis for the fixed mode.
Page 226: 1St Value
Setup 3.6 Local display Related If Single Value or Dosing is selected, 1st Process Value must be configured. If Three Values is selected, 1st Process Value, 2nd Process Value and 3rd Process Value must be configured. If Totalizer or 1 Value and Graph is selected, 1st Process Value, Trend Scale Mode and Trend log time window must be configured.
Page 227: 3Rd Value
Setup 3.6 Local display 3.6.9.5 3rd value Description The display 3rd Process Value can be selected. Setting Volume flow; Mass flow; Flow velocity; Sound velocity; Density; Kinematic viscosity; Total- izer 1; Totalizer 2; Totalizer 3; Pressure; Medium temperature Default Medium temperature Related This parameter is only available if View is set to Three Values, Six Values or Six Diagnostic Values.
Page 228: 6Th Process Value
Setup 3.6 Local display 3.6.9.8 6th process value Description The display 6th Process Value can be selected. Setting Mass flow; Volume flow; Density; Fluid Temperature; Corrected Volume flow; Reference Density; Totalizer 1; Totalizer 2; Totalizer 3 Default Totalizer 2 Related This parameter is only available if View is set to Six Values or Six Diagnostic Values.
Page 229: Trend Scale Lower Limit
Setup 3.6 Local display 3.6.9.11 Trend scale lower limit Description The Trend Scale Lower Limit defines the scaling lower limit of the value axis for the fixed mode. Setting Default Related This parameter is only available if Trend Scale Mode is set to Fixed. Path Setup →...
Page 230: View
Setup 3.6 Local display 3.6.10.2 View Description The display View 6 can be configured. Setting Single value; Three values; Totalizer; Dosing; 1 value and bargraph; 1 value and graph; Six values; Six diagnostic values; Alarm list Default Alarm list Related If Single Value or Dosing is selected, 1st Process Value must be configured.
Page 231: 3Rd Process Value
Setup 3.6 Local display Related This parameter is only available if View is set to Three Values, Six Values or Six Diagnostic Values. Path Setup → Display → View 6 → 2nd Process Value 3.6.10.5 3rd process value Description The display 3rd Process Value can be selected. Setting Mass flow;...
Page 232: 6Th Process Value
Setup 3.6 Local display Related This parameter is only available if View is set to Six Values or Six Diagnostic Values. Path Setup → Display → View 6 → 5th Process Value 3.6.10.8 6th process value Description The display 6th Process Value can be selected. Setting Mass flow;...
Page 233: Trend Log Time Window
Setup 3.6 Local display 3.6.10.10 Trend log time window Description The Trend log time window logging period (time axis length) can be selected. Setting 1 Minute; 5 Minutes; 15 Minutes; 30 Minutes; 1 Hour; 2 Hours; 3 Hours Default 5 Minutes Related This parameter is only available if View is set to Totalizer or 1 Value and Graph.
Page 234: Status Icons
Setup 3.6 Local display 3.6.11 Status icons Description Sets the type of status icons used for diagnostic events. Setting Standard; NAMUR Default Standard Related Path Setup → Local display→ Status icons FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 235: Maintenance And Diagnostics
Maintenance and diagnostics Identification 4.1.1 Long tag Description Sets a unique tag name for device. Limited to 32 characters. Setting User-configurable Default --------------------------------; 32 characters (A, B, C, ... X, Y, Z, /, 1, 2, 3, ... 7, 8, 9) Related Path Maintenance and diagnostics →...
Page 236: Message
Maintenance and diagnostics 4.1 Identification Related Path Maintenance and diagnostics → Identification → Descriptor 4.1.4 Message Description Displays text message (written via engineering system) that can be used in any way. Limited to 32 characters. Setting User-configurable Default --------------------------------; 32 characters (A, B, C, ... X, Y, Z, /, 1, 2, 3, ... 7, 8, 9) Related Path Maintenance and diagnostics →...
Page 237: Manufacturer
Maintenance and diagnostics 4.1 Identification 4.1.7 Manufacturer Description Displays the device manufacturer. Setting Default SIEMENS Related Path Maintenance and diagnostics → Identification → Manufacturer 4.1.8 Product name Description Displays name of product. Also shown on device nameplate. Setting Default SITRANS FS230...
Page 238: Serial Number
Maintenance and diagnostics 4.1 Identification Setting Default Related Path Maintenance and diagnostics → Identification → System order number 4.1.11 Serial number Description Displays transmitter serial number. Also shown on the device nameplate. Setting Default Related Path Maintenance and diagnostics → Identification → Serial number 4.1.12 FW version Description...
Page 239: Final Assembly Number
Maintenance and diagnostics 4.1 Identification Related Path Maintenance and diagnostics → Identification → HW version 4.1.14 Final assembly number Description Displays integer that denotes materials and components used in final device assembly. Setting 0 to 4294967295 Default Related Path Maintenance and diagnostics → Identification → Final assembly number 4.1.15 System type Description...
Page 240: Fw Version
Maintenance and diagnostics 4.1 Identification Related Path Maintenance and diagnostics → Identification → HW version 4.1.16.2 FW version Description Displays the firmware version of the device. Setting Default Related Path Maintenance and diagnostics → Identification → FW version 4.1.16.3 Serial number Description Displays transmitter serial number.
Page 241: Local Display
Maintenance and diagnostics 4.1 Identification Setting Default Related Path Maintenance and diagnostics → Identification → Transmitter → Comm. interface serial num- 4.1.17 Local display Description Local display Setting HW version 1.01.00 Default Setting FW version - 1.04.13-09 Default Setting HMI cfg. version - 1.00.01.39 Default Related Path...
Page 242: Dsl
Maintenance and diagnostics 4.1 Identification 4.1.19 Description Displays DSL versions Setting FW version; HW version Default Related Path Maintenance and diagnostics → Identification → DSL 4.1.20 Sensor 4.1.20.1 Type (read only) Description The name of the digital sensor. Path Maintenance and diagnostics → Identification → Sensor → Type 4.1.20.2 Sensor type (read only) Description...
Page 243: Serial Number (Read Only)
Maintenance and diagnostics 4.1 Identification 4.1.20.4 Serial number (read only) Description Unique serial number of sensor set path 1 (clamp-on). Setting Default Related Path Maintenance and diagnostics → Identification → Sensor → Sensors serial number path 1 4.1.20.5 Serial number (read only) Description Unique serial number of sensor set path 2 (clamp-on).
Page 244: Sensor Type (Read Only)
Maintenance and diagnostics 4.1 Identification Related Path Maintenance and diagnostics → Identification → Sensor → Sensors serial number path 4 4.1.20.8 Sensor type (read only) Description Type of sensor. Setting SITRANS FSS200 (Clamp-on); SITRANS FSS600 (Clamp-on) Default Related Path Maintenance and diagnostics → Identification → Sensor → Sensor type 4.1.20.9 Sensor firmware version (read only) Description...
Page 245: Frontend Variant (Read Only)
Maintenance and diagnostics 4.2 Diagnostic events 4.1.20.11 Frontend variant (read only) Description Frontend variant. Setting Remote/integrated; Compact Default Related Path Maintenance and diagnostics → Identification → Sensor → Frontend variant 4.1.20.12 Serial number (read only) Description Unique frontend PCBA serial number. Setting Default Related...
Page 246: Clear Diagnostic Log
Maintenance and diagnostics 4.2 Diagnostic events 4.2.3 Clear diagnostic log Description The diagnostic log can be reset using this parameter. Setting Cancel; OK Default Cancel Related When you confirm the reset by selecting OK, the Diagnostic log will be cleared. Path Maintenance and diagnostics →...
Page 247: Suppression Time
Maintenance and diagnostics 4.2 Diagnostic events Setting DE10 Failed to read any data related page • DE11 Failed to read FATAL_ERROR_PAGE from • DE12 Failed to read SHUT_DOWN_PAGE from • DE21 The EEPROM data is inconsistent • DE22 Inconsistency of totalizer 1 values •...
Page 248: Sensor Events (2)
Maintenance and diagnostics 4.2 Diagnostic events Related The selected events will be shown in the display when they occur. Furthermore, they will be indicated on the output if Output (2), Input/output (3) and/or Input/output (4) is set to Status output and Status mode is set to Alarm item. Path Maintenance and diagnostics →...
Page 249: Process Events (2)
Maintenance and diagnostics 4.2 Diagnostic events 4.2.7.4 Process events (2) Description Various sensor alarms can be enabled to show in the display and on the output if they occur. Setting Various process alarms selectable Default Related The selected events will be shown in the display when they occur. Furthermore, they will be indicated on the output if Output (2), Input/output (3) and/or Input/output (4) is set to Status output and Status mode is set to Alarm item.
Page 250: Totalizer Events
Maintenance and diagnostics 4.2 Diagnostic events Related The selected events will be shown in the display when they occur. Furthermore, they will be indicated on the output if Output (2), Input/output (3) and/or Input/output (4) is set to Status output and Status mode is set to Alarm item. Path Maintenance and diagnostics →...
Page 251: Simulation Events (2)
Maintenance and diagnostics 4.2 Diagnostic events Setting 160 Mass flow simulated; 161 Volume flow simulated; 162 Density simulated; 163 Medium temp. simulated; 167 Totalizer 1 simulated; 168 Totalizer 2 simulated; 169 Totalizer 3 simulated; 170 Loop current simulated Default Related The selected events will be shown in the display when they occur.
Page 252: Input/Output Events (2)
Maintenance and diagnostics 4.2 Diagnostic events Related The selected events will be shown in the display when they occur. Furthermore, they will be indicated on the output if Output (2), Input/output (3) and/or Input/output (4) is set to Status output and Status mode is set to Alarm item. Path Maintenance and diagnostics →...
Page 253: 148 - Transm. Temp. Above Alarm Limit
Maintenance and diagnostics 4.3 Maintenance Setting Process value warning; Maintenance demanded; Maintenance required Default Maintenance required Path Maintenance and diagnostics → Diagnostic events → Assign alarm class → 15 - Path 2: No signal 4.2.8.3 148 - Transm. temp. above alarm limit Description This event can be mapped to an alarm class respective NAMUR status signal.
Page 254: Spare Part Replacement
Maintenance and diagnostics → Maintenance → Spare part replacement → Transmitter → Replace transmitter cassette 4.3.2.1.3 Replace DSL cassette Description Replace DSL cassette. Only Siemens authorized personnel may replace spare parts. This action will restore the data from the SensorFlash on the transmitter cassette module. Access level: Expert user only. FST030...
Page 255: Sensor
Maintenance and diagnostics → Maintenance → Spare part replacement → Transmitter → Replace DSL cassette 4.3.2.2 Sensor 4.3.2.2.1 Replace sensor Description Only Siemens authorized personnel may replace spare parts. Access level: Expert user only. Setting Cancel; OK Default Cancel Path Maintenance and diagnostics →...
Page 256: Electronic Part Identification
Frontend total operating time - Indicates the total frontend operating time of the device. 4.3.3 Electronic part identification 4.3.3.1 Transmitter cassette 4.3.3.1.1 HW version (expert) Description Only Siemens authorized personnel may replace spare parts. Setting Cancel; OK Default Cancel Path Maintenance and diagnostics → Maintenance → Electronic part identification → Transmitter cassette →...
Page 257: Local Display
4.3 Maintenance Path Maintenance and diagnostics → Maintenance → Electronic part identification → Transmitter cassette → Serial number 4.3.3.1.4 Comm. HW version (expert) Description Only Siemens authorized personnel may replace spare parts. Setting Cancel; OK Default Cancel Path Maintenance and diagnostics → Maintenance → Electronic part identification → Transmitter cassette →...
Page 258: I/O Cassette
Maintenance and diagnostics 4.3 Maintenance 4.3.3.2.2 FW version (expert) Description Only Siemens authorized personnel may replace spare parts. Setting Cancel; OK Default Cancel Path Maintenance and diagnostics → Maintenance → Electronic part identification → Local dis- play → FW version 4.3.3.2.3 HMI config.
Page 259: Sensor Cassette
Cancel Path Maintenance and diagnostics → Maintenance → Electronic part identification → I/O cassette → FW version 4.3.3.3.3 Serial number (expert) Description Only Siemens authorized personnel may replace spare parts. Setting Cancel; OK Default Cancel Path Maintenance and diagnostics → Maintenance → Electronic part identification → I/O cassette →...
Page 260: Diagnostics
4.4 Diagnostics Path Maintenance and diagnostics → Maintenance → Electronic part identification → Sensor cassette → FW version 4.3.3.4.3 Serial number (expert) Description Only Siemens authorized personnel may replace spare parts. Setting Cancel; OK Default Cancel Path Maintenance and diagnostics → Maintenance → Electronic part identification → Sensor cassette →...
Page 261: Path 1
Maintenance and diagnostics 4.4 Diagnostics 4.4.1.3 Path 1 4.4.1.3.1 RxGain up (read only) Description Rx gain of upstream signal. Path Maintenance and diagnostics → Diagnostics → Sensor → Path 1 → RxGain up 4.4.1.3.2 RxGain down (read only) Description Rx gain of downstream signal. Path Maintenance and diagnostics →...
Page 262 Maintenance and diagnostics 4.4 Diagnostics Path Maintenance and diagnostics → Diagnostics → Sensor → Path 1 → Flow velocity 4.4.1.3.7 Delta time (read only) Description Delta time. Path Maintenance and diagnostics → Diagnostics → Sensor → Path 1 → Delta time 4.4.1.3.8 Travel time up (read only) Description Travel time of upstream signal.
Page 263: Path 2
Maintenance and diagnostics 4.4 Diagnostics Path Maintenance and diagnostics → Diagnostics → Sensor → Path 1 → Peak amplitude up 4.4.1.3.13 Peak amplitude down (read only) Description Operating time of frontend since last power-up. Path Maintenance and diagnostics → Diagnostics → Sensor → Frontend operating time since power-up 4.4.1.4 Path 2...
Page 264 Maintenance and diagnostics 4.4 Diagnostics 4.4.1.4.5 Sound velocity (read only) Description Sound velocity. Path Maintenance and diagnostics → Diagnostics → Sensor → Path 2 → Sound velocity 4.4.1.4.6 Flow velocity (read only) Description Flow velocity. Path Maintenance and diagnostics → Diagnostics → Sensor → Path 2 → Flow velocity 4.4.1.4.7 Delta time path 2 (read only) Description Delta time.
Page 265: Temperature Monitoring
Maintenance and diagnostics 4.4 Diagnostics 4.4.1.4.11 Actual sensor frequency (read only) Description Sensor frequency. Path Maintenance and diagnostics → Diagnostics → Sensor → Path 2 → Actual sensor frequency 4.4.1.4.12 Peak amplitude up (read only) Description Operating time of frontend since last power-up. Path Maintenance and diagnostics →...
Page 266: Transmitter Electronics Temperature
Maintenance and diagnostics 4.4 Diagnostics 4.4.2.2 Transmitter electronics temperature 4.4.2.2.1 Current value (read only). Description Measured value of transmitter internal temperature. Path Maintenance and diagnostics → Diagnostics → Temperature monitoring → Transmitter tem- perature → Current value 4.4.2.2.2 Minimum (read only) Description Drag indicator of minimum transmitter internal temperature.
Page 267: Dsl Temperature
Maintenance and diagnostics 4.4 Diagnostics 4.4.2.3 DSL temperature 4.4.2.3.1 Current value Description Current value is used independent of a fault. Setting 0.0 °C Default Related Path Maintenance and diagnostics → Diagnostic → DSL temperature → Current value 4.4.2.3.2 Minimum Description Minimum DSL temperature Setting 200.0 °C...
Page 268: Inputs And Outputs
Maintenance and diagnostics 4.4 Diagnostics 4.4.3 Inputs and outputs 4.4.3.1 Channel 1 - output with HART 4.4.3.1.1 Loop current (read only) Description Output current value if configured to current output. Options Read only Related Path Maintenance and diagnostics → Diagnostics → Inputs and outputs → Channel 1 - output with HART →...
Page 269 Maintenance and diagnostics 4.4 Diagnostics Related In this parameter the setting of Operation mode is read only. Path Maintenance and diagnostics → Diagnostics → Inputs and outputs → Channel 2 - output → Operation mode 4.4.3.2.2 Totalized amount Description The actual totalized amount. Options Actual totalized amount Default...
Page 270 Maintenance and diagnostics 4.4 Diagnostics Options Overflow; Underflow; Fail-safe behaviour active Operation mode is set to Frequency output Options The pulse output has reached maximum pulse output frequency; Fail-safe behaviour active Operation mode is set to Pulse output Related This parameter is only available if Operation mode is set to Current output, Frequency output or Pulse output.
Page 271: Channel 3 - Input/Output
Maintenance and diagnostics 4.4 Diagnostics 4.4.3.3 Channel 3 - input/output 4.4.3.3.1 Operation mode (read only) Description The set Operation mode can be viewed in this parameter. Setting Off; Current output; Frequency output; Pulse output; Status output; Digital input; Current input Default Related In this parameter the setting of Operation mode is read out.
Page 272 Maintenance and diagnostics 4.4 Diagnostics 4.4.3.3.4 Channel value (read only) Description The channel value can be viewed in this parameter. Related if Operation mode is set to Current output, this parameter will show the current output value. if Operation mode is set to Frequency output, this parameter will show the frequency output value.
Page 273: Channel 3 - Relay
Maintenance and diagnostics 4.4 Diagnostics 4.4.3.4 Channel 3 - relay 4.4.3.4.1 Channel value (read only) Description The channel value can be viewed in this parameter. Related This parameter is only available if Operation mode is set to On. Path Maintenance and diagnostics → Diagnostics → Inputs and outputs → Channel 3 - relay → Channel value 4.4.3.5 Channel 4 - input/output...
Page 274 Maintenance and diagnostics 4.4 Diagnostics If Operation mode is set to Status output, this parameter will show the status output value. Path Maintenance and diagnostics → Diagnostics → Inputs and outputs → Channel 4 - in- put/output → Channel value 4.4.3.5.3 Error status (read only) Description The error status of the channel can be viewed in this parameter.
Page 275: Channel 4 - Relay
Maintenance and diagnostics 4.4 Diagnostics Related This parameter is only available if Operation mode is set to Pulse output. Path Maintenance and diagnostics → Diagnostics → Inputs and outputs → Channel 4 - in- put/output → Pulse counter 4.4.3.5.5 Reset pulse counter Description The pulse counter can be reset.
Page 276: Peak Values
Maintenance and diagnostics 4.5 Peak values Related Path Maintenance and diagnostics → Diagnostics → Inputs and outputs → Calibration picture Peak values 4.5.1 Process value 1 4.5.1.1 Process value Description Assign the process value to be monitored. Setting Disabled; Volume flow; Mass flow; Standard volume flow; Sound velocity; Flow velocity; LiquIdent;...
Page 277: Minimum
Maintenance and diagnostics 4.5 Peak values Related This parameter is only available if Process value is not set to Disabled. Path Maintenance and diagnostics → Peak values → Process value 1 → Maximum value timestamp 4.5.1.4 Minimum Description Displays minimum measured value. Related This parameter is only available if Process value is not set to Disabled.
Page 278: Process Value 2
Maintenance and diagnostics 4.5 Peak values 4.5.2 Process value 2 4.5.2.1 Process value Description Assign the process value to be monitored. Setting Disabled; Volume flow; Mass flow; Standard volume flow; Sound velocity; Flow velocity; LiquIdent; Density; Medium temperature; Pressure; Kinematic viscosity; Sensor tempera- ture (RTD);...
Page 279: Minimum
Maintenance and diagnostics 4.5 Peak values 4.5.2.4 Minimum Description Displays minimum measured value. Related This parameter is only available if Process value is not set to Disabled. Path Maintenance and diagnostics → Peak values → Process value 2 → Minimum value 4.5.2.5 Timestamp at minimum value Description...
Page 280: Maximum
Maintenance and diagnostics 4.5 Peak values Setting Disabled; Volume flow; Mass flow; Standard volume flow; Sound velocity; Flow velocity; LiquIdent; Density; Medium temperature; Pressure; Kinematic viscosity; Sensor tempera- ture (RTD); Auxiliary temperature (RTD); Totalizer 1; Totalizer 2; Totalizer 3 Default Disabled Related If this parameter is set to any other setting than Disabled, parameters Maximum value,...
Page 281: Timestamp At Minimum Value
Maintenance and diagnostics 4.5 Peak values 4.5.3.5 Timestamp at minimum value Description Displays the timestamp when minimum value was measured. Related This parameter is only available if Process value is not set to Disabled. Path Maintenance and diagnostics → Peak values → Process value 3 → Minimum value timestamp 4.5.3.6 Reset peak values...
Page 282: Maximum
Maintenance and diagnostics 4.5 Peak values 4.5.4.2 Maximum Description Displays maximum measured value. Related This parameter is only available if Process value is not set to Disabled. Path Maintenance and diagnostics → Peak values → Process value 4 → Maximum value 4.5.4.3 Timestamp at maximum value Description...
Page 283: Reset Peak Values
Maintenance and diagnostics 4.6 Characteristics 4.5.4.6 Reset peak values Description This command is used to reset the logging of the recorded maximum and minimum values monitored. The drag pointers will be set to the current value. Setting Cancel; Ok Default Cancel Related This parameter is only available if Process value is not set to Disabled.
Page 284: Sensorflash
Maintenance and diagnostics 4.7 SensorFlash Setting Wall mount housing with internal DSL Default Related Path Maintenance and diagnostics → Characteristics → DSL → DSL variant SensorFlash 4.7.1 Eject Description Eject Sensor Flash card Setting Cancel; Ok Default Cancel Related Path Maintenance and diagnostics →...
Page 285: Capacity Available (Read Only)
Maintenance and diagnostics 4.7 SensorFlash Shows INSERT CARD if card is not installed. Setting Default Related Path Maintenance and diagnostics → SensorFlash → Capacity total 4.7.4 Capacity available (read only) Description Free capacity of installed SensorFlash. Shows INSERT CARD if card is not installed. Setting Default Related...
Page 286: Data Logging Mode
Maintenance and diagnostics 4.7 SensorFlash 4.7.5.2 Data logging mode Description Select between a momentary value or an averaged value calculated over one logging interval. Setting Log instantaneous, Log average value Default Log instantaneous Related Path Maintenance and diagnostics → SensorFlash → Data logging → Data logging mode 4.7.5.3 Logging interval Description...
Page 287: Advanced Logging (Expert)
Maintenance and diagnostics 4.8 Simulation 4.7.5.5 Advanced logging (expert) Register 1...90 Description The process value to be logged can be set in this parameter. Setting 0 to 65535 Default 65535 Disabled Related This parameter is only available if Data logging is enabled and is for expert users only. Path Maintenance and diagnostics →...
Page 288: Channel 2 - Output
Maintenance and diagnostics 4.8 Simulation Setting 3.5 mA to 25 mA Default 4.00 mA Related This parameter is only available if Simulation is enabled. Path Maintenance and diagnostics → Simulation → Simulation inputs and outputs → Channel 1 - output with HART → Simulation value 4.8.1.2 Channel 2 - output 4.8.1.2.1 Operation mode...
Page 289: Channel 3 - Input/Output
Maintenance and diagnostics 4.8 Simulation 4.8.1.2.3 Simulation value Description Set the current value to be output on the channel when current output simulation is enabled. Set the frequency value to be output on the channel when frequency output simulation is enabled.
Page 290 Maintenance and diagnostics 4.8 Simulation Setting Off; Current output; Frequency output; Pulse output; Status output; Digital input; Current input Default Related The setting of this parameter affects the setting options in parameter Simulation value. Path Maintenance and diagnostics → Simulation → Simulation inputs and outputs → Channel 3 - input/output →...
Page 291: Relay (3)
Maintenance and diagnostics 4.8 Simulation Setting 0.0 Hz to 12500.0 Hz Default 1.0 Hz Operation mode is set to Frequency output Setting 0.0 pulses/s - 12500.0 pulses/s Default Operation mode is set to Pulse output Setting 0; 1 Default Operation mode is set to Status output or Digital input Related Only if parameter Simulation is set to Enabled, then the setting of this parameter will be relevant.
Page 292: Channel 4 - Input/Output
Maintenance and diagnostics 4.8 Simulation Setting 0; 1 Default Related Only if parameter Simulation is set to Enabled, then the setting of this parameter will be relevant. Path Maintenance and diagnostics → Simulation → Simulation inputs and outputs → Channel 3 - relay →...
Page 293: Channel 4 - Relay
Maintenance and diagnostics 4.8 Simulation 4.8.1.5.3 Simulation value Description Set the current value to be output on the channel when current output or current input simulation is enabled. Set the frequency value to be output on the channel when frequency output simulation is enabled.
Page 294: Simulation Process Values
Maintenance and diagnostics 4.8 Simulation Setting Disabled; Enabled Default Disabled Related Only if this parameter is set to Enabled, then the setting of parameter Simulation value will be relevant. Path Maintenance and diagnostics → Simulation → Simulation inputs and outputs → Channel 4 - relay →...
Page 295: Volume Flow
Maintenance and diagnostics 4.8 Simulation Related Only if process values are marked in this parameter, the setting of Simulated value under each relevant process value becomes relevant. Path Maintenance and diagnostics → Simulation → Simulation process values → Enable simula- tion 4.8.2.2 Volume flow...
Page 296: Standard Volume Flow
Maintenance and diagnostics 4.8 Simulation 4.8.2.4 Standard volume flow 4.8.2.4.1 Simulation value Description Set the Standard volume flow value to be simulated. Setting -360000000.0 Nm /h to +360000000.0 Nm Default 0.0 Nm Related Only if Corrected volume flow is marked in Enable simulation, the setting of this parameter will be relevant.
Page 297: Liquident
Maintenance and diagnostics 4.8 Simulation Setting 100.0 m/s to 25000.0 Default 1500.0 m/s Related Only if Sound velocity is marked in Enable simulation, then the setting of this parameter will be relevant. The range and default setting are dependent on the selected Unit. Path Maintenance and diagnostics →...
Page 298: Kinematic Viscosity
Maintenance and diagnostics 4.8 Simulation Related Only if Density is marked in Enable simulation, then the setting of this parameter will be relevant. The range and default setting are dependent on the selected Unit. Path Maintenance and diagnostics → Simulation → Simulation process values → Density → Simu- lation value 4.8.2.9 Kinematic viscosity...
Page 299: Medium Temperature
Maintenance and diagnostics 4.8 Simulation 4.8.2.11 Medium temperature 4.8.2.11.1 Simulation value Description Set the Medium temperature value to be simulated. Setting -273.0 °C (-459.399994 °F) to +400.0 °C (752.0 °F) Default 20.0 °C (68 °F) Related Only if Medium temperature is marked in Enable simulation, then the setting of this parameter will be relevant.
Page 300: Api Gravity
Maintenance and diagnostics 4.8 Simulation Setting 0.0 m /s to 5000.0 m Default 0.000001 m Related Only if Standard kinematic viscosity is marked in Enable simulation, then the setting of this parameter will be relevant. The range and default setting are dependent on the selected Unit. Path Maintenance and diagnostics →...
Page 301: Specific Gravity
Maintenance and diagnostics 4.8 Simulation Related Only if Base API gravity is marked in Enable simulation, then the setting of this parameter will be relevant. Path Maintenance and diagnostics → Simulation → Simulation process values → Standard API gravity → Simulation value 4.8.2.16 Specific gravity 4.8.2.16.1 Simulation value...
Page 302: Auxiliary Temperature
Maintenance and diagnostics 4.8 Simulation 4.8.2.18 Auxiliary temperature 4.8.2.18.1 Simulation value Description Auxiliary temperature - Enter the value used to simulate the process value. Setting -273.0 °C (-459.399994 °F) to +400.0 °C (752.0 °F) Default 20.0 °C (68 °F) Related Only if Auxiliary temperature is marked in Enable simulation, then the setting of this parameter will be relevant.
Page 303: Simulate Alarms
Maintenance and diagnostics 4.8 Simulation Setting 0 to 255 Default Related Only if Standardizing factor is marked in Enable simulation, then the setting of this parameter will be relevant. The range and default setting are dependent on the selected Unit. Path Maintenance and diagnostics →...
Page 304 Maintenance and diagnostics 4.8 Simulation Related This parameter is only available if Simulation mode is set to Simulate alarm (ID number). Path Maintenance and diagnostics → Simulation → Simulation alarms → Alarms → Sensor alarms 4.8.3.2.2 Sensor alarms (2) Description The simulation of single and multiple Sensor alarms (2) can be configured.
Page 305 Maintenance and diagnostics 4.8 Simulation Related This parameter is only available if Simulation mode is set to Simulate alarm (ID number). Path Maintenance and diagnostics → Simulation → Simulation alarms → Alarms → Process alarms (2) 4.8.3.2.5 Process alarms (3) Description The simulation of single and multiple Process alarms (3) can be configured.
Page 306: Alarm Class
4.8.3.3 Alarm class Description The Siemens standard alarm class to be simulated can be configured. The alarm status is activated on all outputs. Setting Maintenance alarm; Function check; Process value alarm; Process value warning; Mainte- nance warning; Maintenance required...
Page 307: Alarm Class
Maintenance and diagnostics 4.9 Audit trail Related This parameter can only be accessed if Status icons is set to Standard. Path Maintenance and diagnostics → Simulation → Simulation alarms → Alarm class 4.8.3.4 Alarm class Description The NAMUR alarm class to be simulated can be configured. The alarm status is activiated on all outputs.
Page 308: Firmware Update Change Log
Maintenance and diagnostics 4.10 Self test 4.9.3 Firmware update change log Description A list of logged firmware updates can be viewed in this parameter. Up to 20 logs can be listed with timestamp in the format YYYY-MM-DD hh-mm. Path Maintenance and diagnostics → Audit trail → Firmware update change log 4.9.4 Clear FW update change log (expert) Description...
Page 309: Device Restart (Write Only)
Maintenance and diagnostics 4.12 Firmware update Setting Cancel; Ok Default Cancel Related Path Maintenance and diagnostics → Resets → Set to default 4.11.2 Device restart (write only) Description Command to restart device. Setting Cancel; Ok Default Cancel Related Path Maintenance and diagnostics → Resets → Device restart 4.12 Firmware update Description...
Page 310 Maintenance and diagnostics 4.12 Firmware update FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 311: Communication
Communication Service channel (USB) 5.1.1 USB mode (read only) Description The USB mode can be read in this parameter. Options USB communication; Mass storage device (MSD) Related Path Communications → Service channel (USB) → USB mode 5.1.2 Auto mode Description The Auto mode can be enabled/disabled.
Page 312: Hart (Channel 1)
Communication 5.2 HART (Channel 1) Related Path Communications → Service channel (USB) → MSD connect HART (Channel 1) 5.2.1 Polling address (SW) Description Enter the device HART address. HW device address over writes SW device address. Setting 0 to 63 Default Path Communication →...
Page 313: Hart Device Type (Read Only)
Communication 5.2 HART (Channel 1) 5.2.4 HART device type (read only) Description The HART device type identification can be entered. The ID uniquely identifies the device when combined with the manufacturer identification and device type. Path Communication → HART (Channel 1) → HART Device Type 5.2.5 HART device revision Description...
Page 314: Sv Process Value
Communication 5.2 HART (Channel 1) 5.2.7.1 SV process value Description The HART secondary variable represents a configurable process value, the SV process value. Setting Mass flow; Volume flow; Density; Fluid temperature; Reference density; Totalizer 1; Total- izer 2; Totalizer 3; Sound velocity; Flow velocity; Pressure; Viscosity; Specific gravity; Cur- rent output (channel 1);...
Page 315: Tv Process Value
Communication 5.2 HART (Channel 1) 5.2.7.2 TV process value Description The HART tertiary variable represents a configurable process value, the TV process value. Setting Mass flow; Volume flow; Density; Fluid temperature; Reference density; Totalizer 1; Total- izer 2; Totalizer 3; Sound velocity; Flow velocity; Pressure; Viscosity; Specific gravity; Cur- rent output (channel 1);...
Page 316: Qv Process Value
Communication 5.2 HART (Channel 1) 5.2.7.3 QV process value Description The HART quaternary variable represents a configurable process value, the QV process value. Setting Mass flow; Volume flow; Density; Fluid temperature; Reference density; Totalizer 1; Total- izer 2; Totalizer 3; Sound velocity; Flow velocity; Pressure; Viscosity; Specific gravity; Cur- rent output (channel 1);...
Page 317: Hart Units
Communication 5.2 HART (Channel 1) 5.2.8 Hart units 5.2.8.1 Volume flow units Description The volume flow unit for the communication interface (volume/time) can be configured. Setting Metric: Litre → L/s; L/min; L/h → m /s; m /min; m /h; m /d;...
Page 318: Flow Velocity Units
Communication 5.2 HART (Channel 1) Setting Metric: Normal litre → NL/s; NL/min; NL/h; NL/d Normal m → Nm /s; Nm /min; Nm /h; Nm Standard litre → SL/s; SL/min; SL/h; SL/d Standard m → Sm /s; Sm /min; Sm /h; Sm Standard ft →...
Page 319: Kinematic Viscosity Units
Communication 5.2 HART (Channel 1) Setting Metric: Microgram → μg/l; μg/m Milligram → mg/l Gram → g/ml; g/cm ; g/l Kilogram → kg/l; kg/m Pound → lb/in ; lb/gal; lb/ft Short ton → STon/yd Default kg/m Related Path Communication → HART (Channel 1) → HART units → Density units 5.2.8.7 Kinematic viscosity units Description...
Page 320: Temperature Units
Communication 5.2 HART (Channel 1) 5.2.8.9 Temperature units Description The temperature units for the communication interface can be configured. Setting C, °F, °R (degrees Rankine), K (kelvins) ° Default ° Related Path Communication → HART (Channel 1) → HART units → Temperature units 5.2.8.10 Totalizer 1 units Description...
Page 321: Totalizer 3 Units
Communication 5.2 HART (Channel 1) Default Totalizer 2 Process value is set to Mass flow Setting Metric: l, hl, m gal; i.gal; BBL31.5; BBL31; BBL42; in ; ft ; yd ; bush Default Totalizer 1 Process value is set to Volume flow Related Path Communication →...
Page 322: Process Values (1)
Communication 5.3 Modbus (Channel 1) Setting 0.0 to 100.0 s Default 0.0 s Related Path Communication → Modbus (Channel 1) → Damping → Damping value 5.2.9.2 Process values (1) Description Select the process values. Setting Volume flow; Mass flow; Totalizer 1; Totalizer 2; Totalizer 3; Sound velocity; Flow velocity; Pressure;...
Page 323: Slave Address (Hw) (Read Only)
Communication 5.3 Modbus (Channel 1) Setting 1 to 247 Default Related Path Communication → Modbus (Channel 1) → Slave address (SW) 5.3.2 Slave address (HW) (read only) Description The slave address (HW is determined by the DIP switch setting on the transmitter cassette and can be read out in this parameter.
Page 324: Floating Point Byte Order
Communication 5.3 Modbus (Channel 1) Related Path Communication → Modbus (Channel 1) → Parity / framing 5.3.5 Floating point byte order Description The floating-point number byte order used within the data filed of Modbus messages, The first mentioned byte is the first byte sent. Byte 3 corresponds to the left-most byte (MSB) of a 32 bit floating-byte number in big endian format, byte 0 to the right-most byte.
Page 325: Source Register 1
Communication 5.3 Modbus (Channel 1) Bit 0: Requested register 1 / Target register 1 Bit 19: Requested register 20 / Target register 20 Setting 0 to 1048575 Default Related Path Communication → Modbus (Channel 1) → Register mapping → Enable mapping 5.3.7.2 Source register 1..20 Description...
Page 326: Modbus Units
Communication 5.3 Modbus (Channel 1) 5.3.8 Modbus units 5.3.8.1 Mass flow unit Description Set the unit for mass flow values. Setting Metric: Gram → g/s; g/min; g/h Kilogram → kg/s; kg/min; kg/h; kg/d Tonne → t/min; t/h; t/d Pound → lb/s; lb/min; lb/h; lb/d Short ton →...
Page 327: Flow Velocity Unit
Communication 5.3 Modbus (Channel 1) Setting Metric: Normal litre → Nl/s; Nl/min; Nl/h; Nl/d Normal m → Nm /s; Nm /min; Nm /h; Nm Standard litre → Sl/s; Sl/min; Sl/h; Sl/d Standard m → Sm /s; Sm /min; Sm /h; Sm Standard ft →...
Page 328: Density Unit
Communication 5.3 Modbus (Channel 1) 5.3.8.6 Density unit Description Set the unit for density values. Setting Metric: Microgram → μg/l; μg/m Milligram → mg/l Gram → g/ml; g/cm ; g/l Kilogram → kg/l; kg/m Pound → lb/in ; lb/gal; lb/ft Short ton →...
Page 329: Temperature Units
Communication 5.3 Modbus (Channel 1) Related Path Communications → Modbus (Channel 1) → Modbus units → Pressure unit 5.3.8.9 Temperature units Description Set the unit for temperature values. Setting C, °F, °R, K ° Default ° Related Path Communications → Modbus (Channel 1) → Modbus units → Temperature units 5.3.8.10 Totalizer 1 unit Description...
Page 330: Totalizer 2 Unit
Communication 5.3 Modbus (Channel 1) 5.3.8.11 Totalizer 2 unit Description Set the unit for totalizer 2 quantities. Setting Metric: l; hl; m Ugal; gal; BBL42; BBL31; BBL31.5; bush; yd ; ft ; in Custom unit Default is set to Volume flow Setting Metric: g;...
Page 331: Service Channel (Usb)
Communication 5.3 Modbus (Channel 1) Default is set to Mass flow Setting Metric: Nl; Nm ; Sl; Sm Default is set to Corrected volume flow Related Path Communications → Modbus (Channel 1) → Modbus units → Totalizer 3 unit 5.3.8.13 Service Channel (USB) Description The USB mode can be read in this parameter.
Page 332 Communication 5.3 Modbus (Channel 1) FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 333: Security
Path Security → Access management → Change expert PIN code Recovery ID Description Displays an ID number required to reset PIN if lost. Record this ID number for use when contacting Siemens customer support. Setting Default Related Path Security → Access management → Unique ID code...
Page 334: Pin Recovery
Security 6.4 PIN recovery PIN recovery Description Used to enter PIN unlock key (PUK) which resets device PIN(s) to default. (PUK obtained from Siemens customer support.) Setting Default Related Path Security → Access management → PUK Activate user PIN Description The Enable access level control function can be configured.
Page 335: Auto Logout
Security 6.7 Auto logout Auto logout Description The Auto logout function can be be configured. When the parameter is set to Off (default), you will not be prompted for password for 10 minutes after the last key press. When the parameter is set to On, you will be prompted to enter the password before each HMI operation.
Page 336 Security 6.8 Logout FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 337: Language
Language Language Description Select the local display language. Setting English; Deutsch Default English Related Language Language FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 338 Language 7.1 Language FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 339: Support
● Information about field service, repairs, spare parts and lots more under Services. Additional Support If you have additional questions about the device, please contact your local Siemens representative and offices at: Local contact person (http://www.automation.siemens.com/partner)
Page 340 Support A.1 Technical support FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 341: Glossary
Glossary Active Memory Section of RAM allocated for active site parameters (all current values). The flow meter receives site-specific operating instructions from Active Memory. Alphanumeric Field An 8-character data entry field that allows you to specify a Site Name or a Security code. Arrow Keys Use the <Up, Down, Left and Right>...
Page 342 Glossary ENTER Key Use the <ENTER> key to store a current numeric value or option list item. Flow Meter Refers to the flow meter itself (the transmitter and sensors combined). Graphic Screen Refers to the integral LCD display screen. Initial Makeup An internal process performed during installation, where the flow meter acquires its receive signal and enhances other parameters for optimal operation at a site.
Page 343 Glossary Menu Cell A location within a menu where you can define either a single numeric value or option list selection that supports the Sub-Menu’s function. Certain view-only menu cells show reference data appropriate to the current application. NEGFLOW Totalizer mode for negative flow total only. NETFLOW Totalizer mode that combines positive and negative flow totals.
Page 344 Site Storage Memory to store configurable operating parameters such as pipe, liquid or gas tables. Si-Ware Siemens software program that interfaces with Siemens flow meters to assess flow meter installation conditions and to collect data for comparison with prior baseline data. Spacing Index Refers to the Number Index used by the flow meter to determine the space between the upstream and downstream sensors on clamp-on systems.
Page 345 Glossary Spacing Offset Fixed sensor offset assigned by the flow meter. This can be overridden by the installer. TOTCNT A Totalizer pulse count function used for Batching or Sampling. Transducer Also known as sensor. Vaer The flow meter’s aeration percent output. The sonic propagation velocity of a pipe.
Page 346 Glossary FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 347: Index
Index Service, 337 Service channel (USB), 309, 329 Support, 337 Calibration, multipoint, 39 Customer Support Hotline, 337 Temperature monitoring, 263 Totalizers, 82 Document history, 18, 18 Documentation Edition, 18 User calibration, 38 Hotline, 337 Inputs and outputs, 97 Internet Contact person, 337 Support, 337 Languages, 335 Paths, 33...
Page 348 Index FST030 Function Manual, 04/2017, A5E35693328-AA...
Page 350 For more information www.siemens.com/flow Siemens AG Subject to change without prior notice Process Industries and Drives Order No.: A5E35693328 Process Automation Lit. No.: A5E35693328-AA 76181 Karlsruhe © Siemens AG 04.2017 GERMANY A5E35693328 www.siemens.com/processautomation...

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Siemens SITRANS F Function Manual

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