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Siemens SITRANS PCS 7 Function Manual

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SITRANS

SITRANS Library for PCS 7

Function Manual

7MP2990-0AA00

05/2019

A5E35351976-11

Functions of the blocks

Functions of the faceplates

Panel blocks, general

Configurable response using

the Feature I/O

SITRANS F M MAG 6000

SITRANS LUT400

SIPART PS2 HART

SIPART PS2 PA

SITRANS T

SITRANS P

SITRANS P PA

SITRANS FC430

SITRANS FC430 PA

SITRANS LR PA

SITRANS LR HART

MultiRanger 200

SITRANS LU HART

Driver blocks

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

Table of Contents

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Summary of Contents for Siemens SITRANS PCS 7

Page 1 Functions of the blocks Functions of the faceplates Panel blocks, general Configurable response using SITRANS the Feature I/O SITRANS F M MAG 6000 SITRANS Library for PCS 7 SITRANS LUT400 SIPART PS2 HART SIPART PS2 PA Function Manual SITRANS T SITRANS P SITRANS P PA SITRANS FC430...
Page 2 Note the following: WARNING Siemens products may only be used for the applications described in the catalog and in the relevant technical documentation. If products and components from other manufacturers are used, these must be recommended or approved by Siemens. Proper transport, storage, installation, assembly, commissioning, operation and maintenance are required to ensure that the products operate safely and without any problems.
Page 3: Table Of Contents
Table of contents Functions of the blocks..........................13 Interlocking functions ......................13 Settings for operator control and monitoring ................13 1.2.1 Selecting a unit of measure....................13 Functions of the faceplates.........................33 Batch view..........................33 Alarm view..........................34 Memo view ..........................35 Trend view..........................36 Panel blocks, general ..........................39 Messaging..........................40 Operating philosophy for operator panel (OP) and operator station (OS)......43 Operator control and monitoring with WinCC flexible ............43...
Page 4 Table of contents 4.17 Read configuration data automatically ...................57 4.18 Exiting local mode ........................58 4.19 Resetting via input signals in the event of interlocking (Protection) or errors .......59 4.20 Pause dosing at flow alarm ....................59 4.21 Activating bumpless changeover to automatic mode.............59 4.22 Update acknowledgment and error status of the message call ..........60 4.23...
Page 5 Table of contents 5.3.4 Error handling of FbMag6T ....................142 5.3.5 Messaging of FbMag6T .......................143 5.3.6 I/Os of FbMag6T ........................143 5.3.7 Block diagram of FbMag6T ....................146 SITRANS LUT400 ............................147 Lut400 ..........................147 6.1.1 Description of Lut400 ......................147 6.1.2 Operating modes of Lut400....................150 6.1.3 Functions of Lut400......................150 6.1.4...
Page 6 Table of contents 7.2.3 PSipPS2 connections......................252 7.2.4 Operator Control and Monitoring WinCC ................258 7.2.4.1 Operator Control and Monitoring WinCC ................258 7.2.5 Operator Control and Monitoring WinCC flexible ..............259 7.2.5.1 Views............................259 7.2.5.2 Standard view of PSipPS2 ....................259 7.2.5.3 Block icon for PSipPS2 ......................260 SIPART PS2 PA ............................261 SipPS2PA ..........................261 8.1.1...
Page 7 Table of contents 10.1.7 Block diagram of SitransP....................397 10.1.8 Template of SitransP......................398 10.1.9 Operator control & monitoring ....................399 10.1.9.1 Views of SitransP .........................399 10.1.9.2 Standard view of SitransP....................400 10.1.9.3 Limit view of SitransP......................403 10.1.9.4 Parameter view of SitransP....................406 10.1.9.5 Preview of SitransP......................407 10.1.9.6 Slave pointer view of SitransP (resettable) .................409 10.1.9.7...
Page 8 Table of contents 12.1.9.6 Dosing view of SitrFC43.......................530 12.1.9.7 Block icon for SitrFC43 ......................533 12.2 SiFC43Dr ..........................534 12.2.1 Description of SiFC43Dr ......................534 12.2.2 Operating modes of SiFC43Dr.....................535 12.2.3 I/Os of SiFC43Dr........................535 12.2.4 Block diagram of SiFC43Dr....................541 12.2.5 Template of SiFC43Dr ......................541 12.2.6 Operator control &...
Page 9 Table of contents 13.4.7 Block diagram of FbFC43PA....................639 SITRANS LR PA............................641 14.1 SitrLRPA ..........................641 14.1.1 Description of SitrLRPA .......................641 14.1.2 Operating modes of SitrLRPA....................644 14.1.3 Functions of SitrLRPA......................645 14.1.4 Error handling of SitrLRPA....................650 14.1.5 SitrLRPA messages ......................651 14.1.6 I/Os of SitrLRPA........................654 14.1.7 Block diagram of SitrLRPA....................664 14.1.8...
Page 10 Table of contents 16.1.9.4 Parameter view of Mr200 .....................763 16.1.9.5 Preview of Mr200 .........................764 16.1.9.6 Totalizer view of Mr200 ......................765 16.1.9.7 Block icons for Mr200......................766 16.2 FbMr200..........................768 16.2.1 Description of FbMr200......................768 16.2.2 Operating modes of FbMr200 ....................770 16.2.3 Functions of FbMr200 ......................770 16.2.4 Error handling of FbMr200 ....................771 16.2.5...
Page 11 Table of contents 18.3 PiEl256H ..........................823 18.3.1 Description of PiEl256H .......................823 18.3.2 Operating modes of PiEl256H....................824 18.3.3 Functions of PiEl256H......................824 18.3.4 Error handling of PiEl256H....................825 18.3.5 Messaging of PiEl256H......................825 18.3.6 I/Os of PiEl256H........................825 18.3.7 Block diagram of PiEl256H ....................827 18.4 PiStAr64/PiStAr256......................828 18.4.1 Description of PiStAr64/256 ....................828...
Page 12 Table of contents SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 13: Functions Of The Blocks
Functions of the blocks Interlocking functions Bypassing signals With this function, you can flag a block as bypassed. With a connection from the output parameter BypassAct to an input parameter BypLixx of an interlock block, you can bypass the corresponding input of the interlock block. Additionally, you can define over the Feature bit Substitution value is active if the block is in bypass (Page 57) if the block shall use the process value or a substitution value in case of an active bypass.
Page 14 Functions of the blocks 1.2 Settings for operator control and monitoring The units of the Sitrans devices are normally configured via PDM and read by the function block from the device. Only in seldom cases the user has to configure the units manually. If the parameter value of XXX_Unit is out of range (that is, the value is not defined), the faceplate displays "!undef.!"...
Page 15 Functions of the blocks 1.2 Settings for operator control and monitoring List of the most commonly used units of measure in accordance with IEC 61158 Note Due to space constraints on the system, not all units referred to can be displayed in totality. The display of the measurement units is left-aligned.
Page 16 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1181 kcal Kilocalories 1190 Kilowatt 1209 Ampere 1211 Milliampere 1221 A·h Ampere hour 1240 Volt 1349 Cubic meters per hour 1353 Liters per hour 1384 1422 pH value List of all units of measure in accordance with IEC 61158 Value...
Page 17 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1028 1029 Hectare 1030 Square inch 1031 Square foot 1032 Square yard 1033 mile Square mile 1034 Cubic meter 1035 Cubic decimeter 1036 Cubic centimeter 1037 Cubic millimeter 1038 Liter...
Page 18 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1071 yd/min Yards per minute 1072 in/h Inches per hour 1073 ft/h Feet per hour 1074 yd/h Yards per hour 1075 mi/h Miles per hour 1076 Meter/second squared 1077 Hertz...
Page 19 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1114 Specific gravity units 1115 kg/m Kilograms per meter 1116 mg/m Milligrams per meter 1117 1118 kg·m Kilograms per square meter 1119 kg·m/s Kilograms per meter per second 1120 Newton 1121...
Page 20 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1153 O (4°C) Feet of water at 4 degrees Celsius 1154 O (68°F) Feet of water at 68 degrees Fah‐ renheit 1155 inHg Inches of mercury 1156 inHg (0°C) Inches of mercury at 0 degrees...
Page 21 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1193 Nanowatt 1194 Picowatt 1195 Mcal Megacalorie per hour 1196 MJ/h Megajoule per hour 1197 British thermal units per hour 1198 Horsepower 1199 W/(m·K) Watts per meter kelvin 1200 W/(m ·K)
Page 22 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1236 kV/m Kilovolts per meter 1237 V/cm Volts per centimeter 1238 mV/m Millivolts per meter 1239 μV/m Microvolts per meter 1240 Volt 1241 Megavolt 1242 Kilovolt 1243 Millivolt 1244...
Page 23 Ω·cm Ohms times centimeters 1296 mΩ·m Milliohms times meters 1297 μΩ·m Microohms times meters 1298 nΩ·m Nanoohms times meters 1299 Siemens per meter 1300 MS/m Megasiemens per meter 1301 kS/m Kilosiemens per meter 1302 mS/cm Millisiemens per centimeter 1303 μS/mm...
Page 24 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1322 kg/s Kilograms per second 1323 kg/min Kilograms per minute 1324 kg/h Kilograms per hour 1325 kg/d Kilograms per day 1326 Metric tons per second 1327 t/min Metric tons per minute 1328...
Page 25 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1365 gal/d US gallons per day 1366 Mgal/d Mega US gallons per day 1367 ImpGal/s Imperial gallons per second 1368 ImpGal/min Imperial gallons per minute 1369 ImpGal/h Imperial gallons per hour 1370...
Page 26 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1408 Gray 1409 Milligray 1410 1411 Sievert 1412 Millisievert 1413 1414 C/kg Coulombs per kilogram 1415 mC/kg Millicoulombs per kilogram 1416 Röntgen 1417 1/Jm Density of magnetic energy 1418 e/Vm 1419...
Page 27 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1451 Mgal/s Mega US gallons per second 1452 μgal/min Micro US gallons per minute 1453 mgal/min Milli US gallons per minute 1454 kgal/min Kilo US gallons per minute 1455 Mgal/min Mega US gallons per minute...
Page 28 Kiloliter 1518 kL/min Kiloliters per minute 1519 kL/h Kiloliters per hour 1520 kL/d Kiloliters per day 1551 S/cm Siemens per centimeter 1552 µS/cm Microsiemens per centimeter 1553 mS/m Millisiemens per meter 1554 µS/m Microsiemens per meter 1555 MΩ · cm...
Page 29 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1567 Carat (jewels) = 200.0·10 1568 lb (tr) Pound (troy or apothecary) = 0.3732417216 kg 1569 oz (tr) Ounce (troy or apothecary) = 1/12 lb (tr) 1570 fl oz (U.S.) Ounce (U.S.
Page 30 Functions of the blocks 1.2 Settings for operator control and monitoring Value Display Description 1608 oz/h Ounces per hour 1609 oz/d Ounces per day 1610 Pascal (absolute) 1611 Pascal (gauge) 1612 GPaa Gigapasacal (absolute) 1613 GPag Gigapascal (gauge) 1614 MPaa Megapascal (absolute) 1615 MPag...
Page 31 Functions of the blocks 1.2 Settings for operator control and monitoring A notation different to the PA profile must be used in order to represent this unit in conformity with the system. "m2" is used instead of "m3" in the Chinese and Japanese documentation. SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 32 Functions of the blocks 1.2 Settings for operator control and monitoring SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 33: Functions Of The Faceplates
Functions of the faceplates Batch view Batch view This area shows a display of the batch that is currently running (Batchview). You can use the internal tag "@APLBatchEnable" to enable/disable the "Batch" button in the toolbar. Value of @APLBatchEnable Operating the "Batch" button in Icon of the "Batch"...
Page 34: Alarm View
Functions of the faceplates 2.2 Alarm view (5) "Batch step" This area shows the step number of the batch that is currently running (StepNo). Alarm view Message view (1) Toolbar If the short-term archive list is selected, a new button appears in the toolbar: You can use this button to toggle between the "History"...
Page 35: Memo View
Functions of the faceplates 2.3 Memo view Memo view Memo view You can leave temporary messages for other OS operators in this view. Messages are entered in the text box, and saved and activated by selecting the check box in the lower right corner of the faceplate.
Page 36: Trend View
Functions of the faceplates 2.4 Trend view Trend view Trend view (1) Toolbar (2) Display area for trends (3) Status bar (4) Button for switching between archive tags and online tags. The status bar shows if the trend view is working with online data or archive data. (5) Button for opening the "Scatter plot"...
Page 37 Functions of the faceplates 2.4 Trend view Configuration of the trend view The trend view can be configured so that archive values are displayed immediately after opening. A prerequisite for this is that archive variables exist. Proceed as follows: ● A "1" is attached at the block icon in the "TrendPictureName" property. A semicolon is used as the separator to the name of the trend view.
Page 38 Functions of the faceplates 2.4 Trend view SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 39: Panel Blocks, General
Panel blocks, general To operate and monitor the process on an operator panel in addition to using an OS it is necessary to use interface blocks (Pxxx) for communication. These blocks form the HMI interface with the operator panel. For example to operate and monitor the field device MAG 6000 via OS and an operator panel, it is necessary to implement the following blocks: ●...
Page 40: Messaging
Panel blocks, general 3.1 Messaging Messaging PCS 7 messaging Every panel function block can generate messages. Messages can be suppressed using the MsgLock parameter. Messages are sent via ALARM_DQ, and those of the technological block are suppressed to avoid duplication. To enable this, the MsgLock input must be set to 0 on the panel block. The output structure MsgLock_Out =1 is set simultaneously, and must be connected to the MsgLock input structure of the technological block.
Page 41 Panel blocks, general 3.1 Messaging the message class "S7 process message" or "S7 tolerance" are not displayed by the system broken down by instances in the message view of the WinCC-flexible faceplate. Messages of these classes must be displayed by a separate message view in the WinCC-flexible project. A separate filter is required for the instance granular view of the messages in the message view of the WinCC-flexible faceplate.
Page 42 Panel blocks, general 3.1 Messaging S7 messaging The panel function block PMag6T offers a word input as a message interface to provide the bit messaging for creating messages at the operator panel. In addition, the messages are automatically generated according to the message number procedure. The technological block S7Mag6T generates the messages using an integrated calling of the AlarmDQ/Alarm_SC functions and sends them to the operator station (OS) and the operator panel (OP).
Page 43: Operating Philosophy For Operator Panel (Op) And Operator Station (Os)
Panel blocks, general 3.3 Operator control and monitoring with WinCC flexible block and the value parameterized at the "AS_NR" input of the panel block. The filter value is forwarded to the panel via the "OP_MSG_FILTER" input for filtering and to the technological block via the ANY pointer connection for message generation.
Page 44 Panel blocks, general 3.3 Operator control and monitoring with WinCC flexible Views The blocks provide the following views: ● Standard view ● Message view (some blocks) ● Trend view (some blocks) ● Associated value view Trend view Connect variables for trend view If the faceplate provides a trend view ( ), you have to connect the variable(s) to be displayed as described (the example shows PMonAn with OpPV view):...
Page 45 Panel blocks, general 3.3 Operator control and monitoring with WinCC flexible 1. Insert the faceplate-instance into the screen and mark it. 2. Click "Trend" in the "General" area under "Properties". 3. Click the "…" button in the "Trend" line. The dialog for selecting the connectable variables opens.
Page 46 Panel blocks, general 3.3 Operator control and monitoring with WinCC flexible 5. Connected variable: 6. After changing a variable, you have to compile the project. Message view SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 47: Operator Control And Monitoring With Wincc (Pcs 7 Os)
Panel blocks, general 3.4 Operator control and monitoring with WinCC (PCS 7 OS) Associated value view Operator control and monitoring with WinCC (PCS 7 OS) Icons and views Block icon Views The blocks provide the following views: ● Standard view ●...
Page 48 Panel blocks, general 3.4 Operator control and monitoring with WinCC (PCS 7 OS) SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 49: Configurable Response Using The Feature I/O
Configurable response using the Feature I/O Configurable functions using the Feature I/O Configurable functions using the Feature I/O Some blocks have an input called Feature. This input can be used to influence the way in which the block works. The Feature Bits are assigned in the following order: Bit number Meaning Block Setting the startup characteristics (Page 50)
Page 50: Setting The Startup Characteristics
Configurable response using the Feature I/O 4.2 Setting the startup characteristics Bit number Meaning Block Signaling limit violation (Page 62) Mag6T, Lut400, SipPS2, SitransT, Si‐ transP, SitrP_PA, SitrFC43, SitrLRHA Resetting depending on the operating mode (Page 62) Mag6T, SipPS2 Activating reset of protection / errors in manual mode Mag6T, SipPS2 (Page 63) For more information about the feature bits please refer to the APL online help.
Page 51: Control Via Auxiliary Valve
Configurable response using the Feature I/O 4.4 Disabling opening and closing Setting the startup characteristics for the SitrFC43 block Bit = 0: Starting the block in manual mode and in defined position. The totalizers are held (‘Hold’ command). Dosing is switched off (Stop command) if it is configured, and the setpoint is set to internal.
Page 52: Separate Delay Times For Each Alarm
Configurable response using the Feature I/O 4.7 Enabling bumpless switchover to automatic mode for valves, motors, and dosers Separate delay times for each alarm Feature bit Number of the Feature bit: 8 Separate delay times for each alarm You can use this Feature bit to activate the alarm delay type "Two time values for each individual limit".
Page 53: Activating The Run Time Of Feedback Signals
Configurable response using the Feature I/O 4.9 Enable bumpless switchover to "Automatic" mode for operator only Bit = 0: Bumpless switchover is disabled. You can switch from local/manual mode to automatic mode at any time. Bit = 1: Bumpless switchover from local/manual mode to automatic mode is enabled. A switchover from local/manual mode to automatic mode is only possible if the control settings of the local/manual mode and automatic modes match.
Page 54: Control Priority In The Event Of An Invalid Input Command
Configurable response using the Feature I/O 4.11 Reaction to the out of service mode Bit = 0: The function "Bumpless switchover to automatic mode for valves, motors and dosers" works when switching via the faceplate and switching using interconnectable inputs AutModLi and ManModLi (ModLiOp = 1).
Page 55: Resetting The Commands For Changing The Mode
Configurable response using the Feature I/O 4.13 Enabling resetting of commands for the control settings A change 0-1 in the edge of the input parameter OosLi or Oos2Li has no influence on the response of the technological block, the initial status is retained. 4.12 Resetting the commands for changing the mode Feature Bit...
Page 56: Set Switch Or Button Mode
Configurable response using the Feature I/O 4.14 Set switch or button mode 4.14 Set switch or button mode Feature bit Number of the Feature bit: 4 Setting switch or button mode (input signal as pulse signal or as static signal) You can use this Feature bit to select the mode switchover between manual and automatic mode and to determine whether the setpoint is selected with a switch or with two 1-active control inputs (buttons).
Page 57: Substitution Value Is Active If The Block Is In Bypass
Configurable response using the Feature I/O 4.17 Read configuration data automatically 4.15 Substitution value is active if the block is in bypass Feature bit Number of the Feature bit: 9 Substitution value is active if the block is in bypass You can use this Feature bit to specify whether the block uses the process value or a substitution value in case of an active bypass.
Page 58: Exiting Local Mode
Configurable response using the Feature I/O 4.18 Exiting local mode The configuration may be for example: ● Units ● Scale ● Warning limit, alarm limit, and hysteresis. ● Setpoint and compensation. Note The configuration data is read by means of acyclic services. At each Profibus cable only 8 acyclic services can be performed simultaneously.
Page 59: Resetting Via Input Signals In The Event Of Interlocking (Protection) Or Errors
Configurable response using the Feature I/O 4.21 Activating bumpless changeover to automatic mode 4.19 Resetting via input signals in the event of interlocking (Protection) or errors Feature Bit Number of the Feature bit: 9 Resetting the block in the event of interlocking (only Protection: Input parameter Protect) or errors via input signals With this Feature bit, you define how automatic control is to be re-enabled after an active interlock.
Page 60: Update Acknowledgment And Error Status Of The Message Call
Configurable response using the Feature I/O 4.23 Enabling local operating permission Default setting is 0 Bit = 0: Bumpless switchover is disabled. You can switch from local/manual mode to automatic mode at any time. Bit = 1: Bumpless switchover from local/manual mode to automatic mode is enabled. A switchover from local/manual mode to automatic mode is only possible if the control settings of the local/manual mode and automatic modes match.
Page 61: Suppression Of All Messages
Configurable response using the Feature I/O 4.25 Disabling operating points Local operating permission can be set for each specific instance; in other words, block instances can be enabled or disabled for use on an operator station independently of one another. The default setting is 0.
Page 62: Signaling Limit Violation
Configurable response using the Feature I/O 4.27 Resetting depending on the operating mode 4.26 Signaling limit violation Feature bit Number of the Feature bit: 29 Signaling limit violation With this Feature bit, you specify how limit violation should be sent to the respective limit outputs.
Page 63: Activating Reset Of Protection / Errors In Manual Mode
Configurable response using the Feature I/O 4.28 Activating reset of protection / errors in manual mode 4.28 Activating reset of protection / errors in manual mode Feature bit Number of the Feature bit: 31 Activating reset of protection / errors in manual mode Use this Feature bit to specify whether a reset is necessary once the "Protection"...
Page 64 Configurable response using the Feature I/O 4.28 Activating reset of protection / errors in manual mode SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 65: Sitrans F M Mag 6000
SITRANS F M MAG 6000 Mag6T 5.1.1 Description of Mag6T Object name (type + number) and family Type + number: FB 2601 Family: MAG6000 Area of application for Mag6T The block is used for the following applications: ● Interface block of the MAG6000 driver blocks for the user program and visualization How it works The Mag6T prepares the process and diagnostics data received from MAG6000 driver blocks for further use in the user program and for visualization.
Page 66 SITRANS F M MAG 6000 5.1 Mag6T Example of process tag types: Template of Mag6T (Page 111) Note The APL blocks ChkREAL (FC260) and SelST16 (FC369) that are not supplied with the SITRANS library are called internally by the Mag6T block. If not yet installed in your project, copy both blocks from the APL library to your project before you download the project to the PLC.
Page 67 SITRANS F M MAG 6000 5.1 Mag6T Status bit Parameter QWronDev Simulation 1 Simulation 2 BypassAct.Value Not used UserAna1 interconnected UserAna2 interconnected Status word allocation for Status2 parameter Status bit Parameter Flow VF_AH_Act.Value VF_WH_Act.Value VF_WL_Act.Value VF_AL_Act.Value Tot1_AH_Act.Value Tot1_WH_Act.Value Tot1_WL_Act.Value Tot1_AL_Act.Value Tot2_AH_Act.Value Tot2_WH_Act.Value Tot2_WL_Act.Value...
Page 68 SITRANS F M MAG 6000 5.1 Mag6T Status bit Parameter Dosing setpoint (SETP) is configured (CyclData.ParaAvail.Bit8) Dosing compensation (COMP) is configured (CyclData.ParaAvail.Bit9) Status word allocation for Status3 parameter Status bit Parameter VF_AH_En VF_WH_En VF_WL_En VF_AL_En Tot1_AH_En Tot1_WH_En Tot1_WL_En Tot1_AL_En Tot2_AH_En Tot2_WH_En Tot2_WL_En Tot2_AL_En...
Page 69 SITRANS F M MAG 6000 5.1 Mag6T Status word allocation for Status4 parameter Status bit Parameter "Interlock" button is enabled "Permission" button is enabled "Protection" button is enabled 1 = Intlock is active 1 = Permit is active 1 = Protect is active "Interlock", "Permit"...
Page 70: Operating Modes Of Mag6T
SITRANS F M MAG 6000 5.1 Mag6T Status bit Parameter Effective signal 6 of the message block interconnected via EventTsIn Effective signal 7 of the message block interconnected via EventTsIn Effective signal 8 of the message block interconnected via EventTsIn 1 = error when reading acyclic data (active only for the duration of one cycle) 1 = error when writing acyclic data (active only for the duration of one cycle) 1 = External error...
Page 71 SITRANS F M MAG 6000 5.1 Mag6T "Local mode" "Local mode" supports the transfer of the following commands to the totalizers 1 or 2: ● "Start balanced" (positive edge Bal1Local or Bal2Local) ● "Positive" (positive edge Pos1Local or Pos2Local) ● "Negative" (positive edge Neg1Local or Neg2Local) ●...
Page 72: Functions Of Mag6T
SITRANS F M MAG 6000 5.1 Mag6T ● "Negative" (positive edge Neg1Man or Neg2Man) ● "Hold" (Hold1Man or Hold2Man= 1) "Manual mode" enables the transfer of the following commands to the dosing unit: ● "Start" (positive edge DSrtMan) ● "Continue dosing" (DContMan = 1) ●...
Page 73 SITRANS F M MAG 6000 5.1 Mag6T Totalizer 1 limits and hyste‐ InTot1_AH_Lim/Tot1_AH_Lim, resis InTot1_WH_Lim/Tot1_WH_Lim, InTot1_WL_Lim/Tot1_WL_Lim, InTot1_AL_Lim/Tot1_AL_Lim, InTot1_Hyst/Tot1_Hyst Totalizer 2/dosing unit limits InTot2_AH_Lim/Tot2_AH_Lim, and hysteresis InTot2_WH_Lim/Tot2_WH_Lim, InTot2_WL_Lim/Tot2_WL_Lim, InTot2_AL_Lim/Tot2_AL_Lim, InTot2_Hyst/Tot2_Hyst Low flow cut-off suppression InZFlSupp/ZFlSupp Dosing setpoint ---/DSP Compensation of the dosing DCompOp/CompOp unit Command Totalizer 1...
Page 74 SITRANS F M MAG 6000 5.1 Mag6T You can use Feature bit 29 (signal limit overshoot/undershoot) to determine whether the output parameter triggers limit monitoring with the value "0" or "1". You can use Feature bit 28 (disabling operating points) to disable limit monitoring while message suppression is active (MsgLock = 1).
Page 75 SITRANS F M MAG 6000 5.1 Mag6T Forming the signal status for blocks This block provides the standard "Form and output signal status for technological blocks" function that is described in the APL Online Help. The worst signal status ST_Worst for the block is formed from the following parameters: ●...
Page 76 SITRANS F M MAG 6000 5.1 Mag6T Feature Pause dosing at flow alarm (Page 59) Control priority in the event of an invalid input command (Page 54) Activating bumpless changeover to automatic mode (Page 59) Substitution value is active if the block is in bypass (Page 57) Update acknowledgment and error status of the message call (Page 60) Enabling local operating permission (Page 60) AUTOHOTSPOT...
Page 77 SITRANS F M MAG 6000 5.1 Mag6T Totalizer 2: 1 = Operator may input the ‘only negative count’ command Totalizer 2: 1 = Operator may input the ‘Hold’ command Totalizer 2: 1 = Operator may reset the totalizer 1 = Operator can change the simulation values SimVF, SimTot1 und SimTot2 Not used Not used Not used...
Page 78 SITRANS F M MAG 6000 5.1 Mag6T 1 = Operator can activate / deactivate messages with Tot1_WH_MsgEn 1 = Operator can activate / deactivate messages with Tot1_WL_MsgEn 1 = Operator can activate / deactivate messages with Tot1_AL_MsgEn 1 = Operator can activate / deactivate messages with Tot2_AH_MsgEn 1 = Operator can activate / deactivate messages with Tot2_WH_MsgEn 1 = Operator can activate / deactivate messages with Tot2_WL_MsgEn 1 = Operator can activate / deactivate messages with Tot2_AL_MsgEn...
Page 79: Mag6T Totalizer Functions
SITRANS F M MAG 6000 5.1 Mag6T Time stamp This block receives a time stamp value via the EventTSIn input parameter. Refer to "Functions of EventTs" in the APL Online Help. SIMATIC BATCH functionality This block provides the standard "SIMATIC BATCH functionality" function that is described in the APL Online Help.
Page 80 SITRANS F M MAG 6000 5.1 Mag6T Result of limit monitoring (Totalizer 1 / Totalizer 2) The result of limit monitoring is returned at the interconnectable output parameters: ● Tot1_AH_Act/Tot2_AH_Act = 1: Limit for high alarm reached or exceeded ● Tot1_AL_Act/Tot2_AL_Act = 1: Limit for low alarm reached or undershot ●...
Page 81: Mag6T Dosing Unit Functions
SITRANS F M MAG 6000 5.1 Mag6T Reset totalizer to zero The Totalizer 1 or 2 value is reset in the module by means of the interconnectable parameter ReTot1Li or ReTot2Li. The reset is triggered by a 0 to 1 edge. You may also reset the count values to zero using the standard view of the faceplate.
Page 82 SITRANS F M MAG 6000 5.1 Mag6T However, the following status changes are also performed automatically: Number in graphic Function (top) When the dosing quantity is reached, dosing terminates Tot2VF ≥ DSP). If the Intlock (interlock) or Protect (protection) input is set to FALSE, or if a volume flow alarm is triggered (see input parameter Feature bit 11), dosing changes to the "Pause"...
Page 83: Error Handling Of Mag6T
SITRANS F M MAG 6000 5.1 Mag6T Interlocks This block provides the following interlocks: ● Activation enable ● Interlock without reset ("Interlock") ● Interlock with reset ("Protection") Refer to the "Interlocks" chapter in the APL Online Help. "Deactivation of blocking" This block provides the standard "Deactivation of blocking"...
Page 84 SITRANS F M MAG 6000 5.1 Mag6T The following errors can be displayed for this block: ● Error numbers ● Mode switchover error Overview of error numbers The I/Os Error1Num (Totalizer 1) and Error2Num (Totalizer 2 or dosing unit) can be used to output the following error numbers: Error number Meaning of the error number...
Page 85 SITRANS F M MAG 6000 5.1 Mag6T DSP_LiOp = 1 and DSP_IntLi = 1 and DSP_ExtLi = 1 AutModLi = 1 and ManModLi = 1 and Feature bit "Set switch or button mode" or two I/Os are set at the same time: ●...
Page 86: Mag6T Messaging
SITRANS F M MAG 6000 5.1 Mag6T 5.1.7 Mag6T messaging Messaging The following messages can be generated for this block: ● Process control error ● Process messages ● Instance-specific messages Process control error The following control system fault messages can be output: Message Message Message class...
Page 87 SITRANS F M MAG 6000 5.1 Mag6T Process messages Message in‐ Message identi‐ Message class Event stance fier SIG1 Alarm - high $$BlockComment$$ Volume flow - MsgEvId1 high alarm limit violated SIG2 Warning - high $$BlockComment$$ Volume flow - high warning limit violated SIG3 Warning - low $$BlockComment$$ Volume flow -...
Page 88 SITRANS F M MAG 6000 5.1 Mag6T Associated values for message instance MsgEvId1 Associated value Block parameters BatchName StepNo BatchID ExtVa104 ExtVa105 ExtVal06 ExtVa107 ExtVa108 Reserved Reserved The associated values 4 ... 8 are allocated to the parameters ExtVa104 ... ExtVa108 and can be used.
Page 89: Mag6T Connections
SITRANS F M MAG 6000 5.1 Mag6T Associated value Block parameters ExtVa307 ExtVa308 Reserved Reserved The associated values 4 to 8 are allocated to the ExtVa304 ... ExtVa308 parameters, and you can use them. Additional information is available in the "Process Control System PCS 7 - Engineering System"...
Page 90 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default BypPV Substitution value if block is in by‐ STRUCT pass ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 BypLock 1 = Bypass activation or deactiva‐ STRUCT tion is locked for operator ●...
Page 91 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default SimTot2_Li Interconnectable simulation val‐ STRUCT ue for Totalizer 2 (no function yet) ● Value : REAL ● 100.0 ● ST: BYTE ● 16#80 InVF_AH_Lim Volume flow alarm (high) limit REAL InVF_WH_Lim Volume flow warning (high) limit...
Page 92 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default VF_WL_MsgEn 1 = activate message for volume BOOL flow warning (low) VF_AL_MsgEn 1 = activate message for volume BOOL flow alarm (low) InTot1_Hyst Totalizer 1: Hysteresis for alarm REAL limits InTot1_AH_Lim Totalizer 1: Alarm limit (high)
Page 93 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default Tot1_WL_En Totalizer 1: 1 = activate (low) BOOL warning Tot1_AL_En Totalizer 1: 1 = activate (low) BOOL alarm Tot1_AH_MsgEn Totalizer 1: 1 = activate alarm BOOL (high) message Tot1_WH_MsgEn Totalizer 1: 1 = activate warning BOOL (high) message...
Page 94 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default Tot2_W_DC* Totalizer 2: Delay time for incom‐ REAL ing warnings with overrange/ underrange process value or only with underrange process value for volume flow [s] Tot2_W_DG* Totalizer 2: Delay time for outgo‐ REAL ing warnings with overrange/ underrange process value or only...
Page 95 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default ReTot1Li Totalizer 1: 1 = Reset of the total‐ STRUCT izer via interconnection ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 Bal1Man Totalizer 1: Up counter for posi‐ BOOL tive flow and down counter for negative flow in manual mode...
Page 96 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default DOnLi Dosing unit: 1 = Dosing is activa‐ STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 DSrtAut Dosing unit: 1 = Select Start in STRUCT "automatic mode"...
Page 97 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default AutMod1Li Totalizer 1: 1 = "Automatic mode" STRUCT via operator (controlled by ● Value : BOOL ● 0 Mod1LiOp = 0) ● ST: BYTE ● 16#80 ManMod1Li Totalizer 1: 1 = "Manual mode" STRUCT via interconnection or SFC (con‐...
Page 98 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default Oos2Op Totalizer 1/Dosing unit: 1 = "Out BOOL of service", via OS operator Oos2Li Totalizer 1/Dosing unit: 1 = "Out STRUCT of service", via interconnection or ● Value : BOOL ●...
Page 99 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default DSPLocal Dosing unit: Setpoint in "Local REAL mode" LocalSetting "Local mode" properties (see "Lo‐ cal mode" in the APL Online Help) RstLi Dosing unit: 1 = Reset interlock STRUCT via interconnection ●...
Page 100 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default UserAna1 Analog auxiliary value 1 STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#FF UA1unit Unit of measure for analog auxili‐ ary value 1 UserAna2 Analog auxiliary value 2 STRUCT ●...
Page 101 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default ExtMsg2 Binary input for freely selectable STRUCT message 2 ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 ExtMsg3 Binary input for freely selectable STRUCT message 3 ●...
Page 102 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default OS1Perm I/O for operating permissions STRUCT ● Bit 0 : BOOL ● 0 ● … ● 0 ● Bit 31: BOOL ● 0 OpSt_In Input parameter for local operator DWORD 16#00000000 authorizations;...
Page 103 SITRANS F M MAG 6000 5.1 Mag6T In/out parameters Parameter Description Type Default CyclData Cyclic data from driver block FbMag6T STRUCT (interconnect this input with CyclData ● CSF : BOOL output of FbMag6T) ● ParaAvail : WORD ● Input : STRUCT ●...
Page 104 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default SetTot2 Totalizer 2: 16#01 = reset command out‐ BYTE 16#00 put to the module (SET_TOT from HW Config) ModeTot2 BYTE 16#03 ● Totalizer 1: Command transferred to the module (MODE_TOT from HW Config) ●...
Page 105 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default DSta Current dosing state from MAG6000 BYTE (B_STA from HW Config): ● 16#00: Dosing disabled ● 16#01: Dosing enabled but stopped ● 16#02: Dosing enabled and active ● 16#03: dosing enabled but in pause state DosEnd 1 = End of dosing...
Page 106 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default Oos2Act Totalizer 1/Dosing unit: 1 = Totalizer 1/ STRUCT dosing unit "Out of service" ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 On2Act Totalizer 2/Dosing unit: 1 = Totalizer 1/ STRUCT dosing unit not "Out of service"...
Page 107 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default VF_WL_Act 1 = volume flow low limit warning is active STRUCT You can change the response for this ● Value : BOOL ● 0 parameter by setting Feature bit 28 ●...
Page 108 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default Tot1_WL_Act Totalizer 1: warning limit (low) is active STRUCT You can change the response for this ● Value : BOOL ● 0 parameter by setting Feature bit 28 ● ST: BYTE ●...
Page 109 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default Tot2_WL_Act Totalizer 2/Dosing unit: warning limit STRUCT (low) is active ● Value : BOOL ● 0 You can change the response for this ● ST: BYTE ● 16#80 parameter by setting Feature bit 28 (deactivate switching points) and Feature bit 29 (high/low signal limit violation) accordingly.
Page 110 SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default DSP_ExLoAct Dosing unit: STRUCT 1 = Low limit for external setpoint has ● Value : BOOL ● 0 been reached ● ST: BYTE ● 16#80 Status1 Status word 1 DWORD 16#00000000 Status2...
Page 111: Block Diagram Of Mag6T
SITRANS F M MAG 6000 5.1 Mag6T Parameter Description Type Default MsgAVD1 Associated value 1 of the diagnostics DWORD 16#00000000 message (MsgEvId2, SD_4, bits 0..31) MsgAVD2 Associated value 2 of the diagnostics WORD 16#0000 message (MsgEvId2, SD_5, bits 31..40) DComp Dosing unit: current value of compensa‐...
Page 112: Operator Control And Monitoring
SITRANS F M MAG 6000 5.1 Mag6T See also Description of Mag6T (Page 65) 5.1.11 Operator control and monitoring 5.1.11.1 Mag6T views Views of the Mag6T block The Mag6T block provides the following views: ● Standard view of Mag6T (Page 112) ●...
Page 113 SITRANS F M MAG 6000 5.1 Mag6T Totalizer 1 and Totalizer 2 Totalizers and dosing units SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 114 SITRANS F M MAG 6000 5.1 Mag6T (1), (4) and (7) Display and switch the operating mode This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● Manual mode (see the APL Online Help) ●...
Page 115 SITRANS F M MAG 6000 5.1 Mag6T (10) and (12) High and low scale range for the process value These values provide information on the display range for the bar graph of the process value. The scaling range is set by means of PDM in MAG6000 and read by the function block as part of the configuration data.
Page 116 SITRANS F M MAG 6000 5.1 Mag6T (22) Display area for dosing unit states This area provides additional information on the operating state of the block: ● "Forced start" ● "Force resume" ● "Force pause" ● "Force abort" ● "Request 0/1": A reset to "automatic mode" is expected. (23) Display area for dosing unit states This area provides additional information on the operating state of the dosing unit: ●...
Page 117: Limit View Of Mag6T
SITRANS F M MAG 6000 5.1 Mag6T 5.1.11.3 Limit view of Mag6T Note The (2) displays are hidden if no Totalizer 1 is configured in HW Config. The (3) displays are hidden if neither the Totalizer 2 nor the dosing unit is configured. (1) Displaying and changing the volume flow limits You may edit the following volume flow limits in this area: ●...
Page 118 SITRANS F M MAG 6000 5.1 Mag6T ● "“Flow hysteresis" ● "L warning" ● "L alarm" (2) Displaying and changing the totalizer 1 limits You may edit the following Totalizer 1 limits in this area: ● "H alarm" ● "H warning" ●...
Page 119: Mag6T Parameter View
SITRANS F M MAG 6000 5.1 Mag6T (6) Suppress messages You can activate/deactivate messages by selecting the check mark. 5.1.11.4 Mag6T parameter view (1) Settings You can select the following functions in this area: ● "SP:=SP external": ☑ Bumpless switchover of setpoint from external to internal. The internal setpoint is tracked to the external one.
Page 120: Mag6T Preview
SITRANS F M MAG 6000 5.1 Mag6T (4) Service You can select the following functions in this area: ● "Bypass" ● "Simulation" ● "Release for maintenance" For more information about this area, refer to the following sections of the APL Online Help: ●...
Page 121 SITRANS F M MAG 6000 5.1 Mag6T Totalizer 1 and Totalizer 2 SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 122 SITRANS F M MAG 6000 5.1 Mag6T Totalizer 1 and dosing unit SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 123 SITRANS F M MAG 6000 5.1 Mag6T (1) Automatic preview This area shows the following functions: ● Bypass value (BypPV) ● The block status after it has switched from "manual" to "automatic" mode. If the block is in "automatic mode", the current block state is displayed. (2) Enabled operations This area shows all operations for which special operator authorizations are assigned.
Page 124 SITRANS F M MAG 6000 5.1 Mag6T ● "Dosing SP Change": You may edit the dosing setpoint ● "Local operator authorization": Use the ← button to change to the standard view of the OpStations block. For more information, refer to the "Operator authorizations" section in the APL Online Help.
Page 125: Mag6T Dosing View
SITRANS F M MAG 6000 5.1 Mag6T 5.1.11.6 Mag6T dosing view (1) Display and switch the operating mode This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● Manual mode (see the APL Online Help) ●...
Page 126 SITRANS F M MAG 6000 5.1 Mag6T (5) Displaying and changing the dosing unit: Start, Resume, Pause, and Stop This area shows you the default operating state for the dosing unit. The following states can be shown and changed here: ●...
Page 127: Mag6T Block Icon
SITRANS F M MAG 6000 5.1 Mag6T (14) Display area for dosing unit states This area provides additional information on the operating state of the dosing unit: ● "Forced start" ● "Force resume" ● "Force pause" ● "Force abort" ● "Request 0/1": A reset to "automatic mode" is expected. (15), (16) and (17) Display area for dosing unit states This area provides additional information on the operating state of the dosing unit: ●...
Page 128 SITRANS F M MAG 6000 5.1 Mag6T Icons Selec‐ Configuration in HW Config tion of block icon in Totalizer 1 and the dosing unit Totalizer 1 and Totalizer 2 Totalizer 1 neither totalizer, nor dosing unit Block icon in "Out of service" mode (example of block icon type 1) In contrast to the standard APL icons, the Mag6T icon indicates two operating modes if both...
Page 129: Pmag6T
SITRANS F M MAG 6000 5.2 PMag6T For more information on the block icon and operating options in the block icon, refer to the following sections in the APL online help: ● "Configuring the block icons" ● "Block icon structure" ●...
Page 130: Pmag6T Messaging
SITRANS F M MAG 6000 5.2 PMag6T Startup characteristics The RunUpCyc parameter can be used to specify for how long (number of cycles) the messages are to be suppressed. Restart = TRUE can be used to simulate a restart. Called blocks SFC6 RD_SINFO SFC19...
Page 131 SITRANS F M MAG 6000 5.2 PMag6T Parameter Description Type Default Op_Neg2Man Operator Input Totalizer 2: Dec‐ BOOL rement only for negative flow in manual mode Op_Hold2Man Operator Input Totalizer 2: Stop BOOL totalizer in manual mode Op_DSrtMan Operator Input Dosing: 1 = Se‐ BOOL lect Start in "manual mode"...
Page 132 SITRANS F M MAG 6000 5.2 PMag6T Parameter Description Type Default AS_Nr AS number for message filter (max. 999) SelFp1 Call a block saved in this param‐ eter as additional faceplate in standard view SelFp2 Call a block saved in this param‐ eter as additional faceplate in preview MsgLock...
Page 133 SITRANS F M MAG 6000 5.2 PMag6T Parameter Description Type Default Associated value message value STRUCT AV3.Value Value REAL AV3.ST Signal status BYTE 16#80 Associated value message value STRUCT AV4.Value Value REAL AV4.ST Signal status BYTE 16#80 Associated value message value STRUCT AV5.Value Value...
Page 134 SITRANS F M MAG 6000 5.2 PMag6T Parameter Description Type Default AV14 Associated value message value STRUCT AV14.Value Value REAL AV14.ST Signal status BYTE 16#80 AV17 Associated value message value STRUCT AV17.Value Value REAL AV17.ST Signal status BYTE 16#80 AV18 Associated value message value STRUCT AV18.Value...
Page 135 SITRANS F M MAG 6000 5.2 PMag6T Parameter Description Type Default MsgStat02 Message: Output STATUS 2 WORD 16#0000 MsgStat03 Message: Output STATUS 3 WORD 16#0000 MsgStat04 Message: Output STATUS 4 WORD 16#0000 MsgStat05 Message: Output STATUS 5 WORD 16#0000 MsgStat06 Message: Output STATUS 6 WORD 16#0000...
Page 136 SITRANS F M MAG 6000 5.2 PMag6T Parameter Description Type Default MsgAckn20 Message: Output ACK_STATE 20 BOOL MsgAckn21 Message: Output ACK_STATE 21 BOOL MsgErr 1=Message error BOOL Status word allocation for OSStatAl and OSStatAl_Out parameters Bit0 BOOL External error oc‐ curred (CSF) …...
Page 137: Operator Control And Monitoring Wincc
SITRANS F M MAG 6000 5.2 PMag6T Bit7 BOOL Oos2Act Bit8 BOOL Tot1Bal Bit9 BOOL Tot1Pos Bit10 BOOL Tot1Neg Bit11 BOOL Tot1Hold Bit12 BOOL Tot2Bal Bit13 BOOL Tot2Pos Bit14 BOOL Tot2Neg Bit15 BOOL Tot2Hold Bit16 BOOL DSrt Bit17 BOOL DStop Bit18 BOOL DOff...
Page 138: Operator Control And Monitoring Wincc Flexible
SITRANS F M MAG 6000 5.2 PMag6T 5.2.5 Operator Control and Monitoring WinCC flexible Operator Control and Monitoring WinCC flexible The block provides the following views: ● Standard view of PMag6T (Page 138) ● Message view ● Associated value view 5.2.5.1 Standard view of PMag6T Totalizer and dosing unit...
Page 139: Block Icon For Pmag6T
SITRANS F M MAG 6000 5.2 PMag6T Totalizer 1 und Totalizer 2 5.2.5.2 Block icon for PMag6T Totalizer and dosing unit Totalizer 1 and Totalizer 2 SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 140: Fbmag6T
SITRANS F M MAG 6000 5.3 FbMag6T FbMag6T 5.3.1 Description of FbMag6T Object name (type + number) and family Type + number: FB 2600 Family: AdvLibPI Area of application for FbMag6T The block is used for the following applications: ● Transfer of cyclic data from and to a MAG6000 flow meter. How it works The block reads/writes all cyclic data of a MAG6000 from/to the process image in cyclic mode.
Page 141: Operating Modes For Fbmag6T
SITRANS F M MAG 6000 5.3 FbMag6T The FbMag6T block contains a template for process tag types in the SITRANS Library as an example. Example of a process tag type: Template of Mag6T Startup characteristics ● FbMag6T sets bit 16#xx01xxxx of the Mode input to signal a restart. ●...
Page 142: Error Handling Of Fbmag6T
SITRANS F M MAG 6000 5.3 FbMag6T Writing cyclic values to the process image The source for values that are written cyclically to the process image depends on the setting at input parameter SelStrInputs: ● SelStrInputs = FALSE (default): The values and signal states for the I/O outputs are transferred from output structure CyclData.Output which is interconnected with visualization block Mag6T.
Page 143: Messaging Of Fbmag6T
SITRANS F M MAG 6000 5.3 FbMag6T Module errors If an incorrect module ID of the connected DP slave is read from the block, output QModF will be set. The Quality Codes are set to 16#00 as with the higher-level error. 5.3.5 Messaging of FbMag6T Messaging...
Page 144 SITRANS F M MAG 6000 5.3 FbMag6T Parameter Description Type Default QCDComp Signal status for the dosing unit com‐ BYTE 16#00 pensation MS_Release Release for maintenance (interconnec‐ STRUCT ted with MS_Release of the visualiza‐ ● Value : BOOL ● 0 tion block) ●...
Page 145 SITRANS F M MAG 6000 5.3 FbMag6T Parameter Description Type Default QCTot1VF Signal status for volume flow totalizer 1 BYTE 16#00 Tot2VF Volume flow totalizer 2 REAL QCTot2VF Signal status for volume flow totalizer 2 BYTE 16#00 DSta Dosing unit: Dosing status (B_STA) BYTE 16#00 Configuration of the output structure CyclData:...
Page 146: Block Diagram Of Fbmag6T
SITRANS F M MAG 6000 5.3 FbMag6T DSetP : STRUCT Dosing setpoint (SETP) ● Value : BOOL ● ST: BYTE DComp : STRUCT Dosing compensation (COMP) ● Value : BOOL ● ST: BYTE END_STRUCT END_STRUCT 5.3.7 Block diagram of FbMag6T A block diagram is not provided for this block.
Page 147: Sitrans Lut400
SITRANS LUT400 Lut400 6.1.1 Description of Lut400 Object name (type + number) and family Type + number: FB 2609 Family: LUT400 Application area of Lut400 The block is used for the following applications: ● Interface block of the LUT400 driver blocks for the user program and visualization How it works The Lut400 block prepares the process and diagnostics data received by the driver blocks from a LUT400 for further use in the user program and for visualization.
Page 148 SITRANS LUT400 6.1 Lut400 The SlotHart input receives the slot number of LUT400 within the analog input module. The HART variables configured in HW Config must be set at the VarHart input. All values can be found in HW Config. Note Correct configuration of the SlotHart input is a mandatory requirement and cannot be checked by the block.
Page 149 SITRANS LUT400 6.1 Lut400 Status bit Parameter Auxiliary value 1 visible Auxiliary value 2 visible Status word allocation for Status2 parameter Status bit Parameter MsgLock.Value L_AH_Act.Value L_AL_Act.Value L_AIB_Act.Value L_AOB_Act.Value Fr_AH_Act.Value Fr_AL_Act.Value L_AH_En L_AL_En L_AIB_En L_AOB_En Fr_AH_En Fr_AL_En L_AH_MsgEn L_AL_MsgEn L_AIB_MsgEn L_AOB_MsgEn Fr_AH_MsgEn Fr_AL_MsgEn...
Page 150: Operating Modes Of Lut400
SITRANS LUT400 6.1 Lut400 Status bit Parameter Effective signal 8 of the message block interconnected via EventTsIn Message delay InL_AH_Lim Message delay InL_AL_Lim Message delay InFr_AH_Lim Message delay InFr_AL_Lim Message delay InL_ALIBLim Message delay InL_ALOBLim Collection of message delays 15 - 31 Not used 6.1.2 Operating modes of Lut400...
Page 151 SITRANS LUT400 6.1 Lut400 The Lut400 function block has the following configuration data that can be read with the corresponding commands from the LUT400 and written to LUT400 if required: Description Block parameters (I/O) Read/ Slot In‐ write ena‐ bled Configuration of 4 to 20 mA PV_Meas0/--- 166/---...
Page 152 SITRANS LUT400 6.1 Lut400 Limit monitoring You can monitor the fill level for the following high and low alarm limits: ● InL_AHOnLim: Fill level high alarm limit ON ● InL_AHOffLim: Fill level high alarm limit OFF ● InL_ALOffLim: Fill level low alarm limit OFF ●...
Page 153 SITRANS LUT400 6.1 Lut400 ● L_AOB_Act = 1 Fill level out of bounds for the "Outside band" alarm ● Fr_AH_Act= 1: Flow high alarm limit ON has been reached or exceeded, but flow high alarm limit OFF has not yet been undershot ●...
Page 154 SITRANS LUT400 6.1 Lut400 ● Fr_AH_MsgEn = 0: Message of the flow alarm (high) is suppressed. ● Fr_AL_MsgEn = 0: Message of the flow alarm (low) is suppressed. The output of messages is not suppressed when the block is installed (all xx_MsgEn parameters are preset to 1).
Page 155 SITRANS LUT400 6.1 Lut400 Configurable reactions using the Feature I/O The following characteristics are available for this block at the respective bits of the Feature I/ O. The characteristics are described in the APL Online Help. Feature Setting the startup characteristics Reaction to the Out of service mode Substitution value is active if the block is in bypass Update acknowledgment and error status of the message call...
Page 156 SITRANS LUT400 6.1 Lut400 1 = Operator can change the limit for the temperature high alarm ON (InT_AHOnLim) This alarm is only in the device, not in WinCC! 1 = Operator can change the limit for the temperature high alarm OFF (InT_AHOffLim) This alarm is only in the device, not in WinCC! 1 = Operator can change the limit for the temperature low alarm OFF (InT_ALOffLim) This alarm is only in the device, not in WinCC!
Page 157: Error Handling Of Lut400
SITRANS LUT400 6.1 Lut400 Display and operating area for process values and limits If the fill level value is transferred via the 4 to 20 mA signal, either the scaling of the 4 to 20 mA signal from the driver block (ScaleOut output of the Pcs7AnIn block, default connection in the CFC template of theLut400) or the calibration of the sensor (CalOut output of the Lut400 block) can be used as the display range for the level and the operating range for fill level limits (PV_OpScale).
Page 158: Lut400 Messaging
SITRANS LUT400 6.1 Lut400 The following errors can be displayed for this block: ● Error numbers ● Control system fault (CSF) Overview of error numbers The I/Os Error0Num (4 to 20 mA signal) and Error1Num to Error4Num (HART variables) can be used to output the following error numbers: Error number Meaning of the error number Predefined value when inserting the block;...
Page 159 SITRANS LUT400 6.1 Lut400 Process control error The following control system fault messages can be output: Message Message Message class Event instance identifier MsgEvId1 SIG7 AS process control message - Error $$BlockComment$$ Error while reading configuration data SIG8 AS process control message - Error $$BlockComment$$ Error while writing configuration da‐...
Page 160 SITRANS LUT400 6.1 Lut400 $$BlockComment$$: Content of the instance-specific comment Associated values for message instance MsgEvId1 Associated value Block parameters BatchName StepNo BatchID ExtVa104 ExtVa105 ExtVal06 ExtVa107 ExtVa108 Reserved Reserved The associated values 4 ... 8 are allocated to the parameters ExtVa104 ... ExtVa108 and can be used.
Page 161: Lut400 Connections
SITRANS LUT400 6.1 Lut400 6.1.6 Lut400 connections Input parameters Parameter Description Type Default SlotHart Slot number of the Lut400 within the AI module in the ET 200M from HW Config VarHart Selection of the HART variables config‐ ured in HW Config: 0: No HART variable 1: PV 2: PV and SV...
Page 162 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default Fourth HART variable (quaternary varia‐ STRUCT ble) ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 InL_AHOnLim* Fill level alarm limit ON (high) REAL InL_AHOffLim* Fill level alarm limit OFF (high) REAL InL_ALOffLim* Fill level alarm limit OFF (low)
Page 163 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default L_A_DC* Delay time for incoming level alarm with REAL overrange/underrange process value or only with underrange process value [s] L_A_DG* Delay time for outgoing level alarm with REAL overrange/underrange process value or only with underrange process value [s] L_AH_En 1 = Enable fill level alarm limit (high)
Page 164 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default OosLi 1 = "Out of service", via interconnection STRUCT or SFC (0-1 edge transition) ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 L_AH_MsgEn 1 = Enable message for fill level alarm BOOL (high) L_AL_MsgEn...
Page 165 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default SimPV3* Process value of the third HART variable REAL (tertiary variable) that is used for Si‐ mOn = 1 SimPV4* Process value of the fourth HART varia‐ REAL ble (quaternary variable) that is used for SimOn = 1 SimLevLi Fill level value used for SimOnLi.Value =...
Page 166 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default ExtMsg2 Binary input for freely selectable mes‐ STRUCT sage 2 ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 ExtMsg3 Binary input for freely selectable mes‐ STRUCT sage 3 ● Value : BOOL ●...
Page 167 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default EventTsIn For routing the signal status from an STRUCT EventTs message block ● Value : BYTE ● 0 Input parameter EventTsIn used to inter‐ ● ST: BYTE ● 16#FF connect output parameter EventTsOut of the EventTs block.
Page 168 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default PV_Meas4* Measured value that is interconnected at BYTE the QV input: 0: Fill level 1: Space 2: Distance 3: Volume 4: Flow 5: Head 6: not used RdCfgOp* 1 = Read all configuration data from BOOL LUT400 WrCfgOp*...
Page 169 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default PV_Out0 Process value output (4 to 20 mA signal) STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 PV_Out1 Output first HART variable (primary var‐ STRUCT iable) ● Value : REAL ●...
Page 170 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default L_AL_Act 1 = Fill level alarm (low) enabled. STRUCT You can change the response for this ● Value : BOOL ● 0 parameter by setting Feature bit 28 ● ST: BYTE ● 16#80 (deactivate switching points) and Feature bit 29 (high/low signal limit violation) accordingly.
Page 171 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default OosAct 1 = Block is "Out of service" STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 OnAct 1 = "On" mode enabled STRUCT ● Value : BOOL ● 1 ●...
Page 172 SITRANS LUT400 6.1 Lut400 Parameter Description Type Default MsgErr2 1 = Message error 2 (ERROR output of BOOL second ALARM_8P) MsgStat2 Alarm status 2 (output ERROR of sec‐ WORD 16#0000 ond ALARM_8P) MsgAckn2 Alarm acknowledgment status 2 (output WORD 16#0000 STATUS of second ALARM_8P) L_AHOnLim Fill level alarm limit ON (high)
Page 173: Block Diagram Of Lut400
SITRANS LUT400 6.1 Lut400 Parameter Description Type Default Fr_AHOnLim Flow alarm limit ON (high) STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Fr_AHOffLim Flow alarm limit OFF (high) STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ●...
Page 174: Operator Control And Monitoring
SITRANS LUT400 6.1 Lut400 The SlotHart input receives the slot number of the LUT400 within the analog input module at the Lut400 (Lut400) block. The HART variables configured in HW Config must be set at the VarHart input. All values can be found in HW Config. Note Correct configuration of the SlotHart input is a mandatory requirement and cannot be checked by the block.
Page 175: Standard View Of Lut400
SITRANS LUT400 6.1 Lut400 6.1.9.2 Standard view of Lut400 Depending on the configuration of the 4 to 20 mA signal and the up to four HART variables in the standard view, the current process values for the fill level, space, distance, volume, flow, and/or head are displayed.
Page 176 SITRANS LUT400 6.1 Lut400 (3) Display of process value (4 to 20 mA signal) including signal status This area indicates the current process value (4 to 20 mA signal) with the associated signal status. The name of the configured measured value is displayed depending on the PV_Meas0 variable, in this case "Fill level".
Page 177: Limit View Of Lut400
SITRANS LUT400 6.1 Lut400 (16) Bar graph for the gradient (4 to 20 mA signal) This area shows the current gradient value in the form of a bar graph. The visible area in the bar graph depends on the configuration in the engineering system (ES). (see Display and operating range for process values and limits) 6.1.9.3 Limit view of Lut400...
Page 178 SITRANS LUT400 6.1 Lut400 Note The limits (1), (2), (3) and (5) only trigger a message in WinCC when the fill level or the flow is configured as 4 to 20 mA signal or HART variable. The temperature limits (4) only trigger an alarm in the LUT device itself, and not in WinCC.
Page 179: Parameter View Of Lut400
SITRANS LUT400 6.1 Lut400 ● "L alarm flow ON" ● "L alarm flow OFF" (6) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ●...
Page 180: Preview Of Lut400
SITRANS LUT400 6.1 Lut400 (2) Service You can select the following functions in this area: ● "Bypass" ● "Simulation" ● "Release for maintenance" For more information about this area, refer to the following sections of the APL Online Help: ● Bypassing signals ●...
Page 181: Block Icon For Lut400
SITRANS LUT400 6.1 Lut400 (1) Process values This area displays the real process values (PV_In, PV, SV, TV, QV ) and the Bypass value. (2) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block.
Page 182: Plut400
SITRANS LUT400 6.2 PLut400 Icons Selection of the block icon in CFC Special features Block icon in the "Out of service" operating mode The display formats (e.g. decimal places) for the 4 to 20 mA signal and the four HART variables are specified in the AnalogValueFormat1..4 properties of the block icon.
Page 183: Plut400 Messaging
SITRANS LUT400 6.2 PLut400 Startup characteristics The RunUpCyc parameter can be used to specify for how long (number of cycles) the messages are to be suppressed. Restart = TRUE can be used to simulate a restart. Called blocks SFC6 RD_SINFO SFC19 ALARM_SC SFC24...
Page 184 SITRANS LUT400 6.2 PLut400 Parameter Description Type Default Op_PV_Unit4 Unit of Process Value 4 Op_ScaleHigh PV - Bar Display Limits for OS REAL 100.0 (High) Op_ScaleLow PV - Bar Display Limits for OS REAL (Low) EnAux Enable associated value view BOOL Aux1 Associated value 1 (WinCC flexi‐...
Page 185 SITRANS LUT400 6.2 PLut400 Parameter Description Type Default MsgEvId10 Message ID_10 DWORD 16#00000000 MsgEvId11 Message ID_11 DWORD 16#00000000 MsgEvId12 Message ID_12 DWORD 16#00000000 CmpID Area code DWORD 16#00000001 Associated value message value STRUCT AV1.Value Value REAL AV1.ST Signal status BYTE 16#80 Associated value message value STRUCT...
Page 186 SITRANS LUT400 6.2 PLut400 Parameter Description Type Default AV11 Associated value message value STRUCT AV11.Value Value REAL AV11.ST Signal status BYTE 16#80 AV12 Associated value message value STRUCT AV12.Value Value REAL AV12.ST Signal status BYTE 16#80 Output parameters Parameter Description Type Default BOOL...
Page 187 SITRANS LUT400 6.2 PLut400 Parameter Description Type Default MsgAckn06 Message: Output ACK_STATE 6 BOOL MsgAckn07 Message: Output ACK_STATE 7 BOOL MsgAckn08 Message: Output ACK_STATE 8 BOOL MsgAckn09 Message: Output ACK_STATE 9 BOOL MsgAckn10 Message: Output ACK_STATE 10 BOOL MsgAckn11 Message: Output ACK_STATE 11 BOOL MsgAckn12 Message: Output ACK_STATE 12 BOOL MsgErr...
Page 188: Operator Control And Monitoring Wincc
SITRANS LUT400 6.2 PLut400 Bit4 BOOL Bit5 BOOL Bit6 BOOL SimAct Bit7 BOOL Error Bit8 BOOL … Bit21 BOOL Bit22 BOOL OosAct Bit23 BOOL … Bit31 BOOL 6.2.4 Operator Control and Monitoring WinCC Operator Control and Monitoring WinCC You will find more information in Panel blocks, general (Page 39) 6.2.5 Operator Control and Monitoring WinCC flexible 6.2.5.1...
Page 189: Standard View Of Plut400
SITRANS LUT400 6.2 PLut400 6.2.5.2 Standard view of PLut400 Standard view See also Views (Page 188) 6.2.5.3 Block icon for PLut400 Block icons for PLut400 SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 190 SITRANS LUT400 6.2 PLut400 SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 191: Sipart Ps2 Hart
SIPART PS2 HART SipPS2HA 7.1.1 Description of SipPS2HA Object name (type + number) and family Type + number: FB 2613 Family: Sipart Application area of SipPS2HA The block is used for the following applications: ● Control of a Sipart PS2 HA with 0/4 to 20 mA with and without HART. ●...
Page 192 SIPART PS2 HART 7.1 SipPS2HA The templates are described in more detail in Template of SipPS2HA (Page 233). Feature2.Bit1 specifies whether the optional alarm module is available; Feature2.Bit3 specifies whether the TIM and LIM limits should be read and displayed. If Sipart PS2 HA is not connected, no configuration data can be read.
Page 193 SIPART PS2 HART 7.1 SipPS2HA Status bit Parameter 1 = Invalid signal status 1 = Mode switchover error 1 = Intlock is active 1 = Permit is active 1 = Protect is active Not used 1 = Local authorization active 1 = Force Automatic preview (1 = "Open") 1 = Bumpless switchover to "automatic mode"...
Page 194 SIPART PS2 HART 7.1 SipPS2HA Status bit Parameter 1 = Input signals have no impact on "Local" mode when LocalSetting = 2 and Local‐ Setting = 4 1 = Control valve open 1 = Control valve closed 1 = Control valve opening 1 = Control valve closing 1 = Control valve in intermediate position ("Stop") 1 = Control valve has reached intermediate position (STOP)
Page 195 SIPART PS2 HART 7.1 SipPS2HA Status bit Parameter 1 = Automatic preview control valve "Closed" 1 = Automatic preview control valve "Stop" 1 = Show automatic preview in the standard view 1 = Auxiliary valve present GrpErr.Value RdyToStart.Value Not used SimLiOp.Value Status word allocation for Status4 parameter Status bit...
Page 196 SIPART PS2 HART 7.1 SipPS2HA Status bit Parameter CloseForce.Value control valve Not used Status word allocation for Status5 parameter Status bit Parameter 1 = Input parameter MV_ChnST is interconnected 1 = Input parameter CtrlChnST is interconnected 1 = Readback value violates high alarm limit A1 (A1AH_Act.Value) 1 = Readback value violates high warning limit A1 (A1WH_Act.Value) 1 = Readback value violates low alarm limit A1 (A1WL_Act.Value) 1 = Readback value violates high alarm limit A1 (A1AH_Act.Value)
Page 197: Operating Modes Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA Status word allocation for Status6 parameter Status bit Parameter Current monitoring time is visible Current monitoring time for auxiliary valve is visible Sipart PS2 HART with firmware version < 5.00.00 is connected 3-31 Not used See also Functions of SipPS2HA (Page 198) 7.1.2 Operating modes of SipPS2HA...
Page 198: Functions Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA Note If no auxiliary valve is configured, no internal manipulated variable specifications can be made in "automatic mode". Manipulated variable specification is set to external when the mode is switched to "automatic". "Manual mode" You can find general information on "manual mode", switching modes and bumpless switchover in the section Manual and automatic mode for motors, valves and dosing units.
Page 199 SIPART PS2 HART 7.1 SipPS2HA Read parameters ● Bin1/Bin2 (function of BE1/BE2) ● MV_OpScale.Low/.High (manipulated variable limit start/end) ● AlarmFct (alarm function) ● AlarmLim1/2 (trigger threshold Alarm 1/2) ● Tim/QTim (monitoring time fault message 'Control deviation') ● Lim/QLim (response threshold fault message 'Control deviation') Written parameters ●...
Page 200 SIPART PS2 HART 7.1 SipPS2HA Outputting a signal for start readiness This block provides the standard "Suppress messages" function using the MsgLock parameter that is described in the APL Online Help. SIMATIC BATCH functionality This block provides the standard "SIMATIC BATCH functionality" function that is described in the APL Online Help.
Page 201 SIPART PS2 HART 7.1 SipPS2HA The signal status of the FbkCloseOut and FbkOpenOut outputs is fetched and sent from the worst signal status from the RbkOut output and the corresponding feedback signal inputs FbkClose and FbkOpen. The signal status of the manipulated variable output MV always corresponds to the signal status of the input parameter MV_Ext or MV_Int, depending on how the setpoint is specified.
Page 202 SIPART PS2 HART 7.1 SipPS2HA Specifying control valve positions There are the positions: ● Valve closed ("Closed") ● Valve closes ● Valve open ("Open") ● Valve opens ● Valve has reached defined position Valve closed ("Closed") When the control valve reaches the “Closed” position, the output is FbkCloseOut.Value = ●...
Page 203 SIPART PS2 HART 7.1 SipPS2HA When the control valve reaches the specified position, the output PosReached = 1 is set. Dynamic monitoring The monitoring is based on the effective feedback signals FbkOpenOut and FbkCloseOut and not directly on the feedback inputs FbkOpen and FbkClose. The monitoring is only active if the control valve is within the control range.
Page 204 SIPART PS2 HART 7.1 SipPS2HA Deactivate feedback This block provides the standard "Disabling feedback for valves" function that is described in the APL Online Help. Feedback monitoring can be deactivated separately for each feedback with NoFbkOpen or NoFbkClose as required. Suppressing messages using the MsgLock parameter This block provides the standard "Suppressing messages using the MsgLock parameter"...
Page 205 SIPART PS2 HART 7.1 SipPS2HA The setting is made with the SafePos parameter for the control valve. ● SafePos = 0 means that the control valve closes in the de-energized state (MV is set to MV_OpScale.Low) ● SafePos = 1 means that the control valve opens in the de-energized state (MV is set to MV_OpScale.High) ●...
Page 206 SIPART PS2 HART 7.1 SipPS2HA Resetting depending on the operating mode (Page 62) Activating reset of protection / errors in manual mode (Page 63) In pushbutton mode (bit 4 = 0) the automatic commands in automatic mode are latching, in other words OpenAut and CloseAut can be reset to zero after changing the control.
Page 207 SIPART PS2 HART 7.1 SipPS2HA Operator authorizations This block provides the standard "Operator authorization" function that is described in the APL Online Help. The block has the following permissions for the OS_Perm parameter: Function 1 = Operator may switch to "automatic mode" 1 = Operator may switch to "manual mode"...
Page 208 SIPART PS2 HART 7.1 SipPS2HA 1 = Operator can activate / deactivate messages with A2_MsgEn 1 = Operator can activate / deactivate messages with ER_AH_MsgEn 1 = Operator can activate / deactivate messages with ER_AL_MsgEn 1 = Operator can change the trigger threshold for control deviation in the Sipart Lim 1 = Operator can change the monitoring time for control deviation in theSipart Tim 1 = Operator can activate manipulated variable tracking in manual mode MV_TrkRbk 1 = Operator can enable the bumpless switchover from external to internal MV_TrkExt...
Page 209 SIPART PS2 HART 7.1 SipPS2HA MV_ExtOut MV_HiLim Automatic with MV_LoLim external manipu‐ lated variable and limit MV_Trk MV_HiLim Tracking with limi‐ MV_LoLim tation None Tracking to posi‐ tion feedback without limit None Local mode with tracking to posi‐ tion feedback without limit Continued table: Local‐...
Page 210 SIPART PS2 HART 7.1 SipPS2HA "Actuator active" information ● With PosReached.Value = 0, the following applies: With PosDiClose < MV < PosDiOpen, the control valve is detected as active and bit 24 is set in Status1. ● The following applies to PosReached.Value = 1: Status1.Bit 24 = 0 This status can be used to indicate a customized symbol in the process image, for example, and is saved in the status word (see Status word section in Description of SipPS2HA (Page 191)).
Page 211: Error Handling Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA Specifying warning times for control functions at motors and valves This block provides the standard "Specifying warning times for control functions with motors and valves" function that is described in the APL Online Help. The warning time affect the analog manipulated variable MV. The output is updated only with the specification of a new manipulated variable after the warning time has expired.
Page 212: Sipps2Ha Messaging
SIPART PS2 HART 7.1 SipPS2HA Overview of error numbers The ErrorNum I/O can be used to output the following error numbers: Error number Meaning of the error number Predefined value when inserting the block; the block is not executed. No active fault The value of the LocalSetting connection is outside the valid range.
Page 213 SIPART PS2 HART 7.1 SipPS2HA Message Message Message class Event instance identifier MsgEvId2 SIG3 AS process control message - fault $$BlockComment$$ Sipart PS2 HA error SIG7 AS process control message - fault $$BlockComment$$ Error while reading the configura‐ tion data SIG8 AS process control message - fault $$BlockComment$$ Error...
Page 214 SIPART PS2 HART 7.1 SipPS2HA Instance-specific messages You can use up to three instance-specific messages with this block. Message in‐ Message identi‐ Message class Event stance fier SIG1 AS process control message - fault $$BlockComment$$ External mes‐ MsgEvId3 sage 1 SIG2 AS process control message - fault $$BlockComment$$ External mes‐...
Page 215: Sipps2Ha Connections
SIPART PS2 HART 7.1 SipPS2HA The associated values 4 and 8 are allocated to the ExtVa204 ... ExtVa208 parameters, and you can use them. Additional information is available in the "Process Control System PCS 7 - Engineering System" manual. Associated values for message instance MsgEvId3 Associated value Block parameters BatchName...
Page 216 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default AcyclData Acyclic data from driver block PiDr256 (interconnect this input with AcyclData output of PiDr256) AFct* Function of alarm module: BYTE 0: No function 1: A1=Min. Alarm, A2=Max. Alarm 2: A1=Min. Alarm, A2=Min. Alarm 3: A1=Max.
Page 217 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default Bin1* Function of the binary input BE1: BYTE 0: No function 1: Message only (NCC) 2: Message only (NOC) 3: Block configuration (NOC) 4: Block configuration and man‐ ual (NOC) 5: Travel valve to position YE (NOC) 6: Travel valve to position YA (NOC)
Page 218 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default Cbk2 1 = Sipart is operated locally STRUCT Value: BOOL ST: BYTE 16#FF Cbk3 1 = Emergency operation is active STRUCT Value: BOOL ST: BYTE 16#FF Cbk7 1 = Maximum permitted controller STRUCT monitoring exceeded (Lim/Tim) Value: BOOL...
Page 219 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default ER_AL_Lim Alarm limit (low) for manipulated REAL -100.0 variable difference monitoring ER_AL_En 1 = Activate alarm (low) for ma‐ BOOL nipulated variable difference monitoring ER_AL_MsgEn 1 = Activate messages for alarm BOOL (low) for manipulated variable dif‐...
Page 220 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default ExtVa208 Associated value 8 for messages (MsgEvID2) ExtVa304 Associated value 4 for messages (MsgEvID3) ExtVa305 Associated value 5 for messages (MsgEvID3) ExtVa306 Associated value 6 for messages (MsgEvID3) ExtVa307 Associated value 7 for messages (MsgEvID3) ExtVa308 Associated value 8 for messages...
Page 221 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default LocalLi 1 = Activate "local mode" via plant STRUCT signal Value: BOOL ST: BYTE 16#80 LocalOp* 1 = "Local mode" via operator BOOL LocalSetting "Local" mode properties ManModLi* 1 = "Manual" mode via intercon‐ STRUCT nection or SFC (controlled via Value: BOOL...
Page 222 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default MV_ExtLi Select external manipulated vari‐ STRUCT able (via interconnection) Value: BOOL ST: BYTE 16#80 MV_ExtOp* Select external manipulated vari‐ BOOL able (via operator) MV_Forced Forced manipulated variable that STRUCT is not limited and assumes top Value: REAL priority ST: BYTE...
Page 223 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default NoFbkAuxVOpen 1 = No "open" feedback for auxil‐ BOOL iary valve present NoFbkClose 1 = No feedback present for "con‐ BOOL trol valve closed" NoFbkOpen 1 = No feedback present for "con‐ BOOL trol valve open"...
Page 224 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default Protect 0 = Protective interlocking is ef‐ STRUCT fective; once the interlocking con‐ Value: BOOL dition has disappeared, you will ST: BYTE 16#FF have to reset the block 1 = Protective interlocking not ac‐ tivated Position feedback for display on STRUCT...
Page 225 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default A1_AWH_DC A1: Delay time for incoming REAL alarms/warnings with overrange process value [s] A1_AWH_DG A1: Delay time for outgoing REAL alarms/warnings with overrange process value [s] A1_AW_DC A1: Delay time for incoming REAL alarms/warnings with overrange/ underrange process value or only...
Page 226 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default SafePos Neutral position for control valve: 0 = Closed 1 = Open 2 = Stop SafePosAux Neutral position for auxiliary BOOL valve: 1= Open 0 = Closed SampleTime Sampling time [s] (assigned auto‐ REAL matically) SelFp1...
Page 227 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default TimeFactor Time unit: 0 = seconds 1 = minutes 2 = hours UA1unit Unit of measure for analog auxili‐ ary value 1 UA2unit Unit of measure for analog auxili‐ ary value 2 UserAna1 Analog auxiliary value 1 STRUCT...
Page 228 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default A2_Act 1 = Alarm 2 of alarm module active STRUCT Value: BOOL ST: BYTE 16#80 A2AH_Act 1 = A2: High alarm enabled STRUCT Value: BOOL ST: BYTE 16#80 A2AL_Act 1 = A2: Low alarm enabled STRUCT Value: BOOL ST: BYTE...
Page 229 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default Closing 1 = Valve is closing STRUCT Value: BOOL ST: BYTE 16#80 1 = Block algorithm completed BOOL without errors EmergOp_Act 1 = Emergency operation is active STRUCT (Cbk3) Value: BOOL ST: BYTE 16#80 Manipulated variable difference...
Page 230 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default FbkOpenOut 1 = Control valve is open STRUCT Value: BOOL ST: BYTE 16#80 FbkOpngOut Control valve opening feedback STRUCT Value: BOOL ST: BYTE 16#80 GrpErr 1 = Group error pending STRUCT Value: BOOL ST: BYTE 16#80...
Page 231 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default MsgErr2 Message error 2 (output ERROR BOOL of first ALARM_8P) MsgErr3 Message error 3 (output ERROR BOOL of first ALARM_8P) MsgStat1 Alarm status 1 (output ERROR of WORD 16#0000 first ALARM_8P) MsgStat2 Message status 2 (output ERROR WORD...
Page 232 SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default OS_PermOut Display of OS_Perm DWORD 16#FFFFFFFF OS1PermLog Display of OS1Perm with settings DWORD 16#FFFFFFFF changed by the block algorithm OS1PermOut Display of OS1Perm DWORD 16#FFFFFFFF P_Rst 1= Pulse output for reset STRUCT The parameter persists for one cy‐...
Page 233: Template Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA Parameter Description Type Default RdyToReset 1 = Ready for reset via RstLi input STRUCT or commands in "automatic mode" Value: BOOL ST: BYTE 16#80 RdyToStart 1 = Active start readiness STRUCT Value: BOOL ST: BYTE 16#80 ST_Worst Worst signal status...
Page 234: Operator Control And Monitoring
SIPART PS2 HART 7.1 SipPS2HA Because no configuration data can be read from the device acyclically, the following inputs of the Sipart PS2 HART block may need to be configured to match their setting in the device: Block parameters Parameters on SI‐ Meaning Parameterization required PART PS2 HA...
Page 235: Standard View Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA ● Preview of SipPS2HA (Page 246) ● Memo view (Page 35) ● Batch view (Page 33) ● SipPS2HA block icon (Page 249) For general information on the faceplate and block icon, refer to the sections "Faceplate structure"...
Page 236 SIPART PS2 HART 7.1 SipPS2HA For more information on switching over of the operating mode, refer to the "Switchover of operating state and operating mode" section in the APL Online Help. (2) Opening, closing and stopping the control valve This area shows you the default operating state for the valve. The following states can be shown and executed here: ●...
Page 237 SIPART PS2 HART 7.1 SipPS2HA For more information about changing the manipulated variable, see the "Changing values" section in the APL Online Help. (7) Display of the position feedback including signal status This area shows the current feedback of the manipulated variable with the corresponding signal status.
Page 238 SIPART PS2 HART 7.1 SipPS2HA The following is displayed in addition to the buttons: ● Interlock status (see "Forming the group status for interlock information" section in the APL Online Help), for example: ● Signal status (see "Form and output signal status for technological blocks" section in the APL Online Help), for example: ●...
Page 239 SIPART PS2 HART 7.1 SipPS2HA (17) Display area for block states This area provides additional information on the operating state of the block: ● “Error End position” ● "Control error" ● "Invalid signal" ● "Changeover error" Additional information on these errors is available in the sections "Monitoring the feedbacks, Error handling", (subsection "Invalid input signals"...
Page 240 SIPART PS2 HART 7.1 SipPS2HA (22) Display area for state of the binary input BE1 This area provides additional information on the binary input BE1 according to the configuration of Bin1: ● "Message Bin1" ● "Configuration change blocked" ● "Configuration change blocked/Manual mode" ●...
Page 241: Limit View Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA 7.1.8.3 Limit view of SipPS2HA Several values can be set by default in this view: ● Manipulated variable difference limits ● Readback value limits ● Manipulated variable operating range The toolbars of the faceplate and the block icon indicate when the limits are reached or violated. (1) Enabled operations This area shows all operations for which special operator authorizations are assigned.
Page 242 SIPART PS2 HART 7.1 SipPS2HA (2) Actual value limits (Sipart alarm module) The limits displayed here are the limits of the optional Sipart PS2 alarm module. You cannot change the values in the faceplate. Depending on the configuration of the alarm module ( Afct input), the alarm limits (A1, A2) are shown as alarm high/low, alarm/warning high or alarm/ warning low.
Page 243: Parameter View Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA (7) Message suppression/delays The message suppression indicates whether suppression of the associated message is activated in the AS block using the xx_MsgEn parameter. The output of messages is not suppressed when the block is installed (all xx_MsgEn parameters are set to 1 by default). Messages can only be output if limit monitoring of the additional analog value has been enabled.
Page 244 SIPART PS2 HART 7.1 SipPS2HA (1) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ●...
Page 245 SIPART PS2 HART 7.1 SipPS2HA (6) Service You can select the following functions in this area: ● "Simulation" ● "Release for maintenance" (with display for a maintenance request) Refer to the "Switchover of operating state and operating mode" section in the APL Online Help. You can find information on this area in the section: ●...
Page 246: Preview Of Sipps2Ha
SIPART PS2 HART 7.1 SipPS2HA 7.1.8.5 Preview of SipPS2HA (1) Automatic preview This shows the operating status of the control valve after it has switched from "manual" to "automatic" mode. If the block is in "automatic mode", the current block state is displayed. SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 247 SIPART PS2 HART 7.1 SipPS2HA (2) Preview area ● "Manipulated variable external": Display current external manipulated variable (MV_ExtOut). ● "Manipulated variable internal": Display current internal manipulated variable (MV_Int). ● "Manipulated variable difference": Current manipulated variable error (ER) ● "Permissible dev.": permitted ± deviation (PosDeadBand) of output manipulated variable. If the manipulated variable feedback Rbk is within this range, the manipulated variable is considered reached.
Page 248 SIPART PS2 HART 7.1 SipPS2HA If text is configured for this command, it is also displayed in brackets. You can find additional information on this in the "Labeling buttons and texts" section in the APL Online Help. ● "Close": You can close the valve. The display always relates to the auxiliary valve and control valve.
Page 249: Sipps2Ha Block Icon
SIPART PS2 HART 7.1 SipPS2HA Since, depending on the configuration, the block itself forms the digital feedback signals internally via the "Open" and "Closed" positions, the following reaction results from the "Feedback open" and "Feedback closed" signals. ● Control valve: –...
Page 250 SIPART PS2 HART 7.1 SipPS2HA ● External/internal manipulated variable specification ● Memo display The block icons from template @TemplateAPL_SITRANS.PDL: Icons Selection of the block icon in CFC Special features Additional information on the block icon and the control options in the block icon is available in the following chapters: ●...
Page 251: Psipps2
SIPART PS2 HART 7.2 PSipPS2 PSipPS2 7.2.1 Description of PSipPS2 Function The PSipPS2 block is the interface to the operator panel for the technological block SipPS2. It is a message-capable block and generates the same Alarm_DQ messages as the associated technological block.
Page 252: Psipps2 Messaging
SIPART PS2 HART 7.2 PSipPS2 Called blocks SFC6 RD_SINFO SFC19 ALARM_SC SFC24 TEST_DB SFC107 ALARM_DQ 7.2.2 PSipPS2 messaging Messaging The messages correspond to those of the SipPS2 block. 7.2.3 PSipPS2 connections Input parameters Parameter Description Type Default SP - Bar Display Limits for OS REAL Op_ScaleLow (Low)
Page 253 SIPART PS2 HART 7.2 PSipPS2 Parameter Description Type Default Inhibit process message STRUCT MsgLock Value BOOL MsgLock.Value Signal status BYTE 16#80 MsgLock.ST Message ID_1 DWORD 16#60000014 MsgEvId01 Message ID_2 DWORD 16#60000015 MsgEvId02 Message ID_3 DWORD 16#60000016 MsgEvId03 Message ID_4 DWORD 16#60000017 MsgEvId04 Message ID_5...
Page 254 SIPART PS2 HART 7.2 PSipPS2 Parameter Description Type Default Signal status BYTE 16#80 AV6.ST Auxiliary value Message value 7 STRUCT Value REAL AV7.Value Signal status BYTE 16#80 AV7.ST Auxiliary value Message value 8 STRUCT Value REAL AV8.Value Signal status BYTE 16#80 AV8.ST Auxiliary value Message value 9 STRUCT...
Page 255 SIPART PS2 HART 7.2 PSipPS2 Parameter Description Type Default Value REAL AV19.Value Signal status BYTE 16#80 AV19.ST Output parameters Parameter Description Type Default BOOL Switch permission DWORD 16#00000001 SwitchPerm_Out WinCC status DWORD 16#00000000 OSStat_Out Status 2 WinCC DWORD 16#00000000 OSStat2_Out Bit Reporting Procedure DWORD 16#00000000...
Page 256 SIPART PS2 HART 7.2 PSipPS2 Parameter Description Type Default Message: ACK_STATE output 5 BOOL MsgAckn05 Message: ACK_STATE output 6 BOOL MsgAckn06 Message: ACK_STATE output 7 BOOL MsgAckn07 Message: ACK_STATE output 8 BOOL MsgAckn08 Message: ACK_STATE output 9 BOOL MsgAckn09 Message: ACK_STATE output 10 BOOL MsgAckn10 Message: ACK_STATE output 11...
Page 257 SIPART PS2 HART 7.2 PSipPS2 Bit14 BOOL Sipart - Fail safe position Bit15 BOOL Sipart - Emergen‐ cy operation Bit16 BOOL Sipart - Path inte‐ gral exceeded Bit20 BOOL Error while read‐ ing configuration data Bit21 BOOL Error while writing configuration data Bit31 BOOL...
Page 258: Operator Control And Monitoring Wincc
SIPART PS2 HART 7.2 PSipPS2 Status word allocation for OSStat2 and OSStat2_Outs parameters Bit0 BOOL VlvLimExceed Bit1 BOOL LimitViolation Bit5 BOOL BE1_Msg Bit6 BOOL BE1_CfgBl Bit7 BOOL BE1_CfgBlMan Bit8 BOOL BE1_MoveToHi‐ Bit9 BOOL BE1_MoveToLo‐ Bit10 BOOL BE1_MoveBl Bit11 BOOL BE2_Msg …...
Page 259: Operator Control And Monitoring Wincc Flexible
SIPART PS2 HART 7.2 PSipPS2 7.2.5 Operator Control and Monitoring WinCC flexible 7.2.5.1 Views Operator Control and Monitoring WinCC flexible The block provides the following views: ● Standard view of PSipPS2 (Page 259) ● Message view ● Associated value view 7.2.5.2 Standard view of PSipPS2 Standard view...
Page 260: Block Icon For Psipps2
SIPART PS2 HART 7.2 PSipPS2 7.2.5.3 Block icon for PSipPS2 PSipPS2 block icons SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 261: Sipart Ps2 Pa
SIPART PS2 PA SipPS2PA 8.1.1 Description of SipPS2PA Object name (type + number) and family Type + number: FB 2642 Family: Sipart Application area of SipPS2PA The block is used for the following applications: ● Control of a Sipart PS2 PA with Profibus PA I/O ●...
Page 262 SIPART PS2 PA 8.1 SipPS2PA Feature2.Bit1 specifies whether the optional alarm module is available; Feature2.Bit3 specifies whether the TIM and LIM limits should be read and displayed. If the Sipart PS2 PA is not connected, no configuration data can be read. The bits OS_Perm.Bit29 and OS_Perm.Bit30 are set to FALSE so that no configuration data can be read.
Page 263 SIPART PS2 PA 8.1 SipPS2PA Status bit Parameter 1 = Force Automatic preview (1 = "Open") 1 = Bumpless switchover to "automatic mode" is active 1 = Actuator active (PosDiClose < MV <PosDiOpen) UserAna1 interconnected UserAna2 interconnected "Open"/"Closed" command auxiliary valve (0 = "Closed", 1 ="Open") FbkOpenAuxVOut.Value.
Page 264 SIPART PS2 PA 8.1 SipPS2PA Status bit Parameter 1 = Control valve has reached intermediate position (STOP) 1 = Command for opening the control valve active 1 = Command for closing the control valve active 1 = Command for stopping the control valve active 1 = Runtime error for open control valve 1 = Bypass information from preceding function block MS_RelOp...
Page 265 SIPART PS2 PA 8.1 SipPS2PA Status bit Parameter Not used SimLiOp.Value Status word allocation for Status4 parameter Status bit Parameter 1 = External error 1 = error when reading acyclic data (active only for the duration of one cycle) 1 = error when writing acyclic data (active only for the duration of one cycle) Cbk0 = 1 (Sipart in fail-safe state) Cbk1 = 1 (request for local mode of Sipart) Cbk2 = 1 (Sipart operated in local mode)
Page 266 SIPART PS2 PA 8.1 SipPS2PA Status word allocation for Status5 parameter Status bit Parameter 1 = Input parameter MV_ChnST is interconnected 1 = Input parameter CtrlChnST is interconnected 1 = Readback value violates high alarm limit A1 (A1AH_Act.Value) 1 = Readback value violates high warning limit A1 (A1WH_Act.Value) 1 = Readback value violates low alarm limit A1 (A1WL_Act.Value) 1 = Readback value violates high alarm limit A1 (A1AH_Act.Value) 1 = Readback value violates high alarm limit A2 (A2AH_Act.Value)
Page 267: Operating Modes Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA 8.1.2 Operating modes of SipPS2PA The block can be operated using the following modes: ● Local mode ● Automatic mode ● Manual mode ● Out of service The operating modes are described in more detail in the APL Online Help. The next section provides additional block-specific information relating to the general descriptions.
Page 268: Functions Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA In "manual mode", the operator actions affect the auxiliary valve, which you can: ● "Open" (OpenMan = 1) ● "Close" (CloseMan = 1) Without auxiliary valve: In "manual mode", the operator actions affect the control valve, which you can: ●...
Page 269 SIPART PS2 PA 8.1 SipPS2PA Opening additional faceplates This block provides the standard "Call further faceplates" function that is described in the APL Online Help. Interlocks This block provides the following interlocks: ● Activation enable ("Permission") ● Interlock without reset ("Interlock") ●...
Page 270 SIPART PS2 PA 8.1 SipPS2PA You can simulate the following values: ● Position feedback (SimRbk, SimRbkLi) Tracking and limiting a manipulated variable You can correct the manipulated variable output to the tracking value MV_Trk or the manipulated variable feedback Rbk to realize bumpless switchover. To track the manipulated variable output, you have to set the parameter MV_TrkOn = 1.
Page 271 SIPART PS2 PA 8.1 SipPS2PA Forcing operating modes This block provides the standard "Forcing operating modes" function that is described in the APL Online Help. Note If the block is operated with a auxiliary valve, the OpenForce and CloseForce commands also affect the auxiliary valve.
Page 272 SIPART PS2 PA 8.1 SipPS2PA If the control valve travels in the direction of the "Close" position, the output FbkClsgOut = 1: ● FbkClsgOut is set when MV.Value < RbkOut.Value and PosReached.Value is not = 1. Valve open ("Open") When the control valve reaches the "Open" position, the output FbkOpenOut.Value = 1: ●...
Page 273 SIPART PS2 PA 8.1 SipPS2PA A dynamic monitoring error is generated if: ● The "Closed" end position is targeted (MV ≤ PosDiClose) and this position (FbkCloseOut) is not reached within the monitoring time MonTiDynamic. ● The "Closed" end position is targeted (MV ≤ PosDiClose) and the feedback of the binary limit switch FbkClose is already within the operating range.
Page 274 SIPART PS2 PA 8.1 SipPS2PA The following parameters can be used to monitor the auxiliary valve. Parameter Function 1 = Auxiliary valve open feedback signal FbkAuxVOpen 1 = Auxiliary valve closed feedback signal FbkAuxVClose 1 = No feedback present for "auxiliary valve open" (default = 1) NoFbkAuxVOpen 1 = No feedback present for "auxiliary valve closed"...
Page 275 SIPART PS2 PA 8.1 SipPS2PA Configurable reactions using the Feature/Feature2 parameter An overview of all the reactions that are provided by the Feature parameter is available in section "Configurable response using the Feature I/O" in the APL Online Help. The following reactions are available for this block at the relevant bits: Function Setting the startup characteristics (Page 50)
Page 276 SIPART PS2 PA 8.1 SipPS2PA There are also the following Feature bits in the Feature2 parameter: Function 1 = Violation of the control deviation is not detected by the block, but rather by Sipart based on the LIM and TIM parameters. This requires Sipart to be connected via Profibus PA 1 = An alarm module is available whose configuration (AFct) and limits (A1/A2) can be read by the device Not used...
Page 277 SIPART PS2 PA 8.1 SipPS2PA 1 = Operator can reset the valve 1 = Operator can define the monitoring time for startup 1 = Operator can define the monitoring time for runtime 1 = Operator can activate the monitoring function for the feedback signals of the control valve (bits 7 - 8) Not used 1 = Operator can activate the release for maintenance function...
Page 278 SIPART PS2 PA 8.1 SipPS2PA 1 = Operator can change the limit (manipulated variable difference) for the low alarm ER_AL_Lim 1 = The operator can change the limit (position feedback) for the high warning RbkWH_Lim 1 = Operator can change the hysteresis (position feedback) RbkHyst 1 = The operator can change the hysteresis (position feedback) for low warning RbkWL_Lim Note If you interconnect a parameter that is also listed in OS_Perm as a parameter, you have to reset...
Page 279 SIPART PS2 PA 8.1 SipPS2PA Continued table: Local‐ MV_Tr MV_Trk MV_Ex‐ MV = Limit State tAct MV_Forced None Forced tracking without limit MV_OpScale.Low MV_OpS‐ Forced close cale.Low MV_OpScale.High MV_OpS‐ Forced open cale.High MV_Int MV_HiLim Manual mode MV_LoLim with internal ma‐ nipulated variable MV_ExtOut MV_HiLim...
Page 280 SIPART PS2 PA 8.1 SipPS2PA If ER is within the dead band, ER = 0 is set and the manipulated variable is considered reached. Manipulated variable difference generation and dead band The manipulated variable difference is formed by the effective manipulated variable MV and the position feedback Rbk, and sent to the ER output.
Page 281: Error Handling Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA The disable setting is made with the NoFbkOpen and NoFbkClose parameters for the control valve. The disable setting is made with the NoFbkAuxVOpen and NoFbkAuxVClose parameters for the auxiliary valve. Time stamp This block receives a time stamp value via the EventTSIn input parameter. Refer to the "Functions of EventTs"...
Page 282: Sipps2Pa Messaging
SIPART PS2 PA 8.1 SipPS2PA Mode switchover error This error can be output by the block, see the "Error handling" section in the APL Online Help. Invalid input signals This error can be output by the block, see the "Error handling" section in the APL Online Help. 8.1.5 SipPS2PA messaging Messaging...
Page 283 SIPART PS2 PA 8.1 SipPS2PA Process messages Message Message Message class Event instance identifier MsgEvId1 SIG2 Alarm - high $$BlockComment$$ ER - high alarm limit violated SIG3 Alarm - low $$BlockComment$$ ER - low alarm limit violated SIG4 Warning - high $$BlockComment$$ Rbk - high limit violated SIG5...
Page 284 SIPART PS2 PA 8.1 SipPS2PA Associated values for message instance MsgEvId1 Associated value Block parameters BatchName StepNo BatchID ExtVa104 ExtVa105 ExtVal06 ExtVa107 ExtVa108 Reserved Reserved The associated values 4 ... 8 are allocated to the parameters ExtVa104 ... ExtVa108 and can be used.
Page 285: Sipps2Pa Connections
SIPART PS2 PA 8.1 SipPS2PA Associated value Block parameters ExtVa307 ExtVa308 Reserved Reserved The associated values 4 to 8 are assigned to the parameters ExtVa304 ... ExtVa308 and can be used by yourself. Additional information is available in the "Process Control System PCS 7 - Engineering System"...
Page 286 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default AFct* Function of alarm module: BYTE 0: No function 1: A1=Min. Alarm, A2=Max. Alarm 2: A1=Min. Alarm, A2=Min. Alarm 3: A1=Max. Alarm, A2=Max. Alarm 4: A1=Min. Alarm, A2=Max. Alarm (inv) 5: A1=Min. Alarm, A2=Min. Alarm (inv) 6: A1=Max.
Page 287 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default Bin1* Function of the binary input BE1: BYTE 0: No function 1: Message only (NCC) 2: Message only (NOC) 3: Block configuration (NOC) 4: Block configuration and man‐ ual (NOC) 5: Travel valve to position YE (NOC) 6: Travel valve to position YA (NOC)
Page 288 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default Cbk16 1 = Stroke integral exceeded STRUCT Value: BOOL ST: BYTE 16#FF Cbk2 1 = Sipart is operated locally STRUCT Value: BOOL ST: BYTE 16#FF Cbk3 1 = Emergency operation is active STRUCT Value: BOOL ST: BYTE 16#FF...
Page 289 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default ER_AH_MsgEn 1 = Activate messages for alarm BOOL (high) for manipulated variable difference monitoring ER_AL_Lim Alarm limit (low) for manipulated REAL -100.0 variable difference monitoring ER_AL_En 1 = Activate alarm (low) for ma‐ BOOL nipulated variable difference monitoring...
Page 290 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default ExtVa206 Associated value 6 for messages (MsgEvID2) ExtVa207 Associated value 7 for messages (MsgEvID2) ExtVa208 Associated value 8 for messages (MsgEvID2) ExtVa304 Associated value 4 for messages (MsgEvID3) ExtVa305 Associated value 5 for messages (MsgEvID3) ExtVa306 Associated value 6 for messages...
Page 291: Ms_Relop
SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default Intlock 0 = Interlocking without reset is STRUCT active; you can operate the block Value: BOOL without reset once the interlock‐ ST: BYTE 16#FF ing condition has disappeared 1 = Interlock not activated Lim* Response threshold for "control‐...
Page 292 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default MV_ChnST Signal status of output channel STRUCT of MV Value: BOOL Should be connected to an output ST: BYTE 16#FF channel block MV_Ext External manipulated variable STRUCT Value: REAL ST: BYTE 16#80 MV_ExtLi Select external manipulated vari‐...
Page 293 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default MV_TrkRbk 1 = Bumpless switchover of ma‐ BOOL nipulated variable tracking active (track manipulated variable to po‐ sition feedback) MV_Unit Unit of measure for manipulated 1342 variable NoFbkAuxVClose 1 = No "closed" feedback for aux‐ BOOL iliary valve present NoFbkAuxVOpen...
Page 294 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default PosDeadBand Dead band for forming manipu‐ REAL lated variable difference PosDiClose Limit for control valve position REAL "closed" PosDiOpen Limit for control valve position REAL 95.0 "open" Prot_En 1 = Protective interlock (protec‐ BOOL tion, Protect parameter) is active Protect...
Page 295 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default A1_AW_DC A1: Delay time for incoming REAL alarms/warnings with overrange/ underrange process value or only with underrange process value [s] A1_AW_DG A1: Delay time for outgoing REAL alarms/warnings with overrange/ underrange process value or only with underrange process value [s] A2_AWH_DC A2: Delay time for incoming...
Page 296 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default SampleTime Sampling time [s] (assigned auto‐ REAL matically) SelFp1 Call a block saved in this param‐ eter as additional faceplate in standard view SelFp2 Call a block saved in this param‐ eter as additional faceplate in pre‐...
Page 297 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default WarnTiMan Prewarning of valve movement in REAL manual mode in [s] WrCfgOp* 1 = Write all configuration data to BOOL Sipart * Values can be written back to these inputs during processing of the block by the block algorithm.
Page 298 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default AutAct 1 = "Automatic mode" enabled STRUCT 0 = "Manual mode", "Local mode" Value: BOOL or "Out of service" enabled ST: BYTE 16#80 AuxClosed 1 = Auxiliary valve is closed STRUCT Value: BOOL ST: BYTE 16#80...
Page 299 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default ER_AL_Act 1 = Alarm limit (low) for manipu‐ STRUCT lated variable difference violated. Value: BOOL You can change the response for ST: BYTE 16#80 this parameter by setting Feature bit 28 (deacti‐ vate switching points) and Feature bit 29 (high/low sig‐...
Page 300 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default MonDynAuxVErr 1 = Feedback error auxiliary valve STRUCT due to output change Value: BOOL ST: BYTE 16#80 MonDynErr 1 = Feedback error control valve STRUCT due to control change Value: BOOL ST: BYTE 16#80 MonStaAuxVErr...
Page 301 SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default MV_HiAct 1 = Limit (high) of manipulated var‐ STRUCT iable violated Value: BOOL ST: BYTE 16#80 MV_LoAct 1 = Limit (low) of manipulated var‐ STRUCT iable violated Value: BOOL ST: BYTE 16#80 MV_RateTarget Target manipulated variable for...
Page 302: Template Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA Parameter Description Type Default QTim Monitoring time for setting of "Con‐ STRUCT troller error" fault message Value: REAL ST: BYTE 16#80 QWronDev 1 = Wrong device connected BOOL RbkOut Position feedback output STRUCT Value: REAL ST: BYTE 16#80 RbkWH_Act...
Page 303 SIPART PS2 PA 8.1 SipPS2PA Before copying the templates into a project, you must first copy the standard PCS 7 blocks from the APL into the SITRANS library because they are not supplied due to licensing reasons. These are the driver blocks Or08, SelST16, Pcs7InDi, Pcs7AnIn, Pcs7AnOu, FbAnIn, FbAnOu and the Intlk02 block.
Page 304: Operator Control And Monitoring
SIPART PS2 PA 8.1 SipPS2PA Optionally, the Permit, Interlock and Protect blocks can be interconnected with other blocks. 8.1.8 Operator control and monitoring 8.1.8.1 Views of SipPS2PA Views of the SipPS2PA block The SipPS2PA block provides the following views: ● Standard view of SipPS2PA (Page 305) ●...
Page 305: Standard View Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA 8.1.8.2 Standard view of SipPS2PA Standard view with auxiliary valve (1) Display and switch the operating mode This area provides information on the currently valid operating mode. The following operating modes can be shown here: ●...
Page 306 SIPART PS2 PA 8.1 SipPS2PA "Close"/"open" command relates to the auxiliary valve. If no auxiliary valve is required for controlling the control valve, the "Open" and "Close" commands affect the control valve. If text is configured for these commands, it is displayed as status text and as button labels for command selection.
Page 307 SIPART PS2 PA 8.1 SipPS2PA (8) Bar graph for manipulated variable This area shows the current manipulated variable in the form of a bar graph. The visible area in the bar graph depends on the configuration in the Engineering System (ES). When the ramp function is enabled, the ramp target value is identified by the letter "R".
Page 308 SIPART PS2 PA 8.1 SipPS2PA (13) Display area for block states This area provides additional information on the operating state of the block: ● "Maintenance" (14) Display area for block states This area provides additional information on the operating state of the block: ●...
Page 309 SIPART PS2 PA 8.1 SipPS2PA (18) Display area for state of the Sipart PS2 PA Display area for block states ● "Fail-safe position" (19) Display area for state of the binary input BE2 This area provides additional information on the binary input BE2 according to the configuration of Bin2: ●...
Page 310: Limit View Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA (24) Automatic preview This display is only visible in "manual mode", in "local mode", or with a reset request in "automatic mode", when the current output signals are not identical to the control in "automatic mode".
Page 311 SIPART PS2 PA 8.1 SipPS2PA (1) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ●...
Page 312 SIPART PS2 PA 8.1 SipPS2PA (6) Manipulated variable operating range (MV) In this area, you can enter the limits for the manipulated variable operation range. Refer to the "Changing values" section in the APL Online Help. You can change the following limits: ●...
Page 313: Parameter View Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA 8.1.8.4 Parameter view of SipPS2PA (1) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ●...
Page 314 SIPART PS2 PA 8.1 SipPS2PA Enable monitoring You can enable monitoring by selecting the check box (☑) For more information, refer to the "Monitoring feedbacks" section in the APL Online Help. (3) Monitoring auxiliary valve As under (2) Monitoring, but only visible when there is an auxiliary valve. Only one common monitoring time can be entered for dynamic and static monitoring.
Page 315: Preview Of Sipps2Pa
SIPART PS2 PA 8.1 SipPS2PA 8.1.8.5 Preview of SipPS2PA (1) Automatic preview This shows the operating status of the control valve after it has switched from "manual" to "automatic" mode. If the block is in "automatic mode", the current block state is displayed. SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 316 SIPART PS2 PA 8.1 SipPS2PA (2) Preview area ● "Manipulated variable external": Display current external manipulated variable (MV_ExtOut). ● "Manipulated variable internal": Display current internal manipulated variable (MV_Int). ● "Manipulated variable difference": Current manipulated variable error (ER) ● "Permissible dev.": permitted ± deviation (PosDeadBand) of output manipulated variable. If the manipulated variable feedback Rbk is within this range, the manipulated variable is considered reached.
Page 317 SIPART PS2 PA 8.1 SipPS2PA If text is configured for this command, it is also displayed in brackets. You can find additional information on this in the "Labeling buttons and texts" section in the APL Online Help. ● "Close": You can close the valve. The display always relates to the auxiliary valve and control valve.
Page 318: Sipps2Pa Block Icon
SIPART PS2 PA 8.1 SipPS2PA Since, depending on the configuration, the block itself forms the digital feedback signals internally via the "Open" and "Closed" positions, the following reaction results from the "Feedback open" and "Feedback closed" signals. ● Control valve: –...
Page 319 SIPART PS2 PA 8.1 SipPS2PA The block icons from template @TemplateAPL_SITRANS.PDL: Icons Selection of the block icon in CFC Special features Additional information on the block icon and the control options in the block icon is available in the following chapters: ●...
Page 320 SIPART PS2 PA 8.1 SipPS2PA SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 321: Sitrans T
SITRANS T SitransT 9.1.1 Description of SitransT Object name (type + number) and family Type + number: FB 2628 Family: SitransT Area of application of SitransT The block is used for the following applications: ● Interface block between the driver blocks of the SITRANS TH300/TH420 for the user program and visualization How it works The SitransT block prepares the process data received from driver blocks from a...
Page 322: Status Bit Parameter
SITRANS T 9.1 SitransT input), its unit (PV_Unit0 input), and its scaling (PV_OpSacle input) must be entered manually. Note Correct configuration of the SlotHart input is a mandatory requirement and cannot be checked by the block. The SitransT block contains a template for process tag types in the SITRANS Library as an example with an application scenario for this block: Template of SitransT (Page 349) Note The SitransT block internally calls the APL blocks ChkREAL (FC260) and SelST16 (FC369)
Page 323 SITRANS T 9.1 SitransT Status word allocation for Status2 parameter Status bit Parameter MsgLock.Value PV_AH_Act.Value PV_WH_Act.Value Feature.Bit2 (HART communication on) and not QWronDev QWronDev PV_WL_Act.Value PV_AL_Act.Value PV_AH_En PV_WH_En 9 - 10 Not used PV_WL_En PV_AL_En PV_AH_MsgEn PV_WH_MsgEn 15 - 16 Not used PV_WL_MsgEn PV_AL_MsgEn...
Page 324: Operating Modes Of Sitranst
SITRANS T 9.1 SitransT 9.1.2 Operating modes of SitransT The block can be operated using the following modes: ● On ● Out of service "On" For general information about the "On" mode, refer to the APL online help. "Out of service" The block is not entirely "out of service"...
Page 325 SITRANS T 9.1 SitransT Note If the module is used without HART communication, the inputs must be parameterized accordingly manually since reading out of the configuration from the module is not possible. Limit monitoring You can monitor the process value (PV_In, 4 to 20 mA signal) for the following high and low alarm and warning limits: ●...
Page 326 SITRANS T 9.1 SitransT Selecting a unit of measure This block provides the standard function Selecting a unit of measure (Page 13). The units for the 4 to 20 mA signal and the HART variables are configured on the device of the HART via PDM and read by an operator action in the "Parameters"...
Page 327 SITRANS T 9.1 SitransT Feature Suppress all messages Reaction of the switching points in "Out of service" mode Disabling switching points Signaling limit violation Operator authorizations This block provides the standard operating permissions that are described in the APL online help.
Page 328 SITRANS T 9.1 SitransT Simulating signals Simulation is triggered during runtime in the faceplate's parameter view by clicking on the "Simulation" button. You can simulate the following values in the faceplate via an input: ● The 4 to 20 mA signal (PV_Out0) in the standard view is specified via the input (SimPV0). ●...
Page 329: Error Handling Of Sitranst
SITRANS T 9.1 SitransT ● The minimum of Input 1 and Input 2 with both as back up (SimMinI1I2BckLi, MinI1I2Bck) ● The maximum of Input 1 and Input 2 with both as back up (SimMaxI1I2BckLi, MaxI1I2Bck) ● The electronics temperature (SimETLi, ElecTemp) The outputs Input1, Input2, Input1CJC, Input2CJC, AvgI1I2, DiffI1I2, DiffI2I1, AbDiffI1I2, MinI1I2 , MaxI1I2, MaxI1I2, I1I2Bck, I1I2Bck, AvgI1I2Bck, MinI1I2Bck, MaxI1I2Bck and ElecTemp are also simulated in accordance...
Page 330: Message Behavior Of Sitranst
SITRANS T 9.1 SitransT The following errors can be displayed for this block: ● Error numbers ● Control system fault (CSF) Overview of error numbers The ErrorNum I/O can be used to output the following error numbers: Error number Meaning of the error number Predefined value when inserting the block;...
Page 331 SITRANS T 9.1 SitransT Control system fault The following control system fault messages can be output: Message in‐ Message identifier Message class Event stance MsgEvId1 SIG5 AS process control message - fault $$BlockComment$$ External error has occurred SIG6 AS process control message - error $$BlockComment$$ Error reading a data record SIG7...
Page 332: I/Os Of Sitranst
SITRANS T 9.1 SitransT Associated value Block parameters BatchID ExtVa104 ExtVa105 ExtVal06 ExtVa107 ExtVa108 Reserved Reserved The associated values 4 ... 8 are allocated to the parameters ExtVa104 ... ExtVa108 and can be used. Additional information is available in the "Process Control System PCS 7 - Engineering System"...
Page 333 SITRANS T 9.1 SitransT Parameter Description Type Default PV_AH_Lim Limit PV alarm (high) REAL 95.0 PV_WH_Lim Limit PV warning (high) REAL 90.0 PV_WL_Lim Limit PV warning (low) REAL 10.0 PV_AL_Lim Limit PV alarm (low) REAL LagTime Delay time [s] REAL 10.0 PV_OpScale Limit for scale in PV bar graph of face‐...
Page 334 SITRANS T 9.1 SitransT Parameter Description Type Default UserAna2 Analog auxiliary value 2 STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 UA2unit Unit of measure for analog auxiliary val‐ ue 2 MsgLock 1 = Suppress process messages. STRUCT ●...
Page 335 SITRANS T 9.1 SitransT Parameter Description Type Default SimPV3* Process value of the third HART variable REAL (tertiary variable) that is used for SimOn = 1 SimPV4* Process value of the fourth HART varia‐ REAL ble (quaternary variable) that is used for SimOn = 1 SimRLi Process value for the resistance that is...
Page 336 SITRANS T 9.1 SitransT Parameter Description Type Default SimInput1CJCLi Process value for the Input 1 CJC that is STRUCT used for SimOnLi = 1 ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 SimInput2CJCLi Process value for the Input 2 CJC that is STRUCT used for SimOnLi = 1 ●...
Page 337 SITRANS T 9.1 SitransT Parameter Description Type Default MsgEvId1 Message number (assigned automatical‐ DWORD 16#00000000 BatchEn 1 = Enable allocation BOOL BatchID Batch ID DWORD 16#00000000 BatchName Batch name S7-String StepNo Batch step number DWORD 16#00000000 Occupied 1 = Occupied by batch control BOOL 1 = External error (control system fault) STRUCT...
Page 338 SITRANS T 9.1 SitransT Parameter Description Type Default Feature I/O for additional functions STRUCT ● Bit 0 : BOOL ● 0 ● Bit 1 : BOOL ● 0 ● Bit 2 : BOOL ● 1 ● … ● 1 ● Bit 6 : BOOL ●...
Page 339 SITRANS T 9.1 SitransT Parameter Description Type Default PV_Meas0* Measured value that is interconnected at BYTE the PV_In input: 0: Resistance 1: Resistance of channel 2 2: Difference in resistance 3: Average resistance 4: Temperature 5: Temperature of channel 2 6: Difference in temperature 7: Average temperature 8: Voltage...
Page 340 SITRANS T 9.1 SitransT Parameter Description Type Default PV_Meas1* Measured value that is interconnected at BYTE the PV input: 0: Resistance 1: Resistance of channel 2 2: Difference in resistance 3: Average resistance 4: Temperature 5: Temperature of channel 2 6: Difference in temperature 7: Average temperature 8: Voltage...
Page 341 SITRANS T 9.1 SitransT Parameter Description Type Default PV_Meas2* Measured value that is interconnected at BYTE the SV input: 0: Resistance 1: Resistance of channel 2 2: Difference in resistance 3: Average resistance 4: Temperature 5: Temperature of channel 2 6: Difference in temperature 7: Average temperature 8: Voltage...
Page 342 SITRANS T 9.1 SitransT Parameter Description Type Default PV_Meas3* Measured value that is interconnected at BYTE the TV input: 0: Resistance 1: Resistance of channel 2 2: Difference in resistance 3: Average resistance 4: Temperature 5: Temperature of channel 2 6: Difference in temperature 7: Average temperature 8: Voltage...
Page 343 SITRANS T 9.1 SitransT Parameter Description Type Default PV_Meas4* Measured value that is interconnected at BYTE the QV input: 0: Resistance 1: Resistance of channel 2 2: Difference in resistance 3: Average resistance 4: Temperature 5: Temperature of channel 2 6: Difference in temperature 7: Average temperature 8: Voltage...
Page 344 SITRANS T 9.1 SitransT Parameter Description Type Default RdMinMaxLi 1 = Read all slave pointer values from the BOOL device, via interconnection or SFC (0-1 edge transition) ScaleIn* Measuring range of the 4 to 20 mA signal STRUCT This input is only used to read back the ●...
Page 345 SITRANS T 9.1 SitransT Parameter Description Type Default PV_Out4 Output fourth HART variable (quaternary varia‐ STRUCT ble) ● Value : REAL ● ● ST: BYTE ● 16#80 PV_Grad0 Process value gradient (4 to 20 mA signal) STRUCT ● Value : REAL ●...
Page 346 SITRANS T 9.1 SitransT Parameter Description Type Default Input2 Output for process value for Input 2 STRUCT ● Value : REAL ● ● ST: BYTE ● 16#80 Input1CJC Output for process value for Input 1 CJC STRUCT ● Value : REAL ●...
Page 347 SITRANS T 9.1 SitransT Parameter Description Type Default MaxI1I2Bck Output for process value for Maximum of Input 2 STRUCT and Input 1 as backup ● Value : REAL ● ● ST: BYTE ● 16#80 PV_AH_Act 1 = PV alarm (high) enabled. STRUCT You can change the response for this parameter ●...
Page 348 SITRANS T 9.1 SitransT Parameter Description Type Default TempUnit Unit for temperature VoltUnit Unit for voltage ETempUnit Unit of measure for electronics temperature OosAct 1 = Block is "Out of service" STRUCT ● Value : BOOL ● ● ST: BYTE ●...
Page 349: Block Diagram Of Sitranst
SITRANS T 9.1 SitransT See also Description of SitransT (Page 321) 9.1.7 Block diagram of SitransT A block diagram is not provided for this block. 9.1.8 Template of SitransT This process tag type is used to connect a Sitrans TH300/TH420 with driver blocks to PCS 7. Note Since the APL driver blocks Or08, SelST16, Pcs7AnIn and FbAnIn are missing in the library for licensing reasons, they must be copied into the block library before the SitransT template is...
Page 350: Operator Control & Monitoring
SITRANS T 9.1 SitransT 9.1.9 Operator control & monitoring 9.1.9.1 Views of SitransT Views of the SitransT block The SitransT block provides the following views: ● Standard view of SitransT ● Alarm view (Page 34) ● Limit view of SitransT (Page 353) ●...
Page 351: Standard View Of Sitranst
SITRANS T 9.1 SitransT 9.1.9.2 Standard view of SitransT Depending on the configuration of the 4 to 20 mA signal and the up to four HART variables in the standard view, the current process values for resistance, resistance of channel 2, difference/average value of resistances, temperature, temperature of channel 2, difference/ average value of temperatures, voltage and/or electronics temperature are displayed.
Page 352 SITRANS T 9.1 SitransT (2) High and low scale range for the process value (4 to 20 mA signal) These values provide information on the display range for the bar graph of the process value (4 to 20 mA signal). The scale range is set in the engineering system with the PV_OpScale parameter, see Display and operating range for process values and limits.
Page 353: Limit View Of Sitranst
SITRANS T 9.1 SitransT (16) Bar graph for the gradient (4 to 20 mA signal) This area shows the current gradient value in the form of a bar graph. The visible area in the bar graph depends on the configuration in the engineering system (ES), see Display and operating range for process values and limits.
Page 354 SITRANS T 9.1 SitransT ● "Hysteresis" ● "L warning": Low warning ● "L alarm": Low alarm (2) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ●...
Page 355: Parameter View Of Sitranst
SITRANS T 9.1 SitransT 9.1.9.4 Parameter view of SitransT (1) Reading the configuration data In this area, you can read all configuration data relevant to the block from Sitrans TH300/TH420. (2) Parameter You can change the following parameters in this area: ●...
Page 356: Preview Of Sitranst
SITRANS T 9.1 SitransT Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator cannot control this parameter due to the configured AS operator permissions (OS_Perm or OS1Perm) See also Views of SitransT (Page 350)
Page 357: Slave Pointer View Of Sitranst
SITRANS T 9.1 SitransT (3) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ●...
Page 358 SITRANS T 9.1 SitransT Slave pointer view of TH420 (1) Slave pointer The last values read from the device for the slave pointer are shown in this area. The name of the configured measured value is displayed depending on the PV_Meas1..4 variable, in this case: "Max./Min resistance", "Max./Min.
Page 359: Block Icon For Sitranst
SITRANS T 9.1 SitransT (3) Reset maximum values of slave pointers For TH300, in this area, you can reset all resettable maximum values of the slave pointers in the module, and subsequently read out the current values. For TH420, in this area, you can reset all resettable minimum and maximum values of the slave pointers in the module, and subsequently read out the current values.
Page 360 SITRANS T 9.1 SitransT For more information on the block icon and operating options in the block icon, refer to the following sections in the APL online help: ● "Configuring the block icons" ● "Block icon structure" ● "Operation via the block icon" SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 361: Sitrans P
SITRANS P 10.1 SitransP 10.1.1 Description of SitransP Object name (type + number) and family Type + number: FB 2627 Family: SitransP Area of application of SitransP The block is used for the following applications: ● Interface block between the driver blocks of the SITRANS P300, P310, P410, P420, P500 and P DSIII modules (referred to below as SITRANS P) for the user program and visualization How it works...
Page 362 SITRANS P 10.1 SitransP supported by P420. If HART communication is used, reading out of the module configuration can be triggered in the WinCC faceplate. Otherwise, the physical variable of the 4 to 20 mA signal (PV_Meas0 input), its unit (PV_Unit0 input), and its scaling (PV_OpSacle input) must be entered manually.
Page 363 SITRANS P 10.1 SitransP Status bit Parameter OosLi.Value Not used OnAct.Value 7 - 9 Not used SimLiOp.Value Not used 1 = error when reading acyclic data (active only for the duration of one cycle) 1 = Error when writing acyclic data (active only for the duration of one cycle) SxGradPosNeg GradHUpEn GradHDnEn...
Page 364: Effective Signal 2 Of The Message Block Interconnected Via Eventtsin
SITRANS P 10.1 SitransP Status bit Parameter GradHDnAct.Value GradLAct.Value GradHUpEn GradHDnEn GradLEn GradHUpMsgEn GradHDnMsgEn GradLMsgEn SxGradPosNeg BypassAct.Value Not used MS_RelOp Status word allocation for Status3 parameter Status bit Parameter Effective signal 1 of the message block interconnected via EventTsIn Effective signal 2 of the message block interconnected via EventTsIn Effective signal 3 of the message block interconnected via EventTsIn Effective signal 4 of the message block interconnected via EventTsIn Effective signal 5 of the message block interconnected via EventTsIn...
Page 365: Operating Modes Of Sitransp
SITRANS P 10.1 SitransP Status word allocation for Status4 parameter Status bit Parameter L2_AH_Act.Value L2_WH_Act.Value L2_WL_Act.Value L2_AL_Act.Value L2_AH_En L2_WH_En L2_AH_En or L2_WH_En or L2_WL_En or L2_AL_En (any limit of the limit sensor 2 active) L2_WL_En L2_AL_En L2_AH_MsgEn L2_WH_MsgEn L2_WL_MsgEn L2_AL_MsgEn L3_AH_Act.Value L3_WH_Act.Value L3_WL_Act.Value...
Page 366: Functions Of Sitransp
SITRANS P 10.1 SitransP "On" You can find general information about the "On" mode in the On chapter. "Out of service" You can find general information about the "Out of service" mode in the Out of service section. The descriptions of the operating modes are identical for SitransP and the APL; refer to the online help for the standard APL blocks for information on them.
Page 367 SITRANS P 10.1 SitransP Description Block parameters (I/O) Read com‐ Read com‐ Read com‐ mand mand mand P500 P420 P300/DSIII Slave pointer MaxPRst/MinPRst (resettable/not resettable) Modbus MaxSPRst/MinSPRst addresses: MaxSTRst/MinSTRst (7010, 695 MaxETRst/MinETRst 7012, 6952 ---, ---, 7008, 6948 Minimum and maximum 15/ 170/ Lx_Scale.High/Low limit values...
Page 368 SITRANS P 10.1 SitransP following values must be set manually (the two limit sensors L2 and L3 not occupied by the P500 module are always configured manually): Parameter Meaning Selection of monitored process value (the process value must be transferred cyclically Lx_DevVar as a 4 to 20 mA signal or HART auxiliary variable) If Lx_DevVar = "NotUsed"...
Page 369 SITRANS P 10.1 SitransP You can define a hysteresis (L1/2/3_Hyst) and a response time (L1/2/3_RespT) for the limits, for example to suppress signal flatter. You can also modify the limits, the hysteresis and the response time via the faceplate. Gradient monitoring The gradient PV_Grad0 is calculated by means of a delay function configurable using LagTime.
Page 370 SITRANS P 10.1 SitransP Forming the signal status for blocks This block provides the standard "Form and output signal status for technological blocks" function that is described in the APL Online Help. The worst signal status ST_Worst for the block is formed from the process values (4 to 20 mA and HART variables): ●...
Page 371 SITRANS P 10.1 SitransP Operator authorizations This block provides the standard operating permissions that are described in the APL online help. The block has the following permissions for the OS_Perm parameter: Function Not used 1 = Operator can switch to "On" mode 1 = Operator can change the simulation values SimPV0..4 1 = Operator can switch to "Out of service"...
Page 372 SITRANS P 10.1 SitransP The block has the following permissions for the OS2Perm parameter: Funktion 1 = Operator can read the slave pointer values from the module 1 = Operator can reset the maximum slave pointer value of the pressure (P420: max.
Page 373 SITRANS P 10.1 SitransP You can simulate the following values via an interconnection in the CFC: ● The pressure (SimPLi, Pressure) ● The sensor temperature (SimSenTLi, SenTemp) ● The electronics temperature (SimElTLi, ElecTemp) ● The untrimmed pressure (SimPUntLi, PresUntr) ● The level (SimLevLi, Level) ●...
Page 374: Error Handling Of Sitransp
SITRANS P 10.1 SitransP SIMATIC BATCH functionality This block provides the standard "SIMATIC BATCH functionality" function that is described in the APL Online Help. 10.1.4 Error handling of SitransP For general information on error handling of all blocks, refer to the "Error handling" chapter in the APL Online Help.
Page 375: Message Behavior Of Sitransp
SITRANS P 10.1 SitransP 10.1.5 Message behavior of SitransP Messaging The following messages can be generated for this block: ● Control system fault ● Process messages ● Instance-specific messages Control system fault The following control system fault messages can be output: Message in‐...
Page 376 SITRANS P 10.1 SitransP Process messages Message in‐ Message identifier Message class Event stance Alarm - high $$BlockComment$$ @4Y%t#SitransP_MeasVal@ - MsgEvId1 SIG1 high alarm limit violated Warning - high $$BlockComment$$ @4Y%t#SitransP_MeasVal@ - SIG2 high warning limit violated Warning - low $$BlockComment$$ @4Y%t#SitransP_MeasVal@ - SIG3 low warning limit violated...
Page 377 SITRANS P 10.1 SitransP Instance-specific messages You can use up to three instance-specific messages with this block. Message in‐ Message ID Message class Event stance AS process control message - $$BlockComment$$ External message 1 MsgEvId3 SIG3 fault AS process control message - $$BlockComment$$ External message 2 SIG4 fault...
Page 378 SITRANS P 10.1 SitransP Associated value Block parameter ExtVa208 reserved reserved The input parameter InL3_DevVar contains a number for the physical variable of the limit sensor 3. The associated values 5 ... 8 are allocated to the parameters ExtVa205 ... ExtVa208, and you can use them.
Page 379: I/Os Of Sitransp
SITRANS P 10.1 SitransP 10.1.6 I/Os of SitransP Input parameters Parameter Description Type Default SlotHart Slot number of the SITRANS P within the AI mod‐ ule in the ET200M from HW Config DevType Device type of SITRANS P 1: SITRANS P DS III/P310/P410 2: SITRANS P300 3.
Page 380 SITRANS P 10.1 SitransP Parameter Description Type Default InLx_WL_Lim* Limit sensor x: REAL (x= 1,2,3) Limit warning (low) InLx_AL_Lim* Limit sensor x: REAL (x= 1,2,3) Alarm limit (low) InLx_Unit* Limit sensor x: (x= 1,2,3) Unit InLx_DevVar* Limit sensor x: BYTE 16#00 (x= 1,2,3) Physical variable...
Page 381 SITRANS P 10.1 SitransP Parameter Description Type Default Lx_A_DC* Limit sensor x: REAL (x= 1,2,3) Delay time for incoming alarms with overrange/ underrange process value or only with under‐ range process value [s] Lx_A_DG* Limit sensor x: REAL (x= 1,2,3) Delay time for outgoing alarms with overrange/ underrange process value or only with under‐...
Page 382 SITRANS P 10.1 SitransP Parameter Description Type Default PV_Unit2* Unit for the second HART variable (secondary variable) PV_Unit3* Unit for the third HART variable (tertiary variable) INT PV_Unit4* Unit for the fourth HART variable (quaternary variable) GradHUpEn 1 = Enable gradient monitoring (high) for positive BOOL changes GradHDnEn...
Page 383 SITRANS P 10.1 SitransP Parameter Description Type Default BypPVLi 1 = Select bypass PV (via interconnection) STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 RstBypLi 1 = Reset bypass PV (via interconnection) STRUCT ● Value : BOOL ●...
Page 384 SITRANS P 10.1 SitransP Parameter Description Type Default SimLevLi Process value for the level that is used STRUCT for SimOnLi = 1 ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 SimVolLi Process value for the volume that is used STRUCT for SimOnLi = 1 ●...
Page 385 SITRANS P 10.1 SitransP Parameter Description Type Default ExtMsg3 Binary input for freely selectable message 3 STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 ExtVa106 Associated value 6 for messages (MsgEvID1) ExtVa107 Associated value 7 for messages (MsgEvID1) ExtVa108 Associated value 8 for messages (MsgEvID1) ExtVa205...
Page 386 SITRANS P 10.1 SitransP Parameter Description Type Default EventTsIn For routing the signal status from an EventTs STRUCT message block. ● Value : BYTE ● 0 The input parameter EventTsIn is used to in‐ ● ST: BYTE ● 16#FF terconnect the output parameter EventTsOut of the EventTs block.
Page 387 SITRANS P 10.1 SitransP Parameter Description Type Default PV_Meas3* Measured value that is interconnected at the TV BYTE input: 0: Pressure 1: Sensor temperature 2: Electronics temperature 3: Pressure (untrimmed) 4: Fill level 5: Volume 6: Mass 7: Volume flow 8: Mass flow 9: User value 10: Static pressure...
Page 388 SITRANS P 10.1 SitransP Parameter Description Type Default RMaxSTLi 1 = Reset max. slave pointer sensor tempera‐ BOOL ture, via interconnection or SFC (0-1 edge tran‐ sition) RMinSTLi 1 = Reset min. slave pointer sensor temperature, BOOL via interconnection or SFC (0-1 edge transition) RMaxETLi 1 = Reset max.
Page 389 SITRANS P 10.1 SitransP In/out parameters Parameter Description RdReq Is interconnected with the SxRdReq output of the SitraPDr block. Only exactly one member variable is set to TRUE: STRUCT DevVarAssin : Assignment of measured variables to HART variables DevVarUnits : Units of measured variables ManufacturerID : Manufacturer ID mASetPoints : Limits of the 4 to 20 mA signal UserUnitStr : User-defined unit...
Page 390 SITRANS P 10.1 SitransP Parameter Description WrReq Is interconnected with the SxWrReq output of the SitraPDr block. Only exactly one member variable is set to TRUE: STRUCT ResetMaxP : Resetting the maximum pressure ResetMinP : Resetting the minimum pressure ResetMaxStatP : Resetting the maximum static pressure ResetMinStatP : Resetting the minimum static pressure ResetMaxSenT : Resetting the maximum sensor temperature ResetMinSenT : Resetting the minimum sensor temperature...
Page 391 SITRANS P 10.1 SitransP Parameter Description Para Is interconnected with the Para output of the SitraPDr block. Values of parameters which are written to the device or read from it: STRUCT InProcess : Read/write data active _OK : Data successfully read/written Error : Error when reading/writing data RdDrErr : Error reading a data record WrDrErr : Error writing a data record...
Page 392 SITRANS P 10.1 SitransP Parameter Description MinETRst : Minimum resettable electronics temperature Lx_Scale : STRUCT //Limiter x : Range of alarm/warning limits ● High : REAL : High Value ● Low : REAL : Low Value END_STRUCT; Lx_AH_Lim : Limiter x: High alarm limit Lx_WH_Lim : Limiter x: High warning limit Lx_WL_Lim : Limiter x: Low warning limit Lx_AL_Lim : Limiter x: Low alarm limit...
Page 393 SITRANS P 10.1 SitransP Parameter Description Type Default PV_Out1 Output first HART variable (primary variable) STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 PV_Out2 Output second HART variable (secondary variable) STRUCT ● Value : REAL ● 0.0 ●...
Page 394 SITRANS P 10.1 SitransP Parameter Description Type Default VolFlow Output for process value for volume flow STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 MassFlow Output for process value for mass flow STRUCT ● Value : REAL ●...
Page 395 SITRANS P 10.1 SitransP Parameter Description Type Default ETempUnit Unit of measure for electronics temperature PUntUnit Unit for untrimmed pressure LevelUnit Unit for level VolUnit Unit for volume MassUnit Unit for mass VFlowUnit Unit for volume mass MFlowUnit Unit for mass flow UserUnit Unit for user value StPrUnit...
Page 396 SITRANS P 10.1 SitransP Parameter Description Type Default Error0Num Output of current error number for the 4 to 20 mA signal. For error numbers that can be output by this block, see Error handling of SitransP (Page 374) Error1Num Output of current error number for the first HART variable (primary variable).
Page 397: Block Diagram Of Sitransp
SITRANS P 10.1 SitransP Parameter Description Type Default Lx_AH_Lim Limit sensor x: REAL (x= 1,2,3) Alarm limit (high) Lx_WH_Lim Limit sensor x: REAL (x= 1,2,3) Warning limit (high) Lx_WL_Lim Limit sensor x: REAL (x= 1,2,3) Limit warning (low) Lx_AL_Lim Limit sensor x: REAL (x= 1,2,3) Alarm limit (low)
Page 398: Template Of Sitransp
SITRANS P 10.1 SitransP 10.1.8 Template of SitransP This process tag type is used to connect a SITRANS P with driver blocks to PCS 7. Note Since the APL driver blocks Or08, SelST16, Pcs7AnIn and FbAnIn are missing in the library for licensing reasons, they must be copied into the block library before the SitransP template is copied.
Page 399: Operator Control & Monitoring
SITRANS P 10.1 SitransP 10.1.9 Operator control & monitoring 10.1.9.1 Views of SitransP Views of the SitransP block The SitransP block has the following views: ● Standard view of SitransP (Page 400) ● Alarm view (Page 34) ● Limit view of SitransP (Page 403) ●...
Page 400: Standard View Of Sitransp
SITRANS P 10.1 SitransP 10.1.9.2 Standard view of SitransP Depending on the configuration of the 4 to 20 mA signal and the up to four HART variables in the standard view, the current process values for pressure, sensor temperature, electronics temperature, pressure (untrimmed), level, volume, mass, volume flow, mass flow, user value and/or static pressure are displayed.
Page 401 SITRANS P 10.1 SitransP (3) Display of process value (4 to 20 mA signal) including signal status This area indicates the current process value (4 to 20 mA signal) with the associated signal status. The name of the configured measured value is displayed depending on the PV_Meas0 variable, in this case "Pressure".
Page 402 SITRANS P 10.1 SitransP (11) and (12) Display of auxiliary values You can use this area to display two auxiliary values that have been configured in the Engineering System (ES). You can find more information on this in the section "Opening additional faceplates"...
Page 403: Limit View Of Sitransp
SITRANS P 10.1 SitransP 10.1.9.3 Limit view of SitransP The process value limits of the up to three limit sensors and the limits for the gradient monitoring of the 4 to 20 mA signal can be specified in this two-part view. The displayed texts depend on the configuration of the limit sensors on the block or in the module.
Page 404 SITRANS P 10.1 SitransP (1), (2) and (5) Process value limits In this area, you can enter the limits for the process value. You can change the following limits: ● "H alarm": High alarm ● "H warning": High warning ● "Hysteresis" ●...
Page 405 SITRANS P 10.1 SitransP (3) Switching between the two faceplate views Display of the limits is divided between two faceplate views. It is possible to toggle between the two views here. (4) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block.
Page 406: Parameter View Of Sitransp
SITRANS P 10.1 SitransP 10.1.9.4 Parameter view of SitransP (1) Reading the configuration data In this area, you can read all configuration data relevant to the block from SITRANS P. (2) Writing the configuration data In this area, you can write all relevant configuration data, i.e. limits, to the SITRANS P (not for P420).
Page 407: Preview Of Sitransp
SITRANS P 10.1 SitransP Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: the OS operator cannot control this parameter due to the configured AS operator control permissions (OS_Perm or OS1Perm).
Page 408 SITRANS P 10.1 SitransP Figure 10-2 Preview SITRANS P420 (1) Process values This area shows the real process values ( PV_In, PV, SV, TV, QV ) and the Bypass value. (2) Navigation button to the standard view of any faceplate Use this navigation button to open the standard view of a block configured in the engineering system.
Page 409: Slave Pointer View Of Sitransp (Resettable)
SITRANS P 10.1 SitransP Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator cannot control this parameter due to the configured AS operator permissions (OS_Perm or OS1Perm) The following enabled operationss are shown here: General operator input enables for totalizers and dosing units:...
Page 410 SITRANS P 10.1 SitransP Figure 10-3 SITRANS P300, P310, P500 und P DS III Figure 10-4 SITRANS P420 SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 411: Block Icon For Sitransp
SITRANS P 10.1 SitransP (1) Display and reset resettable slave pointer The last values of the resettable min/max pointer read from the device are shown in this area, and reset if applicable. Min/max pointers which are not available in the device are not displayed. ●...
Page 412: Sitrapdr
SITRANS P 10.2 SitraPDr ● Operating modes ● Signal status, release for maintenance ● Memo display ● Process value (PV_In, 4 to 20 mA signal) The block icons from template @TemplateAPL_SITRANS.PDL: Icons Selection of the block icon in CFC Configuration in HW Config Block icon in the "Out of service"...
Page 413: Operating Modes Of Sitrapdr
SITRANS P 10.2 SitraPDr Configuration The PiDr64, SitraPDr and SitransP blocks are inserted in a cyclic interrupt OB (OB30 to OB38) in exactly this execution sequence. The AcyclData output structure of the PiDr64 block is interconnected to the input with the same name of the SiFC43Dr block. The SxRdReq, SxWrReq and Para output structures of the SitraPDr block are interconnected to the RdReq, WrReq and Para inputs of the SitransP block.
Page 414 SITRANS P 10.2 SitraPDr Output parameters Parameter Description SxRdReq If one of the member variables of type BOOL is TRUE, the block passes on the job for reading the corresponding data to the driver block PiDr64. Only exactly one member variable is set to TRUE: STRUCT DevVarAssin : Assignment of measured variables to HART variables DevVarUnits : Units of measured variables...
Page 415 SITRANS P 10.2 SitraPDr Parameter Description SxWrReq If one of the member variables of type BOOL is TRUE, the block passes on the job for writing the corresponding data or sending the corresponding command to the driver block PiDr64. Only exactly one member variable is set to TRUE: STRUCT ResetMaxP : Resetting the maximum pressure ResetMinP : Resetting the minimum pressure...
Page 416 SITRANS P 10.2 SitraPDr Parameter Description Para Values of parameters which are written to the device or read from it: STRUCT InProcess : Read/write data active _OK : Data successfully read/written Error : Error when reading/writing data RdDrErr : Error reading a data record WrDrErr : Error writing a data record DevType : Device type SlotHart : Slot number of the HART device (not to the device)
Page 417: Block Diagram Of Sitrapdr
SITRANS P 10.2 SitraPDr Parameter Description Lx_Scale : STRUCT //Limiter x : Range of alarm/warning limit ● High : REAL : High Value ● Low : REAL : Low Value END_STRUCT; Lx_AH_Lim : Limiter x: High alarm limit Lx_WH_Lim : Limiter x: High warning limit Lx_WL_Lim : Limiter x: Low warning limit Lx_AL_Lim : Limiter x: Low alarm limit Lx_Hyst : Limiter x: Hysteresis...
Page 418 SITRANS P 10.2 SitraPDr SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 419: Sitrans P Pa
SITRANS P PA 11.1 SitrP_PA 11.1.1 Description of SitrP_PA Object name (type + number) and family Type + number: FB 2629 Family: SitrP_PA Area of application for SitrP_PA The block is used for the following applications: ● Interface block between the Profibus PA driver blocks of the SITRANS P300 PA/DSIII PA modules (referred to below as SITRANS P) for the user program and visualization How it works The SitrP_PA block prepares the process data received from driver blocks from a SITRANS P...
Page 420 SITRANS P PA 11.1 SitrP_PA The SitrP_PA contains two templates for process tag types as an example with an application scenario for the SITRANS Library block with and without totalizer, Template of SitrP_PA (Page 444) Note The APL blocks ChkREAL (FC260) and SelST16 (FC369) that are not supplied with the SITRANS Library are called internally by the SitrP_PA block.
Page 421: Status Word Allocation For Status2 Parameter
SITRANS P PA 11.1 SitrP_PA Status bit Parameter Message delay Tot_WH_Lim Message delay Tot_WL_Lim Message delay Tot_AL_Lim Current totalizer command 1= Positive and negative Current totalizer command 1= Positive Current totalizer command 1= Negative Current totalizer command 1= Hold Automatic preview totalizer command 1= Positive and negative Automatic preview totalizer command 1= Positive Automatic preview totalizer command 1= Negative Automatic preview totalizer command 1 = Hold...
Page 422: Bypassact.value
SITRANS P PA 11.1 SitrP_PA Status bit Parameter GradLEn GradHUpMsgEn GradHDnMsgEn GradLMsgEn 0 = decreasing measured value 1 = increasing measured value BypassAct.Value Not used MS_RelOp Status word allocation for Status3 parameter Status bit Parameter Effective signal 1 of the message block interconnected via EventTsIn Effective signal 2 of the message block interconnected via EventTsIn Effective signal 3 of the message block interconnected via EventTsIn Effective signal 4 of the message block interconnected via EventTsIn...
Page 423: Operating Modes Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA Status bit Parameter Presetting of the totalizer configured Min/max pointer view available in faceplate 11.1.2 Operating modes of SitrP_PA The selectable operating modes of the SitrP_PA block depend on whether or not a totalizer is configured.
Page 424: Sitrp_Pa Functions
SITRANS P PA 11.1 SitrP_PA If you set the block to "Local mode", the control is only influenced by the "local" signals of the counters (input parameters BalLocal = 1, PosLocal = 1, NegLocal = 1 and HoldLocal = Note Unlike the general description, at the LocalSetting parameter only the values 0, 1 and 3 can be set.
Page 425 SITRANS P PA 11.1 SitrP_PA The SitrP_PA function block has the following configuration data which can be read out of the SitransP by means of the "Read configuration data" command: Description Block parameters (I/O) Configuration input PV PV_Meas Units PV and Tot, min/max pointer pressure, sen‐ PV_Unit sor and electronics temperature Tot_Unit...
Page 426 SITRANS P PA 11.1 SitrP_PA Monitoring is always enabled using the input parameters: ● PV/Tot_AH_En = 1: Monitoring of the high alarm limits ● PV/Tot_AL_En = 1: Monitoring of the low alarm limits ● PV/Tot_WH_En = 1: Monitoring of the high warning limits ●...
Page 427 SITRANS P PA 11.1 SitrP_PA Bypass function This block provides the standard function Interlocking functions (Page 13). Selecting a unit of measure This block provides the standard function Selecting a unit of measure (Page 13). The units for the process value PV and the totalizer value Tot are configured on the device of the SitransP via PDM and read by operator action in the "Parameters"...
Page 428 SITRANS P PA 11.1 SitrP_PA Feature 1 = Resetting/presetting of the Totalizers is configured in HW Config 1 = Resetting/presetting and mode switchover of the totalizer is configured in HW Config Substitution value is active if the block is in bypass Update acknowledgment and error status of the message call Enable local operator authorization Suppress all messages...
Page 429 SITRANS P PA 11.1 SitrP_PA 1 = Operator can change the value for the low gradient limit for positive and negative gradients (GradLLim) Not used 1 = Operator can activate / deactivate messages with PV_AH_MsgEn 1 = Operator can activate / deactivate messages with PV_WH_MsgEn 1 = Operator can activate / deactivate messages with PV_WL_MsgEn 1 = Operator can activate / deactivate messages with PV_AL_MsgEn 1 = Operator can activate bypass functionality...
Page 430: Error Handling Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA Simulating signals Simulation is triggered during runtime in the faceplate's parameter view by clicking on the "Simulation" button. You can simulate the following values in the faceplate via an input: ● The process value (PV_Out) in the standard view over the input (SimPV). ●...
Page 431: I/Os Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA The following errors can be displayed for this block: ● Error numbers ● Control system fault (CSF) Overview of error numbers The I/Os Error0Num (process value PV) and Error1Num (totalizer value Tot) can be used to output the following error numbers: Error number Meaning of the error number...
Page 432 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Channel (read by device) ChannelAI* Measuring mode switch (read by device) AppSwitch* Measurement unit for process value (PV) PV_Unit* Measurement unit for totalizer value (Tot) Tot_Unit* Measurement unit for pressure of min/max point‐ PMM_Unit* Unit of measure for sensor temperature SenTempUnit*...
Page 433 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Totalizer: Stop of the counter in automatic mode STRUCT HoldAut ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 1 = Reset of the totalizer via interconnection STRUCT ReTotLi ●...
Page 434 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Limiter PV: REAL InPV_WL_Lim* Limit warning (low) Limiter PV: REAL InPV_AL_Lim* Alarm limit (low) Limiter PV: REAL PV_AH_DC* Delay time for incoming alarms with overrange process value [s] Limiter PV: REAL PV_AH_DG* Delay time for outgoing alarms with overrange process value [s]...
Page 435 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Limiter Tot: REAL InTot_WH_Lim* Warning limit (high) Limiter Tot: REAL InTot_Hyst* Hysteresis for alarm and warning limits Limiter Tot: REAL InTot_WL_Lim* Limit warning (low) Limiter Tot: REAL InTot_AL_Lim* Alarm limit (low) Presetting value for totalizer REAL InPreVal...
Page 436 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default 1 = Enable message for totalizer alarm (low) BOOL Tot_AL_MsgEn Gradient monitoring: Limit (high) for the positive REAL 10.0 GradHUpLim gradient Gradient monitoring: Limit (high) for the negative REAL 10.0 GradHDnLim gradient Gradient monitoring: Limit (low) for the absolute REAL...
Page 437 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default 1 = Reset bypass PV (via operator) BOOL RstBypOp 1 = Select bypass PV (via interconnection) STRUCT BypPVLi ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 1 = Reset bypass PV (via interconnection) STRUCT RstBypLi ●...
Page 438 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default 1 = Enable allocation BOOL BatchEn Batch ID DWORD 16#00000000 BatchID Batch name S7-String BatchName Batch step number DWORD 16#00000000 StepNo 1 = Occupied by batch control BOOL Occupied 1 = External error (control system fault) STRUCT ●...
Page 439 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default I/O for additional functions STRUCT Feature ● Bit 0 : BOOL ● 0 ● Bit 1 : BOOL ● 0 ● Bit 2 : BOOL ● 1 … ● Bit 6 : BOOL ●...
Page 440 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default 1 = Reset min. slave pointer electronics temper‐ BOOL RMinETLi ature, via interconnection or SFC (0-1 edge tran‐ sition) 1 = Read all slave pointer values from the device, BOOL RdMinMaxLi via interconnection or SFC (0-1 edge transition) Measuring range of the process value PV STRUCT...
Page 441 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default 0=Totalizer on BYTE PV_Set 1= Reset totalizer 2= Preset totalizer Command for totalizer: PV_Mode 0= Up counter for positive flow and down counter for negative flow in manual mode 1= Increment only for positive flow in manual mode 2= Decrement only for negative flow in manual mode 3= Stop counter in manual mode...
Page 442 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Limiter PV: STRUCT PV_AL_Act 1 = Alarm (low) active. ● Value : BOOL ● 0 You can change the response for this parameter by ● ST: BYTE ● 16#80 setting Feature bit 28 (deactivate switching points) and Feature bit 29 (high/low signal limit violation) accordingly.
Page 443 SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Display of OS2Perm DWORD 16#FFFFFFFF OS2PermOut Display of OS2Perm with settings changed by the DWORD 16#FFFFFFFF OS2PermLog block algorithm Value of the input parameter OpSt_In, for further DWORD 16#00000000 OpSt_Out interconnection with other blocks. Bit 31 of this pa‐ rameter is used by Feature bit 24 Worst signal status BYTE...
Page 444: Block Diagram Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA Parameter Description Type Default Warning limit (high) Tot STRUCT Tot_WH_Lim ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Warning limit (low) Tot STRUCT Tot_WL_Lim ● Value : REAL ● 0.0 ● ST: BYTE ●...
Page 445: Operator Control & Monitoring
SITRANS P PA 11.1 SitrP_PA The cyclic values are transferred by the PCS 7 standard blocks FbAnIn (process value PV) and FbAnTot (Totalizer), the acyclic values are transferred by the PiDr64 block to and from the device. The process tag type contains the required interconnections between the blocks mentioned above.
Page 446: Standard View Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA 11.1.8.2 Standard view of SitrP_PA Depending on the configuration of the process value and the totalizer, the current process value for pressure, volume flow, mass flow, level, volume, pressure (untrimmed), sensor and electronics temperature, and the totalizer value are displayed. If a measured value is not assigned to a variable, the field is hidden.
Page 447 SITRANS P PA 11.1 SitrP_PA The block can be operated using the following modes: ● Local mode ● Automatic mode ● Manual mode ● Out of service For more information on changing the operating mode, refer to the "Switching operating states and operating modes"...
Page 448 SITRANS P PA 11.1 SitrP_PA (6) Display of gradient This area shows the current, minimum and maximum gradient value of the process value PV as well as rising and falling of the value. This display of the minimum and maximum gradient value functions like a slave pointer.
Page 449 SITRANS P PA 11.1 SitrP_PA (13), (14), (15) and (16) Display area for block states This area provides additional information on the operating state of the block: ● "Maintenance" ● "Simulation" ● "Invalid signal"/"Switchover error" ● "Wrong device" (17) Limit display These small, colored triangles indicate the specified limits of the process value PV in the respective bar graph.
Page 450: Limit View Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA 11.1.8.3 Limit view of SitrP_PA The limits of the process value PV and the totalizer value can be specified in this view. The displayed texts depend on the configuration of the process value PV. (1) Process value limits In this area, you can enter the limits for the process value PV.
Page 451 SITRANS P PA 11.1 SitrP_PA Note If the Feature bit 7 (synchronize alarm configuration with module) is set, the measuring range limits available in the module are written to the corresponding inputs when reading the configuration data. (2) Totalizer limits In this area, you can enter the limits for the totalizer.
Page 452: Parameter View Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA (5) Message suppression/delays The message suppression indicates whether suppression of the associated message is activated in the AS block using the xx_MsgEn parameter. The output of messages is not suppressed when the block is installed (all xx_MsgEn parameters are set to 1 by default). Messages can only be output if limit monitoring of the additional analog value has been enabled.
Page 453 SITRANS P PA 11.1 SitrP_PA (3) Totalizer preset value In this area, you specify a preinstall value for the totalizer, and set the totalizer to this value with the click of a button. If a totalizer is not configured, the area is switched to invisible. (4) Sensor and electronics temperature The sensor and electronics temperature is displayed here.
Page 454: Preview Of Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA 11.1.8.5 Preview of SitrP_PA (1) Automatic preview This area shows the totalizer command that is input after a switched from "manual mode" to "automatic mode". If the block is in "automatic mode", the current totalizer command is displayed. (2), (3) and (4) process values This area shows the real process values (PV Tot) and the Bypass values.
Page 455 SITRANS P PA 11.1 SitrP_PA Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator cannot control this parameter due to the configured AS operator permissions (OS_Perm or OS1Perm) The following enabled operationss are shown here: General enabled operationss:...
Page 456: Min/Min/Max Pointer View Of Sitr_P (Resettable)
SITRANS P PA 11.1 SitrP_PA For more information, refer to the "Calling further faceplates" chapter in the APL online help. 11.1.8.6 Min/min/max pointer view of Sitr_P (resettable) (1) Display and reset resettable slave pointer The last values of the resettable min/max pointer read from the device are shown in this area, and reset if applicable.
Page 457: Block Icon For Sitrp_Pa
SITRANS P PA 11.1 SitrP_PA (2)Read out min/max pointers In this area, you can read out the values of all slave pointers from the module. (3)Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block.
Page 458 SITRANS P PA 11.1 SitrP_PA SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 459: Sitrans Fc430
SITRANS FC430 12.1 SitrFC43 12.1.1 Description of SitrFC43 Object name (type + number) and family Type + number: FB 2630 Family: SitrFC43 Area of application for SitrFC43 The block is used for the following application: ● Interface block between the driver blocks of the HART module SITRANS FC430 (referred to below as FC430) for the user program and visualization How it works The SitrFC430 block prepares the process data received by driver blocks from a FC430 and...
Page 460 SITRANS FC430 12.1 SitrFC43 Configuration In the CFC editor, install the block in a cyclic interrupt OB (OB30 to OB38). The block is also installed automatically in the startup OB (OB 100). Moreover, to connect the I/O signals, it is imperative to call the driver blocks Pcs7AnIn and FbAnIn (cyclic data) as well as PiDr64 (acyclic data) in the same interrupt OB and startup OB (OB100) before the SitrFC43 block in each case.
Page 461 SITRANS FC430 12.1 SitrFC43 Note The user text library "SitrFC43_MeasVal" must be copied from the Sitrans Library to the PCS 7 project prior to the OS compilation. To do this, open the SITRANS Lib from the Simatic Manager using File -> Open... -> Libraries. Copy the "SitrFC43_MeasVal" file from the library (directory: Blocks+Templates\Text Libraries) into a user text library folder created using the S7 program in your PCS 7 project.
Page 462 SITRANS FC430 12.1 SitrFC43 Status bit Parameter Dosing state "Pause" Dosing state "Cleaning" Automatic preview 1 = Dosing "Stopped" Automatic preview 1 = Dosing "Running" Automatic preview 1 = Dosing "Pause" Automatic preview 1 = Dosing "Cleaning" Status word allocation for Status2 parameter Status bit Parameter Message delay PV_AH_Lim...
Page 463 SITRANS FC430 12.1 SitrFC43 Status word allocation for Status3 parameter Status bit Parameter Auxiliary value 1 visible Auxiliary value 2 visible QV: Current totalizer command 1 = Positive and negative QV: Current totalizer command 1 = Positive QV: Current totalizer command 1 = Negative QV: Current totalizer command 1 = Hold QV: Automatic preview totalizer command 1 = Positive and negative QV: Automatic preview totalizer command 1 = Positive...
Page 464 SITRANS FC430 12.1 SitrFC43 Status bit Parameter SV_AH_Act.Value SV_WH_Act.Value SV_WL_Act.Value SV_AL_Act.Value SV_AH_En SV_WH_En SV_WL_En SV_AL_En SV_AH_MsgEn SV_WH_MsgEn SV_WL_MsgEn SV_AL_MsgEn TV_AH_En TV_WH_En TV_WL_En TV_AL_En TV_AH_MsgEn TV_WH_MsgEn TV_WL_MsgEn TV_AL_MsgEn Effective signal 1 of the message block interconnected via EventTsIn Effective signal 2 of the message block interconnected via EventTsIn Effective signal 3 of the message block interconnected via EventTsIn Effective signal 4 of the message block interconnected via EventTsIn Effective signal 5 of the message block interconnected via EventTsIn...
Page 465 SITRANS FC430 12.1 SitrFC43 Status bit Parameter QV_WL_En QV_AL_En QV_AH_MsgEn QV_WH_MsgEn QV_WL_MsgEn QV_AL_MsgEn "Interlock" button is enabled "Permission" button is enabled "Protection" button is enabled 1 = Intlock is active 1 = Permit is active 1 = Protect is active Display for interlocks in block icon 1 = Any Interlock is active (Intlock, Permit or Protect) ForceDSrt...
Page 466: Operating Modes Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 Status bit Parameter 1 = At least one SV message is released 1 = At least one QV message is released "Custody transfer mode" is active 19-23 Not used BypassAct.Value 25 - 31 Not used 12.1.2 Operating modes of SitrFC43 Every HART auxiliary variable configured with PDM in the device has its own operating mode switchover.
Page 467 SITRANS FC430 12.1 SitrFC43 "Local mode" "Local mode" supports the transfer of the following commands to the totalizer: ● "Positive and negative" (positive edge BalSV/TV/QVLocal) ● "Positive" (positive edge PosSV/TV/QVLocal) ● "Negative" (positive edge NegSV/TV/QVLocal) ● "Hold" (HoldSV/TV/QVLocal). If you set the block to "Local mode", the control is only influenced by the "local" signals of the totalizers (input parameters BalSV/TV/QVLocal = 1, PosSV/TV/QVLocal = 1, NegSV/TV/QVLocal = 1 and HoldSV/TV/QVLocal = 1).
Page 468: Functions Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 ● "Negative" (positive edge NegSV/TV/QVMan) ● "Hold" (HoldSV/TV/QVMan = 1) "Manual mode" enables the transfer of the following commands to the dosing unit: ● "Start" (positive edge DSrtMan) ● "Continue" (DContMan = 1) ● "Pause" (DPauseMan = 1) ●...
Page 469 SITRANS FC430 12.1 SitrFC43 Preset value of totalizer InSV/TV/QVPreVal, SV/TV/QVPreVal Totalizer command BalSV/TV/QVMan PosSV/TV/QVMan NegSV/TV/QVMan HoldSV/TV/QVMan Low flow cut-off suppression (mass/ InMflZFSupp/MflZFSupp volume) InVflZFSupp/VflZFSupp Type of dosing DMode Active dosing recipe DActRecOp Dosing recipe name InRcp1/2/3/4/5Name Dosing compensation DCompOp/DComp Dosing cycle counter DCyclCnt Dosing state DState...
Page 470 SITRANS FC430 12.1 SitrFC43 The corresponding message is suppressed using the parameters: ● PV/SV/TV/QV_AH_MsgEn = 0: Alarm (high) messages are suppressed ● PV/SV/TV/QV_AL_MsgEn = 0: Alarm (low) messages are suppressed ● PV/SV/TV/QV_WH_MsgEn = 0: Warning (high) messages are suppressed ● PV/SV/TV/QV_WL_MsgEn = 0: Warning (low) messages are suppressed You can define a hysteresis (PV/SV/TV/QV_Hyst) for the limits, for example to suppress signal flatter.
Page 471 SITRANS FC430 12.1 SitrFC43 Selecting a unit of measure This block provides the standard function Selecting a unit of measure (Page 13). The units for the process values PV_In, SV, TV and QV are configured on the FC430 device via PDM and read out by operator action in the "Parameters"...
Page 472 SITRANS FC430 12.1 SitrFC43 Feature Enable local operator authorization Suppress all messages Reaction of the switching points in "Out of service" mode Forcing operating modes in the "Local" mode (Page 57) Disable switching points Signaling limit violation Define reset depending on the operating mode or the LiOp parameter Enable resetting of protection/errors in manual mode For more information about the feature bits please refer to the APL online help.
Page 473 SITRANS FC430 12.1 SitrFC43 1 = Operator can change the limit (PV) for the high alarm 1 = Operator can change the limit (PV) for the high warning 1 = Operator can change the limit (PV) for the hysteresis 1 = Operator can change the limit (PV) for the low alarm 1 = Operator can change the limit (PV) for the low warning 1 = Operator can change the value for the high gradient limit for positive gradients (GradHUpLim)
Page 474 SITRANS FC430 12.1 SitrFC43 1 = Operator can activate / deactivate messages with QV_WL_MsgEn 1 = Operator can activate / deactivate messages with QV_AL_MsgEn Dosing: Operator can change compensation value The block has the following permissions for the OS2Perm parameter: Function SV: 1 = Operator can enter the totalizer command 'Positive and negative count' SV: 1 = Operator can enter the 'Only positive count' totalizer command...
Page 475 SITRANS FC430 12.1 SitrFC43 The block has the following permissions for the OS3Perm parameter: Function 1 = Operator can read configuration data and dosing state from device 1 = Operator can write configuration data to device 1 = Operator can enter password 1 = Operator can reset protection/interlock 4 - 6 1 = Operator can change SV, TV and QV in simulation mode...
Page 476: Error Handling Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 Time stamp This block receives a time stamp value via the EventTSIn input parameter. Refer to the "Functions of EventTs" in the APL Online Help. SIMATIC BATCH functionality This block provides the standard "SIMATIC BATCH functionality" function that is described in the APL Online Help.
Page 477 SITRANS FC430 12.1 SitrFC43 Process control error The following control system fault messages can be output: Message Message Message class Event instance identifier MsgEvId3 SIG4 AS process control message - fault $$BlockComment$$ External fault has occurred SIG5 AS process control message - error $$BlockComment$$ Error reading a data record SIG6...
Page 478 SITRANS FC430 12.1 SitrFC43 Message in‐ Message identi‐ Message class Event stance fier MsgEvId2 SIG1 Alarm - high $$BlockComment$$ @4Y %t#SitrFC43_MeasVal@ - high alarm limit violated SIG2 Warning - high $$BlockComment$$ @4Y %t#SitrFC43_MeasVal@ - high warning limit violated SIG3 Warning - low $$BlockComment$$ @4Y %t#SitrFC43_MeasVal@ - low warning limit violated...
Page 479 SITRANS FC430 12.1 SitrFC43 $$BlockComment$$: Content of the instance-specific comment Associated values for message instance MsgEvId1 Associated value Block parameter BatchName StepNo BatchID PV_Meas0 PV_Meas2 ExtVa106 ExtVa107 ExtVa108 Reserved Reserved The input parameters PV_Meas0 and PV_Meas2 contain a number for the physical variable of the process values PV_In and SV.
Page 480 SITRANS FC430 12.1 SitrFC43 Associated values for message instance MsgEvId3 Associated value Block parameter BatchName StepNo BatchID ExtVa304 ExtVa305 ExtVa306 ExtVa307 ExtVa308 Reserved Reserved The associated values 4 ... 8 are allocated to the parameters ExtVa304 ... ExtVa308, and you can use them.
Page 481: I/Os Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 Corrected Volume flow Fraction A Fraction B Fraction A % Fraction B % Totalizer 1 Totalizer 2 Totalizer 3 12.1.6 I/Os of SitrFC43 I/Os of SitrFC43 Input parameters Parameter Description Type Default SlotHart Slot number of the Lut400 within the AI module in the ET 200M from HW Config PV_In...
Page 482 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default TV_OpScale Limit for scale TV STRUCT ● High : REAL ● 100.0 ● Low: REAL ● QV_OpScale Limit for scale QV STRUCT ● High : REAL ● 100.0 ● Low: REAL ● DSP_LiOp Dosing unit: Select setpoint STRUCT...
Page 483 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default Vfl_Unit Unit for volume mass SimPV0* Process value PV_In (4 to 20 mA REAL signal) that is used for SimOn = 1 SimPV1* Process value of first HART vari‐ REAL able (primary variable) used for SimOn = 1 SimPV2* Process value of second HART...
Page 484 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default SimTot1Li Totalizer 1 value used STRUCT for SimOnLi.Value = 1 ● Value : REAL ● 0.0 (SimLiOp.Value = 1) ● ST: BYTE ● 16#80 SimTot2Li Totalizer 2 value used STRUCT for SimOnLi.Value = 1 ●...
Page 485 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default PV_A_DC* Limiter PV: REAL (analog SV,TV,QV) Delay time for incoming alarms with overrange/underrange proc‐ ess value or only with underrange process value [s] PV_A_DG* Limiter PV: REAL (analog SV,TV,QV) Delay time for outgoing alarms with overrange/underrange proc‐...
Page 486 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default PosSVAut Totalizer SV: Increment only for STRUCT positive flow in automatic mode (analog TV,QV) ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 NegSVAut Totalizer SV: Decrement only for STRUCT negative flow in automatic mode (analog TV,QV) ●...
Page 487 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default DPauseAut Dosing unit: 1 = Select Pause in STRUCT "automatic mode" ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 DContAut Dosing unit: 1 = Select Continue STRUCT in "automatic mode" ●...
Page 488 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default DRstLi Dosing unit: 1 = Reset interlock STRUCT via interconnection ● Value : BOOL ● 1 ● ST: BYTE ● 16#FF PV_Meas0..1 Measured value that is intercon‐ BYTE nected at the PV_In input: 0: Mass flow 1: Volume flow 2: Density...
Page 489 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default TimeFactor Time unit: 0 = seconds 1 = minutes 2 = hours MS_RelOp* 1 = Release for maintenance by BOOL OS operator OnPVOp* 1 = PV "On" mode via operator BOOL OosPVOp* 1 = PV "Out of service"...
Page 490 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default HoldSVLocal Totalizer SV: Stop totalizer in "Lo‐ STRUCT cal mode" (analog TV,QV) ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 DSrtLocal Dosing unit: 1 = Select start in "lo‐ STRUCT cal mode"...
Page 491 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default Prot_En 1 = Protective interlock of the dos‐ BOOL ing unit (protection, parameter Protect) is active ForceDSrt Dosing unit: 1 = Force start STRUCT ● Value : BOOL ● 0 ● ST: BYTE ●...
Page 492 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default RstBypLi 1 = Reset bypass PV (via inter‐ STRUCT connection) ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 BypPV Substitution value if block is in by‐ STRUCT pass ● Value : REAL ●...
Page 493 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default ExtMsg3 Binary input for freely selectable STRUCT message 3 ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 ExtVa106..8 Associated values 6..8 for mes‐ sages (MsgEvID1) ExtVa206..8 Associated values 6..8 for mes‐ sages (MsgEvID2) ExtVa304..8 Associated values 4..8 for mes‐...
Page 494 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default Feature I/O for additional functions STRUCT ● Bit 0 : BOOL ● ● Bit 1 : BOOL ● ● Bit 2 : BOOL ● 1 … ● Bit 6 : BOOL ● 1 ●...
Page 495 SITRANS FC430 12.1 SitrFC43 In/out parameters Parameter Description RdReq If the structure is set for one of the member variables of type BOOL, the block passes on the job for reading the data stored for that purpose to the driver block. Only exactly one member variable is set to TRUE: STRUCT ManufacturerID : Manufacturer ID UserAccessLevel : Access rights...
Page 496 SITRANS FC430 12.1 SitrFC43 Parameter Description WrReq If the structure is set for one of the member variables of type BOOL, the block passes on the job for writing the data stored for that purpose or for sending the corresponding command to the driver block. Only exactly one member variable is set to TRUE: STRUCT Password : Password...
Page 497 SITRANS FC430 12.1 SitrFC43 Parameter Description ModeTotTV : Preset totalizer TV ModeTotQV : Preset totalizer QV SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 498 SITRANS FC430 12.1 SitrFC43 Parameter Description Para Values of parameters which are written to the device or read from it: STRUCT InProcess : Read/write data active _OK : Data successfully read/written Error : Error when reading/writing data RdDrErr : Error reading a data record WrDrErr : Error writing a data record FractnAtxt : Text fraction A FractnBtxt : Text fraction B...
Page 499 SITRANS FC430 12.1 SitrFC43 Parameter Description DSP_Unit : Dosing value unit DCompMode : Dosing compensation mode DComp : Dosing compensation value DSetpoint : Dosing setpoint DosingCmd : Dosing command DosingState : Dosing state ScaleIn : Scaling for process value PV (only for internal use) LimPVOpScale : Maximum and minimum values for message limits PV LimSVOpScale : Maximum and minimum values for message limits SV LimTVOpScale : Maximum and minimum values for message limits TV...
Page 500 SITRANS FC430 12.1 SitrFC43 Parameter Description InQV_AH_Lim : Limit QV alarm (high) for writing to device InQV_WH_Lim : Limit QV warning (high) for writing to device InQV_WL_Lim : Limit QV warning (low) for writing to device InQV_AL_Lim : Limit QV alarm (low) for writing to device InQV_Hyst : Hysteresis for QV alarm and warning limits for writing to device QV_AH_Lim : Limit QV alarm (high)
Page 501 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default PV_Grad Gradient value for process value PV STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 PV_GradPP Gradient value for PV maximum peak STRUCT value ● Value : REAL ●...
Page 502 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default ModeTotSV 0 : Totalizer mode BYTE 16#03 (analog TV,QV) 2 : Use preset value DStr 1 = Start dosing STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 DStp 1 = Stop dosing STRUCT ●...
Page 503 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default DStp 1 = Dosing stopped STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 DPause 1 = Dosing in pause state STRUCT ● Value : BOOL ● 0 ● ST: BYTE ●...
Page 504 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default ManSVAct 1 = SV "Manual mode" active STRUCT (analog TV,QV) ● Value : BOOL ● 1 ● ST: BYTE ● 16#80 MassFlow Current mass flow STRUCT ● Value : REAL ● 0.0 ●...
Page 505 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default DosQuant Current dosing quantity STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 MflZFSupp Low flow cut-off suppression (mass flow) STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ●...
Page 506 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default PV_WL_Lim Warning limit (low) PV STRUCT (analog ● Value : REAL ● 0.0 SV,TV,QV) ● ST: BYTE ● 16#80 PV_AL_Lim Alarm limit (low) PV STRUCT (analog ● Value : REAL ● 0.0 SV,TV,QV) ●...
Page 507 SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default Error3Num Output of current error numbers for the third HART variable (tertiary variable). For error numbers that can be output by this block, see the error handling of SitrFC43. Error4Num Output of current error numbers for the fourth HART variable (quaternary varia‐...
Page 508: Block Diagram Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 Parameter Description Type Default MsgStat4 Message status 4 (ERROR output of WORD 16#0000 second ALARM_8P) MsgAckn4 Message acknowledgment status 4 WORD 16#0000 (STATUS output of second ALARM_8P) ScaleOut Measuring range of process value PV_In STRUCT ● High : REAL ●...
Page 509: Operator Control & Monitoring
SITRANS FC430 12.1 SitrFC43 12.1.9 Operator control & monitoring 12.1.9.1 SitrFC43 views Views of the SitrFC43 block The SitrFC43 block has the following views: ● Standard view of SitrFC43 (Page 509) ● Alarm view (Page 34) ● Limit view of SitrFC43 (Page 516) ●...
Page 510 SITRANS FC430 12.1 SitrFC43 (1) Display and switchover of operating mode PV This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see APL Online Help) For more information on changing the operating mode, refer to the "Switching operating states and operating modes"...
Page 511 SITRANS FC430 12.1 SitrFC43 (2) High and low scale range for the process value (PV) These values provide information on the display range for the bar graph of the process value PV. The scale range is set in the engineering system with the PV_OpScale parameter (see Display and operating range for process values and limits).
Page 512 SITRANS FC430 12.1 SitrFC43 (7) Display and switchover of operating mode SV This area provides information on the currently valid operating mode. The operating mode switchover depends on whether or not a totalizer or dosing is configured. The following operating modes can be shown here: Without totalizer/dosing: The following operating modes can be shown here: ●...
Page 513 SITRANS FC430 12.1 SitrFC43 (11) Display and change the setpoint This area displays the current dosing unit setpoint and lets you edit the setpoint in manual mode. (12) and (13) Display of auxiliary values You can use this area to display two auxiliary values that have been configured in the Engineering System (ES).
Page 514 SITRANS FC430 12.1 SitrFC43 (24) Bar graph for the gradient (process value PV) This area shows the current gradient value in the form of a bar graph. The visible area in the bar graph depends on the configuration in the engineering system (ES), see Display and operating range for process values and limits.
Page 515 SITRANS FC430 12.1 SitrFC43 The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see APL Online Help) With totalizer: The block can be operated using the following modes: ● Local mode ●...
Page 516: Limit View Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 ● "Negative" ● "Hold" If a totalizer is not configured, the area is switched to invisible. (7) Reset totalizer Reset the totalizer value to zero here. (8) Display of the totalizer value This area shows the current totalizer value of a configured totalizer. 12.1.9.3 Limit view of SitrFC43 The limits of the process value PV and the totalizer value can be specified in this view.
Page 517 SITRANS FC430 12.1 SitrFC43 (1) Process value limits PV In this area, you can enter the limits for the process value PV. You can change the following limits: ● "HH alarm": High alarm ● "H warning": High warning ● "Hysteresis" ●...
Page 518 SITRANS FC430 12.1 SitrFC43 (2) Process value limits SV In this area, you can enter the limits for the process value SV. You can change the following limits: ● "HH alarm": High alarm ● "H warning": High warning ● "Hysteresis" ●...
Page 519 SITRANS FC430 12.1 SitrFC43 (7) Suppress messages You can activate/deactivate messages by selecting the check mark. (8) Password A password must be entered before message limits can be changed in the device; this is entered here. Second limit view (1) Change to first limit view The first part of the two-part limit view of the faceplate can be selected here.
Page 520 SITRANS FC430 12.1 SitrFC43 ● "Hysteresis" ● "L warning": Low warning ● "LL alarm": Low alarm (3) Process value limits QV In this area, you can enter the limits for the process value QV. You can change the following limits: ●...
Page 521: Parameter View Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 12.1.9.4 Parameter view of SitrFC43 (1) Read/write configuration data In this area, you can read all configuration data relevant to the block from FC430. (2) Write configuration data In this area, you can write all relevant configuration data, i.e. limits, to the FC430. SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 522 SITRANS FC430 12.1 SitrFC43 (3) Zero adjustment The zero balancing in the FC430 is triggered here. (4), (6) and (8) Totalizer preset value In this area, you specify a preset value for the totalizer. If a totalizer is not configured, the area is switched to invisible. (5), (7) and (9) Set totalizer preset value In this area, you can set the totalizers to the preset value with the click of a button.
Page 523: Preview Of Sifc43
SITRANS FC430 12.1 SitrFC43 Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator is generally prohibited from using this parameter due to the configured AS operator control permissions (OS_Perm or OS1Perm) 12.1.9.5 Preview of SiFC43...
Page 524 SITRANS FC430 12.1 SitrFC43 Note The following screenshots show a sample configuration for SV (dosing), TV (measured value) and QV (totalizer). The structure of the faceplate is always based on the individual configuration in PDM. (1) Process value PV This area displays the real process values PV. (2) Automatic preview SV This area shows you the dosing or totalizer command that is input after a switch from "manual mode"...
Page 525 SITRANS FC430 12.1 SitrFC43 Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator cannot control this parameter due to the configured AS operator permissions (OS_Perm or OS1Perm) The following enabled operationss are shown here: General enabled operationss without dosing unit and without totalizer:...
Page 526 SITRANS FC430 12.1 SitrFC43 (7) Display current control signals Only if dosing is configured: ● "Enable": 0 = No OS activation enable for the motor 1 = Enable for "Start" / "Stop" from the neutral position ● "Protection": 0 = Protective interlocking is effective; once the interlocking condition has disappeared, you will have to reset the block 1 = Good state ●...
Page 527 SITRANS FC430 12.1 SitrFC43 Second preview The first part of the two-part preview of the faceplate can be selected here. (1) Change to first preview (2) and (3) Automatic preview TV, QV Totalizer: This area shows you the totalizer command of TV or QV that is input after a switch from "manual mode"...
Page 528 SITRANS FC430 12.1 SitrFC43 Measured value: This area displays the real process value (TV or QV). If neither a totalizer nor a measured value is configured, the area is switched to invisible. (4) and (5) Enabled operations TV, QV This area shows the operations for the process value TV or QV for which special operating permissions are assigned.
Page 529 SITRANS FC430 12.1 SitrFC43 ● "Local resume": 1 = Dosing is resumed in "Local mode" ● "Local stop": 1 = Dosing is stopped in "Local mode" Totalizer: ● "Local tot": 1 = Totalizer is operated in "Local mode" ● "Local P./N. tot": 1 = Totalizer counts positive and negative in "Local mode" ●...
Page 530: Dosing View Of Sitrfc43
SITRANS FC430 12.1 SitrFC43 12.1.9.6 Dosing view of SitrFC43 The dosing view can only be selected if dosing is configured (Feature bit 14 = TRUE). (1) Read dosing data The "Read dosing data" button is used to read out the following values from the FC430: ●...
Page 531 SITRANS FC430 12.1 SitrFC43 (3) Compensation Display of compensation value for dosing. (4) Dosing unit cycle counter Display of number of dosing cycles carried out since last reset (5) Reset dosing unit cycle counter Reset dosing counter (6) Display and switchover of dosing operating mode This area provides information on the currently valid dosing operating mode.
Page 532 SITRANS FC430 12.1 SitrFC43 (9) Reset the block Click "Reset" for interlocks or errors. For more information, refer to the "Resetting the block in case of interlocks or errors" section in the APL Online Help. (10) Operating area for the interlock functions of the block You can use this button to control the interlock functions of the block.
Page 533: Block Icon For Sitrfc43
SITRANS FC430 12.1 SitrFC43 12.1.9.7 Block icon for SitrFC43 Block icons for SitrFC43 A variety of block icons are available with the following functions: ● Process tag type ● Limits (high/low) ● Violation of alarm and warning limits as well as the control system fault CSF ●...
Page 534: Sifc43Dr
SITRANS FC430 12.2 SiFC43Dr Icons Selection of the block icon in CFC Special features PV and SV are used SV = totalizer (no dosing unit configured) Only PV is used Example of block icon in the "Out of service" operating mode Additional information on the block icon and the control options in the block icon is available in the following chapters: ●...
Page 535: Operating Modes Of Sifc43Dr
SITRANS FC430 12.2 SiFC43Dr Configuration The PiDr64, SiFC43Dr and SitrFC43 blocks are inserted in a cyclic interrupt OB (OB30 to OB38) in exactly this execution sequence. The AcyclData output structure of the PiDr64 block is interconnected to the input with the same name of the SiFC43Dr block. The SxRdReq, SxWrReq and Para output structures of the SiFC43Dr block are interconnected to the RdReq, WrReq and Para inputs of the SitrFC43 block.
Page 536 SITRANS FC430 12.2 SiFC43Dr Output parameters Parameter Description SxRdReq If one of the member variables of type BOOL is TRUE, the block pass‐ es on the job for reading the corresponding data to the driver block PiDr64. Only exactly one member variable is set to TRUE: STRUCT ManufacturerID : Manufacturer ID UserAccessLevel : Access rights...
Page 537 SITRANS FC430 12.2 SiFC43Dr Parameter Description SxWrReq If one of the member variables of type BOOL is TRUE, the block pass‐ es on the job for writing the corresponding data or sending the corre‐ sponding command to the driver block PiDr64. Only exactly one mem‐ ber variable is set to TRUE: STRUCT Password : Password...
Page 538 SITRANS FC430 12.2 SiFC43Dr Parameter Description ModeTotQV : Preset totalizer QV SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 539 SITRANS FC430 12.2 SiFC43Dr Parameter Description Para Values of parameters which are written to the device or read from it: STRUCT InProcess : Read/write data active _OK : Data successfully read/written Error : Error when reading/writing data RdDrErr : Error reading a data record WrDrErr : Error writing a data record FractnAtxt : Text fraction A FractnBtxt : Text fraction B...
Page 540 SITRANS FC430 12.2 SiFC43Dr Parameter Description DSP_Unit : Dosing value unit DCompMode : Dosing compensation mode DComp : Dosing compensation value DSetpoint : Dosing setpoint DosingCmd : Dosing command DosingState : Dosing state ScaleIn : Scaling for process value PV (only for internal use) LimPVOpScale : Maximum and minimum values for message limits PV LimSVOpScale : Maximum and minimum values for message limits SV LimTVOpScale : Maximum and minimum values for message limits TV...
Page 541: Block Diagram Of Sifc43Dr
SITRANS FC430 12.2 SiFC43Dr Parameter Description InQV_AH_Lim : Limit QV alarm (high) for writing to device InQV_WH_Lim : Limit QV warning (high) for writing to device InQV_WL_Lim : Limit QV warning (low) for writing to device InQV_AL_Lim : Limit QV alarm (low) for writing to device InQV_Hyst : Hysteresis for QV alarm and warning limits for writing to device QV_AH_Lim : Limit QV alarm (high)
Page 542 SITRANS FC430 12.2 SiFC43Dr SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 543: Sitrans Fc430 Pa
SITRANS FC430 PA 13.1 SiFC43PA 13.1.1 Description of SiFC43PA Object name (type + number) and family Type + number: FB 2638 Family: SiFC43PA Area of application for SiFC43PA The block is used for the following application: ● Interface block between the driver blocks of the PA module SITRANS FC430 PA (referred to below as FC430 PA) for the user program and visualization How it works The SiFC43PA block prepares the process data received by driver blocks from a FC430 PA and...
Page 544 SITRANS FC430 PA 13.1 SiFC43PA Configuration In the CFC editor, install the block in a cyclic interrupt OB (OB30 to OB38). The block is also installed automatically in the startup OB (OB 100). Moreover, to connect the I/O signals, it is imperative to call the driver blocks FBFC43PA (cyclic data) and PiDr64 (acyclic data) in the same interrupt OB and startup OB (OB100) before the SiFC43PA block in each case.
Page 545 SITRANS FC430 PA 13.1 SiFC43PA Status word allocation for Status1 parameter You can find a description for each parameter in section I/Os of SiFC43PA (Page 565). Status bit Parameter Occupied BatchEn SimOn OosPV1Act.Value OosPV1Li.Value Not used OnPV1Act.Value OosPV2Act.Value OosPV2Li.Value AutPV2Act.Value LocalPV2Act.Value OnPV2Act.Value OosPV3Act.Value...
Page 546 SITRANS FC430 PA 13.1 SiFC43PA Status bit Parameter Message delay PV1_AL_Lim Message delay PV2_AH_Lim Message delay PV2_WH_Lim Message delay PV2_WL_Lim Message delay PV2_AL_Lim Message delay PV3_AH_Lim Message delay PV3_WH_Lim Message delay PV3_WL_Lim Message delay PV3_AL_Lim Message delay PV4_AH_Lim Message delay PV4_WH_Lim Message delay PV4_WL_Lim Message delay PV4_AL_Lim PV2: Current totalizer command 1 = Positive and negative...
Page 547 SITRANS FC430 PA 13.1 SiFC43PA Status bit Parameter Not used PV1_AH_Act.Value PV1_WH_Act.Value PV1_WL_Act.Value PV1_AL_Act.Value PV1_AH_En PV1_WH_En PV1_WL_En PV1_AL_En PV1_AH_MsgEn PV1_WH_MsgEn PV1_WL_MsgEn PV1_AL_MsgEn GradHUpAct.Value GradHDnAct.Value GradLAct.Value GradHUpEn GradHDnEn GradLEn GradHUpMsgEn GradHDnMsgEn GradLMsgEn 0 = falling measured value 1 = rising measured value Status word allocation for Status4 parameter Status bit Parameter...
Page 548 SITRANS FC430 PA 13.1 SiFC43PA Status bit Parameter PV2_WL_MsgEn PV2_AL_MsgEn PV3_AH_En PV3_WH_En PV3_WL_En PV3_AL_En PV3_AH_MsgEn PV3_WH_MsgEn PV3_WL_MsgEn PV3_AL_MsgEn Effective signal 1 of the message block interconnected via EventTsIn Effective signal 2 of the message block interconnected via EventTsIn Effective signal 3 of the message block interconnected via EventTsIn Effective signal 4 of the message block interconnected via EventTsIn Effective signal 5 of the message block interconnected via EventTsIn Effective signal 6 of the message block interconnected via EventTsIn...
Page 549 SITRANS FC430 PA 13.1 SiFC43PA Status bit Parameter 1 = Permit is active 1 = Protect is active Display for interlocks in block icon 1 = Any Interlock is active (Intlock, Permit or Protect) ForceDSrt ForceDStp ForceDPause ForceDCont Reset request in automatic mode Interlocks not released Bypass protection in simulation/local modes Not used...
Page 550: Operating Modes Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA Status bit Parameter PV3: Current totalizer command 1 = Hold PV4: Current totalizer command 1 = Hold Not used Not used 1 = Error when reading acyclic data (active only for the duration of one cycle) 1 = Error when writing acyclic data (active only for the duration of one cycle) Status word allocation for Status7 parameter Status bit...
Page 551 SITRANS FC430 PA 13.1 SiFC43PA Operating modes of SiFC43PA for totalizer or dosing value The block can be operated using the following modes: ● Local mode ● Automatic mode ● Manual mode ● Out of service The general descriptions of the operating modes are identical for SiFC43PA and the APL; refer to the online help for the standard APL blocks for information on them.
Page 552: Functions Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA "Automatic mode" "Automatic mode" supports the transfer of the following direction to the totalizer: ● "Positive and Negative (Balanced)" (positive edge BalPV2/PV3/PV4Aut) ● "Positive" (positive edge PosPV2/PV3/PV4Aut) ● "Negative" (positive edge NegPV2/PV3/PV4Aut) "Automatic mode" supports the transfer of the following command to the totalizer: ●...
Page 553 SITRANS FC430 PA 13.1 SiFC43PA Configuration data The configuration data comprises the units and the limits (PV1/PV2/PV3/PV4) for messages. After a change is made in the device, reading of configuration data must be triggered with "Read configuration data" in the parameter view of the faceplate. If the parameters were read back before a complete download to the PLC, the configuration does not need to be reloaded from the device.
Page 554 SITRANS FC430 PA 13.1 SiFC43PA Limit monitoring The block monitors the process values PV1, PV2, PV3 and PV4 if they are configured for limits. All values are written cyclically from the module into the process image of the controller. Configuration of the limits is carried out either by means of PDM and imported by reading the configuration data from the block, or can be carried out on the block independent of the module (see Feature bit 7).
Page 555 SITRANS FC430 PA 13.1 SiFC43PA The slope of the gradient PV1_Grad can be monitored for the following limits: ● Limit (high) for the positive gradient (GradHUpLim) ● Limit (high) for the negative gradient (GradHDnLim) ● Limit (low) for the absolute gradient (GradLLim) Activation of the individual monitoring functions is carried out at the corresponding "Enable"...
Page 556 SITRANS FC430 PA 13.1 SiFC43PA Configurable reactions using the Feature I/O The following responses are available for this block at the respective bits of the Feature I/O. If a description is not available here, it can be referenced in the APL Online Help. Feature Define the startup characteristics Reaction to the Out of service mode...
Page 557 SITRANS FC430 PA 13.1 SiFC43PA The block has the following permissions for the OS_Perm parameter: Function 1 = Operator can switch PV1 to "On" mode 1 = Operator can switch PV1 to "Out of service" mode 1 = Operator can switch PV2 to "Automatic" mode 1 = Operator can switch PV2 to "Manual"...
Page 558 SITRANS FC430 PA 13.1 SiFC43PA 1 = Operator can activate / deactivate messages with PV1_WL_MsgEn 1 = Operator can activate / deactivate messages with PV1_AL_MsgEn 1 = Operator can change the limit (PV2) for the high alarm 1 = Operator can change the limit (PV2) for the high warning 1 = Operator can change the limit (PV2) for the hysteresis 1 = Operator can change the limit (PV2) for the low alarm 1 = Operator can change the limit (PV2) for the low warning...
Page 559 SITRANS FC430 PA 13.1 SiFC43PA PV2: 1 = Operator can enter the 'Totalize' totalizer command PV3: 1 = Operator can reset the totalizer PV3: 1 = Operator can preset the totalizer PV4: 1 = Operator can enter the totalizer command 'Positive and negative count' PV4: 1 = Operator can enter the 'Only positive count' totalizer command PV4: 1 = Operator can enter the 'Only negative count' totalizer command Not used...
Page 560: Error Handling Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA You can simulate the following values in the faceplate via an input: ● The process values (outputs PV_Out1..4 and - in accordance with the configuration - MassFlow, VolFlow, Density, CVolFlow, PMedTemp, FractA/B, FractA/ BP, Tot1/2/3, DosQuant) in the standard view via the inputs (SimPV1..4) Display and operating range for process values and limits Scaling values for process variables PV1..4 are read acyclically using driver block.
Page 561: Sifc43Pa Messages
SITRANS FC430 PA 13.1 SiFC43PA Overview of error numbers The I/Os Error1..4Num (PV1, PV2, PV3 and PV4) can be used to output the following error numbers: Error number Meaning of the error number Predefined value when inserting the block; the block is not executed. There is no error.
Page 562 SITRANS FC430 PA 13.1 SiFC43PA Process messages Message Message Message Event instance identifier class MsgEvId1 SIG1 Alarm - high $$BlockComment$$ @4Y%t#SiFC43PA_MeasVal@ - high alarm limit violated SIG2 Warning - high $$BlockComment$$ @4Y%t#SiFC43PA_MeasVal@ - high warning limit violated SIG3 Warning - low $$BlockComment$$ @4Y%t#SiFC43PA_MeasVal@ - low warning limit violated SIG4...
Page 563 SITRANS FC430 PA 13.1 SiFC43PA Instance-specific messages You can use up to three instance-specific messages with this block. Message Message Message class Event instance identifier MsgEvId4 SIG3 AS process control message $$BlockComment$$ - external message 1 - fault SIG4 AS process control message $$BlockComment$$ - external message 2 - fault SIG5...
Page 564 SITRANS FC430 PA 13.1 SiFC43PA Associated value Block parameter ExtVa208 Reserved Reserved The input parameters PV_Meas3 and PV_Meas4 contain a number for the physical variable of the process values PV3 and PV4. The associated values 5 ... 8 are allocated to the parameters ExtVa206 ... ExtVa208, and you can use them.
Page 565: I/Os Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA Message texts and their text numbers The following table shows the message texts and their text numbers in the text library "SiFC43PA_MeasVal" for the SiFC43PA block (FB 2638): Text number Message text Mass flow Density Process media temperature Totalizer 1 Totalizer 2...
Page 566 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default PV_Meas1 Measurement of Process Value 1: BYTE 0: Mass flow 1: Density 2: Process media temperature 5: Volume flow 6: Fraction A 7: Fraction B 8: Fraction A % 9: Fraction B % 10: Corrected volume flow 11: Sensor frame temperature 14: Not used...
Page 567 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default DSP_ExtOp Dosing unit: 1 = Select external setpoints via BOOL operator DSP_IntOp Dosing unit: 1 = Select internal setpoints via BOOL operator DSP_ExtLi Dosing unit: 1 = Select external setpoints via STRUCT interconnection ●...
Page 568 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default SimPV3* Process value of third PA variable (PV3) used REAL for SimOn = 1 SimPV4* Process value of fourth PA variable (PV4) REAL used for SimOn = 1 SimMFlLi Mass flow value used for SimOnLi.Value = STRUCT 1 (SimLiOp.Value = 1) ●...
Page 569 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default SimTot3Li Totalizer 3 value used for SimOnLi.Value = STRUCT 1 (SimLiOp.Value = 1) ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 SimDQuant Dosing quantity used for SimOnLi.Value = 1 STRUCT (SimLiOp.Value = 1) ●...
Page 570 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default PV1_WH_DG Limiter PV1: REAL Delay time for outgoing warning messages (analog with overrange process value [s] PV2,PV3,PV4 PV1_A_DC* Limiter PV1: REAL (analog Delay time for incoming alarms with overrange/ PV2,PV3,PV4 underrange process value or only with under‐ range process value [s] PV1_A_DG* Limiter PV1:...
Page 571 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default PV1_WL_Msg 1 = Activate message for process value PV1 BOOL (low) warning (analog PV2,PV3,PV4 PV1_AL_Msg 1 = Activate message for process value PV1 BOOL (low) alarm (analog PV2,PV3,PV4 GradHUpLim Gradient monitoring: Limit (high) for the posi‐ REAL 10.0 tive gradient...
Page 572 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default NegPV2Man* Totalizer PV2: Decrement only for negative BOOL flow in manual mode (analog PV3,PV4) HoldPV2Man* Totalizer PV2: Hold totalizer in manual mode BOOL (analog PV3,PV4) TotPV2Man* Totalizer PV2: Totalize the totalizer in manual BOOL mode (analog...
Page 573 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default DPauseMan Dosing unit: 1 = Select Pause in "manual BOOL mode" DContMan Dosing unit: 1 = Select Continue in "manual BOOL mode" DSrtClnOp Dosing unit: 1 = Select Cleaning program in BOOL "manual mode"...
Page 574 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default InVflZFSupp Low flow cut-off suppression (volume flow) STRUCT (only for readback) ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 GradHUpEn 1 = Enable gradient monitoring (high) for pos‐ BOOL itive changes GradHDnEn...
Page 575 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default LocalPV2Li 1 = Activate PV2 "Local mode" via plant signals STRUCT (analog ● Value : BOOL ● 0 PV3,PV4) ● ST: BYTE ● 16#80 LocalPV2Op* 1 = PV2 "Local mode" via operator BOOL (analog PV3,PV4)
Page 576 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default Permit 1 = Enable dosing start STRUCT 0 = no activation enabled on OS for dosing ● Value : BOOL ● 1 start ● ST: BYTE ● 16#FF Perm_En 1 = Activation enable (enable, Permit parame‐ BOOL ter) is active Intlock...
Page 577 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default BypLiOp 1 = Bypass commands via interconnection STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 BypPVO1p 1 = Select bypass PV1 (via operator) BOOL RstBypOp 1 = Reset bypass PV1 (via operator) BOOL BypPV1Li 1 = Select bypass PV1 (via interconnection)
Page 578 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default ExtMsg2 Binary input for freely selectable message 2 STRUCT ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 ExtMsg3 Binary input for freely selectable message 3 STRUCT ● Value : BOOL ●...
Page 579 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default Delay_S Delay time active STRUCT xPV1_AH_delayed : BOOL; xPV1_WH_delayed : BOOL; xPV1_WL_delayed : BOOL; xPV1_AL_delayed : BOOL; xPV2_AH_delayed : BOOL; xPV2_WH_delayed : BOOL; xPV2_WL_delayed : BOOL; xPV2_AL_delayed : BOOL; xPV3_AH_delayed : BOOL;...
Page 580 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default OS3Perm I/O for operating permissions STRUCT ● Bit 0 : BOOL ● 1 … … ● Bit31: BOOL ● 1 OpSt_In Input parameter for local operator authoriza‐ DWORD 16#00000000 tion, to be interconnected with the Out output parameter of the upstream OpStations block Feature I/O for additional functions...
Page 581 SITRANS FC430 PA 13.1 SiFC43PA * Values can be written back to these inputs during processing of the block by the block algorithm. In/out parameters Parameter Description PV_Meas1_IO Measurement of Process Value 1 (Interconnection to Driver Block) PV_Meas2_IO Measurement of Process Value 2 (Interconnection to Driver Block) PV_Meas3_IO Measurement of Process Value 3 (Interconnection to Driver Block) PV_Meas4_IO...
Page 582 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description RdReq If the structure is set for one of the member variables of type BOOL, the block passes on the job for reading the data stored for that purpose to the driver block. Only exactly one member variable is set to TRUE: STRUCT ManufacturerID : Manufacturer ID...
Page 583 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description ModeTot1 : Read mode of totalizer 1 -->0 = Balanced, 1 = Positive, 2 = Negative ModeTot2 : Read mode of totalizer 2 -->0 = Balanced, 1 = Positive, 2 = Negative ModeTot3 : Read mode of totalizer 3 -->0 = Balanced, 1 = Positive, 2 = Negative CmdTot1 : Command Totalizer 1 CmdTot2 : Command Totalizer 2 CmdTot3 : Command Totalizer 3...
Page 584 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description WrReq If the structure is set for one of the member variables of type BOOL, the block passes on the job for writing the data stored for that purpose or for sending the correspond‐ ing command to the driver block.
Page 585 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description PV4_Hyst_val : PV4 - Alarm Hysteresis value ForceZerAdj : Force zero adjust ForceZerAdj_val : Force zero adjust value ZeroAdjCmd : Command zero adjust ZeroAdjCmd_val : Command zero adjust value DRstCycCnt : Command zero adjust DRstCycCnt_val : Command zero adjust value DosingActRec : Active dosing recepe DosingComp : Dosing compensation...
Page 586 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Para Values of parameters which are written to the device or read from it: STRUCT InProcess Error RdDrErr : Error while reading data record WrDrErr : Error while writing data record FractnAtxt : Text fraction A FractnBtxt : Text fraction B InRcp1Name : Name of recipe parameter set 1 InRcp2Name : Name of recipe parameter set 2...
Page 587 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description DCyclCnt : Dosing cycle counter DinputSel : Dosing input selection DSP_Unit : Dosing setpoint unit DCompMode : Dosing compensation mode: 0=fixed, 1=lead, 2=overfill, 3=underfill DComp : Dosing Compensation DSetpoint : Dosing: Setpoint PV1_OpScale : Range of process value High : High Value Low : Low Value END_STRUCT;...
Page 588 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description InPV3_WL_Lim InPV3_AL_Lim InPV3_Hyst PV3_AH_Lim PV3_WH_Lim PV3_WL_Lim PV3_AL_Lim PV3_Hyst InPV4_AH_Lim InPV4_WH_Lim InPV4_WL_Lim InPV4_AL_Lim InPV4_Hyst PV4_AH_Lim PV4_WH_Lim PV4_WL_Lim PV4_AL_Lim PV4_Hyst : AnaVal; Tot1Mode : Mode totalizer 1 Tot2Mode : Mode totalizer 2 Tot3Mode : Mode totalizer 3 Tot1Set : Set totalizer 1 Tot2Set : Set totalizer 2 Tot3Set : Set totalizer 3...
Page 589 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Timer_S STRUCT PV1_AH_DC : PV1-Alarm Delay Time Coming High [s] PV1_AH_DG : PV1-Alarm Delay Time Going High [s] PV1_WH_DC : PV1-Warning Delay Time Coming High [s] PV1_WH_DG : PV1-Warning Delay Time Going High [s] PV1_A_DC : PV1-Alarm Delay Time Coming High/Low or only Low [s] PV1_A_DG : PV1-Alarm Delay Time Going High/Low or only Low [s] PV1_W_DC : PV1-Warning Delay Time Coming High/Low or only Low [s]...
Page 590 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Enable STRUCT PV1_AH_En : PV1 - High Alarm Enable PV1_WH_En : PV1 - High Warning Enable PV1_WL_En : PV1 - Low Warning Enable PV1_AL_En : PV1 - Low Alarm Enable PV2_AH_En : PV2 - High Alarm Enable PV2_WH_En : PV2 - High Warning Enable PV2_WL_En : PV2 - Low Warning Enable PV2_AL_En : PV2 - Low Alarm Enable...
Page 591 SITRANS FC430 PA 13.1 SiFC43PA Output parameters Parameter Description Type Default QWronDev 1 = Wrong device connected BOOL MS_Release Release for maintenance: STRUCT 1 = Release for OS operator ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 BypassAct 1 = Bypass is activated in this block STRUCT...
Page 592 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default GradHDnAct 1 = Gradient alarm (low). STRUCT 1 = Alarm (low) active. ● Value : BOOL ● 0 You can change the response for this ● ST: BYTE ● 16#80 parameter by setting Feature bit 28 (de‐ activate switching points) and Feature bit 29 (high/low signal limit violation) ac‐...
Page 593 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default DState Current state of dosing unit: BYTE 16#00 ● 16#01: Start ● 16#02: Stop ● 16#03: Pause ● 16#04: Resume ● 16#05: Cleaning program 1 = Dosing active STRUCT ● Value : BOOL ●...
Page 594 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default OnPV1Act 1 = Process value PV1 "On" is active STRUCT (analog ● Value : BOOL ● 1 PV2,PV3,PV4) ● ST: BYTE ● 16#80 PPV2Rst 1= Pulse output for resetting of dosing STRUCT unit ●...
Page 595 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default FractAP Current fraction A% value STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 FractBP Current fraction B% value STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ●...
Page 596 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default PV1_AL_Act Limiter PV1: STRUCT (analog 1 = Alarm (low) active. ● Value : BOOL ● 0 PV2,PV3,PV4) You can change the response for this ● ST: BYTE ● 16#80 parameter by setting Feature bit 28 (deactivate switching points) and Feature bit 29 (signal limit viola‐...
Page 597 SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default Status4 Status word 4 DWORD 16#00000000 Status5 Status word 5 DWORD 16#00000000 Status6 Status word 6 DWORD 16#00000000 Error1Num Output of current error numbers for the first PA variable. (primary variable). For error numbers that can be output by this block, see the error handling of SiFC43PA.
Page 598: Block Diagram Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA Parameter Description Type Default MsgStat2 Alarm status 2 (output ERROR of sec‐ WORD 16#0000 ond ALARM_8P) MsgAckn2 Alarm acknowledgment status 2 (output WORD 16#0000 STATUS of second ALARM_8P) MsgErr3 1 = Message error 3 (ERROR output of BOOL first ALARM_8P) MsgStat3...
Page 599: Operator Control & Monitoring
SITRANS FC430 PA 13.1 SiFC43PA The cyclic values are transferred by the FbFC43PA, the acyclic values are transferred by the FC43PADr and PiDr64 blocks to and from the device. The Laddr input of the PiDr64 block (AcyclicData) is configured with the address of the process value PV1 (not interconnected!).
Page 600: Standard View Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA 13.1.9.2 Standard view of SiFC43PA The current process values for mass flow, volume flow, density, process media temperature, corrected volume flow, fraction A or B, fraction A or B in percent, or counter 1, 2 or 3 are displayed in the standard view depending on the configuration of the process variables.
Page 601 SITRANS FC430 PA 13.1 SiFC43PA (1) Display and switchover of operating mode PV1 This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see APL Online Help) For more information on changing the operating mode, refer to the "Switching operating states and operating modes"...
Page 602 SITRANS FC430 PA 13.1 SiFC43PA The minimum peak gradient value is displayed if the gradient monitoring function for negative changes is enabled (GradHDnEn = 1) (6) Resetting of peak values of the gradient Using these buttons you can reset the maximum or minimum peak value of the gradient (output parameters PV1_GradPP and PV1_GradNP).
Page 603 SITRANS FC430 PA 13.1 SiFC43PA (9) Display and change the dosing unit: Start, resume, pause and stop This area shows you the default operating state for the dosing unit. The following states can be shown and changed here: ● "Start" ●...
Page 604 SITRANS FC430 PA 13.1 SiFC43PA (21) Limit display These small, colored triangles indicate the specified limits of the process value PV1 in the bar graph. (22) Bar graph for the "process value" (PV1) This area shows the current "process value" (PV1) in the form of a bar graph. The visible area in the bar graph depends on the configuration in the engineering system (ES), see Display and operating range for process values and limits.
Page 605 SITRANS FC430 PA 13.1 SiFC43PA (2) Display and switchover of operating mode PV3 This area provides information on the currently valid operating mode. The operating mode switchover depends on whether or not a totalizer is configured. The following operating modes can be shown here: Without totalizer: The following operating modes can be shown here: ●...
Page 606 SITRANS FC430 PA 13.1 SiFC43PA The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see APL Online Help) With totalizer: The block can be operated using the following modes: ● Local mode ●...
Page 607: Limit View Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA Third standard view (1) Change to second limit view The second part of the standard view of the faceplate can be selected here. (2) Display of all available process values including signal status This area indicates the all available process values with the associated signal status. 13.1.9.3 Limit view of SiFC43PA The limits of the process value PV1 and the totalizer value can be specified in this view.
Page 608 SITRANS FC430 PA 13.1 SiFC43PA (1) Process value limits PV1 In this area, you can enter the limits for the process value PV1. You can change the following limits: ● "H alarm": High alarm ● "H warning": High warning ● "Hysteresis" ●...
Page 609 SITRANS FC430 PA 13.1 SiFC43PA (3) Gradient limits You can enter gradient limits in this area. Refer to the "Changing values" section in the APL Online Help. You can change the following limits: ● "H alarm ⇑": Gradient for the upper gradient for positive changes ●...
Page 610 SITRANS FC430 PA 13.1 SiFC43PA Second limit view (1) Change to first limit view The first part of the two-part limit view of the faceplate can be selected here. (2) Process value limits PV3 In this area, you can enter the limits for the process value PV3. You can change the following limits: ●...
Page 611 SITRANS FC430 PA 13.1 SiFC43PA ● "L warning": Low warning ● "L alarm": Low alarm (4) Password A password must be entered before message limits can be changed in the device; this is entered here. Note Password entry is must for performing Totalizer or Dosing operations. (5) Suppress messages You can activate/deactivate messages by selecting the check mark.
Page 612: Parameter View Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA 13.1.9.4 Parameter view of SiFC43PA (1) Read/write configuration data In this area, you can read all configuration data relevant to the block from FC430 PA. (2) Write configuration data In this area, you can write all relevant configuration data, i.e. limits, to the FC430 PA. (3) Zero adjustment The zero balancing in the FC430 PA is triggered here.
Page 613 SITRANS FC430 PA 13.1 SiFC43PA For more information about this area, refer to the following sections of the APL Online Help: ● Bypassing signals ● Simulating signals ● Release for maintenance (9) Change to second parameter view The second part of the parameter view of the faceplate can be selected here. (10) Password A password must be entered before message limits can be changed in the device when writing all configuration data;...
Page 614 SITRANS FC430 PA 13.1 SiFC43PA Second Parameter View (1) Change to first parameter view The first part of the parameter view of the faceplate can be selected here. (2), (5) and (8) Totalizer preset value In this area, you specify a preset value for the totalizer of PV2, PV3, PV4 respectively. If a totalizer is not configured, the area is switched to invisible.
Page 615 SITRANS FC430 PA 13.1 SiFC43PA (7) Display and change the totalizer direction PV3 (Positive and negative, positive and negative) This area shows you the default direction state for the totalizer PV3. The following states can be shown and executed here: ●...
Page 616: Preview Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA 13.1.9.5 Preview of SiFC43PA Note The following screenshots show a sample configuration for PV2 (dosing), PV3 (measured value) and PV4 (totalizer). The structure of the faceplate is always based on the individual configuration in PDM. (1) Process value PV1 This area displays the real process values PV1.
Page 617 SITRANS FC430 PA 13.1 SiFC43PA (2) Automatic preview PV2 This area shows you the dosing or totalizer command that is input after a switch from "manual mode" to "automatic mode". If the block is in "automatic mode", the current dosing or totalizer command is displayed. If a dosing unit or totalizer is not configured, the area is switched to invisible.
Page 618 SITRANS FC430 PA 13.1 SiFC43PA General enabled operationss with dosing unit or totalizer: ● "Automatic": You can switch to "automatic mode". ● "Manual": You can switch to "manual mode". ● "Local": You can switch to "local mode". ● "Out of service": You can switch to "Out of service" mode. Totalizer: ●...
Page 619 SITRANS FC430 PA 13.1 SiFC43PA (7) Display current control signals Only if dosing is configured: ● "Enable": 0 = No OS activation enable for the motor 1 = Enable for "Start" / "Stop" from the neutral position ● "Protection": 0 = Protective interlocking is effective; once the interlocking condition has disappeared, you will have to reset the block 1 = Good state ●...
Page 620 SITRANS FC430 PA 13.1 SiFC43PA Second preview The first part of the two-part preview of the faceplate can be selected here. (1) Change to first preview (2) and (3) Automatic preview PV3, PV4 Totalizer: This area shows you the totalizer command of PV3 or PV4 that is input after a switch from "manual mode"...
Page 621 SITRANS FC430 PA 13.1 SiFC43PA Measured value: This area displays the real process value (PV3 or PV4). If neither a totalizer nor a measured value is configured, the area is switched to invisible. (4) and (5) Enabled operations PV3, PV4 This area shows the operations for the process value PV3 or PV4 for which special operating permissions are assigned.
Page 622 SITRANS FC430 PA 13.1 SiFC43PA ● "Local resume": 1 = Dosing is resumed in "Local mode" ● "Local stop": 1 = Dosing is stopped in "Local mode" Totalizer: ● "Local tot": 1 = Totalizer is operated in "Local mode" ● "Local P./N. tot": 1 = Totalizer counts positive and negative in "Local mode" ●...
Page 623: Dosing View Of Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA 13.1.9.6 Dosing view of SiFC43PA The dosing view can only be selected if dosing is configured (Feature bit 14 = TRUE). (1) Read dosing data The "Read dosing data" button is used to read out the following values from the FC430 PA: ●...
Page 624 SITRANS FC430 PA 13.1 SiFC43PA (3) Compensation Display of compensation value for dosing. (4) Dosing unit cycle counter Display of number of dosing cycles carried out since last reset (5) Reset dosing unit cycle counter Reset dosing counter (6) Display and switchover of dosing operating mode This area provides information on the currently valid dosing operating mode.
Page 625 SITRANS FC430 PA 13.1 SiFC43PA (9) Reset the block Click "Reset" for interlocks or errors. For more information, refer to the "Resetting the block in case of interlocks or errors" section in the APL Online Help. (10) Operating area for the interlock functions of the block You can use this button to control the interlock functions of the block.
Page 626: Block Icon For Sifc43Pa
SITRANS FC430 PA 13.1 SiFC43PA 13.1.9.7 Block icon for SiFC43PA Block icons for SiFC43PA A variety of block icons are available with the following functions: ● Process tag type ● Limits (high/low) ● Violation of alarm and warning limits as well as the control system fault CSF ●...
Page 627: Fc43Padr
SITRANS FC430 PA 13.2 FC43PADr Icons Selection of the block icon in CFC Special features PV1 and PV2 are used PV2 = totalizer (no dosing unit configured) Only PV1 is used Example of block icon in the "Out of service" operating mode Additional information on the block icon and the control options in the block icon is available in the following chapters: ●...
Page 628: Operating Modes Of Fc43Padr
SITRANS FC430 PA 13.2 FC43PADr Configuration The PiDr64, FC43PADr and SiFC43PA blocks are inserted in a cyclic interrupt OB (OB30 to OB38) in exactly this execution sequence. The AcyclData output structure of the PiDr64 block is interconnected to the input with the same name of the FC43PADr block. The SxRdReq, SxWrReq and Para output structures of the FC43PADr block are interconnected to the RdReq, WrReq and Para inputs of the SiFC43PA block.
Page 629: Block Diagram Of Fc43Padr
SITRANS FC430 PA 13.3 FC43PATi Output parameters Parameter Description SxRdReq If one of the member variables of type BOOL is TRUE, the block pass‐ es on the job for reading the corresponding data to the driver block PiDr64. Only exactly one member variable is set to TRUE: SxWrReq If one of the member variables of type BOOL is TRUE, the block pass‐...
Page 630: Operating Modes Of Fc43Pati
SITRANS FC430 PA 13.3 FC43PATi How it works The FC43PATi block receives values via its Input/output structures Delay_S,Limit_S, Timer_S Active, Enable, Feature_S and OOS_S. Configuration The FC43PATi and SiFC43PA blocks are inserted in a cyclic interrupt OB (OB30 to OB38) in exactly this execution sequence.
Page 631 SITRANS FC430 PA 13.3 FC43PATi Output parameters Parameter Description Type Timer_S PV1_AH_DC : PV1-Alarm Delay Time Coming High STRUCT ● Value : REAL PV1_AH_DG : PV1-Alarm Delay Time Going High PV1_WH_DC : PV1-Warning Delay Time Coming High [s] PV1_WH_DG : PV1-Warning Delay Time Going High [s] PV1_A_DC : PV1-Alarm Delay Time Coming High/ Low or only Low [s]...
Page 632: Block Diagram Of Fc43Pati
SITRANS FC430 PA 13.3 FC43PATi Parameter Description Type PV3_W_DG : PV3-Warning Delay Time Going High/ Low or only Low [s] PV4_AH_DC : PV4-Alarm Delay Time Coming High PV4_AH_DG : PV4-Alarm Delay Time Going High PV4_WH_DC : PV4-Warning Delay Time Coming High [s] PV4_WH_DG : PV4-Warning Delay Time Going High [s]...
Page 633: Fbfc43Pa
SITRANS FC430 PA 13.4 FbFC43PA 13.4 FbFC43PA 13.4.1 Description of FbFC43PA Object name (type + number) and family Type + number: FB 2636 Family: SiFC43PA Area of application for FbFC43PA The block is used for the following applications: ● Transfer of cyclic data from and to a FC430 coriolis flow meter. How it works The block reads/writes all cyclic data of a FC430 from/to the process image in cyclic mode.
Page 634: Operating Modes For Fbfc43Pa
SITRANS FC430 PA 13.4 FbFC43PA Write the volume flow (AI) address that was generated in HW Config to input parameter AVolFlow. Note If you are not using the CFC function "Generate module drivers", parameterize the addresses of input structure Addr and the Mode in/out parameter manually. The block expects the values Mode = 16#80xxxxxx for "I/O data can be read", and 16#00xxxxxx for "invalid I/O data".
Page 635: Error Handling Of Fbfc43Pa
SITRANS FC430 PA 13.4 FbFC43PA Writing cyclic values to the process image The source for values that are written cyclically to the process image depends on the setting at input parameter SelStrInputs: ● SelStrInputs = FALSE (default): The values and signal states for the I/O outputs are transferred from output structure CyclData.Output which is interconnected with visualization block SiFC43PA.
Page 636: Messaging Of Fbfc43Pa
SITRANS FC430 PA 13.4 FbFC43PA Input.CtrlCmdStatus.ST, Input.DAmt.ST, Input.DState.ST, Input.DFbkDigVlv1.ST, Input.DFbkDigVlv2.ST and Input.DFbkAnaVlv.ST as well as at the outputs QCMassFlow, QCDensity, QCPMedTemp, QCTot1, QCTot2, QCVolFlow, QCFractnA, QCFractnB, QCFractnAp, QCFractnBp, QCCorVolFlow, QCFrameTemp, QCTot3, QCDAmt, QCDFbkDigVlv1, QCDFbkDigVlv2, and QCDFbkAnaVlv. Module errors If an incorrect module ID of the connected DP slave is read from the block, output QModF will be set.
Page 637 SITRANS FC430 PA 13.4 FbFC43PA Configuration of input structure Addr: Addr STRUCT Volume flow (AI) address Density : INT Density PMedTemp : INT Medium Temperature Tot1 : INT Totalizer 1 SetTot1 : INT Reset control totalizer 1 (Reset, Preset, Hold, Totalize) Tot2 : INT Totalizer 2 SetTot2 : INT...
Page 638 SITRANS FC430 PA 13.4 FbFC43PA Output parameters Parameter Description Type Default QRackF 1 = Rack failure BOOL QModF 1 = Module failure BOOL CyclData Cyclic data STRUCT Configuration of the output structure CyclData: CyclData STRUCT Description Csf : BOOL 1 = Control system fault ParaAvail : Parameter available DWORD...
Page 639: Block Diagram Of Fbfc43Pa
SITRANS FC430 PA 13.4 FbFC43PA The below parameters are available Addr STRUCT Qcsf : BOOL Dummy for Csf Density : BOOL Density PMedTemp : BOOL Medium Temperature Tot1 : BOOL Totalizer 1 SetTot1 : BOOL Reset control totalizer 1 (Reset, Preset, Hold, Total‐ ize) Tot2 : BOOL Totalizer 2...
Page 640 SITRANS FC430 PA 13.4 FbFC43PA SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 641: Sitrans Lr Pa
SITRANS LR PA 14.1 SitrLRPA 14.1.1 Description of SitrLRPA Object name (type + number) and family Type + number: FB 2632 Family: SitrLRPA Area of application for SitrLRPA The block is used for the following applications: ● Interface block between the Profibus PA driver blocks of the Sitrans LR 250 module for the user program and for visualization How it works The SitrLRPA block prepares the process data received from driver blocks from a Sitrans LR...
Page 642 SITRANS LR PA 14.1 SitrLRPA Example of a process tag type: Template of SitrLRPA (Page 665) Note The APL blocks ChkREAL (FC260) and SelST16 (FC369) that are not supplied with the SITRANS Library are called internally by the SitrLRPA block. If not yet installed in your project, copy both blocks from the APL library to your project before you download the project to the PLC.
Page 643 SITRANS LR PA 14.1 SitrLRPA Status bit Parameter Message delay PV2AL_Lim 22 - 29 Not used Auxiliary value 1 visible Auxiliary value 2 visible Status word allocation for Status2 parameter You can find a description for each parameter in section I/Os of SitrLRPA (Page 654). Status bit Parameter MsgLock.Value...
Page 644: Operating Modes Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA Status word allocation for Status3 parameter You can find a description for each parameter in section I/Os of SitrLRPA (Page 654). Status bit Parameter Not used PV2AH_Act.Value PV2WH_Act.Value PV2WL_Act.Value PV2AL_Act.Value PV2AH_En PV2WH_En 14 - 15 Not used PV2WL_En PV2AL_En...
Page 645: Functions Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA 14.1.3 Functions of SitrLRPA The functions for this block are listed below. Configuration data The configuration data comprises the units, the configuration of the PV inputs, and the limits for messages. After a change is made in the device, reading of configuration data must be triggered with "Read configuration data"...
Page 646 SITRANS LR PA 14.1 SitrLRPA ● PV1/PV2Hyst: Hysteresis ● PV1/PV2WH_Lim: Limit for high warning ● PV1/PV2WL_Lim: Limit for low warning The result of limit monitoring is returned at the interconnectable output parameters: ● PV1/PV2AH_Act = 1: Limit for high alarm reached or exceeded ●...
Page 647 SITRANS LR PA 14.1 SitrLRPA Messages can be output for these alarms. You can activate these as follows: ● Message for alarms (high) for the positive gradient: GradHUpMsgEn = 1 ● Message for alarms (high) for the negative gradient: GradHDnMsgEn = 1 ●...
Page 648 SITRANS LR PA 14.1 SitrLRPA Feature 1 = Message limits are read from the device and transferred to the device in case of a change Separate delay times for each alarm (Page 52) Reading configuration data automatically During the start of the controller and when the connection between device and controller is reestablished after an interruption, the configuration data is read automatically by means of acyclic communication.
Page 649 SITRANS LR PA 14.1 SitrLRPA 1 = Operator can change the limit (PV1) for the low warning Not used 1 = Operator can change the value for the high gradient limit for positive gradients (GradHUpLim) 1 = Operator can change the value for the high gradient limit for negative gradients (GradHDnLim) 1 = Operator can change the value for the low gradient limit for positive and negative gradients (GradLLim)
Page 650: Error Handling Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA Display and operating range for process values and limits The scalings from the Sitrans LR 250 are read out as the display and operating range (PV1OpScale, PV2OpScale) for the process values PV1 and PV2. Displaying auxiliary values This block provides the standard "Display auxiliary values"...
Page 651: Sitrlrpa Messages
SITRANS LR PA 14.1 SitrLRPA Control system fault (CSF) An external signal can be activated via the CSF input. A process control error is triggered if this signal = 1. Refer to the "Error handling" chapter in the APL Online Help. 14.1.5 SitrLRPA messages Messaging...
Page 652 SITRANS LR PA 14.1 SitrLRPA Process messages Message in‐ Message identifier Message class Event stance Alarm - high $$BlockComment$$ @4Y%t#SitrLRPA_MeasVal@ - MsgEvId1 SIG1 high alarm limit violated Warning - high $$BlockComment$$ @4Y%t#SitrLRPA_MeasVal@ - SIG2 high warning limit violated Warning - low $$BlockComment$$ @4Y%t#SitrLRPA_MeasVal@ - SIG3 low warning limit violated...
Page 653 SITRANS LR PA 14.1 SitrLRPA Associated values for message instance MsgEvId1 Associated value Block parameters BatchName StepNo BatchID PV1Meas PV2Meas ExtVa106 ExtVa107 ExtVa108 Reserved Reserved The input parameter PV_Meas contains a number for the physical variable of the process value. The associated values 6 ...
Page 654: I/Os Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA Text number Message text Level Distance 14.1.6 I/Os of SitrLRPA Input parameters Parameter Description Type Default Process value 1 STRUCT ● Value : REAL ● 0.0 ● ST: BYTE ● 16#FF Process value 2 STRUCT ●...
Page 655 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default Limit sensor PV1: REAL InPV1AH_Lim* Alarm limit (high) Limit sensor PV1: REAL InPV1WH_Lim* Warning limit (high) Limit sensor PV1: REAL InPV1Hyst* Hysteresis for alarm and warning limits Limit sensor PV1: REAL InPV1WL_Lim* Limit warning (low) Limit sensor PV1:...
Page 656 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default 1 = Activate message for process value 1 warn‐ BOOL PV1WH_MsgEn ing (high) 1 = Activate message for process value 1 warn‐ BOOL PV1WL_MsgEn ing (low) 1 = Activate message for process value 1 alarm BOOL PV1AL_MsgEn (low)
Page 657 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default 1 = Activate process value 2 warning (low) BOOL PV2WL_En 1 = Activate process value 2 alarm (low) BOOL PV2AL_En 1 = Activate message for process value 2 alarm BOOL PV2AH_MsgEn (high) 1 = Activate message for process value 2 warn‐...
Page 658 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default Unit of measure for analog auxiliary value 1 UA1unit Analog auxiliary value 2 STRUCT UserAna2 ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Unit of measure for analog auxiliary value 2 UA2unit 1 = Suppress process messages.
Page 659 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default Process value 2PV2Out used for SimOnLi = 1 STRUCT SimPV2Li ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Number of cycles in startup; messages are sup‐ RunUpCyc pressed during these cycles Message number (assigned automatically) DWORD 16#00000000...
Page 660 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default Input parameter for local operator authorization, DWORD 16#00000000 OpSt_In to be interconnected with the Out output param‐ eter of the upstream OpStations block I/O for additional functions STRUCT Feature ● Bit 0 : BOOL ●...
Page 661 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default Output for process value PV1 STRUCT PV1Out ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Output for process value PV2 STRUCT PV2Out ● Value : REAL ● 0.0 ●...
Page 662 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default Limit sensor PV1: STRUCT PV1WH_Act 1 = Warning (high) active. ● Value : BOOL ● 0 You can change the response for this parameter by ● ST: BYTE ● 16#80 setting Feature bit 28 (deactivate switching points) and Feature bit 29 (signal limit violation) according‐...
Page 663 SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default 1 = Gradient alarm (high) for positive changes. STRUCT GradHUpAct You can change the response for this parameter by ● Value : BOOL ● 0 setting Feature bit 28 (deactivate switching points) ●...
Page 664: Block Diagram Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA Parameter Description Type Default 1 = Message error 2 (ERROR output of second BOOL MsgErr2 ALARM_8P) Alarm status 2 (output ERROR of second WORD 16#0000 MsgStat2 ALARM_8P) Alarm acknowledgment status 2 (output STATUS WORD 16#0000 MsgAckn2 of second ALARM_8P) Alarm limit (high) PV1...
Page 665: Template Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA 14.1.8 Template of SitrLRPA This process tag type is used to connect a Sitrans LR 250 PA with driver blocks to PCS 7 with one ("Sitrans LR250 PA" template) or two process values ("Sitrans LR250 PA 2AI" template). Note Since the APL driver blocks Or08, SelST16, FbAnIn are missing in the library for licensing reasons, it must be copied into the block library before the Sitrans LR250 PA-Templates is...
Page 666: Standard View Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA 14.1.9.2 Standard view of SitrLRPA Depending on the configuration of the first and second process values, the current process values for volume, level and distance are displayed. If a measured value is not assigned to a variable, the field is hidden.
Page 667 SITRANS LR PA 14.1 SitrLRPA (3) Display of first process value (PV1) including signal status This area indicates the current first process value (PV1) with the associated signal status. The name of the configured measured value is displayed depending on the PV1Meas tag, in this case "Volume".
Page 668 SITRANS LR PA 14.1 SitrLRPA (8) Display of second process value (PV2) including signal status This area indicates the current second process value (PV2) with the associated signal status. The name of the configured measured value is displayed depending on the PV2Meas tag, in this case "Distance".
Page 669 SITRANS LR PA 14.1 SitrLRPA (18) Display of gradient (process value PV1) This display indicates whether the gradient is moving up (↑) or down (↓). The gradient monitoring is displayed when the gradient value is PV1Grad ≠ 0. (19) Display of limits in the bar graph This area provides information on the specified limits.
Page 670: Limit View Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA 14.1.9.3 Limit view of SitrLRPA The limits of the first process value PV1 and the second process value PV2 can be specified in this view. The displayed texts depend on the configuration of the process values PV1 and PV2. (1) Process value limits (PV1) In this area, you can enter the limits for the first process value PV1.
Page 671 SITRANS LR PA 14.1 SitrLRPA Note If the Feature bit 7 (synchronize alarm configuration with module) is set, the measuring range limits available in the module are written to the corresponding inputs when reading the configuration data. (2) Process value limits (PV2) In this area, you can enter the limits for the second process value PV2.
Page 672: Parameter View Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA (5) Message suppression/delays The message suppression indicates whether suppression of the associated message is activated in the AS block using the xx_MsgEn parameter. The output of messages is not suppressed when the block is installed (all xx_MsgEn parameters are set to 1 by default). Messages can only be output if limit monitoring of the additional analog value has been enabled.
Page 673 SITRANS LR PA 14.1 SitrLRPA (2) Reading the configuration data In this area, you can read all configuration data relevant to the block from Sitrans LR250 PA. (3) Writing the configuration data In this area, you can write all relevant configuration data, i.e. limits, to the Sitrans LR250 PA. This area is only displayed if the Feature bit 7 (synchronize alarm configuration with module) is set.
Page 674: Preview Of Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA 14.1.9.5 Preview of SitrLRPA (1), (2), (3) and (4) Process values This area shows the real process values (PV1,PV2 ) and the Bypass value. (5) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block.
Page 675: Block Icons For Sitrlrpa
SITRANS LR PA 14.1 SitrLRPA (6) Button for switching to the standard view of any faceplate Use this navigation button to open the standard view of a block configured in the engineering system. The visibility of this navigation button depends on the configuration in the engineering system (ES).
Page 676 SITRANS LR PA 14.1 SitrLRPA SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 677: Sitrans Lr Hart
SITRANS LR HART 15.1 SitrLRHA 15.1.1 Description of SitrLRHA Object name (type + number) and family Type + number: FB 2633 Family: SitrLRHA Application area of SitrLRHA The block is used for the following applications: ● Interface block between the HART driver blocks of the Sitrans LR 200, Sitrans LR 250, Sitrans LR 260 and Sitrans LR 560 modules (referred to below as Sitrans LR) for the user program and for visualization How it works...
Page 678 SITRANS LR HART 15.1 SitrLRHA The SlotHart input receives the slot number of the Sitrans LR within the analog input module. The Feature bit 2 must be used to configure whether communication with the module is by means of the HART protocol. If HART communication is used, reading out of the module configuration can be triggered in the WinCC faceplate.
Page 679 SITRANS LR HART 15.1 SitrLRHA Status bit Parameter OosLi.Value Not used OnAct.Value 7 - 9 Not used SimLiOp.Value Message delay PV_AH_Lim Message delay PV_WH_Lim 13 - 14 Not used Message delay PV_WL_Lim Message delay PV_AL_Lim Collection of message delays 18 - 19 Not used 1 = Local authorization active 21 - 29...
Page 680: Operating Modes Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA Status bit Parameter GradLEn GradHUpMsgEn GradHDnMsgEn GradLMsgEn 0 = falling measured value 1 = rising measured value BypassAct.Value Not used MS_RelOp Status word allocation for Status3 parameter You can find a description for each parameter in section I/Os of SitrLRHA (Page 690). Status bit Parameter 1st HART auxiliary variable (PV) is available and visualized in the faceplate...
Page 681: Functions Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA 15.1.3 Functions of SitrLRHA The functions for this block are listed below. Configuration data The configuration data comprises units, configuration of the 4 to 20 mA signal and HART variables, scaling of the 4 to 20 mA signal, and the diagnostics values. After a change is made in the device, reading of configuration data must be triggered with "Read configuration data"...
Page 682 SITRANS LR HART 15.1 SitrLRHA You can monitor the process value PV_In for the following high and low alarm and warning limits: ● PV_AH_Lim: Limit for high alarm ● PV_AL_Lim: Limit for low alarm ● PV_Hyst: Hysteresis ● PV1_WH_Lim: Limit for high warning ●...
Page 683 SITRANS LR HART 15.1 SitrLRHA Activation of the individual monitoring functions is carried out at the corresponding "Enable" parameters, e.g. GradHUpEn for activating the high gradient limit for positive gradients (GradHUpLim). Reaching or violation of your defined limits is indicated at the corresponding "Active" output parameters, e.g.
Page 684 SITRANS LR HART 15.1 SitrLRHA Configurable reactions using the Feature I/O The following response features are available for this block at the respective bits of the Feature connection. If a description is not available here, it can be referenced in the APL Online Help.
Page 685 SITRANS LR HART 15.1 SitrLRHA 1 = Operator can change the limit (PV_In) for the low warning Not used 1 = Operator can change the value for the high gradient limit for positive gradients (GradHUpLim) 1 = Operator can change the value for the high gradient limit for negative gradients (GradHDnLim) 1 = Operator can change the value for the low gradient limit for positive and negative gradients (GradLLim)
Page 686: Error Handling Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA Display and operating range for process values and limits The scaling of the 4 to 20 mA signal from the driver block (ScaleOut output of the Pcs7AnIn block, default connection in the CFC template of the Sitrans LR) is used as the display and operating range (PV_OpScale) for the 4 to 20 mA signal.
Page 687: Messages Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA There is no error. The process value can no longer be displayed in the REAL number field: PV_In : Error0Num PV : Error1Num SV : Error2Num TV : Error3Num QV : Error4Num Control system fault (CSF) An external signal can be activated via the CSF input.
Page 688 SITRANS LR HART 15.1 SitrLRHA Process messages Message in‐ Message iden‐ Message class Event stance tifier Alarm - high $$BlockComment$$ @4Y%t#SitrLRHA_MeasVal@ - high MsgEvId1 SIG1 alarm limit violated Warning - high $$BlockComment$$ @4Y%t#SitrLRHA_MeasVal@ - high SIG2 warning limit violated Warning - low $$BlockComment$$ @4Y%t#SitrLRHA_MeasVal@ - low warn‐...
Page 689 SITRANS LR HART 15.1 SitrLRHA Associ‐ Block parameters ated value ExtVa107 ExtVa108 Reserved Reserved The input parameter PV_Meas0 contains a number for the physical variable of the process value. The associated values 5 to 8 are allocated to the ExtVa105 to ExtVa108 parameters, and you can use them.
Page 690: I/Os Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA 15.1.6 I/Os of SitrLRHA Input parameters Parameter Description Type Default Slot number of the Sitrans LR within the AI module in SlotHart the ET 200M from HW Config Device type of Sitrans LR DevType 1: Sitrans LR 200 2: Sitrans LR 250 3: Sitrans LR 260 4: Sitrans LR 560...
Page 691 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Limit sensor PV_In: REAL PV_WH_DC* Delay time for incoming warning messages with over‐ range process value [s] Limit sensor PV_In: REAL PV_WH_DG* Delay time for outgoing warning messages with over‐ range process value [s] Limit sensor PV_In: REAL PV_A_DC*...
Page 692 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Limit for scale in PV bar graph of faceplate STRUCT PV_OpScale ● High: REAL ● 100.0 ● Low: REAL ● 0.0 Limit for scale SV STRUCT SV_OpScale ● High: REAL ● 100.0 ●...
Page 693 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Analog auxiliary value 1 STRUCT UserAna1 ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Unit of measure for analog auxiliary value 1 UA1unit Analog auxiliary value 2 STRUCT UserAna2 ●...
Page 694 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Process value of third HART variable (tertiary varia‐ REAL SimPV3* ble) used for SimOn = 1 Process value of fourth HART variable (quaternary REAL SimPV4* variable) used for SimOn = 1 Process value for the level that is used for SimOnLi = STRUCT SimLevLi...
Page 695 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Associated value 4 for messages (MsgEvID2) ExtVa204 Associated value 5 for messages (MsgEvID2) ExtVa205 Associated value 6 for messages (MsgEvID2) ExtVa206 Associated value 7 for messages (MsgEvID2) ExtVa207 Associated value 8 for messages (MsgEvID2) ExtVa208 Freely assignable bits for use in PCS 7 OS BYTE...
Page 696 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default 1 = Read diagnostics values from Sitrans LR BOOL RdDiaVal* Measuring range of the 4 to 20 mA signal STRUCT ScaleIn* This input is only used to read back the values to the ●...
Page 697 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Output third HART variable (tertiary variable) STRUCT PV_Out3 ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Output fourth HART variable (quaternary variable) STRUCT PV_Out4 ● Value : REAL ●...
Page 698 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Current volume STRUCT Volume ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Current distance STRUCT Distance ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Current space STRUCT Space ●...
Page 699 SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default 1 = Gradient alarm (high) for positive changes. STRUCT GradHUpAct 1 = Alarm (low) active. You can change the re‐ ● Value : BOOL ● 0 sponse for this parameter by setting Feature bit ●...
Page 700: Block Diagram Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA Parameter Description Type Default Output of current error number for TV. For error Error3Num numbers that can be output by this block, see Er‐ ror handling of SitrLRHA (Page 686) Output of current error number for QV. For error Error4Num numbers that can be output by this block, see Er‐...
Page 701: Template Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA 15.1.8 Template of SitrLRHA This process tag type is used to connect a Sitrans LR HART with driver blocks to PCS 7. Note Since the APL driver blocks Or08, SelST16, Pcs7AnIn and FbAnIn are missing in the library for licensing reasons, they must be copied into the library before the Sitrans LR HART template is copied.
Page 702: Standard View Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA ● Trend view (Page 36) ● Parameter view of SitrLRHA (Page 708) ● Preview of SitrLRHA (Page 709) ● Memo view (Page 35) ● Batch view (Page 33) For general information on the faceplate and block icon, refer to the sections "Faceplate structure"...
Page 703 SITRANS LR HART 15.1 SitrLRHA (1) Display and switch the operating mode This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see the APL Online Help) For more information on changing the operating mode, refer to the "Switching operating states and operating modes"...
Page 704 SITRANS LR HART 15.1 SitrLRHA The minimum peak gradient value is displayed if the gradient monitoring function for negative changes is enabled (GradHDnEn = 1) (6) Resetting of peak values of the gradient Using these buttons you can reset the maximum or minimum peak value of the gradient (output parameters PV_GradPP0 and PV_GradNP0).
Page 705 SITRANS LR HART 15.1 SitrLRHA (18) Bar graph for the first "Process value" (4 to 20 mA signal) This area shows the current first "Process value" (4 to 20 mA signal) in the form of a bar graph. The visible area in the bar graph depends on the configuration in the engineering system (ES), see Display and operating range for process values and limits.
Page 706: Limit View Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA 15.1.9.3 Limit view of SitrLRHA The limits of the 4 to 20 mA signal and the limits for the gradient monitoring of the 4 to 20 mA signal can be specified in this view. The displayed texts depend on the configuration of the limit sensors on the block or in the module.
Page 707 SITRANS LR HART 15.1 SitrLRHA (3) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: Green check mark: ●...
Page 708: Parameter View Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA 15.1.9.4 Parameter view of SitrLRHA (1) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ●...
Page 709: Preview Of Sitrlrha
SITRANS LR HART 15.1 SitrLRHA (5), (6) and (7) Service You can select the following functions in this area: ● "Bypass" ● "Simulation" ● "Release for maintenance" For more information about this area, refer to the following chapters of the APL Online Help: ●...
Page 710: Block Icons For Sitrlrha
SITRANS LR HART 15.1 SitrLRHA Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator cannot control this parameter due to the configured AS operating permissions (OS_Perm or OS1Perm) The following enabled operationss are shown here: General enabled operationss:...
Page 711 SITRANS LR HART 15.1 SitrLRHA The block icons from template @TemplateAPL_SITRANS.PDL: Icons Selection of the block icon in Special features Block icon in "Out of service" mode (ex‐ ample of block icon type 1) For more information on the block icon and operating options in the block icon, refer to the following sections in the APL online help: ●...
Page 712 SITRANS LR HART 15.1 SitrLRHA SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 713: Multiranger 200
MultiRanger 200 16.1 MR200 16.1.1 Description of Mr200 Object name (type + number) and family Type + number: FB 2635 Family: Mr200 Area of application for Mr200 The block is used for the following applications: ● Interface block of the Mr200 module for the user program and visualization How it works The Mr200 block prepares the process data received from driver blocks and makes the data available for further use in the user program and for visualization.
Page 714 MultiRanger 200 16.1 MR200 Note The user text libraries "Mr200_MeasVal", "Mr200_Relay" and "Mr200_DIFunction" must be copied from the Sitrans Library to the PCS 7 project prior to the OS compilation. To do this, open the SITRANS Library from the Simatic Manager using File -> Open... -> Libraries. Copy the "Mr200_MeasVal", "Mr200_Relay"...
Page 715 MultiRanger 200 16.1 MR200 Status bit Parameter Auxiliary value 1 visible Auxiliary value 2 visible Status word allocation for Status2 parameter You can find a description for each parameter in section I/Os of Mr200 (Page 732). Status bit Parameter MsgLock.Value PV1AH_Act.Value PV1WH_Act.Value PV1WL_Act.Value...
Page 716 MultiRanger 200 16.1 MR200 Status word allocation for Status3 parameter You can find a description for each parameter in section I/Os of Mr200 (Page 732). Status bit Parameter PV2AH_En PV2WH_En PV2WL_En PV2AL_En PV2AH_MsgEn PV2WH_MsgEn PV2WL_MsgEn PV2AL_MsgEn PV2AH_Act.Value PV2WH_Act.Value PV2WL_Act.Value PV2AL_Act.Value PV3AH_En PV3WH_En PV3WL_En...
Page 717 MultiRanger 200 16.1 MR200 Status bit Parameter PV1 High alarm is configured with Relay PV1 High warning is configured with Relay PV1 Low warning is configured with Relay PV1 Low warning is configured with Relay PV2 High alarm is configured with Relay PV2 High warning is configured with Relay PV2 Low warning is configured with Relay PV2 Low alarm is configured with Relay...
Page 718: Operating Modes Of Mr200
MultiRanger 200 16.1 MR200 Status bit Parameter GradHUpEn_PV3 GradHDnEn_PV3 GradLEn_PV3 GradHUpMsgEn_PV3 GradHDnMsgEn_PV3 GradLMsgEn_PV3 0 = falling measured value of PV3 1 = rising measured value of PV3 29 - 31 Not used 16.1.2 Operating modes of Mr200 The block can be operated using the following modes: ●...
Page 719 "Write configuration data". Description PLC parameter(s) Slot Read/ Index Write Manufacturer ID (QWronDev = FALSE if Manufacturer ID = Siemens Mill‐ tronics) Operation point 1 (Sensor Mode) PV1Meas Operation point 2 (Sensor Mode) PV2Meas Operation point 3 (Sensor Mode) PV3Meas...
Page 720 MultiRanger 200 16.1 MR200 Note ● PV3Unit is always level unit. ● In case of OCM configuration for ratio metric the units of PV1 and PV2 must be configured in the properties of the parameters PV1Unit and PV2Unit in CFC. The units of Totalizer 1 and Totalizer 2 must be configured in the properties of the parameters Tot1Unit and Tot2Unit.
Page 721 MultiRanger 200 16.1 MR200 Monitoring is always enabled using the input parameters: ● PV1/PV2/PV3AH_En = 1: Monitoring of the high alarm limits ● PV1/PV2/PV3AL_En = 1: Monitoring of the low alarm limits ● PV1/PV2/PV3WH_En = 1: Monitoring of the high warning limits ●...
Page 722 MultiRanger 200 16.1 MR200 Bypass function This block provides the standard function Bypassing signals (Page 13). Selecting a unit of measure This block provides the standard function Selecting a unit of measure (Page 13). The units for process value 1 PV1, process value 2 PV2 and process value 2 PV3 are configured on the device of the Mr200 via PDM and read by operator action in the "Parameters"...
Page 723 MultiRanger 200 16.1 MR200 Feature 1 = Disable switching points if MsgLock = 1 1 = Signal value = 0 (0 active) if limit is violated For more information about the feature bits please refer to the APL online help. Operator authorizations This block provides the standard operating permissions that are described in the APL online help.
Page 724 MultiRanger 200 16.1 MR200 The block has the following permissions for the OS1Perm parameter: Function 1 = Operator can enter InPV1AHOff_Lim 1 = Operator can enter InPV1WHOff_Lim 1 = Operator can enter InPV1WLOff_Lim 1 = Operator can enter InPV1ALOff_Lim 1 = Operator can enter InPV2AHOff_Lim 1 = Operator can enter InPV2WHOff_Lim 1 = Operator can enter InPV2WLOff_Lim 1 = Operator can enter InPV2ALOff_Lim...
Page 725 MultiRanger 200 16.1 MR200 1 = Operator can activate/deactivate message over GradHDnMsgEn_PV1 1 = Operator can activate/deactivate message over GradLMsgEn_PV1 1 = Operator can activate/deactivate message over GradHUpMsgEn_PV2 1 = Operator can activate/deactivate message over GradHDnMsgEn_PV2 1 = Operator can activate/deactivate message over GradLMsgEn_PV2 1 = Operator can activate/deactivate message over GradHUpMsgEn_PV3 1 = Operator can activate/deactivate message over GradHDnMsgEn_PV3 1 = Operator can activate/deactivate message over GradLMsgEn_PV3...
Page 726: Error Handling Of Mr200
MultiRanger 200 16.1 MR200 Opening additional faceplates This block provides the standard "Call further faceplates" function that is described in the APL Online Help. Generating instance-specific messages This block provides the standard "Generate instance-specific messages" function that is described in the APL Online Help. SIMATIC BATCH functionality This block provides the standard "SIMATIC BATCH functionality"...
Page 727: Mr200 Messages
MultiRanger 200 16.1 MR200 16.1.5 Mr200 messages Messaging The following messages can be generated for this block: ● Process control error ● Process messages ● Instance-specific messages Process control error The following control system fault messages can be output: Message in‐ Message ID Message class Event...
Page 728 MultiRanger 200 16.1 MR200 Process messages Message in‐ Message identifier Message class Event stance Alarm - high $$BlockComment$$ PV1: @4Y%t#Mr200_Meas‐ MsgEvId1 SIG1 Val@ - High alarm limit violated Warning - high $$BlockComment$$ PV1: @4Y%t#Mr200_Meas‐ SIG2 Val@ - High warning limit violated Warning - low $$BlockComment$$ PV1: @4Y%t#Mr200_Meas‐...
Page 729 MultiRanger 200 16.1 MR200 The content of the message text library "Mr200_MeasVal" is explained below. Instance-specific messages You can use up to two instance-specific messages with this block. Message in‐ Message ID Message class Event stance PLC Process Control Mes‐ $$BlockComment$$ External message MsgEvId4 SIG8...
Page 730 MultiRanger 200 16.1 MR200 Associated value Block parameter SD_7 SrcR4 SD_8 CtrFctR4 The input parameter PV2Meas contains a number for the physical variable of the process value 1. The parameters SrcR3/4 contain relay source information and CtrFctR3/4 contain the relay control function for Relay 3 and Relay 4. Additional information is available in the "Process Control System PCS 7 - Engineering System"...
Page 731 MultiRanger 200 16.1 MR200 Associated values for message instance MsgEvId5 Associated value Block parameter SD_1 BatchName SD_2 StepNo SD_3 BatchID SD_4 ExtVa504 SD_5 ExtVa505 SD_6 ExtVa506 SD_7 ExtVa507 SD_8 ExtVa508 The associated values 4 ... 8 are allocated to the parameters ExtVa504, ExtVa505, ExtVa506, ExtVa507 and ExtVa508.
Page 732: I/Os Of Mr200
MultiRanger 200 16.1 MR200 Index Text Temperature Cable fault Loss of echo External totalizer active External flow sampler active Pump control fixed duty assist Pump control fixed duty backup Pump control alternate duty assist Pump control alternate duty backup Pump control service ratio duty assist Pump control service ratio duty backup Pump control FiFo active Flush valve active...
Page 733 MultiRanger 200 16.1 MR200 Parameter Description Type Default Measured value that is interconnected at the PV3 BYTE PV3Meas* input: 0: Out of service 4: DPD (dual point difference) 5: DPA (dual point average) Source relay 1 BYTE SrcR1* Source relay 2 BYTE SrcR2* Source relay 3...
Page 734 MultiRanger 200 16.1 MR200 Parameter Description Type Default PV1/PV2 level override value REAL DI1_OverrideVal* PV1/PV2 override value REAL DI2_OverrideVal* PV1 bar display limits for OS STRUCT PV1OpScale* ● High : REAL ● 100.0 ● Low : REAL ● PV2 bar display limits for OS STRUCT PV2OpScale* ●...
Page 735 MultiRanger 200 16.1 MR200 Parameter Description Type Default Measurement unit for process value 2 (PV2) PV2Unit* Measurement unit for process value 3 (PV3) PV3Unit* PV1 measurement unit for high alarm limit (relay) INT PV1AHUnit PV1 measurement unit for high warning limit (re‐ PV1WHUnit lay) PV1 measurement unit for low warning limit (re‐...
Page 736 MultiRanger 200 16.1 MR200 Parameter Description Type Default Limit sensor PV1: REAL PV1WH_DG* Delay time for outgoing warning messages with overrange process value [s] Limit sensor PV1: REAL PV1A_DC* Delay time for incoming alarms with overrange/ underrange process value or only with under‐ range process value [s] Limit sensor PV1: REAL...
Page 737 MultiRanger 200 16.1 MR200 Parameter Description Type Default Limit sensor PV2: REAL PV2WH_DC* Delay time for incoming warning messages with overrange process value [s] Limit sensor PV2: REAL PV2WH_DG* Delay time for outgoing warning messages with overrange process value [s] Limit sensor PV2: REAL PV2A_DC*...
Page 738 MultiRanger 200 16.1 MR200 Parameter Description Type Default Limit sensor PV3: REAL PV3AH_DG* Delay time for outgoing alarms with overrange process value [s] Limit sensor PV3: REAL PV3WH_DC* Delay time for incoming warning messages with overrange process value [s] Limit sensor PV3: REAL PV3WH_DG* Delay time for outgoing warning messages with...
Page 739 MultiRanger 200 16.1 MR200 Parameter Description Type Default Gradient monitoring: Limit (high) for the positive REAL 10.0 GradHUpLim_PV2 gradient of PV2 Gradient monitoring: Limit (high) for the negative REAL 10.0 GradHDnLim_PV2 gradient of PV2 Gradient monitoring: Limit (low) for the absolute REAL GradLLim_PV2 gradient of PV2...
Page 740 MultiRanger 200 16.1 MR200 Parameter Description Type Default 1 = Reset bypass PV (via interconnection) STRUCT RstBypLi ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 Substitution value (PV1) if block is in bypass STRUCT BypPV1 ● Value : REAL ●...
Page 741 MultiRanger 200 16.1 MR200 Parameter Description Type Default 1 = Enable allocation BOOL BatchEn Batch ID DWORD 16#00000000 BatchID Batch name S7-String BatchName Batch step number DWORD 16#00000000 StepNo 1 = Occupied by batch control BOOL Occupied 1 = External error (control system fault) STRUCT ●...
Page 742 MultiRanger 200 16.1 MR200 Parameter Description Type Default I/O for operating permissions STRUCT OS2Perm ● Bit 0 : BOOL ● 1 … … ● Bit31: BOOL ● 1 Input parameter for local operator authorization, DWORD 16#00000000 OpSt_In to be interconnected with the Out output param‐ eter of the upstream OpStations block I/O for additional functions STRUCT...
Page 743 MultiRanger 200 16.1 MR200 In/out parameters Parameter Description Type Default Cyclic data from driver block FbMr200 (intercon‐ STRUCT CyclData nect this input with CyclData output of FbMr200) ● PV1:REAL ● ….. ● DigitalInputs ● RelayOutputs ● mA_Input ● Totalizer2:DINT ● Totalizer2:DINT Acyclic data from driver block PiDr64 (intercon‐...
Page 744 MultiRanger 200 16.1 MR200 Parameter Description Type Default Totalizer 1 DINT Tot1Out Totalizer 2 DINT Tot2Out Totalizer 1 value with status STRUCT Tot1 ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Totalizer 2 value with status STRUCT Tot2 ●...
Page 745 MultiRanger 200 16.1 MR200 Parameter Description Type Default PV2 empty time calculated with current gradient STRUCT TimeEmptyS__ value [s] ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 PV fill time calculated with current gradient value [s] STRUCT TimeFill_PV1 ●...
Page 746 MultiRanger 200 16.1 MR200 Parameter Description Type Default Gradient value for PV3, max. peak value STRUCT PV3GradPP ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Gradient value for PV3, min. peak value STRUCT PV3GradNP ● Value : REAL ●...
Page 747 MultiRanger 200 16.1 MR200 Parameter Description Type Default Limit sensor PV2: STRUCT PV2AL_Act 1 = Alarm (low) active. ● Value : BOOL ● 0 You can change the response for this parameter by ● ST: BYTE ● 16#80 setting Feature bit 28 (deactivate switching points) and Feature bit 29 (signal limit violation) according‐...
Page 748 MultiRanger 200 16.1 MR200 Parameter Description Type Default 1 = Gradient alarm (high) for positive changes. STRUCT GradHUpAct_PV2 You can change the response for this parameter by ● Value : BOOL ● 0 setting Feature bit 28 (deactivate switching points) ●...
Page 749 MultiRanger 200 16.1 MR200 Parameter Description Type Default Value of the input parameter OpSt_In, for further DWORD 16#00000000 OpSt_Out interconnection with other blocks. Bit 31 of this pa‐ rameter is used by feature bit 24 Worst signal status BYTE 16#80 ST_Worst Status word 1 DWORD...
Page 750 MultiRanger 200 16.1 MR200 Parameter Description Type Default Alarm status 5 (output ERROR of first ALARM_8P) WORD 16#0000 MsgStat5 Alarm acknowledgment status 5 (STATUS output WORD 16#0000 MsgAckn5 of first ALARM_8P) Alarm limit (high) PV1 STRUCT PV1AH_Lim ● Value : REAL ●...
Page 751 MultiRanger 200 16.1 MR200 Parameter Description Type Default Warning limit (low) PV2 STRUCT PV2WL_Lim ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Alarm limit (low) PV2 STRUCT PV2AL_Lim ● Value : REAL ● 0.0 ● ST: BYTE ●...
Page 752: Block Diagram Of Mr200
MultiRanger 200 16.1 MR200 Parameter Description Type Default PV3 low warning limit relay setpoint Off STRUCT PV3WLOff_Lim ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 PV3 low alarm limit relay setpoint Off STRUCT PV3ALOff_Lim ● Value : REAL ●...
Page 753: Standard View Of Mr200
MultiRanger 200 16.1 MR200 ● Memo view (Page 35) ● Batch view (Page 33) For general information on the faceplate and block icon, refer to the sections "Faceplate structure" and "Block icon structure" in the APL online help. 16.1.9.2 Standard view of Mr200 Depending on the configuration of the PV1, PV2 and PV3, the current process values for volume, level, space, distance, flow, difference (DPD) and average (DPA) are displayed.
Page 754 MultiRanger 200 16.1 MR200 (1) Display and switchover of operating mode This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see the APL Online Help) For more information on changing the operating mode, refer to the "Switching operating states and operating modes"...
Page 755 MultiRanger 200 16.1 MR200 (8) Display of type of tank and level This display shows you the configured type of tank for PV1 and PV2. The type of tank is specified by the parameters "TankType1" and "TankType2". (9) Bar graph for the "Process values" (PV1 and PV2) This area shows the current "Process values"...
Page 756 MultiRanger 200 16.1 MR200 Second standard view (1) and (2) High and low scale range for the gradient value These values provide information on the display range for the bar graph of the gradient. The scale range corresponds to 10 % of the scale range for the process value (PV1, PV2 and PV3). If you have entered a scale range for the process value of 0 to 100, for example, the scale range for the gradient is automatically defined as -10 to 10.
Page 757 MultiRanger 200 16.1 MR200 The current gradient value is displayed if one of the monitoring functions is enabled: ● Gradient monitoring for positive changes (GradHUpEn_PVx = 1) ● Gradient monitoring for negative changes (GradHDnEn_PVx = 1) ● Gradient monitoring (GradLEn_PVx = 1) (3) Display of gradient This area shows the current, minimum and maximum gradient values of the process value (PV1, PV2 and PV3) as well as rising and falling of the value.
Page 758: Limit View Of Mr200
MultiRanger 200 16.1 MR200 The gradient monitoring is displayed when the gradient value is PV1Grad ≠ 0. 16.1.9.3 Limit view of Mr200 The limits of the process value (PV1 , PV2 and PV3) and the limits for the gradient monitoring can be specified in the three limit views.
Page 759 MultiRanger 200 16.1 MR200 Figure 16-2 Limit view Mr200 only relay messages SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 760 MultiRanger 200 16.1 MR200 Figure 16-3 Limit view Mr200 relay and PCS 7 messages (1) Process value (PV1, PV2 and PV3) limits In this area, you can enter the limits for process values (PV1, PV2 and PV3). This device also supports relay "On Setpoint"...
Page 761 MultiRanger 200 16.1 MR200 ● "H warning Off": High warning for relay "Off Setpoint" ● "L warning On ": Low warning for relay "Off Setpoint" ● "L warning Off ": Low warning for relay "Off Setpoint" ● "L alarm On": Low alarm for relay "On Setpoint" ●...
Page 762 MultiRanger 200 16.1 MR200 (8) Relay Alarm limits When a relay is configured as an alarm or warning limit and feature bit 7 = 1, the alarm limits will be displayed as alarm "On Setpoint" and "Off Setpoint". In high alarm: The message is activated when level exceeds the "On Setpoint" and goes off when the level undershots the "Off Setpoint".
Page 763: Parameter View Of Mr200
MultiRanger 200 16.1 MR200 16.1.9.4 Parameter view of Mr200 (1) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ●...
Page 764: Preview Of Mr200
MultiRanger 200 16.1 MR200 (3) Writing the configuration data In this area you can write all configuration data from the block to Mr200. (4) Diagnostics values The diagnostics values for process temperature, noise average and echo strength of the Mr200 are displayed in this area. (5) Reading the diagnostics values In this area, you can read the diagnostics values from Mr200.
Page 765: Totalizer View Of Mr200
MultiRanger 200 16.1 MR200 (1) Process values This area shows the real process values (PV1, PV2, PV3 and Bypass values) along with their units. (2) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block.
Page 766: Block Icons For Mr200
MultiRanger 200 16.1 MR200 (1) Totalizer values This area shows the totalizer values (Tot1 and Tot2) and their units. Note ● Totalizer visibility is dependent on the configuration of PV1 and PV2. If point 1 or point 2 is configured as OCM then Totalizer1/2 will be visible. If both the Totalizers are invisible then user cannot select the Totalizer view from the view toolbar.
Page 767 MultiRanger 200 16.1 MR200 Icons Selection of the Special features block icon in CFC Block icon in "Out of service" mode (example of block icon type 1) For more information on the block icon and operating options in the block icon, refer to the following sections in the APL online help: ●...
Page 768: Fbmr200
MultiRanger 200 16.2 FbMr200 16.2 FbMr200 16.2.1 Description of FbMr200 Object name (type + number) and family Type + number: FB 2634 Family: Mr200 Area of application for FbMr200 The block is used for the following applications: ● Driver block for cyclic data from MR200 module. How it works The block reads all cyclic data of a Multiranger-200 from the process image in cyclic mode.
Page 769 MultiRanger 200 16.2 FbMr200 Configuration The slots of the MR200 must be configured in HW config as shown in the following figure: Use the CFC editor to install the block in a cyclic interrupt OB (OB30 to OB38). The input AddrPV of the FbMr200 block must be configured with the address of the slot 1 of the Mr200 in the HW configuration.
Page 770: Operating Modes Of Fbmr200
MultiRanger 200 16.2 FbMr200 ● The DataXchg in/out parameter is interconnected to the corresponding DataXchg_xx output parameter of the MOD_XXXX block. ● The MS parameter is interconnected to the O_MS output parameter of the diagnostics driver block. Note If you are not using the CFC function "Generate module drivers", parameterize the addresses of input structure Addr and the Mode in/out parameter manually.
Page 771: Error Handling Of Fbmr200
MultiRanger 200 16.2 FbMr200 Simulating signals The block does not have a function for simulating process values. 16.2.4 Error handling of FbMr200 Error handling of FbMr200 The following errors can be displayed for this block: ● Higher-level error ● Module errors Higher-level error Higher-level errors are indicated by the value 1 at output parameter QRackF if the signal state in the HighWord of input parameter Mode changes to a value other than 16#80, or if...
Page 772 MultiRanger 200 16.2 FbMr200 Parameter Description Type Default External Maintenance state DWORD 16#00 MS_Ext Release for maintenance (interconnec‐ STRUCT MS_Release ted with MS_Release of the visualiza‐ ● Value : BOOL ● 0 tion block) ● ST: BYTE ● 16#80 Maintenance status DWORD 16#00000000 In/out parameters:...
Page 773: Mr200Dia
MultiRanger 200 16.3 Mr200Dia Profi status PV3 ● PV3_ProfiStatus : BYTE ● DigitalInputs Value of digital inputs Value of relay outputs ● RelayOutputs Value of analog input ● mA_Input Totalizer 1 ● Totalizer1 Totalizer 2 ● Totalizer2 END_STRUCT 16.3 Mr200Dia 16.3.1 Description of Mr200Dia Object name (type + number) and family...
Page 774: I/Os Of Mr200Dia
MultiRanger 200 16.3 Mr200Dia Use in CFC The following actions are executed automatically with the "Generate module drivers" CFC function: ● The Mr200Dia block is installed in its runtime group downstream of the OB_DIAG1 block runtime group in the above-mentioned OBs. ●...
Page 775 MultiRanger 200 16.3 Mr200Dia Parameter Description Type Default 1 = DP slave system failure (redundant) BOOL RACK2ERR Quality code of process value BYTE QUALITY Status MODE DWORD OMODE Diagnostic information for maintenance DWORD PA_DIAG SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 776 MultiRanger 200 16.3 Mr200Dia SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 777: Sitrans Lu Hart
SITRANS LU HART 17.1 SitrLuHA 17.1.1 Description of SitrLuHA Object name (type + number) and family Type + number: FB 2641 Family: SitrLuHA Application area of SitrLuHA The block is used for the following applications: ● Interface block between the HART driver blocks of the Sitrans LU for the user program and for visualization.
Page 778 SITRANS LU HART 17.1 SitrLuHA Configuration Use the CFC editor to install the block in a cyclic interrupt OB (OB30 to OB38). The block is also installed automatically in the startup OB (OB 100). Moreover, to connect the I/O signals, it is imperative to call the Pcs7AnIn driver blocks (cyclic data, 4 to 20 mA), FbAnIn (HART variables) and PiDr64 (acyclic data) in the same interrupt OB and startup OB (OB100) before the SitrLuHA block in each case.
Page 779 SITRANS LU HART 17.1 SitrLuHA Status word allocation for Status1 parameter You can find a description for each parameter in section I/Os of SitrLuHA (Page 790). Status bit Parameter Occupied BatchEn SimOn OosAct.Value OosLi.Value Not used OnAct.Value 7 - 9 Not used SimLiOp.Value Message delay PV_AH_Lim...
Page 780: Operating Modes Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA Status bit Parameter PV_WL_MsgEn PV_AL_MsgEn GradHUpAct.Value GradHDnAct.Value GradLAct.Value GradHUpEn GradHDnEn GradLEn GradHUpMsgEn GradHDnMsgEn GradLMsgEn 0 = falling measured value 1 = rising measured value BypassAct.Value Not used MS_RelOp Status word allocation for Status3 parameter You can find a description for each parameter in section I/Os of SitrLuHA (Page 790). Status bit Parameter 1st HART auxiliary variable (PV) is available and visualized in the faceplate...
Page 781: Functions Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA You can find general information about the "On" mode in the On chapter. "Out of service" You can find general information about the "Out of service" mode in the Out of service section. The descriptions of the operating modes are identical for the SitrLuHA and the APL; refer to the online help for the standard APL blocks for information on them.
Page 782 SITRANS LU HART 17.1 SitrLuHA Limit monitoring The block monitors the process value PV_In for limits. The value is cyclically integrated into the process image of the controller. The limits are configured on the block. You can monitor the process value PV_In for the following high and low alarm and warning limits: ●...
Page 783 SITRANS LU HART 17.1 SitrLuHA The slope of the gradient PV_Grad0 can be monitored for the following limits: ● Limit (high) for the positive gradient (GradHUpLim) ● Limit (high) for the negative gradient (GradHDnLim) ● Limit (low) for the absolute gradient (GradLLim) Activation of the individual monitoring functions is carried out at the corresponding "Enable"...
Page 784 SITRANS LU HART 17.1 SitrLuHA Configurable reactions using the Feature I/O The following response features are available for this block at the respective bits of the Feature connection. If a description is not available here, it can be referenced in the APL Online Help.
Page 785 SITRANS LU HART 17.1 SitrLuHA 1 = Operator can change the limit (PV_In) for the low warning Not used 1 = Operator can change the value for the high gradient limit for positive gradients (GradHUpLim) 1 = Operator can change the value for the high gradient limit for negative gradients (GradHDnLim) 1 = Operator can change the value for the low gradient limit for positive and negative gradients (GradLLim)
Page 786: Error Handling Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA The Level, Volume, Distance, Space, Volume Flow, Temperature and Custom PV/SV outputs are simulated in accordance with the module configuration when simulation is carried out via the faceplate. The simulation value of the 4 to 20 mA signal has a higher priority than the value of the first HART auxiliary variable PV.
Page 787: Messages Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA There is no error. The process value can no longer be displayed in the REAL number field: PV_In : Error0Num PV : Error1Num SV : Error2Num Control system fault (CSF) An external signal can be activated via the CSF input. A process control error is triggered if this signal = 1.
Page 788 SITRANS LU HART 17.1 SitrLuHA Process messages Message in‐ Message iden‐ Message class Event stance tifier Alarm - high $$BlockComment$$ @4Y%t#SitrLuHA_MeasVal@ - high MsgEvId1 SIG1 alarm limit violated Warning - high $$BlockComment$$ @4Y%t#SitrLuHA_MeasVal@ - high SIG2 warning limit violated Warning - low $$BlockComment$$ @4Y%t#SitrLuHA_MeasVal@ - low warn‐...
Page 789 SITRANS LU HART 17.1 SitrLuHA Associ‐ Block parameters ated value ExtVa107 ExtVa108 Reserved Reserved The input parameter PV_Meas0 contains a number for the physical variable of the process value. The associated values 5 to 8 are allocated to the ExtVa105 to ExtVa108 parameters, and you can use them.
Page 790: I/Os Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA Text Message text number Custom <Invalid value> 17.1.6 I/Os of SitrLuHA Input parameters Parameter Description Type Default Slot number of the Sitrans LU within the AI module in SlotHart the ET 200M from HW Config Device type of Sitrans LU DevType 5 : Sitrans Probe LU 240...
Page 791 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Limit sensor PV_In: REAL PV_WH_DG* Delay time for outgoing warning messages with over‐ range process value [s] Limit sensor PV_In: REAL PV_A_DC* Delay time for incoming alarms with overrange/under‐ range process value or only with underrange process value [s] Limit sensor PV_In: REAL...
Page 792 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Limit for scale SV STRUCT SV_OpScale ● High: REAL ● 100.0 ● Low: REAL ● 0.0 Unit for process value (4 to 20 mA signal) PV_Unit0* Unit for the first HART variable (primary variable) PV_Unit1* Unit for the second HART variable (secondary varia‐...
Page 793 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Sampling time [s] (assigned automatically) REAL SampleTime 1 = Bypass commands via interconnection STRUCT BypLiOp ● Value : BOOL ● 0 ● ST: BYTE ● 16#80 1 = Select bypass PV (via operator) BOOL BypPVOp 1 = Reset bypass PV (via operator)
Page 794 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Process value for the space that is used for SimOnLi STRUCT SimSpaLi ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Process value for the volume flow that is used STRUCT SimVoFLi for SimOnLi = 1...
Page 795 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Freely assignable bits for use in PCS 7 OS BYTE 16#00 UserStatus 1 = Call of a block stored in this parameter as an ad‐ SelFp1 ditional faceplate in the standard view 1 = Call a block saved in this parameter as additional SelFp2 faceplate in preview...
Page 796 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default 1 = Read diagnostics values from Sitrans LU BOOL RdDiaVal* Measuring range of the 4 to 20 mA signal STRUCT ScaleIn* This input is only used to read back the values to the ●...
Page 797 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Fill time calculated with current gradient value [s] STRUCT TimeFillS ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Empty time calculated with current gradient value STRUCT TimeEmptyS ● Value : REAL ●...
Page 798 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Current volume flow STRUCT Flow ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Current sensor temperature STRUCT Temp ● Value : REAL ● 0.0 ● ST: BYTE ● 16#80 Current custom value PV STRUCT CustomPV...
Page 799 SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Unit for distance DistUnit Unit for space SpaceUnit Unit for temperature TempUnit Unit for flow FlowUnit 1 = Gradient alarm (high) for positive changes. STRUCT GradHUpAct 1 = Alarm (low) active. You can change the re‐ ●...
Page 800: Block Diagram Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA Parameter Description Type Default Output of current error number for SV. For error Error2Num numbers that can be output by this block, see Er‐ ror handling of SitrLuHA (Page 786) 1 = Message error 1 (ERROR output of first BOOL MsgErr1 ALARM_8P)
Page 801: Template Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA 17.1.8 Template of SitrLuHA This process tag type is used to connect a Sitrans LU HART with driver blocks to PCS 7. Note Since the APL driver blocks Or08, SelST16, Pcs7AnIn and FbAnIn are missing in the library for licensing reasons, they must be copied into the library before the Sitrans LU HART template is copied.
Page 802: Standard View Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA ● Trend view (Page 36) ● Parameter view of SitrLuHA (Page 808) ● Preview of SitrLuHA (Page 809) ● Memo view (Page 35) ● Batch view (Page 33) For general information on the faceplate and block icon, refer to the sections "Faceplate structure"...
Page 803 SITRANS LU HART 17.1 SitrLuHA (1) Display and switch the operating mode This area provides information on the currently valid operating mode. The following operating modes can be shown here: ● On (see the APL online help) ● Out of service (see the APL Online Help) For more information on changing the operating mode, refer to the "Switching operating states and operating modes"...
Page 804 SITRANS LU HART 17.1 SitrLuHA The minimum peak gradient value is displayed if the gradient monitoring function for negative changes is enabled (GradHDnEn = 1) (6) Resetting of peak values of the gradient Using these buttons you can reset the maximum or minimum peak value of the gradient (output parameters PV_GradPP0 and PV_GradNP0).
Page 805 SITRANS LU HART 17.1 SitrLuHA (15), (16) and (17) Display area for block states This area provides additional information on the operating state of the block: ● "Maintenance" ● "Simulation" ● "Wrong device" (18) Bar graph for the first "Process value" (4 to 20 mA signal) This area shows the current first "Process value"...
Page 806: Limit View Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA 17.1.9.3 Limit view of SitrLuHA The limits of the 4 to 20 mA signal and the limits for the gradient monitoring of the 4 to 20 mA signal can be specified in this view. The displayed texts depend on the configuration of the limit sensors on the block or in the module.
Page 807 SITRANS LU HART 17.1 SitrLuHA (3) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: Green check mark: ●...
Page 808: Parameter View Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA 17.1.9.4 Parameter view of SitrLuHA (1) Enabled operations This area shows all operations for which special operator authorizations are assigned. They depend on the configuration in the engineering system (ES) that applies to this block. Symbols for enabled operations: ●...
Page 809: Preview Of Sitrluha
SITRANS LU HART 17.1 SitrLuHA (5), (6) and (7) Service You can select the following functions in this area: ● "Bypass" ● "Simulation" ● "Release for maintenance" For more information about this area, refer to the following chapters of the APL Online Help: ●...
Page 810: Block Icons For Sitrluha
SITRANS LU HART 17.1 SitrLuHA Symbols for enabled operations: ● Green check mark: The OS operator can control this parameter ● Gray check mark: the OS operator cannot control this parameter at this time due to the process ● Red cross: The OS operator cannot control this parameter due to the configured AS operating permissions (OS_Perm or OS1Perm) The following enabled operationss are shown here: General enabled operationss:...
Page 811 SITRANS LU HART 17.1 SitrLuHA The block icons from template @TemplateAPL_SITRANS.PDL: Icons Selection of the block icon in Special features Block icon in "Out of service" mode (ex‐ ample of block icon type 1) For more information on the block icon and operating options in the block icon, refer to the following sections in the APL online help: ●...
Page 812 SITRANS LU HART 17.1 SitrLuHA SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 813: Driver Blocks
Driver blocks 18.1 PiDr64/PiDr256 18.1.1 Description of PiDr64/256 Object name (type + number) and family Type + number: FB 2602/FB 2615 Family: AdvLibPI Area of application for PiDr64/256 The block is used for the following applications: ● Exchange of acyclic data (data record length up to 64/256 bytes) from and to a DP slave ●...
Page 814: Operating Modes Of Pidr64/256
Driver blocks 18.1 PiDr64/PiDr256 With redundancy (ET 200 SP HA), connection takes place with the two quality bits: ● The input parameter ProImQB is interconnected with the icon of the quality bit of the master channel. ● The input parameter ProImQBSlv is interconnected with the icon of the quality bit of the slave channel.
Page 815: Error Handling Of Pidr64/256
Driver blocks 18.1 PiDr64/PiDr256 structure AcyclData.Input, while the return value of the RDREC call (SFB52) is set in output variable AcyclData.RetValRd. For information on the meaning of the return value, refer to the Online Help of the RDRECblock. If a temporary error occurs, the block repeats the read job up to five times at delay intervals of one second before the job is closed with a temporary error.
Page 816: Messaging Of Pidr64/256
Driver blocks 18.1 PiDr64/PiDr256 Higher-level error Higher-level errors are indicated by the value 1 at output parameter QRackF if the signal state in the HighWord of input parameter Mode changes to a value other than 16#80 , or if input RackF is set. The diagnostics data for outgoing higher-level errors is read.
Page 817 Driver blocks 18.1 PiDr64/PiDr256 In/out parameters Parameter Description Type Default Mode Value status and measuring type DWORD 16#00000000 Output parameters Parameter Description Type Default QRackF 1 = DP slave failure (rack fault) BOOL SlvAct 1 = Slave channel active (only relevant BOOL with redundancy) AcyclData...
Page 818: Block Diagram Of Pidr64/256
Driver blocks 18.2 PiEl64/PiEl256 … … Para15 : DWORD Diagnostics data END_STRUCT END_STRUCT 18.1.7 Block diagram of PiDr64/256 Block diagram of PiDr64/256 A block diagram is not provided for this block. 18.2 PiEl64/PiEl256 18.2.1 Description of PiEl64/256 Object name (type + number) and family Type + number: FB 2603 / FB 2616 Family: AdvLibPI Area of application for PiEl64/256...
Page 819: Operating Modes Of Piel64/256
Driver blocks 18.2 PiEl64/PiEl256 Note The data records are read by means of acyclic services. Since it is not possible to execute more than 8 acyclic services simultaneously per Profibus segment, you are responsible for preventing the simultaneous start of more than 8 jobs. For this reason, you are strongly advised not to use cyclic read services to read acyclic data.
Page 820: Error Handling Of Piel64/256
Driver blocks 18.2 PiEl64/PiEl256 Reading acyclic values The reading of acyclic values is initiated by a positive edge at input RdReq. Output ReqDetect is set when the block has detected a positive edge. Once the job was transferred to the PiDr64/256 block, output ReqActive will be set to TRUE.
Page 821: I/Os Of Piel64/256
Driver blocks 18.2 PiEl64/PiEl256 18.2.6 I/Os of PiEl64/256 Input parameters Parameter Description Type Default RdReq Read request with positive edge BOOL DataType Data type selection: 1 = data type ’101’ (Simatic: Real with quality code) 2 = data type ’Float’ (Simatic: Real) 3 = data type ’Uns8’...
Page 822: Block Diagram Of Piel64/256
Driver blocks 18.2 PiEl64/PiEl256 Para0 : DWORD Value of input data … … Para15/63 : Value of input data DWORD END_STRUCT Output STRUCT Data to be written to the DP slave Para0 : DWORD Value of output data … … Para15/63 : Value of output data DWORD...
Page 823: Piel256H
Driver blocks 18.3 PiEl256H 18.3 PiEl256H 18.3.1 Description of PiEl256H Object name (type + number) and family Type + number: FB 2618 Family: AdvLibPI Area of application for PiEl256H The block is used for the following applications: ● Reading a parameter of an elementary data type through acyclic data in combination with the driver block PiDr256 from a device connected to the controller via the HART protocol.
Page 824: Operating Modes Of Piel256H
Driver blocks 18.3 PiEl256H The parameters to be read from the module are specified by means of the block inputs. Parameter Meaning Number of the slot (channel) within the AI or AO module to which HART device is SlotHart connected in the HW Config ReqByte0..3 Request bytes that must be transmitted when sending the HART command to the module, if required Number of request bytes sent...
Page 825: Error Handling Of Piel256H
Driver blocks 18.3 PiEl256H Reading acyclic values The reading of acyclic values is initiated by a positive edge at input RdReq. Output ReqDetect is set when the block has detected a positive edge. Once the job was transferred to the PiDr64/256 block, output ReqActive will be set to TRUE.
Page 826 Driver blocks 18.3 PiEl256H Parameter Description Type Default NumReqB Number of request bytes sent Number of HART command with which the data record is read RdReq Read request with positive edge BOOL DataType Data type selection: 1 = data type ’101’ (Simatic: Real with quality code) 2 = data type ’Float’...
Page 827: Block Diagram Of Piel256H
Driver blocks 18.3 PiEl256H Output STRUCT Data to be written to the DP slave Para0 : DWORD Value of output data … … Para63 : DWORD Value of output data END_STRUCT NewDiag : INT Totalizer that indicates new diagnostics data DiagData STRUCT Diagnostics data...
Page 828: Pistar64/Pistar256
Driver blocks 18.4 PiStAr64/PiStAr256 18.4 PiStAr64/PiStAr256 18.4.1 Description of PiStAr64/256 Object name (type + number) and family Type + number: FB 2604/ FB 2617 Family: AdvLibPI Area of application for PiStAr64/256 The block is used for the following applications: ● Reading a parameter of data type String or Array of Byte (OctStr) by means of acyclic data in combination with PiDr64/256 driver block.
Page 829: Operating Modes Of Pistar64/256
Driver blocks 18.4 PiStAr64/PiStAr256 The parameters to be read from the module are specified by means of the block inputs. Parameter Meaning Specification of the data type of the parameter to be read and the output at which the DataType parameter is made available: ●...
Page 830: Error Handling Of Pistar64/256
Driver blocks 18.4 PiStAr64/PiStAr256 Reading acyclic values The reading of acyclic values is initiated by a positive edge at input RdReq. Output ReqDetect is set when the block has detected a positive edge. Once the job was transferred to the PiDr64/256 block, output ReqActive will be set to TRUE.
Page 831 Driver blocks 18.4 PiStAr64/PiStAr256 Parameter Description Type Default SlotNo Number of the slot in HW Config, which is assigned the data record AbsInd Absolute Index (= number) of the data record LenDr Length in bytes of the data record StrLen Total length of the string or array of bytes, including the bytes for maximum and current length...
Page 832: Block Diagram Of Pistar64/256
Driver blocks 18.5 PiSA256H END_STRUCT NewDiag : INT Totalizer that indicates new diagnostics data DiagData STRUCT Diagnostics data Para0 : DWORD Diagnostics data … … Para15 : DWORD Diagnostics data END_STRUCT END_STRUCT Output parameters Parameter Description Type Default QParf 1 = Parameter assignment error BOOL ReqDetect Read job detected...
Page 833 Driver blocks 18.5 PiSA256H Application area of PiSA256H The block is used for the following applications: ● Reading a parameter of data type String or Array of Byte (OctStr) through acyclic data in combination with the driver block PiDr256 from a device connected to the controller via the HART protocol.
Page 834: Operating Modes Of Pisa256H
Driver blocks 18.5 PiSA256H Total length of the string to be read StrLen Start address of the string in the read data record, e.g. as of byte 12 Offset Total length of the string to be read: Note For string with a length of 16 bytes and Simatic format, for example, you must parameterize 18 bytes accordingly because bytes 0 and 1 also contain the maximum and current length of the string.
Page 835: Pisa256H Messaging
Driver blocks 18.5 PiSA256H Parameter assignment error A parameter assignment error is given at the following conditions: ● Data record length (LenUsrDat + 12 Byte header) is greater than 256 bytes ● No data type or invalid data type selected (input DataType is less than 1 or greater than 2) ●...
Page 836 Driver blocks 18.5 PiSA256H Parameter Description Type Default StrLen Total length of the string or array of bytes, including the bytes for maximum and current length Offset Start address of the parameter in the read data record, e.g. as of byte 12 In/out parameters Parameter Description...
Page 837: Block Diagram Of Pisa256H
Driver blocks 18.5 PiSA256H END_STRUCT END_STRUCT Output parameters Parameter Description Type Default QParf 1 = Parameter assignment error BOOL ReqDetect Read job detected BOOL ReqActive Read job is active, which means that it was BOOL transferred to the PiDr256 block RdyOK 1 = Parameter was read without error BOOL...
Page 838 Driver blocks 18.5 PiSA256H SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...
Page 839: Index
Index SitrLRPA, 653 SitrLuHA, 788 0-1 edge transition, 54 Batch view, 33 Block diagram FbFC43PA, 639 Activating limit monitoring FbMag6T, 146 Lut400, 153 FC43PADr, 629 Mag6T, 74 FC43PATi, 632 Area of application Lut400, 173 FbFC43PA, 633 Mag6T, 111 FbMag6T, 140 Mr200, 752 FbMr200, 768 PiDr64/256, 818...
Page 840 Index Bypassing signals, 13 Configuration notes PLut400, 182 Control system fault SitransP, 375 SitransT, 331 Called blocks Customer-specific units, 14 PLut400, 183 PMag6T, 130 PSipPS2, 252 Calling OBs PLut400, 182 Displaying auxiliary values Coded unit of measure, 13 Lut400, 157 Configuration Mag6T, 78 FbFC43PA, 633...
Page 841 Index Object name, 627 Operating modes, 628 Startup characteristics, 628 FC43PATi FbFC43PA Area of application, 629 Area of application, 633 Block diagram, 632 Configuration, 633 How it works, 630 Error handling, 635 I/Os, 630 Functions, 634 Object name, 629 Higher-level error, 635 Startup characteristics, 630 How it works, 633 Feature, 49...
Page 842 Index FbMag6T, 142 SipPS2PA, 285 PiDr64/256, 816 SitransP, 379 High-level error SitransT, 332 FbMr200, 771 SitraPDr, 413 How it works SitrFC43, 481 FbFC43PA, 633 SitrLRPA, 654, 690 FbMag6T, 140 SitrLuPA, 790 FbMr200, 768 SitrP_PA, 431 FC43PADr, 627 Instance-specific messages FC43PATi, 630 Lut400, 159 Lut400, 147 Mag6T, 87...
Page 843 Index SitrLuHA, 806 Object name, 65 SitrP_PA, 450 Operating modes, 70 Local mode, 52, 59 Operator authorizations, 76 Lut400 Overview of error numbers, 84 Activating limit monitoring, 153 Preview, 121 Area of application, 147 Process control error, 86 Associated values, 160 Process messages, 87 Block diagram, 173 Result of the limit monitoring, 73...
Page 844 Index Mr200, 726, 732 SitrLRHA, 677 Associated values, 729 SitrLRPA, 641 Block diagram, 752 SitrLuHA, 777 Configuration data, 718 SitrP_PA, 419 Displaying auxiliary values, 725 Operating modes Error handling, 726 FbFC43PA, 634 Instance-specific messages, 729 FbMag6T, 141 Limit monitoring, 720 FC43PADr, 628 Messaging, 727 Lut400, 150...
Page 845 Index PiEl64/256 Area of application, 818 Block diagram, 822 Configuration, 819 Parameter assignment error Error handling, 820 PiEl256H, 825 Functions, 819 PiEl64/256, 820 How it works, 818 PiSA256H, 835 I/Os, 821 PiStAr64/256, 830 Messaging, 820 Parameter view Object name, 818 Lut400, 179 Operating modes, 819 Mag6T, 119...
Page 846 Index Configuration, 129 Configuration, 535 Function, 129 How it works, 534 I/Os, 130 I/Os, 535 Messaging, 130 Object name, 534 Startup characteristics, 130 Operating modes, 535 Process control error, 726 Startup characteristics, 535 Lut400, 158, 159 SiFC43PA Mag6T, 86 Area of application, 543 Mr200, 727 Associated values, 563 SiFC43PA, 561...
Page 847 Index SipPS2 HA Process control error, 282 Neutral position, 204 Process messages, 283 SipPS2HA Selecting a unit of measure, 274 Area of application, 191 Specifying control valve positions, 271 Associated values, 214 Startup characteristics, 262 Configuration, 191 Static monitoring, 273 Configuration data, 198 Status word allocation, 262 Dynamic monitoring, 203...
Page 848 Index Overview of error numbers, 330 Functions, 681 Preview, 356 How it works, 677 Process control error, 330 Instance-specific messages, 688 Process messages, 331 Limit monitoring, 681 Simulating signals, 328 Messaging, 687 Slave pointer view, 358 Object name, 677 Startup characteristics, 322 Operating modes, 680 Status word allocation, 322 Overview of error numbers, 686...
Page 849 Index Operating modes, 780 Lut400, 148 Overview of error numbers, 786 Mag6T, 66 Preview, 809 PiDr64/256, 814 Process control error, 787 PiEl256H, 824 Process messages, 788 PiEl64/256, 819 Simulating signals, 785 PiSA256H, 834 Startup characteristics, 778 PiStAr64/256, 829 Status word allocation, 779 PLut400, 183 SitrLuPA PMag6T, 130...
Page 850 Index SITRANS Library for PCS 7 Function Manual, 05/2019, A5E35351976-11...