AD_IFC300_Profibus_PA_V0200_en.pdf

9 © KROHNE 07/2007 4000066801

KROHNE Messtechnik GmbH & Co. KG · Ludwig-Krohne-Str. 5 D-47058 Duisburg Tel.: 0203-301 0 Fax: 0203-301 389 · e-mail: [email protected]

Supplementary Installation and Operating Instructions

IFC300 PROFIBUS with MBP Physical Interface and PA Profile 3.0 (“Profibus PA Device”)

Supplementary Installation and Operating Instructions (IFC300 PROFIBUS MBP Interface with PA Profile 3.0)

KROHNE Messtechnik GmbH & Co. KG · Ludwig-Krohne-Str. 5 D-47058 Duisburg 2/24 Tel.: 0203-301 0 Fax: 0203-301 389 · e-mail: [email protected]

CONTENTS:

1 GENERAL 3

2 ITEMS INCLUDED WITH SUPPLY 3

3 SOFTWARE HISTORY 3

4 PROFIBUS-PA DEVICE WITH MBP INTERFACE 3 4.1 PROFILES 4 4.2 GSD FILES 4 4.2.1 Manufacturer specific GSD file: KR024501.GSD 5 4.2.2 Manufacturer specific GSD file: YP024501.GSD 6 4.2.3 Manufacturer specific GSD files “KROHF401.GSD”/“YP01F401.GSD” of an “IFC090PA” 6 4.2.4 Profile specific GSD file: PA139740. GSD 8 4.3 CYCLIC DATA EXCHANGE 8 4.4 DATA STRUCTURE OF FUNCTION BLOCK OUTPUT VALUES 8 4.4.1 Float Value 8 4.4.2 Status Value 8 4.5 DIAGNOSIS 9

5 ELECTRICAL CONNECTION 10 5.1 PROFIBUS-PA CONNECTION 10

6 MENU SETTINGS 11 6.1 USING THE DISPLAY MENU TO DISTINGUISH THE CURRENT REVISION OF THE DEVICE 18

7 TECHNICAL DATA 19

8 DEVICE DESCRIPTION FOR THE SIMATIC PROCESS DEVICE MANAGER (PDM) 19 8.1 INSTALLATION 19 8.2 OPERATING 19

9 ATTACHMNET A 19



1 General These Instructions are supplementary to the “IFC 300 (OPTIFLUX) Handbook”. The details given there, in particular the Safety Information are valid and should be adhered to. These Supplementary Instructions provide only additional information for device operation and connection to a PROFIBUS fieldbus.

2 Items included with supply In addition to the standard scope of supply, these Supplementary Instructions for the IFC300 PROFIBUS MBP Interface will be included.

3 Software history

Issued Signal Converter User Program Configuration Tool (Add-On)

Month/ Year

Hardware Firmware Hardware Software GSD

Model name adopted in the GSD

GSD

File name in the GSD compilation*:

01/06 IFC300 PROFIBUS MBP Interface with PA Profile 3.0

V2.0.0 / 060112 V2.0.0 / 060126

PC DTM > --/--

Device Description (Ident No & Dev.Rev. & DDRev.): 4501030002 PDM ≥ 6.0

“IFC300 (MBP) Rev. 2” ”YP0 IFC300 (MBP) Rev. 2”

“Flow with 1 AI, 1 TOT (PhyL 1)”

KR024501.GSD YP024501.GSD PA139740.GSD

* -> see detailed description depicted below (Chapter 4.4 GSD Files)

4 PROFIBUS-PA Device with MBP Interface (MBP == Manchester Coded Bus Powered)



The diagram above depicts a typical network configuration with PROFIBUS-PA devices with MBP interface in hazardous and non-hazardous environment. As a rule, the PROFIBUS-PA segment is connected to a coupler which, among other things, provides the conversion to the PROFIBUS-DP bus line. It should be mentioned that the segment coupler is normally set to a fixed baud rate on the DP side. Additional information on the configuration and operation of PROFIBUS-PA networks is to be found in the KROHNE brochure “Fundamentals PROFIBUS” which can be downloaded from the KROHNE homepage http://www.krohne.com ( following the path: Service -> Download Center -> select “Brochures and Catalogues” -> choose “Fundamentals PROFIBUS”) or contact “KROHNE Marketing”. 4.1 Profiles The IFC300 PROFIBUS MBP interface supports the PROFIBUS-PA Profile Version 3.0. Additionally, all relevant parameters of the device are accessible via the PROFIBUS interface.

The IFC300 PROFIBUS MBP interface with PA Profile 3.0 supports the following blocks:

• One physical block. This block contains the parameters defined in PA Profile 3.0.

• One transducer block for electromagnetic flow devices. This block provides the parameters and functions defined in PA Profile 3.0.

• Five “Analog Input (AI)” function blocks: by default “Volume Flow”, “Mass Flow”, “Speed Flow”, “Coil Temperature” and “Conductivity”.

• Three “Totalizer (TOT)” function blocks: by default the first two totalizers will integrate “Volume” and third one will integrate “Mass”.

4.2 GSD Files A “PROFIBUS GSD ZIP” file (e.g. GSD-31777813.zip) including both all KROHNE GSD files and additional data files can be downloaded from the KROHNE homepage http://www.krohne.com ( following the path: Service -> Download Center -> select “Software” -> choose “PROFIBUS GSD”) or contact “KROHNE Marketing”. The GSD file contains information that will be needed for project planning of the PROFIBUS-DP communication network. The relevant data files (e.g. ifc300_n.bmp; ifc300_n.dib) must be loaded into the bus configuration system/master system before start-up of the bus system. The IFC300 PROFIBUS MBP Interface is based on the PROFIBUS-PA Profile V 3.0. The device supports three Ident-Nos.: • Ident-No. “4501hex”: this Ident-No. belongs to the KR024501.GSD / YP024501.GSD and includes the

complete functionality of the electromagnetic flow meter. • Ident-No. “9740hex”: the application of the manufacturer independent Ident-No. “9740hex” (GSD file

“PA139740.GSD”) provides interchangeability of devices, i.e. an exchange of electromagnetic flow meters of different vendors.

• Ident-No. “F401hex”: this Ident-No. supports a compatibility mode concerning the cyclic data transfer

(cyclic measurement values and diagnosis) if the “IFC300 with PROFIBUS MBP Interface” will be used for replacement of an “IFC090PA”. It is not necessary to adapt the PLC configuration. Communication functions are restricted to those functions supported by IFC090 converters. Take care to set the “IFC300 PROFIBUS MBP interface” parameters in a way to get the same behavior as of “IFC090PA” concerning calculation of measuring values and totalizers.

Please follow the instructions in the manual of the host supplier when installing the GSD File you need and the additional files (IFC300_n.bmp and IFC300_n.dib) into the PLC. If separated by the bus configuration system the device entry of the IFC300 PROFIBUS MBP Interface with PA Profile 3.0 will be located within the slave family PROFIBUS-PA.



4.2.1 Manufacturer specific GSD file: KR024501.GSD This GSD file is for use with standard DP/PA segment coupler. KROHNE delivers the GSD files with the entire device functionality which is listed below: Block Number Standard-Configuration

(function block output: value + status) KR024501.GSD Ident-No. 4501

Default unit:

1 Volume Flow AI-FB m3/h 2 Volume Totalizer Totalizer-FB m3 3 Volume Totalizer Totalizer-FB m3 4 Mass Totalizer Totalizer-FB kg 5 Mass Flow AI-FB kg/s 6 Speed Flow AI-FB m/s 7 Coil Temperature AI-FB K 8 Conductivity AI-FB S/m

AI = Analog Input Function Block FB = Function Block There will be two additional output values available by changing the function block channel parameters of the above mentioned “Analog Input Function Blocks”:

X Temperature (electronic temperature)

AI-FB °C

X Supply (the internal supply voltage for the

PROFIBUS Interface)

AI-FB V

X == Block Number 1, 5, 6, 7 or 8 may be used There are separate settings to select the units for local display and PROFIBUS. Modifications of the units of the display will have no effect on the data transferred via PROFIBUS. A master class 2 tool is required to modify the units for PROFIBUS transfer. Important Notes:

During network configuration the user has to define which function block outputs of the “IFC300 PROFIBUS MBP interface” should be transferred cyclically to the master. This is performed by a bus configuration tool (e.g. “HW-Config” for PC-S7 from Siemens). This tool offers the functions described as follows:

1. It is possible to configure an “Empty” block (the code of an “Empty” block is defined as 0x00) on each block number. This implies that no data are transmitted in the cyclic data telegram for this block.

2. There is NO “Totalizer (TOT)” function block allowed on block position 1, 5, 6, 7 and 8! On these positions, only an “Analog Input (AI)” function block or an “Empty” block is allowed!

Note: All codes supported by “Analog Input (AI)” - and “Totalizer (TOT)” – function blocks will be found in the

corresponding GSD files.

3. There is NO “Analog Input (AI)” function block allowed on block position 2, 3 and 4! On these positions , only a “Totalizer (TOT)” function block or an “Empty” block is allowed!

4. There is a choice of 7 different totalizer functions, which can be allocated to the blocks 2, 3 and / or 4. The 7

functions are defined as follows:

“Total” cyclic transfer of the totalizer value with status to the master “SetTot + Total” cyclic transfer of the totalizer value with status to the master + cyclic control data

from master to the device via the parameter SetTot “ModeTot + Total” cyclic transfer of the totalizer value with status to the master + cyclic control data

from master to the device via the parameter ModeTot “SetTot+ModeTot+Total” cyclic transfer of the totalizer value with status to the master + cyclic control data



from master to the device via the parameters SetTot and ModeTot (in the given order)

“SetTot” cyclic control data from master to the device via the parameter SetTot “ModeTot” cyclic control data from master to the device via the parameter ModeTot “SetTot + ModeTot” cyclic control data from master to the device via the parameters SetTot and ModeTot

(in the given order)

Both, the Byte SetTot and ModeTot are cyclically sent from the Master to the device if these bytes are inserted as output data via the PLC configurator. The meaning of these control bytes are as follows: SetTot: SetTot =0: Totalizer is totalizing. SetTot =1: Totalizer will be reset to 0 and stays at 0 until SetTot is switched back again to 0. If the value of

SetTot changes from “1” to “0” the totalizer starts counting from 0. SetTot =2: Totalizer is set to the value defined by PresetTot. PresetTot can be written via a acyclic master

(totalizer in block 2 = Slot 2 Index 32; totalizer in block 3 = Slot 3 Index 32; totalizer in block 4 = Slot 4 Index 32). If the value of SetTot changes from “2” to “0” the totalizer starts counting from the current value defined by PresetTot.

SetTot > 2: not allowed. Value is ignored; totalizer remains in its last valid setting. ModeTot: ModeTot = 0 totalizer totalizes positive and negative values. ModeTot = 1 totalizes only positive values. ModeTot = 2 totalizes only negative values. ModeTot = 3 totalizer is stopped, no totalization will be done. ModeTot = 248 totalizes all values as positive (negative values will be multiplied with “-1.0”) ModeTot = 249 totalizes all values as negative (positive values will be multiplied with “-1.0”) All other values of ModeTot not allowed. Value is ignored; totalizer remains in its last valid setting.

5. The standard block configuration may be changed by the customer but using the default settings is highly recommended. If the standard block configuration should be changed by the customer an acyclic master tool must be used to change the “channel parameter” value of the block which should be connected to another transducer output value.

4.2.2 Manufacturer specific GSD file: YP024501.GSD This GSD file is for use with the transparent DP/PA coupler SK2 of Pepperl&Fuchs (up to 12 MBaud on the DP segment) and supports the same device functionality as listed above (Manufacturer specific GSD file: KR024501.GSD ). Note: This is true for all KROHNE PROFIBUS devices with MBP interface: there are always two types of GSD files in

our GSD compilation: • One standard GSD file for a standard DP/PA segment coupler: file name: “KR….GSD” • One special GSD file specific for the segment coupler SK2 of Pepperl&Fuchs file name: “YP….GSD”

4.2.3 Manufacturer specific GSD files “KROHF401.GSD”/“YP01F401.GSD” of an “IFC090PA”

The “IFC300 PROFIBUS MBP Interface” offers a compatibility mode ensuring operation when being connected to a PLC with software parameters based on the “IFC090PA”. This option is important for those customers who do not want to change the parameters in the PLC software after having replaced the “IFC090PA” by an “IFC300 with PROFIBUS MBP Interface”. In this application, the compatibility mode has to be selected in the service menu of the “IFC300 with PROFIBUS MBP Interface”; some other entries have to be performed in a next.



The overall situation is described using the following example: Consider an “IFC090PA” standard configuration based on IFS…FLUX* flow sensor and “IFC090PA” flow converter. Consider the following two options for replacements (IFS….FLUX* = IFS sensor compliant with “IFC090PA”):

I. the “IFC090PA” flow converter will be replaced by an “IFC300 PROFIBUS MBP Interface” flow converter. The

IFS…FLUX flow sensor is kept

II. In addition to I, also the IFS…FLUX flow sensor will be replaced by an OPTIFLUX flow sensor

For both replacements I and II, there are 2 options how to deal with the GSDs. In order to provide communication between “IFC300 with PROFIBUS MBP Interface” and the PLC, you may - in principle – use the GSD of the “IFC090PA” (”KROHF401.GSD” or ” YP01F401.GSD”) and –alternatively - the GSD of the “IFC300 with PROFIBUS MBP Interface” (“KR024501.GSD” or “YP024501.GSD”). However, both GSDs, when applied, do not provide the same level of functionality in the PLC. The available PROFIBUS functionality of the “IFC300 with PROFIBUS MBP Interface” in the PLC as function of installed flow sensor and GSD used for integration into the PLC is as follows:

Integration

into the PLC via

Installed Sensor

“IFC090PA” GSD

(KROHF401.GSD)

“IFC300 with PROFIBUS MBP Interface” GSD

(KR024501.GSD)

IFS…FLUX flow sensor (Option I)

“IFC090PA” profile 2 functionality “IFC300 with PROFIBUS MBP Interface” functionality (Some “IFC300 with PROFIBUS MBP Interface” self-test functions not available)

OPTIFLUX flow sensor (Option II)

“IFC090PA” profile 2 functionality “IFC300 with PROFIBUS MBP Interface” functionality

How to deal with the PA parameter set in the PLC Ctrl Software:

The “IFC090PA” Parameter Set for the PLC Ctrl Software can be used as existing in the PLC

The “IFC090PA” Parameter Set for the Ctrl. Software has to be adapted with reference to the interface of “IFC300 with PROFIBUS MBP Interface”

• If the GSD of the “IFC090PA” (”KROHF401.GSD” or ” YP01F401.GSD”) is used….

- The “IFC090PA” parameter set for the PLC control software will be maintained, i.e. there is no adaptation

needed with reference to the replaced interface of the “IFC300 with PROFIBUS MBP Interface”.

- In this usage of the GSD the PA Profile 2.0 functionality is provided in the PLC for both replacements, i.e. it is

not possible to reset the PA totalizer via the PLC.

• If the GSD of “IFC300 with PROFIBUS MBP Interface” (KR024501.GSD or YP024501.GSD) is used….

- The “IFC090PA” Parameter set for the PLC control software has to be adapted with reference to the

IFC300 PROFIBUS MPB interface.

- In this usage of the GSD the PA Profile 3.0 functionality is provided and all diagnostic features of the “IFC300

with PROFIBUS MBP Interface” are being made available.

Options for Sensor Installation:

- Option I: IFS…FLUX - Option II: OPTIFLUX

“IFC300 PROFIBUS MBP Interface” converter

Device Software

PROFIBUS PA Software

PLC The PROFIBUS PA parameter set in the Ctrl Software of the PLC a) does not need to be changed b) has to be changed

Integration into the PLC via a) “IFC090PA” GSD or b) “IFC300 (MBP)” GSD



4.2.4 Profile specific GSD file: PA139740. GSD The functionality of the profile specific GSD file is limited. This GSD file includes only two blocks: Volume Flow and Volume Totalizer. Block Number Standard-Configuration

(function block output value) PA139740. GSD Ident-No. 9740

Default unit:

1 Volume Flow AI-FB m3/h 2 Volume Totalizer Totalizer-FB m3

The device has to be switched from “full functionality” to “interchangeable basic configuration” by using a master class 2 tool (IDENT_NUMBER_SELECTOR: Slot 0, Index 40 change byte value to 0). In the next step, the device has to be configured using the PA139740.GSD file. 4.3 Cyclic data exchange During network configuration the user has to define which function block outputs of the IFC300 PROFIBUS MBP Interface should be transferred cyclically to the master. Network configuration will be done using one of the GSD files described above. The order of transmission of the function blocks always remains the same even if a function block is defined as an “Empty” block (if so no function block output data will be send to the master and all function block outputs following the “Empty” block will move up one position). 4.4 Data Structure of Function Block Output Values The data structure of function block outputs consists of 5 bytes: a 4 byte float value (Float Format according IEEE Standard 754 Short Real Number) followed by a 1 byte status value. If all 8 function block outputs have been configured (see above), 40 byte will be transmitted. 4.4.1 Float Value First an example of the float format:

Byte n Byte n+1 Byte n+2 Byte n+3 Bit7 Bit6 Bit7 Bit6 Bit7 Bit7VZ 27 26 25 24 23 22 21 20 2-1 2-2 2-3 2-4 2-5 2-6 2-7 2-8 2-9 2-10 2-11 2-12 2-13 2-14 2-15 2-16 2-17 2-18 2-19 2-20 2-21 2-22 2-23

Exponent Mantisse Mantisse Mantisse

Example: 40 F0 00 00 (hex) = 0100 0000 1111 0000 0000 0000 0000 0000 (binary) Formula: Value = (-1)VZ * 2 (Exponent - 127) * (1 + Mantisse) Value = (-1)0 * 2 (129 - 127) * (1 + 2-1 + 2-2 + 2-3) Value = 1 * 4 * (1 + 0,5 + 0,25 + 0,125) Value = 7,5 4.4.2 Status Value You will find the meaning of the status byte (unsigned integer) by looking at the tables down below:

Quality Quality-Substatus Limits Gr Gr QS QS QS QS Qu Qu 27 26 25 24 23 22 21 20 0 0 = bad 0 1 = uncertain 1 0 = good (Non Cascade) 1 1 = good (Cascade) - not supported



Status = bad 0 0 0 0 0 0 = non-specific 0 0 0 0 0 1 = configuration error 0 0 0 0 1 0 = not connected 0 0 0 0 1 1 = device failure 0 0 0 1 0 0 = sensor failure 0 0 0 1 0 1 = no communication (last usable value) 0 0 0 1 1 0 = no communication (no usable value) 0 0 0 1 1 1 = out of service

Status = uncertain

0 1 0 0 0 0 = non-specific 0 1 0 0 0 1 = last usable value 0 1 0 0 1 0 = substitute-set 0 1 0 0 1 1 = initial value 0 1 0 1 0 0 = sensor conversion not accurate 0 1 0 1 0 1 = engineering unit violation (unit not in the valid set) 0 1 0 1 1 0 = sub-normal 0 1 0 1 1 1 = configuration error 0 1 1 0 0 0 = simulated value 0 1 1 0 0 1 = sensor calibration

Status = good (Non-Cascade)

1 0 0 0 0 0 = ok 1 0 0 0 0 1 = update event 1 0 0 0 1 0 = active advisory alarm (priority < 8) 1 0 0 0 1 1 = active critical alarm (priority > 8) 1 0 0 1 0 0 = unacknowledged update event 1 0 0 1 0 1 = unacknowledged advisory alarm 1 0 0 1 1 0 = unacknowledged critical alarm 1 0 1 0 0 0 = initiate fail safe 1 0 1 0 0 1 = maintenance required

Status = Limits 0 0 = ok 0 1 = low limited 1 0 = high limited 1 1 = constant

Check the first two quality bits in order to get the quality information of the measurement value: Good (non Cascade) function block output value is ok and can be used without restrictions Good (Cascade) will not be supported, because it is not applicable for the device Uncertain function block output value can be used but the accuracy can not be guaranteed (e.g. function

block outputs value has been frozen or A/D converter is saturated or out of range) Bad function block output value is bad - don’t use it for process control! The „Quality-Substatus“- and „Limit“-Bits will be used for further diagnostics or limit checking. Attention: The status should be watched always because a number will be transmitted even if the status of the

measurement value is bad or uncertain. This is the only way to check the quality of the transmitted measurement values.

4.5 Diagnosis If the device internal diagnostic functions will detect an error some additional information will be sent to the Master (for further information have a look at the UNIT_DIAG_BIT(i) definitions of the corresponding GSD-file)



5 Electrical Connection For a detailed description please check the ”IFC 300 (OPTIFLUX) Handbook”. Refer also to the “PROFIBUS PA User and Installation Guideline Version 2.2 February 2003 ” (PNO Order Number 2.092). 5.1 PROFIBUS-PA connection The next figures explain the wiring options, based on four terminals with the following notations:

Note: The current linkage between the device and the PROFIBUS-PA bus cable is independent of polarity. This

implies the wiring shown below is also possible:

Note: The “IFC300 PROFIBUS MBP interface” will operate only if the additional power supply for the device is

connected / available.



6 Menu Settings (IFC300 PROFIBUS MBP Interface with PA Profile 3.0) For a detailed description please see ”IFC 300 (OPTIFLUX) Handbook”. Some special settings concerning the PROFIBUS features are easily entered via the local display:

A -> QUICK SETUP

A3 -> Reset A3.1 -> Reset Errors this menu function can be used to reset all errors that are not removed

automatically (power fail, counter overflow)

step 1: reset? no: exit the function

yes: resets the errors and exits the function.

Note:

The following reset menus for the counters (totalizer) are only available, if the quick access has been activated in the menu setup > device > quick setup. Each counter (totalizer) can be activated for quick access independently.

A3.2 -> FB2 totalizer (for PROFIBUS Devices) the counter can be reset to zero in this menu

step 1: reset counter? no: exits the function without reset

yes: resets the counter and exits the function







A4 -> Station Address (only for PROFIBUS devices) A4 -> Station Address selects the address of the device at the PROFIBUS DP interface.

Note: The PROFIBUS address can also be changed using the PROFIBUS service “set_slave_add”. The input range is 0...125 according to the PROFIBUS specification. Address 126 is the default address and cannot be set via the PROFIBUS service “set_slave_add” - use menu instead to reset to default address.

B -> TEST

B3 -> Information B3.5 -> PROFIBUS available if there is existing a PROFIBUS interface; displays the

information about the PROFIBUS interface mentioned below:

KROHNE Ident No.

Software Revision of the PROFIBUS software

Date of Production



C -> SETUP C3 -> I/O counter

Using the menu functions mentioned below you will be able to control basically the three counters of this PROFIBUS device (IFC300 with RS-485 and PROFIBUS-PA Profile 3.0). These three menus are identical so they are grouped together and their functions are described simultaneously as follows.

C3.1 -> FB2 totalizer C3.2 -> FB3 totalizer C3.3 -> FB4 totalizer

C3.#. 1 -> function of totalizer (function select of this totalizer)

sum counter: totalizes positive and negative values + counter: totalizes only positive values - counter: totalizes only negative values hold counter: totalizer is stopped, no totalization will be done

all as positive: neg. input values will be multiplied with "-1.0" all as negative: pos. input values will be multiplied with "-1.0" C3.#.2 -> measurement (measurement selection for this totalizer)

volume flow mass flow

C3.#.3 -> preset totalizer (predefines a “threshold” using the High Limit value and the Low Limit

value of the totalizer affected; the “THRESHOLD” bit will be set in the long status information bytes of the PROFIBUS interface if the actual value of the totalizer is outside these limits. This can be also used as a status output choosing the function "preset counter X”

C3.#.4 -> reset totalizer (the current value of the totalizer can be set to zero)

step 1: reset totalizer? no: exits the function without reset yes: resets the totalizer to zero and exits the function; totalizer will restart counting at once

C3.#.5 -> error behavior (defines the behavior of this function block in case of errors)

hold meas. value: totalization is continued based on the last incoming value with good status before the first occurrence of bad status

ignore error: totalization is continued using the input values despite the bad status. The status is ignored

stop totalizer: totalization is stopped during occurrence of bad status of incoming values

C3.#.6 -> information (the serial Number of the circuit board, the software version number and

the production date of the circuit board will be displayed)

Note: if you choose “#” = 1 all settings done will concern FB 2 (Totalizer 1) if you choose “#” = 2 all settings done will concern FB 3 (Totalizer 2) if you choose “#” = 3 all settings done will concern FB 4 (Totalizer 3)



C4 -> I/O PROFIBUS This feature will be available for PROFIBUS devices only. Using the menu functions mentioned below you will be able to control basically the five analogue input blocks of this PROFIBUS device ((IFC300 with RS-485 and PROFIBUS-PA Profile 3.0). These five menus are identical so they are grouped together and their functions are described simultaneously as follows:

C4.1 -> FB1 analog inp. C4.2 -> FB5 analog inp C4.3 -> FB6 analog inp C4.4 -> FB7 analog inp C4.5 -> FB8 analog inp

C4.#. 1 -> measurement (selects the measurement (channel) for the analogue input block for the

PROFIBUS interface) flow speed: volume flow: mass flow: coil temperature: conductivity: temperature: this is the electronic temperature supply: the internal supply voltage for the PROFIBUS

interface

C4.#. 2 -> time constant (time constant for this function block)

C4.#.3 -> error behavior (defines the behavior of this function block in case of errors)

hold value: last valid OUT value stored will be used as OUT value

ignore error: OUT has the wrong calculated value and status Bad as calculated

replace value: the “replacement value” will be used as OUT value

C4.#.4 -> replacement value (available, if the error behavior "replace value" is selected. Defines the value that replaces the measured value at this function block in case of an error)

Note: if you choose “#” = 1 all settings done will concern FB 1 (Analog Inp.1) if you choose “#” = 2 all settings done will concern FB 5 (Analog Inp.2) if you choose “#” = 3 all settings done will concern FB 6 (Analog Inp.3) if you choose “#” = 4 all settings done will concern FB 7 (Analog Inp.4) if you choose “#” = 5 all settings done will concern FB 8 (Analog Inp.5)



C5 -> Device In this menu all functions are grouped that have no effect on the measurement or any output directly.

C5.3 -> 1. meas. page Here are all settings for the first measurement.

C5.3.1 -> function two lines: display shows two lines of measurement on

this page three lines: display shows three lines of measurement on

this page one line: display shows one line of measurement on

this page C5.3.2 -> measurement 1.line flow speed: volume flow: mass flow: coil temperature: conductivity: diagnosis value: C5.3.8 -> measurement 2.line (only available if this line is activated) bargraph: analogue display of the value selected for the

first line flow speed: volume flow: mass flow: coil temperature: conductivity: diagnosis value:

FB2 totalizer: FB3 totalizer: FB4 totalizer: operating hours: C5.3.10 measurement 3.line (only available if this line is activated) flow speed: volume flow: mass flow: coil temperature: conductivity: diagnosis value:

FB2 totalizer: FB3 totalizer: FB4 totalizer: operating hours:



C5.4 -> 2. meas. page

In case of a PROFIBUS device the second measurement page is meant to check the output values of the different function blocks. Only PROFIBUS values can be selected here. The analogue inputs are shown with exactly the value, seen on the PROFIBUS. C5.4.1 -> measurement 1.line FB1 analog inp.: FB2 totalizer 1: FB3 totalizer 2: FB4 totalizer 3: FB5 analog inp.: FB6 analog inp FB7 analog inp.: FB8 analog inp.: C5.4.2 -> format 1.line (fixed number of digits after the decimal point or automatic, where the

number of digits is automatically adjusted to the available space) C5.4.3 -> measurement 2.line FB1 analog inp.: FB2 totalizer 1: FB3 totalizer 2: FB4 totalizer 3: FB5 analog inp.: FB6 analog inp.: FB7 analog inp.: FB8 analog inp.: C5.4.4 -> format 2.line (fixed number of digits after the decimal point or automatic, where the

number of digits is automatically adjusted to the available space) C5.4.5 -> measurement 3.line FB1 analog inp.: FB2 totalizer 1: FB3 totalizer 2: FB4 totalizer 3: FB5 analog inp.: FB6 analog inp.: FB7 analog inp.: FB8 analog inp.: C5.4.6 -> format 3.line (fixed number of digits after the decimal point or automatic, where the

number of digits is automatically adjusted according to the available space)

C5.6 -> special functions

C5.6.1 -> reset errors (this menu function can be used to reset all errors, that are not removed automatically (e.g. power fail))

step 1: reset: no: exit the function yes: resets the errors and exits the function.



C5.6.2 -> save settings (in this menu all settings can be saved in different storage places) step 1: save settings: break (exit the menu without saving) backup 1 (saves the settings in the backup 1

storage place) backup 2 (saves the settings in the backup " storage

place) step 2: go on with copy? (Note: There is no possibility to undo this command!) no: exit function without saving yes: copy the actual settings to the selected storage

place and exits the function.

Note: PROFIBUS interface settings will not be saved. C5.6.3 -> load settings (in this menu all settings can be loaded from different storage places,

where settings have been saved before) step 1: load settings: break (exits the menu without loading) factory settings (loads the settings from the delivery)

backup 1 (loads the settings from the backup 1 storage place)

backup 2 (loads the settings from the backup 2 storage place)

step 2: go on with copy? (Note: There is no possibility to undo this command!)

no: (exit function without saving) yes: (copy the actual settings to the selected storage place and exits the function)

Note: PROFIBUS interface settings will not be loaded.

C5.8 -> physical block

This menu is only available, if a PROFIBUS interface is present.

C5.8.1 -> station address (selects the PROFIBUS station address of the device)

Note: The PROFIBUS address can also be changed using the PROFIBUS service “set_slave_add”. The input range is 0...125 according to the PROFIBUS specification. Address 126 is the default address and cannot be set via the PROFIBUS service “set_slave_add” - use menu instead to reset to default address.

C5.9 -> quick setup

In this menu some settings in the Quick Setup can be activated. In the default configuration the settings in the Quick Setup are activated.

C5.9.1 -> reset counter 1 (the reset can be activated in the Quick Setup to get a quick access of

the function) yes: quick access activated no: quick access not activated C5.9.2 -> reset counter 2 (the reset can be activated in the Quick Setup to get a quick access of

the function) yes: quick access activated no: quick access not activated



C5.9.3 -> reset counter 3 8the reset can be activated in the Quick Setup to get a quick access of the function)

yes: quick access activated no: quick access not activated

D -> SERVICE

This menu is in any case only to be entered by a password. This password can also be entered, when a password for setup or quick setup is asked for. Thus this password can also be used to change forgotten passwords.

D2 -> service parameters In this menu all functions related to different data sets can be found.

D2.1 -> cold start (a reset of the IFC300 can be done here, all actual changes up to this

moment are automatically stored and no undo is possible any more, this function is helpful to reset an F error)

step 1: reset? no: terminates the function yes: performs the reset and leaves the programming

mode D2.1 -> save factory data (copies the actual data into the factory setting, this overwrites the factory

settings done during calibration) step 1: save settings break: exits the menu without saving factory settings: saves the settings as factory

settings step 2: go on with copy? (there is no possibility to undo this command) no: exit menu without saving yes: copy the actual settings to the selected storage

place. D2.9 -> Identification No. (sets a different device modes for the cyclic communication of the

PROFIBUS interface) IFC090: compatibility mode for the IFC300 used for replacing

the IFC090 IFC300: the normal setting (all manufacturer specific

parameters supported) Profile: uses only the profile defined functions - no extras

(profile specific parameters supported only) D2.10 -> PB cold start (initiates a PROFIBUS cold start) reset? no: terminates the function yes: PROFIBUS cold start will be carried out at once; the programming mode is terminated

Note: during a PROFIBUS cold start nearly all

parameter values of the whole device will be set to their default values (the PROFIBUS address will not be changed) without disconnecting an already established connection to a PROFIBUS Master system



6.1 Using the display menu to distinguish the current revision of the device Use the display of the “IFC300 with PROFIBUS MBP Interface” to open the path:

“test\information\Profibus” ( == menu B3.5)

This menu will provide the following information:

KROHNE Ident No. Software Revision of the PROFIBUS software Date of Production



7 Technical Data

Hardware Software

Physical IEC 61158-2; 31,25kbit/s; voltage mode

GSD GSD file can be downloaded from the KROHNE Homepage http://www.krohne.com

Connection independent of polarity Device profile PA Profile compact class B, V3.0

Base current 10,5 mA Address range 0...126; default 126 0 to 125 via “set_slave_add” 0 to 126 via “Local Display” 126 via “FACTORY_RESET = 2712”

FDE yes: separate fault disconnection electronics provided

Local control local display and operator interface at device.

Fault current 6 mA; (fault current = max. continuous current – base current).

SAPs 2 MS1 SAPs - acyclic interface to PLC 3 MS2 SAPs - the number of MS2 ServiceAccess Points is typically

equal to the maximum number of master class 2 tools

Starting current < 12mA

“Ex“ approval EEx ia IIC or EEx ib IIC/IIB, FISCO device (details see “IFC 300 (OPTIFLUX) Handbook”)

Function Blocks 1 PB 1 TB 5 AI 3 TOT

8 Device Description for the SIMATIC Process Device Manager (PDM) 8.1 Installation If the IFC 300 Device Description is not already installed on the PDM System a so called Device Install IFC 300 PROFIBUS-PA PDM is needed (available as download from KROHNE ‘Download Centre’ on the internet or on CD-ROM / floppy disk from KROHNE). For installing the DD on PDM V 5.2 refer to the “PDM Manual” section 11.2:”Device Install / Integrating Devices in SIMATIC PDM with 'Device Install'". For installing the DD on PDM V 6.0 refer to the “PDM Manual” section 13:”Integrating Devices”. Please read also the “readme.txt”, which is also contained in the Device Install. 8.2 Operating Refer to the IFC 300 Menu Tree PDM (Attachment A). Due to PROFIBUS and PDM requirements and conventions the IFC 300 operation differs from operation via local keypad and the following special features should be kept in mind:. • The online help of those parameters which are accessible at the device's display menu contain the function

number as a reference to the menu position. • If the device is operated via its local keypad no write operation can be performed via the PROFIBUS interface at

the same time. • In order to find out whether the setting of the device is still the same as the parameter set stored in PDM

compare the ‘Static Revision No.’ of the respective PROFIBUS Block. (The current Static Revision No. is displayed on the window ‘View / Device Status / <block name>’).



IFC 300 Menu Tree PDMMenu Bar

File Device View Options Help

Communication Path-----------------------------------Load To DeviceLoad To PG/PCUpdate Diagnostic Status-----------------------------------Set Address-----------------------------------

Simulation

-----------------------------------

Reset

-----------------------------------

Parameter Protection

Designations:Opt Optional, dependent on device

implementation / configuration Rd Read-onlyLoc Local PDM, affects only PDM views

FB1: AI-channelFB2: TOT- channelFB3: TOT- channel Opt

FB4: TOT- channel Opt

FB5: AI- channel Opt




Physical Block Opt

Transducer Block Opt

Input Simulation• Simulation Value• Quality• Status• Simulation

<Transfer>

Output Simulation• Target Mode• Output / AI / TOT• Quality• Status• Actual Mode Rd


• <Reset Totalizer>• <Preset Totalizer>• <Start Totalizer>• <Reset Status> Opt

Parameter Protection• Parameter Protection• <Enable Write Prot.> Opt

• <Disable Write Prot.> Opt

• <Disable Service Parameter Protection>

Diagnosis Extension• Simulation• Diag. Ext. Byte 0• ...• Diag. Ext. Byte 5

<Transfer>

GDC Long Status• Simulation• LS0 Long Status• LS0 No. of New Values• ...• LS10 Long Status• LS10 No. of New Values

<Transfer>

Simulation Transducer Block• Simulation• Value• Status• PA Timestamp Seconds• PA Timestamp Fraction• GDC Timestamp• Input Index• Input Control• No. of New Values

<Transfer>

Device• Diagnosis• Diagnosis Extension 1• Diagnosis Extension 2• <Factory Reset>• <Warm Start>• <Reset Address to 126>• <Reset Errors>• <Reset Device Specific> Opt

TotalizerFB2: TOT- channel• <Reset Totalizer>• <Preset Totalizer>• <Start Totalizer>• <Reset Status> Opt


• <Reset Totalizer>• <Preset Totalizer>• <Start Totalizer>• <Reset Status> Opt

2,3

KROHNE IFC300 PA 45000002 (1/5)03.06

9 Attachment A




FB7: AI- channel OptFB4: TOT-channel Opt


Display

-----------------------------------

Y t Diagram

Function Block Outputs

Alarm States

Device StatusCircuit Board Info-----------------------------------ToolbarStatus Bar-----------------------------------Update




Measured Values

volume flow• volume flow• volume flow statusmass flow• mass flow• mass flow status

coil temperature• coil temperature• coil temperature statusconductivity• conductivity• conductivity statusflow speed• flow speed• flow speed status

Y t Diagram• volume flow• mass flow



FB1: AI-channel• Channel• Bargraph Output AI

Output AI• Output Value• Quality• Status

Simulation• Simulation• Actual Mode

FB3: TOT-channel Opt

FB2: TOT-channel• Channel

Output TOT• Output Value• Quality• Status

Overview Opt

• FB1: Output value• ...• FB8: Output value

• Quality...• Quality

• Simulation...• Simulation

• Actual Mode...• Actual Mode

1

electronics temperature• electronics temperature• electronics temp. statussupply voltage• supply voltage• supply voltage status

Lower Limit Alarm

Lower Limit Warning

Upper Limit Warning

Overview Opt

FB1: AI-channelFB2: TOT- channelFB3: TOT- channel Opt






Alarm Summary• Current State Alarm Sum• Unreported St. Al. Sum

Upper Limit Alarm• Unacknowledged Alarms• Status• Cause• Upper Limit Alarm• Alarm Output Value

Overview Opt

• FB1: Current State Alarm Sum• ...• FB8: Current State Alarm Sum

3

KROHNE IFC300 PA 45000002 (2/5)03.06




Display-----------------------------------Y t DiagramFunction Block OutputsAlarm States

Device Status

Circuit Board Info-----------------------------------ToolbarStatus Bar-----------------------------------Update




General

• Tag• Manufacturer• Product Designation• Device Variant• Device Serial Number• Software Revision• Hardware Revision• Installation Date• PROFIBUS Ident No.• Parameter Protection• Diagnosis

Details

• C number• Firmware Ident Number• Station Address• Operating Time• EEPROM Cycles• PROFIBUS Interface

Revision• GDC Interface Revision• Diagnosis Extension 1• Diagnosis Extension 2

Details (Service) Opt

Unm. Diagnosis Opt

• Manufacturer Ident No.Diagnosis

GDC Long Status Opt

• LS0 Long Status• ...• LS10 Long Status

• LS0 No. of New Values• ...• LS10 No. of New Values

IFC 090 Mode Opt

Unm. Diagnosis Opt

• Manufacturer Ident NoDiagnosis

Messages on Device’s Display

• failure (device)• failure (application)• out of specification• check function• information

Block Overview Opt

• PB: Tag• TB: Tag• FB1: Tag• ...• FB8: Tag

• Channel...• Channel

• Static Rev. Counter...

• Static Rev. Counter

• Actual Mode...

• Actual Mode

• Simulation...• Simulation

FB4: AI-channel Opt

FB2: AI-channel

FB1: AI-channel• Tag• Static Revision No.• Simulation• Actual Mode


FB3: TOT-channel• Tag• Static Revision No.• Actual Mode

Transducer Block

Physical Block• Tag• Static Revision No.• Actual Mode

Display / IO1• ident no.• index• hardware id• software version• production date• calibration date• board serial no.

Profibus module• ident no.• index• hardware id• software version• production date• calibration date• board serial no.

1

2

KROHNE IFC300 PA 45000002 (3/5)03.06



Identification

Operation Unit

Device

Identification &Maintenance

-----------------------------------

Mask Bits for Diagnosis Opt

Mask Bits for IFC 090 Diagnosis Opt

-----------------------------------

Input

Measuring Limits

Calibration

Filter Process Input

Self Test

Information

-----------------------------------

Output

FB1: AI-channel

FB2: TOT- channel







-----------------------------------

Mechanical Construction

Process Connection

-----------------------------------

Human Interface

Local Display

Operation Unit• Tag• Descriptor• Message

Measuring Limits

Input• Tag • Static Revision No. Rd

• Gain Compensation Factor Rd

• Low Flow Cut Off• Low Flow Cut Off Hysteresis• Sample Rate Rd

• Mode• Flow Direction

Device• Manufacturer Rd

• Product Designation Rd

• Device Serial Number Rd

• Software Revision Rd

• Hardware Revision Rd

• Profile Revision Rd

• Static Revision Number Rd

• PROFIBUS Ident Number • Installation Date• Write Locking Rd

• Parameter Protection Rd

• Device Type Rd

• C number Rd

• Firmware Ident Number Rd

• PROFIBUS Interface Rev. Rd

• GDC Interface Rev. Rd

• Warm Start Timeout Opt

• Warm Start Timeout Max Opt

Identification


implementation / configuration Rd Read-onlyLoc Local PDM,

affects only PDM views

IFC 300 Menu Tree PDMParameter Table

volume flow• Unit• Lower Value Min Rd

• Upper Value Max Rd

mass flowcoil temperatureconductivityflow speedelectronics temperaturesupply voltagedensity

Calibration• zero point offset Rd

• size entry Opt

• size• GK selection• GK• GKL• coil resistance Rsp• density• target conductivity• number of electrodes• field frequency• select settling• settling time Opt

• line frequency

Filter Process Input• limitation min• limitation max• flow direction• time constant• pulse filter• pulse width Opt

• pulse limitation Opt

• noise filter• noise level Opt

• noise suppression Opt

• lfc threshold• lfc hysteresis

Self Test• empty pipe• limit empty pipe Opt

• full pipe Opt

• limit full pipe Opt

• linearity• gain• coil current• flow profile• limit flow profile Opt

• electrode noise• limit electrode noise Opt

• settling of field

Information• liner• electrode material• serial no. sensor Rd

• V no. sensor Rd

5

KROHNE IFC300 PA 45000002 (4/5)03.06

Identification & Maintenance• I&M0 • I&M1 • I&M2• I&M3• PA_I&M0



FB8: AI-channel Opt

FB7: AI-channel Opt


FB6: AI-channel Opt

FB5: AI-channel Opt

Batch Information• Batch ID• Batch Unit• Batch Operation• Batch Phase

Process Value Scale• Lower Value• Upper Value

Output Scale• Unit• Out Unit Text• Lower Value• Upper Value

Output Limits• Lower Limit Alarm• Lower Limit Warning• Upper Limit Warning• Upper Limit Alarm• Limit Hysteresis

Fail Safe Mode• Fail Safe Mode• Fail Safe Default Value

Human Interface• Decimal Point

FB1: AI-channel• Tag • Static Revision No. Rd

• Channel• Filter Time Constant• Strategy• Alert Key


implementation / configuration Rd Read-onlyLoc Local PDM,

affects only PDM views

IFC 300 Menu Tree PDMParameter Table


Batch Information• Batch ID• Batch Unit• Batch Operation• Batch Phase

Totalizer Settings• Totalizer Value• Mode• Fail Safe Mode• Preset Value• History Control

Output Limits• Lower Limit Alarm• Lower Limit Warning• Upper Limit Warning• Upper Limit Alarm• Limit Hysteresis

FB2: TOT-channel• Tag • Static Revision No. Rd

• Channel• Unit• Strategy• Alert Key

Mechanical ConstructionProcess Connection• Nominal Size Rd

Human Interface• Overview Views Loc

• Check serial no. sensor Loc

• Write sensor parameters Loc

1. measurement page• display 1. line Rd

• display 2. line Rd

• display 3. line Rd

2. measurement page• display 1. line• display 2. line• display 3. line

4

4

KROHNE IFC300 PA 45000002 (5/5)03.06

Identification

Operation Unit

Device

Identification &Maintenance

-----------------------------------

Mask Bits for Diagnosis Opt

Mask Bits for IFC 090 Diagnosis Opt

-----------------------------------

Input

Measuring Limits

Calibration

Filter Process Input

Self Test

Information

-----------------------------------

Output

FB1: AI-channel

FB2: TOT- channel







-----------------------------------

Mechanical Construction

Process Connection

-----------------------------------

Human Interface

Local Display

Documents

AD_IFC300_Profibus_PA_V0200_en.pdf