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Yokogawa Electric Corporation

User’s

Manual

IM 01E20F12-01E

AXF

PROFIBUS PA Communication Type

Magnetic Flowmeter

IM 01E20F12-01E

1st Edition

Summary of content (76 pages)

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User’s Manual AXF PROFIBUS PA Communication Type Magnetic Flowmeter IM 01E20F12-01E IM 01E20F12-01E Yokogawa Electric Corporation 1st Edition
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CONTENTS CONTENTS 1. INTRODUCTION ............................................................................................ 1-1 1.1 1.2 1.3 2. ABOUT PROFIBUS PA ................................................................................ 2-1 2.1 2.2 2.3 2.4 3. Using the Magnetic Flowmeter Safely ................................................. 1-2 Warranty .............................................................................................. 1-2 Combination Remote Flowtubes ...........
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CONTENTS 6. IN-PROCESS OPERATION .......................................................................... 6-1 6.1 6.2 Mode Transition .................................................................................. 6-1 Generation of Alarm ............................................................................ 6-1 6.2.1 Indication of Alarm ....................................................................... 6-1 6.2.2 Alarms and Warnings .........................................................
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1. INTRODUCTION 1. INTRODUCTION these precautions or with specific WARNINGS given elsewhere in this manual violates safety standards of design, manufacture, and intended use of the instrument. Yokogawa assumes no liability for the customer's failure to comply with these requirements. If this instrument is used in a manner not specified in this manual, the protection provided by this instrument may be impaired.
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1. INTRODUCTION (3) Operation • When opening the cover, wait for more than 10 minutes after turning off the power. Only expert engineer or skilled personnel are permitted to open the cover. PROFIBUS is a registered trademark of Profibus Nutzerorganisation e.v., Karlsruhe, Germany. 1.1 (4) Maintenance • Maintenance of the magnetic flowmeter should be performed by the trained personnel having knowledge of safety standard. No operator shall be permitted to perform any operations relating to maintenance.
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1. INTRODUCTION • Problems or damage resulting from repairs or modifications not performed by Yokogawa or someone authorized by Yokogawa. • Problems or damage resulting from inappropriate reinstallation after delivery. • Problems or damage resulting from disasters such as fires, earthquakes, storms, floods, or lightning strikes and external causes. 1.
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2. ABOUT PROFIBUS PA 2. ABOUT PROFIBUS PA 2.1 Outline PROFIBUS PA is a widely used bi-directional digital communication protocol that enables the implementation of technologically advanced process control systems. The AXF Series PROFIBUS PA communication type meets the specifications of PROFIBUS Nutzerorganisation e.V. and is interoperable with devices from Yokogawa and other manufacturers. 2.
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3. GETTING STARTED 3. GETTING STARTED Fieldbus is fully dependent upon digital communication protocol and differs in operation from conventional 4 to 20 mA transmission and the BRAIN communication protocol. HMI Class 2 Master FieldMate (FDT/DTM) PDM (EDDL), etc. • DP/PA Couplers: PROFIBUS PA requires DP/PA couplers which convert the RS-485 signals to the IEC 61158-2 signal level and power the field devices via the PROFIBUS PA. • Cable: Refer to Figure 3.1. Table 3.
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3. GETTING STARTED 3.2 Master Settings 3.3 Integration of GSD To activate PROFIBUS PA, the following bus parameters must be set for the master. A PROFIBUS PA system requires a GSD file containing device parameters such as the supported transmission rate, input data, output data, data format and data length. The following GSD files are available for the AXF. IMPORTANT Do not turn off the power immediately after setting.
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3. GETTING STARTED 3.4 Bus and AXF Power ON The front cover must be closed after finish the work of the bus address setting. Address setting Switch A setup of bus address is possible by the change with a parameter, or the hardware slide switch. The set address which is done by hardware is higher priority than by software. Following description is how to set the bus address using by hardware slide switch. Refer to section 5.3 when the bus address is set by software.
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3. GETTING STARTED 3.5 Setting of Write Protect Switch A write protection is a function to forbid changing of parameters. It is possible to set the software write protection by parameter setup or the hardware write protection by the hardware slide switch. In case of the setting up by parameters, it can set up in WRITE_LOCKING. When WRITE_LOCKING is “0: Lock”, the status of write protect becomes protected mode. And when WRITE_LOCKING is “2457: Disabled”, the status becomes disable mode.
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3. GETTING STARTED 3.6 Engineering Tools 3.6.2 SIMATIC PDM for EDDL Engineering of the AXF PROFIBUS PA can be performed with the following two tools. Electronic Device Description Language (EDDL) defines field device information, and can be used independently of vendors. EDDL files can be read by engineering tools, and the software is used to conduct adjustment, configuration, calibration and tests of devices. 3.6.
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3. GETTING STARTED 3.7 Starting FieldMate The following section describes how to run DTM with FieldMate R1.03. For the detailed information on FieldMate, see its User’s manual. New Device Maintenance Info Click [Action] → [Register Device Maintenance Info]. The new device maintenance information is registered when this work was finished. IMPORTANT • Before running the program, log-in to Windows as an Administrator or as a user with administrative authority. • When comm.
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3. GETTING STARTED Starting DTM Works In the FieldMate window (as shown in the Figure 3.7.1), click the icon of the device at its Main Window. Next, select [AXF PA V1.1] and click [OK] when the following small window was appeared. Figure 3.7.4 Select Device DTM The DTM Works starts to open, and the following new window is appeared. It is able to set parameters of the AXF in detail. Figure 3.7.5 DTM Works Refer to Chapter 5 how to operate the AXF in the FieldMate R1.03 for detail.
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4. CONFIGURATION 4. CONFIGURATION This chapter describes the basic parameters for the three block types and explains how to set and change these parameters. version, and serial number, etc. For a list of the parameters in the AXF blocks, see “Chapter 9”. The following is a list of basic parameters of the physical block. 4.1 Description of Basic Parameters TARGET_MODE: Indicates the physical block mode: Out of Service (O/ S) or AUTO. In Out of Service mode, the block does not operate.
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4. CONFIGURATION TARGET_MODE: Indicates the AI block mode: Out of Service (O/S), MAN, or AUTO. Target Mode indicates what mode of operation is desired for the AI block. In Out of Service mode, the AI block does not operate. Manual mode does not allow values to be updated. AUTO mode causes the measured values to be updated. Under normal circumstance, set this to AUTO mode. AUTO mode is the factory default.
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4. CONFIGURATION NOMINAL_SIZE: Specifies the size of the flow tube. LOW_MF_EDF: Specifies the meter factor of low frequency side under enhanced dual frequency mode. NOMINAL_SIZE_UNITS: Specifies the unit of the flow tube size. HIGH_MF_EDF: Specifies the meter factor of high frequency side under enhanced dual frequency mode. LOW_MF: Specifies the meter factor of low frequency side. VOLUME_FLOW_UNITS: Units of VOLUME_FLOW are shown in Table 4.
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4. CONFIGURATION DISPLAY_SELECT1,2,3: Table 4.2 DISPLAY_SELECT1, 2, 3 DISPLAY_SELECT 1 The display content for the display unitís first line. DISPLAY_SELECT 2 The display content for the display unitís second line. 0:Off 1:Flow Rate(%) 2:Out Value 3:Flow Rate(Bar) 4:Totalized Flow Rate1 5:Totalized Flow Rate2 6:Totalized Flow Rate3 7:Tag No 8:Adhesion Check 9:Communication 0:Flow Rate(%) 1:Out Value 2:Totalized Flow Rate1 3:Totalized Flow Rate2 4:Totalized Flow Rate3 The factory default setting is 1.
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4. CONFIGURATION 4.1.4 Totalizer Block Parameters TOT block PRESET_TOT ∆t SET_TOT Operator Target Mode Operator FAIL_TOT MODE_TOT Simulation MAN Simulation Transducer Block Value and Status Enable Status Logic Measured Value Integrator Limitation (FB Algorithm) Alarm Total Disable 0 UNIT_TOT F0404.EPS Figure 4.4 Overview of Totalizer Block Totalizer block parameters can be read or set from the host. The AXF contains three Totalizer blocks.
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4. CONFIGURATION FAIL_TOT: This is the parameter which defines the fail safe mode of the Totalizer block. This parameter determines the operation of the Totalizer block during the occurrence of input values with bas status. SET_TOT: SET_TOT is the parameter in order to assign the condition to the Totalizer. 0: TOTAILIZE; “Normal” operation of the Totalizer. 1: RESET; Assign value “0” to Totalizer.
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4. CONFIGURATION Table 4.4 TOTAL Quality (bit 6-7) 2:Good (NC) Sub-status (bit 2-5) 0:Ok 1:Update Event 2:Active Advisory Alarm Limit (bit 0-1) 1:low limited 2:high limited 3:Active Critical Alarm: 1:low limited 2:high limited 1:Uncertain 0:Bad Alarm Value 0:ok 4:Unack. Update Event 5:Unack. Advisory Alarm 6:Unack.
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4. CONFIGURATION 4.1.5 DI Block Parameters DI Block Target Mode Operator Mode handling Operator MAN OUT_D Simulation Out of Service Simulation OUT_D Enable Value and Status FB Value Fail algorithm AUTO OUT_D Safe Transducer Block Measured Disable Value MODE and STATUS Handling F0405.EPS Figure 4.5 Overview of DI Block the DI block does not operate. The Manual mode does not allow values to be updated. The Auto mode causes the measured value to be updated.
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4. CONFIGURATION CHANNEL: This is the parameter to specify the value of the transducer block to be input to the DI block. Each DI block is assigned to either “High Limit”, “Low Limit”, “Adhesion Alarm” or “Adhesion Warning”. This parameter enables to select among “LIMSW_1_VALUE_D”, “LIMSW_2_VALUE_D”, “SWITCH_1_VALUE_D” and “SWITCH_2_VALUE_D”. INVERT: This is the parameter which indicates whether the input value from the transducer block should be logically inverted before it is stored in the OUT_D.
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4. CONFIGURATION OUT_D: OUT_D is the output of the function block. The value is specified by the operator in MODE MAN. In case of two or more alarms belonging to the same sub status are generated, the priority of alarm is so high that the number of an alarm message is small. However, as for O/S Mode alarm of DI function block and Physical Block, a priority becomes high most. The relationship between OUT_D.Status and the result of the DIAGNOSIS are described as below.
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5. EXPLANATION OF BASIC ITEMS 5. EXPLANATION OF BASIC ITEMS 5.1 Outline This section describes basic parameter setting by use of FieldMate R1.03 including easy setup and AXF display of integral indicator. Identification area This area contains information about the device that is handled by the DTM. At online parameter, all parameters in this area must be handled as dynamic variables.
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5. EXPLANATION OF BASIC ITEMS Table 5.2.1 Navigation tree structure of online parameters Table 5.2.2 DTM context menu for AXF Level of node DTM Function 1st level 2nd level 3rd level 1st level Process Variable Device Status Parameter Diag and Service Easy Setup Calibration Physical Block 2nd level Connect/ Disconnect Identification Online Parameter Online Parameterization Offline Parameter Offline Parameterization Configuration The Query Device is located under Configuration.
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5. EXPLANATION OF BASIC ITEMS (a) Process Variables (d) Easy Setup Figure 5.2.2 Figure 5.2.5 Process Variables Easy Setup (b) Device Status (e) Calibration Figure 5.2.3 Figure 5.2.6 Device Status Calibration Note: This function is only available if an online connection to the device is established. (c) Diag and Service Figure 5.2.
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5. EXPLANATION OF BASIC ITEMS 5.3 Bus Address Setup This section describes how to set the bus address by FieldMate R1.03. The AXF also has a hardware slide switch. If the bus address is set by FieldMate R1.03, the No. 8 switch of the hardware slide switch must be set OFF beforehand. Refer to section 3.4 for its detail. Works starts to communicate with the AXF, and [Mode Block: Actual] parameter is changed to [Out of Service] after finish this communication.
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5. EXPLANATION OF BASIC ITEMS (2) Bus Address change for DTM A message as “The communication DTM sent abort” in the DTM Works is appeared as shown in figure 5.3.5. Click [OK] for this message window. A new DTM Works window is established as shown in figure 5.3.6, however, close this DTM Works window. Figure 5.3.5 Figure 5.3.6 Click this icon as “Update”. Figure 5.3.7 FieldMate window Figure 5.3.
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5. EXPLANATION OF BASIC ITEMS 5.4 Easy Setup Easy Setup tracks parameters that often need to be configured or changed. Click [Easy Setup] at the Navigation tree. It shows the Easy setup window at the Parameter Set Application as shown in Figure 5.2.5. The following figure is [Easy Setup] window in the toggle the tree window mode, and its contents is described Table 5.4.1. The [Target Mode] in each function block must be set from [AUTO] to [O/S] before changing parameters.
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5. EXPLANATION OF BASIC ITEMS 5.5 Function Blocks Setting 5.5.1 Physical Block Parameters Setup This section describes the procedure taken to set and change the parameters for each block. Obtaining access to each parameter differs depending on the configuration system used. For detail, refer to Chapter 4 for each configuration system. There are 5 kinds of submenus as [Identification], [Diagnosis], [Simulate Diagnosis], [Function Block Status] and [Configuration]. Refer to section 6.3.
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5. EXPLANATION OF BASIC ITEMS 5.5.2 AI Block Parameters Setup The AI block outputs the flow rate signals. (2) Output Scale setting Entry the flow unit, upper and lower values with their decimal points in the [Output scale] submenu. There are 4 kinds of submenus as [Batch Information], [PV Scale], [Output Scale] and [Warning and Alarm] in the [Analog Input] menu. Click [Output] → [Analog Input] at the Navigation Tree. Refer to section 6.3.4 for [Simulation] function. Figure 5.5.
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5. EXPLANATION OF BASIC ITEMS 5.5.3 Transducer Block Parameters Setup There are 8 kinds of submenus as [Flow Tube], [DI Set], [AUX], [Mask Alarm], [Simulate Measured Value], [Adhesion], [Alarm Record] and [Local Display] in the [Transducer Block] menu. (2) Output Signal Low Cut setting Entry the adequate numeric at [Low Flow Cut Off] in the [Transducer Block] menu. Click [Input] → [Transducer Block] at the Navigation tree. Refer to section 6.3.4 for [Simulate Measured Value] function. Figure 5.5.
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5. EXPLANATION OF BASIC ITEMS 5.5.4 Totalizer Block Parameters Setup There are 3 kinds of submenus as [Batch Information], [Totalizer Reset] and [Warning and Alarm]. The AXF has 3 totalizers and their setting contents are same. The following figure is the [Totalizer 1] menu. (2) Direction of Totalization setting Select the adequate direction at [Totalizer Mode] in each [Totalizer] menu. Click [Output] → [Totalizer 1], [Totalizer 2] or [Totalizer 3] at the Navigation tree. Refer to section 6.3.
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5. EXPLANATION OF BASIC ITEMS (4) Resetting or Presetting Total Value Select type and entry the adequate numeric in each [Totalizer Reset] submenu. (1) Limit Switch setting Select type and entry data for Limit Switch 1 and 2 adequately at [DI Set] in the [Transducer Block] menu. Figure 5.5.15 Totalizer Reset Setup Figure 5.5.17 Limit Switch Setup 5.5.5 DI Block Parameters Setup (2) Channel setting Select the adequate type at [Channel] in each [Discrete Input] menu.
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5. EXPLANATION OF BASIC ITEMS (3) Invert setting Select a use of invert at [Invert Input Value] in each [Discrete Input] menu. 5.6 Integral LCD Indicator Employing 32*132 full dot matrix backlit LCD, various display can be obtained. 5.6.1 Flow Data Display By the transducer block parameters setting in DISPLAY_ SELECT1, 2, 3 as described in section 4.1.3, up to three lines display can be made among the following data. Figure 5.5.
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5. EXPLANATION OF BASIC ITEMS Flow Rate (%) FR 100 . 0 % F0505.eps Decimal point is always to the first place. Out Value Flow rate is displayed together with the units set in OUT_SCALE, the maximum number of figures is six. FR - 123 . 456 k g a l / m i n F0506.eps In the case of Characterization Type is "Direct " decimal point location of the data becomes as follows. OUT_SCALE. OUT _SCALE. Decimal Point Place of decimal Example 0 0 123 1 1 123.4 2 2 123.45 3 3 123.
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5. EXPLANATION OF BASIC ITEMS Unit of Out Value on LCD Applicable Unit of Out Value is shown by the following tables corresponding to the OUT_SCLAE Unit Codes. Table 5.6.1 Display Unit Codes 1 Units Codes Unit on Display 1342:% % Table 5.6.
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5. EXPLANATION OF BASIC ITEMS Table 5.6.
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5. EXPLANATION OF BASIC ITEMS Flow Rate (Bar) Bi Direction is set "Unidirectional" - 12345678 Adhesion Check When Adhesion Check display is selected result is displayed as below showing the level number. D T L M l 0 100 Adhesion Check Level Judge Level4 : Adh Measure Value > Adhesion Level4 F0508.eps 12345678 FR 123.456 l / h L e v e l : 4 Bi Direction is set "Bidirectional" R T L M l -100 100 A D H F0513.eps Level3 : Adhesion Level4 ⱖ Adh Measure Value > Adhesion Level3 F0509.
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5. EXPLANATION OF BASIC ITEMS Alarm Display When alarm is generated, alarm message is displayed alternatively at the first line. Followings are an example of alarm display situation. 5.6.2 Display Modes ADMAG AXF has following display modes. - Normal Display - Alarm Display - Warning Display - Autozero Display 123.
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5. EXPLANATION OF BASIC ITEMS Alarm Message / Countermeasure Message On the Integral LCD indicator, following messages are displayed when alarm is generated. Table 5.6.
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5. EXPLANATION OF BASIC ITEMS Warning Message On the Integral LCD indicator, following messages are displayed when warning is generated. Table 5.6.6 Warning Message Display Category Display Message 80:Adhesion Wng 82:Auto Zero Wng 84:Disp Over Wng Warning 85:Flow Vel Over 140:Sim.Jmpr On 141:PB Sim. Enabled 142:TB VF Sim. Enabled 143:AI Sim. Enabled 144:Total1 Sim. Enabled 145:Total2 Sim. Enabled 146:Total3 Sim. Enabled 147:DI1 Sim. Enabled 148:DI2 Sim.
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6. IN-PROCESS OPERATION 6. IN-PROCESS OPERATION This chapter describes the procedure performed when changing the operation of the function block of the AXF in process. 6.1 Mode Transition When the function block mode is changed to Out_Of_Service, the function block pauses and a block alarm is issued. When an alarm has been occurred, the corresponding alarm name, description, and suitable countermeasure will be displayed on the display unit.
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Table 6.1 Status of each parameter in failure mode (1/2) Category Alarm AI Block FSAFE_TYPE = 0 System Alarms 10:uP Fault 11:EEPROM Fault 12:A/D(H) Fault 13:A/D(L) Fault Uncertain; Substitude Value, ok FSAFE_TYPE = 1 Bad; Uncertain; Last Usage Value, Device Failure, Const. ok 14:A/D(Z) Fault 15:Coil Open FAIL_TOT = 0 Uncertain Non Specific, ok DI Block FAIL_TOT = 1 Uncertain; Last Usable Value, Const.
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6. IN-PROCESS OPERATION Table 6.1 Status of each parameter in failure mode (2/2) Category Alarm AI Block FSAFE_TYPE = 0 O/S Mode Alarms Setting Alarms FSAFE_TYPE = 1 TOT Block FSAFE_TYPE = 2 FAIL_TOT = 0 DI Block FAIL_TOT = 1 40:PB O/S Mode Bad; Out of Service, Const. Bad; Out of Service, Const. Bad; Out of Service, Const. Bad; Out of Service, Const. Bad; Out of Service, Const.
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Table 6.
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6. IN-PROCESS OPERATION 6.3 Simulation Function The AXF has a simulation function and it is possible to conduct testing for the downstream function blocks or alarm processes. Following description is how to use and how to set parameters in this function. A SIMULATE_ENABLE switch is mounted in the AXF amplifier (See Figure 6.3.1). This is to prevent the accidental operation of this function. When the No 2 switch is ON, simulation function is enabled.
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6.3.1 Transducer Block The configuration of transducer block for this function is shown at Figure 6.3.2. It is necessary to set parameters as shown in Table 6.3.1 when the simulation function is used. Flow Transducer Block Totalizer Signal Conditioning Sensor Signal processing, normalization Unit and limit computation off Sensor data (e.g. nominal size) Operator Process data (e.g.
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6. IN-PROCESS OPERATION 6.3.2 AI / TOT / DI Blocks When the parameters are set in the transducer block, it is necessary to set parameters as shown in Table 6.3.2 in the AI, TOT and DI blocks next. When Simulate_Enabled in each function block described at Table 6.3.2 is set to “1: Enabled”, the applicable function block uses the simulation value set in this parameter instead of the data from the transducer block. Table 6.3.
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Table 6.3.3 Alarm parameters as simulation function in the Physical block Index Parameters Initial Value Valid Range Explanation 52 DIAGNOSIS_SIM _MODE When the hardware simulation jumper 0: Disabled, 1: Enabled is on, DIAGNOSIS_SIM_MODE is set to enable, and the bits are set to “on”, the alarms (or warnings) can be modified. 53 DIAGNOSIS_SIM _EXTENSION Definition of supported DIAGNOSIS_EXTENSION information-bits for testing alarms and warnings can be modified.
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6. IN-PROCESS OPERATION 6.3.4 Simulation Parameter Setup by FieldMate R1.03 This section describes the procedure taken to set and change the parameters in a use of simulation function in each function block. (2) Simulation Setup in the AI Block Entry the simulation value, simulation quality, status and simulation in the [Analog Input] menu. IMPORTANT • Before running the program, log-in to Windows as an Administrator or as a user with administrative authority. • When comm.
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(4) Simulation Setup in the DI Block Select the adequate type at [Simulation Value], [Simulation Quality], [Simulation] and [Status] in each [Discrete Input] menu. Figure 6.3.7 Simulation Setup (5) Simulate Diagnosis setup in the Physical Block Select a use of Simulation function and parameters at [Simulation Diagnosis] in the [Physical Block] menu. Figure 6.3.
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7. DIAGNOSTIC INFORMATION 7. DIAGNOSTIC INFORMATION 7.1 DEVICE STATUS Diagnostic information and failures of the AXF are indicated by using parameter DIAGNOSIS (slot 0, index 29) and DIAGNOSIS_EXTENSION (slot:0, index 30) in Physical Block. Each diagnostic information is supported when the corresponding bit in DIAGNOSIS_MASK and DIAGNOSIS_EXTENSION is set. Diagnosis and Diagnosis Extension are listed in Table 7.1 and Table 7.2. Table 7.
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7. DIAGNOSTIC INFORMATION Table 7.
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8. GENERAL SPECIFICATIONS 8. 8.1 GENERAL SPECIFICATIONS STANDARD SPECIFICATIONS For items other than those described below, refer to IM 01E20D01-01E, IM 01E20C02-01E. Applicable Models: Integral Flowmeter AXF Remote Converter AXFA14 Output Signal: Digital communication signal based on PROFIBUS PA protocol.
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8. GENERAL SPECIFICATIONS Enhanced dual frequency excitation (Option code HF2): Standard accuracy ±1 mm/s Repeatability: ± 0.1% of Rate (V 1 m/s (3.3 ft/s)) ± 0.05% of Rate ± 0.5 mm/s (V 1 m/s (3.3 ft/s)) 8.2 MODEL AND SUFFIX CODE Integral Flowmeter AXF: AXFⵧⵧⵧⵧ-Gⵧⵧⵧⵧⵧ-ⵧⵧⵧⵧ-ⵧⵧⵧ/ⵧ Remote Converter AXFA14: AXFA14ⵧ-Gⵧ-ⵧⵧ/ⵧ (Note1) “G” following the first dash indicates that the output is digital communication compliant with the PROFIBUS PA protocol.
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8. GENERAL SPECIFICATIONS 8.3 TERMINAL CONNECTION CAUTION Integral Flowmeter AXF Do not connect to these terminals which are marked “CAUTION Don’t connect”. POWER SUPPLY - PB + L/ + N/ - Terminal configuration F01.EPS Terminal wiring Terminal Symbols Description Functional grounding N/– L/+ FB+ FB– Power supply Fieldbus communication signal Protective grounding (Outside of the terminal) T06.EPS Remote Type Converter AXFA14 Terminal configuration N/L/+ EX1 EX2 C SA A B SB FB+ FBF02.
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9. PARAMETER LISTS 9. PARAMETER LISTS Note The Write Mode column indicates the mode in which the parameter is write enabled. O/S: Write enabled in O/S mode. MAN: Write enabled in manual mode. AUTO:Write enabled in auto mode, manual mode, and O/S mode. –: Read only. 9.1 Index Physical Block Parameter List (Slot 0) Parameter Write Mode Valid Range Initial Value Description 16 BLOCK_OBJECT – 17 ST_REV – 0 The revision level of the static data associated with the function block.
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9. PARAMETER LISTS Index Parameter Write Mode Valid Range Initial Value 35 FACTORY_RESET Auto 36 DESCRIPTOR Auto User definition text (a string) to describe the device within the application. 37 DEVICE_MESSAGE Auto User definable MESSAGE (a string) to describe the device within the application or in the plant. 38 DEVICE_INSTAL_DATE Auto Date of installation of the device.
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9. PARAMETER LISTS 9.2 AI Block Parameter List (Slot 1) Index Parameter Write Mode Valid Range Initial Value Description 16 BLOCK_OBJECT – 17 ST_REV – 18 TAG_DESC Auto 19 STRATEGY Auto 0 to 65535 0 The strategy field can be used to identify grouping of blocks. This data is not checked or processed by the block. 20 ALERT_KEY Auto 0 to 255 0 The identification number of the plant unit. This information may be used in the host for sorting alarms, etc.
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9. PARAMETER LISTS Index Parameter Write Mode Valid Range Initial Value 1: Last Valid 0: Failsafe Value OUT 1: Last Valid OUT Value Value 2: Wrong Calculated Value Description 33 FSAFE_TYPE Auto 34 FSAFE_VALUE Auto 35 ALARM_HYS Auto 0.0 to 50.0% of range 0.5% of range Amount the PV must return within the alarm limits before the alarm condition clears. Alarm Hysteresis is expressed as engineering units of the PV span. 37 HI_HI_LIM Auto max.
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9. PARAMETER LISTS 9.3 Index Transducer Block Parameter List (Slot 7) Parameter Write Mode Valid Range Initial Value Description 16 BLOCK_OBJECT (DS-32) 17 ST_REV – 18 TAG_DESC Auto 19 STRATEGY Auto 0 to 65535 0 The strategy field can be used to identify grouping of blocks. This data is not checked or processed by the block. 20 ALERT_KEY Auto 0 to 255 0 The identification number of the plant unit. This information may be used in the host for sorting alarms, etc.
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9. PARAMETER LISTS Index Parameter Write Mode Valid Range 1013: mm 1019: inch Initial Value Description Specified at the This parameter is used in order to select the unit of size (diameter) time of order of the sensor (flow tube). 32 NOMINAL_SIZE_UNITS O/S 33 VOLUME_ FLOW (DS-33) Value – 0 Status – Good Indicates the current measured value and status as the primary value (volumetric flow). This parameter is input to the AI Function Block and the Totalizer Function Block.
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9. PARAMETER LISTS Index Parameter 77 MASS_FLOW_DENSITY 78 LIMSW_1_ VALUE_D (DS-34) Write Mode Initial Value Description O/S 0 to 32000 0 Setting of the density for mass-flow rate. This parameter is necessary in situations where t, kg, g, klb or lb has been selected as the mass unit in VOLUME_FLOW_UNITS. If a mass unit is selected in VOLUME_FLOW_UNITS and a value of 0 is set for this parameter, the setting alarm “57: Density SetErr.” will be displayed.
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9. PARAMETER LISTS Index 92 Parameter SWITCH_2_ VALUE_D (DS-34) Write Mode Value – Status – Valid Range 0: not set, set exclude 0 Initial Value 0 Description Indicate the value of switch 2, which switches ON and OFF depending on the digital value of the target input parameter selected in SWITCH_2_TARGET. Good 93 SWITCH_2_TARGET O/S 0: Adheshion Alarm 1: Adhesion Warning 1: Adhesion Warning This parameter selects the input channel used to LIMSW_2_ VALUE_D.
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9. PARAMETER LISTS Index Parameter Write Mode Valid Range Initial Value Description 111 DISPLAY_SELECT1 Auto 0 to 4 1: Out Value 112 DISPLAY_SELECT2 Auto 0 to 9 0: Off 113 DISPLAY_SELECT3 Auto 0 to 9 0: Off 114 DISPLAY_CYCLE Auto 0: 200ms 1: 400ms 2: 1s, 3: 2s, 4: 4s, 5: 8s 1: 400ms 115 LANGUAGE Auto 0: English 0: English 116 RATE_LIMIT O/S 0 to 10 5 This parameter is used in order to set the rate limit value.
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9. PARAMETER LISTS 9.4 Totalizer Block Parameter List (TOT1: Slot2, TOT2: Slot3,TOT3: Slot4) Index Parameter Write Mode Valid Range Initial Value Description 16 BLOCK_OBJECT (DS-32) – 17 ST_REV – 0 The revision level of the static data associated with the function block. The revision value will be incremented each time a static parameter value in the block is changed. 18 TAG_DESC Auto Space The user description of the intended application of the block.
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9. PARAMETER LISTS Index Parameter Write Mode Valid Range Initial Value Description 32 PRESET_TOT Auto -99999999 to +99999999 0.000 This parameter is used in order to define the starting value to the totalizer. 33 ALARM_HYS Auto 0 or larger 0.000 Amount the PV must return within the alarm limits before the alarm condition clears. Alarm Hysteresis is expressed as a percent of the PV span. 34 HI_HI_LIM Auto max. Value +INF The setting for high high alarm in engineering units.
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9. PARAMETER LISTS 9.5 DI Block Parameter List (DI1: Slot5, DI2: Slot6) Index Parameter Write Mode Valid Range Initial Value Description 16 BLOCK_OBJECT (DS-32) – 17 ST_REV – 0 The revision level of the static data associated with the function block. The revision value will be incremented each time a static parameter value in the block is changed. 18 TAG_DESC Auto Space The user description of the intended application of the block.
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10. MAINTENANCE 10. MAINTENANCE For maintenance items, please refer to user’s manual IM 01E20D01-01E or IM 01E20C02-01E.
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APPENDIX 1. LIST OF DTM MENU APPENDIX 1.
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APPENDIX 1. LIST OF DTM MENU Batch Unit Batch Operation Batch Phase Totalizer Reset Output Analog Input Static Revision No.
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APPENDIX 2. LIST OF PDM (EDDL) MENU APPENDIX 2.
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APPENDIX 2. LIST OF PDM (EDDL) MENU Lower Limit Warning Batch Information Upper Limit Warning Batch ID Upper Limit Alarm Batch Unit Hysteresis Batch Operation Fail Safe Mode Batch Phase Fail Safe Mode Output Limits Fail Safe Default Value Lower Limit Alarm Human Interface Lower Limit Warning Decimal Point Upper Limit Warning Velocity check Upper Limit Alarm Velocity Check Limit Hysteresis Discrete Input1 Totalizer3 Satic Revision No. Satic Revision No.
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REVISION RECORD Title: ADMAG AXF Series PROFIBUS PA Communication Type Magnetic Flowmeter Manual No.: IM 01E20F12-01E Edition Date Page 1st Mar. 2008 – Revised Item New publication REVISION RECORD.