YOKOGAWA digitalYEWFLO DY040/R2 User Manual Download Page 67

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<APPENDIX 1. LIST OF PARAMETERS FOR EACH BLOCK OF digitalYEWFLO>

A1-3

IM 01F06F00-01EN

Relative

Index

Parameter Name

Factory Default

Write

Mode

Explanation

1043 SOFT_DESC

—

Yokogawa internal use.

1044

SIM_ENABLE_MSG

(Spaces)

AUTO

Software switch for simulation function.

1045 DEVICE_STATUS_1

—

Device status (VCR setting etc.)

1046 DEVICE_STATUS_2

—

Device status (failure or setting error etc.)

1047 DEVICE_STATUS_3

—

Device status (function block setting)

1048 DEVICE_STATUS_4

—

Device status (sensor status)

1049 DEVICE_STATUS_5

—

Device status (function block setting)

1050 DEVICE_STATUS_6

—

Not used for digitalYEWFLO

1051 DEVICE_STATUS_7

—

Not used for digitalYEWFLO.

1052 DEVICE_STATUS_8

—

Not used for digitalYEWFLO.

1053 SOFTDWN_

PROTECT

0x01

AUTO

Mask the software download function.

0x01:No masking

0x02:Masking

1054 SOFTDWN_

FORMAT

0x01

AUTO

Select the software download function format.

0x01:Conform to FF Specification

1055 SOFTDWN_COUNT 0x0000

—

Number of the execution times of the software download

function.

1056 SOFTDWN_ACT_

AREA

0x00

—

Display he running Flash ROM number

0:Flash ROM#0 is running

1:Flash ROM#1 is running

1057 SOFTDWN_MOD_

REV

[0]:1, [1]-[7]:0

—

Display the module revision of the software.

1058 SOFTDWN_ERROR 0

—

Display the error at the software downloading.

A1.2 Al Function Block

Relative

Index

Parameter Name

Factory

Default

Write Mode

Explanation

AI1 AI2 AI3

4000 4100 4200 Block Header

TAG: "AI1",

"AI2" or "AI3"

Block Tag =

O/S

Information on this block such as Block Tag, DD

Revision, Execution Time etc.

4001 4101 4201 ST_REV

—

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.

4002 4102 4202

TAG_DESC

(Spaces)

AUTO

The user description of the intended application of the

block.

4003 4103 4203

STRATEGY

AUTO

The strategy field can be used to identify grouping of

blocks. This data is not checked or processed by the

block.

4004 4104 4204 ALERT_KEY

AUTO

The identification number of the plant unit. This

information may be used in the host for sorting alarms,

etc.

4005 4105 4205 MODE_BLK

AUTO

The actual, target, permitted, and normal modes of the

block.

4006 4106 4206 BLOCK_ERR

—

This parameter reflects the error status associated with

the hardware or software components associated with

a block. It is a bit string, so that multiple errors may be

shown.

4007 4107 4207 PV

—

Either the primary analog value for use in executing the

function, or a process value associated with it.

May also be calculated from the READBACK value of

an AO block.

4008 4108 4208 OUT

Value = MAN The primary analog value calculated as a result of

executing the function.

4009 4109 4209 SIMULATE

1 (Disabled)

AUTO

Allows the transducer analog input or output to the

block to be manually supplied when simulate is

enabled. When simulation is disabled, the simulate

value and status track the actual value and status.

1=Disabled, 2=Active

Summary of Contents for digitalYEWFLO DY040/R2

Page 1: ...User s Manual digitalYEWFLO Series Vortex Flowmeter FOUNDATION Fieldbus Communication Type IM 01F06F00 01EN IM 01F06F00 01EN 10th Edition ...

Page 2: ...nction Block VFD 3 1 3 3 Logical Structure of Each Block 3 2 3 4 Wiring System Configuration 3 2 4 GETTING STARTED 4 1 4 1 Connection of Devices 4 1 4 2 Host Setting 4 2 4 3 Power on of digitalYEWFLO and Bus 4 2 4 4 Integration of DD 4 3 4 5 Reading the Parameters 4 3 4 6 Continuous Record of Values 4 3 4 7 Generation of Alarm 4 4 5 CONFIGURATION 5 1 5 1 Network Design 5 1 5 2 Network Definition 5...

Page 3: ...ons 9 4 10 EXPLOSION PROTECTED TYPE INSTRUMENT 10 1 10 1 ATEX 10 1 10 2 FM 10 5 10 3 IECEx 10 9 10 4 CSA 10 11 10 5 TIIS 10 13 APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF digitalYEWFLO A1 1 A1 1 Resource Block A1 1 A1 2 Al Function Block A1 3 A1 3 Transducer Block A1 6 A1 4 DI Function Block A1 11 APPENDIX 2 APPLICATION SETTING AND CHANGE OF BASIC PARAMETERS A2 1 A2 1 Applications and Selectio...

Page 4: ...set Trigger A5 8 A5 6 2 Reset Timing A5 8 A5 6 3 Reset Process A5 9 A5 7 List of Integrator Block Parameters A5 10 APPENDIX 6 Enhanced ARITHMETIC AR BLOCK A6 1 A6 1 Schematic Diagram of Arithmetic Block A6 1 A6 2 Input Section A6 2 A6 2 1 Main Inputs A6 2 A6 2 2 Auxiliary Inputs A6 2 A6 2 3 INPUT_OPTS A6 3 A6 2 4 Relationship between the Main Inputs and PV A6 3 A6 3 Computation Section A6 4 A6 3 1...

Page 5: ... Action A8 4 A8 7 Control Action Bypass A8 5 A8 8 Feed forward A8 5 A8 9 Block Modes A8 5 A8 10 Bumpless Transfer A8 6 A8 11 Setpoint Limiters A8 6 A8 11 1 When PID Block is in AUTO Mode A8 6 A8 11 2 When PID Block is in CAS or RCAS Mode A8 6 A8 12 External output Tracking A8 7 A8 13 Measured value Tracking A8 7 A8 14 Initialization and Manual Fallback IMAN A8 7 A8 15 Manual Fallback A8 8 A8 16 Au...

Page 6: ...A11 5 Download Files A11 2 A11 6 Steps after Activating a Field Device A11 3 A11 7 Troubleshooting A11 4 A11 8 Resource Block s Parameters Relating to Software Download A11 4 A11 9 System Network Management VFD Parameters Relating to Software Download A11 6 A11 9 1 Parameter List A11 6 A11 9 2 Descriptions for Parameters A11 7 APPENDIX 12 DEVICEVIEWER WINDOW EXECUTED FROM PRM Plant Resource Manage...

Page 7: ...performance Yokogawa assumes no responsibilities for this product except as stated in the warranty If the customer or any third party is harmed by the use of this product Yokogawa assumes no responsibility for any such harm owing to any defects in the product which were not predictable or for any indirect damages Safety and Modification Precautions The following general safety precautions must be ...

Page 8: ...e specified for this instrument before connecting the power cable In addition check that no voltage is applied to the power cable before connecting the wiring 3 Operation WARNING Do not open the cover in wet weather or humid environment When the cover is open stated enclosure protection is not applicable When opening the cover wait for more than 3 minutes after turning off the power 4 Maintenance ...

Page 9: ...ms or damage resulting from handling operation or storage that violates the intended use and specifications Problems that result from using or performing maintenance on the instrument in a location that does not comply with the installation location specified by Yokogawa Problems or damage resulting from repairs or modifications not performed by Yokogawa or someone authorized by Yokogawa Problems ...

Page 10: ... 1 INTRODUCTION 1 4 IM 01F06F00 01EN 1 3 ATEX Documentation This is only applicable to the countries in European Union GB DK I E NL SF P F D S LT LV PL EST SLO H BG RO M CZ SK GR ...

Page 11: ...pe 1 The Fieldbus communication type has no local key access function 2 The Fieldbus communication type has no BT200 BRAIN TERMINAL connection pin 3 The Fieldbus communication type has a simulation function The SIMULATE_ENABLE switch is mounted on the amplifier Read Section 7 3 Simulation Function for details of the simulation function F0201 ai 1 2 SIMULATE_ENABLE switch Amplifier unit Figure 2 1 ...

Page 12: ...ontrols the execution of function blocks Manages operation parameters and communication resources Virtual Communication Relationship VCR 3 2 2 Function Block VFD 1 Resource RS block Manages the status of digitalYEWFLO hardware Automatically informs the host of any detected faults or other problems 2 Transducer TR block Converts the flow sensor output to the volumetric flow rate signal and transfer...

Page 13: ...tion block DI2 function block DI1 function block AI3 function block AI2 function block outputting the temperature for a model with the option MV OUT OUT OUT OUT OUT OUT OUT AI1 function block Block tag Parameters OUT Figure 3 1 Logical Structure of Each Block Various parameters the node address and the PD tag shown in Figure 3 1 must be set before using the device Read Chapter 4 and onward for the...

Page 14: ...Terminals Grounding Terminal Host Used for accessing field devices A dedicated host such as DCS is used for an instrumentation line while dedicated communication tools are used for experimental purposes For operation of the host read the instruction manual for each host No other details on the host are given in this manual Cable Used for connecting devices Read Fieldbus Technical Information TI 38...

Page 15: ... NUN Number of consecutive Unpolled Node Unused address range Bridge device Not used 0x10 0x00 0x0F 0x14 0x13 0xF7 0xF8 0xFB 0xFC 0xFF V FUN V FUN V NUN LM device Unused V NUN Note 1 LM device with bus control function Link Master function Note 2 BASIC device without bus control function BASIC device Default address Portable device address F0402 ai Figure 4 2 Available Address Range 4 3 Power on o...

Page 16: ...d them from our web site Visit the following web site http www yokogawa com fld Once the DD is installed in the directory the name and attribute of all parameters of the digitalYEWFLO are displayed Off line configuration is possible using the capabilities file NOTE When using a capabilities file CFF make sure you use the right file for the intended device The digitalYEWFLO is offered in two types ...

Page 17: ...02 as 0 299 0 6 0 Read Subsection 5 6 1 Link Objects for details Since the LO_PRI parameter index 4029 of the AI block is set to 0 try setting this value to 3 Select the Write function from the host in operation specify an index or variable name and write 3 to it The LO_LIM parameter index 4030 of the AI block determines the limit at which the lower bound alarm for the process value is given In us...

Page 18: ...rrent consumed by all devices including the host Conventional DC current cannot be used as power supply Terminator Fieldbus requires two terminators Read the supplier for details of terminators that are attached to the host Field devices Connect the field devices necessary for instrumentation The digitalYEWFLO has passed the interoperability test conducted by The Fieldbus Foundation In order to pr...

Page 19: ... parameters in Table 5 2 are to be set the worst case value of all the devices to be connected to the same Fieldbus must be used Read the specification of each device for details Table 5 2 Operation Parameter Values of digitalYEWFLO to be Set to LM Device Symbol Parameters Description and Settings V ST Slot Time Indicates the time necessary for immediate reply of the device Unit of time is in octe...

Page 20: ...ing Function Blocks of Two digitalYEWFLOs with Other Devices FI103 FI100 FC100 FIC100 FC200 FIC200 FC100 FI200 FI200 Function Block Schedule Commu nication Schedule OUT IN OUT CAS_IN BKCAL_OUT BKCAL_IN BKCAL_IN BKCAL_OUT IN Unscheduled Communication Scheduled Communication F0503 ai Macrocycle Control Period Figure 5 3 Function Block Schedule and Communication Schedule When the control period macro...

Page 21: ...base residing in SM System Management VFD 5 5 1 VCR Setting Set VCR Virtual Communication Relationship which specifies the called party for communication and resources Each digitalYEWFLO has 33 VCRs whose application can be changed except for the first VCR which is used for management Each digitalYEWFLO has VCRs of four types Server QUB VCR A server responds to requests from a host This communicat...

Page 22: ...U Set 256 for Server and Trend VCR and 64 for other VCRs 8 FasDllResidual ActivitySupported Specifies whether connection is monitored Set TRUE 0xff for Server This parameter is not used for other communication 9 FasDllTimelinessClass Not used for the digitalYEWFLO 10 FasDllPublisherTime WindowSize Not used for the digitalYEWFLO 11 FasDllPublisher SynchronizaingDlcep Not used for the digitalYEWFLO ...

Page 23: ... used 5 6 2 Trend Objects It is possible to make settings so that a function block automatically transmits the trend For this each digitalYEWFLO has ten trend objects eight for trends of analog parameters and two for discrete parameters For each trend object specify a single parameter the trend of which is to be transmitted Each trend object has the parameters listed in Table 5 8 For the first fou...

Page 24: ...ts four view objects for each of the Resource block Transducer block three AI blocks two DI blocks one IT block one AR block and PID block option LC1 Each view object contains a group of the parameters listed in Tables 5 11 to 5 17 Table 5 10 Purpose of Each View Object Description VIEW_1 Set of dynamic parameters required by operator for plant operation PV SV OUT Mode etc VIEW_2 Set of static par...

Page 25: ...EE_SPACE 4 25 FREE_TIME 4 4 26 SHED_RCAS 4 27 SHED_ROUT 4 28 FAIL_SAFE 1 1 29 SET_FSAFE 30 CLR_FSAFE Relative Index Parameter Mnemonic VIEW_ 1 VIEW_ 2 VIEW_ 3 VIEW_ 4 31 MAX_NOTIFY 4 32 LIM_NOTIFY 1 33 CONFIRM_TIME 4 34 WRITE_LOCK 1 35 UPDATE_EVT 36 BLOCK_ALM 37 ALARM_SUM 8 8 38 ACK_OPTION 2 39 WRITE_PRI 1 40 WRITE_ALM 41 ITK_VER 42 SOFT_REV 43 SOFT_DESC 44 SIM_ENABLE_MSG 45 DEVICE_STATUS_1 4 46 D...

Page 26: ...ANGE 11 16 CAL_POINT_HI 4 17 CAL_POINT_LO 4 18 CAL_MIN_SPAN 4 19 CAL_UNIT 2 20 SENSOR_TYPE 2 21 SENSOR_RANGE 11 22 SENSOR_SN 4 23 SENSOR_CAL_METHOD 2 24 SENSOR_CAL_LOC 32 25 SENSOR_CAL_DATE 7 26 SENSOR_CAL_WHO 32 27 LIN_TYPE 1 28 SECONDARY_VALUE 5 29 SECONDARY_VALUE_ UNIT 2 30 PRIMARY_FTIME 4 31 TERTIARY_VALUE 5 32 TERTIARY_VALUE_UNIT 2 33 LIMSW_1_VALUE_D 2 34 LIMSW_1_TARGET 1 35 LIMSW_1_SETPOINT ...

Page 27: ...EF 4 63 SECOND_TEMP_COEF 4 64 SIZE_SELECT 1 1 65 BODY_TYPE 1 1 66 VORTEX_SENSOR_ TYPE 1 1 67 K_FACTOR_UNIT 1 1 68 K_FACTOR 4 4 69 LOWCUT 4 70 UPPER_DISPLAY_MODE 1 71 LOWER_DISPLAY_MODE 1 72 DISPLAY_CYCLE 1 73 USER_ADJUST 4 74 REYNOLDS_ADJUST 1 75 VISCOSITY_VALUE 4 76 GAS_EXPANSION_FACT 1 77 FLOW_ADJUST 1 78 FLOW_ADJ_ FREQUENCY 20 79 FLOW_ADJ_DATA 20 80 TLA_VALUE 4 81 NOISE_BALANCE_MODE 1 82 NOISE_...

Page 28: ... 29 LO_PRI 1 30 LO_LIM 4 31 LO_LO_PRI 1 32 LO_LO_LIM 4 33 HI_HI_ALM 34 HI_ALM 35 LO_ALM 36 LO_LO_ALM 37 TOTAL 4 38 TOTAL_START 39 TOTAL_RATE_VAL 40 TOTAL_RESET Total bytes 31 26 35 46 Note AI2 and AI3 blocks do not have parameters after index No 37 TOTAL inclusive Table 5 14 View Objects for Each DI Function Block Relative Index Parameter Mnemonic VIEW_ 1 VIEW_ 2 VIEW_ 3 VIEW_ 4 1 ST_REV 2 2 2 2 2...

Page 29: ...UT_HI_LIM 4 29 OUT_LO_LIM 4 30 BKCAL_HYS 4 31 BKCAL_OUT 5 32 RCAS_IN 5 33 ROUT_IN 5 34 SHED_OPT 1 35 RCAS_OUT 5 36 ROUT_OUT 5 37 TRK_SCALE 11 38 TRK_IN_D 2 2 39 TRK_VAL 5 5 40 FF_VAL 5 Relative Index Parameter Mnemonic VIEW_ 1 VIEW_ 2 VIEW_ 3 VIEW_ 4 41 FF_SCALE 11 42 FF_GAIN 4 43 UPDATE_EVT 44 BLOCK_ALM 45 ALARM_SUM 8 8 46 ACK_OPTION 2 47 ALARM_HYS 4 48 HI_HI_PRI 1 49 HI_HI_LIM 4 50 HI_PRI 1 51 H...

Page 30: ...elative Index Parameter Mnemonic VIEW_ 1 VIEW_ 2 VIEW_ 3 VIEW_ 4 30 BAL_TIME 4 31 BIAS 4 32 GAIN 4 33 OUT_HI_LIM 4 34 OUT_LO_LIM 4 35 UPDATE_EVT 36 BLOCK_ALM 37 AR_VOLUME_ FLOW_UNIT 2 38 AR_TEMP_UNIT 2 39 AR_BASE_TEMP 4 40 AR_PRESSURE_ UNIT 2 41 AR_BASE_ PRESSURE 4 42 AR_DEVIATION 4 43 AR_DENSITY_ UNIT 2 44 AR_BASE_ DENSITY 4 45 AR_FIRST_TEMP_ COEF 4 46 AR_SECOND_ TEMP_COEF 4 47 AR_FLOW_ CONFIG 48...

Page 31: ...1 29 INTEG_OPTS 2 30 CLOCK_PER 4 31 PRE_TRIP 4 32 N_RESET 4 4 33 PCT_INCL 4 4 34 GOOD_LIM 4 35 UNCERT_LIM 4 36 OP_CMD_INT 1 1 37 OUTAGE_LIM 4 38 RESET_CONFIRM 2 2 39 UPDATE_EVT 40 BLOCK_ALM 41 ACCUM_TOTAL 4 Total bytes 52 17 68 42 Table 5 18 Indexes to View Objects for Each Block Block VIEW_1 VIEW_2 VIEW_3 VIEW_4 Resource block 40100 40101 40102 40103 Transducer block 40200 40201 40202 40203 40204...

Page 32: ...latively simple functions 6 1 Setting and Changing Parameters for the Whole Process IMPORTANT Do not turn off the power immediately after setting When the parameters are saved to the EEPROM the redundant processing is executed for an improvement of reliability If the power is turned off within 60 seconds after setting is made the modified parameters are not saved and the setting may return to the ...

Page 33: ...eration conditions Table 6 1 Mandatory Parameter Setting for Transducer Block Depending on Operation Conditions Relative Index Parameter Name Operation Conditions 47 SENSOR_ STATUS 1 Standard 1 Standard 2 Built in Temp Sensor 2 Built in Temp Sensor 2 Built in Temp Sensor 2 Built in Temp Sensor 2 Built in Temp Sensor 2 Built in Temp Sensor 48 THERMOMETER_ FUNCTION 1 Monitor only or 6 Not use 1 Moni...

Page 34: ...t As selected in TEMP_UNIT Default 15 0 8 DENSITY_UNIT Relative Index 53 Selects the unit of density Setting range 1097 kg m3 Default 1097 kg m3 9 PROCESS_DENSITY Relative Index 54 Selects the density under the normal operating conditions Setting range 0 00001 to 32000 Unit As selected in DENSITY_UNIT Default 1024 0 10 BASE_DENSITY Relative Index 55 Sets the density under the standard conditions S...

Page 35: ...nction Block Parameters Parameters of the three AI function blocks can be read and written from the host AI1 Flow rate AI2 Temperature AI3 Volumetric flow rate for the use of mass flow rate calculation at AR function block For each block parameter in digitalYEWFLO read APPENDIX 1 LIST OF PARAMETERS FOR EACH BLOCK OF digitalYEWFLO The following describes important parameters and how to set them MOD...

Page 36: ...the same setting some units are represented differently between the FOUNDATION Fieldbus communication type and the HART or BRAIN communication type of a digitalYEWFLO Each unit enclosed in brackets above shows the unit for the HART or BRAIN communication type of a digitalYEWFLO corresponding to the preceding unit for the FOUNDATION Fieldbus communication type Table 6 3 Setting Range of EU at 100 o...

Page 37: ...riority Value Descriptions 0 Alart is not notified Alarm parameters are not updated 1 Alart is not notified 3 to 7 Advisory alarms 8 to 15 Critical alarms DISC_LIM Setpoint of the discrete alarm when the value of OUT_D agrees with the value set in DISC_LIM the discrete alarm is generated 6 5 Integral LCD Indicator The display items are as follows Table 6 5 Display Items Display Items Upper Display...

Page 38: ...540 SCFM 1360 SCFH 1361 N Normal S Standard Percentage 1342 1 Display Style In case of plus display Example AR OUT_RANGE EU_100 1 Example AR OUT_RANGE EU_100 0 00001 F0601 ai In case of Minus display Example AR OUT_RANGE EU_100 1 000 AR OUT_RANGE EU_100 100 000 F0602 ai 2 Alarm Display In case of plus display Example Display 99999 and AL 61 altrnatelly F0603 ai In case of Minus display Example AR ...

Page 39: ...e alarm is issued from the resource block When an error block error is detected in each function block or an error in the process value process alarm is detected an alarm is issued from each block If an LCD indicator is installed the error number is displayed as AL XX If two or more alarms are issued multiple error numbers are displayed in 2 second intervals when 1 is set to DISPLAY_CYCLE F0701 ai...

Page 40: ...Block is in O S mode Provided OFF AL 29 IT Block is in O S mode Provided OFF AL 30 AR Block is in O S mode Provided OFF AL 41 Flow rate is over the range Not provided AL 42 The flow rate span setting exceeds the range limit Not provided AL 43 Temperature is over the range Regulated in the upper or lower limit value Not provided AL 51 The transient vibration makes the current flow rate output const...

Page 41: ...sting for the downstream function blocks or alarm processes A SIMULATE_ENABLE jumper switch is mounted on the digitalYEWFLO s amplifier This is to prevent the accidental operation of this function When this is switched on simulation is enabled Read Figure 7 2 To initiate the same action from a remote terminal if REMOTE LOOP TEST SWITCH is written to SIM_ENABLE_MSG index 1044 parameter of the resou...

Page 42: ... open The VCR selected in link object is not open 0x00000100 Link Obj 8 24 40 not open The VCR selected in link object is not open 0x00000080 Link Obj 9 25 not open The VCR selected in Link object is not open 0x00000040 Link Obj 10 26 not open The VCR selected in Link object is not open 0x00000020 Link Obj 11 27 not open The VCR selected in Link object is not open 0x00000010 Link Obj 12 28 not ope...

Page 43: ...0 DI1 in MAN mode AL 68 The DI1 block is in manual mode 0x00000200 DI1 in simulate active AL 69 Simulation is enabled in the DI1 block 0x00000100 DI1 not scheduled AL 70 The DI1 block is not scheduled 0x00000040 DI2 in MAN mode AL 71 The DI2 block is in manual mode 0x00000020 DI2 in simulate active AL 72 Simulation is enabled in the DI2 block 0x00000010 DI2 not scheduled AL 73 The DI2 block is not...

Page 44: ... of Execution IT EXECUTION_PERIOD 0x00004000 AR in MAN mode AL 84 AR Block is in Manual mode 0x00002000 AR not scheduled AL 85 AR Block is not scheduled 0x00001000 AR Conf Err RANGE_HI LO AL 86 AR Range High AR RANGE_HI is smaller than AR Range Low AR RANGE_ LOW 0x00000800 AR Temp IN over range AL 87 AR Input1 AR IN_1 is over range 0x00000400 AR Press IN over range AL 88 AR Input2 AR IN_2 is over ...

Page 45: ...dition Temperature range 100 to 450 C Temperature accuracy 0 1 Density computing by temperature and pressure using standard steam table IAPWS IF97 International Associaton for the Properties of Water and Steam General gas Not fixed Temperature and Pressure Accuracy is changed by fluctuating deviation factor K on temperature pressure condition Temperature pressure compensation computing using gas e...

Page 46: ...ed by setting value for temperature compensation factor Density computing by temperature using equation API JIS K 2249 General gas including Natural gas 2 0 Flow velocity 35m s or less 2 5 Flow velocity 35m s to 80m s Temperature and Pressure For Natural gas accuracy condition is Pressure condition Pressure range 0 to 12MPa Pressure signal 0 2 Temperature condition Temperature range 10 to 65 C Gen...

Page 47: ...3 29 ms AI1 Monitors the fow rate and totalized flow rate AI2 Monitors the temperature for a model with the multi variable type option AI3 volumetric flow input for mass flowrate calculation of AR DI 2 25 ms Flow and temperature limit switches AR 1 40 ms Mass flow calculation IT 1 40 ms Integrator block integrates a variable as a function of the time or accumulates the counts PID 1 40 ms Applicabl...

Page 48: ...611 Class 3615 Class 3810 Including Supplement 1 NEMA 250 Type of Protection Explosionproof for Class I Division 1 Groups A B C and D Dust ignitionproof Class II III Division 1 Groups E F and G SEALALL CONDUITS WITHIN 18 INCHES WHEN INSTALLED IN DIV 2 SEALS NOT REQUIRED Enclousure Rating Type 4X Temperature Code T6 Ambient Temperature 40 to 60 C Ambient Humidity 0 to 100 RH No condensation Coating...

Page 49: ...ent Humidity 0 to 100 RH No condensation Process Temperature T6 84 78 C T5 100 C T4 135 C T3 199 198 C T2 299 288 C T1 449 438 C Option HT above 250 C and Option LT below 29 C Option MV Signal Supply Terminals SUPPLY and Entity Ui 24 V Ii 250 mA Pi 1 2 W Ci 3 52 nF Li 0 mH FISCO Ui 17 5 V Ii 500 mA Pi 5 5 W Ci 3 52 nF Li 0 mH Electrical Connection ANSI 1 2NPT female ISO M20 1 5 female KS28 ATEX In...

Page 50: ...erter Temperature Class T6 T1 Integral Type and Remote Type Detector T6 Remote Type Converter Process Temperature T6 40 to 80 C T5 40 to 100 C T4 40 to 135 C T3 40 to 200 C T2 40 to 300 C T1 40 to 450 C Use HT version above 250 C Ambient Temperature 30 to 60 C With indicator 40 to 60 C Without indicator Ambient Humidity 0 to 100 RH No condensation Electrical Connection ANSI 1 2NPT female ISO M20 1...

Page 51: ...nge limits and unit OUT_SCALE _ Node address Set to 0xF2 unless otherwise specified when ordered Explanation of parameters 1 XD_SCALE Defines the input values from the transducer block input range of the sensor corresponding to 0 and 100 values in the calculation inside theAI function block For a digitalYEWFLO the values set as the flow span or temperature range option are stored in this parameter...

Page 52: ... Remote Type Detector Ex db IIC T6 Gb Remote Type Convertor Group II Category 2 G Specification of Protection Temperature Class Integral Type and Remote Type Detector Temperature Class Process Temperature T6 40 C to 80 C T5 40 C to 100 C T4 40 C to 135 C T3 40 C to 200 C T2 40 C to 300 C T1 40 C to 450 C 1 Note Use HT version above 250 C Temperature Class T6 Remote Type Convertor Ambient Temperatu...

Page 53: ...on steel is excluded Intrinsically Safe Ex ic Applicable Standard EN 60079 0 2012 A11 2013 EN 60079 11 2012 Type of Protection Ex ic IIC T4 T1 Gc Integral Type Ex ic IIC T6 T1 Gc Remote Type Detector Ex ic IIC T5 T4 Gc Remort Type Converter Group II Category 3 G Enclosure IP66 67 Overvoltage Category I Ambient Temperature 40 to 60 C Integral Type 50 to 80 79 C Remote Type Detector Option LT below ...

Page 54: ...uctor The grounding terminals are located on the inside and outside of the terminal area Connect the cable to grounding terminal in accordance with wiring procedure 1 or 2 Case Cable Screw 1 Internal grounding terminal 2 External grounding terminal Washer Washer Cable Clamp Screw F1001 ai Figure 10 1 Wiring Procedure for Grounding Terminals for Flameproof 3 Operation WARNING Take care the followin...

Page 55: ...ng 1 the output current of the barrier must be limited by a resistor Ra such that Io Uo Ra In the rating 2 the output of the barrier must be the characteristics of the trapezoid or the rectangle and this transmitter can be connected to Fieldbus equipment which are in according to the FISCO model The terminators may be built in by a barrier More than one field instrument may be connected to the pow...

Page 56: ...block of NO column is the last one number of the production year For example the year of production of the product engraved as follows is year 2018 NO S5K965926 835 Produced in 2018 4 180 8750 is a zip code which represents the following address 2 9 32 Nakacho Musashino shi Tokyo Japan 10 2 FM 1 Technical Data Explosion Proof Applicable Standard Class 3600 2011 Class 3611 2004 Class 3615 2006 Clas...

Page 57: ...Connection ANSI 1 2NPT female 2 Wiring Explosion proof WARNING All wiring shall comply with National Electrical Code ANSI NFPA 70 and Local Electrical Code SEALALL CONDUITS 18 INCHES WHEN INSTALLED DIV 2 SEALS NOT REQUIRED Intrinsically Safe NOTE If you are using a hand held terminal in the hazardous area read the Control Drawing or Instruction Manual of handheld terminal 3 Operation Explosion pro...

Page 58: ...quipment connected to the associated apparatus must not use or generate more than 250 V a c r m s or d c 6 In case of entity concept installations the associated apparatus must be a linear source which meets the following conditions Voc or Uo Vmax or Ui Isc or Io Imax or Ii Po Pmax or Pi Ca or Co Ci Ccable La or Lo Li Lcable 7 FISCO installation must be in accordance with ANSI ISA 60079 25 or ANSI...

Page 59: ...ccordance with the National Electric Code NFPA70 ANSI ISA RP12 06 01 and relevant local codes 4 In case Nonincendive Field Wiring Concept is used for the interconnection FM approved Associated Nonincendive Field Wiring Apparatus which meets the following conditions must be used as the power supply control equipment Voc or Uo Vmax or Ui Ca or Co Ci Ccable La or Lo Li Lcable 5 FNICO installation mus...

Page 60: ...rinsically Safe Applicable Standard IEC 60079 0 2011 IEC 60079 11 2011 Certificate IECEx DEK 15 0012X Type of Protection Ex ia IIC T4 T1 Ga Integral Type Ex ia IIC T6 T1 Ga Remote Type Detector Ex ia IIC T4 Ga Remote Type Converter Ambient Temperature 40 to 60 C Integral Type 50 to 80 78 C Remote Type Detector 40 to 80 C Remote Type Converter Option LT below 29 C for Option MV at T6 Connect sensor...

Page 61: ... Case Cable Screw 1 Internal grounding terminal 2 External grounding terminal Washer Washer Cable Clamp Screw F1004 ai Figure 10 2 Wiring Procedure for Grounding Terminals 3 Operation WARNING Take care the following warning marking POTENTIAL ELECTROSTATIC CHARGING HAZARD Electrostatic charge may cause an explosion hazard Avoid any actions that cause the generation of electrostatic charge such as r...

Page 62: ...on Proof Applicable Standard C22 1 98 C22 2 No 0 M1991 C22 2 No 0 4 04 C22 2 No 0 5 1982 C22 2 No 25 1966 C22 2 No 30 M1986 C22 2 No 94 M1991 C22 2 No 142 M1987 C22 2 No 61010 1 04 ANSI ISA 12 27 01 2003 Certificate 1166201 Type of Protection Explosion proof for Class I B C and D Class II Groups E F and G Class III For Class I Division 2 location FACTORY SEALED CONDUIT SEAL NOT REQUIRED Enclosure ...

Page 63: ...ING Note a warning label worded as follows Warning OPEN CIRCUIT BEFORE REMOVING COVER Take care not to generate mechanical spark when access to the instrument and peripheral devices in hazardous locations 4 Maintenance and Repair WARNING The instrument modification or part replacements by other than authorized representatives of Yokogawa Electric Corporation are prohibited and will void CSA Certif...

Page 64: ... TC18920 TC18931 DY200 E TC19510 TC19519 TC19528 X TC18910 TC18921 TC18932 DY250 E TC19511 TC19520 TC19529 DY300 E TC19512 TC19521 TC19530 DY400 B TC18945 TC18955 TC18965 Model Shedder bar Material Remote Type Converter N None Indicator D With Indicator DYA TC14934 TC14935 Integral Type Flowmeter Remote Type Flowmeter None Indicator With Indicator Detector Converter Construction Ex d IIC T6 Flame ...

Page 65: ...re or software components associated with a block It is a bit string so that multiple errors may be shown 7 1007 RS_STATE State of the resource block state machine 8 1008 TEST_RW 0 AUTO Read write test parameter used only for conformance testing and simulation 9 1009 DD_RESOURCE Spaces String identifying the tag of the resource which contains the Device Description for this resource 10 1010 MANUFA...

Page 66: ...blocks will perform their FSAFE actions Supported only with PID function 29 1029 SET_FSTATE 1 OFF AUTO Allows the fail safe condition to be manually initiated by selecting Set Supported only with PID function 30 1030 CLR_FSTATE 1 OFF AUTO Writing a Clear to this parameter will clear the device fail safe state if the field condition if any has cleared Supported only with PID function 31 1031 MAX_NO...

Page 67: ...ion AI1 AI2 AI3 0 4000 4100 4200 Block Header TAG AI1 AI2 or AI3 Block Tag O S Information on this block such as Block Tag DD Revision Execution Time etc 1 4001 4101 4201 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 2 4002 4102 4202 TAG_DESC Spaces AUTO The user de...

Page 68: ... may be used directly Direct 1 or if the value is in different units and must be converted linearly Indirect 2 or with square root Ind Sqr Root 3 using the input range defined by the transducer and the associated output range Indirect Square Root is not used for the digitalYEWFLO 17 4017 4117 4217 LOW_CUT 0 0 AI1 0 0 AI2 0 0 AI3 AUTO Sets low cut point of output This low cut value become available...

Page 69: ...e stamp 37 4037 4237 TOTAL 0 Indicates the totalized flow rate 38 4038 4238 TOTAL_START 1 Stop AUTO Starts stops the totalizer 39 4039 4239 TOTAL_RATE_VA 1 O S Totalization rate Note 4 40 4040 4240 TOTAL_RESET 1 Off AUTO Resets the totalized flow rate This parameter value reverts to 1 Off after it has been set to 2 to perform resetting Note 1 An intended set value can be written only if Min OUT_SC...

Page 70: ...w with Calibration for the digitalYEWFLO 11 2011 XD_ERROR 0 No Error Indicates the error code of the error of the highest priority from among the errors currently occurring in the transducer block 12 2012 COLLECTION_ DIRECTORY 3 2013 0x80020380 2028 0x80020382 2031 0x30003 A directory that specifies the number starting indices and DD Item IDs of the data collections in each transducer within a tra...

Page 71: ... 1 turns ON when LIMSW_1_TARGET has gone beyond LIMSW_1_SETPOINT If the value of LIMSW_1_ ACT_DIRECTION is LO LIMIT limit switch 1 turns ON when LIMSW_1_TARGET has gone below LIMSW_1_ SETPOINT The unit set in LIMSW_1_UNIT applies 36 2036 LIMSW_1_ACT _DIRECTION 1 HI LIMIT O S Selects the direction of the limit switch 1 s actions 1 HI LIMIT high limit switch 2 LO LIMIT low limit switch 37 2037 LIMSW...

Page 72: ...AS STEAM Mass 5 GAS STD Normal 50 2050 TEMPERATURE _UNIT C 1001 Note 5 O S Selects the unit of temperature 51 2051 PROCESS_TEMP 15 Note 5 O S Sets the normal operating temperature of the process Setting range 999 9 to 999 9 52 2052 BASE_TEMP 15 Note 5 O S Sets the temperature under the standard conditions of the process Setting range from 999 9 to 999 9 53 2053 DENSITY_UNIT Kg m3 1097 Note 5 O S S...

Page 73: ...rature Temperature can only be selected for a mode with the MV option 4 Integrator Out 72 2072 DISPLAY_CYCLE 1 500 ms O S AUTO Sets the display refresh cycle of the LCD indicator as a multiple of 500 milliseconds Setting range 1 to 10 0 5 to 5 seconds 73 2073 USER_ADJUST 1 O S User set adjustment factor The measured flow rate multiplied by this factor is output Setting range 0 00001 to 32000 74 20...

Page 74: ...ITY_ UNIT updated periodically 89 2089 SENSOR _ERROR _RECORD 0 O S AUTO Record of the following errors regarding the sensor This record will be automatically cleared when no error has occurred for a month Recorded errors Flow over output Span set error Pre amp fault EEPROM fault Sensor fault Transient noise High vibration Clogging Fluctuating Temp over output Over temp Temp sensor fault Temp conve...

Page 75: ... 0 Not used in a digitalYEWFLO 11 6011 6111 OUT_STATE 0 Not used in a digitalYEWFLO 12 6012 6112 GRANT_DENY 0 AUTO Option to control access from the host computer and local control panel to tuning and alarm parameters Before write access to a parameter set the GRANT bit in this parameter to have the operation right to be granted Then after write access check the DENY bit in this parameter If the w...

Page 76: ...T Square root extraction is applied to the input to the AI function block and the result is output in the range set in OUT_SCALE This setting is not used for a digitalYEWFLO This output mode setting also applies to the scale and unit of indications on the LCD indicator Damping time constant setup PRIMARY_VALUE_FTIME of TR block Set the time constant of damping in seconds The setting of PRIMARY_VAL...

Page 77: ...rameter that displays the running condition of each block Target Sets the operating condition of the block Actual Indicates the current operating condition Permit Indicates the operating condition that the block is allowed to take Normal Indicates the operating condition that the block will usually take Note 2 The followings are the operating conditions which the individual blocks will take AI Fun...

Page 78: ...the upper range limit in EU at 100 of OUT_SCALE Set the output value corresponding to the lower range limit in EU at 0 of OUT_SCALE Set the required unit in Unit Index of XD_SCALE Example To set the output range to 0 to 100 Set EU at 100 of XD_SCALE to 100 Set EU at 0 of XD_SCALE to 0 Set Unit Index of XD_SCALE to 1342 1 1 Each unit is expressed using a 4 digit numeric code Read Table 6 2 and Sect...

Page 79: ... LIMIT Low limit switch Access the LIMSW_1_TARGET parameter and select the flow rate or temperature to be monitored by limit switch 1 1 PRIMARY_VALUE Flow rate 2 SECONDARY_VALUE Temperature The above shows the setting procedure for limit switch 1 As necessary also set up limit switch 2 4 Setting up the LCD display Select the data to be displayed on the LCD indicator and the display refresh cycle F...

Page 80: ...ue Unit AR OUT_RANGE Units Index Format AR OUT_RANGE Eu_100 Eu_0 Note 1 If L_TYPE is set to DIRECT the following equation applies to determine the displayed percentage Percentage OUT Value XD_SCALE EU at 0 XD_SCALE EU at 100 XD_SCALE EU at 0 100 Note 2 If L_TYPE is set to INDIRECT the following equation applies to determine the displayed percentage Percentage OUT Value OUT_SCALE EU at 0 OUT_SCALE ...

Page 81: ... the damping time constant in units of seconds 3 Simulation Perform simulation of each AI function block by setting the desired value and status of the input to the block Access the SIMULATE_D parameter and change the values of its elements as follows FA0212 ai Access the SIMULATE_D Value element and set the desired input value Access the SIMULATE_D Status element and set the desired status code C...

Page 82: ...Device Failure Not provided XD_ERROR COM Circuit Failure 1 AL 02 PV Status Bad Device Failure OUT Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure SV Status Bad Device Failure AL 03 COM Circuit Failure 2 AL 03 BLOCK_ERR Other PV Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure Not provided XD_ERROR COM Circui...

Page 83: ...d Device Failure PV Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure PV Status Uncertain Non Specific Provided ON XD_ERROR Input Circuit Failure AL 06 PV Status Uncertain Sensor Conversion not Accurate OUT Status 1 Uncertain Non Specific 2 Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure OUT Status Default Bad Non S...

Page 84: ...TS Propagate Fault Forward Active Bad Device Failure Not provided OUT_D Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure AL 03 COM Circuit Failure 2 AL 03 PV_D Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure Not provided OUT_D Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Dev...

Page 85: ...IMSW SECONDARY_ VALUE Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure 2 Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Activez Bad Device Failure Provided ON OUT_D Status 1 TARGET in TB s LIMSW PRIMARY_VALUE Uncertain Non Specific TARGET in TB s LIMSW SECONDARY_ VALUE Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device...

Page 86: ...ard Active Bad Sensor Failure PV Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Sensor Failure Not provided XD_ERROR Temp Sensor Failure AL 08 PV Status 2 Bad Sensor Failure OUT Status 2 Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Sensor Failure OUT Status Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Sensor Fail...

Page 87: ...ult Forward Active Bad Device Failure AL 08 Temp Sensor Failure AL 08 PV_D Status 1 TARGET in TB s LIMSW SECONDARY_VALUE Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Sensor Failure 2 Default Bad Non Specific STATUS_OPTS Propagate Fault Forward Active Bad Device Failure Not provided OUT_D Status 1 TARGET in TB s LIMSW SECONDARY_VALUE Default Bad Non Specific STATUS_OPTS P...

Page 88: ... Block IT Block AR Block AlarmReset SW default AL 23 AI1 in O S Mode AL 23 Provided ON AL 24 AI2 in O S Mode AL 24 Provided OFF AL 25 DI1 in O S Mode AL 25 BLOCK_ERR Out of Service Provided OFF OUT_D Status OFF Bad Out of Service AL 26 DI2 in O S Mode AL 26 BLOCK_ERR Out of Service Provided OFF OUT_D Status Bad Out of Service ...

Page 89: ...43 Temp Over Range AL 43 BLOCK_ERR Other PV Status 2 Uncertain Non Specific PV Status Uncertain Non Specific Not provided XD_ERROR Temp Over Range AL 43 PV Status 2 Uncertain Non Specific OUT Status 2 Uncertain Non Specific OUT Status Uncertain Non Specific SV Status Uncertain Substitude AL 51 Transient Vibration AL 51 PV Status Uncertain Last Usable Value PV Status Uncertain Non Specific PV Statu...

Page 90: ...SW PRIMARY_ VALUE Uncertain Non Specific AL 42 Flow Span Exceed Limit AL 42 PV_D Status TARGET in TB s LIMSW PRIMARY_ VALUE Uncertain Non Specific Not provided OUT_D Status TARGET in TB s LIMSW PRIMARY_ VALUE Uncertain Non Specific AL 43 Temp Over Range AL 43 PV_D Status 1 TARGET in TB s LIMSW SECONDARY_VALUE Uncertain Non Specific 2 Uncertain Non Specific Not provided OUT_D Status 1 TARGET in TB ...

Page 91: ...53 PV_D Status TARGET in TB s LIMSW SECONDARY_VALUE Uncertain Non Specific Provided OFF OUT_D Status OFF TARGET in TB s LIMSW SECONDARY_VALUE Uncertain Non Specific AL 54 Fluctuating AL 54 PV_D Status TARGET in TB s LIMSW PRIMARY_ VALUE Uncertain Non Specific Provided OFF OUT_D Status OFF TARGET in TB s LIMSW PRIMARY_ VALUE Uncertain Non Specific AL 61 Indicator Over Range AL 61 Not provided ...

Page 92: ... Status Default STATUS_OPTS Uncertain if Man mode Active Uncertain Non Specific Provided OFF AL 66 AI2 Simulation Active AL 66 BLOCK_ERR Simulation Active BLOCK_ERR Simulation Active Provided OFF AL 67 AI2 Not Scheduled AL 67 Provided OFF AL 68 DI1 in Man Mode AL 68 Provided OFF AL 69 DI1 Simulation Active AL 69 BLOCK_ERR Simulation Active Provided OFF AL 70 DI1 Not Scheduled AL 70 Provided OFF AL...

Page 93: ...vided OFF AL 68 DI1 Man Mode AL 68 OUT Status Default STATUS_OPTS Uncertain if Man mode Active Uncertain Non Specific Provided OFF AL 69 DI1 Simulation Active AL 69 BLOCK_ERR Simulation Active Provided OFF AL 70 DI1 Not Scheduled AL 70 Provided OFF AL 71 DI2 Man Mode AL 71 OUT Status Default Good NC Non Specific STATUS_OPTS Uncertain if Man mode Active Uncertain Non Specific Provided OFF AL 72 DI2...

Page 94: ...ded OFF AL 80 IT in Man Mode AL 80 Provided OFF AL 81 IT Not Scheduled AL 81 Provided OFF AL 82 IT Total Backup Err AL 82 Provided OFF AL 83 IT Conf Err AL 83 Provided OFF AL 84 AR in Man Mode AL 84 Provided OFF AL 85 AR Not Scheduled AL 85 Provided OFF AL 86 AR Range Conf Err AL 86 Provided OFF AL 87 AR Temp IN Over Range AL 87 Provided OFF AL 88 AR Press IN Over Range AL 88 Provided OFF AL 89 AR...

Page 95: ...AR in Man Mode AL 84 OUT Status Default Good NC Non Specific STATUS_OPTS Uncertain if Man mode Active Uncertain Non Specific Provided OFF AL 85 AR Not Scheduled AL 85 Provided OFF AL 86 AR Range Conf Err AL 86 BLOCK_ERR Configuration Error Provided OFF AL 87 AR Temp IN Over Range AL 87 OUT Status Uncertain Non Specific Provided OFF AL 88 AR Press IN Over Range AL 88 OUT Status Uncertain Non Specif...

Page 96: ...3 alarms pertaining to IT 0 Bit 13 AL 77 to AL 79 alarms pertaining to AI3 0 Bit 12 AL 62 to AL 64 alarms pertaining to AI1 1 Bit 11 AL 65 to AL 67 alarms pertaining to AI2 0 Bit 10 AL 68 to AL 70 alarms pertaining to DI1 0 Bit 9 AL 71 to AL 73 alarms pertaining to DI2 0 Bit 8 AL 74 to AL 76 alarms pertaining to PID 0 Bit 7 Not used Bit 6 Corresponds to parameter K45 in a non Fieldbus type digital...

Page 97: ... 100 Ind Sqr Root Indirect Direct Simulate SIMULATE Scaling XD_SCALE Scaling OUT_SCALE Alarms HI LO MODE Filter PV_FTIME CHANNEL PV Cutoff LOW_CUT FA0402 ai Figure A4 2 Function Diagram of AI Block A4 2 DI Function Block FA0403 ai DI Transducer OUT_D Figure A4 3 Input Output of DI Block FA0404 ai Output OUT_D FIELD_VAL_D Simulate SIMULATE_D Optional Invert Alarms DISC MODE Filter PV_FTIME CHANNEL ...

Page 98: ...IN_1 value whose unit has been converted y IN_2 value whose unit has been converted t block execution period A5 1 Schematic Diagram of Integrator Block The following shows the schematic diagram of the Integrator block OUT IN_1 RESET_IN REV_FLOW1 1 TIME_UNIT2 IN_2 REV_FLOW2 PULSE_VAL2 1 UNIT_CONV OP_CMD_INT RESET INTEG_OPTS CARRY Reverse Forward Forward OUT_PTRIP OUT_TRIP INTEG_OPTS FLOW TYPE Add C...

Page 99: ...d changing the internal status to Good the value of Good just before the status changed to Bad is used A5 2 2 Converting the Rate The following describes an example of rate conversion In rate conversion firstly convert the unit of two inputs to that based on seconds Next convert the unit of the inputs to the same unit to be added together The unit of IN_2 is standardized to that of IN_1 Then calcu...

Page 100: ...V input1 counts number of pulse kg kg pulse increment1 increment2 lb pulse input2 counts number of pulse lb kg Current read value Previous read value Current read value Previous read value PULSE_VAL1 19 pulse value1 PULSE_VAL2 20 pulse value2 UNIT_CONV 18 conversion factor FA0503 ai Figure A5 3 Increment Calculation with Counter Input A5 2 4 Determining the Input Flow Direction The Integrator bloc...

Page 101: ...n bit 7 of INTEG_OPTS Add zero if bad has been set if the status of a value after addition is Bad the value after addition increment becomes 0 A5 4 Integrator When addition is complete its result will be passed to the integrator Integration consists of combinations of a reset method and counting up down There are the following seven integration types which can be set using INTEG_TYPE 1 UP_AUTO Cou...

Page 102: ...NF AccTotal INF OUT reaches 0 RESET_IN 1 OP_CMD_INT 1 DN_DEM 4 Counting down Starting from TOTAL_SP INF Total INF 0 ATotal INF 0 RTotal INF INF AccTotal INF RESET_IN 1 OP_CMD_INT 1 PERIODIC 5 Counting up Starting from 0 INF Total INF 0 ATotal INF 0 RTotal INF INF AccTotal INF At the period specified by CLOCK_PER OP_CMD_INT 1 DEMAND 6 Counting up Starting from 0 INF Total INF 0 ATotal INF 0 RTotal ...

Page 103: ...OD_LIM Good UNCERT_LIM PCT_INCL GOOD_LIM Uncertain PCT_INCL UNCERT_LIM Bad If INTEG_TYPE is 5 6 or 7 the status of the trip output becomes Good NS Constant 0 UNCERT_LIM GOOD_LIM 100 PCT_INCL GOOD Uncertain Bad PCT_INCL 100 1 msp of RTotal msp of ATotal msp of RTotal RTotal value that is converted into a short floating point number msp of ATotal ATotal value that is converted into a short floating ...

Page 104: ...e MAN mode integration starts with the value rewritten in MAN mode after the mode was returned to AUTO The values in OUT_TRIP and OUT_PTRIP are determined according to the correlation between OUT and TOTAL_SP PRE_TRIP For counting up the OUT value is as follows OUT TOTAL_SP PRE_TRIP OUT_TRIP 0 COUT_PTRIP 0 TOTAL_SP PRE_TRIP OUT TOTAL_ SP OUT_TRIP 0 COUT_PTRIP 1 TOTAL_SP OUT OUT_TRIP 1 COUT_PTRIP 1...

Page 105: ...5 seconds the next reset will not be made for 5 seconds from the previous reset CLOCK_PER If INTEG_TYPE is PERIODIC 5 or PER DEM 7 a reset is made at the period sec set to the CLOCK_PER parameter If the value in CLOCK_PER is smaller than the function block s execution period bit 1 of BLOCK_ ERR Block Configuration Error is set A5 6 Reset A5 6 1 Reset Trigger There are the following five types of r...

Page 106: ...returns to 0 4 Judging OUT_TRIP and OUT_PTRIP OUT_TRIP and OUT_PTRIP are judged again on the basis of the cleared integrated values Read APPENDIX 5 5 Output Process There are three options relating to a reset i Confirm reset bit 8 of INTEG_OPTS ii Carry bit 6 of INTEG_OPTS iii Generate reset event bit 9 of INTEG_ OPTS i Confirm reset bit 8 of INTEG_OPTS If this option is enabled the next reset is ...

Page 107: ...t 15 OUT_PTRIP 0 Value AUTO An output parameter informing the user that the integrated value is reaching the setpoint 16 TIME_UNIT1 sec 1 MAN Set the time unit of the Rate kg s kg min kg h etc of the corresponding IN 17 TIME_UNIT2 sec 1 MAN 18 UNIT_CONV 1 0 AUTO Specify the unit conversion factor for standardizing the unit of IN_2 into that of IN_1 19 PULSE_VAL1 1 0 MAN Set the factor for converti...

Page 108: ...t is made 31 PRE_TRIP 100000 0 AUTO Set an allowance applied before an integrated value exceeds the setpoint 32 N_RESET 0 0 Indicates the number of resets in the range of 0 to 999999 33 PCT_INCL 0 0 The ratio of the integrated values of the absolute values of the increments whose status is Good to the integrated values of the absolute values of the increments irrelevant to the status Equation 34 G...

Page 109: ..._IN_3 x GAIN_IN_3 IN_2 IN_3 IN PV t_1 t_2 t_3 RANGE_LO BIAS_IN_i GAIN_IN_i RANGE EXTENSION FUNCTION RANGE_HI ARITH_TYPE ARITH_TYPE 1 to 10 ARITH_TYPE 32 to 36 OUT func COMP_LO_LIM COMP_HI_LIM OUT_HI_LIM OUT_LO_LIM x GAIN BIAS PRE_OUT MAN O S FA0601 ai Figure A6 1 AR Block The Arithmetic block is divided into three sections Input section Makes a go no go decision on the use of an input value switch...

Page 110: ...wo main inputs seamlessly FA0602 ai RANGE_LO PV IN_LO PV g 3 IN 1 g 3 IN_LO PV IN RANGE_HI IN Formula based on 1 and 2 2 Range for IN 1 Range for IN_LO Figure A6 2 Range Extension Function and PV PV is a parameter with status information and PV status is determined by the value of g If g 0 5 The status of IN_LO is used If g 0 5 The status of IN is used Determination of the status is made with a hy...

Page 111: ...inputs there are options known as IN_i Use uncertain and IN_i Use bad If these options are valid an IN_i with uncertain or bad status is internally interpreted as a good IN_i The exception is that if the input status is Bad Not Connected INPUT_OPTS does not apply and the input is considered bad as is A6 2 4 Relationship between the Main Inputs and PV The value and PV status are determined by the s...

Page 112: ...x Correction Value Correction Value Saturated steam density calculated from t_2 Press input Pressure range 0 101417978 to 12 85752189 MPa 34 Superheat steam Superheat steam density calculation based on IAPWS IF97 func PV x Correction Value Correction Value Superheat steam density calculated from t_1 Temp input and t_2 Press input Temperature range 100 to 330 C Pressure range 0 101417978 to 12 8575...

Page 113: ...determination is made to see if the sub status of each input is Not Connected Note that the main inputs may be accepted if IN or IN_LO is not in Not Connected sub status In this case the number of inputs that are not in Not Connected sub status is regarded as N A6 4 Output Section After executing the computing equation the block applies a gain to the calculated result and then adds a bias to it It...

Page 114: ...us becomes good even if the status of main inputs is uncertain or the status of auxiliary inputs is uncertain or bad The PV status is classified by the following If the statuses of two main inputs are both good or anything other than good Read APPENDIX 6 2 1 Main Inputs If only one of the statuses of two main inputs is good If the status of IN is good and that of IN_ LO is anything other than good...

Page 115: ...r making a memo Output scaling for the host for making a memo 10 PV_SCALE O S 11 OUT_RANGE AUTO 12 GRANT_DENY AUTO 0 The parameter used to check if various operations have been executed The bits in the GRANT parameter corresponding to various operations are set before any of them are executed After the operations are complete the DENY parameter is checked to find out if any bit corresponding to th...

Page 116: ...lation approximating polynomial calculation 0 to 3 BTU stands for British thermal unit HTG stands for hydrostatic tank gauging 30 BAL_TIME AUTO 0 Time taken to return to the set value 31 BIAS AUTO 0 Bias value used to calculate the output 32 GAIN AUTO 1 Gain value used to calculate the output 33 OUT_HI_LIM AUTO INF Maximum output value 34 OUT_LO_LIM AUTO INF Minimum output value 35 UPDATE_EVT Indi...

Page 117: ...AI Mass Flow Rate Press AI DYF AI3 DYF AI2 Mass Flow Rate or Volumetric Flow Rate at Normal Condition Press AI DYF AI3 Temp AI Mass Flow Rate or Volumetric Flow Rate at Normal Condition Press AI AR IN IN_1 IN_2 OUT AR IN IN_1 IN_2 OUT AR IN IN_1 IN_2 OUT AR IN IN_1 IN_2 OUT DYF AI3 DYF AI2 Mass Flow Rate DYF AI3 Temp AI Mass Flow Rate ARITH_TYPE 32 Saturated steam Temperature In case of using exte...

Page 118: ...AR_PRESSURE_UNIT the pressure unit Selectable units Pressure unit does not distinguish gauge pressure absolute pressure Also if the input is a pressure gauge pressure set the value of atmospheric pressure in BIAS_IN_2 If you want to steam saturation density operation temperature or pressure the superheated steam density computation is set density units AR_DENSITY_UNIT If you are the gas temperatur...

Page 119: ... for Compel Data 4 Time synchronization Periodically transmits the time data to all fieldbus devices on the segment and returns the time data in response to a request from a device 5 Live list equalization Sends the live list data to link masters on the same segment 6 LAS transfer Transfers the right to be the LAS on the segment to another link master A7 2 Link Master A link master LM is any devic...

Page 120: ...evice that is capable of backing up the LAS follow the procedure below NOTE When changing the settings in a digitalYEWFLO add the digitalYEWFLO to the segment in which an LAS is running After making changes to the settings do not turn off the power to the digitalYEWFLO for at least 60 seconds 1 Set the node address of the digitalYEWFLO In general use an address from 0x14 to V FUN 1 Not used LM dev...

Page 121: ...ssage 3 PT transmission including final bit monitoring Passes a PT Pass Token message to devices included in the live list sequentially and monitors the RT Return Token and final bit returned in reply to the PT 4 CD transmission Transmits a CD Compel Data message at the scheduled times 5 Time synchronization Supports periodic TD Time Distribution transmissions and transmissions of a reply to a CT ...

Page 122: ...0x00 365 LIVE_LIST_STATUS_ARRAY_VARIABLE R 366 MAX_TOKEN_HOLD_ TIME_ARRAY 0 RW 1 Element1 0x0000 16 0x012c 16 2 Element2 0x012c 5 0x0000 27 3 Element3 0x0000 32 4 Element4 0x0000 32 5 Element5 0x0000 32 6 Element6 0x0000 32 7 Element7 0x0000 31 0x012c 1 8 Element8 0x012c 32 367 BOOT_OPERAT_FUNCTIONAL_CLASS Specified at the time of order RW 0x01 Standard 0x02 LM 368 CURRENT_LINK_ SETTING_RECORD 0 R...

Page 123: ...128 0x80 372 PLME_BASIC_INFO 0 R 1 InterfaceMode 0 0x0 2 LoopBackMode 0 0x0 3 XmitEnabled 1 0x1 4 RcvEnabled 1 0x1 5 PreferredReceiveChannel 1 0x1 6 MediaTypeSelected 73 0x49 7 ReceiveSelect 1 0x1 373 LINK_SCHEDULE_ACTIVATION_VARIABLE RW 374 LINK_ SCHEDULE_LIST_ CHARACTERISTICS_ RECORD 0 R 1 NumOfSchedules 0 2 NumOfSubSchedulesPerSchedule 1 3 ActiveScheduleVersion 0 4 ActiveSheduleOdIndex 0 5 Acti...

Page 124: ...ce address 0x00 and final bit to 0xFF The value of LiveListStatusArrayVariable in the case where devices having the addresses 0x10 and 0x15 in the fieldbus segment is shown below 0x00 00 84 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 Bit correspondences 0 0 0 0 0 0 0 0 0 0 0 0 00 0 0 0 0 0 1 0 0 0 0 1 0 0 0 10 0 15 FA0704 ai 5 MaxTokenHoldTimeArray An 8 6...

Page 125: ...nnel 6 1 0x80 Unused 7 Channel 7 1 0x80 Unused 8 Channel 8 1 0x80 Unused 11 PlmeBasicInfo Sub index Element Size bytes Value Description 1 InterfaceMode 1 0 0 Half duplex 1 Full duplex 2 LoopBackMode 1 0 0 Disabled 1 MAU 2 MDS 3 XmitEnabled 1 0x01 Channel 1 is enabled 4 RcvEnebled 1 0x01 Channel 1 is enabled 5 PreferredReceive Channel 1 0x01 Channel 1 is used for reception 6 MediaType Selected 1 0...

Page 126: ...the active schedules in the current LAS and the digitalYEWFLO are the same by reading LinkScheduleListCharacteristicsRecord index 374 for a digitalYEWFLO ActiveScheduleVersion subindex 3 A2 2 Make the digitalYEWFLO declare itself as and become the LAS by writing 0x00 false to PrimaryLinkMasterFlagVariable in the current LAS and 0xFF true to PrimaryLinkMasterFlagVariable index 364 in the digitalYEW...

Page 127: ...etwork Definition LAS digitalYEWFLO V ST V ST 4 V MID V MID 4 V MRD V MRD 12 A4 3 Check that the digitalYEWFLO is assigned an appropriate address The address of the digitalYEWFLO must not lie within either 0x00 to 0x10 or the range of unused unpolled node addresses determined by the current LAS s LM parameter settings which is V FUN to V FUN V NUM Read Section 5 2 Network Definition ...

Page 128: ... value of the SP is scaled to the range of the OUT and output as the OUT Feed forward Adds the value of the FF_VAL input to the PID block to the output from the PID computation Measured value tracking Equalizes the setpoint SP to the measured value PV Setpoint limiters Limit the value of setpoint SP within the preset upper and lower levels as well as limit the rate of change when the PID block is ...

Page 129: ...ails 14 STATUS_OPTS 0 O S Read APPENDIX 8 15 Manual Fallback for details 15 IN 0 Controlled value input 16 PV_FTIME 0sec AUTO Non negative Time constant in seconds of the first order lag filter applied to IN 17 BYPASS 1 off MAN 1 2 Whether to bypass the control computation 1 off Do not bypass 2 on Bypass 18 CAS_IN 0 Cascade setpoint 19 SP_RATE_DN 1 INF Positive Rate of decrease limit for setpoint ...

Page 130: ... to 15 Priority order of HI_HI_ALM alarm 49 HI_HI_LIM 1 INF PV_SCALE Setting for HI_HI_ALM alarm 50 HI_PRI 0 0 to 15 Priority order of HI_ALM alarm 51 HI_LIM 1 INF PV_SCALE Setting for HI_ALM alarm 52 LO_PRI 0 0 to 15 Priority order of LO_ALM alarm 53 LO_LIM 1 INF PV_SCALE Setting for LO_ALM alarm 54 LO_LO_PRI 0 0 to 15 Priority order of LO_LO_ALM alarm 55 LO_LO_LIM 1 INF PV_SCALE Setting for LO_L...

Page 131: ...i Where MVn change in control output PVn change in measured controlled value PVn PVn 1 T control period period_of_execution in Block Header K proportional gain GAIN 100 proportional band TI integral time RESET TD derivative time RATE The subscripts n and n 1 represent the time of sampling such that PVn and PVn 1 denote the PV value sampled most recently and the PV value sampled at the preceding co...

Page 132: ...PID block normally resides There are eight modes for a PID block as shown below Block Mode Description ROut Remote output mode in which the PID block outputs the value set in ROUT_IN RCas Remote cascade mode in which the PID block carries out the PID control computation based on the setpoint SP set via the remote cascade connection such as from a computer and outputs the computed result Cas Cascad...

Page 133: ...e respective target modes must be set beforehand to MODE_BLK permitted A transition to CAS RCAS or ROUT requires that initialization of the cascade connection has been completed A8 10 Bumpless Transfer Prevents a sudden change in the control output OUT at changes in block mode MODE_BLK and at switching of the connection from the control output OUT to the cascaded secondary function block The actio...

Page 134: ...alizes SP to PV when MODE_BLK target is set to Man SP PV Track in ROut Equalizes SP to PV when MODE_BLK target is set to ROut SP PV Track in LO or IMan Equalizes SP to PV when actual is set to LO or IMAN SP PV Track retained Target Equalizes SP to RCAS_IN when MODE_ BLK target is set to RCas and to CAS_IN when MODE_BLK target is set to Cas when the actual mode of the block is IMan LO Man or ROut D...

Page 135: ... value of MODE_BLK target to MAN when IN falls into Bad status Target to next permitted mode if Bad CAS IN Automatically changes the value of MODE_BLK target to Auto or to Man if Auto is not set in Permitted when CAS_IN falls into Bad status A8 16 Auto Fallback Auto fallback denotes an action in which a PID block changes mode from CAS cascade to AUTO automatic and continues automatic PID control w...

Page 136: ...vel MAN Higher priority level AUTO CAS RCAS ROUT Lower priority level FA0807 ai Only if Auto is included in MODE_BLK permitted If the block upstream of the PID block in question is a control block mode transitions of the PID block to CAS occur in the following sequence due to initialization of the cascade connection RCAS or ROUT AUTO CAS A8 18 Alarms There are two kinds of alarms generated by a PI...

Page 137: ... the PID block to O S and then set GAIN RESET and RATE to appropriate values 3 Check that the value of MODE_BLK actual of the AI block is AUTO 4 Set MODE_BLK target of the AO block to CAS AUTO meaning CAS and AUTO 5 Check that the value of BKCAL_IN status of the PID block is not Bad 6 Check that the value of IN status of the PID block is not Bad 7 Check that AUTO is set in MODE_BLK permitted of th...

Page 138: ...s 4 Device Status 5 Device Status 6 Device Status 7 Device Status 8 Alert Parameters Block Alarm Unacknowledged Alarm State Time Stamp Subcode Value Alarm Sum Current Unacknowledged Unreported Disabled Acknowledge Option Write Priority Write Alarm Unacknowledged Alarm State Time Stamp Subcode Discrete Value Update Event Unacknowledged Update State Time Stamp Static Rev Relative Index Others Restar...

Page 139: ...re Base Pressure Other Condition set Primary Value Filter Time Deviation First Temperature Coef Second Temperature Coef Secondary Value Filter Time Cable Length Characterize Meter Size Select Body Type Vortex Sensor Type K Factor Unit K Factor Value Display Set Upper Display Mode Lower Display Mode Display Cycle Adjust Reynolds Adjust Viscosity Value Flow Adjust User Adjust Gas Expansion Fact Main...

Page 140: ...knowledged Alarm State Time Stamp Subcode Value Alarm Summary Current Unacknowledged Unreported Disabled Acknowledge Option Alarm Hysteresis High High Alarm Set High High Priority High High Limit High High Alarm Unacknowledged Alarm State Time Stamp Subcode Float Value High Alarm Set High Priority High Limit High Alarm Unacknowledged Alarm State Time Stamp Subcode Float Value Low Alarm Set Low Pri...

Page 141: ...tamp Subcode Value Alarm Summary Current Unacknowledged Unreported Disabled Acknowledge Option Alarm Hysteresis High High Alarm Set High High Priority High High Limit High High Alarm Unacknowledged Alarm State Time Stamp Subcode Float Value High Alarm Set High Priority High Limit High Alarm Unacknowledged Alarm State Time Stamp Subcode Float Value Low Alarm Set Low Priorit Low Limit Low Alarm Unac...

Page 142: ...tamp Subcode Value Alarm Summary Current Unacknowledged Unreported Disabled Acknowledge Option Alarm Hysteresis High High Alarm Set High High Priority High High Limit High High Alarm Unacknowledged Alarm State Time Stamp Subcode Float Value High Alarm Set High Priority High Limit High Alarm Unacknowledged Alarm State Time Stamp Subcode Float Value Low Alarm Set Low Priorit Low Limit Low Alarm Unac...

Page 143: ... Time Stamp Static Rev Index Others Simulate Discrete Simulate Discrete Grant Deny Grant Deny Query Device Standard parameters Menus Block Info Block Tag Tag Description Strategy Alert Key Block Mode Target Actual Permitted Normal Dynamic Variables Field Value Discrete Status Value Process Value Discrete Status Value Output Discrete Status Value Configuration Block Mode Target Actual Permitted Nor...

Page 144: ...iguration Block Mode Target Actual Permitted Normal Operator Command Integration Basic Settings Integration Type Total Setpoint Pre Trip Clock Period Unit Conversions Time Unit1 Time Unit2 Unit Conversion Pulse Val1 Pulse Val2 Scaling Limits Good Limit Uncertain Limit Outage Limit Output Range EU at 100 EU at 0 Units Index Decimal Options Integration Options Status Options Block Error Number of Re...

Page 145: ...it Output Parameters Balance Time Bias Gain Output High Limit Output Low Limit Output Range EU at 100 EU at 0 Units Index Decimal Density Factor Parameters Density Factor Setup Wizard Volumetric Flow Unit Temperature Set Temperature Unit Base Temperature Pressure Set Pressure Unit Base Pressure Abs Density Set Density Unit Base Density Other Value Set Deviation First Temperature Coef Second Temper...

Page 146: ...d Forward Gain Tracking Tracking Scale EU at 100 EU at 0 Units Index Decimal Options Control Options Status Options Shed Options Back Calculation Hysteresis Diagnostics Alerts Block Error Alert Parameters Block Alarm Unacknowledged Alarm State Time Stamp Subcode Value Alarm Summary Current Unacknowledged Unreported Disabled Acknowledge Option Alarm Hysteresis High High Alarm Set High High Priority...

Page 147: ...iquid Mass Gas Steam Mass Gas STD Normal Setup Wizard terminating Yes No Cancel Abort 1 Sub method FLUID_TYPE Setup Wizard Method Display the start message Check the Mode Actual automatically judgement Set the following parameter TEMPERATURE_UNIT PROCESS_TEMP Check the SENSOR_STATUS automatically judgement Jump to method of FLUID_TYPE Jump to method of THERMOMETER_FUNCTION Set the following parame...

Page 148: ...wing parameter BASE_TEMP 1 Set the following parameters FIRST_TEMP_COEF SECOND_TEMP_COEF 1 Set the following parameters PRESSURE_UNIT PROCESS_PRESSURE BASE_PRESSURE 1 Set the following parameter DEVIATION 1 Set the following parameters PRESSURE_UNIT PROCESS_PRESSURE 1 Jump to method of FLUID_TYPE Gas STD Normal Liquid Mass Superheat Steam Monitor Only Not Use Set the following parameters SECONDARY...

Page 149: ...ATIO TRIGGER_LEVEL Manual Auto O S Manual Auto Tuning at zero Set the following parameters NOISE_RATIO automatically judgement Check the NOISE_BALANCE_ MODE Tuning at zero FA1003 ai 3 Reynolds Adjust Method Reynolds Adjust Method Auto O S NOT ACTIVE ACTIVE Display the start message Display the end message END automatically judgement Mode Actual Set the following parameter REYNOLDS_ADJUST Set the f...

Page 150: ...y judgement Mode Actual Set the following parameter FLOW_ADJUST NOT ACTIVE Auto OOS END ACTIVE EXIT Display the end message FLOW_ADJ_FREQ FLOW_ADJ_DATA Do you want to set the following parameters FLOW_ADJ_FREQ FLOW_ADJ_DATA Set the following parameter FLOW_ADJ_FREQ 5 elements 1 1 Set the following parameters FLOW_ADJ_DATA 5 elements FA1005 ai ...

Page 151: ...M 01F06F00 01EN A10 2 Enhanced AR Block 1 Density Factor Setup Wizard DENSITY FACTOR SETUP WIZARD Display the start message automatically judgement Mode Actual Man OOS Not Man OOS Set the following parameters ARITH_TYPE FA1006 ai ...

Page 152: ... APPENDIX 10 METHOD A10 6 IM 01F06F00 01EN 1 Continued FA1007 ai ...

Page 153: ...e Flow Config Parameters Yes Not Man OOS Man OOS Exit automatically judgement Mode Actual Select the Flow Config Coef display mode Show Flow Config Parameters Display the following parameters CONFIG_ELEMENT01 16 Display the end message END Change Flow Config Parameters Enter an element number to change Do you want to change this element No Yes Set the following parameters AR_FLOW_CONFIG_ELEMENT FA...

Page 154: ... APPENDIX 10 METHOD A10 8 IM 01F06F00 01EN 3 Configuration Memo 2 Method FA1009 ai Configuration Memo 2 method Display the end message ...

Page 155: ...ed to prepare the following Software download tool Software for downloading file for each of the target field devices For the software download tool use only a program developed for that purpose For details see the software s User s Manual For information about updates of software binary files for field devices and how to obtain them visit the following web site http www yokogawa com fld CAUTION D...

Page 156: ...ary save the parameters using an engineering tool parameter setting utility or the like before carrying out a software download and then reconfigure the field device s after the download For details read APPENDIX 11 6 Steps after Activating a Field Device CAUTION The current dissipation of the target field device increases transitorily immediately after a download due to erasing of the FlashROM s ...

Page 157: ...ducer block calibration parameters that are retained in the nonvolatile memory inside the target device will remain unchanged after a software download However after a software update which causes an addition to the block parameters or blocks or to the system network management VFD parameters some parameters may be reset to the defaults thus requiring parameter setup and engineering again For deta...

Page 158: ...the setting of the download tool The download takes far longer than expected or fails frequently The fieldbus segment is noisy Check the noise level on the fieldbus segment An error occurs after activation Transient error caused by the internal resetting of the field device Check whether communication with the field device has recovered after a while The new software does not work after the activa...

Page 159: ...783 Polling error during FlashROM erasing 32784 Polling time out during FlashROM erasing 32785 Polling error during FlashROM writing 32786 Polling time out during FlashROM writing 32787 FlashROM driver undefined number error 32788 File endcode error 32789 File type error UPDATE ORIGINAL 32790 FlashROM driver undefined number error 32791 On start state error other than DWNLD_NOT_READY 32792 Start s...

Page 160: ... R W Read write permitted only for sub index 1 1 Command 3 2 State 1 3 Error Code 0 4 Download Domain Index 440 5 Download Domain Header Index 420 6 Activated Domain Header Index 430 7 Domain Name Device name 420 DOMAIN_HEADER 1 0 1 Header Version Number 0 2 Header Size 0 3 Manufacturer ID 4 Device Family 5 Device Type 6 Device Revision 0 7 DD Revision 0 8 Software Revision 9 Software Name 10 Doma...

Page 161: ...oad Class 1 Indicates the download class 1 Class 1 2 Write Rsp Returned For ACTIVATE 1 Indicates whether a write response is returned to the ACTIVATE command 1 Write Response Returned 3 Write Rsp Returned For PREPARE 1 Indicates whether a write response is returned to the PREPARE command 1 Write Response Returned 4 Reserved 1 Reserved 5 ReadyForDwnld Delay Secs 2 Indicates the maximum delay after ...

Page 162: ...ber of the domain header to which the download is performing 6 Activated Domain Header Index 4 Indicates the index numbers of the domain header currently running 7 Domain Name 8 Indicates the domain name With this product Domain Name indicates the field device name 3 DOMAIN_HEADER Sub Index Element Size Bytes Description 1 Header Version Number 2 Indicates the version number of the header 2 Header...

Page 163: ...e to display whether or not the hardware status and configuration are normal as the result of self diagnosis performed by an FF H1 device Read IM 33Y05Q10 11E The following figure shows an example of the DeviceViewer window displayed for the digitalYEWFLO module Refresh button Stop button Set Refresh Period button If several alarms were generated the items are displayed in sequential cycles FA1201...

Page 164: ...xceeds the range limit AL 42 Remedy Check the TB and AI1 parameters RS DEVICE_ STATUS_4 bit6 Temp Over Range AL 43 AL 43 Temperature is over the range AL 43 Regulated in the upper or lower limit value Remedy This case is out of specifications Check the process temperature RS DEVICE_ STATUS_4 bit5 Transient Vibration AL 51 AL 51 The transient vibration makes the current flow rate output constant AL...

Page 165: ... Block Mode Target AI2 MODE_BLK Target toAuto or other mode RS DEVICE_ STATUS_3 bit14 AI2 Simulation Active AL 66 AL 66 AI2 Block is in simulation mode AL 66 Remedy Change the AI2 Simulation Enable Disable AI2 SIMULATE_ENABLE to Disabled RS DEVICE_ STATUS_3 bit13 AI2 Not Scheduled AL 67 AL 67 AI2 Block is not scheduled AL 67 Remedy Make a schedule of AI2 Block RS DEVICE_ STATUS_3 bit12 AI3 in O S ...

Page 166: ...6 IT in Man Mode AL 80 AL 80 IT Block is in Manual mode AL 80 Remedy Change the IT Block Mode Target IT MODE_BLK Target to Auto or other mode RS DEVICE_ STATUS_5 bit19 IT Not Scheduled AL 81 AL 81 IT Block is not scheduled AL 81 Remedy Make a schedule of IT Block RS DEVICE_ STATUS_5 bit18 IT Total Backup Err AL 82 AL 82 IT Total backup failed Last IT Output Value IT OUT Value could not saved AL 82...

Page 167: ... Therefore AR Output AR OUT Value is uncertainty AL 92 Remedy Set the AR Compensation Coefficient AR AR_FLOW_CONFIG element again RS DEVICE_ STATUS_5 bit6 AR Output Unit Conf Err AL 93 AL 93 AR Output Range Units Index AR OUT_RANGE Unit Index is not selected rightly the corresponding to AR Arithmetic Type AR ARITH_TYPE AL 93 Remedy Read IM or Check the AR Output Range Units Index AR OUT_RANGE Unit...

Page 168: ... address number Revised a Node address numbers and Figure A6 3 Revised a description of Default Factory Setting of Index number 367 5th August 2008 3 1 3 2 4 2 4 3 5 6 5 7 5 9 5 11 6 1 6 2 6 3 6 4 6 5 6 6 6 7 7 2 8 1 to 8 3 9 1 to 9 5 A 1 to A 39 A 41 to A 60 A 71 A 80 to A 88 A 89 to A 96 A 98 A 99 A 99 A 105 Addition and revision to 3 2 2 2 Added A13 AR and IT blocks into Figure 3 1 Added DEVICE...

Page 169: ...n 10 5 Correction of Appendix 1 Correction of Appendix 2 2 and 2 3 Revision of Appendix 3 Correction of Appendix 5 2 1 Correction of Appendix 5 3 1 Correction of Appendix 5 6 1 Correction of Appendix 5 6 3 Correction of Appendix 5 7 Correction of Appendix 6 Correction of Appendix 6 2 4 Correction of Appendix 6 3 1 to 6 3 3 Correction of Appendix 6 4 1 and 6 4 2 Correction of Appendix 6 5 Addition ...

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