VORTEX-Flowmeter 2-wire compact instrument SWIRL-Flowmeter 2-wire compact instrument Valid for software versions X.10 and higher VORTEX-VT/VR

Transcription

1 VORTEX-VT/VR SWIRL-ST/SR Datalink Description Foundation TM Fieldbus VORTEX-Flowmeter 2-wire compact instrument SWIRL-Flowmeter 2-wire compact instrument Valid for software versions X.10 and higher D184B093U20 Rev. 02 /

2 Contents 1. COMMON DESCRIPTION FOUNDATION FIELDBUS... 5 DEVICES WITH FOUNDATION FIELDBUS BLOCK DESCRIPTION RESOURCE BLOCK ST_REV (Static Revision Parameter) TAG_DESC (Tag Description Parameter) STRATEGY (Strategy Parameter) ALERT_KEY (Alert_Key Parameter) MODE_BLK (Mode Parameter) BLOCK_ERR (Block Error Parameter) RS_STATE TEST_RW DD_RESOURCE MANUFAC_ID DEV_TYPE DEV_REV DD_REV GRANT_DENY HARD_TYPES RESTART FEATURES FEATURES_SEL CYCLE_TYPE CYCLE_SEL MIN_CYCLE_T MEMORY_SIZE NV_CYCLE_T FREE_SPACE FREE_TIME SHED_RCAS SHED_ROUT FAULT_STATE SET_FSTATE CLR_FSTATE MAX_NOTIFY LIM_NOTIFY CONFIRM_TIME WRITE_LOCK UPDATE_EVT BLOCK_ALM ALARM_SUM ACK_OPTION WRITE_PRI WRITE_ALM FUNCTION BLOCK (AI) ST_REV (Static Revision Parameter) TAG_DESC (Tag Description Parameter) STRATEGY (Strategy Parameter) ALERT_KEY (Alert_Key Parameter) MODE_BLK (Mode Block Parameter) BLOCK_ERR (Block Error Parameter) PV (PV Parameter) OUT SIMULATE (Simulate Parameter) XD_SCALE (XD_Scale Parameter) 30

3 OUT_SCALE (Out_Scale Parameter) GRANT_DENY IO_OPTS STATUS_OPTS CHANNEL L_TYPE LOW_CUT PV_FTIME FIELD_VAL UPDATE_EVT BLOCK_ALM ALARM_SUM ACK_OPTION ALARM_HYS HI_HI_PRI HI_HI_LIM HI_PRI HI_LIM LO_PRI LO_LIM LO_LO_PRI LO_LO_LIM HI_HI_ALM HI_ALM LO_ALM LO_LO_ALM TRANSDUCER BLOCK ST_REV (Static Revision Parameter) TAG_DESC (Tag Description Parameter) STRATEGY (Strategy Parameter) ALERT_KEY (Alert_Key Parameter) MODE_BLK (Mode Block Parameter) BLOCK_ERR (Block Error Parameter) UPDATE_EVT BLOCK_ALM TRANSDUCER_DIRECTORY TRANSDUCER_TYPE XD_ERROR COLLECTION_DIRECTORY PRIMARY_VALUE_TYPE PRIMARY_VALUE PRIMARY_VALUE_RANGE CAL_POINT_HI CAL_POINT_LO CAL_MIN_SPAN CAL_UNIT SENSOR_TYPE SENSOR_RANGE SENSOR_SN SENSOR_CAL_METHOD SENSOR_CAL_LOC SENSOR_CAL_DATE SENSOR_CAL_WHO LIN_TYPE SECONDARY_VALUE SECONDARY_VALUE_UNIT 52 3

4 TERTIARY_VALUE FOURTH_VALUE FOURTH_VALUE_UNIT FLOW_UNIT_VOL FLOW_UNIT_MASS TOTALIZER_UNIT_VOL TOTALIZER_UNIT_MASS OPERATING_MODE DATA STRUCTURES DS-65 Value & Status Floating Point Structure DS-68 Scaling Structure DS-69 Mode Structure DS-70 Access Permissions DS-71 Alarm Float Structure DS-72 Alarm Discrete Structure DS-73 Event Update Structure DS-74 Alarm Summary Structure DS-82 Simulate Floating Point Structure DS-85 Test Structure COMMISSIONING BUS CONNECTION DIAGRAM TERMINAL ASSIGNMENT START UP FACTORY SETTING ADDITIONAL REFERENCES REVISION HISTORY

5 1. Common Description Foundation Fieldbus FOUNDATION FIELDBUS is an all-digital, serial, two-way communications system that serves as a Local Area Network (LAN) for factory/plant instrumentation and control devices. FOUNDATION FIELDBUS is designed to be compatible with the officially sanctioned SP50 standards project of the ISA (The International Society for Measurement and Control) and the specifications of the IEC (International Electrotechnical Committee). A unique characteristic of FOUNDATION FIELDBUS is interoperability that ensures its use of a fully specified, standard User Layer based on "Blocks" and Device Description technology. Detailed informations of the Foundation Fieldbus read on the webpage of the FIELDBUS FOUNDATION ( 5

6 2. Devices with Foundation Fieldbus V_1000/S_1000 with Foundation Fieldbus *) Manufacturer ID 800 (0x320) Device ID 20 (0x14) Device type Vortex Flowmeter Device name V_1000/S_1000 Models VT1000, VR1000, ST1000, SR1000 Foundation Fieldbus Specification 1.4 Certification with Interoperability Test Kit 4 Registration number: IT *) FOUNDATION Fieldbus Registered Trademark of Fieldbus FOUNDATION, Austin, Texas The electronic for the Vortex flowmeter is identical with the one for the Swirl flowmeter. For this reason in both operating modes the electronic is working as a FF device and the device name and the device order structure is indicating this. V: Vortex S: Swirl The lectronic is available as compact version, electronic directly on top of the sensor and as remote version, where the electronic is mounted remote e.g. at a wall. This even is indicated in the order structure of the device and can be seen in the model names. T: compact version R: remote version General informations of the device like technical specifications, operation functionality and local operator handling like using the keyboard are included in chapter 5, additional references. The communication tool which is actually approved to be used for the configuration of the Foundation Fieldbus version of the device is the National Configurator. The order code additionally includes the option Foundation Fieldbus. This is marked in the following table. 6

7 Order number Instrument design Compact Remote Series Standard 1 Dual sensor Ν 40 2 Process connection Flange 1 Wafer DIN PN 40 2 Wafer ANSI 3 Medium Liquid 1 Gas 2 Natural gas 3 Steam 4 Superheated 5 steam Oxygen 1) 6 Others 9 Materials/materials of construction Meter body / bluff body/sensor SST / SST / SST SST / Hastelloy C / SST Hast. C/ Hast. C/ Hast. C/ 3 SST / Hast. C/ Hast. C 4 Design level * Meter size Wafer Flan ged 10V X X X X X X X X X X X X X X X X T R Standard pressure rating DN 15 / 1/2" PN 40 A DN 25 / 1" PN 40 B DN 40 / 1 1/2" PN 40 C DN 50 / 2" PN 40 D DN 80 / 3" PN 40 E DN 100 / 4" PN 16 F DN 150 / 6" PN 16 G DN 200 / 8" PN 16 H DN 250 / 10" PN 16 J DN 300 / 12" PN 16 K Pressure rating DIN PN 10 DIN PN 16 DIN PN 25 2) * DIN PN 40 2) * DIN PN 64 DIN PN 100 ANSI 150 lb 2) * ANSI 300 lb 2) * Others B C D E F G K L Z 7

8 Sensor design Standard with groove 4 Others 9 Sensor seal Temperature range Kalrez O-ring 0 to +280 C 3 Viton O-ring -55 to +230 C (no steam) 4 PTFE O-ring -55 to +200 C 5 HT-Special -55 to +320 C 6 Others 9 Certification Standard (without) EEx ib IIC T4 Test certificate EN B 3) EEx B 3) Calibration Standard 3 Nameplate German 1 English 2 Software level * Operating mode Continuous flow A measurement Additional option Without 0 Hartprotocol 1 Profibus PA 4) 4 Foundation Fieldbus 4) 6 Power supply V DC or VDC at Ex, < 15 ma at Profibus PA A B C D A 4) no cerification for hazardous areas 8

9 3. Block Description The V_1000/S_1000 has three blocks, one Resource Block (RB), one Analog Input (AI) and one Tranducer Block (TB). The Resource Block describes the hardware of the Fieldbus device. The Analog Input Function Block is connected to the output of a transducer block. This describes the extended working of Process Variables (damping, range value monitoring). The Transducer Block is the standard flow block with calibration basic device access. 9

10 3.1 Resource Block The Resource Block describes the hardware of the Fieldbus device. For the Conformation classes A and B, exactly one Resource Block for a device is mandatory. To guarantee a clear ordering of the parameters to the block, the Resource Block Parameters in the transformation commands (or specifications) are given the label "RB". Block-Parameter (Summary) Relative Parameter Data Type Size Storage Type Read Write Usage Profile Index Name 1 ST_REV Unsigned 16 2 S R A M(A,B) 2 TAG_DESC OctetString 32 S R W A M(A,B) 3 STRATEGY Unsigned 16 2 S R W A M(A,B) 4 ALERT_KEY Unsigned 8 1 S R W A M(A,B) 5 MODE_BLK DS-69 4 N,D,S,S R A M(A,B) 6 BLOCK_ERR Bit String 2 D R C 7 RS_STATE Unsigned 8 1 D R A 8 TEST_RW DS D R W A 9 DD_RESOURCE OctetString 32 C R A 10 MANUFAC_ID Unsigned 32 4 C R A 11 DEV_TYPE Unsigned 16 2 S R A 12 DEV_REV Unsigned 8 1 C R A 13 DD_REV Unsigned 8 1 C R A 14 GRANT_DENY DS-70 2 S R W A 15 HARD_TYPES Bit String 2 C R A 16 RESTART Unsigned 8 1 D R W A 17 FEATURES Bit String 2 C R A 18 FEATURE_SEL Bit String 2 S R W A 19 CYCLE_TYPE Bit String 2 C R A 20 CYCLE_SEL Bit String 2 S R W A 21 MIN_CYCLE_T Unsigned 32 4 C R A 22 MEMORY_SIZE Unsigned 16 2 S R A 23 NV_CYCLE_T Unsigned 32 4 S R A 24 FREE_SPACE Float 4 D R C 25 FREE_TIME Float 4 D R C 26 SHED_RCAS Unsigned 32 4 S R W A 27 SHED_ROUT Unsigned 32 4 S R W A 28 FAULT_STATE Unsigned 8 1 D R W C 29 SET_FSTATE Unsigned 8 1 D R W A 30 CLR_FSTATE Unsigned 8 1 D R W A 31 MAX_NOTIFY Unsigned 8 1 C R A 32 LIM_NOTIFY Unsigned 8 1 S R W A 33 CONFIRM_TIME Unsigned 32 4 S R W A 34 WRITE_LOCK Unsigned 8 1 D R W C 35 UPDATE_EVT DS D R C 36 BLOCK_ALM DS D R C 37 ALARM_SUM DS-74 8 D R W C 38 ACK_OPTION Bit String 2 S R W A 39 WRITE_PRI Unsigned 8 1 S R W A 40 WRITE_ALM DS D R A 41 ITK_VER Unsigned 16 2 S R A 10

11 3.1.1 ST_REV (Static Revision Parameter) class A, B (Mandatory) Relative Index: 1 Data Type: Unsigned 16 Storage Type: static Default Value: 0 Write-cycle counter for the static Parameters of Resource Block, which do not change by themselves. The counter is incremented when a known static parameter is written into. Therefore, the Parameter ST_REV enables monitoring the changes in the Configuration TAG_DESC (Tag Description Parameter) Classes A, B (Mandatory) Relative Index: 2 Data type: OctetString Length (Octets): 32 Default value: (Blank) The user description of the intended application of the block. Read and Write. Comments: The text in TAG_DESC should be in VisibleString-Format (ISO 646) STRATEGY (Strategy Parameter) Classes A, B (Mandatory) Relative Index: 3 Data type: Unsigned 16 Default value: 0 The strategy field can be used to identify grouping of blocks. This data is not checked or processed by the block. Read and Write. 11

12 3.1.4 ALERT_KEY (Alert_Key Parameter) Classes A, B (Mandatory) Relative Index: 4 Data type: Unsigned 8 Length (Octets): 1 Default value: 0 The identification number of the plant unit. This information may be used in the host for sorting alarms, etc. Read and write MODE_BLK (Mode Parameter) Classes A, B (Mandatory) Relative Index: 5 Data type: DS-69 Length (Octets): 4 Storage type: MODE_BLK.Target - non_volatile MODE_BLK.Actual - dynamic MODE_BLK.Permitted - static MODE_BLK.Normal - static Default value: O/S The actual, target, permitted, and normal modes of the block.actual and allowable operation types of the block. Devices of Class A must at least allow the operation type (or mode) AUTO. 12

13 3.1.6 BLOCK_ERR (Block Error Parameter) Classes A, B (Mandatory) Relative Index: 6 Data type: Bit string Storage type: dynamic Default value: 0,0,0,0 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. 0 = Other 1 = Block Configuration Error 2 = Link Configuration Error 3 = Simulate Active 4 = Local Override 5 = Device Fail Safe Set 6 = Device Needs Maintenance Soon 7 = Input Failure/ process variable has BAD status 8 = Output Failure 9 = Memory Failure 10 = Lost Static Data 11 = Lost NV Data 12 = Readback Check Failure 13 = Device needs maintenance Now 14 = Power-up 15 = Out-of-Service (MSB) 13

14 3.1.7 RS_STATE Classes A, B (Mandatory) Relative Index: 8 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic State of the function block application state machine TEST_RW Classes A, B (Mandatory) Relative Index: 8 Data type: DS-53 Length (Octets): 112 Storage type: dynamic Read/write test parameter - used only for conformance testing. Read and write DD_RESOURCE Classes A, B (Mandatory) Relative Index: 9 Data type: Octet string Length (Octets): 32 Storage type: contained Default value: "" (blank) String identifying the tag of the resource which contains the Device Description for this resource. 14

15 MANUFAC_ID Classes A, B (Mandatory) Relative Index: 10 Data type: Unsigned 32 Length (Octets): 4 Storage type: contained Default value: 0x0320 Manufacturer identification number - used by an interface device to locate the DD file for the resource. RB.MANUFAC_ID = 0x320 (ABB Automation Products ) DEV_TYPE Classes A, B (Mandatory) Relative Index: 11 Data type: Unsigned 16 Default value: 0x0014 Manufacturer s model number associated with the resource - used by interface devices to locate the DD file for the resource. RB.DEV_TYPE = 0X DEV_REV Classes A, B (Mandatory) Relative Index: 12 Data type: Unsigned 8 Length (Octets): 1 Storage type: contained Default value: 1 Manufacturer revision number associated with the resource - used by an interface device to locate the DD file for the resource. 15

16 DD_REV Classes A, B (Mandatory) Relative Index: 13 Data type: Unsigned 8 Length (Octets): 1 Storage type: contained Default value: 3 Revision of the DD associated with the resource - used by an interface device to locate the DD file for the resource GRANT_DENY Classes A, B (Optional) Relative Index: 14 Data type: DS-70 Default value: 0 Options for controlling access of host computer or local control panels to operating, tuning and alarm parameters of the block. Read and write HARD_TYPES Classes A, B (Mandatory) Relative Index: 15 Data type: BitString Default value: 0 The types of hardware available as channel numbers on this resource. 16

17 RESTART Classes A, B (Optional) Relative Index: 16 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic Default value: 1 Several degrees of restart are possible: 1) Run 2) Restart resource 3) Restart with defaults 4) Restart processor Read and write FEATURES Classes A, B (Optional) Relative Index: 17 Data type: Bit String Storage type: contained Default value: 0x5000 Used to show resource block options. Read only FEATURES.UNICODE = not supported FEATURES.REPORT = supported FEATURES.FAULT_STATE = not supported FEATURES.SOFT_WRITE = supported FEATURES.HARD_WRITE = not supported FEATURES.OUT_READBACK = not supported FEATURES.DIRECT_WRITE = not supported 17

18 FEATURES_SEL Classes A, B (Optional) Relative Index: 18 Data type: Bit String Storage type: Static Default value: 0 Used to select resource block options. Read / Write CYCLE_TYPE Classes A, B (Optional) Relative Index: 19 Data type: Bit string Storage type: contained Default value: 0xC000 Identifies the block execution methods available for this resource. Read only CYCLE_TYPE = 0xC000 (scheduled) CYCLE_SEL Classes A, B (Optional) Relative Index: 20 Data type: Bit string Default value: 0xC000 Used to select the block execution method for this resource. Read and Write 18

19 MIN_CYCLE_T Classes A, B (Optional) Relative Index: 21 Data type: Unsigned 32 Length (Octets): 4 Storage type: contained Default value: 6400 (200 ms) Time duration of the shortest cycle interval of which the resource is capable. Read only MEMORY_SIZE Relative Index: 22 Data type: Unsigned 16 Default value: 0 Available configuration memory in the empty resource. To be checked before attempting a download. Read only NV_CYCLE_T Relative Index: 23 Data type: Unsigned 32 Length (Octets): 4 Default value: 0 Interval between writing copies of NV parameters to non-volatile memory. Zero means never. Read only 19

20 FREE_SPACE Relative Index: 24 Data type: Float Length (Octets): 4 Storage type: dynamic Default value: 0 Percent of memory available for further configuration. Zero in a preconfigured resource. Read only FREE_TIME Relative Index: 25 Data type: Float Length (Octets): 4 Storage type: dynamic Default value: 0 Percent of the block processing time that is free to process an additional resource. Read only SHED_RCAS Relative Index: 26 Data type: Unsigned 32 Length (Octets): 4 Default value: Timeout period at which to give up on computer writes to function block Rcas locations. Read and write. 20

21 SHED_ROUT Relative Index: 27 Data type: Unsigned 32 Length (Octets): 4 Default value: Timeout period at which to give up on computer writes to function block Rout locations. Read and write FAULT_STATE Relative Index: 28 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic Default value: 0 Condition set by loss of communication to an output block, fault promoted to an output block or a physical contact. When Fault State condition is set, then output function blocks will perform their FSTATE actions. Read and write SET_FSTATE Relative Index: 29 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic Default value: 0 Allows the Fault State condition to be manually initiated by selecting Set. Read and write. 21

22 CLR_FSTATE Relative Index: 30 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic Default value: 0 Writing a Clear to this parameter will clear the device fault state if the field condition, if any, has cleared. Read and write MAX_NOTIFY Relative Index: 31 Data type: Unsigned 8 Length (Octets): 1 Storage type: contained Default value: 8 Maximum number of unconfirmed notify messages possible LIM_NOTIFY Relative Index: 32 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic Default value: 8 Maximum number of unconfirmed notify messages allowed. Read and write. 22

23 CONFIRM_TIME Relative Index: 33 Data type: Unsigned 32 Length (Octets): 4 Default value: The time the resource will wait for confirmation of receipt of a report before trying again. Retry shall not happen when CONFIRM_TIME = 0. Read and write WRITE_LOCK Relative Index: 34 Data type: Unsigned 8 Length (Octets): 1 Storage type: dynamic Default value: 1 (unlocked) If set, no writes from anywhere are allowed. Cannot be cleared by software. Read and write UPDATE_EVT Relative Index: 35 Data type: DS-73 Length (Octets): 14 Storage type: dynamic This alert is generated by any change to the static data. Read Only 23

24 BLOCK_ALM Relative Index: 36 Data type: DS-72 Length (Octets): 13 Storage type: dynamic Thr block alarm is used for all configuration, hardware, connection or system problems in the block ALARM_SUM Relative Index: 37 Data type: DS-74 Length (Octets): 8 Storage type: dynamic The current alert status, unacknowledged states, unreported states, and disabled states of the alarms associated with the function block. Read and write ACK_OPTION Relative Index: 38 Data type: Bit String Default Value: 0 The selection of whether alarms associated with the block will be automatically acknowledged. Read and Write 24

25 WRITE_PRI Relative Index: 39 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 Priority of the alarm generated by clearing the write lock. Read and write WRITE_ALM Relative Index: 40 Data type: DS-72 Length (Octets): 13 Storage type: dynamic This alert is generated if the write lock parameter is cleared. WRITE_ALM = 0x0000 (Other) 25

26 3.2 Function Block (AI) The Analog Input Function Block is connected to the output of a transducer block. This describes the extended working of Process Variables (damping, range value monitoring). The function block is described for the conformation classes A and B. To guarantee a clear ordering of the parameters to the Block, The function block parameters in the transformation commands (or specifications) are given the label "FB". Block-Parameter (Overview) Relative Parameter Data Type Size Storage Type Read Write Usage Profile Index Name 1 ST_REV Unsigned 16 2 S R A M(A,B) 2 TAG_DESC Octet String 32 S R W A M(A,B) 3 STRATEGY Unsigned 16 2 S R W A M(A,B) 4 ALERT_KEY Unsigned 8 1 S R W A M(A,B) 5 MODE_BLK DS-69 4 N,D,S,S R A M(A,B) 6 BLOCK_ERR Bit String 2 D R C 7 PV DS-65 5 D R C 8 OUT DS-65 5 D R C 9 SIMULATE DS D R W A M(B) 10 XD_SCALE DS S R W A 11 OUT_SCALE DS S R W A 12 GRANT_DENY DS-70 2 D R W A 13 IO_OPTS Bit String 2 S R W A 14 STATUS_OPTS Bit String 2 S R W A 15 CHANNEL Unsigned 16 2 S R W A M(B) 16 L_TYPE Unsigned 8 1 S R W A 17 LOW_CUT Float 4 S R W A 18 PV_FTIME Float 4 S R W A M(A,B) 19 FIELD_VAL DS-65 5 D R C 20 UPDATE_EVT DS D R C 21 BLOCK_ALM DS D R C 22 ALARM_SUM DS-74 8 D R A M(A,B) 23 ACK_OPTION Bit String 2 S R W A 24 ALARM_HYS Float 4 S R W A 25 HI_HI_PRI Unsigned 8 1 S R W C 26 HI_HI_LIM Float 4 S R W A M(A,B) 27 HI_PRI Unsigned 8 1 S R W A 28 HI_LIM Float 4 S R W A M(A,B) 29 LO_PRI Unsigned 8 1 S R W A 30 LO_LIM Float 4 S R W A M(A,B) 31 LO_LO_PRI Unsigned 8 1 S R W A 32 LO_LO_LIM Float 4 S R W A M(A,B) 33 HI_HI_ALM DS D R A M(A,B) 34 HI_ALM DS D R A M(A,B) 35 LO_ALM DS D R A M(A,B) 36 LO_LO_ALM DS D R A M(A,B) 26

27 3.2.1 ST_REV (Static Revision Parameter) Class A, B (Mandatory) Relative Index: 1 Data type: Unsigned 16 Storage type: Not temporary Default Value: 0 Write-cycle counter for the static Parameters of Analog input Function Block, which do not change by themselves. The counter is incremented when a known static parameter is written into. Therefore, the Parameter ST_REV enables monitoring the changes in the Configuration TAG_DESC (Tag Description Parameter) Class A, B (Mandatory) Relative Index: 2 Data type: OctetString Length (Octets): 32 Default Value: (Blank) The user description of the intended application of the block. Read and Write. Comments: The text in TAG_DESC should be in VisibleString-Format (ISO 646) STRATEGY (Strategy Parameter) Class A, B (Mandatory) Relative Index: 3 Data type: Unsigned 16 Default Value: 0 The strategy field can be used to identify grouping of blocks. This data is not checked or processed by the block. Read and Write. 27

28 3.2.4 ALERT_KEY (Alert_Key Parameter) Class A, B (Mandatory) Relative Index: 4 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 The identification number of the plant unit. This information may be used in the host for sorting alarms, etc. Read and write MODE_BLK (Mode Block Parameter) Class A, B (Mandatory). Relative Index: 5 Data type: DS-69 Length (Octets): 4 Storage type: MODE_BLK.Target - non volatile MODE_BLK.Actual - dynamic MODE_BLK.Permitted - static MODE_BLK.Normal - static Default Value: O/S The actual, target, permitted, and normal modes of the block.actual and allowable operation types of the block. Devices of Class A must at least allow the operation type (or mode) AUTO. FB.MODE_BLK.Permitted = OS MAN AUTO FB.MODE_BLK.Normal = 3 (Auto) Switching of operating mode is not supported. 28

29 3.2.6 BLOCK_ERR (Block Error Parameter) Class A, B (Mandatory). Relative Index: 6 Data type: Bit String Storage type: dynamic Default Value: 0,0,0,0 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 PV (PV Parameter) 0 = Other 1 = Block Configuration Error 2 = Link Configuration Error 3 = Simulate Active 4 = Local Override 5 = Device Fail Safe Set 6 = Device Needs Maintenance Soon 7 = Input Failure/ process variable has BAD status 8 = Output Failure 9 = Memory Failure 10 = Lost Static Data 11 = Lost NV Data 12 = Readback Check Failure 13 = Device needs maintenance Now 14 = Power-up 15 = Out-of-Service (MSB) Class A, B (Mandatory). Relative Index: 7 Data type: DS-65 Length (Octets): 5 Storage type: dynamic This parameter is the primary analog value for use in executing the function block. FB.PV.STATUS = TB.PRIMARY_VALUE.STATUS FB.PV.VALUE = TB.PRIMARY_VALUE.VALUE 29

30 3.2.8 OUT Class A, B (Mandatory) Relative Index: 8 Data type: DS-65 Length (Octets): 5 Storage type: dynamic The primary analog value calculated as a result of executing the function block. OUT will have standard block alarms plus standard HI_HI, HI, LO, and LO_LO alarms applied to it. Read and write FB.OUT.STATUS: TB.PRIMARY_VALUE.STATUS SIMULATE (Simulate Parameter) Relative Index: 9 Data type: DS-82 Length (Octets): 11 Storage type: dynamic Default Value: 0,0,0,0 This Parameter allows the transducer analog input or output to the block to be manually supplied when simulate is enabled. When simulate is disabled, the simulate value and status track the actual value and status. Read and write XD_SCALE (XD_Scale Parameter) Relative Index: 10 Data type: DS-68 Length (Octets): 11 Default Value: 0 100% This Parameter contains the high and low scale values, engineering units code, and number of digits to the right of the decimal point used with the value obtained from the transducer for a specified channel. Read and write 30

31 OUT_SCALE (Out_Scale Parameter) Class A, B (Mandatory) Relative Index: 11 Data type: DS-68 Length (Octets): 11 Default Value: 0 100% The high and low scale values, engineering units code, and number of digits to the right of the decimal point to be used in displaying the OUT parameter and parameters which have the same scaling as OUT. Read and write GRANT_DENY Class A, B (Mandatory) Relative Index: 12 Data type: DS-70 Default Value: 0 Options for controlling access of host computer or local control panels to operating, tuning and alarm parameters of the block. Read and write IO_OPTS Class A, B (Mandatory) Relative Index: 13 Data type: Bit String Default Value: 0 Options which the user may select to alter input and output block processing. Read and write. 31

32 STATUS_OPTS Class A, B (Mandatory) Relative Index: 14 Data type: Bit String Default Value: 0 Options which the user may select in the block processing of status. Read and write CHANNEL Relative Index: 15 Data type: Unsigned 16 Default Value: 1 The number of the logical hardware channel that is connected to this I/O block. It defines the transducer to be used going to or from the physical world. The ordering between Transducer Block and Function Block therefore can not be changed. Therefore a write access should not be allowed L_TYPE Relative Index: 16 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 Determines if the values passed by the transducer block to the AI block may be used directly (Direct) or if the value is in different units and must be converted linearly (Indirect), or with square root (Ind Sqr Root), using the input range defined by the transducer (XD_SCALE) and the associated output range (OUT_SCALE). Read and Write 32

33 LOW_CUT Relative Index: 17 Data type: Float Length (Octets): 4 Default Value: 0 Limit used in square root processing. A value of zero percent of scale is used in block processing if the transducer value falls below this limit, in % of scale. This feature may be used to eliminate noise near zero for a flow sensor. Read and write PV_FTIME Class A, B (Mandatory) Relative Index: 18 Data type: Float Length (Octets): 4 Storage type: Not temporary Default Value: 0 Time constant of a damping filter for process variable. The time constant is the time in which the filter output reaches its value following a 99% rise in the input. Time constant is in seconds. Read and write FIELD_VAL Relative Index: 19 Data type: DS-65 Length (Octets): 5 Storage type: dynamic Raw percent of the field device in percent of the transducer span, with a status reflecting the Transducer condition, before signal characterization (L_TYPE) or filtering (PV_FTIME). 33

34 UPDATE_EVT Relative Index: 20 Data type: DS-73 Length (Octets): 14 Storage type: dynamic This alert is generated by any change to the static data. UPDATE_EVT.UNACKNOWLEDGED UPDATE_EVT.UPDATE_STATE UPDATE_EVT.TIME_STAMP UPDATE_EVT.STATIC_REVISION UPDATE_EVT.RELATIVE_INDEX BLOCK_ALM Relative Index: 21 Data type: DS-72 Length (Octets): 13 Storage type: dynamic The block alarm is used for all configuration, hardware, connection failure or system problems in the block. The cause of the alert is entered in the subcode field. The first alert to become active will set the Active status in the Status attribute. As soon as the Unreported status is cleared by the alert reporting task, another block alert may be reported without clearing the Active status, if the subcode has changed. BLOCK_ALM.UNACKNOWLEDGED BLOCK_ALM.ALARM_STATE BLOCK_ALM.TIME_STAMP BLOCK_ALM.SUBCODE BLOCK_ALM.VALUE 34

35 ALARM_SUM Relative Index: 22 Data type: DS-74 Length (Octets): 8 Storage type: dynamic Default Value: 0 The current alert status, unacknowledged states, unreported states, and disabled states of the alarms associated with the function block. Read and write ACK_OPTION Relative Index: 23 Data type: Bit String Default Value: 0 The selection of whether alarms associated with the block will be automatically acknowledged. Read and write ALARM_HYS Class A, B (Mandatory) Relative Index: 24 Data type: Float Length (Octets): 4 Default Value: 0.5 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. 35

36 HI_HI_PRI Class A, B (Mandatory) Relative Index: 25 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 Priority of the high high alarm. Read and write HI_HI_LIM Class A, B (Mandatory) Relative Index: 26 Data type: Float Length (Octets): 4 Default Value: +INF The setting for the high high alarm in engineering units. Read and write HI_PRI Class A, B (Mandatory) Relative Index: 27 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 Priority of the high alarm. Read and write. 36

37 HI_LIM Class A, B (Mandatory) Relative Index: 28 Data type: Float Length (Octets): 4 Default Value: +INF The setting for high alarm in engineering units. Read and write LO_PRI Class A, B (Mandatory) Relative Index: 29 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 Priority of the low alarm. Read and write LO_LIM Class A, B (Mandatory) Relative Index: 30 Data type: Float Length (Octets): 4 Default Value: -INF The setting for the low alarm in engineering units. Read and write. 37

38 LO_LO_PRI Class A, B (Mandatory) Relative Index: 31 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 Priority of the low low alarm. Read and write LO_LO_LIM Class A, B (Mandatory) Relative Index: 32 Data type: Float Length (Octets): 4 Default Value: -INF The setting for the low low alarm in engineering units. Read and write. 38

39 HI_HI_ALM Class A, B (Mandatory) Relative Index: 33 Data type: DS-71 Length (Octets): 16 Storage type: dynamic The status for high high alarm and its associated time stamp. Element name Data type size UNACKNOWLEDGED Unsigned 8 1 ALARM_STATE Unsigned 8 1 TIME_STAMP Time Value 8 SUBCODE Unsigned 16 2 VALUE Float 4 In devices without a clock, the time stamp is set to The other elements of the data structure are not available at this time HI_ALM Class A, B (Mandatory) Relative Index: 34 Data type: DS-71 Length (Octets): 16 Storage type: dynamic The status for high alarm and its associated time stamp. Element name Data type Size UNACKNOWLEDGED Unsigned 8 1 ALARM_STATE Unsigned 8 1 TIME_STAMP Time Value 8 SUBCODE Unsigned 16 2 VALUE Float 4 In devices without a clock, the time stamp is set to The other elements of the data structure are not available at this time. 39

40 LO_ALM Class A, B (Mandatory) Relative Index: 35 Data type: DS-71 Length (Octets): 14 Storage type: dynamic The status of the low alarm and its associated time stamp. Elementname Data type Size UNACKNOWLEDGED Unsigned 8 1 ALARM_STATE Unsigned 8 1 TIME_STAMP Time Value 8 SUBCODE Unsigned 16 2 VALUE Float 4 In devices without a clock, the time stamp is set to The other elements of the data structure are not available at this time LO_LO_ALM Class A, B (Mandatory) Relative Index: 36 Data type: DS-71 Length (Octets): 16 Storage type: dynamic The status of the low low alarm and its associated time stamp. Element name Data type size UNACKNOWLEDGED Unsigned 8 1 ALARM_STATE Unsigned 8 1 TIME_STAMP Time Value 8 SUBCODE Unsigned 16 2 VALUE Float 4 In devices without a clock, the time stamp is set to The other elements of the data structure are not available at this time 40

41 3.3 Transducer Block The transducer block is not defined for the conformation class A. Therefore all parameters are relevant for class B. In the conformation class B, the realising of the transducer block is mandatory. Fundamentally, only an a-cyclic data transfer is done for the parameter of transducer block. To guarantee a clear ordering of parameters to the block, the Transducer block parameters in the transformation specifications is given the label "TB". Block-Parameter (Summary) Relative Index Parameter Name Data type Size Storage Type Read Write Usage Profile 1 ST_REV Unsigned 16 2 S R A M(B) 2 TAG_DESC OctetString 32 S R W A M(B) 3 STRATEGY Unsigned 16 2 S R W A M(B) 4 ALERT_KEY Unsigned 8 1 S R W A M(B) 5 MODE_BLK DS-69 4 N,D,S,S R A M(B) 6 BLOCK_ERR Bit String 2 D R C 7 UPDATE_EVT DS D R C M(B) 8 BLOCK_ALM DS D R C O(B) 9 TRANSDUCER_DIRECTORY Array of 1 C R A O(B) Unsigned TRANSDUCER_TYPE Unsigned 16 2 C R A M(B) 11 XD_ERROR Unsigned 8 1 D R C O(B) 12 COLLECTION_DIRECTORY Array of 1 C R A O(B) Unsigned PRIMARY_VALUE_TYPE Unsigned 16 2 S R W A 14 PRIMARY_VALUE DS-65 5 D R C O(B) 15 PRIMARY_VALUE_RANGE DS N R A O(B) 16 CAL_POINT_HI Float 4 S R W A O(B) 17 CAL_POINT_LO Float 4 S R W A O(B) 18 CAL_MIN_SPAN Float 4 C R A O(B) 19 CAL_UNIT Unsigned 16 2 S R A O(B) 20 SENSOR_TYPE Unsigned 16 2 C R A O(B) 21 SENSOR_RANGE DS C R A M(B) 22 SENSOR_SN Visible String 32 C R A M(B) 23 SENSOR_CAL_METHOD Unsigned 8 1 S R W A O(B) 24 SENSOR_CAL_LOC Visible String 32 S R W A O(B) 25 SENSOR_CAL_DATE Date 7 S R W A O(B) 26 SENSOR_CAL_WHO Visible String 32 S R W A O(B) 27 LIN-TYPE Unsigned 8 1 C R A O(B) 28 SECONDARY_VALUE DS-65 5 D R C O(B) 29 SECONDARY_VALUE_UNIT Unsigned 16 2 S R A O(B) 30 TERTIARY_VALUE DS-65 5 D R C O(B) 31 FOURTH_VALUE DS-65 5 D R C O(B) 32 FOURTH_VALUE_UNIT Unsigned 16 2 S R A O(B) 33 FLOW_UNIT_VOL Unsigned 16 2 S R W A O(B) 34 FLOW_UNIT_MASS Unsigned 16 2 S R W A O(B) 35 TOTALIZER_UNIT_VOL Unsigned 16 2 S R W A O(B) 36 TOTALIZER_UNIT_MASS Unsigned 16 2 S R W A O(B) 37 OPERATING_MODE Unsigned 8 1 S R W A O(B) 41

42 3.3.1 ST_REV (Static Revision Parameter) Index: 1 Data type: Unsigned 16 Default Value: 0 Write-cycle counter for the static Parameters of Transducer Block, which do not change by themselves. The counter is incremented when a known static parameter is written into. Therefore, the Parameter ST_REV enables monitoring the changes in the Configuration TAG_DESC (Tag Description Parameter) Index: 2 Data type: OctetString Length (Octets): 32 Default Value: (Blank) The user description of the intended application of the block. Read and Write. Comments: The text in TAG_DESC should be in VisibleString-Format (ISO 646) STRATEGY (Strategy Parameter) Index: 3 Data type: Unsigned 16 Default Value: 0 The strategy field can be used to identify grouping of blocks. This data is not checked or processed by the block Read and Write. 42

43 3.3.4 ALERT_KEY (Alert_Key Parameter) Index: 4 Data type: Unsigned 8 Length (Octets): 1 Default Value: 0 The identification number of the plant unit. This information may be used in the host for sorting alarms, etc. Read and write MODE_BLK (Mode Block Parameter) Class A, B (Mandatory). Index: 5 Data type: DS-69 Length (Octets): 4 Storage type: MODE_BLK.Target - non volatile MODE_BLK.Actual - dynamic MODE_BLK.Permitted - static MODE_BLK.Normal - static Default Value: O/S The actual, target, permitted, and normal modes of the block.actual and allowable operation types of the block. Devices of Class A must at least allow the operation type (or mode) AUTO. TB.MODE_BLK.Target TB.MODE_BLK.Actual TB.MODE_BLK.Permitted = OS AUTO TB.MODE_BLK.Normal = 3 (Auto) 43

44 3.3.6 BLOCK_ERR (Block Error Parameter) Class A, B (Mandatory). Relative Index: 6 Data type: Bit String Storage type: dynamic 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. 0 = Other 1 = Block Configuration Error 2 = Link Configuration Error 3 = Simulate Active 4 = Local Override 5 = Device Fail Safe Set 6 = Device Needs Maintenance Soon 7 = Input Failure/ process variable has BAD status 8 = Output Failure 9 = Memory Failure 10 = Lost Static Data 11 = Lost NV Data 12 = Readback Check Failure 13 = Device needs maintenance Now 14 = Power-up 15 = Out-of-Service (MSB) UPDATE_EVT. Index: 7 Data type: DS-73 Length (Octets): 14 Storage type: dynamic This alert is generated by any change to the static data. UPDATE_EVT.UNACKNOWLEDGED UPDATE_EVT.UPDATE_STATE UPDATE_EVT.TIME_STAMP UPDATE_EVT.STATIC_REVISION UPDATE_EVT.RELATIVE_INDEX 44

45 3.3.8 BLOCK_ALM Relative Index: 8 Data type: DS-72 Length (Octets): 13 Storage type: dynamic The block alarm is used for all configuration, hardware, connection failure or system problems in the block. The cause of the alert is entered in the subcode field. The first alert to become active will set the Active status in the Status attribute. As soon as the Unreported status is cleared by the alert reporting task, another block alert may be reported without clearing the Active status, if the subcode has changed. BLOCK_ALM.UNACKNOWLEDGED BLOCK_ALM.ALARM_STATE BLOCK_ALM.TIME_STAMP BLOCK_ALM.SUBCODE BLOCK_ALM.VALUE TRANSDUCER_DIRECTORY Relative Index: 9 Data type: array of unsigned 16 Storage type: non-volatile Default Value: 0 The directory that specifies the number and starting indices of the transducers in the transducer block. 45

46 TRANSDUCER_TYPE Relative Index: 10 Data type: unsigned 16 Storage type: non-volatile Default Value: 104 Identifies the transducer that follows XD_ERROR Relative Index: 11 Data type: Unsigned 8 Length (Octets): 1 Storage type: Dynamic One of the error codes defined in the XD_ERROR and Block Alarm Subcode table shown below. XD_ERROR and Block Alarm Subcodes Value Error Subcode Description 16 Unspecified Error An error has occurred that was not identified. 17 General Error An error has occurred that could not be classified as one of the errors below. 18 Calibration Error An error has occurred during calibration of the device or a calibration error has been detected during the operation of the device. 19 Configuration Error An error has occurred during configuration of the device or a configuration error has been detected during the operation of the device. 20 Electronics Failure A electronic component has failed. 21 Mechanical Failure A mechanical component has failed. 22 I/O Failure An I/O failure has occurred. 23 Data Integrity Error Indicates that data stored within the system may no longer be valid due to NVM checksum failure, data verify after write failure, etc 24 Software Error The software has detected an error. This could be caused by an improper interrupt service routine, an arithmetic overflow, a watchdog timer, etc 25 Algorithm Error The algorithm used in the transducer block produced an error. This could be due to an overflow, data reasonableness failure, etc 46

47 COLLECTION_DIRECTORY. Index: 12 Data type: Array of unsigned 32 Length (Octets): 4 Storage type: Static Default Value: 0 A directory that specifies the number, starting indices, and DD Item IDs of the data collections in each transducer within a transducer block PRIMARY_VALUE_TYPE Class B (Optional). Index: 13 Data type: Unsigned 16 Storage type: Static Default Value: 0 The type of measurement represented by the primary value. The table shown below describes this parameter. Primary Value Types - Flow Value Primary Value Types Description 100 Mass flow 101 Volumetric flow PRIMARY_VALUE Class B (Optional). Index: 14 Data type: DS-65 Length (Octets): 5 Storage type: Dynamic The measured value and status available to the Function Block. 47

48 PRIMARY_VALUE_RANGE Class B (Optional). Index: 15 Data type: DS-68 Length (Octets): 11 Storage type: Non-volatile Default Value: Range DN The High and Low range limit values, the engineering units code and the number of digits ot the right of the decimal point to be used to display the Primary Value CAL_POINT_HI Class B (Optional). Index: 16 Data type: Float Length (Octets): 4 Storage type: Static Default Value: 0 The highest calibrated value. Read and write CAL_POINT_LO Class B (Optional). Index: 17 Data type: Float Length (Octets): 4 Storage type: Static Default Value: 0 The lowest calibrated value. Read and write. 48

49 CAL_MIN_SPAN Class B (Optional). Index: 18 Data type: Float Length (Octets): 4 Storage type: Non-volatile Default Value: 0 The minimum calibration span value allowed. This minimum span information is necessary to ensure that when calibration is done, the two calibrated points (high and low) are not too close together CAL_UNIT Class B (Optional). Index: 19 Data type: Unsigned 16 Storage type: Static Default Value: 0 The Device Description engineering units code index for the calibration values SENSOR_TYPE Class B (Optional). Index: 20 Data type: Unsigned 16 Storage type: Static Default Value: 112 The type sensor defined below. Read. TB.SENSOR_TYPE = 112 (Vortex) 49

50 SENSOR_RANGE Class B (Optional). Index: 21 Data type: DS-68 Length (Octets): 11 Storage type: Non-volatile Default Value: Range DN The High and Low range limit values, the engineering units code, and the number of digits to the right of the decimal point for the sensor. Read only SENSOR_SN Class B (Optional). Index: 22 Data type: Visible string Length (Octets): 32 Storage type: Non-volatile Default Value: "" (Blank) The sensor serial number. Read only SENSOR_CAL_METHOD Class B (Optional). Index: 23 Data type: Unsigned 8 Length (Octets): 1 Storage type: Static Default Value: 103 The method of last sensor calibration. ISO defines several standard methods of calibration. This parameter is intended to record that method, or if some method was used. Read and write. 50

51 SENSOR_CAL_LOC Class B (Optional). Index: 24 Data type: Visible String Length (Octets): 32 Storage type: Static Default Value: NULL The location of the last sensor calibration. This describes the physical location at which the calibration was performed. Read and write SENSOR_CAL_DATE Class B (Optional). Index: 25 Data type: Date Length (Octets): 7 Storage type: Static Default Value: 0 The date of the last sensor calibration. This is intended to reflect the calibration of that part of the sensor that is usually wetted by the process. Read and write SENSOR_CAL_WHO Class B (Optional). Index: 26 Data type: Visible String Length (Octets): 32 Storage type: Static Default Value: ""(Blank) The name of the person who is responsible for the last sensor calibration. Read and write. 51

52 LIN_TYPE Class B (Optional). Index: 27 Data type: Unsigned 16 Storage type: Static Default Value: 1 Contains the linearisation type used to describe the behavior of the sensor. Read only SECONDARY_VALUE Class B (Optional). Index: 28 Data type: DS-65 Length (Octets): 5 Storage type: Dynamic The secondary value = operating flow Qv, related to the sensor SECONDARY_VALUE_UNIT Class B (Optional). Index: 29 Data type: Integer 16 Storage type: Static The engeneering units to be used with the secondary ( operating flow ) and tertiary value (normal flow). Read only 52

53 TERTIARY_VALUE Class B (Optional). Index: 30 Data type: DS-65 Length (Octets): 5 Storage type: Dynamic The tertiary value = normal flow Qn, related to the sensor FOURTH_VALUE Class B (Optional). Index: 31 Data type: DS-65 Length (Octets): 5 Storage type: Dynamic The fourth value = totalizer, related to the sensor FOURTH_VALUE_UNIT Class B (Optional). Index: 32 Data type: Integer 16 Storage type: Static The engineering units to be used with the fourth value = totalizer units. 53

54 FLOW_UNIT_VOL Class B (Optional). Index: 33 Data type: Integer 16 Storage type: Static Unit code The engeneering units to be used with volume flow. Read and Write Unit 1351 l/s 1352 l/min 1353 l/h 1347 m³/s 1348 m³/min 1349 m³/h 1350 m³/d 1367 ImpGal/s 1368 ImpGal/min 1369 ImpGal/h 1370 ImpGal/d 1366 Mgal/d 1363 gpm 1364 gph 1371 bbl/s 1372 bbl/min 1373 bbl/h 1374 bbl/d 54

55 FLOW_UNIT_MASS Class B (Optional). Index: 34 Data type: Integer 16 Storage type: Static Unit code The engeneering units to be used with mass flow. Read and Write Unit 1322 kg/s 1323 kg/min 1324 kg/h 1325 kg/d 1327 t/min 1328 t/h 1329 t/d 1318 g/s 1319 g/min 1320 g/h 1330 lb/s 1331 lb/min 1332 lb/h TOTALIZER_UNIT_VOL Class B (Optional). Index: 35 Data type: Integer 16 Storage type: Static Unit code The engeneering units to be used with the totalizer volume. Read and Write Unit 1038 l 1034 m³ 1049 ImpGal 1048 galllon 1051 bbl 55

56 TOTALIZER_UNIT_MASS Class B (Optional). Index: 36 Data type: Integer 16 Storage type: Static Unit code The engeneering units to be used with the totalizer mass. Read and Write Unit 1088 kg 1092 t 1089 g 1094 lb OPERATING_MODE Class B (Optional). Index: 37 Data type: Integer 8 Length (Octets): 1 Storage type: Static The operating mode used by the converter. Read and Write Operating mode code Operating mode 0 Operating Mode 1 Normal Mode 2 Mass Mode 56

57 3.4 Data Structures DS-65 Value & Status Floating Point Structure E Element Name Data Type Size 1 Status Unsigned8 1 2 Value Float DS-68 Scaling Structure E Element Name Data Type Size 1 EU at 100% Float 4 2 EU at 0% Float 4 3 Units Index Unsigned Decimal Point Integer DS-69 Mode Structure E Element Name Data Type Size 1 Target Bitstring 1 2 Actual Bitstring 1 3 Permitted Bitstring 1 4 Normal Bitstring DS-70 Access Permissions E Element Name Data Type Size 1 Grant Bitstring 1 2 Deny Bitstring 1 57

58 3.4.5 DS-71 Alarm Float Structure E Element Name Data Type Size 1 Unacknowledged Unsigned8 1 2 Alarm State Unsigned8 1 3 Time Stamp Time Value 8 4 Subcode Unsigned Value Float DS-72 Alarm Discrete Structure E Element Name Data Type Size 1 Unacknowledged Unsigned8 1 2 Alarm State Unsigned8 1 3 Time Stamp Time Value 8 4 Subcode Unsigned Value Unsigned DS-73 Event Update Structure E Element Name Data Type Size 1 Unacknowledged Unsigned8 1 2 Update State Unsigned8 1 3 Time Stamp Time Value 8 4 Static Revision Unsigned Relative Index Unsigned

59 3.4.8 DS-74 Alarm Summary Structure E Element Name Data Type Size 1 Current Bitstring 2 2 Unacknowledged Bitstring 2 3 Unreported Bitstring 2 4 Disabled Bitstring DS-82 Simulate Floating Point Structure E Element Name Data Type Size 1 Simulate Status Unsigned8 1 2 Simulate Value Float 4 3 Transducer Status Unsigned8 1 4 Transdiúcer Value Float 4 5 sim,ulate En/Disable Unsigned8 1 59

60 DS-85 Test Structure E Element Name Data Type Size 1 Value 1 Boolean 1 2 Value 2 Integer8 1 3 Value 3 Integer Value 4 Integer Value 5 Unsigned8 1 6 Value 6 Unsigned Value 7 Unsigned Value 8 Float 4 9 Value 9 Visible String Value 10 Octet String Value 11 Date 7 12 Value 12 Time of Day 6 13 Value 13 Time Difference 6 14 Value 14 Bitstring 2 15 Value 15 Time Value 8 60

61 4. Commissioning 4.1 BUS Connection Diagram 31,25 Kbit/s IEC (H1-Bus) R=100 I<=15mA I<=15mA I<=15mA I<=15mA C=1mF V_1000 S_1000 V_1000 S_1000 V_1000 S_1000 V_1000 S_ Terminal Assignment The device is a two wire transmitter which is power supplied via bus lines. Therefore it is only necessary to connect it to the Foundation Fieldbus via the Terminals named FF+ and FF-. Connection Diagram of VT1000 and ST

62 Sensor Connections Connection Diagram of VR1000 and SR

63 4.3 Start Up Mode of operation of parameter group MODE_BLK (Parameter TARGET) of all blocks (RB, AI, TB) has to be set to AUTO. 4.4 Factory setting The factory settings of all parameters ensures that after power up and setting alll blocks to AUTO the device is ready for operation and all functions are running well. 5. Additional References Technical Specification Vortex V_ Part-no.: D184S027U02 (english) - Part-no.: D184S027U01 (german) Technical Specification Swirl S_ Part-no.: D184S026U02 (english) - Part-no.: D184S026U01 (german) Instruction bulletin Vortex V_ Part-no.: D184B087U02 (english) - Part-no.: D184B087U01 (german) Instruction bulletin Swirl S_ Part-no.: D184B087U02 (english) - Part-no.: D184B087U01 (german) Datalink description V_1000/S_ Part-no.: D184B093U20 (english) - Part-no.: D184B093U19 (german) 3.5 -Disk - part-no.: D699D001U06 - Content: cff ffo sym - this data link description V_1000/S_ v_1-s_1-ff_rev2e.pdf (english) - v_1-s_1-ff_rev1d.pdf (german) 63

64 6. REVISION HISTORY Rev. ind. Page (P) Chapt. (C) Description Date Dept./Init. 01 First edition Oct / Eb 02 Corrections only Nov / Eb 64

65 ABB Automation Products GmbH Dransfelder Str. 2, D Goettingen Tel.: +49 (0) Fax: +49 (0)