trio-wirl hart-protocol v 4000 overview of the … hart-command 12 : read message.....3-3 3.8...

TRIO-WIRL ST

TRIO-WIRL VR TRIO-WIRL SR

TRIO-WIRL VT

HART-ProtocolOverview of the HART-Commands for the Standard Software D699F004U01

TRIO-WIRL V_4000S_4000

D184B108U04 Rev. 06 / 04.2002Instruction Bulletin

Automation Products GmbH

HART-ProtocolPreparedName:

Date:

byHarry Plotzki

17 Jul. 00

Instrument: TRIO WIRLSoftware: Standard SoftwareDesignation: D699F004U01 A.11

Revision:Name:

Date:

6Andreas Thöne

08.04.02

Table of Contents1 Revision List ............................................................................................................................................................1-12 Introduction..............................................................................................................................................................2-13 Universal Commands ...............................................................................................................................................3-1

3.1 HART-Command 0 : Read Transmitter Unique Identifier ...............................................................................3-13.2 HART-Command 1 : Read Primary Variable...................................................................................................3-13.3 HART-Command 2 : Read Current and Percent of Range...............................................................................3-13.4 HART-Command 3 : Read all Dynamic Variables and Current.......................................................................3-23.5 HART-Command 6 : Write Polling Address....................................................................................................3-23.6 HART-Command 11 : Read Unique Identifier Associated With Tag ..............................................................3-33.7 HART-Command 12 : Read Message ..............................................................................................................3-33.8 HART-Command 13 : Read Tag, Descriptor, Date .........................................................................................3-33.9 HART-Command 14 : Read Primary Variable Sensor Information .................................................................3-33.10 HART-Command 15 : Read Primary Variable Output Information.................................................................3-43.11 HART-Command 16 : Read Final Assembly Number .....................................................................................3-43.12 HART-Command 17 : Write Message .............................................................................................................3-53.13 HART-Command 18 : Write Tag, Descriptor, Date.........................................................................................3-53.14 HART-Command 19 : Write Final Assembly Number ....................................................................................3-5

4 Common Practice Commands ..................................................................................................................................4-14.1 HART-Command 33 : Read Transmitter Variables .........................................................................................4-14.2 HART-Command 34 : Write Primary Variable Damping Value......................................................................4-14.3 HART-Command 35 : Write Primary Variable Range Values.........................................................................4-24.4 HART-Command 38 : Reset Configuration Changed Flag ..............................................................................4-24.5 HART-Command 40 : Enter/Exit Primary Variable Current Mode .................................................................4-24.6 ................................................................................................................................................................................4-34.7 HART-Command 45 : Trim Primary Variable Current DAC Zero ..................................................................4-34.8 HART-Command 46 : Trim Primary Variable Current DAC Gain..................................................................4-34.9 HART-Command 48 : Read Additional Transmitter Status .............................................................................4-4

5 Slot - Commands......................................................................................................................................................5-15.1 Unsigned-char-Variables...............................................................................................................................5.1-1

5.1.1 HART-Command 128 : Read unsigned-char-Variable..........................................................................5.1-15.1.2 HART-Command 129 : Write unsigned-char-Variable.........................................................................5.1-15.1.3 Table of „unsigned char“ –Variables.....................................................................................................5.1-2

5.2 Unsigned-int-Variables..................................................................................................................................5.2-15.2.1 HART-Command 130 : Read-unsigned int-Variable ............................................................................5.2-15.2.2 HART-Command 131 : Write unsigned-int-Variable ...........................................................................5.2-15.2.3 Tables of „unsigned int“-Variables .......................................................................................................5.2-2

5.3 Float-Variables..............................................................................................................................................5.3-15.3.1 HART-Command 132 : Read float-Variable.........................................................................................5.3-15.3.2 HART-Command 133 : Write float-Variable........................................................................................5.3-15.3.3 Table of „Float“-Variables ....................................................................................................................5.3-2

5.4 String-Variables ............................................................................................................................................5.4-15.4.1 HART-Command 134 : Read string-Variable .......................................................................................5.4-15.4.2 HART-Command 135 : Write string-Variable ......................................................................................5.4-15.4.3 Table of the „string-Variables ...............................................................................................................5.4-1

5.5 Condensed Overview of the Slot-Commands................................................................................................5.5-26 Other User Accessible Commands ...........................................................................................................................6-1

6.1 HART-Command 140 : Reset Totalizer and Overflow ....................................................................................6-16.2 HART-Command 141 : Reset Error Register and Mains Interrupt Counter.....................................................6-16.3 HART-Command 150 : Lese Spektrum .............................................................Error! Bookmark not defined.

7 Troubleshooting Hart .................................................................................................Error! Bookmark not defined.



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

1-1

1 Revision ListRevision Date New

PagesRevisedPages

Extensions for newversion

Name

No. Soft.

1

2

3

4

A.10

A.10

A.10

A.11

17.07.2000

04.09.2000

21.11.2000

09.03.2001

erstellt

-

6-1

5.1-1

5.5-2 , 5.3-1

5.1-2, 5.2-2,5.3-2, 5. 5-2

Kap. 5.1.3:

Slot-Nr. 162: Boot PageSlot-Nr. 163: FminSlot-Nr. 164: FmaxSlot-Nr. 165: Freq. Spec balanceSlot-Nr. 166: BP Arithmet.

Kap. 5.2.3:

Slot-Nr. 160: Gain MaxSlot-Nr. 161: Gain Vib TriggerSlot-Nr. 162: Low Dis GainSlot-Nr. 163: High Dis Gain

Kap. 5.3.3:

Slot-Nr. 171: Input MinimumSlot-Nr. 172: Vib/Qv FktorSlot-Nr. 173: Low Dis FrequenzSlot-Nr. 174: High Dis Frequenz

Kap. 5.5: List is extended by:Boot PageFmin

HP

HP

HP

AP



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

1-2

5 A.11 21.06.2001 4-4

FmaxFreq. Spec BalanceBP ArithmetGain MaxGain Vib TriggerLow Dis GainHigh Dis GainInput MinimumVib/Qv FaktorLow Dis FrequenzHigh Dis FrequenzKap. 4.8 AP



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

2-1

2 IntroductionThis overview lists all the presently available HART-Commands. The list includes the Universal and Common PracticeCommands as well as the Slot- and Other Commands.In the past it had been necessary to check all the Commands in order to identify which had been changed relative to theprevious Command Overview List. This is no longer necessary, because any changes to a Command are readilyrecognizable from the Revision Level listed in the Section for each Command. In addition, the use of individual numbersfor the individual sections makes it possible to replace only those pages which were revised, saving paper.

This document is applicable to the following Software Revisions:

A.10

A.11



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

3-1

3 Universal Commands

3.1 HART-Command 0 : Read Transmitter Unique IdentifierRevision

RequestData Bytes

none

ResponseData Bytes

#0#1#2#3#4#5#6#7#8#9

#10#11

Device Type Code for ExpansionManufacturer Identification CodeManufacturer Device TypeNumber of Request PreamblesRevision Level of Universal CommandRevision Level of Transmitter DocumentSoftware Revision LevelHardware Revision LevelFlags, none defined at this timeDevice Identification Number, 24 Bit, MSBDevice Identification Number, 24 BitDevice Identification Number, 24 Bit, LSB

= 254= 26 = ABB= 26 = TRIO-WIRL= 5= 5= 0= 0= 0= 0= Byte 3 Instrument No.= Byte 2 Instrument No.= Byte 1 Instrument No.

ResponseCodes

05

No Command Specific ErrorIncorrect Byte Count

3.2 HART-Command 1 : Read Primary VariableRevision

RequestData Bytes

none

ResponseData Bytes

#0#1..#4

Primary Variable Units Code (Table 2)Primary Variable, IEEE 754

ResponseCodes

05


Comments Primary Variable => is a function of the Qv Operating Mode setting

3.3 HART-Command 2 : Read Current and Percent of RangeRevision

RequestData Bytes

none

ResponseData Bytes

#0..#3#4..#7

Analog Output Current mA, IEEE 754Percent of Range, IEEE 754

ResponseCodes

05




Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

3-2

3.4 HART-Command 3 : Read all Dynamic Variables and CurrentRevision

RequestData Bytes

none

ResponseData Bytes

#0..#3

#4#5..#8

#9#10..#13

#14#15..#18

#19#20..#23

Analog Output Current mA, IEEE 754

Primary Variable Units Code (Table 2)Primary Variable, IEEE 754

Secondary Variable Units Code (Table 2)Secondary Variable, IEEE 754

Tertiary Variable Units Code (Table 2)Tertiary Variable, IEEE 754

4th Variable Units Code (Table 2)4th Variable, IEEE 754

ResponseCodes

05


Comments Primary Variable =Secondary Variable =Tertiary Variable =Fourth Variable =

is a function of the Qv Operating Mode settingTotalizerFrequencyTemperature

3.5 HART-Command 6 : Write Polling AddressRevision

RequestData Bytes

#0 Polling Address of Device

ResponseData Bytes

#0 Polling Address of Device

ResponseCodes

025

No Command Specific ErrorInvalid SelectionIncorrect Byte Count



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

3-3

3.6 HART-Command 11 : Read Unique Identifier Associated With TagRevision

RequestData Bytes

#0..#5 Tag, Packed ASCII

ResponseData Bytes

#0#1#2#3#4#5#6#7#8#9

#10#11

Device Type Code for ExpansionManufacturer Identification CodeManufacturer Device TypeNumber of Request PreamblesRevision Level of Universal CommandRevision Level of Transmitter DocumentSoftware Revision LevelHardware Revision LevelFlags, none defined at this timeDevice Identification Number, 24 Bit, MSBDevice Identification Number, 24 BitDevice Identification Number, 24 Bit, LSB

= 254= 26 = ABB= 26 = TRIO WIRL= 5= 5= 0= 0= 0= 0= Byte 3 Instrument No.= Byte 2 Instrument No.= Byte 1 Instrument No.

ResponseCodes

05


3.7 HART-Command 12 : Read MessageRevision

RequestData Bytes

none

ResponseData Bytes

#0..#23 Message, Packed ASCII

ResponseCodes

05


3.8 HART-Command 13 : Read Tag, Descriptor, DateRevision

RequestData Bytes

none

ResponseData Bytes

#0..#5#6..#17

#18..#20

Tag, Packed-ASCIIDescriptor, Packed-ASCIIDate: Day, Month, Year

ResponseCodes

05


3.9 HART-Command 14 : Read Primary Variable Sensor InformationRevision

Request none



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

3-4

Data BytesResponseData Bytes

#0..#2#3

#4..#7#8..#11

#12..#15

Sensor Serial Number MSB, 24-bit unsigned integerSensor Limits/Min Span Units, Table II Units CodesUpper Sensor Limit, IEEE754Lower Sensor Limit, IEEE754Minimum Span, IEEE754

ResponseCodes

05


Comments Sensor Serial NumberUpper Sensor LimitLower Sensor LimitMinimum Span

= 0= Qmax= 0= Qmax DN

3.10 HART-Command 15 : Read Primary Variable Output InformationRevision

RequestData Bytes

none

ResponseData Bytes

#0#1#2

#3..#6#7..#10

#11..#14#15#16

Alarm Select Code, Table VIPrimary Variable Transfer Function Code, Table IIIPrimary Variable Range Values Units Code, Table IIPrimary Variable Upper Range Value, IEEE754Primary Variable Lower Range Value, IEEE754, always ZeroPrimary Variable Damping Value, IEEE754, Units of SecondsWrite Protect Code, Table VIIPrivate Label Distributor Code, Table VIII

ResponseCodes

05


Comments Alarm Selection CodePV Transfer Function CodePV Upper Range ValuePV Lower Range ValuePV Damping ValueWrite Protect CodePrivate Label Distributor

= 0 = High, 1 = Low= 0 = Linear= Qmax, function of the Operating Mode= 0= Damping= 251 = Not Implemented= 26 =ABB

3.11 HART-Command 16 : Read Final Assembly NumberRevision

RequestData Bytes

none

Response #0..#2 Final Assembly Number



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

3-5

Data BytesResponseCodes

05


3.12 HART-Command 17 : Write MessageRevision

RequestData Bytes

#0..#23 Message, Packed-ASCII

ResponseData Bytes

#0..#23 Message, Packed-ASCII

ResponseCodes

05


3.13 HART-Command 18 : Write Tag, Descriptor, DateRevision

RequestData Bytes

#0..#5#6..#17

#18..#20


ResponseData Bytes

#0..#5#6..#17

#18..#20


ResponseCodes

05


3.14 HART-Command 19 : Write Final Assembly NumberRevision

RequestData Bytes

#0..#2 Final Assembly Number

ResponseData Bytes

#0..#2 Final Assembly Number

ResponseCodes

05




Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

4-1

4 Common Practice Commands

4.1 HART-Command 33 : Read Transmitter VariablesRevision

RequestData Bytes

#0#1#2#3

Transmitter Variable assigned to Slot #0Transmitter Variable assigned to Slot #1Transmitter Variable assigned to Slot #2Transmitter Variable assigned to Slot #3

ResponseData Bytes

#0#1

#2..#5

#6#7

#8..#11

#12#13

#14..#17

#18#19

#20..#23

Transmitter Variable assigned to Slot #0Slot #0 Units CodeSlot #0 Variable, IEEE 754




ResponseCodes

025

No Command Specific ErrorInvalid SelectionIncorrect Byte Count

Comments Transmitter Variables: 0: v_Qv1: v_Qn2: v_Qm3: v_fl_totalizer4: v_temp5: v_press6: v_frequency7: v_percent

4.2 HART-Command 34 : Write Primary Variable Damping ValueRevision

RequestData Bytes

#0..#3 Damping Value, IEEE 754

ResponseData Bytes

#0..#3 Actual Damping Value, IEEE 754

ResponseCodes

0345

No Command Specific ErrorPassed Parameter too LargePassed Parameter too SmallIncorrect Byte Count



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

4-2

4.3 HART-Command 35 : Write Primary Variable Range ValuesRevision

RequestData Bytes

#0#1..#4#5..#8

Primary Variable Upper and Lower Range Values Units Code, Table IIPrimary Variable Upper Range Value, IEEE 754Primary Variable Lower Range Value, IEEE 754

ResponseData Bytes

#0#1..#4#5..#8

Primary Variable Upper and Lower Range Values Units Code, Table IIPrimary Variable Upper Range Value, IEEE 754Primary Variable Lower Range Value, IEEE 754

ResponseCodes

0259

1112

No Command Specific ErrorInvalid SelectionIncorrect Byte CountLower Range to highUpper Range Value to highUpper Range Value to low

Comments PV Upper Range ValuePV lower Range Value

= Qmax DN default; function of the Operating Mode= 0

4.4 HART-Command 38 : Reset Configuration Changed FlagRevision

RequestData Bytes

none

ResponseData Bytes

none

ResponseCodes

05


4.5 HART-Command 40 : Enter/Exit Primary Variable Current ModeRevision

RequestData Bytes

#0..#3 Fixed Primary Variable Current Level, IEEE 754, mA

ResponseData Bytes

#0..#3 Actual Fixed Primary Variable Current Level, IEEE 754, mA

ResponseCodes

0345

11

No Command Specific ErrorPassed Parameter too Large (> 24.8 mA)Passed Parameter too Small (< 3.85 mA)Incorrect Byte CountIn Multidrop Mode



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

4-3

4.6 HART-Command 45 : Trim Primary Variable Current DAC ZeroRevision

RequestData Bytes

#0..#3 Externally Measured Primary Variable Current Level, IEEE 754, Units of mA

ResponseData Bytes

#0..#3 Actual Measured Primary Variable Current Level, IEEE 754, mA

ResponseCodes

03459

11

No Command Specific ErrorPassed Parameter too Large (> 5mA)Passed Parameter too Small (< 3mA)Incorrect Byte CountNot in Proper Current ModeIn Multidrop Mode

4.7 HART-Command 46 : Trim Primary Variable Current DAC GainRevision

RequestData Bytes

#0..#3 Externally Measured Primary Variable Current Level, IEEE 754, Units of mA

ResponseData Bytes

#0..#3: Actual Measured Primary Variable Current Level, IEEE 754, mA

ResponseCodes

03459

11

No Command Specific ErrorPassed Parameter too Large (> 22mA)Passed Parameter too Small (< 18mA)Incorrect Byte CountNot in Proper Current ModeIn Multidrop Mode



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

4-4

4.8 HART-Command 48 : Read Additional Transmitter StatusRevision

RequestData Bytes

none

ResponseData Bytes

#0..#3 Additional transmitter status (errors)

Error-bytes#0, Bit 0#0, Bit 1#0, Bit 2#0, Bit 3#0, Bit 4#0, Bit 5#0, Bit 6#0, Bit 7

#1, Bit 0#1, Bit 1#1, Bit 2#1, Bit 3#1, Bit 4#1, Bit 5#1, Bit 6#1, Bit 7

Error 8:Error 9:Error A:Error B:Error C:Error D:Error E:Error F:

Error 0:Error 1:Error 2:Error 3:Error 4:Error 5:Error 6:Error 7:

Not implementedQv >115% QmaxDNKit-FramB(ackup) Data BaseNot implementedNot implementedNot implementedNot implemented

Steam calculationFront-EndNot implementedFlowrate > 115%Not implementedM(ain) Data BaseTotalizerTemp. Measurement

Status-bytes#2, Bit 0#2, Bit 1#2, Bit 2#2, Bit 3#2, Bit 4#2, Bit 5#2, Bit 6#2, Bit 7

#3, Bit 0#3, Bit 1#3, Bit 2#3, Bit 3#3, Bit 4#3, Bit 5#3, Bit 6#3, Bit 7

Max.-Alarm TemperatureMin.-Alarm TemperatureFor internal use onlyMax.-Alarm FlowrateMin.-Alarm FlowrateError-Register-AlarmNot usedNot used

Pulse factor limitedPulse width limitedTotalizer units limitedLow flow cutoffNot implementedSelf test contact outputSelf test flowrateSelf test current output

ResponseCodes

05




Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5-1

5 Slot - CommandsThe converter parameters can be divided into four groups:

unsigned char-Variables Parameters in menus with selection lists or tables are stored as "unsigned char", e.g. Language:

German = 0English = 1

unsigned int-VariablesThose numbers which only occur as integers are stored as "unsigned int", e.g. Instrument No..

float-VariablesThe remaining numbers are stored as “float” (IEEE 754), e.g. Damping.

string-VariablesParameters which are stored as character strings.

In the following lists the Read and Write Commands for the four groups are listed together with tables of the associatedparameters.

5.1 Unsigned-char-Variables

5.1.1 HART-Command 128 : Read unsigned-char-VariableRevision

RequestData Bytes

#0 Slot-Index

ResponseData Bytes

#0#1

Slot-IndexContents of the Slot

ResponseCodes

056

No Command Specific ErrorIncorrect Byte CountTransmitter Specific Command Error -> Invalid Slot Number

5.1.2 HART-Command 129 : Write unsigned-char-VariableRevision

RequestData Bytes

#0#1


ResponseData Bytes

#0#1


ResponseCodes

02356

No Command Specific ErrorInvalid SelectionParameter too LargeIncorrect Byte CountTransmitter Specific Command Error -> Invalid Slot Number



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.1-2

5.1.3 Table of „unsigned char“ –VariablesSlot-

NumberParameter Code Meaning Revision

0 Converter 01

SWIRL ST / SRVORTEX VT / VR

2 SWIRL Meter Size 0123456789

1011

15 mm 1/2 in20 mm 3/4 in25 mm 1 in32 mm 1-1/4in40 mm 1-1/2in50 mm 2 in80 mm 3 in100 mm 4 in150 mm 6 in200 mm 8 in300 mm 12 in400 mm 16 in

3 VORTEX Meter Size 0123456789

10111213141516171819

D 15mm 0.5inD 25mm 1inD 40mm 1.5inD 50mm 2inD 80mm 3inD 100mm 4inD 150mm 6inD 200mm 8inD 250mm 10inD 300mm 12inA 15mm 0.5inA 25mm 1inA 40mm 1.5inA 50mm 2inA 80mm 3inA 100mm 4inA 150mm 6inA 200mm 8inA 250mm 10inA 300mm 12in

20 Operating Mode 0123456789

1011

Liquid QvLiquid Qm (S)Liquid Qm (S,T)Liquid Qm (V,T)Gas QvGas Normal Qn (pT)Gas Std Qs (pT)Gas Normal Qn(KmpF)Gas Mass Qm (pT)Gas Mass Qm (S)Sat. Steam QmSat. Steam Qv



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08.04.02

5.1-1

21 Normal/StandardConditions

0123

1.0133 bara 0C1.0133 bara 20C14.7 psi-abs 60F14.7 psi-abs 70F

50 Language 01

GermanEnglish

5152

Primary displayMultiplex display

012345

Q Operating ModeQv OperatePercentTotalizerTemperatureFrequency

54 Multiplex display 01

OffON

60 Units Qv (volume) 2417

13828

13119292615

130272216

13623

137183031

132133134135

l/sl/minl/hm3/sm3/minm3/hm3/dft/sft/minft/hft/dugl/sugl/minugl/hmgl/digpsigpmigphigpdbbl/sbbl/minbbl/hbbl/d

61 Units Qm (mass) 7071727374757677787980818283

g/sg/ming/hkg/skg/minkg/hkg/dt/mint/ht/dlb/slb/minlb/hlb/d



Date:

byHarry Plotzki

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08.04.02

5.1-2

62 Units Totalizer Qv 4143

112404246

lm³ft³ugliglbbl

63 Units Totalizer Qm 60616263

gkgtlb

64 Units Temperature 323335

°C°K°F

65 Units Pressure 76

2378

barPSIMPAmbar

66 Units Density 95919796929493

g/mlg/cm³g/lkg/lkg/m³lb/ft³lb/ugl

100 Hardware Configuration 01234

I/HARTI/HART/ Pulse_BinI/HART/ Q_AlarmI/HART/ T_AlarmI/HART/ S_Alarm

130 PT100-Sensor 01

OffOn

160 k-Linearization 01

Average5 Points

161 Enable K-Set 012

GasLiquidLiquid &Gas

162 Boot Page 012

Page 0StandardSpectrum

163 Fmin 0123456789

10

954 Hz477 Hz238 Hz119 Hz60 Hz30 Hz15 Hz8 Hz4 Hz2 Hz1 Hz



Date:

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08.04.02

5.1-3

164 Fmax 0123456789

10

2500 Hz954 Hz477 Hz238 Hz119 Hz60 Hz30 Hz15 Hz8 Hz4 Hz2 Hz

165 Freq Spec Balance 0123

OFF123

166 BP Arithmet 012

1.0 Sek2.0 Sek5.0 Sek



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5.2-1

5.2 Unsigned-int-Variables

5.2.1 HART-Command 130 : Read-unsigned int-VariableRevision

RequestData Bytes

#0 Slot-Index

ResponseData Bytes

#0#1

#2..#3

Slot-IndexUnits codeContent of the Slot

ResponseCodes

056


5.2.2 HART-Command 131 : Write unsigned-int-VariableRevision

RequestData Bytes

#0#1

#2#3

Slot-IndexUnits codeContents of the SlotMSBLSB

ResponseData Bytes

#0#1

#2#3

Slot-IndexUnits codeContents of the SlotMSBLSB

ResponseCodes

023456

No Command Specific ErrorInvalid Selection -> Invalid units codeParameter Too Large -> Parameter too largeParameter Too Small -> Parameter too smallIncorrect Byte Count -> Number of data bytes not equal to 4Transmitter Specific Command Error -> Invalid Slot Number

Comments The units code received from the master is ignored during the processing of thecommand and the valid, set code is returned with response



Date:

byHarry Plotzki

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Revision:Name:

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08.04.02

5.2-2

5.2.3 Tables of „unsigned int“-Variables

Slot-Number

Parameter Meaning Revision

0 Instrument No. UnitsNone = 250

Minimum =Maximum =

065535

80 Totalizer overflow counter UnitsNone = 250

Read only140 Mains interrupt counter Units

None = 250

Read only160 Gain Max Units

None = 250

Minimum =Maximum =

10242047

161 Gain Vib Trigger UnitsNone = 250

Minimum =Maximum =

10242047

162 Low Dis Gain UnitsNone = 250

Minimum =Maximum =

10242047

163 High Dis Gain UnitsNone = 250

Minimum =Maximum =

10242047



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08.04.02

5.3-1

5.3 Float-Variables

5.3.1 HART-Command 132 : Read float-VariableRevision

RequestData Bytes

#0 Slot-Index

ResponseData Bytes

#0#1

#2..#5

Slot-IndexUnits codeContents of the Slot

ResponseCodes

056


5.3.2 HART-Command 133 : Write float-VariableRevision

RequestData Bytes

#0#1

#2..#5


ResponseData Bytes

#0#1

#2..#5


ResponseCodes

023456

No Command Specific ErrorInvalid Selection -> Invalid units codeParameter Too Large -> Parameter too largeParameter Too Small -> Parameter too smallIncorrect Byte Count -> Number of data bytes not equal to 4Transmitter Specific Command Error -> Invalid Slot Number

Comments The units code received from the master is ignored during the processing of thecommand and the valid, set code is returned with response



Date:

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08.04.02

5.3-2

5.3.3 Table of „Float“-Variables

Slot-Number


0 Qmax DN operate Unitsl/sl/minl/hm3/sm3/minm3/hm3/dft/sft/minft/hft/dugl/sugl/min

24171382813119292615130272216

ugl/hmgl/digpsigpmigphigpdbbl/sbbl/minbbl/hbbl/d

13623137183031132133134135

Comments: Qmax DNis a readonlyvariable!

1 Qmax UnitsFunction of theOperating Mode

Minimum =Maximum =

2 Qmin operate Unitsl/sl/minl/hm3/sm3/minm3/hm3/dft/sft/minft/hft/dugl/sugl/min

24171382813119292615130272216

ugl/hmgl/digpsigpmigphigpdbbl/sbbl/minbbl/hbbl/d

13623137183031132133134135

21 Reference temperature Units°C°K°F

Minimum =Maximum =

323335

-200 °C 500 °C



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17 Jul. 00


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5.3-1

22 Pressure P-operate(Poper abs)

Unitsbara = 7PSIA=6

Minimum =Maximum =

0 bara100 bara

23 Normal factor Units250

Minimum =Maximum =

250=None

0.0011000

26 Normal density Unitsg/mlg/cm³g/lkg/lkg/m³lb/ft³lb/ugl

Minimum =Maximum =

95919796929493

0.0 kg/l0.1 kg/l

27 Reference density Unitsg/mlg/cm³g/lkg/lkg/m³lb/ft³lb/ugl

Minimum =Maximum =

95919796929493

0.0 kg/l1000 kg/l

28

29

Volume expansion coefficient

Density changecoefficient

Units%/10/K

Minimum =Maximum =

253=Special

0.010.0

90 Pulse factor Units1/ totalizer units

Minimum =Maximum =

0.001 / totalizer units1000 / totalizer units

91 Pulse width UnitsMilliseconds =

Minimum =Maximum =

253 (Special)

1 ms256 ms



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.3-1

100 Damping Unitss = 51

Minimum =Maximum =

1 s100 s

101 Current output :Upper alarm current

UnitsmA = 39

Minimum =Maximum =

21.0 mA23.0 mA

110 Max Q-AlarmUpper alarm limit forflowrate

Units% = 57

Minimum =Maximum =

0 %100 %

111 Min Q-AlarmLower alarm limit forflowrate

Units% = 57

Minimum =Maximum =

0 %100 %

112 Max T-AlarmUpper alarm limit fortemperature

Units°CK°F

Minimum =Maximum =Units

323533

-50 °C (basic unit)+180 °C (basic unit)

113 Min T-AlarmLower alarm limit fortemperature

Units°CK°F

Minimum =Maximum = Units

323533


160 Current output adjustment:4mA

UnitsmA = 39

Minimum =Maximum =

2.0 mA6.0 mA

161 Current output adjustment:20mA

UnitsmA = 39

Minimum =Maximum =

10.0 mA30.0 mA



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.3-2

170 Temperature adjustment Units°CK°F

Minimum =Maximum =

323533


171 Input minimum Units250

Minimum =Maximum =

250=None

0.00.99

172 Vib/Qv Faktor Units250

Minimum =Maximum =

250=None

0.00.99

173 Low Dis Frequenz UnitsHz = 38

Minimum =Maximum =

0.0 Hz5000 Hz

174 High Dis Frequenz UnitsHz = 38

Minimum =Maximum =

0.0 Hz5000 Hz

191 Average K-Factor –LiquidFl-km

Units1/m3 = 43

Minimum =Maximum =

1.0 1/m3999999.02 1/m3

192:

196

K-Factor –Liquidl_k1:l_k5

Units1/m3 = 43

Minimum =Maximum =

1.0 1/m3999999.02 1/m3

197:

201

Frequency-Factor –Liquidf_k1:f_k5

UnitsHz = 38

Minimum =Maximum =

0.0; f_k(n-1) Hzf_k(n+1); 2500 Hz

202 Average K-Factor –Gasg-km

Units1/m3 = 43

Minimum =Maximum =

1.0 1/m3999999.02 1/m3

203:

207

K-Factor –Gasg_k1:g_k5

Units1/m3 = 43

Minimum =Maximum =

1.0 1/m3999999.02 1/m3



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.3-3

208:

212

Frequency-Factor –Gasg_k1:g_k5

UnitsHz = 38

Minimum =Maximum =

0.0; f_k(n-1) Hzf_k(n+1); 2500 Hz



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.4-1

5.4 String-Variables

5.4.1 HART-Command 134 : Read string-VariableRevision

RequestData Bytes

#0 Slot-Index

ResponseData Bytes

#0#1

#2..

Slot-IndexString lengthContents of the Strings

ResponseCodes

05


5.4.2 HART-Command 135 : Write string-VariableRevision

RequestData Bytes

#0#1

#2..


ResponseData Bytes

#0#1

#2..#5


ResponseCodes

05

No Command Specific ErrorIncorrect Byte Count -> Number of data bytes does not agree with string buffer

Comments

5.4.3 Table of the „string-Variables

Slot-Number


160 Order number String

16 characters



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.5-2

5.5 Condensed Overview of the Slot-Commands

Menu Title Variable Type Command Slot RevisionRead Write

Primary unsigned char 128 129 0SWIRL meter size Unsigned char 128 129 2VORTEX meter size Unsigned char 128 129 3Operating Mode Unsigned char 128 129 20Normal conditions Unsigned char 128 129 21Language Unsigned char 128 129 50Primary display Unsigned char 128 129 51Multiplex display Unsigned char 128 129 52Multiplex display Unsigned char 128 129 54Units Qvol Unsigned char 128 129 60Units Qm Unsigned char 128 129 61Units totalizer Qv Unsigned char 128 129 62Units totalizer Qm Unsigned char 128 129 63Units temperature Unsigned char 128 129 64Units density Unsigned char 128 129 66Hardware configuration Unsigned char 128 129 100PT100-Sensor Unsigned char 128 129 130k-Linearization Unsigned char 128 129 160Enable K-Set Unsigned char 128 129 161Boot Page Unsigned char 128 129 162Fmin Unsigned char 128 129 163Fmax Unsigned char 128 129 164FreqSpecBalance Unsigned char 128 129 165BP Arithmet Unsigned char 128 129 166Instrument No. unsigned int 130 131 0Totalizer overflow counter unsigned int 130 80Mains interrupt counter unsigned int 130 140Gain Max unsigned int 130 131 160Gain Vib Trigger unsigned int 130 131 161Low Dis Gain unsigned int 130 131 162High Dis Gain unsigned int 130 131 163Qmax DN operate float 132 133 0Qmax float 132 133 1Qmin operate float 132 133 2Reference temperature float 132 133 21Pressure P- operate absolute float 132 133 22Normal factor float 132 133 23Normal density float 132 133 26Reference density float 132 133 27Volume expansion coefficient float 132 133 28Density change coefficient float 132 133 29Pulse factor float 132 133 90Pulse width float 132 133 91Damping float 132 133 100



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

5.5-3

Menu Title Variable Type Command Slot RevisionRead Write

Current output upper alarmcurrent

float 132 133 101

Max. Q-Alarm float 132 133 110Min. Q-Alarm float 132 133 111Max. T-Alarm float 132 133 112Min. T-Alarm float 132 133 113Adjust 4 mA float 132 133 160Adjust 20mA float 132 133 161Temperature adjustment float 132 133 170Input Minimum float 132 133 171Vib/Qv Faktor float 132 133 172Low Dis Frequenz float 132 133 173High Dis Frequenz float 132 133 174Average K-Factor-Liquid float 132 133 191K-Factor-Liquid 1-5 float 132 133 192-196Freq.-Factor-Liquid 1-5 float 132 133 197-201Average K-Factor-Gas float 132 133 202K-Factor-Gas float 132 133 203-207Freq. –Factor-Gas 1-5 float 132 133 197-201Order Number string16 134 135 160

Comments:1. In addition to the „normal“ defined interrelationships (Meter Size -> Qmax DN etc.), if any changes are made to

the Pulse width, the Pulse factor or Qmax. the first two parameters must be read again, in order to assure that theconverter did not assign new values.



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

6-1

6 Other User Accessible CommandsIn this Section all the remaining Commands are listed, whether they are Universal, Common Practice or Slot-Commands.

6.1 HART-Command 140 : Reset Totalizer and OverflowRevision

RequestData Bytes

none

ResponseData Bytes

none

ResponseCodes

05


6.2 HART-Command 141 : Reset Error Register and Mains InterruptCounter

Revision

RequestData Bytes

none

ResponseData Bytes

none

ResponseCodes

05




Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

6-2

6.3 HART-Command 150 : Read DSP Standard Data or SpectrumNote: Response data are dependant of the selected bootpageRequestData Bytes

None

Byte Name Data Type Value Rane Meaning#0,#1 Amplificatiom unsigned int 1024 up to

20471024 up to 2047

#2,#3 Temp-MeasCount

unsigned int 0 up to 32768 -

#4,#5 Freq-MeasCount


#6,#7 BP-Status unsigned int 0 up to 7 0:"No AD-Input"1:"Vibrate Cut Off"2:"IniBP-Range"3:"Range FlwsFreq"4:"IniVib In Meas."5:" Vib In Meas."6:"IniTmp In Meas."7:" Tmp In Meas."

#8,#9 Periods unsigned int 0 up to 32768 -#10,#11 Samples unsigned int 0 up to 32768 -#12,#13 Temperature unsigned int 0 up to 32768 -#14.#15 AD input unsigned int 0 up to 32768 -#16,#17 BP output unsigned int 0 up to 32768 -

#18,#19 BP-Freq arearelative(see note 1)

unsigned int 0 up to 5 actual selectedrelative bandwitharea

Response DataBytesBootpageStandard(unsigned charWert 1)

#20,#21 Vib output unsigned int 0 up to 32768 -

#0,#1 BP0 output unsigned int 0 up to 32768 -#2,#3 BP1 output unsigned int 0 up to 32768 -#4,#5 Freq-Meas

Countunsigned int 0 up to 32768 -

#6,#7 BP-Status unsigned int 0 up to 7 0:"No AD-Input"1:"Vibrate Cut Off"2:"IniBP-Range"3:"Range FlwsFreq"4:"IniVib In Meas."5:" Vib In Meas."6:"IniTmp In Meas."7:" Tmp In Meas."

Response DataBytesBootpageSpektrum(unsigned charWert 2)

#8,#9 Periods unsigned int 0 up to 32768 -



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

6-3

#10,#11 Samples/Periods


#12,#13 BP2-Ausgang unsigned int 0 up to 32768 -#14.#15 AD-Eingang unsigned int 0 up to 32768 -#16,#17 BP3-Ausgang unsigned int 0 up to 32768 -#18,#19 BP4-Ausgang unsigned int 0 up to 32768 -#20,#21 BP5-Ausgang unsigned int 0 up to 32768 -

ResponseCodes

0 No Command Specific Error5 Incorrect Byte Count

Bemerkung 1 (Bootpage Standard)

2500

Hz

954

Hz

477

Hz

238

hz

119

Hz

60 H

z

30 H

z

15 H

z

8 H

z

4 H

z

2 H

z

1 H

z

BP Range absolut 0 1 2 3 4 5 6 7 8 9 10(DSP internal)

0 1 2 3 4 5

Fmax

Fmin

BP Range relativ

BP Range absolut = Offset Fmax + BP Range relativ

Beispiel: 5 = 2 + 3 "Fmax" erreichbar über HART Command 128 Slot 164

Bemerkung 2 (Bootpage Spektrum)Zuordnung der Bandpass-Ausgänge BP0 bis BP5 über Auslesen von Fmax (HART Command 128 Slot 164) und Fmin (HART Command 128 Slot 163) möglich. Minimal wird ein Bandpass, maximal 6 Bandpässe ausgeben



Date:

byHarry Plotzki

17 Jul. 00


Revision:Name:

Date:

6Andreas Thöne

08.04.02

7-4

7 Troubleshooting Hart

When the HART-Communication does not function the following points should be checked:

1. The converter must have a HART-Capable current output module installed.2. The load on the current output circuit must be between 250 and 500 Ohm.3. The Instrument Address in the Data Link menu.

If all these checks are correct and a problem still exists with the HART-Communication, the received commands can bechecked using the function “HART-Command” in the Submenu "Function Test":╔═════════════════╗║ HART-Command ║║ 128 Slot 20 * ║╚═════════════════╝ └┬┘ └───┬──┘ │ │ │ └─── Blinks momentarily for each received command. │ └──────── Only displayed for Slot-Commands 128-133, decimal. └─────────────── Number of the Command, decimal.

If nothing is displayed then the receive operation is not functioning properly. In this case an oscilloscope should be usedto check if a HART-Signal is being received at the converter. Since the signal level is typically 1 mApp, the voltageacross a 500 Ohm load (1 mApp * 500 Ohm) is 500 mVpp.If a signal is being received but is not being recognized by the converter, it is possible that the signal quality is notadequate. In this case the test should be repeated under more favorable conditions.

If HART-Signals are being received but the transmitter (e.g. Hand-Held-Communicator) indicates an error, then thesend output of the converter should be checked with an oscilloscope. A send command can be initiated using theFunction Test "HART-Transmitter":╔═════════════════╗║ HART-Transmitter║║ 0 ║╚═════════════════╝

After calling this function the converter sends a logic 0 (=2200Hz) and after any key is pressed, a logic 1 (=1200Hz).

An additional oscilloscope check can be made to determine if the converter responds to the command.

ABB Automation Products GmbHDransfelder Str. 2, D-37079 GoettingenTel.: +49 (0) 5 51 9 05 - 0Fax: +49 (0) 5 51 9 05 - 777http://www.abb.com

Rights reserved to make technical revisions.

This Instruction Bulletin is copyright protected. Translations, reproductions or distribution in any form - including editing and abstracts - and in particular, duplicating, photocopying, electronic distribution or storing in data processing installations or networkswithout the express consent of the copyright holder is strictly forbidden and may lead to civil or criminal proceedings.

Rights reserved to make technical revisionsPrinted in the Fed. R. of Germany

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