User Instructions
Contents
1. v9c6 r b T 39Vd gi NMC JHBTOPSU ON AVI NOIS SININNOJ JLVA NOISIA3H ON Ma AVIS ET TT bO0T divad N M S O9VA00S S J Tniussuen 3UJ JO d5 UOISIASY SL J Y 3S4 EZ TT pO0Z V AY Janltusup11 aumersdwaL XH H YdLOLd sjeu nd no pue sjeulu1s 3ndui UBaMjeq uonep osi ayes J EDISULNUI BulueAjeB5 au Z dd Pepe PERL 10 40 5007 8 9u INIMVYT IOHULNOJ ANY NOLLVTIVISNI ShopJezeu uou aq 0 UMOUY SI eaJe ss un JANILUSUR I eui JO d9 pebueup njea xq 02 90 S00Z q 93 ON WALI ON MYONG IV HALV WYN annn ON 130 pod uoneoliunuiutuo2 y oj Juawd nba uoneozltunuuuio5 Aue P3UUO9 JOU OG s d9 9 pue sounjesodiuay Jua qwe VPI 0 90 5007 3 A WYO T ueu ss l eq IIeus PUNCH dd gd uo 91 71 OI 1U X33 sem 91 T 1 OI TU X3 57 01 9007 d ADU reo au pue JILJEG JSJES 34 uo PUILWI3J 34 u q q eouejsisa1 u1 u u1 Apog VON eui uono uuo2 ype ue sanba JolLIeq q Jes oq pue p sn SI aeq Ajajes e JI p wouy e o4dde JNOUJIM p sIA 1 eq JOU Aew qu uunoop x w Hr 990 ougpnpur J JNOYJM peas q1 1 p X3 mme SUI PIND e se posn aq Aew sanjea Bulmojjoj ay UMOUXUN ae sjo3euleJed qe2 eu JI suononasul sJeJn3 ejnueui 9 IM 92U8pJ022 UI paj e3sul eq Jsnw SJOLLEG A39Jes u ul p I payjeqsul aq I q GJS z HUI OG PET VII p Aoidde aq jjeys 3ueuudinbo ayes jjedDISULUI 40 SNJEJEdde pojeroosse au T HUI TZ dri o f gi HU 9 Ju 99T SU 292. aa nun nn nennen 17 Intelligence PN NNN 19 4 ProfIPAQ Software and Programming xvrvararnrnrnnnnrnvnnnrnnnnrnrnnnnnnnnrnnnnnnnnnnrnrnnnnnvnurnenenen 19 4 1 INOR PC configuration software ProfiSoft 19 TIL Installationen ende R 19 S P NNN 19 71 5 TD ORG u u u denied ease 20 4 1 4 Device nforin ali ii k u u nnnm u AR a nn nn nn nn nn nnne nnns 21 415 Qutputicoliligurati ofiuu una su yaaa Db Bn Rad va cde ber agb en and 22 4 1 6 Download and upload configuration to from ProfIPAQ 23 41 7 VE ENE Se 24 4 1 8 Change address with ProfiSoft 24 4 1 9 Customized Linearization Datapair nn nn nn nn nn nn 25 FLO EO CEN e I T T Nine 26 FLL SENG NN 27 4 1 12 PSV le 27 5 PEORMPAO n PFOBS System nie ii een 28 OMM 28 SPE SD TT a EEE 28 5 3 PROFIBUS ProfIPAQ parameters r araravarnrnnnururnrersnsnnnnevevevenennnnnnanavnvnvnveueunnnn 29 6 Appendix A Parameter table raravunnnnnrnrnnnnnnnnvnrnnnnnnnnnnenennnnnnenenennnnnnnvenennnnnnevevenennnnennne 32 6 1 Funcion BIOCK Analog Input 32 6 2 Transducer Block Temperature Device arunanarananavnnnnnnnnrsrsrersesevevenevnnnanavanavevnunn 32 6 9 Physical Block Transmitter isses uu uu a dod Dance nda etd p DIOS B Ru E Dro said 3
3. ProfiBus output Output gt FB1 Channel 1 gt FB2 Channel 2 gt FB3 Status Output Low Isolation Sensor Aging 21 09 Memory Error Sensor is OK Terminal Temperatur C 26 9 Figure 23 ProfiSoft Input signal 4 1 8 Change address with ProfiSoft To change the device address click the button Change address on Device information tab Device Address 126 Change address Figure 24 ProfiSoft Change Address Write the new address we recommended between 1 125 and press OK Change Address Old Address 176 New Address DK Cancel Figure 25 ProfiSoft New Address 24 gt intelligence 4 1 9 Customized Linearization Datapair In transmitters from the ProfIPAQ family the customized linearization is described with datapairs and if two input channels are used they will both use the same linearization table If you choose the customized linearization press the Enter Datapair button and a new window will appear se figure 26 Enter Datapair In this window there are nine icons and their functions are from the left Open a saved datapair configuration file and load it into ProfiSoft configuration Save current datapair configuration to a file on the PC Print current datapair configuration from the datapair window Lar Sort entered datapairs in ascending order aoc Reset all entered datapairs values to 0 m Insert row Will insert a ne
4. One end closed tube min IP54 One end closed tube min IP54 Figure 7 Connection head BI Figure 8 Connection head BS connection Bend type DANN GR A ER For dust applications Category 2D Zone 21 ProfIPAQ HX Dxy with at least IP 65 is needed Make sure the correct gasket is ATEX Certified Gland Lud used Cable entries and blanking elements suitably Ex certified and correctly installed shall be used For dust applications Category 3D Zone 22 ProfIPAQ H Dxy with IP 54 is used Cable entries and blanking elements suitably Ex certified and correctly installed shall be used o E One end closed tube min IP54 Figure 9 Connection head DANX 10 Intelligence IP65 IP54 Gasket N Em AR M 24x1 5 S S ae No sealant H ez WWW V JET 22 NNN 2524234252 nn Tube Figure 10 Connection head Sealing 2 5 4 Profi PAQ L The ProfIPAQ L transmitter is intended for mounting on a 35 mm DIN Rail and must not be placed in Ex Hazardous area Figure 11 ProfIPAQ L rail mounding and demounting 1 Place the transmitter on upper part of the rail 2 Press the transmitter down until it hangs on to the rail 3 To remove the transmitter use a screw driver to loosen the hook from the lower rail part and bend gently the transmitter upwards 11 1S cy Intelligence 2 6 Connections The input and output power supply of the ProfIPAQ are connected according to connection chart Figure 12 The output c
5. intelligence 4 1 10 Error Correction Performs a fine adjust of the transmitter when known inputs can be applied or when a sensor calibration protocol is available To open the Error Correction form se figure 27 Error Correction select from the menu Miscellaneous Error ae oe 0 Correction or click the Error Correction icon 100 E Error Correction OK p Channel 1 Max Value C Reference Temperature 120 300 Measured Temperature 122 900 Min Value C Reference Temperature 0 000 Measured Temperature D 120 Leet Mex vale Get mim vaie Error Correction Type System k T r Correction Figure 27 Error Correction 4 1 10 1 Sensor Error Correction A 2 point sensor error correction can be performed when a sensor calibration protocol is available The actual temperature and the observed temperature from the calibration protocol are required You get the best result if the two points are near the limits of the measuring range because this will give a higher accuracy 4 1 10 2 System Error Correction A 2 point system error correction can be performed when two known temperatures can be applied to the sensor connected to the transmitter The transmitter input value will also have to be measured this could be done in the Error Correction window You get the best result if the two points are near the limits of the measuring range because this will give a higher accuracy
6. How to activate this function see 4 1 5 Output configuration in Part 2 of the manual 2 7 Specification 2 7 1 Input RTD 2 3 and 4 wire connection Pt10 Pt50 Pt100 Pt200 Pt500 Pt1000 Pt10 Pt50 Pt100 Ni50 Ni100 Ni120 Ni1000 Sensor current Maximum sensor wire resistance 2 7 2 Input Resistance Potentiometer Resistance Low range High range Customized linearization Sensor current Maximum sensor wire resistance 2 7 3 Input Thermocouple T CB Pt30Rh Pt6Rh IEC 60584 1 T CC W5Re W26Re ASTM E 988 T CD W3Re W25Re ASTM E 988 T CE NiCr CuNi IEC 60584 1 T C G W W26Re Not an ASTM symbol T C J Fe CuNi IEC 60584 1 T C K NiCr Ni IEC 60584 1 T C L Fe CuNi DIN 43710 T CN NiCrSi NiSi TEC 60584 1 T CR Pti3Rh Pt IEC 60584 1 T CS PELORh Pt IEC 60584 1 TET Cu CuNi IEC 60584 1 T C U Cu CuNi DIN 43710 Input impedance Maximum sensor wire resistance Cold Junction Compensation CJC IEC60751 a 0 00385 IEC60751 a 0 00385 IEC60751 a 0 00385 IEC60751 a 0 00385 IEC60751 a 0 00385 IEC60751 a 0 00385 JIS1604 a 0 003916 JIS1604 a 0 003916 JIS1604 a 0 003916 DIN 43760 DIN 43760 DIN 43760 DIN 43760 200 to 850 C 200 to 850 C 200 to 850 C 200 to 850 C 200 to 850 C 200 to 850 C 200 to 850 C 200 to 850 C 200 to 850 C 60 to 250 C 60 to 250 C 60 to 250 C 60 to 250 C 250 HA 25 Q wire 2 3 and 4 w
7. 16 PV FTIME SIMPLE FLOAT STORES 4 RW 0 33 17 FSAVE TYPE SIMPLE U8 STORES 1 RW 0 34 18 FSAVE VALUE SIMPLE FLOAT STORES 4 RW 0 35 19 ALARM HYS SIMPLE FLOAT STORES 4 RW 0 37 21 HI HI LIM SIMPLE FLOAT STORES 4 RW 0 39 23 HI LIM SIMPLE FLOAT STORES 4 RW 0 41 25 LO LIM SIMPLE FLOAT STORES 4 RW 0 43 27 LO LO LIM SIMPLE FLOAT STORES 4 RW 0 46 30 HI HI ALM RECORD DS 39 STORED 16 READ 0 47 31 HI ALM RECORD DS 39 STORE D 16 READ 0 48 32 LO ALM RECORD DS 39 STORE D 16 READ 0 49 33 LO LO ALM RECORD DS 39 STORED 16 READ 0 50 34 SIMULATE RECORD DS 50 STORES 6 RW 0 51 35 OUT UNIT TEXT SIMPLE OCSTR STORES 16 RW 6 2 Transducer Block Temperature Device thermocouple thermoresistance R DC V 0 61 0 BLOCK OBJECT RECORD DS 32 STORE C 20 READ 0 62 1 ST REV SIMPLE U16 STOREN 2 READ 0 63 2 TAG DESCR SIMPLE OCSTR STORES 32 RW 0 64 3 STRATEGY SIMPLE U16 STORES 2 RW 0 65 4 ALERT KEY SIMPLE 1U8 STORES 1 RW 0 66 5 TARGET MODE SIMPLE U8 STORES 1 RW 0 67 6 MODE BLK RECORD DS 37 STORED 3 READ 0 68 7 ALARM SUM RECORD DS 42 STORED 8 READ 0 69 8 PRIMARY VALUE SIMPLE DS 33 STORED 5 READ 0 70 9 PRIMARY VALUE UNIT SIMPLE U16 STORES 2 RW 0 71 10 SECONDARY VALUE 1 SIMPLE DS 33 STORED 5 READ 0 72 11 SECONDARY VALUE 2 SIMPLE DS 33 STORED 5 READ 0 73 12 SENSOR MEAS TYPE SIMPLE U8 STORES 1 RW 0 74 13 INPUT RANGE SIMPLE U8 STORES 1 RW 0 75 14 LIN TYPE SIMPLE 1U
8. Bus port connector 6 and 7 Sensor port 1 5 Comm port Ui Vmax 30 VDC Uo Voc 3 3 VDC Ui Vmax 8 0 VDC Ii 2 Imax no limit Io Isc 0 4 mA Ii Imax 450 mA Pi Pmax no limit Po Pt 6 5 mW Pi Pmax 0 8 W Ci 1 nF Co Ca 500 uF Ci 10 nF Li 10 uH Lo La 375 mH Li 1 uH For the ambient temperature T6 40 C lt Ta lt 60 C 409F lt Ta lt 140 F T5 40 C lt Ta lt 75 C 40 F lt Ta lt 167 F T4 40 C lt Ta lt 85 C 40 F lt Ta lt 185 F Dust 309C lt Ta lt 80 C 22 F lt Ta lt 176 F Profl PAQ HX HX D is intended to be connected to a certified intrinsic safe power supply Segment coupler with FISCO data mounted outside the hazardous area The data for the transmitter is Bus port connector 6 and 7 Sensor port 1 5 Comm port Ui Vmax 17 5 VDC Uo Voc 17 5 VDC Ui Vmax 8 0 VDC Ii Imax 380 mA Io Isc 56mA Ili Imax 450 mA Pi Pmax 5 32 W Po Pt 244 mW Pi Pmax 0 8W Ci 1 nF Co Ca 166nF Ci 10 nF Li 10 uH Lo La 6mH Li 1 uH For the ambient temperature T6 409C lt Ta lt 45 C 409F lt Ta lt 113 F T5 40 C lt Ta lt 60 C 409F lt Ta lt 140 F T4 40 C lt Ta lt 85 C 40 F lt Ta lt 185 F Dust 309C lt Ta lt 80 C 22 F lt Ta lt 1769F Intelligence 2 4 Identification of the transmitter See labels on the transmitter Part no Serial no production date Nyyww pr
9. Intrinsic safe Ex ia ib gas applications Zone 0 and 1 ProfIPAQ HX D is a dust version of ProfIPAQ HX with a dust tested housing for Intrinsic safe Ex ia ib dust applications Zone 21 applications and ProfIPAQ L DIN rail mounted for non Ex applications 1 2 1 Features PROFIBUS PA certified communication Easy setup via a separate INOR communication port as an alternative to PROFIBUS High accuracy measurement Linearizes for most temperature sensors Custom linearization for other type of sensors with mV and ohm output e Accepts two input signals making it possible to do differential measurements average measurement redundancy and sensor ageing control e FDE Fault Disconnect Equipment ensures that the ProfIPAQ transmitter won t pull down a whole segment in a PROFIBUS net if the transmitter fails internally e DDL and GSD files available e Sensor monitoring functions sensor break sensor short circuit low sensor isolation A separate LCD indicator can be connected to the communication port of the transmitter Intelligence 1 3 About PROFI BUS PROFIBUS PA is an all digital serial two way communication system that interconnects field equipment such as sensors actuators and controllers Power supply and output digital signal uses the same two wires The physical layer is described in EN 61158 2 and the protocol in EN 50170 For more information concerning PROFIBUS visit the PROFIBUS organization homepage at address www profi
10. Lead breakage detection disable short C 7 Average OF chi nd che SUE enang Lead breakage detection and short circuit f Average OF ahi And che C But chi Gr chz IF Other Is Invalid Lower vwarnin d 10 00 Franks i ar HEE Sensor Low Isolation Sensor Aging Lower Alarm 95 00 Input value 2 on FB3 Monitoring Lower Range value E Enabled Enabled 3 EUH Display Output eis Disabled Disabled Display None Y iz fo 1 imi i imik Alarm Hysteresis C Te eee D pm Isolation Limit Aging Limit C Out Unit Filter Time 0 605 D 50 500 kohm Sensor Limits 200 00 850 00 C PY Range 200 00 850 00 c Input RTD 4447 Input Limits 0 400 Ohm Measure Type Chil Modified Figure 19 ProfiSoft Output Configuration detection disable Output Configuration Output Values The setting for the lower higher alarm and warning limits Alarm Hysteresis Hysteresis expressed in the engineering units of the output value scale An alarm occurs when a value exceeds an upper limit The alarm s status remains true until the value drops below the limit minus the alarm hysteresis The directions are reversed for low limit detection The hysteresis is also used for the warnings Unit Engineering unit for the output value Measure type If sensor connections are Resistance 2 x 3 Wire or Voltage 2 x T C select the type of measuring results output The selected Measure type will be valid on FB
11. that supports the ProfIPAQ transmitters EDD is an electronic device data sheet E DDL Electronic Device Description Language used in the acyclic communication with the Profibus device A EDD typically describes the application related parameters and functions of a field device such as configuration parameters ranges of values units of measurement default values etc A EDD is a versatile source of information for engineering commissioning runtime asset management and documentation The DDL EDD file can be described as a device driver file that describes the device characteristics to a universal configuration tool like the Siemens Simatic PDM where the ProfIPAQ DDL is integrated into from version 5 1 If you are using another universal managing system the ProfIPAQ DDL can be downloaded from INOR webb page www inor com and installed into your system 5 2 GSD file GSD is a readable ASCII text file and contains both general and device specific specifications for cyclic communication to a PLC Programmable Logic Controller For more technical information on the GSD file see the Profibus organisation webb page www profibus com The ProfIPAQ GSD file can be downloaded from INOR webb page www inor com or from the Profibus webb page www profibus com and installed into your system 28 Inor Intelligence 5 3 PROFI BUS Profi PAQ parameters ProfIPAQ have the possibility to send 3 function blocks if they are selected in the PLC pro
12. uploading the configuration from the ProfIPAQ before adjusting the parameters to minimize the risk for unwanted changes and then download the configuration to the ProfIPAQ It s possible to read the configuration with the PC software ProfiSoft while the device communicates through the PROFIBUS but this increases the PC communication time from appr 15 sec up to appr 210 sec depending on actions on the bus ProfiSoft ask if the communication over the PROFIBUS should be disconnected If this is done the device make a complete restart after reading and will start the PROFIBUS communication again Download a new configuration will disconnect the device before downloading and then make a complete restart before start communicate over the PROFIBUS Upload configuration from ProfIPAQ to PC eee eger Help Transfer to transmitter Head from transmitter Print Configuration Optione Basic Calibration Figure 20 ProfiSoft Upload Configuration Download configuration to ProfIPAQ Miscellaneous Help Transfer to transmitter Head from transmitter Print Configuration Options Basic Calibration Figure 21 ProfiSoft Download Configuration 23 intelligence 4 1 7 View temperature To view the input signal terminal temperature output signal and the status from ProfIPAQ Figure 22 ProfiSoft View Input signal Kal View Signal 36 Channel 1 21 09 Channel 2 Lead Breakage Short Circuit EE Working
13. 0 31 25 70 E mail support inor se Inor Transmitter Oy Unikkotie 13 FI 01300 VANTAA Finland Phone 358 9 83850210 Fax 358 9 83850219 E mail js inor surfeu fi Inor Transmitter GmbH Rodenbacher Chaussee 6 DE 63457 Hanau Wolfgang Germany Phone 49 6181 582940 Fax 49 6181 582944 E mail inor gmbh t online de 36 Inor Transmitter Inc 1860 Renaissance Blvd Sturtevant WI 53177 USA Phone 41 262 884 4535 Fax 1 262 884 4537 E mail service inor com
14. 1 Function Block 1 while Input channel 1 will be valid on FB2 and Input channel 2 on FB3 Display Output Turns the communication port of the transmitter into an output to an LCD display and sets number of decimals to be shown on the display Also sets the number of decimals shown in the View Signal window in ProfiSoft Filter Time This parameter contains the time constant for the rise time of the output up to a value of 63 21 resulting from a step at the filter input The engineering unit of this parameter is always second Sensor Wire Monitoring Enables the lead breakage and short circuit detection Sensor Low Isolation Monitoring A monitoring of the internal isolation level in RTDs and T Cs If the isolation falls below the set Isolation limit a message will be transmitted Sensor Aging Compare if the input value for channel 1 differs the input value for channel 2 If the difference is larger than the entered limit a status signal is set and can be read by the PLC system The limit has the same unit as the input signal 22 intelligence 4 1 6 Download and upload configuration to from Profl PAQ Before configuring the ProfIPAQ setup the PC serial port and power supply to ProfIPAQ Use the PROFIBUS connection or connect an external power supply 9 to 32 VDC to the PROFIBUS connections 6 and 7 To setup the serial port select Miscellaneous Options Settings and mark which communication port to use Click OK We recommend
15. 2 Profil PAQ L 115 4 53 2 8 Dimensions 2 8 1 Profi PAQ H HX 100 3 93 22 5 0 88 Figure 14 Dimension ProfIPAQ L 15 UG rcs 2 9 Service and repair ProfIPAQ does not contain any serviceable parts inside and cannot be repaired A defective unit is sent to INOR Process AB or the local distributor for exchange A clear description of the malfunction must be attached for warranty claims 2 10 Ordering information ProfIPAQ H 70PPH00001 ProfIPAQ H D11 70PPHDO111 ProfIPAQ H D12 70PPHD0121 ProfIPAQ H D13 70PPHD0131 ProfIPAQ H D21 70PPHD0211 ProfIPAQ H D22 70PPHD0221 ProfIPAQ H D23 70PPHD0231 ProfIPAQ H D31 70PPHD0311 ProfIPAQ H D32 70PPHD0321 ProfIPAQ H D33 70PPHD0331 ProfIPAQ HX 70PPHX0001 ProfIPAQ HX D11 70PPHXD111 ProfIPAQ HX D12 70PPHXD121 ProfIPAQ HX D13 70PPHXD131 ProfIPAQ HX D21 70PPHXD211 ProfIPAQ HX D22 70PPHXD221 ProfIPAQ HX D23 70PPHXD231 ProfIPAQ HX D31 70PPHXD311 ProfIPAQ HX D32 70PPHXD321 ProfIPAQ HX D33 70PPHXD331 ProfIPAQ L 70PPL00001 2 11 Accessories PC Configuration kit software cable 70CFG00092 Standard mounting set screws springs and locking washer 70ADA00017 LCD W12 indicator 70LCDW1201 16 Inor Intelligence tallation quidance INS 3 Control Drawings for
16. 3 7 Apbendbx B PROFIBUS Cabling 2a 34 Z4 Shielang anad dgrouding uuu uu Driving oss on ia us ras la uapa 34 ZZ TENNER 35 VERN 36 Inor Intelligence 1 Introduction 1 1 About this manual This manual is intended to assist in installing operating and maintaining ProfIPAQ temperature transmitters with PROFIBUS PA and it is divided into two parts Part 1 Profl PAQ H HX L Installation and Maintenance Here you will find connection drawings mechanical drawings electrical data guidelines for mounting into hazardous Ex location and accessories and Part 2 Software and Programming This describes ProfiSoft the software to configure the ProfIPAQ transmitters via the PC serial port It also contains some generic PROFIBUS information ProfIPAQ transmitters DD are Integrated into Siemens Simatic PDM version 5 1 or higher For use with an earlier version of Siemens Simatic PDM and other software problems using Siemens Simatic PDM consult Siemens user s manual 1 2 About Profl PAQ ProfIPAQ is a line of temperature transmitters from INOR designed according to the latest PROFIBUS PA standard for temperature transmitters i e Profile 3 0 class A amp B At present the following versions are available ProfIPAQ H in head for non Ex and Non Incendive gas Zone 2 applications ProfIPAQ H D is a dust version of ProfIPAQ H with dust tested housing for non Ex and Non Incendive dust Zone 22 applications ProfIPAQ HX in head for
17. 3XXXXX x C 0539 II 16 2D T 100 C Ex ia IIC T4 T6 IP65 x dr DEMKO 05 ATEX 136988X Figure 4 Label 1 and 2 on enclosure of the transmitter ProfIPAQ HXDxy 70PPHXDxy1 e g 70PPHXD111 Part no 7OPPLO0001 N0610 123456 Serialno production VO 3XXXXX date Nyyww PROFIBUS Cert no Z01083 Figure 5 Label 1 and 2 on enclosure of the transmitter ProfIPAQ L 70PPL00001 8 2 5 Installation in an encapsulation iE Intelligence 2 5 1 Ambient temperature considerations The ProfIPAQ H H D HX HX D transmitter is designed to operate within specifications for ambient temperatures between 40 and 85 C 40 and 185 F also see ambient temperatures depending on temperature class and Gas or Dust installation in section 2 3 1 Ex data Heat from the process is transferred via the thermowell to the transmitter housing If the expected process temperature is near or beyond specification limits this may rise the temperature in the transmitter housing encapsulation above specified ambient temperature Always verify that the temperature where the transmitter is mounted is not above the specified limit One way to reduce heat transfer via the thermowell is to increase the length of the thermowell or to move the transmitter housing away from the heat source The same safety measures can be used when the temperature is below the specified minimum temperature 2 5 2 Profl PAQ H HX Gas The transmitter may be mounted in a temp
18. 7 46 TAB X Y VALUE ARRAY FLOAT STORED 8 RW 0 108 47 TAB MIN NUMBER SIMPLE U8 STORE N 1 READ 0 109 48 TAB MAX NUMBER SIMPLE U8 STORE N 1 READ 0 110 49 TAB OP CODE SIMPLE U8 STORE_D 1 RW 0 111 50 TAB STATUS SIMPLE U8 STORE S 1 READ 0 112 51 TAB ACTUAL NUMBER SIMPLE U8 STOREN 1 READ 6 3 Physical Block Transmitter 0 126 0 BLOCK_OBJECT RECORD DS 32 STORE C 20 READ 0 127 1 ST REV SIMPLE U16 STORE N 2 READ 0 128 2 TAG DESCR SIMPLE OCSTR STORES 32 RW 0 129 3 STRATEGY SIMPLE U16 STORES 2 RW 0 130 4 ALERT KEY SIMPLE U8 STORES 1 RW 0 131 5 TARGET MODE SIMPLE U8 STORES 1 RW 0 132 6 MODE BLK RECORD DS 37 STORED 3 READ 0 133 7 ALARM_SUM RECORD DS 42 STORE D 8 READ 0 134 8 SW REVISION SIMPLE VISTR STORE C 16 READ 0 135 9 HW REVISION SIMPLE VISTR STORE C 16 READ 0 136 10 DEVICE MAN ID SIMPLE U16 STORE C 2 READ 0 137 11 DEVICE ID SIMPLE VISTR STORE C 16 READ 0 138 12 DEVICE SER NUM SIMPLE VISTR STORE C 16 READ 0 139 13 DIAGNOSIS SIMPLE OCSTR STORE D 4 READ 0 140 14 DIGNOSIS EXTENSION SIMPLE OCSTR STORE D 6 READ 0 141 15 DIAGNOSIS MASK SIMPLE OCSTR STORE C 4 READ 0 142 16 DIAGNOSIS MASK EXT SIMPLE OCSTR STORE C 6 READ 0 143 17 DEVICE CERTIFICATION SIMPLE VISTR STORE C 32 READ 0 144 18 WRITE LOCKING SIMPLE U16 STORE N 2 RW 0 145 19 FACTORY RESET SIMPLE U16 STORE S RW 0 146 20 DESCRIPTOR SIMPLE OCSTR STORES 32 RW 0 147 21 DEVICE MESSAGE SIMPLE OCSTR STORES 32 RW 0 148 22 DEVICE INSTALL DATE SIMPLE OCSTR STORE S 16 RW 0 149 23 LOCAL OP ENA SIMPLE U8 ST
19. 8 STORES 1 RW 0 80 19 BIAS 1 SIMPLE FLOAT STORES 4 RW 0 81 20 BIAS 2 SIMPLE FLOAT STORES 4 RW 0 82 21 UPPER SENSOR LIMIT SIMPLE FLOAT STOREN 4 READ 0 83 22 LOWER SENSOR LIMIT SIMPLE FLOAT STOREN 4 READ 0 85 24 INPUT FAULT GEN SIMPLE U8 STORED 1 READ 32 Inor Intelligence 0 86 25 INPUT FAULT 1 SIMPLE U8 STORED 1 READ 0 87 26 INPUT FAULT 2 SIMPLE U8 STORED 1 READ 0 88 27 SENSOR WIRE CHECK 1 SIMPLE U8 STORES 1 RW 0 89 28 SENSOR WIRE CHECK 2 SIMPLE U8 STORE S 1 RW 0 90 29 MAX SENSOR VALUE 1 SIMPLE FLOAT STORE N 4 RW 0 91 30 MIN SENSOR VALUE 1 SIMPLE FLOAT STORE N 4 RW 0 92 31 MAX SENSOR VALUE 2 SIMPLE FLOAT STORE N 4 RW 0 93 32 MIN SENSOR VALUE 2 SIMPLE FLOAT STORE N 4 RW 0 94 33 RJ TEMP SIMPLE FLOAT STORE D 4 READ 0 95 34 RJ TYPE SIMPLE U8 STORES 1 RW 0 96 35 EXTERNAL RJ VALUE SIMPLE FLOAT STORES 4 RW 0 97 36 SENSOR_CONNECTION SIMPLE U8 STORE S 1 RW 0 98 37 COMP_WIRE1 SIMPLE FLOAT STORES 4 RW 0 99 38 COMP WIRE2 SIMPLE FLOAT STORES 4 RW 0 100 39 EMISSIVITY SIMPLE FLOAT STORES 4 RW 0 101 40 PEAK TRACK SIMPLE U8 STORE S 1 RW 0 102 41 DECAY_RATE SIMPLE FLOAT STORES 4 RW 0 103 42 PEAK TIME SIMPLE FLOAT STORES 4 RW 0 104 43 TRACK HOLD SIMPLE U8 STORE S 1 RW 0 105 44 SPECT FLT SET SIMPLE U8 STORES 1 RW 0 106 45 TAB ENTRY SIMPLE U8 STORE_D 1 RW 0 10
20. 9 O 1 GLY 3 2 L GLY 239 2 L GLY 91 0 dnous Vul 9S OI P P P AS LT on S 0 T Sjeuiuuo p PS pod uoneolunuutuuoo XH OVdIJO4d XH OvdIJOJd XH OWdIJOld HN oT r1 uU T D N CEG Id Vui 08 II 4 1 ASLE IN DSIA 9l osz wn L i IASP p 9l ODSIJ A ddns Jamod 9p JO SW A OSZ 9 0 o paaoidde OSI 40 JOjeuluuo ayeiauab JO dd SSN jou JSNUI p p uuop E pasoddy quawudinba o uo25 au LE e e bd lqe32 10 lt 09 M C S gt od vu 08 gt OI AS LT gt on Io0 L gt BL gt Io0E 91 DoSb gt eL gt DoOb 9L SULLA A1T1N3 008 gt eL gt DoOE S L 009 gt BL gt 2o0t SL D008 gt EL gt 2o0 bL D0G8 gt EL gt Oo0b bL snjeieddy pajenossy UONEI07 SNOPJEZEYUON Io00T 1 S9dI 9L bl OII ea dz OT II 6E50 35 Q XH OvdIJOd 9L tL OIL 8 X3 ST II 6E50 50 XH OVdIJO1d X886981 X3 LV SO OMNIA TZ T 0 uoz UOeD07 paisse snopsezeyy UU3IS S ue doin3 SDPUDAUD ueb iQueqo AS UDUUD spAjBjep sbJeldoy epuDABpaW J DA UDIN e p4 jups o epuopd SUS poppAys yoo uopueb UDA JD ju unoop D4480 pejnoeso d equis LOLLLSADALUON 880dind pezloyinpun Aub Jo pesn eq jou LJDA PAUL D OL PSP IDUN Og LOU JSNW 4084944 SJUSLUGY SYL PUD uorssiuJed UNO INOULIM pejdoo eq jou 4snw iueunoop siu Figure 15 Control Installation Drawing Zone 0 Zone 1 Zone 21 17 Inor Intelligence b E 39vd gl
21. GLE dri 005 gII Hus aroos I 0 0 dnom vu t 0 oT A on S 0 T S eulu L pod UORNEJIUNUIUIO H OvdlIjoud H OvdIJOJd H OvdIJOJd HN 01 r1 JUT D A 0 92IA9p p 9lj ODINA O i d JOJEUIUS pa ouddy e e o Ajddng Jamod dd PONDUS JoSL gt eL gt Do0E 9L 908 gt EL gt Do0b 9L OOINd 40 2008 gt eL gt Io0E GL I058 gt EL gt JoOb SL I008 gt EL gt 2006 bl TL DoS8 gt EL gt 2o0b bL TL Z SSe ddns JaMod Oe00LL HSdI 9L LL OM 14 3 9L TL OH 192 ET 30 9 II 35 UOne20 SNOPJEZEUUON H OvdIJOJd X8869 T XALV SO OMWI3G zc z 3U0Z uone o p lJIsse 9 snopiezeH Q H OvdIJOJd WOJSAS ueadoun3 SDPUDAUD uefjunueqo jeje uDUUD spAfbjep SDJaldoy epupA bpeu LAPA upin e 404 ups Bo SpuD P 16jue PDppAys uoo uopuebe p JD 1ueunoop D4480 pejnoesoJd ag IM UOLLUSADALUON esodand peziiouunpun UD JOL pesn eq jou LIDA pay D OL pelpdul OG 40u SMW 4084844 squeluoo SYL pup uoissujed ano INOULIM peidoo eq LOU jsnu LUSUNSOP SIL Figure 16 Control Installation Drawing Zone 2 Zone 22 18 Inor Intelligence Part 2 4 Profil PAQ Software and Programmin 4 1 I NOR PC configuration software ProfiSoft INOR PC configuration software ProfiSoft is used to configure the ProfIPAQ via the PC so that the configuration can be done before installation of the device in the PROFIBUS net To communic
22. Inor Process AB PO Box 9125 SE 200 39 MALM Sweden Phone 46 40 31 25 60 Fax 46 40 31 25 70 E mail support inor se User Instructions PROF AQ H HX 86BPQ00001 2006 10 ver 1 2 Inor Transmitter Oy Unikkotie 13 FI 01300 VANTAA Finland Phone 358 9 83850210 Fax 358 9 83850219 E mail js inor surfeu fi Inor Transmitter GmbH Rodenbacher Chaussee 6 DE 63457 Hanau Wolfgang Germany Phone 49 6181 582940 Fax 49 6181 582944 E mail inor gmbh t online de Inor Transmitter Inc 1860 Renaissance Blvd Sturtevant WI 53177 USA Phone 41 262 884 4535 Fax 1 262 884 4537 E mail service inor com Inor Intelligence Table of Contents Tobie of CONTENTS ven 2 EIN OT Ne RR 4 ET AEE NANSEN 4 1 2 APP CER 4 1 2 1 gib t EE 4 1 3 About PROFIBUS S uuu ea 5 Pt Lenin 6 2 ProfIPAQ H HX L Installation and Maintenance uunsnusunnnnnnunnnnnnnnnnn mmm 6 EN 6 EEG Pope eee 6 2 12 ExGmhstalldli liiu u u u uu eo 6 2 1 3 Default SENGS paa ide caet a cl Rs s Qv xd d bU o viro d 6 22 JProHeortcomiiuhicatlObisse nes vers indo Mia UNS Deve o as tu ora usus obs iR EU UOTE e dav MEUM 6 2 3 Short form Data complete data in chapter Specifications 7 2 3 1 Ex Data also see certificate and control drawings 7 2 4 Identification of the transmitter See labels on the transmitter 8 2 5 Installa
23. NMYG JP8Z61 U ON avo v8co v ON MYG 37W95 Z IT p00Z I1VO NAG4AMS JomiusueJ S nersdwaL XH H OVdIJO1d u ou i DNIMVAA TOYULNOD ANY NOLLVTIVLSNI ON WALI ON W30 WU JVYHILVN 3NVN SWAN ON L3d 9p AO SUL A OSZ 9 0 9jelouob 10 SSN jou asnu PSPSUUOI 3ueuudinbe 011402 SUL Apog uone 34 Woy eAOJdde 3nouM pesi a4 aq Jou Aew jueuin20p x3 939 O L GLY OVAOOS S JSNIWSUEN et JO sjeu 3ndino pue sjeuiuue 3ndui ueewjeq UONEJOS ayes JJEDISULJUI BUIUEAJEB eu p SNOPIEZEU UOU 9q 0 UMOUY SI eaJe ss jun Jeyusuer au JO pod uone iunuuuro2 ay 03 JUSWdINbd uoneo iunuuuoo Aue 3 auuoo JOU OG u Hrl 99 0 e ueyonpur w 4d 007 eo ueyoede eui opinb se posn aq Aew sanjeA BuiMwoJ oJ 34 UMOUXUN aJe sJ93euleJed 3 qe gt aui JI Z suononnsul sJoJn32ejnueuJ y YAM 9e2uepJoo2e ui pej ejsul eq 3snuu si lueq JBJES T 239 D L GLY 3319 D L GLY NOIS SIN3NNQI 31vQ NOISIA3M d9 UOISIADY eseo sW IS EZ TT P002 V 9u d9 peype on pue I 1D PAL T0 0 S007Z gA dO Peppe SI b SJON Pepe POL 0 S0 S007 2 AU d5 peBueu enjeA x3 02 90 5002 Q e d9 3x3 pue sainjesoduiay Jusiqwe 3ip3 0 90 9007 3 e d9 d uo 91 T L DIT TU X33 Sem 9L TL OI TU X3 SZ 0T 900Z d 94 HU GSZE 41 005 VII HW
24. Note If you want to cancel a performed sensor error correction or system error correction insert the value 0 into the Reference and Measurement Temperature boxes and press OK Then download the configuration into the transmitter 26 Intelligence 4 1 11 Settings Select which communication port to use what language to use and the startup measuring unit To save and close the Settings Window press OK button By pressing the Exit button the Settings Window will be closed without saving the option configuration To set a password for using ProfiSoft press the Password button x x 4 Serial Port Temperature Unit w C COM 1 L E Language English Figure 28 Options 4 1 12 Password To protect ProfiSoft from unexpected use there is a possibility to set a password Each time ProfiSoft start the user has to enter the password To set a password press the password button on form Settings or select from the menu Miscellaneous Password If there is no password and you like to add one leave the field Old Password empty If there is a password and you wouldnt like to have one enter the valid password in the field O d Password and leave the fields New Password and Confirm Password empty ES Password Old Password New Password Confirm Password OK Cancel Figure 29 Password 27 Inor Intelligence 5 Profil PAQ in a ProfiBus system 5 1 DDL file INOR supplies a DDL file EDD
25. OREN 1 RW 0 150 24 IDENT_NUMBER SIMPLE U8 STORE S 1 RW 0 151 25 HW WRITE PROTECTION SIMPLE U8 STORED 1 READ 33 Inor Intelligence 7 Appendix B PROFI BUS Cabling 7 1 Shielding and qrounding Proper electrical installation is necessary to prevent errors due to sensor lead resistance and electrical noise Shielded twisted cable should be used for best results in electrically noisy environments All power to the transmitter is supplied over the signal wiring Signal wiring should be shielded twisted pair for best results Do not run unshielded signal wiring in conduit or open trays with power wiring or near heavy electrical equipment The standard EN 61158 2 states that all bus interfaces must be isolated from local ground To provide optimal system electromagnetic compatibility it is very important that system components and particularly the lines connecting the components are shielded and that these shields provide as complete an electric protective envelope as possible The importance of this requirement increases with the signal frequencies processed in the system With regard to the fieldbus this means that ideally the cable shields are connected to the field devices housings or other protective coverings which are frequently made of metal Since these are usually connected with local ground or with the protective conductor the shield of the bus cable is grounded several times This method provi
26. SD the diagnostic Information description will be readable from the PLC The diagnostic information is also available for the acyclic communication through the parameters INPUT_FAULT_GEN INPUT FAULT 1 for channel 1 and INPUT FAULT 2 for channel 2 Status Hex Description 0x01 RJ Error Table 12 INPUT FAULT GEN Table 13 INPUT FAULT 1 Status Hex Overrange LU o Overrange Lead breakage Short breakage Table 14 INPUT_FAULT_2 31 6 Appendix A Parameter table The ProfIPAQ parameters can be accessed by using the acyclic communication The parameters are listed in the following table Slot No Abs Ind No Real Ind No Attribute Name Obj Type DataType Store Size Access 6 1 Function Block Analog Input 0 16 0 BLOCK OBJECT RECORD DS 32 STORE C 20 READ 0 17 1 ST REV SIMPLE U16 STOREN 2 READ 0 18 2 TAG DESCR SIMPLE OCSTR STORES 32 RW 0 19 3 STRATEGY SIMPLE U16 STORES 2 RW 0 20 4 ALERT KEY SIMPLE U8 STORES 1 RW 0 21 5 TARGET MODE SIMPLE U8 STORES 1 RW 0 22 6 MODE BLK RECORD DS 37 STORED 3 READ 0 23 7 ALARM SUM RECORD DS 42 STORED 8 READ 0 24 8 BATCH RECORD DS 67 STORES 10 RW 0 26 10 OUT RECORD DS 33 STORED 5 READ 0 27 11 PV SCALE ARRAY FLOAT STORES 8 RW 0 28 12 OUT SCALE RECORD DS 36 STORES 11 RW 0 29 13 LIN TYPE SIMPLE U8 STORES 1 RW 0 30 14 CHANNEL SIMPLE U16 STORES 2 RW 0 32
27. ate with the ProfIPAQ transmitter with the ProfiSoft software a standard PC and a special communication cable is needed This communication cable between the PC and the ProfIPAQ transmitter is a special cable called IPRO X Part no 70IPRX0002 and is part of the PC Configuration kit 70CFG00092 change to the correct desired address before installing the unit in the PROFIBUS As all ProfIPAQ units as default have the address 126 it is recommended to system This address change is easily done with the help of INOR ProfiSoft 4 1 1 Installation To install the ProfiSoft distributed on a CD insert the CD in the CD slot of the PC and the autorun will start the installation program Follow the instructions on the screen In case the autorun feature is disabled on your PC execute D SLCDMENU EXE where D is assumed to be the CD drive After the installation is completed you will find the program under C Program INOR ProfiSoft the default choice The latest version of ProfiSoft can be downloaded from the INOR web page www inor com To uninstall ProfiSoft select Add Remove programs in the control panel Select ProfiSoft and click Add Remove 4 1 2 Overview To start ProfiSoft select Start Programs INOR ProfiSoft There are 10 icons and three tabs Open saved configuration file Save current configuration to a file Print current configuration Read configuration from transmitter to ProfiSoft Transmit current
28. bus com There you find a lot of information about the PROFIBUS protocol PROFIBUS tools PROFIBUS news GSD and DDL s competence center FAQ s and more and there is a lot of interesting PDF s for downloading ER Part 1 2 Profl PAQ H HX L Installation and Maintenance 2 1 General Electrical temperature sensors such as RTDs and thermocouples produce low level signals proportional to temperature The ProfIPAQ temperature transmitter converts the analogue sensor signal to a digital signal that is relatively insensitive to lead length and electrical noise This digital signal is then transmitted over the bus to the configuration device and the control system The ProfIPAQ transmitter is compatible with many RTD and thermocouple sensor types as well as potentiometer and voltage input Figure 12 shows the correct input connections to the sensor terminals on the transmitter 2 1 1 CAUTI ON If the sensor is installed in a high voltage environment and a fault condition or installation error occurs the sensor leads and transmitter terminals could carry lethal voltages Use extreme caution when making contact with the leads and terminals 2 1 2 Ex installation For a safe installation in hazardous area the transmitter must only be installed by qualified personnel that are familiar with the national and international laws regulations directives and standards e g EN50039 En 50284 IEC 60079 14 and IEC 60079 17 that apply to th
29. configuration in ProfiSoft to the transmitter View actual input and output signal from transmitter Enter error correction mode Miscellaneous options Help Exit the program 19 Intelligence ProfiSoft Mile Fille View Miscellaneous Help 4 1 3 Input configuration Output Configuration Input Type Process Values Resistance Voltage Input fPt100 a 0 003850 k Upper Sensor Limit 850 00 la Upper Range value 350 00 Input Limits Lower Range Yalue 200 00 i O 400 ohm n Lower Sensor Limit 22 n C 0 4000 Ohm 200 00 Sensor Connection Bias Chi C am Unit C 2 Wire C 3 Wire Bias Ch C 0 00 fr 4 Wire C 2x3 wire Chi And che Wire Res Comp Ohm 0 00 External CIC C 0 00 Sensor Limits 200 00 850 00 gt C PY Range 200 00 650 00 C Input RTD 447 Input Limits 0 400 Ohm Measure Type Chi Configuration Not Downloaded Figure 17 ProfiSoft Input Configuration Input Configuration Input type Choose input type PT100 PT1000 Ni100 Ni1000 ohm mV T C Input Limits Select between 0 400 or 0 4000 ohm for resistance input type and 10 to 100 mV or 10 to 1000 mV for voltage input type Sensor Connection Connection to the sensor select for 2 3 4 2 x 3 wire connection Connection Chart View the connection for the selected input type Bias Value in temperature that can be algebraically added to process temperature Wir
30. des optimum electromagnetic compatibility and protection of personnel Figure 30 and can be used as desired in systems with optimum equipotential bonding I 1 Power supply T 2 Main cable Trunk cable 3 Junction box e e o 31 4 Stub cable Spur amp h il 5 Field device e 6 Equipotential Bonding EM a y Figure 30 Ideal combination of shielding and grounding principle guidelines Cable parameters for Ex use Rc loop cable resistance 15 150 Q km Lc loop cable inductance 0 4 1 mH km Cc loop cable capacitance 45 200 nF km The maximum cable length of each spur from junction box to field device see figure 30 in a FISCO FNICO system is 60 m in IIC and IIB according to IEC 60079 27 In the same way the maximum length of each trunk cable from Power Supply to Junction box see figure 30 including the length of all connected spurs is 1 km in Gas group IIC and 5 km in Gas group IIB 34 iS cy intelligence 7 2 Termination Bus line termination T consists of a series circuit of one capacitor and one film resistor in both ends of the main bus line Permissible values R 100 Q 2 C 1 uF 20 It is common that one of the Line terminations is included in the Segment Coupler bois Figure 31 Typical fieldbus architecture 1 ProfiBus DP Component 5 Junction boxes 2 DP PA Segment Coupler including 3 and 4 6 PA Segment 3 Signal coupler 7 Bus line termination 4 Pow
31. dous area for use in Ex ia or Ex ib applications For non incendive Ex nL applications ProfIPAQ H and ProfIPAQ H Dxy the transmitter must be connected to a standard power supply Class 2 for USA Provisions shall be made to protect the transmitter from transient disturbances of more than 42V on power supply lines 12 2 6 4 Ex Cable requirements Inor Intelligence For an ambient temperature gt 70 C heat resistant cables shall be used with a rating of at least 10K above the ambient temperature For ambient temperatures below 10 C use field wiring suitable for the minimum ambient temperature 2 6 5 Profl PAQ SmartSense low sensor isolation detection SmartSense is a feature that continuously monitors the isolation resistance of thermocouples and RTDs as well as the cabling between sensor and transmitter ProfIPAQ will react by transmitting information over the PROFIBUS if the isolation resistance is below a user defined level SmartSense requires an extra lead Low isolation detection lead inside the thermocouple or RTD see connection chart For information on how to activate this function see 4 1 5 Output configuration in the Part 2 of the manual 2 6 6 Profl PAQ Sensor Aging If an RTD or thermocouple with double sensor elements is used ProfIPAQ can often detect sensor aging by checking the reading from both elements Too big difference will indicate sensor aging and information will be transmitted over the PROFIBUS
32. e installation conditions 2 1 3 Default Settings The ProfIPAQ transmitter has a standard configuration when it is delivered from factory These settings can be changed by either the ProfiSoft software via Simatic PDM system or via any other system using the ProfIPAQ DDL Default Settings Address 126 Input signal Pt100 4 wire Output signal AC Filter 0s Sensor Monitoring Off 2 2 ProfiSoft Communication NOT be performed unless the area where the transmitter is located is known to be non hazardous When installed in hazardous area always use the PROFIBUS communication to change settings Communication to ProfIPAQ via ProfiSoft and INOR Communication cable must Inor Intelligence 2 3 Short form Data complete data in chapter Specifications Power supply 9 32 VDC Isolation Input Output 1500 VAC Output Proflbus PA Profile v 3 0 Class A amp B Operating temperature ProfIPAQ H HX 40 85 C 40 185 F ProfIPAQ L 20 70 C 4 158 F 2 3 1 Ex Data also see certificate and control drawings ProfIPAQ H H D ProfIPAQ HX HX D ATEX Approval Gas II 3G Ex nL IIC T4 T6 II 1G Ex ia IIC T4 T6 Dust II 3GD Ex nL T 100 C II 1G 2D Ex ia IIC T 1009C ProflPAQ H H D is intended to be connected to a standard power supply Class 2 with maximum supply voltage to the transmitter of 30 VDC or a FNICO power supply Segment coupler mounted outside the hazardous area The data for the transmitter is
33. e res Comp Resistance compensation for the wire in Ohm when 2 wire connection is used The resistance is the total wire resistance in the input loop Ext CJC Fixed temperature value of an external reference junction Process Values Set the Upper Lower range value max min value for the process and the engineering unit Error Correction View if the sensor is corrected Sensor Error Correction or System Error Correction Se Error Correction for more information 20 intelligence 4 1 4 Device information ER ProfiS oft iE File View Miscellaneous Help Output Configuration Profile Ident Number Tilverkarspecifik Restart 2000 Resatdeke Write Locking Memory Check ne Revision ne Revision i Off C On tv of On Device Serial Number Sensor Input Peak Value NO XX XXX Max value 0 00 0 00 Descriptor Device Install Date Min Value 0 00 0 00 f03 1 1 2003 Device Message Device Address Reset Channel 1 fsupport inare se Change Address Reset Channel 2 Sensor Limits 200 00 850 00 C Limits 200 00 650 00 C Py PV Range 200 00 850 00 C 200 00 850 00 C Input RTD 41 Input Limits 0 400 Ohm Measure Type Chil Configuration Not Downloaded Figure 18 ProfiSoft Device Information Device Information Profile Ident Number Select PROFIBUS Profile Ver 3 0 or Manufacture Profile Write locking Software write protection Memory Check Check the EEPROM statu
34. ed by INOR 2 is connected to a proper power supply 3 is not misused or abused and 4 there is no evidence of tampering mishandling neglect accidental damage modification or repair without the approval of INOR or damage done to the Product by anyone other than INOR This Limited Warranty is provided by INOR and contains the only express warranty provided I NOR SPECI FI CALLY DI SCLAI MS ANY EXPRESS WARRANTY NOT PROVI DED HEREI N AND ANY I MPLI ED WARRANTY GUARANTEE OR REPRESENTATI ON AS TO SUITABILITY FOR ANY PARTICULAR PURPOSE PERFORMANCE QUALI TY AND ABSENCE OF ANY HI DDEN DEFECTS AND ANY REMEDY FOR BREACH OF CONTRACT WHI CH BUT FOR THIS PROVI SI ON MI GHT ARI SE BY I MPLI CATI ON OPERATI ON OF LAW CUSTOM OF TRADE OR COURSE OF DEALI NG I NCLUDI NG IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE EXCEPT AS PROVIDED HEREIN I NOR FURTHER DI SCLAI MS ANY RESPONSI BI LI TY FOR LOSSES EXPENSES I NCONVENI ENCES SPECI AL DI RECT SECONDARY OR CONSEQUENTI AL DAMAGES ARI SI NG FROM OWNERSHI P OR USE OF THE PRODUCT Products that are covered by the Limited Warranty will either be repaired or replaced at the option of INOR Customer pays freight to INOR and INOR will pay the return freight by post or other normal way of transport If any other type of return freight is requested customer pays the whole return cost Inor Process AB PO Box 9125 SE 200 39 MALM Sweden Phone 46 40 31 25 60 Fax 46 4
35. ent temperature Storage 40 to 85 C Operating 40 to 85 C 2 7 9 Resolution and Accurac Cold Junction Compensation CJC Internal comp 0 25 C Temperature influence CJC Internal comp 0 02 C C Remote comp Pt100 Negligible Long term stability Better than 0 5 C year 14 Inor Intelligence 2 7 10 Accuracy Specifications for RTD and Thermocouple I nput Specified 25 C Including calibration and linearity errors CJC error not included Input type Total temperature Temperature Maximum Maximum Typical range range 1 measuring error measuring error measuring error in range 1 outside range 1 in range 1 RTD Pt50 200 to 850 C 200 to 850 C 0 3 C 0 2 C RTD Pt100 200 to 850 C 200 to 700 C T C type D 0 to 2315 C 0 to 2200 C re Er ec T C type E 200 to 1000 C 0 to 1000 C 0 2 C 0 5 C 0 1 C T C type J 200 to 1000 C 100 to 1000 C 0 3 C 0 5 C 0 2 C T C type K 200 to 1350 C 100 to 1350 C 0 4 C 0 8 C 0 2 C T C type L 200 to 900 C 100 to 900 C 0 3 C 0 5 C 0 2 C T C type N 200 to 1300 C 100 to 1300 C 0 4 C 1 0 C 0 2 C T C type R 50 to 1750 C 200 to 1750 C 1 3 C 3 0 C 0 7 C T C type S 50 to 1750 C 200 to 1750 C T C type T 200 to 400 C 100 to 400 C T C type U 200 to 600 C 100 to 600 C Conformance level 95 20 2 Conformance level 68 10 lt 5 0 0 20 15 5 0 61 mm inches 27 1 06 Figure 13 Dimension ProfIPAQ H HX 2 8
36. er supply device 8 Field devices Figure 31 shows a typical PROFIBUS architecture The field devices with low power consumption e g pressure and temperature measuring transmitters are powered by a two wire bus Signal transmission is also performed over the bus A non ex installation allows up to 32 devices per segment depending on the power capacity of the segment coupler In an Ex installation normally 10 units can be connected in each segment For more information concerning PROFIBUS installation see the PROFIBUS homepage www profibus com 35 Inor Intelligence 8 WARRANTY INOR Process AB or any other affiliated company within the INOR Group hereinafter jointly referred to as INOR hereby warrants that the Product will be free from defects in materials or workmanship for a period of five 5 years from the date of delivery Limited Warranty This Limited Warranty is limited to repair or replacement at INOR s option and is effective only for the first end user of the Product Upon receipt of a warranty claim INOR shall respond within a reasonable time period as to its decision concerning 1 Whether INOR acknowledges its responsibility for any asserted defect in materials or workmanship and if so 2 the appropriate cause of action to be taken i e whether a defective product should be replaced or repaired by INOR This Limited Warranty applies only if the Product 1 is installed according to the instructions furnish
37. erature sensor housing in a box or on a DIN rail It is recommended to use INOR mounting accessories see 2 11 Accessories For non Ex application a housing with IP 54 is recommended Most temperature housings fulfill this requirement For Ex n application non incendive Zone 2 Category 3G ProfIPAQ H in a housing with at least IP 54 is needed The enclosure must fulfill the requirements of EN 60079 0 and EN 60079 15 regarding impact and IP degree which easiest is achieved by using certified enclosures e g the housings approved together with ProfIPAQ H D HX D For applications requiring installation into Zone 0 Category 1G or Zone 1 Category 2G ProfIPAQ HX is used installed in an appropriate housing with an ingress protection of at least IP20 E vi 1 M4 Screw special for ProfIPAQ H HX O B 2 Spring f x E 3 Locking washer ie 4 Sensor wires 0 gt DM ou s 5 Sensor protection tube m FE Figure 6 Mounting with Standard Mounting kit 7OADA00017 gt Intelligence 2 5 3 Profi PAQ H D HX D Dust ProfIPAQ HX Dxy and ProfIPAQ H Dxy D indicates it is a dust version with dust tight connection head x indicates type of connection head y indicates process entry x 1 INOR Connection head BI y 1 M24x1 5 x 2 INOR Connection head BS y 2 G i x 3 INOR Connection head DANX GR A BL y 3 NPT 1 2 Connection Head type BI Seal rubber RTI gt 100 C ATEX Certified Gland ATEX carted Grand UR
38. gram to the PLC cyclic communication The function blocks contain 5 bytes the first 4 bytes are the value and the last byte is the status Value 4 bytes Status 1 byte Output Value Se table FB1 Status Input Value Channel 1 Se table FB2 Status Input Value Channel 2 Se table FB3 Status Table 1 ProfIPAQ parameters Status Hex Active Block Alarm Warning Warning Active critical alarm Below Lower Limit Value Lower Alarm Active critical alarm Over Upper Limit Value Upper Alarm Table 2 FB1 Status Table 3 FB 2 Status Status Hex Lead Breakage Short Circuit Table 4 FB 3 Status 29 Inor Intelligence There is also some diagnostic information and extended diagnostic information the extended information is only available if the profile ident is selected to Manufacture Status Hex 0x20 Failure in measurement Table 5 DIAGNOSIS 0 Status Hex Warmstart carried out Coldstart carried out IDENT NUMBER Violation Table 6 DIAGNOSIS 1 Status Hex NOT USED Description j Table 7 DIAGNOSIS 2 Status Hex Description x80 Extension available Table 8 DIAGNOSIS 3 Status Hex Table 9 DIAGNOSIS EXTENSION 0 Table 10 DIAGNOSIS EXTENSION 1 channel 1 Status Hex Lead breakage Short breakage Table 11 DIAGNOSIS EXTENSION 2 channel 2 30 Inor Intelligence These diagnostic bits are defined in the GSD file By using the G
39. ire connection 0 to 400 Q 0 to 4000 Q Up to 50 points 250 uA 25 Q wire 400 to 1800 C 0 to 2315 C 0 to 2315 C 200 to 1000 C 32 to 2300 C 200 to 1000 C 200 to 1350 C 200 to 900 C 200 to 1300 C 50 to 1750 C 50 to 1750 C 200 to 400 C 200 to 600 C gt 10 MO 500 O total sensor loop Internal remote Pt100 or fixed Inor Intelligence 2 7 4 Input Voltage Low range 10 to 100mV High range 10 to 1000mV Customized linearization Up to 50 points Input impedance gt 10 MQ Maximum sensor wire resistance 500 total loop 2 7 5 Double inputs for RTD Thermocouple and Voltag Differential Output value Chi Ch2 or Ch2 Chi Average Output value 0 5 Ch1 Ch2 Average with redundancy Output value 0 5 Ch1 Ch2 Ch1 or Ch2 if the other one is broken Minimum Output value Min Ch1 Ch2 Maximum Output value Max Ch1 Ch2 2 7 6 Output Cyclic communication w Master Class 1 Measured values status information Acyclic communication w Master Class 2 Measured values status information and transmitter configuration 2 7 7 General data Intrinsic safety ProfIPAQ HX ATEX II 1G 2D FISCO Ex ia IIC T4 T6 FM Approvals pending Class I III Div 1 Gr A G FISCO Non Incendive ProfIPAQ H ATEX II 3 GD FNICO Ex nL IIC T4 T6 FM Approvals pending Class I III Div 2 Gr A G FNICO 2 7 8 Environment conditions also see Ex data Ambi
40. onnection Bus connection is polarity independent Also see Appendix B Profibus cabling To ensure an adequate sensor connection anchor the sensor lead wires beneath the flat washer on the terminal screw 2 6 1 Connection Diagram Input connections 1 2 3 4 5 RTD Potentiometer 5 2 wire connection 2 wire connection E ATO Low isolation detection lead Potentiometer RTD WARE 3 wire connection 3 wire connection Low isolation detection lead Potentiometer RTD 4 wire connection 4 wire connection Low isolation detection lead Double RTD Thermocouple 3 wire connection Low isolation detection lead 5 Double Thermocouple vonage m Low isolation detection lead Double Voltage Thermocouple with CJC mV Output connection 6 1 Bus connection Figure 12 Connection chart 2 6 2 LCD W12 A special LCD indicator INOR LCD W12 can be connected to the communication port of the ProfIPAQ It gets its power and digital data from the ProfIPAQ The activation of the communication port as a display connection and number of decimals to be shown in the display are selected via the ProfiSoft software see chapter 4 The display LCD W12 is not approved for mounting into Ex Hazardous area 2 6 3 Ex Bus connection The models ProfIPAQ HX and ProfIPAQ HX Dxy must be electrically connected via a certified intrinsic safe power supply unit or an intrinsic safe segment coupler which is mounted outside the hazar
41. or AQ H 79PPH00001 in PROFJAO JH FNICO Field device IMOR FAQ H N0610 123456 VO 3XXXXX PO Box 9125 lAQ H _ Li 40 uH SE 200 39 Malm Uo Voc 3 3 VDC T g r an i 10 p lo Isc 0 4 mA vmax x C ADR Are S a COM Co Ca 500pF Ci 1nF w p C II 3G Ex nL IIC T4 T6 DEMKO 05 ATEX 136988X Figure 1 Label 1 and 2 on peripheral of the transmitter ProfIPAQ H 70PPH00001 pror AQ H 70PPH00001 INOR PROF AD FISCO Field device INOR PROH AQ H No610 123456 NO 3XXXXX __PO Box 9125 FAQ HX 200 39 Malm Uo Voc 17 5 VDC Lo La 6 mH Pi rum 5 32W lo Isc 56 mA Ui Vmax 17 5 V iin x C ADR iier wa Co Ca 166 nF li Imax 380mA Li 10 uH u is C 0539 Il 3G EEx nL IIC T4 T6 DEMKO 05 ATEX 136988X Figure 2 Label 1 and 2 on peripheral of the transmitter ProfIPAQ HX 70PPHX0001 PROFAQ H D11 FNICO Field device IMOR PROFI AQ H D11 PO Box 9125 Uo Voc 3 3VDC Lo La 375mH Li 10 pH SE 200 39 Malm 70PPHXD0111 lem i V Co c Ca E00 LF d 1 mE A ad www inor com Nyyww xxxxxx V0 3XXXXX Ed II 3GD T 100 C Ex nL IIC T4 T6 IP54 dis DEMKO 05 ATEX 136988X Figure 3 Label 1 and 2 on enclosure of the transmitter ProfIPAQ H Dxy 70PPHDOxy1 e g 70PPHDO111 PROF AQ HXID11 FISCO Field device IMOR PROFI AQ HXID1 1 PO Box 9125 Uo Voc 17 5 VDC Lo La 6 mH Ci 1 nF SE 200 39 Malm 70PPHXD111 lo Isc A Ui Vmax 17 5V Li 10 pH Co Co 146 nF li Imax 380 mA Pi Pmax 5 32W Nyyww xxxxxx VO
42. s at startup this increases the startup time Tag Text field can be used in any way A recommended use is a s a unique label for a field device in the plant Descriptor Text that is associated with the Field Device Device Message Text that is associated with the Field Device Restart device Starts the device with the new values in EEPROM Software Revision This revision corresponds to the software or firmware that is embedded in the Field Device Device Serial Number Uniquely identifies the field read only Device Install Date Date on which the device was installed Device Address The PA address for the device se Change Address for changing the address Hardware Revision Revision that corresponds to the electronics hardware of the Field Device read only Sensor Input Peak Value Sensors highest lowest peak value Shows the transmitters measured process Max Min value when on line Press Reset button to reset the selected channels Max and Min values 21 intelligence 4 1 5 Output configuration F i File View Miscellaneous Help Output Values Measure Type Sensor Wire Monitoring Output value on FB1 Chi Ch tr Ch Lead breakage and short circuit detection amp Upper Range value 250 00 C Ghannel 1 Minus channel 2 enable Upper Alarm 745 00 C Channel 2 Minus Channel 1 Lead breakage detection enable short Kun C Minimum OF Chi And che Toul cleri Upper Warnin i EUR C Maximum of cmt And che
43. tion in AN encapsulation arararnrnenenrnrnnnnnnnnnnnnenenenenenenenenenenenenrnsnnnnnnnnenenen 9 2 5 1 Ambient temperature considerations a rra 9 2 5 2 ProfIPAQ H HX GAS seemed mane kun 9 2 53 ProfIPAQ H D HX D DIS ehe 10 25 POP HL RANE 11 2 6 COMMECHONS LNG 12 26L Connecuon Diagramm anne ea 12 262 FP VPN satin 12 263 EX BUS CONMCCHON eee TI IT 12 264 Ex De req lirenoiSuu y u uuu 2 uma EG 13 2 6 5 ProfIPAQ SmartSense low sensor isolation detection 13 266 ProfIPAQ Sensor AGIDO a a aan 13 2 7 SPECICATION een 13 2 7 1 Input RTD 2 3 and 4 wire connection a nn nn nn nn 13 cJ IMDUL Resistance ee 13 2 7 9 Jnpu t PhermocoUble uu vvs 13 2 74 MANGEN 14 2 7 5 Double inputs for RTD Thermocouple and Voltage 14 24 0 OBEDLIEusconaesispua n E edat esI REIS UE masu me pt aaah een 14 2 7 7 General Gala lea 14 2 7 8 Environment conditions also see Ex data nn 14 239 Resolution NA AccUracy near u 14 2 7 10 Accuracy Specifications for RTD and Thermocouple Input 15 2 0 DN lisa E N E E EN 15 ZO POT AN 15 DOL POPAO EEE ET EE EE 15 2 9 Service and Tebalf ssvsissuexas cesi x Z NG 16 2 10 Orderin Nona aan an 16 2 11 ACCESSO ES zn n A a ee 16 3 Control Drawings for installation guidance
44. w row before the selected cell moves the selected cell to next datapair This moves all datapairs after the selected one step ahead and the last datapair if more than 50 will be lost H Delete row will delete the selected datapair and move all of the following datapairs one step forward OK saves the datapairs temporary on the PC for downloading later on as long as the ProfiSoft is activated It will not download the datapairs to the device This is useful when configuring more than one device with the same datapairs fl ni Enter Datapa r swell 342 Sensor Description Exit the Enter Datapair function without saving the datapair configuration No OF Datapair 50 z j z z z z E z z z E z z z N z Pa salalalsalldlal las daa 323 BEFRFERFEF Ballasalla 41 42 0 0 43 0 0 44 0 0 45 0 0 46 0 0 47 0 0 48 49 0 0 50 400 0 0 0 D D 0 0 0 0 0 0 0 0 0 00 0 0 400 0 1 z 3 4 5 b T B q dead dd ender dd da s Figure 26 Enter Datapair The sensor function can be described by 2 to 50 datapairs These datapairs does not have to be evenly spread over the linearization interval Note It is not allowed to have any double datapairs that describes the same point There must not be e g more than one datapalr describing the point 0 0 The function described must also be continuously increasing 25
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