IB IL SGI 2/P-PAC - Digi-Key
Contents
1. 4 0100pin in the high nibble should prevent that general values such as OOpex or FFhex execute a reset to de fault values If the upper nibble is unequal 4 or the reserved bit 3 is set a negative Write Confirmation with the error message 08 00 AO020hex is generated This message means that the service cannot be executed at present 7647_en_04 PHOENIX CONTACT 27 IB IL SGI 2 P PAC 20 12 Diag State object 21 PCP mode error messages ellas of this object are used for a structured message The terminal error messages have the parameters Error_Class 8 device specific error and Error_Code 0 Object description no communication error The exact error cause is indicated with the Additional Code Object Diag State The low byte of the Additional Code specifies the error Cause The high byte of the Additional Code xx contains the number ae of the affected element If several elements are affected the Data type Record 6 highest number is given 001 8hex The following Additional Codes can occur on this terminal Subindex Read all elements Unsigned 16 xx20hex Service cannot be executed at present Unsigned 8 Xx21 hex Service cannot be executed at present Unsigned 8 XX30hex Value out of range or reserved bits used Unsigned 16 0000he Hardware faut O5hex More infor Unsigned 8 mation fol For information on PCP communication OWE i please refer to the PCP user manuals see Or O6hex Text 10 char Visible String a2. 5 4 3 2 1 0 oo o p Bit 15 Most significant bit MSB Bit O Least significant bit LSB SB Signal The IB IL format supports extended diagnostics o 8002 Opencircuit Values gt 8000nex and lt 8100 2 indicate an error The following diagnostic codes are possible To calculate the detuning as a percentage for other measured values please use the following formula Code hex Detuning Process data value 0 004 or 8001 Measuring range exceeded overrange Detuning Process data value 250 8002 8004 Measured value invalid no valid measured Example value available 8020 Faulty supply voltage Nominal characteristic value 2 mV V 8040 Device faulty Process data value 10000gec 8080 Below measuring range underrange Detuning 10000 250 40 40 of 2 MV V 0 8 mV V Measured values 7647_en_04 PHOENIX CONTACT 20 IB IL SGI 2 P PAC 19 PCP communication 191 General information The programs IBS CMD for standard control ler boards and PC WorX for Controllers ILC Field Controllers FC and Remote Field Con trollers RFC are available for the configura please refer to the PCP user manuals see Or A For information on PCP communication dering data tion and parameterization of your INTERBUS system For additional information please refer to the documentation of the software used By default upon delivery the terminal is configured according to the default settings un
3. Functional earth ground N O contact Kao Kpo isolating distance Logic functional earth ground isolating distance Approvals For the latest approvals please visit www phoenixcontact net products 7647_en_04 Error message in the process data I O error message sent to the bus coupler Error message in the process data 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min 500 V AC 50 Hz 1 min IB IL SGI 2 P PAC PHOENIX CONTACT 6 5 Additional tables Tolerances at T4 25 C Nominal characteristic value Relative deviation in related to the measuring range final value Typical 0 01 Maximum 1 mV V 2 mV V 3 mV V 0 05 3 33 mV V 4 mV V 5 mV V The typical values contain the typical offset error gain error and linearity error in the respective configuration related to the positive measuring range up to 100 of the nominal charac teristic value This data is valid for nominal operation preferred mounting position Us 24 V with a conversion time of 100 ms and a 16 sample average value The maximum tolerance values represent the worst case measurement inaccuracy Besides the maximum offset error the gain error an
4. ade 21 20 PGPIODIECEOSSCHDU OM o Le oie deba 22 21 PUP mode error mess al tii 28 22 Startup and measuring jumper etuning occcoocccccnccccnnocncnnnncnanonncnonnnnnnnnnonnnnnnnnnnnnonaninnnnnnns 28 7647_en_04 PHOENIX CONTACT 2 IB IL SGI 2 P PAC 3 Ordering data Description Type Order No Pcs Pkt Inline analog strain gauge input terminal complete with accessories con IB IL SGI 2 P PAC 2884907 1 nector and labeling field two precise inputs 4 6 conductor connection method Accessories Type Order No Pcs Pkt Inline shield connector Plug Adapter IB IL SCN 6 SHIELD 2726353 5 Connector for digital 1 2 or 8 channel Inline terminals Plug Adapter IB IL SCN 8 2726337 10 Labeling field width 12 2 mm Marking IB IL FIELD 2 2727501 10 Insert strip Sheet white Unlabeled Can be labeled with Office Drucksys ESL 62X10 0809492 1 teme Plotter Laser printer Mounting type Insert Lettering field 62 x 10 mm Marking Shield connection clamp for shield on busbars contact resistance lt 1 SK 8 3025163 10 mOhm Assembly Shield connection clamp for shield on busbars contact resistance lt 1 SK 14 3025176 10 mOhm Assembly Shield connection clamp for shield on busbars contact resistance lt 1 SK 20 3025189 10 mOhm Assembly Shield connection clamp for shield on busbars contact resistance lt 1 SK 35 3026463 10 mOhm Assembly Support for busbars Assembly AB SK 3025341 10 Support Length 95 5 mm
5. 8 00 0021 he Is generated This message means that the service cannot be executed at present 7647_en_04 IB IL SGI 2 P PAC 20 8 Status object The elements of this object contain the status of the status LEDs of the display as well as information about the default of the adjustment values Object description Array of Unsigned 8 2x 1 byte 0093 her Read all elements Status of the display LEDs and information about the default setting see below for the bit assignment Length bytes Status of each channel Value range Def Default The adjustment values of the path adjustment correspond to the de fault setting 1 The adjustment values of the path adjustment do not correspond to the default setting o jemo o The bits NET 0 and gt lt are only maintained when the display is active i e the nominal load NET 0 gt lt l is unequal 0 PHOENIX CONTACT 25 IB IL SGI 2 P PAC 20 9 Display String Channel 1 object l l The length of the read service depends on the number of The elements of this object contain the data flow of channel 1 characters to be transmitted that is sent to the display The six digits of the display are represented as ASCII charac ters from 30pex digit 0 to 39he digit 9 The decimal point is displayed with 2Che Object Display String Channel 1 The LEDs are controlled with S sequences Character NS e Data type Var of Visib
6. IB IL SGI 2 P PAC Inline analog strain gauge input terminal two precise inputs 4 6 wire connection method Data sheet 647 en 04 1 Description The terminal is designed for use within an Inline station This terminal provides a precision input module to connect weighing cells force transducers mass force transducers and comparable based on the strain gauges The strain gauges can be connected using 6 or 4 wire tech nology Thanks to a serial interface the measured value can be output directly on a weight display There are two options for data exchange Via process data Via PCP both inputs in the Analog Values PCP object The measured values are represented by standardized 16 bit values e fe D PHOENIX CONTACT 2013 01 17 Features Make sure you always use the latest documentation It can be downloaded from the product at www phoenixcontact net products DO dD O 0c Gem o oa Weonnca Two high precision inputs for the strain gauges Measuring ranges adjusted with nominal characteristic values upon delivery 1 mV V 2 mV V 3 mV V 3 33 mV V 4 mV V and 5 mV V Path adjustment in the process environment Connection of the strain gauges with 6 and 4 wire tech nology Sensor supply voltage provided by the terminal no exter nal power supply required For each channel Low resistance floating N O contact for the 80 calibration shunt calibration Serial interface for external w
7. Width 6 2 mm Color gray Assembly AB SK 65 3026489 10 Support Length 10 mm Width 56 mm Height 20 mm Color silver As AB SK E 3026476 10 sembly PEN conductor busbar 3mm x 10 mm length 1000 mm Assembly NLS CU 3 10 SN 1000MM 0402174 10 Power terminal block Connection method Screw connection Load current AK 4 0404017 50 41 A Cross section 0 5 mm 6 mm Width 7 mm Color silver Connection terminal block Connection method Screw connection Load AKG 4GNYE 0421029 50 current 41 A Cross section 0 5 mm 6 mm Width 7 mm Color green yellow Connection terminal block Connection method Screw connection Load AKG 4BK 0421032 50 current 41 A Cross section 0 5 mm 6 mm Width 7 mm Color black Software CD for FDT container for integrating device DTMs free down AX BASIC 2985068 1 load DTM library AX DTM LIB 2988065 1 Documentation Type Order No Pcs Pkt User manual English Automation terminals of the Inline product range ILSYS INST UME Application note English Inline terminals for use in zone 2 potentially ex AH EN IL EX ZONE 2 plosive areas User manual English for the Peripherals Communication Protocol PCP IBS SYS PCP G4 UM E 2745169 1 only available as a download User manual English Porting using PCP compact IBS PCP COMPACT UME 7647_en_04 PHOENIX CONTACT 3 4 Technical data Dimensions nominal sizes in mm 135 119 8 Y
8. Width Height Depth General data Color Weight Operating mode Ambient temperature operation Ambient temperature storage transport Permissible humidity operation Permissible humidity storage transport Air pressure operation Air pressure storage transport Degree of protection Protection class Connection data Inline connectors Connection method Conductor cross section solid Conductor cross section stranded Conductor cross section AWG Interface Inline local bus Connection method Transmission speed Transmission physics Inline potential routing Power consumption Communications power UL Current consumption from UL 7647_en_04 IB IL SGI 2 P PAC 48 8 mm 136 mm 71 5 mm green 2209 Process data operation with 3 words PCP with 1 word 25 C 55 C 25 C 85 C 10 95 according to DIN EN 61131 2 10 95 according to DIN EN 61131 2 70 kPa 106 kPa up to 3000 m above sea level 70 kPa 106 kPa up to 3000 m above sea level IP20 Il IEC 61140 EN 61140 VDE 0140 1 Spring cage connection 0 08 mm 1 5 mm 0 08 mm 1 5 mm 28 16 Inline data jumper 500 kBit s Copper 7 5 VDC max 100 mA typ 85 mA PHOENIX CONTACT Inline potential routing Power consumption I O supply voltage U ama Current consumption from Urna Power consumption Voltage output Number of outputs Impedance Output voltage Output current Short circuit pro
9. ange the high byte contains the number of the affected ele ment Example Config Table is completely written with data subin dex 00 and the entry for channel 2 is invalid In this case the Additional_Error_Code is equal to 0230 Please note for the Adjustment value element The value is specified as a percentage of MAX An LSB cor responds to 0 004 Example Sensor with 50 kg nominal load MAX It should be adjusted to 25 kg Then the adjustment value corresponds to 50 of MAX Determine the adjustment value as follows 50 0 004 12500 Therefore configure the adjustment value with 12500gec PHOENIX CONTACT 22 20 2 Analog Values object The elements of this object contain the analog values of the channels in IB IL format Object description Analog Values Access Read Data type Array of Unsigned 16 2 x 2 bytes 008 pex Read all elements Subindex Length bytes 7647_en_04 IB IL SGI 2 P PAC 20 3 Extended Float Format for objects 0082 and 0083pex The Extended Float Format is a specially defined format It consists of the measured value in the float format a status and a unit code The construct is defined as a Record Status is necessary because the float format defines no pat terns providing information on the status of the numerical value Status corresponds to the LSB of the Inline diagnostic codes e g overrange Status 01 Inline diagnostic code 8001 he
10. annel Each channel can supply a current of up to 90 mA For in stance 6 load cells with a basic resistance of 350 Q may be connected in parallel Connector 1 Channel 1 R O 2 1 Strain gauge 1 a Ooo PR lle 188 NA uA Dd Oo SALACAM 1D 2 AE O FE Im cI 2 O AIDA o 7 Pitt Distribution eS Ill Figure 7 Connection of several strain gauges in 6 wire technology Key Ri Cable resistance 7647_en_04 IB IL SGI 2 P PAC 13 3 4 wire connection with a shunt resistor The following figure shows the connection of a resistive pres sure sensor with an 80 calibration This sensor is typically used for injection molding of plastics Figure 8 Connection of strain gauges in 4 wire technol ogy with a shunt resistor Key RL Cable resistance Channel 1 channel 2 Strain gauges can also be connected to the terminal in 4 wire technology In this case connect Uy with U and GNDy with Up There is no temperature and long term drift compensation for the connecting cable in 4 wire technology PHOENIX CONTACT 14 IB IL SGI 2 P PAC 14 Display devices A digital display from Siebert Industrieelektronik GmbH may Ordering types are for example be connected to the RS 485 interface of the terminal see fol Character height 14 mm 57 mm 100 mm 160 mm or lowing table 250 mm Siebert Industrieelektronik GmbH 7 PnaracIer ogr Red white green Siebertstrasse 66571 Eppelborn G
11. asured display value in the ASCII character set PCP typ 100 ms 12 5 ms depends on the configuration 24 bit Typ 100 ms 12 5 ms depends on the configuration Can be parameterized None or using 4 16 or 32 measured values default set ting using 16 measured values 0 3 Hz with default setting DF 223 03 03 48 Bit 6 Byte PHOENIX CONTACT 5 Programming Data Output address area Parameter channel PCP Register length bus PROFIBUS telegram data Required parameter data Need for configuration data 6 Byte 2 Byte 64 Bit 23 Byte 5 Byte Error messages to the higher level control or computer system Failure of the power supply at Uana Failure of or insufficient communications power UL Peripheral fault Electrical isolation isolation of the voltage areas Logic analog I O digital isolator RS 485 analog I O isolating distance N O contact K Kp analog I O isolating distance N O contact Kao Kpo analog I O isolating distance Functional earth ground analog I O isolating distance Logic RS 485 digital isolator N O contact Kay Kp1 RS 485 isolating distance N O contact Kao Kpo RS 485 isolating distance Functional earth ground RS 485 isolating distance Logic N O contact Ka Kp optocoupler N O contact Kyo Kpo N O contact Kay Kp isolating distance Functional earth ground N O contact Ka Kp isolating distance Logic N O contact Ko Kpo optocoupler
12. cters Subindex 00 o nex nex 22 Startup and measuring jumper de Subindex 01 hex Subindex 02e tuning Subindex O3hex To start the terminal proceed as follows Subindex O4hex e Install the terminal within the Inline station Subindex O5hex To do so proceed as described in the package slip Subindex 06 nex vor Diagnostic status e Connect the strain gauge in 6 or 4 wire technology see Connection examples Value range e Connect the voltage to the Inline station This power up configures the terminal with the default val ues Priority e Ifyou do not wish to operate the terminal with the default values configure the terminal via process data or PCP Channel e Jumper detuning can now be measured Error code dering data If a sensor is connected after power up the cor responding channel must be configured After the configuration the channel is ready for oper ation 7710 5160 ex 5010hex Hardware fault More infor OOhex mation fol lows Text 10 char Error code 0000 Text Status OK acters 7647_en_04 PHOENIX CONTACT GmbH 4 Co KG 32823 Blomberg Germany 28 www phoenixcontact com
13. ctor pin assignment of the displays For the connector pin assignment of the dis i plays please refer to the documentation of the displays HH HAHH 44142 5 0000 000 E eee Measured value representation on the display Y EH Lh OO OO OOO Glsiebert NETTARA 0 pq 1 2 3 kg Figure11 Example of a display Figure 9 Dimensions of display S102 dimensions in mm LEDs on the display Designation Meaning M Menu button NET Net LED lights up after a tare weight ad Panel cutout 92 mm x 45 mm justment TARA Not supported O0 Zero point reached Standstill reached Channel E Channel 2 H H H HHH kl Not supported Bjsiebert oo E The display is updated every 500 ms gt 70 70 70 145 870 Figure 10 Dimensions of display S302 dimensions in mm 7647_en_04 PHOENIX CONTACT 16 IB IL SGI 2 P PAC 15 Configuration 16 Process data Terminal configuration is only required if at least one of the The terminal occupies three process data words and one channels is to be operated outside the default values PCP word You can configure the terminal either using process data or Order of the process data words using PCP and transmit the analog values accordingly OUTO OUT1 OUT2 control word INO IN1 IN2 status word For easy terminal configuration a function block a can be downloaded at www phoenixcon tact net products The configuration options differ for configu
14. curacy of the terminal 02 5 Measured value of channel 2 Record Value range Object description E 0 Noaction On Object Display Value Float AAA Make a tare weight adjustment Access The tare value is not stored in the EEPROM After power up Data type Array of Records 2x6 bytes the value 0 0083 po Subindex Read all elements 01 hex Display value of channel 1 Record Record Length Data Display values of the channels in the ex tended float format 7647_en_04 PHOENIX CONTACT 24 20 7 Control Static object The elements of this object are used for the path adjustment Object description Access Write Array of Unsigned 8 2 x 1 byte 0052 Subindex Length bytes Static control of path adjustment Control Static for each channel a 7 pesas papiro Assigament o o 0 o Keke J N 0 Where Ka Kp N O contact K Kp J Adjustment N Zero point Value range Ka Kp 0 Open NO contact Ky Ks o Noain ooo o No action Adjustment Zero point Determine zero point Do not carry out the actions Adjustment and Determine zero point at the same time The Adjustment and Determine zero point actions are used for the path adjustment The values are stored in a non volatile way in the EEPROM When there is an adjustment to be done and an adjustment value has not yet been determined with Config Table a neg ative Write Confirmation with the error message 0
15. d the linearity error the maximum tolerance values also comprise the longtime drift as well as the maxi mum tolerances of the test and calibration equipment Please also observe the values for temperature drift and the tolerances under influences of electromagnetic interferences Additional tolerances influenced by electromagnetic fields Type of electromagnetic interference Typical deviation in related to the measuring range final value Electromagnetic fields field strength lt 0 1 10 V m according to EN 61000 4 3 IEC 61000 4 3 Conducted interference Class 3 10 V test voltage according to EN 61000 4 6 IEC 61000 4 6 Fast transients burst up to an inter ference voltage of 2 2 kV in acc with EN 61000 4 4 IEC 61000 4 4 The values refer to nominal operation with default settings 7647_en_04 IB IL SGI 2 P PAC Temperature and drift response Ta 25 C 55 C Relative drift in ppm K related to the measuring range final value Typical 5 ppm K Maximum 1 mV Y 2 mV V 3 mV V 15 ppm K 3 33 mV V 4 mV V 5 mV V The typical value contain the typical offset value and gain value in the respective configuration in the temperature range from 25 C up to 55 C related to the positive measuring range up to 100 of the nominal characteristic value This data is valid for nominal operation preferred mounting position Us 24 V with a conversion time of 100 ms and a 16 sample av
16. der configuration The terminal can be configured using process data or PCP to suit your applica tion In PCP mode the terminal is configured with the Config Ta ble object 19 2 Object dictionary for PCP communication intr osas TAIL Mans Joan Fights 0080hex 18 Terminal configuration Config Table im a aoe tocar raves nels peste Pee PP engatar A tended float format ete EE E Io float format pein Pree A aime ESM weight adjustment 0092hex Unsigned 8 er Static control of path adjust Control Static ment 0093hex Unsigned 8 CEN Status of the Inline terminal Status 0097 hex Var of Visible Display string of channel 1 Display Sans eae Channel 1 String 0098hex Var of Visible e Display string of channel 2 Display String Channel 2 String 009Ahex Unsigned 8 2 mo Reset to default settings Default Setting a ee i a H A Number of elements rd Read access permitted L Length of an element in bytes wr Write access permitted 7647_en_04 PHOENIX CONTACT 21 20 PCP object description 20 1 Configure the terminal using this object Config Table object Object description Config Table Access Read write 0050 e Subindex O1hex Configuration of channel 1 Nominal load MAX of channel 1 Adjustment value of channel 1 Reserved Configuration of channel 2 Nominal load MAX of channel 2 Adjustment value of channel 2 Reserved Length bytes Terminal configuration Eleme
17. ection Uy GNDyy Jumper supply Uy Jumper voltage Up gt 7647_en_04 IB IL SGI 2 P PAC No definition is available forthe designations of sensor cables For this reason the designa tions used in data sheets may deviate from those used by sensor manufacturers a Examples Bridge voltage Up sense input Us Bridge difference Ug signal or output 9 Electrical isolation Logic area microprocessor protocol chip bus interface Local bus IN mamap mw Local bus OUT U 7 5 V DC gt maa U 7 5 V DC Unna 24 V DC f f U 24 V DC SAHS E Y Y AA Anal io asses El O O Electrical isolation z z between area FE potential 4 a mene Jumper Analog RS 485 N O contact supply inputs Ka Kb Figure 4 Electrical isolation of the individual function areas 10 Installation instructions High current flowing through potential jumpers Uy and Us leads to a temperature rise in the potential jumpers and inside the terminal To keep the current flowing through the potential jumpers of the analog terminals as low as possible always place the analog terminals after all the other terminals at the end of the main circuit for the sequence of the Inline termi nals see also IL SYS INST UM E user manual PHOENIX CONTACT 10 11 Connection notes Connecting the strain gauges Connect the strain gauges using shielded twist ed pair cables Connecting the shield Onl
18. ed according to the following table Faulty sensor cable Open circuit message in diagnostics Uy CH 2 7647_en_04 IB IL SGI 2 P PAC Note regarding open circuit message During power up or configuration the system does not detect whether a sensor is connected or if a cable break has oc curred all cables disconnected due to the measuring princi ple In this case you will not obtain any valid data As such take the time to ensure that the sensor is fully connected If an open circuit message is output first remove the cause prior to resetting the message If you do not remove the cause of the open circuit message and perform a voltage reset or configure the module the mod ule itself will behave according to the following table Open circuit message trig Behavior following volt gered by age reset or configuration No sensor connected cable Malfunction not detected and break not reported Defective sensor cable GN Malfunction is detected and Duy Uo Up Ug Ug reported Function identification Green PHOENIX CONTACT 9 8 Terminal point assignment Figure 3 a fe point Shield connection GND Reference potential of the RS 485 interface Ka1 Kp1 N O contact for shunt cali bration of channel 1 Terminal point assignment Shield connection 1 1 2 1 1 2 2 2 3723 4 24 Mazza poo Notused 2 22 Notused Kao Kpo N O contact for shunt cali bration of channel 2 Shield conn
19. eight displays Channels are configured independently of one another using the bus system Tare weight adjustment Status message when zero point is reached and resting of measured value Diagnostic indicators Hardware version 01 or later Approved for use in zone 2 potentially explosive areas WARNING Explosion hazard when used in potentially explosive areas When using the terminal in potentially explosive areas observe the corresponding notes This data sheet is only valid in association with the IL SYS INST UM E user manual INSPIRING INNOVATIONS IB IL SGI 2 P PAC 2 Table of contents 1 DESTINA EE 1 2 Table 0r contents os ta E ed e o tee 2 3 go el dl as E c PEPA eee ee o E E rete acne Oe en ee er eer anes oO eer ce ne eee 3 4 Technical sti illes 4 5 o lo leo A nn 7 6 mMiemnakcireut dagran anadir 8 7 Local aIagnostc Indico Sara 9 8 Terminal POinNtassighine dai orilla 10 9 ElECMICANSO AMO id REE An 10 10 Installation instructions ii e eee iaoles 10 11 CONNECTION NOS cu cine 11 12 Notes on using the terminal block in potentially explosive areas ooccooccconnccocnnoccnoncnconcnnnos 12 13 CORMECTION exaMPI Si o a de ea de 13 14 DISDIAY OO VICO Sintra dba E eliro 15 2 A E tnt ted deen an datet dauile tea touaaecemag wade 17 WG Process Cale exis ilk ese i le eda e eee 17 17 VOWIEDIOCESS Gala Words io di ios 17 18 Process Gala IAPULWOTdS Narea tedio Ll 19 19 POP COMMUNIC ANON sir ea do a ones
20. erage value The maximum tolerance values represent the worst case measurement inaccuracy Besides maximum offset and gain drift they also comprise longtime drift as well as the maximum tolerances of the test and calibration equipment PHOENIX CONTACT 7 IB IL SGI 2 P PAC 6 Internal circuit diagram i V u U Level Adaptation 3V 5 Y ocal DUS oro f UL Uana A EY EY PL i UV1 d Q UV2 d e 24 V US H _ _ _ _ 1 U01 u01 e U02 24 V UM 9 U01 GND 97002 _ _o Ud1 9 Co Ud1 Kai 8 Kb1 e Ta lo Ud2 Ka2 e Ce Kb2 Figure 1 Internal wiring of the terminal points Key Protocol chip Low pass filter E DC DC converter Register expansion DC DC converter with electrical isolation Level adaptation Level Adaptation V 5V TRA RS 485 interface with electrical isolation Hardware monitoring Photomos relay Microprocessor Optocoupler with bipolar buffer Electrically isolated area Analog digital converter Explanation for other used symbols has been provided in the IL SYS INST UM E user manu NEG Oe JANN al 7647_en_04 PHOENIX CONTACT 8 7 Local diagnostic indicators l R a a T GY Figure 2 Local diagnostic indicators tion D green Diagnostics bus and logic voltage CH1 supplied or open circuit green OFF Channel 2 not connected or not supplied or open circuit An open circuit is detect
21. ermany RPA Single or ld l l Postfach 1180 66571 Eppelborn Germany 7 a symbols fixed on strips specify when order i ing Phone A ia F101 for g F102 for kg F103 for t Fax TAa 0 6806 980 999 Degree of protection IP40 IP54 IP65 amei WSI P OOR GE Assembly Panel wall and suspended mounting E mail info siebert de Operating voltage 24 V DC 230 V DC Please contact Siebert Industrieelektronik a GmbH for further information or ordering types Digital display S102 Large size display S302 Large size display S302 for panel mounting for indoor installation for outdoor installation Order designation S102 W6 14 0R 000 0B SL with S302 F6 10 0R 100 0A SL with S302 F6 10 0R 114 0A SL with dimension symbol F102 dimension symbol F102 dimension symbol F102 and weather protection hood 1011 a IIA 870 mm x 245 mm x 145 mm 870 mm x 245 mm x 145 mm WxHxD Character height Reading distance a Up to 40 m Up to 40 m Character color Bright red LED display Bright red LED display for in Red super bright LED display doors for outdoors Display 6 digits single sided 6 digits single sided Dimension sym kg F102 kg F102 kg F102 bol Degree of protec IP54 IP54 tion with climate compensation heat ing and weather protection hood cable entry at bottom cable entry at bottom Other Steel sheet housing double layer painting 7647_en_04 PHOENIX CONTACT 15 IB IL SGI 2 P PAC Display dimensions Conne
22. erminals that are approved for use in po tentially explosive areas may be assembled on this Inline terminal Before using an Inline terminal in a zone 2 potentially ex plosive area check whether it has been approved for in stallation within this area For a list of terminals that are approved for the potentially explosive areas of zone 2 please refer to the AH EN IL EX ZONE 2 application note The maximum permissible current for each tension spring contact is 2 A PHOENIX CONTACT 12 IB IL SGI 2 P PAC 13 Connection examples 13 1 6 wire connection a strain gauge load cell per channel with two indicators The RS 485 interface has bus capability and can operate several devices When an address is selected the current mea sured value of channel 1 or channel 2 can be displayed Use a twisted pair shared and shielded data line to connect the displays Fit a termination resistor to the data cable at the most remote point of the RS 485 network Use the integrated termination resistors of the display for this purpose 1 2 S102 Address 1 S302 Address 2 OQ OO no OG Figure 6 Connection of strain gauges in 6 wire technol ogy Key Ri Cable resistance Address 1 Displays the measured value of chan nel 1 Address 2 Displays the measured value of chan nel 2 The RS 485 interface transmits a special i weighing protocol 7647_en_04 PHOENIX CONTACT 13 13 2 6 wire connection several strain gauge load cells per ch
23. hex Command function 00000000 0000 Reading measured values 0001000C 1x00 Read configuration in IN1 channel by channel C Channel number O Channel 1 1 Chan nel 2 OUT1 and OUT2 po OUTtamour2z Z O Bt 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Assign M W N ment M Mean value Selects mean value generation After every conversion the measured value is saved in a mean value memory via which the mean value is generated POOE oy NPAC lll vau The memory size can be selected with IN1 Minimum value chan l hel 1 the mean value option E g for a 16 nies Mini h sample mean value the mean value o A A een ke en is generated using the last 16 mea sured values ee oon eee a valie W Conversion Conversion time of the analog digital IN1 Maximum value channel 4 time converter IN2 Maximum value channel N Nominal Selects the measuring range 9 characteris 00110010 3200 Delete minimum and maxi aa desl ae orenanne Set all unused bits to 0 00110011 3300 Delete minimum and maxi mum value of channel 2 00111100 3C00 Read firmware version and module ID in IN1 01000000 4000 Configure device configura tion for channel 1 in OUT and for channel 2 in OUT2 During the transient response e g following a configuration command the fluctuating mea sured values may exceed the minimum and maximum values Therefore at the start of ac quisition delete the minimum and maximum If invalid parameters a
24. le String CTA 24 53 31 0097 hex E 24 53 32 sible 24 53 33 3 not supported O0hex Amount of data present in the e ee 554 245334 eee Maximum length of the object ee 245336 Display value of channel 1 in the ASCII for mat Example The value 32 645 is shown on the display the rest LED and the 1 LED are on Object description This is shown by the following string oa fe se s s s 7 sls 1 owy s 2 se s m gt The leading 0 is not shown on the display 7647_en_04 PHOENIX CONTACT 26 IB IL SGI 2 P PAC 20 10 Display String Channel 2 object 20 11 Default Setting object The elements of this object contain the data flow of channel 2 The adjustment values of the path adjustment are set individ that is sent to the display ually or all together to the default setting with this object Object description Object description Subindex OOnex Only access to all data pos sible Subindex Length bytes Default setting O0hex Amount of data present in the buffer Maximum length of the object Display value of channel 2 in the ASCII for mat For a description see Display String Channel 1 object E a EA J Adjustment N Zero point dl Tare Value range ament 0 Noadion OOO uN adjustment to default value 1 0 ane store in EEPROM Zero poin ferm A zero point to default value 0 0 i store in EEPROM T 22 Set tare to the default value 0 0 The value
25. nt value range The Configuration channel x elements have the following structure OUT1 and OUT2 ai astilla olla SEATa KEE E arte a ae at ment Where M Mean value W Conversion time N Nominal characteristic value Value range See Parameters for configuration Default value See Parameters for configuration Nominal load MAX element Value range O 65535 qe Default value 0 7647_en_04 Data type Array of Records 2 x 8 bytes Record 4 x Unsigned 16 Write all elements Subindex OOpex Subindex 01 hex t0 02hex IB IL SGI 2 P PAC Adjustment value element Value range 0 32767 dec Default value 0 Please note for the Nominal load MAX element If MAX 0 no value is output on the display of the channel MAX dimensions the maximum value of the display and the display format peo TT pe 10000 65535 MAX corresponds to a detuning of 100 The use of MAX provides for the maximum value of a sensor to be input Example Sensor with 1 mV V and MAX 50 kg Configura tion of the terminal with MAX 50gec Then the display corre sponds directly to the measured weight in kg Jumper differ Process data value Display ence 2 0 5mVV 12500de0 gt 50 25 000 25000 dec gt 100 50 000 If an invalid configuration is specified a negative confirmation is generated with error message 08hex OOnex Or xx30hex The low byte of the Additional_Error_Code is 30hex value is out of r
26. ocumentation user manual data sheet package slip and the certificates declaration of conformity and other approvals if applica ble for safety related data Access to the circuits inside the Inline terminal is not per mitted Do not repair the Inline terminal by yourself but re place it with a terminal of the same type Repairs may only be performed by the manufacturer The manufacturer is not liable for damage resulting from non compliance The IP20 degree of protection EN 60529 of the device is intended for a clean and dry environment Do not subject the Inline terminal to mechanical strain and or thermal loads which exceed the limits specified in the product documentation The Inline terminal has not been designed for use in po tentially dust explosive atmospheres 7647_en_04 1 Observe the specified conditions for use in potentially ex plosive areas Install the device in a suitable approved housing with at least IP54 degree of protection that meets the require ments of EN 60079 15 Observe the requirements of EN 60079 14 In potentially explosive areas the Inline terminal may only be snapped on or off and cables may only be connected when the power is switched off In zone 2 only connect devices to the supply and signal circuits that are suitable for operation in potentially explo sive areas of zone 2 and the conditions at the installation location Restrictions limit values 1 Only Inline t
27. ration Possible reasons Atleast one of reserved bits is set An invalid value was specified for the nominal character istic value For the command code 0000 read measured values the error bit indicates a group error message When the error bit is set there is an error message on one or both channels Mirrored command code A command code mirrored from the control word Here the MSB is suppressed PHOENIX CONTACT 19 IB IL SGI 2 P PAC 18 2 Input words IN1 and IN2 An open circuit is detected according to the following table The measured values configuration or firmware version are Faulty sensor cable Open circuit message in transmitted to the controller board or the PC via process data diagnostics input words IN1 an IN2 according to the configuration For control word 3C00hex IN1 provides the firmware version and the module ID a o Up ENON e eee Vo Example Firmware version 1 23 Ua IN1 O IA Bt 15 14 13 12 11 10 9 8 7 6 5 4 3 2 4d 3 Please observe the notes regarding open cir 2 3 3 cuit message under Local diagnostic indica Assign 1 tors ment hex Meaning Firmware version 1 23 Typical measured values ule ID Detuning in of Input word hex Input word dec nominal value The measured values are available in IB IL format The measured value is represented in bits 14 to O An addi tional bit bit 15 is available as a sign bit 15 14 13 12 11 10 9 8 7 6
28. ration using pro cess data PD and configuration using PCP The following configurations are possible 17 OUT process data words Configuration Short desig PCP Three OUT process data words are available nation The terminal is configured using the OUT process data words Selection of Mean value 16 sample X X Where mean value gen mean value Output word OUTO contains the command eration Output word OUT1 contains the parameters for channel 1 Conversion time Conversion 100 ms X X ofthe ADe Mime Output word OUT2 contains the parameters for channel 2 verter Configuration errors are indicated in the status word The con Nominal charac Nominal 2 mV V X X figuration settings are stored in a volatile memory teristic value of characteris If you change the configuration the message Measured the connected tic value value invalid appears diagnostic code 8004 until new sensor measured values are available Nominal load of Nominal load X the connected sensor Adjustment Adjustment X value of the con value nected sensor 7647_en_04 PHOENIX CONTACT 17 IB IL SGI 2 P PAC 17 1 Output word OUTO control word 17 2 Output words OUT1 and OUT2 parameter words OUTO For command 40002 the parameters must be specified in po CI Bit 15 8 76 5 4 3 2 1 0 OUT1 and OUT2 This parameter word is only evaluated for A Pee A Bit 15 to bit 8 command code Bit 15 8 OUTO
29. re specified in the pa rameter word the command will not be execut ed The command is acknowledged in the input words with the set error bit values using command 3200hg and or 3300hex The minimum value is set to the larg est positive number 7FFhex 32767 gec when deleting The maximum value is set to the larg est negative number 8000p 32768yec 7647_en_04 PHOENIX CONTACT 18 Parameters for configuration The values displayed in bold are pre settings Bits 10 to 9 M Mean value 16 sample mean value No mean value 4 sample mean value 32 sample mean value Bit 3 to bit O N Nominal specific value o oo amw OSS a foo mwn SS Step response and limit frequencies The following table specifies the time for the step response and the limit frequency depending on the settings for conver sion time and mean value Mean value 16 sam ple Limit fre quency typ Conver sion time Step response from 0 to 100 typical 7647_en_04 IB IL SGI 2 P PAC 18 Process data input words IN 18 1 Input word INO status word Input word INO performs the task of a status word CO CO IC DA Assign EB SP ment EB Error Bit EB 0 EB 1 No error has occurred An error has occurred The error bit indicates whether a command could be executed without errors or not For the command code 4000hex configure device a set error bit indicates an invalid configu
30. tection of the voltage outputs Floating N O contact Quantity Volume resistance Volume resistance Typical response time Serial interface Name Network Addressing Termination resistor Transmission protocol Input channels for strain gauge Number of inputs Connection method Characteristics Bridge difference Uy Bridge voltage Up Measured value representation Process data update Resolution A D A D conversion time Averaging Limit frequency Programming Data ID code hex ID code dec Length code hex Length code dec Process data channel Input address area 7647_en_04 IB IL SGI 2 P PAC 24V DC max 100 mA 25 mA in case of typical load of 350 Ohm per channel 7 mA for no load operation without strain gauge or display 80 mA For a maximum load of 55 Q and display Typ 1 2 W Device in nominal operation max 3 2 W Device with maximum load 2 gt 55 Q per channel typ 5 V max 90 mA per channel Yes at least 1 minute through temperature monitoring 2 Ka1 Kp1 Ka2 Kpo lt 1 Q typical 5 Q maximum 100 ms typical V 24 RS 485 serial interface Yes Address 1 Measured gross net value Address 2 Measured tare value 1200 STX ETX 2 6 or 4 wire twisted pair shielded cable 1 mV V 2 mV V 3 MV V 3 33 mV V 4 mV V 5 mV V Measuring range specified by selecting the characteristic 5V 15 bits sign bit process data 15 bits sign bit and me
31. x If Status O the measured value is valid Record structure ee aia bytes mat acc to IEEE 754 A Unsigned 8 1 Unsigned 8 Units Code combines the ASCII characters of the Config Table in an 8 bit code cos Unt 57 39hex Percentage 61 3Dhex Kilograms kg Structure of the float format according to IEEE 754 in the bit representation SB 1 sign bit O positive 1 negative E 8 bits exponent with offset 7Fhex M 23 bits mantissa Some example values for conversion from floating point to hexadecimal representation Floating point Hexadecimal representa tion 0 Faw 41200000 1 03965528 3F 85 13 6D BF 60 00 00 PHOENIX CONTACT 23 IB IL SGI 2 P PAC 20 4 Measured Value Float object 20 6 Control Dynamic object The elements of this object contain the measured values in The elements of this object are used for the tare weight ad the highest accuracy of the terminal justment Object description Object description 2x6 bytes Subindex Read all elements Ol nay Measured value of channel 1 Record 2x1 byis bytes Subindex 01 ex tO O2hex Length SUUINOEX O0hex Data Control of tare weight adjustment bytes Subindex 01 pex to 02hex See below for the bit assignment Data Measured values in the extended float for mat Control Dynamic for each channel EXEC 765 ii met PPEP The elements of this object contain the display values of the ment channels in the highest ac
32. y connect the shield at one point preferably at the terminal If the shield is securely connect ed to the sensor insulate the shield on the ter minal side Unused channels If a channel connector 1 or connector 3 is not used connect the following terminal points on this connector with each other 1 1 1 2 and 1 3 as well as 2 1 2 2 and 2 3 Figure 5 Jumpering the terminal points of unused chan nels 7647_en_04 IB IL SGI 2 P PAC PHOENIX CONTACT 11 12 A IB IL SGI 2 P PAC Notes on using the terminal block in Installation in zone 2 potentially explosive areas WARNING Explosion hazard Please make sure that the following notes and instructions are observed Approval according to EC directive 94 9 EC 113 G Ex nA IIC T4 Gc X Installation notes 1 This Inline terminal is a category 3 device and is suitable for installation in the potentially explosive areas of zone 2 The device meets the requirements of EN 60079 0 2009 and EN 60079 15 2010 The Inline terminal must only be installed operated and maintained by qualified personnel Please follow the installation instructions given in the IL SYS INST UM E user manual and the package slip When installing and operating the device the applicable safety directives including national safety directives ac cident prevention regulations as well as general techni cal regulations must be observed Please refer to the corresponding d
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