EX12_-SPR1-B
Contents
1. 113 5 7191711 13 1510V 20 2 4 6 8 10 12 14 ov Pin No 2 4 6 8 10 12 14 16 18 The diagram shows a top view of the 18 pole ribbon cable connector the sliding switch is located to the left The output drivers are numbered O through 15 corresponding to the bits in a word wise allocation in the control system Pins 17 and 18 are provided for the common ground of the solenoid valve coils VQ series solenoid valves A solenoid valve manifold up to 8 stations is double solenoid wired by default If a double solenoid valve is located on the first station of the valve manifold i e a valve with two coils then Coil A is controlled with Bit O and Coil B with Bit 1 On the valve itself when Coil A is actuated a red LED lights up and when Coil B is actuated then a green LED lights up If station 2 has a single solenoid valve 5 2 way valve only with Coil A then this is actuated by Bit 2 and Bit 3 Pin 3 is not used Any wiring diverging from this must be specified using Option K special wiring in the order specifications In a solenoid valve manifold with 16 single solenoid valves the coils from station 1 to 16 are assigned Bits 0 to 15 The maximum number of 16 coils must not be exceeded 17 QSNC SY series solenoid valves Double solenoid valves in the SY series occupy two stations because of the design i e each station is individually wired The valve stations of the manifold from 1 to 16 are allocated to Bits 0 to 15 Sta2. EE J DOsexDC24v 0 Diis Dc2MWV d FMaS3STEFFEI CP342 2 Bau Saugruppe DF Kennung 14 Bestellnummer all E Adres 4 A Adresse kommentar fai u a i a TT 2 E EEE 3 EE aa 4 _ 5 SS ae E a Se 7 ae E E 3 EEE ee 10 11 Br eee e 12 EEE eee d Drucken Sie Fl um Hilfe zu erhalten NUM BE 10 43 PMStat VASE amp MSIMATIC Manager Ex12 GM HW Konfig Hardwa The solenoid valve manifold in this example has the Slave or Station number 3 and is actuated by the output bytes 0 and 1 In a fully assigned valve manifold Coil A of the first station is addressed with the address A 0 0 and the last solenoid valve coil has the address A 1 7 16 Bit AO O AO 1 AO 7 and A1 0 A1 1 A1 7 7 3 System reaction time The system reaction time of a PROFIBUS DP system depends on the following factors Number of bus participants TSDR the reaction time in which a participant can respond the selected baud rate the agreed net data length Min_Slave_Interval the time between two poll cycles in which a Slave can exchange data with the Master in the LSPM2 used here this period is 0 1 ms A more detailed calculation of the transmission speed can be found in standard EN 50 170 or in the appropriate specialist literature 21 GSNC 8 Troubleshooting The following process flow is used in the case where a solenoid in a SI solenoid valve manifold is not wo
3. EO312 B Instruction Manual PROFIBUS DP SI units EX120 SPR1 B EX121 SPR1 B EX122 SPR1 B 7 2 7 2 1 1 2 2 7 3 index System overview system description SI unit EX12 SPR1 B System configuration systematic configuration PLC types and PCs Connectable SMC solenoid valves Technical data system technical data PROFIBUS DP technical data SI unit technical data Electromagnetic compatibility EMC Description of SI unit EX12 SPR1 B Description of individual components Diagnostics display status LEDs Diagnosis of Slave Settings Address settings Transmission speed baud rate Installation Bus connection Bus cable Bus termination Valve wiring Programming Data link layer layer 2 and PROFIBUS DP service access points used Connection with PROFIBUS DP Master GSD File Configuration of a PROFIBUS DP Master system reaction time Troubleshooting SMC contact addresses Page 2 2 3 GSMC 1 System overview 1 1 System description The PROFIBUS DP is an open manufacturer independent field bus This makes it possible to use any PROFIBUS compatible PLC or PC plug in card as a Master for the PROFIBUS PROFIBUS DP is a deterministic decentrally controlled field bus that uses the so called Delegated Token generally operated with one Master and is suitable for cyclical PLC IPC control The EX12 SPR1 B SI units described here support the manufacturer independent PROFIBUS DP protoco
4. 5 pole round connector RUN LED Bp f j i D l A L E D N rane STS OTT 2 rotary switches for the station number 9 pole D Sub socket The externally visible individual components are described below 5 pole round connector The supply voltage for the electronics SI unit and for the valves load can both be connected simultaneously through the connection of a 5 pole mating socket The PS round connector complies with the DIN 45322 standard Top view PIN 1 24V DC valve voltage PIN 2 OV electronics PIN 3 PE functional protective earth PIN 4 24V DC electronics PIN 5 OV valve voltage Note The 24V DC valve voltage and the 24V DC supply voltage for the electronics are electrically isolated from each other PIN 3 PE must be connected with the shield connection in the mating section of the round plug connector 10 SMC 9 pole D Sub socket The 9 pole D Sub socket connects the SI unit with the field bus PROFIBUS DP The connections of the 9 pole D Sub socket are assigned as follows PIN 1 Shield Shield protective earth PIN 2 M24 not occupied reserved for 24V DC supply ground line PIN3 RxD TxD P Receive transmission data P B line PIN 4 RTS Ready to Send PINS DGNDD Digital Ground PING VP_ 5V for external bus connection PIN 7 P24 not occupied reserved for 24V DC auxiliary power PINS __ RxD TxD N Receive transmission data N A line PIN 9 CNTR
5. 50170 Operating mode of SI solenoid The SI unit is designed as a passive participant valves Slave for the PROFIBUS DP Max number of participants 32 participants Master Slave without repeater Number of bus participants 126 participants Slaves Operation as mono with three repeaters master system is recommended Transmission speed baud rate Dependent on bus length and cable type A or B and max cable length without used repeater Not permitted Not permitted automatic baud rate detection Not permitted Not permitted 200 600 1200 1200 1200 Hamming distance Cable type Cable A as per PROFIBUS DP standard EN 50170 Cable B as per PROFIBUS DP standard EN 19245 Part 1 Impedance Q 135 to 165 100 to 130 3 20MHz gt 100kKHz Capacitance pF m lt 30 Loop resistance Q km lt 110 Core diameter mm gt 0 64 Core cross section mm gt 0 34 Transmission media cable Shielded paired two wire cable impedance 100 to 130 Min 0 22mm 24 OVG approx 60p Bus structure Line closed at both ends with terminating resistors adapted to RS 485 Stubs to participant as short as possible no branching Connection type Supply voltage 5 pole round connector as per DIN 45322 Bus connector 9 pole D Sub connector Galvanic isolation 50 Ver rated voltage 500V er rated surge voltage 3 3 SI unit technical data Supply voltage 24V DC rated voltage 10 Allowable range 21 6V DC to 26 4 V DC
6. 9 SIMATIC 2 SIMOREG Sme O01 nbm ABER sO SIMOVERT Sme_1400 ged Sme_1401 ged fH el GATEWAY El E VENTILE EE EX12 SPR1 BIHW Hg EX12H SPRI1 B SW SIMATIC 300 SIMATIC 400 SIMATIC FC Based Control Dateiname fen Er Dateityp tall Files g 4 bbe i H PROFIBUS DF Slaves der SIMATIC S7 M7 und C7 dezentraler Aufbau je I NUM E EE It is also possible to copy the GSD file to a suitable directory in the configuration tool lt may then be necessary to update the hardware catalogue here C SIEMENS STEP7 S7DATA GSD The GSD file is now integrated in the configuration tool and a PROFIBUS DP system can now be created and the SMC valve manifold added This is implemented by double clicking the corresponding variant HW or SW in the catalogue The SIMATIC Manager automatically provides the addresses of the input and output bytes The Slave number selected in the hardware configuration must correspond with the number set for the SI unit and must not be assigned twice 20 lant HW Fonfig Hardware konfigurieren EX120_5PA1_B4SIMATIC 300 1 Gi Station Bearbeiten Station Bearbeiten Einf gen ielsystem Ansicht Extras Fenster Hilfe x IE CPU315 2 OP i EZES The modules highlighted in blue in the upper half are displayed in the table below The control system assigns the output bytes 0 and 1 in the EX120 AB 0 and AB1
7. the valve block 6 1 Bus connection The connection of the bus participants can be implemented as described in Chapter 2 1 Schematic configuration Please comply with the manufacturer instructions for the PLC or PC card used and with EN 50170 DIN 19245 1 All connections must be implemented with the supply voltage switched off 2 The SI unit and the bus cable must be located at least 200 mm away from any interference sources e g power inverter and power lines 3 Use cable type A as recommended in the Chapter Technical data 4 The bus must be terminated with terminating resistors after the last bus participant normally a defined switchable resistor at the bus connector 15 GZ SMC Example Minimum wiring with double sided shielding between two bus participants Participant 1 Participant 2 9 pole D Sub 9 pole D Sub RxD TxD P PIN 3 a Cable B RxD TxD P PIN 3 DGND PIN5 DGND PIN5 RxD TxD N PIN 8 i Cable A RxD TxD N PIN 8 Shield Shield PIN 1 j PIN 1 The two signal cables A and B must not be mixed up 6 2 Bus cable The bus cable must be a shielded paired two wire twisted pair cable as per EN 50170 Note The cable shield in the D Sub plug must be connected over a large surface with the metal collar A single sided earthed shield prevents interfering low frequency earth loops but has no effect against magnetic HF interference Pairing is effective against magnetic HF interference but has no in
8. 1185 24
9. N not occupied reserved for repeater control signal direction control The signals shown in bold Pin 3 5 6 and 8 are essential signals for data exchange mandatory signals 4 2 Diagnostics display status LEDs The status LEDs RUN green DIA red and BF red on the front plate indicate the status of a SI unit LED Status Meaning after configuration RUN green Supply voltage 24V DC for SI unit OK not lit up Not OK DIA red A fault has occurred in the valve control system e g the supply voltage for the solenoid valve has dropped below permitted value No fault Bus fault During the set monitoring period no communication cycle occurred on the bus No fault 11 GSMC 4 3 Diagnosis of Slave EX12 SPR1 B The parameters specified correspond to the diagnosis telegram according to EN 50 170 The DP Slave diagnosis in hexadecimal format has the following meaning Diagnosis telegram Message Meaning 0000 00 OC 00 02 14 01 07 00 00 00 00 00 00 Response monitoring activated i e All OK 0000 01 00 00 02 14 01 00 00 00 00 00 00 00 DP Slave cannot be reached via bus e g electronics voltage too low 0000 08 OC 00 02 1401 07 FF 00 00 00 0000 Response monitoring activated Slave specific diagnosis data e g valve voltage too low It is assumed here that the DP Master has address 2 and that the SI unit is addressed with the rotary switches i e the GSD file 1401 is used 12 Z
10. SNC 5 Settings 5 1 Address settings The address of the SI unit can be assigned either using both rotary switches hardware addressing or via the bus protocol using a class 2 Master In general address 1 is kept for the Master A small sliding switch inside the SI unit determines the type of addressing used The Sliding switch is located on the valve connection board to the left of the 18 pole ribbon cable connector The appropriate GSD file must be used according to the position of the sliding switch Selection sliding GSD file switch on The address is assigned using the rotary switch on the front plate HW addressing SMCB1401 GSD Default setting Valid address range 02 to 99 decimal The address is assigned via the bus protocol SW addressing SMCB1400 GSD Valid address range 02 to 126 decimal The rotary switches are no longer operational Attention Each address may only be assigned once per bus participant The address of the SI unit is set by default to 03 left switch decimal digit right switch single digit and the sliding switch is set to The SMCB1401 GSD file must be used in this case This type of addressing should be used because the station address on the device is then visible Any modification to the address using the rotary switch is only detected after the electronics are switched back on again and saved in an EEPROM To set the rotary switch remove the transparent plastic cover first A m
11. Separate power supply for electronics and load valves Common reference potential Outputs Number 16 Output performance per output max 2 1W Voltage 24V DC 10 Polarity of outputs Minus Common Fuse protection of outputs 1 micro fuse per Byte 2Byte 0 1 ms Diagnostics functions Bus fault display LED red BF Diagnosis display LED red DIA e g valve voltage too low Supply status display LED green RUN 24V DC electronics 3 4 Electromagnetic compatibility EMC Interference EN50081 2 1993 transmission EN55011 Class A Gr 1 Enclosure EN61000 4 2 ESD 4kV Contact 8kV air ENV50140 HF Field 10V m 80 1000 MHz ENV50204 HF Field 10V m 900 MHz Bus connection EN61000 4 4 Burst 2kV A ENV50141 HF conducted 10V 0 15 80 MHz JA Mains DC EN61000 4 4 Burst 2kV A ENV50141 HF conducted 10V 0 15 80 MHz JA Benchmark category A Normal operating behavior within specified limits Benchmark category B Temporary influence of operating behavior or loss of function that the device self corrects 4 Description of SI unit EX12 SPR1 B 4 1 Description of individual components EEA Ia a EEIEEREEEREEEEERERRAREEREE 18 pole ribbon cable connector Sliding switch for Address Mode
12. fluence on electric HF actions A double sided earthed shield is effective against magnetic HF interference but has no effect against electric HF interference For this reason specific recommendations cannot be provided The applicable industrial ambient influences must be taken in account in each case A commercial bus cable of cable type A as per EN 50170 Is recommended in general 16 GZ SMC 6 3 Bus termination Both ends of the bus cable must be fitted with a termination resistor combination to avoid interfering line reflections and to ensure a defined quiescent potential The lines are defined as closed when the termination resistance R is equal to the impedance of the line The termination of the PROFIBUS DP network must be implemented according to the PROFIBUS guideline Interconnection Technology for PROFIBUS Chapter 3 1 or EN 50170 6 4 Valve wiring The solenoid valve manifold is already internally wired It must therefore only be connected to the previously mentioned supply voltage 5 pole round connector and the bus connection 9 pole D Sub The SI unit has 16 output drivers therefore a maximum of 16 solenoid valve coils can be actuated The output drivers are allocated to the solenoids as described below The 18 pole ribbon cable connector connects the SI unit with the valve block 18 pole ribbon cable for EX121 housing The pin assignment is shown in the following diagram Pin No 1 3 7 9 11 13 15 17 Bt
13. icipant can either be set via the two rotary switches on the front of the device hardware addressing proposed or via the bus protocol software addressing Hardware addressing default is recommended in advantage to see the adjusted slave address directly An internal selector switch determines which of the two address settings is permitted It must also be ensured that the correct GSD file which corresponds to used address setting mode is used SMC 2 System configuration 2 1 Systematic configuration There are two types of Master for the PROFIBUS DP Master class 1 Communication with Slaves and with control signal networks e g PLC Master class 2 For setup and checkout purposes e g Programming Device PD Example a Operation without repeater Class 1 Master Class 2 Master e g a PLC eg aPC fee E de aa Bes Eee shielded twisted pair cabling max overall length is 1 026 m if no repeaters are employed i T Connector ah Stub Line SI Units 31 or fewer t LE pa a m mE Pai ay Br Ei En Fr i Spat Petia Ei oN i Combinations of 16 of fewer single acting and yee double acting valves 8 or fewer i O e Symbol designating double acting solenoid valves 0 7 Symbol designating single achng solenoid valves Ri Termination resistor combination for 1 5 MBit sec stubs must not be used Example b Configuration with a repeater Cla
14. l concerning IEC 61158 resp EN 50170 The PROFIBUS DP protocol decentral periphery 32 active or passive participants can be connected or 122 when using a maximum of three signal amplifiers repeaters Different transmission speeds are possible dependent on the max bus length The baud rate is automatically detected by the SI unit and can be between 9 6 kBit sec and 12 Mbit sec The transmission media used are shielded paired two wire cables in compliance with the above PROFIBUS DP standard RS 485 SMC 1 2 SI unit EX12 SPR1 B The SI unit makes it possible to control the SMC solenoid valves via the PROFIBUS DP protocol All three housing types EX120 EX121 and EX122 contain identical electronics Only the mounting types are different Housing type Type of connection for SMC valve type EX120 Direct mounting without ribbon cable VQ SV no DIN rail mounting EX121 DIN rail mounting with ribbon cable SY EX122 Direct mounting without RC for DIN rails SY Each Serial Interface SI unit can control a maximum of 16 single solenoid or 8 double solenoid valves Combinations of single and double solenoid valves are possible as long as the number of coils does not exceed 16 These SI units do not have sensor inputs The SI solenoid valve manifold is already wired internally This means that the manifold only needs to be connected to the bus line 9 pole D Sub and the power supply 5 pole round connector The address of the bus part
15. must be designed as a PROFIBUS DP standard Master There are a large variety of such devices or PC plug in cards available from various manufacturers 2 3 Connectable SMC solenoid valves Solenoid valves in the series VQ1000 2000 can be connected with EX120 SPR1 B and solenoid valves in the series SY3000 5000 can be connected with EX122 EX121 SPR1 B These valve series in addition to the SI solenoid valve manifold design are also available with 25 pole D Sub connectors as electrical input Order designation of the multi connection sub bases for solenoid valve manifolds EX120 Type VV5SQO 1 HHHHSN Q SS5V 1 S3ND EX121 Type SSSY 45S 1 ND Q EX122 Type SSSY 45SND Q Note The letter N indicates the field bus system PROFIBUS DP in the multi connection sub base Important In the VQ series valves the valves with the Negative Common resp Minus Common configuration must be used i e 24 VDC is switched to the valve and the ground is common e g VQ1101N 5 Q Further technical data regarding the valves and valve sub bases can be found in the corresponding SMC product catalogues address directory in appendix 3 Technical data 3 1 System technical data Operating temperature 0 C 50 C Storage temperature 20 C 85 C Relative humidity 10 95 without condensation CE marking Degree of protection IP 20 DIN 40050 IEC 144 3 2 PROFIBUS DP technical data as per EN
16. odification to the address using the bus protocol i e using a class 2 Master is immediately effective and saved in the internal EEPROM It is not necessary to start up again File SMCB1400 GSD sliding switch on o 13 Q 18 pole valve connector Selection sliding A a E E ES e AND Zul el ell oh el ee eee Valve connection board with sliding switch for addressing mode 5 2 Transmission speed baud rate The SI unit automatically detects the baud rate specified by the PROFIBUS DP Master The unit supports all transmission speeds specified in the PROFIBUS DP standard up to 12 MBit sec The maximum permissible length extension of the PROFIBUS DP network is inversely proportional to the baud rate see technical data 14 GMC 6 Installation All installation and wiring work must be carried out with the system supply voltage switched off When installing PROFIBUS DP participants comply with the VDE provisions for cable saving transmission systems VDE 0113 Part 1 and EN60204 Part 1 and with the PROFIBUS guideline Interconnection Technology for PROFIBUS In addition the entire configuration must be implemented according to the Configuration Guidelines PROFIBUS DP FMS The valve manifold is equipped with two connectors power supply 5 pole round connector bus connection 9 pole D Sub plug socket Both connectors must be connected before commissioning The SI unit must also be connected to
17. ommelgern Phone 038 355 1464 Fax 03 355 1466 Denmark SMC Pneumatik A S Knudsminde 4 B DK 8300 Odder Phone 4570252900 Fax 4570252901 Finland SMC Pneumatikka OY Veneentekijantie 7 SF 00210 Helsinki Phone 09 681021 Fax 09 6810233 France SMC Pneumatique S A 1 Boulevard de Strasbourg Parc Gustave Eiffel Bussy Saint Georges F 77607 Marne La Vallee Cedex 3 Phone 01 6476 1000 Fax 01 6476 1010 PO box 12 10 63324 Egelsbach Germany Fax 0049 06103 402 139 Greece S Parianopoulus S A 9 Konstantinoupoleos Street GR 11855 Athens Phone 01 3426076 Fax 01 3455578 Portugal SMC Espana Sucursal Portugal S A Rua de Eng Ferreira Dias 452 4100 Porto Phone 02 610 89 22 Fax 02 610 89 36 Italy SMC Italia S p A Via Garibaldi 62 I 20061 Carugate Milano Phone 02 92711 Fax 02 92150394 Netherlands SMC Pneumatics BV De Ruyterkade 120 NL 1011 AB Amsterdam Phone 020 5318888 Fax 020 5318880 Ireland SMC Pneumatics Ltd 2002 Citywest Business Campus Nass Road Saggart Co Dublin Phone 01 403 9000 Fax 01 464 0500 Spain SMC Espana S A Zuzobidea 14 Pol Ind Jundiz E 01195 Vitoria Phone 945 184 100 Fax 945 184124 Switzerland SMC Pneumatik AG Dorfstrasse 7 Postfach 117 CH 8484 Weisslingen Phone 052 396 3131 Fax 052 396 3191 UK SMC Pneumatics UK Ltd Vincent Avenue Cronhill Milton Keynes MK8 OAN Phone 01908 563888 Fax 01908 56
18. rking correctly This process flow uses the three status LEDs of the SI unit If the fault cannot be found using this method refer to the more comprehensive diagnostic information provided by the Master see the user manual and software description of the PLC or PC used General Recommendations Connect new SI and check it one after the other Assure 24VDC 10 at each SI i e at the end of power supply lines after connecting all SI s Assure different addresses of all connected SI s 22 Solenoid valve not functioning Replace SI unit Is the 24VDC 10 Are both fuses OK available for the electronics Is the green RUN LED lit up Connect 24VDC Contact SMC Yes Is the wiring OK Yes Does the red BF LED light up after booting Slave address OK Is the Master OK Set all addresses Set control system to correctly RUN Is the red DIA LED lit up Is 24 VDC 1 0 Check 24VDC for available for the valves valves Is the wiring OK Resolve wiring problem Replace SI unit Restart Master and Is the solenoid valve check status working Contact SMC 23 9 SMC contact addresses Germany SMC Pneumatik GmbH Boschring 13 15 63329 Egelsbach Germany Tel 0049 06103 402 0 Austria SMC Pneumatik GmbH Girakstrasse 8 A 2100 Korneuburg Phone 02262 62280 Fax 02262 62285 Belgium SMC Pneumatics N V S A Nijverheidstraat 20 B 2160 W
19. ss 1 Master e g a PLC Shielded twisted pair cabling imas overall length 1026m if ne repeaters are employed T Connector Repeater 30 or fewer Re T Connector k Stub Line ol Units 31 or fewer The valve configurations shown here are interchangeable under the SI units A maximum of 16 output drivers are available per SI unit The termination resistors must be connected to the start and end of the PROFIBUS DP cable This can be implemented by using external resistors or special bus connectors that have an integrated switchable termination resistor At higher baud rates gt 1 5 MBit sec connectors with integrated line inductance must be used due to the capacitive load of the participant and the resultant line reflection see technical guidelines for PROFIBUS DP Interconnection Technology GSMC According to the PROFIBUS DP standard a maximum of three repeaters are permitted i e one repeater after every 31 Slaves The number of repeaters affects the maximum number of bus participants e g a maximum of 30 bus participants can be connected with one repeater and a maximum of 28 participants can be connected with three repeaters per line 2 2 PLC types and PCs The SI solenoid valve manifold SI unit valve manifold can be controlled by any PLC with an appropriate interface component as the bus master or by a PC plug in card The interface component or the PC plug in card
20. tion 1 Bit O Station 2 Bit 1 etc 7 Programming 7 1 Data link layer layer 2 and PROFIBUS DP used Service access points The so called ISO OSI reference model represents open field buses such as PROFIBUS DP This model is defined in 7 layers from layer 1 physical layer to layer 7 application layer Layer 2 data link is positioned on layer 1 Layers 3 to 6 are generally not used in field bus systems therefore layer 7 is positioned directly over layer 2 Up to 244 bytes of net data can be transmitted per telegram 11 bytes for the header Communication After a RESET or after voltage is restored the Master attempts to contact all assigned Slaves in a communication sequence set from the smallest to the largest address The following telegram sequence is maintained during booting Diagnosis request Optional station address change Class 2 Master only Slave parameterization Slave configuration Diagnosis request before data exchange to ensure that booting phase concluded correctly Data Exchange Global Control Oe a5 ND Further more detailed descriptions can be found in the corresponding standards 18 GZ SMC 7 2 Connection with PROFIBUS DP Master 7 2 1 GSD file A GSD file Electronic Data Sheet German Ger te Stamm Datei is necessary for configuring each PROFIBUS DP participant This file contains the specific slave data of the SI unit The GSD file contains data such as e g the n
21. umber and type of O channels or the specification of diagnosis texts The GSD file is certified within the framework of a PROFIBUS DP product and must not be modified by the user read only The data of the GSD file refer to the bus protocol chip used in the SI unit with the designation LSPM2 Lean Siemens Profibus Multiplexer When the LSPM2 has received a fault free telegram it automatically generates the required response telegram according to EN 50170 The chip is capable of automatically detecting the baud rate set During this search after each RESET and each expiry of the watchdog timer inputs and outputs are not manipulated The LSPM2 starts the search at the highest baud rate 12 MBit sec and works sequentially through each baud rate until it detects a fault free telegram 19 SMC 7 2 2 Configuring a PROFIBUS DP Master The GSD file must first be included in the programming environment of the respective automating system This is implemented during hardware configuration in the Siemens SIMATIC Manager The new GSD file can be installed using the menu item Extras wi HW Konfig Station Aai Ansicht Extras Hil Profi Standard Gy ET 200c a Gy ET 200L ee 2 29 ET 200M 2 2 ET 2000 2 23 ET 200 HQ IDENT H E IPC Bl 2 Regler Neue GSD installieren 97 gt eg Schaltgerate Additional Field ene e Sp ce oe 2 29 SIMADYN Devices Suchen in ay Ex12 b L J pe 8
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EX12_ SPR1 B