Home

Use rmanualUM EN PLC logic

1. 8 E 8 10 EM PB GATEWAY IFS B Slot 4 DPID Order Number Designation Q Address Comment 1 0 1 is EIE wr pue a 3 ia 4 T 5 7 8 10 LE 11 dE 12 JE JE Fen Components 13 NNUS I 5 I Sensor system 14 i n ion SENTRON 15 SSeS Te Gl SIMADYN 16 ue s SIMATIC 17 JE JL 1 SIMODRIVE 18 ee Sell d n Cg SIMOVERT 2i 22 23 xj Press F1 to get Help Chg A start 4 SIMATIC Manager PB_ Hw Config SIMATIC Figure 5 34 Inserting the gateway in the bus configuration 84 PHOENIX CONTACT 105868 en 00 105868 en 00 Startup 1 Openthe properties window by double clicking on the gateway in the bus configuration 2 Onthe Parameter Assignment tab set the Configuration via DTM entry to Enabled and the Byte order to Intel HW Config SIMATIC 300 1 Configuration PB_GW_Test 18 x Station Edit Insert View Options Window a x DO BSS 51 e an 2 Bi x Profile Standard PROFIBUS DP Additional Field Devices H Switching Devices mc vo 2 28 Gateway 51 DP DP C
2. 15 EJ Ej A Pos 8 Pos 9 5 6 ESSI BOZOK Figure 7 8 Structure for temperature monitoring with adjustable switching hysteresis Stand alone module PLC V8C SC 24DC SAM 2905082 Relay module PLC RSC 24DC 21 2966171 6 Empty socket PLC BSC 24DC 21 2966016 PHOENIX CONTACT 99 PLC logic 100 PHOENIX CONTACT 7 3 2 LOGIC program Reset 1 Set DReset Reset_2 Set DReset Figure 7 9 Temperature monitoring with adjustable switching hysteresis code 7 3 3 Inputs and outputs used Table 7 6 Inputs ING Al 0 6 Analog input for temperature measurement in medium 1 IN7 Al 07 Analog input for temperature measurement in medium 2 Table 7 7 Outputs reo IpescripHon 8 DQ O08 1 Output to switch on the heating coil medium 1 9 DQ 09 Output to switch on the heating coil in medium 2 105868 en 00 105868 en 00 Application examples 7 4 Conveyor belt system A conveyor belt system with three belts is to be controlled with PLC logic The conveyor belts should not be overloaded as a result of incorrect startup The system is switched on and off via two buttons INO IN1 The conveyor belts only start up if a container is detec
3. sence 88 Andog Comparato sate ce sree E 88 PUSO RET 89 Interval time delay relay with pulse 1 89 Edge triggered interval time delay 90 E MM 91 Underground parking garage 91 7 1 1 Hardware StrUCtUre E 92 7 1 2 LOGIC 1 REEL E I T M 93 7 1 3 INPUTS and outputs sed 93 Syste Mee e a E 94 7 2 1 Hardware Structure cassiane PETER 95 7 2 2 Ee Cerere a 9 96 7 2 3 INPUTS and outputs USO 97 Temperature monitoring with adjustable switching hysteresis 99 7 3 1 Hardware structure 99 7 3 2 LOGIC c 100 7 3 3 Inputs and outputs 100 105868_en_00 A Technical data B Appendix for document lists 105868 en 00 Table of contents 7 4 CONVEY ON idet rue 101 7 4 1 Hardware SICH B 101 7 4 2 m 102 7 4 3 Inputs and outputs used 102 MR
4. 100 leu M 102 Guidi EIE 102 Electromagnetic compatibility 104 105868 en 00
5. esses 68 Inserting the IFS CONFSTICK 69 Mounting the PROFIBUS gateway and PLC logic 71 EM PB GATEVWNAY IES tecta Deae Hee deett une eee 72 Block er 73 SAUS LEDS Dur 73 INTERFACE System OS aset occi E 75 Function 8 079 EE ES 75 Example progami 76 Inistallifig comporierls eiie e tack tein teen evan rp 77 User Properties gt creating a user 78 Loading device CRIN GMS 78 Display of installed DTMS 79 MODOIOGY SCAN eases 80 Hardware 80 105868 en 00 List of figures Section 6 Section 7 Figure 5 31 Figure 5 32 Figure 5 33 Figure 5 34 Figure 5 35 Figure 5 36 Figure 5 37 Figure 6 1 Figure 6 2 Figure 6 3 Figure 6 4 Figure 6 5 Figure 6 6 Figure 7 1 Figure 7 2 Figure 7 3 Figure 7 4 Figure 7 5 Figure 7 6 Figure 7 7 Figure 7 8 Figure 7 9 Figure 7 10 Figure 7 11 Opening the process data configuration 81 Process data configuration Inputs Outputs 82 Process data configuration
6. MMC t MAE CUOI 103 ETT EET 105 1 Bree s 105 B2 C M IDE ME 109 7 PLC logic 8 PHOENIX CONTACT 105868 en 00 Overview of PLC logic 1 Overview of PLC logic 105868 en 00 1 1 Quick finder Here you will find an overview of frequently used information regarding your PLC logic relay System Table 1 1 Frequently used information Default password admin see Login on page 48 Call the web Connect the device and enter either of the following addresses in a server standard browser http v8c_usb or 169 254 200 9 Set the time Connect the device and access the device via the web server Con figuration gt Global menu item see Global on page 49 Analog values The analog inputs at IN6 and IN7 process 0 V 10 V input signals see Integrated Value range in LOGIC 0 1000 Inputs on page 34 Installation of the For details regarding installation see Connection to the PC on PLC logic com page 45 munication driver for the PC 1 2 Whatis PLC logic The PLC logic programmable logic relay system consists of PLC V8C logic modules relays or solid state relays from the PLC INTERFACE series and the LOGIC programming soft ware The PLC V8C logic modules together with the narrow 6 2 mm PLC INTERFACE modules
7. PLC logic aie dE Wo we dt Aunt men 4 _ a Installing and operating the PLC logic programmable logic relay system User manual 00050950050 0 C INSPIRING INNOVATIONS User manual Installing and operating the PLC logic programmable logic relay system Designation UM EN PLC logic Revision 00 Order No This user manual is valid for Designation PLC V8C SC 24DC BM PLC V8C PT 24DC BM PLC V8C SC 24DC EM PLC V8C PT 24DC EM PLC V8C SC 24DC SAM PLC V8C PT 24DC SAM SW LOGIC PHOENIX CONTACT Order No 2903094 2905135 2903095 2905137 2905082 2905136 2014 04 03 105868 en 00 Internet Subsidiaries Published by Please observe the following notes User group of this manual The use of products described in this manual is oriented exclusively to Qualified electricians or persons instructed by them who are familiar with applicable standards and other regulations regarding electrical engineering and in particular the relevant safety concepts Qualified application programmers and software engineers who are familiar with the safety concepts of automation technology and applicable standards Explanation of symbols used and signal words hazards Obey all safety measures that follow this symbol to avoid possible in This is the safety alert symbol It is used to alert you to potential personal injury jury or death There are
8. PHOENIX CONTACT Please observe the following notes PHOENIX CONTACT General terms and conditions of use for technical documentation Phoenix Contact reserves the right to alter correct and or improve the technical documen tation and the products described in the technical documentation at its own discretion and without giving prior notice insofar as this is reasonable for the user The same applies to any technical changes that serve the purpose of technical progress The receipt of technical documentation in particular user documentation does not consti tute any further duty on the part of Phoenix Contact to furnish information on modifications to products and or technical documentation You are responsible to verify the suitability and intended use of the products in your specific application in particular with regard to observ ing the applicable standards and regulations All information made available in the technical data is supplied without any accompanying guarantee whether expressly mentioned im plied or tacitly assumed In general the provisions of the current standard Terms and Conditions of Phoenix Contact apply exclusively in particular as concerns any warranty liability This manual including all illustrations contained herein is copyright protected Any changes to the contents or the publication of extracts of this document is prohibited Phoenix Contact reserves the right to register its own intellectual pr
9. 0 127 and if defined the identifier A maximum of 128 registers can be used in a project Digital inputs have the designation DI x y where x is the device number basic logic module 0 and y is the input number The number of available digital inputs de pends on the device configuration See Inputs and outputs on page 34 Digital outputs have the designation DQ x y where x is the device number basic logic module 0 and y is the output number The number of available digital outputs depends on the device configuration See Inputs and outputs on page 34 Analog inputs are used to monitor voltages or values An alog inputs have the designation Al x y where x is the device number basic logic module 0 and y is the input number The number of available analog inputs depends on the device configuration See Inputs and outputs on page 34 Inputs that come from a gateway have the designation IFS Input x where x 0 15 See Communication with PLC logic on page 75 Outputs that are transferred to a gateway have the desig nation IFS Output x where x 0 15 See Communication with PLC logic on page 75 PHOENIX CONTACT Value is set to TRUE or FALSE 1 or 0 ON or OFF Numerical value integer value only 2 147 483 648 to 2 147 483 647 Value is set to TRUE or FALSE 1 ON or OFF Value is set to TRUE or FALSE 1 or 0 ON or OFF Numerical value integer value only Valu
10. 51 105868 00 5 PLC logic 6 7 6 Function examples Application examples PHOENIX CONTACT 5 4 5 5 5 6 7 2 7 3 Programming With LOGIC c 57 5 4 1 Systemqdegdiltefielils 57 5 4 2 Saning LOGIC ev pm 58 5 4 3 Hardware configuration 62 5 4 4 PE 63 5 4 5 Data item types in LOGIC 2 64 5 4 6 Connecting the device to LOGIC 65 5 4 7 Executing a project on PLC logic 4 2 66 5 4 8 Memory and size of a 67 5 4 9 ee ME rrr IUE 68 psa Ed DPI DOOR 69 5 5 1 Writing the device configuration and program to the IFS CONFSTICK 69 5 5 2 Running the device configuration and program on the logic module 70 Integration in PROFIBUS DP isi ini Rente citu tuque Dex 70 5 6 1 ota TH 71 5 6 2 EM PB GATEWAY IFS gateway essere 72 5 6 3 diagrami T 73 5 6 4 Status LEDS gids eee sain ende air eee 73 5 6 5 Communication with PLUG OGIG eec enun 75 RT TN 87 Analog differential threshold value 87 Analog threshold
11. 000 safety_rail_triggered F 001 button open door pushed d DI 0 4 limit switch closed DI 0 0 button open gate RiseEdge 7 RiseEdge DI 0 1 button close gate 01 0 7 key_switch_close F 003 button close door pushed OffDelay utton close door pushed DQ 0 9 motor open gate Trig f 1 Q b Reset close pushed DelayTime ElapsedTime Figure 7 5 Sliding door system close gate code 96 PHOENIX CONTACT 105868 en 00 105868 en 00 Application examples F 004 warning open gate 0 10 warning light F 005 warning close gate Figure 7 6 Sliding door system warning light code Set 2 DI 5 safety rail F 000 safety rail triggered DI_0_5 safety_rail 01 0 6 key_switch_open 01 0 7 key_switch_close Figure 7 7 Sliding door system safety rail code 7 2 3 Inputs and outputs used Table 7 3 Inputs m Description INO 0100 buton open gate Button T1 open door IN 1 Button T2 close door Table 7 4 Outputs Wem D t Dein 8 DQ 08 motor close gate Motor control to open door 9 DQ 09 motor open gate Motor control to close door DQ O 10 warning light Orange warning light PHOENIX CONTACT 97 PLC logic Table 7 5 Flags ib ie Bein F 003 button close door pushed Button T2 Close door has been pushed F 004 warning open gate Warning flag for Door opening F 005 warning close gate Warning flag for Door closing 98 PHOENIX CONTACT
12. 35 Second extension logic module station 2 35 Recommended jumpers nnns 36 Stand alone logic module and basic logic module station O 36 First extension logic module station 1 37 Second extension logic module station 2 37 Windows XP Service Pack 3 57 Windows Vista Service Pack 1 57 WINGOWS PP 57 WINGOWS 58 Areas of the 59 B ttons IN The 098 6 2 eem c 60 Available function blocks 63 Data Mtem acest oct algas catus ues qon ue aae tia d 64 Components for integration in PROFIBUS DP 70 PHOENIX CONTACT 109 PLC logic Section 7 Appendix A 110 PHOENIX CONTACT Table 7 1 Table 7 2 Table 7 3 Table 7 4 Table 7 5 Table 7 6 Table 7 7 Table 7 8 Table 7 9 Table A 1 UI 93 Gne mes HC 93 nU HP EE 97 Pia DI EE ET S EN oM RU 97 morem 98 rcr HET 100
13. Eo Real Time Clock Monitoring Diagnose RTC 27 29 22 12 02 2014 Overview System Time 12 14 32 13 02 2014 syncronize Current Values Manual Input 00 00 00 13 02 2014 set Date Format DD MM YYYY w Global Network Administration Access Controll Device Update Device Information Figure 5 4 General configuration settings Application ID NetBIOS user de fined Installation optional Contact person op tional 105868 en 00 The application ID is used to clearly identify the components within the system The integrated web server of the logic module can be called in the web browser using this name http lt NetBIOS gt Information regarding the installa tion location can be entered here Information regarding the contact person can be entered here Min 2 characters PLC_logic Max 32 characters Letters or numbers Min 2 characters v8c usb Max 16 characters Letters or numbers Min 2 characters Max 32 characters All Latin fonts and all standard spe cial characters Min 2 characters Max 32 characters All Latin fonts and all standard spe cial characters PHOENIX CONTACT 49 PLC logic 5 3 3 2 Network Settings for the IP address can be made on this page Do not make changes in this area un less you have been specifically requested to do so by PHOENIX CONTACT Support Incor rect settings may mean that the device has to be sent in for servicing The device provides a su
14. Input data Contacts for PLC INTERFACE Number of inputs 8 Description of the input Technical data depends on the PLC used Output data Number of outputs 8 Nominal output voltage 24 V DC Nominal current 9 mA Switching frequency 10 Hz maximum basic module stand alone module 10 Hz maximum extension module Realtime clock Realtime clock accuracy 2 s d Buffer time 24 h capacitor General data Ambient temperature rangeOperation 20 C 45 C Ambient temperature rangeStorage transport 20 C 70 C Humidity according to DIN EN 61131 2 10 95 PHOENIX CONTACT 103 PLC logic 104 Criterion Air pressure Value 86 kPa 106 kPa 2000 m maximum Sinusoidal vibrations according to IEC 60068 2 6 2g load 2 5 hours in each space direction Shock according to IEC 60068 2 27 15g load for 11 ms three shocks in each space direction Startup time when supply voltage on 6s Maximum supply voltage interruption 4 5 ms Assembly instructions Can be plugged onto 8 x PLC INTERFACE Degree of protection IP20 COMBICON connection Screw connection Solid stranded AWG 0 14 1 5 mm 0 14 1 5 mm 28 16 COMBICON connection Push in connection Solid stranded AWG 0 14 1 5 mm 0 14 1 5 mm 26 16 Air and creepage distances between the circuits DIN EN 50178 Ra
15. Basic logic module with 16 I Os be extended with a maximum of two extension modules PLC V8C EM to 48 I Os Connection to PC via micro USB socket Integrated realtime clock Accommodates external IFS CONFSTICK memory module Optional connection to PROFIBUS GATEWAY IFS PLC V8C extension modules Order No Designation 2903095 PLC V8C SC 24DC EM with screw connection 2905137 PLC V8C PT 24DC EM with push in connection Extension logic module with 16 I Os for extending the basic module PHOENIX CONTACT 13 PLC logic The following PLC INTERFACE modules can be connected to PLC V8C Each channel can be configured as an input or output using the LOGIC software Table 2 1 Corresponding PLC INTERFACE terminal blocks Order designation Order designation Push in connection Order No Type Screw connection Relay output 1 PDT output data 6 A 250 V AC DC PLC RPT 24DC 21 2900299 PLC RSC 24DC 21 2966171 1 PDT output data 50 mA 36 V DC gold PLC RPT 24DC 21AU 2900306 PLC RSC 24DC 21AU 2966265 contact 1 N O contact output data 6 A 250 V PLC RPT 24DC 1 ACT 2900312 PLC RSC 24DC 1 ACT 2966210 AC DC actuator type 1 N O contact with switch output data 6 PLC RPT 24UC 1 S H 2900328 PLC RSC 24UCA S H 2982236 A 250 V AC DC Solid state relay output Output data 100 mA 3 V DC 48 V DC PLC OPT 2900352 PLC OSC 2966728 24DC 48DC 100 24DC 48DC 100 Output data 3 V 33 V DC
16. example 83 Inserting the gateway in the bus configuration 84 Setting the Configuration via DTM and Byte order entries 85 Listing process WOLGS x ici bases anne ot eene 86 PDC IN input from DTM and PDC OUT output from DTM 86 Analog differential threshold value switch code 87 Analog threshold value switch 88 Analog comparator 88 89 Interval time delay relay with pulse output code 89 Edge triggered interval time delay relay 90 Structure for underground parking garage ventilation 92 Underground parking garage ventilation code 93 Structure for sliding door system 95 Sliding door system open gate code 96 Sliding door system close gate code 96 Sliding door system _9 97 Sliding door system safety rail code 97 Structure for temperature m
17. gt 11 V DC foratleast one gram cycle so that the logic module detects the new status The same applies when the sta tus changes from On to Off In this case the voltage must be 5 V DC for at least one pro gram cycle so that the new status is detected For information on the cycle time see Cycle time on page 68 Inputs IN6 and IN7 can be used as digital inputs or as analog inputs 0 V DC 10 V DC volt age inputs Configuration is carried out in the LOGIC software 4 2 1 1 Connecting integrated inputs Figure 4 3 Connecting integrated inputs 105868 en 00 105868 en 00 Connecting and wiring PLC logic The integrated inputs are non isolated i e they have the same ground as the supply volt age For floating entries the inputs are available via PLC INTERFACE terminal blocks POS 8 to POS 15 4 2 1 2 Designation of the inputs Table 4 3 Stand alone logic module and basic logic module station O IN3 DI 0 3 INA DI 04 IN5 DI 0 5 IN6 DI O 6 digital Al O 6 analog IN7 DI O 7 digital Al O 7 analog Table 4 4 First extension logic module station 1 IN6 DI 1 6 digital 1 6 analog DI 1 7 digital 1 7 analog Table 4 5 Second extension logic module station 2 Plug designation ID in LOGIC DI 2 0 DI 2 1 DI 22 DI 2 3 DI 24 DI 2 5 DI 2 6 digital 2 6 analog DI 2 7 digital 2 7 analog PHOENIX CONTACT 35 PLC logic 36 4 2 2 Inp
18. the case change the hardware configuration in LOGIC 3 Select Online Execute on device or click on the Execute on device button in the toolbar After successfully transferring and starting the project on the device online mode is acti vated and the watch window appears the bottom of the program window The toolbar con tains additional buttons which can be used to control the device and debug the active proj ect The status bar displays the states Running and Device connected While the project is being executed on the device and online mode is activated you can Monitor the active project in online mode Stop and resume the active project Debug the project by overwriting values Group data items and inputs outputs from several programs the watch window in or der to view their online values at a glance and debug the project To return to programming mode click on the Back to programming button in the toolbar or use the keyboard shortcut lt Ctrl gt lt F5 gt 105868 en 00 105868 en 00 Startup Behavior during transfer Depending on the current device status indicated in the status bar for example a project is being cyclically executed on the device or project execution has been stopped and on the project loaded in the internal memory of the device LOGIC behaves differently when a project is executed The following generally applies each time the Execute on device button
19. 105868 en 00 105868 en 00 Application examples 7 3 Temperature monitoring with adjustable switching hysteresis A medium is to be kept within a temperature range with PLC logic Switching hystereses are already used for temperature monitoring in many applications e g on heating coils or when switching on fans In this example a heated medium is kept within a temperature range of 40 C 80 The current temperature is detected via a Pt 100 sensor and is converted to a V 10 V standard signal via a temperature trans ducer PLC logic reads this value at input Al O 6 If the value is less than or equal to 40 the heating coil is switched on via output DQ O 8 As soon as a temperature of 80 C is reached the heating coil is switched off and is not switched on again until the temperature of the medium has dropped to 40 C The temperature transducer is configured to a measuring range span of O C 200 cor responds to 0 10 V LOGIC converts the standard voltage into values from 1000 40 C therefore corresponds to a setpoint of 200 and 80 C to a setpoint of 400 The specifications are selected in LOGIC accordingly In this example PLC logic monitors two heating vessels PLC logic reads the temperature of the second medium at input Al 0 7 and switches the heating coil via output DQ O 9 7 3 1 Hardware structure PLC V8C SC 24DC SAM Ord No 290 50 82
20. 24 V DC PLC OPT 2904693 PLC OSC 2904690 24DC 48DC 100 V8C 24DC 48DC 100 V8C S SEN EN Input voltage 120 V AC DC PLC OPT 2904694 PLC OSC 2904691 120UC 48DC 100 V8C 120UC 48DC 100 V8C SEN SEN Input voltage 230 V AC DC PLC OPT 2904695 PLC OSC 2904692 230UC 48DC 100 V8C 230UC 48DC 100 V8C SEN SEN Dummy or reserve Basic terminal blocks output PLC BPT 24DC 21 2900445 PLC BSC 24DC 21 2966016 Basic terminal blocks input PLC BPT 24DC 1 SEN 2900262 PLC BSC 24DC 1 SEN 2966061 105868 00 15 PLC logic 2 1 Hardware configuration examples 2 1 1 10 inputs 6 outputs Inputs 24 V DC via eight integrated inputs and two PLC INTER FACE inputs via relays Outputs Via six PLC INTERFACE relays 1 N O contact 250 V AC 6 A Connection technology Screw connection Hequired components 1 x PLC V8C SC 24DC SAM Order No 2905082 2 PLC RSC 24DC 1 AU SEN Order No 2966317 6 x PLC RSC 24DC 1 ACT Order No 2966210 PLC V8C SC 24DC SAM Ord No 290 50 82 PED 2 dip Figure 2 1 Configuration with 10 inputs 6 outputs 16 PHOENIX CONTACT 105868 en 00 Hardware description 2 1 2 8 inputs 8 outputs All 24 V DC inputs via eight integrated inputs Outputs All outputs via PLC INTERFACE relays 1 PDT 250 V AC 6 A Connection technology Screw connection Required components 1 x PLC V8C SC 24DC SAM Order No 2905082 8 x PLC RSC 2
21. 258 257 5 EMM EEM Control Device 2 14 258 258 5 EMM EEM Control Device 3 i i Control 4 1A 260 260 BEER nce 256 257 5 EMM EEM Control Device 6 EMM EEM Control Device 7 EMM EEM Control Device 8 EMM EEM Status EMM EEM Modul State 1 EMM EEM Modul State 2 Channel State 1 EMM EEM Channel State 2 EMM EEM Channel State 3 EMM EEM Channel State 4 EMM EEM EMM EEM U L1 U L2 110 o Press F1 to get Help stant 4 SIMATIC Manager _ ff Hw Config SIMATIC Figure 5 36 Listing process words 4 For PLC logic use IN input from DTM PDC OUT output from DTM m us catalog Lower Limit Upper Limit Unit Resolution Device Name Mm i LL 22 3 sown T O 2 4 DPID Order Number Designation Address Q Address es Ri 1 HGF 5 ope 4 14 260 2601 O 5 1 0 X 2 5 Figure 5 37 PDC IN input from DTM and PDC OUT output from DTM The order of the inputs and outputs must be the same as the process data assignment in the DTM Input and output addresses are assigned aut
22. Covering hood socket contacts for extension module Eject lever Status LEDs Contacts for PLC INTERFACE terminal blocks DUO PP UL ceo Be rx 22 PHOENIX CONTACT 105868 en 00 105868 en 00 3 1 4 Figure 3 4 XU phe OU P pt Installing PLC logic PLC INTERFACE terminal blocks SKF WEA GS NADAL WAND SETA DAW RN SESS VDE WH Msg Ge MKS AB WEA ANAS WHS Connection and operating elements of PLC INTERFACE terminal blocks Contacts to accommodate the logic module PLC B basic terminal block Contact for jumper system Snap in lever for securing and ejecting the function electronics Optional ZB6 device marking label Plug in function electronics LED status indicator PHOENIX CONTACT 23 PLC logic 3 2 Diagnostics and status indicators The device is equipped with 11 LED status or diagnostics indicators from which the oper ating state can be read Table 3 1 Diagnostics and status indicators Basic module module Extension module module Loo Green Red EUN Sio m Green Yellow PWR DAT LED ERR PWR DATLED YE LED LED E LED LED Supply voltage OK program running no rt data traffic to the extension module Supply voltage OK program running data gt 38 traffic to the extension module Supply voltage OK controller in stop mode rt e Fast Fast Supply voltage OK connection to the ex tension module interru
23. Toolbox x Program X Catalog Filter 5 3 2 3 z 5 8 ABS ADD DIV 33 FallEdge MUL NOT OR 5 f Reset RiseEdge w Data Items Hardware Confi x 4 Messages 0 errors 0 wamin gs Program Memory 12 Data Memory 1196 Retain Data Memory 096 Programming Device not connecte Figure 5 13 LOGIC interface Table 5 5 Areas of the LOGIC interface _ B EN Provides access to the LOGIC commands and online help Provides access to frequently used commands Toolbox Contains all elements that are required for program ming Elements from the toolbox are always added to the program by means of drag and drop Hardware configuration Provides a graphical representation of the device You can configure the inputs and outputs of the connected device here Graphical editor Workspace where you develop your program Graphi cal objects from the toolbox and input output signals from the hardware configuration are inserted in the workspace and then connected by means of drag and drop Displays all messages output by LOGIC 7 Status bar Displays the status of the communication connection between the PC and the connected device the number of errors and warnings plus the memory used and the device status PHOENIX CONTACT 59 PLC logic Table 5 6 Buttons in the toolbar Create new project Ctrl Open an existing project Ctrl Save the current
24. and 2 0 12 run and the yel low light 00 0 8 indicates a warning At a concentration gt 90 ppm all three fans DQ 0 13 run the red warning light DQ 0 9 and the horn O 10 indicate danger The CO sensor and signal conditioner convert the O ppm 300 ppm measuring range into 10 The LOGIC software processes the standard signal as values from 0 1000 therefore 30 ppm corresponds to a value of 100 in LOGIC 60 ppm corresponds to 200 and 90 ppm corresponds to 300 All three fans can be switched on and off manually via button 1 INO and button O IN1 105868 en 00 PHOENIX CONTACT 91 PLC logic 7 1 1 Hardware structure PHOENIX CONTACT Figure 7 1 Structure for underground parking garage ventilation Stand alone module PLC V8C SC 24DC SAM 2905082 6 Relay module PLC RSC 24DC 1 ACT 2966171 Empty socket PLC BSC 24DC 21 2966016 92 PHOENIX CONTACT 105868 en 00 105868 en 00 Application examples 7 1 2 LOGIC program DQ 0 11 fan1 Al_0_6 CO_sensor 100 Set n DReset DQ 0 12 fan2 200 DQ 0 8 CO warning 300 DQ 0 13 fan3 Reset E RS DReset DI_0_1 Off DQ_0_9 CO_alarm Figure 7 2 Underground parking garage ventilation code
25. and off according to two parameterizable threshold values hys teresis Reset 1 Reset Set DReset RS Figure 6 2 Analog threshold value switch code 6 3 Analog comparator The output is switched on and off according to the difference between Ax Ay and two pa rameterizable threshold values Reset_1 Reset Set DReset RS Figure 6 3 Analog comparator code 88 PHOENIX CONTACT 105868 en 00 Function examples 6 4 Pulse relay The output is switched on or off by an input pulse RiseEdge 1 RiseEdge Figure 6 4 Pulse relay code 6 5 Interval time delay relay with pulse output An input signal switches the output to the TRUE state The output is reset after a parame terizable time or after the input changes from FALSE to TRUE OnDelay_1 OnDelay TIME 5s DelayTime wel LL ElapsedTime Figure 6 5 Interval time delay relay with pulse output code 105868 en 00 PHOENIX CONTACT 89 PLC logic 6 6 Edge triggered interval time delay relay An input pulse generates a number of signals at the output after an adjustable time can be retriggered AND Counter amp CountUp PresetReached CountDown ZeroReached Reset C CurrentValue ul imeTrue Load PresetValue Figure 6 6 Edge triggered interval time delay relay 90 PHOENIX CONTACT 105868 en 00 Application examples 7 Application examples In this section the software programming environment is ill
26. operating elements of PLC INTERFACE terminal DlOCK S raris EE 23 Basic circuit diagram for PLC V8C SAM _ 26 Basic circuit diagram for PLC V8C BM _ 26 Basic circuit diagram for 8 27 Snapping the PLC INTERFACE terminal blocks onto the DIN rail 28 Snapping the logic module onto the PLC INTERFACE c T 29 Logic module is fixed place 29 Actuating the eject levers to remove the logic modules 31 moe Mc PR 33 Integrated IDs bU sa 34 Connecting integrated inputs 34 PLC modules with screw connection 002221 37 PLC modules with push in connection 38 Wiring of inputs via PLC INTERFACE terminal blocks 39 Pin assignment of inputs via PLC INTERFACE terminal blocks 39 PHOENIX CONTACT 105 PLC logic Section 5 106 PHOENIX CONTACT Figure 4 8 Figure 4 9 Figure 4 10 Figure 4 11 Figure 4 12 Figure 5 1 Figure 5 2 Figure 5 3 Figure 5 4 Figure 5 5 Figure 5 6 Figure 5 7 Figure 5 8 Figure 5 9 Figure 5 10 Figure 5 11 Figure 5 12 Figure 5 13 Figure 5 14 Figure 5 15 Figure
27. the device select file upload file restart device File name Search Content Monitoring Diagnose Overview Current Values Configuration Global Network Administration Access Controll Device Update Device Information Figure 5 7 Size cancel Starting firmware update m Click on the Search button and then navigate to the storage location for the firmware up date 105868_en_00 Startup The update can then be started if a valid file has been detected To do this click on the start update button LC T PHOENIX CONTACT PLC logic mrs e v8c usb homeAdmin htm contentWebImgUpdate English Deutsch Logged In sone PLC V8C SC 24DC BM Device Update 29 03 094 Please ensure that you are familiar with the process before the update Erroneous operations may brick the device select file X upload file restart device File name configFile ee Search Content Firmware Package Size 248 kB Monitoring Diagnose Overview start update cancel Current Values Configuration Global Network Administration Access Controll Device Update Device Information Figure 5 8 Firmware update file selection 105868 en 00 PHOENIX CONTACT 53 PLC logic 54 PHOENIX CONTACT The current progress is displayed during the update 5 PHOENIX CONTACT PLC logic e e v8c usb homeAdmin htm contentWebImgUpdate En
28. 00 Startup 5 3 4 Administration 5 3 4 1 Access Control You can set the password for access control to the web server and LOGIC on this page NOTE If you forget the password you must contact PHOENIX CONTACT Support 5 PHOENIX CONTACT PLC logic e v8c usb homeAdmin htm _contentAdminAccess 2 E English Deutsch Logged In 2 CONTACT PLC V8C SC 24DC BM Access Controll 29 03 094 The Password is needed for the following actions Accessing the device by Logic changing configurations via website controlling the device via website n Monitoring Diagnose Current Values Configuration Global Network Administration Access Controll Device Update Device Information Figure 5 6 Setting the password Password Enter the new password Min 2 characters admin Max 32 characters A Z a z 0 9 Confirm Password Enter the new password Min 2 characters again Max 32 characters A Z a z 0 9 105868 en 00 PHOENIX CONTACT 51 PLC logic 52 PHOENIX CONTACT 5 3 4 2 Device Update If new firmware is available for the basic module you can start the firmware update on this page T PHOENIX CONTACT PLC logic c v8c usb homeAdmin htm contentWebImgUpdate English Deutsch Logged In PLC V8C SC 24DC BM Device Update 29 03 094 Please ensure that you familiar with the process before the update Erroneous operations may brick
29. 4DC 21 Order No 2966171 22 Ord No 290 50 82 es Y S S NEW S SESIG e eee Configuration wit E Figure 2 8 inputs 8 outputs 105868 en 00 PHOENIX CONTACT 17 PLC logic 20 inputs 12 outputs 2 1 3 2 c 4 men 2 5 O E X CN gt men 2 gt CN rT 12 outputs via PLC INTERFACE solid state relays 230 V AC inputs via PLC INTERFACE relays 230 V AC 750 mA Connection technology Screw connection 1 x PLC V8C SC 24DC BM Order No 2903094 Required components PLC V8C SC 24DC EM Ord No 29 03 095 oc 1 x PLC V8C SC 24DC EM Order No 2903095 4 x PLC RSC 230UC 1AU SEN Order No 2966333 12 x PLC OSC 24DC 230AC 1 ACT Order No 2967947 Configuration with 20 inputs 12 outputs Figure 2 3 105868 en 00 PHOENIX CONTACT 18 Installing PLC logic 3 Installing PLC logic 105868 en 00 Thelogic module is supplied together with a package slip with installation instructions Read the complete package slip carefully before unpacking the logic module NOTE Electrostatic discharge Ate The logic module contains components that can be damaged or destroyed by electrosta
30. 5 16 Figure 5 17 Figure 5 18 Figure 5 19 Figure 5 20 Figure 5 21 Figure 5 22 Figure 5 23 Figure 5 24 Figure 5 25 Figure 5 26 Figure 5 27 Figure 5 28 Figure 5 29 Figure 5 30 Convenient connection of the sensor series 40 Wiring of outputs via PLC INTERFACE terminal blocks 41 Pin assignment of outputs via PLC INTERFACE terminal blocks 42 Convenient connection of the actuator series 43 PLC logic and PC connection sese 44 46 Curent ValS 47 E 48 General configuration settings 2 49 Setting the IP address venting ce 50 Setting the DassWOLG 51 Starting firmware update 52 Firmware update file selection 53 Firmware update progress indicator 54 Firmware update emptying the cache 55 Overview of device information 56 LOGICE Sat idee esae iut ita duda 58 Eeciezxgie qe m 59 Hardware configuration 62 Communication Settings 1 2 2 0 0 65 Determining the cycle time
31. 5 3 4 3 Device Information Overview All important information is displayed on this page such as Serial number of the logic module Firmware version IP configuration eCLR information PHOENIX CONTACT PLC logic Figure 5 11 v8c usb homeAdmin htm contentAdminDevicelnfo English Deutsch DO PLC V8C SC 24DC BM 29 03 094 Monitoring Diagnose Overview Current Values Configuration Global Network Administration Access Controll Device Update Device Information Overview Device data Name Order number Serial number Firmware version Hardwere version Website version Realtime Clock Project Information Name of the Project Date Size of the project RAM Retain Variables Overview of device information PLC V8C SC 24DC BM 29 03 094 90AB56781234 0 15 1 0 98 17 32 33 12 02 2014 GW Test 2EM WT Donnerstag 13 Februar 2014 12 04 52 56256 Byte 2192 Byte 0 Variablen m 105868_en_00 105868 en 00 Startup 5 4 Programming with LOGIC LOGIC is used for the configuration programming and parameterization of PLC logic LOGIC allows you to conveniently develop the project on your own PC and to then send the project to the connected device and execute it on PLC logic LOGIC supports you in every phase of project development from project planning and configuration parameteriza tion to program start A detailed descript
32. 7 1 3 Inputs and outputs used Table 7 1 Inputs tem 0 pesen INO DOO On Manual activation of all fans IN1 DI O 1 Off Switches manual activation off again Table 7 2 Outputs Wem tbe Description _ e __ CO wmng Oowoohwanmgl 0 e 009 00 Oowoodamigh PHOENIX CONTACT 93 PLC logic 7 2 Sliding door system A sliding door system is to be controlled with PLC logic In this application example an electrically powered sliding door system is to be controlled with PLC logic The door is to be actuated by two buttons in the building button T1 Open and button T2 Close induction loops in the floor loop on exit or a key switch at the door The door system is to be opened and closed as per the functional sequence below Opening and closing the door via buttons T1 and T2 in the building When button T1 is actuated the door opens and moves to the end position which is sensed via a limit switch If button T1 or T2 is actuated while the door is being opened the operation is stopped The door can now be opened by actuating button T1 or closed by actuating but ton T2 limit switch Opening the door by means of the induction loop When the induction loop gives a signal the door opens to the end position regardless of whether the door is completely closed or partially open If button T1 or T2 is actuated while the door is being opened the operation is stopped The door can now be op
33. AC PLC RSC 230UC 1 AU SEN Order No 2966333 and an input terminal block with solid state relay 24 V DC PLC OSC 24DC A8DC 100 V8C SEN Order No 2904690 Corresponding PLC INTERFACE terminal blocks for inputs can be found in Table 2 1 on page 14 Optional convenient connection when wiring inputs via PLC INTERFACE terminal blocks The PLC SEN sensor series for input signals offers additional connection convenience A separate external terminal block is not required for the respective switch supply It can be connected to terminal point BB Figure 4 8 Convenient connection of the sensor series 4 2 2 4 Outputs via PLC INTERFACE When using PLC INTERFACE terminal blocks meet the requirements regarding noise emission for electrical and electronic equipment on the contact side In the event of a higher load and inductive load component implement a contact protection circuit e g freewheeling diode varistor RC element at the load This prevents interfer ence voltages being coupled in to other system parts The relays also achieve a longer elec trical service life Data sheets for the PLC INTERFACE terminal blocks can be found at phoenixcon tact net products PHOENIX CONTACT 105868 en 00 Connecting and wiring PLC logic NOTE Voltages 250 V are not permitted between the same terminal points on adjacent modules L1 L2 L3 Supply currents x 6 A directly to the corresponding terminal
34. Di 0 3 limit switch open F 001 button open door pushed DReset FallEdge 8 FallEdge 01 0 8 key switch open a F_003 button_close_door_pushed DI_0_1 button_close gate DI_O_0 button_open_gate F_001 button_open_door_pushed DLO 6 key_switch_open F 001 button open door pushed set by induction loop TIME 0 500s DQ 0 8 motor close gate 0 5005 Reset 3 Reset DI_0_2 induction_loop 5 Q set by inducbon loop 1 DI 0 6 key switch open DI 0 7 key switch close 000 safety_rail_triggered Di 0 3 limit switch open DI_0_3 limit_switch_open 002 induction loop blocked Reset 4 F 003 button close door pushed Reset Di_0_0 button_open_gate Q F_002 induction_loop_blocked DI_0_1 button_close gate OR RS DI_O_3 limit_switch_open gt 01 0 4 limit_switch_closed 1 Figure 7 4 Sliding door system open gate code OnDelay 6 Reset 9 OnDelay Reset OR DI_0_7 key_switch close Trig SIL Set RS e gt 1 F 005 warning close gate TIME 2s DelayTime ElapsedTime DReset FallEdge 5 FallEdge Trig J l Q DQ 0 8 motor close gate Y TIME 2s DelayTime Eg ElapsedTime DI 0 4 limit switch closed F 000 safety rail triggered Reset 10 FallEdge 7 Reset FallEdge F 003 button close door pushed Set EA Reset close pushed DIO 6k itch E DReset RS 0 6 switch open ENTIS ese 0 0 7 key_switch_close 2 Trig Y DI 0 4 limit switch closed 6
35. ED is flashing quickly 105868_en_00 PHOENIX CONTACT 25 PLC logic 3 3 Circuit diagrams 24V OV INO IN2 IN4 IN 5 IN6 IN7 Q Q0 0 O0O O0O Q 0 U 1012 1013 1014 PLC INTERFACE Figure 3 5 Basic circuit diagram for PLC V8C SAM hal Ra thd dd Es Ed EU E 1012 1013 1014 PLC INTERFACE Figure 3 6 Basic circuit diagram for PLC V8C BM 26 PHOENIX CONTACT 105868 en 00 Installing PLC logic 24V OV INO IN1 IN2 IN3 IN4 IN5 IN6 IN7 m Sf 59 gt gt O O a 1012 1013 1014 PLC INTERFACE Figure 3 7 Basic circuit diagram for PLC V8C EM 105868 en 00 PHOENIX CONTACT 27 PLC logic 3 4 Mounting and removing PLC logic 3 4 1 Safety notes Position an end bracket at the start and end of a PLC logic structure recommendation CLIPFIX 35 5 Order No 3022276 If subject to vibration the DIN rail needs to be fixed at intervals of 10 cm 3 4 2 Mounting stand alone and basic modules Proceed as follows to mount PLC logic 1 Snapthe eight corresponding PLC INTERFACE terminal blocks see Table 2 1 on page 14 side by side onto the DIN rail Figure 3 8 Snapping the PLC INTERFACE terminal blocks onto the DIN rail 28 PHOENIX CONTACT 105868 en 00 Installing PLC logic 2 Insert the logic module stand alone or basic module into the corresponding contacts of the eight PLC INTERFACE terminal block
36. ENIX CONTACT 105868 en 00 105868 en 00 Connecting and wiring PLC logic Optional convenient connection when wiring outputs via PLC INTERFACE terminal blocks The PLC ACT actuator series for output signals offers additional connection conve nience A separate external output modular terminal block is not required for the load return conductor It can be connected to terminal point BB Figure 4 11 Convenient connection of the actuator series PHOENIX CONTACT 43 PLC logic 4 3 Micro USB connection The micro USB connection can be used for communication between a PC and PLC logic A standard micro USB A to USB B connecting cable e g CAB USB A MICRO USB B 2 0M Order No 2701626 is required for the connection between PLC logic and a PC Figure 4 12 PLC logic and PC connection 44 PHOENIX CONTACT 105868 en 00 5 Startup Startup 5 1 LOGIC software installation The required LOGIC software can be downloaded free of charge at phoenixcon tact net products After downloading follow the installation instructions to the end 5 2 Connection to the PC If PLC logic is mounted as described in Section 3 on page 19 supply each of the logic mod ules with power The PWR LED now lights up on every logic module Connect PLC logic to the PC see Section 4 3 on page 44 When the software is started it automatically detects the PLC V8C logic module as soon as the USB connection is established The necessary drive
37. PLC OPT 2900364 PLC OSC 2966634 24DC 24DC 2 24DC 24DC 2 Output data 750 mA 24 253 PLC OPT 2900369 PLC OSC 2967840 24DC 230AC 1 24DC 230AC 1 Output data 3 A 3 V 33 V DC ac PLC OPT 2900376 PLC OSC 2966676 tuator type 24DC 24DC 2 ACT 24DC 24DC 2 ACT Output data 750 mA 24 V AC 253 V PLC OSC 2967947 AC actuator type 24DC 230AC 1 ACT Output data 1 A 12 V 300 V DC PLC OPT 2900383 PLC OSC 2980678 24DC 300DC 1 24DC 300DC 1 Output data 10 A 3 V DC S3 V DC PLC OPT 24DC 24 2900398 PLC OSC 2982702 DC 10 R 24DC 24DC 10 R Output data 500 mA 3 V DC 48V DC PLC OPT 2900378 PLC OSC 2980636 electronic PDT 24DC 48DC 500 W 24DC 48DC 500 W Output data TTL 50 mA 5 V DC PLC OPT 24DC TTL 2900363 PLC OSC 24DC TTL 2982728 Relay input Input voltage 24 V DC PLC RPT 2900313 PLC RSC 2966317 24DC 1AU SEN 24DC 1AU SEN Input voltage 120 V AC DC PLC RPT 2900314 PLC RSC 2966320 120UC 1AU SEN 120UC 1AU SEN Input voltage 230 V AC DC PLC RPT 2900315 PLC RSC 2966333 230UC 1AU SEN 230UC 1AU SEN Input voltage 5 V DC basic terminal PLC BSC 5DC 1 SEN 2980267 block without relay Relay for 5 V DC basic terminal block REL MR 4 5DC 21AU 2961370 O 4 PHOENIX CONTACT 105868 en 00 Hardware description Table 2 1 Corresponding PLC INTERFACE terminal blocks Order designation Order designation Order No Puhncomecion Serew connection Solid state relay input Input voltage
38. PLC Relay PLC Relay PLC Relay PLC Relay Type PLC Relay PLC Relay PLC Relay PLC Relay PLC Relay PLC Relay Configuration Output Output Output Output Output Output Output Output Configuration Output Output Output Output Output Output OFF PHOENIX CONTACT m 47 PLC logic 5 3 2 Login The configuration of the logic module is protected by a user name and password To log into the logic module click on the Login button in the top right corner Use the following for standard login User name admin Password admin GEDA 3 PHOENIX CONTACT PLC logic usb contentLogin B Google Alas fo Login ial 2 C PLC V8C SC 24DC BM Logi n 29 03 094 admin m Monitoring Diagnose Overview Current Values Figure 5 3 Login 48 PHOENIX CONTACT 105868_en_00 Startup 5 3 3 Configuration 5 3 3 1 Global You can enter information for device identification on this page You can synchronize the re altime clock with the system time of the connected computer or set it manually T PHOENIX CONTACT PLC logic e v8c usb homeAdmin htm amp contentCfgGloba English Deutsch SO 2tonad DOOGDO PLC V8C SC 24DC BM Global 29 03 094 Identification Application ID PLC V8CSC 24DCBM NetBIOS userdefined v8c_usb Installation Contact person Factory Defaults load save
39. RFACE terminal blocks 4 4200222 23 3 2 Diagnostics and status 24 3 3 CIC CHE AQ ERR E T T 26 3 4 Mounting and removing 28 3 4 1 DANGLY MOLES mec 28 3 4 2 Mounting stand alone and basic modules 28 3 4 3 Optional mounting of extension modules 30 3 4 4 ROMOV ects fete ER URN RID META TORIO IER 31 4 sGConnecurng andina PEG IOOC Dune 33 4 1 POWT SUDD e HE 33 4 2 MOUS and 34 4 2 1 lajsteiecu ieBlaje c PT 34 4 2 2 Inputs and outputs via PLC INTERFACE terminal blocks 36 4 3 Micro USB COnMGClON 44 Ma pu 45 5 1 LOGIC software installatlor 45 5 2 Connection to the PC PE 45 5 3 Configuration via web nnne nnn nnne 46 5 3 1 WIG HILO FING BITS Tolo i r 46 5 3 2 LOGIN cece eee aie cant cos beeen tee 48 5 3 3 eiecit 49 5 3 4
40. S FERE E Sensor system 4 SENTRON SIMADYN eripe pee s sanc SINODAIVE Timm 5 a sona SINOVERT C p zc cms s ad 1 12 21 perm 23 zl Press F1 to get Help Chg SIMATIC Manager P8 HW Config SIMATIC Figure 5 35 Setting the Configuration via DTM and Byte order entries 3 Openthe EM PB GATEWAY IFS inthe catalog The possible process words are listed Byte order sets the byte order of the transferred data Motorola Big Endian the high byte is saved first Intel Little Endian the low byte is saved first PHOENIX CONTACT 85 PLC logic t HW Config SIMATIC 300 1 Configuration PB GW Test 1002 8 5 151 ED WE PROFIBUS DP EC Additional Field Devices BC Switching Devices PROFIBUS 1 DP Mastersystem 1 ME a vo DP DP Coupler DP RS232C Link EM PB GATEWAY IFS Universal module Digital inputs outputs PDC IN PDC OUT Gateway Modul state Gateway Channel State 1 Gateway Channel State 2 Gateway Channel State 3 Gateway Channel State 4 IFS Slave Error State 1 IFS Slave Error State 2 p g IFS Slave State 1 10 EM PB GATEWAYAFS B IFS Slave State 2 DI15xDC24V fe 10 EM PB GAT Comment i E Device 1
41. S address and the addresses of the connected IFS devices in parameterization mode when setting the address Figure 5 21 Status LEDs 1 Button for setting the PROFIBUS address 2 Status LEDs Description PWR LED green Device status Off No supply voltage Microcontroller does not start On Supply voltage OK Microcontroller is running Setting the PROFIBUS address IFS address assignment Flashing at 1 4 Hz slow Flashing at 2 8 Hz fast Startup PHOENIX CONTACT 73 PLC logic TS DAT LED green Communication No data traffic On Cyclic data traffic Flashing at 1 4 Hz slow Device is being configured ERR LED red Device or process error No error On Serious internal error Flashing at 2 8 Hz fast I O error e g overload of the output driver BF LED red PROFIBUS error No error On No cyclic data exchange C1 master not present Flashing at 1 4 Hz slow PROFIBUS parameterization invalid PROFIBUS configuration invalid Flashing at 2 8 Hz fast SF LED red Group error Off No error On Connected device has an internal error or is not present Flashing at 1 4 Hz slow Process error or I O error on a device Flashing at 2 8 Hz fast PROFIBUS configuration and station structure do not match 74 PHOENIX CONTACT 105868 en 00 105868 en 00 Startup 5 6 5 Communication with PLC logic 5 6 5 1 Setting in the LOGIC software The INTERFACE system IOs are required for communication with a gate
42. X Table 4 7 Stand alone logic module and basic logic module station O Sa Bio PHOENIX CONTACT 105868 en 00 105868 en 00 Connecting and wiring PLC logic Table 4 8 First extension logic module station 1 POS 8 DI 1 8orDQ 1 8 POS 9 DI 1 9orDQ 1 9 Table 4 9 Second extension logic module station 2 4 2 2 2 Connection technology of PLC INTERFACE terminal blocks R 0 6 0 8 Nm 5 7 Ib in Figure 4 4 PLC modules with screw connection Conductor cross section solid stranded 0 14 2 5 mm 0 14 2 5 2 26 14 AWG PHOENIX CONTACT 37 PLC logic hou e Figure 4 5 PLC modules with push in connection Conductor cross section solid stranded 0 14 2 5 mm 0 14 2 5 2 26 14 AWG Stripping length 8 mm Insert solid or stranded conductors with ferrules and a cross section gt 0 34 directly in the clamping space A Reliable contact can be made with stranded conductors without fer rules by opening the spring beforehand using the pushbutton B Press the pushbutton B also to release the conductor 4 2 2 3 Inputs via PLC INTERFACE terminal blocks If you have defined a slot as an input you can use PLC INTERFACE terminal blocks from the sensor series with electromechanical or solid state relays You can connect different input voltages The inputs via the PLC INTERFACE terminal blocks are therefore electri cally isolated between field and logic level a
43. bnetwork 255 255 255 252 The device assigns the first host ad dress of the selected subnetwork to itself The second address is assigned to the connected PC CGEA F PHOENIX CONTACT PLC logic v8c_usb homeAdmin htm _contentCfgNetwork 5 a English Deutsch HO O CoO CONTACT PLC V8C SC 24DC BM Network 29 03 094 Please only make changes in this area when you are specially asked to do so by PHOENIX CONCTACT support Incorrect settings can cause the device must be sent in to the manufacturer The device provides a 30 subnet 255 255 255 252 The first host address of the selected subnet is assigned to the PLC logic itself The second address is assigned o the connected PC Address from IP Area 169 254 200 10 Subnet Mask 255 255 255 252 m Default Gateway Monitoring Diagnose net address 169 254 200 8 PLC logic this device 169 254 200 9 Current Values computer 169 254 200 10 broadcast address 169 254 200 11 Configuration Factory Defaults load E Global Network Administration Access Controll Device Update Device Information Figure 5 5 Setting the IP address Address from IP Area Internet Protocol address IP Min 0 169 254 200 10 address of the connected Max 255 computer Subnet Mask Subnet mask of the logic mod Min O 255255255252 ule Max 255 Default Gateway Default gateway of the logic 0 0 0 0 module 50 PHOENIX CONTACT 105868 en
44. ct templates A project template contains a C Users Public Projects Schieberegister_mit_F igpx completely configured LOGIC project which you can C Users Public Projects Schieberegister_test lgpx adapt as required for your specific application Click on n Analog Differential Threshold Switch S the sample project to open it onon PLC nLC 040 BM Further help o E E i Depending on a threshold and a difference value the output is set If you do not know what to do after a project is opened you can find further help here Analog Differential Threshold Switch S sm nam Depending on a threshold and a difference value the output is set _ Analog Threshold Switch Sample for PLC nLC 040 BM Depending switch on and switch off threshold the output is set Visit our web site for more samples templates and updates 0 errors 0 warnings Program Memory 0 Data Memory 096 Retain Data Memory 096 Programming Device not connected Figure 5 12 LOGIC start page The start page is displayed every time you open LOGIC and is closed automatically as Soon as you open or create a project You should now familiarize yourself with LOGIC by calling Help in the menu bar 105868 en 00 105868 en 00 Startup 5 4 2 1 Description of the LOGIC interface 1 File Programs Edit View Onlin Device Help 2 mim O04 l5
45. ct to the gateway by clicking on Connect and write the new address to the gateway by clicking on Write to device 15 Right click on the EM PB GATEWAY IFS in the project tree and select Functions gt Process value configuration File Edit View Device Window Tools i RoHS 11 ROR 29 EM PB GATEWAYIFS IFSM Configuration B EM PB GATEWAY IFS IFSM T ag EM PB GATEWAY IFS 1 Phoenix Contact GmbH amp KG CONTACT Fw 1 01 2012 08 01 cut elel 1 4 Galo ay Parameter Menu Parameter Status Paste ENS GMTEWATIFS Rename Pin Show Hide Channels Profibus Basisadresse Connect Profibus Adressoffset Connect All Verhalten bei Profibus Fehler Ausg nge zur cksetzen Disconnect Parameters Offline Compare Online Compare Online Compare All Configuration Scan Topology Observe Diagnosis Import Export Info zu OK Cancel Apply RE Connected 10 Data set planningEngineer 2 Test 1F5 Conf New Projec Figure 5 31 Opening the process data configuration 105868 en 00 PHOENIX CONTACT 81 PLC logic This is split into Inputs and Outputs IFS Conf New Project lt unsaved gt File Edit View Device Window Tools BOMB 28 Jio uis 301 Pic c NISI
46. e assigned different rights The user name is requested every time IFS CONF is started Please keep a note of your user name 105868 en 00 PHOENIX CONTACT 77 PLC logic File Edit View Device Window Tools 1 3 O1P P ICCNIBIA ROR e User Properties Administrator Administrator role OEM Service OEM Service role Planning Engineer Planning Engineer role Maintenance Maintenance role Operator Operator role O Observer bserver role Use Windows login for this user ok cae start lt p 1F5 Conf User Properties Figure 5 26 User Properties gt creating a user 6 The installed device drivers for PLC logic are loaded in the next step IFS Conf lt File Edit View Device Window Tools P illl 5 OIP P IC 19193 BOR Known DTMs Current DTM Catalog 4 gt Search for installed DTMs lt Al Update Catalog and Close Window plu ey IE IFS Conf unsaved 22 Fehler aufgetreten Figure 5 27 Loading device drivers 78 PHOENIX CONTACT 105868_en_00 105868 en 00 7 Click on Search for installed DTMs Known DTMs iFS USB PROG ADAPTER PLCA 8C SC 24DC BM start IE IFS Conf unsaved 7 Fehler aufgetreten Figure 5 28 Display of installed DTMs EM MODBUS GATEWAY IFS IFSM Phoenix Co 4 EM MODBUS GATEWAY IFS TCP Phoen
47. e range 0 to 1000 The analog inputs at IN6 and IN7 pro cess OV 10 V input signals PLC logic analog values 0 V 10V Values in LOGIC 0 1000 Voltage values in 10 mV increments can therefore be read from PLC logic in LOGIC Numerical value integer value only Value range 32 768 to 32 767 Numerical value integer value only Value range 32 768 to 32 767 105868 en 00 105868 en 00 Startup 5 4 6 Connecting the device to LOGIC In order that a project can be executed on the device and monitored in online mode or that device parameters can be set and the project sources can be uploaded from the device the device must be connected to the PC and detected by LOGIC Here connection means that device must be connected to the PC on which LOGIC is executed via a USB cable Thecommunication parameters in LOGIC must be set so that LOGIC can access the device The device has a micro USB connection for connection to the PC on which LOGIC is run ning When the device is connected to the PC for the first time the operating system auto matically installs a driver a driver is a program that informs that operating system how it can communicate with the connected device This enables communication between the PC and device Use a USB cable to connect PLC logic to a free USB connection on your PC on which LOGIC is running Select File gt Communication Settings or click on the Communicat
48. ed automatically If another configuration program is detected on the device the DAT and ERR LEDs flash alternately 2 Pressthe Confirm button within 6 s The copying of the configuration and program is started DAT LED flashes An automatic restart is then performed PWR and ERR LEDs flash simultaneously The process has been completed once the PWR LED is permanently on 5 6 Integration in PROFIBUS DP An adaptable EM PB GATEWAY IFS which is available as an option can be used to inte grate PLC logic into a PROFIBUS DP network This enables communication with a higher level controller for remote control diagnostics and visualization purposes The following components are required for this Table 5 9 Components for integration in PROFIBUS DP Gateway for PROFIBUS DP 2297620 EM PB GATEWAY IFS Programming adapter for the PROFIBUS 2320500 IFS USB DATACABLE gateway DIN rail connector 2707437 ME22 5 TBUS 1 5 5 ST 3 81 GN Connecting cable for connecting PLC logic 2905263 PLC V8C CAB TBUS 0 3M to the DIN rail connector length 30 cm The following downloads are also required Go to phoenixcontact com and enter EM PB GATEWAY IFS or 2297620 in the search field The following tools can be found under Downloads FS CONF SUITE INTERFACE Setup FDT Container IFS CONF INTERFACE SYSTEM DTMs INTERFACE ANALOG DTMs USB driver IFS CONF SUITE INTERFACE_1v20 zip GSD file for EM PB GATEWAY IFS in conjunction w
49. ened by actu ating button T1 or closed by actuating button T2 The induction loop only responds again if the door has been completely closed or opened by actuating the button or the key switch If the door opens or closes by actuating the button or the key switch the function of the induc tion loop is blocked Opening and closing the door via the key switch at the door The key switch has three positions Open Automatic Close If the key switch is set to the Open position the door opens and moves to the end position which is sensed via a limit switch If the key switch is setto the Automatic position while the door is being opened the operation is stopped The door can now be opened or closed by setting the key switch to the Open or Close position The key switch only responds if it remains in the relevant po sition for at least seconds The key switch has priority over the induction loop and the but tons in the building When the key switch is permanently set to the Close position the door cannot be opened likewise when the door is set to the Open position the door cannot be closed The induction loop and the button only respond when the key switch is in the Auto matic position Safety rail The door is monitored by a safety rail when it is being closed If the safety rail has detected a fault the operation is stopped or cannot be started The button in the building only re sponds if no fault is indicated by the safety rai
50. ersion can be performed using the NumberToIFS function block from the INTERFACE System library This block outputs an error in the event of a value outside of the 32768 32767 value range An example program is shown in the screenshot below where input Input 0715 broken down into its 16 bits and provided directly at the hardware outputs of the logic module an extension module Furthermore the values of the logic module realtime clock are forwarded to the gateway as numerical values LOGIC PROJECT2 A 5E AAAQRG amp 55 Programi X IFS Output IFSToFlags 1 TRUE Activate IFS input 0 IFS Input IFS Output 1 IFS Output 2 0 errors 0 warnings Program Memory 13 Device not connected Data Memory 1396 Retain Data Memory 096 Programming Figure 5 24 Example program 5 6 5 2 Settings on the gateway The connection between the gateway and a PC is established using the IFS USB DATACA BLE programming adapter Order No 2320500 Insert the programming adapter into the S PORT interface of the gateway A USB connector plug is available on the PC side The IFS CONF SUITE INTERFACE software is required in order to parameterize the gate way It is available to download free of charge at phoenixcontact net products 76 PHOENIX CONTACT 105868 en 00 Startup Install the following components INTERFACE SYSTEM DTM Setup 1 20 Required componen
51. form a microcontroller which performs small automation tasks and replaces conventional switching and control devices all without any extensive programming knowledge being re quired PHOENIX CONTACT 9 PLC logic 1 3 How does PLC logic work With eight fixed inputs and a further eight freely configurable channels with relays or solid state relays from the PLC INTERFACE series the system has a modular design and can process a maximum of 48 I O signals with two PLC V8C extension modules Each of the freely configurable I O channels can be configured as an input or output PLC logic is configured and programmed using the LOGIC software The software be downloaded free of charge at phoenixcontact net products N MS V IP Figure 1 1 Entire system 10 PHOENIX CONTACT 105868 en 00 Overview of PLC logic 1 4 What can PLC logic be used for PLC logic handles tasks in industrial system and installation technology as well as labora tory and training applications Typical applications are listed in the table below Table 1 2 Possible applications Applications with time functions Switch on switch off delay weekly timer pulse stretching flashing relay Small machines Drives pumps valves compressors exhaust and fil ter systems mixing machines dosing machines Handling equipment Conveyors lifting tables freight ele
52. glish Deutsch Logged In CONTA 5 ONTACT PLC V8C SC 24DC BM Device Update 29 03 094 Please ensure that you are familiar with the process before the update Erroneous operations may brick the device select file oY upload file restart device File name configFile ee Content Firmware Package Size 248 kB Monitoring Diagnose Progress Overview Current Values Configuration Global Network Administration Access Controll Device Update 1 Device Information Figure 5 9 Firmware update progress indicator 105868 en 00 Startup Following successfully installation the device restarts automatically To view the active de vice configuration following restart you must empty the browser cache e g with Ctrl Shift Delete CEGE T PHOENIX CONTACT PLC logic i v8c usb homeAdmin htm amp contentWebImgUpdate 4 A English Deutsch O 5 PLC V8C SC 24DC BM Device Update 29 03 094 Please ensure that you are familiar with the process before the update Erroneous operations may brick the device select file upload file restart device The file was rejected Please select another file m Monitoring Diagnose Overview Current Values Configuration Global Network Administration Access Controll Device Update Device Information Figure 5 10 Firmware update emptying the cache 105868 en 00 PHOENIX CONTACT 55 PLC logic 56 PHOENIX CONTACT
53. he hard ware configuration in LOGIC and for the connected device must be the same Make sure that both configurations match Otherwise this may result in undesir able behavior in the application Make sure that this will not lead to any hazardous situations Each relay channel can be configured as an input or output with an electromechanical or a solid state relay This can be performed easily in the hardware configuration in LOGIC For more details refer to the help in LOGIC Hardware Configuration x PLC Relay Output PLC SSR Input PLC SSR Output Empty Terminal Figure 5 14 Hardware configuration 62 PHOENIX CONTACT 105868 en 00 105868 en 00 Startup 5 4 4 Function blocks As described in the LOGIC help programs can be created in function block diagram FBD or ladder diagram LD The following function blocks are available in LOGIC for both lan guages Table 5 7 Available function blocks OR _ PHOENIX CONTACT 63 PLC logic Table 5 8 5 4 5 Data item types in LOGIC Data item types Name Vemm O O O Flags Digital inputs Digital outputs Analog inputs INTERFACE system inputs INTERFACE system outputs 64 The flag name consists of the string xxx where xxx 0 127 and if defined the identifier A maximum of 128 flags can be used in a project The register name consists of the string RH where
54. ing successful installation on the PC open LOGIC LOGIC File Programs Edit View Online Device Help gt Start Page _ eno oq OO INSPIRING INNOVATIONS Recent projects Try one of our sample projects Need help C Users Projects Application_U_ round_Parking lgpx V Welcome to LOGIC Analog Comparator Sample for The Start Page welcomes you introducing LOGIC The C Users Projects Application_co r_belt_system lgpx nam PLC nLC 040 BM Start Page is shown every time you start LOGIC and is N XProduktlinie Digital VF rderbandanlage Igpx Depending on the difference between Al2 automatically closed when opening or creating a and AI3 and a switch on and a switch off project MProjectsVApplication Sliding Gate en lapx threshold the output is set 2 Recent projects C Users Public Projects Tiefgarageniuftung Igpx The Recent projects list shows the projects that you have recently opened in LOGIC Click the project CAUserst VProjectsVApplication SI Gate neutral lgpx Analog Comparator Sample for i 8 zm PLC V8CI BM name to open the desired project C Users Public Projects Action_Center_Links Igpx os Ke rece Meet Sample projects C Users Public LOGIC Projects Treppenlicht lgpx C EE The Sample projects list provides a list of predefined j proje
55. ion Settings button in the toolbar to open the Communication Settings dialog box LOGIC PROJECT2 Igp File Programs Edit View Online Device Help amm o3 0 AAAQ DACA Toolbox x G9 Program1 x w Catalog Filter X i ADD Communication Settings Basic g Communication Settings DIV Specify the communication settings for the device Selected Device v8c usb w amp Search Options ES z gt gt m z D e 5 Data Items Hardware Configuration Q The device v8c usb is available v 0 errors 0 warnings Program Memory 11 Data Memory 11 Retain Data Memory 0 Programming Device not connected Figure 5 15 Communication Settings In the Communication Settings dialog box select the device that is connected to your PC in the Selected Device list box The device name corresponds to the NetBIOS name spec ified on the device configuration page The default NetBIOS name is v8c_usb For information on how to open the configuration page and change the NetBIOS name see Configuration via web server on page 46 PHOENIX CONTACT 65 PLC logic 66 As soon as LOGIC detects the connected device at the USB connection the message The device device name is available appears at the bottom of the dialog box see figure above If the device is notfound a corresponding message appears in the dialog box If
56. ion of the LOGIC software can be found under Help in the software Please read this information carefully before creating your first project 5 4 1 System requirements The following software and hardware requirements must be met so that LOGIC can be ex ecuted on your PC under one of the operating systems listed Table 5 1 Windows XP Service Pack 3 Pentium 233 MHz or faster 300 MHz recommended Graphics card Microsoft DirectX 9 graphics card with WDDM driver NET Framework 4 0 The link to the download is provided in the setup routine Table 5 2 Windows Vista Service Pack 1 Processor 32 bit processor x86 or 64 bit processor x64 each with at least 1 GHz Graphics card Microsoft DirectX 9 graphics card with WDDM driver NET Framework 4 5 The link to the download is provided in the setup routine Table 5 3 Windows 7 1 GHz or faster 32 bit x86 or 64 bit processor x64 Graphics card Microsoft DirectX 9 graphics card with WDDM driver NET Framework 4 5 The link to the download is provided in the setup routine PHOENIX CONTACT 57 PLC logic 58 PHOENIX CONTACT Table 5 4 Windows 8 Processor 1 GHz or faster 32 bit x86 or 64 bit processor x64 Graphics card Microsoft DirectX 9 graphics card with WDDM driver NET Framework 4 5 Is installed Additional requirements Input devices keyboard mouse USB connection to connect the device Internet browser 5 4 2 Starting LOGIC Follow
57. is pressed LOGIC checks whether a project is already stored on the device If the project on the de vice and the project to be transferred are not identical the device is reset and the current project is transferred to the device and executed immediately If the project on the device and the LOGIC project are identical the project is executed immediately 5 4 8 Memory and size of a program The project size is limited by the memory available on the connected device During pro gramming LOGIC monitors the memory used The current memory used on the device is indicated by a percentage value in the status bar Among other things the project size depends on the number of different function blocks PHOENIX CONTACT 67 PLC logic 5 4 9 Cycle time The cycle time is the time required to process a complete program once The time required for one program cycle can be determined by the following example program Counter 1 NOT Counter PresetReached NOT CountUp a amp RiseEdge 1 CountDown ZeroReached RiseEdge Ce Jr ES Reset CurrentValue Trig 000 Start 001 Load PresetValue PulseGen 1 AND PulseGen amp Activate TIME 30s TimeTrue non ElapsedTrue TIME 0 500s TimeFalse ElapsedFalse T_000 Cycletime Figure 5 16 Determining the cycle time This example program can be inserted in programs that have been created and indicates the cycle time of the p
58. ith EMM IFS PSR TRISAFE M and PSR TRISAFE S 105868 en 00 Startup 5 6 1 Mounting 1 Snapthe DIN rail connector onto the DIN rail 2 Snapthe gateway onto the DIN rail connector The gateway is positioned mechanically using the DIN rail connector The connections on the bottom of the gateway make contact with the connections on the DIN rail con nector 3 Connect the TBUS connection on the PLC V8C logic module to the DIN rail connector using the appropriate PLC V8C CAB TBUS 0 3M cable Order No 2905263 Figure 5 18 Mounting the PROFIBUS gateway and PLC logic Depending on the design only one PLC logic device can be connected to the gateway and therefore in this combination only one PLC logic device can be integrated into a PROFIBUS network 105868 en 00 PHOENIX CONTACT 71 PLC logic 72 PHOENIX CONTACT 5 6 2 EM PB GATEWAY IFS gateway Before starting up the gateway carefully read through the package slip supplied with the de vice For detailed information on the gateway refer to the gateway system manual available at phoenixcontact net products Input Operating voltage Us Supply voltage Outputs Inputs IN1 IN4 Inputs IN5 IN8 Connection for TBUS DIN rail connector ES p S PORT for connecting the j programming adapter LEDs g Rated control supply voltage gt Communication Message error _ PROFIBUS error Group error Snap on foot f
59. ix Co EM PB GATEWAY IFS IFSM Phoenix Co EM PB GATEWAY IFS PB Phoenix Co EM RS232 GATEWAY IFS Phoenix Co 4 EM RS485 GATEWAY IFS Phoenix Co A IFS TCP PROG ADAPTER Phoenix Co MCR EX T UIREL UP Phoenix Co MCR EX T UI UP Phoenix Co MINI MCR 2 POT UI Phoenix Co E MINI MCR 2 RTD UI Phoenix Co E MINI MCR 2 TC UI Phoenix MINI MCR RTD UI Phoenix Co MINI MCR TC UI Phoenix Co Phoenix Co IFSM IFSM Startup DTM Catalog Management Current DTM Catalog IFSM TCP IFSM IFSM Profibus DP IFSM IFSM IFSM IFSM IFSM TCP 1 m E 417 E 2 4 Search for installed DTMs All gt gt gt lt lt lt All Update Catalog and Close Window 8 Select the EM PB GATEWAY IFS IFSM gateway the IFS USB PROG ADAPTER programming adapter and the PLC V8C logic module 9 Addthe selected devices to the current DTM catalog by clicking on the gt gt button 10 Click on Update Catalog and Close Window PHOENIX CONTACT 79 PLC logic 80 PHOENIX CONTACT The program performs an automatic topology scan and the hardware structure is read 1 IFS Conf New Project lt unsaved gt File Edit View Device Window Tools 7 Hd 9 1 AOR Project Tree 2 3 Template B USB PROG ADAPTER 2 IfsmChannel Topology Scan Wizard Topology Scan W
60. izard Providing support for the topology scan FDT version 1 2 1 Initializing Scan Continue Finish start i IFS Conf New Projec Figure 5 29 Topology scan IFS Conf New Project lt unsaved gt File Edit View Device Window Tools 7 D Nl amp OIP P IC C 4 508 f EM PE GATEWAYJFS IFSM Configuration J Template PHCENIX CONTACT a8 IFS USB PROG ADAPTER 5 Mg wChannel 1 PLC V8C SC 24DC BM EM PB GATEWAY IFS IFSM T ag EM PB GATEWAY IFS Phoenix Contact GmbH amp Co KG Fw 1 01 2012 08 01 al elede uo 3 Parameter Menu y Configuration EM PB GATEWAY IFS Profibus Basisadresse Profibus Adressoffset Verhalten bei Profibus Fehler Ausgange zur cksetzen OK Apply Ki Unconnected 0 planningEngineer Test start 22 1FS Conf New Projec Figure 5 30 Hardware structure 105868 en 00 Startup 11 Double click on the EM PB GATEWAY IFS IFSM in the project tree This opens the gateway settings window 12 In the settings window set the desired PROFIBUS address for the gateway under PROFIBUS address offset 13 If you change the preset value this information must be written to the gateway again To do this click on Apply 14 You then need to conne
61. l The key switch must first be returned to the Automatic position after a fault An optical signal light warns when the sliding door system is being opened and closed and makes people in the vicinity aware of the operation 94 PHOENIX CONTACT 105868 en 00 105868 en 00 Application examples 7 2 1 Hardware structure A m mmu LLL Iu IPHCENIX CONTACT PLC V8C SC 24DC SAM Ord No 290 50 82 wc IN OUT 15 Pos 8 Pos 9 Pos 10 Pos 10 IN6 IN7 IN5 IN3 INA SS Pos 8 Pos 9 IN2 o Figure 7 3 Structure for sliding door system Stand alone module PLC V8C SC 24DC SAM 2905082 Relay module PLC RSC 24DC 1 ACT 2966171 Empty socket PLC BSC 24DC 21 2966016 PHOENIX CONTACT 95 PLC logic 7 2 2 LOGIC program FallEdge 1 FallEdge Trig EA OnDelay 1 OnDelay DI_O_6 key switch open Trig s 1 fe TIME 2s DelayTime EE ElapsedTime RS 2 1 nx gt 1 Reset 2 ee Reset Trig JTL Q DQ 0 9 motor open gate 004 warming open gate DI 0 switch open 000 safety _rail_triggered TIME 2s DelayTime ElapsedTime FallEdge Tri 0 7 key_switch_close 000 safety gt 1 DIL_O_3 limit_switch_open
62. nfiguration to the gateway by clicking on the Write to device but ton The values are now available in the gateway and can be requested from the gateway via a PROFIBUS DP master PHOENIX CONTACT 83 PLC logic 5 6 5 3 Gateway communication with a PROFIBUS DP master For additional settings a connection must be established between the gateway and a PRO FIBUS DP master e g Siemens S7 controller via a standard PROFIBUS cable A PROFIBUS interface is available on the gateway via a 9 pos D SUB connector socket A Siemens S7 300 controller is shown in later screenshots A GSD file is required in order to integrate the gateway into the bus configuration This is available to download at phoenixcontact net products After integrating the GSD in the STEP 7 catalog the gateway can be found in the PROFI BUS DP gt Additional Field Devices gt Gateway area The EM PB GATEWAY IFS must now be inserted in the PROFIBUS bus configuration IHW Config SIMATIC 300 1 Configuration PB_GW_Test 81 x ally Station Edit Insert PLC View Options Window Help 81 x Du SS By Gs 98 2 Bi x Find Profile Standard m El PROFIBUS DP 3 Additional Field Devices H Switching Devices amp C3 1 0 5 28 Gateway a 54 DP DP Coupler DP R5232C Link E EM PB GATEWAY IFS DP DP Coupler Release 2 PROFIBUS 1 DP Mastersystem 1 10 EM PB GAT
63. omatically by STEP7 when added They can now be used in the program code 86 PHOENIX CONTACT 105868 en 00 Function examples 6 Function examples In this section the software programming environment is illustrated with the aid of a few examples The examples are intended to assist the user however the user is still respon sible for checking the respective programming in particular with regard to its suitability in specific applications It is your responsibility as the user to conduct a risk and functional analysis of the relevant program logic in relation to current standards and to assess the validity of these for your activities The analysis should extend to the system in which the logic modules are to be used An overall validation and regression testing must be carried out in particular The program examples are solely for explanation purposes and do not claim to be com plete They must therefore not be generalized or used without being checked Please observe the notes provided in the package slip for the logic module and in the soft ware especially any safety notes and installation instructions 6 1 Analog differential threshold value switch The output is switched on and off according to a parameterizable threshold and differential value Reset 1 Figure 6 1 Analog differential threshold value switch code 105868 en 00 PHOENIX CONTACT 87 PLC logic 6 2 Analog threshold value switch The output is switched on
64. onitoring with adjustable SWITCHING 8 Dec eru die na 99 Temperature monitoring with adjustable switching hysteresis code 100 Structure for conveyor belt system 101 Conveyor belt system code 102 PHOENIX CONTACT 107 105868 en 00 PLC logic 108 PHOENIX CONTACT 105868 en 00 Section 1 Section 2 Section 3 Section 4 Section 5 105868 en 00 B2 Table 1 1 Table 1 2 Table 2 1 Table 3 1 Table 3 2 Table 4 1 Table 4 2 Table 4 3 Table 4 4 Table 4 5 Table 4 6 Table 4 7 Table 4 8 Table 4 9 Table 5 1 Table 5 2 Table 5 3 Table 5 4 Table 5 5 Table 5 6 Table 5 7 Table 5 8 Table 5 9 List of tables Frequently used information 9 Possible 11 Corresponding PLC INTERFACE terminal blocks 14 Diagnostics and status 24 Explanation of 25 Connection data for the 10 pos COMBICON connector 33 Properties of the integrated inputs 34 Stand alone logic module and basic logic module station O 35 First extension logic module station 1
65. operty rights for the product identifications of Phoenix Contact products that are used here Registration of such intellectual property rights by third parties is prohibited Other product identifications may be afforded legal protection even where they may not be indicated as such Table of contents OvervieWol P EC IOGIG sa ada 9 1 1 Quick o M 9 1 2 Whatis ed ole eR DETTO 9 1 3 How does PEC logic Deux dicen 10 1 4 What PLC logic be used for 11 2 Hardware descripllOl s esatta dut che ite ihe ue Re 13 2 1 Hardware configuration examples 16 2 1 1 TOWN PUTS oct ipud 16 2 1 2 S IMPUS c 17 2 1 3 ZO InDBlts T2 OUIDHUIS RAN EDU M RUNE 18 19 3 1 Connection and operating 20 3 1 1 Stand alone logic modules 20 3 1 2 Basic logie modules ei REM IM Ven ta ie 21 3 1 3 Extension logic modules eese nnne 22 3 1 4 PLC INTE
66. or fix ing on the DIN rail Outputs O1 O4 PROFIBUS interface Button for setting the D9 SUB PROFIBUS address Figure 5 19EM PB GATEWAY IFS The EM PB GATEWAY IFS PROFIBUS module Order No 2297620 is a module that en ables PLC logic to be connected to PROFIBUS DP The module is certified according to specification DPV1 EN 50170 The EM PB GATEWAY IFS can communicate with PLC logic via TBUS and an appropriate connecting cable The assignment of the process data can be individually adapted to the application requirements by means of the GSD file de vice master data The GSD file containing the characteristic communication features of the PROFIBUS module is available on the Internet at phoenixcontact net products The PRO FIBUS address is set using a button and or a device PC memory stick actuator con nected to the S PORT as an option The module does not provide PROFIBUS termination an appropriate plug should be used for this if required 105868 en 00 105868 en 00 5 6 3 Block diagram Us GND EPROM B Line 37 5 4 rn 5V PB 6 A Line 8 80 10 OUT b Status LZ Figure 5 20 Block diagram 5 6 4 Status LEDs 2 O IN1 2 O IN2 2 O IN3 2 O INA 2 O IN5 2 O IN6 2 O IN7 2 O IN8 2 O O1 2 O O2 2 O 2 O O4 2 gt TBUS Five LEDs visualize the various operating states of the gateway The status LEDs are used to indicate the PROFIBU
67. oupler g DP RS232C Link EM PB GATEWAY IFS DP DP Coupler Release 2 PROFIBUS 1 DP Mastersystem 1 Value Compatible PROFIBUS DP Slaves Qj CIR Object 1 Closed Loop Controller E General DP 1 Configured Stations p H DP VO slaves g em ELR EMM DP AS end H DP PA Link i gt H 2008 amp OUTPUT 1 controled j 1 1 ET 2006 OUTPUT 2 controled Profibus H 200 10 EM PB GATEWAY IFS OUTPUT 3 controled Profibus 8 a ET 2005 amp OUTPUT 4 controled by Profibus mpe ji Slot DPID Order Number Designation Addre 21 La ET 2005 Real power 0 001 1000 1 200L 1 112 outputs 0 1 2 active power 0 001 1000 ET 200M 3 wer VAY 0 001 1000 200 1 0 001 100 28 ET 200R 4 Current AY 0 001 1 ET 2005 2 Switchcycles 1 2000 ET 200 1 Function Modules 8 3 De S Cancel Help IDENT e e saw 5 Netwok Components a
68. points For higher currents use the PLC ESK GY power terminal block Order No 2966508 If you have defined a slot as an output you can choose corresponding PLC INTERFACE terminal blocks with electromechanical or solid state relays Wiring of outputs via PLC INTERFACE terminal blocks PLC V8C d N o 3 N o o a tc N 9 E Q M 1 o amp o N 230 V 24 V N OV Figure 4 9 Wiring of outputs via PLC INTERFACE terminal blocks Basic circuit diagram with the example of an output terminal block with relay 1 PDT PLC RSC 24DC 21 Order No 2966171 and an output terminal block with solid state relay 24 V DC voltage output and convenient actuator connection PLC OSC 24DC 24DC 2 ACT Order No 2966676 105868 en 00 PHOENIX CONTACT 41 PLC logic Pin assignment of outputs via PLC INTERFACE terminal blocks eS eC Ord No 290 50 82 IN OUT8 om NS ee ele JI Figure 4 10 Pin assignment of outputs via PLC INTERFACE terminal blocks Connections of an output terminal block with relay 1 PDT PLC RSC 24DC 21 Order 2966171 and an output terminal block with solid state relay 24 V DC voltage output and convenient actuator connection PLC OSC 24DC 24DC 2 ACT Order No 2966676 Corresponding PLC INTERFACE terminal blocks for outputs can be found in Table 2 1 on page 14 42 PHO
69. project Ctrl S NEM 58 _ NEM Hename or delete a program or change the ort program execution order ca Open a program or switch to an open program Em TT Open the data item editor un Increase size of object displayed in the active program window Decrease size of object displayed in the active program window Hesize contents of active window to the default size Displays the full contents in the current window size Execute program on simulated device Execute program on the device MEM 60 PHOENIX CONTACT 105868 en 00 105868 en 00 Table 5 6 Startup Buttons in the toolbar Stop program execution and reset the device Open the communication settings MEM Show or hide the toolbox window Show or hide the hardware configuration Remove all breakpoints in the active program worksheet Activate deactivate breakpoint at the current position Lock all breakpoints in the active program worksheet Switch back to programming Ctrl F5 Show or hide the watch window PHOENIX CONTACT 61 PLC logic 5 4 3 Hardware configuration NOTE PLC logic does not check that the hardware view in LOGIC matches the actual hard ware The hardware configuration in LOGIC and the configuration of the connected de vice on which the project is to be executed must be identical This means that the arrangement of the segments and the assignment of the inputs and outputs in t
70. pted rt je Supply voltage OK firmware update of basic module running 20 12 xt Supply voltage OK firmware update of ex M Nye Supply voltage OK internal error at basic M M Supply voltage OK short circuit at PLC out puts or overload error at basic or extension ri module Digital inputs Supply voltage OK input at basic module extension module controlled xt 20 Supply voltage OK input at basic module xt extension module not controlled Memory stick Supply voltage OK copying new program re eee o Xr 34 0 n Supply voltage OK new program on the n ejn e j 24 PHOENIX CONTACT 105868 en 00 904 00 Xf i lo Installing PLC logic Table 3 1 Diagnostics and status indicators Basic module Extension module module Green Green Red cd Green LL Mead PWR DAT LED ERR PWR DATLED LED E LED icp Supply voltage OK error when handling the memory stick IFS gateway Supply voltage OK data traffic to the IFS gateway data traffic to the extension mod ule Supply voltage OK no data traffic to the IFS gateway no data traffic to the extension module Supply voltage OK data traffic to the IFS gateway connection to the extension mod ule interrupted Supply voltage OK data traffic to the IFS gateway controller in stop mode Table 3 2 Explanation of symbols Description LED is off LED is flashing L
71. rogram created Overwrite flag F 000 Start with TRUE to start the calculation The program counts 1000 cycles and indicates the time required for this in time register 000 Cycletime This value must then be divided by 1000 to determine the value for one cycle Example T 000 indicates the value 1 9965 The cycle time is therefore 1 996 ms 68 PHOENIX CONTACT 105868 en 00 Startup 5 5 IFS CONFSTICK memory PLC logic programs are stored using the IFS CONFSTICK memory module Order No 2986122 or programs can be easily transferred to other devices If settings such as time or date are required on the new device these values can be config ured via the integrated web server The new device does not need access to the LOGIC software for this X N 25 Figure 5 17 Inserting the IFS CONFSTICK 5 5 1 Writing the device configuration and program to the IFS CONFSTICK 1 Press the Confirm button on the logic module 2 Insert the memory module in the logic module within 4 s The copying of the configuration and program is started The DAT LED flashes while saving The DAT LED goes out when backup is completed 3 Remove the memory module 105868 en 00 PHOENIX CONTACT 69 PLC logic 70 PHOENIX CONTACT 5 5 2 Running the device configuration and program on the logic module 1 Insert the memory module in the logic module The configuration program is check
72. rs are also installed automatically Administrator rights may be required to install the drivers If autostart is deactivated on your operating system and the drivers are not installed auto matically proceed as follows 1 Open Windows Explorer A new emulated CD drive should be displayed CDROM 2 Open the CDROM drive Start the Setup exe file 4 The driver is installed If the emulated CD drive is not displayed you can also download the setup file for driver in stallation at phoenixcontact net products After manual installation remove the USB cable from the device and insert it again The driver should now be correctly identified If the driver has been correctly identified Phoenix CDC ECM Network Adapter appears under Network adapters in the Windows Device Manager An Ethernet network adapter is emulated via USB This connection may be blocked by the firewall you are using If so contact your system administrator 105868 en 00 PHOENIX CONTACT 45 PLC logic 5 3 Configuration via web server You can access the web server in a web browser by calling page http v8c usb Internet Explorer 10 or Mozilla Firefox 10 is required as a minimum in order to use the full scope of functions of the web server 5 3 1 Monitoring Diagnose 5 3 1 1 Overview Important device and project information is displayed on the overview page CGEA PHOENIX CONTACT PLC logic e v8c usb con
73. s In general the logic module is inserted in the contact locators of the PLC INTERFACE terminal blocks which also have a foot lever for the terminal block located on the side item 1 Figure 3 4 on page 23 VA VINOS N N PosAd POSAS PSAL S PSAS 1 POSAD VOSNN M SONS N NN N N NN 27 n Figure 3 9 Snapping the logic module onto the PLC INTERFACE terminal blocks 3 Make sure that the logic module is flush with the PLC INTERFACE terminal blocks It can then be fixed in place correctly Figure 3 10 Logic module is fixed in place 105868 en 00 PHOENIX CONTACT 29 PLC logic 3 4 3 Optional mounting of extension modules If you require more I O signals than are supported with the PLC V8C BM basic module connect a maximum of two PLC V8C EM extension modules to the basic module 1 Remove the covering hood 7 from the basic module see Figure 3 2 on page 21 zv C NOU T 2 Connecta further eight PLC INTERFACE terminal blocks to the last PLC INTERFACE terminal block of the basic module Insert the extension module in the bridge shafts of the PLC INTERFACE terminal blocks Contact is automatically established with the basic module via the plug in con nection 7 and 13 see Figure 3 2 on page 21 4 Proceedin the same way to attach a second extension module To do this remove the covering hood 7 on the first extension mod
74. s used Table 7 8 Inputs tae Description INO DOO On Switches the conveyor belt system on IN 1 DI O 1 Off Switches the conveyor belt system off IN2 DI 02 Sensor for detecting the container Table 7 9 Outputs 9 teme Description _ 08 Motor control for conveyor belt 1 DQ 09 Motor control for conveyor belt 2 DQ O0 10 Motor control for conveyor belt 3 105868 en 00 A Technical data 105868 en 00 Supply Value Supply voltage 24 V DC Supply voltage range 19 2 V DC 26 4 V DC Maximum input current at Uy PLC V8C 24DC SAM PLC V8C 24DC BM PLC V8C 24DC EM 120 mA 120 mA 65 mA Input data Digital inputs Number of inputs 8 2 configurable as analog Description of the input EN 61131 2 type 3 Input voltage 24 V DC Input current 0 signal lt 1mA Input current 1 signal 2 5 mA typical Delay time 3 ms maximum basic module stand alone module 50 ms maximum extension module Switching frequency 200 Hz maximum basic module stand alone module 20 Hz maximum extension module Input data Analog inputs Number of inputs 2 IN6 and IN7 are configurable as analog Input voltage range OV 10V Input resistance gt 3 5 Measured value deviation 3 0 15 V minimum Delay time 10 ms maximum basic module stand alone module 50 ms maximum extension module
75. s well as between the individual channels Data sheets for the PLC INTERFACE terminal blocks can be found at phoenixcon tact net products NOTE Voltages 250 V are not permitted between the same terminal points on adjacent modules L1 L2 L3 Supply currents x 6 A directly to the corresponding terminal points For higher currents use the PLC ESK GY power terminal block Order No 2966508 38 PHOENIX CONTACT 105868 en 00 Connecting and wiring PLC logic Wiring of inputs via PLC INTERFACE terminal blocks PLC V8C gt lt T o 2 e e St o o zl e e e N 2904690 PLC OSC 24DC 48DC 100 V8C SEN 230 V N 0 V Figure 4 6 Wiring of inputs via PLC INTERFACE terminal blocks Basic circuit diagram with the example of an input terminal block with relay 230 V AC PLC RSC 230UC 1 AU SEN Order No 2966333 and an input terminal block with solid state relay 24 V DC PLC OSC 24DC 48DC 100 V8C SEN Order No 2904690 Pin assignment of inputs via PLC INTERFACE terminal blocks D CONTACT Ord No 290 50 82 In SES TTT Figure 4 7 Pin assignment of inputs via PLC INTERFACE terminal blocks 105868 en 00 PHOENIX CONTACT 39 PLC logic 40 Connections of an input terminal block with relay 230 V
76. so check whether the device is connected correctly to the PC or select a different device You can cancel this operation with Cancel Click OK to close the Communication Set tings dialog box again 5 4 7 Executing a project on PLC logic NOTE The project is immediately executed started on the device and online mode is activated when you click on the Execute on device button Make sure that this will not lead to any hazardous situations PHOENIX CONTACT The integrated simulation can be used to test the behavior of the project with no device con nected Password protection The project can be protected against unauthorized transfer and execution on the device with a password This password is checked every time the Execute on device command is performed If the device has been assigned a password you must enter it in a dialog box before transferring and executing the project on the device The device password can be changed on the device configuration page For information on how to open this page and change the password see Configuration via web server on page 46 To execute the project on the device and switch to online mode proceed as follows 1 Make sure that there are no error messages regarding the project in the message win dow 2 Makesurethatthe configuration of the inputs and outputs in the hardware configuration corresponds to the configuration of the inputs and outputs on the device If this is not
77. t ic discharge When handling the logic module observe the necessary safety precautions against electrostatic discharge ESD according to EN 61340 5 1 and IEC 61340 5 1 1 NOTE Risk of damage to equipment To avoid possible damage to the logic module unpack and pack the logic module in ac cordance with the ESD regulations PHOENIX CONTACT 19 PLC logic 3 1 Connection and operating elements 3 1 1 Stand alone logic modules Figure 3 1 Connection and operating elements of stand alone logic modules Device marking label Memory socket Memory cover 10 pos COMBICON plug Eject lever Confirmation button Confirm Micro USB socket Status LEDs Contacts for PLC INTERFACE terminal blocks m une WE ME Iw 20 PHOENIX CONTACT 105868 en 00 105868 en 00 Installing PLC logic Figure 3 2 Connection and operating elements of basic logic modules 1 Device marking label 2 Memory socket 3 Memory cover 4 10 pos COMBICON plug 5 DIN rail connector connection 6 DIN rail connector cover 7 Covering hood socket contacts for extension module 8 Eject lever 9 Confirmation button Confirm 10 Micro USB socket 11 Status LEDs 12 Contacts for PLC INTERFACE terminal blocks PHOENIX CONTACT 21 PLC logic 3 1 3 Extension logic modules Figure 3 3 Connection and operating elements of extension logic modules Device marking label 10 pos COMBICON plug Knife contacts of extension modules
78. ted behind the last conveyor belt limit switch at IN2 The conveyor belts start up in the following order first the last conveyor belt Motor3 10 then in 5 s intervals the second conveyor belt Motor2 09 and then the first conveyor belt Motor1 DQ 08 This ensures that a conveyor belt is not overloaded When the Off button is actuated the same procedure is performed in reverse order First conveyor belt 1 stops followed by conveyor belt 2 and then conveyor belt 3 7 4 1 Hardware structure GHA WAY SESS SESS SN 8 a 9 10 Figure 7 10 Structure for conveyor belt system Stand alone module PLC V8C SC 24DC SAM 2905082 Relay module PLC RSC 24DC 1 ACT 2966171 Empty socket PLC BSC 24DC 21 2966016 PHOENIX CONTACT 101 PLC logic 102 PHOENIX CONTACT 7 4 2 LOGIC program AND Reset R S Q DQ 0 10 conveyor3 Reset 1 010 Set DI 0 2 sensor container T Eo DI_0_1 Off DReset OnDelay_1 OnDelay E DelayTime em ElapsedTime m 2 222220 OnDey Reset 3 TIME 5s ElapsedTime Roset DReset 4 OnDeay 0220 TIME 5s US Delaytime LL ElapsedTime TIME 5s DQ 0 9 conveyor2 DQ 0 8 conveyor Figure 7 11 Conveyor belt system code 7 4 3 Inputs and output
79. ted insulation voltage 50V Rated surge voltage 0 8 kV PHOENIX CONTACT Insulation Basic insulation Conformance CE compliant Table A 1 Electromagnetic compatibility EMC Criterion Test according to Value Electrostatic discharge Electromagnetic fields EN 61000 4 2 6 kV contact discharge 8 kV air discharge EN 61000 4 3 10 V m Burst EN 61000 4 4 2 kV supply and signal cables Surge EN 61000 4 5 0 5 kV symmetrical to supply cables 1 kV asymmetrical to supply cables 1 kV asymmetrical to signal cables 105868 en 00 B Appendix for document lists Section 1 Section 2 Section 3 Section 4 105868 en 00 B 1 Figure 1 1 Figure 2 1 Figure 2 2 Figure 2 3 Figure 3 1 Figure 3 2 Figure 3 3 Figure 3 4 Figure 3 5 Figure 3 6 Figure 3 7 Figure 3 8 Figure 3 9 Figure 3 10 Figure 3 11 Figure 4 1 Figure 4 2 Figure 4 3 Figure 4 4 Figure 4 5 Figure 4 6 Figure 4 7 List of figures ENUE EIAS TEE DIT D E 10 Configuration with 10 inputs 6 outputs 16 Configuration with 8 inputs 8 outputs 17 Configuration with 20 inputs 12 outputs 18 Connection and operating elements of stand alone logic modules 20 Connection and operating elements of basic logic modules 21 Connection and operating elements of extension logic modules 22 Connection and
80. tentOverview 4 English Deutsch Login 0000 PLC V8C SC 24DC BM Overview 29 03 094 Device data Name PLC V8C SC 24DC BM Order number 29 03 094 Serial number 90AB56781234 Firmware version 0 19 Hardware version 1 Website version 0 98 Realtime Clock 17 20 37 12 02 2014 Monitoring Diagnose Overview Name of the Project GW Test 2EM WT Current Values Date Donnerstag 13 Februar 2014 12 04 52 Size of the project 56256 Byte RAM 2192 Byte Retain Variables 0 Variablen Figure 5 1 Overview 46 PHOENIX CONTACT 105868 en 00 105868 en 00 5 3 1 2 Current Values Startup Current values states of the hardware are displayed on this page such as input and output states and error messages EGEE T PHOENIX CONTACT PLC logic e contentValues English Deutsch PHCENIX PLC V8C SC 24DC BM Current Values 29 03 094 Overview Notifications CONF Stick State Basic Module Information Type PLC V8C SC 24DC BM Serial number 90AB56781234 Monitoring Diagnose Overview Current Values PWR DAT ERR 060 0 1 0 2 0 3 0 4 6 5 0 6 0 7 Extension Module 1 Information Type PLC V8C SC 24DC EM 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 Figure 5 2 Current Values none not present Running I O Point 0 8 0 9 0 10 0 11 0 12 0 13 0 14 0 15 I O Point 1 8 1 9 1 10 4 44 1 12 1 13 Type PLC Relay PLC Relay PLC Relay PLC Relay
81. three different categories of personal injury that are indicated with a signal word DANGER This indicates a hazardous situation which if not avoided will re sult in death or serious injury WARNING This indicates a hazardous situation which if not avoided could result in death or serious injury CAUTION _ This indicates a hazardous situation which if not avoided could result in minor or moderate injury This symbol together with the signal word NOTE and the accompanying text D alert the reader to a situation which may cause damage or malfunction to the device hardware software or surrounding property This symbol and the accompanying text provide the reader with additional in formation or refer to detailed sources of information How to contact us Up to date information on Phoenix Contact products and our Terms and Conditions can be found on the Internet at phoenixcontact com Make sure you always use the latest documentation It can be downloaded at phoenixcontact net products If there are any problems that cannot be solved using the documentation please contact your Phoenix Contact subsidiary Subsidiary contact information is available at phoenixcontact com PHOENIX CONTACT GmbH amp Co KG Flachsmarktstraf3e 8 32825 Blomberg GERMANY Should you have any suggestions or recommendations for improvement of the contents and layout of our manuals please send your comments to tecdoc phoenixcontact com
82. ts for INTERFACE SYSTEM DTMH The choosen components are required to execute the INTERFACE SYSTEM DTM EXINTERFACE SYSTEM DTMs MT wi FDT Container Interface Conf 30186 K USB Programmier amp dapter IFS 3974 K INTERFACE ANALOG DTMs OK m Destination Folder C Programme Phoenix Contact Space Required on C 109644 K Space Available on 7919372 Disk Space InstallShield lt Back Next gt Figure 5 25 Installing components Before parameterizing the required settings on the gateway arrange the components as described in Mounting on page 71 1 Connectthe TBUS connection on the PLC V8C logic module to the DIN rail connector using the appropriate PLC V8C CAB TBUS 0 3M cable Order No 2905263 2 Establish the connection between the gateway and a PC using the IFS USB DATACA BLE programming adapter Order No 2320500 3 Supplythe gateway and the PLC logic module with the operating voltage 24 V DC see technical data in the corresponding package slip 4 Startthe IFS CONF program FDT container so that the gateway recognizes the IN TERFACE system 10 used 5 When IFS COMF is started for the first time you need to create a new user who is as signed the role of Administrator A password does not have to be assigned You can create additional user names with different roles For example maintenance person nel operating personnel or observers can b
83. ule see Figure 3 3 on page 22 30 PHOENIX CONTACT 105868 en 00 105868 en 00 Installing PLC logic 3 4 4 Removal The logic module is disconnected from the PLC INTERFACE terminal blocks by simultane ously actuating both eject levers Proceed as follows First remove the last extension module followed by the first extension module and then the basic module Figure 3 11 Actuating the eject levers to remove the logic modules PHOENIX CONTACT 31 PLC logic 32 PHOENIX CONTACT 105868 en 00 Connecting and wiring PLC logic 4 Connecting and wiring PLC logic 4 1 Power supply The logic modules are supplied with voltage via the 10 pos COMBICON connector Optional extension modules must be supplied separately ISS Figure 4 1 Power supply Table 4 1 Connection data for the 10 pos COMBICON connector 0 22 0 25 Nm MC 1 5 10 ST 3 5 unprinted 105868 en 00 PHOENIX CONTACT 33 PLC logic 34 PHOENIX CONTACT 4 2 Inputs and outputs 4 2 1 Integrated inputs Like the power supply the eight integrated inputs INO to IN7 are connected via the 10 pos COMBICON connector for connection data see Table 4 1 on page 33 Figure 4 2 Integrated inputs Table 4 2 Properties of the integrated inputs Status INOtoINS IN6 IN7 1 2 1 5V DC T current 0 9 mA 1 mA gt 11VDC gt 11VDC Input current gt 2 2 gt 2 3 When the status changes from Off to On the voltage must be
84. ustrated with the aid of a few examples The examples are intended to assist the user however the user is still respon sible for checking the respective programming in particular with regard to its suitability in specific applications It is your responsibility as the user to conduct a risk and functional analysis of the relevant program logic in relation to current standards and to assess the validity of these for your activities The analysis should extend to the system in which the logic modules are to be used An overall validation and regression testing must be carried out in particular The program examples are solely for explanation purposes and do not claim to be com plete They must therefore not be generalized or used without being checked Please observe the notes provided in the package slip for the logic module and in the soft ware especially any safety notes and installation instructions 7 1 Underground parking garage ventilation Fans in an underground parking garage are to be controlled with PLC logic The carbon monoxide concentration in an underground parking garage is detected using a CO sensor and made available to PLC logic as a0 V 10 V standard signal via an analog signal conditioner PLC logic acquires the standard signal at analog input ING In this exam ple there are three fans available in the underground parking garage At a CO concentration gt 30 ppm fan 1 0 11 starts up at gt 60 ppm fans 1
85. utput 01 and IFS Output 02 from the ex ample program see Figure 5 24 on page 76 for LOGIC IFS Conf New Project lt unsaved gt File View Device Window Tools BOMB 28 o B xol EMPBGATEWAYJFS IFSM Configuration f EM PB GATEWAY IFS IFSM Process value configuration C Template EM PB GATEWAY IFS IFSM Tag EM PB GATEWAY IFS PHCENIX Phoenix Contact GmbH amp Co KG CONTACT E Fw 1 01 2012 08 01 1 PLCVBC SC 24DC BM 2 8018018 4 Wo Inputs Outputs Devices Process Data Mapping Device Name Device Type me enl Unit Resolution Device Name EM PB GATEWAY IFS EM PB GATEWAY IFS IFSM gt o m EMPBBATEWAYFS PLCVBC SC 24DC BM 1 PLC VBC SC 24DC BM Q PLCWBC SC 24DC BM 1 FS Input 00 IFS Input 01 IFS Input 02 IFS Input 03 IFS Input 04 IFS Input 05 IFS Input 06 IFS Input 07 IFS Input 08 IFS Input 09 IFS Input 10 OK Apply FB Connected O Daas Figure 5 33 Process data configuration example 18 19 20 21 Define the outputs in the process data assignment in the same way Apply the process data assignments by clicking on Apply in the active DTM project Click on the Connect button to establish a connection to the gateway Send the current co
86. uts and outputs via PLC INTERFACE terminal blocks The PLC V8C logic modules are inserted in the bridge shafts of eight PLC INTERFACE ter minal blocks mounted side by side on a DIN rail These eight PLC INTERFACE terminal blocks form the inputs or outputs at positions Pos 8 to Pos 15 The relevant position is set as an input or output in the LOGIC software see Hardware configuration on page 62 Once this is specified the corresponding PLC INTERFACE terminal block can be used at the relevant position Use basic terminal blocks for channels that are not required in order to ensure sufficient mechanical stability For a list of corresponding PLC INTERFACE ter minal blocks refer to Table 2 1 on page 14 NOTE Risk of short circuit When wiring a mixture of inputs outputs via PLC INTERFACE in the field observe the dif ferent potentials on the same connection levels Terminal points BB 13 and A2 have different potentials with output and input relays see Figure 4 8 on page 40 and Figure 4 11 on page 43 Make sure that a short circuit does not occur when using FBST jumpers The following 2 pos jumpers are recommended for bridging the same potential and for the clear delimitation of different potentials Table 4 6 Hecommended jumpers Rea FBSTEPLORD 0000 4 2 2 1 Designation of inputs and outputs via PLC INTERFACE terminal blocks In the LOGIC software inputs have the designation DI X and outputs have the desig nation DQ X
87. vators silos feeding systems Heating ventilation air condition Fans cooling heating air conditioning systems ing Building automation Doors barriers shutters and blinds sprinklers light ing control systems Other applications Signaling systems e g construction sites alarm Systems 105868 en 00 PHOENIX CONTACT 11 PLC logic 12 PHOENIX CONTACT 105868 en 00 Hardware description 2 Hardware description 105868 en 00 The PLC V8C logic modules are inserted in the bridge shafts of eight PLC INTERFACE modules mounted side by side on a DIN rail All logic modules feature the following Eight integrated digital inputs two of which can be configured as analog inputs Connection via connector with screw or push in connection technology Afurther eight channels can be configured with corresponding PLC INTERFACE termi nal blocks as digital inputs or outputs Programming possible using the LOGIC software The following PLC V8C types are available PLC V8C stand alone modules 2905082 PLC V8C SC 24DC SAM with screw connection 2905136 PLC V8C PT 24DC SAM with push in connection Basic logic module with 16 I Os cannot be extended Connection to PC via micro USB socket Integrated realtime clock Accommodates external IFS CONFSTICK memory module PLC V8C basic modules 2903094 PLC V8C SC 24DC BM with screw connection 2905135 PLC V8C PT 24DC BM with push in connection
88. way They can be found in the Data Items tab in the toolbox in LOGIC E Toolbox gt Catalog Data Items E Fiter Ally gt Flags gt Registers gt Time Registers gt Real Time Clock wmolFS_Input_0 malFS Input 1 a FS_Input_2 1 5 Input 4 6 5 Input 5 malFS Input 6 1 malFS Input 7 malFS Input 8 malFS Input 9 malFS Input 10 malFS Input 11 malFS Input 12 malFsS Inout 13 x SSS 5 v Figure 5 22 INTERFACE system lOs These INTERFACE system IOs are used as 16 bit words In order to read these 16 bit words as individual bits the IFSToFlags and FlagsTolFS function blocks from the IN TERFACE System library are required which can be downloaded free of charge at phoe nixcontact net products Toolbox w Catalog Filter gt Basic gt Comparison gt Timer Counter gt Common Elements Ladder E def FlagsTolFS tc NumberTolFS E lt Uu 0 gt Data Items Figure 5 23 Function blocks The IFSToFlags function block can be used to break down an input word from the IFS gateway into its 16 bits The FlagsTolFS block combines the 16 individual bits into a 16 bit word that can be read by the IFS gateway PHOENIX CONTACT 75 PLC logic Since LOGIC uses double integers DINT 32 bits and the gateway uses integers INT 16 bits numerical values must be converted This conv
89. xo EM PB GATEWAY IFS IFSM Configuration EM PB GATEWAY IFS IFSM Process value configuration EDS Inputs Outputs Devices Process Data Mapping Device Name Device Type EM PE GATEWAY FS EM PE GATEWAY FSIIFSM o Q EM PB GATEWAY FS PLC VBC SC 24DC BM 1 PLC VBC SC 24DC BM 02 5 Dutput 00 PLCVBC SC 24DC BM 1 04 15 Output 01 PLC V8C SC 24DC 8M 1 06 Template om EM PB GATEWAY IFS IFSM Tag EM PB GATEWAY IFS PHCENIX Phoenix Contact GmbH amp Co KG CON TACT Fw 1 01 2012 08 01 1 PLC V8C SC 24DC BM IFS Output 00 IFS Output 01 IFS Dutput 02 IFS Output 03 IFS_Output_04 IFS_Output_05 IFS_Output_06 IFS_Output_0 IFS_Output_08 IFS_Output_09 IFS_Output_10 OK Cancel Apply Y 7 Test start 59 trs conf New Projec Figure 5 32 Process data configuration Inputs Outputs Here an output in LOGIC e g IFS Output 0 is an input for the gateway and can be found on the Input tab 16 Select PLC V8C BM in the Devices area Process data that can be selected is visible in the Process Data window 17 Move the required process data to the Process Data Mapping window by means of drag and drop 82 PHOENIX CONTACT 105868 en 00 105868 en 00 Startup For example IFS Output 00 IFS O

Use rmanualUM EN PLC logic

Contents

Download Pdf Manuals

Related Search

Related Contents