Data sheet IB IL 24/230 DOR 4/W-PC(-PAC)
Contents
1. PWR IN OE OB Ox Se w Ou Ou oO o lt u ea Go iji M 0 Ou Ol EI ore 2L Ll Oe 6326A006 is e Figure 6 Example Switching 230 V within a 24 V area 1 24 V area consisting of station head and I O terminals Ped 2 IB IL 24 230 DOR 4 W PC terminal Figure 7 Switching 24 V within a 24 V area separated from the 24 V area by distance terminals 1 24 V area consisting of station head and 3 24 V area consisting of a power terminal and I O terminals I O terminals 2 IB IL 24 230 DOR 4 W PC terminal l 3 24 V area consisting of a power terminal and See also Special Features of the IB IL 24 I O terminals 230 DOR 4 W PC Terminal on page 3 6530B PHCENIX 7 CONTACT IB IL 24 230 DOR 4 W PC PAC Interference Suppression Measures on Inductive Loads Switching Relay Each electrical load is a mixture of ohmic capacitive and inductive elements Depending on the proportion of the element switching these loads results in a larger or smaller load on the switch contact In practice loads are generally used with a large inductive element such as contacts solenoid valves motors etc Due to the energy stored in the coils voltage peaks of up to2. IB IL 24 230 DOR 4 W PC IB IL 24 230 DOR 4 W PC PAC Inline Terminal With Four Relay Changeover Contacts 6326A001 Data Sheet 6530B 03 2003 Features Safe isolation according to EN 50178 Electrically isolated connection for four actuators Nominal current at the output 3 A Total current of the terminal 4 x 3 A 2 12A LED diagnostic and status indicators Function The terminal is designed for use within an Inline station It has four electrically isolated relay changeover contacts The terminal is suitable for switching inductive and capacitive loads 6350A002 Figure 1 IB IL 24 230 DOR 4 W PC terminal with connectors 6530B PHCENIX 1 CONTACT IB IL 24 230 DOR 4 W PC PAC Safety Notes Correct Usage The terminal is only to be used within an Inline station Safety notes for Inline terminals for OU pasts as specified in this data sheet and the installation in voltage ranges outside the SELV AC area IB IL SYS PRO UM E User Manual or the Inline System Manual for your bus system Phoenix Contact Only qualified personnel may work on accepts no liability if the device is used for anything Inline terminals in the AC area other than its designated use Qualified personnel are people who because of their education experience and instruction and their knowledge of relevant standards regulations accident prevention and service conditions have been authorized by those resp
3. catalog or TRABTECH catalog Additional information is available on request In addition to this today the majority of contact manufacturers offer diode RC or varistor elements that can be snapped on For solenoid valves connectors with an integrated protective circuit can be used 6530B IB IL 24 230 DOR 4 W PC PAC Circuit Versions Protecting the load Series connection diode zener diode Suppressor diode 6530B Additional delay Long Medium to short Medium to short Medium to short Defined Induction Voltage Limitation Yes Uz Yes Uyor PHCENIX CONTACT Bipolar Effective Attenuation Advantages Disadvantages Advantages Easy implementation Cost effective Permitted Uncritical sizing Low induction voltage Disadvantages Attenuation only via load resistor High delay Advantages Uncritical sizing Disadvantages Attenuation only above Uzp Advantages Cost effective Uncritical sizing Limits positive peaks Suitable for AC voltage Disadvantages Attenuation only above Uzp Advantages High power absorption Uncritical sizing Suitable for AC voltage Disadvantages Attenuation only above Uypg 5663A029 IB IL 24 230 DOR 4 W PC PAC RC Circuit Versions RC Connected in Series Additional Delay Defined Induction Voltage Limitation Protecitng the Load R C combination Medium to sho
4. elays of IB IL 24 230 DOR 4 W PC terminals from one connector to the next via a jumper PHCENIX us CONTACT Internal Circuit Diagram Local bus UL ale Figure 3 Key 6530B IB IL 24 230 DOR 4 W PC PAC Internal wiring of the terminal points Protocol chip bus logic including voltage conditioning LED Terminal point without metal contact Relay FE or PE depending on the area in which the terminal is used Electrically isolated area I O area including relay contact isolated from the logic area including the relay coil through safe isolation according to EN 50178 6530A004 PHCENIX CONTACT IB IL 24 230 DOR 4 W PC PAC Connection Examples Connecting Actuators C Qo Main N C contact contact N O contact N C Main N O contact contact contact 6326A005 Figure 4 Typical connection of actuators 12 NC DD contact Main 13 contact 44 NO contact 5663A009 Figure 5 Output relay contacts PHCENIX CONTACT 6530B IB IL 24 230 DOR 4 W PC PAC Switching Voltages That Are Not Available in the Switching Voltages That Are Available in the Segment Segment E N
5. n AC area must be created corresponding to the installation instructions and notes given in the user manual Switching Voltages That Are Not Available in the Segment A relay terminal can be used to switch voltages that are not available in the segment in which the terminal is located e g switching 230 V AC within a 24 V DC segment In this case place a distance terminal before and after the IB IL 24 230 DOR 4 W PC terminal see Ordering Data on page 17 The isolating distances between the individual areas are thus maintained See also Connection Examples on page 6 een PHCENIX CONTACT IB IL 24 230 DOR 4 W PC PAC IB IL 24 230 DOR 4 W PC PAC General Description 6530A003 Figure 2 IB IL 24 230 DOR 4 W PC with an appropriate connector Function Identification Red with lightning bolt Housing Connector Color Gray housing Gray connector Local LED Diagnostic and Status Indicators Des Color Meaning D Green Diagnoses Yellow Output status indicator relay has picked up Terminal Assignment for Each Connector Poms mem Points me Not used no contact present 12 22 RelayN Ccontact 1 3 2 3 Relay main contact 1 4 24 Relay N O contact In the corresponding connector IB IL SCN 8 AC REL the adjacent contacts 1 2 2 2 1 3 2 3 and 1 4 2 4 are jumpered It is therefore possible to transmit the power to supply several r
6. ng cage connection IB IL SCN 8 AC REL 27 40290 gray w o color print pack of 10 Distance terminals IB IL DOR LV SET 27 42 64 1 isolation of various voltage areas pack of 1 set 2 pcs Connector for IB IL DOR LV SET IB IL DOR LV PLSET 27 42667 pack of 1 set 2 pcs Configuring and Installing the INTERBUS Inline Product IB IL SYS PRO UM E 27 43048 Range User Manual 6530B PHCENIX 17 CONTACT IB IL 24 230 DOR 4 W PC PAC Phoenix Contact GmbH amp Co KG Flachsmarktstr 8 32825 Blomberg Germany qum 49 52 35 300 amp 49 5235 341200 aL www phoenixcontact com T e Worldwide Locations www phoenixcontact com salesnetwork 18 PHCENIX CONTACT 6530B Phoenix Contact 03 2003 Technical modifications reserved TNR 90 11326
7. olong the life of the IB IL 24 230 DOR 4 W PC terminal as mush as possible when using lamp loads or capacitive loads the current peak must not exceed 6 A when the load is switched on Switching Large DC Loads In DC operation a relay can only switch a relatively low current compared with the maximum permissible alternating current This maximum direct current value is also highly dependent on the voltage and is determined in part by design conditions such as the contact distance and contact opening speed The corresponding current and voltage values are shown in Figure 9 6530B IB IL 24 230 DOR 4 W PC PAC 5663A013 Figure 9 DC load limiting curve REL SNR 1XU G 5 GOLD relay I Switching current in A U Switching voltage in V Definition of the load limiting curve For 1000 cycles no constant arc should occur with a burning life gt 10 ms An unattenuated inductive load further reduces the values given here for switching currents The energy stored in the inductivity can cause an arc to occur which forwards the current via the open contacts Using an effective contact protective circuit in relay contacts with the same life enables you to switch currents that are virtually the same as with ohmic loads Additional technical data is available on request PHCENIX H CONTACT IB IL 24 230 DOR 4 W PC PAC Prog
8. om the local bus 0 17 W 1 4 W Supply of the Module Electronics and I O Through Bus Terminal Power Terminal Connection method Through potential routing 6530B PHGNIX 13 CONTACT IB IL 24 230 DOR 4 W PC PAC Relay output Number Contact material Limiting continuous current at maximum ambient temperature Maximum switching voltage Maximum switching power AC DC Minimum load Switching current at 250 V DC 0 15 A Maximum inrush current peak for lamp loads and 6 A for T 200 us Capacitive loads see also the Table e switching Current for Ohmic Load Depending on the Nominal power consumption of the coil at 20 C 68 F Resistance of the coil at 20 C 68 F Maximum switching frequency without load Maximum switching frequency with nominal load Response delay Release time Electrical life 10 cycles at 20 cycles minute Common potentials All contacts electrically isolated 14 PHCENIX ee CONTACT IB IL 24 230 DOR 4 W PC PAC Maximum Switching Current for Ohmic Load Depending on the Switching Voltage With Direct Voltage Switching Voltage V DC Switching Current A 10 20 30 40 50 60 70 80 90 400 150 200V 250 U switch 5663A004 6530B PHCENIX 15 CONTACT IB IL 24 230 DOR 4 W PC PAC Maximum Switching Current Depending on the Temperature With Alternating Voltage 10 20 30 40 45 50 C 55 T 6326A008 Power Dissipation Formula to Calculate the Po
9. onsible for the safety of the plant to carry out any Dangerous voltage Please note that there are dangerous voltages when switching circuits that do not meet SELV requirements Only remove and insert the AC terminals when the power supply is disconnected When working on terminals and wiring always switch off the supply voltage and ensure it cannot be switched on again required operations and who are able to recognize and avoid any possible dangers Definitions for skilled workers according to EN 50110 1 1996 The instructions given in the Installation Instructions and IB IL SYS PRO UM E User Manual or Notes Install the system according to the requirements of EN 50178 the Inline System Manual for your bus Please use grounded AC networks system and in this data sheet must be followed during installation and startup Technical modifications reserved Inline AC terminals must only be operated in grounded AC networks Read the user manual gt gt D Please observe the installation instructions and installation notes in the IB IL SYS PRO UM E User Manual or the Inline System Manual for your bus system especially the information about the low voltage area PHCENIX s CONTACT Special Features of the IB IL 24 230 DOR 4 W PC Terminal Loads up to 230 V can be switched using the IB IL 24 230 DOR 4 W PC terminal Switching Loads in the 230 V Area To switch voltages outside the SELV area a
10. ramming Data Configuration Process Data Data Assignment of Terminal Points to OUT Process INTERBUS Data BDhex 89s Process data channel 4 bits Byte bit Bit 0 3 0 2 0 1 view Assignment N C contact ae Register length bus Other Bus Systems LED 12 PHCENIX ue CONTACT IB IL 24 230 DOR 4 W PC PAC Technical Data General Data Order Designation Order No IB IL 24 230 DOR 4 W PC PAC 2862 18 1 IB IL 24 230 DOR 4 W PC 28 60 41 3 1 921in x 4 724 in x 2 815 in 25 C 10 55 C 19 F to 131 F 250 to 485 C 13 F to 185 F Permissible humidity operation 75 on average 85 occasionally for example the terminal is brought into a closed room from a vehicle Permissible air pressure operation 80 kPa to 106 kPa up to 2000 m 6562 ft above sea level Permissible air pressure storage transport 70 kPa to 106 kPa up to 3000 m 9843 ft above sea level Degree of protection IP 20 according to IEC 60529 Mechanical Requirements Deviation From the Inline Specifications Vibration test 2g load 2 hours for each space direction sinusoidal vibrations according to IEC 60068 2 6 EN 60068 2 6 Shock test according to 2g load for 11 ms half sinusoidal wave IEC 60068 2 27 EN 60068 2 27 three shocks in each space direction and orientation Through data routing Power Consumption Communications power Current consumption from the local bus off on 22 mA 187 mA Power consumption fr
11. rt Sizing Capacitor C Li oaq 4 X RLoad Resistor R 0 2 x RLoad RC Parallel Circuit With Series Diode Defined Induction Voltage Limitation Protecting the load Additional Delay R C communication with diode Medium to short Sizing Capacitor C Li gag 4 x Road Resistor R 0 2 x Ri oad 10 PHCENIX CONTACT Bipolar Effective Attenuation Bipolar Effective Attenuation Advantages Disadvantages Advantages HF attenuation via power store Suitable for A C voltage Level independent attenuation Reactive current compensating Disadvantages Exact dimension required High inrush current 5663A030 Advantages Disadvantages Advantages HF attenuation via power store Level independant attenuation Current inversion not possible Disadvantages Exact dimension required Only suitable for DC voltage 5663A031 6530B Switching AC DC Loads Switching Large AC Loads When switching large AC loads the relay can be operated up to the corresponding maximum values for switching voltage current and power The arc that occurs during shutdown depends on the current voltage and phase angle This shutdown arc switches off automatically the next time the load current passes through zero In applications with an inductive load an effective protective circuit must be provided otherwise the life of the system will be reduced considerably To pr
12. several thousand volts may occur when the system is switched off These high voltages cause an arc which may destroy the controlling contact through material evaporation and material transfer This pulse which is similar to a square wave pulse emits electromagnetic pulses over a wide frequency range with a large amount of power and with spectral elements reaching several MHz To prevent such arcs from occurring it is necessary to fit the contacts loads with protective circuits The following protective circuits can be used Contact protective circuit Load protective circuit Combination of both protective circuits Yo D Er Contact protective circuit A load protective circuit B Figure 8 PHCENIX CONTACT If sized correctly these circuit versions do not differ greatly in their effectiveness In principle a protective measure should be directly implemented at the source of the interference In addition the following points should be observed for a load protective circuit When the contact is open the load is electrically isolated from the operating voltage tis not possible for the load to be activated or to stick due to undesired operating currents e g from RC elements Shutdown voltage peaks cannot be coupled in control lines that run in parallel Phoenix Contact provides protective circuit solutions in terminal format or in electronic housing see the CLIPLINE
13. wer Dissipation in the Terminal Pg Pgus Pret PL Pg 0 17 W 4 x 0 31 W lj x 0 04 Q Total power dissipation in the terminal Power dissipation through bus operation Power dissipation of the relay coil Power dissipation through the load current via the contacts Load current of the output Power Dissipation of the Housing Depending on the Ambient Temperature Puou 2 7 W 25 C 13 F lt Ta lt 25 C 77 F Puoy 2 7 W TA 25 C 77 F x 0 02 W C 25 C 77 F lt Ty 55 C 131 F Where PHou Permissible power dissipation of the housing TA Ambient temperature 16 PH NIX 6530B CONTACT IB IL 24 230 DOR 4 W PC PAC Safety Measures Error Messages to the Higher Level Control or Computer System Air and Creepance Distances According to EN 50178 VDE 0109 VDE 0110 Isolating Distance Clearance Creepance Test Voltage Distance Relay contact bus logic 2 5 5 mm 2 5 5 mm 4 kV 50 Hz 1 min 0 217 in 0 217 in 0 Contact contact gt 3 1 mm gt 3 1 mm 1 kV 50 Hz 1 min 0 122 in 0 122 in Contact PE gt 3 1 mm gt 3 1 mm 1 kV 50 Hz 1 min 0 122 in 0 122 in Ordering Data Descripion OrderBDesignation Terminal with four relay changeover contacts IB IL 24 230 DOR 4 W PC PAC 28 62 18 1 including connectors and labeling fields Terminal with four relay changeover contacts IB IL 24 230 DOR 4 W PC 28 60 41 3 Connector with seven terminals spri
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