Quatech INTERBUS S - Manual

INTERBUS S / General information :$*2 Ç , 2 Ç 6<67(0 Table of contents chapter 2 1 The WAGO I/O SYSTEM 1 2 Buscoupler Interbus S 2 2.1 Buscoupler-Hardware 2 2.2 Supply voltage - Electronics 3 2.3 Supply voltage - Field Side 4 2.4 Bus connection and station address 5 3 Enclosure and technical data...

Interbus / Introduction :$*2 Ç , 2 Ç 6<67(0 1 1 The WAGO I/O System The WAGO I/O SYSTEM consists of various components which are capable ofproviding modular and application specific fieldbus nodes for various fieldbusses. I11.1 Setting up a fieldbus node with the WAGO I/O SYSTEM General remark:A ...

Interbus / Introduction :$*2 Ç , 2 Ç 6<67(0 2 Assembly of the WAGO I/O SystemAll components of the system can be snapped directly on a carrier rail according to EN50022 (DIN 35).When snapping the analog or digital components onto the rail, no special sequence mustbe observed. The secure positioni...

INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 3 2 Buscoupler - INTERBUS S 2.1 Buscoupler - Hardware Ill. 2: The INTERBUS buscoupler The 750-304 Interbus coupler consists of two major electronic sub systems: left side:This housing contains the electronics for the coupling to the bus, the processoran...

INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 4 2.2 Supply Voltage - Electronics Ill. 3: Termination points for the power supply and the internal electronics The nominal operating voltage of the Buscoupler and the control electronics in thefunction modules is 5 V DC. The supply is connected to the ...

INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 5 2.3 Supply Voltage - Field Side Ill. 4: Termination points for the supply voltage - Field side The connection of the supply voltage is electrically isolated from the internalelectronics. Two CAGE CLAMPS are always connected by a power contact. By this...

INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 7 2.4 Bus connection and station (node) address Ill. 5: Bus connection Fieldbus connection: The Interbus interface is normally provided by D SUB connection according to USStandard EIA RS485 for data transmission by wires. Outgoing D-SUB (OUT) PIN cable ...

INTERBUS 7a WAGO-I/O-SYSTEM 750 Configuration Interface The configuration interface used for the communication with WAGO-I/O-CHECK or for firmware upload is located behind the cover flap. Configurationinterface Fig. X-1: Configuration interface g01xx06e The communication cable (750-920) is connected...

INTEBUS S / Enclosure and specifications :$*2 Ç , 2 Ç 6<67(0 8 3 The Enclosure and Specifications SYSTEM DATA: 750-304 750-324 Number of function modules 256 on request Number of I/O points 4096 on request Transmission medium shielded Cu-cable (5 x 0.25 mm²) max. bus length 400 m Baud rate 500 kB...

INTEBUS S / Enclosure and specifications :$*2 Ç , 2 Ç 6<67(0 10 Interbus S buscoupler with extended diagnostics 750-304/000-001 The Interbus S buscoupler with no. 750-304/000-001 has the possibility of extenteddiagnostic functions. The technical data is the same as 750-304.Different from the stan...

INTERBUS S / Interbus S :$*2 Ç , 2 Ç 6<67(0 11 4 INTERBUS S The Interbus S system (DIN 19245 part 1.2) is set up as a data ring with a central masterslave access procedure. All modules are understood as one logical module. Each partnerreceives data at its input and sends it to the next partner at...

INTERBUS S / Interbus S :$*2 Ç , 2 Ç 6<67(0 12 4.2 Configuration software In order to make the connection between a PLC or PC and the remote stations, themaster cards must be configured with the individual station data. For this, the following software packages are available. For example, the fol...

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 13 5 Configuration of the fieldbus node in the master 5.1 Identification Code In the ID cycle which is carried out for the initialization of the Interbus system, the usersconnected users are identified by their function and their byte length. The Int...

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 14 5.2 ID Code for WAGO I/O System Due to the combined use of digital, analog and special functions on one fieldbus stationand with the given structure of the Interbus ID codes, it is impossible to manage withone ID code.The WAGO Interbus S buscouple...

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 15 5.3 IBS CMD configuration software In the following chapter the configuration package IBS CMD configuration software ispresented in short form. This procedure facilitates operation of the WAGO Interbusbuscoupler. Further and specific information i...

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 16 1) Automatic configuration Ill. 11: Automatic configuration If the complete fieldbus system with all stations and the master interface is operational,automatic configuration of the connected stations can be called up via the menu „busstructure“. T...

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 18 Ill. 13: Insertion of the ID code and the data length With the finalization of the entries via the key OK, a menu for the definition of the userwill appear.

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 21 5.4 Example of an application Ill. 19: Example of an application The Interbus S station is composed as follows: Function module Process image inputs Process image outputs 1; Digital input PI 32.0 1; Digital Input PI 32.1 2; Digital Input PI 32.2 2...

INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 22 The addresses indicated in the table results from the master configuration started in thebasic address. By the internal structure of the Interbus coupler, the process image isdivided as follows: O0 Output data .........word orientated data....O x ...

INTERBUS S / Startup :$*2 Ç , 2 Ç 6<67(0 23 6 Buscoupler startup and troubleshooting After configuration of the master connection and electrical installation of the fieldbusnode/station, operation of the system can begin. After power to the Buscoupler and I/O modules has been applied, the Buscoup...

INTERBUS S / Startup :$*2 Ç , 2 Ç 6<67(0 24 After elimination of the fault, the buscoupler can only be set to the normal workingcondition by another POWER ON sequence.The green I/O LED flashes when accessing the I/O modules internal data channels.After being switched on, the buscoupler queries th...

INTERBUS / General conditions :$*2 Ç , 2 Ç 6<67(0 25 7 General conditions This chapter describes the general conditions for error-free running of the :$*2 Ç , 2 Ç 6<67(0 7.1 Transporting and storing conditions The following declarations concern modules which are transported and stored in theor...

INTERBUS / General conditions :$*2 Ç , 2 Ç 6<67(0 26 Test for Test sequence Remarks Oscillations Test for oscillationsIEC 68, part 2-6 Type of oscillation: sweep with a rate ofchange of 1 octave per minute10 Hz ≤ f < 57 Hz, const. amplitude 0,075mm57 Hz ≤ f ≤ 150 Hz, const. acceleration 1 gper...

INTERBUS / General conditions :$*2 Ç , 2 Ç 6<67(0 27 7.4 Electromagnetic compatibility Method of measurement Disturbance Interference with narrow-band conducteddisturbance EN 50082-2, A Interference with impulse groups EN 50082-2, B Discharge of static electricity EN 50082-2, B Interference with ...

Digital Inputs 750-400...415 :$*2 Ç , 2 Ç 6<67(0 1 Digital Inputs (24 V AC/DC, 120 V AC, 230 V AC, 48 V DC)PN: 750-400...415 Technical description The supply is applied by a series-connected termination to each I/O module for therespective operating voltage. Power connections are made automatical...

Counter Module 750-404 1 :$*2 ⇓ , 2 ⇓ 6<67(0 Counter modulesPN 750-404, 750-404/000-001, 750-404/000-002750-404/000-003, 750-404/000-004Up/Down Counter 100 kHz, 750-404 Technical Description: Attention! The description that is in the I/O ring binder data pages (88-530/013-600dated 7/96) is not co...

Counter Module 750-404 3 :$*2 ⇓ , 2 ⇓ 6<67(0 Organization of the in- and output data: The counter begins processing with pulses at the CLOCK input. The changes from 0 Vto 24 V are counted. The counter counts up, if the input U/D is set at 24 V. With an open circuit input or 0 Vthe counter counts ...

Counter Module 750-404 5 :$*2 ⇓ , 2 ⇓ 6<67(0 Counter with enable input 750-404/000-001 Technical description: The counter module also can be ordered as counter with enable input (750-404/000-001). The counter begins processing with pulses at the CLOCK input. The changes from 0 Vto 24 V are counte...

Counter Module 750-404 6 :$*2 ⇓ , 2 ⇓ 6<67(0 Peak Time Counter 750-404/000-002 Technical data The counter module also can be ordered as peak time counter with 750-404/000-002. This description is only intended for hardware version X X X X 0 0 0 1- - - -. Theserial number can be found on the right...

Counter Module 750-404 8 :$*2 ⇓ , 2 ⇓ 6<67(0 Frequency Counter Module, 750-404/000-003 0V 0V 24V 24V S S +E2 750-404 G Clk Q1 Q2 + + - - Q1 Status Gate Gate power jumpercontacts Clock 24V Status CLOCK Q2 0V Q1 Q2 000-003 Technical Description The counter module 750-404/000-003 measures the period...

Counter Module 750-404 10 :$*2 ⇓ , 2 ⇓ 6<67(0 Functional description The counter module acquires the time between one or more rising edges of the CLOCKinput signal and calculates the frequency of the applied signal.The calculation and process image update are initiated every 1 st , every 4 th or ...

Counter 750-404 :$*2 Ç , 2 Ç 6<67(0 11 Structure of CONTROL and STATUS byte CONTROL Byte E E E E E E E E 5(*B5(4 7 9' 5(4 6(7B4 6(7B4 5$1*(B6(/ 5(4 5$1*(B6(/ 5(4 5(*B5(4 15':5 5(*B$ 5(*B$ 5(*B$ 5(*B$ 5(*B$ 5(*B$ Bit Description 5(*B5(4 $FFHVVWRWKHUHJLVWHUVWUXFWXUHLVUHTXHVWHGEEFRQWDLQWKHDGGUHVVRIW...

Counter 750-404 :$*2 Ç , 2 Ç 6<67(0 12 Structure of Input and Output data The input data contain the CLOCK frequency as a binary value. The representationdepends on the RANGE_SEL bits in the CONTROL byte. Even the method ofmeasuring is selected via these bits. The following table illustrates the ...

Counter 750-404 :$*2 Ç , 2 Ç 6<67(0 13 Organization of the in- and output data for Interbus Output value of the control unit: Byte Identification D15-D0 Control Byte Output Byte 1 D31-D16 Output Byte 0 Output Byte 3 D47-D32 Output Byte 2 Input value of the control unit: Byte Identification D15-D0...

Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 1 Pulsewidth ModulePN 750-511 Technical Description: This description is for hard and software version X X X X 2 B 0 2- - - - . The partnumber is displayed on the right side of the module. The initial pre-programmed base frequency is for 250 Hz. The r...

Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 3 Formation of on/off times The programming of the on/off times occur with the resolution of 10 bits. The five LSBof the 16 bit value can be zeros or one. The MSB will hold the sign and is preset to thenull state. Duty Cycle % Increments Binary Value ...

Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 4 Process Image Formation for Interbus The process image of the 750-511 appears with 6 bytes of input and 6 bytes of outputdata. The byte allocation for the preset duty cycle has the following modes of formation:Output values: Function D0 Control Byte...

Digital Outputs 750-512-514,517 :$*2 Ç , 2 Ç 6<67(0 3 Relays in the modules 750-512 and 750-513: 6ZLWFKLQJFDSDFLW\ 0,1 1 10 10 100 1000 6ZLWFKHGYROWDJH>9@ 6Z LW FK HG F XU UH Q W >$ @ 7\SLFDOHOHFWULFDOOLIHWLPH 1,E+04 1,E+05 1,E+06 0,1 1 10 6ZLWFKHGFXUUHQW>$@ 1 XP E HU R I VZ LW FK HV AC ...

Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Inputs 0-20 mA / 4-20 mA(Differential Inputs)PN 750-452, 454, 750-482, 750-484 Technical Description This description is only intended for hardware version X X X X 2 A 0 0 - - - -. Theserial number can be found on the right...

Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical format. The resolution is 12 Bits.The following table will explain the numerical format . (750-452, 454). The 3 least significant Bits are not taken into account. Inpu...

Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 bit indication of the measured value it is possible to use the‘Siemens format’. The measured value is represented by the most significant 12 Bits.The 3 least significant Bits are r...

Analog Inputs 750-456 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical format. The resolution is 12 Bitsand the 3 LSBs are not taken into account. The following table will explain thenumerical format . Input voltage ±10V Binary value Hex. Dec. Status ...

Input for PT100 750-461, 481 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All temperature values will be shown in a unit numerical format. If the mode‘DEFAULT’ is selected each bit corresponds to 0.1°C. The possible numerical rangerefers to the standardized temperature range of the used sensors. Th...

Input for PT100 750-461, 481 :$*2 Ç , 2 Ç 6<67(0 5 The numerical format for Siemens In addition to the full 16 bit indication of the measured value it is possible to use the‘Siemens format’. The measured value is represented by the most significant 12 Bits.The 4 least significant Bits are reserve...

Input for thermocouple modules 750-462,469 :$*2 Ç , 2 Ç 6<67(0 3 Temperature Ranges of the connectable sensors: L -25°C....+900°C K -100°C...1370°C (Default) J -100°C...+1200°C 750-462/000-006 750-469/000-006 E -100°C...1000°C 750-462/000-008 750-469/000-008 T -100°C...+400°C 750-462/000-002 750-...

Input for thermocouple modules 750-462,469 :$*2 Ç , 2 Ç 6<67(0 4 The numerical formats All temperature values are represented in a uniform numerical format. In the defaultsetting (type K) one Bit corresponds to 0.1°C. The output value corresponds to thetemperature range of each sensor as defined ...

Analog Inputs 750-467,468,487,488 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 bit indication of the measured value it is possible to use the‘Siemens format’. The measured value is represented by the most significant 12 Bits.The 3 least significant Bits are re...

Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 1 2-Channel Analog Input ± 10 V, 16 Bit, single ended 750-476 0 -10 V, 16 Bit, single ended 750-478 Function clamp and variants Item-No. Description Identification 750-476 2-Channel Analog Input± 10 V, single ended 2 AI ± 10 V D...

Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 3 Technical Data Item Number 750-476 750-476/000-200 750-478 750-478/000-200 Number of channels 2 Nominal voltage via system voltage (DC/DC) Overvoltage resistance 24 V max. Internal currentconsumption 75 mA typ. Input signal +/...

Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 5 Numerical format with status information For fieldbus master, which evaluates status information in the data word, e.g. fromSiemens, a variant of the function clamp is available.The format containes the status in Bit B0 .. B2....

Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 6 Status byte Structure of the status byte: bit 7 6 5 4 3 2 1 0 meaning 0 ERROR res. res. res. res. Overrange Underrange • ERROR error at the input channel. • Overrange exceed the allowable measuring range. • Underrange fall bel...

Analog Outputs 750-550,580 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Outputs 0-10 VPN 750-550, 750-580 Technical Description This description is only intended for hardware version X X X X 2 A 0 1 - - - -. Theserial number can be found on the right side of the module. The output signal of 750-550/551...

Analog Outputs 750-550,580 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format for Siemens In addition to the full 16 bit indication of the measured value it is possible to use the‘Siemens format’. The measured value is represented by the most significant 12 Bits.The 3 least significant Bits are reserved ...

Analog Outputs 750-556 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical format. The resolution is 12 Bitsand the 3 LSBs are ignored. The following table will explain the numerical format . Input voltage +/- 10 V Binary Value Hex. Dec. 10 0111 1111 111...

End module, Potential multiplication 750-600,614,616 :$*2 Ç , 2 Ç 6<67(0 1 End module, Potential multiplication module,Separation modulePN750-600, 750-614, 750-616, 750-616/030-000 Technical Description After the fieldbus node is assembled with the correct buscoupler and selected I/Omodules, the ...

End module, Potential multiplication 750-600,614,616 :$*2 Ç , 2 Ç 6<67(0 2 Separation module Technical description: Use of this module allows increased air- and creepage distances between different fieldvoltages within a node. There are two different types of the separation module. With PN 750-61...

SSI encoder 750-630 :$*2 Ç , 2 Ç 6<67(0 1 SSI Encoder InterfacePN 750-630, 750-630/000-001, 750-630/000-006 Technical Description: This technical description is only valid for hardware and software versionsX X X X 2 B 0 2----. The product series number is printed on the right side of themodule. T...

SSI encoder 750-630 :$*2 Ç , 2 Ç 6<67(0 3 Terminal Configuration: Input Type Function Signal D+ and Signal D- Input, RS422 Positional data from encoder, Graycode. Signal Cl+ and Signal CL- Output, RS422 Clock signal output for communications interface. +24 V DC Input 24 V DC supply voltage to mod...

SSI encoder 750-630 :$*2 Ç , 2 Ç 6<67(0 4 Organization of the in- and output data for Interbus The module is seen like an analog input with 2 x 16 Bit input data. Inputs: Word Data Word Designation D0 (Bit 0-15) Positional data,Input byte 1 Positional data,Input byte 0 D1 (Bit 16-31) Positional d...

Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 1 Quadrature Encoder InterfacePN 750-631, 750-631/000-001 Technical Description: This technical description is only valid for hardware and software versions X X X X 2 B0 1----. The product series number is printed on the right side of the module. The...

Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 3 Operational Characteristics: The quadrature encoder interface accepts up to two input signals for the countingincrement. The index pulse may also be considered should the control configurationrequire. There is also a Latch and Gate input available ...

Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 4 The input Latch controls the overtaking of the actual counter value into theLatchregister. This input is activated by teh control bit EN_LATEXT („1“). EN_LACThas to be deactivated („0“). The first change from 0 V to 24 V at the Latch input takesthe...

Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 6 Organization of the in- and output data for Interbus The module is seen like an analog module with 3 x 16 Bit input and output data. Outputs: Word function D0 (Bit 0-15) control byte set counter-Byte1 D1 (Bit 16-31) set counter-Byte0 D2 (Bit 32-47)...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 1 RS232C Interface, TTY Interface -20 mA Current LoopRS485C InterfacePN 750-650, 750-651, 750-653, 750-650/000-001 Technical Description: This technical description is only valid for hardware and software versions X X X X 2 C0 3----. The product...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 3 FUNCTION Description of RS 232: The interface module is designed to operate with all WAGO I/O fieldbus couplers. Theserial interface module allows the connection of RS 232-Interface devices to the WAGOI/O SYSTEM. The RS 232 Interface module ca...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 5 FUNCTION Description of RS 485: The interface module is designed to operate with all WAGO I/O fieldbus couplers. Theserial interface module allows the connection of RS485 or RS488-Interface devices tothe WAGO I/O SYSTEM. The RS485/RS488 Interf...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 6 Structure of input and output data: The module is a combined analog input and output module with 2 x 16 bit input andoutput data. The transfer of the data to be transmitted and the received data is made viaup to 3 output and 3 input bytes. One...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 7 The PLC is able to control transmission and reception of data by means of the controlbyte and the status byte. Initialization of the module: • set IR in the control byte • transmit/receive functions are blocked • output/input buffers are erase...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 8 Examples: The module is initialized. - The initialization bit in the control byte is set. Output byte 0 Control byte Output byte 2 Output byte 1 0x00 0000.0100 0x00 0x00 - After the initialization has been executed, the status byte will give b...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 9 - As soon as TA = TR, the data has been transferred to the output buffer. Input byte 0 Status byte Input byte 2 Input byte 1 XX 0XXX.XXX1 XX XX The data is still being transferred. XX 0XXX.XXX0 XX XX Data transfer completed. Receiving the char...

RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 11 Structure of the in and output data for Interbus The module is a combined input and output module with 2 x 16 bit input and outputdata. Outputs: Word Description D0 (bit 0-15) Output byte0 Control byteD1(bit16-31) Output byte2 Output byte1 In...

Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 1 Data exchange modulePN 750-654 Technical Description This technical description is only valid for hardware and software versionx X X X X 2C 0 0 - - - -. The product series number is printed on the right side of the module. The operational mode de...

Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data Series 750- 654 Transmission channel TxD and RxD, full duplex, 2 channel Transmission rate 62500 Baud Bit transmission via 2 twisted pair with differential signals Resistance of cable 120 Ω Current Consumption (internal) 65 mA max....

Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 3 Description of data exchange module The data exchange module allows the exchange of 4 (5) bytes between different fieldbussystems via multiplexing of a serial connection. The delay which is caused by themultiplexor is < 5ms. The integrated wat...

Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for Profibus (from firmware WH) The ID 179 (hex: 0xB3), ( Data consistence over 4 Byte) is used. Outputs Byte Description D0 Output byte0 D1 Output byte1 D2 Output byte2 D3 Output byte3 Inputs Byte Description...

Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for CanOpen (from firmware WI) The module is in the list with Index 0x2400 (input) and Index 0x2500 (output). Themodule has 2 subindexes. 2 Byte special modules, Inputs Idx SIdx Name Type Attrib. Default Descr...

Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for CAL (from firmware WE) Mode class 4:The data is in the 2 Byte objects #BK_AI2W0_XXX, #BK_AI2W1_XXX and#BK_A02W0_XXX. Each module has 2 values. Input Mux Content Description n Input byte0, Input byte1 1. an...

Application in Explosive Environments • 1 Foreword WAGO-I/O-SYSTEM 750Modular I/O-System Ex-1 Application in Explosive Environments Ex-1.1 Foreword Today’s development shows that many chemical and petrochemicalcompanies have production plants, production, and process automationmachines in operation ...

Application in Explosive Environments • 3 Classification meeting CENELEC and IEC WAGO-I/O-SYSTEM 750Modular I/O-System Minimal ignition energy of representative types of gases Explosion group I IIA IIB IIC Gases Methane Propane Ethylene Hydrogen Ignition energy (µJ) 280 250 82 16 Hydrogen being comm...

4 • Application in Explosive EnvironmentsClassification meeting CENELEC and IEC WAGO-I/O-SYSTEM 750 Modular I/O-System Ex-1.3.4 Temperature classes The maximum surface temperature for electrical components of explosionprotection group I is 150 °C (danger due to coal dust deposits) or 450 °C (ifthere...

Application in Explosive Environments • 5 Classification meeting CENELEC and IEC WAGO-I/O-SYSTEM 750Modular I/O-System Identifi-cation CENELECstandard IECstandard Explanation Application EEx o EN 50 015 IEC 79-6 Oil encapsulation Zone 1 + 2 EEx p EN 50 016 IEC 79-2 Overpressureencapsulation Zone 1 +...

6 • Application in Explosive EnvironmentsClassifications meeting the NEC 500 WAGO-I/O-SYSTEM 750 Modular I/O-System Ex-1.4 Classifications meeting the NEC 500 The following classifications according to NEC 500 (National Electric Code)are valid for North America. Ex-1.4.1 Divisions The "Divisions...

8 • Application in Explosive EnvironmentsIdentification WAGO-I/O-SYSTEM 750 Modular I/O-System Ex-1.5 Identification Ex-1.5.1 For Europe According to CENELEC and IEC Hansastr. 27 D-32423 Minden ITEM-NO.:750-4002DI 24V DC 3.0ms0.08-2.5mm 2 0V 24V DI1 Di2 PATENTS PENDING II 3 G KEMA 01ATEX1024 X EEx n...

Application in Explosive Environments • 9 Identification WAGO-I/O-SYSTEM 750Modular I/O-System Ex-1.5.2 For America According to NEC 500 Hansastr. 27 D-32423 Minden ITEM-NO.:750-4002DI 24V DC 3.0ms0.08-2.5mm 2 0V 24V DI1 Di2 PATENTS PENDING II 3 G KEMA 01ATEX1024 X EEx nA II T4 CL I DIV 2 Grp. A B C...

Application in Explosive Environments • 11 Installation regulations WAGO-I/O-SYSTEM 750Modular I/O-System Danger For the use of WAGO-I/O SYSTEM 750 (electrical operating means) with Exapproval the observance of the following points is mandatory: • The electrical operating means are exclusively suita...