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A good user manual
The rules should oblige the seller to give the purchaser an operating instrucion of WAGO Modular IO System INTERBUS S, along with an item. The lack of an instruction or false information given to customer shall constitute grounds to apply for a complaint because of nonconformity of goods with the contract. In accordance with the law, a customer can receive an instruction in non-paper form; lately graphic and electronic forms of the manuals, as well as instructional videos have been majorly used. A necessary precondition for this is the unmistakable, legible character of an instruction.
What is an instruction?
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Table of contents for the manual
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Page 1
Modular I/O Sy stem INTERBUS S Manual Technical description, installation and configuration 750-132 Version 2.2. 1[...]
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ii • Genera l Modular I/O System INTERBUS S Copy right ã 1997-2001 by WAGO Kontakttechnik GmbH All rights reserved. WA GO Kontakttechnik GmbH Hansastraße 27 D-32423 Minden Phone: +49 (0) 571/8 87 – 0 Fax: +49 (0) 571/8 87 – 1 69 E-Mail: info@wag o.com Web: http://www.wago.com Technical Support Phone: +49 (0) 571/8 87 – 5 55 Fax: +49 (0) 5[...]
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TABLE OF CONTENTS • iii Modular I/O System INTERBUS S T A BLE OF CONTENTS Section 1: Explanations Section 2: System Descript ion INTERBUS S, Configurat ion, Initial Starting, Diagnosis Section 3: Digital Inputs 750-400, 750-401, 750-402, 750-403, 750-405, 750-406, 750-410, 750-411, 750-408, 750-409, 750-412, 750-413, 750-414, 750-415 750-404 Sect[...]
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iv • Notes Modular I/O System INTERBUS S[...]
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INTERBUS S / General information :$*2 Ç , 2 Ç 6<67(0 1 FUNCTION IMPORTANT! For fast, trouble free installatio[...]
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INTERBUS S / General information :$* 2 Ç , 2 Ç 6<67(0 Table of contents chapter 2 1 The WAGO I/O SYSTEM 1 2 B[...]
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Interbus / Introduction :$*2 Ç , 2 Ç 6<67(0 1 1 The WAGO I/O System The WAGO I/O SYSTEM consists of various components[...]
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Interbus / Introduction :$*2 Ç , 2 Ç 6<67(0 2 Assembly of the WAGO I/O System All components of the system can be snap[...]
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Interbus / Introduction :$*2 Ç , 2 Ç 6<67(0 3 The clamping force adjusts automatically to the conductor cross section.[...]
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INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 3 2 Buscoupler - INTERBUS S 2.1 Buscoupler - Hardware Ill. 2: The INTERBUS[...]
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INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 4 2.2 Supply Voltage - Electronics Ill. 3: Termination points for the powe[...]
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INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 5 2.3 Supply Voltage - Field Side Ill. 4: Termination points for the suppl[...]
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INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 6 When using the supply module 750-601/602, the field supply from the bus [...]
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INTERBUS S / Buscoupler :$*2 Ç , 2 Ç 6<67(0 7 2.4 Bus connection and station (node) address Ill. 5: Bus connection Fie[...]
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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. Configuration interface Fig. X-1: Configuration interface g01xx06 e The communication cable (750-920) is connected to the 4-pole header. Warning The communication[...]
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INTEBUS S / Enclosure and specifications :$*2 Ç , 2 Ç 6<67(0 8 3 The Enclosure and Specifications SYSTEM DATA: 750-304 75[...]
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INTEBUS S / Enclosure and specifications :$*2 Ç , 2 Ç 6<67(0 9 TECHNICAL DATA: 750-304 dig.+analog 750-324 digital Number[...]
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INTEBUS S / Enclosure and specifications :$*2 Ç , 2 Ç 6<67(0 10 Interbus S buscoupler with extended diagnostics 750-304/0[...]
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I NTERBUS S / I nterbus S :$*2 Ç , 2 Ç 6<67(0 11 4 INTERBUS S The Interbus S sy stem (DI N 19245 part 1.2) is se[...]
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I NTERBUS S / I nterbus S :$*2 Ç , 2 Ç 6<67(0 12 4.2 Configuration software In order to make the connection betw[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 13 5 Configuration of the fieldbus node in the master 5.1 Identif[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 14 5.2 ID Code for WAGO I/O System Due to the combined use of dig[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 15 5.3 IBS CMD configuration software In the following chapter th[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 16 1) Automatic configuration Ill. 11: Automatic configuration If[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 17 2) Ident code Ill. 12: Insertion of the WAGO I/O System via th[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 18 Ill. 13: Insertion of the ID code and the data length With the[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 19 Ill. 14: Description of user[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 20 After all data has been entered and stored via OK, the station[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 21 5.4 Example of an application Ill. 19: Example of an applicati[...]
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INTERBUS S / Configuration :$*2 Ç , 2 Ç 6<67(0 22 The addresses indicated in the table results from the master c[...]
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INTERBUS S / Startup :$*2 Ç , 2 Ç 6<67(0 23 6 Buscoupler startup and troubleshooting After configuration of the [...]
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INTERBUS S / Startup :$*2 Ç , 2 Ç 6<67(0 24 After elimination of the fault, the buscoupler can only be set to th[...]
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INTERBUS / General conditions :$*2 Ç , 2 Ç 6<67(0 25 7 General conditions This chapter describes the general condition[...]
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INTERBUS / General conditions :$*2 Ç , 2 Ç 6<67(0 26 Test for Test sequence Remarks Oscillations Test for oscillations[...]
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INTERBUS / General conditions :$*2 Ç , 2 Ç 6<67(0 27 7.4 Electromagnetic compatibility Method of measurement Disturban[...]
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Digital Inputs 750-400...415 :$*2 Ç , 2 Ç 6<67(0 1 Digital Inputs (24 V AC/DC, 120 V AC, 230 V AC, 48 V DC) PN: 750-400...415 Technica[...]
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Digital Inputs 750-400...415 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 400 401 402 403 Number of inputs 2 4 Input filter [...]
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Digital Inputs 750-400...415 :$*2 Ç , 2 Ç 6<67(0 3 Item Number 750- 408 409 412 413 Number of inputs 4 2 Input filter 3 ms 0,2 ms 3 ms[...]
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Page 39
Counter Module 750-404 1 :$*2 ⇓ , 2 ⇓ 6<67(0 Counter modules PN 750-404, 750-404/000-001, 750-404/000-002 750-404/000-003, 750-404/000-004 Up/Down Counter 100 kHz, 750-404 Technical Description: Attention! The description that is in the I/O ring binder data pages (88-530/013-600 dated 7/96) is not correct. The bottom contacts are additio[...]
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Page 40
Counter Module 750-404 2 :$*2 ⇓ , 2 ⇓ 6<67(0 Technical Data: Item Number: 750- 404, 404/000-001 404/000-004 404/000-002 Number of outputs 2 Output current 0.5 A Number of counter 1 Input current (internal) 70 mA Nominal voltage 24 V DC (-15% +20%) Signal voltage (0) -3V.....+5V DC Signal voltage (1) +15V...+30V DC Switching rate 100 kHz [...]
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Counter Module 750-404 3 :$*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 V to 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 V the counter counts backwards. The two bottom contacts each [...]
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Counter Module 750-404 4 :$*2 ⇓ , 2 ⇓ 6<67(0 An example: The counter is set with “Set Counter” to the value 0x0000.0000 - 0X1X.XXXX, 0x00, 0x00, 0x00, 0x00 are carried over as output value (carry over the control-byte and the new counter position), -wait until the input value is 0X1X.XXXX, 0x00, 0x00, 0x00, 0x00 (the status-byte show[...]
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Page 43
Counter Module 750-404 5 :$*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 V to 24 V are counted. The counter counts down if the input [...]
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Page 44
Counter Module 750-404 6 :$*2 ⇓ , 2 ⇓ 6<67(0 Peak Time Counter 750-404/000-002 Technical data The counter module also can be ordered as peak time counter with 750-404/000-002. This description is only intended for hardware version X X X X 0 0 0 1- - - -. The serial number can be found on the right side of the module. The counter begins p[...]
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Page 45
Counter Module 750-404 7 :$*2 ⇓ , 2 ⇓ 6<67(0 Organization of the in- and output data: The counter begins processing with pulses at the CLOCK input for a special time span. The time span is predefined as 10 s. The state of the counter is stored in the processs image until the next period. After the recording the counting starts again at 0[...]
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Counter Module 750-404 8 :$*2 ⇓ , 2 ⇓ 6<67(0 Frequency Counter Module, 750-404/000-003 0V 0V 24V 24V S S +E2 750-4 04 GC l k Q1 Q2 + + - - Q1 St a tu s G ate Gate power jumper con ta cts Clo ck 24V Statu s CLOCK Q2 0V Q1 Q2 000-0 03 Technical Description The counter module 750-404/000-003 measures the period of the 24 V DC input signal a[...]
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Counter Module 750-404 9 :$*2 ⇓ , 2 ⇓ 6<67(0 Technical Data: Item-No.: 750- 404/000-003 Supply Voltage 24V DC (-15%/+20%) Input Voltage (low) -3V - 5V DC Input Voltage (high) 15V - 30V DC Input Current 5mA typ. at 24V DC Min. Pulse Width 10µs Output Current 0.5A (short circuit protection) Voltage Drop 0.6V DC max. at 0.5A Frequency Rang[...]
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Counter Module 750-404 10 :$*2 ⇓ , 2 ⇓ 6<67(0 Functional description The counter module acquires the time between one or more rising edges of the CLOCK input signal and calculates the frequency of the applied signal. The calculation and process image update are initiated every 1 st , every 4 th or every 16 th rising e dge depe nding on t[...]
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Page 49
Counter 750-404 :$*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[...]
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Counter 750-404 :$*2 Ç , 2 Ç 6<67(0 12 Structure of Input and Output data The input data contain the CLOCK frequency as a binary value[...]
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Counter 750-404 :$*2 Ç , 2 Ç 6<67(0 13 Organization of the in- and output data for Interbus Output value of the control unit: Byte Ide[...]
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Digital Outputs 750-501...504,516, 519 :$*2 Ç , 2 Ç 6<67(0 1 Digital Outputs (Standard) PN 750-501...504, 516, 519 Technical descripti[...]
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Digital Outputs 750-501...504,516, 519 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 501 502 Number of outputs 2 Kind of load[...]
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Digital Outputs 750-506 :$*2 Ç , 2 Ç 6<67(0 1 Digital Outputs (Standard with diagnostics) PN 750-506 Technical description: The power [...]
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Digital Outputs 750-506 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 506 Number of outputs 2 Current consumption (internal) [...]
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Digital Outputs 750-509 :$*2 Ç , 2 Ç 6<67(0 1 Digital Outputs (Solid State Relay) PN 750-509 Technical Description The power supply fo[...]
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Digital Outputs 750-509 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 509 Number of outputs 2 Current consumption (internal) [...]
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Page 58
Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 1 Pulsewidth Module PN 750-511 Technical Description: This description is for hard and s[...]
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Page 59
Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Part Number 750- 511 Number of outputs 2 Current consumption (internal[...]
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Page 60
Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 3 Formation of on/off times The programming of the on/off times occur with the resolutio[...]
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Page 61
Pulsewidth Module 750-511 :$*2 Ç , 2 Ç 6<67(0 4 Process Image Formation for Interbus The process imag e of the 750-511 appears with 6 [...]
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Page 62
Digital Outputs 750-512-514,517 :$*2 Ç , 2 Ç 6<67(0 1 Digital Outputs (Relay) PN 750-512...514, 517 Technical description: The power s[...]
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Page 63
Digital Outputs 750-512-514,517 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 512 513 Type of contact 2 make contacts Current[...]
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Page 64
Digital Outputs 750-512-514,517 :$*2 Ç , 2 Ç 6<67(0 3 Relays in the modules 750-512 and 750-513: 6 Z LW FK LQ J FDS D FL W 0,1 1 1[...]
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Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Inputs 0-20 mA / 4-20 mA (Differential Inputs) PN 750-452, 4[...]
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Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 452 454 482 484 Number of channels 2 2 Nomin[...]
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Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical form[...]
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Page 68
Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 bit indication of[...]
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Page 69
Analog Inputs 750-452, 454,482,484 :$*2 Ç , 2 Ç 6<67(0 5 Input current 0-20 mA Binary value X : without meaning F : short circuit open[...]
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Page 70
Analog Inputs 750-456 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Inputs +/- 10 V (Differential Inputs) PN 750-456, 750-456/000-001 Technic[...]
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Page 71
Analog Inputs 750-456 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 456, 456/000-001 Number of channels 2 Nominal voltage via[...]
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Page 72
Analog Inputs 750-456 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical format. The resol[...]
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Page 73
Analog Inputs 750-456 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 bit indication of the measured[...]
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Page 74
Input for PT100 750-461, 481 :$*2 Ç , 2 Ç 6<67(0 1 Input for PT 100 PN 750-461, 750-461/000-002, 750-461/000-003, 750-481 Technical de[...]
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Input for PT100 750-461, 481 :$* 2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750 - 461, 481, 461/000-002, 461/000-003 Number of inp[...]
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Page 76
Input for PT100 750-461, 481 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All temperature values will be shown in a unit numerical forma[...]
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Page 77
Input for PT100 750-461, 481 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for 750-461/000-002 All temperature values will be shown in a [...]
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Page 78
Input for PT100 750-461, 481 :$*2 Ç , 2 Ç 6<67(0 5 The numerical format for Siemens In addition to the full 16 bit indication of the m[...]
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Page 79
Input for thermocouple modules 750-462,469 :$*2 Ç , 2 Ç 6<67(0 1 Input for Thermocouple Modules PN 750-462, 750-469, 750-462/000-XXX T[...]
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Page 80
Input for thermocouple modules 750-462,469 :$* 2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750 - 462, 469 Number of inputs 2 (diffe[...]
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Page 81
Input for thermocouple modules 750-462,469 :$*2 Ç , 2 Ç 6<67(0 3 Temperature Ranges of the connectable sensors: L -25°C....+900°C K [...]
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Page 82
Input for thermocouple modules 750-462,469 :$*2 Ç , 2 Ç 6<67(0 4 The numerical formats All temperature values are represented in a uni[...]
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Page 83
Analog Inputs 750-465,466,486 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Input 0-20 mA / 4- 20 mA single ended PN 750-465, 750-466, 750-48[...]
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Page 84
Analog Inputs 750-465,466,486 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 465 465/000-001 466 486 Number of channels 2 Nomi[...]
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Page 85
Analog Inputs 750-465,466,486 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical format. T[...]
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Page 86
Analog Inputs 750-465,466,486 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 bit indication of the [...]
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Page 87
Analog Inputs 750-465,466,486 :$*2 Ç , 2 Ç 6<67(0 5 750-466/000-200 or 750-486: Input current 4-20mA Binary value X : without meaning [...]
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Page 88
Analog Inputs 750-467,468,487,488 :$*2 Ç , 2 Ç 6<67(0 1 2 / 4 Channel Analog Inputs 0-10 V single ended PN 750-467, 468, 487, 488 Tech[...]
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Page 89
Analog Inputs 750-467,468,487,488 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 467 468 487 488 Number of channels 2 4 2 4 No[...]
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Page 90
Analog Inputs 750-467,468,487,488 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical forma[...]
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Page 91
Analog Inputs 750-467,468,487,488 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 bit indication of [...]
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Page 92
Analog Inputs 750-472, 474 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Input 0-20mA / 4-20mA single ended PN 750-472, 750-472/000-200, 750-[...]
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Page 93
Analog Inputs 750-472, 474 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 472 472/000-200 474 474/000-0200 Number of channels [...]
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Page 94
Analog Inputs 750-472, 474 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format The resolution of 750-472 and 750-474 are 15 Bit. Input current [...]
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Page 95
Analog Inputs 750-472, 474 :$*2 Ç , 2 Ç 6<67(0 4 The numerical format for Siemens In addition to the full 16 Bit indication of the mea[...]
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Page 96
Analog Inputs 750-472, 474 :$*2 Ç , 2 Ç 6<67(0 5 Input current 0-20mA Binary value X : without meaning F : short circuit or F: open ci[...]
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Page 97
Analog Inputs 750-476, 478 4;13614<<< :$*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 DC 16 Bit s.e. 750-476/000-200 2-Channel Anal[...]
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Page 98
Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 2 Technical description This description is only intended for hardware and software version X X X X 0 4 0 1 - - - - .The serial number can be found on the right side of the module. The input channels are single ended and they have a common ground potential. The inputs are con[...]
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Page 99
Analog Inputs 750-476, 478 4;13614<<< :$*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 current consumption 75 mA typ. Input signal +/- 10 V 0 - 10 V Input impedance 130 k Ω typ. [...]
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Page 100
Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 4 The numerical format All analog values will be shown in a unit numerical format. The resolution for 750-476 and 750-478 is 15 Bit plus sign. 750-476, -478 Input voltage Value Status LED 0-10V ±10V Binary Hex. Dec. (hex) error I (1,2) >11 >11 0111 1111 1111 1111 0x7FF[...]
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Page 101
Analog Inputs 750-476, 478 4;13614<<< :$*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. from Siemens, a variant of the function clamp is available. The format containes the status in Bit B0 .. B2. The digitalized measuring value is placed at [...]
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Page 102
Analog Inputs 750-476, 478 4;13614<<< :$*2 ® , 2 2 ® 6<67(0 6 Status byte Structure of the status byte: bit 7 6 5 4 3 2 1 0 meaning 0 ERROR res. res. res. res. Overrange Underrange • ERROR error at the input channel. • Overrange exceed the allowable measuring range. • Underrange fall below the allowable measuring range.[...]
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Page 103
Analog Outputs 750-550,580 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Outputs 0-10 V PN 750-550, 750-580 Technical Description This descri[...]
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Page 104
Analog Outputs 750-550,580 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 550, 580 Number of channels 2 Nominal voltage via sy[...]
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Page 105
Analog Outputs 750-550,580 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format for Siemens In addition to the full 16 bit indication of the mea[...]
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Page 106
Analog Outputs 750-552, 554, 584 :$*2 Ç , 2 Ç 6<67(0 1 2 -Channel Analog Outputs 0-20 mA / 4-20 mA PN 750-552, 554, 584 Technical Desc[...]
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Page 107
Analog Outputs 750-552, 554, 584 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 552 554 584 Number of channels 2 Current consu[...]
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Page 108
Analog Outputs 750-552, 554, 584 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format for Siemens In addition to the full 16 bit indication of t[...]
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Page 109
Analog Outputs 750-556 :$*2 Ç , 2 Ç 6<67(0 1 2 Channel Analog Outputs +/- 10 V PN 750-556 Technical Description This description is on[...]
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Page 110
Analog Outputs 750-556 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 556 Number of channels 2 Nominal voltage via system volt[...]
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Page 111
Analog Outputs 750-556 :$*2 Ç , 2 Ç 6<67(0 3 The numerical format All analog values will be shown in a unit numerical format. The reso[...]
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Page 112
End module, Potential multiplication 750-600,614,616 :$*2 Ç , 2 Ç 6<67(0 1 End module, Potential multiplication module, Separation mod[...]
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Page 113
End module, Potential multiplication 750-600,614,616 :$*2 Ç , 2 Ç 6<67(0 2 Separation module Technical description: Use of this module[...]
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Page 114
Supply modules 750-601,602, 609,615,610,611,613 :$*2 Ç , 2 Ç 6<67(0 1 Supply modules PN750-601, 602, 609, 610, 611, 612, 613, 615 Tech[...]
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Page 115
Supply modules 750-601,602, 609,615,610,611,613 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Item Number 750- 602 612 613 Voltage 24 V DC 0 -[...]
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Binary spacer module 750-622 1 :$*2 ⇓ , 2 ⇓ 6<67(0 Binary spacer module PN 750-622 1234 5 ON Technical description The binary spacer module reserves bit-addresses in the WAGO buscoupler. The number of in or outputs can be chosen by two DIP switches. 2, 4, 6 or 8 bits are possible (1, 2, 3 or 4-channel modules). A third DIP[...]
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Binary spacer module 750-622 2 :$*2 ⇓ , 2 ⇓ 6<67(0 Technical Data Item number 750- 622 Number of in- or outputs 2, 4, 6 or 8 Nominal voltage 5 V DC internal Internal current consumption 10 mA max. Voltage (field side) 24 V DC (-15%/+20%) Current via power jumper contacts 10 A max. Input current (field side) - Isolation 500 V system/power[...]
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SSI encoder 750-630 :$*2 Ç , 2 Ç 6<67(0 1 SSI Encoder Interface PN 750-630, 750-630/000-001, 750-630/000-006 Technical Description: Th[...]
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SSI encoder 750-630 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Series 750 630 630/000-001 630/000-006 Encoder connections Data Input: D+; D[...]
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SSI encoder 750-630 :$*2 Ç , 2 Ç 6<67(0 3 Terminal Configuration: Input Type Function Signal D+ and Signal D- Input, RS422 Positional [...]
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SSI encoder 750-630 :$*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[...]
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Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 1 Quadrature Encoder Interface PN 750-631, 750-631/000-001 Technical Description: This [...]
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Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Series 750- 631 631/000-001 Encoder connections A, A(inv.); B, B(inv.[...]
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Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 3 Operational Characteristics: The quadrature encoder interface accepts up to two input[...]
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Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 4 The input Latch controls the overtaking of the actual counter value into the Latchreg[...]
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Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 5 It is possible to process and/or check the below listed actions via the control and s[...]
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Quadrature Encoder 750-631 :$*2 Ç , 2 Ç 6<67(0 6 Organization of the in- and output data for Interbus The module is seen like an analo[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 1 RS232C Interface, TTY Interface -20 mA Current Loop RS485C Interface PN 750-650,[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data: Series 750- 650,650/000-001 651 653 Transmission channel 2 (1/1)[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 3 FUNCTION Description of RS 232: The interface module is designed to operate with[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 4 FUNCTION Description of TTY: The interface module is designed to operate with al[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 5 FUNCTION Description of RS 485: The interface module is designed to operate with[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 6 Structure of input and output data: The module is a combined analog input and ou[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 7 The PLC is able to control transmission and reception of data by means of the co[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 8 Examples: The module is initialized. - The initialization bit in the control byt[...]
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RS232,TTY,RS485 750-650,651,653 :$*2 Ç , 2 Ç 6<67(0 9 - As soon as TA = TR, the data has been transferred to the output buffer . Input[...]
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RS232,TTY,RS485 750-650,651,653 :$* 2 Ç , 2 Ç 6<67(0 11 Structure of the in and output data for Interbus The module is a combined inpu[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 1 Data exchange module PN 750-654 Technical Description This technical description is[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 2 Technical Data Series 750- 654 Transmission channel TxD and RxD, full duplex, 2 cha[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 3 Description of data exchange module The data exchange module allows the exchange of[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 4 Structure of input and output data: The module is a combined special function input[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for Profibus (from firmware WH) The ID 179 (he[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for InterBus S (from firmware WF) The module i[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for DeviceNet (from firmware 306V2.2) The modu[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for Modbus (from firmware V2.3) The module is [...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for CanOpen (from firmware WI) The module is i[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for CAL (from firmware WE) Mode class 4: The d[...]
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Data exchange module 750-654 :$*2 Ç , 2 Ç 6<67(0 5 Structure of the in- and output data for LIGHTBUS (from firmware WD) Input Content [...]
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Application in Explosive Environments • 1 Foreword WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1 Application in Explosive Env iron ment s Ex-1.1 Forew ord Today’s development shows that many chemical and petrochemical companies have production plants, production, and process automation machines in operation which use gas-air, vapo r-air and dust[...]
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2 • Application in Explosive Environments Classification meeting CENEL EC and I EC WAGO-I/ O-SYSTEM 750 Modular I/O-System Explosive areas resulting from gases, fumes or mist: • Zone 0 areas are subject to an explosive atmosphere (> 1000 h / year) continuously or for extended periods. • Zone 1 areas can ex pect the occasi onal occurr ence [...]
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Application in Explosive Environments • 3 Classification meeting CENEL EC and I EC WAGO-I/ O-SYSTEM 750 Modular I/O-System Minimal ign ition energy of repres entative types of gases Explosion group I IIA IIB IIC Gases Methane P rop ane Eth ylene H ydro gen Igni tion energy (µJ) 280 250 82 16 Hydrogen being commonly encountered in chemical plants[...]
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4 • Application in Explosive Environments Classification meeting CENEL EC and I EC WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1.3.4 T emperature classes The maximum surface temperature for electrical components of ex plosion protection group I is 150 °C (danger due to coal dust deposits) or 450 °C (if there is no danger of coal dust deposit). I[...]
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Application in Explosive Environments • 5 Classification meeting CENEL EC and I EC WAGO-I/ O-SYSTEM 750 Modular I/O-System Identifi- cation CENELEC standard IEC standard Explan ation Application EEx o EN 50 0 15 IEC 79-6 Oil en capsulation Zone 1 + 2 EEx p EN 50 0 16 IEC 79- 2 Overpressure encapsulation Zone 1 + 2 EEx q EN 50 0 17 IEC 79-5 Sand e[...]
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6 • Application in Explosive Environments Classification s meeting the NEC 500 WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1.4 Classifica tions meet ing the NEC 50 0 The following classifications according to NEC 500 (National E lect ric C ode) are valid fo r North Ameri ca. Ex-1.4.1 Division s The "Divisions" describe the degree of prob[...]
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Application in Explosive Environments • 7 Classification s meeting the NEC 500 WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1.4.3 T emperature classes Electrical compon ents for ex plosive areas ar e differenti ated by temperat ure classes: Temperature classes Maximum surface temperature Ignition temp erature of the combustible materials T1 450 °C[...]
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8 • Application in Explosive Environments Identificat ion WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1.5 Identificatio n Ex-1.5.1 For Eur ope According to CENELEC and IEC Hansastr . 27 D-32423 Minden ITEM-NO.:750-400 2DI 24V DC 3.0ms 0.08-2.5mm 2 0V 24V DI1 Di2 P A TENTS PENDING I I3G KEMA 01A TEX1024 X EEx nA II T4 CL I DIV 2 Grp. A B C D op tem[...]
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Application in Explosive Environments • 9 Identificat ion WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1.5.2 For A merica According to NEC 500 Hansastr . 27 D-32423 Minden ITEM-NO.:750-400 2DI 24V DC 3.0ms 0.08-2.5mm 2 0V 24V DI1 Di2 P A TENTS PENDING II 3 G KEMA 01A TEX1024 X EEx nA II T4 CL I DIV 2 Grp. A B C D op temp code T4A 24V DC AWG 28-14 5[...]
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10 • Application in Explosiv e Environments Installation regulations WAGO-I/ O-SYSTEM 750 Modular I/O-System Ex-1.6 Inst allati on regulations In t he Federal Republic of Germany, various national regulations for the installation in explosive areas must be taken into consideration. The basis being the ElexV complemented by the installation regula[...]
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Application in Explosive Environments • 11 Installation regulations WAGO-I/ O-SYSTEM 750 Modular I/O-System Danger For the use of WAGO-I/O SYSTEM 750 (electri cal operating means) with E x approval the observance of the following points is mandator y: • The electrical operatin g means are ex clusivel y suitable for applicati ons in explosion en[...]
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W AGO Kontak ttechnik GmbH Postfac h 2880 • D-32385 M inden Hansastraße 27 • D-3242 3 Mind en Phone: 05 71/8 8 7 – 0 Fax: 05 71/8 87 – 1 69 E-Mail: inf o@wago.c om Internet: http://www. wago.com[...]