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Quatech INTERBUS S manual Technical Data, The numerical format

Models: INTERBUS S

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Technical Data:

Item Number 750-

Number of channels

Current consumption (internal)

Nominal voltage

Signal current

Resistance

Resolution

Isolation

Bit width per channel

Operating temperature

Configuration

Wire connection

Dimensions (mm)WxHxL

552

554

584

2

60 mA max.

24 V DC (-15% /+20%) via power jumper contacts

0-20mA		4-20mA		4-20mA
		<500 Ω
		12 Bit
	500 V system/power supply
	16 Bit Data, 8 Bit Control/Status
		0°C....+55°C

none, optional via software parameter

CAGE CLAMP; 0.08 to 2.5mm2

12 x 64* x 100 (*from upper edge of carrier rail)

The numerical format

All analog values will be shown in a unit numerical format. The following table will explain the numerical format. (750-552/554). The 3 LSBs are not taken into account.

Output	Output	Binary Value
current 0-20	current 4-20		Hex.	Dec.
20	20	0111 1111 1111 1111	7F FF	32767

10

12

0100 0000 0000 0000

40 00

16384

5

8

0010 0000 0000 0000

20 00

8192

2.5

6

0001 0000 0000 0000

10 00

4096

0.156

4.125

0000 0001 0000 0000

01 00

256

0.01

4.0078

0000 0000 0001 0000

00 10

16

0.005

4.0039

0000 0000 0000 1000

00 08

8

0

4

0000 0000 0000 0111

00 07

7

0

4

0000 0000 0000 0000

0

0

AnalogOutputs 750-552, 554, 584

2

:$*2Ç,2Ç6<67(0

Image 107

Quatech INTERBUS S manual Technical Data, The numerical format

Contents

Modular I/O System INTERBUS S Manual Technical description, installation and configuration 750-132 VersionModular I/O System INTERBUS S WAGO Kontakttechnik GmbHTechnical Support ii GeneralInitial Starting, Diagnosis Section 3 Digital Inputs TABLE OF CONTENTSSection 2 System Description INTERBUS S, Configuration Section 1 ExplanationsModular I/O System INTERBUS S iv NotesThe user is most important to us Explanation of symbols used1 The WAGO I/O SYSTEM Enclosure and technical dataConfiguration of the fieldbus node in the master Starting of operation and diagnostics2 - Function modules 1 The WAGO I/O SystemGeneral remark 1 - BuscouplerAssembly of the WAGO I/O System The clamping force adjusts automatically to the conductor cross section. The flat clamping face of the CAGE CLAMP spring presses the conductor against the current bar without damage. Any deformation or movement of the conductor is compensated, thus eliminating the risk of a loose connection. The contact point between conductor and CAGE CLAMP is well protected against corrosive deterioration. This connection is made fast and, furthermore, it is maintenance-free. There is no need for costly periodical examination of the connections 2 Buscoupler - INTERBUS S 2.1 Buscoupler - Hardware 2.2 Supply Voltage - Electronics 2.3 Supply Voltage - Field Side When using the supply module 750-601/602, the field supply from the bus coupler is interrupted. From that point a new power supply connection is necessary to provide DC to any additional I/O modules Fieldbus connection 2.4 Bus connection and station node addressConfiguration Interface $*2Ç,2Ç6670 3 The Enclosure and SpecificationsSYSTEM DATA TECHNICAL DATA Interbus S buscoupler with extended diagnostics 750-304/000-001 4.1 Master Cards Scanners, Host Controllers 4 INTERBUS S$*2Ç,2Ç6670 4.2 Configuration softwareIBS SYS SWT IBS CMD SWT INTERBUS S / Interbus S5.1 Identification Code 5 Configuration of the fieldbus node in the master5.2 ID Code for WAGO I/O System 5.3.1 CMD Software Package 5.3 IBS CMD configuration software$*2Ç,2Ç6670 1 Automatic configuration Ill. 11 Automatic configurationINTERBUS S / Configuration 2 Ident code $*2Ç,2Ç6670 INTERBUS S / ConfigurationIll. 13 Insertion of the ID code and the data length $*2Ç,2Ç6670 INTERBUS S / ConfigurationIll. 14 Description of user After all data has been entered and stored via OK, the station created with the WAGO Interbus coupler is then integrated into the fieldbus system being set up Table 5 Assignment of the process image 5.4 Example of an applicationIll. 19 Example of an application The Interbus S station is composed as followsIx+y Ox+y6 Buscoupler startup and troubleshooting Status and error diagnostics 7.2 Mechanical and climatic conditions 7 General conditions7.1 Transporting and storing conditions 7.3 Class of protection and degree of protection 7.6 Certificates 7.5 Power supply7.4 Electromagnetic compatibility Technical description Digital Inputs 24 V AC/DC, 120 V AC, 230 V AC, 48 V DC PNTechnical Data 50 µA typ $*2,26670 Counter modulesTechnical Description $*2,26670 Technical Data$*2,26670 Organization of the in- and output data$*2,26670 An example$*2,26670 Counter with enable input 750-404/000-001Technical description $*2,26670 Peak Time Counter 750-404/000-002 Technical data$*2,26670 Organization of the in- and output dataStatus CLOCK Frequency Counter Module, 750-404/000-003Technical Description $*2,26670$*2,26670 Technical DataMeasuring Error Measuring ErrorThe,1387$7$954following$/, figures73 illustrate a process data7cycle Functional description$*2,26670 CONTROL Byte Structure of CONTROL and STATUS byte5$1*B6/$ 5$1*B6/54T Dmax= Structure of Input and Output dataByte Organization of the in- and output data for InterbusByte IdentificationDigitalOutputs 750-501...504,516 Digital Outputs Standard PN 750-501...504, 516 Technical descriptionTechnical Data DigitalOutputs Digital Outputs Standard with diagnostics PN Technical descriptionTechnical Data connected on the line side to protect the output modules Digital Outputs Solid State Relay PN Technical DescriptionTechnical Data PulsewidthModule Pulsewidth Module PN Technical DescriptionTechnical Data Pulsewidth Module Formation of on/off timesProcess Image Formation for Interbus Version 2 isolated outputs 750-513 Digital Outputs Relay PN 750-512...514 Technical descriptionVersion 1 non-floating Technical Data 6ZLWFKLQJFDSDFLW\ 7\SLFDOHOHFWULFDOOLIHWLPHAnalogInputs 750-452, 454,482,484 2 Channel Analog Inputs 0-20 mA / 4-20 mA Differential InputsPN 750-452, 454, 750-482 Technical Description Technical Data The numerical format The numerical format for Siemens Page AnalogInputs 2 Channel Analog Inputs +/- 10 V Differential InputsPN 750-456, 750-456/000-001 Technical Description Analog Inputs Technical DataThe numerical format The numerical format for Siemens Inputfor PT100 Input for PT PN 750-461, 750-461/000-002, 750-461/000-003Technical description Technical Data Temperature C 850 100 25.5 0.1 The numerical formatThe numerical format for 750-461/000-002 The numerical format for Siemens Inputfor thermocouple modules 750-462,469 Input for Thermocouple Modules PN 750-462, 750-469, 750-462/000-XXXTechnical description Warning Both inputs are referenced to a common potential not isolated Technical DataLED functions Temperature Ranges of the connectable sensorsThe numerical formats AnalogInputs 750-465,466,486 2 Channel Analog Input 0-20 mA / 4- 20 mA single endedPN 750-465, 750-466, 750-486, 750-465/000-001 Technical Description Technical Data Input current 0-20mA 20,5 The numerical formatThe numerical format for Siemens 750-466/000-200 or Technical Description 2 / 4 Channel Analog Inputs 0-10 V single ended PN 750-467, 468, 487AnalogInputs 750-467,468,487,488 Technical Data The numerical format The numerical format for Siemens Technical description 2 Channel Analog Input 0-20mA / 4-20mA single endedPN 750-472, 750-472/000-200, 750-474, 750-474/000-200 AnalogInputs 750-472Analog Inputs 750-472 Technical DataNoise rejection below sampling frequency 0 - 3,5 The numerical formatThe numerical format for Siemens Input current 0-20mA 750-476 2-Channel Analog InputFunction clamp and variants 10 V, 16 Bit, single ended$*2 , 2 2 Technical description40 dB Technical Data$*2 , 2 2 100 dB750-476 errorThe numerical format $*2 , 2 2750-478/000-200 Numerical format with status information$*2 , 2 2 750-476/000-200meaning Status byte$*2 , 2 2 AnalogOutputs 750-550,580 2 Channel Analog Outputs 0-10 V PN 750-550 Technical DescriptionThe numerical format Technical DataThe numerical format for Siemens AnalogOutputs 750-552, 554 2 -Channel Analog Outputs 0-20 mA / 4-20 mA PN 750-552, 554Technical Description The numerical format Technical DataThe numerical format for Siemens AnalogOutputs 2 Channel Analog Outputs +/- 10 V PN Technical DescriptionTechnical Data 7F FF The numerical formatItem Number Voltage Current on contacts End module, Potential multiplication module Separation modulePN750-600, 750-614, 750-616, 750-616/030-000 Technical Description Technical DataTechnical description Separation moduleTechnical Data Supplymodules 750-601,602, 609,615,610,611,613 Supply modules PN750-601, 602, 609, 610, 611, 612, 613Technical Description Technical Data 1 2 3 4 Binary spacer module PNTechnical description $*2,26670Examples Technical DataON 1 2 3 $*2,26670SSIencoder SSI Encoder Interface PN 750-630, 750-630/000-001, 750-630/000-006Technical Description Technical Data Terminal Configuration $*2Ç,2Ç6670 Organization of the in- and output data for InterbusWord Data Word DesignationQuadratureEncoder Quadrature Encoder Interface PN 750-631, 750-631/000-001Technical Description Technical Data Function Operational CharacteristicsConnection TypeFunction The control byte contains the information as listed belowThe status byte contains the information as listed below FunctionPage function Organization of the in- and output data for InterbusWord WordPN 750-650, 750-651, 750-653, 750-650/000-001 Technical Description RS232C Interface, TTY Interface -20 mA Current Loop RS485C InterfaceSeries Transmission channel Transmission rate Bit skew Technical DataFigure 2 Data Word Signal Description of RSFUNCTION Description of TTYDescription of RS M$*2 MWUDQVPLWWUHFHLY HUQG WUDQVPLWWHUUHFHLYHUDQGStatus Byte Structure of input and output dataControl Byte Receiving data Initialization of the moduleTransmitting data The module is initialized ExamplesStatus Indicators Description Structure of the in and output data for InterbusWord WordDataexchange module Data exchange module PN Technical DescriptionSeries Technical Datavia 2 twisted pair with differential signals 120 Ω none, parameter configuration with softwareDescription of data exchange module +$*2Buffer overflow Structure of input and output dataConstant value always must be Structure of the in- and output data for Profibus from firmware WH Structure of the in- and output data for InterBus S from firmware WF Structure of the in- and output data for DeviceNet from firmware Structure of the in- and output data for DeviceNet from firmwareStructure of the in- and output data for Modbus from firmware 2 Byte special modules, Outputs Structure of the in- and output data for CanOpen from firmware WI2 Byte special modules, Inputs Mode class Structure of the in- and output data for CAL from firmware WEMode class Structure of the in- and output data for LIGHTBUS from firmware WD Ex-1.3 Classification meeting CENELEC and IEC Ex-1 Application in Explosive EnvironmentsEx-1.1 Foreword Ex-1.2 Protective measuresExplosive areas subject to air-borne dust Ex-1.3.2 Explosion protection groupExplosive areas resulting from gases, fumes or mist Explosion Ex-1.3.3 Unit categoriesMinimal ignition energy of representative types of gases UnitEx-1.3.5 Types of ignition protection Ex-1.3.4 Temperature classesFurther information Ex-1.4.2 Explosion protection groups Ex-1.4 Classifications meeting the NECEx-1.4.1 Divisions Temperature classes Ex-1.4.3 Temperature classesApplication in Explosive Environments Classifications meeting the NECWAGO-I/O-SYSTEM 750 Modular I/O-System Ex-1.5 IdentificationEx-1.5.1 For Europe 8 Application in Explosive Environments IdentificationExplosion protection group Ex-1.5.2 For AmericaApplication in Explosive Environments IdentificationEx-1.6 Installation regulations Further Information DangerHansastraße WAGO Kontakttechnik GmbHPostfach D-32385 Minden