Process Signal | Siemens S5-135U/155U specification

Digital Input/Output Modules

Connection of							Front Strip
Process Signal
Lines							LED Pin
							LED Pin
L+	F+					1
L+	F+					1
L±	F±					2
1L+						3
1L+		+ 1I0.0				4	g
1L±			± 1I0.0			5
2L+		+ 2I0.1				6	g
2L±			± 2I0.1			7
3L+		+ 3I0.2				8	g
3L±			± 3I0.2			8	g
3L±			± 3I0.2			9
4L+		+ 4I0.3				10	g
4L±			± 4I0.3			11
						11
5L+		+ 5I0.4				12	g
						12
						13
5L±			± 5l0.4			13
5L±			± 5l0.4			14
6L+		+ 6I0.5				14	g
6L+		+ 6I0.5				15
6L±			± 6I0.5			15
6L±			± 6I0.5			16
7L+		+ 7I0.6				16	g
7L+		+ 7I0.6				17
7L±			± 7I0.6			17
7L±			± 7I0.6			18
8L+		+ 8I0.7				18	g
8L+		+ 8I0.7				19
8L±			± 8I0.7			19
8L±						20


						21
						21
						22
						22
						23
						23
9L+						24
		+ 9I1.0				24	g
		+ 9I1.0				25
9L±		± 9I1.0				25
9L±		± 9I1.0				26
10L+		+ 10I1.1				26	g
10L+		+ 10I1.1				27
10L±
		±10I1.1
		±10I1.1				28
11L+		+ 11I1.2				28	g
11L+		+ 11I1.2				29
11L±		±11I1.2				29
11L±		±11I1.2				30
12L+		+ 12I1.3				30	g
12L+		+ 12I1.3				31
12L±
		±12I1.3
		±12I1.3				32
						32
13L+						33
		+	13I1.4			33	g
		+	13I1.4			34
13L±
		±	13I1.4
		±	13I1.4			35

14L+		+	14I1.5				g
14L+		+	14I1.5			36
14L±
		±	14I1.5
		±	14I1.5			37

15L+	+		15I1.6				g
15L+	+		15I1.6			38
15L±	±		15I1.6			38
15L±	±		15I1.6			39

16L+	+		16I1.7				g
16L+	+		16I1.7			40
16L±	±		16I1.7			40
16L±	±		16I1.7			41
						41
						42
						42

Block Diagram of

Module Inputs

t

2)

t

t

2)

t

t

2)

3)

3)

2)

t

t

2)

t

t

2)

Shield

x20

1)

Data Memory and S5 Bus Control

Example of connection designation for an input:

(8) I 0.7

Input 7 (7th bit); 0 to 7 possible

Address of input byte (byte 0);

0 to 255 possible

I = Input

8th group (not specified in the address)

g	=	Green LED (status indicator)
F+/F-	=	Enable input

1)Changeover of enable mode with jumper X20: Jumper inserted = Enable input active (factory setting) Jumper open = Enable input inactive.

2)The terminal is not connected internally. When this terminal is connected to the input voltages, the clearances in air and leakage paths are no longer adequate to UL and CSA, but comply with VDE.

3)The terminal is not connected internally. When this terminal is connected to the input voltages, the clearances in the air and leakage paths remain adequate to UL, CSA and VDE.

System Manual	8-35
C79000-G8576-C199-06

Image 347

Siemens S5-135U/155U appendix Process Signal

Contents

Appendices System Manual6ES5998-0SH21 12/98 C79000-G8576-C199 Release Siemens Aktiengesellschaft Contents CPUs, Memory Cards, Memory Submodules, Interface Submodules Central Controllers and Expansion Units Power Supply Units System Manual C79000-G8576-C199-06 Multiprocessor Operation/Coordinators Vii 10-1 Index Index-1 11-1 System Manual C79000-G8576-C199-06 Slots SlotsController Slot Requirement System Manual System Manual C79000-G8576-C199-06 Fields InstallationInstalling EMC 89/336/EEC Order Number Shielded signal cable is required for the following modulesIndividual Modules Order Number Module Machines IntroductionEC Directive 89/392/EEC on Safety Notes System Manual C79000-G8576-C199-06 Chapter Overview Section Contents Application Then Centralized and Distributed Configuration Expansion Unit Installing a PLC with Centralized ConfigurationConnecting Cable Max. Distance Interface Module Expansion Unit Installing a PLC with Distributed ConfigurationConnecting Cable Max. Permiss. Line Length Interface Module Examples Centralized Configuration of an S5-135U/155U with ER 701s 6ES5 EU185U EUs max EU 185U System Manual C79000-G8576-C199-06 Section Description Installation Guidelines Overview of Possible Types of Interference Principles of Installation of Systems for EMC Installation Guidelines Typical Interference Sources at a Glance CouplingMechanisms Cause Typical Interference Sources Coupling Mechanism Radiated Interference Ensure that cable shields are properly secured see Section Most Important Basic Rules for Ensuring EMC Installation Guidelines Installation of Programmable Controllers for EMC Example of Cabinet Assembly for EMC Example of Cabinet Assembly for EMC Mounting bracket for subrack Signal linesGrounding strips Cabinet members Wall Mounting of an S5-135/155U PLC Example of Rack and Wall Mounting for EMC Routing of Cables Wiring of Programmable Controllers for EMC Installation Guidelines Equipotential Bonding Routing of Equipotential Bonding Conductor and Signal Line Shielding of Cables and Lines Example of Securing Shielded Lines with Cable Clamps Inductances Special Measures for Interference-Free OperationFitting Quenching Elements to Cabinet Lighting AC PowerConnection for Programmers Shielding of cables Section EMC Measures Connection of inactive parts SectionRouting of cables Section Equipotential bonding Section Power Supplies for Control Systems with Simatic S5 Power Supplies for Programmable Controllers and I/Os Main Switch Connecting the Programmable Controller and Load Power Grounding Load Power Controller with Process I/Os from Grounded Supply Operating aProgrammable Interference Higher-Level Supply Supply Controller withAn Ungrounded CPU Connecting Non-Floating or Floating Modules Isolated Installation withFloating Modules Installation Guidelines 13 Shielding and Grounding the Connecting Cable Interference-Free Connection of Monitors Shielding and Grounding Installation Guidelines Selection and Installation of Cabinets with Simatic S5 Closed Cabinets Types of CabinetClearances in Cabinets Open Cabinets 15 Clearances in the Cabinet Max. Clearances Upper SubrackS5-90U/95U/ 100U Lower Subrack Min. Clearances Removal of Power Dissipation from Cabinets Cabinet Design Max. Permissible Ambient TemperatureExamples for Determining the Type of Cabinet Example Examples Determining the Power Dissipation of Modules System Manual C79000-G8576-C199-06 Central Controllers and Expansion Units Power Supply Units Technical Description Assembly of a Central ControllerS5-135U/155U Central Controller Assignments S5-135U/155U HousingIncoming and outgoing cables at the front of the housing Central Controllers and Expansion Units Power Supply Units CPU Central Controller Installation Filter Subdrawer Example FittingDouble-height Eurocard format h x d = 233.4 x 160 mm Slots Occupied SPS Front Plate Width in mm Step Action Proceed as follows to fit the modulesIMs Startup Validity Check Startup Repair Guidelines Mechanical ambient conditions tested to DIN IEC Technical SpecificationsUnit safety Important for the USA and Canada Mechanical data Noise immunity, electromagnetic compatibility EMC EU Type Version Power Supply or Fan SubassemblyExpansion Units Order No. of Expansion Unit Modules and Slot Assignments Expansion Units Technical Description of the Expansion Units Slot No Module type Technical Specifications of the Expansion Units Installing the Expansion Units Types Power Supply UnitsPower Supply Product Overview Functions SignalingBasic Functions Monitoring Outputs Plate of the power supply unitsInputs Switch Red LED Yellow LED Pushbutton Green LED Setting and Connecting the Power Supply Unit Stage Description PSU in operation without changing the jumper settingBrief Instructions For Startup Subsequent implementation Jumper SettingsEstablishing Following table Relay Jumper Setting Application/NoteOpen irrelevant Max. Permissible Conductor Cross-Sections TerminalsCabling Step Switch the Power switch off Standby On/Off Jumper locations are given in the following figure Setting Jumpers LocationsSetting Proceed as follows to change the jumper settings PSU Fitting the Power Supply Unit How to Fit the PSUWiring the Power Supply Unit How to Wire ªEstablishing the settings and cabling.º How to Fit the Lithium Battery Battery Compartment B Cover a Result Lock Switch Where to FitHow to Fit Setting the Voltage Selector Switch How to Set Switch the system voltage on Fault Indications/Fault Diagnostics LEDs Possible Cause Action Other Faults Following table contains several examples Enable EN present, jumper F R closedEnable EN present, jumper F R open Fans and Fan Following table contains several examples Battery Battery MonitoringBattery Supply Jumpers Battery Follows Maintenance and RepairsFans Supply in the event of fan failure is described in Section Replacing Lithium BatteryHow to Replace Replacement Ensure correct polarity FanStep Action Result Lock Central Controllers and Expansion Units Power Supply Units Replacing Rechargeable Battery in the Fan Subassembly Flow Correct the fault in the following stepsReplacing Filter Mat Inadequate Air Reaction Replacing a PowerLithium battery in the rack is in full working order Standard spare part No backup Supply Fails Description of Internal Sequences in the Power Supply UnitBehavior Upon Failure System Supply When the System Backup If Another Fan Resetting the Fault MessageBehavior Upon Failure of Fans If a Fan Fails Input Technical Specifications of the Power Supply Units6ES5 955-3LC42 6ES5 955-3LF42 Safety Specifications Protection and monitoring 6ES5 955-3LC42 6ES5 955-3LF42 Output Environmental data Backup batteryRechargeable battery Service life of fans Weight Noise emission Safety Specifications 6ES5 955-3NC42 6ES5 955-3NF42 6ES5 955-3NC42 6ES5 955-3NF42 Protection and monitoring 6ES5 955-3NC42 Backup battery 6ES5 955-3NF42 Input Voltage Output Voltage 6ES5 955-3NA12 Power Supply UnitType of PSU Designation Label Element Purpose Terminals Auxiliary Submodule Jumpers NN-MM closed Setting the Power Supply UnitDelivered Function Setting the Fan Monitor Central Controllers and Expansion Units Power Supply Units Installing the 15 Auxiliary Submodule Operation General Notes on the Power Supply Unit Relay Contacts DiagnosticsLEDs indicate the following faults Power Supply Battery Submodule MaintenanceReplacing the Lithium Battery Replacing the Fans Signaling section Signals for Simatic S5 Output 3 with 15 V auxiliary submodule Weight Environmental dataOutput 2 bus Output 2 front Plate of the -3LA11is shown as an example Fan Submodules Technical DescriptionConnections LEDs Position Voltage Selector Switch Fuse Setting and Connecting the Fan Submodule Fan Submodule Relay Contact Relay contact Case of a fault, the red LED ªFan Faultº lights upTerminals Cabling Max. Permissible Cable Cross-Sections Service life Weight Environmental data 6ES5 988-3LA11 6ES5 988-3NA11 Safety Specifications CPUs, Memory Cards, Memory Submodules, Interface Submodules Chapter Contents Design CPU 948B -3UA13 or CPU 948B -3UA23 Inte Intf Intg Installation and Startup Step Action Removing Inserting Module Insertion Proceed as follows to remove the CPU Removal Module IndicatorsControls Restart Mode SwitchContact Mode Momentary Status OffOff Rapid Flashing Slow Possible causes LEDs for Fault Indication and Signaling SI2 Fault LEDs SI1SI2 Continue as follows Overall ResetStep Action Result Set the mode switch to Stop Reset Restart is permissible Set the mode switch from Stop to RUN Second Interface Interfaces of the CPUPG interface SI1 With Sinec H1 CommunicationVia Backplane Bus Technical Specifications CPUs, Memory Cards, Memory Submodules, Interface Submodules CPU View of underside of module Removing Inserting Module Insertion Controls and Indicators of the CPU Retained during stoppage of the CPU STOP. The red Stop LED will then light upInto the internal RAM RUN Stop LED This LED is continuously lit for a short time during Initialization after power on and during operationEvent of system faults Fault LEDs SI1 Resultat Set the mode switch to Stop Switch the system voltage on Restart Interface Submodules Interface SI2 Technical Specifications CPUs, Memory Cards, Memory Submodules, Interface Submodules CPU 928B -3UB21 Memory Card User Memory Second Interface SI2 Jumper Settings Removing Inserting Module Insertion Removal Front Plate of the CPU 928B-3UB21 Green RUN LED is lit RUN setting, the CPU 928B processes the user program when Stop LED Status Indicators Maximum cycle monitoring time has been exceeded Manual restart is permissible DB RAM CPUs, Memory Cards, Memory Submodules, Interface Submodules Front plate width is 2 2/3 standard plug-in stations Delayed from Version 6ES5 928-3UB12CPU 928B Electronic circuitry of the CPU 928B is on two PCBs basic CPU 928B Programming Guide BytesOrder numbers are given in the ordering information Second Interface SI2 Installation and Startup Removal SI1 Siemens CPU 928B RUN Status Indicators No communication possible at both interfaces Internal error Startup Technical Specifications CPUs, Memory Cards, Memory Submodules, Interface Submodules Cyclical CPU 928 -3UA21Closed-loop tasks User Memory Removing Inserting Module Insertion Removal Front Plate of the CPU 928 -3UA21 STOP. The red Stop LED then lights up LEDs for Fault Indication Signaling Startup Technical Specifications CPU 928 comprises two PCBs PCB 1 and PCB 2 in the double Processing Process Interrupt Installation and Startup Front Plate of the CPU RUN Off Slow flashing Rapid flashing LEDs for Fault Indication Signaling Startup Technical Specifications Time-controlled 1 timebase S5-135U/155U CC see . Up to four CPUs can be used Is full or an Eprom submodule is inserted 22 x 210 bytes Installation and Startup 6ES5922-3UA11 RUN Status Indicators Upon reset of the CPU 922 in the area of the process Startup Technical Specifications 374 Flash Eprom Cards Technical Specifications Submodules 376 Memory SubmodulesProgramming Memory Technical Specifications Loading RAM Without Battery BackupWith Battery Backup 10 377 Memory Submodules Normal Operation RAM Submodules with Battery BackupOperational States Standby Standby Operation Battery Screw Fault LED Inserting or Replacing the Backup Battery Inserting Unprogrammed Memory Submodules Using the RAM Submodule with Battery BackupProceed as follows to replace the submodule battery Initial situation Whose contents are not to be erasedProgrammed All 377 Memory Submodules Submodules without Battery BackupAccess time tACC 150 ns 16/64 Kbytes 200 ns 32 Kbytes Current consumption at 5 Backup current Backup voltage Submodules with Battery Backup You require Using the Interface SubmodulesInterface Submodules To use the second interface as Check the jumper settings of your interface submodule Installing and Removing the Interface Submodules Remove your interface submodule in the following steps Rate PG SubmoduleInterface Submodule For Use With Circuitry Pin Designation Current Remarks Direction Pin Assignments Operation in CPU Jumper Settings on the PG SubmoduleOperation in CPU 928B/CPU Connecting cable CPU PG Standard Connecting Cable for the PB Submodule Receive lines 11.3 V.24 SubmoduleV.24 submodule can be inserted in the following CPU Submodule CPU 928B CPU Viation Output Data Transmission Rate Pin Assignments SubmodulePin Des. to DIN Des. to Int. Abbre Input Immediately 15 V.24 Submodule Jumper Settings when Delivered CPU, CP524/525, CP544 Receiver Transmitter Connecting cable for CPU, CP 524, CP 525, CPStandard Connect- ing Cables of the V.24 Submodule Modem N10 Connecting cable CPU N10 modem Receiver Transmitter Connecting cable CPU DR 210/211, DR 230/231DR 210/211, DR 230/231 Transmitter Receiver Wiring of a connecting cable for RTS/CTS flow control TTY submodule CPU 928B CPU Current loop signalsTTY Submodule TTY submodule can be inserted in the following CPU Current direction Remarks Data Transmission Rate Pin Assignments TTY SubmodulePin Designa Tion Shield 21 TTY Submodule Jumper Settings when Delivered Jumper Settings on the TTY Submodule Standard Connect- ing Cables for the TTY Submodule CPU Connecting Cable CPU IM +RxD +20mA +24V Ccitt Recommendation 11.5 RS422 A/485 SubmoduleRS422 A/485 submodule can be inserted in the following CPU RS422 A/485 submodule CPU 928B CPU Pin Des. to Ccitt Input Remarks Output RS422 A/485 submodule when used in a CPUData Transmission Submodulesubmodule Front Connector Jumper Settings on RS422 A/485 Submodule 115 116 RS422-A/485 Connecting cable for CPU, CP 524, CPFor 1200 m 9600 bps Sinec L1 SubmoduleSinec L1 submodule can be inserted in the following CPU Pin Designation Submodulessubmodule BT 777 Bus Terminal On the Sinec L1Submodule immediately CPU 928B CPU 102, 103, AG 90U/95U Connecting Cable for Point-to-Point CommunicationConnecting cable CPU partner point-to-point communication Technical Specifications of the Interface Submodules Multiprocessor Operation/Coordinators Coordinator Introduction Voltage ProcedureStarting the Multiprocessor Operation Overview RUN,STOP,TEST EP 62 JY 916 923C Coordinator Setting the communication flag areasStep 923A Coordinator Examples Jumper Comm. Flag Byte Address Substep Action Reaction Precondition The central controller is not yet switched offInserting CPUs and coordinator in the central controller Remedy Possible FaultsSymptom Executing an Overall Reset on all CPUs Prerequisites Loading user programs in all CPUs Executing a Reset at all CPUs Start Setting the coordinator mode switch to RUN or TestThen Reaction Multiprocessor Stop Event of FaultsCoordinator Modes Stop State 923A Coordinator Test Mode Enabling the Test Mode with the 923AEnabling the Test Mode with the 923C Test mode Communication memory 923A Coordinator Module Technical DescriptionBus arbitration CPU utilize the common S5 bus Principle User Control Settings on the CoordinatorSettings RUN, Stop and Test Central programmer connection PG MUX 923C Coordinator Module Technical Description Operator functions Faults are indicated by five small red LEDsSignal is removed by the power supply, and enables the CPUs Following order according to the preset number of CPUs Monitoring for continuous bus assignment Timing Sequences of the Bus Control Signals PG Multiplexer Addressing method for the page memory vector register Interfaces SwitchSelection Method For the Serial Front plate of the COR 923C COR 923C Section Number Setting the DIL SwitchesSetting Off Meaning Coordination Slot No. in the S5-135U/155U ActivatingAddesses Slot No. Operable Slots S5-135U/155U End Address ExampleAddress Activation Jumpers to Switch offSignals Fault Register 923A Coordinator 923C Coordinator Technical Specifications of the Coordinators Interface Modules 300 and 312 Interface Modules Addressing EU 184UEU 187U EU 183U, EU 185U IM300-3 IM300-5 IM312 Indicators and ControlsIM 300-5 -5CA11 Extended I/O area O area Modes/Jumper Assignments of the IMJumper Assignments Purpose Jumper LED1 LED2 IM 300-5 -LB11 As possible to the CC EU 184U, EU 187U EU 183U 301 and 310 Interface ModulesEU Interface Module EU Type EU 183U EU 185U only I/O modules Centralized Connection Fault LED1 LED2 Centralized EU 183U EU183U IIM312±3 EU 184U EU 183U EU 185U ER 701-2 ER 304 and 314 Interface ModulesLine Length A centralized arrangement to the distributed EUs Interface Fault Signal Interface X3 Faulty You must match the IM 304 to the cable length with jumper 12 Location of Jumpers on the IM 304 when Delivered X11 Jumper Purpose JumpersFunction 13 Location of Jumpers on the IM Set the jumpers according to the expansion unit in use Area Address Setting AddressesSwitch Setting IM304 Specifications for Specific IMs 1 6ES5 721 Connecting CableGeneral Specifications Red Green Yellow No.18 Brown No.19 Black No.20 Blue No.21 16 Pin Assignments of the 760 Terminator 2 6ES5 7602 Terminator Digital Input/Output Modules Digital input/output modules Description below applies to the following modulesS5-115U PLC Digital output modules Short-Circuit Signal OutputDigital Input Digital Output Design LED Indicators Addressing Switch With an Active Function of the Enable InputsEnable Input Supply for CC/EU and I/Os Switching onSwitching off Shutdown AC supply for CC/EU and load power supplySeparate or Common Setting for switch row S3 is arbitrary in this mode Special Features of the 432 Digital Input ModuleOpen jumpers X3 Set switch rows S1 and S2 to Off Via interrupt Settings onScanning Process Inputs PW130 Etc Switch S2Via IB PW128 Load I/O word OFF IR-G INT Via IB Modules with Special Features of the DI/DQUsing Two or More Process Alarm Slide Switch S2 Labeling Field Setting the Module Address Bytes of the same module are decoded on the module Program is independent of the slotStart Address IB 80 or QB Significance Byte Address 128 64 32 Input/output modules Removing and Inserting Modules Protective measures can be found in Chapter WiringRemove a digital input/output module as follows Marking of Modules Type Connecting the Signal Lines Must not be exceeded Digital Output Modules for DC VoltageModules for AC Connection Input/Output Modules to Two Power Supply Units Load can also be switched via a contact Short-Circuit Protection and Fusing Arc-Quenching for Inductive Loads Following applies to digital outputs for DC voltage DisconnectingSwitched-Through Result in a fault in the long term DC Voltage AC Voltage Operand identifiers Common Technical SpecificationsClimatic ambient conditions Mechanical ambient conditions Safety tests 1 6ES5 420-4UA13/4UA14 Digital Input Module Specification Sheets for the ModulesCommon technical specifications are given in Section Data Memory ±4UA13 ±4UA14 2 6ES5 430-4UA13/4UA14 Digital Input Module Data Memory and S5 Bus Control Example of connection designation for an input 3 6ES5 431-4UA12 Digital Input Module Process Signal 4 6ES5 432-4UA12 Digital Input Module Example of connection designation for an input Labeling for module cover Mark the switch settings in the free fields Namur 5 6ES5 434-4UA12 Digital Input Module Namur Cmos TTL Input 5 5th bit 6 6ES5 435-4UA12 Digital Input Module 2nd group not specified in the address Example of connection designation for an input X20 2 I 7 6ES5 436-4UA12 Digital Input Module Data Memory and S5 Bus Control 8 6ES5 436-4UB12 Digital Input Module X20 6 I Short-circuit monitoring 9 6ES5 441-4UA13/4UA14 Digital Output Module Ext 10 6ES5 451-4UA13/4UA14 Digital Output Module To 255 possible = Output 11 6ES5 453-4UA12 Digital Output Module Example of connection designation for an output 12 6ES5 454-4UA13/4UA14 Digital Output Module Mechanical specifications X20 Data Memory and S5 Bus Control 13 6ES5 455-4UA12 Digital Output Module X20 2 Q 14 6ES5 456-4UA12 Digital Output Module Example of connection designation 15 6ES5 456-4UB12 Digital Output Module 1Q0.0 2Q0.1 3Q0.2 4Q0.3 16 6ES5 457-4UA12 Digital Output Module Block Diagram Module Inputs 17 6ES5 458-4UA12 Digital Output Module S5 Bus Control External Suppressor Circuitry for Inductive Load 18 6ES5 458-4UC11 Digital Output Module Process Signal Module Inputs Lines Outputs 19 6ES5 482-4UA11 Digital Input/Output ModuleInputs Synout Analog Input/Output Modules Analog Output Modules Programmable logic controllerAnalog Input Modules and Cards Analog Input Modules 128 to 255 0 to Address range Modules are protected by covers on both sides Function of the Enable InputSwitch, Mode 460 Analog Input Module Design Acknowledge Enable Input and Enable Jumper Configuring Power Supply Special Features of the 460 Analog Input Module Inhibit Time-ControlledProgram Basp Output Subaddress On Setting Switch Pressed Sampling Addressing forCyclic/Selective Removing and Inserting Modules Remove an analog input/output module as follows Module with Front Connector Marking and Labeling of Modules Marking of Modules and Front Connectors To 60 V DC 20 mm Without fan Sensors Connection of SensorsConnection Current or Voltage MUX Connecting a Compensating Box for Thermal E.M.F. Measurement CH0 24V Extended Pt Broken Wire SignalBroken Wire at Module Reaction, Encoded Value Error Bit E Standard Pt Range Four-wire transducer with a two-wire transducer card Connecting TransducersFour-wire transducer with separate supply voltage Measured-Value Representation as Twos Complement Measured-Value RepresentationDigital Rated input range $ 50 mV Bit 212 is interpreted as the sign Measured-Value Representation as Value and Sign Resistance Thermometers Standard Pt Range Measured-ValueRepresentation for Ohm 10 units Units Pt 100/ohms Current Limiting Current Measuring Ranges from 4 to20 mA 6ES5 460-4UA13 Analog Input Module Analog Input/Output Modules Mode Range Labeling of switches on the module cover Analog Input/Output Modules ADU Assignmentstransducer 12 Analog Input Module 463 Analog Input Module Design Switching off the Enable Input Timeout QVZ occurs in the CC Power Supply Load Power Supply 10000 ∝F/40V Module with 4 inputs therefore reserves 8 byte addresses Special Features of the 463 Analog Input ModuleSwitches should be switched off Module, is given by Channel number On Setting Switch Pressed 128 Removing and Inserting Modules Module 16 Marking and Labeling of Modules Connecting the Signal Lines Load Voltage Representation as Value and SignShunt Resistor 6ES5 463-4UA12 and 6ES5 463-4UB12 Analog Input Modules Connecting Transducers Setting the Data Format for the 4 to 20 mA Range Front Connector Assignments 18 Analog Input Module 465 Analog Input Module Design Enable Jumper Configuring 10000 ∝F/40V Selective Sampling Special Features of the 465 Analog Input ModuleIs set To AUX Flag Inputs or outputs reserves 32 byte addresses 20 Labeling of the Addressing Switch Example Addressing for Removing and Inserting Modules 21 Module with Front Connector 22 Marking and Labeling of Modules Rated Voltage Ule To 60 V DC Mm Operation With fan 40 mm 23 Connecting a Compensating Box Analog Input/Output Modules Connecting a Pt Channel and the value 0 would be encoded Broken Wire Signal for Resistance ThermometersBroken Wire at Module Reaction, Encoded Value Error Bit E Connecting Transducers Measured-Value Representation Measured-Value Representation as Value and Sign Pt 100 Resistance Thermometers Ohm 10 units Short-circuit with two 6ES5 465-4UA12 Analog Input Module Analog Input/Output Modules Mode Mode 50 mV 50 mV 100 mV 1 V 2 mA 500 mV ± 25 Front Connector Assignments 466 Analog Input Module Design Special Features of the 466 Analog Input ModuleSwitches on the board Groups Current/VoltageMeasurement for Individual Channel Channel Group IV Channels 12 to Switch S5Switch S7 Channel Group III Channels 8 to 20 mA $ 20 mA $ 1.25 $ 2.5 $ 5 $ 10 Range Twos complement Value and sign Binary Setting the Data FormatS9 Switch Setting Data Format 466-3LA11 Module Setting the Module Start Address Module Address Removing and Inserting Modules 28 Module with Front Connector 29 Marking and Labeling of Modules Connecting the Signal Lines Connecting Sensors to the 466 Analog Input Module Jumper between M+ and M DifferentialMeasurement Compensates for the interference acting on both lines UCM2 Measured-Value Representation with Various Ranges OV Overflow bit Error bit Active bitSignal Status Meaning Range exceeded Broken wire Not used Twos Complement Measuring Range 20 mA Bipolar Measuring Range 20 mA, 0-5 V Unipolar Measuring range 0-1.25 V and 0-2.5 V unipolar Binary measuring range $ 5 V, $ 20 mA and $ 10 V bipolar Binary measuring range $ 1.25 V and $ 2.5 V bipolar Value and sign measuring range $ 1.25 V and $ 2.5 V bipolar 6ES5 466-3LA11 Analog Input Modules Analog Input/Output Modules Front Strip Pin Voltage-to-ground measurement Differential measurement Module address 470 Analog Output Module Design 35 Enable Input and Enable Jumper Configuring Load Power Supply System Manual Function block from the ªbasic functionsº package Special Features of the 470 Analog Output ModuleOutput, a value is retained Function Block Start Address Addressing for Removing and Inserting Modules Remove an analog output module as follows 37 Module with Front Connector 4 1 5 Connecting the Signal Lines Voltage Outputs Connecting Loads to the 470 Analog Output Module 41 Connecting Loads Digital Measured-Value Representation as Twos Complement Technical Specifications 470-4UB 470-4UA 470-4UC 42 Front Connector Assignments System Manual C79000-G8576-C199-06 Monitoring Module Monitoring Module Data bus Mode of Operation Block Diagram Address bus Address Bus Fault DetectionData Bus Faults Faults Messages ResettingControl Line Removing and Inserting Installation Possible Configurations Installation Guidelines Connecting the Reset InputSwitch Positions of the Relay Contact Acknowl- edged by module with RDY Write 10-9 Without S5-DOS With S5-DOS Addressing1st MM 2nd MM 3rd MM Last EU 128 129 213 170 S5-115U 128 80H 129 81H 213 D5H 170213 D5H 170 Setting the Address Switches S1, S2, S3, S4 Setting the Switch S5 Safety test Power supplyReset input Sensor supply for Reset input Ambient conditions Address Table Connector Assignments M24 V P24 P15 Back- plane conn 11-3 Pin designation of the interrupt signals on the backplane 11-5 Backplane conn Connector assignments of the backplane for the EU 185U 11-7 11-8 5V/40A power supply units Connector assignments of the power supply unitsConnector 5V/18A power supply units Contacts, Series D to MIL-C24308 Terminals of the supply lines between the power supply unitPlug connector, 37-way, Series D to MIL-C24308 Assignments of the backplane connector CPU Steu Stoppa M 5 V R x D Pero M 24 V M 5 Assignments of the backplane connector CPU 928BPin Pin Row + 5 Assignments of the backplane connectorCPU 11-14 11-15 Memw RDY DB 0 DB 1 DB 2 DB 3 DB 4 DB 5 DB 6 DB Assignments of the backplane connector 923A coordinator RxD TxD Assignments of the backplane connector 923C coordinator 11-18 Assignments of the backplane connectors of the IMs DB13 +5V Shield+5V +5V DB12 11-21 + PEU ± PEU Assignments of the front blade connectors 11-23 System Manual C79000-G8576-C199-06 Appendix Expansion Units For ChapterCentral Controllers WKF RZF Power Supply Units Interface Submodules CPUsMemory Cards Bbytes 6ES5 376-0AA11 6ES5 376-0AA21 6ES5 376-0AA31 Interface Modules Coordinators Digital Input/Output Modules Adhesive Label Front Connectors Analog Input/Output Modules Range Card FeaturesRange Cards Modules 6ES5 460-4UA13 6ES5 465-4UA12 Programmers Programmable ControllersCatalog ST C79000-G8576-C140 6ES5 998-2EA21 Chapter Overview To overvoltages and thus to any electrostatic discharge What is ESD?Definition IEC Electrostatic Charging of PersonsCharging Its surroundings can be charged electrostatically Contact Ensure SufficientAvoid Direct Index Index Index-3 Index-4 Index-5 Index-6 Index-7 System Manual C79000-G8576-C199-06 System Manual 6ES5998-0SH21-06 System Manual