Pilz PSSu E F PS2 Operating Manual Download

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Contents

Operating Manual PSSu E F PS2(-T)(-R)
1002237-EN-05

Section 1

Introduction

1.1

Validity of documentation

1.1.1

Retaining the documentation

1.1.2

Terminology: System environment A and B

1.2

Definition of symbols

Section 2

Overview

2.1

Module structure

2.2

Module features

2.3

Front view

Section 3

Safety

3.1

Intended use

3.2

Safety regulations

3.2.1

Use of qualified personnel

3.2.2

Warranty and liability

3.2.3

Disposal

Section 4

Function description

4.1

Block diagram

4.2

Module features

4.2.1

Supply voltage

4.2.1.1 Current load capacity

4.2.2

Integrated protection mechanisms

4.3

Configuration

Section 5

Installation

5.1

General installation guidelines

5.1.1

Dimensions

5.2

Installing the base module

5.3

Inserting and removing an electronic module

5.3.1

Inserting an electronic module

5.3.2

Removing an electronic module

5.3.3

Changing an electronic module during operation

Section 6

Wiring

6.1

General wiring guidelines

6.1.1

Mechanical connection of the base modules

6.2

Terminal configuration

6.3

Connecting the module

Section 7

Operation

7.1

Messages

7.2

Display elements

7.2.1

Display elements for module diagnostics

7.2.2

Display elements for the status of the module supply and periphery supply 26

Summary of Contents for PSSu E F PS2

Page 1: ...PSSu E F PS2 T R Operating Manual 1002237 EN 05 Decentralised system PSSuniversal I O ...

Page 2: ...cumentation will be gratefully received Source code from third party manufacturers or open source software has been used for some components The relevant licence information is available on the Internet on the Pilz homepage Pilz PIT PMI PNOZ Primo PSEN PSS PVIS SafetyBUS p SafetyEYE SafetyNET p the spirit of safety are registered and protected trademarks of Pilz GmbH Co KG in some countries SD mea...

Page 3: ... 12 4 2 1 1 Current load capacity 13 4 2 2 Integrated protection mechanisms 14 4 3 Configuration 14 Section 5 Installation 15 5 1 General installation guidelines 15 5 1 1 Dimensions 15 5 2 Installing the base module 16 5 3 Inserting and removing an electronic module 17 5 3 1 Inserting an electronic module 18 5 3 2 Removing an electronic module 19 5 3 3 Changing an electronic module during operatio...

Page 4: ...Contents Operating Manual PSSu E F PS2 T R 1002237 EN 05 4 Section 8 Technical details 27 Section 9 Order reference 31 9 1 Product 31 9 2 Accessories 31 ...

Page 5: ...nvironment A and B The PSSu system can be used in two different system environments The module s applic ation area is described in the chapter Intended Use of the manual The distinction is made between PSSu in system environment A PSSu in system environment B The distinction is based on the application area of the PSSu system PSSu in system environment A may be used in the Decentralised system PSS...

Page 6: ...ituation that could lead to serious injury and death and indicates preventive measures that can be taken CAUTION This refers to a hazard that can lead to a less serious or minor injury plus material damage and also provides information on preventive measures that can be taken NOTICE This describes a situation in which the product or devices could be dam aged and also provides information on preven...

Page 7: ...etails of the base modules that can be used are available in the chapter entitled Intended Use 2 2 Module features The product has the following features Current load capacity of module supply max 1 A When the supply voltage is interrupted the module supply is buffered for 20 ms Separate infeed for periphery supply Separate infeed for module supply Infeed for C rail supply Potential isolation from...

Page 8: ...100000 001 1 3 8 7 4 5 6 10 2 11 9 A B Key A Electronic module B Base module 1 LED for module diagnostics 2 Labelling strip with Name of electronic module Order number Serial number Hardware version number 2D code 3 Labelling strip for the terminal configuration on the base module 4 Name of electronic module 5 Connection level 1 6 Connection level 2 7 Connection level 3 8 Connection level 4 ...

Page 9: ...n tighten the screw terminal on base modules with screw termin als With mechanism to operate the cage clamp on base modules with cage clamp ter minals 10 Round connection holes connection levels 1 2 3 and 4 for connecting the signal lines 11 Mounting slot for colour marker to label the connection level connection levels 1 2 3 and 4 ...

Page 10: ...ere are increased environmental requirements see Technical Details The module PSSu E F PS2 R is suitable for use where there are increased environmental requirements demanded by railway applications see Technical details When using the module for railway applications a mains filter should be connected up stream in order to comply with the limit values for conducted high frequency interference volt...

Page 11: ...rnational laws directives and standards It is the company s responsibility only to employ personnel who Are familiar with the basic regulations concerning health and safety accident preven tion Have read and understood the information provided in this description under Safety Have a good knowledge of the generic and specialist standards applicable to the spe cific application 3 2 2 Warranty and li...

Page 12: ...a detailed description of how to use the C rail can be found in the system description When the supply voltage is fed in separately the module supply and periphery supply are galvanicaly isolated If galvanic isolation is not required a common power supply may be used for the periphery supply and module supply The module enables The module supply and periphery supply to be refreshed The relevant ba...

Page 13: ...ts However the 5 V LED will light and a message will be entered in the dia gnostic log Periphery supply The current load is the total current consumption of the sensors actuators and test pulses supplied via the input output modules The periphery supply does not automatically switch off if values exceed or drop below their limits However the 24 V LED will light and a message will be entered in the...

Page 14: ...chanisms Infeed for module supply Polarity protection Voltage monitoring Transient voltage limitation Potential isolation Module supply Short circuit proof Periphery supply Voltage monitoring exceeding upper lower limit The module registers the following errors Start up error Configuration error FS communication error Bus termination error Temperature error too warm Overvoltage error Undervoltage ...

Page 15: ...amage due to electrostatic discharge Electrostatic discharge can damage components Ensure against discharge before touching the product e g by touching an earthed conductive sur face or by wearing an earthed armband 5 1 1 Dimensions 25 2 mm 76 mm 52 1 mm 8 1 mm 67 7 mm 25 2 mm 56 1 mm 71 8 mm 0 8 mm 128 9 mm 72 7 mm 2 862 2 992 2 209 2 827 0 031 5 075 0 992 2 051 0 319 0 992 2 665 ...

Page 16: ... base modules with cage clamp terminals All contacts should be protected from contamination The mechanics of the base modules are designed for 50 plug in out cycles Procedure We recommend that you wire up the base modules before inserting the electronic mod ules Slot the groove on the base module on to the mounting rail from below 1 Push the base module back 2 until you hear it lock into position ...

Page 17: ...s may only be inserted and removed when the load is switched off Unforeseeable error reactions may be triggered if modules are inserted and removed under load When an electronic module is plugged into a base module for the first time one part of the coding element remains on the electronic module while its counterpart is fixed on to the base module This is how the base module is coded The mechanic...

Page 18: ...ual PSSu E F PS2 T R 1002237 EN 05 18 5 3 1 Inserting an electronic module Procedure The electronic module must audibly lock into position 1 Mark the electronic module using the labelling strips 2 Schematic representation 2 1 1 ...

Page 19: ...ring operation The configuration data is re tained when a module is changed Effects System environment A In the event of a potential FS communication error the FS section of the PSSu sys tem and all relevant I O Groups SafetyBUS p switch to a STOP condition System environment B All FS hardware outputs on the PSSu system switch to a safe condition The substitute values are used for the modules FS o...

Page 20: ... on the periphery supply or monitor each supply group for earth faults The connection of the 0 V supply to the central earth bar or earth fault monitor must be in accordance with relevant national regulations e g EN 60204 1 NFPA 79 17 7 NEC Article 250 Details of the minimum range for conductor cross sections on connection terminals can be found in the section entitled Technical Details Use copper...

Page 21: ...y seated 21 11 1 3 2 4 5 6 Please note The minimum cable cross section for field connection terminals on the base modules is 0 14 mm2 AWG26 The maximum cable cross section for field connection terminals is Digital inputs 1 5 mm2 AWG16 Digital outputs 2 0 mm2 AWG14 Inputs outputs on the counter modules 1 5 mm2 AWG16 Analogue inputs outputs 1 5 mm2 AWG16 Communication cables 1 5 mm2 AWG16 Test pulse...

Page 22: ...esh the module supply and periphery supply For use as a supply module to form supply groups To interrupt the incoming periphery supply and C rail To provide subsequent modules with the module supply periphery supply and C rail supply Base module Terminal configuration Screw terminals PSSu BS R 2 8 S PSSu BS R 2 8 S T Cage clamp terminals PSSu BS R 2 8 C PSSu BS R 2 8 C T 11 24 V infeed for module ...

Page 23: ...PSSu E F PS2 T I O Modules I O Modules Periphery Supply 24 V DC Infeed for Module Supply 24 V DC I O Modules Refresh of the Periphery Supply 24 V DC C rail supply Refresh of the Module Supply 24 V DC Head Module Module bus 0 V 24 V DC 5 V DC 0 V 5 V DC 24 V DC ...

Page 24: ...0 V DC 24 V DC Connect to the C rail supply N L1 N L1 Connect to the 0 V supply and earth at a single point PSSu E F PS2 PSSu BS R 2 8S T PSSu BS R 2 8C T Common power supply for module supply and periphery supply 21 11 22 12 23 13 24 14 24 V DC 0 V DC Module Supply Periphery Supply Connect to the C rail supply N L1 Connect to the 0 V supply and earth at a single point PSSu E F PS2 PSSu BS R 2 8S ...

Page 25: ...ror stack or dia gnostic log Ensure there is sufficient ventila tion in the control cabinet or pre vent overload Overvoltage error A system voltage or infeed is too high Stabilise the supply or change the faulty supply voltage module Undervoltage error A system voltage or infeed is too low Stabilise the supply or change the faulty supply voltage module Error in the overvoltage protection diodes Ov...

Page 26: ...supply and periphery supply 5 V and 24 V LEDs 11 21 Err 24V 24V Err 5V 5V LED Key Description Colour Status 5 V No supply voltage or er ror in the sup ply voltage for module supply Green Error free sup ply voltage for module supply 24 V Error in the supply voltage for periphery supply Red No supply voltage for periphery sup ply Green Supply voltage for periphery supply is er ror free ...

Page 27: ... 3 0 1 3 0 1 5 0 Electrical data 312192 314192 315192 Supply voltage for Module supply Module supply Module supply Voltage 24 V 24 V 24 V Kind DC DC DC Voltage tolerance 30 25 30 25 30 25 Current load capacity at UB 0 5 A 0 5 A 0 5 A Inrush current that the external power supply must provide 4 A 4 A 4 A Output of external power supply DC 7 W 7 W 7 W Supply voltage for Periphery supply Periphery su...

Page 28: ...mA 5 mA 5 mA Module s power con sumption with no load 0 12 W 0 12 W 0 12 W Max power dissipation of module 2 W 2 W 2 W Environmental data 312192 314192 315192 Application site In accordance with the standard EN 50125 3 Application site Track area 1 m 3 m In accordance with the standard EN 61373 Application site Category 1 Class A B Climatic suitability EN 60068 2 1 EN 60068 2 14 EN 60068 2 2 EN 60...

Page 29: ...0 6 4 Vibration In accordance with the standard EN 60068 2 6 EN 60068 2 6 EN 50125 3 Frequency 10 55 Hz 10 55 Hz 5 2000 Hz 10 55 Hz Amplitude 0 35 mm 0 35 mm 0 35 mm Acceleration 1g 1g 0 23g Broadband noise In accordance with the standard EN 60068 2 64 EN 61373 Frequency 5 500 Hz 5 150 Hz Acceleration 1 9grms 0 79 g RMS Shock stress In accordance with the standard EN 60068 2 27 EN 60068 2 27 EN 50...

Page 30: ...20 Mounting area e g control cabinet IP54 IP54 IP51 Mechanical data 312192 314192 315192 Material Bottom PC PC PC Front PC PC PC Coding PA PA PA Mounting type plug in plug in plug in Dimensions Height 76 mm 76 mm 76 mm Width 25 2 mm 25 2 mm 25 2 mm Depth 60 2 mm 60 2 mm 60 2 mm Weight 49 g 51 g 53 g Mechanical coding Type B B B Colour Yellow Yellow Yellow Where standards are undated the 2015 03 la...

Page 31: ...ype Features Order No PSSu BS R 2 8 S Base module with screw terminals for use only to refresh the voltage and form supply groups 312 654 PSSu BS R 2 8 S T Base module with screw terminals for use only to refresh the voltage and form supply groups T type 314 654 PSSu BS R 2 8 C Base module with cage clamp terminals for use only to refresh the voltage and form supply groups 312 655 PSSu BS R 2 8 C ...

Page 32: ...etyNET p THE SPIRIT OF SAFETY are registered and protected trademarks of Pilz GmbH Co KG in some countries We would point out that product features may vary from the details stated in this document depending on the status at the time of publication and the scope of the equipment We accept no responsibility for the validity accuracy and entirety of the text and graphics presented in this informatio...

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