Page 1 Preface Table of Contents Introduction Forms of Devices and On-Site Operation SIPROTEC 5 Panels Hardware Description Electronic Modules Plug-In Modules V9.40 and higher Working on the Device Manual Technical Data Ordering Information Appendix Literature Glossary Index C53000-G5040-C002-R...
Page 2 Document version: C53000-G5040-C002-R.02 Trademarks Edition: 11.2022 SIPROTEC, DIGSI, SIGRA, SIGUARD, SIMEAS, SAFIR, SICAM, Version of the product described: V9.40 and higher and MindSphere are trademarks of Siemens. Any unauthor- ized use is prohibited.
Page 3 Preface Purpose of the Manual This manual describes the hardware of the SIPROTEC 5 device family and provides general information on the product structure, the modules and technical data. Target Audience Protection system engineers, commissioning engineers, persons entrusted with the setting, testing and main- tenance of automation, selective protection and control equipment, and operational crew in electrical installa- tions and power plants.
Page 4 EN 60255-26 (for EMC directive), the standard EN IEC 63000 (for RoHS directive), and with the product standard EN 60255-27 (for Low Voltage Directive) by Siemens. The device is designed and manufactured for application in an industrial environment.
Page 5 You can find the product with the UL File Number E194016. IND. CONT. EQ. 69CA Additional Support For questions about the system, contact your Siemens sales partner. Customer Support Center Our Customer Support Center provides a 24-hour service. Siemens AG Smart Infrastructure –...
Page 6 The equipment (device, module) may be used only for such applications as set out in the catalogs and the technical description, and only in combination with third-party equipment recommended and approved by Siemens. Problem-free and safe operation of the product depends on the following: •...
Page 7 Preface Symbol Description Direct and alternating current, IEC 60417, 5033 Earth (ground) terminal, IEC 60417, 5017 Protective conductor terminal, IEC 60417, 5019 Caution, risk of electric shock Caution, risk of danger, ISO 7000, 0434 Protective insulation, IEC 60417, 5172, safety class II devices Guideline 2002/96/EC for electrical and electronic devices Guideline for the Eurasian market Mandatory conformity mark for electronics and electrotechnical products in Morocco...
Page 8 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 9 Table of Contents Preface................................3 Introduction..............................15 Advantages of SIPROTEC 5 ....................16 Modular Systems and Hardware Characteristics..............17 Forms of Devices and On-Site Operation Panels..................19 Flush-Mounting Devices....................20 2.1.1 Description ......................... 20 Surface-Mounted Devices with Integrated On-Site Operation Panel........29 2.2.1 Description of the Modular Device................
Page 10 Table of Contents 3.2.4 Input and Output Module IO203.................. 69 3.2.4.1 Description ......................69 3.2.4.2 Terminals.......................70 3.2.5 Input and Output Module IO204.................. 72 3.2.5.1 Description......................72 3.2.5.2 Terminals.......................73 3.2.6 Input and Output Module IO205.................. 75 3.2.6.1 Description ......................75 3.2.6.2 Terminals.......................76 3.2.7 Input and Output Module IO206..................
Page 11 Table of Contents 3.2.21.2 Terminals......................119 3.2.22 Input and Output Module IO240................122 3.2.22.1 Description......................122 3.2.22.2 Terminals......................122 3.2.22.3 Connections of GIS-LPIT Sensors................124 3.2.22.4 Installation of a Microswitch to the Strain-Relief Plate of the IO240 Module...131 3.2.23 LPIT Input Module IO245................... 132 3.2.23.1 Description......................
Page 12 Table of Contents 4.2.4.4 USART-AH-1LDFO....................178 4.2.4.5 USART-AJ-1LDFO....................179 4.2.4.6 USART-AK-1LDFO....................180 4.2.4.7 USART-AW-2LDFO....................181 4.2.4.8 USART-AU-2LDFO....................181 4.2.4.9 USART-AX-2LDFO....................182 4.2.4.10 USART-AY-2LDFO....................183 4.2.4.11 USART-AV-2LDFO....................183 4.2.5 Ethernet Modules...................... 184 4.2.5.1 Operation of Ethernet Modules................184 4.2.5.2 ETH-BA-2EL......................186 4.2.5.3 ETH-BB-2FO......................
Page 13 Table of Contents Installing Current and Voltage Terminals................. 226 5.7.1 Description ....................... 226 5.7.2 Connections of Current Terminals ................229 5.7.3 Connections of Voltage Terminals................230 5.7.3.1 Connections of Voltage Terminals with Spring Clips ..........230 5.7.3.2 Connections of Voltage Terminals with Screw Connection........231 5.7.3.3 Connections of Voltage Terminal with Screw Connection for IO111......
Page 14 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 15 Introduction Advantages of SIPROTEC 5 Modular Systems and Hardware Characteristics SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 16 Introduction 1.1 Advantages of SIPROTEC 5 Advantages of SIPROTEC 5 The devices in the SIPROTEC 5 series are based on the many years of experience gathered with SIPROTEC 4. Extensive improvements have also been integrated. Take note of the differences between the modular and non-modular systems.
Page 17 Introduction 1.2 Modular Systems and Hardware Characteristics Modular Systems and Hardware Characteristics The SIPROTEC 5 series includes both modular and non-modular devices. Modular devices consist of a base module (1/3 of 19 inches) and can be expanded with expansion modules (1/6 of 19 inches).
Page 18 Introduction 1.2 Modular Systems and Hardware Characteristics Hardware Characteristics for Non-Modular Devices (7xx81) A non-modular device always consists of just 1 module (1/3 of 19 inches) and cannot be expanded with expansion modules (1/6 of 19 inches). The hardware characteristics are: •...
Page 19 Forms of Devices and On-Site Operation Panels Flush-Mounting Devices Surface-Mounted Devices with Integrated On-Site Operation Panel Surface-Mounted Devices with Detached On-Site Operation Panel On-Site Operation Panels SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 20 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices Flush-Mounting Devices Description 2.1.1 The flush-mounting devices were conceived for installation in 19-inch racks or special openings in control desks and cabinets. The on-site operation panel is linked permanently to the device. Base Module [le_surface_mounting_front, 3, --_--] Figure 2-1...
Page 21 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices [le_surface_mounting_front_7SJ81, 1, --_--] Figure 2-2 Front View – 7xx81 USB connection, type B On-site operation panel Bus terminal for expansion module, only possible for modular devices Keypad without function keys SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 22 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices [le_rear modular device, 3, --_--] Figure 2-3 Rear View of a Modular Device, Terminals of a Typical Device with IO202 Current terminal 1A Spring clip Voltage terminal 1B Voltage terminal 1C Voltage terminal 1D Protective grounding terminals Plug-in module position F...
Page 23 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices [le_rear non modular, 3, --_--] Figure 2-4 Rear View of a Non-Modular Device (7xx81, 7xx82), Terminals of a Typical Device with IO102 Current terminal A Spring clip Voltage terminal B Voltage terminal D Protective grounding terminals Terminal for integrated Ethernet interface J...
Page 24 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices Fastening Openings of the Base and 1/3 Module To remove the screw covers, introduce the screwdriver into the provided slot. [dw_screwdriver, 1, --_--] Figure 2-5 Slot for Introducing the Screwdriver Loosen the cover by turning slightly.
Page 25 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices Expansion Module [le_front expansion module, 1, --_--] Figure 2-7 Front View of the Expansion Module Device housing On-site operation panel Bus terminal for an additional expansion module (shown with bus termination plate) Unused bus terminals are sealed with a cover.
Page 26 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices [le_rear expansion module, 1, --_--] Figure 2-8 Rear View of the Expansion Module Current terminal xA Spring clip Voltage terminal xB Bus terminal to the base module Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE...
Page 27 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices Counting Method for Modules in 19-Inch Rack (View of the Rear of the Device) [dwbgrpos-170713-01.tif, 3, en_US] Figure 2-9 Counting Method for Modules in 19-Inch Rack (Example) Current terminal A Voltage terminal A, B, C, D Terminal for time synchronization G Plug-in module E, F...
Page 28 Forms of Devices and On-Site Operation Panels 2.1 Flush-Mounting Devices NOTE The structure of the 2nd device row is described in chapter 5.2.1.3 Expanding Devices with 2nd Device Row. Connection Systems [le_connection, 1, --_--] Figure 2-10 Connection Systems Cut-out for contact tab Contact tab (prefitted on the expansion module) Hinged angle clip Snap-in spring...
Page 29 Forms of Devices and On-Site Operation Panels 2.2 Surface-Mounted Devices with Integrated On-Site Operation Panel Surface-Mounted Devices with Integrated On-Site Operation Panel Description of the Modular Device 2.2.1 NOTE The basic device structure is described in chapter 2.1.1 Description The surface-mounting devices with integrated on-site operation panel were conceived for fitting on a flat wall surface.
Page 30 Forms of Devices and On-Site Operation Panels 2.2 Surface-Mounted Devices with Integrated On-Site Operation Panel [dwauzeil-040211-01.tif, 2, --_--] Figure 2-12 Basic and Expansion Module of the Surface-Mounting Device Mounting bracket NOTE When a base module is expanded, 2 mounting brackets must be fitted between the on-site operation panels and the distance frame.
Page 31 Forms of Devices and On-Site Operation Panels 2.2 Surface-Mounted Devices with Integrated On-Site Operation Panel Fastening Openings [dwbaaube-040211-01.tif, 2, --_--] Figure 2-13 Fastening Openings of the Base Module Top fastening openings Bottom fastening openings 2.2.2 Description of the Non-Modular Surface-Mounted Device NOTE The basic device structure is described in chapter 2.1.1 Description...
Page 32 Forms of Devices and On-Site Operation Panels 2.2 Surface-Mounted Devices with Integrated On-Site Operation Panel [le_device with console above and below, 1, --_--] Figure 2-14 Bracket with the Opening Upward (Left) and the Opening Downward (Right) Flush-mounting device Bracket for the surface-mounting variant Bracket opening for cable entry or exit when mounting or dismantling the device SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 33 Forms of Devices and On-Site Operation Panels 2.2 Surface-Mounted Devices with Integrated On-Site Operation Panel [sc device mounting, 2, --_--] Figure 2-15 Surface-Mounted Version of the Non-Modular Device, Mounted SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 34 Forms of Devices and On-Site Operation Panels 2.2 Surface-Mounted Devices with Integrated On-Site Operation Panel Fastening Openings [sc fixing console, 2, --_--] Figure 2-16 Fastening Openings of the Bracket SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 35 Forms of Devices and On-Site Operation Panels 2.3 Surface-Mounted Devices with Detached On-Site Operation Panel Surface-Mounted Devices with Detached On-Site Operation Panel Description 2.3.1 NOTE The basic device structure is described in chapter 2.1.1 Description The surface-mounted devices with detached on-site operation panel are a variant of the surface-mounted devices with an integrated on-site operation panel.
Page 36 Forms of Devices and On-Site Operation Panels 2.3 Surface-Mounted Devices with Detached On-Site Operation Panel [le_device mounting base module, 2, --_--] Figure 2-17 Device Structure of the Base Module Top fixing bracket Cover Bottom fixing bracket Connecting cable between the base module and the on-site operation panel Rear plate of the on-site operation panel SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 37 Forms of Devices and On-Site Operation Panels 2.3 Surface-Mounted Devices with Detached On-Site Operation Panel Fastening Openings [dwbaaube-040211-01.tif, 2, --_--] Figure 2-18 Device Structure of the Base Module Top fastening openings with fastening screw Bottom fastening openings with fastening screw SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 38 Forms of Devices and On-Site Operation Panels 2.3 Surface-Mounted Devices with Detached On-Site Operation Panel [dwosobb1-040211-01.tif, 2, --_--] Figure 2-19 Fastening Openings for the On-Site Operation Panel Screw cover (pull towards you to remove) Fastening opening Fastening opening with fastening screw SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 39 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels On-Site Operation Panels Description 2.4.1 Operating Concept The operating concept is based on 4 groups: • Navigation in the menu tree • Modification of settings • Display of measured values and protocols •...
Page 40 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels [dw_osop_with_pushbutton, 2, --_--] Figure 2-21 Variants 1/6 Views SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 41 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels Overview of Operating Elements and Display Elements 2.4.2 On-Site Operation Panel of the Base 1/3 Module [le_base_module, 3, --_--] Figure 2-22 Base 1/3 Module in Standard Design, US Design (a), China Design (b), and for 7xx81 (c) Operating state display Display in 2 design versions Keypad with navigation keys...
Page 42 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels Reset and LED test key (10) 16 two-colored LEDs (for 7xx81: 12 two-colored LEDs) The on-site operation panels are distinguished by the following characteristics: • Flat and compact design •...
Page 43 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels Operating Element/ Function Display Element Control key for activating the control display Control key for activating the switching object Control key for deactivating the switching object Display of operability Run: ready to operate, the green LED is lit.
Page 44 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels On-Site Operation Panel of Expansion Modules [le_expansion modules, 1, --_--] Figure 2-23 Expansion Module 16 monochrome LEDs Cover labels 2 key switches 8 monochrome LEDs 8 push-buttons The on-site operation panels are distinguished by the following characteristics: •...
Page 45 Forms of Devices and On-Site Operation Panels 2.4 On-Site Operation Panels Operating Element/ Meaning Display Element 16 monochrome parameterizable LEDs Local: On-site operation Remote: Remote control Interlocking OFF: Unlocked operation Normal: locked operation with the configured interlocking conditions The on-site operation panel with push-buttons is equipped with 8 LEDs and 8 function keys. It can be used as an on-site operation panel by almost all the I/O modules (except for the modules IO230, IO231).
Page 46 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 47 Electronic Modules Power-Supply Modules of the Modular Devices Input and Output Modules of the Modular Devices Power-Supply Module of Non-Modular Devices (7xx81, 7xx82) Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 48 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices Power-Supply Modules of the Modular Devices Function Description of the Power-Supply Modules of the Modular Devices 3.1.1 Module Designation Function Description • PS201 Power-supply module • Plug-in module assembly • DC 24 V/DC 48 V or DC 60 V to 250 V and AC 100 V to 230 V •...
Page 49 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices 3.1.2.2 Terminals Overview of Terminals [le_ps201, 3, --_--] Figure 3-1 PS201 – Terminals Voltage terminal 2B Time synchronization G Terminal for detached on-site operation panel H Plug-in module position E Integrated Ethernet interface J COM link K, connection to the CB202 plug-in module assembly, position K Plug-in module position F Protective grounding terminals...
Page 50 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices Terminal and Connection Diagram [cdps201x-270912-01.tif, 1, en_US] Figure 3-2 PS201 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 51 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices [tdps201x-270812-01.tif, 1, en_US] Figure 3-3 PS201 – Connection Diagram Time-Synchronization Terminal The terminal for time synchronization is located on the D-sub 9 interface (position G). Time synchronization signals for DC 5 V, DC 12 V, and DC 24 V can be processed as an option. For further information on connecting to the time synchronization, see chapter 6.6 Communication Interfaces in the Technical Data.
Page 52 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices Ethernet COM Link The Ethernet connection to the CB202 plug-in module assembly with integrated power supply is realized using the RJ45 interface. The RJ45 interface can be used exclusively for the connection of the CB202 plug-in module assembly. This terminal is left unused when no CB202 plug-in module assembly is in use.
Page 53 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices 3.1.3.2 Terminals Overview of Terminals [le_ps203, 2, --_--] Figure 3-4 PS203 – Terminals 2-pole terminal to connect power supply LED: Power On Protective grounding terminals Connection Diagram [tdps203x-030713-01.tif, 2, en_US] Figure 3-5 PS203 –...
Page 54 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices [dwkl2pol-030211-01.tif, 1, --_--] Figure 3-6 Connection of External Power Supply NOTE When expanding a device with the 2nd device row, you must install the connecting cable for the 2nd device row with the corresponding angle rail. All required components are included in the scope of delivery of a power-supply module PS203.
Page 55 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices Device bus of the outermost right expansion module of the 1st device row Sealing plate Adaptor angle 2 fastening screws [dw_schiene-020414-01, 1, --_--] Figure 3-9 Angle Rail Angle rail 2 rubber seals Power-Supply Module PS204 for Redundant Power Supply 3.1.4 3.1.4.1...
Page 56 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices • 2nd device row: – Mounting position 7: PS203 – Mounting positions 8 to 11: IO2xx – Mounting position 12: PS204 [dw_module_position_PS204, 1, en_US] Figure 3-10 Arrangement of Modules with 2 PS204 Modules – Rear View There is an exception if a CB202 PCB assembly with integrated power supply is to be used: The CB202 PCB assembly with integrated power supply must always be positioned to the right (front view) of the PS204 module in the 1st or 2nd row.
Page 57 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices Example Installation of the PS204 with a CB202 in a 1-Row Device with 5/6 Configuration • 1st device row: – Mounting position 1: IO2xx – Mounting position 2: PS201 – Mounting position 3: IO2xx –...
Page 58 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices 3.1.4.3 Terminals Overview of Terminals [le_ps204, 1, --_--] Figure 3-12 PS204 – Terminals 2-pole terminal to connect power supply LED: Power On Protective grounding terminal Connection Diagram [tdps204x, 1, en_US] Figure 3-13 PS204 –...
Page 59 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices [dwkl2pol-030211-01.tif, 1, --_--] Figure 3-14 Connection of External Power Supply Plug-In Module Assembly with Integrated Power Supply CB202 3.1.5 3.1.5.1 Description The plug-in module assembly CB202 is a PCB assembly with an internal power supply. The plug-in module assembly CB202 is used in an expansion module.
Page 60 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices COM Link (RJ45) Signal Color Operating State LED 1 CL2_LED0_N Yellow Flashes when a communication module is inserted in plug-in module position P. LED 2 CL3_LED0_N Green Flashes when a communication module is inserted in plug-in module position N.
Page 61 Electronic Modules 3.1 Power-Supply Modules of the Modular Devices The 2-pole voltage terminal is used for the external power supply (see Figure 3-17). Connection Diagram [tdcb202x-100713-01.tif, 2, en_US] Figure 3-16 CB202 – Connection Diagram [dwkl2pol-030211-01.tif, 1, --_--] Figure 3-17 Connection of External Power Supply SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 62 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Input and Output Modules of the Modular Devices Function Description of the Input and Output Modules of the Modular Devices 3.2.1 Module Designation Function Description • IO201 Input and output module •...
Page 63 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Module Designation Function Description • IO218 Input and output module • 3 direct-voltage analog inputs 300 V • 3 fast 0-mA to 20-mA analog inputs • 4 standard 0-mA to 20-mA analog inputs •...
Page 64 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.2.2 Terminals Overview of Terminals [dwio201p-030211-01.tif, 2, --_--] Figure 3-18 IO201 – Terminals Current terminal xA Voltage terminal xB Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack.
Page 65 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio201x-290812-01.tif, 1, en_US] Figure 3-19 IO201 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 66 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio201x-290812-01.tif, 1, en_US] Figure 3-20 IO201 – Connection Diagram 3.2.3 Input and Output Module IO202 3.2.3.1 Description The terminals for the following are located on the input and output module IO202: •...
Page 67 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.3.2 Terminals Overview of Terminals [dwio202p-030211-01.tif, 2, --_--] Figure 3-21 IO202 – Terminals Current terminal xA Voltage terminal xB Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack.
Page 68 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio202x-300812-01.tif, 1, en_US] Figure 3-22 IO202 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 69 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio202x-240812-01.tif, 1, en_US] Figure 3-23 IO202 – Connection Diagram Input and Output Module IO203 3.2.4 3.2.4.1 Description The terminals for the following are located on the input and output module IO203: •...
Page 70 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.4.2 Terminals Overview of Terminals [le_io203, 1, --_--] Figure 3-24 IO203 – Terminals Current terminal xA Current terminal xB Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 71 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio203x-280812-01.tif, 1, en_US] Figure 3-25 IO203 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 72 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio203x-110313-01.tif, 1, en_US] Figure 3-26 IO203 – Connection Diagram Input and Output Module IO204 3.2.5 3.2.5.1 Description The terminals for the following are located on the input and output module IO204: •...
Page 73 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.5.2 Terminals Overview of Terminals [dwio204p-201112-01.tif, 2, --_--] Figure 3-27 IO204 – Terminals Voltage terminal xA Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 74 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio204x-201112-01.tif, 1, en_US] Figure 3-28 IO204 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 75 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio204x-201112-01.tif, 1, en_US] Figure 3-29 IO204 – Connection Diagram Input and Output Module IO205 3.2.6 Description 3.2.6.1 The terminals for the following are located on the input and output module IO205: •...
Page 76 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.6.2 Terminals Overview of Terminals [dwio205p-030211-01.tif, 2, --_--] Figure 3-30 IO205 – Terminals Voltage terminal xA Voltage terminal xB Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack.
Page 77 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio205x-260213-01.tif, 1, en_US] Figure 3-31 IO205 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 78 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio205x-240812-01.tif, 1, en_US] Figure 3-32 IO205 – Connection Diagram Input and Output Module IO206 3.2.7 3.2.7.1 Description The terminals for the following are located on the input and output module IO206: •...
Page 79 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.7.2 Terminals Overview of Terminals [dwio206p-030211-01.tif, 2, --_--] Figure 3-33 IO206 – Terminals Voltage terminal xA Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 80 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio206x-280812-01.tif, 1, en_US] Figure 3-34 IO206 – Terminal Diagram [tdio206x-050313-02.tif, 1, en_US] Figure 3-35 IO206 –...
Page 81 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Input and Output Module IO207 3.2.8 3.2.8.1 Description The terminals for the following are located on the input and output module IO207: • 16 binary inputs • 8 binary outputs with 8 standard make contacts (type S) The connections are distributed over four 14-pole voltage terminals.
Page 82 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio207x-260213-01.tif, 1, en_US] Figure 3-37 IO207 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 83 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio207x-300812-01.tif, 1, en_US] Figure 3-38 IO207 – Connection Diagram Input and Output Module IO208 3.2.9 3.2.9.1 Description The terminals for the following are located on the input and output module IO208: •...
Page 84 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.9.2 Terminals Overview of Terminals [dwio208p-030211-01.tif, 2, --_--] Figure 3-39 IO208 – Terminals Current terminal xA Voltage terminal xB Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack.
Page 85 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio208x-050313-01.tif, 3, en_US] Figure 3-40 IO208 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 86 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio208x-300812-01.tif, 1, en_US] Figure 3-41 IO208 – Connection Diagram 3.2.10 Input and Output Module IO209 3.2.10.1 Description The terminals for the following are located on the input and output module IO209: •...
Page 87 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.10.2 Terminals Overview of Terminals [dwio209p-030211-01.tif, 2, --_--] Figure 3-42 IO209 – Terminals Voltage terminal xA Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 88 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio209x-110313-01.tif, 1, en_US] Figure 3-43 IO209 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 89 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio209x-270812-01.tif, 1, en_US] Figure 3-44 IO209 – Connection Diagram Input and Output Module IO210 3.2.11 3.2.11.1 Description The terminals for the following are located on the input and output module IO210: •...
Page 90 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.11.2 Terminals Overview of Terminals [dwio202p-030211-01.tif, 2, --_--] Figure 3-45 IO210 – Terminals Current terminal xA Voltage terminal xB Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack.
Page 91 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cd_io210, 3, en_US] Figure 3-46 IO210 – Terminal Diagram Voltage input MT3 with higher voltage immunity (maximum continuous voltage ±...
Page 92 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [td_io210, 3, en_US] Figure 3-47 IO210 – Connection Diagram 3.2.12 Input and Output Module IO211 3.2.12.1 Description The terminals for the following are located on the input and output module IO211: •...
Page 93 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.12.2 Terminals Overview of Terminals [dwio211p-211112-01.tif, 2, --_--] Figure 3-48 IO211 – Terminals Voltage terminal xA Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 94 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio211x-221112-01.tif, 1, en_US] Figure 3-49 IO211 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 95 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio211x-211112-01.tif, 1, en_US] Figure 3-50 IO211 – Connection Diagram Input and Output Module IO212 3.2.13 3.2.13.1 Description The terminals for the following are located on the input and output module IO212: •...
Page 96 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.13.2 Terminals Overview of Terminals [dwio204p-201112-01.tif, 2, --_--] Figure 3-51 IO212 – Terminals Voltage terminal xA Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 97 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cd_io212, 2, en_US] Figure 3-52 IO212 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 98 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio212x, 2, en_US] Figure 3-53 IO212 – Connection Diagram Input and Output Module IO214 3.2.14 3.2.14.1 Description The terminals for the following are located on the input and output module IO214: •...
Page 99 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.14.2 Terminals Overview of Terminals [dwio214p-030211-01.tif, 2, --_--] Figure 3-54 IO214 – Terminals Current terminal xA Voltage terminal xB Voltage terminal xC Voltage terminal xD Protective grounding terminals NOTE x corresponds to the slot in the 19-inch rack.
Page 100 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cdio214x-260213-01.tif, 1, en_US] Figure 3-55 IO214 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 101 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio214x-270812-01.tif, 1, en_US] Figure 3-56 IO214 – Connection Diagram 3.2.15 Input and Output Module IO215 3.2.15.1 Description The terminals for the following are located on the input and output module IO215: •...
Page 102 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Input Module IO216 3.2.16 3.2.16.1 Description The terminals for the following are located on the input and output module IO216: • 16 special binary inputs with maximized robustness against electrical disturbances and failures The connections are distributed over: •...
Page 103 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram For the binary inputs and outputs, the x corresponds to the slot in the 19-inch rack. [cd_io216, 1, en_US] Figure 3-58 IO216 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 104 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio216x, 1, en_US] Figure 3-59 IO216 – Connection Diagram Input and Output Module IO218 3.2.17 3.2.17.1 Description The terminals for the following are located on the input and output module IO218: •...
Page 105 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.17.2 Terminals [le_io218, 1, --_--] Figure 3-60 IO218 – Terminals Terminal xA Terminal xC Terminal xD Protective grounding terminals Screwing for fastening the shield plates NOTE x corresponds to the slot in the 19-inch rack. Terminal and Connection Diagram NOTE The polarities of the voltages at the analog inputs must not be reversed!
Page 106 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [cd_io218, 1, en_US] Figure 3-61 IO218 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 107 Connections of Temperature Sensors Directly to the Device It is possible in principle to connect temperature sensors with 2-core or 3-core technology. To achieve the specified accuracy, Siemens recommends only using 3-core technology. When using 4-core temperature sensors, the 4th core can be connected to Terminal D14.
Page 108 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Connecting the Lines When connecting the lines, proceed as follows: Use shielded lines with shielding braid (3-core AWG 20). ² Prepare the cable as shown in the following figure. ²...
Page 109 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [le_connection_IO218, 1, en_US] Figure 3-67 Connection and Fastening Fastening screws for shield plates Fasten the 2 shield plates using 2 M4 screws for each (torque = 1.6 Nm). ² Connect the lines with bootlace ferrules.
Page 110 Electronic Modules 3.2 Input and Output Modules of the Modular Devices 3.2.18.2 Terminals Overview of Terminals [dwio230x-030713-01.tif, 2, --_--] Figure 3-68 IO230 – Terminals Terminal xA Terminal xC Terminal xD Protective grounding terminals Terminal xH Terminal xG Terminal xE NOTE x corresponds to the slot in the 19-inch rack.
Page 111 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [cdio230x-030713-01.tif, 1, en_US] Figure 3-69 IO230 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 112 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [tdio230x, 1, en_US] Figure 3-70 IO230 – Connection Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 113 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Input and Output Module IO231 3.2.19 3.2.19.1 Description The terminals for the following are located on the input and output module IO231: • 24 binary inputs • 24 binary outputs, standard make contacts (type S) The connections are distributed over six 10-pole connection terminals.
Page 114 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminal and Connection Diagram NOTE The polarities of the voltages at the binary inputs must not be reversed! [cd_io231x, 2, en_US] Figure 3-72 IO231 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 115 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [td_tdio231x, 1, en_US] Figure 3-73 IO231 – Connection Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 116 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Input and Output Module IO232 3.2.20 3.2.20.1 Description The terminals for the following are located on the input and output module IO232: • 24 binary inputs • 15 binary outputs, of which: –...
Page 117 Electronic Modules 3.2 Input and Output Modules of the Modular Devices NOTE x corresponds to the slot in the 19-inch rack. Terminal and Connection Diagram NOTE The polarities of the voltages at the binary inputs must not be reversed! [cd_io232x, 1, en_US] Figure 3-75 IO232 –...
Page 118 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [td_tdio232x, 1, en_US] Figure 3-76 IO232 – Connection Diagram 3.2.21 Input Module IO233 3.2.21.1 Description The terminals for the following are located on the input module IO233: • 48 binary inputs SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 119 Electronic Modules 3.2 Input and Output Modules of the Modular Devices The connections are distributed over six 10-pole terminals. 3.2.21.2 Terminals Overview of Terminals [dw_io233x, 1, en_US] Figure 3-77 IO233 – Terminals Terminal xA Terminal xC Terminal xD Protective grounding terminals Terminal xH Terminal xG Terminal xE...
Page 120 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [cd_io233x, 1, en_US] Figure 3-78 IO233 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 121 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [td_io233x, 1, en_US] Figure 3-79 IO233 – Connection Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 122 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Input and Output Module IO240 3.2.22 3.2.22.1 Description The following terminals are on the input module IO240 for the low-power instrument transformer (LPIT): • 4 current inputs for the low-power current transformers in the gas insulated switchgears (GIS LPCT), for example, rogowski coils •...
Page 123 Electronic Modules 3.2 Input and Output Modules of the Modular Devices NOTE x corresponds to the slot in the 19-inch rack. Terminals and Connection Diagram [cd_io240x, 3, en_US] Figure 3-80 IO240 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 124 IO240 – Connection Diagram 3.2.22.3 Connections of GIS-LPIT Sensors When connecting the Siemens Energy GIS-LPIT sensors to the LPIT module IO240, proceed as follows: Use the delivered cable LEONI L45551-P42-B5 and confection the cable as explained in the user manual ²...
Page 125 Electronic Modules 3.2 Input and Output Modules of the Modular Devices NOTE You can only use the LPIT Module IO240 with the LPIT Connection Box (C53207-A9443-B1-4). You must use the cable L45551-P42-B5 from the LEONI Special Cables GmbH. The maximum allowed cable length is 100 m. Connect the signal cables to the corresponding terminals, refer to Figure 3-80.
Page 126 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [sc_IO240 connection cables, 1, --_--] Figure 3-82 Connection to Sensors with Cables Short-circuit the unused terminals individually, using the voltage-terminal cross-connectors (product ² code P1Z550), shown in Figure 5-26. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 127 Electronic Modules 3.2 Input and Output Modules of the Modular Devices NOTE The following unused terminal pairs must be individually short-circuited, using the voltage terminal cross- connectors (product code P1Z550): • A2 and A4 • B2 and B4 • C2 and C4 •...
Page 128 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [sc_IO240 connection strain release, 1, --_--] Figure 3-83 Strain-Relief Plate from the Left Place the 4 cables over the fixation surface. ² Fix the strain-relief plate to the rear plate of the LPIT module using 4 M4 screws (torque = 1.6 Nm). ²...
Page 129 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [sc_IO240 connection clamps, 1, --_--] Figure 3-84 Clamps for Fixing the Cables NOTICE The insulation of the cables can be damaged if you are careless when mounting the clamps. Noncompliance with the specified safety instructions means that material damage can occur.
Page 130 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Connect the LPIT module with the module or base unit on the right side of the LPIT module, using the ² provided PE cable. If there are additional IO modules, connect them using their PE cables to the upper PE screw of the LPIT module (torque = 1.6 Nm).
Page 131 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [sc_IO240 connection seal cage, 1, --_--] Figure 3-86 Mounting the Shield Cover 3.2.22.4 Installation of a Microswitch to the Strain-Relief Plate of the IO240 Module To install a microswitch to the strain-relief plate of the IO240 module, proceed as follows: Assemble the microswitch to the strain-relief plate with the supplied screws and locking nuts (Detail A).
Page 132 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [dw_micro-switch_installation, 1, en_US] Figure 3-87 Installation of a Microswitch NOTE For more information on connecting the IO240 module to the LPIT sensors and mounting the shield cover, refer to the Supplementary Note C53000-M5050-C063. 3.2.23 LPIT Input Module IO245 3.2.23.1...
Page 133 Electronic Modules 3.2 Input and Output Modules of the Modular Devices NOTE Due to the higher power requirements of the modules IO218, IO240, and IO245, a maximum of 2 of these modules are permitted in each device row. If one of these modules is used in the 1/3 base module, then this also counts for the limit.
Page 134 Electronic Modules 3.2 Input and Output Modules of the Modular Devices Terminals and Connection Diagram [td_io245, 1, en_US] Figure 3-89 IO245 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 135 Electronic Modules 3.2 Input and Output Modules of the Modular Devices [cd_io245, 1, en_US] Figure 3-90 IO245 – Connection Diagram NOTE For more information on the commissioning of the LPIT module IO245, refer to the commissioning manual from TRENCH for the TOCT. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 136 Electronic Modules 3.3 Power-Supply Module of Non-Modular Devices (7xx81, 7xx82) Power-Supply Module of Non-Modular Devices (7xx81, 7xx82) Power-Supply Module PS101 3.3.1 3.3.1.1 Description The power-supply module PS101 is always permanently installed in the 1/3 module. The following can be found on the PS101 module: •...
Page 137 Electronic Modules 3.3 Power-Supply Module of Non-Modular Devices (7xx81, 7xx82) 3.3.1.2 Terminals Overview of Terminals The terminals assigned to the module are identified by the frame in the figure. [le_ps101, 2, --_--] Figure 3-91 PS101 – Terminals Voltage terminal L Time synchronization G Plug-in module position E Plug-in module position F...
Page 138 Electronic Modules 3.3 Power-Supply Module of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdps101x-210513-01.tif, 1, en_US] Figure 3-92 PS101 – Terminal Diagram [tdps101x-210513-01.tif, 1, en_US] Figure 3-93 PS101 – Connection Diagram Time-Synchronization Terminal The terminal for time synchronization is located on the D-sub 9 interface (position G). Time synchronization signals for DC 5 V, DC 12 V, and DC 24 V can be processed as an option.
Page 139 Electronic Modules 3.3 Power-Supply Module of Non-Modular Devices (7xx81, 7xx82) For further information on connecting to the time synchronization, see chapter 6.6 Communication Interfaces in the Technical Data. Integrated Ethernet Interface (RJ45) This terminal is used to load the device with DIGSI 5 using Ethernet. This terminal also enables straight- forward IEC 61850 Ethernet communication (including GOOSE) or communication with another protocol via Ethernet, for example, for connecting an external RTD unit.
Page 140 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Function Description of the Input and Output Modules of the Non-Modular 3.4.1 Devices Module Designation Function Description • IO101 Input and output module •...
Page 141 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) 3.4.2.2 Terminals Overview of Terminals The terminals assigned to the module are identified by the frame in the figure. [le_io101, 2, --_--] Figure 3-94 IO101 – Terminals Current terminal A Voltage terminal B Voltage terminal D Protective grounding terminals...
Page 142 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdio101x-220513-01.tif, 1, en_US] Figure 3-95 IO101 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 143 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [tdio101x-220513-01.tif, 1, en_US] Figure 3-96 IO101 – Connection Diagram Input and Output Module IO102 3.4.3 3.4.3.1 Description The terminals for the following are located on the input and output module IO102: •...
Page 144 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) 3.4.3.2 Terminals Overview of Terminals The terminals assigned to the module are identified by the frame in the figure. [le_io102, 2, --_--] Figure 3-97 IO102 – Terminals Current terminal A Voltage terminal B Voltage terminal D Protective grounding terminals...
Page 145 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdio102x-220513-01.tif, 1, en_US] Figure 3-98 IO102 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 146 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [tdio102x-220513-01.tif, 1, en_US] Figure 3-99 IO102 – Connection Diagram 3.4.4 Input and Output Module IO103 3.4.4.1 Description The terminals for the following are located on the input and output module IO103: •...
Page 147 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) 3.4.4.2 Terminals Overview of Terminals The terminals assigned to the module are identified by the frame in the figure. [le_io103, 2, --_--] Figure 3-100 IO103 – Terminals Current terminal A Current terminal B Voltage terminal D Protective grounding terminals...
Page 148 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdio103x-131113-01, 3, en_US] Figure 3-101 IO103 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 149 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [tdio103x-01.vsd, 1, en_US] Figure 3-102 IO103 – Connection Diagram Input and Output Module IO110 3.4.5 3.4.5.1 Description The terminals for the following are located on the input and output module IO110: •...
Page 150 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) 3.4.5.2 Terminals Overview of Terminals [le_io110, 3, --_--] Figure 3-103 IO110 – Terminals Terminal M Protective grounding terminals Terminal N SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 151 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdio110x-220513-01.tif, 3, en_US] Figure 3-104 IO110 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 152 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [tdio110x-220513-01.tif, 1, en_US] Figure 3-105 IO110 – Connection Diagram Input and Output Module IO111 3.4.6 3.4.6.1 Description The terminals for the following are located on the input and output module IO111: •...
Page 153 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) 3.4.6.2 Terminals Overview of Terminals [le_io111, 2, --_--] Figure 3-106 IO111 – Terminals Terminal M Protective grounding terminals Terminal N SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 154 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cd_io111, 1, en_US] Figure 3-107 IO111 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 155 Connections of Temperature Sensors and Cables Connections of Temperature Sensors Directly to the Device It is possible in principle to connect temperature sensors with 2-core or 3-core technology. To achieve the specified accuracy, Siemens recommends only using 3-core technology. [dw_example_temp_sensor_3phase, 2, en_US] Figure 3-109...
Page 156 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [dw_example_temp_sensor_2phase, 2, en_US] Figure 3-110 Example: Connecting Temperature Sensors RTD 1 (2-Core Terminal) and RTD 2 (2-Core Terminal) to Terminals M1 to M5 [dw_temperature_sensor, 2, en_US] Figure 3-111 Example: Connecting Temperature Sensors RTD 1 (3-Core Terminal) and RTD 2 (2-Wire Terminal) to Terminals M1 to M5 Connecting the Lines...
Page 157 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [sc_ shielding_plate _mounting-cutout, 1, --_--] Figure 3-113 Using Clips and Cable Ties Loosen the 2 screws for fastening the shielding plates on the device next to the 16-pole or 17-pole plug ²...
Page 158 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) The connections are distributed over: • 1 x 10-pole terminal • 1 x 15-pole terminal 3.4.7.2 Terminals Overview of Terminals The overview of terminals is identical to the module IO110, see Figure 3-103.
Page 159 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdio112, 1, en_US] Figure 3-115 IO112 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 160 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [tdio112x, 1, en_US] Figure 3-116 IO112 – Connection Diagram Input and Output Module IO113 3.4.8 3.4.8.1 Description The terminals for the following are located on the input and output module IO113: •...
Page 161 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) Terminal and Connection Diagram [cdio113, 1, en_US] Figure 3-117 IO113 – Terminal Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 162 Electronic Modules 3.4 Input and Output Modules of Non-Modular Devices (7xx81, 7xx82) [tdio113x, 2, en_US] Figure 3-118 IO113 – Connection Diagram SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 163 Plug-In Modules Function Description of the Plug-In Modules of the Modular and Non-Modular Devices Communication Modules Measuring-Transducer Modules SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 164 Plug-In Modules 4.1 Function Description of the Plug-In Modules of the Modular and Non-Modular Devices Function Description of the Plug-In Modules of the Modular and Non-Modular Devices Plug-In Module Function Description Designation USART-xx-yEL Serial communication module with electric transmission USART-xx-yFO Serial communication module with optical transmission for short distance USART-xx-yLDFO Serial communication module with optical transmission for long distance...
Page 165 Plug-In Modules 4.2 Communication Modules Communication Modules Overview 4.2.1 SIPROTEC devices can be ordered with factory-installed communication modules. The communication modules can also be installed and replaced in the SIPROTEC devices afterwards. You do not have to open the device for this.
Page 166 Plug-In Modules 4.2 Communication Modules Time synchronization G Plug-in module position E Terminal for detached on-site operation panel H Plug-in module position F Integrated Ethernet interface J Connection to expansion module with plug-in module assembly CB202 Protective grounding terminals [le_lmnppo, 2, --_--] Figure 4-2 Plug-In Module Positions and Communication Terminals in the Expansion Module with CB202 2-pole terminal to connect power supply...
Page 167 Plug-In Modules 4.2 Communication Modules [le_slots and communication terminals, 2, --_--] Figure 4-3 Plug-In Module Positions and Communication Terminals on the 1/3 Module, for Non-Modular Devices (7xx81, 7xx82) Time synchronization G Plug-in module position E Plug-in module position F (not applicable to 7xx81) Integrated Ethernet interface J Protective grounding terminals The following communication modules can be used for SIPROTEC 5:...
Page 168 Plug-In Modules 4.2 Communication Modules • Ethernet Modules Application: Ethernet-based communication to the substation automation technology via substation- control protocols (for example, IEC 61850 and DNP3) – Secure communication to DIGSI 5 – Communication between the devices (IEC 61850-GOOSE) – Synchrophasor protocol (IEEE C37.118 - PMU) The modules can be operated with or without an integrated switch.
Page 169 Plug-In Modules 4.2 Communication Modules Plug-in Modules for the Communication Table 4-1 Plug-In Modules for Applications with the Protection Interface and for Other Applications Plug-In Module Physical Connection 1 x electrical serial RS485, RJ45 ■ – – – – – –...
Page 170 Plug-In Modules 4.2 Communication Modules Plug-In Module 1 x optical serial, 1550 nm, LC – – – – – – – – – – – ■ – – – – – – – – connector, 100 km via 9/125 μm singlemode optical fiber 2 x optical serial, 1550 nm, LC –...
Page 171 Plug-In Modules 4.2 Communication Modules Plug-In Module IEC 60870-5-104 – – – – ■ ■ ■ – – – – – – – – – – – – – DNP3 serial ■ ■ ■ ■ – – – – – –...
Page 172 Plug-In Modules 4.2 Communication Modules Plug-In Module SNMP V3 (network management – – – – ■ ■ ■ – – – – – – – – – – – – – protocol) IEEE 1588v2 (PTP protocol via Ethernet – – –...
Page 173 Plug-In Modules 4.2 Communication Modules NOTE The RS485 interface in devices of the SIPROTEC 4 series is a D-Sub 9 connection with a connected terminal resistor. If you connect devices from the SIPROTEC 5 series with devices from the SIPROTEC 4 series, then use a Y adaptor with the order designation 7XV5103-2BA00.
Page 174 Plug-In Modules 4.2 Communication Modules The preceding figure shows the use of both connections on one module for connecting the devices to 2 inde- pendent masters following the same principle as with a single master. Reorders When reordering serial communication modules, specify the product code for the physical version of the module.
Page 175 Plug-In Modules 4.2 Communication Modules Baud rate 1.2 kbit/s to 115.2 kbit/s For 1 or 2 protocols or applications IEC 60870-5-103 (1 application per connector) DNP3 Modbus RTU SUP serial 4.2.3.4 USART-AD-1FO Description Serial asynchronous or synchronous communication module with 1 independent optical interface Product code P1Z62...
Page 176 Plug-In Modules 4.2 Communication Modules Figure Connector type 4 x ST Wavelength λ = 820 nm Baud rate Asynchronous: Both connections 1.2 kbit/s to 115.2 kbit/s Synchronous: Both connections 64 kbit/s to 2 Mbit/s Asynchronous/Synchronous: 1 connector 1.2 kbit/s to 115.2 kbit/s and 1 connector 64 kbit/s to 2 Mbit/s For 1 or 2 protocols or applications IEC 60870-5-103...
Page 177 2.5 dB/km is used for calculation of the distance. Siemens recommends measuring the attenuation of the optical path from end to end in dB. The optical budget specified for the modules used must be sufficient for this. A safety margin for aging and future repairs must be included.
Page 178 Plug-In Modules 4.2 Communication Modules 4.2.4.3 USART-AG-1LDFO Description Protection-interface module for synchronous operation with an optical interface Product code P1Z468 Figure Connector type 1 x duplex LC Wavelength λ = 1300 nm Baud rate 2 Mbit/s for the protection-interface communication Protocol Protection-interface communication Max.
Page 179 Plug-In Modules 4.2 Communication Modules Figure Connector type 1 x simplex LC Wavelength λ = 1300 nm Baud rate 2 Mbit/s for the protection-interface communication Protocol Protection-interface communication Max. line length 40 km for singlemode optical fibers Distance 40 km Laser class 1 as per EN 60825-1/-2 With the use of 9 μm/125 μm optical fibers Minimum...
Page 180 Plug-In Modules 4.2 Communication Modules Distance 40 km Laser class 1 as per EN 60825-1/-2 With the use of 9 μm/125 μm optical fibers Minimum Maximum Transmitter power coupled in -8.0 dBm -3.0 dBm singlemode optical fibers Receiver sensitivity -3.0 dBm -33.0 dBm Optical budget 25.0 dB...
Page 181 Plug-In Modules 4.2 Communication Modules 4.2.4.7 USART-AW-2LDFO Description Protection-interface module for synchronous operation with 2 optical interfaces Product code P1Z772 Figure Connector type 2 x duplex LC Wavelength λ = 1300 nm Baud rate 2 Mbit/s for the protection-interface communication Protocol Protection-interface communication Max.
Page 182 Plug-In Modules 4.2 Communication Modules Connector type 2 x duplex LC Wavelength λ = 1300 nm Baud rate 2 Mbit/s for the protection-interface communication Protocol Protection-interface communication Max. line length 60 km for singlemode optical fibers or 8 km with multimode optical fiber Distance 8 km Laser class 1 as per EN 60825-1/-2 With the use of 62.5 μm/125 μm and 50 μm/125 μm optical fibers...
Page 183 Plug-In Modules 4.2 Communication Modules Distance 40 km Laser class 1 as per EN 60825-1/-2 With the use of 9 μm/125 μm optical fibers Minimum Maximum Transmitter power coupled in the -8.0 dBm -3.0 dBm singlemode optical fiber Receiver sensitivity -3.0 dBm -33.0 dBm Optical budget...
Page 184 Plug-In Modules 4.2 Communication Modules Figure Connector type 2 x duplex LC Wavelength λ = 1550 nm Baud rate 2 Mbit/s for the protection-interface communication Protocol Protection-interface communication Max. line length 100 km for singlemode optical fibers Distance 100 km Laser class 1 as per EN 60825-1/-2 With the use of 9 μm/125 μm optical fibers Minimum...
Page 185 Plug-In Modules 4.2 Communication Modules [dw_eth1sw, 2, en_US] Figure 4-8 Operation of Ethernet Modules with an Integrated Switch Function Figure 4-9 shows the operating mode without integrated switch function. Optionally, the 2nd connection can be connected to the 2nd switch. This connection is shown with a dashed line in Figure 4-9.
Page 186 Plug-In Modules 4.2 Communication Modules [dw_ethsw3, 2, en_US] Figure 4-9 Operation of Ethernet Modules Without Integrated Switch Function with Single or Redundant Connection to the Switch 4.2.5.2 ETH-BA-2EL Description Communication module for the transmission of Ethernet protocols via 2 electrical interfaces Product code P1Z55 Figure...
Page 187 Plug-In Modules 4.2 Communication Modules 4.2.5.3 ETH-BB-2FO Description Communication module for the transmission of Ethernet protocols via 2 optical interfaces Product code P1Z390 Figure Connector type 2 x duplex LC Wavelength λ = 1300 nm Baud rate 100 Mbit/s Protocol DIGSI 5 protocol (secure Web service protocol) IEC 61850 (MMS and GOOSE) DNP3...
Page 188 Plug-In Modules 4.2 Communication Modules Figure Connector type 2 x duplex LC Wavelength λ = 1300 nm Baud rate 100 Mbit/s Protocol DIGSI 5 protocol (secure Web service protocol) IEC 61850 (MMS and GOOSE) IEC 61850-8-1 (9-2 Client and 9-2 Merging Unit) IEC 60870-5-104 DNP3 Modbus TCP...
Page 189 Risk of burns due to high temperatures of the SFP pluggable transceivers Noncompliance with the safety notes may result in medium or light injuries. The SFP pluggable transceivers can be disconnected and plugged in while in operation. Siemens ² recommends switching off the device.
Page 190 Plug-In Modules 4.3 Measuring-Transducer Modules Measuring-Transducer Modules Overview 4.3.1 You can install the measuring-transducer modules in base modules or 1/3 modules (plug-in module positions E and F) and in expansion modules with a CB202 plug-in module assembly (plug-in module position M, N, or P). ANAI-CA-4EL 4.3.2 The ports CH1 to CH4 of the measuring-transducer modules are Protective Extra Low Voltage circuits (PELV...
Page 191 Plug-In Modules 4.3 Measuring-Transducer Modules ANAI-CE-2EL 4.3.3 Channel 2 (CH2) of the measuring-transducer module can be used to monitor a direct voltage of 0 VDC to +300 VDC. Channel 1 (CH1) of the plug-in module has no function and cannot be used. For the connection to the measuring-transducer modules, the following conditions apply: •...
Page 192 Laser class 1 is maintained in compliance with EN 60825-1 and EN 60825-2 when using 1 mm polymer optical fibers. All values in combination with sensors approved by Siemens. Numerical aperture (NA = sin θ (launch angle)) SIPROTEC 5, Hardware Description, Manual...
Page 193 Working on the Device First Steps Expanding Modular Devices Plug-In Modules Arc Sensors for Module: ARC-CD-3FO Battery SDHC Memory Card Installing Current and Voltage Terminals SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 194 Working on the Device 5.1 First Steps First Steps Electrical Inspection 5.1.1 Device Protection DANGER Danger when connecting the SIPROTEC 5 device Noncompliance with the safety notes will result in death, severe injury, or considerable material damage. The device must be situated in the operating area for at least 2 hours before you connect it to the ²...
Page 195 Join several on-site operation panels to one another with firm contact. ² Siemens recommends the use of contact washers on painted metal mounting walls. If the mounting wall is not metallic, place a metal layer, for example a layer of sheet metal, between the mounting wall and the on-site operation panels.
Page 196 Working on the Device 5.2 Expanding Modular Devices Expanding Modular Devices Flush-Mounting Devices 5.2.1 5.2.1.1 Basic Rules for Expanding NOTE Prepare the following tools for the device expansion: • Phillips screwdriver size PZ1 and PZ2 • Screwdriver DIN 4 x 0.8 •...
Page 197 Working on the Device 5.2 Expanding Modular Devices [dweinzei-030211-01.tif, 2, --_--] Figure 5-1 Device Row of a Flush-Mounting Device 5.2.1.2 Expanding 1st Device Row Preparation NOTE Reordered modules are not contained in the original device configuration. Use DIGSI to perform the corre- sponding extension in the Hardware and Protocols Editor.
Page 198 Working on the Device 5.2 Expanding Modular Devices Remove the plastic screw covers from the expansion module. ² Remove the right sealing strips from the base device. ² Place the expansion module on the right next to the device. Insert the 2 hinged angle clips of the expan- ²...
Page 199 Working on the Device 5.2 Expanding Modular Devices NOTE Observe the direction of the connecting cable. Note that the available cable end for the connection of the 2nd device row must be longer than the cable end for the connection of the 1st device row. Insert the cable in the rubber seals, and introduce the seals in the slot of the angle rail (see Figure 5-3)
Page 200 Working on the Device 5.2 Expanding Modular Devices [dw_winkel-020414-01, 1, --_--] Figure 5-4 Sealing Plate and Adaptor Bracket for the Expansion Module of the 1st Device Row Device bus of the outermost right expansion module of the 1st device row Sealing plate Adaptor angle 2 mounting screws...
Page 201 Working on the Device 5.2 Expanding Modular Devices • Always fit the on-site operation panels of the expansion modules from left to right. • Always fit the on-site operation panel of the expansion module with the key switches in the 1st place next to the on-site operation panel of the base module.
Page 202 Working on the Device 5.2 Expanding Modular Devices 5.2.2.2 Expanding 1st Device Row Preparation NOTE Reordered modules are not contained in the original device configuration. Use DIGSI to perform the corre- sponding extension in the Hardware and Protocols Editor. Carry out the steps described in this chapter if you wish to expand an installed device later on with expan- sion modules.
Page 203 Working on the Device 5.2 Expanding Modular Devices Bolt the 1st (left-hand) on-site operation panel to the 2 mounting brackets. Do not firmly tighten the ² screws. Place the 2nd on-site operation panel on the right of the 1st one and screw these panels onto the 2 ²...
Page 204 Working on the Device 5.2 Expanding Modular Devices NOTE The next 6 steps are only necessary if the 1st device row is not accessible. If the left side of the 1st device row is accessible, then the complete device can remain on the wall. Detach all on-site operation panels from the distance frames.
Page 205 Working on the Device 5.2 Expanding Modular Devices [dw_2zeauf-020414-01, 1, --_--] Figure 5-7 Expansion with 2nd Device Row (View of the Installation Level without Showing the On-Site Operation Panel) Extreme right expansion module of the 1st device row Connecting cables 2nd device row [dw_winauf-020414-01, 1, --_--] Figure 5-8...
Page 206 Working on the Device 5.2 Expanding Modular Devices Extend the device configuration in DIGSI and load it to the device. ² Resume operation of the device. ² Surface-Mounted Devices with Detached On-Site Operation Panel 5.2.3 5.2.3.1 Basic Rules for Expanding NOTE Prepare the following tools for the device expansion: •...
Page 207 Working on the Device 5.2 Expanding Modular Devices [dwabosop-040211-01.vsd, 2, en_US] Figure 5-10 Detached on-site operation panel 5.2.3.2 Expanding 1st Device Row Preparation NOTE Reordered modules are not contained in the original device configuration. Use DIGSI to perform the corre- sponding extension in the Hardware and Protocols Editor.
Page 208 Working on the Device 5.2 Expanding Modular Devices [dw_osops, 1, --_--] Figure 5-11 Connecting the On-site Operation Panel Vertical end faces remain parallel during the assembly process. Rear panels of the on-site operation panel during assembly on the same level. Installing the Devices (with View to the Installation Plane) Remove the bus cover from the extreme left-hand module of the device to be extended.
Page 209 Working on the Device 5.2 Expanding Modular Devices Resume operation of the device. ² Expanding Devices with 2nd Device Rows When expanding a surface-mounting device with a 2nd device row, follow the instructions in Chapter ² 5.2.2.3 Expanding Devices with 2nd Device Row.
Page 210 Working on the Device 5.3 Plug-In Modules Plug-In Modules Fasteners 5.3.1 The fasteners of the plug-in modules are shown in the following figure regarding the example of an installed module and an empty, covered slot. [le_fxing_elements, 1, --_--] Figure 5-12 Fasteners EMC spring contact Fastening screw...
Page 211 Working on the Device 5.3 Plug-In Modules CAUTION Exercise caution with laser beams of the optical plug-in modules. Noncompliance with the safety notes can result in medium-severe or slight injuries. Do not look directly into the optical fiber terminals of the active optical plug-in modules, not even with ²...
Page 212 Working on the Device 5.3 Plug-In Modules Preparing Removal DANGER Risk of live voltage when removing the plug-in modules. Noncompliance with the safety notes will result death or severe injuries. Remove plug-in modules on the electrically deactivated device only. ² CAUTION Exercise caution with laser beams of the optical plug-in modules.
Page 213 Working on the Device 5.3 Plug-In Modules Replacement 5.3.4 Preparing for Replacement DANGER Danger due to live voltage when replacing the plug-in modules. Noncompliance with the safety notes will result in death or severe injuries. Install plug-in modules on the electrically deactivated device only. ²...
Page 214 Working on the Device 5.3 Plug-In Modules NOTE If you have not cabled the optical fiber plug-in modules, then seal the terminals with protective covers. This prevents soiling of the terminals. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 215 Working on the Device 5.4 Arc Sensors for Module: ARC-CD-3FO Arc Sensors for Module: ARC-CD-3FO Point Sensor 5.4.1 5.4.1.1 Description The point sensor detects arcs in the control cabinets of the air-insulated system part. [dwsensap-210314-01, 2, en_US] Figure 5-13 Point Sensor for the Arc-Protection Module: ARC-CD-3FO Optically active zone Sensor head Supply line...
Page 216 Working on the Device 5.4 Arc Sensors for Module: ARC-CD-3FO [dw_point_sensor_dimensions, 1, en_US] Figure 5-14 Dimensional Drawing of the Point Sensor The sensitivity of the point sensors with line lengths up to 4 m typically begins at 10 kLux. 5.4.1.2 Installation The point sensors are mounted in the different compartments of a control cabinet, see the following figure.
Page 217 As an alternative, you can also fasten the point sensor using a screw (M4). Tighten the screw with a ² torque of 0.2 Nm. Siemens recommends fastening the line to the wall below the point sensor. The line must not be bent or ² stressed in any other way.
Page 218 In order to warrant safe functioning, the affected sensor must be substituted after detection of an arc. NOTE Hereby, Siemens declares that until now, UL has neither investigated whether the device can detect an arc- protection fault, neither if in case of an arc-protection fault, the safety of personnel and system is guaran- teed.
Page 219 Laser class 1 is maintained in compliance with EN 60825-1 and EN 60825-2 when using 1 mm polymer optical fibers. You need 2 holes (10.0 mm in diameter) in the control cabinet for fastening. Siemens recommends a ² distance of approx. 10 cm.
Page 220 In order to warrant safe functioning, the affected sensor must be substituted after detection of an arc. NOTE Hereby, Siemens declares that until now, UL has neither investigated whether the device can detect an arc- protection fault, neither if in case of an arc-protection fault, the safety of personnel and system is guaran- teed.
Page 221 Working on the Device 5.5 Battery Battery Description 5.5.1 The battery lies in an externally accessible battery compartment. The battery compartment is located on the rear of the base module. You need not open the device when replacing the battery. If the auxiliary voltage fails, the battery ensures continued operation of the internal clock and storage of certain data (statistical values, values of thermal models) for at least 6 months.
Page 222 Working on the Device 5.5 Battery Replacing the Battery 5.5.2 Safety Notes NOTICE Exercise caution when replacing the battery. Noncompliance with the specified measures can result in material damage. Replace the battery only with the type specified in the Technical Data. ²...
Page 223 When disposing of or transferring a mobile storage device, Siemens strongly recommends physically destroying it or completely deleting data from the mobile storage device by using a commercially available computer data erasing software.
Page 224 Reading the data of the SDHC memory card with a PC is not intended. Avoid too frequent insertion cycles! NOTE Use only the original SDHC memory card (ACCESAR) approved by Siemens for the 7KE85 fault recorder. Replacing the SDHC Memory Card De-energize the device.
Page 225 Working on the Device 5.6 SDHC Memory Card Push the holder, push the sealing cap to the back and remove it Unlock the eject lever Remove the SDHC memory card Unpack the new SDHC memory card. ² Do not touch the contacts of the SDHC memory card with your fingers. Insert the new SDHC memory card.
Page 226 Working on the Device 5.7 Installing Current and Voltage Terminals Installing Current and Voltage Terminals Description 5.7.1 [dwklepos-030211-01.tif, 1, --_--] Figure 5-23 Current and Voltage Terminals with Spring Clips Current-terminal block Voltage-terminal block Spring clips The spring clips fix the terminal block in place. [sc_klepos-020414-01, 1, --_--] Figure 5-24 Voltage Terminal with Screw Connection...
Page 227 Working on the Device 5.7 Installing Current and Voltage Terminals NOTE You can read the type of the current transformer used on the side of the terminal block, for example 3xI 1xIE. The reference number is located on the connector interface and can only be read when removed. •...
Page 228 Working on the Device 5.7 Installing Current and Voltage Terminals [dwkappsp-030211-01.tif, 1, --_--] Figure 5-28 Covering Cap for Voltage-Terminal Block Cover caps for sealing the connector interface of the terminal block can be ordered as accessories. Terminal Designations The current terminals have different designations in DIGSI, the configurator, and the device. The following table provides an overview of the different terminal designations and order numbers of the terminals.
Page 229 Stranded-wire conductor with ring-type lug • Stranded-wire conductor with bootlace ferrule • Solid conductor Siemens recommends the use of ring-type lugs with the dimensions shown in the following figure. Use copper cables only. [dwringka-030211-01.tif, 1, en_US] Figure 5-29 Ring-Type Lug D (for bolt) 5.0 mm (0.2 in)
Page 230 The single cable connection type is available for the connection. You can connect solid conductors as well as stranded-wire conductors with and without bootlace ferrule as single cables. Siemens recommends using twin bootlace ferrules of series PN 966 144 made by Tyco Electronics for the connection of 2 single cables.
Page 231 Working on the Device 5.7 Installing Current and Voltage Terminals The following cable cross-sections can be used for the connection of single cables: Cable cross-section AWG (American Wire Gauge) 20-14 (0.5 mm 2.5 mm (0.0008 in to 0.0039 in )) solid or bare stranded wire with or without UL listed boot- lace ferrule Use AWG 14 (2,5 mm...
Page 232 Working on the Device 5.7 Installing Current and Voltage Terminals Mechanical Requirements The fasteners and their associated components are designed for the following mechanical requirements: Permissible tightening torque at clamping screw 0.6 Nm 5.7.3.3 Connections of Voltage Terminal with Screw Connection for IO111 For the connection of the module IO111, Phoenix terminals are used (see Figure 5-25).
Page 233 Working on the Device 5.7 Installing Current and Voltage Terminals Carefully pull out the terminal block. ² Seal the contacts with a cover cap (see Figure 5-27 Figure 5-28). ² Installation Pull the cover cap off the terminal. ² Carefully insert the terminal block into the spring clips. ²...
Page 234 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 235 Technical Data Analog Inputs Supply Voltage Binary Inputs Relay Outputs Light-Emitting Diodes in the On-Site Operation Panel Communication Interfaces Electrical Tests Mechanical Tests Environmental Conditions 6.10 Operating Conditions 6.11 Reference Conditions and Influencing Variables 6.12 Approvals 6.13 Design Data 6.14 Assembly Dimensions 6.15 Conformity Label, Modular and Non-Modular Devices...
Page 236 Technical Data 6.1 Analog Inputs Analog Inputs Current Inputs All current, voltage, and power data are specified as RMS values. Rated frequency f 50 Hz, 60 Hz rated 16.7 Hz (for rail protection devices only) Protection-class current trans- Rated current I Measuring range of Measuring range of the rated...
Page 237 Technical Data 6.1 Analog Inputs Voltage Input All current, voltage, and power data are specified as RMS values. Rated frequency f 50 Hz, 60 Hz rated 16.7 Hz (for rail devices only) Input and output modules IO102, IO202, IO208, IO211, IO215 IO214 Measuring range...
Page 238 For EMC reasons, do not connect a line to an unused input (current or voltage). Use shielded cables. All values in combination with sensors approved by Siemens. Numerical aperture (NA = sin θ (launch angle)) SIPROTEC 5, Hardware Description, Manual...
Page 239 Technical Data 6.1 Analog Inputs Table 6-1 Fast Measuring Transducer Inputs, Voltage Differential voltage input channels IO210: 4 IO212: 8 Measuring range DC -10 V to +10 V Fault < 0.5 % of measuring range Input impedance 48 kΩ Max. permissible voltage with 300 V respect to ground on the meas- uring inputs...
Page 240 Technical Data 6.1 Analog Inputs Permissible potential difference DC 20 V between channels Galvanic separation against AC 500 V, DC 700 V ground/housing Permissible overload DC 100 mA continuously Sampling rate 16 kHz (MU1 to MU3) 5 Hz (MU4 to MU7) NOTE For more information on the measuring accuracy of the analog inputs, refer to the Technical Data in the SIPROTEC 5 device manuals.
Page 241 Technical Data 6.1 Analog Inputs Insulation of LPIT Digital Input (via Module IO245) Insulation (All Inputs) Configuration The LPVT inputs are isolated from PE and the operator according to the requirements of IEC 61869-1 (AC 3 kV, 50 Hz, 1 min) and IEC 60255-27 for a rated voltage of 300 V despite the low-level signaling voltages.
Page 242 Technical Data 6.2 Supply Voltage Supply Voltage Integrated Power Supply For modular devices, the following modules contain a power supply: PS201 – Power supply of the base module and of the 1st device row PS203 – Power supply of the 2nd device row PS204 –...
Page 243 Technical Data 6.2 Supply Voltage Integrated Power Supply Power consumption (life relay active) – AC 230 V/50 Hz AC 115 V/50 Hz 1/3 module, non-modular 16 VA 12.5 VA Without plug-in modules 1/3 base module, modular 13 W 55 VA 40 VA Without plug-in modules 1/6 expansion module...
Page 244 Technical Data 6.3 Binary Inputs Binary Inputs Standard Binary Input Rated voltage range DC 24 V to 250 V The binary inputs of SIPROTEC 5 are bipolar, with the exception of the binary inputs on the modules IO230, IO231, and IO233. Current consumption, excited Approx.
Page 245 Technical Data 6.3 Binary Inputs Capacitive load (supply-line capaci- Dropout time Dropout time tance) < 5 nF < 3 ms < 10 nF < 4 ms < 50 nF < 5 ms < 220 nF < 10 ms Control voltage for the module Range for 220 V control voltage IO216 Threshold pickup...
Page 246 Technical Data 6.4 Relay Outputs Relay Outputs Standard Relay (Type S) Rated voltage (AC and DC) 250 V Rated current (continuous) and total permissible current for contacts connected to common potential Permissible current per contact (switching on and 30 A for 1 s (make contact only) holding) Short-time current across closed contact 250 A for 30 ms...
Page 247 Technical Data 6.4 Relay Outputs High-Speed Relay with Semiconductor Acceleration (Type HS) Rated voltage AC 200 V, DC 250 V Rated current (continuous) 5 A (in accordance with UL approval) 10 A (not UL approved; AWG 14 / 2.5 mm copper conductors necessary) Permissible current per contact (switching on and...
Page 248 Technical Data 6.5 Light-Emitting Diodes in the On-Site Operation Panel Light-Emitting Diodes in the On-Site Operation Panel Base Module Status Color Quantity Green ERROR Routable (adjustable with DIGSI 5) 2-colored: red or green Only the defined color can be used in operation.
Page 249 Technical Data 6.6 Communication Interfaces Communication Interfaces User Interface, Front Side You can find a USB connection of type B for the connection to a laptop computer or to a PC on the front side of the device. A protection cover protects this USB connection against pollution and humidity. User interface Connection USB type B...
Page 250 Technical Data 6.6 Communication Interfaces Signal Levels/ Signal Rated Input Voltage, DC Burdens 12 V 24 V 6.0 V 15.8 V 31.0 V Imax ≥4.7 V ≥6.6 V ≥12.5 V IHigh ≤1.0 V at ≤1.4 V at ≤1.9 V at ILow = 0.25 mA = 0.25 mA...
Page 251 Flashes when a communication module is inserted in plug-in module position N. Table 6-8 Connection Signal Comment Siemens-specific assignment Connection using a special cable Is part of the device delivery Insulation class SELV (as per IEC 60255-27) Plug-In Modules The technical data concerning plug-in modules can be found in 4 Plug-In Modules.
Page 252 Technical Data 6.7 Electrical Tests Electrical Tests Standards IEC 60255 (product standard) IEEE Std C37.90 UL 508 Additional standards are listed for the individual tests. Installation Requirements Overvoltage category Degree of pollution Protection class Voltage-Immunity and Safety Tests Standards IEC 60255-27 Voltage test (routine test), current measurement inputs, voltage meas- AC 2.5 kV urement inputs, relay outputs...
Page 253 Technical Data 6.7 Electrical Tests EMC Immunity Tests (Type Tests, Test under Mounting Conditions) Standards IEC 60255-1 and -26 (product standards) EN 61000-6-2 (generic standard) Electrostatic discharge test Contact discharge: IEC 61000-4-2 • Front panel, modular and non-modular devices: 8 kV •...
Page 254 Technical Data 6.7 Electrical Tests Pulsed magnetic field 1000 A/m, 8 µs/20 µs IEC 61000-4-9 Standard for Surge Withstand 2.5 kV (peak value) Capability (SWC) 1 MHz IEEE Std C37.90.1 τ = 15 µs 400 impulses per s Test duration ≥ 10 s Ri = 200 Ω...
Page 255 Technical Data 6.8 Mechanical Tests Mechanical Tests Vibration and Shock Stress in Stationary Use Standards IEC 60255-21 and IEC 60068 Vibration Test (sinusoidal) Sinusoidal 10 Hz to 60 Hz: ± 0.075 mm amplitude 60 Hz to 150 Hz; 10 m/s acceleration IEC 60255-21-1, class 2 Frequency sweep 1 octave/min...
Page 256 Technical Data 6.9 Environmental Conditions Environmental Conditions Temperatures Type test, in operation -40 °C to +85 °C (in compliance with IEC 60068-2-1 and IEC 60068-2-2, test Ad for 16 h and test Bd for 16 h) Temporarily permissible during operation (tested for -25 °C to +70 °C 96 h) Load conditions for the non-modular devices: With...
Page 257 Technical Data 6.9 Environmental Conditions Range 2 for 110 V and All 24 binary inputs usable All 24 binary inputs usable 18 binary inputs usable 125 V operating voltage for uninterrupted duty for uninterrupted duty for uninterrupted duty (max. 3 in each group of 4 at the same time) Range 3 for 220 V and 18 binary inputs usable...
Page 258 The protection device is designed for flush mounting in conventional relay rooms and systems such that elec- tromagnetic compatibility (EMC) is ensured with proper flush mounting. Siemens additionally recommends: • Use contactors and relays that work within the same cabinet or the same relay panel with digital protec- tion equipment, only with suitable quenching equipment.
Page 259 Technical Data 6.11 Reference Conditions and Influencing Variables 6.11 Reference Conditions and Influencing Variables Reference Conditions Measurand current I ± 1 % rated Measurand voltage V ± 1 % rated Frequency f ± 1 % rated Sine waveform, total harmonic distortion ≤...
Page 260 Technical Data 6.12 Approvals 6.12 Approvals UL-Listed/UL-Approved Base module and 1/3 base module IND. CONT. EQ. 69CA Expansion module IND. CONT. EQ. 69CA SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 261 Technical Data 6.13 Design Data 6.13 Design Data Masses Device Size Weight of the Modular Devices Type of construction Flush-mounting device 4.4 kg 7.2 kg 9.9 kg 12.7 kg 15.5 kg Surface-mounted device with inte- 7.4 kg 11.7 kg 15.9 kg 20.2 kg 24.5 kg grated on-site operation panel...
Page 262 Technical Data 6.13 Design Data Type of Construction Max. Total Width x Max. Total Height x Max. Total Depth , Each Rounded up to the Next Full mm (in Inches) Surface-mounted device with Base module 150 mm x 315 mm x 231 mm (5.91 x 12.4 detached on-site operation x 9.09) panel...
Page 263 Technical Data 6.13 Design Data Type of Max. Total Width x Max. Total Height x Max. Total Depth , Rounded to full mm (in Construction Inches) Surface- 150 mm x 225 mm x 300 mm x 375 mm x 450 mm x mounted device 315 mm x 315 mm x...
Page 264 Technical Data 6.13 Design Data Tightening Torques for Terminal Screws Type of Line Current Terminal Voltage Terminal with Voltage Terminal with Spring-Loaded Terminals Screw Connection (also refer to Figure 5-23) (also refer to (also refer to Figure 5-23) Figure 5-24) Stranded wires with ring- 2.7 Nm No ring-type lug...
Page 265 Technical Data 6.14 Assembly Dimensions 6.14 Assembly Dimensions NOTE You must mount the devices vertically. Flush-Mounting Device [dw_z1_1-3, 2, en_US] Figure 6-1 Cut-out Widths and Drilling Pattern - 1/3 Device, 1st Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 266 Technical Data 6.14 Assembly Dimensions [dw_z1_1-2, 3, en_US] Figure 6-2 Cut-out Widths and Drilling Pattern - 1/2 Device, 1st Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 267 Technical Data 6.14 Assembly Dimensions [dw_z1_2-3, 3, en_US] Figure 6-3 Cut-out Widths and Drilling Pattern - 2/3 Device, 1st Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 268 Technical Data 6.14 Assembly Dimensions [dw_z1_5-6, 3, en_US] Figure 6-4 Cut-out Widths and Drilling Pattern - 5/6 Device, 1st Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 269 Technical Data 6.14 Assembly Dimensions [dw_z1_1-1, 4, en_US] Figure 6-5 Cut-out Widths and Drilling Pattern - 1/1 Device, 1st Device Row All holes in the area of the specific device cut-out width (see Table 6-9) must comply with the dimensions in the corresponding figures.
Page 270 Technical Data 6.14 Assembly Dimensions [dw_z2_2-6, 3, en_US] Figure 6-6 Cut-out Widths and Drilling Pattern - 1/3 Device, 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 271 Technical Data 6.14 Assembly Dimensions [dw_z2_3-6, 3, en_US] Figure 6-7 Cut-out Widths and Drilling Pattern - 1/2 Device, 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 272 Technical Data 6.14 Assembly Dimensions [dw_z2_4-6, 3, en_US] Figure 6-8 Cut-out Widths and Drilling Pattern - 2/3 Device, 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 273 Technical Data 6.14 Assembly Dimensions [dw_z2_5-6, 3, en_US] Figure 6-9 Cut-out Widths and Drilling Pattern - 5/6 Device, 2nd Device Row [dw_z2_6-6, 4, en_US] Figure 6-10 Cut-out Widths and Drilling Pattern - 1/1 Device, 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 274 Drilling Pattern - 1/1 Device, 1st and 2nd Device Row Siemens recommends a hole spacing of at least 55 mm (2.17 in) between the 1st and 2nd device rows. The maximum spacing may be about 80 mm (3.15 in) due to the length of the connecting cable. The length of the cable is 890 mm (35.04 in) from the center of the plug to the center of the connector.
Page 275 Technical Data 6.14 Assembly Dimensions Width of the Mounting Opening 5/6 device (base module with 3 expansion modules) mm (14.61 +0.08 1/1 device (base module with 4 expansion modules) mm (17.6 +0.08 Table 6-10 Variable Housing Widths Dimension a Housing Widths in mm (in Inches) (Total Width = Housing Width + 5 mm (0.2 in)) 1/3 device 145 (5.71)
Page 276 Technical Data 6.14 Assembly Dimensions Surface-Mounted Devices with Integrated On-Site Operation Panel (Modular Device) [dwosopin-070211-01.tif, 4, en_US] Figure 6-14 1/3 Surface-Mounted Device with Integrated On-Site Operation Panel; Dimensions in the Side and Front Views NOTE When mounting the surface-mounted devices, ensure that the holes are dimensioned for a screw size M6. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 277 Technical Data 6.14 Assembly Dimensions [dwbohrge-1_3.vsd, 3, en_US] Figure 6-15 Drilling Pattern of a 1/3 Surface-Mounted Device – 1st Device Row [dwbohrge-1_2.vsd, 3, en_US] Figure 6-16 Drilling Pattern of a 1/2 Surface-Mounted Device – 1st Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 278 Technical Data 6.14 Assembly Dimensions [dwbohrge-2_3.vsd, 3, en_US] Figure 6-17 Drilling Pattern of a 2/3 Surface-Mounted Device – 1st Device Row [dwbohrge-5_6.vsd, 3, en_US] Figure 6-18 Drilling Pattern of a 5/6 Surface-Mounted Device – 1st Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 279 Technical Data 6.14 Assembly Dimensions [dwbohrge-070211-01.tif, 4, en_US] Figure 6-19 Drilling Pattern of a 1/1 Surface-Mounted Device – 1st Device Row [dw_z2_bohr_1-3.vsd, 3, en_US] Figure 6-20 Drilling Pattern of a 1/3 Surface-Mounted Device – 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 280 Technical Data 6.14 Assembly Dimensions [dw_z2_bohr_1-2.vsd, 3, en_US] Figure 6-21 Drilling Pattern of a 1/2 Surface-Mounted Device – 2nd Device Row [dw_z2_bohr_2-3.vsd, 3, en_US] Figure 6-22 Drilling Pattern of a 2/3 Surface-Mounted Device – 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 281 Technical Data 6.14 Assembly Dimensions [dw_z2_bohr_5-6.vsd, 3, en_US] Figure 6-23 Drilling Pattern of a 5/6 Surface-Mounted Device – 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 282 Technical Data 6.14 Assembly Dimensions [dw_z2_bohr_1-1.vsd, 3, en_US] Figure 6-24 Drilling Pattern of a 1/1 Surface-Mounted Device – 2nd Device Row SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 283 Technical Data 6.14 Assembly Dimensions Surface-Mounted Devices with Integrated On-Site Operation Panel (Non-Modular Device) [dw_console side view, 4, en_US] Figure 6-25 Non-Modular Surface-Mounted Device with Integrated On-Site Operation Panel, Dimensions in the Side and Front Views Surface-Mounted Devices with Integrated On-Site Operation Panel (Non-Modular Device) NOTE When mounting the surface-mounted devices, ensure that the holes are dimensioned for a screw size M6.
Page 284 Technical Data 6.14 Assembly Dimensions [dw_drilling non modular surface mounting with several consoles, 2, en_US] Figure 6-26 Drilling Pattern for a Non-Modular Surface-Mounted Device – Several Consoles The 149 mm applies in the case that several mounted consoles should be mounted next to each other.
Page 285 Technical Data 6.14 Assembly Dimensions [dw_z1_osop_1-2, 1, en_US] Figure 6-28 On-Site Operation Panel Drilling Pattern of the 1/2 Device [dw_z1_osop_2-3, 1, en_US] Figure 6-29 On-Site Operation Panel Drilling Pattern of the 2/3 Device SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 286 Technical Data 6.14 Assembly Dimensions [dw_z1_osop_5-6, 1, en_US] Figure 6-30 On-Site Operation Panel Drilling Pattern of the 5/6 Device [dw_z1_osop_1-1, 1, en_US] Figure 6-31 On-Site Operation Panel Drilling Pattern of the 1/1 Device SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 287 Technical Data 6.14 Assembly Dimensions [dwosopab-070211-01.tif, 4, en_US] Figure 6-32 Surface-Mounted Device with Detached On-Site Operation Panel, Dimensions in the Side and Front Views Refer to Table 6-10 for the variable dimension a. The drilling patterns correspond to the figures Figure 6-15 Figure 6-24.
Page 288 Technical Data 6.15 Conformity Label, Modular and Non-Modular Devices 6.15 Conformity Label, Modular and Non-Modular Devices In the following table, the conformity label of a modular or non-modular device is explained as an example. The conformity label is located on the device. European CE marking Directive for the Eurasian Economic Union Binding conformity mark for electronics and electrical products in Morocco...
Page 289 Technical Data 6.16 Modular Device Name Plate 6.16 Modular Device Name Plate In the following table, the name plate of a modular device is explained as an example. The name plate is located on the device. 7SJ85 Device type or, in the case of expansion modules, designation of the module Overcurrent Protection Product group Rated values (specified when current and/or voltage transformers are placed...
Page 290 Technical Data 6.17 Name Plate of Non-Modular Devices (7xx81, 7xx82) 6.17 Name Plate of Non-Modular Devices (7xx81, 7xx82) In the following table, the name plate of a non-modular device is explained as an example. The name plate is located on the device. 7SJ82 Device type Overcurrent Protection...
Page 291 Technical Data 6.18 Name Plate, UL Approval, Base Module and 1/3 Base Module 6.18 Name Plate, UL Approval, Base Module and 1/3 Base Module UL approved for Canada and the USA IND. CONT. EQ. Industrial controller 69CA Approval number : max. 70 °C normal op. The ambient temperature must not exceed 70 °C or 158 °F during normal Surr operation.
Page 292 The ambient temperature must not exceed 70 °C or 158 °F during normal Surr operation. Listed accessory for use with Approved accessory for use with a protection device from Siemens manufacturer´s protection relay. SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 293 Technical Data 6.20 Battery 6.20 Battery Type CR2032 Button cell Lithium Voltage Capacity 230 mAh Average service life of the battery, unpowered after removal of protec- At least 6 months tive film Service life of the battery in the activated state with protective film 10 years removed Use button cells from manufacturers like Varta, Panasonic, or Duracell.
Page 294 Technical Data 6.21 SDHC Memory Card 6.21 SDHC Memory Card NOTE You can use only Siemens SDHC memory cards. Capacity 16 GB Performance class ≥ Class 10 Temperature range -40 °C to +85 °C Flash type Dimensions Width x Height x Depth (in Inches) SDHC memory card 24 mm x 32 mm x 2.1 mm (0.94 x 1.26 x 0.08)
Page 295 Technical Data 6.22 Display Resolution 6.22 Display Resolution LCD Graphic display (Liquid Crystal Display) Small 192 x 128 pixels LCD Graphic display (Liquid Crystal Display) Large 240 x 320 pixels SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 296 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 297 Ordering Information Ordering Spare Parts and Accessories SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 298 Ordering Information 7.1 Ordering Spare Parts and Accessories Ordering Spare Parts and Accessories Order Configurator and Order Options 7.1.1 Order Configurator The order configurator assists you in the selection of SIPROTEC 5 products. The order configurator is a Web application that can be used with any browser. The order configurator can be used to configure complete devices or individual components, such as communication modules, expansion modules, or other accessories.
Page 299 Ordering Information 7.1 Ordering Spare Parts and Accessories Group Accessories Terminal Type A current terminal, 3 x protection and 1 x measurement (for modular devices) Terminal Type A current terminal, 4 x measurement (for modular devices) Terminal Type B current terminal, 4 x protection (for non-modular devices) Terminal Type B current terminal, 3 x protection and 1 x measurement...
Page 300 Ordering Information 7.1 Ordering Spare Parts and Accessories Group Accessories Sensors for arc protection Point sensor with line length of 4 m Sensors for arc protection Point sensor with line length of 5 m Sensors for arc protection Point sensor with line length of 7 m Sensors for arc protection Point sensor with line length of 10 m Sensors for arc protection...
Page 301 Appendix Hardware/Firmware Compatibility List SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 302 Appendix A.1 Hardware/Firmware Compatibility List Hardware/Firmware Compatibility List Component/ Product Feature Modules CP100 – ■ ■ – – – ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ – – – – CP150 –...
Page 303 Appendix A.1 Hardware/Firmware Compatibility List Component/ Product Feature IO232 ■ – – – – – – – – – – – – – – – – – – – – – – – – – – ■ IO233 ■ – – – – – – – – – – – ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ IO240 ■...
Page 304 Appendix A.1 Hardware/Firmware Compatibility List Component/ Product Feature 8 push-buttons/LEDs ■ – – – – – – – – – – ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ (NE) + 48 LEDs 8 push-buttons/LEDs ■...
Page 305 Appendix A.1 Hardware/Firmware Compatibility List Component/ Product Feature 4 synchronization ■ – – – – – – – – – – – – – – – – – – – ■ ■ ■ ■ ■ ■ ■ ■ points 8 synchronization ■...
Page 306 Appendix A.1 Hardware/Firmware Compatibility List Component/ Product Feature Base + 350 function ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ ■ points Base + 375 function ■...
Page 307 Literature Distance Protection, Line Differential Protection, and Overcurrent Protection for 3-Pole Tripping – 7SA82, 7SD82, 7SL82, 7SA84, 7SD84, 7SA86, 7SD86, 7SL86, 7SJ86 C53000-G5040-C010 Distance and Line Differential Protection, Breaker Management for 1-Pole and 3-Pole Tripping – 7SA87, 7SD87, 7SL87, 7VK87 C53000-G5040-C011 Overcurrent Protection –...
Page 308 Literature /19/ SIPROTEC 5 – Security C53000-H5040-C081 /20/ PIXIT, PICS, TICS, IEC 61850 C53000-G5040-C013 /21/ Operation C53000-G5040-C003 /22/ Engineering Guide C53000-G5040-C004 /23/ High-Speed Busbar Transfer – 7VU85 C53000-G5040-C090 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 309 Glossary Control display The control display becomes visible for devices with a large display after pressing the CTRL key. The diagram contains the switching devices to be controlled in the feeder, with status representation. The control display serves for the bushing of the switching operations. Defining this display is part of the project engineering. DCF77 The high-precision official time is determined in Germany by the Physikalisch-Technische Bundesanstalt PTB in Brunswick.
Page 310 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 311 Index Device structure Base module 20 Expansion module 25 Activating the battery 194 Dimensions 261, 294 Arc protection Display elements 41 Installing the line sensor 218 Expansion module 44 Installing the point sensor 216 On-site operation panel with push-button func- Line sensor 218 tion 44 Plug-in module 192...
Page 312 Index Replacement 224 Secure Digital High Capacity 224 Spring clip 226 Measuring-transducer module 190 Standards 252 Modular systems 17 Surface Mounting Device with Detached On-site Opera- tion Panel Extension 206 Surface mounting device with integrated on-site opera- tion panel Extension 200 On-site operation panel Surface-mounted device with 2nd device row PS201 51...
Page 313 Index PS101 138 PS201 51 Voltage terminals 226, 230, 231, 232, 232 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...
Page 314 SIPROTEC 5, Hardware Description, Manual C53000-G5040-C002-R, Edition 11.2022...

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