This document provides an overview of various Siemens protection catalogs and manuals. It includes:
- Descriptions of catalogs for accessories, Reyrolle devices, SIPROTEC 5, SIPROTEC Compact, and SIPROTEC 4 systems.
- Information on manuals that describe operation, installation and technical specifications.
- An overview of the selection guide that provides a device selection table and overview of Siemens protection devices.
Protection, Automation and Monitoring: SIPROTEC 5 v7.9/v8.0Ryan O'Mara
Highlights of SIPROTEC 5 family of multi-functional protection relays with control.
- SIPROTEC DigitalTwin
- Compatibility of SIPROTEC 4 and SIPROTEC 5 for 87L and 21
- IEC 61850-9-2 Process bus for digital substations (Server/Client)
- SIPROTEC 6MU85 Merging Unit
- Time synchronization with IEEE 1588 for High Precision applications
- SIPROTEC 7SS85 distributed busbar protection based on process bus
- Point-on-wave switching
- Conformal coating of SIPROTEC 5 devices as standard
- Cyber Security
- ATEX certification for 7SK85 and 7UM85
- New overcurrent and feeder protection SIPROTEC 7SJ81
- Web Browser
Protection relays and controls SIPROTEC 5 New Version V7.5Ryan O'Mara
Protective relay with controls, SIPROTEC 5 recently announced Version 7.50. These 10 slides outline the new features found in this update.
With Siemens protective relay and control technology on board, you have a reliable, global partner at your side. You can expect proven, dependable and durable technology for all areas. Efficient, comprehensive and thus designed for maximum supply security. Benefit from the detailed, innovative know-how of the world leader in the area of protection.
Highlights in SIPROTEC 5 Version 7.8
Cyber Security:
Role-based Access Control (RBAC) with central user
management
Usability:
SIPROTEC 5 Web Browser
New Device:
Paralleling Device SIPROTEC 7VE85
SIPROTEC 5 - The core of digital substationsRyan O'Mara
Substations are essential assets in the Energy Grid and digital substations with SIPROTEC 5 are the answer to trends and challenges.
Learn more about Digital Subtations http://www.siemens.com/digital-substation
Learn more about SIPROTEC 5 htttp://www.siemens.com/siprotec5
New in SIPROTEC 5 version 7.90, access to SIPROTEC IEDs can be restricted to customer autorized instances of DIGSI 5. This limits access to equipment, increasing the security against unwanted intrusion and ensures your operations continue running smoothly.
Protection, Automation and Monitoring: SIPROTEC 5 v7.9/v8.0Ryan O'Mara
Highlights of SIPROTEC 5 family of multi-functional protection relays with control.
- SIPROTEC DigitalTwin
- Compatibility of SIPROTEC 4 and SIPROTEC 5 for 87L and 21
- IEC 61850-9-2 Process bus for digital substations (Server/Client)
- SIPROTEC 6MU85 Merging Unit
- Time synchronization with IEEE 1588 for High Precision applications
- SIPROTEC 7SS85 distributed busbar protection based on process bus
- Point-on-wave switching
- Conformal coating of SIPROTEC 5 devices as standard
- Cyber Security
- ATEX certification for 7SK85 and 7UM85
- New overcurrent and feeder protection SIPROTEC 7SJ81
- Web Browser
Protection relays and controls SIPROTEC 5 New Version V7.5Ryan O'Mara
Protective relay with controls, SIPROTEC 5 recently announced Version 7.50. These 10 slides outline the new features found in this update.
With Siemens protective relay and control technology on board, you have a reliable, global partner at your side. You can expect proven, dependable and durable technology for all areas. Efficient, comprehensive and thus designed for maximum supply security. Benefit from the detailed, innovative know-how of the world leader in the area of protection.
Highlights in SIPROTEC 5 Version 7.8
Cyber Security:
Role-based Access Control (RBAC) with central user
management
Usability:
SIPROTEC 5 Web Browser
New Device:
Paralleling Device SIPROTEC 7VE85
SIPROTEC 5 - The core of digital substationsRyan O'Mara
Substations are essential assets in the Energy Grid and digital substations with SIPROTEC 5 are the answer to trends and challenges.
Learn more about Digital Subtations http://www.siemens.com/digital-substation
Learn more about SIPROTEC 5 htttp://www.siemens.com/siprotec5
New in SIPROTEC 5 version 7.90, access to SIPROTEC IEDs can be restricted to customer autorized instances of DIGSI 5. This limits access to equipment, increasing the security against unwanted intrusion and ensures your operations continue running smoothly.
Importance of security
End node security is important in the Internet of Things
mbed provides a platform for IoT with security baked into the core
Entropy is a corner stone for security
L3 Presentation at Williams Foundation Seminar on New Approaches to Air-Land ...ICSA, LLC
In this presentation by Mr Victor King, L-3 Mission Integration, to the Williams Foundation, the focus was upon how to leverage commercial technologies to augment C2 and ISR capabilities for the ADF.
The seminar focused on the way ahead with regard to air-land integration.
Air Force needs to be capable of delivering air and space power effects to support conventional and special operations in the land domain. Air Force’s Plan Jericho and Army’s Plan Beersheba need to align if there is to be a coordinated approach to integrating air base operations, air mobility, close air support, intelligence, surveillance and reconnaissance (ISR) and rotary wing aviation. To date, little attention has been paid to the integration of technology across service lines, the development of integrated tactics, techniques and procedures (TTPs) and a coherent joint collective training program. Air Force and Army need to remediate existing deficiencies and implement a capability management process that leaves it postured to take advantage of the transformative nature of fifth generation technology. The seminar explored the art of the possible in future Air-Land operations.
A practical approach to securing embedded and io t platformsArm
A practical approach to securing embedded & IoT platforms
What can we learn from mobile security and apply to IoT?
Building on proven security principles & Secure Partitioning Manager
What can be done to make the IoT developer’s job easier?
Summary
General Atomics Presentation to Williams Foundation Seminar on Air-Land Integ...ICSA, LLC
In this presentation by Mr Ken Loving, General Atomics Aeronautical Systems, to the Williams Foundation, the focus was upon the evolving capabilities of the unmanned segment of the air combat force.
The seminar focused on the way ahead with regard to air-land integration.
Air Force needs to be capable of delivering air and space power effects to support conventional and special operations in the land domain. Air Force’s Plan Jericho and Army’s Plan Beersheba need to align if there is to be a coordinated approach to integrating air base operations, air mobility, close air support, intelligence, surveillance and reconnaissance (ISR) and rotary wing aviation. To date, little attention has been paid to the integration of technology across service lines, the development of integrated tactics, techniques and procedures (TTPs) and a coherent joint collective training program. Air Force and Army need to remediate existing deficiencies and implement a capability management process that leaves it postured to take advantage of the transformative nature of fifth generation technology. The seminar explored the art of the possible in future Air-Land operations.
Introduction to the Sigfox communications adaptor developed by SpaceAge Labs to enable easy deployment of low-power wide area remote monitoring solutions.
Overview of Sierra Monitor Corporation, the organization that FieldServer is a part of. Connect and Protect is our mission. The FieldServer group provides the Connect and Sentry IT is the Protect portion, providing systems for the detection of combustible and toxic gas.
A communication network is a fundamental necessity in most modern industrial operations to support process control and other factory applications. In many industrial facilities, wired networks are difficult to install or not flexible enough to support quick process reconfiguration, making wireless an ideal choice. A Tropos industrial wireless mesh network provides customers with the flexibility to install the type of network they need, including support for remote locations and mobile equipment.
*AI Edge Server - #ATC series - CPU + NVIDIA GPU/ Intel VPU/ Google Coral TPU.
Ex. ANPR/LPR, video analytics (retail, pharmacy and etc.), face recognition, machine vision, factory automation, ship surveillance, autonomous drive, smart traffic in tunnel & highway, railway track AI/object detection, AI parking lanes control and etc.
Architecting the Most Advanced Automotive SoCs: Maximizing Safety and Perform...NetSpeed Systems
Next generation automotive SoCs have to deliver exploding performance to handle real-time processing of sensor data while ensuring ultra-high safety and security. Architecting those SoCs to include heterogeneous architectures with built-in cache coherency, better latency, end-to-end QoS, and FuSa (ISO 26262)-performance-area trade-offs is a major challenge for architects. The presentation takes through a proven methodology using the only ISO 26262 certified cache coherent interconnect fabric.
Presented by John Bainbridge at CDNLive Silicon Valley 2018 on April 11, 2018.
Bron: Josse Brys (HIMA)
Industrial Control Systems (ICS)
Safety Instrumentals Systems (SIS)
What makes HIMA unique?
Safequards your plant / operations
Functional safety standards
SIL Safety Integrety Level
SIL levels
What is safety?
Cyber secure down to its core
Zones & conduits (IEC 62443)
www.regeltechnieken.org
….
IGS-5227-6MT , an Industrial Layer 2+ Managed Ethernet Switch, comes with an IP67-rated industrial case, 6-port 10/100/1000T and static Layer 3 routing, providing a high level of immunity against electromagnetic interference and heavy electrical surges which are usually found on plant floors or in curb-side traffic control cabinets. The IGS-5227-6MT can be easily mounted on a DIN-rail or wall taking up less space.
Contact us
Tel: +91-7875432180 Email: sales@bbcpl.in
Website: https://www.bbcpl.in
siemens relays catalog - geetech group.pdfGeeTech Group
Siemens relay catalog is a comprehensive collection of information, specifications and details of Siemens relay products. This catalog serves as a valuable resource for understanding the various types of relays offered by Siemens, including electromagnetic relays, solid state relays and time delay relays.
The Siemens Relays catalog provides detailed information about each relay, such as its performance, characteristics, voltage rating, current rating, contact settings, and application areas. It helps customers and professionals in the electrical and automation industries to choose the right relay for their specific needs.
To access the catalogs of other Siemens products, you can visit the GeeTech website. GEETECH Group has started its activity with the aim of using modern science in order to upgrade electrical systems and industrial automation and supply goods.
https://geetech.com.tr/
Call US : +90 (342) 502 22 62
Importance of security
End node security is important in the Internet of Things
mbed provides a platform for IoT with security baked into the core
Entropy is a corner stone for security
L3 Presentation at Williams Foundation Seminar on New Approaches to Air-Land ...ICSA, LLC
In this presentation by Mr Victor King, L-3 Mission Integration, to the Williams Foundation, the focus was upon how to leverage commercial technologies to augment C2 and ISR capabilities for the ADF.
The seminar focused on the way ahead with regard to air-land integration.
Air Force needs to be capable of delivering air and space power effects to support conventional and special operations in the land domain. Air Force’s Plan Jericho and Army’s Plan Beersheba need to align if there is to be a coordinated approach to integrating air base operations, air mobility, close air support, intelligence, surveillance and reconnaissance (ISR) and rotary wing aviation. To date, little attention has been paid to the integration of technology across service lines, the development of integrated tactics, techniques and procedures (TTPs) and a coherent joint collective training program. Air Force and Army need to remediate existing deficiencies and implement a capability management process that leaves it postured to take advantage of the transformative nature of fifth generation technology. The seminar explored the art of the possible in future Air-Land operations.
A practical approach to securing embedded and io t platformsArm
A practical approach to securing embedded & IoT platforms
What can we learn from mobile security and apply to IoT?
Building on proven security principles & Secure Partitioning Manager
What can be done to make the IoT developer’s job easier?
Summary
General Atomics Presentation to Williams Foundation Seminar on Air-Land Integ...ICSA, LLC
In this presentation by Mr Ken Loving, General Atomics Aeronautical Systems, to the Williams Foundation, the focus was upon the evolving capabilities of the unmanned segment of the air combat force.
The seminar focused on the way ahead with regard to air-land integration.
Air Force needs to be capable of delivering air and space power effects to support conventional and special operations in the land domain. Air Force’s Plan Jericho and Army’s Plan Beersheba need to align if there is to be a coordinated approach to integrating air base operations, air mobility, close air support, intelligence, surveillance and reconnaissance (ISR) and rotary wing aviation. To date, little attention has been paid to the integration of technology across service lines, the development of integrated tactics, techniques and procedures (TTPs) and a coherent joint collective training program. Air Force and Army need to remediate existing deficiencies and implement a capability management process that leaves it postured to take advantage of the transformative nature of fifth generation technology. The seminar explored the art of the possible in future Air-Land operations.
Introduction to the Sigfox communications adaptor developed by SpaceAge Labs to enable easy deployment of low-power wide area remote monitoring solutions.
Overview of Sierra Monitor Corporation, the organization that FieldServer is a part of. Connect and Protect is our mission. The FieldServer group provides the Connect and Sentry IT is the Protect portion, providing systems for the detection of combustible and toxic gas.
A communication network is a fundamental necessity in most modern industrial operations to support process control and other factory applications. In many industrial facilities, wired networks are difficult to install or not flexible enough to support quick process reconfiguration, making wireless an ideal choice. A Tropos industrial wireless mesh network provides customers with the flexibility to install the type of network they need, including support for remote locations and mobile equipment.
*AI Edge Server - #ATC series - CPU + NVIDIA GPU/ Intel VPU/ Google Coral TPU.
Ex. ANPR/LPR, video analytics (retail, pharmacy and etc.), face recognition, machine vision, factory automation, ship surveillance, autonomous drive, smart traffic in tunnel & highway, railway track AI/object detection, AI parking lanes control and etc.
Architecting the Most Advanced Automotive SoCs: Maximizing Safety and Perform...NetSpeed Systems
Next generation automotive SoCs have to deliver exploding performance to handle real-time processing of sensor data while ensuring ultra-high safety and security. Architecting those SoCs to include heterogeneous architectures with built-in cache coherency, better latency, end-to-end QoS, and FuSa (ISO 26262)-performance-area trade-offs is a major challenge for architects. The presentation takes through a proven methodology using the only ISO 26262 certified cache coherent interconnect fabric.
Presented by John Bainbridge at CDNLive Silicon Valley 2018 on April 11, 2018.
Bron: Josse Brys (HIMA)
Industrial Control Systems (ICS)
Safety Instrumentals Systems (SIS)
What makes HIMA unique?
Safequards your plant / operations
Functional safety standards
SIL Safety Integrety Level
SIL levels
What is safety?
Cyber secure down to its core
Zones & conduits (IEC 62443)
www.regeltechnieken.org
….
IGS-5227-6MT , an Industrial Layer 2+ Managed Ethernet Switch, comes with an IP67-rated industrial case, 6-port 10/100/1000T and static Layer 3 routing, providing a high level of immunity against electromagnetic interference and heavy electrical surges which are usually found on plant floors or in curb-side traffic control cabinets. The IGS-5227-6MT can be easily mounted on a DIN-rail or wall taking up less space.
Contact us
Tel: +91-7875432180 Email: sales@bbcpl.in
Website: https://www.bbcpl.in
siemens relays catalog - geetech group.pdfGeeTech Group
Siemens relay catalog is a comprehensive collection of information, specifications and details of Siemens relay products. This catalog serves as a valuable resource for understanding the various types of relays offered by Siemens, including electromagnetic relays, solid state relays and time delay relays.
The Siemens Relays catalog provides detailed information about each relay, such as its performance, characteristics, voltage rating, current rating, contact settings, and application areas. It helps customers and professionals in the electrical and automation industries to choose the right relay for their specific needs.
To access the catalogs of other Siemens products, you can visit the GeeTech website. GEETECH Group has started its activity with the aim of using modern science in order to upgrade electrical systems and industrial automation and supply goods.
https://geetech.com.tr/
Call US : +90 (342) 502 22 62
The SIPROTEC Compact 7SJ81 provides 4 low-power current transformer inputs and optionally 3 low-power voltage transformer inputs. With the same low-power current transformer (LPCT) a wide range of primary rated line currents can be covered. Objects with rated currents in the range from 20 A to 2500 A can be protected when using low-power current transformers.
Our catalog of MiCOM protection relays provides leading and reliable protection and control for any network application to help you operate with confidence. Easergy Schneider Micom Overcurrent & Earth Fault protection relay devices offer comprehensive protection of MV,HV & EHV networks.
Easergy Schneider Micom Numerical relays are flexible,modular hardware,ethernet communication and provides smarter cyber security. Schneider Devices are trusted devices to protect your critical power system assets.
Contact us for any Enquiry of the above product on: +91-9819614841, +91-9833686249
Know more at: https://www.dsgenterprises.in/schneider-322/micom
Control functions/programmable logic
Commands for control of CB and of isolators
Graphical visualization of switch positions
Control via keyboard, binary inputs, DIGSI 4 or SCADA system
User-defined logic with CFC (e.g. interlocking)
The SIPROTEC 4 7SJ61 relays can be used for line protection of high and medium voltage networks with earthed (grounded), low-resistance earthed, isolated or compensated neutral point. When protecting motors, the SIPROTEC 4 7SJ61 is suitable for asynchronous machines of all sizes. The relay performs all functions of backup protection supplementary to transformer differential protection
For some years now, power generation and distribution have been undergoing major changes. The systems used to monitor power supply equipment and processes must take account of these changes.
The comprehensive range of Reyrolle products provides the total protection requirements of distribution markets and industrial applications – ranging from overcurrent protection via transformer protection and voltage control to a full spectrum of auxiliary and trip relays.
Contact us for any Enquiry of the above product on: +91-9819614841, +91-9833686249
Know more at: https://www.dsgenterprises.in/siemens/reyrolle
7SJ62 Multifunction Over Current Protection Relayashwini reliserv
The SIPROTEC 4 7SJ62 relays can be used for line protection of high and medium voltage networks with earthed (grounded), low-resistance earthed, isolated or compensated neutral point. With regard to motor protection, the SIPROTEC 4 7SJ62 is suitable for asynchronous machines of all sizes. The relay performs all functions of backup protection supplementary to transformer differential protection. 7SJ62 is featuring the "flexible protection functions". Up to 20 protection functions can be added according to individual requirements. Thus, for example, a rate-of-frequency-change protection or reverse power protection can be implemented.
The SIPROTEC 4 7SJ64 can be used as a protective control and monitoring relay for distribution feeders and transmission lines of any voltage in networks that are earthed (grounded), low-resistance earthed, unearthed, or of a compensated neutral point structure. The relay is suited for networks that are radial or looped, and for lines with single or multi-terminal feeds. The SIPROTEC 4 7SJ64 is equipped with a synchronization function which provides the operationmodes ‘synchronization check’ (classical) and ‘synchronous/asynchronous switching’ (which takes the CBmechanical delay into consideration). Motor protection comprises undercurrent monitoring, starting time supervision, restart inhibit, locked rotor, load jamprotection as well asmotor statistics.
iS5 is an integrated service and solutions provider and manufacturer of intelligent, industrial ethernet products designed to be used in the harsh environments of utility substations, roadside transportation, rail and industrial applications.
Our catalog of MiCOM protection relays provides leading and reliable protection and control for any network application to help you operate with confidence. Easergy Schneider Micom Overcurrent & Earth Fault protection relay devices offer comprehensive protection of MV,HV & EHV networks.
Easergy Schneider Micom Numerical relays are flexible,modular hardware,ethernet communication and provides smarter cyber security. Schneider Devices are trusted devices to protect your critical power system assets.
Contact us for any Enquiry of the above product on: +91-9819614841, +91-9833686249
Know more at: https://www.dsgenterprises.in/schneider-322/micom
The SIPROTEC 7SC80 feeder protection can be used for protection and automation of medium voltage distribution feeders with grounded or low resistance grounded, isolated, or compensated neutral point.
The 7SC80 features “flexible protection functions”. 20 additional protection functions can be created by the user. For example, a rate of change of frequency function or a reverse power function can be created. The relay provides circuit-breaker control.
GE's transmission protection solutions deliver the speed and security necessary for advanced transmission line protection. Our specialized technology teams are well versed in transmission protection theory and build protection and control solutions that can be configured to meet a variety of applications from large to small, underground and overhead.
Contact us for any Enquiry of the above product on: +91-9819614841, +91-9833686249
Know more at: https://www.dsgenterprises.in/alstom--ge/digital-substations
Cosmetic shop management system project report.pdfKamal Acharya
Buying new cosmetic products is difficult. It can even be scary for those who have sensitive skin and are prone to skin trouble. The information needed to alleviate this problem is on the back of each product, but it's thought to interpret those ingredient lists unless you have a background in chemistry.
Instead of buying and hoping for the best, we can use data science to help us predict which products may be good fits for us. It includes various function programs to do the above mentioned tasks.
Data file handling has been effectively used in the program.
The automated cosmetic shop management system should deal with the automation of general workflow and administration process of the shop. The main processes of the system focus on customer's request where the system is able to search the most appropriate products and deliver it to the customers. It should help the employees to quickly identify the list of cosmetic product that have reached the minimum quantity and also keep a track of expired date for each cosmetic product. It should help the employees to find the rack number in which the product is placed.It is also Faster and more efficient way.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
CFD Simulation of By-pass Flow in a HRSG module by R&R Consult.pptxR&R Consult
CFD analysis is incredibly effective at solving mysteries and improving the performance of complex systems!
Here's a great example: At a large natural gas-fired power plant, where they use waste heat to generate steam and energy, they were puzzled that their boiler wasn't producing as much steam as expected.
R&R and Tetra Engineering Group Inc. were asked to solve the issue with reduced steam production.
An inspection had shown that a significant amount of hot flue gas was bypassing the boiler tubes, where the heat was supposed to be transferred.
R&R Consult conducted a CFD analysis, which revealed that 6.3% of the flue gas was bypassing the boiler tubes without transferring heat. The analysis also showed that the flue gas was instead being directed along the sides of the boiler and between the modules that were supposed to capture the heat. This was the cause of the reduced performance.
Based on our results, Tetra Engineering installed covering plates to reduce the bypass flow. This improved the boiler's performance and increased electricity production.
It is always satisfying when we can help solve complex challenges like this. Do your systems also need a check-up or optimization? Give us a call!
Work done in cooperation with James Malloy and David Moelling from Tetra Engineering.
More examples of our work https://www.r-r-consult.dk/en/cases-en/
Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
Learn about the cost savings, reduced environmental impact, and minimal disruption associated with trenchless technology. Discover detailed explanations of popular techniques such as pipe bursting, cured-in-place pipe (CIPP) lining, and directional drilling. Understand how these methods can be applied to various types of infrastructure, from residential plumbing to large-scale municipal systems.
Ideal for homeowners, contractors, engineers, and anyone interested in modern plumbing solutions, this guide provides valuable insights into why trenchless pipe repair is becoming the preferred choice for pipe rehabilitation. Stay informed about the latest advancements and best practices in the field.
Immunizing Image Classifiers Against Localized Adversary Attacksgerogepatton
This paper addresses the vulnerability of deep learning models, particularly convolutional neural networks
(CNN)s, to adversarial attacks and presents a proactive training technique designed to counter them. We
introduce a novel volumization algorithm, which transforms 2D images into 3D volumetric representations.
When combined with 3D convolution and deep curriculum learning optimization (CLO), itsignificantly improves
the immunity of models against localized universal attacks by up to 40%. We evaluate our proposed approach
using contemporary CNN architectures and the modified Canadian Institute for Advanced Research (CIFAR-10
and CIFAR-100) and ImageNet Large Scale Visual Recognition Challenge (ILSVRC12) datasets, showcasing
accuracy improvements over previous techniques. The results indicate that the combination of the volumetric
input and curriculum learning holds significant promise for mitigating adversarial attacks without necessitating
adversary training.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Automobile Management System Project Report.pdfKamal Acharya
The proposed project is developed to manage the automobile in the automobile dealer company. The main module in this project is login, automobile management, customer management, sales, complaints and reports. The first module is the login. The automobile showroom owner should login to the project for usage. The username and password are verified and if it is correct, next form opens. If the username and password are not correct, it shows the error message.
When a customer search for a automobile, if the automobile is available, they will be taken to a page that shows the details of the automobile including automobile name, automobile ID, quantity, price etc. “Automobile Management System” is useful for maintaining automobiles, customers effectively and hence helps for establishing good relation between customer and automobile organization. It contains various customized modules for effectively maintaining automobiles and stock information accurately and safely.
When the automobile is sold to the customer, stock will be reduced automatically. When a new purchase is made, stock will be increased automatically. While selecting automobiles for sale, the proposed software will automatically check for total number of available stock of that particular item, if the total stock of that particular item is less than 5, software will notify the user to purchase the particular item.
Also when the user tries to sale items which are not in stock, the system will prompt the user that the stock is not enough. Customers of this system can search for a automobile; can purchase a automobile easily by selecting fast. On the other hand the stock of automobiles can be maintained perfectly by the automobile shop manager overcoming the drawbacks of existing system.
COLLEGE BUS MANAGEMENT SYSTEM PROJECT REPORT.pdfKamal Acharya
The College Bus Management system is completely developed by Visual Basic .NET Version. The application is connect with most secured database language MS SQL Server. The application is develop by using best combination of front-end and back-end languages. The application is totally design like flat user interface. This flat user interface is more attractive user interface in 2017. The application is gives more important to the system functionality. The application is to manage the student’s details, driver’s details, bus details, bus route details, bus fees details and more. The application has only one unit for admin. The admin can manage the entire application. The admin can login into the application by using username and password of the admin. The application is develop for big and small colleges. It is more user friendly for non-computer person. Even they can easily learn how to manage the application within hours. The application is more secure by the admin. The system will give an effective output for the VB.Net and SQL Server given as input to the system. The compiled java program given as input to the system, after scanning the program will generate different reports. The application generates the report for users. The admin can view and download the report of the data. The application deliver the excel format reports. Because, excel formatted reports is very easy to understand the income and expense of the college bus. This application is mainly develop for windows operating system users. In 2017, 73% of people enterprises are using windows operating system. So the application will easily install for all the windows operating system users. The application-developed size is very low. The application consumes very low space in disk. Therefore, the user can allocate very minimum local disk space for this application.
Final project report on grocery store management system..pdfKamal Acharya
In today’s fast-changing business environment, it’s extremely important to be able to respond to client needs in the most effective and timely manner. If your customers wish to see your business online and have instant access to your products or services.
Online Grocery Store is an e-commerce website, which retails various grocery products. This project allows viewing various products available enables registered users to purchase desired products instantly using Paytm, UPI payment processor (Instant Pay) and also can place order by using Cash on Delivery (Pay Later) option. This project provides an easy access to Administrators and Managers to view orders placed using Pay Later and Instant Pay options.
In order to develop an e-commerce website, a number of Technologies must be studied and understood. These include multi-tiered architecture, server and client-side scripting techniques, implementation technologies, programming language (such as PHP, HTML, CSS, JavaScript) and MySQL relational databases. This is a project with the objective to develop a basic website where a consumer is provided with a shopping cart website and also to know about the technologies used to develop such a website.
This document will discuss each of the underlying technologies to create and implement an e- commerce website.
Event Management System Vb Net Project Report.pdfKamal Acharya
In present era, the scopes of information technology growing with a very fast .We do not see any are untouched from this industry. The scope of information technology has become wider includes: Business and industry. Household Business, Communication, Education, Entertainment, Science, Medicine, Engineering, Distance Learning, Weather Forecasting. Carrier Searching and so on.
My project named “Event Management System” is software that store and maintained all events coordinated in college. It also helpful to print related reports. My project will help to record the events coordinated by faculties with their Name, Event subject, date & details in an efficient & effective ways.
In my system we have to make a system by which a user can record all events coordinated by a particular faculty. In our proposed system some more featured are added which differs it from the existing system such as security.
2. Selection guide
for SIPROTEC
and Reyrolle
SIPROTEC 5
Catalog
Manuals Manuals Manuals Manuals Manuals
SIPROTEC 4
Catalog
Accessories
Catalog
Reyrolle
Catalogs
SIPROTEC 5
Compact
Catalog
Documentation
2 Selection Guide for SIPROTEC and Reyrolle · Edition 7
Accessories catalog
This catalog describes the accessories for protection, power
quality and substation automation devices.
Reyrolle catalogs
The Reyrolle catalogs describe the features such as scope
of functions, hardware and applications.
Manuals
The manuals describe, among others, the operation,
installation and the technical data of the devices.
Selection Guide for SIPROTEC and Reyrolle
The selection guide offers an overview of the device series of the
Siemens protection devices, and a device selection table.
SIPROTEC 5 catalog
The catalog describes the features of the SIPROTEC 5 system and
device specific features such as scope of functions, hardware
and applications.
SIPROTEC Compact catalog
The SIPROTEC Compact catalog describes the features of the
SIPROTEC Compact series and presents the available devices and
their application possibilities.
SIPROTEC 4 catalog
This catalog describes the features of the device series
SIPROTEC 4.
Overview of Siemens Protection Catalogs
3. 3Selection Guide for SIPROTEC and Reyrolle · Edition 7
Contents
Selection Guide for
SIPROTEC and Reyrolle
Edition 7
Invalid: Edition 6
www.siemens.com/protection
The products and systems described in this catalog
are manufactured and sold according to a certified
management system (acc. to ISO 9001, ISO 14001
and BS OHSAS 18001).
Page
Protection Devices
SIPROTEC Device Series
SIPROTEC 5
SIPROTEC Compact
SIPROTEC 4
Reyrolle
Device specific overview of the areas of application
4
5
6
7
8
9
Overview, Relay Selection Table
Part 1
Functions
Part 2
Functions (continued)
Part 3
Further Functions
Hardware Feature
Part 4
Communication
10 to 18
20 to 28
30 to 38
40 to 48
Legal Notice
49
4. Fig. 2 SIPROTEC – Synonym for the world’s leading protection technology
19801910 201220102006 2017
1977 2015 20181998 2008 2011
4 Selection Guide for SIPROTEC and Reyrolle · Edition 7
Solutions for today’s and future power supply systems –
for more than 100 years
With the SIPROTEC device series, Siemens is the world market
leader in digital protection technology. Profit from the experi-
ence out of an installed base of more than 1.65 million protec-
tion devices and therein >500,000 with IEC 61850.
SIPROTEC has established itself on the energy market for de-
cades as a powerful and complete system family of numerical
protection relays and bay controllers from Siemens.
SIPROTEC protection relays from Siemens can be consistently
used throughout all applications in medium and high voltage.
With SIPROTEC, operators have their systems firmly and safely
under control, and have the basis to implement cost-efficient
solutions for all duties in modern, intelligent and “smart” grids.
Users can combine the units of the different SIPROTEC device
series at will for solving manifold duties – because SIPROTEC
stands for continuity, openness and future-proof design.
As the innovation driver and trendsetter in the field of protec-
tion systems for over 100 years, Siemens helps system operators
to design their grids in an intelligent, ecological, reliable and
efficient way, and to operate them economically. As a pioneer,
Siemens has decisively influenced the development of numerical
protection systems (fig. 2). The first application went into op-
eration in Würzburg, Germany, in 1977. Consistent integration
of protection and control functions for all SIPROTEC devices was
the innovation step in the 90ies. After release of the communi-
cation standard IEC 61850 in the year 2004, Siemens was the
first manufacturer worldwide to put a system with this commu-
nication standard into operation.
How can system operators benefit from this experience?
■■ Proven and complete applications
■■ Easy integration into your system
■■ Highest quality of hardware and software
■■ Excellent operator friendliness of devices and tools
■■ Easy data exchange between applications
■■ Extraordinary consistency between product- and system
engineering
■■ Reduced complexity by easy operation
■■ Siemens as a reliable, worldwide operating partner.
Fig. 1 Siemens SIPROTEC devices
SIPROTEC Device Series
More than 1.6 millions devices installed therein >500,000 with IEC 61850
Protection Devices
First use
of electro-
magnetic
relays
SIPROTEC 5
integrated
End-to-End
Cyber Security
SIPROTEC Compact –
compact and
outstanding
functionality
The digital
age begins for
protection relays
SIPROTEC 5
IoT connectivity
to MindSphere
SIPROTEC 5 benchmark
for protection,
automation, and
monitoring
Siemens is
honored by Frost
& Sullivan for the
implementation
of IEC 61850
First digital
application in
Wuerzburg,
Germany
SIPROTEC 5
process bus and
digital substation
More than one
million SIPROTEC
devices in operation
SIPROTEC 4
multi-functional
relay series
Cloud based
applications
for SIPROTEC
5. Fig. 4 SIPROTEC 5 – rear view
Fig. 5 Application in the high-voltage system
5Selection Guide for SIPROTEC and Reyrolle · Edition 7
Protection Devices
SIPROTEC 5
Fig. 3 SIPROTEC 5 – modular hardware
SIPROTEC 5 – the benchmark for protection, automation and
monitoring
The SIPROTEC 5 series is based on the long field experience of
the SIPROTEC device series, and has been especially designed for
the new requirements of modern high-voltage systems. For this
purpose, SIPROTEC 5 is equipped with extensive functionalities
and device types. With the holistic and consistent engineering
tool DIGSI 5, a solution has also been provided for the increas-
ingly complex processes, from the design via the engineering
phase up to the test and operation phase.
Thanks to the high modularity of hardware and software, the
functionality and hardware of the devices can be tailored to the
requested application and adjusted to the continuously changing
requirements throughout the entire life cycle.
Besides the reliable and selective protection and the complete
automation function, SIPROTEC 5 offers an extensive database
for operation and monitoring of modern power supply systems.
Synchrophasors (PMU), power quality data and extensive opera-
tional equipment data are part of the scope of supply.
■■ Powerful protection functions guarantee the safety of the
system operator’s equipment and employees
■■ Individually configurable devices save money on initial
investment as well as storage of spare parts, maintenance,
expansion and adjustment of your equipment
■■ Arc protection, detection of transient ground fault and
process bus simply integrable and retrofittable
■■ Clear and easy-to-use of devices and software thanks to
user-friendly design
■■ Increase of reliability and quality of the engineering process
■■ Extensive cyber security functionality, such as role-based
access control (RBAC), protocolling security-related events
or signed firmware
■■ High operational safety due to the consistent safety imple-
mentations
■■ Highest availability even under extreme environmental
conditions by “conformal coating“ (coating)
■■ Integrated switch for low-cost and redundant optical and
electrical Ethernet rings
■■ Redundancy protocols RSTP, PRP and HSR for maximum
availability
■■ Efficient operating concepts by flexible engineering of
IEC 61850 Edition 2
■■ Comprehensive database for monitoring of modern power
grid systems, also with IoT cloud connection
■■ Optimal smart automation platform for transmission grids
based on integrated synchrophasor measurement units
(PMU) and power quality functions
The SIPROTEC 5 devices have a basic housing width of 1/3 x 19”,
and are flexibly expandable except of 7xx82.
6. Fig. 6 SIPROTEC Compact
Fig. 7 SIPROTEC Compact – rear view
6 Selection Guide for SIPROTEC and Reyrolle · Edition 7
Fig. 8 Feeder Protection SIPROTEC 7SC80 with HMI
SIPROTEC Compact
Protection Devices
SIPROTEC Compact –
Maximum protection-minimum space
Reliable and flexible protection for energy distribution and in-
dustrial systems with minimum space requirements. The devices
of the SIPROTEC Compact family offer an extensive variety of
functions in a compact and thus space-saving 1/6 x 19‘‘ housing.
The devices can be used as main protection in medium-voltage
applications or as back-up protection in high-voltage systems.
SIPROTEC Compact provides suitable devices for many applica-
tions in energy distribution, such as the protection of feeders,
lines or motors. Moreover, it also performs tasks such as system
decoupling, load shedding, load restoration, as well as voltage
and frequency protection.
The SIPROTEC Compact series is based on millions of operational
experience with SIPROTEC 4 and a further-developed, compact
hardware, in which many customer suggestions were integrated.
This offers maximum reliability combined with excellent func-
tionality and flexibility.
■■ Simple installation by means of pluggable current and
voltage terminal blocks
■■ Thresholds adjustable via software (3 stages guarantee
a safe and reliable recording of input signals)
■■ Easy adjustment of secondary current transformer values
(1 A/5 A) to primary transformers via DIGSI 4
■■ Quick operations at the device by means of 9 freely
programmable function keys
■■ Clear overview with six-line display
■■ Easy service due to buffer battery replaceable at the
front side
■■ Integration in the communication network by means of
two further communication interfaces
■■ Integrated switch for low-cost and redundant optical
Ethernet rings
■■ Ethernet redundancy protocols RSTP, PRP and HSR for
highest availability
■■ Highest availability even under extreme environmental
conditions by “conformal coating“ (coating)
■■ Reduction of wiring between devices by means of cross-
communication via Ethernet (IEC 61850 GOOSE)
■■ Time synchronization to the millisecond via Ethernet
with SNTP for targeted fault evaluation
■■ Adjustable to the protection requirements by means of
“flexible protection functions”
■■ Comfortable engineering and evaluation via DIGSI 4.
7. Fig. 10 SIPROTEC 4 – rear view
Fig. 11 SIPROTEC 4 in power plant application
Fig. 9 SIPROTEC 4
7Selection Guide for SIPROTEC and Reyrolle · Edition 7
Protection Devices
SIPROTEC 4
SIPROTEC 4 – the proven, reliable and future-proof
protection for all applications
SIPROTEC 4 represents a worldwide successful and proven
device series with more than 1 million devices in field use.
Due to the homogenous system platform, the unique engi-
neering program DIGSI 4 and the great field experience, the
SIPROTEC 4 device family has gained the highest appreciation
of users all over the world. Today, SIPROTEC 4 is considered the
standard for numerical protection systems in all fields of appli-
cation.
SIPROTEC 4 provides suitable devices for all applications from
power generation and transmission up to distribution and
industrial systems.
SIPROTEC 4 is a milestone in protection systems. The SIPROTEC 4
device series implements the integration of protection, control,
measuring and automation functions optimally in one device.
In many fields of application, all tasks of the secondary sys-
tems can be performed with one single device. The open and
future-proof concept of SIPROTEC 4 has been ensured for the
entire device series with the implementation of IEC 61850.
■■ Proven protection functions guarantee the safety of the
systems operator’s equipment and employees
■■ Comfortable engineering and evaluation via DIGSI 4
■■ Simple creation of automation solutions by means of the
integrated CFC
■■ Targeted and easy operation of devices and software thanks
to user-friendly design
■■ Powerful communication components guarantee safe and
effective solutions
■■ Maximum experience worldwide in the use of SIPROTEC 4 and
in the implementation of IEC 61850 projects
■■ Future-proof due to exchangeable communication interfaces
and integrated CFC
■■ Integrated switch for low-cost and redundant optical and
electrical Ethernet rings
■■ Ethernet redundancy protocols RSTP, PRP and HSR.
8. 8 Selection Guide for SIPROTEC and Reyrolle · Edition 7
Reyrolle
Protection Devices
Fig. 13 Front view
Reyrolle 7SR45 Argus
Reyrolle – Solutions for distribution grids
Reyrolle has been synonymous with electrical protection devices
in the sectors of sub-transmission, distribution and industrial
applications for decades. Historically, Reyrolle relays, initially
sold mainly in traditional markets, are now sold worldwide as
part of the Siemens protection network.
Since the aquisition by Siemens, Reyrolle has been driving prod-
uct innovations – based on a strong focus on market, customer
and technology. Worldwide established brand names such as
“Solkor” and “Argus” demonstrate this. But there is more: A wide
range of Reyrolle products has determined technological firsts
in the market.
The comprehensive range of Reyrolle products provides the total
protection requirements of distribution markets – ranging from
overcurrent protection via transformer protection and voltage
control to a full spectrum of auxiliary and trip relays. The port-
folio includes many famous products such as “Argus”, “Duobias”,
“Solkor”, “Rho”, etc.
To serve specific needs in industrial applications, a range of
proven products such as “Argus overcurrent”, “Solkor line
differential” and “Rho motor protection devices” is offered.
Through successive generations, Reyrolle numerical products
have been developed to increase value to system operators.
This increase in value is the result of consistent development:
■■ Ease-of-use as a principle – our withdrawable product
solutions allow flexible, easy operation through high user
friendliness.
■■ One size fits all – the 4U housing height and the latest
generation of numerical products features 1A/5A CT Input,
and some models are provided with universal DC supplies.
■■ Learn once, know all – the new product generation provides
a similar look and feel as earlier products. If Reyrolle numeri-
cal devices have been previously used, there is a high consis-
tency in both programming and interrogation.
■■ With Reydisp Evolution, a comprehensive software support
toolkit for relay setting, fault interrogation and general
system information is provided. It is backward-compatible
with all previous Reyrolle numerical devices.
■■ IEC 61850 communication interface option.
19281891
1906 1951 2008 2012 2015
20141995
2017
2011 2016
Reyrolle
founded in
the UK
IEC 61850 introduced
onto the 7SR11 & 12
Argus relay
IEC 61850 is
launched on
Reyrolle products
First reactance
& impedance
measuring relays
Launch of 7SR45,
7SR10 Argus relays and
7SR105 Rho Motor relay
Launch of 7SR157,
7SR158 Argus, and
7SR191 Capa relays
ARGUS product
line introduced
First current
differential
‘Merz-Price’
protection
developed at
Hebburn
Launch of
7SR1/2 platform
7SR23 DAD high
Impedance relay is
launched
First transformer
differential protection
using second harmonic
bias (Duobias)
Launch of the 7SR18
Solkor relay
Fig. 14 Reyrolle – Responsible, excellent, innovative
History of Reyrolle with over 125 Years Experience
Fig. 12 Front view
Reyrolle 7SR210 Argus
9. 9Selection Guide for SIPROTEC and Reyrolle · Edition 7
Device specific overview of the areas of application
Protection Devices
Apart from the application possibilities for the various types of
the modern and versatile type series SIPROTEC 5 and
SIPROTEC Compact,
the table below also shows the well-proven types of the
SIPROTEC 4 and Reyrolle devices.
Available digital device types for SIPROTEC 5, SIPROTEC Compact, SIPROTEC 4 and Reyrolle
Main functions SIPROTEC 5 SIPROTEC
Compact
SIPROTEC 4 Reyrolle
Overcurrent and feeder protection
Overcurrent protection with PMU 1) and control 7SJ82/85 7SJ80/81 7SJ61/62/63/64/66 7SR10/11/12/21/22
Self/dual powered overcurrent protection 7SR45
Line protection
Distance protection with PMU1) and control 7SA82/86/87 7SA61/63/64
Line differential protection with PMU1) and control 7SD82/86/87 7SD80 7SD610, 7SD5 7SR18 Solkor
Line differential and distance protection with PMU1)
and control
7SL82/86/87 7SD5
Breaker management with PMU 1) and control 7VK87 7VK61
Overcurrent protection for lines with PMU 1) 7SJ86
Transformer differential protection
Transformer differential protection with PMU 1), control and monitoring 7UT82/85/86/87 7UT612/613/63 7SR242 Duobias
Motor protection
Motor protection with PMU1) and control 7SK82/85 7SK80/81 7SJ61/62/63/64/66 7SR105 Argus,
7SR17 Argus
Generator protection
Generator protection with PMU 1) and control 7UM85 7UM61/62
Synchronizing
Synchrocheck and synchronizing 7SR157 Argus
Synchronizing with balancing commands (paralleling device) 7VE85 7VE61/63
Busbar protection
Centralized busbar protection 7SS85 7SS52
Bay controller
Bay controller for control/interlocking tasks with PMU 1), monitoring
and protection functions 1)
6MD85/86 6MD63/66
Fault recorder
Fault recorder, fault recorder with power quality recordings
and fault recorder with PMU
7KE85
Voltage and frequency protection
Applicable for system decoupling, load shedding
and load restoration
7RW80 7SR158 Argus
Distribution automation
Protection and automation for overhead lines 7SC80 7SR224 Argus
Capacitor bank protection
Capacitor bank protection 7SJ82 /85 7SR191 Capa
High impedance protection
High impedance protection 7SR23 DAD
High speed busbar transfer
High speed busbar transfer 7VU68
1) Optional for SIPROTEC 5
10. Overview, Relay Selection Table
Functions
Part 1
10Selection Guide for SIPROTEC and Reyrolle · Edition 7
Definition of device types based on designation
The devices are easily identified with the aid of a five-digit abbreviation code. The first digit
(6 or 7) stands for the classification. The two letters (XX) describe the functionality and the last
two digits (YY) identify typical properties.
Overview of the main functions
XX Main functions
SIPROTEC devices
KE Fault recorder
MD Bay controller
RW Voltage and frequency protection
SA Distance protection
SC Feeder protection
SD Line differential protection
SJ Overcurrent protection
SK Motor protection
SL Line differential and distance protection
SS Busbar protection
UM Generator protection
UT Transformer protection
VE Paralleling device
VK Breaker management
VU High speed busbar
Reyrolle devices
SR New numerical protection
PG Electromechanical protection
Siemens Protection Portfolio for all areas of application
Generation IndustryDistributionTransmission
SIPROTEC Compact
Reyrolle
SIPROTEC 4
SIPROTEC 5
Classification
Main functions Distinguishing features
6 or 7 XX YY
18. 18Selection Guide for SIPROTEC and Reyrolle · Edition 7
Overview, Relay Selection Table
Relay Selection Table
to be continued
on the following pages
19. 19Selection Guide for SIPROTEC and Reyrolle · Edition 7
Overview, Relay Selection Table
Functions (continued)
Part 2
Definition of device types based on designation
The devices are easily identified with the aid of a five-digit abbreviation code. The first digit
(6 or 7) stands for the classification. The two letters (XX) describe the functionality and the last
two digits (YY) identify typical properties.
Overview of the main functions
XX Main functions
SIPROTEC devices
KE Fault recorder
MD Bay controller
RW Voltage and frequency protection
SA Distance protection
SC Feeder protection
SD Line differential protection
SJ Overcurrent protection
SK Motor protection
SL Line differential and distance protection
SS Busbar protection
UM Generator protection
UT Transformer protection
VE Paralleling device
VK Breaker management
VU High speed busbar
Reyrolle devices
SR New numerical protection
PG Electromechanical protection
Siemens Protection Portfolio for all areas of application
Generation IndustryDistributionTransmission
SIPROTEC Compact
Reyrolle
SIPROTEC 4
SIPROTEC 5
Classification
Main functions Distinguishing features
6 or 7 XX YY
25. Overview, Relay Selection Table
25 Selection Guide for SIPROTEC and Reyrolle · Edition 7
◾ = basic
= optional (additional price)
– = not available
1) in preparation
2) via CFC
3) = IO number of a standard variant (increased configuration available using
the SIPROTEC 5 system)/number of current and voltage inputs up to 40
Device series
ANSI Function Abbr.
Functions (continued)
67 Directional time-overcurrent protection, phase I,IP ∠ (V,I)
67N Directional time-overcurrent protection for ground-faults IN, INP ∠ (V,I)
67Ns
Dir. sensitive ground-fault detection for systems with
resonant or isolated neutral
INs, ∠ (V,I)
67Ns
Sensitive ground-fault detection for systems with resonant or
isolated neutral with admittanz method
G0, B0
67Ns
Sensitive ground-fault detection for systems with resonant or iso-
lated neutral with phasor measurement of 3rd or 5th harmonic
V0, ∠
(Vharm.,Iharm.)
67Ns
Transient ground-fault function, for transient and permanent
ground faults in resonant-grounded or isolated networks
W0p,tr
Directional intermittent ground fault protection IIEdir
68 Power-swing blocking ΔZ/Δt
74TC Trip-circuit supervision TCS
78 Out-of-step protection ΔZ/Δt
79 Automatic reclosing AR
81 Frequency protection f, f
81U Under Frequency Load Shedding f(UFLS)
81R Rate-of-frequency-change protection df/dt
Vector-jump protection ∆φU
81LR Load restoration LR
85 Teleprotection
86 Lockout
87G Differential protection, generator ΔI
87T Differential protection, transformer ΔI
87T Differential protection, Phase angle regulating transformer (single core) ΔI
87T Differential protection, Phase angle regulating transformer (two core) ΔI
87T Differential protection, Special transformers ΔI
87B Differential protection, busbar ΔI
87B Bus Coupler Differential Protection ΔI
Cross stabilization
87M Differential protection, motor ΔI
87L Differential protection, line ΔI
87C Differential protection, capacitor bank ΔI
87V Voltage differential protection, capacitor bank ΔV
87STUB Stub differential protection ΔI
87N Differential ground-fault protection ΔIN
Broken-wire detection for differential protection
90V Automatic voltage control 2 winding transformer
90V Automatic voltage control 3 winding transformer
90V Automatic voltage control grid coupling transformer
90V Automatic voltage control for parallel transformer
FL Fault locator FL
PMU Synchrophasor measurement PMU
Busbar protection Bay controller Merging Unit
SIPROTEC 5
SIPROTEC 4
SIPROTEC 5
SIPROTEC 5
SIPROTEC 4
SIPROTEC 4
SIPROTEC 4
SIPROTEC 5
7SS85 7SS52 6MD85 6MD86 6MD61 6MD63 6MD66 6MU805
– – ● ● – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
● – ◾ ◾ – – – –
– – – – – – – –
– – – ● – – ● –
● – ● ● – – – –
– – ● ● – – – –
● – – – – – – –
– – – – – – – –
– – – – – – – –
● – – – – – – –
◾ – ◾ ◾ – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
◾ ◾ – – – – – –
● – – – – – – –
● ● – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
– – – – – – – –
◾ ◾ – – – – – –
– – – – – – – –
◾ – – – – – – –
– – ● ● – – – –
– – ● ● – – – –
– – ● ● – – – –
– – ● ● – – – –
– – – – – – – –
– – ● ● – – – –
26. Overview, Relay Selection Table
26 Selection Guide for SIPROTEC and Reyrolle · Edition 7
◾ = basic
= optional (additional price)
– = not available
1) in preparation
2) via CFC
3) = IO number of a standard variant (increased configuration available using
the SIPROTEC 5 system)/number of current and voltage inputs up to 40
Device series
ANSI Function Abbr.
Functions (continued)
67 Directional time-overcurrent protection, phase I,IP ∠ (V,I)
67N Directional time-overcurrent protection for ground-faults IN, INP ∠ (V,I)
67Ns
Dir. sensitive ground-fault detection for systems with
resonant or isolated neutral
INs, ∠ (V,I)
67Ns
Sensitive ground-fault detection for systems with resonant or
isolated neutral with admittanz method
G0, B0
67Ns
Sensitive ground-fault detection for systems with resonant or iso-
lated neutral with phasor measurement of 3rd or 5th harmonic
V0, ∠
(Vharm.,Iharm.)
67Ns
Transient ground-fault function, for transient and permanent
ground faults in resonant-grounded or isolated networks
W0p,tr
Directional intermittent ground fault protection IIEdir
68 Power-swing blocking ΔZ/Δt
74TC Trip-circuit supervision TCS
78 Out-of-step protection ΔZ/Δt
79 Automatic reclosing AR
81 Frequency protection f, f
81U Under Frequency Load Shedding f(UFLS)
81R Rate-of-frequency-change protection df/dt
Vector-jump protection ∆φU
81LR Load restoration LR
85 Teleprotection
86 Lockout
87G Differential protection, generator ΔI
87T Differential protection, transformer ΔI
87T Differential protection, Phase angle regulating transformer (single core) ΔI
87T Differential protection, Phase angle regulating transformer (two core) ΔI
87T Differential protection, Special transformers ΔI
87B Differential protection, busbar ΔI
87B Bus Coupler Differential Protection ΔI
Cross stabilization
87M Differential protection, motor ΔI
87L Differential protection, line ΔI
87C Differential protection, capacitor bank ΔI
87V Voltage differential protection, capacitor bank ΔV
87STUB Stub differential protection ΔI
87N Differential ground-fault protection ΔIN
Broken-wire detection for differential protection
90V Automatic voltage control 2 winding transformer
90V Automatic voltage control 3 winding transformer
90V Automatic voltage control grid coupling transformer
90V Automatic voltage control for parallel transformer
FL Fault locator FL
PMU Synchrophasor measurement PMU
Breaker management Synchronizing
High speed
busbar transfer
Voltage and
frequency protection
Fault Recorder
SIPROTEC 5
SIPROTEC 4
SIPROTEC 5
SIPROTEC 4
Reyrolle
SIPROTEC 4
SIPROTEC
Compact
Reyrolle
SIPROTEC 5
7VK87 7VK61 7VE85 7VE6 7SR157 7VU683 7RW80 7SR158 7KE85
● – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
◾ 1) – – – – – – – –
– – – – – – – – –
– – – – – – – – –
◾ ◾ ● ◾ ◾ – ◾ ◾ –
– – – – – – – ● –
◾ ◾ – – – – – – –
● – ● ● ◾ – ◾ ◾ –
● – – – – – – – –
– – ● ● – – ◾ ◾ –
– – ● ● – – ● – –
– – – – – – ● – –
– – – – – – – – –
◾ ◾ – – ◾ – ◾ ◾ –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
● – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
– – – – – – – – –
● – – – – – – – –
● – – – – – – – ●
27. 27Selection Guide for SIPROTEC and Reyrolle · Edition 7
Overview, Relay Selection Table
Relay Selection Table
to be continued
on the following pages
28. Overview, Relay Selection Table
Further Functions
Hardware Feature
Part 3
Siemens Protection Portfolio for all areas of application
Generation IndustryDistributionTransmission
SIPROTEC Compact
Reyrolle
SIPROTEC 4
SIPROTEC 5
28Selection Guide for SIPROTEC and Reyrolle · Edition 7
Definition of device types based on designation
The devices are easily identified with the aid of a five-digit abbreviation code. The first digit
(6 or 7) stands for the classification. The two letters (XX) describe the functionality and the last
two digits (YY) identify typical properties.
Overview of the main functions
XX Main functions
SIPROTEC devices
KE Fault recorder
MD Bay controller
RW Voltage and frequency protection
SA Distance protection
SC Feeder protection
SD Line differential protection
SJ Overcurrent protection
SK Motor protection
SL Line differential and distance protection
SS Busbar protection
UM Generator protection
UT Transformer protection
VE Paralleling device
VK Breaker management
VU High speed busbar
Reyrolle devices
SR New numerical protection
PG Electromechanical protection
Classification
Main functions Distinguishing features
6 or 7 XX YY
29. Overview, Relay Selection Table
29 Selection Guide for SIPROTEC and Reyrolle · Edition 7
◾ = basic
= optional (additional price)
– = not available
1) in preparation
2) via CFC
3) = IO number of a standard variant (increased configuration available using
the SIPROTEC 5 system)/number of current and voltage inputs up to 40
Device series
ANSI Function Abbr.
Further Functions
Measured values
Switching-statistic counters
Circuit breaker wear monitoring ΣIx, I2t, 2P
Logic editor
Inrush-current detection
External trip initiation
Control
High Speed busbar transfer function
Fault recording of analog and binary signals
Extended fault recording
FSR Fast-scan recorder FSR
SSR Slow-scan recorder SSR
CR Continuous recorder CR
TR Trend recorder TR
PQR Power Quality recordings (functionalities) PQR
Sequence of events recorder EFR
ExTrFct Extended trigger functions ExTrFct
Frequency tracking groups (from V7.8)
Cyber Security: Role-based access control (from V7.8)
Monitoring and supervision
Protection interface, serial
No. Setting groups
Changeover of setting group
Circuit breaker test
Hardware Feature
Hardware quantity structure expandable I/O
Binary Inputs (max)
Binary Outputs (max) incl. Life contact
Internal RTD Inputs (max)
Transducer inputs (0 – 20 mA) (max.)
Transducer inputs (0 – 10 V) (max.)
Analog measured value outputs (0 – 20 mA) (max.)
Current Inputs (max)
Voltage Inputs (max)
Low Power CT Inputs
Low Power VT Inputs
Case (x19 '')
Size (x E)
Small Display (lines)
Large, graphical Display (Pixel)
Push Buttons
Key Switch
LEDs (max.)
Conformal Coating
Pluggable terminal blocks
PSU Variants
Distance protection Line differential protection
SIPROTEC 5
SIPROTEC 5
SIPROTEC 5
SIPROTEC 4
SIPROTEC 4
SIPROTEC 4
SIPROTEC 4
SIPROTEC 5
SIPROTEC 5
SIPROTEC 5
7SA82 7SA86 7SA87 7SA522 7SA61 7SA63 7SA64 7SD82 7SD86 7SD87
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ – – – – ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ – – – – ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
– – – – – – – – – –
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
◾ ◾ ◾ – – – – ◾ ◾ ◾
● ● ● – – – – ● ● ●
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
● ● ● ● ● ● ● ◾ ◾ ◾
8 8 8 4 4 4 4 8 8 8
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
– ◾ ◾ – – – – – ◾ ◾
11/23 31 3) 31 3) 24 33 33 33 11/23 31 3) 31 3)
9/16 46 3) 46 3) 44 34 34 34 9/16 46 3) 46 3)
– – – – – – – – – –
8 12 12 – – – – 8 12 12
– – – – – – – – – –
– – – – 2 2 2 – – –
4 8 3) 8 3) 4 4 4 4 4 8 3) 8 3)
4 8 3) 8 3) 4 4 4 4 4 8 3) 8 3)
– – – – – – – – – –
– – – – – – – – – –
1/3 1/3–2/1 1/3–2/1 1/2; 1/1 1/3–1/1 1/2; 1/1 1/2; 1/1 1/3 1/3–2/1 1/3–2/1
– – – – – – – – – –
8 8 8 4 4 – – 8 8 8
320x240 320x240 320x240 – – 240x120 240x120 320x240 320x240 320x240
9 9 9 4 4 4 4 9 9 9
– ● ● ◾ – ◾ ◾ – ● ●
16 82 82 16 9/16 16 16 16 82 82
◾ ◾ ◾ – – – – ◾ ◾ ◾
◾ ◾ ◾ – – – – ◾ ◾ ◾
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-125
DC 110-250/
AC 115-230
DC 24-48;
DC 60-125
DC 110-250/
AC 115-230
DC 24-48;
DC 60-125
DC 110-250/
AC 115-230
DC 24-48;
DC 60-125
DC 110-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
30. Overview, Relay Selection Table
30 Selection Guide for SIPROTEC and Reyrolle · Edition 7
◾ = basic
= optional (additional price)
– = not available
1) in preparation
2) via CFC
3) = IO number of a standard variant (increased configuration available using
the SIPROTEC 5 system)/number of current and voltage inputs up to 40
Device series
ANSI Function Abbr.
Further Functions
Measured values
Switching-statistic counters
Circuit breaker wear monitoring ΣIx, I2t, 2P
Logic editor
Inrush-current detection
External trip initiation
Control
High Speed busbar transfer function
Fault recording of analog and binary signals
Extended fault recording
FSR Fast-scan recorder FSR
SSR Slow-scan recorder SSR
CR Continuous recorder CR
TR Trend recorder TR
PQR Power Quality recordings (functionalities) PQR
Sequence of events recorder EFR
ExTrFct Extended trigger functions ExTrFct
Frequency tracking groups (from V7.8)
Cyber Security: Role-based access control (from V7.8)
Monitoring and supervision
Protection interface, serial
No. Setting groups
Changeover of setting group
Circuit breaker test
Hardware Feature
Hardware quantity structure expandable I/O
Binary Inputs (max)
Binary Outputs (max) incl. Life contact
Internal RTD Inputs (max)
Transducer inputs (0 – 20 mA) (max.)
Transducer inputs (0 – 10 V) (max.)
Analog measured value outputs (0 – 20 mA) (max.)
Current Inputs (max)
Voltage Inputs (max)
Low Power CT Inputs
Low Power VT Inputs
Case (x19 '')
Size (x E)
Small Display (lines)
Large, graphical Display (Pixel)
Push Buttons
Key Switch
LEDs (max.)
Conformal Coating
Pluggable terminal blocks
PSU Variants
Line differential protection
Combined line differential and
distance protection
High impedance protection
SIPROTEC
Compact
SIPROTEC 4
SIPROTEC 4
Reyrolle
Reyrolle
SIPROTEC 5
SIPROTEC 5
SIPROTEC 5
Reyrolle
Reyrolle
7SD80 7SD610 7SD5 7PG2111 7SR18 7SL82 7SL86 7SL87 7SR23 7PG23
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
– – – – ◾ ◾ ◾ ◾ ◾ –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ – –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
– – – – – – – – – –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – 1000 – – – 5000 –
– – – – – – – – – –
– – – – – ◾ ◾ ◾ – –
– – – – – ● ● ● – –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
◾ ◾ ◾ – – ◾ ◾ ◾ – –
4 4 4 – 4 8 8 8 8 –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ ◾ –
◾ ◾ ◾ – ◾ ◾ ◾ ◾ – –
– – – – ◾ – ◾ ◾ ◾ –
3/7 7 24 – 6 11/23 31 3) 31 3) 19 –
6/9 6 33 3 8 9/16 46 3) 46 3) 16 3
0 0 0 – – – – – – –
0 0 0 – – 8 12 12 – –
– – – – – – – – – –
0 0 0 – – – – – – –
4 4 4 3 4 4 8 3) 8 3) 4 1
3 4 4 – 3 4 8 3) 8 3) – –
– – – – – – – – – –
– – – – – – – – – –
1/6 1/3 1/2; 1/1 – – 1/3 1/3–2/1 1/3–2/1 – –
– – – E6 E6 – – – E6, E8 E3
6 4 4 – 4 8 8 8 4 –
– – – – – 320x240 320x240 320x240 – –
9 4 4 – 11 9 9 9 5 –
– – – – – – ● ● – –
10 9 16 – 10/18 16 82 82 19 –
◾ – – – – ◾ ◾ ◾ – –
◾ – – – – ◾ ◾ ◾ – –
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-125
DC 110-250/
AC 115-230
DC 24-48;
DC 60-125
DC 110-250/
AC 115-230
–
AC 115-230;
DC 24-250
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
AC 115-230;
DC 24-250
–
31. Overview, Relay Selection Table
31 Selection Guide for SIPROTEC and Reyrolle · Edition 7
◾ = basic
= optional (additional price)
– = not available
1) in preparation
2) via CFC
3) = IO number of a standard variant (increased configuration available using
the SIPROTEC 5 system)/number of current and voltage inputs up to 40
Device series
ANSI Function Abbr.
Further Functions
Measured values
Switching-statistic counters
Circuit breaker wear monitoring ΣIx, I2t, 2P
Logic editor
Inrush-current detection
External trip initiation
Control
High Speed busbar transfer function
Fault recording of analog and binary signals
Extended fault recording
FSR Fast-scan recorder FSR
SSR Slow-scan recorder SSR
CR Continuous recorder CR
TR Trend recorder TR
PQR Power Quality recordings (functionalities) PQR
Sequence of events recorder EFR
ExTrFct Extended trigger functions ExTrFct
Frequency tracking groups (from V7.8)
Cyber Security: Role-based access control (from V7.8)
Monitoring and supervision
Protection interface, serial
No. Setting groups
Changeover of setting group
Circuit breaker test
Hardware Feature
Hardware quantity structure expandable I/O
Binary Inputs (max)
Binary Outputs (max) incl. Life contact
Internal RTD Inputs (max)
Transducer inputs (0 – 20 mA) (max.)
Transducer inputs (0 – 10 V) (max.)
Analog measured value outputs (0 – 20 mA) (max.)
Current Inputs (max)
Voltage Inputs (max)
Low Power CT Inputs
Low Power VT Inputs
Case (x19 '')
Size (x E)
Small Display (lines)
Large, graphical Display (Pixel)
Push Buttons
Key Switch
LEDs (max.)
Conformal Coating
Pluggable terminal blocks
PSU Variants
Overcurrent and feeder protection
SIPROTEC 5
SIPROTEC 5
SIPROTEC 5
SIPROTEC
Compact
SIPROTEC
Compact
SIPROTEC 4
SIPROTEC 4
SIPROTEC 4
SIPROTEC 4
SIPROTEC 4
7SJ82 7SJ85 7SJ86 7SJ80 7SJ81 7SJ61 7SJ62 7SJ63 7SJ64 7SJ66
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ – – – – – – –
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ 2) ◾ ◾
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
– – – – – – – – – –
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
– – – – – – – – – –
◾ ◾ ◾ – – – – – – –
● ● ● – – – – – – –
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
● ● ● – – – – – – –
8 8 8 4 4 4 4 4 4 4
◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾ ◾
◾ ◾ ◾ – – – – – – –
– ◾ ◾ – – – – – – –
11/23 59 3) 23 3) 3/7/11 1) 3/7 3/8/11 8/11 37 48 36
9/16 33 3) 24 3) 6/9/6 1) 6/9 5/9/7 9/7 19 26 24
– – – – – – – – – –
8 12 12 – – – – 2 – –
– – – – – – – – – –
– – – – – – – – – –
4 4 3) 4 3) 4 – 4 4 4 4 4
4 4 3) 4 3) 0/3 – – 3/4 3 4 4
– – – – 4 – – – – –
– – – – 0/3 – – – – –
1/3 1/3–2/1 1/3–2/1 1/6 1/6 1/3; 1/2 1/3; 1/3 1/2; 1/1 1/3–1/1 1/3; 1/2
– – – – – – – – – –
8 8 8 6 6 4 4 – – 8
320x240 320x240 320x240 – – 240x120 240x120 240x120 240x120 240x128
9 9 9 9 9 4 4 4 4 4
– ● ● – – – – ◾ ◾ –
16 82 82 10 10 9 9 16 16 16
◾ ◾ ◾ ◾ – – – – – –
◾ ◾ ◾ ◾ ◾ – – – – –
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48; DC 60-
250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48;
DC 60-250/
AC 115-230
DC 24-48; DC 60-
250/
AC 115-230
DC 110-250,
AC 115-230