A one-class NIDS for SDN-based SCADA systems / Um NIDS baseado em OCC para sistemas SCADA baseados em SDN

Silva, Eduardo Germano da

January 2007

Sistemas elétricos possuem grande influência no desenvolvimento econômico mundial. Dada a importância da energia elétrica para nossa sociedade, os sistemas elétricos frequentemente são alvos de intrusões pela rede causadas pelas mais diversas motivações. Para minimizar ou até mesmo mitigar os efeitos de intrusões pela rede, estão sendo propostos mecanismos que aumentam o nível de segurança dos sistemas elétricos, como novos protocolos de comunicação e normas de padronização. Além disso, os sistemas elétricos estão passando por um intenso processo de modernização, tornando-os altamente dependentes de sistemas de rede responsáveis por monitorar e gerenciar componentes elétricos. Estes, então denominados Smart Grids, compreendem subsistemas de geração, transmissão, e distribuição elétrica, que são monitorados e gerenciados por sistemas de controle e aquisição de dados (SCADA). Nesta dissertação de mestrado, investigamos e discutimos a aplicabilidade e os benefícios da adoção de Redes Definidas por Software (SDN) para auxiliar o desenvolvimento da próxima geração de sistemas SCADA. Propomos também um sistema de detecção de intrusões (IDS) que utiliza técnicas específicas de classificação de tráfego e se beneficia de características das redes SCADA e do paradigma SDN/OpenFlow. Nossa proposta utiliza SDN para coletar periodicamente estatísticas de rede dos equipamentos SCADA, que são posteriormente processados por algoritmos de classificação baseados em exemplares de uma única classe (OCC). Dado que informações sobre ataques direcionados à sistemas SCADA são escassos e pouco divulgados publicamente por seus mantenedores, a principal vantagem ao utilizar algoritmos OCC é de que estes não dependem de assinaturas de ataques para detectar possíveis tráfegos maliciosos. Como prova de conceito, desenvolvemos um protótipo de nossa proposta. Por fim, em nossa avaliação experimental, observamos a performance e a acurácia de nosso protótipo utilizando dois tipos de algoritmos OCC, e considerando eventos anômalos na rede SCADA, como um ataque de negação de serviço (DoS), e a falha de diversos dispositivos de campo. / Power grids have great influence on the development of the world economy. Given the importance of the electrical energy to our society, power grids are often target of network intrusion motivated by several causes. To minimize or even to mitigate the aftereffects of network intrusions, more secure protocols and standardization norms to enhance the security of power grids have been proposed. In addition, power grids are undergoing an intense process of modernization, and becoming highly dependent on networked systems used to monitor and manage power components. These so-called Smart Grids comprise energy generation, transmission, and distribution subsystems, which are monitored and managed by Supervisory Control and Data Acquisition (SCADA) systems. In this Masters dissertation, we investigate and discuss the applicability and benefits of using Software-Defined Networking (SDN) to assist in the deployment of next generation SCADA systems. We also propose an Intrusion Detection System (IDS) that relies on specific techniques of traffic classification and takes advantage of the characteristics of SCADA networks and of the adoption of SDN/OpenFlow. Our proposal relies on SDN to periodically gather statistics from network devices, which are then processed by One- Class Classification (OCC) algorithms. Given that attack traces in SCADA networks are scarce and not publicly disclosed by utility companies, the main advantage of using OCC algorithms is that they do not depend on known attack signatures to detect possible malicious traffic. As a proof-of-concept, we developed a prototype of our proposal. Finally, in our experimental evaluation, we observed the performance and accuracy of our prototype using two OCC-based Machine Learning (ML) algorithms, and considering anomalous events in the SCADA network, such as a Denial-of-Service (DoS), and the failure of several SCADA field devices.

Redes : Computadores

Seguranca : Redes : Computadores

Supervisory control and data acquisition

Software-defined networking

Smart grids

Network-based intrusion detection system

One-class classification

Intrusion Detection of Flooding DoS Attacks on Emulated Smart Meters

Akbar, Yousef M. A. H.

11 May 2020

The power grid has changed a great deal from what has been generally viewed as a traditional power grid. The modernization of the power grid has seen an increase in the integration and incorporation of computing and communication elements, creating an interdependence of both physical and cyber assets of the power grid. The fast-increasing connectivity has transformed the grid from what used to be primarily a physical system into a Cyber- Physical System (CPS). The physical elements within a power grid are well understood by power engineers; however, the newly deployed cyber aspects are new to most researchers and operators in this field. The new computing and communications structure brings new vulnerabilities along with all the benefits it provides. Cyber security of the power grid is critical due to the potential impact it can make on the community or society that relies on the critical infrastructure. These vulnerabilities have already been exploited in the attack on the Ukrainian power grid, a highly sophisticated, multi-layered attack which caused large power outages for numerous customers. There is an urgent need to understand the cyber aspects of the modernized power grid and take the necessary precautions such that the security of the CPS can be better achieved. The power grid is dependent on two main cyber infrastructures, i.e., Supervisory Control And Data Acquisition (SCADA) and Advanced Metering Infrastructure (AMI). This thesis investigates the AMI in power grids by developing a testbed environment that can be created and used to better understand and develop security strategies to remove the vulnerabilities that exist within it. The testbed is to be used to conduct and implement security strategies, i.e., an Intrusion Detections Systems (IDS), creating an emulated environment to best resemble the environment of the AMI system. A DoS flooding attack and an IDS are implemented on the emulated testbed to show the effectiveness and validate the performance of the emulated testbed. / M.S. / The power grid is becoming more digitized and is utilizing information and communication technologies more, hence the smart grid. New systems are developed and utilized in the modernized power grid that directly relies on new communication networks. The power grid is becoming more efficient and more effective due to these developments, however, there are some considerations to be made as for the security of the power grid. An important expectation of the power grid is the reliability of power delivery to its customers. New information and communication technology integration brings rise to new cyber vulnerabilities that can inhibit the functionality of the power grid. A coordinated cyber-attack was conducted against the Ukrainian power grid in 2015 that targeted the cyber vulnerabilities of the system. The attackers made sure that the grid operators were unable to observe their system being attacked via Denial of Service attacks. Smart meters are the digitized equivalent of a traditional energy meter, it wirelessly communicates with the grid operators. An increase in deployment of these smart meters makes it such that we are more dependent on them and hence creating a new vulnerability for an attack. The smart meter integration into the power grid needs to be studied and carefully considered for the prevention of attacks. A testbed is created using devices that emulate the smart meters and a network is established between the devices. The network was attacked with a Denial of Service attack to validate the testbed performance, and an Intrusion detection method was developed and applied onto the testbed to prove that the testbed created can be used to study and develop methods to cover the vulnerabilities present.

Denial of Service (DoS)

Advanced Metering Infrastructure (AMI)

Wireless Mesh Network (WMN)

Cyber-Physical System (CPS)

Power Grid

Cyber Security of Smart Meters

Architecture Design and Interoperability Analysisof a SCADA System for the Power Network Control and Management / Arkitekturdesign och interoperabilitetsanalys avett SCADA-system för kraftsystemstyrning

Albiol Graullera, Pablo

January 2017

SCADA-system (Supervisory Control and Data Acquisition) har under de senaste decennierna använts i stor utsträckning, med utmärkta resultat för nätverksdrift och -förvaltning. Kunder ställer emellertid krav på att SCADA-system ska kunna integrera externa komponenter för att möjliggöra utveckling av befintliga och nya affärsprocesser. Det innebär att dessa system utvecklas från en monolitisk infrastruktur till en löst kopplad och flexibel arkitektur. Således har nya behov uppstått för att förbättra systemets interoperabilitet, minska komplexiteten och förbättra underhållet. Föreliggande masterprojekt presenterar ett ramverk för att förutsäga systems interoperabilitetet (IPF); ett ramverk som stöder arkitekturprocessen under de tidiga stadierna av produktutveckling. Vidare har arbetet undersökt några alternativa arkitekturer, vilka har modellerats och verifierats med hjälp av ovannämnda ramverk. En första konceptuell arkitektur har utvecklats för att förbättra interoperabiliteten hos interna system, för att reducera kopplingen mellan det grundläggande SCADA-systemet och Energy Management-systemet (EMS). Därefter genererades en andra arkitektur som möjliggör integration av externa komponenter för att främja den externa interoperabiliteten. Resultat visar att de föreslagna arkitekturerna är korrekta (enligt IPF) och systemets driftskompatibilitet förbättras. Vidare förefaller den slutligt föreslagna lösningen vara mindre komplex än den nuvarande arkitekturen på lång sikt, men det skulle behövas en större insats och väsentliga förändringar för att uppgradera systemarkitekturen. / SCADA (Supervisory Control and Data Acquisition) systems have been widely used during the last decades delivering excellent results for the power network operation and management. However, some current customer requirements are for SCADA systems to integrate external components in order to perform advanced power network studies and develop both existing and new business processes. This novel viewpoint will make these systems evolve from a monolithic infrastructure towards a loosely coupled and flexible architecture. Hence, new needs have arisen with the aim of improving the system interoperability, reducing the complexity and enhancing the maintainability. This master´s thesis project presents an Interoperability Prediction Framework (IPF), that supports the architecture design process during the early stages of product development. In addition, this work has also investigated some alternative architectures, which have been modelled and verified using the previously mentioned framework. A first conceptual architecture has been designed to improve the internal system interoperability, reducing the coupling between the basic SCADA and the Energy Management System (EMS). Later, a second architecture that allows the integration of external components has been introduced to promote the external interoperability. Results show that the proposed architectures are correct (according to the IPF) and the interoperability of the system is improved. Furthermore, initial conclusions suggest that the final proposed solution would be less complex than the current architecture in the long term, although a large effort and substantial changes would be needed to upgrade the system architecture.

Supervisory Control and Data Acquisition

SCADA

Energy Management System

EMS

System Architecture

Software Architecture

Interoperability

Interoperability Prediction Framework

System Modelling

UML

System Integration

Service Oriented Architecture

SOA

Power Network.

Supervisory Control and Data Acquisition

SCADA

Energy Management System

EMS

Systemarkitektur

Programvaruarkitektur

Interoperabilitet

Interoperabilitetsutvärderingsramverk

Systemmodellering

UML

Systemintegration

Serviceorienterad arkitektur

SOA

Kräftnät

Engineering and Technology

Teknik och teknologier

Μοντελοποίηση και έλεγχος βιομηχανικών συστημάτων

Δεληγιάννης, Βασίλειος

19 October 2009

Κύριος στόχος της παρούσας διατριβής ήταν να συμβάλλει στην συστηματοποίηση του έργου του Ηλεκτρολόγου Μηχανικού όταν αναλύει, μοντελοποιεί και σχεδιάζει τον έλεγχο ενός βιομηχανικού συστήματος. Για την μοντελοποίηση βιομηχανικών συστημάτων έχουν προταθεί διάφορες μέθοδοι, όπως τα δίκτυα Petri και όλες οι μορφές αυτομάτων ελέγχου. Τα αυτόματα αποτέλεσαν την βάση για την δημιουργία μιας νέας μεθόδου μοντελοποίησης στα πλαίσια της παρούσας διατριβής. Τα Γενικευμένα Αυτόματα (Global Automata), όπως ονομάστηκε η νέα μέθοδος, δανείζονται χαρακτηριστικά από τις διάφορες προϋπάρχουσες μορφές αυτομάτων, ενώ εισαγάγουν νέες παραμέτρους μοντελοποίησης ώστε να καλύψουν τις όποιες ανάγκες των σύγχρονων βιομηχανικών συστημάτων. Βάσει της μεθόδου αναπτύχθηκαν διάφορα εργαλεία με στόχο την αύξηση της δύναμης μοντελοποίησης της. Το πρώτο εργαλείο περιλαμβάνει μια συστηματοποιημένη τεχνική συγχώνευσης καταστάσεων ενός μοντέλου και αποσκοπεί στον περιορισμό της υπέρμετρης αύξησης του γράφου καταστάσεων, ο οποίος σε περιπτώσεις μεγάλων συστημάτων μπορεί να φτάσει τις δεκάδες χιλιάδες καταστάσεις. Το δεύτερο εργαλείο που αναπτύχθηκε, αποτελεί την σύνθεση αυτομάτων με στόχο την δημιουργία ενός νέου αυτομάτου που έχει την ίδια ακριβώς συμπεριφορά με τα αρχικά. Η σύνθεση επιτρέπει την δημιουργία μοντέλου ακόμα και ενός συστήματος υψηλής πολυπλοκότητας, μέσω σύνθεσης των μοντέλων όλων των υποσυστημάτων του. Τέλος, τα γενικευμένα αυτόματα επιτρέπουν την δημιουργία ιεραρχικών μοντέλων που αποτελούνται από πλήθος αυτομάτων ιεραρχικά δομημένων. Σε αυτή την περίπτωση το αυτόματο του ανωτέρου επιπέδου έχει τον ρόλο του επόπτη-συντονιστή και τροφοδοτεί τα αυτόματα του κατώτερου επιπέδου με δεδομένα, τιμές αναφοράς κτλ. Αναφορικά με τον προγραμματισμό των βιομηχανικών ελεγκτών που θα επωμιστούν τον έλεγχο της διεργασίας παρουσιάζονται δύο εργαλεία παραγωγής κώδικα από ένα γενικευμένο αυτόματο. Το πρώτο εργαλείο παρουσιάζει συστηματικά τα βήματα μετατροπής ενός αυτομάτου σε εκτελέσιμο κώδικα μιας γλώσσας προγραμματισμού υψηλού επιπέδου. Η χρησιμότητα είναι σημαντική κατά την διάρκεια εξομοίωσης ενός μοντέλου και επαλήθευσης της ορθής λειτουργίας του ελεγκτή, αλλά όχι μόνο. Οι σύγχρονες βιομηχανίες είναι εξοπλισμένες με Σταθμούς Εποπτικού Έλεγχου και Συλλογής Πληροφοριών (SCADA) οι οποίοι στην πλειονότητά τους φέρουν ενσωματωμένη δυνατότητα εκτέλεσης κώδικα σε μια γλώσσα υψηλού επιπέδου. Με εκτέλεση του παραγόμενου, από το εργαλείο, κώδικα σε λογισμικό SCADA, μπορεί να επιτευχθεί και έλεγχος του συστήματος. Βέβαια, ο επικρατέστερος τύπος ελεγκτή παραμένει το Προγραμματιζόμενος Λογικός Ελεγκτής, λόγω των ιδιαίτερων χαρακτηριστικών που διαθέτει και υπερισχύει συγκριτικά με τις εναλλακτικές προσεγγίσεις. Η υλοποίηση των γενικευμένων αυτομάτων σε PLC επιτυγχάνεται μέσω του δεύτερου εργαλείου, το οποίο δημιουργήθηκε με βάση το διεθνές πρότυπο IEC 61131-3 και περιγράφει όλα τα συστηματικά βήματα που πρέπει να ακολουθήσει ο μηχανικός για να υλοποιήσει την στρατηγική ελέγχου, που εμπεριέχει ένα γενικευμένο αυτόματα, σε ένα PLC. Το πρότυπο IEC 61131-3 περιλαμβάνει ένα σύνολο πέντε γλωσσών και το εργαλείο σύνθεσης τις περιλαμβάνει όλες δίνοντας κατάλληλες κατευθύνσεις υλοποίησης με βάση τα ιδιαίτερα χαρακτηριστικά της καθεμιάς. Η παρουσίαση των γενικευμένων αυτομάτων και των εργαλείων που αναπτύχθηκαν ολοκληρώνεται μέσω παραδειγμάτων χρήσης. Οι παρουσιαζόμενες εφαρμογές αποτελούν είτε θεωρητικά συστήματα για επεξήγηση, είτε πραγματικές εφαρμογές υλοποιημένες ως εργαστηριακές διατάξεις ή ως πραγματικά συστήματα παραγωγής. / In this work Global Automata are introduced as a new method offering the convenience of modelling various types of industrial systems without any restrictions on systems properties. Their structure has common characteristics with several types of automata, such as the control graph with a finite set of states and transitions between those states. Global automata can be used for modelling hybrid systems handling both discrete and real valued variables combining flow, invariant and guard conditions from hybrid automata, with clock constraints and delayed inputs from timed and PLC automata. In addition, new modelling parameters as reset table at each transition and hierarchical classification of executable events at each state are introduced. Application independence derives from the fact that they are a super-set of every other type of automata and hence are less application depended compared to any of them. Based on Global Automata some tools were developed in order to increase their modelling power. First tool is the ability of state aggregation which generally means the merging of two or more states in order to produce a new super-state. State aggregation is a powerful tool to avoid state space expansion. The second developed tool is automata composition and is mainly used in cases where ad-hoc modelling is not a practical solution, since it allows the construction of large system model using simple models of all system’s components. Finally, global automata allow the development of hierarchical models, consisting of two or more automata. In such case, the automaton of the higher level has the role of supervisor feeding the automata of lower level with data, reference values etc. Two implementation tools for programming industrial controllers are also presented. The first tool is a synthesis tool for translating a global automaton into executable code of a programming language (i.e. C, Matlab). Tool usage is important for simulation and verification but is not limited on this. Contemporary industrial systems are equipped with Supervisory Control and Data Acquisition Systems (SCADA), which have embedded functions of running code. Consequently, an industrial system modelled as a global automaton can be controlled by the executable code running in a SCADA station. But, in industry the dominant controller is the Programmable Logic Controller, which is a special aim computer suitably built for the application control tasks. The IEC 61131-3 Programming Norm describes all the well-known languages for programming PLCs and the second tool is a synthesis tool for implementing global automata in PLCs based on this programming norm. Global automata as a modelling method and all the above mentioned tools are illustrated through representative examples. The presented examples are either theoretical or real systems implemented in the laboratory or even real production systems.

Μοντελοποίηση

Γενικευμένα αυτόματα

629.801 511 8

Modelling

Industrial systems

Global automata

Programmable logic controllers

Simulace komunikační části moderních průmyslových sítí / Simulation of communication part of modern industrial networks

Beneš, Pavel

January 2020

The thesis is focused on simulating of protocols from standard IEC 61850 in simulation tool OMNeT++. The theoretical part in the thesis deals with description of the field of operating technologies, supervisory control and data acquisition and protocols Tase-2/ICCP, IEC 61850, IEC 60870-5-104, DNP 3 and DLMS/COSEM. Next part deals with parameters influencing connection and description of simulation tools NS2/NS3, OPNET and OMNeT++. In the practical part there is created a network containing protocols from the standard IEC 61850 in the simulation program OMNeT++. Then in the network a end to end delay and packet loss with increasing traffic is measured.

Evaluating of DNP3 protocol over serial eastern operating unit substations and improving SCADA performance

Njova, Dion

14 July 2021

A thesis which models the DNP3 and IEC 61850 protocol in OPNET / Supervisory Control and Data Acquisition (SCADA) is a critical part of monitoring and controlling of the electrical substation. The aim of this dissertation is to investigate the performance of the Distributed Network Protocol Version 3.3 (DNP3) protocol and to compare its performance to that of International Electro-technical Commission (IEC) 61850 protocol in an electrical substation communication network environment. Building an electrical substation control room and installing the network equipment was going to be expensive and take a lot of time. The better option was to build a model of the electrical substation communication network and run simulations. Riverbend modeller academic edition known as Optimized Network Engineering Tool (OPNET) was chosen as a software package to model substation communication network, DNP3 protocol and IEC 61850 Protocol stack. Modelling the IEC 61850 protocol stack on OPNET involved building the used Open System Interconnection (OSI) layers of the IEC 61850 protocol stack onto the application definitions of OPNET. The Transmission Control Protocol/Internet Protocol (TCP/IP) configuration settings of DNP3 protocol were also modelled on the OPNET application definitions. The aim is to compare the two protocols and determine which protocol is the best performing one in terms of throughput, data delay and latency. The substation communication model consists of 10 ethernet nodes which simulate protection Intelligent Electronic Devices (IEDs), 13 ethernet switches, a server which simulates the substation Remote Terminal Unit (RTU) and the DNP3 Protocol over TCP/IP simulated on the model. DNP3 is a protocol that can be used in a power utility computer network to provide communication service for the grid components. DNP3 protocol is currently used at Eskom as the communication protocol because it is widely used by equipment vendors in the energy sector. DNP3 protocol will be modelled before being compared to the new recent robust protocol IEC 61850 in the same model and determine which protocol is the best for Eskom on the network of the power grid. The network load and packet delay parameters were sampled when 10%, 50%, 90% and 100% of devices are online. The IEC 61850 protocol model has three scenarios and they are normal operation of a Substation, maintenance in a Substation and Buszone operation at a Substation. In these scenarios packet end to end delay of Generic Object Oriented Substation Event (GOOSE), vi © University of South Africa 2020 Generic Substation Status Event (GSSE), Sampled Values (SV) and Manufacturing Messaging Specification (MMS) messages are monitored. The throughput from the IED under maintenance and the throughput at the Substation RTU end is monitored in the model. Analysis of the results of the DNP3 protocol simulation showed that with an increase in number of nodes there was an increase in packet delay as well as the network load. The load on the network should be taken into consideration when designing a substation communication network that requires a quick response such as a smart gird. GOOSE, GSSE, SV results on the IEC 61850 model met all the requirements of the IEC 61850 standard and the MMS did not meet all the requirements of the IEC standard. The design of the substation communication network using IEC 61850 will assist when trying to predict the behavior of the network with regards to this specific protocol during maintenance and when there are faults in the communication network or IED’s. After the simulation of the DNP3 protocol and the IEC 61850 the throughput of DNP3 protocol was determined to be in the range (20 – 450) kbps and the throughput of IEC61850 protocol was determined to be in the range (1.6 – 16) Mbps. / College of Engineering, Science and Technology / M. Tech. (Electrical Engineering)

Distributive Network Protocol (DNP3)

Intelligent Electronic Devices (IED’s)

670.4275

Automatic data collection systems

Supervisory control systems

Computer-aided engineering

Μελέτη συστήματος παροχής ηλεκτρικών τάσεων σε εργαστηριακό χώρο : παρεμβάσεις σε σύστημα ελέγχου PLC μέσω του προγράμματος SCADA / Study of a laboratory voltage supply system and construction with a PLC via SCADA application

Παπαδόπουλος, Βασίλειος

28 August 2009

Το έτος 1987 στο Τμήμα Ηλεκτρολόγων Μηχανικών και Τεχνολογίας Υπολογιστών του Πανεπιστήμιου Πατρών και συγκεκριμένα στο Εργαστήριο Ηλεκτρομηχανικής Μετατροπής Ενέργειας του Τμήματος Ηλεκτρολόγων Μηχανικών, στα πλαίσια εκπαιδευτικών και ερευνητικών σκοπών, εγκαταστάθηκε ένα πλήρες αυτοματοποιημένο σύστημα παράγωγης και παροχής ηλεκτρικών τάσεων. Σκοπός του συστήματος ήταν η παροχή 10 διαφορετικών τύπων τάσεων σε 15 συγκεκριμένες θέσεις εργασίας στο χώρου του Εργαστηρίου. Το σύστημα ήταν πλήρως αυτοματοποιημένο, καθώς χρησιμοποιήθηκε προγραμματιζόμενος λογικός ελεγκτής (PLC) που ήταν επιφορτισμένος με τον έλεγχο, την εποπτεία και τη διαχείριση του Συστήματος. Επίσης υπήρχε προσωπικός Η/Υ άμεσα συνδεδεμένος στο σύστημα, μέσω του όποιου ο διαχειριστής του μπορούσε να παρακολουθεί, να διαχειρίζεται και να διανέμει τον κάθε τύπο από τις προσφερόμενες παροχές. Το σύστημα με την πάροδο του χρόνου εμφάνισε βασικά λειτουργικά προβλήματα, με αποτέλεσμα να μειωθεί δραστικά ο αριθμός των παρεχόμενων τύπων τάσεων, αλλά και η ικανότητα διαχείρισης και διανομής αυτών που παρέχονταν. Πιο συγκεκριμένα, το τμήμα τoυ προγραμματιζόμενoυ λογικού ελεγκτή (PLC) και του συνδεδεμένου Η/Υ του συστήματος ουσιαστικά και πρακτικά είχε τεθεί πλέον πλήρως εκτός λειτουργίας. Στόχος και σκοπός της παρούσας εργασίας ήταν η λύση των προβλημάτων του προαναφερθέντος συστήματος με τελικό αποτέλεσμα την κανονική και ομαλή λειτουργία του. Η λύση που προτείνεται είναι η υλοποίηση και η ενσωμάτωση ενός σύγχρονου δικτύου αυτοματισμού με τη χρήση σύγχρονων PLC (επιλέχθηκε η εταιρεία OMRON) καθώς και η ενσωμάτωση ενός συστήματος εποπτικού και διαχειριστικού ελέγχου, λογισμικό τύπου SCADΑ της ίδιας εταιρείας. Αναλύονται διεξοδικά τόσο ο τρόπος παραγωγής των τάσεων με τα αντίστοιχα κυκλώματα ισχύος όσο και ο τρόπος διανομής και διαχείρισης αυτών με τα αντίστοιχα κυκλώματα αυτοματισμού. Εμπεριέχονται εκτενείς αναφορές στα σύγχρονα PLC, στον τρόπο λειτουργίας και προγραμματισμού τους καθώς και ο τρόπος με τον οποίο είναι δυνατό να ενσωματωθούν και να λειτουργήσουν πλήρως στο υπάρχον σύστημα. Γίνεται μια εισαγωγή στα σύγχρονα συστήματα διαχείρισης και εποπτικού ελέγχου (SCADA) ώστε να μπορεί ο κάθε αναγνώστης, χωρίς να χρειάζονται υψηλού επιπέδου γνώσεις, να κατανοήσει τη χρησιμότητα και τη λειτουργία τους και μελετείται ο τρόπος με τον οποίο θα υλοποιηθεί το παραπάνω δίκτυο αυτοματισμού με τη χρήση των PLC και με την παρουσία του εποπτικού συστήματος SCADA. Γίνεται πλήρης αναφορά σε έναν πολύ βασικό τομέα του Ηλεκτρολόγου Μηχανικού στη σύγχρονη εποχή: τον υπολογισμό κόστους προμήθειας, εγκατάστασης και κατασκευής όλων των στοιχείων του εγχειρήματος και μελετούνται όλες οι παράλληλες επιλογές για την καλύτερη δυνατή λειτουργία του και την περαιτέρω ανάπτυξη και βελτίωση του. / The year 1987 in the Department of Electrical and Computer Engineering University of Patras and specifically in Electromechanical Energy Conversion Laboratory Department of Electrical Engineering, in educational and research purposes, installed a complete automated system for producing and providing electrical voltages. This system was able to provide 10 different types of voltages in 15 stations in the area of Laboratory. The system was fully automated, used a Programmable Logic Controller (PLC), which was responsible for monitoring, supervision and management system. Also there was a PC directly connected to the system, through which the administrator can monitor, manage and distribute each type of voltage. The system through the walking time showed major operational problems. As a result, the number of the types of voltages and the ability to manage and distribute those provided reduced drastically. Specifically, the part of programmable logic controller (PLC) and the connected computer system effectively and practically has run out of order. The purpose of this work was the solution of problems of the system and ultimately with final result the normal and smooth operation. The solution proposed is the implementation and integration of a modern network automation using modern PLC (the company chosen is OMRON) and the incorporation of a supervisory control and data acquisition application and (SCADA) software of the same company. Analyzed in detail both the production voltages with the respective power circuits and the method of distribution and management of the automation circuits. Contained extensive references to contemporary PLC, in operations and programming, and how it is possible to integrate and operate fully in the existing system. There is an introduction to SCADA to enable each reader without the need for high-level knowledge to understand the utility and operation, and considering how we implement the above automation network using a PLC and SCADA application. We mention a very important area of Electrical Engineering in the modern era: counting the cost of supply, installation and construction of all elements of the project and consider all parallel options for optimal operation and further development and improvement.

Ηλεκτρικές τάσεις

Ρελέ

Χρονικό

Αυτόματος έλεγχος

Δίκτυα αυτοματισμού

Κώδικες

Αλγόριθμοι

Ηλεκτρονόμος

621.319

Programmable logic controller

Supervisory control and data acquisition

Timer

Counter

Omron

Automation

Input/output address

Industrial ethernet

Error signals

Flow charts

Networks

Scan time

Motor starter