We are
experts in all things
SCADA, IEC 61850 & HMI related.
Show All
SCADA
IEC 61850
HMI
HELINKS STS IEC 61850 Specification
SCADA, IEC 61850
HELINKS STS IEC 61850 Specification
System Specification for IEC 61850 is an optional component and is used to specify from a high level "what" the system should look like and "what" functions it should perform. It allows a standards based approach to design that provides a
framework for creating repeatable and reusable engineering. It is not interested so much in the "how" a system is implemented- albeit the how will often be in mind during this phase to some extent. Given that the "what" is specified without
the "how" it is the enabler of IEC 61850's desire for interoperability and interchangeability. The "Top down engineering" approach in System Engineering begins with the creation of a comprehensive System Specification. Thorough detail in the
System Specification stage reduces engineering time and can simplify the later "System Integration" Stage.
Course Outcomes
Introduction & Overview of System Specification
Single Line Diagram
Function Specification Diagram
System Diagram
Specification Documents
HELINKS STS IEC 61850 Integration
SCADA, IEC 61850
HELINKS STS IEC 61850 Integration
System Integration for IEC 61850 is the branch of Systems Engineering for combining smaller components of a subsystem to function as a comprehensive system on a shared network. This includes new and existing hardware, software and communications
for the distribution of data between disparate subsystems. This process can be developed after the creation of a System Specification using a Top-down Engineering approach or a combination of Top Down and Bottom Up Engineering approaches. System
Integration can also be completed without a System Specification using the Bottom up Engineering Approach. Typically a high level of innovation, flexibility and problem solving is essential for success when integrating a system lacking a developed
System Specification.
Course Outcomes
Introduction & Overview of System Integration
Specification to Implementation
Communication Configuration
Integration Documents
Operational Security for Control Systems
SCADA
Operational Security for Control Systems
Critical information is information that if disclosed would have an undesirable impact on an organization. It is important to ensure the security of your control system. This training will provide an overview of operational security. It will
increase your awareness of what information an adversary may view as valuable. It will provide the tools to recognize potential weaknesses in your daily operations and techniques so you can do something about those weaknesses.
Course Outcomes
Introduction & Overview of OPSEC
Why Do It
Identify Critical Information
Analyze Threats
Analyze Vulnerabilities
Assess Risks
Implement Appropriate OPSEC Measures
IEC 61850 Basics
SCADA, IEC 61850
IEC 61850 Basics
The IEC 61850 standard is an innovative approach to substation automation that will result in improvements in both performance and costs in protection systems and data acquisition. This course will provide theoretical grounding into IEC 61850.
Course Outcomes
Introduction & Overview of IEC 61850
Modeling Approach
Mapping to Protocols
Process Bus
Substation Configuration Language
Station Bus
Interfacing Legacy Systems
SCD5200 & RTU50 Configuration
SCADA
SCD5200 and RTU50 Configuration
The Foxboro SCD5200 combines the features and benefits of the Foxboro RTU50 Series components with higher levels of communications, integration, and engineering packaging. A state-of-the-art graphical user interface is provided for the proven
diagnostic tools while the platform independence of the tools is maintained. Configuration tools are similarly upgraded and extended to provide efficiencies in engineering, system maintenance, and configuration management. A key development
of the SCD5200 is the integration of CPU, OptoNet, Power Supply, and dual Ethernet into the main processor board (COPE). This provides a compact single module for specialized communications, local networking, applications.
A distributed architecture allows the full spectrum from small single device station configurations through to redundant power supply, processor, and I/O systems with redundant (duplicated and path diverse) communications networks.
DNP, IEC 60870-101, 104, Modbus Interfaces
WISP+ telecontrol protocol support
IEC 61850 Client Data Mapping to for electrical substation monitoring
Distributed Architecture
Compact Multi-Chassis CPU arrangements
Global Database over multiple connected nodes
Use of Optical Interfaces throughout
Compliance to Electric Power Standards for EMC and Voltage Isolation
Database sizes up to 20,000 distributed points
zenon Training
HMI
zenon Training
The zenon Basic Training Course will give you an overview of the essential parts of zenon and its development environment. Working in a small group, you will get to know the basic structures in the zenon Editor and zenon Runtime.
Course Outcomes
Introduction & Overview of zenon
Description of the licensing model
Introduction to the development environment
Description and operation of zenon Editor and zenon Runtime
Basic structure of a project and workspace
Configuration of data types, variables, and system functions
Explanation of screens, frames, and a range of screen elements and symbols
Presentation of system messages with Chronological Event List
Explanation of alarm administration with the Alarm Message List
Description of user administration
Troubleshooting
The Benefits of Training with Fast
Expert-led SCADA systems training with practical application from a nationwide leader in SCADA system design and implementation.
Experts
Be trained by the most experienced in the industry with over 160+ years of combined experience.
Helpful
Our helpful instructors strive to do what it takes to help you get the most out of your learning experience.
On-Time
Our courses start and finish on schedule so no need to worry about missing your flight.
Economical
We aim to deliver even more value than the course content alone.
