PLC, telemetry, and SCADA technologies form the foundation of modern industrial automation by enabling precise control, real time monitoring, and efficient data exchange across diverse processes. These systems integrate programmable logic controllers, remote data acquisition, and supervisory control to support high-reliability operations. This training program presents structured frameworks, architectural models, and communication standards governing PLC, telemetry, and SCADA integration. It also outlines methods for system design, optimization, and governance to ensure operational continuity and compliance with industry regulations.
Analyze the structural components of PLC, telemetry, and SCADA systems.
Classify industrial communication protocols and their functional roles.
Evaluate design considerations for integrating PLC, telemetry, and SCADA architectures.
Use structured models for system performance optimization and reliability.
Assess governance and cybersecurity frameworks for industrial automation systems.
Automation engineers and technicians.
PLC programmers and system integrators.
SCADA system operators and administrators.
Maintenance personnel and control system engineers.
Professionals involved in industrial automation and process control.
Core functions and integration points of PLCs, telemetry, and SCADA.
Industrial automation architecture and operational layers.
Functional roles of PLCs in process control environments.
Telemetry principles for remote data monitoring.
Standards and compliance requirements in automation systems.
PLC programming structures and logic models.
Hardware components and modular configurations.
Communication interfaces and industrial network connections.
Integration process of PLCs with sensors, actuators, and field devices.
Role of PLCs in multi-system industrial operations.
Types and operational models of telemetry systems.
Industrial communication protocols (Modbus, DNP3, MQTT) and their applications.
Data acquisition and structured transmission methods.
System design considerations for reliable telemetry operations.
Synchronization between telemetry networks and central control systems.
SCADA architecture and system hierarchy.
Software selection frameworks and configuration standards.
Human-Machine Interface (HMI) structural design principles.
Real time data monitoring and process visualization models.
Cybersecurity frameworks for SCADA and control systems.
Strategies for enhancing system performance and reducing downtime.
Diagnostic frameworks for hardware and communication faults.
Preventive maintenance planning and lifecycle management.
System upgrade structures and integration of new technologies.
Governance models for continuous compliance and operational resilience.
