If you work with SCADA systems in the electric, water, or oil and gas sectors, chances are you will deal with DNP3 at some point. It is one of the most widely deployed protocols for communication between control centers and field devices. But configuring DNP3 properly is not always straightforward. There are multiple layers to set up, addresses… Read More »
IEC 62443 is a series of international standards that tell you how to secure industrial automation and control systems (IACS) from cyber threats. It covers everything — from the words you use to describe security, to how you build a security program, to the specific technical requirements your systems must meet. The standard was created by ISA (the… Read More »
Industrial cybersecurity is the practice of protecting the systems that run factories, power plants, water treatment facilities, and other physical operations from digital threats. These systems go by many names — operational technology (OT), industrial control systems (ICS), or SCADA — but they all share one thing: they control real-world processes where a cyberattack can cause physical damage.… Read More »
You’ve got a PLC on the factory floor. You need its data in your SCADA, MES, historian, or cloud platform. OPC UA is the way to get it there — securely and without vendor lock-in. But the steps depend on what PLC you have. Some PLCs have OPC UA servers built right in. Others need external software or… Read More »
Every OPC UA interaction starts with a simple concept: a client asks, a server answers. But beneath that simplicity sits a carefully layered architecture that handles discovery, security, sessions, subscriptions, and more — all defined in the IEC 62541 standard. This guide explains how the OPC UA client-server architecture works from the ground up. Whether you’re developing an… Read More »
OPC UA gives machines a common language. But a common language isn’t enough if everyone uses different vocabulary. A packaging machine and a robot arm both “speak” OPC UA — but how they describe themselves, their data, and their capabilities needs to follow a shared standard too. That’s what companion specifications do. They define standardized data models for… Read More »
If you’ve heard the term “OPC UA” thrown around in meetings about factory automation, Industry 4.0, or IIoT — and you’re not sure what it actually means — you’re in the right place. This guide explains OPC UA in plain language. No jargon walls. No assumption that you already know the protocol stack. Just a clear explanation of… Read More »
Millions of industrial systems still run on OPC Classic. It works. It’s proven. So why is everyone talking about migrating to OPC UA? The short answer: OPC Classic was built for a different era. It’s tied to Windows, has no built-in security, and can’t keep up with the demands of modern connected factories. OPC UA fixes all of… Read More »
If you work in industrial automation, you’ve probably faced this question: which communication protocol should I pick for my project? OPC UA, MQTT, and Modbus are the three names that come up the most. Each one solves a different problem, and picking the wrong one can cost you time, money, and headaches. This guide breaks down all three… Read More »
Modbus TCP/IP represents one of the most widely adopted industrial communication protocols in the automation world. Developed as an extension of the classic Modbus protocol, Modbus TCP/IP leverages Ethernet networks to provide reliable, real-time communication between industrial devices. When combined with Arduino’s flexibility and cost-effectiveness, developers can create powerful industrial automation solutions that rival commercial offerings at a… Read More »