SCADA security is the practice of protecting Supervisory Control and Data Acquisition systems from unauthorized access, tampering, and cyberattacks. SCADA systems monitor and control physical processes across large geographic areas — power grids, water pipelines, oil and gas networks, and transportation systems. These systems were never designed with cybersecurity in mind. They were built for reliability. For decades,… Read More »
Every Modbus message contains a function code. It is a single byte that tells the slave device what operation to perform — read coils, write registers, or diagnose communication. The Modbus specification defines multiple function codes, but in practice you will use about six of them for 95% of your tasks. The rest are either rarely implemented, vendor-specific,… Read More »
If you work with IEC 61850, you will deal with SCL files. They are the standard way to describe IED capabilities, substation configurations, and communication parameters. But the first thing that confuses most engineers is this: there are six different SCL file types. ICD, SSD, SCD, IID, CID, SED — each with a different purpose, created by a… Read More »
IEC 60870-5-104 (commonly called IEC 104) is the standard protocol for SCADA communication in power utilities, water systems, and other critical infrastructure across Europe, Asia, and the Middle East. It takes the application layer of IEC 60870-5-101 (the serial telecontrol standard) and maps it onto TCP/IP. This gives you the same proven data model — single-point indications, measured… Read More »
IEC 61850 transformed substation automation. It replaced hardwired copper connections with standardized Ethernet-based communication between intelligent electronic devices (IEDs). GOOSE messages trip breakers in under 4 milliseconds. MMS connects IEDs to SCADA systems. Sampled Values stream real-time voltage and current measurements. But this transformation came with a trade-off. By moving protection and control communications onto Ethernet, substations inherited… Read More »
Modbus was built in 1979 for a world where industrial networks were physically isolated. There was no internet, no remote access, and no reason to worry about authentication or encryption. The protocol was designed for reliability and simplicity — not security. That was fine for decades. But today, industrial control systems are increasingly connected to corporate networks, cloud… Read More »
Modbus TCP/IP brings the simplicity of the Modbus protocol onto modern Ethernet networks. Instead of serial cables and RS-485 wiring, you use standard Ethernet infrastructure — switches, routers, and Cat5e/Cat6 cables. The protocol works the same way as Modbus RTU at the application level. You still read holding registers, write coils, and use the same function codes. The… Read More »
Modbus RTU over RS-485 is the most common serial communication setup in industrial automation. It connects PLCs, sensors, drives, meters, and other field devices on a simple two-wire bus. The protocol itself is straightforward. But getting it to work reliably depends on getting the details right — wiring, termination, addressing, baud rate, parity, and register mapping all need… Read More »
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 »