SCADA Protocols - Master Every Communication Protocol

PROFINET CC-C Hardware Requirements: IRT-Capable Ethernet Cards, ASICs, and Switches

PROFINET defines three Conformance Classes — CC-A, CC-B, and CC-C — that determine what a device can do. CC-A handles basic real-time communication. CC-B adds network diagnostics and topology discovery. CC-C adds Isochronous Real-Time (IRT) — the hardware-scheduled, sub-microsecond-jitter communication required for motion control, synchronized drives, and time-critical process control. CC-C cannot be implemented with standard Ethernet hardware.… Read More »

PTP Power Profile Explained (IEC/IEEE 61850-9-3)

Digital substations require time synchronization accurate to better than 1 microsecond. Sampled Values, GOOSE, sequence-of-events recording, traveling-wave fault location, and synchrophasor measurements all rely on precise time across the entire substation network. Standard IEEE 1588v2 (PTP) is powerful but too flexible — it has dozens of options and many possible configurations. To get interoperable, reliable, sub-microsecond timing in… Read More »

What Is a Merging Unit? IEC 61850 Process Bus Explained

A complete reference for substation engineers covering Merging Units — IEC 61869-9 specification, processing delay limits, sample rates, variant codes, SmpSynch values, conformance classes, holdover mode, PTP/1PPS synchronization, procurement template, and field troubleshooting Quick Reference Item Value What it does Digitizes CT/VT signals and publishes Sampled Values on the process bus Standard IEC 61869-9:2016 (replaces 9-2LE guideline) Transport… Read More »

HSR Frame Structure — How the HSR Tag Works

HSR operates entirely at Layer 2. It doesn’t add a new protocol on top of Ethernet — it inserts a six-byte tag into every frame before it enters the ring. That tag is how nodes identify duplicates, track which path a frame took, and know when to remove a frame from the ring. Understanding the tag structure is… Read More »

HSR Node Modes Explained: H, N, T, M, U and X (IEC 62439-3)

very DANH on an HSR ring operates in one of six defined modes. They control how the node handles frame forwarding, tagging, and traffic removal. One is mandatory. The rest are optional. If you’re commissioning, testing, or troubleshooting an HSR network, knowing what each mode does — and what it breaks when misapplied — matters. The Short Version… Read More »

PTP Clock Synchronization in PRP and HSR Networks

Zero-recovery-time redundancy is one thing. Getting your clocks right across that redundant network is another. In substation automation and industrial control, time synchronization isn’t optional — protection functions, event logging, and sampled value streams all depend on it. This article explains how PTP works specifically in PRP and HSR environments, what the standard requires, and where the practical… Read More »

How HSR Ring Sizing Affects Latency

HSR gives you zero recovery time. That part is guaranteed by the protocol. What’s not guaranteed — and what the standard deliberately leaves to implementation — is how much latency each node adds to the ring. That accumulates. Get the ring sizing wrong and you can end up with end-to-end delays that cause problems for time-sensitive applications, even… Read More »

How to Connect PRP and HSR Networks | Step-by-Step Guide (IEC 62439-3)

PRP and HSR both deliver zero-recovery-time redundancy — but they work differently, and mixing them takes more than just plugging cables together. This guide walks through every connection scenario defined in IEC 62439-3, what device you need for each one, and what to watch out for when you’re laying out the topology. Before You Start: Know What You’re… Read More »

RedBox and QuadBox in PRP/HSR Networks

If you’re working with PRP or HSR networks, you’ll run into the RedBox and QuadBox. They solve two different problems: the RedBox gets non-redundant devices onto a redundant network; the QuadBox ties two HSR rings together. This article breaks down how each one works, what the standard actually specifies, and where the two are commonly confused. RedBox: The… Read More »

Modbus TCP Mitsubishi iQ-R: Step-by-Step Setup (GX Works3, RJ71EN71, RnENCPU)

A practical engineering guide to configure Modbus TCP on the Mitsubishi MELSEC iQ-R series — quick setup, GX Works3 parameters, MODBUS Device Assignment, function codes, exception codes, float/endian handling, polling timing, and field troubleshooting Quick Setup (5 Steps) If you just need it working fast, here’s the short path: Step Action 1 GX Works3 → Module Parameter →… Read More »