Industry 4.0 initiatives are extending Ethernet and IP connectivity from supervisory layers toward field devices. In hazardous areas, however, network design must satisfy both automation requirements and explosion-protection constraints. This paper discusses how intrinsically safe Ethernet can support IIoT and cyber-physical systems, why bandwidth headroom matters for bounded latency, and how Time-Sensitive Networking (TSN), Ethernet-APL, and IEC 60079/62443 practices fit together in hazardous-area deployments. The central argument is that line rate alone does not deliver determinism; determinism is achieved by combining adequate bandwidth, switched architectures, traffic separation, TSN mechanisms, and security zoning. In current hazardous-area field deployments, the practical standards-based path is typically Ethernet-APL over 10BASE-T1L, while 1 Gbit/s and 10 Gbit/s remain highly relevant at control, aggregation, and backbone layers 1-9, 12.
Feodoridi et al. (Mon,) studied this question.