Supplement: Power


Shrinking the footprint of high-current switching


With electrification comes rising demand for compact, efficient, and resilient power control systems, from utility-grade installations and industrial drives to consumer EV charging units. Takato Nabeshima, product marketing manager - relays, OMRON Electronic Components Europe, explains more.


P


ower control is a critical aspect of the electrification trend, expanding demand for improvements, upgrades, and modernisation throughout infrastructures from solar and wind generators to points of use. Equipment targeting residential applications faces intense cost pressure, with demands for miniaturisation to allow unobtrusive and fashionable styles. On the other hand, reliability and fault handling are dominant requirements in industrial electrification, while advancements that improve efficiency are wanted everywhere.


High-current switching When it comes to handling high currents and voltages, electromechanical switches including contactors and relays are chosen for their high ratings and ability to safely isolate inactive loads. Contactors tend to have larger electromagnetic coils than relays as well as spring-loaded contacts for breaking the circuit and have been preferred in applications that involve controlling extremely high currents. Contactors have also tended to contain built-in weld detection that can protect the system if the main contacts become fused and fail to open when required. This is typically implemented with a set of auxiliary contacts that mirror the main contact structure. With their auxiliary contact mechanism, higher coil rating, and spring loading, contactors tend to be physically larger than ordinary relays and can support lower maximum switching frequency. Interconnection typically relies on screw terminals, which require manual assembly. In today’s electrifying world, new DC-switching applications include large inverters for utility-grade photovoltaic generators and battery-energy storage systems, high-speed electric vehicle chargers and domestic wallboxes, and uninterruptible power supplies (UPS). These are disrupting the old


38 December/January 2026


order, demanding high current capability and safety features of contactors, smaller size, and lower power consumption, in a device compatible with high-volume production techniques. Similar pressures apply to more traditional AC loads such as lighting, HVAC and FA, where power density is increasing and demand for smaller and compact devices becomes a necessity.


Relays step up


New developments among relays allow current ratings in the 50A-300A range, which lets these devices offer an alternative to contactors in many domestic, industrial, and utility-grade applications. The latest devices also feature weld detection with fault signalling thereby permitting comparable


Components in Electronics


Figure 1. High-current relays now incorporate auxiliary contacts for fault detection. www.cieonline.co.uk


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