5/4/26
At a time where speed, reliability and flexibility are key in industrial connectivity, Yamaichi continues to raise the bar. With the Y-Circ M M12 Push-Pull connector, the company delivers a solution that not only simplifies installation but has also been officially recognized as one of the top innovations of the year.
Designed for Performance in Real-World Applications
The Y-Circ M series is engineered to ensure secure transmission of data, signals and power in demanding industrial environments. What makes this connector stand out is its internal push-pull locking mechanism, offering fast, tool-free and reliable connections — even in tight installation spaces.
Unlike traditional systems, the Y-Circ M allows users to switch seamlessly between push-pull and screw locking, without compromising sealing performance. This flexibility makes it ideal for applications where different connection types are required, while maintaining full system reliability.
With IP65/IP67 protection and a robust double sealing concept, the connector ensures long-term performance in harsh industrial conditions.
Compact Design, Maximum Efficiency
Thanks to its smart internal locking design, the Y-Circ M requires no more space than a standard M12 connector, enabling compact device integration without sacrificing usability. Additional advantages include:
- Blind and tool-free mating
- High resistance to vibration and mechanical stress
- Full compatibility with standard M12 interfaces
Recognized as “Product of the Year 2025
Innovation doesn’t go unnoticed. The Y-Circ M Push-Pull connector has been awarded 3rd place in the “Product of the Year 2025” awards, in the electromechanics category, as voted by readers of ELEKTRONIK.
This recognition highlights Yamaichi’s commitment to delivering high-quality, forward-thinking connector solutions that truly meet market needs.
Your Partner for Reliable Connectivity
As a distributor of Yamaichi, we are proud to offer solutions like the Y-Circ M — combining ease of use, flexibility and proven performance in one compact design.