Tesollo Inc. has stepped forward in robotics with the official release of its latest compact humanoid robotic hand, the DG-5F-S. Shaped by user feedback and real-world deployment requirements, Tesollo focused on making the hand smaller and lighter to reach a broader spectrum of applications. This shift may appeal to robotics enthusiasts seeking alternatives to bulkier, more specialized hardware. By targeting research institutes and smaller organizations, Tesollo aims to lower barriers to advanced robotic technologies and increase accessibility across industries.
Tesollo previously showcased the DG-5F-S at CES 2026, highlighting its evolution from the DG-5F-M model. Compared to past launches, the present strategy outlines a decisive focus on commercial viability rather than concept or demonstration products. Earlier introductions were limited to research environments, but now Tesollo pursues integration into diverse practical scenarios worldwide. Unlike other manufacturers who maintain high-level specifications as primary appeal, Tesollo directly addresses challenges such as system compatibility and installation constraints. This commercial approach distinguishes the DG-5F-S from past company efforts that were confined to technological showcases or prototypes.
How Is the DG-5F-S Designed for Broader Applications?
The DG-5F-S is structured around a five-finger, 20 degree-of-freedom framework, enabling nuanced gripping and dexterous manipulation for humanoid robots. Tesollo focused on optimizing size and weight without sacrificing core manipulation functions. Challenges reported from previous integrators, such as limited space and mounting difficulty, directly influenced design modifications. By drawing on practical needs from a wide base of global customers, Tesollo targets flexible deployment options, aiming at both established and emerging robotics markets.
What Distinguishes Tesollo’s New Hand in the Market?
This new robotic hand is not solely defined by its technical specifications. Instead, Tesollo responded to on-site feedback gathered through deliveries of the DG-5F-M to international customers. The company asserts,
“DG-5F-S is not just a research prototype but a product created from direct customer input,”
and emphasizes its commercial purpose. An alternative variant, the five-finger, 15 degree-of-freedom model, is being released for users that do not require high articulation, expanding accessibility for research or budget-conscious projects. These decisions cater to system integrators and organizations previously limited by the lack of compact, accessible gripper options.
Who Will Benefit from Tesollo’s DG-5F-S and How?
The initiative to lower size and cost barriers is aimed particularly at startups, academic institutions, and small to midsize businesses contemplating humanoid integration. Tesollo’s goal is to extend the use of its robotic hands from research and demonstration phases into comprehensive industry adoption. The company states,
“We want to help more users easily deploy humanoid robotic hands in real environments,”
reflecting its intent to shape everyday robotics applications in South Korea and beyond. This commercial path is expected to provide more reliable, integratable components for robotics manufacturers and platform developers.
Wider industry leaders and technology partners have started integrating DG-5F models since its initial unveiling at IROS 2024. Interest from major Korean and global players signals growing demand for flexible, easy-to-adopt components in robotics. Tesollo’s vision extends to fostering a stronger foundation for humanoid technologies, especially in their home country, which could foster additional adoption in burgeoning markets. Practical feedback loops, continuous product refinement, and support for system compatibility set Tesollo apart from some competitors who have yet to move from showcase models to practical deployment.
When integrating humanoid robot hands, system designers and organizations must weigh several factors: size, weight, degrees of freedom, mounting interfaces, and overall compatibility with their platforms. By prioritizing lightweight structure and flexible design, Tesollo positions the DG-5F-S to meet such needs in educational, research, and industrial scenarios. The addition of a lower-degree-of-freedom option broadens market reach while maintaining the company’s commitment to usability. Readers evaluating new robotic hands might assess real-world integration feedback, adaptability, and supplier support, factors that Tesollo highlights in its current product philosophy.
