Joyson Electronics unveils embedded AI core component portfolio including dexterous robot hand and solid-liquid hybrid battery at WAIC 2026

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SHANGHAI, July 17, 2026 /PRNewswire/ — Joyson Electronics (600699.SH/0699.HK) announced its latest achievements at the 2026 World Artificial Intelligence Conference (WAIC), along with a series of robotic component solutions including a dexterous robotic hand, a solid-liquid hybrid battery, a 3rd generation AI head assembly, an electronic skin, and an embodied AI brain. Training and application in industrial settings. Additionally, the company’s robot controller products are already in mass production and delivered to major robotics companies.

The dexterous robotic hand integrates multiple industry-proprietary technologies. AI head assembly enables rapid mass production

Dexterous robotic hands are often considered the “crown jewel” of robotics due to their high level of integration across a wide range of cutting-edge fields such as bionics, flexible sensing, MEMS, and advanced materials, as well as their significant commercial value.

At WAIC, Joyson Electronics unveiled its first completely in-house developed dexterous hand solution, the “TeleHand” series. TeleHand Professional Edition features an industry-unique “in-the-hand integration + hybrid actuation” architecture that directly addresses key challenges such as standalone integrity, tactile sensing, compliant operation, and fine motion control.

With 20 degrees of freedom, TeleHand integrates three actuation modes (direct drive, tendon drive, and linkage) in the palm of your hand. This design not only combines the precision of a direct drive with the compliance of a tendon drive mechanism, but also provides higher transmission efficiency and reduced weight, allowing easy adaptation to a variety of robotic platforms.

TeleHand is equipped with actuators and force-tactile sensing technology developed in-house by Joyson Electronics.

  • Ultra-compact, high torque density miniature frameless actuator. It reduces volume by nearly 50% compared to previous models, reduces weight by approximately 30%, and delivers 2 to 3 times higher torque density compared to industry standard hollow cup motors of the same diameter.
  • The in-house developed force and tactile sensing technology (electronic skin) features industry-exclusive natively isolated three-dimensional force sensing, delivering resolution that exceeds the limits of human tactile sensation, with high sensitivity, proximity detection, ultra-thin form factor, and flexibility, making it suitable for diverse applications of dexterous hands and embodied intelligence.

The TeleHand PHINO platform’s natively integrated multimodal fusion architecture minimizes information loss and provides powerful generalization capabilities, enabling TeleHand to perform precision industrial operations while seamlessly supporting service-oriented interactive scenarios. In addition to the Professional Edition, Joyson Electronics also launched the cost-effective Basic Edition. It provides industrial-grade reliability and real-world deployment benefits through in-house factory batch deployment.

Meanwhile, Joyson Electronics announced a third-generation AI head assembly that integrates perceptual, behavioral, and system-level features to achieve more natural head movements and emotional expression. Designed with a production-ready mechatronics architecture, it enables rapid support from concept design to prototype validation to mass production. The modular, platform-based design allows for agile product customization and iteration to meet diverse customer requirements.

Joyson Electronics Debuts Embodied AI Brain; Controller Already Shipping to Major Customers

In the “brain” area of ​​robotics (cerebrum and cerebellum), Joyson Electronics’ automotive-grade edge-side physical AI platform (robot controller product) has already achieved commercial deployment and is currently in volume production for major robotics customers.

In addition, Joyson Electronics announced the Embodied AI Brain Solution (EAOS + EAPC), an integrated software and hardware platform designed with cross-form-factor and cross-scenario adaptability in mind. The solution aims to make robots “easier to use, truly productive, and capable of autonomous evolution.”

The Embodied AI PC (EAPC) has an external form factor design built on a fused cerebral-cerebellar controller architecture with computing power ranging from 40 TOPS to 2070 TFLOPS, meeting a variety of requirements from entry-level to flagship Embodied AI systems. The product features a modular, integrated design with a compact footprint and excellent thermal efficiency, enabling cross-platform and cross-environment adaptability. By leveraging Joyson Electronics’ automotive supply chain and manufacturing capabilities, the solution is also significantly cost competitive.

On the software side, the Embedded AI Operating System (EAOS) consists of three core subsystems.

  • World Model – Responsible for “understanding”, encoding multimodal signals into a unified state representation, and using dynamic predictors to simulate and preview scenarios within the system.
  • Agenttic OS – Takes charge of the “action”, formulating high-level strategies, decomposing complex tasks, dynamically coordinating subagents, invoking skill libraries and tools, and translating decisions into precise movements across dexterous hands, robotic arms, and mobile chassis.
  • Memory system – responsible for “evolution” and managing working memory for real-time situations, episodic memory for past experiences, and skill memory for accumulated learning abilities.

EAOS allows robots to perform complex tasks over long periods of time and achieve autonomous evolution, leading to measurable productivity gains. To date, Joyson Electronics’ embodied AI brains have been deployed in real-world environments, including select industrial scenarios and self-charging.

Solid-liquid hybrid batteries: the perfect power solution for embodied intelligence

Traditional energy solutions for embodied intelligence face multiple challenges, including limited durability, large footprint, long charging times, and lack of power capacity to support instantaneous high-current discharges. Battery safety also remains an important factor for widespread adoption. The industry needs fundamental breakthroughs that balance energy density, power density, and safety at the same time.

Solid-liquid hybrid batteries (semi-solid batteries) provide the optimal power solution for embodied intelligence and represent the only technological pathway that can address all of the above energy challenges at this stage. At WAIC, Joyson Electronics introduced its “Crystal Energy” multiform solid-liquid hybrid battery solution that delivers high performance and reliability.

  • Energy density significantly increased to 380Wh/kg
  • Approximately 60% increase in overall durability
  • Cycle life of over 2,000 cycles
  • -20°C to 60°C wide operating temperature range
  • Supports both wired and wireless charging and reaches 80% capacity in just 30 minutes

Complementing this is the Crystal Energy Ultra-Control BMS, which operates over a wide temperature range of -40°C to 105°C and features real-time cell monitoring, automotive-grade safety protection, and full lifecycle health management, comprehensively enhancing the safety, durability, and energy efficiency of robotic power systems. Additionally, Joyson Electronics is at the forefront of the industry with the introduction of the first gallium nitride (GaN) motor driver that achieves greater than 95% conversion efficiency while reducing size by 40%.

With robotics on the cusp of large-scale commercialization, Joyson Electronics is pursuing a “self-development + investment” dual-drive strategy to expand its presence in the field of embodied intelligence and accelerate breakthroughs in key technologies. Moving forward, Joyson Electronics will leverage its global R&D, manufacturing capabilities, and industrial environment to commercialize reliable, scalable, and cost-effective robotic core components, accelerating the industry’s transition to mass adoption.

Source: Joyson Electronics



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