Gremsy H16 is a state of the art product designed especially for professional filmmakers. Featuring the latest gimbal technology in advanced camera stabilization and motor control, it provides ultra-smooth footage in most extreme conditions. Handling payload up to 16lbs allows Gremsy H16 to run RED EPIC, Arri Mini or F55 and Cinema lenses with ease. Solid Construction Transforming Design Inspired by the Lamborghini super-car, the entire design and concept gives the Gremsy H16 a stunning look. Made with air-craft grade aluminum and carbon fiber, the H16 offers rigidity and solid construction yet still maintains light-weight. Weight in Handheld mode 2.8kgs/6.2lbs Weight in Aerial mode 2.2kgs/4.8lbs Payload Handheld & Aerial 7.3kgs/16lbs Simplicity of Filmmaking Our platforms empower filmmakers to capture professional footages. Simple setup and flexible adjustment, we take care of the power and leave you more time for creativity! Powerful Precision Direct Drive Motor Custom designed hollow shaft and high torque brushless motor coupled with ultra high resolution encoder provide highest levels of accuracy. HIGH RESOLUTION ENCODER 0.005º MOTOR Hollow Shaft Flexibility in Use Large and easily adjustable camera cage for maximum payload 16 lbs, H16 offers flexible space in use with big mirrorless cameras such as Canon DSLRs, Sony FS5. Compatible Cameras among others: Alexa M Black Magic 4K Canon 5D Mark III Sony F5/ F55 Canon C500 Nikon D800 Sony FS 700 Canon C300 Sony Alpha 99 Sony FS 100 Sony FS 7 Sony FS 5 Canon C100 RED Epic RED Scarlet Canon 1D-C Nikon D4 Flexibility and Mobility The Gremsy H16 can be rigged effortlessly using circular quick release to multiple platforms such as car mounts, cranes, booms, jibs, multirotors, buggies, cablecams,… High Performance Controller gMotion Controller, designed and made by Gremsy based on a 32 bit ARM high speed microprocessor providing fast response and accurate attitude estimation Ultra Accurate IMU Sensor Precisely calibrated. Innovative auto bias tracking algorithm improve gyro bias stability over time.