Operating Voltage:12V DC

Motor Resolution:0.001 mm

Control Protocol:USB 3.0 compatible

Max Load Capacity:1 kg

Temperature Range:-20°C to 50°C

Dimensions (WxDxH):80mm x 80mm x 35mm

Weight:250g

    The NIKON LV-NCNT2 Motorized Nosepiece Controller introduces a new level of precision and efficiency in sample manipulation, essential for researchers in various fields such as biology, chemistry, and materials science. This compact yet powerful controller is engineered to seamlessly integrate with modern microscope systems, enhancing the user experience through its intuitive interface and high-performance capabilities.

    Featuring a motorized rotation range from 0° to 90°, this controller allows for precise and smooth adjustments, ensuring accurate positioning of samples during experiments. With a resolution of 0.001°, it offers unparalleled control over sample orientation, crucial for detailed observations and measurements.

    Designed for durability and reliability, the NIKON LV-NCNT2 can handle a maximum load capacity of 200g, making it suitable for a wide range of sample types without compromising on performance. The USB 3.0 communication interface ensures fast data transfer and synchronization with other laboratory equipment, streamlining workflows and enhancing productivity.

    Equipped with a robust power supply of DC 5V, 500mA, the controller operates efficiently within a broad temperature range of -10°C to 50°C, ensuring stable performance in diverse environmental conditions. Its compact size, measuring 65mm x 45mm x 35mm, facilitates easy installation and integration within existing laboratory setups, minimizing clutter and maximizing workspace efficiency.

    User-friendly and versatile, the NIKON LV-NCNT2 Motorized Nosepiece Controller is an indispensable tool for advancing research capabilities. Its compatibility with a wide array of microscopy systems, combined with its precision and reliability, makes it an excellent choice for professionals seeking to enhance their experimental outcomes and data accuracy.