SMART-e500: a reliable and ergonomic digital microscope for biological analysis
The SMART-e500 from Drawell is a digital microscope designed to meet the requirements of professionals in biology, higher education and medical laboratories. This model stands out for its ability to combine optical precision, ergonomic observation and digital integration in a single compact instrument. It is equipped with a built-in 5-megapixel digital camera with a 1/2" CMOS sensor, enabling high-quality image capture directly synchronised with the eyepiece observation. This unique light distribution configuration (20:80) allows the user to view samples in real time through the eyepieces while recording them on a computer, without having to switch between observation modes.
The Seidentopf binocular head, tilted at 30° and rotatable through 360°, provides optimal comfort even during prolonged use. The adjustable interpupillary distance of 50 to 75 mm adapts to all body types. The Infinity EPlan objective lens provides a clear and uniform image quality with a magnification range from 4x to 100x (immersion for 100x). The quadruple objective lens turret ensures smooth lens changes.
The microscope is also equipped with a precision mechanical stage measuring 145 x 140 mm, with 76 x 52 mm travel and 0.1 mm graduation, facilitating slide handling. Illumination is provided by a 6V/30W halogen lamp or, optionally, a 12V/20W lamp, offering stable brightness suitable for different types of observation. The Abbe condenser with iris diaphragm (N.A. 1.25) ensures precise regulation of the incident light.
The USB 2.0 connection allows quick and easy integration with a computer without an external power supply, and the system is fully compatible with the Windows environment. Its dust- and moisture-proof design extends its durability in intensive use. The unit weighs approximately 7 kg net, with dimensions of 550 x 380 x 290 mm, making it easy to transport and install.
Thanks to direct digital integration, the SMART-e500 is an effective solution for educational observations, scientific documentation or visual diagnostics. It enables smooth image acquisition while maintaining the integrity and clarity of traditional microscopic analysis.
