Datalogic distance measurement is based on Time of Flight (TOF) technology, offering high resolution up to 10 m in direct mode and 100 m in retroreflective mode.
Datasensor S65-M is the new Long Range Background Suppressor based on light Time Of Flight technology. Datalogic S65-M can easily detect objects at a distance up to 5 m and is ideal for precise and reliable detection applications. Innovative System On Chip technology and risk-free Infrared LED emission deliver valuable cost and safety advantages when compared to laser products. Sensor alignment is quick and easy with the embedded green LED pointer. Datasensor S65-M user interface is simple and intuitive. Product connectivity is flexible and complete with two user configurable outputs driving PNP or NPN loads; models with IO-Link V1.1 connection are also available. The rugged and compact 50 x 50 x 24 mm housing with IP67 protection makes Datalogic S65-M the ideal product for Automated Warehouses, Palletizers, Automotive, Transport & Logistic, Packaging applications and Conveyor Lines. Datalogic's new S65 time of flight sensor is a breakthrough concept in background suppression technology. With advanced OptoASIC, the new S65 background suppressor is a cost effective solution for any application where conventional proximity sensors cannot perform due to technology limitations. Datalogic's new S65 is capable to detect any medium and big size object, with color independency, at longer distance than conventional sensors. The IP67 50x50x25mm S65 compact housing encompasses state-of-the-art technology for the detection of objects with white surfaces up to 5m. The infrared light emission ensures the highest level of human eye protection in any application. Additionally, Datasensor S65’s green LED spot pointer system allows for fast and precise object alignment. This new Time of Flight sensor has an easy-to-use interface and flexible connection capability, with two setting points and two independent switching outputs. Datalogic S65 delivers a flexible and programmable IO-Link standard interface.
Datalogic S67-Y sensor is a Class 2 laser distance sensor family based on geometric triangulation technology with a minimum resolution of 10um for a very accurate measurement in close-up ranges. This sensor family is particularly suited for applications where detection speed, accurate measurement and recognition of a wide range of material types are the most important requirements. Datalogic S67-Y series features 4 different models with a choice of two different operating distances: long range or short range. Users will also need to choose between current or voltage analog output configurations. Datalogic S67-Y sensor can be visually positioned very easily and accurately because of its very brightly shaped 2 mm laser spot. Additionally, the fast integrated micro-controller signal and the high sensitive photodiode array enables the sensor to work accurately regardless of the surface type and/or color. The easy user interface and the standard M12-5 pins rotatable metal connector allow for a quick and precise device to be set up in any industrial application.
The S85 series is Datalogic's innovative line of LASER distance sensors based on Time of Flight technology. Datasensor S85 series can perform high-precision and long distance measurement without the use of a prismatic reflector, as well as background and foreground suppression functions. The Class 2 highly-focused LASER and the innovative integrated software make Datalogic S85 series ideal for applications that require extremely precise measurement, offering 7 mm of accuracy for distances up to 20 m, with 1 mm of resolution and 1 mm of repeatability. The basic model (S85-MH-5-Y03-***) measures distances up to 10 m and can be simply set through user-friendly push-buttons. The basic model features an M12 5-pole standard connector with analog and digital outputs that provide distance and the object detection. The advanced model (S85-MH-5-Y13-***) measures distances up to 20 m and is easily programmable through a keyboard and display.