At the core of the infrared camera XC sits a high-resolution 384 x 288 infrared image detector with 110,592 independent single temperature measuring spots. Ther camera provides fully radiometric thermal images with a finely detailed depiction of even the smallest of temperature differences.
Not only can the infrared recordings be saved directly on the camera (non-radiometric) as individual images or MPEG-4 videos, optionally they can also be transferred onto a PC as fully radiometric IR video and there they can be recorded and analysed in real time employing the 50/60 Hz technology.
The robust design of the XC300 enables a long, failure-free operation even in rough construction site conditions. The XC300 comes in a shock-protected, two-component construction with IP54 type of protection and thanks to the uncooled microbolometer technology one can even do without regular maintenance work and calibrations.
The XC300 can measure temperatures of up to +600 °C (optionally up to +1,500 °C) and, owing to its high thermal sensitivity, visualize temperature differences of only 0.05 °C (50 mK).
The electric focus can be adjusted either manually or by means of the laser-supported automatic function, as you choose, and with the 10x digital zoom of the XC300 the measuring section can be freely selected. Optional interchangeable lenses further enhance the range of possible applications.
The integrated laser distance measuring device is particularly advantageous for all measuring operations. If it is switched on in addition, the measuring distance to the object can be read directly on the display.
In addition to the laser distance measuring device, the standard equipment of this thermography camera is completed by a real image camera with a resolution of 5 megapixels and a photo lamp as well as the laser pointer for visual targeting. Moreover, the XC300 is Trotec's first thermal imaging camera with a high-capacity Li-ion battery ensuring considerably longer non-stop measuring applications.
All functions of the XC300 were geared to meet the targets of user comfort and working efficiency. In case of the XC300, the setting options for the temperature range (span and level) that are customary for thermal imaging cameras of this class do not have to be set in the menu first to then be checked in the live image, but instead can be configured directly via cursor keys and you can watch the change live on screen.
The optional IR video function of the XC300 – that can be used to transfer fully radiometric infrared videos onto a PC whilst the measurement takes place where the results can then be recorded and evaluated in real time – provides ideal conditions for a very thorough analysis of the measurement results. For instance, this function permits a detailed examination of the heat-up and cooling behaviour of electronic and mechanical components or other objects over a defined period of time.
The DuoVision functions integrated in the thermal imaging camera XC300 allow for a variety of live display settings during the measurement. The picture-in-picture display function DuoVision permits a combined presentation of both pieces of image information in different overlays on top of the display of infrared and real images.
What is more, the additionally available DuoVision Plus function combines the infrared image information with high-contrast details of the visible light spectrum from the real image camera for the real-time indication of an extremely detailed thermal image fusion on the camera display.
This facilitates a much easier orientation, localization and assessment during the measurement – accordingly, damages or deficiencies can be detected and assigned at one glance. Besides a great number of other functionalities the supplied software also provides a DuoVision function for an overlay presentation of documents.
And these are not the last functionalities we have in store for you. The user can also make use of the periodic image storage function. This function enables you to record a series of thermal images with a preselectable recording frequency, e.g. every 30 minutes. With this recording interval you can optimally document the thermal long-term behaviour of an object. Furthermore you can save audio comments via headset and Bluetooth right along with the IR image.