The new Satelec X-Mind™ DC generator is fitted with a Toshiba DG-073B-DC double anode tungsten tube (intensity of 4mA and 8mA).
It generates a constant voltage of 60kV or 70kV.
It operates at high frequencies and constant potential which enables very high quality radiation to be emitted, whatever the conditions of use.
The choice of voltage (60 or 70kV) and intensity (4 or 8mA) enables optimal diagnosis of intraoral X-rays with a 35% reduction in exposure time, compared with monophased units.
The timer can control up to two DC generators.
The extremely short exposure times (minimum 0.02 sec.) are suitable for digital radiology with CCD, CMOS or phosphor plate sensors (radiation is 50% less that that used with “E” type films).
SOPRO SOPIX
The SOPIX series offers wide range of solutions adapted for all budgets to satisfy all requirements of any dental practice:
SOPIX digital sensor offers a high-quality image at a very affordable price.
It is the most economic solution of the SOPIX Series
The design of the SOPIX series sensors is so smart.
The corners are rounded to improve patient comfort.
White side stripes offer high visibility of the sensor in the darkness of the mouth.
They assist the dental professional in correctly positioning the X-ray tube perpendicular to the sensor.
Moreover, the working environment now becomes more ergonomic and well-organized through the integration of SOPIX² inside sensor into X- Mind unity intraoral X-ray system.
Placed on his holder, the sensor is safe to prevent from falling to the floor and it is always easy to reach for optimal working comfort.
Through SOPRO’s extensive experience in digital sensors, the SOPIX series improve your everyday life by simplifying use and bringing you exceptional image quality.
ACE® technology, patented by SOPRO, is integrated in all SOPIX series sensors. It analyzes in real time the amount of X-rays accumulated by the sensor and It freezes the image acquisition as soon as it received the radiation required to provide a good-quality image. Thus, It protects each image from overexposure.