The HELIOS-35 source is designed for X-ray applications with anode voltage adjustment range up to a maximum of 70kV. The device is characterized by its small size, high conversion efficiency and an analogue digital interface with RS-232 and Ethernet that simplify the integration.

The sophisticated inverter-type control circuit provides excellent anode voltage regulation with low crest noise to the X-ray tube. The inverter regulates the filament power, thus achieving a high stability of the regulating power which contributes to the anodic current stability and to the X-ray flux intensity.

The HELIOS 50 source is designed for X-ray applications with anode voltage adjustment range up to a maximum of 80kV. The device is characterized by its small size, high conversion efficiency and an analogue digital interface, RS-232 and Ethernet, that simplify integration.

The sophisticated inverter control circuit provides excellent anode voltage regulation, with low crest noise to the X-ray tube. The inverter regulates the filament power, thus achieving a high stability of the regulating power that contributes to the stability of the anode current and thus to the intensity of the X-ray flux.

The HELIOS-100 source is designed for X-ray applications with anodic voltage regulation range up to a maximum of 100kV. The device is characterized by its reduced dimensions with high conversion efficiency and an analogical digital interface, RS-232 and Ethernet, making integration easier.

The HELIOS 200 and 300 X-ray generators are designed for X-ray applications with anode voltage regulation range up to a maximum of 80 kV. The devices are characterized by having radiogen dose power with high conversion efficiency and an analogue digital interface with RS-232 and Ethernet, which simplify integration.

The sophisticated inverter control circuit provides excellent regulation of the anode voltage, with low crest noise to the X-ray tube. The inverter regulates the filament power, thus achieving a high stability of the regulation power which contributes to the stability of the anode current and therefore to the intensity of the X-ray flux consequently giving an accurate process analysis.