The RS 2500 is our Very High Dose Rate, Small Volume x-ray irradiator that utilizes MULTIPLE 4pi emitters to achieve dose rates up to 120 Gy/min to a 500mL canister (@ density 1) with our standard configuration. Additional emitters can be added. The RS 2500 is custom built for each application and we welcome your inquiries. The RS 2500 can be used for onsite terminal sterilization of small lots depending on density and product size.
Minimum/maximum ratios can be held very close to one. While individual product validation is required, typical cycles would be less than 3.5 hours. Can be used for inactivation of virulent bacteria or virus samples before handling or final disposition.
Applications:
Radiation Effects on Electronics/Materials
Sterilization
Polymer
Recombination
· Cross-linkage
Chain scission
Space Studies
Food Processing
Plant Mutation
Virus Inactivation
Other Forms of Research
Features and Benefits:
Just-In-Time supply· management helps to control costs
Safe, the unit is self-shielded with· no radioactive source
Secure, system is password protected·
Turn-key· installation
Easy to operate using a simple, easy-to-read
Service and Support – 12 month full warranty and a 24 month X-ray tube warranty 5SAP – 5-year Source Assurance Program eligible·
Does not· require a US Nuclear Regulatory
Commission (NRC) license
Industry· accepted ISO 11137:2006 and EN 552
Technical Specifications*:
Dose Rate: 6.6 kGy/h (0.66 Mrad/h)
Beam· Uniformity: Better than ± 7%
Number of Canisters: 1 per cycle or up to 4· vial holders
Processing Canisters: Diameter 3”(7.62cm) to 7”(17.78cm),· height 8”(20.32cm)
Cabinet Dimensions: Length 82”(209cm), Width· 33”(84cm), Height 51”(130cm)
Cabinet Weight: Net 5439 lbs(2467 kg)
Power Requirements: US 208 VAC, European 400VAC
Cooling system with high· capacity water to air heat exchanger (external unit)
Dual 4pi Au Target· Emitters (capable of adding an additional 2, 4pi Target Emitters)
* Technical specifications are subject to change, please contact your Rad Source representative for the most current information.