Patent Number: 
Section: claims

1. A system for irradiating a product, the system comprising:a radiation source to generate an x-ray beam;a conveyor to move the product in a linear direction across the x-ray beam as the product is being irradiated, to expose a surface of the product to the x-ray beam in order to irradiate the surface; anda controller coupled to the conveyor, the controller configured to vary a speed at which the conveyor moves the product in the linear direction across the x-ray beam as the product is being irradiated, the speed being a function of a distance between a position at which the surface of the product is irradiated and a reference position on the surface of the product, the controller being configured to reduce the speed at which the conveyor moves the product as the position at which the surface is being irradiated becomes closer to the reference position, the controller being further configured to increase the speed at which the conveyor moves the product as the position at which the surface is being irradiated becomes farther from the reference position. 2. The system of claim 1 wherein the conveyor is configured to rotate the product to expose, sequentially, additional surfaces of the product to the x-ray beam. 3. The system of claim 2 wherein the controller is configured to vary the speed at which the conveyor moves the product in the linear direction across the x-ray beam to expose the surface and the additional surfaces to obtain an irradiated product that has a dose uniformity ratio (DUR) that meets a target DUR. 4. The system of claim 1 wherein the controller is configured to vary the speed of the conveyor in the linear direction in accordance with a speed function, the speed function being a quadratic function of the distance between the position at which the product is irradiated and the reference position. 5. The system of claim 4 wherein the reference position is a center position of the surface being irradiated. 6. The system of claim 1 wherein the controller is configured to vary the speed of the conveyor in the linear direction in accordance with a speed function, the speed function being a polynomial function of the distance between the position at which the surface of the product is irradiated and the reference position. 7. The system of claim 4 wherein the reference position is a center position of the surface being irradiated. 8. A method of irradiating a product, the method comprising:conveying a product in a linear direction across an x-ray beam to expose a surface of the product to the x-ray beam as the product is conveyed in the linear direction; andvarying a speed at which the product is conveyed in the linear direction across the x-ray beam as the product is being irradiated, the speed being a function of a distance between a position at which the surface of the product is irradiated and a reference position on the surface, the varying of the speed being to reduce the speed at which the conveyor moves the product as the position at which the surface is being irradiated becomes closer to the reference position, the varying of the speed further being to increase the speed at which the conveyor moves the product as the position at which the surface is being irradiated becomes farther from the reference position. 9. The method of claim 8, wherein the conveyor is configured to rotate the product, the method further comprising the conveyor rotating the product to expose, sequentially, additional surfaces of the product to the x-ray beam. 10. The method of claim 9 further comprising:determining a dose uniformity ratio (DUR) target; andvarying the speed at which the conveyor moves the product in the linear direction across the x-ray beam to expose the surface and the additional surfaces to obtain an irradiated product that has a DUR that meets the DUR target. 11. The method of claim 8 wherein varying the speed of the conveyor in the linear direction includes varying the speed in accordance with a speed function, the speed function being a quadratic function of the distance between the position at which the product is irradiated and the reference position. 12. The method of claim 9 wherein varying the speed of the conveyor in the linear direction includes varying the speed in accordance with a speed function, the speed function being a polynomial function of the distance between the position at which the surface of the product is irradiated and the reference position.