Patent Number: 044219881
Section: claims

1. Apparatus for scanning a charged particle beam over a workpiece, said apparatus comprising: first deflection means for deflection of said beam in response to a first scanning voltage;  second deflection means for deflection of said beam in response to a second scanning voltage, said first and said second deflection means being operative to deflect said beam in mutually perpendicular directions;  first generating means coupled to said first deflection means for generating said first scanning voltage which includes alternating positive ramp portions and negative ramp portions and transitions therebetween, said positive and negative ramp portions being controllable in time duration;  second generating means coupled to said second deflection means for generating said second scanning voltage which remains constant during said positive and negative ramp portions and which is incremented at the time of said transitions between ramp portions;  control means for controlling the time durations of said positive and negative ramp portions according to a series of predetermined time durations so as to provide a scan pattern corresponding in size and shape to the size and shape of said workpiece.  first deflection means operative to deflect said beam in response to a first scanning voltage;  second deflection means operative to deflect said beam in response to a second scanning voltage, said first and second deflection means being operative to deflect said beam in mutually perpendicular directions;  frequency source means operative to generate a square wave voltage of controllable frequency;  integrator means operative to convert said square wave voltage to said first scanning voltage including alternating positive ramp portions and negative ramp portions each of which causes said beam to scan said workpiece in a time duration corresponding to the frequency of said square wave voltage;  counter means operative to store a number which determines the deflection of said beam by said second deflection means, said number remaining constant during said ramp portions and being altered at the completion of each ramp portion;  digital-to-analog converter means operative to convert the number stored in said counter means to said second scanning voltage; and  storage means addressed by said counter means and operative to control the frequency of said frequency source means according to a predetermined sequence so as to provide a scan pattern corresponding in size and shape to the size and shape of said workpiece.  generating a first scanning voltage which includes alternating positive ramp portions and negative ramp portions and transitions therebetween, said positive and negative ramp portions being controllable in time duration;  applying said first scanning voltage to said first deflection means;  generating a second scanning voltage which remains constant during said positive and negative ramp portions and which is incremented at each of said transitions between ramp portions;  applying said second scanning voltage to said second deflection means; and  controlling the time durations of said positive and negative ramp portions according to a predetermined sequence so as to provide a scan pattern corresponding in size and shape to the size and shape of said workpiece. 2. Apparatus for scanning a charged particle beam as defined in claim 1 wherein said second generating means includes means for incrementing said second scanning voltage in equal imcrements at the time of said transitions. 3. Apparatus for scanning a charged particle beam as defined in claim 2 wherein said alternating positive and negative ramp portions have constant rates of change and have rates of change of equal magnitude. 4. Apparatus for scanning a charged particle beam as defined in claim 3 wherein said first generating means includes integrator means for converting a square wave voltage of constant amplitude to said alternating positive and negative ramp portions, said square wave voltage being controllable in frequency. 5. Apparatus for scanning a charged particle beam as defined in claim 4 wherein said first generating means further includes frequency source means for generating said square wave voltage. 6. Apparatus for scanning a charged particle beam as defined in claim 5 wherein said frequency source means includes programmable frequency divider means for controlling the frequency of said square wave voltage in response to control data provided by said control means. 7. Apparatus for scanning a charged particle beam as defined in claim 6 wherein said control means includes storage means for storage of said control data. 8. Apparatus for scanning a charged particle beam as defined in claim 7 wherein said storage means stores control data corresponding to a generally circular scan pattern. 9. Apparatus for scanning a charged particle beam as defined in claim 7 wherein said storage means stores control data corresponding to a plurality of different scan patterns. 10. Apparatus for scanning an ion beam over a workpiece in an ion implantation system, said apparatus comprising: 11. Apparatus for scanning an ion beam as defined in claim 10 wherein said frequency source means generates a square wave voltage of constant amplitude whereby said ramp portions have constant rates of change and have rates of change of equal magnitude. 12. Apparatus for scanning an ion beam as defined in claim 11 wherein said counter means is altered by one count at the completion of each ramp portion whereby said second scanning voltage is altered in equal increments. 13. Apparatus for scanning an ion beam as defined in claim 12 wherein said storage means controls the frequency of said frequency source means so as to provide a generally circular scan pattern. 14. Apparatus for scanning an ion beam as defined in claim 13 wherein said frequency source means includes programmable frequency divider means for controlling the frequency of said square wave voltage in response to control data provided by said storage means. 15. Apparatus for scanning an ion beam as defined in claim 14 further including timing means operative to transfer said control data from said storage means to said programmable frequency divider means at the zero crossings of said first scanning voltage. 16. Apparatus for scanning an ion beam as defined in claim 14 wherein said storage means stores control data corresponding to a plurality of different scan patterns. 17. In a charged particle beam irradiation system of the type including first deflection means and second deflection means operative to deflect said bean in mutually perpendicular directions in response to voltages applied thereto, a method of scanning the charged particle beam over a workpiece, said method comprising the steps of: 18. The method of scanning a charged particle beam as defined in claim 17 wherein said first scanning voltage is generated with said ramp portions having constant rates of change and having rates of change of equal magnitude. 19. The method fo scanning a charged particle beam as defined in claim 18 wherein second scanning voltage is incremented in equal steps at each of said transitions between ramp portions.