Surface compactor and method of operation

We claim: 1. A surface compactor, comprising: at least one compacting surface for compacting a substrate; an excitation system that generates a substantially square wave vibrational displacement or force that vibrates the least one compacting surface and includes: a first exciter that generates a first sine wave vibrational force; a second exciter that generates a second sine wave vibrational force; a third exciter that generates a third sine wave vibrational force; and the first sine wave vibrational force, the second sine wave vibrational force, and the third sine wave vibrational force combine to generate the substantially square wave vibrational displacement or force. 2. The surface compactor according to claim 1 , wherein: the surface compactor is a roller compactor provided with first and second rollers; the at least compacting surface includes first and second compacting surfaces located on an outer circumferential surface of the respective first and second rollers; the excitation system generates the substantially square wave vibrational displacement or force that vibrates the first compacting surface; and another excitation system generates another substantially square wave vibrational displacement or force that vibrates the second compacting surface. 3. The surface compactor according to claim 1 , wherein: the first exciter is provided with a first eccentric mass and a first rotating shaft, wherein the first eccentric mass rotates with the first rotating shaft to generate the first sine wave vibrational force; the second exciter is provided with a second eccentric mass and a second rotating shaft, wherein the second eccentric mass rotates with the second rotating shaft to generate the second sine wave vibrational force; and the third exciter is provided with a third eccentric mass and a third rotating shaft, wherein the third eccentric mass rotates with the third rotating shaft to generate the third sine wave vibrational force. 4. The surface compactor according to claim 1 , wherein: the first exciter is provided with a first eccentric mass and a first rotating shaft, wherein the first eccentric mass rotates with the first rotating shaft to generate the first sine wave vibrational force; the second exciter is provided with a second eccentric mass and a second rotating shaft, wherein the second eccentric mass rotates with the second rotating shaft to generate the second sine wave vibrational force; the third exciter is provided with a third eccentric mass and a third rotating shaft, wherein the third eccentric mass rotates with the third rotating shaft to generate the third sine wave vibrational force; and a geared belt driven drive system that applies torque to the first, second, and third shafts, to impart rotation to the first, second, and third shafts and the first, second and third eccentric masses. 5. The surface compactor according to claim 1 , the first exciter is provided with a first eccentric mass and a first rotating shaft, wherein the first eccentric mass rotates with the first rotating shaft to generate a first eccentric moment and a first frequency; the second exciter is provided with a second eccentric mass and a second rotating shaft, wherein the second eccentric mass rotates with the second rotating shaft to generate a second eccentric moment and a second frequency; the third exciter is provided with a third eccentric mass and a third rotating shaft, wherein the third eccentric mass rotates with the third rotating shaft to generate a third eccentric moment and a third frequency, wherein: the ratio of the first eccentric moment to the second eccentric moment is 3 to 1; the ratio of the second frequency to the first frequency is 3 to 1; the ratio of the first eccentric moment to the third eccentric moment is 5 to 1; and the ratio of the third frequency to the first frequency is 5 to 1. 6. The surface compactor according to claim 1 , the first exciter is provided with a first eccentric mass and a first rotating shaft, wherein the first eccentric mass rotates with the first rotating shaft to generate a first eccentric moment and a first frequency; second exciter is provided with a second eccentric mass and a second rotating shaft, wherein the second eccentric mass rotates with the second rotating shaft to generate a second eccentric moment and a second frequency; the third exciter is provided with a third eccentric mass and a third rotating shaft, wherein the third eccentric mass rotates with the third rotating shaft to generate a third eccentric moment and a third frequency, wherein: the ratio of the first eccentric moment to the second eccentric moment is 27 to 1; the ratio of the second frequency to the first frequency is 3 to 1; the ratio of the first eccentric moment to the third eccentric moment is 125 to 1; and the ratio of the third frequency to the first frequency is 5 to 1. 7. A method of operating a surface compactor provided with at least one compacting surface for compacting a substrate and an excitation system that includes a first exciter, a second exciter and a third exciter and that vibrates the at least one compacting surface, comprising the step of: using the excitation system to generate a substantially square wave vibrational displacement or force that vibrates the least one compacting surface and compacts the substrate, including the steps of: using the first exciter to generate a first sine wave vibrational force; using the second exciter to generate a second sine wave vibrational force; using the third exciter to generate a third sine wave vibrational force; and combining the first sine wave vibrational force, the second sine wave vibrational force, and the third sine wave vibrational force to generate the substantially square wave vibrational displacement or force. 8. The method of operating a surface compactor according to claim 7 , wherein the surface compactor includes another excitation system, the surface compactor is a roller compactor provided with first and second rollers, the at least compacting surface includes first and second compacting surfaces located on an outer circumferential surface of the respective first and second rollers, and the step of using the excitation system to generate a substantially square wave vibrational displacement or force that vibrates the at least one compacting surface includes the step of using the excitation system to generate the substantially square wave vibrational displacement or force that vibrates the first compacting surface and compacts the substrate, the method further comprising the step of: using the another excitation system to generate another substantially square wave vibrational displacement or force that vibrates the second compacting surface and compacts the substrate. 9. The method of operating a surface compactor according to claim 7 , wherein the first exciter is provided with a first eccentric mass and a first rotating shaft, the second exciter is provided with a second eccentric mass and a second rotating shaft, and the third exciter is provided with a third eccentric mass and a third rotating shaft and the step of using the excitation system to generate the substantially square wave vibrational displacement or force that vibrates the at least one compacting surface and compacts the substrate includes the steps of: rotating the first eccentric mass and the first shaft to generate the first sine wave vibrational force; rotating the second eccentric mass and the second shaft to generate the second sine wave vibrational force; and rotating the third eccentric mass and the third shaft to generate the third sine wave vibrational force. 10. The method of o