Dual pitch jack screw for ODU alignment

What is claimed is: 1. A method of aligning a reflector of an antenna to receive a satellite signal, comprising: roughly aligning the reflector with a first signal based on a geographic location of the reflector; passing the reflector through an alignment arc in a first direction to a first location in the alignment arc by turning a first jack screw in a first direction until a first location is reached; measuring a first strength of the received signal at the first location in the alignment arc; measuring a second strength of the received signal while passing the reflector through the alignment arc in a second direction opposing the first direction by turning the first jack screw a number of turns in a second direction opposing the first direction until the measured second strength of the received signal matches the first measured strength of the received signal; and passing the reflector back through the alignment arc in the first direction by turning a second jack screw the number of turns; wherein the first jack screw is of coarser pitch than the second jack screw. 2. The method of claim 1 , wherein the first jack screw and the second jack screw are turned using a transmission device. 3. The method of claim 2 , wherein the transmission device comprises splines to selectively engage the first jack screw and the second jack screw. 4. The method of claim 1 , wherein the first direction and the second direction are an elevation direction. 5. The method of claim 1 , further comprising: passing the reflector through a second alignment arc in a third direction to a first location in the second alignment arc by turning another first jack screw in a second first jack screw first direction until a second location is reached; measuring a third strength of the received signal at the first location in the second alignment arc; passing the reflector through the second alignment arc in a fourth direction opposing the third direction by turning the another first jack screw a second number of turns in a second first jack screw second direction opposing the second first jack screw first direction until a measured fourth signal strength of the received signal matches the measured third strength of the received signal; and passing the reflector back through the second alignment arc in the third direction by turning the another second jack screw the second number of turns. 6. The method of claim 1 , wherein the first jack screw and the second jack screw are concentric. 7. The method of claim 1 , wherein the satellite signal is received from a geostationary satellite, and wherein: the reflector is passed through the alignment arc in the first direction to the first location in the alignment arc by turning only the first jack screw in the first direction until the first location is reached; the reflector is passed through the alignment arc in the second direction opposing the first direction by turning only the first jack screw the number of turns in the second direction opposing the first direction until the measured second strength of the received signal matches the first measured signal strength; and the reflector is passed back through the alignment arc in the first direction by turning only the second jack screw only the number of turns. 8. The method of claim 1 , wherein the reflector and the antenna are coupled via a transmission selectively engaging the first jack screw and the fine jack screw and wherein the method further comprises: selectively engaging a the first jack screw with the reflector before passing the reflector through an alignment arc in the first direction to the first location in the alignment arc by turning the first jack screw in the first direction until a first location is reached; and selectively engaging the second jack screw with the reflector before passing the reflector back through the alignment arc in the first direction by turning the second jack screw the number of turns. 9. An alignment system, comprising: a first jack screw; a second jack screw having a finer pitch than the first jack screw; a transmission, selectively engaging the first jack screw and the second jack screw; and a reflector, coupled to the first jack screw and the second jack screw, wherein a single turn of the first jack screw when selectively engaged moves the reflector a first amount in a first direction and a single turn of the second jack screw when selectively engaged moves the reflector half of the first amount in the first direction. 10. The alignment system of claim 9 , wherein the transmission is coupled to the first jack screw and to the second jack screw with a splined interface. 11. The alignment system of claim 9 , wherein the first jack screw and the second jack screw are concentric. 12. The alignment system of claim 11 , wherein: the alignment system further comprises a drive portion; the first jack screw and the second jack screw are concentric along a drive axis; the first jack screw comprises a first jack screw splined interface; the second jack screw comprises a second jack screw splined interface; and the transmission comprises a member, having first member splines and second member splines; wherein the member is slideable along the drive axis between a first position engaging the first jack screw to the drive portion via the first jack screw splined interface and the first member splines and a second position engaging the second jack screw to the drive portion via the second jack screw splined interface and the second member splines. 13. The alignment system of claim 9 , wherein the first jack screw is turned in a direction opposite that of the second jack screw to move the reflector in the first direction. 14. The alignment system of claim 9 , wherein: the single turn of the first jack screw when selectively engaged moves the reflector the first amount in the first direction of an alignment arc of a plurality of geostationary satellites; and a single turn of the second jack screw when selectively engaged moves the reflector half of the first amount in the first direction of the alignment arc of the plurality of geostationary satellites. 15. A system for aligning a terrestrial antenna having a reflector to receive a signal transmitted by a satellite of a satellite broadcasting system, comprising: a first jack screw, coupled to the reflector, for aligning the terrestrial antenna by moving the reflector a first amount in an alignment axis of the reflector per turn of the coarse jack screw; a second jack screw having a pitch finer than the first jack screw, coupled to the reflector, for aligning the terrestrial antenna by moving the reflector a second amount in an alignment axis of the reflector per turn of the fine jack screw; and a transmission, coupled to selectively engage the first jack screw and the second jack screw; wherein the first amount is twice the second amount. 16. The system of claim 15 , wherein the first jack screw and the second jack screw are turned using the transmission. 17. The system of claim 16 , wherein the transmission comprises splines to selectively engage the first jack screw and the second jack screw. 18. The system of claim 15 , wherein the first jack screw and the second jack screw are concentric. 19. The alignment system of claim 18 , wherein: the system further comprises a drive portion; the first jack screw and the second jack screw are concentric along a drive axis; the first jack screw comprises a first jack screw splined interface; the second jac