Broadband spiral transmission line power splitter

What is claimed is: 1. A broadband spiral transmission line power divider having two filars with tapered ends, each of said two filars shaped as an Archimedean spiral having first ends and distal ends, comprising: a board having a topside for operatively mounting the two filar spirals, said topside having a layer of dielectric material disposed thereon, and a bottom side, wherein said two filar spirals are mounted to said topside of said board on top of the layer of dielectric material; a first ground plane mounted to the bottom side of the board; a second ground plane mounted above both the topside of the board and the two filar spirals; a plurality of center coaxial connectors electrically mounted through the first ground plane on the bottom side of the board and joined to the respective first ends of the corresponding two filar spirals; gaps in the two filar spirals at the respective distal ends thereof which are present proximate to the respective tapered ends thereby truncating the two filar spirals; a plurality of outer coaxial connectors electrically mounted through the first ground plane on the bottom side of the board and to joined to the two filar spirals at a position directly adjacent to the gaps in the two filar spirals; and metal sides operatively mounted between the first ground plane and the second ground plane along perimeters thereof thereby encasing the board. 2. The broadband spiral transmission line power divider according to claim 1 , wherein the plurality of center coaxial connectors and the plurality of outer coaxial connectors are soldered to the first ground plane and soldered to the two filar spirals. 3. The broadband spiral transmission line power divider according to claim 2 , wherein the two filar spirals are copper plated, said two filar spirals each have a width of 3/32 of an inch and are spaced approximately 3/32 of an inch between each other. 4. The broadband spiral transmission line power divider according to claim 3 , further comprising a second dielectric layer operatively mounted between the two filar spirals and the second ground plane. 5. The broadband spiral transmission line power divider according to claim 4 , further comprising means for adjusting a predetermined distance between the second ground plane and the two filar spirals to obtain a low voltage standing wave ratio. 6. The broadband spiral transmission line power divider according to claim 4 , wherein a predetermined distance between the second ground plane and the two filar spirals is adjustable for obtaining a low voltage standing wave ratio. 7. The broadband spiral transmission line power divider according to claim 6 , wherein the second ground plane is mounted at the predetermined distance from the two filar spirals to cause a phase shift from −90 to 90 degrees. 8. The broadband spiral transmission line power divider according to claim 1 , wherein a vertical distance between the second ground plane and the two filar spirals is larger than a vertical distance between the first ground plane and the two filar spirals, and a space between the second ground plane and the two filar spirals is occupied by air. 9. The broadband spiral transmission line power divider according to claim 1 , further comprising: a metal cylinder of a radius less than a radius of an inner end of one of said two filar spirals, said metal cylinder disposed on a vertical axis of the two filar spirals and joined to the first and second ground planes, wherein two of the plurality of center coaxial connectors are joined to the metal cylinder to connect to the first ends of the two filar spirals; and wherein a vertical distance between the second ground plane and the two filar spirals is equal to a vertical distance between the first ground plane and the two filar spirals, and a space between the first ground plane and the two filar spirals is occupied with dielectric material, and a space between the second ground plane and the two filar spirals is occupied by dielectric material. 10. A broadband spiral transmission line power divider having two filars with tapered ends, said two filars including a first filar and a second filar each shaped as an Archimedean spiral having first ends and distal ends, comprising: a first board having a topside for operatively mounting the first filar and a bottom side; the first filar mounted to the topside of said first board; a second board having a bottom side for operatively mounting the second filar, and a topside; wherein said second board is disposed parallel to said first board with the bottom side of said second board facing the topside of said first board; the second filar mounted to the bottom side of said second board; a plurality of metal side supports to support and secure the second board to the first board, the plurality of metal side supports operatively mounted between the first board and the second board along a perimeter of both the first and the second board; a first ground plane mounted to the bottom side of the first board; a second ground plane mounted to the topside of the second board; a first plurality of center coaxial connectors electrically mounted through the first ground plane on the bottom side of the first board and joined to the first end of the first filar; a second plurality of center coaxial connectors electrically mounted through the second ground plane on the topside of the second board and joined to the first end of the second filar; gaps in each of the two filars at the distal ends of the two filars proximate to the tapered ends thereby truncating the two filars; a first plurality of outer coaxial connectors electrically mounted through the first ground plane on the bottom side of the first board and joined to the distal end of the first filar at a position directly adjacent to the gap in the first filar; and a second plurality of outer coaxial connectors electrically mounted through the second ground plane on the topside of the second board and joined to the distal end of the second filar at a position directly adjacent to the gap in the second filar. 11. The broadband spiral transmission line power divider according to claim 10 , wherein the first plurality of center coaxial connectors are soldered to the first ground plane on the bottom side of the first board and soldered to the first end of the first filar mounted on the first board; and the second plurality of center coaxial connectors are soldered to the second ground plane on the topside of the second board and soldered to the first end of the second filar mounted on the second board. 12. The broadband spiral transmission line power divider according to claim 10 , wherein the first plurality of outer coaxial connectors are soldered to the first ground plane on the bottom side of the first board and soldered to the distal end of the first filar mounted on the first board; and the second plurality of outer coaxial connectors are soldered to the second ground plane on the topside of the second board and soldered to the distal end of the second filar mounted on the second board. 13. The broadband spiral transmission line power divider according to claim 10 , further comprising: a dielectric layer disposed between the topside of the first board and the bottom side of the second board. 14. The broadband spiral transmission line power divider according to claim 13 , wherein the first plurality of center coaxial connectors are soldered to the first ground plane on the bottom side of the first board and soldered to the first end of the first filar mounted on the first board; and the second plurality of center coaxial connectors ar