Bracket and bracket system for seismic cable sway bracing system

What is claimed is: 1. A bracket for use in a seismic cable sway bracing system to attach a bracing cable to a support structure or to an object to be braced, the bracket comprising: a planar base having a base aperture therethrough; and at least one planar arm integrally formed with and extending from the planar base, the at least one planar arm being angled upwardly 58° relative to the planar base and having an arm aperture therethrough, wherein a first distance is defined from a center of the base aperture to an edge of the planar base opposite the at least one planar arm in a pre-angled arrangement, a second distance is defined from the center of the base aperture to a center of the arm aperture in the pre-angled arrangement, and a ratio of the first distance to the second distance is 1:1.4 to 1:1.6, and wherein the ratio of the first distance to the second distance and the angle of the at least one planar arm to the planar base inhibit deformation of the bracket under operating loads. 2. The bracket of claim 1 , wherein the ratio of the first distance to the second distance is 1:1.4 to 1:1.5. 3. The bracket of claim 2 , wherein the ratio of the first distance to the second distance is 1:1.45. 4. The bracket of claim 1 , wherein a thickness of the planar base and the at least one planar arm is about 8 gauge. 5. The bracket of claim 1 , wherein the bracket includes a first planar arm and a second planar arm as the at least one planar arm, the second planar arm extending from the planar base rotated generally 90° relative to the first planar arm. 6. The bracket of claim 1 , wherein edges of the at least one planar arm around the outer perimeter are rounded. 7. The bracket of claim 6 , wherein edges of the at least one planar arm around the outer perimeter distal to the planar base are rounded more than edges of the at least one planar arm around the outer perimeter proximate to the planar base, to provide a tapered rounding of the outer perimeter. 8. The bracket of claim 1 , wherein at least part of edges of the at least one planar arm around the arm aperture are rounded. 9. The bracket of claim 8 , wherein distal portions of the edges of the at least one planar arm around the arm aperture relative to the planar base are rounded, and proximal portions of the edges of the at least one planar arm around the arm aperture relative to the planar base are flat. 10. The bracket of claim 1 , wherein edges of the at least one planar arm around the outer perimeter and around the arm aperture are rounded. 11. A bracket for use in a seismic cable sway bracing system to attach a bracing cable to a support structure or to an object to be braced, the bracket comprising: a planar base having a base aperture therethrough; and first and second planar arms integrally formed with and angled upwardly 58° relative to the planar base, the first planar arm having a first arm aperture therethrough to receive a first bracing cable, and the second planar arm having a second arm aperture therethrough to receive a second bracing cable, wherein edges of the first and second planar arms around the first and second arm apertures are at least partially rounded to inhibit abrasion of the first and second bracing cables attached to the first and second planar arms, respectively, wherein a first distance is defined from a center of the base aperture to an edge of the planar base opposite the first planar arm in a pre-angled arrangement, a second distance is defined from the center of the base aperture to a center of the first arm aperture in the pre-angled arrangement, and a ratio of the first distance to the second distance is 1:1.4 to 1:1.6, and wherein the ratio of the first distance to the second distance and the angles of the first and second planar arms relative to the planar base inhibit deformation of the bracket under operating loads. 12. The bracket of claim 11 , wherein distal portions of edges of the first and second planar arms around the first and second arm apertures relative to the planar base are rounded, and proximal portions of edges of the first and second planar arms around the first and second arm apertures relative to the planar base are flat. 13. The bracket of claim 11 , wherein (i) the ratio of the first distance to the second distance, (ii) angles of the first and second planar arms relative to the planar base, and (iii) a thickness of the planar base are configured such that a planar base of a first bracket stacked on a second bracket in an offset arrangement does not block the first and second arm apertures of the second bracket. 14. A bracket for use in a seismic cable sway bracing system to attach a bracing cable to a support structure or to an object to be braced, the bracket comprising: a planar base having a base aperture therethrough; and first and second planar arms integrally formed with and angled upwardly 58° relative to the planar base, the first planar arm having a first arm aperture therethrough to receive a first bracing cable, and the second planar arm having a second arm aperture therethrough to receive a second bracing cable, the first and second planar arms having outer perimeters, wherein edges of the first and second planar arms around the outer perimeters are rounded to inhibit abrasion of the first and second bracing cables attached to the first and second planar arms, respectively, and wherein a first distance is defined from a center of the base aperture to an edge of the planar base opposite the first planar arm in a pre-angled arrangement, a second distance is defined from the center of the base aperture to a center of the first arm aperture in the pre-angled arrangement, and a ratio of the first distance to the second distance is 1:1.4 to 1:1.6, and wherein the ratio of the first distance to the second distance and the angles of the first and second planar arms relative to the planar base inhibit deformation of the bracket under operating loads. 15. The bracket of claim 14 , wherein a first line intersecting a center of the base aperture and a center of the first arm aperture is perpendicular to a second line intersecting the center of the base aperture and a center of the second arm aperture. 16. The bracket of claim 14 , wherein edges of the first and second planar arms around the first and second arm apertures are rounded to inhibit abrasion of the first and second bracing cables attached to the first and second planar arms, respectively. 17. A bracket system for a seismic cable sway bracing system comprising: a first bracket including: a first planar base having a first base aperture therethrough to receive a mounting fastener; and a first planar arm integrally formed with and extending from the first planar base, the first planar arm being angled upwardly 58° relative to the first planar base and having a first arm aperture therethrough to receive a first bracing cable; and a second bracket including: a second planar base having a second base aperture therethrough to receive the mounting fastener; and a second planar arm integrally formed with and extending from the second planar base, the second planar arm being angled upwardly 58° relative to the second planar base and having a second arm aperture therethrough to receive a second bracing cable, wherein the first arm aperture is not blocked by the second planar base, with the second bracket stacked on the first bracket in an offset arrangement, and the first bracket and the second bracket secured together on the mounting fastener, based on a ratio of a first distance, defined from a ce