IG window unit having triple silver coating and dielectric coating on opposite sides of glass substrate

The invention claimed is: 1. An insulating glass (IG) widow unit comprising: first and second glass substrates; wherein the first glass substrate supports a low-E coating and an angular reduction dielectric coating on respective opposite major surfaces thereof; wherein the low-E coating comprises first, second, and third infrared (IR) reflecting layers comprising silver, wherein at least a first dielectric layer of the low-E coating is provide between at least the first and second IR reflecting layers comprising silver, and at least a second dielectric layer of the low-E coating is provide between at least the second and third IR reflecting layers comprising silver; wherein the angular reduction dielectric coating, which is on a side of the first glass substrate opposite the low-E coating, comprises a plurality of alternating high index and low index layers; and wherein the low-E coating and the angular reduction dielectric coating are configured so that the IG window unit has an LSG value of at least 2.0, and a ΔC value of no greater than 3.0 as viewed from an exterior of a building in which the IG window unit is to be mounted across a range of angles of at least 85 degrees from a normal viewing angle which is perpendicular to the IG window unit, and wherein ΔC is defined as Δ C =[( a−a o ) 2 +[( b−b o ) 2 ] 1/2 where “a” is an a* color value at the normal viewing angle, and “a o ” is an a* color viewing angle at the off-axis viewing angle, “b” is a b* color value at the normal viewing angle, and “b o ” is a b* color viewing angle at the off-axis viewing angle. 2. The IG window unit of claim 1 , wherein the low-E coating and the angular reduction dielectric coating are configured so that the IG window unit has an LSG value of at least 2.2, and a ΔC value of no greater than 2.5 as viewed from an exterior of a building in which the IG window unit is to be mounted across a range of angles of at least 85 degrees from the normal viewing angle. 3. The IG window unit of claim 1 , wherein the low-E coating and the angular reduction dielectric coating are configured so that the IG window unit has an LSG value of at least 2.3, and a ΔC value of no greater than 2.0 as viewed from an exterior of a building in which the IG window unit is to be mounted across a range of angles of at least 85 degrees from the normal viewing angle. 4. The IG window unit of claim 1 , wherein the low-E coating and the angular reduction dielectric coating are configured so that the IG window unit has an LSG value of at least 2.3, and a ΔC value of no greater than 1.5 as viewed from an exterior of a building in which the IG window unit is to be mounted across a range of angles of at least 85 degrees from the normal viewing angle. 5. The IG window unit of claim 1 , wherein the low-E coating has a sheet resistance (R s ) of no greater than 2.0 ohms/square. 6. The IG window unit of claim 1 , wherein the high index layers comprise an oxide of titanium. 7. The IG window unit of claim 1 , wherein the high index layers comprise an oxide of niobium. 8. The IG window unit of claim 1 , wherein the low index layers comprise an oxide of silicon. 9. A window unit comprising: first and second glass substrates; wherein the first glass substrate supports a low-E coating and an angular reduction dielectric coating on respective opposite major surfaces thereof; wherein the low-E coating comprises first and second infrared (IR) reflecting layers comprising silver, wherein at least a first dielectric layer of the low-E coating is provide between at least the first and second IR reflecting layers comprising silver; wherein the angular reduction dielectric coating, which is on a side of the first glass substrate opposite the low-E coating, comprises a plurality of alternating high index and low index layers; wherein the low-E coating and the angular reduction dielectric coating are configured so that the window unit has an LSG value of at least 2.0, and a ΔC value of no greater than 3.0 as viewed from an exterior of a building in which the IG window unit is to be mounted across a range of angles of at least 85 degrees from a normal viewing angle which is perpendicular to the window unit, and wherein ΔC is defined as Δ C =[( a−a o ) 2 +[( b−b o ) 2 ] 1/2 where “a” is an a* color value at the normal viewing angle, and “a o ” is an a* color viewing angle at the off-axis viewing angle, “b” is a b* color value at the normal viewing angle, and “b o ” is a b* color viewing angle at the off-axis viewing angle.