Coated article with IR reflecting layer and method of making same

The invention claimed is: 1. A coated article including a coating supported by a glass substrate, the coating comprising moving away from the glass substrate: a dielectric layer comprising zirconium silicon oxynitride; a layer comprising zinc stannate; a layer comprising zinc oxide located over and directly contacting the layer comprising zinc stannate; an infrared (IR) reflecting layer comprising silver located on the substrate over and directly contacting the layer comprising zinc oxide; and a layer comprising metal oxide located over at least the IR reflecting layer comprising silver; wherein the coating contains only one silver based IR reflecting layer; wherein the coating has a normal emissivity (E n ) of no greater than 7%, and measured monolithically the coated article has a visible transmission of at least 75%. 2. The coated article of claim 1 , wherein the layer comprising zirconium silicon oxynitride contains at least three times as much nitrogen as oxygen. 3. The coated article of claim 1 , wherein the layer comprising zirconium silicon oxynitride contains at least four times as much nitrogen as oxygen. 4. The coated article of claim 1 , wherein a ratio of Zr/Si (atomic) is from 0.30 to 0.47 in the layer comprising zirconium silicon oxynitride. 5. The coated article of claim 1 , wherein a ratio of Zr/Si (atomic) is from 0.35 to 0.44 in the layer comprising zirconium silicon oxynitride. 6. The coated article of claim 1 , further comprising a layer comprising silicon nitride located between the glass substrate and the layer comprising zirconium silicon oxynitride. 7. The coated article of claim 1 , wherein the layer comprising zirconium silicon oxynitride is from about 20-250 Å thick. 8. The coated article of claim 1 , wherein the layer comprising zirconium silicon oxynitride is from about 50-100 Å thick. 9. The coated article of claim 1 , wherein the coating has a normal emissivity (E n ) of no greater than 6%. 10. The coated article of claim 1 , wherein measured monolithically the coated article has a visible transmission of at least 86%. 11. The coated article of claim 1 , wherein the layer comprising metal oxide comprises an oxide of Ni and/or Cr and is located directly over and contacting the IR reflecting layer comprising silver. 12. The coated article of claim 1 , further comprising another layer comprising zinc stannate and another layer comprising zinc oxide located over the IR reflecting layer comprising silver. 13. The coated article of claim 1 , wherein the coated article is configured to have a film side reflective ΔE* value of no greater than 4.0 due to heat treatment. 14. The coated article of claim 1 , wherein the coated article is configured to have a film side reflective ΔE* value of no greater than 2.0 due to heat treatment comprising thermal tempering. 15. The coated article of claim 1 , wherein the coated article is configured to have a glass side reflective ΔE* value of no greater than 2.5 due to heat treatment comprising thermal tempering. 16. The coated article of claim 1 , wherein the coated article is configured to have a glass side reflective ΔE* value of no greater than 2.0 due to heat treatment comprising thermal tempering. 17. An IG window unit comprising the coated article of claim 1 , wherein the IG window unit has a U-value of no greater than 1.4, the IG window unit further comprising another glass substrate, and wherein the coating is on surface three of the IG window unit. 18. An IG window unit comprising the coated article of claim 1 , wherein the IG window unit has a U-value of no greater than 1.1, the IG window unit further comprising another glass substrate, and wherein the coating is on surface three of the IG window unit. 19. An IG window unit comprising: first and second glass substrates with a gap therebetween; a coating supported by the second glass substrate and facing the gap, the second glass substrate to be located closer to a building interior than is the first glass substrate, the coating comprising moving away from the second glass substrate: a dielectric layer comprising zirconium silicon oxynitride; a layer comprising zinc stannate; a layer comprising zinc oxide located over and directly contacting the layer comprising zinc stannate; an infrared (IR) reflecting layer comprising silver located on the substrate over and directly contacting the layer comprising zinc oxide; and a layer comprising metal oxide located over at least the IR reflecting layer comprising silver; wherein the coating contains only one silver based IR reflecting layer; wherein the coating has a normal emissivity (E n ) of no greater than 7%; wherein the IG window unit has a visible transmission of at least 70% and a U-value of no greater than 1.4. 20. A coated article including a coating supported by a glass substrate, the coating comprising moving away from the glass substrate: a dielectric layer comprising zirconium silicon oxynitride; a layer comprising an oxide of titanium located over and directly contacting the layer comprising zirconium silicon oxynitride; a layer comprising zinc stannate located over and directly contacting the layer comprising the oxide of titanium; a layer comprising zinc oxide located over and directly contacting the layer comprising zinc stannate; an infrared (IR) reflecting layer comprising silver located on the substrate over and directly contacting the layer comprising zinc oxide; and a layer comprising metal oxide located over at least the IR reflecting layer comprising silver; and wherein a ratio of Zr/Si (atomic) is from 0.30 to 0.47 in the layer comprising zirconium silicon oxynitride.