Nonwoven thermal bonding pattern with low fuzz

What is claimed is: 1. A nonwoven extending in a machine direction and a perpendicular cross-machine direction, the nonwoven comprising fibers bonded by thermal bonds, wherein the thermal bonds comprise: larger elliptical shape bonds having an individual area of at least 1.5 mm 2 ; and smaller elliptical shape bonds having an individual area in the range of 0.10 mm 2 to 1.0 mm 2 ; wherein at least some of the larger elliptical shape bonds and the smaller elliptical shape bonds are disposed in rows generally aligned with the cross-machine direction; wherein the rows have a pitch angle ranging from 0 to 10 degrees relative to the cross-machine direction; wherein the smaller elliptical shape bonds are disposed between the rows of larger elliptical shape bonds; and wherein the ratio of the number of smaller elliptical shape bonds to the number of larger elliptical shape bonds is at least 1.5. 2. The nonwoven according to claim 1 , wherein: the larger elliptical shape bonds have a major dimension measured along a major direction, and a minor dimension measured along a minor direction perpendicular to the major direction; the smaller elliptical shape bonds have a major dimension measured along a major direction, and a minor dimension measured along a minor direction perpendicular to the major direction; and wherein the major dimension of the larger elliptical shape bonds is at least 50% higher than the major dimension of the smaller elliptical shape bonds. 3. The nonwoven according to claim 2 , wherein the major dimension of the larger elliptical shape bonds is at least 2.0 mm, and wherein the major dimension of the smaller elliptical shape bonds is less than 1.0 mm. 4. The nonwoven according to claim 2 , wherein at least some of the larger elliptical shape bonds have a ratio of the major dimension to the minor dimension ranging from about 1.05 to about 2.0, and wherein at least some of the smaller elliptical shape bonds have a ratio of the major dimension to the minor dimension ranging from about 1.10 to about 2.5. 5. The nonwoven according to claim 2 , wherein at least some of the larger elliptical shape bonds and/or the smaller elliptical shape bonds have their major direction oriented at an angle of at least 10° relative to the machine direction of the nonwoven. 6. The nonwoven according to claim 2 , wherein the larger elliptical shape bonds comprise differently oriented larger elliptical shape bonds, and wherein an angle formed by the major directions of the differently oriented larger elliptical shaped bonds is at least 20°. 7. The nonwoven according to claim 2 , wherein the smaller elliptical shape bonds comprise differently oriented smaller elliptical shape bonds, and wherein an angle formed by the major directions of the differently oriented smaller elliptical shape bonds is at least 20°. 8. The nonwoven according to the claim 1 , wherein the bonding area of all the thermal bonds represents from about 17% to about 30% of the area of the nonwoven. 9. The nonwoven according to claim 1 , wherein a distance between two rows of the larger elliptical shape bonds is from about 2.0 mm to about 8 mm. 10. The nonwoven according to claim 1 , wherein a distance center-to-center for at least some of the larger elliptical shape bonds in the same row ranges from about 2 mm to about 8 mm. 11. The nonwoven according to claim 1 , having a basis weight ranging from 10 gsm to 20 gsm. 12. The nonwoven according to claim 1 , wherein the nonwoven has an opacity index of from about 15% to about 50%. 13. An absorbent article comprising: a topsheet on a wearer-facing side of the absorbent article; a backsheet on a garment-facing side of the absorbent article; and an absorbent core positioned at least partially between the topsheet and the backsheet; wherein the topsheet and/or the backsheet comprises the nonwoven of claim 1 . 14. A nonwoven extending in a machine direction and a perpendicular cross-machine direction, the nonwoven comprising fibers bonded by thermal bonds, wherein the thermal bonds comprise: larger elliptical shape bonds having an individual area of at least 1.0 mm 2 ; and smaller elliptical shape bonds having an individual area of less than 1.0 mm 2 ; wherein at least some of the larger elliptical shape bonds and the smaller elliptical shape bonds are disposed in rows generally aligned with the cross-machine direction; wherein the rows have a pitch angle ranging from 0 to 10 degrees relative to the cross-machine direction; wherein the smaller elliptical shape bonds are disposed between the rows of larger elliptical shape bonds; and wherein the ratio of the number of smaller elliptical shape bonds to the number of larger elliptical shape bonds is at least 1.2; wherein the bonding area of all the thermal bonds represents from about 17% to about 30% of the area of the nonwoven. 15. The nonwoven according to claim 14 , wherein: the larger elliptical shape bonds have a major dimension measured along a major direction, and a minor dimension measured along a minor direction perpendicular to the major direction; the smaller elliptical shape bonds have a major dimension measured along a major direction, and a minor dimension measured along a minor direction perpendicular to the major direction; and wherein the major dimension of the larger bonds is at least 50% higher than the major dimension of the smaller bonds. 16. A nonwoven extending in a machine direction and a perpendicular cross-machine direction, the nonwoven comprising fibers bonded by thermal bonds, wherein the thermal bonds comprise: larger elliptical shape bonds having an individual area of at least 1.0 mm 2 ; and smaller elliptical shape bonds having an individual area of less than 1.0 mm 2 ; wherein at least some of the larger elliptical shape bonds and the smaller elliptical shape bonds are disposed in rows generally aligned with the cross-machine direction; wherein the rows have a pitch angle ranging from 0 to 10 degrees relative to the cross-machine direction; wherein the smaller elliptical shape bonds are disposed between the rows of larger elliptical shape bonds; and wherein the ratio of the number of smaller elliptical shape bonds to the number of larger elliptical shape bonds is at least 1.5; wherein the larger elliptical shape bonds have a major dimension measured along a major direction, and a minor dimension measured along a minor direction perpendicular to the major direction; wherein the smaller elliptical shape bonds have a major dimension measured along a major direction, and a minor dimension measured along a minor direction perpendicular to the major direction; and wherein the major dimension of the larger elliptical shape bonds is at least 50% higher than the major dimension of the smaller elliptical shape bonds. 17. The nonwoven according to claim 16 , wherein the major dimension of the larger elliptical shape bonds is at least 1.50 mm, and the major dimension of the smaller bond is less than 1.50 mm. 18. The nonwoven according to claim 16 , wherein at least some of the larger elliptical shape bonds have a ratio of the major dimension to the minor dimension ranging from about 1.05 to about 2.0, and wherein at least some of the smaller elliptical shape thermal bonds have a ratio of the major dimension to the minor dimension ranging from about 1.10 to about 2.5.