Heater member for the fuser assembly of an electrophotographic imaging device

What is claimed is: 1. A toner fusing apparatus, comprising: a substrate having a first surface and a second surface, the second surface being opposite the first surface on the substrate; a plurality of resistive traces disposed along the first surface of the substrate, comprising a first resistive trace and a second resistive trace, the first and second resistive traces being disposed adjacent each other along the first surface of the substrate in a length-wise direction thereof, a resistance of the first resistive trace being less than a resistance of the second resistive trace, a length of the first resistive trace being greater than a length of the second resistive trace; and a plurality of thermistors disposed along the second surface of the substrate, comprising a first thermistor disposed on the second surface of the substrate opposite a first location of the first resistive trace, a second thermistor disposed on the second surface of the substrate opposite a first location of the second resistive trace, and a third thermistor disposed on the second surface of the substrate, the third thermistor being closer to a first length-wise end of the substrate than the second resistive trace and a first length-wise end of the first resistive trace being closer to the first length-wise end of the substrate than the third thermistor. 2. The toner fusing apparatus of claim 1 , further comprising a plurality of conductive members, comprising a first conductive member coupled to the first length-wise end of the first resistive trace, a second conductive member coupled to a first length-wise end of the second resistive trace and a third conductive member coupled to a second length-wise end of the first resistive trace and a second length-wise end of the second resistive trace. 3. The toner fusing apparatus of claim 2 , further comprising a first switch coupled to the first conductive member and a second switch coupled to the second conductive member. 4. The toner fusing apparatus of claim 3 , further comprising a controller coupled to the first switch and the second switch, the controller configured to close the first and second switches during a first fusing operation at a first speed, and to close the first switch and open the second switch during a fusing operation at a second speed less than the first speed. 5. The toner fusing apparatus of claim 4 , wherein the controller is coupled to the first, second and third thermistors for receiving signals therefrom. 6. The toner fusing apparatus of claim 2 , wherein the second length-wise end of the first resistive trace is closer to a second length-wise end of the substrate than the second length-wise end of the second resistive trace. 7. The toner fusing apparatus of claim 6 , further comprising a fourth thermistor disposed on the second surface of the substrate opposite a location on the first surface of the substrate that is closer to the second length-wise end of the substrate than the second length-wise end of the second resistive trace but farther to the second length-wise end of the substrate than the second length-wise end of the first resistive trace. 8. The toner fusing apparatus of claim 2 , wherein a distance from the second length-wise end of the first resistive trace to a second length-wise end of the substrate is substantially the same as a distance from the second length-wise end of the second resistive trace to the second end of the substrate. 9. The toner fusing apparatus of claim 2 , further comprising a fourth conductive member coupled to the first resistive trace at a location that is a distance to the first length-wise end of the substrate which is substantially the same as a distance of the first length-wise end of the second resistive trace to the first length-wise end of the substrate. 10. The toner fusing apparatus of claim 9 , further comprising a first switch coupled to the first conductive member, a second switch coupled to the second conductive member and a third switch coupled to the fourth conductive member. 11. The toner fusing apparatus of claim 1 , wherein the width of the first resistive trace is at least twice the width of the second resistive trace. 12. The toner fusing apparatus of claim 1 , wherein the first location of the first resistive trace is near a second length-wise end of the first resistive trace and the first location of the second resistive trace is near a first length-wise end of the second resistive trace. 13. The toner fusing apparatus of claim 1 , wherein the first location of the first resistive trace is in a central area along the length of the first resistive trace, and the first location of the second resistive trace is in a central area along the length of the second resistive trace. 14. The toner fusing apparatus of claim 1 , wherein the first location of the first resistive trace is about 1.5 inches from a second length-wise end of the first resistive trace, and the first location of the second resistive trace is about 1.5 inches from a first length-wise end of the second resistive trace. 15. A toner fusing system, comprising: a fuser heater, comprising: a substrate having a first surface and a second surface, the second surface being opposite the first surface on the substrate; a plurality of resistive traces disposed along the first surface of the substrate, comprising a first resistive trace and a second resistive trace, the first and second resistive traces being disposed adjacent each other along the first surface of the substrate in a length-wise direction thereof, a width of the first resistive trace being greater than a width of the second resistive trace; and a plurality of thermistors disposed along the second surface of the substrate, comprising a first thermistor disposed on the second surface of the substrate opposite the first resistive trace, a second thermistor disposed on the second surface of the substrate opposite the second resistive trace, and a third thermistor disposed on the second surface of the substrate, the third thermistor being closer to a first length-wise end of the substrate than the second resistive trace and a first length-wise end of the first resistive trace being closer to the first length-wise end of the substrate than the third thermistor. 16. The toner fusing system of claim 15 , further comprising a controller coupled to the resistive traces and to the plurality of thermistors, the controller configured to control current passing through the first resistive trace and the second resistive trace independently of each other.