Motor characterization in a printer

What is claimed is: 1. A printer, comprising: a media control system, the media control system having at least one motor coupled to a media moving device; a memory to store motor characteristics for the at least one motor; the media control system to control the tension in media loaded in a paper path using the at least one motor, the media control system using the stored motor characteristics to adjust a control signal to the at least one motor. 2. The printer of claim 1 , wherein the motor characteristics comprise at least one of the following motor characteristics: a motor torque constant, a starting PWM value, and a system friction value. 3. The printer of claim 2 , wherein the motor torque constant, the starting PWM value, and the system friction value include a value for a positive rotational direction and a negative rotational direction. 4. The printer of claim 1 , wherein the first media moving device is selected from the following group of media moving devices: a supply spindle, a take-up spindle, a drive roller or a tension roller. 5. The printer of claim 1 , wherein the media control system has three motors; the first motor coupled to a drive roller; a second motor coupled to a supply spindle; a third motor coupled to either a take-up spindle or a tension roller; the memory to store motor characteristics for each motor; the media control system to control the tension in media loaded in the paper path using the first, second and third motors, the media control system using the stored first, second and third motor characteristics to adjust a control signal to the three motors. 6. The printer of claim 1 , further comprising: a controller, the controller to characterize the at least one motor and store the motor characteristics in the memory. 7. A method of calibrating a media control system, comprising: storing a plurality of motor characteristics in a non-volatile memory for at least one motor installed in the media control system; controlling the tension in media using the media control system by sending a control signal to the at least one motor based on the stored plurality of motor characteristics. 8. The method of claim 7 , further comprising: characterizing the at least one motor to determine the plurality of motor characteristics after the at least one motor is installed in the media control system. 9. The method of claim 8 , wherein characterizing the at least one motor further comprises: selecting an initial PWM value, a PWM step size and a plurality of PWM test point values; at each PWM test point value: setting a PWM signal to the motor at the PWM test point value; varying the PWM signal above and below the PWM test point value with the at least one motor turning in both a positive rotational direction and a negative rotational direction. 10. The method of claim 9 , wherein characterizing the at least one motor further comprises: at each PWM test point value, determining a torque value for the motor and plotting the torque values vs. the PWM test point; fitting a line to the plotted torque values; setting the torque constant for the motor as the slope of the line; setting the starting PWM value as the intersection of the line with the axis of PWM values. 11. The method of claim 9 , wherein characterizing the at least one motor further comprises: at each PWM test value determining the torque value when the motor is accelerating and decelerating in a positive rotational direction to create a first and second set of torque values and plotting the torque values vs. the PWM test point; at each PWM test value determining the torque value when the motor is accelerating and decelerating in a negative rotational direction to create a third and fourth set of torque values and plotting the torque values vs. the PWM test point; fitting a line to the four sets of plotted torque values; wherein a first friction for the system is the average value of the intersection of the first and second line with the PWM axis; wherein a second friction for the system is the average value of the intersection of the third and fourth line with the PWM axis. 12. The method of claim 8 , wherein the media control system comprises three motors and each of the three motors are characterized to determine a plurality of motor characteristics. 13. The method of claim 7 , wherein the motor characteristics comprise: a motor torque constant for a positive rotational direction and a negative rotational direction, a starting PWM value for a positive rotational direction and a negative rotational direction, and a system friction value for a positive rotational direction and a negative rotational direction. 14. The method of claim 7 , wherein the at least one motor is coupled to one of the following media moving devices: a supply spindle, a take-up spindle, a drive roller or a tension roller. 15. A non-transitory computer readable medium containing computer executable instructions, that when executed by a processor in an printer, performs the following method, comprising: storing a plurality of motor characteristics in a non-volatile memory for at least one motor installed in the media control system; controlling the tension in media using the media control system by sending a control signal to the at least one motor based on the stored plurality of motor characteristics.