Electric drive axle system and operating method

The invention claimed is: 1. A tandem electric axle system, comprising: a first beam axle assembly with a first continuously variable dual-motor drive unit; and a second beam axle assembly with a second continuously variable dual-motor drive unit; wherein the second continuously variable dual-motor drive unit has a planetary gearset with a different gear ratio than a planetary gearset in the first continuously variable dual-motor drive unit; and wherein the first continuously variable dual-motor drive unit includes a disconnect clutch that is positioned downstream of the planetary gearset and configured to selectively disengage the first continuously variable dual-motor drive unit. 2. The tandem electric axle system of claim 1 , wherein the gear ratio of the planetary gearset in the first continuously variable dual-motor drive unit is greater than the gear ratio of the planetary gearset in the second continuously variable dual-motor drive unit. 3. The tandem electric axle system of claim 1 , wherein rotational axes of a first motor and a second motor in the first continuously variable dual-motor drive unit are not positioned coaxial to one another. 4. The tandem electric axle system of claim 1 , wherein rotational axes of a first motor and a second motor in the second continuously variable dual-motor drive unit are not positioned coaxial to one another. 5. The tandem electric axle system of claim 1 , wherein rotational axes of a first motor and a second motor in the first continuously variable dual-motor drive unit are arranged perpendicular to a differential that is coupled to the first continuously variable dual-motor drive unit. 6. The tandem electric axle system of claim 1 , wherein a first motor and a second motor in the first continuously variable dual-motor drive unit are multi-phase motors. 7. The tandem electric axle system of claim 1 , wherein the first and second continuously variable dual-motor drive units are positioned between frame rails. 8. The tandem electric axle system of claim 1 , further comprising an unpowered steerable axle. 9. The tandem electric axle system of claim 8 , wherein the unpowered steerable axle is a front axle. 10. The tandem electric axle system of claim 1 , where the planetary gearsets in the first and second beam axle assemblies are simple planetary gearsets. 11. An electric drive system, comprising: a first beam axle assembly with a first multi-motor drive unit that is configured to rotationally coupled to a first differential; and a second beam axle assembly with a second multi-motor drive unit that is configured to rotationally coupled to a second differential; wherein the second multi-motor drive unit has a planetary gearset with a different gear ratio than a planetary gearset in the first multi-motor drive unit. 12. The electric drive system of claim 11 , wherein the first beam axle assembly and the second beam axle assembly are coupled to a dependent suspension system. 13. The electric drive system of claim 11 , wherein rotational axes of a first motor and a second motor in the first multi-motor drive unit are not positioned coaxial to one another. 14. The electric drive system of claim 13 , wherein rotational axes of the first motor and the second motor in the first multi-motor drive unit are arranged perpendicular to rotational axes of axle shafts coupled to the first differential. 15. An electric drive system, comprising: a first axle assembly with a first continuously variable multi-motor drive unit that includes a first motor and a second motor which are rotationally coupled to a first planetary gearset and a first differential; and a second axle assembly with a second continuously variable multi-motor drive unit that includes a third motor and a fourth motor which are rotationally coupled to a second planetary gearset and a second differential; wherein the first planetary gearset and the second planetary gearset have unequal gear ratios. 16. The electric drive system of claim 15 , wherein the first continuously variable multi-motor drive unit and the second multi-motor drive unit each are configured with continuously variability within their overall gear ratio range. 17. The electric drive system of claim 15 , wherein the first and second continuously variable multi-motor drive units are positioned between frame rails and wherein the first axle assembly and the second axle assembly are configured to attach to a dependent suspension system. 18. The electric drive system of claim 15 , wherein the first motor, the second motor, the third motor, and the fourth motor are arranged parallel to one another. 19. The electric drive system of claim 15 , wherein the first motor and the second motor are arranged coaxial to one another and the third motor and the fourth motor are arranged coaxial to one another.