Upright vacuum cleaner and system operable with AC and DC power sources

What is claimed is: 1. An upright vacuum cleaner comprising: a cleaning head having a suction opening defined along a bottom thereof; a handle assembly connected to the cleaning head; a motor; a blower connected to the motor and operable to generate suction through the suction opening upon operation of the motor; and a power connector mounted to the vacuum cleaner and selectively connectable to a direct current (DC) power source and an alternating current (AC) power source, the power connector including external terminals accessible from an exterior of the vacuum cleaner, the external terminals configured for removable mechanical connection to each of the DC power source and an AC power supply cord such that the DC power source and the AC power supply cord are selectively and mechanically connectable to the same external power connector terminals, wherein the power connector is electrically connectable to the motor via an electrical path such that an AC current is supplied to the motor when the AC power source is connected to the power connector, and a DC current is supplied to the motor when the DC power source is connected to the power connector, wherein the electrical path is a common electrical path that extends from the power connector to the motor such that the AC current and the DC current travel along the same electrical path from the power connector to the motor regardless of the power source connected to the power connector. 2. The vacuum cleaner of claim 1 further including the AC power supply cord, wherein the AC power supply cord has a first end that connects to the power connector and a second end that connects to the AC power source. 3. The vacuum cleaner of claim 1 , wherein the electrical path is free of intervening inverters and rectifiers between the power connector and the motor such that AC current is supplied to the motor when the AC power source is connected to the power connector, and DC current is supplied to the motor when the DC power source is connected to the power connector. 4. The vacuum cleaner of claim 3 , wherein the electrical path is a first electrical path, and wherein the power connector is selectively connectable to the motor via the first electrical path and a second electrical path by operation of a power switch, wherein the second electrical path includes a rectifying element for low speed AC operation. 5. The vacuum cleaner of claim 1 , wherein the motor includes a plurality of windings, and wherein the power connector is electrically connectable to the motor via the electrical path such that the AC current is supplied to the plurality of windings when the AC power source is connected to the power connector, and the DC current is supplied to the plurality of windings when the DC power source is connected to the power connector. 6. The vacuum cleaner of claim 1 , wherein the DC power source is a battery, and wherein the handle assembly includes a battery support plate located proximate the power connector, the battery support plate adapted to releasably support the battery when the battery is connected to the power connector. 7. The vacuum cleaner of claim 1 , further including a filter assembly, wherein the blower is positioned upstream from the filter assembly such that the blower is disposed within an unfiltered air flow path. 8. The vacuum cleaner of claim 1 , further including a rotary brush disposed within the cleaning head and connected to the motor. 9. The vacuum cleaner of claim 1 in combination with the DC power source, wherein the DC power source has a DC output voltage of between 50 volts and 140 volts. 10. The vacuum cleaner of claim 1 , wherein the motor is a universal motor. 11. The vacuum cleaner of claim 1 , wherein the motor is rated for a current load of between 2 amperes and 12 amperes at 120 volts. 12. The vacuum cleaner of claim 1 in combination with the DC power source, wherein a combined weight of the vacuum cleaner and the DC power source is less than 20 pounds. 13. The vacuum cleaner of claim 1 , wherein the motor is connected to the cleaning head. 14. The vacuum cleaner of claim 1 , wherein the motor is a commutated series-wound motor including stator windings and rotor windings, wherein the stator windings are connected in series with the rotor windings through a single commutator. 15. A vacuum cleaning system comprising: a cleaning head having a suction opening defined along a bottom thereof; a handle assembly connected to the cleaning head; a motor; a blower connected to the motor and operable to generate suction through the suction opening upon operation of the motor; a power connector electrically connected to the motor for supplying electrical power thereto; a direct current (DC) power source selectively connectable to the power connector; and a power supply cord having a first end that is selectively connectable to the power connector and a second end that connects to an AC power source, wherein the power connector includes external terminals accessible from an exterior of the vacuum cleaner, the external terminals configured for removable mechanical connection to each of the DC power source and the first end of the power supply cord such that the DC power source and the power supply cord are selectively and mechanically connectable to the same external power connector terminals, and wherein the power connector is electrically connectable to the motor via an electrical path such that an AC current is supplied to the motor when the AC power source is connected to the power connector, and a DC current is supplied to the motor when the DC power source is connected to the power connector, wherein the electrical path is a common electrical path that extends from the power connector to the motor such that the AC current and the DC current travel along the same electrical path from the power connector to the motor regardless of the power source connected to the power connector. 16. The vacuum cleaning system of claim 15 , wherein the electrical path is free of intervening inverters and rectifiers between the power connector and the motor such that AC current is supplied to the motor when the AC power source is connected to the power connector, and DC current is supplied to the motor when the DC power source is connected to the power connector. 17. The vacuum cleaning system of claim 16 , wherein the electrical path is a first electrical path, and wherein the power connector is selectively connectable to the motor via the first electrical path and a second electrical path by operation of a power switch, wherein the second electrical path includes a rectifying element for low speed AC operation. 18. The vacuum cleaning system of claim 15 , wherein the motor includes a plurality of windings, and wherein the power connector is electrically connectable to the motor via the electrical path such that the AC current is supplied to the plurality of windings when the AC power source is connected to the power connector, and the DC current is supplied to the plurality of windings when the DC power source is connected to the power connector. 19. The vacuum cleaning system of claim 15 , wherein the DC power source has a DC output voltage of between 50 volts and 140 volts.