Surface cleaning apparatus with scrub mode

What is claimed is: 1 . A surface cleaning apparatus comprising: a housing including a suction inlet for drawing in liquid, debris and air, the housing being movable over a surface to be cleaned; an agitator positioned within the housing and adjacent to the suction inlet, the agitator being configured to rotate in a first direction and in a second direction to agitate the surface to be cleaned; a fluid delivery system configured to deliver a cleaning fluid toward at least one of the agitator and the surface to be cleaned; a motor operably coupled to the agitator, the motor being configured to rotate the agitator in the first direction and in the second direction; and a controller configured to operate the surface cleaning apparatus in each of a standard cleaning mode and a scrub mode, the controller comprising a memory storing instructions that automatically executes the standard cleaning mode and the scrub mode; wherein the controller responds to activation of the scrub mode by initiating a plurality of bi-directional cleaning cycles for debris removal; wherein each of the plurality of bi-directional cleaning cycles includes: rotation of the agitator in the first direction for a first predetermined time interval for at least a first plurality of revolutions, followed by a first braking interval, and counter-rotation of the agitator in the second direction for a second predetermined time interval for at least a second plurality of revolutions, followed by a second braking interval; and wherein the controller is operable to change at least one of a fluid delivery parameter and a suction parameter of the standard cleaning mode in response to activation of the scrub mode for providing agitation, cleaning fluid, and suction at the surface to be cleaned. 2 . The surface cleaning apparatus of claim 1 , wherein the fluid delivery system comprises a fluid dispenser and a pump in fluid communication with the fluid dispenser, wherein the fluid delivery parameter includes a flow rate of the cleaning fluid, and wherein changing the fluid delivery parameter includes increasing the flow rate of the cleaning fluid during operation of the scrub mode to a flow rate greater than that of the standard cleaning mode. 3 . The surface cleaning apparatus of claim 1 , comprising a vacuum motor in fluid communication with the suction inlet, wherein the suction parameter includes suction at the suction inlet, and wherein changing the suction parameter includes decreasing the suction at the suction inlet during operation of the scrub mode to lower suction than that of the standard cleaning mode. 4 . The surface cleaning apparatus of claim 1 , wherein changing the fluid delivery parameter and changing the suction parameter includes increasing fluid flow of the cleaning fluid and decreasing suction at the suction inlet. 5 . The surface cleaning apparatus of claim 1 , wherein: the fluid delivery parameter includes a flow rate of the cleaning fluid and the suction parameter includes suction at the suction inlet; and in response to activation of the scrub mode, the controller is operable to increase dwell time of cleaning fluid on the surface to be cleaned by at least one of: increasing the flow rate by at least 2×; and decreasing suction by at least 2×. 6 . The surface cleaning apparatus of claim 1 , wherein the motor is a brushless DC motor, the brushless DC motor being mechanically coupled to the agitator. 7 . The surface cleaning apparatus of claim 1 , wherein the first predetermined time interval is different than the second predetermined time interval such that a different portion of the agitator engages the surface to be cleaned at a beginning of each successive bi-directional cleaning cycle. 8 . The surface cleaning apparatus of claim 1 , wherein the controller is operable to rotate the agitator in the first direction at a first speed and counter-rotate the agitator in the second direction at a second speed, and wherein the first speed has a magnitude that is different than a magnitude of the second speed such that a different portion of the agitator engages the surface to be cleaned at a beginning of each successive bi-directional cleaning cycle. 9 . The surface cleaning apparatus of claim 1 , wherein: the first and second predetermined time intervals are less than 0.5 seconds; and/or a ratio of the first predetermined time interval to the second predetermined time interval is 3:1 to 1.5:1. 10 . The surface cleaning apparatus of claim 9 , wherein the agitator is allowed to passively come to rest during the first and second braking intervals, the first and second braking intervals being between 10 and 200 milliseconds. 11 . The surface cleaning apparatus of claim 1 , comprising a fluid-cooled heat sink coupled to an exterior surface of the motor. 12 . The surface cleaning apparatus of claim 11 , wherein the fluid-cooled heat sink is an air-cooled heat sink including a plurality of fins extending from an arcuate sleeve on the exterior surface of the motor. 13 . The surface cleaning apparatus of claim 11 , comprising a cooling fan for circulating air over the fluid-cooled heat sink. 14 . The surface cleaning apparatus of claim 11 , wherein the motor is housed in a cavity within the housing, the housing including a ventilation port for open-loop circulation of air into the cavity. 15 . The surface cleaning apparatus of claim 1 , further comprising a height setter configured to adjust a height of the agitator relative to the surface to be cleaned in response to activation of the scrub mode for increasing engagement of at least a portion the agitator with the surface to be cleaned. 16 . A method for cleaning a surface with a surface cleaning apparatus comprising: providing a surface cleaning apparatus that is operable in a standard cleaning mode and in a scrub mode, the surface cleaning apparatus including a suction inlet, a fluid dispenser, a bi-directionally rotatable agitator to agitate a surface to be cleaned, and a motor operably coupled to the agitator; and in response to detecting activation of the scrub mode, oscillating the agitator forward and backward to scrub the surface to be cleaned, wherein oscillating the agitator comprises automatically switching the rotational direction of the agitator and performing a plurality of bi-directional cleaning cycles and changing at least one of a fluid delivery parameter and a suction parameter to provide agitation, cleaning fluid, and suction at a surface to be cleaned; wherein each of the plurality of bi-directional cleaning cycles includes: rotating the agitator in a first direction for a first predetermined time interval for at least a first plurality of revolutions, followed by a first predetermined braking interval, and counter-rotating the agitator in a second direction for a second predetermined time interval for at least a second plurality of revolutions, followed by a second predetermined braking interval. 17 . The method of claim 16 , comprising passively braking the motor during the first predetermined braking interval and during the second predetermined braking interval. 18 . The method of claim 16 , wherein: the first predetermined time interval is different than the second predetermined time interval such that a different portion of the agitator engages the surface to be cleaned at a beginning of each successive bi-directional cleaning cycle. 19 . The method of claim 16 , wherein: rotating the agitator in the first direction comprises rotating t