Patient Support Apparatus With Hydraulic Oscillation Dampening

What is claimed is: 1 . A patient transport apparatus for supporting patients of different weights, the patient transport apparatus comprising: a base; a litter comprising a patient support surface to support patients of different weights; a lift mechanism to facilitate arranging the litter at different heights relative to the base between a plurality of lift configurations including a fully-retracted configuration and a fully-extended configuration, the lift mechanism comprising: an actuator defining a cylinder supporting a piston coupled to a rod arranged for movement along the cylinder, a fluid reservoir, and a pump driven by a motor to direct hydraulic fluid from the fluid reservoir to the cylinder; a sensor configured to output a signal indicative of a magnitude of pressure in the cylinder; a user interface comprising an input control arranged for user engagement to operate the lift mechanism; and a controller disposed in communication with the motor, the sensor, and the user interface, the controller being configured to determine a target parameter for the motor based on the signal generated by the sensor and, in response to user engagement with the input control, drive the motor at the target parameter to effect movement of the litter relative to the base at a predetermined rate irrespective of a weight of a patient supported on the litter. 2 . The patient transport apparatus of claim 1 , wherein the target parameter for the motor corresponds to a speed of the motor. 3 . The patient transport apparatus of claim 1 , wherein the lift mechanism includes: a first hydraulic conduit and a second hydraulic conduit to enable the flow of the hydraulic fluid between the cylinder and the pump by way of a first fluid path; and a third hydraulic conduit configured to selectively enable at least a portion of the hydraulic fluid output from a first end of the cylinder to bypass the pump and be redirected to a second end of the cylinder by way of a second fluid path. 4 . The patient transport apparatus of claim 3 , wherein: the third hydraulic conduit includes a valve; and the controller is configured to determine a target parameter for the valve based on signal generated by the sensor. 5 . The patient transport apparatus of claim 4 , wherein the controller, in response to user engagement with the input control, controls the valve at the target parameter to effect movement of the litter relative to the base at the predetermined rate irrespective of the weight of the patient supported on the litter. 6 . The patient transport apparatus of claim 4 , wherein the valve is a proportional control valve and the target parameter for the valve corresponds to a flowrate of the proportional control valve. 7 . The patient transport apparatus of claim 4 further comprising a second sensor configured to output a signal representative of a load on the motor. 8 . The patient transport apparatus of claim 7 , wherein the second sensor is a current sensor and the signal is representative of current drawn by the motor. 9 . The patient transport apparatus of claim 8 , wherein in response to current drawn by the motor exceeding a prescribed value, the controller is configured to close the valve to prevent the flow of hydraulic fluid between the first end of the cylinder and the second end of the cylinder via the third hydraulic conduit. 10 . The patient transport apparatus of claim 4 , wherein: the valve is further defined as a first valve; at least one of the first hydraulic conduit and the second hydraulic conduit includes a second valve; and the controller is configured to close the second valve when the first valve is opened such that the hydraulic fluid bypasses the pump. 11 . The patient transport apparatus of claim 1 , wherein the sensor is defined as a first sensor being connected to a first end of the cylinder and being configured to output a signal indicative of a magnitude of pressure in the cylinder at the first end, the patient transport apparatus further comprising a second sensor being connected to a second end of the cylinder, the second sensor being configured to output a signal indicative of a magnitude of pressure in the cylinder at the second end. 12 . A patient transport apparatus comprising: a base; a litter comprising a patient support surface to support patients of different weights; a lift mechanism to facilitate arranging the litter at different heights relative to the base between a plurality of lift configurations including a fully-retracted configuration and a fully-extended configuration, the lift mechanism comprising: an actuator defining a cylinder supporting a piston coupled to a rod arranged for movement along the cylinder between a first end and a second end, a fluid reservoir, a pump driven by a reversable motor between a first pump mode to direct hydraulic fluid across a first fluid path from the fluid reservoir to the first end of the cylinder, and a second pump mode to direct hydraulic fluid across a second fluid path from the fluid reservoir to the second end of the cylinder, and a piloted check valve interposed in fluid communication along the first fluid path between the first end of the cylinder and the pump, the piloted check valve having a pilot line disposed in fluid communication with the second fluid path; a sensor configured to output a signal indicative of a magnitude of pressure in the cylinder; a user interface comprising an input control arranged for user engagement to operate the lift mechanism; and a controller disposed in communication with the reversible motor, the sensor, and the user interface, the controller being configured to drive the reversible motor at a target parameter to operate the pump in the second pump mode so as to move the litter at a predetermined rate towards the fully-retracted configuration in response to user engagement with the input control, and being further configured to adjust the target parameter of the reversible motor to maintain the predetermined rate as the litter moves towards the fully-retracted configuration based on the signal generated by the sensor to compensate for changes in load occurring across the pump as pressurized hydraulic fluid flows to the pump from the first end of the cylinder across the piloted check valve. 13 . The patient transport apparatus of claim 12 , wherein the target parameter is a motor speed. 14 . The patient transport apparatus of claim 13 , wherein the controller is further configured to limit the motor speed to a predetermined operating speed. 15 . The patient transport apparatus of claim 14 , wherein the controller is configured to calculate a rate of change in the motor speed of the reversible motor over an interval of time and, in response to the rate of change exceeding the predetermined rate, the controller is configured to limit the rate of change in speed of the reversible motor by the predetermined rate. 16 . The patient transport apparatus of claim 14 , wherein the controller is configured to adjust the target parameter of the reversible motor based on a rate of change of the signal indicative of the magnitude of pressure in the cylinder. 17 . The patient transport apparatus of claim 12 , wherein the sensor is defined as a first sensor being connected to the first end of the cylinder and being configured to output a signal indicative of a magnitude of pressure in the cylinder at the first end; and further comprising a second sensor being connected to the second end of the cylinder, the second sensor being configured