Methods and apparatus to enable boom bounce reduction and prevent un-commanded motion in hydraulic systems

1 .- 42 . (canceled) 43 . A method of controlling a hydraulic actuator hydraulically coupled to a pair of counter-balance valves, the method comprising: providing the hydraulic actuator, the hydraulic actuator including a pair of chambers hydraulically coupled to the pair of counter-balance valves; providing a pair of control valves hydraulically coupled to the pair of counter-balance valves; operating one of the pair of control valves in a pressure control mode; operating the other of the pair of control valves in a flow control mode; transferring hydraulic fluid flow with the pair of control valves to/from the hydraulic actuator via the pair of counter-balance valves; and sending a first control signal to one of the pair of control valves and a second control signal to the other of the pair of control valves, at least one of the first and second control signals including a vibration component to transfer a vibratory cancellation flow of hydraulic fluid to the hydraulic actuator. 44 . The method of controlling a hydraulic actuator of claim 43 , further including the step of determining which of the pair of chambers of the hydraulic actuator is a load-holding chamber, and operating the control valve associated with the load-holding chamber in the flow control mode. 45 . The method of controlling a hydraulic actuator of claim 43 , further including receiving a pressure input signal from a pressure sensor in fluid communication with one of the pair of chambers of the hydraulic actuator, wherein the vibration component is at least partially based on the pressure input signal. 46 . The method of controlling a hydraulic actuator of claim 2 , further comprising: pressurizing a first pilot of a first counter-balance valve of the pair of counter-balance valves with the second control valve and thereby opening the first counter-balance valve; pressurizing a second pilot of a second counter-balance valve of the pair of counter-balance valves with the first control valve and thereby opening the second counter-balance valve; monitoring a first hydraulic flow through the first control valve; monitoring a second hydraulic flow through the second control valve; testing for a fault condition of a hydraulic line between the second counter-balance valve and the second control valve; and indicating a hydraulic line fault if the fault condition is present. 47 . The method of controlling a hydraulic actuator of claim 46 , further comprising: regulating an output pressure from the first control valve if the hydraulic line fault is indicated and if a lower-override command is indicated; regulating a pilot pressure that is pressurizing the second pilot of the second counter-balance valve by the regulating of the output pressure from the first control valve; and throttling the second counter-balance valve by the regulating of the pilot pressure and thereby lowering an apparatus actuated by the hydraulic actuator. 48 . The method of controlling a hydraulic actuator of claim 46 , further comprising: operating the first control valve in a flow control mode if the hydraulic line fault is indicated and if a lower-override command is indicated; providing a pilot pressure that is pressurizing the second pilot of the second counter-balance valve by regulating flow output from the first control valve; and throttling the second counter-balance valve by the providing of the pilot pressure and thereby lowering an apparatus actuated by the hydraulic actuator. 49 . The method of controlling a hydraulic actuator of claim 46 , further comprising: testing for a stuck condition of one or both of the counter-balance valves; and indicating a valve fault if the stuck condition is present. 50 . The method of controlling a hydraulic actuator of claim 49 , wherein the testing for the stuck condition includes operating at least a corresponding one of the control valves in the flow control mode, commanding a test amount of flow to a tank through the corresponding one of the control valves with the hydraulic actuator stationary, and monitoring a pressure from the corresponding one of the control valves when the test amount flows to the tank, and wherein the indicating of the valve fault occurs if the pressure is not sufficiently reduced when the test amount flows to the tank. 51 . The method of controlling a hydraulic actuator of claim 49 , wherein the testing for the stuck condition includes determining whether a first chamber or a second chamber of the pair of chambers is a meter-out chamber, monitoring a pressure of the meter-out chamber, and wherein the indicating of the valve fault occurs if the pressure is abnormally high. 52 . A method of controlling a hydraulic actuator, the method comprising: providing the hydraulic actuator, the hydraulic actuator including a pair of chambers; providing a pair of control valves hydraulically coupled to the pair of chambers; and controlling the hydraulic actuator to have a non-zero actuation velocity by sending a first control signal to one of the pair of control valves and a second control signal to the other of the pair of control valves to transfer hydraulic fluid flow to and from the hydraulic actuator, wherein at least one of the first and second control signals includes a vibration component to transfer a vibratory cancellation flow of hydraulic fluid to the hydraulic actuator. 53 . The method of controlling a hydraulic actuator of claim 52 , further comprising: operating one of the pair of control valves in a flow control mode; and operating another of the pair of control valves in a pressure control mode. 54 . The method of controlling a hydraulic actuator of claim 53 , wherein one of the pair of chambers is a load holding chamber and wherein the one of the pair of control valves that is operated in the flow control valve is associated with the load holding chamber. 55 . The method of controlling a hydraulic actuator of claim 53 , further including receiving a pressure input signal from a pressure sensor in fluid communication with one of the pair of chambers of the hydraulic actuator, wherein the vibration component is at least partially based on the pressure input signal. 56 . The method of controlling a hydraulic actuator of claim 53 , further comprising: providing a pair of counter-balance valves in fluid communication with the pair of chambers of the hydraulic actuator and with the pair of control valves. 57 . The method of controlling a hydraulic actuator of claim 56 , further comprising: pressurizing a first pilot of a first counter-balance valve of the pair of counter-balance valves with the second control valve and thereby opening the first counter-balance valve; and pressurizing a second pilot of a second counter-balance valve of the pair of counter-balance valves with the first control valve and thereby opening the second counter-balance valve. 58 . A method of controlling a hydraulic actuator, the method comprising: providing the hydraulic actuator, the hydraulic actuator including a pair of chambers hydraulically coupled to a pair of counter-balance valves; providing a pair of control valves hydraulically coupled to the pair of counter-balance valves; and controlling the hydraulic actuator to have a non-zero actuation velocity by sending a first control signal to one of the pair of control valves and a second control signal to the other of the pair of control valves to transfer hydraulic fluid flow to and from the hydraulic actuator, wherein at least one of the first and second control signals includes a vibra