Valve bank and smart control valve

What is claimed is: 1. A valve bank for controlling flow of a fluid, the valve bank comprising: a fluid manifold; a plurality of modular control valves fluidly connected to the fluid manifold; and a sensor configured to sense a characteristic associated with a function of the valve bank; wherein: at least one modular control valve of the plurality of modular control valves includes: (i) a valve body adapted for fluid connection to the fluid manifold, the valve body having an inlet passage, an outlet passage, and a fluid flow path extending between the inlet and outlet passages; (ii) a valve member movable in the fluid flow path and relative to the valve body to control flow of the fluid through the valve body; an onboard electronic controller is operably mounted to the valve bank; and at least one actuator is operably connected to the onboard electronic controller; the at least one actuator being configured to control movement of the valve member of the at least one modular control valve in response to commands from the onboard electronic controller; wherein the onboard electronic controller is operably coupled to the sensor and is configured to receive information from the sensor that corresponds with the characteristic, wherein information received from the sensor comprises pressure traces, wherein the onboard electronic controller is configured to identify at least one event of the at least one modular control valve based on the pressure traces, wherein the onboard electronic controller is further configured to compare a pressure and a time at the at least one identified event to a normal value of pressure and time for the at least one identified event previously stored in the onboard electronic controller, wherein the onboard electronic controller is further configured to transmit results of the comparison to an upper-level programmable control logic controller, and wherein the onboard electronic controller being configured to control movement of the valve member via the at least one actuator based upon the information received from the sensor. 2. The valve bank according to claim 1 , wherein the sensor is operably mounted to the valve body of the at least one modular control valve. 3. The valve bank according to claim 1 , wherein the sensor is disposed in the fluid flow path of the valve body and is configured to sense a characteristic of the fluid flowing through the fluid flow path. 4. The valve bank according to claim 1 , wherein the sensor is configured to sense pressure and/or temperature. 5. The valve bank according to claim 1 , wherein the onboard electronic controller is mounted in a sealed space in a housing portion of the valve body. 6. The valve bank according to claim 1 , wherein the onboard electronic controller is mounted in a block or plate that is operably mounted in the valve bank. 7. The valve bank according to claim 6 , wherein the block or plate having the onboard electronic controller is mounted between the valve body of the at least one modular control valve and at least a portion of the fluid manifold. 8. The valve bank according to claim 1 , wherein the valve member is electrically actuated by at least one electric actuator. 9. The valve bank according to claim 1 , wherein the at least one electric actuator includes a solenoid, a piezoelectric actuator, or an electroactive polymer. 10. The valve bank according to claim 1 , wherein the modular control valve is a directional control valve, the valve member being a slidable valve spool having a plurality of lands that cooperate with corresponding lands of the valve body to control flow through one or more fluid passages in the valve body. 11. The valve bank according to claim 1 , wherein the valve body has a mounting face configured to interface with the fluid manifold with a sealing engagement, the mounting face having an inlet port fluidly connected to the inlet passage and an outlet port fluidly connected to the outlet passage for enabling fluid to flow into or out of the valve body from or to the fluid manifold. 12. The valve bank according to claim 1 , wherein the onboard electronic controller only controls the valve member, or plurality of valve members, that is/are disposed in the valve body on which the onboard electronic controller is mounted. 13. The valve bank according to claim 1 , wherein the at least one modular control valve further comprises: an electrical transceiver configured to communicate the information from the sensor to an external programmable logic controller (PLC), and configured to receive and transmit commands from the PLC to the onboard electronic controller; wherein the onboard electronic controller is configured to control movement of the valve member via the at least one actuator based upon the commands received from the PLC, which said commands are based upon the information received by the onboard electronic controller from the sensor and communicated to the PLC. 14. The valve bank according to claim 1 , wherein the onboard electronic controller is included in an electrical circuit, the electrical circuit further comprising one or more electrical switches configured to provide manual override to the control of the electronic controller, wherein the one or more electrical switches are operably coupled to respective externally depressible buttons that are adapted for being actuated by a user. 15. The valve bank according to claim 1 , wherein the onboard electronic controller is configured to perform one or more of the following operations: (i) leakage check function using pressure decay; (ii) actuator response time; (ii) fluid-operated device response time; (iv) load condition sensing; (v) jammed fluid-operated device detection; (vi) dynamic leak check; (vii) cushion check; (viii) load hold monitoring; (ix) short and open circuit detection; (x) high and low temperature detection; (xi) monitoring adjacent control valves; and (xii) monitoring stroke time of valve member and/or fluid operated device. 16. The valve bank according to claim 1 , wherein the at least one modular control valve of the plurality of modular control valves further includes a mounting face with at least one work port for supplying or receiving fluid flow from a fluid operate device, wherein the onboard electronic controller is further configured to compare a detected pressure differential for the at least one identified event to a normal value of a pressure differential for the at least one identified event previously stored in the onboard electronic controller, wherein the detected pressure differential comprises a pressure differential between at least one of: a pressure sensor reading from a pressure sensor in the at least one modular control valve and a pressure sensor reading from a pressure sensor in another modular control valve of the plurality of modular control valves at the least one identified event, or a pressure sensor reading from a pressure sensor in the at least one modular control valve and a pressure sensor reading from a pressure sensor in a chamber of the fluid operating device.