초록 ▼

A closed loop adaptive fluid control system and method for use in hydraulic applications monitors one or more fluid characteristics, such as pressure, flow rate, accumulation time in an actuator, fill volume, etc., and compares the characteristic with a target response. A fluid characteristic sensor

A closed loop adaptive fluid control system and method for use in hydraulic applications monitors one or more fluid characteristics, such as pressure, flow rate, accumulation time in an actuator, fill volume, etc., and compares the characteristic with a target response. A fluid characteristic sensor detects at least one fluid characteristic at a hydraulically-actuated device that is actuated by a electrically-operated. The sensor sends a device signal corresponding to the actual sensed characteristic to an electronic controller, which compares the device signal with a target response. The controller then identifies any differences between the device signal and the target response and provides a feedback signal to the electrically-operated valve to adjust the current to the valve, which in turn adjusts the electrically-operated valve so that the device signal corresponding to the sensed characteristic at the device converges toward the target response.

대표청구항 ▼

What is claimed is: 1. A fluid control system, comprising: at least one electrically-operated control valve; a control unit that controls operation of said at least one variable control valve according to a command characteristic signal; at least one hydraulically-actuated device fluidically couple

What is claimed is: 1. A fluid control system, comprising: at least one electrically-operated control valve; a control unit that controls operation of said at least one variable control valve according to a command characteristic signal; at least one hydraulically-actuated device fluidically coupled to said at least one electrically-operated control valve; and at least one sensor that senses an actual fluid characteristic supplied to said at least one device, wherein said at least one sensor sends a sensed characteristic signal to the control unit, wherein the sensed characteristic signal corresponds to the actual fluid characteristic of fluid being input to said at least one hydraulically-actuated device, and wherein the control unit compares the sensed characteristic signal with a command characteristic signal and iteratively controls operation of said at least one control valve based on a difference between the sensed characteristic signal and the command characteristic signal to cause the difference to converge toward zero. 2. The system of claim 1, wherein the fluid characteristic is at least one selected from the group consisting of pressure, flow rate, accumulation time, and fill volume. 3. The system of claim 1, further comprising at least one hydraulic control valve disposed between said at least one electrically-controlled valve and said at least one device, wherein the hydraulic control valve controls operation of said at least one device. 4. The system of claim 3, wherein said at least one sensor is disposed between said at least one hydraulic control valve and said at least one device. 5. The system of claim 1, wherein the command characteristic signal is variable over time. 6. A fluid control system for a vehicle transmission, comprising: at least one electrically-operated valve; a transmission control unit that controls operation of said at least one electrically-operated valve according to a command characteristic signal; at least one clutch fluidically coupled to said at least one electrically-operated variable control valve; and at least one sensor that senses an actual fluid characteristic supplied to said at least one clutch, wherein said at least one sensor sends a sensed characteristic signal to the TCU, wherein the sensed characteristic signal corresponds to the actual fluid characteristic of the fluid being input to said at least one clutch, and wherein the control unit compares the sensed characteristic signal with a command characteristic signal and iteratively controls operation of sold at least one control valve based on a difference between the sensed characteristic signal and the command characteristic signal to cause the difference to converge toward zero. 7. The system of claim 6, wherein the fluid characteristic is at least one selected from the group consisting of pressure, flow rate, accumulation time, and fill volume. 8. The system of claim 6, further comprising at least one hydraulic control valve disposed between said at least one electrically-operated valve and said at least one clutch, wherein the hydraulic control valve controls operation of said at least one clutch. 9. The system of claim 8, wherein said at least one sensor is disposed between said at least one hydraulic control valve and said at least one clutch. 10. The system of claim 6, wherein said at least one electrically-operated valve is selected from the group consisting of a solenoid valve, a piezoelectric valve, and a differential valve. 11. The system of claim 6, wherein the command characteristic signal is variable over time. 12. The system of claim 6, wherein the transmission is a dual clutch transmission, wherein said at least one clutch comprises a first clutch that actuates a first set of gears and a second clutch that actuates a second of gears. 13. The system of claim 6, wherein the clutches are one selected from the group consisting of multi-plate clutches and band clutches. 14. A fluid control method for a system having at least one electrically-operated variable control valve, a control unit that controls operation of said at least one control valve according to a command characteristic signal, at least one hydraulically-actuated device fluidically coupled to said at least one electrically-operated variable control valve, and at least one sensor that senses an actual fluid characteristic supplied to said at least one device, the method comprising: sensing an actual fluid characteristic of fluid being sent to said at least one device; sending a sensed characteristic signal to the control unit, wherein the sensed characteristic signal corresponds to the actual fluid characteristic of fluid being input to said at least one hydraulically-actuated device; comparing the sensed characteristic signal with a command characteristic signal; and controlling operation of said at least one electrically-operated variable control valve based on a difference between the sensed characteristic signal and the command characteristic signal; and repeating the sensing, sending, comparing and controlling steps to cause the difference to converge toward zero. 15. The method of claim 14, wherein the fluid characteristic is at least one selected from the group consisting of pressure, flow rate, accumulation time, and fill volume. 16. The method of claim 14, wherein the system further comprises a hydraulic control valve disposed between the electrically-operated control valve and the device, and wherein the sensing step is conducted between the hydraulic control valve and the device. 17. The method of claim 14, further comprising varying the command characteristic signal over time, wherein the repeating step iteratively adapts to the varying command characteristic signal.