Modular electro-hydraulic downhole control system

What is claimed is: 1. A control system that regulates a flow of hydraulic fluid to an actuation device operable to actuate a downhole tool, the control system comprising: a pilot module having a first electrically operated valve fluidly coupled to a first hydraulic input, a pressure source, and a fluid return and a second electrically operated valve fluidly coupled to a second hydraulic input, the pressure source, and the fluid return; and a power module fluidly coupled to the actuation device at an output line, the power module comprising: a power line in fluid communication with the output line, wherein the power line extends from the first hydraulic input to the output line and the first electrically operated valve is activated to convey hydraulic fluid from the pressure source through the first electrically operated valve and directly to the actuation device via the first hydraulic input, the power line, and the output line; a first power module check valve arranged in the power line; and at least one pilot operated check valve actuatable in response to a pilot signal to drain hydraulic fluid from the power module into the fluid return via a control pressure return line, wherein the control pressure return line is in fluid communication with the power line and the output line, where the at least one pilot operated check valve is arranged in the control pressure return line and fluidly communicates with the second hydraulic input via a pilot line extending between the second hydraulic input and control pressure return line, and wherein the second electrically operated valve is activated to transmit the pilot signal to the at least one pilot-operated check valve. 2. The control system of claim 1 , wherein the pilot module further has a pilot module check valve arranged in a pressure return line to isolate the pilot module from fluid pressure in the fluid return. 3. The control system of claim 1 , wherein the power module further includes a second power module check valve arranged in the control pressure return line fluidly coupled to the fluid return. 4. The control system of claim 1 , wherein the first and second electrically operated valves are each positionable such that internal high-pressure leakage from the pressure source drains directly to the fluid return. 5. The control system of claim 1 , wherein the output line is a first output line and the power line is a first power line, the power module further including: a second output line that extends from the actuation device; a second power line that extends from the second hydraulic input and connects to the second output line to fluidly couple the power module to actuation device, the second electrically operated valve being activated to convey hydraulic fluid through the second electrically operated valve and directly to the actuation device via the second power line and the second output line; and a third power module check valve arranged in the second power line to prevent hydraulic fluid from flowing back into the second hydraulic input. 6. The control system of claim 5 , wherein the pilot line is a first pilot line extending from the first power line, the pilot signal is a first pilot signal, and the at least one directional control valve is a first pilot-operated check valve, the power module further including: a bypass line extending between the second power line and the control pressure return line, wherein the first pilot-operated check valve is arranged in the bypass line at an end of the first pilot line and the first electrically operated valve is activated to transmit the first pilot signal to the first pilot-operated check valve; a second pilot line extending from the second power line to the control pressure return line; and a second pilot-operated check valve arranged in the control pressure return line at an end of the second pilot line, wherein the second electrically operated valve is activated to transmit a second pilot signal to the second pilot-operated check valve. 7. The control system of claim 1 , wherein the pilot signal is a first pilot signal, the power line extends from the pressure source to the output line, and the at least one directional control valve is a first pilot-operated check valve arranged in the control pressure return line, the power module further including: a first pilot line extending from the second hydraulic input to the control pressure return line, wherein the second electrically operated valve is activated to transmit the first pilot signal to the first pilot-operated check valve; a second pilot line extending front the first hydraulic input to the power line; and a second pilot-operated check valve arranged in the power line at an end of the second pilot line, wherein the first electrically operated valve is activated to transmit a second pilot signal to the second pilot-operated check valve, which allows hydraulic fluid to flow to the actuation device via the power line and the output line. 8. The control system of claim 7 , wherein the output line is a first output line and the power line is a first power line, the power module further including: a second output line that extends from the actuation device; a second power line that extends from the second hydraulic input and connects to the second output line to fluidly couple the power module to actuation device; a bypass line extending between the second power line and the control pressure return line; a third pilot-operated check valve arranged in the bypass line and in fluid communication with the first hydraulic input via a branch of the second pilot line; and a fourth pilot-operated check valve arranged in the second power line and in fluid communication with the second hydraulic input via a branch of the first pilot line, wherein transmission of the second pilot signal from the second pilot-operated check valve opens the second and third pilot-operated check valves, and transmission of the first pilot signal from the first pilot-operated check valve opens the first and fourth pilot-operated check valves. 9. The control system of claim 1 , wherein the pressure source comprises a system comprising: a pump coupled to the downhole tool and fluidly coupled to a fluid supply via a fluid intake line and fluidly coupled to hydraulic line via a fluid discharge line; and a fluid reservoir fluidly coupled to the pump via the fluid intake line, the fluid reservoir providing a tank to hold and supply fluid to the pump and a piston movably arranged within the tank, wherein the tank is charged with a fluid on a first side of the piston and hydraulic fluid fills the tank on a second side of the piston, and wherein the pump draws hydraulic fluid from the fluid intake line and conveys pressurized hydraulic fluid to the hydraulic line to be used by the control system, and the fluid reservoir provides make up hydraulic fluid or absorbs excess hydraulic fluid. 10. A well system, comprising: a conveyance extendable into a wellbore from a well surface location; a downhole tool coupled to the conveyance and conveyable into the wellbore, the downhole tool including a hydraulically operated actuation device; and a control system that regulates a flow of hydraulic fluid to the actuation device, the control system including: a pilot module having a first electrically operated valve fluidly coupled to a first hydraulic input, a pressure source, and a fluid return and a second electrically operated valve fluidly coupled to a second hydraulic input, the pressure source, and the fluid return; and a power module fluidly coupled to the actuation device at an output line and including a power line in fluid communication with the output line, a first power