Hydraulic control system

1 . A hydraulic control system, comprising: a feeding passage that delivers fluid to a control object; a draining passage that drains the fluid from the control object; and a control valve that is disposed on at least one of the feeding passage and the draining passage, and that is adapted to deliver or drain the fluid to/from the control object in accordance with an applied current calculated based on a difference between a target pressure and an actual pressure of the control object, wherein the hydraulic control system is configured to: calculate a desired fluid volume to adjust the actual pressure to the target pressure based on said difference; and calculate a current value to achieve the desired fluid volume based on a relation between a current value applied to the control valve and an outflow rate of the control valve. 2 . The hydraulic control system as claimed in claim 1 , wherein the control valve includes a valve adapted to open the passage upon application of the current thereto, in which the outflow rate thereof is varied depending on a pressure difference between an upstream side and a downstream side; and wherein the relation between the current value applied to the control valve and the outflow rate of the control valve includes a relation therebetween that is changed depending on said pressure difference. 3 . The hydraulic control system as claimed in claim 1 , wherein the control valve includes a balance piston type poppet valve comprising: a piston having a valve element on one of end portions; a cylinder holding the piston while allowing to reciprocate therein; an inlet port formed in a first chamber of the cylinder holding the valve element; an outlet port opened and closed by the valve element; a diametrically reduced connection passage that provides a communication between the first chamber holding the valve element and a second chamber of an opposite side to the first chamber; and an electromagnetic valve that is activated by applying a current thereto to selectively connect the second chamber to a passage connected to the outlet port. 4 . The hydraulic control system as claimed in claim 1 , wherein the control object includes a hydraulic chamber of a belt-driven continuously variable transmission adapted to change a width of a groove thereof holding a drive belt. 5 . The hydraulic control system as claimed in claim 4 , wherein the hydraulic control system is further configured to correct a desired fluid volume to adjust the actual pressure to the target pressure by a fluid volume required to change the groove width to achieve a target speed ratio, or by a deficiency of a fluid volume caused by an oil leakage. 6 . The hydraulic control system as claimed in claim 4 , wherein the belt-driven continuously variable transmission includes a first pulley adapted to change the groove width to change the speed ratio, and a second pulley adapted to establish a belt clamping pressure, wherein the control object includes the hydraulic chamber of the second pulley, and wherein the hydraulic control system is further configured to correct the fluid volume in the hydraulic chamber of the second pulley by a change in a capacity of the hydraulic chamber of the first pulley to achieve the target speed ratio. 7 . The hydraulic control system as claimed in claim 4 , wherein the control valve is individually disposed on each of the feeding passage connected to the hydraulic chamber and the draining passage. 8 . The hydraulic control system as claimed in claim 4 , wherein the control valve is disposed only on the feeding passage connected to the hydraulic chamber. 9 . The hydraulic control system as claimed in claim 4 , wherein the control valve is disposed only on the draining passage connected to the hydraulic chamber.