Braking apparatus of vehicle and control method thereof

What is claimed is: 1. A braking apparatus of a vehicle, comprising: a brake pedal position detector configured to detect a position of a brake pedal; a piston displacement detector configured to detect a displacement of a piston installed in a main master cylinder; a first wheel circuit pressure detector configured to detect pressure supplied to a first wheel circuit; a second wheel circuit pressure detector configured to detect pressure supplied to a second wheel circuit; a motor driver configured to drive a motor to move the piston; and a controller configured to: receive the position of the brake pedal from the brake pedal position detector; receive the displacement of the piston, the first wheel circuit pressure and the second wheel circuit pressure from the piston displacement detector, the first wheel circuit pressure detector and the second wheel circuit pressure detector, respectively, when a brake is operated; determine a fail of a circuit isolation valve that distributes pressure between the first wheel circuit and the second wheel circuit; and perform fail safe driving by operating the motor driver and a normal operating valve to supply pressure to only one of the first wheel circuit and the second wheel circuit, wherein, when the first wheel circuit pressure is dissipated and the second wheel circuit pressure is less than a threshold pressure, the controller determines that the circuit isolation valve has failed. 2. The braking apparatus of claim 1 , wherein the controller counts the number of times that the ratio of an increase in pressure of the first wheel circuit to a change in displacement of the piston is increased to a value equal to or greater than a threshold value with the piston moved forward, and determines whether the first wheel circuit pressure is dissipated. 3. The braking apparatus of claim 1 , wherein the controller generates a fail determination flag after determining the fail of the circuit isolation valve. 4. The braking apparatus of claim 1 , wherein the circuit isolation valve allows pressure to be applied only to the first wheel circuit in a normal closed state, and allows pressure to be applied to the second wheel circuit when not in a closed state. 5. A control method of a braking apparatus of a vehicle, comprising: receiving, by a controller, a position of a brake pedal, and determining an operation state of a brake; determining, by the controller, a fail of a circuit isolation valve for distributing pressure between a first wheel circuit and a second wheel circuit, when the brake is operated; and performing, by the controller, fail safe driving by operating a motor driver and a normal operating valve such that pressure is supplied to only one of the first wheel circuit and the second wheel circuit, depending on the fail state of the circuit isolation valve, wherein the determining of the fail of the circuit isolation valve comprises: receiving, by the controller, a displacement of a piston, first wheel circuit pressure and second wheel circuit pressure from a piston displacement detector, a first wheel circuit pressure detector and a second wheel circuit pressure detector, respectively; and determining that the circuit isolation valve has failed when the first wheel circuit pressure is dissipated and the second wheel circuit pressure is less than a threshold pressure. 6. The control method of claim 5 , wherein the controller counts the number of times that the ratio of an increase in pressure of the first wheel circuit to a change in displacement of the piston is increased to a value equal to or greater than a threshold value with the piston moved forward, and determines whether the first wheel circuit pressure is dissipated. 7. The control method of claim 5 , whether the determining of the fail of the circuit isolation valve further comprises generating, by the controller, a fail determination flag after determining the fail of the circuit isolation valve. 8. The control method of claim 5 , wherein the circuit isolation valve allows pressure to be applied to the first wheel circuit in a normal closed state, and allows pressure to be applied to the second wheel circuit when not in a closed state.