Dual path cooled exhaust gas recirculation for turbocharged gasoline engines

What is claimed is: 1. A dual path exhaust gas recirculation (EGR) system for an engine and associated exhaust system, the engine including a throttle valve, a turbocharger and an intake system, the dual path EGR system comprising: a common EGR intake path having an inlet fluidly coupled to the exhaust system downstream of a catalyst of the exhaust system; an EGR cooler disposed in the common EGR intake path; a first low pressure EGR path fluidly coupled at its upstream end to the EGR cooler and at its downstream end to an inlet of a compressor of the turbocharger, the first low pressure EGR path including a first EGR valve; a second low pressure EGR path fluidly coupled at its upstream end to the EGR cooler and at its downstream end to the intake system thereby bypassing the turbocharger and the throttle valve of the engine, the second low pressure EGR path including a second EGR valve; a controller in communication with the engine, throttle valve and first and second EGR valves; wherein the engine includes an absence of any high pressure EGR path that is connected to an exhaust manifold of the engine or a portion of the exhaust system upstream of the catalyst; wherein the first and second EGR valves are controlled such that the first EGR valve is closed and the second EGR valve is open at low engine speed and load operating conditions thereby providing cooled low pressure EGR directly to the intake system that bypasses the turbocharger and throttle valve to minimize noise generation at said operating conditions; and wherein the controller is configured to, upon determining a fuel cut-off or pedal-let-off condition, control the throttle valve to open and the second EGR valve to open to rapidly reduce pressure at an outlet of the compressor. 2. The EGR system of claim 1 , wherein the first and second EGR valves are controlled such that the first EGR valve is opened and the second EGR valve is closed at high load engine operating conditions thereby providing cooled low pressure EGR directly to the inlet of the compressor via the first low pressure EGR path. 3. The EGR system of claim 1 , wherein the second low pressure EGR path is a discrete path providing a direct controllable connection from the EGR cooler to the intake system, and wherein the downstream end of the second low pressure EGR flow path is coupled to the intake system downstream of the throttle valve. 4. The EGR system of claim 3 , wherein the first low pressure EGR path is a discrete path providing a direct controllable connection from the EGR cooler to the inlet of the compressor. 5. The EGR system of claim 3 , wherein the engine further comprises a charge air cooler associated with the intake system, and wherein the downstream end of the second low pressure EGR flow path is coupled to the intake system downstream of the throttle valve and upstream of the charge air cooler. 6. The EGR system of claim 1 , further comprising controlling the second EGR valve to function as a blow off valve such that the engine system includes an absence of a separate blow-off valve. 7. The EGR system of claim 1 , wherein the EGR system is the only EGR system included with the engine and includes the dual path EGR system comprising only the first and second low pressure EGR paths.