Intake controller and method of intake controlling for internal combustion engine

The invention claimed is: 1. A turbocharged internal combustion engine, comprising: an exhaust gas recirculation passage extracting a part of exhaust gas discharged from the internal combustion engine to recirculate the part of the exhaust gas to an intake passage side of the internal combustion engine; an exhaust gas recirculation valve arranged at the exhaust gas recirculation passage to control a flow rate of the part of the exhaust gas to be circulated through the exhaust gas recirculation passage; a fuel injection amount sensor detecting an amount of the fuel injected into the internal combustion engine; a turbocharger comprising: a turbine which is rotated by the exhaust gas exhausted from the internal combustion engine; a compressor which is driven with rotation of the turbine to compress external air to the internal combustion engine; and a variable turbo nozzle controlling a flow speed of the exhaust gas being supplied to the turbine; wherein a variable turbo nozzle includes a circular nozzle ring; wherein the circular nozzle ring includes a slide mechanism to adjust a nozzle opening and an opening forming a bypass passage to bypass an amount of the exhaust gas flowing in a turbine vane rotor via the circular nozzle ring when the circular nozzle ring is fully closed; and a controller including: an engine controller receiving an amount of the injected fuel detected by the fuel infection amount sensor; an actuator controller having executable instructions stored in a non-transitory memory to: fully close the exhaust gas recirculation valve and the variable turbo nozzle when a manual forced regeneration process of a diesel particulate filter is detected for reducing an amount of diesel particulate matter of the exhaust gas discharged from the internal combustion engine; control the exhaust gas recirculation valve from the fully closed state to a fully opened state and the variable turbo nozzle from the fully closed state to a fully opened state; and simultaneously close the bypass passage in response to the amount of the injected fuel detected by the fuel injection amount sensor being equal to zero during a light load operation. 2. The turbocharged internal combustion engine according to claim 1 , wherein the actuator controller further includes executable instructions to decrease sizes of openings of the exhaust gas recirculation valve and the variable turbo nozzle in accordance with increasing in the amount of the injected fuel into the internal combustion engine detected by the fuel injection amount sensor. 3. A method of controlling intake air being supplied to a turbocharged internal combustion engine including: an exhaust gas recirculation passage extracting a part of exhaust gas discharged from the internal combustion engine to recirculate the part of the exhaust gas to an intake passage side of the internal combustion engine; an exhaust gas recirculation valve arranged at the exhaust gas recirculation passage to control a flow rate of the part of the exhaust gas to be circulated through the exhaust gas recirculation passage; a turbocharger comprising: a turbine which is rotated by the exhaust gas exhausted from the internal combustion engine; a compressor which is driven with rotation of the turbine to compress external air to the internal combustion engine; and a variable turbo nozzle controlling a flow speed of the exhaust gas being supplied to the turbine; and having a circular nozzle ring with a slide mechanism to adjust a nozzle opening, the circular nozzle ring having an opening forming a bypass passage to bypass an amount of the exhaust gas flowing in a turbine vane rotor via the circular nozzle ring when the circular nozzle ring is fully closed, and a controller including an engine controller and an actuator controller, the method comprising: during a light load operation, detecting a manual forced regeneration process of a diesel particulate filter reducing an amount of diesel particulate material of the exhaust gas discharged from the internal combustion engine; fully closing the exhaust gas recirculation valve and the variable turbo nozzle and simultaneously opening the bypass passage in response to the detection of the manual forced regeneration process; detecting an amount of the fuel injected into the internal combustion engine via a fuel infection amount sensor; and controlling the exhaust gas recirculation valve from the fully-closed state to a fully opened state and the variable turbo nozzle from the fully closed state to a fully opened state in response to the amount of fuel injected. 4. The method of controlling according to claim 3 , further comprising decreasing sizes of openings of the exhaust gas recirculation valve and the variable turbo nozzle in accordance with increasing in the amount of the injected fuel into the internal combustion engine.