Fuel injection control apparatus for internal combustion engine and method for operating fuel injection control apparatus for internal combustion engine

The invention claimed is: 1. A fuel injection control apparatus for an internal combustion engine comprising: a low pressure fuel pump configured to pump fuel from a fuel tank; a low pressure fuel passage through which the fuel discharged from the low pressure fuel pump flows; a high pressure fuel pump configured to pressurize the fuel supplied from the low pressure fuel passage; a high pressure fuel passage through which the fuel pressurized by the high pressure fuel pump flows; a fuel injection valve configured to inject the fuel of the high pressure fuel passage; a high pressure controller configured to control driving of the high pressure fuel pump so that fuel pressure of the high pressure fuel passage approaches a high pressure target value, which is a target value of the fuel pressure; and a low pressure controller configured to control driving of the low pressure fuel pump, wherein the low pressure controller is configured to calculate a feedforward correction amount so that when the high pressure target value increases, the feedforward correction amount increases as a request injection amount of the fuel injection valve increases and also increases as an increase rate of the high pressure target value increases, the low pressure controller is configured to calculate a feedback correction amount based on a low-side pressure deviation when the high pressure target value increases, wherein the low-side pressure deviation is a difference obtained by subtracting fuel pressure of the low pressure fuel passage from a low pressure target value, which is a target value of fuel pressure of the low pressure fuel passage, and the low pressure controller is further configured to control driving of the low pressure fuel pump based on a sum of the feedforward correction amount and the feedback correction amount. 2. The fuel injection control apparatus for an internal combustion engine according to claim 1 , wherein the low pressure controller calculates the feedforward correction amount so that when the high pressure target value increases, the feedforward correction amount decreases as the low-side pressure deviation increases. 3. The fuel injection control apparatus for an internal combustion engine according to claim 1 , wherein the high pressure fuel pump is configured to be driven by rotation of a camshaft of the internal combustion engine, and the fuel injection control apparatus further comprises a high pressure target value calculator that calculates the high pressure target value so that when the high pressure target value increases, the increase rate of the high pressure target value is lower at a high engine rotation speed than at a low engine rotation speed. 4. The fuel injection control apparatus for an internal combustion engine according to claim 1 , wherein the fuel injection valve is a high pressure fuel injection valve, the fuel injection control apparatus comprises a low pressure fuel injection valve configured to inject the fuel of the low pressure fuel passage, and the low pressure controller calculates the feedforward correction amount so that the feedforward correction amount increases as a sum of a request injection amount of the high pressure fuel injection valve and a request injection amount of the low pressure fuel injection valve increases. 5. A method for operating a fuel injection control apparatus for an internal combustion engine, wherein the fuel injection control apparatus includes a low pressure fuel pump configured to pump fuel from a fuel tank, a low pressure fuel passage through which the fuel discharged from the low pressure fuel pump flows, a high pressure fuel pump configured to pressurize the fuel supplied from the low pressure fuel passage, a high pressure fuel passage through which the fuel pressurized by the high pressure fuel pump flows, and a fuel injection valve configured to inject the fuel of the high pressure fuel passage, the method comprising: controlling driving of the high pressure fuel pump so that fuel pressure of the high pressure fuel passage approaches a high pressure target value, which is a target value of the fuel pressure; controlling driving of the low pressure fuel pump; calculating a feedforward correction amount so that when the high pressure target value increases, the feedforward correction amount increases as a request injection amount of the fuel injection valve increases and also increases as an increase rate of the high pressure target value increases; calculating a feedback correction amount based on a low-side pressure deviation when the high pressure target value increases, wherein the low-side pressure deviation is a difference obtained by subtracting fuel pressure of the low pressure fuel passage from a low pressure target value, which is a target value of fuel pressure of the low pressure fuel passage; and controlling driving of the low pressure fuel pump based on a sum of the feedforward correction amount and the feedback correction amount. 6. A fuel injection control apparatus for an internal combustion engine comprising: a low pressure fuel pump configured to pump fuel from a fuel tank; a low pressure fuel passage through which the fuel discharged from the low pressure fuel pump flows; a high pressure fuel pump configured to pressurize the fuel supplied from the low pressure fuel passage; a high pressure fuel passage through which the fuel pressurized by the high pressure fuel pump flows; a fuel injection valve configured to inject the fuel of the high pressure fuel passage; and circuitry, wherein the circuitry is configured to perform: controlling driving of the high pressure fuel pump so that fuel pressure of the high pressure fuel passage approaches a high pressure target value, which is a target value of the fuel pressure; controlling driving of the low pressure fuel pump; calculating a feedforward correction amount so that when the high pressure target value increases, the feedforward correction amount increases as a request injection amount of the fuel injection valve increases and also increases as an increase rate of the high pressure target value increases; calculating a feedback correction amount based on a low-side pressure deviation when the high pressure target value increases, wherein the low-side pressure deviation is a difference obtained by subtracting fuel pressure of the low pressure fuel passage from a low pressure target value, which is a target value of fuel pressure of the low pressure fuel passage; and controlling driving of the low pressure fuel pump based on a sum of the feedforward correction amount and the feedback correction amount.