Fuel cell system, fuel cell vehicle, and method of controlling fuel cell system

What is claimed is: 1. A fuel cell system to be installed on a vehicle, the fuel cell system comprising: a fuel cell that supplies power to a motor that drives the vehicle; a secondary battery that supplies power to the motor; an SOC detector that detects a temperature and a state of charge of the secondary battery; an accelerator position detector that detects an accelerator depressed amount of the vehicle; and a controller that controls power to be generated by the fuel cell, wherein the controller comprises: a required generation power calculator that calculates required generation power to be issued as a command to the fuel cell based on the accelerator depressed amount and the temperature and the state of charge of the secondary battery; and a maximum required power calculator that calculates maximum required power capable of being generated by the fuel cell based on the accelerator depressed amount and the temperature and the state of charge of the secondary battery, the maximum required power includes allowable charging power calculated based on the temperature and the state of charge of the secondary battery, the controller determines whether a predetermined condition as a condition for rapid reduction in consumption power of the motor is satisfied, if determining that the condition is satisfied, the controller sets the allowable charging power to zero and calculates the maximum required power, if determining that the condition is not satisfied, the controller calculates the maximum required power using the allowable charging power calculated based on the temperature and the state of charge of the secondary battery, and if the calculated required generation power exceeds the calculated maximum required power, the controller makes the fuel cell generate power responsive to the calculated maximum required power. 2. The fuel cell system in accordance with claim 1 , wherein the predetermined condition is satisfied if a reduction rate of the accelerator depressed amount becomes the same as or larger than a first threshold. 3. The fuel cell system in accordance with claim 1 , wherein the predetermined condition is satisfied if a shift position of the vehicle is changed from a drive position to a neutral position and the power generated by the fuel cell becomes the same as or larger than a second threshold. 4. A vehicle comprising: the fuel cell system in accordance with claim 1 ; and a motor that drives the vehicle with power supplied from the fuel cell system. 5. A fuel cell system to be installed on a vehicle, the fuel cell system comprising: a fuel cell that supplies power to a motor that drives the vehicle; a secondary battery that supplies power to the motor; an SOC detector that detects a temperature and a state of charge of the secondary battery; an accelerator position detector that detects an accelerator depressed amount of the vehicle; and a controller that calculates required generation power to be issued as a command to the fuel cell based on the accelerator depressed amount and the temperature and the state of charge of the secondary battery, wherein the required generation power includes charging power calculated in response to the temperature and the state of charge of the secondary battery, the controller determines whether a predetermined condition as a condition for rapid reduction in consumption power of the motor is satisfied, if determining that the condition is satisfied, the controller sets the charging power calculated based on the temperature and the state of charge of the secondary battery to zero and calculates the required generation power, and if determining that the condition is not satisfied, the controller calculates the required generation power using the charging power calculated based on the temperature and the state of charge of the secondary battery. 6. The fuel cell system in accordance with claim 5 , wherein the predetermined condition is satisfied if a reduction rate of the accelerator depressed amount becomes the same as or larger than a first threshold. 7. The fuel cell system in accordance with claim 5 , wherein the predetermined condition is satisfied if a shift position of the vehicle is changed from a drive position to a neutral position and the power generated by the fuel cell becomes the same as or larger than a second threshold. 8. A vehicle comprising: the fuel cell system in accordance with claim 5 ; and a motor that drives the vehicle with power supplied from the fuel cell system. 9. A method of controlling a fuel cell system to be installed on a vehicle, the fuel cell system comprising a fuel cell that supplies power to a motor that drives the vehicle and a secondary battery that supplies power to the motor, the method comprising: detecting an accelerator depressed amount of the vehicle and a temperature and a state of charge of the secondary battery and calculating required generation power to be issued as a command to the fuel cell based on the accelerator depressed amount and the temperature and the state of charge of the secondary battery; calculating maximum required power capable of being generated by the fuel cell based on the accelerator depressed amount and the temperature and the state of charge of the secondary battery, the maximum required power including allowable charging power calculated based on the temperature and the state of charge of the secondary battery; determining whether a predetermined condition as a condition for rapid reduction in consumption power of the motor is satisfied; setting the allowable charging power to zero and calculating the maximum required power if the condition is determined to be satisfied; calculating the maximum required power using the allowable charging power calculated based on the temperature and the state of charge of the secondary battery if the condition is determined not to be satisfied; and making the fuel cell generate power responsive to the calculated maximum required power if the calculated required generation power exceeds the calculated maximum required power. 10. The method of controlling the fuel cell system in accordance with claim 9 , wherein the predetermined condition is satisfied if a reduction rate of the accelerator depressed amount becomes the same as or larger than a first threshold. 11. The method of controlling the fuel cell system in accordance with claim 9 , wherein the predetermined condition is satisfied if a shift position of the vehicle is changed from a drive position to a neutral position and the power generated by the fuel cell becomes the same as or larger than a second threshold. 12. A method of controlling a fuel cell system to be installed on a vehicle, the fuel cell system comprising a fuel cell that supplies power to a motor to drive the vehicle and a secondary battery that supplies power to the motor, the method comprising: detecting an accelerator depressed amount of the vehicle and a temperature and a state of charge of the secondary battery and calculating required generation power to be issued as a command to the fuel cell based on the accelerator depressed amount and the temperature and the state of charge of the secondary battery, the required generation power including charging power calculated in response to the temperature and the state of charge of the secondary battery; determining whether a predetermined condition as a condition for rapid reduction in consumption power of the motor is satisfied; setting the charging power calculated based on the temperature and the state of charge of the secondary battery to zero and calculating the required generation power if the conditio