Power supply system and electric vehicle

What is claimed is: 1. A power supply system comprising: a first power circuit coupled to a first electric storage device and an electrical load; a second power circuit coupled to a second electric storage device having higher output density and lower energy density than output density and energy density of the first electric storage device; a first remaining-amount parameter acquisition device that acquires a first remaining-amount parameter that increases or decreases in accordance with a remaining amount of the first electric storage device; a first maximum output acquisition device that acquires a first maximum output that is a maximum output of the first electric storage device; a voltage converter that converts a voltage between the first power circuit and the second power circuit; and a control device that operates the voltage converter to control a flow of power between the first power circuit and the second power circuit, the control device prohibits, when the first remaining-amount parameter is less than a remaining amount threshold and the first maximum output is more than an output threshold as a fixed value, discharging of the second electric storage device until the first maximum output is equal to or less n the output threshold. 2. A power supply system comprising, a first power circuit coupled to a first electric storage device and an electrical load: a second power circuit coupled to a second electric storage device having higher output density and lower energy density than output density and energy density of the first electric storage device: a first remaining-amount parameter acquisition device that acquires a first remaining-amount parameter that increases or decreases in accordance with a remaining amount of the first electric storage device; a first maximum output acquisition device that acquires a first maximum output that is a maximum output of the first electric storage device; a voltage converter that converts a voltage between the first power circuit and the second power circuit; and a control device that operates the voltage converter to control a flow of power between the first power circuit and the second power circuit, the control device restricts, when the first remaining-amount parameter is less than a remaining amount threshold and the first maximum output is more than an output threshold, discharging of the second electric storage device, compared with a case where the first remaining-amount parameter is more than the remaining amount threshold, wherein the control device permits, when the first remaining-amount parameter is less than the remaining amount threshold and the first maximum output is less than the output threshold, discharging of the second electric storage device, compared with a case where the first remaining-amount parameter is less than the remaining amount threshold and the first maximum output is more than the output threshold. 3. The power supply system according to claim 2 , wherein the control device sets, when the first remaining-amount parameter is less than the remaining amount threshold and the first maximum output is less than the output threshold, a difference between the output threshold and the first maximum output as maximum power passing from a side adjacent to the second power circuit to a side adjacent to the first power circuit in the voltage converter. 4. A power supply system comprising: a first power circuit coupled to a first electric storage device and an electrical load; a second power circuit coupled to a second electric storage device having higher output density and lower energy density than output density and energy density of the first electric storage device; a first remaining-amount parameter acquisition device that acquires a first remaining-amount parameter that increases or decreases in accordance with a remaining amount of the first electric storage device; a second remaining-amount parameter acquisition device that acquires a second remaining-amount parameter that increases or decreases in accordance with a remaining amount of the second electric storage device; a first maximum output acquisition device that acquires a first maximum output that is a maximum output of the first electric storage device; a voltage converter that converts a voltage between the first power circuit and the second power circuit; and a control device that operates the voltage converter to control a flow of power between the first power circuit and the second power circuit, the control device restricts, when the first remaining-amount parameter is less than a remaining amount threshold and the first maximum output is more than an output threshold, discharging of the second electric storage device, compared with a case where the first remaining-amount parameter is more than the remaining amount threshold, wherein the control device uses, when the first remaining-amount parameter is less than the remaining amount threshold, the first maximum output is more than the output threshold, and the second remaining-amount parameter is less than a target remaining amount, power in the first power circuit to charge the second electric storage device. 5. The power supply system according to claim 1 , further comprising a second remaining-amount parameter acquisition device that acquires a second remaining-amount parameter that increases or decreases in accordance with a remaining amount of the second electric storage device, wherein the control device uses, when the first remaining-amount parameter is less than the remaining amount threshold, the first maximum output is more than the output threshold, and the second remaining-amount parameter is less than a target remaining amount, power in the first power circuit to charge the second electric storage device. 6. The power supply system according to claim 2 , further comprising a second remaining-amount parameter acquisition device that acquires a second remaining-amount parameter that increases or decreases in accordance with a remaining amount of the second electric storage device, wherein the control device uses, when the first remaining-amount parameter is less than the remaining amount threshold, the first maximum output is more than the output threshold, and the second remaining-amount parameter is less than a target remaining amount, power in the first power circuit to charge the second electric storage device. 7. An electric vehicle comprising the power supply system according to claim 1 mounted thereon, the electrical load including a drive motor mechanically coupled to drive wheels and a power converter that converts power between the first power circuit and the drive motor. 8. An electric vehicle comprising the power supply system according to claim mounted thereon, the electrical load including a drive motor mechanically coupled to drive wheels and a power converter that converts power between the first power circuit and the drive motor. 9. An electric vehicle comprising the power supply system according to claim mounted thereon, the electrical load including a drive motor mechanically coupled to drive wheels and a power converter that converts power between the first power circuit and the drive motor. 10. An electric vehicle comprising the power supply system according to claim 4 mounted thereon, the electrical load including a drive motor mechanically coupled to drive wheels and a power converter that converts power between the first power circuit and the drive motor. 11. The electric vehicle according to claim 7 , further comprising an information display device that a driver is able to see, wherein the control device causes, when the first remainin