Shovel

What is claimed is: 1 . A shovel comprising: a lower traveling body; an upper swing body swingably mounted on the lower traveling body; a motor mounted on the upper swing body; a hydraulic pump driven by the motor; and processing circuitry configured to control a discharge flow rate of the hydraulic pump in accordance with a flow rate control characteristic that is preset, wherein the flow rate control characteristic is a characteristic indicating a correspondence between a displacement of the hydraulic pump and a negative control pressure, and includes a first flow rate control characteristic adopted when the motor rotates at a first rotational speed and a second flow rate control characteristic adopted when the motor rotates at a second rotational speed lower than the first rotational speed, the displacement of the hydraulic pump when the motor rotates at the second rotational speed is larger than the displacement of the hydraulic pump when the motor rotates at the first rotational speed. 2 . The shovel according to claim 1 , wherein, in a standby state, a standby pressure when the motor rotates at the second rotational speed is equal to or higher than a standby pressure when the motor rotates at the first rotational speed. 3 . The shovel according to claim 2 , wherein the standby state is a state of the shovel when the motor is in operation and an operating device is not operated. 4 . The shovel according to claim 1 , wherein the negative control pressure is a pressure downstream of a directional control valve, and the negative control pressure decreases as an amount of operation of an operating device increases. 5 . The shovel according to claim 1 , wherein the hydraulic pump is configured to circulate hydraulic oil to a hydraulic oil tank via a center bypass oil passage passing through a plurality of directional control valves, and the negative control pressure is a hydraulic oil pressure upstream of a throttle disposed between a furthest downstream directional control valve disposed in the center bypass oil passage and the hydraulic oil tank. 6 . The shovel according to claim 5 , wherein the throttle is a fixed throttle. 7 . The shovel according to claim 1 , further comprising: a control pressure sensor configured to detect the negative control pressure, wherein the processing circuitry is configured to control the discharge flow rate of the hydraulic pump in accordance with an output of the control pressure sensor. 8 . The shovel according to claim 1 , wherein the processing circuitry is configured to change the displacement of the hydraulic pump such that the negative control pressure is constant even when a rotational speed of the motor changes in a standby state. 9 . The shovel according to claim 1 , wherein the processing circuitry is configured to increase the displacement of the hydraulic pump such that the negative control pressure is constant even when the rotation speed of the motor decreases in a standby state. 10 . The shovel according to claim 1 , wherein the flow rate control characteristic is set for each of rotational speeds of the motor in a stepwise manner. 11 . The shovel according to claim 1 , wherein a fluctuation range of the negative control pressure when the motor rotates at the first rotational speed is same as a fluctuation range of the negative control pressure when the motor rotates at the second rotational speed. 12 . A shovel comprising: a lower traveling body; an upper swing body swingably mounted on the lower traveling body; a motor mounted on the upper swing body; a hydraulic pump driven by the motor; and processing circuitry configured to control a discharge flow rate of the hydraulic pump in accordance with a flow rate control characteristic that is preset, wherein the flow rate control characteristic is a characteristic indicating a correspondence between a displacement of the hydraulic pump and a negative control pressure, and includes a first flow rate control characteristic adopted when the motor rotates at a first rotational speed and a second flow rate control characteristic adopted when the motor rotates at a second rotational speed lower than the first rotational speed, and wherein the processing circuitry is configured to control the discharge flow rate of the hydraulic pump in accordance with the second flow rate control characteristic when a rotational speed of the motor decreases to the second rotational speed. 13 . A shovel comprising: a lower traveling body; an upper swing body swingably mounted on the lower traveling body; a motor mounted on the upper swing body, wherein a negative control pressure in a standby state when the motor rotates at a second rotational speed lower than a first rotational speed is equal to or higher than the negative control pressure in the standby state when the motor rotates at the first rotational speed, the standby state being a state of the shovel when the motor is in operation and an operating device for operating a hydraulic actuator is not operated. 14 . The shovel according to claim 13 , further comprising: a hydraulic pump configured to be driven by the motor to circulate hydraulic oil to a hydraulic oil tank via a center bypass oil passage passing through a plurality of directional control valves when the operating device is not operated, and supply the hydraulic oil to the hydraulic actuator when the operating device is operated, wherein the negative control pressure in the standby state is a hydraulic oil pressure upstream of a throttle when the motor is in operation and the operating device is not operated, the throttle being disposed between a furthest downstream directional control valve disposed in the center bypass oil passage and the hydraulic oil tank.