Control system and control method of hybrid electric vehicle

That which is claimed: 1. A control system for a hybrid electric vehicle, comprising: a transmission system configured to drive wheels of the hybrid electric vehicle; an engine power subsystem connected to the transmission system; a motor power subsystem connected to the transmission system; and a control module, wherein when electrical power of the vehicle is on, the control module is configured to control the hybrid electric vehicle to operate in corresponding operating modes by controlling the engine power subsystem and the motor power subsystem, wherein the operating mode comprises HEV-eco mode and HEV-s mode, wherein: (1) when the hybrid electric vehicle operates in HEV-eco and the hybrid electric vehicle operates at low power, or when the hybrid electric vehicle operates in HEV-s mode; and (2) the vehicle speed is zero, the control module is further configured to control the hybrid electric vehicle to operate by idle start-stop strategy; wherein when the hybrid electric vehicle operates in the HEV-eco mode, under the conditions that a road slope is below a lower limit of slope, electric quantity of a power battery is below a lower limit of the electric quantity, or under the conditions that the road slope is below the lower limit of the slope and a maximum allowable discharge power of the power battery is below a lower limit of the power, the control module is configured to control the hybrid electric vehicle to operate in a low power mode. 2. The control system according to claim 1 , wherein when the hybrid electric vehicle operates by idle start-stop strategy and an engine is running, the control module is further configured to shut off the engine when all of following conditions is satisfied: (1) no fault is detected in a high-pressure system; (2) no fault is detected in a communication system; (3) a transmission shift lever is in park P; (4) the maximum allowable discharge power of the power battery in the motor power subsystem exceeds the upper limit of power; or (5) water temperature at an engine thermostat is greater than an upper limit of a preset temperature. 3. The control system according to claim 1 , wherein when the hybrid electric vehicle operates by idle start-stop strategy and an engine turns off, the control module is further configured to turn on the engine when any of following conditions is satisfied: (1) a fault has been detected in a high-pressure system; (2) a fault has been detected in a communication system; (3) a transmission shift lever is not in park P; (4) the maximum allowable discharge power of the power battery is below a lower limit of power; or (5) water temperature at an engine thermostat is less than a lower limit of a preset temperature. 4. A method of controlling a hybrid electric vehicle, the method comprising: detecting that the hybrid electric vehicle's electric power is on; enabling, by a control module, the hybrid electric vehicle to enter into an operating mode through an engine power subsystem and a motor power subsystem in an instance; detecting that the hybrid electric vehicle operates in a HEV-eco mode; detecting that: (1) a road slope is lower than or equal to a lower limit of slope, and an electric quantity of a power battery is lower than or equal to a lower limit of the electric quantity of the power battery of the motor power subsystem; or (2) the road slope is lower than or equal to the lower limit of slope, and a maximum allowable discharge power of the power battery is lower than or equal to a lower limit of the maximum allowable discharge power; determining that the hybrid electric vehicle operates in a low power strategy; detecting that a hybrid electric vehicle speed is zero; and enabling, by the control module, the hybrid electric vehicle to operate by idle start-stop strategy. 5. The method according to claim 4 , further comprising: controlling an engine to shut off, by the control module, when the hybrid electric vehicle operates by idle start-stop strategy, the engine is running, and when all of following conditions is satisfied: (1) no fault is detected in a high-pressure system; (2) no fault is detected in a communication system; (3) a transmission shift lever is in park P; (4) the maximum allowable discharge power of the power battery of the motor power subsystem exceeds an upper limit of power; and (5) water temperature at an engine thermostat is greater than an upper limit of a preset temperature. 6. The method according to claim 4 , further comprising: controlling an engine to turn on, by the control module, when the hybrid electric vehicle operates by idle start-stop strategy, the engine turns off, and when any of following conditions is satisfied: (1) a fault has been detected in a high-pressure system; (2) a fault has been detected in a communication system; (3) a transmission shift lever is not in park P; (4) the maximum allowable discharge power of the power battery of the motor power subsystem is below a lower limit of power; or (5) water temperature at engine thermostat is less than a lower limit of a preset temperature.