Coupling store device for a motor vehicle

What is claimed is: 1. A motor vehicle equipped with a generator and electric consuming devices, the motor vehicle comprising: an energy storage system comprising a first electric energy storage device and a second electric energy storage device, the second electric energy storage device being connected in parallel with the first electric energy storage device, wherein the first and second electric energy storage devices have at least partially overlapping open-circuit voltage characteristic curves in a voltage storage range, the first electric energy storage device has a first state-of-charge dependent characteristic charging internal-resistance curve and a first state-of-charge dependent characteristic discharging internal-resistance curve, the second electrical energy storage device has a second state-of-charge dependent characteristic charging internal-resistance curve and a second state-of-charge dependent characteristic discharging internal-resistance curve, the first characteristic charging internal-resistance curve extends over an entire relative state-of-charge range above the second characteristic charging internal-resistance curve in a direction of higher resistances, the first characteristic discharging internal-resistance curve extends over the entire relative state-of-charge range below the second characteristic discharging internal-resistance curve in the direction of higher resistances, and the first and second electrical energy storage devices are interconnected in a neutral voltage range. 2. The motor vehicle according to claim 1 , wherein in an approximately fully charged state, the first electric energy storage device has an open-circuit voltage essentially corresponding to a state-of-charge of the second electrical energy storage device in a lower to medium range of relative states-of-charge. 3. The motor vehicle according to claim 2 , further comprising: a battery sensor assigned to the second electrical energy storage device; a control unit, wherein the state-of-charge of the second electrical energy storage device is determined via the battery sensor and/or the control unit based on a time-related integration of a charging current and a discharging current of the second electrical energy storage device. 4. A method of operating an energy storage system of a motor vehicle equipped with a generator, electric consuming devices, and first and second electric energy storage devices of the energy storage system, wherein the second electric energy storage device is connected in parallel with the first electric energy storage device, the first and second electric energy storage devices have at least partially overlapping open-circuit voltage characteristic curves, in a voltage storage range, the first electric energy storage device has a first state-of-charge dependent characteristic charging internal-resistance curve and a first state-of-charge dependent characteristic discharging internal-resistance curve, the second electrical energy storage device has a second state-of-charge dependent characteristic charging internal-resistance curve and a second state-of-charge dependent characteristic discharging internal-resistance curve, the first characteristic charging internal-resistance curve extends over an entire relative state-of-charge range above the second characteristic charging internal-resistance curve in a direction of higher resistances, the first characteristic discharging internal-resistance curve extends over the entire relative state-of-charge range below the second characteristic discharging internal-resistance curve in the direction of higher resistances, and the first and second electrical energy storage devices are interconnected in a neutral voltage-range, the method comprising the acts of: setting a regenerative charging current of the energy storage system via a control unit; setting a consumer-related discharging current of the energy storage system; using the charging current and the discharging current in a time-dependent course to maintain the second electric energy storage device in a desired state-of-charge range, and wherein the desired state-of-charge range is an essentially medium state-of-charge of the second electric energy storage device. 5. The method according to claim 4 , wherein the motor vehicle is equipped with an automatic engine stop-start system, the method further comprising the acts of: in an engine stop phase, via the control unit, setting the discharging current, which, in a time-dependent course, leads to a state-of-charge of the second electric energy storage device which is situated in the direction of higher states of charge below the desired state-of-charge range, and in driving phases, which represent non-engine stop phases, setting the regenerative charging current and the consuming-device-related discharging current by the control unit such that the charging current and the discharging current lead the state-of-charge of the second electric energy storage device in a time-dependent course into the desired state-of-charge range or maintain the state-of-charge of the second electric energy storage device in a time-dependent course in the desired state-of-charge range. 6. The method according to claim 4 , wherein the motor vehicle is equipped with a braking energy recovery function, the method further comprising the acts of: in a recovery phase, via the control unit, setting the regenerative charging current, which, in a time-dependent course, leads to a state-of-charge of the second electric energy storage device which is situated in the direction of higher states of charge above the desired state-of-charge range, and in driving phases, which represent non-recovery phases, setting the regenerative charging current and the consuming-device-related discharging current set by the control unit such that the charging current and the discharging current lead the state-of-charge of the second electric energy storage device in a time-dependent course into the desired state-of-charge range or maintain the state-of-charge of the second electric energy storage device in a time-dependent course in the desired state-of-charge range. 7. The method according to claim 6 , wherein the motor vehicle is equipped with an automatic engine stop-start system, the method further comprising the acts of: in an engine stop phase, via the control unit, setting the discharging current, which, in a time-dependent course, leads to a state-of-charge of the second electric energy storage device which is situated in the direction of higher states of charge below the desired state-of-charge range, and in driving phases, which represent non-engine stop phases, setting the regenerative charging current and the consuming-device-related discharging current by the control unit such that the charging current and the discharging current lead the state-of-charge of the second electric energy storage device in a time-dependent course into the desired state-of-charge range or maintain the state-of-charge of the second electric energy storage device in a time-dependent course in the desired state-of-charge range.