Hybrid storage system

1 - 30 . (canceled) 31 . A hybrid battery-charging device, comprising: input terminals for connecting a photovoltaic panel, first battery connections for connecting a lead-acid battery; second battery connections for connecting a high-cycle chemical battery; a two-way DC/DC converter, wherein a first set of terminals of the two-way DC/DC converter is connected with the second battery connections, and wherein a second set of terminals of the two-way DC/DC converter is connected with the first battery connections; output terminals for connecting a load, wherein an input to the output terminals is derived from the first battery connections; and a charge and discharge control system which is connected to the two-way DC/DC converter by a control line, the charge and discharge control system including: a first sensing input for sensing a state of charge of the lead-acid-battery and for sensing an internal resistance of the lead-acid battery, a second sensing input for sensing a state of charge of the high-cycle chemical battery, a control output for controlling the two-way DC/DC converter, and a controller unit, wherein the controller unit is operative to detect when an internal resistance of the lead-acid battery exceeds a predetermined resistance threshold, the controller unit being further operative to control the two-way DC/DC converter, in response to the internal resistance of the lead-acid battery exceeding the predetermined resistance threshold, such that, in a discharge mode, the lead-acid battery and the high-cycle chemical battery are discharged in parallel during a parallel discharge phase. 32 . The hybrid battery-charging device according to claim 31 , wherein the controller unit is operative to select a discharge strategy in response to an input signal to the charge and discharge control system, and wherein the discharge strategy comprises conditions for the start and the termination of the parallel discharge phase. 33 . The hybrid battery-charging device according to claim 32 , wherein the controller unit is operative to derive a first battery condition of the lead-acid battery and to derive a second battery condition of the high-cycle chemical battery and to select the discharge strategy based on the first battery condition and on the second battery condition. 34 . The hybrid battery-charging device according to claim 31 , wherein the controller unit system is operative to start the parallel discharge phase when the charge and discharge control system enters the discharge mode and to terminate the parallel discharge phase when the charge and discharge control system detects that the lead-acid battery has reached a predetermined discharged state of charge. 35 . The hybrid battery-charging device according to claim 31 , wherein the controller unit is operative to first discharge the high-cycle chemical battery until the high-cycle chemical battery has reached a predetermined state of charge, and to start the parallel discharge phase after (when) the high-cycle chemical battery has reached the predetermined state of charge and to terminate the parallel discharge phase when the lead-acid battery has reached a predetermined discharged state of charge. 36 . The hybrid battery-charging device according to claim 31 , wherein the controller unit is operative to first discharge the high-cycle chemical battery until the high-cycle chemical battery has reached a first predetermined state of charge, and to discharge the lead-acid battery to a second predetermined state of charge after the high-cycle chemical battery has reached the second predetermined state of charge, and to start the parallel discharge phase after the lead-acid battery has reached the second predetermined state of charge and to terminate the parallel discharge phase when the lead-acid battery has reached a predetermined discharged state of charge. 37 . The hybrid battery-charging device according to claim 31 , wherein the controller unit is operative to first discharge the lead-acid battery to a predetermined state of charge, to start the parallel discharge phase after the lead-acid battery has reached the predetermined state of charge and to terminate the parallel discharge phase when the lead-acid battery has reached a predetermined discharged state of charge. 38 . The hybrid battery-charging device according to claim 34 , wherein the controller unit is operative to control the control output such that the high-cycle chemical battery reaches a predetermined discharged state of charge essentially at the same time when the lead-acid battery reaches the predetermined discharged state of charge. 39 . The hybrid battery-charging device according to claim 31 , the hybrid battery-charging device comprising a flooded lead-acid battery that is connected to the first battery connections, wherein the hybrid battery-charging device comprises a concentration sensor for measuring an electrolyte concentration of the flooded lead-acid battery, the concentration sensor being connected to the first sensing input of the charge and discharge control system. 40 . The hybrid battery-charging device according to claim 39 , wherein the concentration sensor comprises one or more optical fibers. 41 . The hybrid battery-charging device according to claim 31 , the hybrid battery-charging device comprising a dry lead-acid battery that is connected to the first battery connections. 42 . The hybrid battery-charging device according to claim 41 , wherein the dry lead-acid battery comprises an absorptive glass mat lead-acid battery. 43 . The hybrid battery-charging device according to claim 41 , wherein the dry lead-acid battery comprises a gel lead-acid battery. 44 . The hybrid battery-charging device according to claim 31 , comprising a voltage sensor for measuring an open circuit voltage of the lead-acid battery, the voltage sensor being connected to the first sensing input of the charge and discharge control system, the charge and discharge control system being operative to interrupt a charging or discharging cycle for measuring the open circuit voltage. 45 . The hybrid battery-charging device according to claim 31 , further comprising an external coil for measuring a state of charge, the external coil being placed in proximity to the lead-acid battery and the external coil being connected to the first sensing input of the charge and discharge control system. 46 . The hybrid battery-charging device according to claim 31 , further comprising a resonance circuit for applying an alternating voltage signal to terminals of the lead-acid battery and a voltage sensor for measuring a response signal of the lead-acid battery, the resonance circuit being connected to a control output of the charge and discharge control system and the voltage sensor being connected to the first sensing input of the charge and discharge control system. 47 . The hybrid battery-charging device according to claim 31 , wherein the lead-acid battery includes one or more electrodes for measuring an electrochemical noise of the lead-acid battery, the one or more electrodes being connected to the first sensing input of the charge and discharge control system. 48 . A method for charging a hybrid battery storage device with a lead-acid battery and a high-cycle chemical battery, wherein a two-way DC/DC converter is connected between terminals of the high-cycle chemical battery and terminals of the lead-acid battery, the method comprising: sensing a state of charge of the lead-acid-battery; sensing an internal resistance