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It is described an electronic system (50) to drive an electric device (5) of a bicycle assisted electrically (1) by means of a rechargeable battery (6). In case of detecting that the calculated human power is greater than or equal to the bicycle estimated friction power and in case of detecting that

It is described an electronic system (50) to drive an electric device (5) of a bicycle assisted electrically (1) by means of a rechargeable battery (6). In case of detecting that the calculated human power is greater than or equal to the bicycle estimated friction power and in case of detecting that the state of charge of the battery (6) is greater than or equal to a first threshold, the processor is such to generate a driving current value for driving the electric device (5) operating as an electric motor (5) supplied from the battery (6). In case of detecting that the calculated human power is smaller than the estimated bicycle friction power, the processor is such to convert at least part of the human power into electric power by means of the electric device (5) operating as an electric generator (5), and generate therefrom another driving current value for charging the battery (6) from the electric device operating as electric generator.

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1. Electronic system (50) to drive an electric device of a bicycle (1) assisted electrically by means of a rechargeable battery (6), said electric device being configured for operating as an electric motor supplied from the battery or as an electric generator for charging the battery, the system com

1. Electronic system (50) to drive an electric device of a bicycle (1) assisted electrically by means of a rechargeable battery (6), said electric device being configured for operating as an electric motor supplied from the battery or as an electric generator for charging the battery, the system comprising: a measurement module (8) configured for measuring the angular velocity (Sω—ped) of the bicycle pedal arms and the torque (Sτ—ped) of the bicycle pedal arms;a sensor configured for measuring the angular velocity (Sω—mot) of the electric motor;a circuit (23) configured for detecting a state of charge of the battery;a processor (20) configured for:calculating a bicycle speed as a function of the angular velocity of the electric motor;calculating (101) a human power (Pum) as a function of the measured torque of the bicycle pedal arms and of the measured angular velocity of the bicycle pedal arms;estimating (101) a friction power (Pattr) of the bicycle representing frictions caused by the cyclist and by the bicycle when the cyclist is pedaling as a function of the angular velocity of the electric motor and as a function of the bicycle speed, the friction power (Pattr) being calculated with the following formula: Pattr=v*Fattr(v) wherein:v is the velocity of the bicycleFattr(v) is a coasting down function of the bicycle indicating the value of the friction of the bicycle as a function of the velocity v;comparing (101) the calculated human power with respect to the estimated bicycle friction power and checking the state of charge of the battery;in case of detecting that the calculated human power is greater than or equal to the estimated bicycle friction power and in case of detecting that the battery state of charge is greater than or equal to a first threshold (Ssdc—min), operating the electric device as an electric motor and generating (103) a driving current value (ΔImot) for driving the electric device operating as an electric motor supplied from the battery, the driving current value (ΔImot) being calculated as a function of the difference between the human power (Pum) and the friction power (Pattr) and as a function of the state of charge of the battery;in case of detecting that the calculated human power is smaller than the estimated bicycle friction power, operating the electric device as an electric generator, and converting at least part of the human power into electric power by means of the electric device operating as an electric generator, and generating (105) from said electric power converted from the at least part of the human power another driving current value (Ichg) for charging the battery from the electric device operating as electric generator. 2. Electronic system according to claim 1, further comprising a sensor (9) configured for measuring the inclination of the road wherein the bicycle is running, wherein, in case of detecting that the calculated human power is greater than or equal to the estimated bicycle friction power, the processor (20) is further configured for: in case the estimated inclination is greater than or equal to zero, generating (153) said driving current value for driving the electric device operating as an electric motor;in case the estimated inclination is smaller than zero, generating (154) another driving current value for charging the battery from the electric device operating as an electric generator. 3. Electronic system according to claim 1, wherein the generation of said driving current value is directly proportional (β) to the value of the state of charge of the battery over an interval comprised between the first threshold (Ssdc—min) and a second threshold (Ssdc—max) greater than the first threshold. 4. Electronic system according to claim 3, wherein the processor is further configured for generating said other driving current value for charging the battery, in case of detecting that the battery state of charge is smaller than the second threshold (Ssdc—max). 5. Electronic system according to claim 4, wherein the generation of said other driving current value is directly proportional (Ichg2) to the bicycle speed or is substantially constant (Ichg1) over the values of the bicycle speed greater than a speed threshold (vth). 6. Electrically assisted bicycle comprising: a rechargeable battery (6);an electric device configured for operating as an electric motor supplied from the battery or as an electric generator for charging the battery;an electronic system (50) according to claim 1. 7. Method (100) for driving an electric device of a bicycle (1) assisted electrically by means of a rechargeable battery (6), the method comprising the steps of: a) calculating (101) a human power (Pum) as a function of a torque (Sτ—ped) of the bicycle pedal arms and of an angular velocity (Sω—ped) of the bicycle pedal arms;b) estimating (101) a friction power (Pattr) of the bicycle representing frictions caused by the cyclist and by the bicycle when the cyclist is pedaling as a function of an angular velocity (Sω—mot) of the electric motor and as a function of a bicycle speed, the friction power (Pattr) being calculated with the following formula: Pattr=v*Fattr(v) wherein:v is the velocity of the bicycleFattr(v) is a coasting down function of the bicycle indicating the value of the friction of the bicycle as a function of the velocity v;c) comparing (101) the calculated human power with respect to the estimated bicycle friction power and checking the state of charge of the battery;d) in case of detecting that the calculated human power is greater or equal than the estimated bicycle friction power and in case of detecting that the battery state of charge is greater than or equal to a first threshold (Ssdc—min), operating the electric device as an electric motor and generating (103) a driving current value (ΔImot) for driving the electric device operating as an electric motor supplied from the battery, the driving current value (ΔImot) being calculated as a function of the difference between the human power (Pum) and the friction power (Pattr) and as a function of the state of charge of the battery;e) in case of detecting that the calculated human power is smaller than the estimated bicycle friction power, operating the electric device as an electric generator and converting at least part of the human power into electric power by means of the electric device operating as an electric generator, and generating (105) from said electric power converted from the at least part of the human power another driving current value (Ichg) for charging the battery from the electric device operating as electric generator. 8. Method (150) according to claim 7, wherein step d) further comprises, after the detection that the calculated human power is greater than or equal to the estimated bicycle friction power, the steps of: d1) measuring (102) the inclination of the road wherein the bicycle is running; d2.1) in case the estimated inclination is greater than or equal to zero, checking the state of charge of the battery and performing the step d);d2.2) in case the estimated inclination is smaller than zero, generating (154) another driving current value for charging the battery from the electric device operating as an electric generator. 9. Method according to claim 8, wherein steps e) or d2.2) comprise the generation of said other driving current value for charging the battery, in case of detecting that the battery state of charge is smaller than a second threshold (Ssdc—max) greater than the first threshold (Ssdc—min),and wherein in step d) the generation of said driving current value is directly proportional (β) to the value of the state of charge of the battery over an interval comprised between the first threshold (Ssdc—min) and the second threshold (Ssdc—max). 10. Computer program comprising software code adapted to perform all the steps of the method according to claim 7, when said program is run on a computer.