Bicycle control system

What is claimed is: 1. A bicycle control system comprising: a power supply; a first bicycle electric component electrically connected to the power supply to receive electrical power from the power supply; a second bicycle electric component electrically connected to the power supply to receive electrical power from the power supply; and a controller programmed to monitor an electrical communication of the first bicycle electric component, to place the first bicycle electric component in a suspend mode for a predetermined suspend period to reduce electrical power consumption upon the controller determining no electrical communication to or from the first bicycle electric component, to stop electrical power from the power supply to the first bicycle electric component upon determining no electrical communication to or from the first bicycle electric component for a first predetermined inactivity period when an operation mode of the first bicycle electric component is in the suspend mode, to monitor an electrical communication of the second bicycle electric component, to stop electrical power from the power supply to the second bicycle electric component upon determining no electrical communication to or from the second bicycle electric component for a second predetermined inactivity period, to individually and independently set the first predetermined inactivity period and the second predetermined inactivity period, and to enable a user to individually and independently set the first and second predetermined inactivity periods to desired time periods. 2. The bicycle control system according to claim 1 , wherein the controller is programmed such that the first predetermined inactivity period of the first bicycle electric component is a different length of time from the second predetermined inactivity period of the second bicycle electric component. 3. The bicycle control system according to claim 1 , wherein the controller is programmed such that the first predetermined inactivity period of the first bicycle electric component is equal to a length of time from the second predetermined inactivity period of the second bicycle electric component. 4. The bicycle control system according to claim 1 , wherein the first bicycle electric component is one of a bicycle electric shifting device, a bicycle electric suspension, an electric adjustable seat post and an electric power-assisted motor. 5. The bicycle control system according to claim 1 , further comprising a bicycle operating device configured to output a control signal to the first bicycle electric component. 6. The bicycle control system according to claim 1 , further comprising a bicycle operating device having a wireless transmitter; and a wireless receiver electrically connected to the first bicycle electric component, the wireless receiver being programmed to receive a control signal from the wireless transmitter and output an operation signal to the first bicycle electric component in accordance with the control signal. 7. The bicycle control system according to claim 1 , wherein the power supply includes a fuel cell. 8. The bicycle control system according to claim 1 , wherein the predetermined suspend period is shorter than the first predetermined inactivity period. 9. A bicycle control system comprising: a power supply; a first bicycle electric component electrically connected to the power supply to receive electrical power from the power supply; a second bicycle electric component electrically connected to the power supply to receive electrical power from the power supply; and a controller programmed to monitor an electrical communication of the first bicycle electric component, to place the first bicycle electric component in a first suspend mode that reduces electrical power consumption from the power supply upon determining no electrical communication to or from the first bicycle electric component for a first predetermined inactivity period, to place the first bicycle electric component in a second suspend mode that further reduces electrical power consumption from the power supply to a lower consumption rate than in the first suspend mode upon determining no electrical communication to or from the first bicycle electric component for a second predetermined inactivity period when an operation mode of the first bicycle electric component is the first suspend mode, to monitor an electrical communication of the second bicycle electric component, to place the second bicycle electric component in the first suspend mode upon determining no electrical communication to or from the second bicycle electric component for a third predetermined inactivity period, and to place the second bicycle electric component in a second suspend mode upon determining no electrical communication to or from the second bicycle electric component for a fourth predetermined inactivity period that is longer than the third predetermined inactivity period, to individually and independently set the first, second, third and fourth predetermined inactivity periods, and to enable a user to individually and independently set the first, second, third and fourth predetermined inactivity periods to desired time periods. 10. The bicycle control system according to claim 9 , wherein the controller is programmed such that the first predetermined inactivity period of the first bicycle electric component is a different length of time from the third predetermined inactivity period of the second bicycle electric component. 11. The bicycle control system according to claim 9 , wherein the controller is programmed such that the first predetermined inactivity period of the first bicycle electric component is equal to a length of time from the third predetermined inactivity period of the second bicycle electric component. 12. The bicycle control system according to claim 9 , wherein the first bicycle electric component is one of a bicycle electric shifting device, a bicycle electric suspension, an electric adjustable seat post and an electric power-assisted motor. 13. The bicycle control system according to claim 9 , further comprising a bicycle operating device electrically connected to the first bicycle electric component, the bicycle operating device being configured to output a control signal to the first bicycle electric component. 14. The bicycle control system according to claim 9 , further comprising a bicycle operating device having a wireless transmitter, and a wireless receiver electrically connected to the first bicycle electric component, the wireless receiver being programmed to receive a control signal from the wireless transmitter and output an operation signal to the first bicycle electric component in accordance with the control signal. 15. The bicycle control system according to claim 9 , wherein the power supply includes a fuel cell. 16. The bicycle control system according to claim 9 , wherein the second predetermined inactivity period is longer than the first predetermined inactivity period. 17. The bicycle control system according to claim 16 , wherein the controller is programmed to stop electrical power from the power supply to the first bicycle electric component upon determining no electrical communication to or from the first bicycle electric component for a next predetermined inactivity period that is longer than the second predetermined inactivity period. 18. A bicycle control system comprising: a power supply; a first bicycle electric component el