Vibration power generator

The invention claimed is: 1. A vibration power generator comprising: a first substrate and a second substrate configured to be moved relative to each other by external vibration while remaining opposite each other; a group of a plurality of electrets arranged in the relative movement direction on one surface side of the first substrate; and a group of a plurality of electrodes arranged in the relative movement direction on a surface side of the second substrate opposite to the group of electrets, the group of electrodes including first current collecting electrodes and second current collecting electrodes electrically connected to respective power supply loads to which power generated by the external vibration is supplied, and ground electrodes each provided between the first current collecting electrode and the second current collecting electrode and grounded. 2. The vibration power generator according to claim 1 , wherein, as the first substrate and the second substrate are moved relative to each other by the external vibration, power is supplied to the power supply loads connected to the first current collecting electrodes and the second current collecting electrodes, respectively. 3. The vibration power generator according to claim 1 , wherein each of the ground electrodes is provided between each of some pairs of the first current collecting electrode and the second current collecting electrode included in the first current collecting electrodes and the second current collecting electrodes arranged on the second substrate. 4. The vibration power generator according to claim 1 , wherein the ground electrodes have a width, along the relative movement direction, which serves to maximize an amount of power supplied to the power supply loads connected to the first current collecting electrodes and the second current collecting electrodes, respectively. 5. The vibration power generator according to claim 1 , wherein the first current collecting electrode and the second current collecting electrode are connected to the power supply loads via an identical rectifier. 6. The vibration power generator according to claim 5 , wherein the rectifier is a full wave rectifier. 7. The vibration power generator according to claim 1 , wherein the first current collecting electrode and the second current collecting electrode are connected to the power supply loads via individually formed rectifiers. 8. The vibration power generator according to claim 7 , wherein the rectifier is a both wave rectifier. 9. The vibration power generator according to claim 1 , wherein the power supply load electrically connected to the first current collecting electrode and the power supply load electrically connected to the second current collecting electrode are grounded independently of each other. 10. The vibration power generator according to claim 1 , wherein the ground electrode is grounded via a predetermined impedance circuit with a lower impedance than the power supply load. 11. The vibration power generator according to claim 1 , wherein the power supply load is a power storage circuit that stores supplied generated power, a load circuit that performs a predetermined operation using the supplied generated power as a power supply, a voltage conversion circuit that converts a voltage of the supplied generated power, or a combination of any of the power storage circuit, the load circuit, and the voltage conversion circuit.