Power generation system for self activation

What is claimed is: 1. A power generation system comprising: a power generator that outputs AC power; a rectifying and smoothing circuit that converts the AC power to DC power, and smooths the DC power; a voltage measurement unit that measures an average voltage of the AC power or a voltage of the smoothed DC power; a converter that transforms the smoothed DC power; a switch that is disposed between the rectifying and smoothing circuit and the converter, and becomes an ON state when the measured average voltage of the AC power or the measured voltage of the smoothed DC power becomes a reference voltage or higher than the reference voltage; a storage that stores a correspondence between an impedance of the rectifying and smoothing circuit and the average voltage of the AC power or the voltage of the smoothed DC power; a setting unit that sets a predetermined impedance; and a calculator that calculates the reference voltage from the predetermined impedance and the correspondence. 2. A power generation system comprising: a power generator that outputs AC power; a rectifying and smoothing circuit that converts the AC power to DC power, and smooths the DC power; a voltage measurement unit that measures an average voltage of the AC power or a voltage of the smoothed DC power; a converter that transforms the smoothed DC power; a switch that is disposed between the rectifying and smoothing circuit and the converter, and becomes an ON state when the measured average voltage of the AC power or the measured voltage of the smoothed DC power becomes a reference voltage or higher than the reference voltage; an accelerometer that measures acceleration of the power generation system; a first calculator that calculates an amplitude of the measured acceleration; a storage that stores a first correspondence among the amplitude of the acceleration, an impedance of the rectifying and smoothing circuit, and the average voltage of the AC power or the voltage of the smoothed DC power; a setting unit that sets a predetermined impedance; a second calculator that derives a second correspondence between the impedance of the rectifying and smoothing circuit and the average voltage of the AC power or the voltage of the smoothed DC power from the calculated amplitude of the acceleration and the first correspondence; and a third calculator that calculates the reference voltage from the predetermined impedance and the second correspondence. 3. A power generation system comprising: a power generator that outputs AC power; a rectifying and smoothing circuit that converts the AC power to DC power, and smooths the DC power; a voltage measurement unit that measures an average voltage of the AC power or a voltage of the smoothed DC power; a converter that transforms the smoothed DC power; a switch that is disposed between the rectifying and smoothing circuit and the converter, and becomes an ON state when the measured average voltage of the AC power or the measured voltage of the smoothed DC power becomes a reference voltage or higher than the reference voltage; an accelerometer that measures acceleration of the power generation system; a first calculator that calculates an amplitude of the measured acceleration; a second calculator that calculates a Q value of frequency characteristics of the measured acceleration; a first storage that stores a first correspondence among the amplitude of the acceleration, an impedance of the rectifying and smoothing circuit, and the average voltage of the AC power or the voltage of the smoothed DC power; a second storage that stores a third correspondence between the Q value of the frequency characteristics of the acceleration and an appropriate impedance of the power generator; a third calculator that derives a second correspondence between the impedance of the rectifying and smoothing circuit and the average voltage of the AC power or the voltage of the smoothed DC power from the calculated amplitude of the acceleration and the first correspondence; and a fourth calculator that calculates a reference impedance from the calculated Q value and the third correspondence; and a fifth calculator that calculates the reference voltage from the reference impedance and the second correspondence. 4. A power generation system comprising: a power generator that outputs AC power; a rectifying and smoothing circuit that converts the AC power to DC power, and smooths the DC power; a voltage measurement unit that measures an average voltage of the AC power or a voltage of the smoothed DC power; a converter that transforms the smoothed DC power; a switch that is disposed between the rectifying and smoothing circuit and the converter, and becomes an ON state when the measured average voltage of the AC power or the measured voltage of the smoothed DC power becomes a reference voltage or higher than the reference voltage; an accelerometer that measures acceleration of the power generation system; a first calculator that calculates an amplitude of the measured acceleration; a second calculator that calculates a Q value of frequency characteristics of the measured acceleration; a first storage that stores a first correspondence among the Q value of the frequency characteristics of the acceleration and an appropriate impedance of the power generator; a second storage that stores a second correspondence among the amplitude of the acceleration, the Q value of the frequency characteristics of the acceleration, an impedance of the rectifying and smoothing circuit, and the average voltage of the AC power or the voltage of the smoothed DC power; a third calculator that calculates a reference impedance from the calculated Q value and the first correspondence; a fourth calculator that derives a second correspondence between the impedance of the rectifying and smoothing circuit and the average voltage of the AC power or the voltage of the smoothed DC power from the calculated amplitude of the acceleration, the calculated Q value, and the second correspondence; and a fifth calculator that calculates the reference voltage from the reference impedance and the second correspondence. 5. A power generation system comprising: a power generator that outputs AC power; a rectifying and smoothing circuit comprising a rectifier circuit that converts the AC power to DC power and a smoothing circuit that smooths the DC power; a converter that transforms the smoothed DC power; a voltage detector that detects AC voltage outputted from the power generator; a current detector that detects AC current outputted from the power generator; a first averaging filter that averages the AC voltage detected by the voltage detector to output average voltage; a second averaging filter that averages the AC current detected by the current detector to output average current; a divider that divides the average voltage by the average current to calculate an impedance; and a switch that is disposed between the rectifying and smoothing circuit and the converter and becomes an ON state when the impedance becomes a reference impedance or higher than the reference impedance. 6. A power generation system comprising: a power generator that outputs AC power; a rectifying and smoothing circuit comprising a rectifier circuit that converts the AC power to DC power and a smoothing circuit that smooths the DC power; a converter that transforms the smoothed DC power; an impedance measurement unit that measures an impedance of the rectifying and smoothing circuit or the smoothing circuit; a switch that is disposed between the rectifying and smoothing circuit and the converter and becomes an ON state when the measured impedance becomes a reference impedance or higher than the reference impedance; an