Power peak shaving system

1 . A power peak shaving system comprising: a power directing circuit to direct power received from at least one of an alternating current (AC) supply voltage or an energy storage unit to generate an output voltage for a load; and a control circuit to control the power directing circuit to supplement power received from the AC supply voltage with power received from the energy storage unit to supply power drawn by the load at the output voltage to prevent the power received from the AC supply voltage from exceeding a threshold level. 2 . The power peak shaving system of claim 1 , wherein the control circuit is further to control the power directing circuit to replace the power received from the AC supply voltage with the power received from the energy storage unit in response to a failure of the AC supply voltage. 3 . The power peak shaving system of claim 2 , wherein the control circuit further comprises a static bypass switch to supply the power drawn by the load at the output voltage using the power received from the AC supply voltage in response to a fault occurring during the replacing of the power received from the AC supply voltage with the power received from the energy storage unit. 4 . The power peak shaving system of claim 1 , wherein: the power directing circuit is further to direct power received from the AC supply voltage to the energy storage unit; and the control circuit is further to control the power directing circuit to charge the energy storage unit using the power received from the AC voltage supply based on a charge in the energy storage unit being at less than a capacity level and the power received from the AC supply voltage being less than the threshold level. 5 . The power peak shaving system of claim 1 , wherein the control circuit is further to reduce the supplementing of the power received from the AC supply voltage based on the energy storage unit being charged at less than a particular charge level. 6 . The power peak shaving system of claim 1 , further comprising the energy storage unit. 7 . The power peak shaving system of claim 1 , wherein: the output voltage comprises an AC output voltage; and the power directing circuit comprises a DC-to-AC converter to convert DC power received from the energy storage unit to AC power and to synchronize the AC power with the AC supply voltage to supplement the power received from the AC supply voltage. 8 . The power peak shaving system of claim 7 , wherein the DC-to-AC converter further is to replace the power received from the AC supply voltage with the AC power in response to a failure of the AC supply voltage. 9 . The power peak shaving system of claim 7 , further comprising: a first voltage sensor to measure the AC supply voltage; a first current sensor to measure AC supply current; a second voltage sensor to measure the AC output voltage; and a second current sensor to measure an AC output current portion produced by the DC-to-AC converter; wherein the control circuit is to: determine an AC supply power based on the measured AC supply voltage and the measured AC supply current; determine an AC output power produced by the DC-to-AC converter based on the measured AC output voltage and the measured AC output current portion; compare the AC supply power to the threshold level; and adjust the AC output current portion produced by the DC-to-AC converter based on the comparison of the AC supply power to the threshold level and on the AC output power produced by the DC-to-AC converter so that the AC supply power does not exceed the threshold level. 10 . The power peak shaving system of claim 9 , wherein the control circuit is to adjust the AC output current portion using a proportional-integral (PI) control loop. 11 . The power peak shaving system of claim 8 , wherein the DC-to-AC converter comprises: a boost DC-to-DC converter to convert a first DC voltage corresponding to the energy storage unit to a second DC voltage higher than the first DC voltage; at least one capacitor to be charged using the second DC voltage; and an inverter to convert the second DC voltage to the AC output voltage to supply the AC power. 12 . The power peak shaving system of claim 11 , wherein: the DC-to-AC converter operates as a bidirectional AC-to-DC/DC-to-AC converter; and the DC-to-AC converter further comprises: a rectifier to convert the AC output voltage to the second DC voltage; and a buck DC-to-DC converter to convert the second DC voltage to the first DC voltage to charge the energy storage unit. 13 . The power peak shaving system of claim 1 , wherein: the output voltage comprises an AC output voltage; and the power directing circuit comprises: a DC-to-DC converter to convert a first DC voltage from the energy storage unit to a second DC voltage; an AC-to-DC converter to convert the AC supply voltage to the second DC voltage; at least one capacitor to be charged using the second DC voltage; and a DC-to-AC converter to convert the second DC voltage to the AC output voltage, 14 . The power peak shaving system of claim 13 , further comprising: a first voltage sensor to measure the AC supply voltage; a first current sensor to measure AC supply current; a second voltage sensor to measure the AC output voltage; a second current sensor to measure an AC output current; a third voltage sensor to measure the second DC voltage; and a third current sensor to measure a DC current produced by the DC-to-DC converter; wherein the control circuit is to: determine an AC supply power based on the measured AC supply voltage and the measured AC supply current; determine an AC output power based on the measured AC output voltage and the measured AC output current; determine a DC power produced by the DC-to-DC converter based on the measured second DC voltage and the DC current produced by the DC-to-DC converter; compare the AC supply power to the threshold level; and adjust the DC current produced by the DC-to-DC converter based on the comparison of the AC supply power to the threshold level, on the AC output power, and on the DC power produced by the DC-to-DC converter so that the AC supply power does not exceed the threshold level. 15 . The power peak shaving system of claim 14 , wherein: the DC-to-DC converter operates as a bidirectional DC-to-DC converter; and the DC-to-DC converter comprises: a boost DC-to-DC converter to convert the first DC voltage from the energy storage unit to the second DC voltage; and a buck DC-to-DC converter to convert the second DC voltage to the first DC voltage to charge the energy storage unit. 16 . The power peak shaving system of claim 1 , wherein: the output voltage comprises a DC output voltage; and the power directing circuit comprises an AC-to-DC converter to convert the AC supply voltage to a DC voltage corresponding to the energy storage unit. 17 . The power peak shaving system of claim 16 , further comprising: a first voltage sensor to measure the AC supply voltage; and a first current sensor to measure AC supply current; wherein the control circuit is to: determine an AC supply power based on the measured AC supply voltage and the measured AC supply current; compare the AC supply power to the threshold level; and adjust the AC-to-DC converter based on the comparison of the AC supply power to the threshold level so that the AC supply power does not exceed the threshold level. 18 . The power peak shaving system of claim 16 , wherein the DC output voltage is the DC voltag