Battery charger

1 . A battery charger comprising input terminals for connection to an AC source supplying an alternating input voltage, output terminals for connection to a battery to be charged, and a power factor correction (PFC) circuit connected between the input terminals and the output terminals, wherein the PFC circuit regulates an input current drawn from the AC source such that the input current has a waveform selected from a sine wave with third harmonic injection, a clipped sine wave and a trapezoidal wave, the battery charger generates an output current at the output terminals, and the output current has a waveform defined by the multiplication of the input current and the input voltage and has a ripple of at least 50%. 2 . The battery charger of claim 1 , wherein the PFC circuit adjusts the average value of the input current in response to changes in the voltage of the battery. 3 . The battery charger of claim 2 , wherein the PFC circuit increases the average value of the input current in response to an increase in the voltage of the battery. 4 . The battery charger of claim 2 , wherein the PFC circuit adjusts the average value of the input current in response to changes in the voltage of the battery such that the average value of the output current is constant. 5 . The battery charger of claim 1 , wherein the PFC circuit adjusts the waveform of the input current in response to changes in the voltage of the battery. 6 . The battery charger of claim 5 , wherein the PFC circuit decreases a parameter defining the waveform in response to an increase in the voltage of the battery, the parameter being selected from a magnitude of the third harmonic, a clipping percentage, and an internal trapezoid angle. 7 . The battery charger of claim 1 , wherein the battery charger operates in a first mode when the voltage of the battery is less than a threshold, the battery charger switches to a second mode when the voltage of the battery exceeds the threshold, wherein the input voltage includes a plurality of half-cycles and the PFC circuit causes the input current to be drawn from the AC source during each half-cycle of the plurality of half-cycles of the input voltage when operating in the first mode, and the PFC circuit causes the input current to be drawn from the AC source during one or more of the half-cycles of the input voltage when operating in the second mode. 8 . The battery charger of claim 1 , wherein the battery charger operates in a first mode when the voltage of the battery is less than a threshold, the battery charger switches to a second mode when the voltage of the battery exceeds the threshold, the waveform of the input current when operating in the first mode is one of a sine wave with third harmonic injection, a clipped sine wave and a trapezoidal wave, and the waveform of the input current when operating in the second mode is different to that when operating in the first mode. 9 . The battery charger of claim 1 , wherein the battery charger comprises a step-down DC-to-DC converter having a voltage conversion ratio greater than a peak value of the input voltage divided by a minimum voltage of the battery. 10 . The battery charger of claim 1 , wherein the battery charger comprises a step-down DC-to-DC converter having one or more primary-side switches that are switched at a constant frequency. 11 . The battery charger of claim 10 , wherein the DC-to-DC converter has one or more secondary-side switches that are switched at the same constant frequency.