Apparatus and method for AC to DC electrical conversion
First Claim
1. An electrical conversion apparatus for use in satisfying the requirement of a load, the apparatus comprising a bridge rectifier having an input side and an output side, the load being connected to the output side of the bridge rectifier, a switched capacitor line arranged in parallel with the output side of the bridge rectifier and the load, the switched capacitor line comprising a capacitance and a switch arranged in series with one another so that the switch can control charging and discharging of the capacitance, and a control arrangement operable to control the operation of the switch, wherein the control arrangement is operable such that whenever the output voltage of the bridge rectifier is above a threshold level and is rising the switch is closed so that the capacitance charges and the load is satisfied from the output of the bridge rectifier, whenever the output of the bridge rectifier is above the threshold level and is falling the switch is opened so that the capacitance is isolated from the load, the load still being satisfied by the output of the bridge rectifier, and whenever the output of the bridge rectifier is below the threshold level, the switch is closed so that the load is served by discharge of the capacitance supplementing the output from the bridge rectifier.
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Accused Products
Abstract
An electrical conversion apparatus is described which comprises a bridge rectifier 10 having an input side and an output side, and a switched capacitor line 16 arranged in parallel with the output side of the bridge rectifier 10, the switched capacitor line 16 comprising a capacitance 18 and a switch 20 arranged in series with one another so that the switch 20 can control charging and discharging of the capacitance 18. A method of electrical conversion is also disclosed wherein when the output voltage of the bridge rectifier is above a threshold level 26 and is rising the switch is closed so that the capacitance charges and a load is satisfied from the output of the bridge rectifier, when the output of the bridge rectifier is above the threshold level 26 and is falling the switch is opened so that the capacitance is isolated from the load, the load still being satisfied by the output of the bridge rectifier, and when the output of the bridge rectifier is below the threshold level 26, the switch is closed so that the load is served by discharge of the capacitance. The threshold level 26 may be dynamically controlled, for example in response to the output of a monitor circuit 32.
7 Citations
14 Claims
- 1. An electrical conversion apparatus for use in satisfying the requirement of a load, the apparatus comprising a bridge rectifier having an input side and an output side, the load being connected to the output side of the bridge rectifier, a switched capacitor line arranged in parallel with the output side of the bridge rectifier and the load, the switched capacitor line comprising a capacitance and a switch arranged in series with one another so that the switch can control charging and discharging of the capacitance, and a control arrangement operable to control the operation of the switch, wherein the control arrangement is operable such that whenever the output voltage of the bridge rectifier is above a threshold level and is rising the switch is closed so that the capacitance charges and the load is satisfied from the output of the bridge rectifier, whenever the output of the bridge rectifier is above the threshold level and is falling the switch is opened so that the capacitance is isolated from the load, the load still being satisfied by the output of the bridge rectifier, and whenever the output of the bridge rectifier is below the threshold level, the switch is closed so that the load is served by discharge of the capacitance supplementing the output from the bridge rectifier.
- 13. A method of electrical conversion comprising providing a switched capacitor line in parallel with an output of a bridge rectifier, a load being connected to the output of the bridge rectifier and the switched capacitor line being arranged in parallel with the load, the switched capacitor line comprising a capacitance and a switch arranged in series with one another so that the switch can control charging and discharging of the capacitance, wherein whenever the output voltage of the bridge rectifier is above a threshold level and is rising the switch is closed so that the capacitance charges and the load is satisfied from the output of the bridge rectifier, whenever the output of the bridge rectifier is above the threshold level and is falling the switch is opened so that the capacitance is isolated from the load, the load still being satisfied by the output of the bridge rectifier, and whenever the output of the bridge rectifier is below the threshold level, the switch is closed so that the load is served by discharge of the capacitance supplementing the output from the bridge rectifier.
Specification