Patent ID: 6924630
Filing Date: 2005-08-02
Classification: H02M,Y02B

Abstract:
1. A buck-boost power factor correcting supply for generating a direct output voltage for energizing a load, and for operation from full-wave rectified line voltage which takes on voltage values both greater than and less than said direct output voltage, said supply comprising: a first inductor including first and second terminals; a buck switch connected to a terminal of said source of full-wave rectified line voltage and to said first terminal of said first inductor; an output capacitance including a first terminal connected to a reference potential and also including a second terminal at which said direct output voltage is generated for use by said load; free-wheeling unidirectional current conducting means including a first terminal connected to said reference potential and a second terminal connected to said first terminal of said first inductor, for providing a path for the flow of current through said first inductor during at least some intervals during which said buck switch is nonconductive; blocking unidirectional current conducting means including a first terminal connected to said second terminal of said first inductor and a second terminal connected to said second terminal of said output capacitance, and poled for blocking discharge of said output capacitance in a direction other than to said load; a boost switch connected to said second terminal of said first inductor and to said reference potential, for, during at least some intervals in which said buck switch is conductive, connecting said second terminal of said first inductor to said reference potential for increasing the energy stored in said first inductor; a first soft-switching circuit including the serial combination of a first soft-switching switch and a saturable second inductor, said first soft-switching circuit being coupled in parallel with said boost switch; a second soft-switching circuit including the serial combination of a second soft-switching switch and a saturable third inductor, said second soft-switching circuit being connected in parallel with said buck switch; and control means connected to said buck switch, said boost switch, and to said first and second soft-switching switches, for, (a) when said full-wave rectified line voltage is less than said direct output voltage, maintaining said buck switch conductive, and from time to time rendering said boost switch alternately conductive and nonconductive, and, during transitions of said boost switch from the nonconductive to the conductive state, rendering said first soft switching switch conductive prior to the rendering of said boost switch conductive, whereby said first soft switching circuit reduces the voltage appearing across said boost switch at the time said boost switch is rendered conductive by comparison with the voltage appearing across said boost switch in the absence of said first soft switching circuit, and (b) when said full-wave rectified line voltage is greater than said direct output voltage, maintaining said boost switch and said first soft switching switch nonconductive, and from time to time rendering said buck switch alternately conductive and nonconductive, and, during transitions of said buck switch from the nonconductive to the conductive state, rendering said second soft switching switch conductive prior to the rendering of said buck switch conductive, whereby said second soft switching circuit reduces the voltage appearing across said buck switch at the time said buck switch is rendered conductive by comparison with the voltage appearing across said buck switch in the absence of said second soft switching circuit.