Bidirectional direct current power conversion circuits and methods
First Claim
1. A bidirectional direct current power conversion circuit that transfers power in a forward direction from a first terminal at a higher voltage relative to a common terminal, to a second terminal at a lower voltage relative to the common terminal and in a reverse direction from the second terminal at the lower voltage, to the first terminal at the higher voltage, comprising:
- an inductor having first and second inductor ends;
a first switch connected between the first terminal and first inductor end, the second inductor end being connected to the second terminal, the inductor and the first switch defining a node therebetween;
a second switch connected between the node and the common terminal; and
a switch controller that is configured to control the first and second switches such that the first switch is closed for a proportion of time approximately equal to a ratio of the lower voltage to the higher voltage and the second switch is opened when the first switch is closed and is closed when the first switch is opened, such that power is transferred from the lower voltage to the higher voltage when current flows from the lower voltage into the second terminal and power is transferred from the higher voltage to the lower voltage when current flows from the higher voltage into the first terminal, and the direction of current flow is defined such that current flows in the same direction as power flows.
1 Assignment
0 Petitions
Accused Products
Abstract
Bidirectional Direct Current (DC) power conversion circuits and methods transfer DC power in a forward direction from a first terminal at a first voltage to a second terminal at a second voltage, wherein the first voltage is higher than the second voltage relative to a common voltage at a common terminal, and in a reverse direction from the second terminal at the second voltage to the first terminal at the first voltage. These bidirectional DC power conversion circuits and methods use an inductor having first and second inductor ends, a first switch that is connected between the first terminal and the first inductor end, to define a node therebetween, and a second switch that is connected between the node and the common terminal, wherein the second inductor end is connected to the second terminal. A switch controller or controlling method is configured to simultaneously close the first switch and open the second switch, to simultaneously open the first switch and close the second switch, and to maintain the first switch closed and the second switch open for a percentage of time that approximates a ratio of the second voltage to the first voltage. Power is thereby transferred from the second terminal to the first terminal when current flows from the first terminal to the second terminal, and power is thereby transferred from the first terminal to the second terminal when current flows from the second terminal to the first terminal.
-
Citations
10 Claims
-
1. A bidirectional direct current power conversion circuit that transfers power in a forward direction from a first terminal at a higher voltage relative to a common terminal, to a second terminal at a lower voltage relative to the common terminal and in a reverse direction from the second terminal at the lower voltage, to the first terminal at the higher voltage, comprising:
-
an inductor having first and second inductor ends;
a first switch connected between the first terminal and first inductor end, the second inductor end being connected to the second terminal, the inductor and the first switch defining a node therebetween;
a second switch connected between the node and the common terminal; and
a switch controller that is configured to control the first and second switches such that the first switch is closed for a proportion of time approximately equal to a ratio of the lower voltage to the higher voltage and the second switch is opened when the first switch is closed and is closed when the first switch is opened, such that power is transferred from the lower voltage to the higher voltage when current flows from the lower voltage into the second terminal and power is transferred from the higher voltage to the lower voltage when current flows from the higher voltage into the first terminal, and the direction of current flow is defined such that current flows in the same direction as power flows. - View Dependent Claims (2)
-
-
3. A bidirectional Direct Current (DC) power conversion circuit that transfers DC power in a forward direction from a first terminal at a first voltage to a second terminal at a second voltage, wherein the first voltage is higher than the second voltage relative to a common voltage at a common terminal, and in a reverse direction from the second terminal at the second voltage to the first terminal at the first voltage, the bidirectional DC power conversion circuit comprising:
-
an inductor having first and second inductor ends;
a first switch that is connected between the first terminal and the first inductor end to define a node therebetween;
a second switch that is connected between the node and the common terminal;
the second inductor end being connected to the second terminal; and
a switch controller that is configured to simultaneously close the first switch and open the second switch, to simultaneously open the first switch and close the second switch and to maintain the first switch closed and the second switch open for a percentage of time that approximates a ratio of the second voltage to the first voltage. - View Dependent Claims (4, 5)
-
-
6. A bidirectional direct current power conversion method that transfers power in a forward direction from a first terminal at a higher voltage relative to a common terminal, to a second terminal at a lower voltage relative to the common terminal and in a reverse direction from the second terminal at the lower voltage, to the first terminal at the higher voltage, using an inductor having first and second inductor ends, a first switch connected between the first terminal and first inductor end, the second inductor end being connected to the second terminal, the inductor and the first switch defining a node therebetween, and a second switch connected between the node and the common terminal, the method comprising:
controlling the first and second switches such that the first switch is closed for a proportion of time approximately equal to a ratio of the lower voltage to the higher voltage and the second switch is opened when the first switch is closed and is closed when the first switch is opened, such that power is transferred from the lower voltage to the higher voltage when current flows from the lower voltage into the second terminal and power is transferred from the higher voltage to the lower voltage when current flows from the higher voltage into the first terminal, and the direction of current flow is defined such that current flows in the same direction as power flows. - View Dependent Claims (7)
-
8. A bidirectional Direct Current (DC) power conversion method that transfers DC power in a forward direction from a first terminal at a first voltage to a second terminal at a second voltage, wherein the first voltage is higher than the second voltage relative to a common voltage at a common terminal, and in a reverse direction from the second terminal at the second voltage to the first terminal at the first voltage, using an inductor having first and second inductor ends, a first switch that is connected between the first terminal and the first inductor end to define a node therebetween, a second switch that is connected between the node and the common terminal, the second inductor end being connected to the second terminal, the method comprising:
-
simultaneously closing the first switch and opening the second switch;
simultaneously opening the first switch and closing the second switch; and
maintaining the first switch closed and the second switch open for a percentage of time that approximates a ratio of the second voltage to the first voltage. - View Dependent Claims (9, 10)
-
Specification