Buck converter with inductor pre-energizing
First Claim
1. A method to achieve a constant output voltage with a buck-boost converter is comprising:
- (1) providing a buck-boost converter, converting a DC input voltage to a DC output voltage, comprising a mode control block, a buck control block, an inductor, a precharge-boost control block, and an output capacitor;
(2) checking, if the input voltage is significantly higher than the output voltage required, if positive go to step 3 else go to step 5;
(3) performing buck control of said inductor to convert input voltage down to output voltage;
(4) go to step 2;
(5) pre-charging of the inductor dependent upon the level of input voltage during a first phase of buck period; and
(6) go to step (3).
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Accused Products
Abstract
Circuits and methods to achieve a buck-boost converter, capable to achieve a constant output voltage by pre-charging of an inductor if the input voltage is close to the output voltage has been achieved. The prior art problem of output voltage variations occurring while the input voltage is close to the output voltage is avoided. In case the input voltage is lower than a defined threshold voltage or the duty cycle exceeds a defined maximum allowable level, the inductor of the converter is pre-charged followed by boosting of the energy of the inductor to the output of the converter. In both modes the control loops of the buck converter can be used for buck duty cycle control. The duration of the pre-charge depends upon the level of the input voltage, the lower the input level is the longer is the pre-charge performed.
32 Citations
15 Claims
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1. A method to achieve a constant output voltage with a buck-boost converter is comprising:
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(1) providing a buck-boost converter, converting a DC input voltage to a DC output voltage, comprising a mode control block, a buck control block, an inductor, a precharge-boost control block, and an output capacitor; (2) checking, if the input voltage is significantly higher than the output voltage required, if positive go to step 3 else go to step 5; (3) performing buck control of said inductor to convert input voltage down to output voltage; (4) go to step 2; (5) pre-charging of the inductor dependent upon the level of input voltage during a first phase of buck period; and (6) go to step (3). - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A buck-boost converter, capable to achieve a constant output voltage by pre-charging of an inductor if the input voltage is close to the output voltage required, is comprising:
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a mode control block defining the mode the buck-boost converter is operated, wherein said mode control block is connected to a buck control block and to a precharge-boost control block; said buck control block controlling with a first and a second switch a charging of an inductor, wherein said first switch has a first terminal connected to an input voltage and a second terminal is connected to a first terminal of said inductor and to a first terminal of said second switch, and wherein a second terminal of said second switch is connected to ground; said precharge-boost control block controlling with a first and a second switch a pre-charging of an inductor and an energy transfer from said inductor to the output of the converter, wherein said first switch has a first terminal connected to an output voltage and a second terminal is connected to a second terminal of said inductor and to a first terminal of said second switch, and wherein a second terminal of said second switch is connected to ground; and said inductor. - View Dependent Claims (11, 12, 13, 14, 15)
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Specification