DC/DC CONVERTER

US 20070120545A1
Filed: 11/22/2006
Published: 05/31/2007
Est. Priority Date: 11/25/2005
Status: Abandoned Application

First Claim

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1. A DC/DC converter comprising:

a semiconductor chip including a switching driver, and a first switch element and a second switch element driven by the switching driver, wherein an output current path of the first switch element and an output current path of the second switch element are connected in series, wherein a common connecting point of the first and second switch elements is adapted so as to be connected to one end of a smoothing coil outside the semiconductor chip, wherein in a mode in which the DC/DC converter performs a step-down operation, a smoothing capacitor and a load are parallel-connected to the other end of the smoothing coil outside the semiconductor chip, and in the step-down operation mode, the output current path of the first switch element is supplied with an input DC voltage outside the semiconductor chip, wherein in a mode in which the DC/DC converter performs a step-up operation, the other end of the smoothing coil is supplied with the input DC voltage outside the semiconductor chip, and in the step-up operation mode, the smoothing capacitor and the load are parallel-connected to the output current path of the first switch element outside the semiconductor chip, wherein in the mode in which the DC/DC converter performs the step-down operation, the switching driver controls the first switch element to an on state and controls the second switch element to an off state during a first period, and the switching driver controls the first switch element to an off state and controls the second switch element to an on state during a second period subsequent to the first period, whereby the DC/DC converter performs the step-down operation, and wherein in the mode in which the DC/DC converter performs the step-up operation, the switching driver controls the first switch element to an off state and controls the second switch element to an on state during the first period, and the switching driver controls the first switch element to an on state and controls the second switch element to an off state during the second period subsequent to the first period, whereby the DC/DC converter performs the step-up operation.

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Abstract

The present invention aims to share a semiconductor chip built-in circuit for a step-down function and a step-up function by or through one semiconductor product used as a DC/DC converter configured in a semiconductor chip. The semiconductor chip includes a switching driver, a first switch element and a second switch element. An output current path of the first switch element and an output current path of the second switch element are connected in series. A common connecting point of the first and second switch elements is connected to one end of a smoothing coil outside the semiconductor chip, and the output current path of the second switch element is connected to a base potential. An input DC voltage is supplied from the first switch element, and a step-down voltage VOUT to a load is outputted from the other end of the coil. When a method of supplying the input DC voltage and a method of performing a connection to the load are changed, a step-up voltage is outputted.

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5 Claims

1. A DC/DC converter comprising:
- a semiconductor chip including a switching driver, and a first switch element and a second switch element driven by the switching driver, wherein an output current path of the first switch element and an output current path of the second switch element are connected in series, wherein a common connecting point of the first and second switch elements is adapted so as to be connected to one end of a smoothing coil outside the semiconductor chip, wherein in a mode in which the DC/DC converter performs a step-down operation, a smoothing capacitor and a load are parallel-connected to the other end of the smoothing coil outside the semiconductor chip, and in the step-down operation mode, the output current path of the first switch element is supplied with an input DC voltage outside the semiconductor chip, wherein in a mode in which the DC/DC converter performs a step-up operation, the other end of the smoothing coil is supplied with the input DC voltage outside the semiconductor chip, and in the step-up operation mode, the smoothing capacitor and the load are parallel-connected to the output current path of the first switch element outside the semiconductor chip, wherein in the mode in which the DC/DC converter performs the step-down operation, the switching driver controls the first switch element to an on state and controls the second switch element to an off state during a first period, and the switching driver controls the first switch element to an off state and controls the second switch element to an on state during a second period subsequent to the first period, whereby the DC/DC converter performs the step-down operation, and wherein in the mode in which the DC/DC converter performs the step-up operation, the switching driver controls the first switch element to an off state and controls the second switch element to an on state during the first period, and the switching driver controls the first switch element to an on state and controls the second switch element to an off state during the second period subsequent to the first period, whereby the DC/DC converter performs the step-up operation.
- View Dependent Claims (2, 3)
- - 2. The DC/DC converter according to claim 1, wherein in a mode in which the DC/DC converter performs a step-down operation, the switching driver controls the first switch element to an on state and controls the second switch element to an off state during a first period, whereby a current is supplied to a parallel connection of the smoothing capacitor and the load from the input DC voltage via the first switch element and the smoothing coil during the first period and energy is hence stored in the smoothing coil during the first period, and the switching driver controls the first switch element to an off state and controls the second switch element to an on state during a second period subsequent to the first period, whereby a regenerative current used as an energy release current flows from a base potential via the second switch element and the smoothing coil during the second period so that a voltage drop dependent on the ratio between the second period and the first period is developed, and hence the DC/DC converter performs the step-down operation, and wherein in a mode in which the DC/DC converter performs a step-up operation, the switching driver controls the first switch element to an off state and controls the second switch element to an on state during a first period, whereby a current flows from the input DC voltage to a base potential via the second switch element and the smoothing coil during the first period and energy is hence stored in the smoothing coil during the first period, and the switching driver controls the first switch element to an on state and controls the second switch element to an off state during a second period subsequent to the first period, whereby a regenerative current used as an energy release current flows from the input DC voltage to the parallel connection of the smoothing capacitor and the load via the smoothing coil and the first switch element during the second period, so that a voltage obtained by superimposing released energy on the input DC voltage is supplied to the parallel connection during the second period, and a voltage increase dependent on the ratio between the second period and the first period is developed, and hence the DC/DC converter performs the step-up operation.
  - 3. The DC/DC converter according to claim 1, further including a detection circuit which detects a variation in current flowing through the smoothing coil, wherein the detection circuit includes a feedback capacitor having one end supplied with a DC output voltage supplied to the load, a first feedback resistor having one end connected to the other end of the feedback capacitor, and a second feedback resistor having one end connected to the other end of the feedback capacitor, wherein an output voltage detected by the detection circuit is obtained from a common connecting point of the feedback capacitor, the first feedback resistor and the second feedback resistor, and the detected output voltage is fed back to the input of the switching driver, wherein in the mode in which the DC/DC converter performs the step-down operation, a signal related to the input of the switching driver is supplied to the other end of the first feedback resistor, and a base potential is supplied to the other end of the second feedback resistor, and wherein in the mode in which the DC/DC converter performs the step-up operation, a signal related to the input of the switching driver is supplied to the other end of the first feedback resistor, and a signal related to the input DC voltage is supplied to the other end of the second feedback resistor.

4. A DC/DC converter comprising:
- a switching driver; and
  
  a first switch element and a second switch element driven by the switching driver, wherein an output current path of the first switch element and an output current path of the second switch element are connected in series, wherein a common connecting point of the first switch element and the second switch element are adapted so as to be connected to one end of a smoothing coil, wherein an input DC voltage is supplied to the output current path of the first switch element, and wherein the output current path of the second switch element is adapted so as to be connected to a base potential, and wherein a smoothing capacitor and a load are parallel-connected to the other end of the smoothing coil, said DC/DC converter further comprising an error amplifier, a feedback circuit, a comparator, and a latch, wherein the error amplifier detects an error of an output DC voltage supplied to the parallel connection of the smoothing capacitor and the load, wherein the feedback circuit includes a feedback capacitor having one end connected to the other end of the smoothing coil, and a feedback resistor having one end connected to the other end of the feedback capacitor and the other end connected to the one end of the smoothing coil, wherein the comparator compares a signal that responds to the output of the error amplifier and an output signal of the feedback circuit, and wherein the latch is set to one state by a timing signal having an approximately constant cycle and set to other state by the output of the comparator, and an output signal of the latch is supplied to the switching driver.
- View Dependent Claims (5)
- - 5. The DC/DC converter according to claim 4, further including an error voltage correcting circuit, wherein the error voltage correcting circuit includes a control switch controlled by the output of the latch, and a control circuit which sets high impedance between the output of the error amplifier and the input of the comparator, wherein a corrected output voltage of the error voltage correcting circuit is generated from a common connecting point of the control switch and a gate, and wherein when an abnormal increase in load current occurs, the control switch and the control circuit are respectively controlled to an on state and a high impedance state by the output of the latch, and the comparator compares the corrected output voltage set lower than the error output of the error amplifier, and the output signal of the feedback circuit.

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Current Assignee
Renesas Technology Corporation (Renesas Electronics Corporation)
Original Assignee
Renesas Technology Corporation (Renesas Electronics Corporation)
Inventors
Yoshida, Shinichi, HATA, Takehiro

Application Number

US11/562,551
Publication Number

US 20070120545A1
Time in Patent Office

Days
Field of Search
US Class Current

323/282
CPC Class Codes

H02M 3/1582 Buck-boost converters H02M3...

DC/DC CONVERTER

First Claim

1 Assignment

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Abstract

12 Citations

5 Claims

Specification

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DC/DC CONVERTER

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

12 Citations

5 Claims

Specification

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Use Cases

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Others