Regulating Controller for Controlled Self-Oscillating Converters Using Bipolar Junction Transistors
First Claim
1. A method for controlling a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, whereby control over the power converter is achieved by controlling a control winding magnetically coupled to said drive winding, the method comprising:
- selectively providing a short-circuit across the control winding;
monitoring the load winding current; and
removing the short-circuit when the load winding current drops below a first threshold value.
2 Assignments
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Accused Products
Abstract
A power converter controller and methods for its operation are provided that can control a self-oscillating power converter that uses a Bipolar Junction Transistor (BJT) as a switch by manipulating the current flowing in a control winding. The controller is able to determine the optimum time to remove a short circuit applied to the control winding, as well as being able to determine the optimum time to pass current through the control winding. The controller can further draw power from the power converter using the control winding. The controller is capable of maintaining the midpoint voltage of the power converter in the case that the converter has more than one switch. The controller estimates the output power of the converter without requiring a connection to the secondary side of the converter transformer. The controller further controls entry and exit into a low-power mode in which converter oscillations are suppressed.
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Citations
41 Claims
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1. A method for controlling a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, whereby control over the power converter is achieved by controlling a control winding magnetically coupled to said drive winding, the method comprising:
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selectively providing a short-circuit across the control winding; monitoring the load winding current; and removing the short-circuit when the load winding current drops below a first threshold value. - View Dependent Claims (2, 3, 4)
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5-9. -9. (canceled)
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10. A controller for a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, the controller comprising:
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first and second control winding connections for connection to a control winding magnetically coupled to the load and drive windings; a first switch coupled between the first and second control winding connections; a current monitoring element for monitoring the current in the load winding; and a switch controller for selectively closing said first switch to provide a short circuit across the first and second control winding connections, further adapted to open the switch when the current monitoring element determines that the current in the load winding has fallen below a first threshold. - View Dependent Claims (11, 12, 13)
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14. (canceled)
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15. A method for drawing power from a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, whereby control over the power converter is achieved by controlling a control winding, having first and second ends, magnetically coupled to said drive winding, the method comprising:
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coupling the first end of the control winding to a first power supply rail; monitoring the voltage on the control winding; coupling the second end of the control winding to a second power supply rail when the voltage on the control winding exceeds a threshold value, to allow power to be drawn from the control winding to the power supply rails. - View Dependent Claims (16)
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17. (canceled)
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18. A controller for a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, the controller comprising:
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first and second control winding connections for connection to a control winding magnetically coupled to the load and drive windings; first and second energy store connections for connection to an energy store; a first switch coupled between the first control winding connection and said first energy store connection; a second switch coupled between the second control winding connection and the second energy store connection; a voltage monitor coupled to the first and second control winding connections and arranged to determine when the voltage across the first and second control winding connections exceeds a threshold; and a switch controller arranged to selectively close the first and second switch;
whereinthe switch controller is arranged to close the first and second switch when the voltage monitor determines that the voltage across the first and second control winding connections exceeds said threshold.
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19-31. -31. (canceled)
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32. A method of controlling a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, whereby control over the power converter is achieved by controlling a control winding, having first and second ends, magnetically coupled to said drive winding, the method comprising:
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monitoring the current flowing in the load winding by measuring the voltage across a resistance in series with the load winding; and entering a low power mode when the current flowing in the load winding falls beneath a threshold wherein during said low power mode a short circuit is applied across the control winding for inhibiting operation of the power converter. - View Dependent Claims (33, 35, 36)
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34. (canceled)
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37. A controller for a power converter, the power converter having a BJT as a switch, the base of the BJT being connected to a drive winding, said drive winding being magnetically coupled to a load winding which carries the power converter load current, the controller comprising:
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first and second control winding connections for connection to a control winding magnetically coupled to the load and drive windings; a first switch coupled between the first control winding connection and second control winding connection; first and second current sensing resistor connections for connection to a current sensing resistor in series with the load winding; a monitor coupled to the first and second current sensing resistor connections for monitoring the voltage across the current sensing resistor, adapted to determine when the current in the load winding falls beneath a threshold;
further comprisinga switch controller adapted to enter a low power mode when the monitor determines that the current in the load winding has fallen beneath the threshold, wherein when in said low power mode, the switch controller closes the first switch to apply a short circuit between the first and second control winding connections for suppressing power conversion in the power converter. - View Dependent Claims (38, 40, 41)
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39. (canceled)
Specification