System And Method For Controlling A Current Limit With Primary Side Sensing Using A Hybrid PWM and PFM Control
First Claim
1. A method for limiting an output current of a power supply over multiple switching cycles in a constant current mode using pulse width modulation (PWM) and pulse frequency modulation (PFM), said power supply having a primary and secondary side and a bipolar junction transistor (BJT) as switching device, the method comprising the steps of:
- generating a sense voltage signal on the primary side that is proportional to an output voltage signal on the secondary side;
measuring a reset time on the primary side using said sense voltage signal, said reset time representing a duration of a current pulse on the secondary side;
generating a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse width modulation (PWM) control when said reset time is lower than a first control value, said digital feedback voltage signal representing the on-time for a subsequent switching cycle of the BJT switching device; and
generating a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse frequency modulation (PFM) control when said reset time is not lower than said first control value, said digital feedback voltage signal representing the duration of said subsequent switching cycle of the BJT switching device.
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Abstract
A hybrid constant current control system that uses both pulse width modulation (PWM) and pulse frequency modulation (PFM) control. When transitioning from constant voltage mode to constant current mode the present invention can continue to control using PWM. Thereafter, when the voltage has dropped, the present invention smoothly transitions to PFM mode. The point of transition is based upon the switching frequency and the lowest rated voltage of operation. The system and method avoids very short (narrow) Ton times which ensures accurate constant current (CC) control with bipolar junction transistor (BJT) devices. The present invention also avoids acoustic noise because the switching frequency is maintained at a high enough level to avoid such acoustic noise even when the energy transferred through the transformer is still substantial and the output voltage is not too low. In addition the output current limit is insensitive to variation in the inductance-input voltage ratio, and is minimized against leakage inductance.
43 Citations
12 Claims
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1. A method for limiting an output current of a power supply over multiple switching cycles in a constant current mode using pulse width modulation (PWM) and pulse frequency modulation (PFM), said power supply having a primary and secondary side and a bipolar junction transistor (BJT) as switching device, the method comprising the steps of:
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generating a sense voltage signal on the primary side that is proportional to an output voltage signal on the secondary side; measuring a reset time on the primary side using said sense voltage signal, said reset time representing a duration of a current pulse on the secondary side; generating a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse width modulation (PWM) control when said reset time is lower than a first control value, said digital feedback voltage signal representing the on-time for a subsequent switching cycle of the BJT switching device; and generating a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse frequency modulation (PFM) control when said reset time is not lower than said first control value, said digital feedback voltage signal representing the duration of said subsequent switching cycle of the BJT switching device. - View Dependent Claims (2, 3, 4)
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5. A system for limiting an output current of a power supply over multiple switching cycles in a constant current mode using pulse width modulation (PWM) and pulse frequency modulation (PFM), comprising:
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a transformer having a primary side winding and a secondary side winding; a bipolar junction transistor (BJT) as switching device; sense voltage generator for generating a sense voltage signal on the primary side of the power supply that is proportional to an output voltage signal on the secondary side; reset means for measuring a reset time on the primary side using said sense voltage signal, said reset time representing a duration of a current pulse on the secondary side; PWM control means for generating a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse width modulation (PWM) control when said reset time is lower than a first control value, said digital feedback voltage signal representing the on-time for a subsequent switching cycle of the BJT switching device; and PFM control means for generating a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse frequency modulation (PFM) control when said reset time is not lower than said first control value, said digital feedback voltage signal representing the duration of said subsequent switching cycle of the BJT switching device. - View Dependent Claims (6, 7, 8)
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9. A system for limiting an output current of a power supply over multiple switching cycles in a constant current mode using pulse width modulation (PWM) and pulse frequency modulation (PFM), comprising:
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a transformer having a primary side winding and a secondary side winding; a bipolar junction transistor (BJT) as switching device; sense voltage generator for generating a sense voltage signal on the primary side of the power supply that is proportional to an output voltage signal on the secondary side; reset means for generating a reset signal representing a measured reset time on the primary side using said sense voltage signal, said reset time representing a duration of a current pulse on the secondary side; a constant current controller, disposed to receive said reset signal, said constant current controller generates a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse width modulation (PWM) control when said reset time is lower than a first control value, and said digital feedback voltage signal representing the on-time for a subsequent switching cycle of the BJT switching device, said constant current controller generates a digital feedback voltage signal to maintain a substantially constant current on the secondary side using pulse frequency modulation (PFM) control when said reset time is not lower than said first control value, said digital feedback voltage signal representing the duration of said subsequent switching cycle of the BJT switching device. - View Dependent Claims (10, 11, 12)
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Specification