Control circuit for piezo transformer based fluorescent lamp power supplies
First Claim
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1. A control circuit for a piezo transformer based power supply for a fluorescent lamp, comprising:
- driver circuitry operative to generate pulse waveforms for excitation of primary inputs of the piezo transformer, the driver circuitry comprising four switching transistors arranged as a full bridge with respect to the primary inputs of the piezo transformer, the switching transistors including a first pair for providing a positive pulse waveform to the primary inputs of the piezo transformer and a second pair for providing a negative pulse waveform to the primary inputs of the piezo transformer;
a first feedback circuit operative to detect the magnitude of current in the fluorescent lamp and to vary the frequency of the pulse waveforms generated by the driver circuitry so as to maintain a predetermined desired current in the fluorescent lamp; and
a second feedback circuit operative to detect the magnitude of the voltage across the primary inputs of the piezo transformer and to vary the duty cycle of the difference between the pulse waveforms generated by the driver circuitry so as to maintain a predetermined desired voltage across the primary inputs of the piezo transformer, the second feedback circuit comprising phase shifting circuitry operative to vary the phase of drive signals supplied to the second pair of switching transistors with respect to the phase of drive signals supplied to the first pair of switching transistors to effect the varying of the duty cycle of the difference between the pulse waveforms.
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Abstract
A control circuit for a piezo transformer based power supply for a fluorescent lamp includes driver circuitry generating pulse waveforms for providing excitation to primary inputs of the piezo transformer, and circuitry for regulating lamp current and the voltage across the piezo transformer primary inputs. The frequency of the pulse waveforms is varied in response to the magnitude of lamp current to maintain a predetermined desired lamp current as represented by a current reference signal. The duty cycle of the driver circuitry is varied in response to the magnitude of the voltage across the piezo transformer primary inputs to maintain a predetermined desired piezo primary voltage as represented by a voltage reference signal. The piezo transformer is operated as close to resonance as possible, contributing to greater circuit efficiency. The driver circuitry in the control circuit employs four transistors arranged as a full bridge with respect to the piezo transformer primary inputs. The phase of drive signals supplied to one pair of the transistors is varied with respect to the phase of drive signals supplied to the other pair, thereby varying duty cycle and average voltage of the piezo transformer primary inputs. A controller integrated circuit contains a number of components of the control circuit, enabling its use in a variety of piezo-based power supply applications.
125 Citations
11 Claims
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1. A control circuit for a piezo transformer based power supply for a fluorescent lamp, comprising:
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driver circuitry operative to generate pulse waveforms for excitation of primary inputs of the piezo transformer, the driver circuitry comprising four switching transistors arranged as a full bridge with respect to the primary inputs of the piezo transformer, the switching transistors including a first pair for providing a positive pulse waveform to the primary inputs of the piezo transformer and a second pair for providing a negative pulse waveform to the primary inputs of the piezo transformer;
a first feedback circuit operative to detect the magnitude of current in the fluorescent lamp and to vary the frequency of the pulse waveforms generated by the driver circuitry so as to maintain a predetermined desired current in the fluorescent lamp; and
a second feedback circuit operative to detect the magnitude of the voltage across the primary inputs of the piezo transformer and to vary the duty cycle of the difference between the pulse waveforms generated by the driver circuitry so as to maintain a predetermined desired voltage across the primary inputs of the piezo transformer, the second feedback circuit comprising phase shifting circuitry operative to vary the phase of drive signals supplied to the second pair of switching transistors with respect to the phase of drive signals supplied to the first pair of switching transistors to effect the varying of the duty cycle of the difference between the pulse waveforms. - View Dependent Claims (2, 3, 4, 5, 6, 7)
an error amplifier operative to integrate the difference between a lamp current feedback signal and a reference signal representing the desired lamp current; and
a voltage controlled oscillator coupled to the error amplifier, the voltage controlled oscillator being operative to produce a control signal for the driver circuitry having a frequency that varies in relation to the output of the error amplifier so as to maintain the desired lamp current.
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4. A control circuit according to claim 3, wherein the voltage controlled oscillator comprises a resistor-capacitor timing circuit and a gated current source, the resistor-capacitor timing circuit being operative to discharge a circuit node from a first voltage to a second voltage in a predetermined interval so as to establish a corresponding frequency for the control signal, the gated current source being operative to charge the circuit node from the second voltage to the first voltage substantially instantaneously with respect to the predetermined interval.
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5. A control circuit according to claim 1, further comprising dimming circuitry operative in response to a dimming control input to vary the magnitude of the lamp current so as to change the intensity of light emitted by the lamp accordingly.
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6. A control circuit according to claim 1, wherein the predetermined desired current and the predetermined desired voltage are represented by respective reference signals supplied to the first and second feedback circuits, and further comprising dimming circuitry operative in response to a dimming control input to vary the reference signals so as to vary the intensity of light emitted by the lamp while also varying the voltage across the primary inputs of the piezo transformer in a manner tending to maximize the efficiency of the piezo transformer.
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7. A control circuit according to claim 1, wherein the primary inputs of the piezo transformer form part of a resonant tank circuit capable of generating a substantially sinusoidal piezo primary input voltage in response to an excitation input signal, and wherein the pulse waveform generated by the driver circuitry is supplied as the excitation input signal to the resonant tank circuit, such that the root-mean-square (RMS) value of the piezo primary input voltage is maintained at the predetermined desired value.
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8. A controller integrated circuit for use in a piezo transformer based power supply for a fluorescent lamp, comprising:
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driver circuitry operative to generate respective pulse waveforms on first and second pins of the controller integrated circuit for excitation of primary inputs of the piezo transformer, the driver circuitry comprising four switching transistors arranged as a first pair for providing a positive pulse waveform to the primary inputs of the piezo transformer and a second pair for providing a negative pulse waveform to the primary inputs of the piezo transformer;
voltage controlled oscillator circuitry having an input connected to a third pin of the controller integrated circuit for coupling to external timing circuitry and to a current feedback signal representing the magnitude of current in the lamp, the voltage controlled circuitry being operative to generate a variable frequency control signal to control the operation of the driver circuitry such that the nominal frequency, the frequency range, and the variation of the frequency of the control signal are established by the external timing circuitry and the current feedback signal appearing at the third pin; and
duty cycle control circuitry having an output coupled to the driver circuitry and having inputs for receiving voltage feedback signals indicative of the voltage across inputs of the piezo transformer, the duty cycle control circuitry being operative to control the duty cycle of the difference between the pulse waveforms generated by the driver circuitry in response to the voltage feedback signals, the duty cycle control circuitry including phase shifting circuitry operative to vary the phase of drive signals supplied to the second pair of switching transistors with respect to the phase of drive signals supplied to the first pair of switching transistors in response to the voltage feedback signals to effect the controlling of the duty cycle of the difference between the pulse waveforms. - View Dependent Claims (9, 10, 11)
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Specification
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Current AssigneeTexas Instruments, Inc.
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Original AssigneeTexas Instruments, Inc.
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InventorsGarrett, James R., Wells, James E.
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Primary Examiner(s)Wong, Don
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Assistant Examiner(s)Alemu, Ephrem
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Application NumberUS09/642,899Time in Patent Office652 DaysField of Search315/224, 315/209.PZ, 315/307, 315/DIG.2, 315/DIG.4, 315/DIG.5, 315/209.R, 310/316.01, 310/318, 310/319, 363/95, 363/97US Class Current315/224CPC Class CodesH05B 41/2822 using specially adapted com...H05B 41/2827 using specially adapted com...H05B 41/2855 against abnormal lamp opera...H05B 41/3925 by frequency variation H05B...Y02B 20/00 Energy efficient lighting t...
