Battery charger and charging method
First Claim
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1. A battery charger comprising:
- a rectifier circuit for rectifying an alternating current to obtain a rectified output signals;
a control circuit for applying a controlled conduction angle portion of the rectified output signal to a battery in response to a current measurement signal and a zero-cross signal;
a current effective value calculating circuit responsive to charging current passing through the battery for calculating an effective value of said charging current to produce the current measurement signal for use by said control circuit, wherein the current effective valye calculating circuit comprises a correction circuit which delivers a current measurement signal which is larger than the actual effective value of said charging current when the instantaneous value of the charging current is high; and
a zero point detecting circuit responsive to the rectified output signal for detecting a zero point of the rectified output signal to produce the zero-cross signal for use by said control circuit.
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Abstract
A battery charger capable of keeping the effective value of the charging current constant regardless of the supply voltage. The effective value of the charging current is measured by the shunt resistance connected in series with the battery, and the conduction angle of the charging current is controlled according to the measured effective value.
19 Citations
5 Claims
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1. A battery charger comprising:
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a rectifier circuit for rectifying an alternating current to obtain a rectified output signals; a control circuit for applying a controlled conduction angle portion of the rectified output signal to a battery in response to a current measurement signal and a zero-cross signal; a current effective value calculating circuit responsive to charging current passing through the battery for calculating an effective value of said charging current to produce the current measurement signal for use by said control circuit, wherein the current effective valye calculating circuit comprises a correction circuit which delivers a current measurement signal which is larger than the actual effective value of said charging current when the instantaneous value of the charging current is high; and a zero point detecting circuit responsive to the rectified output signal for detecting a zero point of the rectified output signal to produce the zero-cross signal for use by said control circuit. - View Dependent Claims (2, 3)
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4. A battery charger comprising:
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a rectifier circuit for rectifying an alternating current to obtain a rectified output signal; a current effective value calculating circuit responsive to charging current passing through the battery for calculating an effective value of said charging current to produce a current measurement signal; a zero point detecting circuit responsive to the rectified output signal for detecting a zero point of the rectified output signal to produce a zero-cross signal; and a control circuit for applying a controlled conduction angle portion of the rectified output signal to a battery in response to said current measurement signal and said zero-cross signal, wherein the conduction angle control circuit comprises (i) a time constant circuit having a resistance, and having a capacitor charged by the current measurement signal, (ii) a timer circuit triggered in response to said zero-cross signal for producing an output pulse signal a duration of which depends on the charging of the capacitor of the time constant circuit by the current measurement signal, and (iii) a circuit for switching the controlled conduction angle portion of the rectified output signal through to the battery, the switching circuit being controlled by the duration of the output from the timer circuit.
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5. A charging method of rectifying an alternating current to apply to a battery, comprising the steps of:
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measuring an effective value of a rectified alternating charging current applied to a battery; controlling a conduction angle of the rectified alternating charging current applied to the battery in response to the measured effective current value; and correcting the measured effective current value to produce a measured value higher than the actual effective value when a momentary value of charging current is high.
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Specification