Battery charging method and circuit
First Claim
1. A method to control a composite battery charger charging a battery having a battery voltage, comprised of a combination of a switching regulator and a linear battery charger, the switching regulator including a power switch which is turned on and off with a duty cycle by a pulse width modulator (PWM) and the switching regulator having an output voltage providing supply voltage for the linear battery charger and for one or more device circuits consuming a device current, the method comprising:
- turning a pass transistor of the linear charger substantially fully on in a constant current (CC) operating mode;
generating a control signal based on a difference of a signal representative of a sensed battery charge current provided through the pass transistor and a first reference value based on a target battery charge current; and
the pulse width modulator controlling the duty cycle of the power switch of the switching regulator based on the control signal to maintain a battery charge current substantially constant approximately corresponding to the first reference value, substantially independently of the device current and the battery voltage until the battery voltage approaches a maximum fully charged battery voltage level.
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Abstract
A method and apparatus for controlling a composite battery charger including a switching regulator and a linear charger charging a battery connected to it, whereby the switching regulator provides the supply voltage for the linear charger and Device Circuits. The control method and circuit fully turns on the pass device of the linear charger in a constant current operating mode and the switching regulator is controlled to maintain a constant charge current through the pass device while also supplying device current to the Device Circuits. The device current may vary. The method and circuit limits the dissipation of the pass device of the linear charger by reducing the supply voltage as a function of the charge current in the CC/CV transition region of the battery charger and by reducing the charge current as a function of the battery voltage if the battery voltage is below a predetermined value related to a predetermined minimum supply voltage value.
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Citations
14 Claims
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1. A method to control a composite battery charger charging a battery having a battery voltage, comprised of a combination of a switching regulator and a linear battery charger, the switching regulator including a power switch which is turned on and off with a duty cycle by a pulse width modulator (PWM) and the switching regulator having an output voltage providing supply voltage for the linear battery charger and for one or more device circuits consuming a device current, the method comprising:
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turning a pass transistor of the linear charger substantially fully on in a constant current (CC) operating mode; generating a control signal based on a difference of a signal representative of a sensed battery charge current provided through the pass transistor and a first reference value based on a target battery charge current; and the pulse width modulator controlling the duty cycle of the power switch of the switching regulator based on the control signal to maintain a battery charge current substantially constant approximately corresponding to the first reference value, substantially independently of the device current and the battery voltage until the battery voltage approaches a maximum fully charged battery voltage level. - View Dependent Claims (2)
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3. A method to control a composite battery charger charging a battery having a battery voltage, comprised of a combination of a switching regulator and a linear battery charger, the switching regulator including a power switch which is turned on and off by a switching regulator controller and the switching regulator having an output voltage providing supply voltage for the linear battery charger and for one or more device circuits consuming a device current, the method comprising:
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turning a pass transistor of the linear charger substantially fully on in a constant current (CC) operating mode; generating a control signal based on a difference of a signal representative of a sensed battery charge current provided through the pass transistor and a first reference value based on a target battery charge current, the switching regulator controller controlling the power switch of the switching regulator based on the control signal to maintain a battery charge current substantially constant approximately corresponding to the first reference value, substantially independently of the device current and the battery voltage until the battery voltage approaches a maximum fully charged battery voltage level; reducing the battery charge current by a first CV controller monitoring the battery voltage and coupled to the pass transistor, by controlling a conductivity of the pass transistor when the battery voltage approaches the maximum fully charged battery voltage level; and reducing the battery charge current to substantially zero when the battery voltage is substantially at the maximum fully charged battery voltage level. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11)
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12. A method to control a composite battery charger charging a battery having a battery voltage, comprised of a switching regulator and a linear battery charger, the linear battery charger providing a battery charge current through a pass transistor, and the switching regulator including a power switch being turned on and off with a duty cycle by a pulse-width modulator (PWM), the switching regulator having an output voltage providing supply voltage for the linear battery charger and for one or more device circuits consuming a device current, the method comprising:
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maintaining the output voltage between a minimum and a maximum value; terminating battery charging when the battery voltage substantially reaches a predetermined maximum battery voltage value and the battery charge current drops below a predetermined battery current threshold value; sensing a signal representative of the battery charge current, comparing the signal to a reference value and generating a control signal based on the comparison; providing a target battery charge current to the battery when the output voltage is approximately at or above the minimum value and the battery voltage is below the maximum battery voltage value by substantially fully turning on the pass transistor and controlling the pass transistor current by the switching regulator based on the control signal; and limiting a power dissipation of the pass transistor below a predetermined level by one or more of;
limiting a voltage drop on the pass transistor as a function of the battery charge current, or limiting the target battery charge current as a function of the voltage drop on the pass transistor.
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13. A composite battery charger to charge a battery having a battery voltage, comprising:
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one or more device circuits; a switching regulator including; a power switch turned on and off with a duty cycle; an output voltage providing supply voltage for a linear battery charger and for one or more device circuits consuming a device current; a pass transistor of the linear charger turned substantially fully on in a constant current (CC) operating mode; a current error amplifier setting a control voltage based on a difference of a sensed battery charge current and a first reference value based on a target battery charge current; a pulse width modulator (PWM) controlling the duty cycle of the power switch based on the control voltage to maintain a battery charge current substantially constant approximately corresponding to the first reference value, substantially independently of the device current and the battery voltage until the battery voltage approaches a maximum fully charged battery voltage level; reducing the battery charge current by a first CV controller monitoring the battery voltage and coupled to the pass transistor, by controlling a conductivity of the pass transistor when the battery voltage approaches a maximum fully charged battery voltage level; and reducing the battery charge current to substantially zero when the battery voltage is substantially at the maximum fully charged battery voltage level.
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14. A composite battery charger to charge a battery having a battery voltage, comprising:
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a switching regulator including; a power switch turned on and off with a duty cycle set by a first controller; the switching regulator having an output voltage providing supply voltage for a linear charger and for one or more device circuits consuming a device current; the linear charger including; a pass transistor; a linear charger controller to turn the pass transistor substantially fully on in a constant current (CC) operating mode and to reduce the pass transistor'"'"'s conductivity when operating outside the CC operating mode; the first controller further to generate a control signal based on a difference of a sensed value representative of a battery charge current and a first reference value based on a target battery charge current, and to control the duty cycle of the power switch based on the control signal, to maintain the battery charge current substantially constant approximately corresponding to the first reference value, substantially independently of the battery voltage and the device current.
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Specification