Battery charger with low heat dissipation
First Claim
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1. A battery charger circuit for charging a battery from a power source, the circuit comprising:
- an inductor including a main winding and an auxiliary winding;
a series switch operative in open and closed states connected in series with the power source and said main winding of said inductor;
an energy storage circuit connected to said auxiliary winding of said inductor for storing energy to be used for controlling said series switch;
a bootstrap network connected from the power source to said energy storage circuit for providing energy; and
a control circuit that controls said series switch such that a supply voltage from the power source is intermittently applied to said inductor for providing a charging current to the battery.
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Abstract
A battery charger (14) with low heat generation for charging exothermic batteries (12) such as NiMH batteries, as well as endothermic batteries. Energy from a power source is chopped and filtered to provide a controlled charging current. The circuit (14) includes a series switch (34), bootstrap network (56), energy storage circuit (61), and an output inductor (40) having an auxiliary winding (38). The energy storage circuit (61) supplies power to the series switch (34). The bootstrap network (56) provides a path for energy from the power source to the energy storage circuit (61). Power dissipation in the bootstrap network (56) is minimized by supplementing local energy storage with energy coupled from the auxiliary winding (38) of the inductor (40). Both variable frequency or fixed frequency modulation techniques can be employed to drive the series switch (34). Hysteretic charge current control combined with energy coupled from the output inductor (40) is one method to minimize circuit power dissipation and subsequent heat generation.
47 Citations
19 Claims
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1. A battery charger circuit for charging a battery from a power source, the circuit comprising:
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an inductor including a main winding and an auxiliary winding; a series switch operative in open and closed states connected in series with the power source and said main winding of said inductor; an energy storage circuit connected to said auxiliary winding of said inductor for storing energy to be used for controlling said series switch; a bootstrap network connected from the power source to said energy storage circuit for providing energy; and a control circuit that controls said series switch such that a supply voltage from the power source is intermittently applied to said inductor for providing a charging current to the battery. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A battery charger circuit for charging a battery from a high voltage power source comprising:
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a chopper circuit connected in series between the power source and the battery for providing a controlled charging current to the battery, said chopper circuit including a switching device, a control circuit for controlling the conductive state of the switching device, and an output inductor having a primary winding and an auxiliary winding; an energy storage circuit connected to said control circuit for storing energy that is supplied by said control circuit to said switching device to control the conductive state of said switching device; a high impedance bootstrap network connected between the power source and said energy storage circuit for providing a first high voltage source of energy to said energy storage circuit; and said energy storage circuit being further connected to said auxiliary winding of said output inductor for providing a second low voltage source of energy to said energy storage circuit. - View Dependent Claims (13, 14, 15, 16)
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17. A battery charger circuit for charging batteries from a power source having a first terminal and a second terminal, the circuit comprising:
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an output inductor including a main winding and an auxiliary winding; a first switching device operative in open and closed states, having a control input; a current sense resistor connected in series with the main winding of the output inductor, the first switching device, and the first terminal of the power source; a first junction formed at the connection of the first switching device and the main winding of the output inductor; a first device for providing a unidirectional current path connected from the second terminal of the power source to the first junction; an energy storage circuit comprising; a diode and the auxiliary winding of the output inductor coupled in series and connected in parallel with an energy storage capacitor; a control circuit comprising; a second switching device connected from the energy storage circuit to the first switching device, the second switching device for supplying turn-on energy to the control input of the first switching device; a second junction formed at the connection of the energy storage circuit and the second switching device; and a latch circuit connected to the current sense resistor and the first switching device; and a bootstrap resistor connected from the first terminal of the power source to the second junction, the bootstrap resistor for providing a charging path for current flowing into the energy storage circuit; whereby, energy from the auxiliary winding of the inductor flows into the energy storage capacitor reducing the quantity of charge that must be supplied through the bootstrap resistor to the energy storage circuit.
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18. A method of charging a battery from a power source with a circuit having a switch and an inductor connected in series, said method comprising:
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supplying energy from the power source to an energy storage circuit through a bootstrap network; powering a control circuit with energy from the energy storage circuit; generating a control signal with the control circuit; transmitting the control signal to the switch, thereby intermittently applying the supply voltage to the inductor; generating a time-varying current through the inductor in response to the application of the supply voltage; and coupling energy from the inductor into the energy storage circuit for supplementing the energy provided through the bootstrap network; whereby coupling energy from the inductor into the energy storage circuit reduces the quantity of energy that must be provided through the bootstrap network resulting in lower circuit power dissipation. - View Dependent Claims (19)
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Specification
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Current AssigneeBlack & Decker Incorporated (Stanley Black & Decker, Inc.)
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Original AssigneeBlack & Decker Incorporated (Stanley Black & Decker, Inc.)
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InventorsWatts, Fred S.
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Primary Examiner(s)NGUYEN, MATTHEW VAN
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Application NumberUS09/384,155Time in Patent Office473 DaysField of Search323/270, 323/271, 323/273, 323/274, 323/277, 323/282, 323/284, 323/285, 320/2, 320/4, 320/21, 320/27, 320/51, 320/53, 320/DIG. 1US Class Current323/282CPC Class CodesH02J 2207/20 Charging or discharging cha...H02J 7/02 for charging batteries from...H02M 3/1563 without using an external c...
