Battery manager chip with crystal-controlled time base
First Claim
1. A battery management integrated circuit, comprising:
- connections for ground, for a source of current, for an electrical load, for a high-Q crystal, and for a hot terminal of a rechargeable battery;
a first switch configured to selectively connect the source of current to the hot terminal;
a second switch configured to selectively connect the hot terminal to the electrical load;
a plurality of comparators, including at least one comparator connected to detect when the voltage of the hot terminal becomes smaller than a predetermined first voltage;
control logic, with inputs connected to outputs of said comparators, and configured to turn on said first switch when said rechargeable battery needs to be charged, and to turn on said second switch when said electrical load can be powered from said rechargeable battery;
memory space including control registers accessible to said control logic, said control logic being configured to operate in response to the contents of said control registers, and also including timekeeping registers;
a crystal-controlled oscillator connected to generate digital signals at regular time intervals;
wherein the output of said crystal-controlled oscillator is connected to said control logic, and said control logic updates said timekeeping registers with reference thereto.
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Accused Products
Abstract
A battery management chip which controls charging and discharging currents of a rechargeable battery. A further novel teaching set forth in the present application is an integrated circuit which includes a crystal-controlled oscillator for precise time measurement. Crystal-controlled oscillators are normally fairly power-hungry circuits, and such circuits would not normally be used in the low-power part unless needed. However, according to this innovative teaching, the precise time integration provided by the crystal oscillator is significantly advantageous, since it permits accurate time integration to derive the present state of the battery after multiple charge and discharge cycles. In addition, in the presently preferred embodiment, a low-power crystal-controlled oscillator is used.
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Citations
3 Claims
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1. A battery management integrated circuit, comprising:
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connections for ground, for a source of current, for an electrical load, for a high-Q crystal, and for a hot terminal of a rechargeable battery; a first switch configured to selectively connect the source of current to the hot terminal; a second switch configured to selectively connect the hot terminal to the electrical load; a plurality of comparators, including at least one comparator connected to detect when the voltage of the hot terminal becomes smaller than a predetermined first voltage; control logic, with inputs connected to outputs of said comparators, and configured to turn on said first switch when said rechargeable battery needs to be charged, and to turn on said second switch when said electrical load can be powered from said rechargeable battery; memory space including control registers accessible to said control logic, said control logic being configured to operate in response to the contents of said control registers, and also including timekeeping registers; a crystal-controlled oscillator connected to generate digital signals at regular time intervals; wherein the output of said crystal-controlled oscillator is connected to said control logic, and said control logic updates said timekeeping registers with reference thereto. - View Dependent Claims (2, 3)
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Specification