System for preventing deep battery discharge
First Claim
1. A battery management system for managing the voltage of a battery cell providing power to a load, the battery management system to prevent the battery cell from being drained to a deep discharge condition after the battery management system has turned off power from the battery cell to the load, the battery management system comprising:
- a semiconductor switch coupled parallel to the battery cell, wherein the semiconductor switch is in an on condition when the voltage across the battery cell exceeds a first threshold voltage and in an off condition when the voltage across the battery cell is below a second, lower, threshold value; and
a microprocessor coupled to the semiconductor switch via a battery voltage sensing input;
wherein the semiconductor switch comprises first and second complementary transistors and a Zener diode; and
wherein the microprocessor monitors the voltage across the battery cell when the semiconductor switch is on, and turns itself off in response to the battery voltage sensing input falling to zero when the monitored voltage is less than the second threshold voltage, thereby preventing further current drain from the battery cell.
1 Assignment
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Accused Products
Abstract
A battery management system for managing the voltage of a battery cell, such as a lithium ion battery, is disclosed. The battery management system comprises a semiconductor switch coupled to the battery cell, wherein the semiconductor switch is in an on condition when the voltage across the battery cell exceeds a first threshold voltage, and a microprocessor coupled to the semiconductor switch, wherein the microprocessor monitors the voltage across the battery cell when the semiconductor switch is on, and turns itself off when the when the monitored voltage is less than a second threshold voltage, thereby preventing further current drain from the battery cell.
10 Citations
6 Claims
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1. A battery management system for managing the voltage of a battery cell providing power to a load, the battery management system to prevent the battery cell from being drained to a deep discharge condition after the battery management system has turned off power from the battery cell to the load, the battery management system comprising:
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a semiconductor switch coupled parallel to the battery cell, wherein the semiconductor switch is in an on condition when the voltage across the battery cell exceeds a first threshold voltage and in an off condition when the voltage across the battery cell is below a second, lower, threshold value; and a microprocessor coupled to the semiconductor switch via a battery voltage sensing input; wherein the semiconductor switch comprises first and second complementary transistors and a Zener diode; and wherein the microprocessor monitors the voltage across the battery cell when the semiconductor switch is on, and turns itself off in response to the battery voltage sensing input falling to zero when the monitored voltage is less than the second threshold voltage, thereby preventing further current drain from the battery cell. - View Dependent Claims (2, 3)
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4. A battery management system for managing the voltage of a battery cell providing power to a load, the battery management system to prevent the battery cell from being drained to a deep discharged condition after the battery management system has turned off power to the load, the battery management system comprising:
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a semiconductor switch comprising a Zener diode and a complementary transistor pair, the semiconductor switch being coupled in parallel with the battery cell, wherein the Zener diode begins conducting at a first threshold voltage and the semiconductor switch is in an on condition when the voltage across the battery cell exceeds the first threshold voltage; and a microprocessor coupled to the semiconductor switch via a battery voltage sensing input; wherein the microprocessor monitors the voltage across the battery cell when the semiconductor switch is on, and turns itself off in response to the battery voltage sensing input falling to zero when the monitored voltage is less than a second threshold voltage, thereby preventing further current drain from the battery cell. - View Dependent Claims (5, 6)
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Specification