CURRENT BASED OVERVOLTAGE AND UNDERVOLTAGE DETECTOR
First Claim
1. An apparatus comprising:
- a plurality of voltage-to-current converters, wherein each voltage-to-current converter receives an input voltage and generates an output current having a magnitude that is substantially proportional to the input voltage;
a first current detector that is coupled to the plurality of voltage-to-current converters, wherein the first current detector determines which output current from the plurality of voltage-to-current converters is the largest current;
an overvoltage detector that is coupled to the first current detector so as to receive the largest current and that compares the largest current to an overvoltage reference current, wherein the overvoltage detector generates an overvoltage signal indicating whether the largest current is greater than the overvoltage reference current;
a second current detector that is coupled to the plurality of voltage-to-current converters, wherein the second current detector determines which output current from the plurality of voltage-to-current converters is the smallest current; and
an undervoltage detector that is coupled to the first current detector so as to receive the smallest current and that compares the smallest current to an undervoltage reference current, wherein the undervoltage detector generates an undervoltage signal indicating whether the smallest current is less than the undervoltage reference current.
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Abstract
With batteries or cells, particularly lithium ion cells, it is important to determine when one or more cells have entered a fault condition (i.e., overvoltage or undervoltage). Conventional circuits employ measuring circuits that use multiple bandgap circuits and high voltage components. These conventional circuits, however, consume a great deal of area because of the use of these multiple bandgap circuits and the high voltage components. Here, a circuit is provided that reduces the number of bandgap circuits and reduces the number of high voltage components, reducing the area consumed and reducing the overall cost of production compared to conventional circuits.
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Citations
20 Claims
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1. An apparatus comprising:
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a plurality of voltage-to-current converters, wherein each voltage-to-current converter receives an input voltage and generates an output current having a magnitude that is substantially proportional to the input voltage; a first current detector that is coupled to the plurality of voltage-to-current converters, wherein the first current detector determines which output current from the plurality of voltage-to-current converters is the largest current; an overvoltage detector that is coupled to the first current detector so as to receive the largest current and that compares the largest current to an overvoltage reference current, wherein the overvoltage detector generates an overvoltage signal indicating whether the largest current is greater than the overvoltage reference current; a second current detector that is coupled to the plurality of voltage-to-current converters, wherein the second current detector determines which output current from the plurality of voltage-to-current converters is the smallest current; and an undervoltage detector that is coupled to the first current detector so as to receive the smallest current and that compares the smallest current to an undervoltage reference current, wherein the undervoltage detector generates an undervoltage signal indicating whether the smallest current is less than the undervoltage reference current. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An apparatus comprising:
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a plurality of cells coupled in series with one another, wherein each cell generates an input voltage; a plurality of voltage-to-current converters, wherein each voltage-to-current converter is coupled to at least one of the cells so as to generates an output current having a magnitude that is substantially to the input voltage of its corresponding cell; a first current detector that is coupled to the plurality of voltage-to-current converters, wherein the first current detector determines which output current from the plurality of voltage-to-current converters is the largest current; an overvoltage detector that is coupled to the first current detector so as to receive the largest current and that compares the largest current to an overvoltage reference current, wherein the overvoltage detector generates an overvoltage signal indicating whether the largest current is greater than the overvoltage reference current; a second current detector that is coupled to the plurality of voltage-to-current converters, wherein the second current detector determines which output current from the plurality of voltage-to-current converters is the smallest current; and an undervoltage detector that is coupled to the first current detector so as to receive the smallest current and that compares the smallest current to an undervoltage reference current, wherein the undervoltage detector generates an undervoltage signal indicating whether the smallest current is less than the undervoltage reference current. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14)
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15. An apparatus comprising:
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a plurality of cells coupled in series with one another, wherein each cell generates an input voltage; a plurality of capacitors, wherein each capacitor is coupled substantially in parallel to at least one of the cells; and a plurality of first resistors, wherein each first resistor is coupled to at least one of the cells; a plurality of voltage-to-current converters, wherein each voltage-to-current converter is coupled to at least one of the first resistors, and wherein each voltage-to-current converter includes; a first resistor that is coupled to its corresponding first resistor; a switch that is coupled to the second resistor; a third resistor that is coupled to the switch; and a current mirror that is coupled to the third resistor; a first current detector that is coupled to the current mirror from each voltage-to-current converter, wherein the first current detector determines which output current from the plurality of voltage-to-current converters is the largest current; an overvoltage detector including; a first reference current source that generates an overvoltage reference current; and a first current comparator that is coupled to the first current detector and the first reference current source so as to compare the largest current to the overvoltage reference current; a second current detector that is coupled to the current mirror from each voltage-to-current converter, wherein the second current detector determines which output current from the plurality of voltage-to-current converters is the smallest current; and an undervoltage detector including; a second reference current source that generates an undervoltage reference current; and a second current comparator that is coupled to the second current detector and the second reference current source so as to compare the smallest current to the undervoltage reference current. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification