Low-power semiconductor voltage comparator with hysteresis
First Claim
1. A low power voltage comparator for comparing a voltage output of first and second supplies, comprising:
- a comparison device having first and second inputs for receiving first and second input voltages, respectively, said comparison device being powered from at least one of the first and second supplies, said first and second input voltages corresponding to the voltages on the first and second supplies, respectively, and an output with first and second states, said output operating in the first state when said first input voltage is higher than said second input voltage, and said output operating in the second state when said first input voltage is lower than said second input voltage;
a first offset device disposed between said first input voltage and said first input and having first and second offset voltages selectable by a hysteresis control signal to offset said first input voltage, said first offset voltage greater than said second offset voltage, said first offset device having;
a current source for sourcing current from first input voltage and having a resistive element associated therewith to cause a voltage offset from said first input voltage for input to said first input of said comparison device, anda resistive controller for varying said resistive element from a first resistive value to provide said first offset voltage to a second and lower resistive value to provide said second offset voltage in response to a hysteresis control signal; and
a hysteresis control circuit for generating a hysteresis control signal in response to the output state of said comparison device to select said first offset voltage when the output of said comparison device is in the first state, and to select said second offset voltage when the output of said comparison device is in the second state.
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Accused Products
Abstract
The low power voltage comparator with hysteresis includes a comparator (10) that is operable to receive the output from a battery (14) on the positive input thereof and the output of a battery (16) on the negative input thereof. An offset circuit (22) is provided in series with the voltage of the battery (14) and the comparator (10), and an offset circuit (24) is provided between the battery (16) and the comparator (10). The offset circuits (22) and (24) are adjustable by a hysteresis control circuit (26) to offset the voltage thereof for the non-selected battery to be higher than that for the selected battery such that the voltage drop across the offset for the non-selected battery is greater than that for the selected battery. When the voltage on the selected battery falls below the offset voltage of the non-selected battery, the hysteresis control then decreases the offset upon selecting the other battery and increases the offset or the battery that is deselected. The offset circuits (22) and (24) each comprise primary resistive elements (26) and (36) which are connected through a current sink (50) to ground. The selection process by the hysteresis control circuit (26) is operable to place a parallel resistor (32) or (44) in parallel with the resistors (26) and (36), respectively. The selection process is effected with switches (34) and (46).
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Citations
24 Claims
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1. A low power voltage comparator for comparing a voltage output of first and second supplies, comprising:
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a comparison device having first and second inputs for receiving first and second input voltages, respectively, said comparison device being powered from at least one of the first and second supplies, said first and second input voltages corresponding to the voltages on the first and second supplies, respectively, and an output with first and second states, said output operating in the first state when said first input voltage is higher than said second input voltage, and said output operating in the second state when said first input voltage is lower than said second input voltage; a first offset device disposed between said first input voltage and said first input and having first and second offset voltages selectable by a hysteresis control signal to offset said first input voltage, said first offset voltage greater than said second offset voltage, said first offset device having; a current source for sourcing current from first input voltage and having a resistive element associated therewith to cause a voltage offset from said first input voltage for input to said first input of said comparison device, and a resistive controller for varying said resistive element from a first resistive value to provide said first offset voltage to a second and lower resistive value to provide said second offset voltage in response to a hysteresis control signal; and a hysteresis control circuit for generating a hysteresis control signal in response to the output state of said comparison device to select said first offset voltage when the output of said comparison device is in the first state, and to select said second offset voltage when the output of said comparison device is in the second state. - View Dependent Claims (2, 3, 4, 5)
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6. A low power voltage comparator for comparing a voltage output of two supplies on first and second supply nodes having first and second voltage levels, respectively, associated therewith, comprising:
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a comparison device having first and second inputs connected to the first and second supply nodes and an output with first and second states, said comparison device being powered from at least one of the first an second supply nodes, said output operating in the first state when the first input voltage level is higher than second input voltage level, and said output operating in the second state when first input voltage level is lower than the second input voltage level; a first offset device disposed between the first supply node and said first input and having first and second offset voltages selectable by a hysteresis control signal to offset the first input voltage level, said first offset voltage greater than said second offset voltage; a second offset device disposed between the second supply node and said second input and having first and second offset voltages selectable by said hysteresis control signal to offset the second input voltage level, said first offset voltage greater than said second offset voltage; and a hysteresis control circuit operable in response to the output state of said comparison device to generate said hysteresis control signal and select said first offset voltage in said first offset device and said second offset voltage in said second offset device when the output of said comparison device is in said first state, and to select said second offset voltage in said first offset device and said first offset voltage in said second offset device when the output of said comparison device is in said second state, each of said first and second offset devices having; a current source for sourcing current from one of the respective first and second input voltages having a resistive element associated therewith to cause a voltage offset from the respective one of said first and second input voltages for input to the respective one of said first and second inputs of said comparison device, and a resistive controller for varying said resistive element from a first resistive value to provide said first offset voltage to a second and higher resistive value to provide said second offset voltage in response to said hysteresis control signal generated by said hysteresis control circuit. - View Dependent Claims (7, 8, 9)
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10. A method for comparing a voltage output of first and second supplies and providing a control output with hysteresis having a first output state when voltage the output of the first supply is greater than the voltage output of the second supply and a second output state when the voltage output of the first supply is less than the voltage output of the second supply, comprising the steps of:
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providing a first voltage offset device having first and second selectable offset voltages with the step of disposing a current source between the first supply and a current sink for sourcing current from the first supply to the current sink, the current source having a resistive element associated therewith to cause a voltage offset from the voltage of the first supply to provide the first offset voltage signal; disposing the first voltage offset device in series with the voltage of the first supply to provide a first offset voltage signal; providing a comparator having first and second inputs, the first input for receiving the first offset voltage signal and the second input for receiving the voltage of the second supply; powering the comparator from one of the first and second supplies; comparing the voltage of the first offset voltage signal with the voltage of the second supply with the comparator and generating the control output in the first state when the first offset voltage is determined by the comparator to be less than the second supply voltage, and generating the control output in the second output state when the first offset voltage signal is determined by the comparator to be greater than the second supply of voltage; and selecting the first offset voltage in the first offset voltage device in response to the control output being in the first output state, and selecting the second offset voltage in the first voltage offset device when the control output is in the second output state, the step of selecting operating by varying the impedance of the resistive element from a first resistive value to provide the first offset voltage to a second and lower resistive value to provide the second offset voltage. - View Dependent Claims (11, 12)
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13. A method for comparing a voltage output of first and second supplies and providing a control output with hysteresis having a first output state when the voltage output of the first supply and the voltage output of the second supply and a second state when the voltage output of the first supply is less than the voltage output of the second supply, comprising the steps of:
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sourcing current from the first supply to a current sink with a first current source; sourcing current from the second supply to a current sink with a second current source; disposing a first resistive element in the current path of the first current source, the first resistive element having a first selectable resistive value and a second and lower selectable resistive value to provide a first offset voltage on the opposite side of the resistive element from the first supply; disposing a second resistive element in the current path of the second current source and having a first selectable resistive value and a second and lower selectable resistive value to provide second offset voltage on the opposite end of the second resistive element from the second supply; providing a comparator having first and second outputs with the first output connected to the first offset voltage and the second input connected to the second offset voltage, the comparator operable to provide the control output voltage in the first state when the first input is higher than the second input and the control output in the second state when the voltage on the first input is lower the voltage on the second input; powering the comparator from one of the first and second supplies; comparing the first and second offset voltages with the comparator and generating the control output in the first state when the first offset voltage is determined by the comparator to be higher than the second offset voltage and generating the control output in the second state when the first offset voltage is determined by the comparator to be lower than the second offset voltage; and selecting the second resistive value in the first resistive element and the first resistive value in the second resistive element when the first offset voltage changes from a value lower than the second offset voltage to a value higher than the second offset voltage, and selecting the first resistive value in the first resistive element and the second resistive value in the second resistive element when the first offset voltage changes from a value greater than the second offset voltage to a value lower than the second offset voltage; wherein the step of disposing the first resistive element in the current path of the current source and disposing the second resistive element in the current path of the second current source each comprise the steps of; disposing a primary resistive device in the paths of the respective one of the first and second current sources having a primary impedance value to provide the first resistive value of the associated first and second resistive elements, disposing a switchable resistive device in parallel with the associated primary resistive device and having a secondary impedance value, and the step of selecting operable to place the switchable resistive device in a parallel conductive path with the primary resistive device when the second resistive value is selected for each of the respective first and second resistive elements. - View Dependent Claims (14)
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15. A method for comparing a voltage output of first and second supplies and providing a control output with hysteresis having a first output state when the voltage output of the first supply and the voltage output of the second supply and a second state when the voltage output of the first supply is less than the voltage output of the second supply, comprising the steps of:
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sourcing current from the first supply to a current sink with a first current source; sourcing current from the second supply to a current sink with a second current source; disposing a first resistive element in the current path of the first current source, the first resistive element having a first selectable resistive value and a second and lower selectable value to provide a first offset voltage on the opposite side of the resistive element from the first supply; disposing a second resistive element in the current path of the second current source and having a first selectable resistive value and a second and lower selectable resistive value to provide second offset voltage on the opposite end of the second resistive element from the second supply; the step of disposing the first resistive element in the current path of the current source and disposing the second resistive element in the current path of the second current source each comprise the steps of; disposing a primary resistive device in the paths of the respective one of the first and second current sources having a primary impedance value to provide the first resistive value of the associated first and second resistive elements, disposing a switchable resistive device in parallel with the associated primary resistive primary device and having a secondary impedance value, and the step of selecting operable to place the switchable resistive device in a parallel conductive path with the primary resistive device when the second resistive value is selected for each of the respective first and second resistive elements; comparing the first and second offset voltages and generating the control output in the first state when the first offset voltage is higher than the second offset voltage and generating the control output in the second state when the first offset voltage is lower than the second offset voltage; and selecting the second resistive value in the first resistive element and the first resistive value in the second resistive element when the first offset voltage changes from a value lower than the second offset voltage to a value higher than the second offset voltage, and selecting the first resistive value in the first resistive element and the second resistive value in the second resistive element when the first offset voltage changes from a value greater than the second offset voltage to a value lower than the second offset voltage. - View Dependent Claims (16, 17)
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18. A low power voltage comparator for comparing voltage output of first and second supplies, comprising:
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a comparison device having first and second inputs for receiving first and second input voltages, respectively, said first and second input voltages corresponding to the voltage outputs on the first and second supplies, respectively, and an output with first and second states, said output operating in the first state when said first input voltage is higher than said second input voltage, and said output operating in the second state when said first input voltage is lower than said second input voltage; a first offset device disposed between said first input voltage and said first input and having first and second offset voltages selectable by a hysteresis control signal to offset said first input voltage, said first offset voltage greater than said second offset voltage, said offset device having; a current source for sourcing current from first input voltage and having a resistive element associated therewith to cause a voltage offset from said first input voltage for input to said first input of said comparison device, and a resistive controller for varying said resistive element from a first resistive value to provide said first offset voltage to a second and lower resistive value to provide said second offset voltage in response to generation of said hysteresis control signal; and a hysteresis control circuit for generating said hysteresis control signal in response to the output state of said comparison device to select said first offset voltage when the output of said comparison device is in the first state, and to select said second offset voltage when the output of said comparison device is in the second state. - View Dependent Claims (19, 20, 21, 22)
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23. A method for comparing a voltage output of first and second supplies and providing a control output with hysteresis having a first output state when the voltage output of the first supply is greater than the voltage output of the second supply and a second output state when the voltage output of the first supply is less than the voltage output of the second supply, comprising the steps of:
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providing a first voltage offset device having first and second selectable offset voltages, the step of providing the first voltage offset device comprising; providing a current source between the first supply and a current sink for sourcing current from the first supply to the current sink, the current source having a resistive element associated therewith to cause a voltage offset from the voltage of the first supply to provide the first offset voltage signal, and varying the impedance of the resistive element from a first resistive value to provide the first offset voltage to a second and lower resistive value to provide the second offset voltage, the step of varying the impedance of the resistive element controlled in the step of selecting; disposing the first voltage offset device in series with the voltage of the first supply to provide a first offset voltage signal; comparing the voltage of the first offset voltage signal with the voltage of the second supply and generating the control output in the first state when the first offset voltage is less than the second supply voltage, and generating the control output in the second output state when the first offset voltage signal is greater than the second supply of voltage; and selecting the first offset voltage in the first offset voltage device in response to the control output being in the first output state, and selecting the second offset voltage in the first voltage offset device when the control output is in the second output state. - View Dependent Claims (24)
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Specification