Temperature compensation bandgap voltage reference and method
First Claim
1. A bandgap voltage reference circuit with output temperature curvature correction, comprising:
- an uncorrected bandgap voltage reference cell that includes a bipolar cell transistor with a collector current that is proportional to absolute temperature (PTAT), and that generates an uncorrected output base voltage over a predetermined temperature range with a temperature curvature component in the form k1 T - k2 Tln(k3 T), where k1, k2 and k3 are constants and T is absolute temperature,a bipolar correction transistor,a current supply circuit for supplying a substantially constant collector current to said correction transistor, andmeans for generating a correction voltage that varies continuously with temperature over said temperature range, is proportional to the difference between the base-emitter voltages of said cell and correction transistors and has the form -k1 T + k2 Tln(k3 T), and for combining said correction voltage with said uncorrected output voltage to substantially cancel the output voltage'"'"'s temperature curvature component over said temperature range.
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Accused Products
Abstract
An output curvature correction is provided for a band-gap reference circuit that exhibits a temperature dependent output error in the form of k1 T - k2 Tln(k3 T) in the absence of the correction. A substantially constant collector current is driven through a correction transistor and used in connection with a proportional to absolute temperature (PTAT) transistor collector current in the uncorrected circuit. The difference between the base-emitter voltages for the two transistors has the form -k1 '"'"'T + k2 '"'"'ln(k3 '"'"'T.sub.). This voltage differential is scaled by an appropriate selection of resistor ratios and combined with the uncorrected circuit output to provide a corrected output that is substantially insensitive to temperature variations.
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Citations
11 Claims
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1. A bandgap voltage reference circuit with output temperature curvature correction, comprising:
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an uncorrected bandgap voltage reference cell that includes a bipolar cell transistor with a collector current that is proportional to absolute temperature (PTAT), and that generates an uncorrected output base voltage over a predetermined temperature range with a temperature curvature component in the form k1 T - k2 Tln(k3 T), where k1, k2 and k3 are constants and T is absolute temperature, a bipolar correction transistor, a current supply circuit for supplying a substantially constant collector current to said correction transistor, and means for generating a correction voltage that varies continuously with temperature over said temperature range, is proportional to the difference between the base-emitter voltages of said cell and correction transistors and has the form -k1 T + k2 Tln(k3 T), and for combining said correction voltage with said uncorrected output voltage to substantially cancel the output voltage'"'"'s temperature curvature component over said temperature range. - View Dependent Claims (2)
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3. A bandgap voltage reference circuit with output curvature correction, comprising:
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(1) an uncorrected bandgap voltage reference cell that includes (a) first and second bipolar transistors having their bases connected together to provide a base output voltage, their collectors connected to receive respective collector currents, the emitter of the first cell transistor connected to a voltage reference through first and second series connected cell resistors, and the emitter of the second cell transistor connected to said voltage reference through the second but not the first cell resistor, said cell transistor being scaled in area to maintain a proportional to absolute temperature (PTAT) collector current for said second cell transistor, and (b) an output circuit connected to provide a final output voltage from said base output voltage that varies continuously with temperature over a predetermined temperature range, (2) an output voltage correction circuit comprising; (a) a correction bipolar transistor having its base connected to the bases of said first and second cell transistors, its emitter connected through a first correction resistor to the junction of said first and second cell resistors, and its collector connected to receive a current through a second correction resistor, and (b) an operational amplifier having inverting and non-inverting inputs and an output connected respectively to the collector, base and emitter of said correction transistor, said amplifier establishing a substantially constant collector current for said correction transistor through said second correction resistor, said substantially constant current controlling the base-emitter voltage of said correction transistor to establish a correction current through said first correction and second cell resistors that modifies said base output voltage continuously over said predetermined temperature range to compensate for said final output voltage variation in accordance with k1 T - k2 Tln(k3 T), where k1, k2 and k3 are constants and T is absolute temperature, the values of said resistors being selected to maintain a substantially constant base output voltage over said predetermined temperature range. - View Dependent Claims (4, 5, 6)
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7. A bandgap voltage reference circuit with output temperature curvature correction, comprising:
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an uncorrected bandgap voltage reference cell that generates a voltage across a tail resistor, said voltage having a continuous temperature curvature component over a predetermined temperature range in the form k1 T - k2 Tln(k3 T), and that produces a base output voltage based upon said resistor voltage, where k1, k2 and k3 are constants and T is absolute temperature, and an output voltage correction circuit that comprises; a correction bipolar transistor having its base connected to said base output voltage, its emitter connected through a second correction resistor to provide a correction current to said tail resistor, and its collector connected to receive a current through a second correction resistor, and an operational amplifier having inverting and non-inverting inputs and an output connected respectively to the collector, base and emitter of said correction transistor, said amplifier producing a substantially constant current through said second correction resistor that establishes a correction current through said tail resistor, the resistance values of said resistors being selected so that said correction current produces a correction voltage across said tail resistor that various continuously with temperature over said predetermined temperature range and has the form -k1 T + k2 Tln(k3 T), thereby substantially cancelling the temperature curvature component of said uncorrected tail resistor voltage over said predetermined temperature range. - View Dependent Claims (8, 9)
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10. A method of compensating for continuous temperature-induced variations in the output voltage from a bandgap voltage reference cell over a predetermined temperature range, said cell including a bipolar cell transistor with a proportional to absolute temperature (PTAT) collector current, comprising:
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generating a collector current in a bipolar correction transistor that is substantially insensitive to temperature changes over said predetermined temperature range, obtaining the difference between the base-emitter voltage of said cell and correction transistors as a continuously varying function of temperature over said predetermined temperature range having the form k1 T - k2 Tln(k3 T), where k1, k2 and k3 are constants and T is absolute temperature, combining said difference with said base output voltage, and selecting the values of k1, k2 and k3 so that said base-emitter voltage difference substantially cancels said temperature-induced output voltage variations over said predetermined temperature range. - View Dependent Claims (11)
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Specification