Claims
- 1. A direct current sum bandgap voltage comparator comprising:
- a summing node;
- a plurality of current sources connected to the summing node, each current source further comprising at least one transistor, and each current source supplying a current to the summing node and being connected to a power supply voltage, wherein the currents sources supply currents according to a bandgap equation:
- K.sub.1 (V.sub.CC -V.sub.T)+K.sub.1 V.sub.T =K.sub.2 V.sub.BE +K.sub.3 (kT/q)
- where V.sub.CC is the power supply voltage, V.sub.T is a predetermined threshold voltage of a transistor in a first current source within the plurality of current sources, V.sub.BE is a base emitter voltage of a transistor in a second current source within the plurality of current sources, k is Boltzman's constant, T is a temperature in kelvin of a transistor in a third current source within the plurality of current sources, q is an electronic charge constant, and K.sub.1, K.sub.2, and K.sub.3 are constants determined by a resistance and a transistor length in the first, second, and third current sources, respectively; and
- an indicator circuit having an input connected to the summing node and generating a logical signal at an output, responsive to voltage changes in the summing node.
- 2. The direct current sum bandgap voltage comparator of claim 1, wherein the plurality of current sources are current mirrors.
- 3. A direct current sum bandgap voltage comparator comprising:
- a summing node;
- a plurality of current sources connected to the summing node, each current source further comprising at least one transistor, and each current source supplying a current to the summing node and being connected to a power supply voltage; and
- an indicator circuit having an input connected to the summing node and generating a logical signal at an output, responsive to voltage changes in the summing node, wherein the currents sources supply currents according to a bandgap equation:
- K.sub.1 (V.sub.CC -V.sub.T)+K.sub.1 V.sub.T =K.sub.2 V.sub.BE +K.sub.3 (kT/ q)
- where V.sub.CC is the power supply voltage, V.sub.T is a predetermined threshold voltage of a transistor in a first current source within the plurality of current sources, V.sub.BE is a base emitter voltage of a transistor in a second current source within the plurality of current sources, k is Boltzman's constant, T is a temperature in kelvin of a transistor in a third current source within the plurality of current sources, q is an electronic charge constant, and K.sub.1, K.sub.2, and K.sub.3 are constants determined by a resistance and a transistor length in the first, second, and third current sources, respectively, and wherein the plurality of current sources comprises four current mirrors.
- 4. The direct current sum bandgap voltage comparator of claim 3, wherein the first current mirror includes a plurality of transistors and supplies a current to the summing node defined by K.sub.1 (V.sub.CC -V.sub.T).
- 5. The direct current sum bandgap voltage comparator of claim 4, wherein the second current mirror includes a plurality of transistors and supplies a current to the summing node defined by K.sub.1 V.sub.T.
- 6. The direct current sum bandgap voltage comparator of claim 5, wherein the third current mirror includes a plurality of transistors and supplies a current to the summing node defined by K.sub.2 V.sub.BE.
- 7. The direct current sum bandgap voltage comparator of claim 6, wherein the fourth current mirror supplies a current to the summing node defined by K.sub.3 (kT/q).
- 8. The direct current sum bandgap voltage comparator of claim 7 further comprising a clamping circuit connected to the summing node, wherein a voltage swing for the summing node, responsive to changes in current supplied by the current mirrors, may be set between predetermined voltages.
- 9. The direct current sum bandgap voltage comparator of claim 7 further comprising a cascode stage having at least a first and second connections, the first connection is connected to the summing node and the second connection is connected to one of the four current mirrors.
- 10. The direct current sum bandgap voltage comparator of claim 7 further comprising a hysteresis circuit connected to the indicator circuit to reduce noise.
- 11. The direct current sum bandgap voltage comparator of claim 7, wherein the indicator circuit includes a pair of inverters connected in series, wherein an input in the first inverter is the input of the indicator circuit connected to the summing node and an output of the second inverter is the output of the indicator circuit.
- 12. The direct current sum bandgap voltage comparator of claim 11, wherein the indicator circuit provides a logic one output if the power supply is equal to or greater than a preselected voltage.
- 13. A zero power circuit comprising:
- a first circuit;
- a direct current sum bandgap voltage comparator comprising:
- a summing node;
- a plurality of current sources connected to the summing node, each current source further comprising at least one transistor, and each current source supplying a current to the summing node and being connected to a power supply voltage, wherein the current sources supply according to a bandgap equation:
- K.sub.1 (V.sub.CC --V.sub.T)+K.sub.1 V.sub.T =K.sub.2 V.sub.BE +K.sub.3 (kT/q)
- where V.sub.CC is the power supply voltage, V.sub.T is a predetermined threshold voltage of a transistor in a first current source within the plurality of current sources, V.sub.BE is a base emitter voltage of a transistor in a second current source within the plurality of current sources, k is Boltzman's constant, T is a temperature in kelvin of a transistor in a third current source within the plurality of current sources, q is an electronic charge constant, and K.sub.1, K.sub.2, and K.sub.3 are constants determined by a resistance and a transistor length in the first, second, and third current sources, respectively;
- an indicator circuit having an input connected to the summing node and generating a logical signal at an output, responsive to changes in the summing node; and
- a switching circuit for providing power to the first circuit from a primary power supply and a secondary power supply, the switching circuit being connected to the output of the indicator circuit, wherein power from the primary power supply is supplied to the first circuit if the logical signal indicates that the power supply voltage is equal to or greater than the predetermined threshold voltage and power from the secondary power supply is supplied to the first circuit if the power supply voltage is less than the predetermined threshold voltage.
- 14. A zero power circuit comprising:
- a first circuit;
- a direct current sum bandgap voltage comparator comprising:
- a summing node;
- a plurality of current sources connected to the summing node, each current source further comprising at least one transistor, and each current source supplying a current to the summing node and being connected to a power supply voltage;
- an indicator circuit having an input connected to the summing node and generating a logical signal at an output, responsive to changes in the summing node; and
- a switching circuit for providing power to the first circuit from a primary power supply and a secondary power supply, the switching circuit being connected to the output of the indicator circuit, wherein power from the primary power supply is supplied to the first circuit if the logical signal indicates that the power supply voltage is equal to or greater than the preselected voltage and power from the secondary power supply is supplied to the first circuit if the power supply voltage is less than the preselected voltage, wherein the current sources supply according to a bandgap equation:
- K.sub.1 (V.sub.CC -V.sub.T)+K.sub.1 V.sub.T =K.sub.2 V.sub.BE +K.sub.3 (kT/q)
- where V.sub.CC is the power supply voltage, V.sub.T is a predetermined threshold voltage of a transistor in a first current source within the plurality of current sources, V.sub.BE is a base emitter voltage of a transistor in a second current source within the plurality of current sources, k is Boltzman's constant, T is a temperature in kelvin of a transistor in a third current source within the plurality of current sources, q is an electronic charge constant, and K.sub.1, K.sub.2, and K.sub.3 are constants determined by a resistance and a transistor length in the first, second, and third current sources, respectively, and wherein the plurality of current sources comprises four current mirrors.
- 15. The zero power circuit of claim 14, wherein the secondary power supply is a battery.
- 16. The zero power circuit of claim 14, wherein the first current mirror includes a plurality of transistors and supplies a current to the summing node defined by K.sub.1 (V.sub.CC -V.sub.T).
- 17. The zero power circuit of claim 14, wherein the second current mirror includes a plurality of transistors and supplies a current to the summing node defined by K.sub.1 V.sub.T.
- 18. The zero power circuit of claim 17, wherein the third current mirror includes a plurality of transistors and supplies a current to the summing node defined by K.sub.2 V.sub.BE.
- 19. The zero power circuit of claim 18, wherein the fourth current mirror supplies a current to the summing node defined by K.sub.3 (kT/q).
- 20. The zero power circuit of claim 19 further comprising a clamping circuit connected to the summing node, wherein a voltage swing for the summing node, responsive to changes in current supplied by the current mirrors, may be set between selected voltages.
- 21. The zero power circuit of claim 19 further comprising a cascode stage located between the summing node and the current mirrors.
- 22. The zero power circuit of claim 19 further comprising a hysteresis circuit connected to the indicator circuit to reduce noise.
- 23. The direct current sum bandgap voltage comparator of claim 19, wherein the indicator circuit provides a logic one output if the power supply is equal to or greater than a preselected voltage.
Parent Case Info
This is a Continuation of application Ser. No. 08/606,233, filed Feb. 23, 1996, now abandoned, which is a Continuation of application Ser. No. 08/056,301, filed Apr. 30, 1993, now abandoned.
US Referenced Citations (8)
Continuations (2)
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Number |
Date |
Country |
Parent |
606233 |
Feb 1996 |
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Parent |
56301 |
Apr 1993 |
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