Claims
- 1. A voltage generator comprising a band gap voltage generator and a compensation circuit for introducing a correction factor into said band gap voltage generator,
- said band gap voltage generator comprising:
- a first bipolar transistor and a second bipolar transistor, said second bipolar transistor having a larger emitter area than the emitter area of said first bipolar transistor so that a base-emitter voltage drop (V.sub.BE) of said second bipolar transistor will be smaller than the V.sub.BE of said first bipolar transistor given similar currents through said first bipolar transistor and said second bipolar transistor,
- a base of said first bipolar transistor being connected to a base of said second bipolar transistor, an emitter of said second bipolar transistor being connected to an emitter of said first bipolar transistor through a first resistance (R1), said emitter of said first bipolar transistor being connected to a first node, collectors of said first bipolar transistor and said second bipolar transistor being connected to a source of current,
- a current (I) through said first resistance R1 being equal to
- I=.DELTA.V.sub.BE R1,
- where .DELTA. V.sub.BE equals the difference between said V.sub.BE of said first bipolar transistor and the V.sub.BE of said second bipolar transistor, said a V.sub.BE having a positive temperature coefficient being used to set off a V.sub.BE with a negative temperature coefficient when generating a band gap output voltage at an output terminal of said band gap voltage generator, so that said band gap output voltage will remain substantially constant over temperature,
- said band gap output voltage being affected by non-linear variations in the characteristics of said first bipolar transistor and said second bipolar transistor;
- said compensation circuit connected to said first node for coupling a first voltage generated by said compensation circuit to said first node related to
- (KT/q) ln (beta),
- where K is Boltzman's constant, T is temperature, q is electronic charge, and beta is the current amplification factor of said first bipolar transistor, said first voltage offsetting said non linear variations in said first bipolar transistor and said second bipolar transistor so as to improve predictability of said band gap output voltage.
- 2. The voltage generator of claim 1 wherein said compensation circuit comprises:
- a first voltage terminal for providing a first potential;
- a second voltage terminal for providing a second potential;
- a first current mirror electrically coupled to said first voltage terminal, said first current mirror providing substantially identical currents at a first output terminal and a second output terminal;
- a third transistor having an emitter, a base and a collector, said collector of said third transistor being electrically coupled to said first voltage terminal, said base of said third transistor being electrically coupled to said first output terminal of said first current mirror, said emitter of said third transistor being electrically coupled to said first node;
- a fourth transistor having an emitter, a base and a collector, said collector of said fourth transistor being electrically coupled to said second output terminal of said first current mirror, said emitter of said fourth transistor being electrically coupled to said first node, said base of said fourth transistor being electrically coupled to said base of said first bipolar transistor.
- 3. The voltage generator of claim 2 wherein said emitter of said third transistor is coupled to said second voltage terminal through a second resistance.
- 4. The voltage generator of claim 2 wherein said emitter of said fourth transistor is connected to said first node through a third resistance.
- 5. The voltage generator of claim 2 wherein said band gap voltage generator comprises:
- a second current mirror electrically coupled to said first voltage terminal, said second current mirror providing substantially identical currents at a first output terminal and a second output terminal;
- said collector of said first bipolar transistor being electrically coupled to said first output terminal of said second current mirror, said emitter of said first bipolar transistor being electrically coupled to said second voltage terminal through a forth resistance;
- said collector of said second bipolar transistor being electrically coupled to said second output terminal of said second current mirror.
- 6. The voltage generator of claim 2, wherein said band gap output voltage is approximately 1.25 volts.
- 7. The voltage generator of claim 2 further comprising:
- an amplifier having an input terminal electrically coupled to said collector of said second bipolar transistor, and an output terminal electrically coupled to said base of said second bipolar transistor.
- 8. The voltage generator of claim 2, wherein said first node of said band gap voltage generator is connected to said second voltage terminal through a second resistor and a third resistor electrically coupled in series with each other, and wherein said emitter of said fourth transistor is connected to a common connection of said second resistor and said third resistor through a fourth resistor.
- 9. The voltage generator of claim 1, wherein said band gap voltage generator is electrically coupled to an input of a comparator in a voltage regulator to supply a stable reference voltage for comparison to a feedback voltage.
- 10. A method of making a band gap output voltage of a band gap reference voltage generator less dependent on nonlinear variations in the characteristics of transistors forming the band gap reference voltage generator, said method comprising the steps of:
- generating a first voltage at an output of a compensation circuit related to
- (KT/Q) ln (beta),
- where K is Boltzman's constant, T is temperature, q is electronic charge, and beta is the current amplification factor of one or more transistors in said compensation circuit; and
- coupling said first voltage to a first node of said band gap reference voltage generator, said first voltage offsetting variations in said band gap output voltage due to said non-linear variations in the characteristics of transistors forming said band gap voltage generator.
Parent Case Info
This application is a division of application Ser. No. 08/326,408, filed Oct. 20, 1994, now U.S. Pat. No. 5,559,424.
US Referenced Citations (13)
Divisions (1)
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Number |
Date |
Country |
Parent |
326408 |
Oct 1994 |
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