Patent ID: 7893754

Claim:
A temperature independent reference circuit fabricated on a semiconductor substrate comprising: first and second bipolar transistors, the base and collector of the first bipolar transistor being coupled to the base of the second bipolar transistor, a size ratio of the emitter of the second bipolar transistor to the emitter of the first bipolar transistor being equal to N, where N is an integer greater than 1, the emitter of the first bipolar transistor being coupled to a ground potential; first and second resistors coupled in series between the emitter of the second bipolar transistor and the ground potential, the first and second resistors having first and second resistance values, R 1 and R 2 , and third and second temperature coefficients, TC 3 and TC 2 , respectively; first and second transistors arranged as a current mirror with respect to the first and second bipolar transistors such that a reference current flows through each of the first and second bipolar transistors when power is supplied to the temperature independent reference circuit, the first and second resistance values being such that a temperature coefficient of a difference between the base-emitter voltages of the first and second bipolar transistors, TC 1 , is substantially equal to TC2×(R2/(R1+R2))+TC3×(R1/(R1+R2)) resulting in the reference current being substantially constant over temperature; a third bipolar transistor, the emitter of the third bipolar transistor being coupled to the ground potential, the base of the third bipolar transistor being coupled to the collector of the second bipolar transistor, and a third resistor coupled between a node and the collector of the second bipolar transistor, the reference current flowing through the third resistor when power is supplied to the temperature independent reference circuit, the third resistor having a third resistance value, R 3 , and the third temperature coefficient TC 3 , the third resistance value being such that a percent change of the base-emitter voltage of the third bipolar transistor is substantially equal to the percent change of a voltage drop across the third resistor over temperature, thereby resulting in a reference voltage being generated at the node that is substantially constant over temperature.