Low voltage current mode bandgap circuit and method

What is claimed is: 1. A circuit, comprising: a first amplifier for receiving a reference voltage proportional to absolute temperature (VPTAT) at an inverting input of the first amplifier and a reference base-to-emitter voltage (VBE) at a non-inverting input of the first amplifier, and for generating a first control signal in response to the reference VPTAT and the reference VBE; a first transistor for generating a first reference zero temperature coefficient current (IZTC) in response to the first control signal, wherein the first transistor is coupled to a first common node, wherein the common node is operable to divide the first IZTC amongst a first branch, a second branch, and a third branch such that the first branch carries a first proportional to absolute temperature current (IPTAT) sourced from the common node, the second branch carries a second IPTAT sourced from the common node, and the third branch carries a first complementary to absolute temperature current (ICTAT) sourced from the common node, wherein the reference VPTAT is generated in response to the first IPTAT, and wherein the reference VBE is generated in response to the second IPTAT; a second transistor comprising a source, a gate, and a drain, wherein the source of the second transistor is coupled to the third branch; a third transistor comprising a source, a gate, and a drain, wherein: the source of the third transistor is coupled to the third branch; and the gate of the third transistor is coupled to the drain of the third transistor; a fourth transistor comprising a source, a gate, and a drain, wherein: the source of the fourth transistor is coupled to the third branch; the gate of the fourth transistor is coupled to the gate of the third transistor; and the drain of the fourth transistor is coupled to the gate of the second transistor; and a fifth transistor comprising a source, a gate, and a drain, wherein the source of the fifth transistor is coupled to the gate and drain of the third transistor; a sixth transistor comprising a source, a gate, and a drain, wherein: the source of the sixth transistor is coupled to the gate of the second transistor and the drain of the fourth transistor; and the gate of the sixth transistor is coupled to the drain of the second transistor; a first resistor comprising a first terminal and a second terminal, wherein the first terminal of the first resistor is coupled to the drain of the second transistor and the gate of the sixth transistor; and a second resistor comprising a first terminal and a second terminal, wherein: the first terminal of the second resistor is coupled to the drain of the fifth transistor and drain of the sixth transistor; and the second terminal of the second resistor is coupled to the second terminal of the first resistor; and a seventh transistor for generating a second IZTC in response to the first control signal. 2. The circuit of claim 1 further comprising: an eighth transistor for generating a third IZTC in response to the first control signal, the eighth transistor is coupled to a first terminal of a third resistor, wherein the third resistor is used to generate a zero temperature coefficient voltage (VZTC). 3. A system, comprising: a power supply for generating an analog power source; a first amplifier coupled to the power supply and operable to receive a reference voltage proportional to absolute temperature (VPTAT) at an inverting input of the first amplifier and a reference base-to-emitter voltage (VBE) at a non-inverting input of the first amplifier, the first amplifier being further operable to generate a first control signal in response to the reference VPTAT and the reference VBE; and a first transistor coupled to the analog power source and operable to generate a first reference zero temperature coefficient current (IZTC) in response to the first control signal, wherein the first transistor is coupled to a common node, wherein the common node is operable to divide the first IZTC amongst a first branch, a second branch, and a third branch such that the first branch carries a first proportional to absolute temperature current (IPTAT) sourced from the common node, the second branch carries a second IPTAT sourced from the common node, and the third branch carries a first complementary to absolute temperature current (ICTAT) sourced from the common node, wherein the reference VPTAT is generated in response to the first IPTAT, and wherein the reference VBE is generated in response to the second IPTAT; a second transistor comprising a source, a gate, and a drain, wherein the source of the second transistor is coupled to the third branch; a third transistor comprising a source, a gate, and a drain, wherein: the source of the third transistor is coupled to the third branch; and the gate of the third transistor is coupled to the drain of the third transistor; a fourth transistor comprising a source, a gate, and a drain, wherein: the source of the fourth transistor is coupled to the third branch; the gate of the fourth transistor is coupled to the gate of the third transistor; and the drain of the fourth transistor is coupled to the gate of the second transistor; a fifth transistor comprising a source, a gate, and a drain, wherein the source of the fifth transistor is coupled to the gate and drain of the third transistor; a sixth transistor comprising a source, a gate, and a drain, wherein: the source of the sixth transistor is coupled to the gate of the second transistor and the drain of the fourth transistor; the gate of the sixth transistor is coupled to the drain of the second transistor; a first resistor comprising a first terminal and a second terminal, wherein the first terminal of the first resistor is coupled to the drain of the second transistor and the gate of the sixth transistor; a second resistor comprising a first terminal and a second terminal, wherein: the first terminal of the second resistor is coupled to the drain of the fifth transistor and drain of the sixth transistor; and the second terminal of the second resistor is coupled to the second terminal of the first resistor; and a seventh transistor for generating a second IZTC in response to the first control signal. 4. The system of claim 3 further comprising: an eighth transistor for generating a third IZTC in response to the first control signal, the eighth transistor is coupled to a first terminal of a third resistor, wherein the third resistor is used to generate a zero temperature coefficient voltage (VZTC).