Voltage regulator

The invention claimed is: 1. A voltage regulator comprising: a supply terminal configured to receive a supply voltage; a reference terminal; an output terminal configured to provide a regulated output voltage; a reference current generator coupled between the supply terminal and the reference terminal and configured to provide a reference current that is independent of an operating range of the supply voltage; and a regulator stage comprising: a current terminal configured to receive the reference current from the reference current generator; a NMOS transistor having: a gate terminal coupled to the current terminal; a drain terminal coupled to the supply terminal; and a source terminal coupled to the output terminal; a voltage reference circuit coupled between the output terminal and the reference terminal and configured to provide the regulated output voltage, the voltage reference circuit comprising a first output resistor coupled in series with a conduction channel of an output bipolar transistor, wherein the output bipolar transistor is arranged in a diode-connected configuration; an input bipolar transistor having: a conduction channel coupled between the current terminal and the reference terminal; and a base terminal coupled to a base terminal of the output bipolar transistor such that the input bipolar transistor and the output bipolar transistor form a bipolar current mirror for mirroring the reference current through the voltage reference circuit. 2. The voltage regulator of claim 1 , wherein: the input bipolar transistor and the output bipolar transistor are matched to bipolar transistors of the reference current generator; and the first output resistor is matched to an output current resistor of the reference current generator. 3. The voltage regulator of claim 2 , wherein: the input bipolar transistor and the output bipolar transistor are matched to the bipolar transistors of the reference current generator by each transistor sharing one or more of: a same type, a same temperature coefficient, a same fabrication process, a same wafer, a same time of manufacture and/or a same location on the layout; and the first output resistor is matched to the output current resistor of the reference current generator by each resistor sharing one or more of: a same type, a same temperature coefficient, a same fabrication process, a same wafer, a same time of manufacture and/or a same location on the layout. 4. The voltage regulator of claim 1 , wherein the voltage reference circuit comprises one or more further voltage reference blocks coupled in series with the first output resistor and the output bipolar transistor between the output terminal and the reference terminal, each further voltage reference block comprising: a further output resistor; and a further bipolar transistor arranged having a conduction channel connected in series with the further output resistor. 5. The voltage regulator of claim 4 , wherein the further bipolar transistor is arranged in a diode connected configuration. 6. The voltage regulator of claim 4 , wherein the further voltage reference block comprises: a first further division resistor coupled between a base terminal of the further bipolar transistor and a first conduction channel terminal of the further bipolar transistor; and a second further division resistor coupled between the base terminal of the further bipolar transistor and a second conduction channel terminal of the further bipolar transistor. 7. The voltage regulator of claim 4 , wherein: each further bipolar transistor is matched to the output bipolar transistor and bipolar transistors of the reference current generator; and each further output resistor is matched to the first output resistor and an output current resistor of the reference current generator. 8. The voltage regulator of claim 1 , wherein the reference current generator comprises: a bias resistance; a first bipolar transistor; a second bipolar transistor; a third bipolar transistor; a fourth bipolar transistor; and an output current resistor, wherein: the bias resistance is coupled to the supply terminal and configured to provide a bias current to a conduction channel of the fourth bipolar transistor; the conduction channel of the fourth bipolar transistor is connected between the bias resistance and a first node; a conduction channel of the third bipolar transistor is connected between the first node and the reference terminal; the output current resistor is coupled between the reference terminal and a conduction channel of the first bipolar transistor; the conduction channel of the first bipolar transistor is connected between the output current resistor and a second node; a conduction of the second bipolar transistor is coupled between the second node and a reference current output terminal; a base terminal of the fourth bipolar transistor is connected to a base terminal of the second bipolar transistor; a base terminal of the third bipolar transistor is connected to the second node; a base terminal of the first bipolar transistor is connected to the first node; and the fourth bipolar transistor is arranged in a diode connected configuration. 9. The voltage regulator of claim 8 , wherein a resistance value of the first output resistor is based on a resistance value of the output current resistor and a temperature co-efficient of a collector-emitter voltage of the output bipolar transistor. 10. The voltage regulator of claim 8 , wherein the reference current generator further comprises a PMOS mirror configured to mirror the reference current from the reference current output terminal to the regulator stage. 11. The voltage regulator of claim 8 , wherein based on a temperature coefficient of the output current resistor, the reference current generator is one of: a proportional to absolute temperature, PTAT, current generator; a complementary to absolute temperature, CTAT, current generator; and a temperature independent current generator. 12. The voltage regulator of claim 11 , wherein a resistance value of each further output resistor is based on a resistance value of the output current resistor and a temperature co-efficient of a collector-emitter voltage of the corresponding further bipolar transistor. 13. The voltage regulator of claim 8 , wherein effective sizes of the second, third and fourth bipolar transistors are substantially the same. 14. The voltage regulator of claim 8 , wherein an effective size of the first bipolar transistor is greater than the effective size of the second bipolar transistor. 15. The voltage regulator of claim 8 , wherein a resistance value the first output resistor is based on a resistance value of the output current resistor, a ratio of an effective size of the input bipolar transistor to an effective size of the output bipolar transistor, a ratio of an effective size of the first bipolar transistor to an effective size of the second bipolar transistor, a temperature coefficient of a thermal voltage of the first bipolar transistor and a temperature co-efficient of a collector-emitter voltage of the output bipolar transistor. 16. The voltage regulator of claim 8 , wherein the voltage reference circuit comprises one or more further voltage reference blocks coupled in series with the first output resistor and the output bipolar transistor between the output terminal and the reference terminal, each further voltage reference block comprising: a further output resistor; and a further bipolar transistor arranged having a conduction channel