Current measurement

The invention claimed is: 1. A current measurement apparatus comprising: a first resistance, including a first terminal to receive an input current signal, and including a second terminal to provide an output node; a second resistance, including a first terminal to receive an augmented current signal based on the input current signal, and including a second terminal coupled to the output node to sum the augmented current signal with the input current signal to provide a reference input current to the output node via the second terminal of the first and second resistances; and an amplifier circuit including first and second inputs respectively coupled to the first terminal of the first resistance and the first terminal of the second resistance to maintain like respective voltages thereof by using a feedback configuration to generate the augmented current signal. 2. The apparatus of claim 1 , further comprising: a measurement arrangement configured to be disposed in relation to a load to measure a load drawn current signal that passes through the load and to receive the reference input current, wherein an output signal from the measurement arrangement comprises a load output signal, corresponding to the load drawn current signal, and a reference output signal, corresponding to the reference input current. 3. The apparatus of claim 1 , further comprising: a processing circuit configured to receive the reference input current and make a determination in dependence on the reference output signal. 4. The apparatus of claim 1 , wherein power drawn through the second resistance is less than power drawn through the first resistance. 5. The apparatus of claim 1 , wherein a current level through the second resistance is more than one order of magnitude greater than a current level through the first resistance. 6. The apparatus of claim 1 , wherein the current though the second resistance is a multiple of the current through the first resistance and power drawn through the second resistance as divided by the multiple is less than power drawn through the first resistance. 7. The apparatus of claim 1 , further comprising: a measurement circuit to generate an acquired voltage signal based upon a voltage across a shunt resistor produced by a load drawn current in the shunt resistor and the reference input current in the shunt resistor; and a processing circuit configured to receive the acquired voltage signal and to make a determination in dependence on the acquired voltage signal. 8. The apparatus of claim 1 , wherein the amplifier circuit includes a non-inverting input terminal coupled to the first terminal of the first resistance, and an inverting input terminal coupled to the first terminal of the second resistance, and an amplifier output coupled to a switch that modulates flow of the augmented current signal in the second resistance. 9. The apparatus of claim 1 , wherein a ratio of a first resistance value and a second resistance value sets the augmented current signal to a desired multiple value of the input current signal. 10. The apparatus of claim 9 , wherein at least one of the resistances which provides for the ratio of resistances comprises plural resistor elements. 11. The apparatus of claim 10 , further comprising at least one switch which is operative to switch between different ones of the plural resistor elements, wherein a duty cycle for switching the at least one switch is determined based on at least one of resistor element degradation and resistor element matching. 12. The apparatus of claim 1 , wherein the amplifier circuit includes an amplifier output, and wherein the apparatus further includes a controllable current source configured to provide the augmented current signal based on an amplifier output signal at the amplifier output. 13. The apparatus of claim 12 , wherein the current source comprises a transistor, and wherein one of a gate and base of the transistor comprises a control input of the current source. 14. The apparatus of claim 1 , further comprising a first power supply configured to provide power to a first current source that supplies the input current signal to the first resistance, and a second power supply configured to provide power to a second current source that supplies the augmented current signal to the second resistance, wherein a magnitude of a voltage of the second power supply is less than a magnitude of a voltage of the first power supply. 15. The apparatus of claim 14 , wherein the second power supply comprises a DC-DC converter configured to reduce a magnitude of a power supply voltage to the second current source. 16. The apparatus of claim 14 , wherein the second current source comprises an inductor coupled in series between the second power supply and the second resistance, wherein the inductor is switched between a high side of the second power supply and a low side of the second power supply. 17. The apparatus of claim 16 , further comprising a pulse width modulator, wherein the amplifier includes an amplifier output that controls the pulse width modulator, and wherein switching of the inductor is controlled by an output from the pulse width modulator that is based on the amplifier output. 18. A current measurement apparatus comprising: a first resistance, including a second terminal coupled to an output node and including a first terminal to receive an input current signal portion of a reference input current received at the output node; a second resistance, including a second terminal coupled to the output node and including a first terminal coupled to receive an augmented current signal portion of the reference input current received at the output node; and an amplifier circuit including first and second inputs respectively coupled to the first terminal of the first resistance and the first terminal of the second resistance to maintain like respective voltages thereof by using a feedback configuration to generate the augmented current signal. 19. The current measurement apparatus of claim 18 , further comprising: a negative first power supply configured to sink the reference input current from the output node through the first resistance; and a negative second power supply configured to sink the augmented current signal from the output node through the second resistance. 20. The current measurement apparatus of claim 18 , wherein power drawn through the second resistance is less than power drawn through the first resistance. 21. The current measurement apparatus of claim 18 , further comprising: a measurement arrangement configured to be disposed in relation to a load to measure a load drawn current signal that passes through the load and to receive the reference input current at the output node, wherein an output signal from the measurement arrangement comprises a load output signal, corresponding to the load drawn current signal, and a reference output signal, corresponding to the reference input current. 22. The current measurement apparatus of claim 18 , wherein a current level through the second resistance is more than one order of magnitude greater than a current level through the first resistance. 23. A method for providing a reference current signal, comprising: providing an input current signal at a first terminal of a first resistance; receiving the input current signal at a second terminal of the first resistance; providing an augmented current signal based on the input current signal to