Noise reduction method and system

The invention claimed is: 1. A hearing aid comprising a battery; an active component powered by the battery, wherein operation of the active component causes a power drain from the battery, and the active component includes at least part of a radio frequency (RF) transceiver in the hearing aid; an element connected to the active component to measure current drawn by the active component from the battery, wherein the element comprises a resistor, transformer, or Hall sensor; a noise sensitive component powered by the battery; and a processor powered by the battery, the processor being configured to obtain a measure of the power drain from the battery based on the current measured via the element, wherein the processor is configured to subtract a scaled noise estimate from an audio input signal from the noise sensitive component in response to detecting, based on the measure of the power drain, present usage of battery power by the active component. 2. The hearing aid according to claim 1 , where the processor is further configured to determine, based on the current power usage, if the component is in an active state or a non-active state, and to apply noise reduction based on the activity state of the component. 3. A hearing aid comprising a battery; an active component powered by the battery, wherein operation of the active component causes a power drain from the battery, and the active component includes at least part of a radio frequency (RF) transceiver in the hearing aid; an element connected to the active component to measure current drawn by the active component from the batter, wherein element comprises a resistor, transformer, or Hall sensor; a noise sensitive component powered by the battery; and a processor powered by the battery, the processor being configured to obtain a measure of the power drain from the battery based on the current measured via the element, wherein the processor is configured to subtract a scaled noise estimate from an audio input signal from the noise sensitive component in response to detecting, based on the measure of the power drain, present usage of battery power by the active component, and wherein the processor is further configured to perform at least one of the following determine, based on the current power usage, if the component is in an active state or a non-active state, and to apply noise reduction based on the activity state of the component; and estimate noise of an audio frequency range induced within the noise sensitive component. 4. The hearing aid according to claim 1 , wherein the noise sensitive component is at least one of a coil, a telecoil, or a microphone. 5. A hearing aid comprising a battery; an active component powered by the battery, wherein operation of the active component causes a power drain from the battery, and the active component includes at least part of a radio frequency (RF) transceiver in the hearing aid; an element connected to the active component to measure current drawn by the active component from the batter, wherein element comprises a resistor, transformer, or Hall sensor; a noise sensitive component powered by the battery; and a processor powered by the battery, the processor being configured to obtain a measure of the power drain from the battery based on the current measured via the element, wherein the processor is configured to subtract a scaled noise estimate from an audio input signal from the noise sensitive component in response to detecting, based on the measure of the power drain, present usage of battery power by the active component, and wherein the scaled noise estimate is determined by the processor based on a predetermined estimate of induced noise obtained from storage. 6. The hearing aid according to claim 1 , wherein the processor is configured to estimate a noise contribution of supply current based on the current measured via the element. 7. The hearing aid according to claim 6 , wherein the processor estimates the noise contribution from supply current based on an averaging over different instances of the noise. 8. The hearing aid according to claim 1 , wherein the processor utilizes a first order IIR filter to determine the scaled noise estimate. 9. A binaural hearing aid system comprising two hearing aids each according to claim 1 .