Gain calibration controller

The invention claimed is: 1. A gain calibration controller for a class D amplifier comprising an adjustable gain stage and a feedback path coupled to an output of a reconstruction filter, the gain calibration controller comprising: a gain calibration input operably coupled to the class-D amplifier output and a gain calibration output operably coupled to the adjustable gain stage; wherein the gain calibration controller is configured to detect a first output noise level of a class D audio amplifier in a first frequency range and a second output noise level of a class D audio amplifier in a second higher frequency range, determine an initial gain value from at least one of the first and second output noise levels, determine a minimum stable gain value of a stable gain range from a change in at least one of the first and second output noise levels in response to varying the gain of the adjustable gain stage, and determine a maximum stable gain value of the stable gain range from a change in at least one of the first and second output noise levels in response to varying the gain of the adjustable gain stage. 2. The gain calibration controller of claim 1 further configured to decrease the gain, detect an increase in at least one of the first and second output noise levels in response to decreasing the gain and determine the minimum stable gain value from the decreased gain value. 3. The gain calibration controller of claim 1 further configured to increase the gain, detect an increase in at least one of the first and second output noise levels in response to increasing the gain and determine the maximum stable gain value from the increased gain value. 4. The gain calibration controller of claim 1 further comprising storing the stable gain range and a preferred gain setting having a value within the stable gain range and applying the preferred gain setting to the class D amplifier. 5. The gain calibration controller of claim 1 further configured to determine an initial gain value by increasing the gain in response to the first noise level being above a first predetermined noise threshold value and reducing the gain in response to the second noise level being above a second predetermined noise threshold value. 6. The gain calibration controller of claim 1 configured to set the gain to a value corresponding to the middle of the stable gain range. 7. The gain calibration controller of claim 1 further comprising a parallel arrangement of a first filter having a first pass band, and a second filter having a second pass band wherein the second pass band has a higher frequency range than the first pass band, a stability controller having a first and second input coupled to the first filter and the second filter and an output operably coupled to the adjustable gain stage, wherein the stability controller is configured to determine a total noise level from the sum of the first noise level and the second noise level and to determine the minimum stable gain value and the maximum stable gain value from the total noise level. 8. The gain calibration controller of claim 1 further configured to set the gain to a value within the stable gain range and to switchably couple a low-pass filter into the feedback path of a class-D amplifier. 9. The gain calibration controller of claim 8 further configured to further vary the gain in response to one of the first noise level and the second noise level increasing when the low-pass filter is coupled in the feedback path. 10. A class-D audio amplifier system comprising: a gain calibration controller for a class D amplifier comprising an adjustable gain stage and a feedback path coupled to an output of a reconstruction filter, the gain calibration controller comprising: a gain calibration input operably coupled to the class-D amplifier output and a gain calibration output operably coupled to the adjustable gain stage; wherein the gain calibration controller is configured to: detect a first output noise level of a class D audio amplifier in a first frequency range and a second output noise level of a class D audio amplifier in a second higher frequency range, determine an initial gain value from at least one of the first and second output noise levels, determine a minimum stable gain value of a stable gain range from a change in at least one of the first and second output noise levels in response to varying the gain of the adjustable gain stage, and determine a maximum stable gain value of the stable gain range from a change in at least one of the first and second output noise levels in response to varying the gain of the adjustable gain stage; and a series arrangement of a comparator, a loop filter, a adjustable gain stage, a power amplifier stage and a reconstruction filter, and a feedback path arranged between the output of the reconstruction filter and the comparator of the class-D audio amplifier system; wherein the gain calibration controller input is coupled to the audio amplifier output and the gain calibration controller output is coupled to the adjustable gain stage. 11. The class-D audio amplifier system of claim 10 further comprising a low-pass filter coupled to a further gain calibration controller output and wherein the gain calibration controller is further configured to switchably couple the low-pass filter into the feedback path. 12. A method of gain calibration for a class D audio amplifier comprising an adjustable gain stage and a feedback path coupled to an output of a reconstruction filter, the method comprising: detecting a first output noise level in a first frequency range and a second output noise level in a second higher frequency range, determining a minimum stable gain value of a stable gain range from a change in at least one of the first and second output noise levels in response to varying the gain of the adjustable gain stage, and determining a maximum stable gain value of the stable gain range from a change in at least one of the first and second output noise levels in response to varying the gain of the adjustable gain stage. 13. The method of claim 12 wherein varying the adjustable gain stage further comprises reducing the gain and wherein determining the minimum stable gain value further comprises detecting an increase in at least one of the first and second output noise levels in response to reducing the gain and determining the minimum stable gain value from the reduced gain value. 14. The method of claim 12 wherein varying the adjustable gain stage further comprises increasing the gain and wherein determining the maximum stable gain value further comprises detecting an increase in at least one of the first and second output noise levels in response to increasing the gain and determining the maximum stable gain value from the increased gain value. 15. The method of any of claim 12 further comprising storing the determined stable gain range and a preferred gain setting having a value within the stable gain range and applying the stored preferred gain setting to the class D audio amplifier.