Angular frequency extractor for controlling a brushed DC motor

What is claimed is: 1. An apparatus, comprising: a motor driver configured to drive a motor across a pair of input terminals of the motor; a current sense unit configured to sense an electrical current amplitude of the motor; and an angular frequency extractor operatively coupled to the motor driver and the current sense unit, the angular frequency extractor configured to: detect discontinuities in the electrical current amplitude of the motor, determine a time period of a rotor of the motor based on the detected discontinuities, and generate a feedback signal based on the determined time period to control an angular frequency of the motor, wherein the discontinuities in the motor's electrical current amplitude are detected by generating a derivative output signal of the sensed electrical current amplitude. 2. The apparatus of claim 1 further comprising: an error generator configured to generate an error signal based on the feedback signal generated by the angular frequency extractor and a motor control input signal, the error signal being provided as an input to the motor driver. 3. The apparatus of claim 1 , wherein the current sense unit includes at least one of a current sense resistor and a field effect transistor. 4. The apparatus of claim 1 , wherein the angular frequency extractor is further configured to measure an elapsed time value between adjacent discontinuities in the electrical current amplitude of the motor and to aggregate the elapsed time values between adjacent discontinuities to generate the feedback signal, the aggregated elapsed time values representing one complete revolution of the rotor of the motor. 5. The apparatus of claim 1 , wherein the angular frequency extractor comprises: a differentiator configured to generate the derivative output signal; an amplifier configured to amplify the derivative output signal to generate an amplified signal; a comparator configured to compare the amplified signal with a threshold signal to generate a comparator output signal; a one-shot configured to generate a voltage pulse based on the comparator output signal, the generated voltage pulse indicating that the amplified signal exceeds the threshold signal; and a timer configured to measure a time period of the voltage pulse. 6. The apparatus of claim 5 , wherein the angular frequency extractor further comprises: a peak detector configured to detect a peak amplitude of the amplified signal for generating a peak detector output signal, and wherein the timer is further configured to generate the threshold signal based on the peak detector output signal. 7. The apparatus of claim 1 , wherein the feedback signal is proportional to the angular frequency of the motor. 8. The apparatus of claim 1 , wherein the angular frequency extractor is further configured to detect discontinuities in the electrical current amplitude of the motor and to determine the time period of the motor's rotor while the motor driver continues to drive the motor. 9. An angular frequency extractor, comprising: a differentiator configured to receive a current amplitude signal indicative of an electrical current amplitude of a motor and to generate a derivative output signal based on the received current amplitude signal; an amplifier configured to amplify the derivative output signal to generate an amplified signal; a comparator configured to compare the amplified signal with a threshold signal to generate a comparator output signal; a one-shot configured to generate a voltage pulse based on the comparator output signal, the generated voltage pulse indicating that the amplified signal exceeds the threshold signal; and a timer configured to measure a time period of the voltage pulse to generate a feedback signal for use in controlling the motor. 10. The angular frequency extractor of claim 9 further comprising: a peak detector configured to detect a peak amplitude of the amplified signal for generating a peak detector output signal, and wherein the timer is further configured to generate the threshold signal based on the peak detector output signal. 11. The angular frequency extractor of claim 9 , wherein the feedback signal is proportional to an angular frequency of the motor. 12. An apparatus, comprising: a motor comprising input terminals; a motor driver configured to drive the motor across the input terminals of the motor; a current sense unit configured to sense an electrical current amplitude of the motor; an angular frequency extractor operatively coupled to the motor driver and the current sense unit, the angular frequency extractor configured to: detect discontinuities in the electrical current amplitude of the motor, determine a time period of a rotor of the motor based on the detected discontinuities, and generate a feedback signal based on the determined time period to control an angular frequency of the motor, the angular frequency extractor comprises: a differentiator configured to generate a derivative output signal based on the sensed electrical current amplitude, a comparator configured to generate a comparator output signal by comparing a representation of the derivative output signal with a threshold signal, and a timer configured to measure a time period associated with the comparator output signal; and an error generator configured to generate an error signal based on the feedback signal generated by the angular frequency extractor and a motor control input signal, the error signal being provided as an input to the motor driver. 13. The apparatus of claim 12 , wherein the current sense unit includes at least one of a current sense resistor and a field effect transistor. 14. The apparatus of claim 12 , wherein the angular frequency extractor is further configured to measure an elapsed time value between adjacent discontinuities in the electrical current amplitude of the motor and to aggregate the elapsed time values between adjacent discontinuities to generate the feedback signal, the aggregated elapsed time values representing one complete revolution of the rotor of the motor. 15. The apparatus of claim 12 , wherein the angular frequency extractor further comprises: an amplifier configured to receive the derivative output signal and amplify the received derivative output signal to generate an amplified signal, the amplified signal passed to the comparator for comparison with the threshold signal; and a one-shot configured to generate a voltage pulse based on the comparator output signal, the generated voltage pulse indicating that the amplified signal exceeds the threshold signal, wherein the timer is further configured to measure the time period associated with the comparator output signal by measuring a time period of the generated voltage pulse. 16. The apparatus of claim 15 , wherein the angular frequency extractor further comprising: a peak detector configured to detect a peak amplitude of the amplified signal for generating a peak detector output signal, and wherein the timer is further configured to generate the threshold signal based on the peak detector output signal. 17. The apparatus of claim 12 , wherein the feedback signal is proportional to the angular frequency of the motor. 18. The apparatus of claim 12 , wherein the angular frequency extractor is further configured to detect discontinuities in the electrical current amplitude of the motor and to determine the time period of the motor's rotor while the motor driver continues to drive the motor. 19. A method, comprising: driving a motor