Ultrasonic blood flow doppler audio with pitch shifting

What is claimed is: 1. An ultrasonic diagnostic imaging system which produces a Doppler audio signal of blood flow comprising: an ultrasound probe, operating at an ultrasonic Doppler transmit frequency f 0 , which acquires Doppler ultrasound signals in a range of frequencies in a Doppler audio band, said ultrasound signals being referenced to the Doppler transmit frequency from a location of blood flow; a Doppler demodulator, responsive to the Doppler ultrasound signals, which produces Doppler shift signals from the velocity of blood flow in an audio frequency band; a Doppler information display, responsive to Doppler shift signals, which displays blood flow velocity information based upon the Doppler shift; an audio Doppler system, responsive to the Doppler shift signals, which produces pitch-shifted audio Doppler without changing the displayed blood flow velocity, wherein the audio Doppler system is responsive to a user control to shift the pitch of the Doppler-shifted signals by a fractional or integer number of octaves by stretching the entire range of frequencies within the Doppler audio band and retaining harmonic relationships in the Doppler audio band so as to preserve the timbre of audio Doppler sounds, wherein the imaging system is operable with a selected one of a plurality of ultrasound probes, individually exhibiting a different nominal Doppler transmit frequency, and individually operable to acquire Doppler ultrasound signals from a location of blood flow; wherein the Doppler demodulator is further operable to detect Doppler shift signals in a frequency band which is a function of the nominal Doppler transmit frequency of a selected ultrasound probe; wherein the audio Doppler system is responsive to the detected Doppler shift signals to produce audio Doppler at a common nominal frequency irrespective of the nominal Doppler transmit frequency of the selected ultrasound probe; and wherein the audio Doppler system is responsive to the user control to produce audio Doppler sounds invariant to changes of a Doppler angle or based on an indication of a direction of blood flow adjusted by a user. 2. The ultrasonic diagnostic imaging system of claim 1 , wherein the audio Doppler system is operative to produce pitch-shifted audio Doppler without change in the ultrasonic transmit frequency f 0 or the displayed blood flow velocity. 3. The ultrasonic diagnostic imaging system of claim 2 , wherein the user control is operable to control a scaling of the frequency band for audio Doppler. 4. The ultrasonic diagnostic imaging system of claim 2 , wherein the audio Doppler system further comprises a phase vocoder which shifts the pitch of the Doppler-shifted signals. 5. The ultrasonic diagnostic imaging system of claim 2 , wherein the audio Doppler system further comprises a pitch controller, responsive to the user control, which produces a pitch shift factor K for control of the audio pitch shift. 6. The ultrasonic diagnostic imaging system of claim 1 , wherein the audio Doppler system further comprises a loudspeaker exhibiting a given frequency response; and wherein the shift in pitch is determined by the frequency response of the loudspeaker. 7. The ultrasonic diagnostic imaging system of claim 1 , wherein the Doppler demodulator is operative to produce demodulated Doppler signals in a band exhibiting a demodulation reference frequency, which band is determined by a Doppler equation, wherein the pitch-shifted audio Doppler band is different from the band determined by the Doppler equation and the demodulation reference frequency. 8. The ultrasonic diagnostic imaging system of claim 7 , wherein the Doppler equation is of the form f D = 2 ⁢ vf 0 ⁢ cos ⁢ ⁢ ϕ c . 9. The ultrasonic diagnostic imaging system of claim 1 , wherein each of the ultrasound probes exhibits a different nominal Doppler frequency f 0 ; wherein the Doppler demodulator is operable to detect Doppler signals by a Doppler equation which is a function of f 0 of a selected probe; and wherein the audio Doppler system produces audio Doppler related to a selected f 0 frequency for probes of different nominal Doppler frequencies.