Ultrasound devices for estimating blood pressure and other cardiovascular properties

The invention claimed is: 1. An ultrasound cardiovascular measuring device comprising: a wearable ultrasonic sensor system configured to be placed in contact with an outside skin surface of a subject, the ultrasonic sensor system comprising: an outer surface; an ultrasound transmitter layer configured to generate ultrasonic plane waves; a focusing layer residing and remaining between the ultrasound transmitter layer and the outer surface, the focusing layer comprising two or more lenses configured to focus the ultrasonic plane waves into a beam of ultrasound across an arterial longitudinal axis, the two or more lenses including at least one cylindrical lens, the beam of ultrasound having a cross-section and a long axis of the cross-section being longer than a short axis of the cross-section, wherein the two or more lenses of the focusing layer further comprise at least one lens that is oriented at non-orthogonal angle relative to the outer surface of the ultrasonic sensor system and configured to cause a portion of an ultrasonic plane wave to be refracted along the non-orthogonal angle; and an ultrasound receiver layer comprising one or more receiver elements configured to detect ultrasonic reflections and to generate output signals corresponding to detected ultrasonic reflections; and a control system comprising one or more processors, the control system configured to process the output signals to calculate values corresponding to one or more cardiovascular properties, wherein the one or more cardiovascular properties include blood pressure. 2. The ultrasound cardiovascular measuring device of claim 1 , wherein the focusing layer comprises acoustic matching material in which the two or more lenses are embedded. 3. The ultrasound cardiovascular measuring device of claim 1 , wherein the two or more lenses of the focusing layer comprise at least a first lens and a second lens, wherein the first lens is configured to focus an ultrasonic plane wave of the ultrasonic plane waves at a first focal depth and the second lens is configured to focus the ultrasonic plane wave of the ultrasonic plane waves at a second focal depth. 4. The ultrasound cardiovascular measuring device of claim 1 , wherein the two or more lenses of the focusing layer comprise at least two lenses that are spaced apart along the arterial longitudinal axis. 5. The ultrasound cardiovascular measuring device of claim 4 , wherein the control system is capable of calculating a pulse transit time or a pulse wave velocity of an arterial pressure pulse propagating along the arterial longitudinal axis. 6. The ultrasound cardiovascular measuring device of claim 1 , wherein the control system is capable of calculating a blood flow based, at least in part, on a Doppler shift or Doppler shift related signal indicated by the output signals from the ultrasound receiver layer. 7. The ultrasound cardiovascular measuring device of claim 1 , wherein at least one of the one or more receiver elements is positioned in the ultrasound receiver layer to detect ultrasonic reflections redirected through the two or more lenses in the focusing layer. 8. The ultrasound cardiovascular measuring device of claim 7 , wherein the one or more receiver elements comprise at least two receiver elements and wherein the control system is capable of selectively sampling the output signals of a subset of the receiver elements. 9. The ultrasound cardiovascular measuring device of claim 1 , wherein: the ultrasound transmitter layer comprises a first polyvinylidene fluoride (PVDF) transducer layer; the one or more receiver elements comprise a plurality of receiver elements; and the ultrasound receiver layer comprises a second PVDF transducer layer and a thin film transistor (TFT) layer, wherein the plurality of receiver elements is coupled to the second PVDF transducer layer. 10. The ultrasound cardiovascular measuring device of claim 1 , wherein the control system is capable of calculating a cross-sectional area of a blood vessel based, at least in part, on the output signals from the ultrasound receiver layer. 11. The ultrasound cardiovascular measuring device of claim 10 , wherein the control system is capable of performing multiple calculations of the cross-sectional area of the blood vessel based, at least in part, on the output signals received from the ultrasound receiver layer at multiple times. 12. The ultrasound cardiovascular measuring device of claim 11 , wherein the control system is capable of determining instances of heart beats and wherein the multiple times correspond to time intervals between the instances of heart beats. 13. The ultrasound cardiovascular measuring device of claim 1 , wherein the two or more lenses of the focusing layer include at least one lens selected from a group of lenses consisting of a spherical lens, a concave lens, a convex lens, a zone lens and a zone plate. 14. An ultrasound cardiovascular measuring device comprising: a non-interfering ultrasonic sensor system configured to be integrated within a button or a display of a mobile computing device, the non-interfering ultrasonic sensor system configured not to perturb an artery being measured and configured not to interfere with flow of blood through an arterial system, the non-interfering ultrasonic sensor system comprising: an ultrasound transmitter layer configured to generate ultrasonic plane waves; a focusing layer residing and remaining between the ultrasound transmitter layer and the button or the display, the focusing layer configured for focusing the ultrasonic plane waves into a beam of ultrasound across an arterial longitudinal axis, the beam of ultrasound having a cross-section and a long axis of the cross-section being longer than a short axis of the cross-section, wherein the focusing layer comprises two or more lenses, including at least one cylindrical lens and at least one lens that is oriented at non-orthogonal angle relative to an outer surface of the ultrasonic sensor system and configured to cause a portion of an ultrasonic plane wave to be refracted along the non-orthogonal angle; an ultrasound receiver layer comprising one or more receiver elements configured to generate output signals corresponding to detected ultrasonic reflections; and control means for processing the output signals to calculate values corresponding to one or more cardiovascular properties, wherein the control means is a part of a control system of the mobile computing device, wherein the one or more cardiovascular properties include blood pressure. 15. The ultrasound cardiovascular measuring device of claim 14 , wherein the focusing layer comprises acoustic matching material in which the two or more lenses are embedded. 16. The ultrasound cardiovascular measuring device of claim 15 , wherein the two or more lenses include at least one lens selected from a group of lenses consisting of a spherical lens, a concave lens, a convex lens, a zone lens and a zone plate. 17. The ultrasound cardiovascular measuring device of claim 14 , wherein the two or more lenses comprise a first lens configured to focus an ultrasonic plane wave of the ultrasonic plane waves at a first focal depth and a second lens configured to focus the ultrasonic plane wave of the ultrasonic plane waves at a second focal depth. 18. The ultrasound cardiovascular measuring device of claim 14 , wherein the two or more lenses comprise at least two lenses that are spaced apart along the arterial longitudinal axis. 19. The ultrasound cardiovascular measuring device of clai