Combination isolation valve and check valve with integral flow rate, pressure, and/or temperature measurement with wireless power

What we claim is: 1. A wirelessly powered system, comprising a wirelessly powered combination valve for a hydronic system, having a positive shut-off isolation valve configured in the hydronic system to prevent fluid flow, including to allow for maintenance of the hydronic system, a check valve configured in the hydronic system to prevent backflow and gravity circulation which can harm the hydronic system, and one or more sensors configured to sense one or more corresponding pressure, temperature or flow measurements of the fluid flow in the hydronic system and provide sensor signaling containing information about the one or more corresponding pressure, temperature or flow measurements sensed of the fluid flow in the hydronic system; and an onboard wireless power receiver configured to receive wireless power signaling, and provide power to energize the one or more sensors. 2. The wirelessly powered system according to claim 1 , wherein the onboard wireless power receiver is configured to receive the wireless power signaling in the form of radio frequency (RF) signaling and convert the RF signaling into direct current (DC) signaling for powering the combination of the one or more sensors. 3. The wirelessly powered system according to claim 2 , wherein the wirelessly powered system comprises a remote transmitter configured to provide the RF signaling using cordless energy transmission. 4. The wirelessly powered system according to claim 3 , wherein the remote transmitter is configured to provide the RF signaling either for continuously powering the one or more sensors, or for periodically powering the one or more sensors, or for powering the one or more sensors based upon the sensing and/or data transmission rate, or some combination thereof. 5. The wirelessly powered system according to claim 1 , wherein the one or more sensors is powered by discrete energy packets for data collection and transmission within the wirelessly powered combination isolation valve and check valve. 6. The wirelessly powered system according to claim 1 , wherein the wirelessly powered system comprises a wireless data transmission arrangement configured to receive the sensor signaling, and provide wireless data transmission sensor signaling containing information about the one or more pressure, temperature or flow measurements sensed of the fluid flow in the hydronic system; and the onboard wireless power receiver is configured to provide power to energize the wireless data transmission arrangement and enable wireless data communication. 7. The wirelessly powered system according to claim 1 , wherein the onboard wireless power receiver comprises a wireless receiver configured to receive the wireless power signaling in the form of wireless RF power signaling. 8. The wirelessly powered system according to claim 7 , wherein the onboard wireless power receiver comprises a wireless to DC power converter to convert the wireless RF power signaling into DC power signaling to energize the one or more sensors. 9. The wirelessly powered system according to claim 8 , wherein the onboard wireless power receiver comprises a DC power provisioning module configured to provide the DC power to the one or more sensors. 10. The wirelessly powered system according to claim 1 , wherein the onboard wireless power receiver comprises a wireless to DC power converter to convert the wireless power signaling into DC power signaling to energize the one or more sensors. 11. The wirelessly powered system according to claim 1 , wherein the one or more sensors are DC sensors configured to receive DC signaling and sense the one or more pressure, temperature or flow measurements of the fluid flow in the hydronic system. 12. The wirelessly powered system according to claim 1 , wherein the one or more sensors are completely sealed and enclosed, including hermetically, without the need for a coupling or connection to electrical power wiring. 13. The wirelessly powered system according to claim 1 , wherein the wirelessly powered system is, or forms part of, an HVAC hydronic system for use in residential, commercial or industrial applications.