Diaphragm repositioning for pressure pod using position sensing

What is claimed is: 1. An extracorporeal treatment system including a pressure measurement system comprising: a pressure pod body comprising at least a pod body portion and a base body portion; a diaphragm separating a liquid side cavity defined at least in part by the pod body portion from a transducer side cavity defined at least in part by the base body portion, wherein the liquid side cavity is in fluid communication with an inlet and an outlet, and further wherein the diaphragm is displaceable from a centered measuring position into the liquid side cavity towards the pod body portion and is displaceable from the centered measuring position into the transducer side cavity towards the base body portion; a pressure transducer operatively coupled to the transducer side cavity such that pressure of liquid when present in the liquid side cavity is transferred to the transducer side cavity via the diaphragm and measureable by the pressure transducer; a position sensor to sense the position of the diaphragm; a controller operatively coupled to the position sensor to receive one or more signals representative of the position of the diaphragm and to generate a control signal based thereon for use in repositioning the diaphragm towards the centered measuring position; and pump apparatus operatively coupled to the controller and the transducer side cavity to reposition the diaphragm to the centered measuring position based on the control signal generated by the controller. 2. The system of claim 1 , wherein the position sensor comprises at least one of an electro-optical proximity sensor and a capacitive proximity sensor. 3. The system of claim 1 , wherein the system further comprises: a system housing to contain at least the controller and the pressure transducer; and a connection apparatus to mount the pressure pod body on the system housing, wherein the connection apparatus comprises a port to connect the transducer side cavity to the pressure transducer contained in the system housing when the pressure pod body is mounted on the system housing by the connection apparatus, wherein the position sensor comprises a proximity sensor located to sense the position of the diaphragm when the pressure pod body is mounted on the system housing by the connection apparatus. 4. The system of claim 3 , wherein the proximity sensor comprises an electro-optical proximity sensor comprising at least an optical transmitter device and an optical detector device mounted on the connection apparatus to sense the position of the diaphragm when the pressure pod body is mounted on the system housing by the connection apparatus. 5. The system of claim 3 , wherein the proximity sensor comprises a capacitive proximity sensor comprising one or more electrodes located adjacent the base body portion of the pressure pod body when the pressure pod body is mounted on the system housing by the connection apparatus. 6. The system of claim 5 , wherein the capacitive proximity sensor comprises one or more electrodes coupled to at least a portion of the base body portion. 7. The system of claim 3 , wherein the proximity sensor comprises a capacitive proximity sensor comprising one or more electrodes provided proximate an end of the port located adjacent or within the transducer side cavity. 8. A pressure measurement method comprising: providing a pressure pod body comprising at least a pod body portion and a base body portion, wherein a diaphragm separates a liquid side cavity defined at least in part by the pod body portion from a transducer side cavity defined at least in part by the base body portion, wherein the liquid side cavity is in fluid communication with an inlet and an outlet, and further wherein the diaphragm is displaceable from a centered measuring position into the liquid side cavity towards the pod body portion and is displaceable from the centered measuring position into the transducer side cavity towards the base body portion; sensing pressure of a liquid in the liquid side cavity between the inlet and the outlet, wherein the pressure of liquid when present in the liquid side cavity is transferred to the transducer side cavity via the diaphragm; sensing the position of the diaphragm; generating a control signal based on the sensed position of the diaphragm; and repositioning the diaphragm towards the centered measuring position based on the control signal. 9. The method of claim 8 , wherein generating a control signal based on the sensed position of the diaphragm comprises: setting a predetermined range of acceptable diaphragm positions for sensing pressure; comparing the sensed position of the diaphragm to the predetermined range; and generating a control signal based on the comparison. 10. The method of claim 8 , wherein sensing the position of the diaphragm comprises sensing the position of the diaphragm at multiple times over multiple rotations of a pump providing for flow of the liquid through the liquid side cavity from inlet to outlet and averaging the sensed position of the diaphragm at the multiple times. 11. The method of claim 8 , wherein repositioning the diaphragm towards the centered measuring position comprises providing gas to or removing gas from the transducer side cavity. 12. The method of claim 8 , wherein sensing the position of the diaphragm comprises using a proximity sensor to sense the position of the diaphragm, wherein the proximity sensor comprises at least one of an electro-optical proximity sensor and a capacitive proximity sensor. 13. The method of claim 8 , wherein the method further comprises: providing a system housing to contain at least a controller to generate the control signal and a pressure transducer to sense pressure of the liquid in the liquid side cavity; providing a connection apparatus to mount the pressure pod body on the system housing, wherein the connection apparatus comprises a port to connect the transducer side cavity to the pressure transducer contained in the system housing when the pressure pod body is mounted on the system housing by the connection apparatus; mounting the pressure pod body on the system housing; and using a proximity sensor to sense the position of the diaphragm when the pressure pod body is mounted on the system housing by the connection apparatus. 14. The method of claim 13 , wherein the proximity sensor comprises at least one of a capacitive proximity sensor comprising one or more electrodes coupled to at least a portion of the base body portion, a capacitive proximity sensor comprising one or more electrodes provided proximate an end of the port located adjacent or within the transducer side cavity, a capacitive proximity sensor comprising an electrode pad positioned adjacent the base body portion to sense the position of the diaphragm, and an electro-optical proximity sensor comprising an optical transmitter device and an optical detector device mounted on the connection apparatus. 15. A pressure measurement apparatus to be operatively mounted by a connection apparatus on a system housing of an extracorporeal treatment system, wherein the system housing contains a pressure transducer therein, the pressure measurement apparatus comprising: a pressure pod body configured to be mounted on the system housing by the connection apparatus, wherein the pressure pod body comprises at least a pod body portion and a base body portion; a diaphragm separating a liquid side cavity defined at least in part by the pod body portion from a transducer side cavity defined at least in part by the base body portion, wherein the liquid side cavity is in fluid communicatio