Small volume processing systems and methods with capacitive sensing

The invention claimed is: 1. A fluid processing system comprising: a disposable fluid circuit comprising: a separation chamber; at least one plungerless syringe, the at least one plungerless syringe oriented vertically and comprising a wall defining a barrel having a first end and a second end with the first end being located below the second end, the barrel having a bore without a plunger disposed therein, and at least one capacitive sensor disposed on an outer surface of the wall of the at least one plungerless syringe; a flow control cassette comprising a housing containing a plurality of separate channels connected to a plurality of selectable junctions, at least one of the plurality of separate channels connected to the first end of the barrel of the at least one plungerless syringe; the flow control cassette further comprising at least one separately defined interface sensor chamber in fluid communication with at least one of the plurality of separate channels connected to the first end of the barrel of the at least one plungerless syringe, the at least one separately defined interface sensor chamber further defined at least in part by a wall separate from the at least one of the plurality of separate channels, and at least one capacitive sensor disposed on the wall of the at least one separately defined interface sensor chamber to detect the presence of air; and reusable hardware configured to accept the disposable fluid circuit and comprising: a separator connected to the separation chamber of the disposable fluid circuit; at least one vacuum/pressure air source coupled to the second end of the barrel of the at least one plungerless syringe of the disposable fluid circuit, the at least one vacuum/pressure air source configured to pump filtered air into and out of the at least one plungerless syringe so as to form at least one syringe pump configured to draw fluid into and push fluid from the at least one plungerless syringe and selectively through the plurality of separate channels connected to the plurality of selectable junctions within the flow control cassette; a control cassette interface being coupled to the at least one capacitive sensor disposed on the wall of the at least one separately defined interface sensor chamber when the flow control cassette of the disposable fluid circuit is installed on the reusable hardware, with the control cassette interface having at least one actuator for each of the selectable junctions of the flow control cassette, and being coupled to the at least one capacitive sensor disposed on the outer surface of the wall of the at least one plungerless syringe; and at least one controller coupled to the separator, the at least one vacuum/pressure air source and the control cassette interface; the at least one controller configured to selectively operate the separator, the at least one vacuum/pressure air source and the control cassette interface to process a fluid according to a protocol. 2. The fluid processing system according to claim 1 , wherein the at least one capacitive sensor on the outer surface of the wall of the at least one plungerless syringe comprises a single capacitive sensor disposed on the outer surface of the at least one plungerless syringe from the first end to the second end of the barrel. 3. The fluid processing system according to claim 1 , wherein the capacitive sensor on the outer surface of the wall of the at least one plungerless syringe comprises a flexible circuit. 4. The fluid processing system according to claim 1 , wherein the at least one capacitive sensor disposed on the wall of the at least one separately defined interface sensor chamber comprises a flexible circuit. 5. The fluid processing system according to claim 1 , wherein the separation chamber is defined by a spinning membrane separator having an inlet, a retentate outlet, and a filtrate outlet, and the separator comprises a spinning membrane separator drive coupled to the spinning membrane separator. 6. The fluid processing system according to claim 1 , wherein the plurality of separate channels are connected at the plurality of selectable junctions, each of the selectable junctions selectively connects at least two of the plurality of channels, and the channels and selectable junctions defining a plurality of fluid paths. 7. The fluid processing system according to claim 1 , with the disposable fluid circuit further comprising: a second plungerless syringe, the second plungerless syringe oriented vertically and comprising a wall defining a barrel having a first end and a second end with the first end being located below the second end, the barrel having a bore without a plunger disposed therein, and at least one capacitive sensor disposed on an outer surface of the wall of the second plungerless syringe, and with the reusable hardware further comprising: a second vacuum/pressure air source coupled to the second end of the barrel of the second plungerless syringe of the disposable fluid circuit, the second vacuum/pressure air source configured to pump filtered air into and out of the second plungerless syringe so as to form a second syringe pump configured to draw fluid into and push fluid from the second plungerless syringe and selectively through the plurality of separate channels connected to the plurality of selectable junctions within the flow control cassette. 8. The fluid processing system according to claim 7 , wherein: the separation chamber is defined by a spinning membrane separator having an inlet, a retentate outlet, and a filtrate outlet, and the reusable hardware comprises a spinning membrane separator drive coupled to the spinning membrane separator; wherein the plurality of separate channels are connected at the plurality of selectable junctions, each of the selectable junctions selectively connects at least two of the plurality of channels, and the channels and selectable junctions defining at least a first path between a source container, the spinning membrane separator, the filtrate outlet and the first plungerless syringe, a second path between the first plungerless syringe and a filtrate container, and a third path between a wash media container, the spinning membrane separator inlet, the retentate outlet and the second plungerless syringe; and the at least one controller coupled to the spinning membrane separator drive, the first and second syringe pumps, the at least one actuator, and the at least one capacitive sensor on the outer surface of the wall of the first plungerless syringe; the at least one controller configured to selectively operate the spinning membrane separator drive, the first and second syringe pumps, and the at least one actuator to provide a procedure according to a protocol.