System and method for controlling outlet flow of a device for separating cellular suspensions

We claim: 1. A system for separating a suspension of biological cells comprising: a) a fluid circuit comprising a spinning membrane separator having a housing and a filter membrane having a first side and a second side, a gap being defined between the housing and the first side of the filter membrane and a flow path in fluid communication with the second side of the filter membrane, an inlet for introducing the suspension of biological cells into the gap, a first outlet in communication with the gap for flowing the first type of cells from the separator and a second outlet in communication with the second side of the filter membrane for flowing the second type of cells from the separator; b) a hardware component comprising a pump for flowing the suspension of biological cells to the inlet of the separator, at least one flow control device associated with the first outlet and the second outlet of the separator for selectively opening and closing the first and second outlets so as to permit either the first type of cells or the second type of cells to flow out of the separator, and a programmable controller configured to operate the pump so as to flow the suspension of biological cells to the inlet of the separator at a predetermined inlet flow rate and to alternately open and close the flow control device in accordance with a predetermined duty cycle. 2. The system of claim 1 wherein the programmable controller is configured to alternately open and close the flow control device such that the duty cycle is equal to the ratio of a target flow rate of first type of cells through the first outlet to the predetermined inlet flow rate. 3. The system of claim 2 wherein the programmable controller is further configured to determine the target flow rate of the first type of cells as the product of the inlet flow rate times the ratio of cell concentration of the suspension of biological cells to a target cell concentration of the first type of cells. 4. The system of claim 1 wherein the programmable controller is further configured to alternately open and close the flow control device at a predetermined frequency. 5. The system of claim 4 wherein the programmable controller is further configured to establish the predetermined frequency for the duty cycle based on the concentration of cells in the suspension of biological cells being separated. 6. The system of claim 5 wherein the predetermined frequency for the duty cycle is directly proportional to the concentration of cells in the suspension of biological cells being separated. 7. The system of claim 1 wherein the flow control device is a clamp associated with each of the first and second outlets of the separator. 8. The system of claim 1 wherein the flow control device is a two position stopcock associated with both of the first and second outlets of the separator. 9. A system for separating a suspension of biological cells comprising: a) a fluid circuit comprising either a spinning membrane separator or a centrifugal separator, the separator having a housing with an inlet for introducing the suspension of biological cells into the separator, a first outlet for flowing a first type of cells from the separator and a second outlet for flowing a second type of cells from the separator; b) a hardware component comprising a pump for flowing the suspension of biological cells to the inlet of the separator, at least one flow control device associated with the first outlet and the second outlet of the separator for selectively opening and closing the first and second outlets so as to permit either the first type of cells or the second type of cells to flow out of the separator, and a programmable controller programmed to operate the pump so as to flow the suspension of biological cells to the inlet of the separator at a predetermined inlet flow rate and to alternately open and close the flow control device in accordance with a predetermined duty cycle. 10. The system of claim 9 wherein the programmable controller s configured to alternately open and close the flow control device such that the duty cycle is equal to the ratio of a target flow rate of first type of cells through the first outlet to the predetermined inlet flow rate. 11. The system of claim 10 wherein the programmable controller is further configured to determine the target flow rate of the first type of cells as the product of the inlet flow rate times the ratio of cell concentration of the suspension of biological cells to a target cell concentration of the first type of cells. 12. The system of claim 9 wherein the programmable controller is further configured to alternately open and close the flow control device at a predetermined frequency. 13. The system of claim 12 wherein the programmable controller is further configured to establish the predetermined frequency for the duty cycle based on the concentration of cells in the suspension of biological cells being separated. 14. The system of claim 13 wherein the predetermined frequency for the duty cycle is directly proportional to the concentration of cells in the suspension of biological cells being separated. 15. The system of claim 9 wherein the flow control device is a clamp associated with each of the first and second outlets of the separator. 16. The system of claim 9 wherein the flow control device is a two position stopcock associated with both of the first and second outlets of the separator.