Pressure Compensating Emitter Having Very Low Activation Pressure and Large Operating Range

What is claimed is: 1 . Pressure-compensating emitter comprising: an inlet connected to a source of pressurized water; an orifice in fluid communication with the inlet and extending into a channel including a raised land surrounding an outlet; and a compliant membrane positioned above the land in the chamber wherein the pressurized water will cause the membrane to deform into contact with the land to alter flow through the outlet; wherein dimensions of the orifice, land diameter, channel dimensions, outlet diameter and membrane characteristics are selected to provide substantially constant flow for varying water pressure with an activation pressure of 0.15 bar or below. 2 . The emitter of claim 1 wherein the orifice has a diameter of approximately 1.25 mm. 3 . The emitter of claim 1 wherein the outlet has a diameter of approximately 1.28 mm 4 . The emitter of claim 1 wherein the compliant membrane sits above the raised land by approximately 0.7 mm. 5 . The emitter of claim 1 wherein the orifice has a diameter of approximately 1.25 mm, the outlet has a diameter of approximately 1.28 mm and wherein the compliant membrane sits above the raised land by approximately 0.7 mm. 6 . Pressure compensating emitter comprising: an inlet connected to a source of pressurized water; an orifice having a diameter of approximately 1.25 mm in fluid connection with the inlet and extending into a channel including a raised land surrounding an outlet having a diameter of approximately 1.28 mm; and a compliant membrane positioned approximately 0.7 mm above the land in the chamber wherein the pressurized water will cause the membrane to deform into contact with the land to alter flow through the outlet; whereby the emitter provides substantial constant flow for varying water pressure with an activation pressure of 0.15 bar or below. 7 . Pressure-compensating emitter comprising: an inlet connected to a source of pressurized water, an orifice in fluid communication with the inlet and extending into a channel including a raised land surrounding an outlet; and a compliant membrane positioned above the land in the chamber wherein the pressurized water will cause the membrane to deform into contact with the land to alter flow through the outlet; wherein dimensions of the orifice, land diameter, channel dimensions, outlet diameter and membrane characteristics are selected to provide substantially constant flow for varying water pressure with an activation pressure of 0.25 bar or below. 8 . The emitter of claim 7 wherein the orifice has a diameter of approximately 1.25 mm. 9 . The emitter of claim 7 wherein the outlet has a diameter of approximately 1.20 mm. 10 . The emitter of claim 7 wherein the compliant membrane sits above the raised land by approximately 0.3 mm. 11 . The emitter of claim 1 wherein the channel within the raised land has a depth of approximately 0.15 mm. 12 . The emitter of claim 7 wherein the orifice has a diameter of approximately 1.25 mm, the outlet has a diameter of approximately 1.20 mm wherein the compliant membrane sits above the raised land by approximately 0.3 mm and the channel depth within the raised land is approximately 0.15 mm. 13 . The emitter of claim 7 wherein the channel within the raised land has a depth of approximately 0.125 mm. 14 . The emitter of claim 7 within the orifice has a diameter of approximately 1.25 mm, the outlet has a diameter of approximately 1.20 mm wherein the compliant membrane sits above the raised land by approximately 0.3 mm and the channel depth within the raised land is approximately 0.125 mm.