PLUG-IN NOx SENSOR SNORKEL FOR READING OPTIMIZATION UNDER PACKAGING CONSTRAINTS

What is claimed is: 1 . A snorkel assembly for reading optimization of a sensor, the snorkel assembly positioned around and spaced apart from the sensor, the snorkel assembly comprising an upstream side and a downstream side and with a cup section and a tube section extending from the cup section, wherein the tube section defines an inlet opening on the upstream side of the snorkel assembly and the cup section defines an exhaust opening on the downstream side of the snorkel assembly. 2 . The snorkel assembly according to claim 1 wherein the inlet opening is comprised of multiple separate ports disposed along the tube section. 3 . The snorkel assembly according to claim 1 wherein the cup section is cylindrical in shape and the tube section extends into the cup section. 4 . The snorkel assembly according to claim 1 wherein the sensor includes an inlet port and an outlet port and is configured so that a fluid flows through the sensor. 5 . The snorkel assembly according to claim 1 wherein the snorkel assembly is disposed in a fluid stream and the snorkel assembly is inclined toward the upstream side at an angle of at least seven degrees relative to a line perpendicular to the fluid stream. 6 . The snorkel assembly according to claim 5 wherein the snorkel assembly is disposed in a conduit and the fluid stream comprises an exhaust gas stream. 7 . The snorkel assembly according to claim 6 wherein the conduit has a wall defining a diameter and the snorkel assembly extends across at least seventy-five percent of the diameter. 8 . The snorkel assembly according to claim 1 wherein the cup section is cylindrical in shape and the exhaust opening is elongated around a part of the cup section and the sensor defines an outlet port that is aligned with the exhaust opening. 9 . The snorkel assembly according to claim 1 wherein the tube section is cylindrical in shape and wherein the inlet opening is comprised of a plurality of inlet openings disposed along the tube section. 10 . A sensing assembly comprising a sensor disposed in a fluid stream, the sensor sampling the fluid stream, a snorkel assembly disposed around the sensor, the snorkel assembly comprising a cup section that is cylindrical in shape and of a first diameter and extends around the sensor, the snorkel assembly comprising a tube section that has a second diameter, the tube section extending away from the sensor and into the fluid stream, the second diameter smaller than the first diameter so that the sensor cannot extend into the tube section. 11 . The sensing assembly according to claim 10 wherein the fluid stream flows from an upstream side to a downstream side of the sensing assembly and wherein the tube section defines an inlet opening on the upstream side and the cup section defines an exhaust opening on the downstream side. 12 . The sensing assembly according to claim 11 wherein the sensor includes inlet ports and outlet ports wherein a part of the fluid stream flows through the sensor. 13 . The sensing assembly according to claim 12 wherein the snorkel assembly is inclined toward the upstream side at an angle of at least seven degrees relative to a line perpendicular to the fluid stream. 14 . The sensing assembly according to claim 13 wherein the fluid stream comprises an exhaust gas stream carrying a combustion gas. 15 . The sensing assembly according to claim 10 wherein the cup section is cylindrical in shape and includes an elongated exhaust opening extending through the cup section and the sensor includes outlet ports that are aligned with the exhaust opening. 16 . The sensing assembly according to claim 10 wherein the tube section is cylindrical in shape and includes a number of elongated inlet slot openings disposed along the tube section. 17 . A sensor assembly comprising a sensor adapted to measure oxides of nitrogen in a fluid stream, the sensor extending into an exhaust pipe that has a wall defining a diameter and containing the fluid stream, the sensor defines an inlet port and an outlet port for admitting a portion of the exhaust stream into and through the sensor, the inlet port and the outlet port disposed inside the exhaust pipe, a snorkel assembly disposed around the sensor to direct a sample of the fluid stream from across the diameter and into the snorkel assembly for delivery to the sensor, the snorkel assembly extending into the fluid stream a majority of the diameter, the snorkel assembly having a number of openings distributed across the fluid stream. 18 . The sensor assembly according to claim 17 wherein the majority is at least seventy-five percent of the diameter. 19 . The sensor assembly according to claim 17 wherein the snorkel assembly includes a cup section surrounding the sensor and a tube section extending from the cup section in a direction into the fluid stream. 20 . The sensor assembly according to claim 17 wherein the snorkel assembly is inclined into the fluid stream in an upstream direction at an angle of between seven degrees and eleven degrees relative to a line perpendicular to the fluid stream.