Abstract: There is provided a fluid transducer. The transducer housing includes a nose section, a middle section, and a rear section, with the nose section defining a through bore. A sensor is disposed in the nose section and is in fluid communication with the through bore. An electronic module is disposed in the middle section and is in electrical communication with the sensor. A cap is coupled to the real section of the transducer housing, with the cap configured to seal the rear section of the transducer housing. A conductor-insulator assembly is coupled to an outer surface of the transducer housing and the conductor of the conductor-insulator assembly is coupled to the electronic module. In one embodiment the conductor-insulator assembly is annular in shape, with an inside diameter corresponding to the outer surface of the transducer housing.

Abstract: There is provided a flow transducer and method to sense flow of a fluid. The flow transducer includes a housing defining an internal passage way therethrough. A flow rate apparatus is disclosed in the internal passageway. The proximity sensor is coupled to the housing, with the proximity sensor aligned radially with the flow rate apparatus. A pair of annular conductor-insulator assemblies are coupled to an outer surface of the housing, with each conductor in electrical communication with the proximity sensor. A cap is coupled to the housing and is configured to axially secure the conductor-insulator assemblies to the housing, with the cap defining an orifice axially aligned with the internal passageway. The proximity sensor is configured to produce an electrical signal as the flow rate apparatus rotates past the proximity sensor, the electrical signal corresponding to the flow of the fluid through the flow transducer.

Abstract: There is provided a fluid transducer. The transducer housing includes a nose section, a middle section, and a rear section, with the nose section defining a through bore. A sensor is disposed in the nose section and is in fluid communication with the through bore. An electronic module is disposed in the middle section and is in electrical communication with the sensor. A cap is coupled to the real section of the transducer housing, with the cap configured to seal the rear section of the transducer housing. A conductor-insulator assembly is coupled to an outer surface of the transducer housing and the conductor of the conductor-insulator assembly is coupled to the electronic module. In one embodiment the conductor-insulator assembly is annular in shape, with an inside diameter corresponding to the outer surface of the transducer housing.

Abstract: A flow bypass manifold including a drain comprising a fixed portion and an attachment portion for removable connection with the fixed portion. The fixed portion, fixedly installed into a fluidic system, defines a flow path and comprises inlet and outlet ports, a drain port, a bypass valve disposed in the flow path, a bypass outlet tube proximate the inlet port, and a bypass inlet tube proximate the outlet port. Two attachment tubes can be coupled to at least one flow-through series component and attached to the bypass outlet and inlet tubes to form an alternate flow path through the at least one flow-through, series component upon manipulation of the bypass valve to close the flow path through the fixed portion and divert the fluid to flow through the flow-through series component. This addition of a series component is accomplished without disassembling and/or reassembling the fluidic system or interrupting fluid flow.