Patent Number: 
Section: claims

1. An ultrasonic phased array transducer assembly comprising a single ultrasonic probe housing in which a plurality of phased array transducers, respectively comprised of a plurality of transducer subassemblies, are mounted with at least two of the phased array transducers respectively positioned at a skewed angle relative to a leading face of the probe housing and all of the phased array transducers are mounted at skewed angles to each other, with each of the transducer subassemblies in the respective phased array transducers mounted on a common composite wedge within the housing. 2. The ultrasonic phased array transducer assembly of claim 1 wherein the probe housing includes a contoured face to substantially match a surface of a pipe to be examined. 3. The ultrasonic phased array transducer assembly of claim 2 wherein the pipe is a jet pump riser pipe in a boiling water reactor. 4. The ultrasonic phased array transducer assembly of claim 1 wherein each of the phased array transducers has a conductor with each of the conductors tethered together into a single cable assembly which exits the probe housing at a single port. 5. The ultrasonic phased array transducer assembly of claim 1 wherein the ultrasonic phased array transducer assembly includes at least one mounting hole or feature for gimbal attachments. 6. The ultrasonic phased array transducer assembly of claim 1 wherein the plurality of phased array transducer assemblies comprise three or more phased array transducer assemblies. 7. The ultrasonic phased array transducer assembly of claim 6 wherein the at least two phased array transducer assemblies that are positioned at skewed angles relative to the leading face are mounted at substantially a reciprocal angle to each other. 8. The ultrasonic phased array transducer assembly of claim 7 wherein the third phased array transducer is mounted perpendicular to a weld surface. 9. The ultrasonic phased array transducer assembly of claim 8 wherein the third phased array transducer is mounted between the at least two phased array transducers that are mounted at the skewed angles relative to the leading face. 10. A method of inspecting a jet pump riser pipe in a boiling water nuclear reactor, the reactor having at least one jet pump riser pipe, with each riser pipe having at least one welded attachment such as a riser brace, the method comprising:positioning at least one ultrasonic phased array probe housing adjacent to a surface of the riser pipe wherein a front leading face of the probe assembly is positioned adjacent to a weld to be inspected, the probe housing at least partially enclosing a plurality of phased array transducers respectively comprising a plurality of transducer subassemblies;scanning the jet pump riser pipe with at least one ultrasonic phased array probe so that a scanned range of an ultrasonic beam emitted by the ultrasonic phased array probe comprises an area extending from a weld toe down the pipe and extends from a scan surface down at least partially towards an opposing surface of the pipe; andwherein the ultrasonic phased array probe housing includes at least two independent phased array subassemblies mounted on composite wedges and set at skewed angles relative to each other and to a front leading face of the probe housing, with each of the transducer subassemblies in the respective phased array transducers mounted on a common composite wedge within the housing. 11. A method in accordance with claim 10 wherein the scan has a number of angles and the scanning angles are capable of detecting flaws oriented axially and circumferentially relative to the pipe weld.