Weld testing system and method for a welding assembly

What is claimed is: 1. A welding assembly for in-line spot welding using welding electrodes of a welding machine, the welding assembly comprising: a non-destructive weld testing system configured to monitor the welding electrodes during spot welding of the spot welds and analyze weld data generated during the spot welding to determine whether a spot weld is an anomaly, the weld testing system comprising: a non-destructive weld testing tool mounted on a robot and being robotically controlled, the weld testing tool having a phased-array ultrasonic transducer configured to test spot welds in-line that are determined by the weld testing system to be anomalies; and a control module configured to control movement of the weld testing tool to test anomalous spot welds in response to the weld testing system determining that the anomalous spot welds are anomalies. 2. The welding assembly of claim 1 , wherein the weld testing system comprises a weld monitoring tool monitoring at least one weld characteristic of the spot welds and generating weld data based on the at least one weld characteristic and a weld analysis tool analyzing the weld data to determine a weld quality of each spot weld based on analysis criteria. 3. The welding assembly of claim 1 , wherein the weld testing system monitors at least one of current, voltage, resistance, heat input rate, and total energy input of the welding electrodes for welding each spot weld. 4. The welding assembly of claim 1 , wherein the weld testing system analyzes the weld data by comparing the weld data to a threshold weld data and identifies any spot weld having weld data beyond the threshold weld data to be an anomaly that is tested by the weld testing tool. 5. A non-destructive weld testing system for testing spot welds performed by welding electrodes of a welding machine, the weld testing system comprising: a weld monitoring tool monitoring at least one weld characteristic of the spot welds, the weld monitoring tool generating weld data based on the at least one weld characteristic; a weld analysis tool analyzing the weld data to determine a weld quality of each spot weld based on analysis criteria; and a non-destructive weld testing tool configured to test spot welds, wherein the weld testing system causes the weld testing tool to target testing of spot welds in response to the weld analysis tool determining that the spot welds have a weld quality beyond a threshold weld quality, the weld testing tool generating weld test data based on testing results, the weld testing tool providing feedback to the weld analysis tool correlating to the weld test data, the weld analysis tool updating the analysis criteria based on the weld test data. 6. The weld testing system of claim 5 , wherein the weld testing tool comprises a phased array ultrasonic transducer. 7. The weld testing system of claim 5 , wherein the weld testing tool is mounted on a robot and is robotically controlled to position the weld testing tool for testing the spot welds. 8. The weld testing system of claim 5 , wherein the weld testing tool target tests spot welds determined to be anomalies based on the weld quality. 9. The weld testing system of claim 5 , wherein the weld analysis tool comprises a database storing the analysis criteria. 10. The weld testing system of claim 5 , wherein the weld quality comprises a pass grade or a fail grade for each spot weld based on the analysis criteria, the weld testing tool testing each spot weld receiving a fail grade. 11. The weld testing system of claim 5 , wherein the weld characteristics comprise at least one of current, voltage, resistance, heat input rate, and total energy input for welding each spot weld. 12. The weld testing system of claim 5 , wherein the analysis criteria comprises thresholds for each weld characteristic corresponding to a threshold weld quality for each weld characteristic, the weld analysis tool analyzing the weld data to determine if the weld data is beyond the corresponding threshold. 13. The weld testing system of claim 12 , wherein the thresholds are configured to be changed based on the feedback from the weld testing tool. 14. The weld testing system of claim 5 , wherein the weld testing tool measures a nugget diameter of the spot weld. 15. The weld testing system of claim 5 , wherein the weld testing tool provides in-line testing of the spot welds. 16. A method of non-destructive weld testing spot welds performed by welding electrodes of a welding machine, the method comprising: monitoring at least one weld characteristic of the spot welds; generating weld data based on the at least one weld characteristic; analyzing the weld data to determine a weld quality of each spot weld based on analysis criteria to determine spot welds that are anomalies; testing spot welds in response to the spot welds being determined to be anomalies; generating weld test data based on testing results of the tested spot welds; and providing feedback correlating to the weld test data to update the analysis criteria based on the weld test data. 17. The method of claim 16 , wherein said analyzing the weld data comprises comparing the weld data to a threshold weld data to determine a weld quality. 18. The method of claim 17 , wherein said generating weld test data comprises verifying, based on the testing results of the tested spot welds, that the weld data determined to be beyond the threshold weld data corresponds to a spot weld that is an anomaly. 19. The method of claim 16 , wherein said monitoring at least one weld characteristic comprises monitoring at least one of current, voltage, resistance, heat input rate, and total energy input for welding each spot weld. 20. The method of claim 16 , further comprising storing the weld data in a database.