Systems and methods for ultrasonic welding

1 . A method, comprising: applying, by a horn as controlled by a controller, a first pulse of ultrasonic vibration to a first workpiece and a second workpiece until a measured value meets or exceeds a preset threshold value, wherein the first pulse of ultrasonic vibration is applied to a first workpiece and a second workpiece at an overlapping portion of the workpieces; measuring, over time during the first pulse, by the controller, a dissipated power and a horn position; determining, by the controller: a duration of a stage as a difference between: an end time of the stage based on a time when the controller stops ultrasonic vibration; and a start time of the stage based on a drop in the dissipated power over time; a horn displacement during the stage based on a difference between: a first horn position measured at the start time of the stage; and a second horn position measured at the end time of the stage; wherein the horn position over time includes the first horn position and the second horn position; and a weld strength value based on weld strength data, the duration of the stage, and the horn displacement during the stage; and comparing, by the controller, the weld strength value to a threshold weld strength value. 2 . The method of claim 1 , wherein the weld strength data is measured prior to applying the first pulse. 3 . The method of claim 2 , wherein the weld strength data is measured with workpieces that are equivalent to the workpieces. 4 . The method of claim 1 , further comprising determining, by the controller: that a weld quality is acceptable if the weld strength value is greater than the threshold weld strength value; and that the weld quality is not acceptable if the weld strength value is less than the threshold weld strength value. 5 . The method of claim 4 , wherein the applying, measuring, determining, comparing, and determining steps are repeated until the weld quality is acceptable. 6 . The method of claim 4 , further comprising applying, by the horn as controlled by the controller, a second pulse of ultrasonic vibration to the workpieces until a measured value meets or exceeds a preset threshold value. 7 . The method of claim 6 , further comprising repeating the measuring, determining, and comparing steps for the second pulse. 8 . The method of claim 6 , wherein the second pulse is applied after a cooling period in which the workpieces cool. 9 . The method of claim 6 , further comprising adjusting a value of at least one welding parameter of the second pulse such that the value of the at least one welding parameter of the second pulse is different than a value of the at least one welding parameter of the first pulse. 10 . The method of claim 9 , wherein the welding parameter includes one or more of: welding time, welding energy, and welding pressure. 11 . The method of claim 10 , wherein adjusting at least one welding parameter comprises, if the horn displacement during the stage and the duration of the stage are below a selected threshold, increasing at least one of welding time, welding energy, and welding pressure. 12 . The method of claim 1 , wherein the preset threshold value is one of an amount of weld energy, an amount of welding time, and a horn position relative to a start position. 13 . A system, comprising: a horn; a controller, configured to: apply, by the horn, a first pulse of ultrasonic vibration to the workpieces until a measured value meets or exceeds a preset threshold value; measure, over time and during the first pulse, a dissipated power and a horn position; determine: a duration of a stage as a difference between: an end time of the stage based on a time when the controller stops ultrasonic vibration; and a start time of the stage based on a drop in the dissipated power over time; a horn displacement during the stage based on a difference between: a first horn position measured at the start time of the stage; and a second horn position measured at the end time of the stage, wherein the measured horn position includes the first horn position and the second horn position; and a weld strength value based on weld strength data, the duration of the stage, and the horn displacement during the stage; and compare the weld strength value to a threshold weld strength value. 14 . The system of claim 13 , wherein the weld strength data is determined prior to applying the first pulse. 15 . The system of claim 13 , wherein the controller is further configured to determine: that a weld quality is acceptable if the weld strength value is greater than the threshold weld strength value; and that the weld quality is not acceptable if the weld strength value is less than the threshold weld strength value. 16 . The system of claim 15 , wherein, if the weld quality is not acceptable, the controller is configured to apply, by the horn, a second pulse of ultrasonic vibration to the workpieces until a measured value meets or exceeds a preset threshold value. 17 . The system of claim 16 , wherein the controller is configured to repeat the measure, determine, and compare steps for the second pulse. 18 . The system of claim 16 , wherein the controller is configured to adjust a value of at least one welding parameter of the second pulse such that the value of the at least one welding parameter of the second pulse is different than a value of the at least one welding parameter of the first pulse, wherein the welding parameter is one of: welding time, welding energy, and welding pressure. 19 . The system of claim 13 , wherein the preset threshold value is one of an amount of weld energy, an amount of welding time, and a horn position relative to a start position. 20 . A computer-readable medium comprising instructions that, when executed by a processor, cause the processor to: apply, by a horn, a first pulse of ultrasonic vibration to a first workpiece and a second workpiece until a measured value meets or exceeds a preset threshold value, wherein the first pulse of ultrasonic vibration is applied to a first workpiece and a second workpiece at an overlapping portion of the workpieces; measure, over time during the first pulse, a dissipated power and a horn position; determine: a duration of a stage as a difference between: an end time of the stage based on a time when the controller stops ultrasonic vibration; and a start time of the stage based on a drop in the dissipated power over time; a horn displacement during the stage based on a difference between: a first horn position measured at the start time of the stage; and a second horn position measured at the end time of the stage; wherein the measured horn position includes the first horn position and the second horn position; and a weld strength value based on weld strength data, the duration of the stage, and the horn displacement during the stage; and compare the weld strength value to a threshold weld strength value.