Ultrasonic welding method using delayed motion of welding stack

What is claimed is: 1. An ultrasonic welding method comprising: initiating the welding operation by applying vibrational energy to a workpiece, measuring at least one control variable and producing a control signal corresponding to the at least one control variable, subsequent to the initiating of the welding operation, optionally initially delaying any advancing movement of the ultrasonic welding stack until the control signal indicates that the at least one control variable satisfies a predetermined condition, subsequent to the optional initial delay and in response to the predetermined condition being satisfied, causing the ultrasonic welding stack to advance in accordance with a weld profile, subsequent to the ultrasonic welding stack moving in accordance with the weld profile, causing the ultrasonic welding stack to stop advancing movement and maintain a stationary position in response to an occurrence of a first predetermined delay initiating condition, and in response to an occurrence of a first predetermined delay terminating condition, resume advancing movement of the ultrasonic welding stack in accordance with the weld profile, wherein vibrational energy continues to be applied to said workpiece while said ultrasonic welding stack is stopped and while the advancing movement of the welding stack continues. 2. The ultrasonic welding method of claim 1 , which includes, subsequent to resuming the advancing movement of the ultrasonic welding stack: causing the ultrasonic welding stack to stop advancing movement at least once more and maintain another stationary position in response to an occurrence of another predetermined delay initiating conditions; and in response to an occurrence of another predetermined delay terminating conditions, resuming again the advancing movement of the ultrasonic welding stack in accordance with the weld profile, wherein vibrational energy continues to be applied to said workpiece while said ultrasonic welding stack is stopped and while the advancing movement of the welding stack continues. 3. The ultrasonic welding method of claim 1 , wherein at least one of the sensors senses a force output by the linear actuator movable element, the predetermined delay initiating condition being a specified force, the predetermined delay terminating condition being a specified change in force relative to the specified force. 4. The ultrasonic welding method of claim 1 , wherein the sensors sense a distance traversed from the start of the weld and a force output by a linear actuator movable element, the predetermined delay initiating condition being a specified distance, the predetermined delay terminating condition being a specified change in force relative to a force sensed at the time of occurrence of the predetermined delay initiating condition. 5. The ultrasonic welding method of claim 1 , wherein the sensors sense a power input to a transducer of the ultrasonic welding stack and a force output by a linear actuator movable element, the predetermined delay initiating condition being a specified power, the predetermined delay terminating condition being a specified change in force relative to a force sensed at the time of occurrence of the predetermined delay initiating condition. 6. The ultrasonic welding method of claim 1 , wherein at least one of the sensors senses a power input to a transducer of the ultrasonic welding stack, the predetermined delay initiating condition being a specified power, the predetermined delay terminating condition being a specified change in power relative to the specified power. 7. The ultrasonic welding method of claim 1 , wherein the sensors sense a power input to a transducer of the ultrasonic welding stack and a force output by a linear actuator movable element, the predetermined delay initiating condition being a specified cumulative power, the predetermined delay terminating condition being a specified change in force relative to a force sensed at the time of occurrence of the predetermined delay initiating condition. 8. The ultrasonic welding method of claim 1 , wherein one of the sensors senses a force output by a linear movable element and another one of the sensors tracks elapsed time from the occurrence of the predetermined delay initiating condition, the predetermined delay initiating condition being a specified force, the predetermined delay terminating condition being a specified elapsed time. 9. The ultrasonic welding method of claim 1 , wherein one of the sensors senses a distance traversed from a weld start and another one of the sensors tracks elapsed time from the occurrence of the predetermined delay initiating condition, the predetermined delay initiating condition being a specified distance, the predetermined delay terminating condition being a specified elapsed time. 10. The ultrasonic welding method of claim 1 , wherein one of the sensors senses a power input to a transducer of the ultrasonic welding stack and another one of the sensors tracks elapsed time from the occurrence of the predetermined delay initiating condition, the predetermined delay initiating condition being a specified power, the predetermined delay terminating condition being a specified elapsed time. 11. The ultrasonic welding method of claim 1 , wherein one of the sensors senses a power input to a transducer of the ultrasonic welding stack and another one of the sensors tracks elapsed time from the occurrence of the predetermined delay initiating condition, the predetermined delay initiating condition being a specified cumulative power, the predetermined delay terminating condition being a specified elapsed time.