Ultrasonic press with automatic speed changes in advancing movement of welding stack

What is claimed is: 1. An ultrasonic welding system comprising: a movable ultrasonic welding stack to apply vibrational energy, in response to control inputs, to at least one workpiece; a motion control system including an electrically powered actuator or motor that directly control the speed of advancing movement of the ultrasonic welding stack relative to said workpiece, based on at least one control variable; and a controller providing control inputs to the motion control system and causing, following initiation of a welding operation, an automatic change of speed of said advancing movement of the ultrasonic welding stack, when the at least one control variable reaches a predetermined value. 2. The ultrasonic welding system of claim 1 , wherein the automatic change of speed occurs multiple times during a single welding operation. 3. The ultrasonic welding system of claim 1 , which includes one or more sensors, one of said sensors senses an ultrasound amplitude of the ultrasonic welding stack, and the speed of said advancing movement of the ultrasonic welding stack is linearly proportional to the ultrasound amplitude. 4. The ultrasonic welding system of claim 1 , which includes one or more sensors, one of said sensors senses a power input to the ultrasonic welding stack, and wherein the speed of said advancing movement of the ultrasonic welding stack is linearly proportional to the power input. 5. The ultrasonic welding system of claim 1 , which includes one or more sensors, one of said sensors senses an ultrasound amplitude of the ultrasonic welding stack, and wherein the speed of said advancing movement of the ultrasonic welding stack is a non-linear function of the ultrasound amplitude. 6. The ultrasonic welding system of claim 1 , which includes one or more sensors, one of said sensors senses a power input to the ultrasonic stack, and wherein the speed of said advancing movement of the ultrasonic welding stack is a non-linear function of the power input. 7. The ultrasonic welding system of claim 1 , which includes one or more sensors, one of said sensors senses a frequency of the ultrasonic welding stack and a phase of a transducer of the ultrasonic welding stack, and wherein the speed of said advancing movement of the ultrasonic welding stack is a linear or non-linear function of at least one of the frequency and the phase. 8. The ultrasonic welding system of claim 1 , which includes one or more sensors that sense an ultrasound amplitude of the ultrasonic welding stack, a power input to the ultrasonic welding stack, a frequency of the ultrasonic welding stack, and a phase of a transducer of the ultrasonic welding stack, and wherein the speed of said advancing movement of the ultrasonic welding stack is a linear or non-linear function of one or more parameters selected from a group of amplitude, power, frequency, phase, rate of change of amplitude, rate of change of power, rate of change of frequency, and rate of change of phase. 9. The ultrasonic welding system of claim 1 , wherein the at least one control variable is a force on the at least one workpiece, the function of the at least one control variable including automatically changing the speed of said advancing movement from an occurrence of a speed change initiating condition, based on a predetermined value of a rate of change of force, until an occurrence of a speed change terminating condition, based on a different value of the rate of change of force. 10. The ultrasonic welding system of claim 9 , wherein the speed change initiating condition is selected from a group consisting of: (a) an increase in the rate of change of force above a predetermined level, the automatic change of the speed of said advancing movement including reducing the speed to a fraction of a programmed speed or to zero; and (b) a decrease in the rate of change of force below a predetermined level, the automatic change of the speed of said advancing movement including increasing the speed by a factor larger than one relative to a programmed speed. 11. The ultrasonic welding system of claim 9 , wherein the speed change terminating condition is selected from a group consisting of: (a) a decrease in the rate of change of force below a predetermined level; (b) an increase in the rate of change of force above a predetermined level; and (c) a return of the rate of change of force to a level corresponding to the speed change initiating condition. 12. The ultrasonic welding system of claim 1 , wherein the function of the at least one control variable includes automatically changing the speed of said advancing movement from a speed change initiating condition, based on an initial level of the predetermined value of the at least one control variable, until a speed change terminating condition, based on a different level of the predetermined value of the at least one control variable. 13. The ultrasonic welding system of claim 12 , which includes one or more sensors, one of which senses a force output by a linear actuator movable element, the speed change initiating condition being an increase in the force to a predetermined level and the speed change terminating condition being a decrease in the force to a predetermined level. 14. The ultrasonic welding system of claim 12 , which includes one or more sensors, one of which senses a force output by a linear actuator movable element, the speed change initiating condition being a decrease in the force to a predetermined level and the speed change terminating condition being an increase in the force to a predetermined level. 15. The ultrasonic welding system of claim 12 , which includes one or more sensors that sense one or more parameters selected from a group consisting of (a) a force output by a linear actuator movable element, (b) a power input to the ultrasonic welding stack, and (c) a rate of change of at least one of the one or more parameters, the speed change initiating condition being a first function based on input received from at least one of the one or more sensors, and the speed change terminating condition being a second function based on input received from at least one of the one or more sensors. 16. A method for a welding operation, the method comprising: initiating a welding operation by moving, in response to control inputs, an ultrasonic welding stack to apply vibrational energy to a workpiece; causing, via a controllable motion control system, controlled advancing movement of the ultrasonic welding stack toward said workpiece based on at least one control variable, the controllable motion control system including an electrically powered actuator or motor that directly controls the advancing movement of the ultrasonic welding stack; and in response to control inputs received from a controller and based on the control variable, causing, following initiation of a welding operation, an automatic change of speed of the controlled advancing movement of the ultrasonic welding stack when the at least one control variable reaches a predetermined value. 17. The method of claim 16 , wherein the causing of the automatic change of speed occurs multiple times during a single welding operation. 18. The method of claim 16 , further comprising sensing via one or more sensors a parameter selected from a group consisting of (a) an ultrasound amplitude of the ultrasonic welding stack, (b) a power input to the ultrasonic welding stack, (c) a frequency of vibration of the ultrasonic welding stack, and (d) a phase of a transducer of the ultrasonic welding stack. 19. The