A novel monolithic piezoelectric actuated flexure-mechanism based wire clamp for microelectronic device packaging

Engineering

• Finite Element Method 100%
• Piezoelectric 100%
• Microelectronics 100%
• Flexure 100%
• Amplification Ratio 100%
• Experimental Result 50%
• Design Optimization 50%
• Step Response 50%
• Fast Response 50%
• Copper Wire 50%
• Gold Wire 50%
• Natural Frequency 50%
• Lagrange 50%
• Rigid Body Model 50%
• Bridge Type 50%
• Maximum Allowable Stress 50%
• Mechanical Structure 50%
• Electrodischarge Machining 50%

Keyphrases

• Microelectronics 100%
• Mechanism-based 100%
• Piezoelectric Actuation 100%
• Device Packaging 100%
• Flexure Mechanism 100%
• Wire Clamp 100%
• Finite Element Analysis 33%
• Frequency Mode 16%
• Fast Response 16%
• Design Optimization 16%
• Maximum Stress 16%
• Dynamic Model 16%
• Copper Wire 16%
• Gold Wire 16%
• Stress Frequency 16%
• Machining Method 16%
• Homothetic 16%
• Natural Frequency 16%
• Jaw Displacement 16%
• Amplification Ratio 16%
• Grasping Operation 16%
• Parallelogram 16%
• Wire Electrical Discharge Machining 16%
• Working Mode 16%
• Monolithic Structure 16%
• Leverage Mechanism 16%
• Bridge-type Mechanism 16%
• Mechanical Structure 16%
• Pseudo-rigid-body Model 16%
• Flexure-based 16%
• Static Modeling 16%
• Lagrange Approach 16%
• Displacement Amplification 16%
• Precision Grasp 16%
• Step Response Test 16%
• Kinematic Modeling 16%
• Clamper 16%