Title :
Electrostatic discharge (ESD) sensitivity of thin-film hybrid passive components
Author_Institution :
AT&T Bell Labs., Allentown, PA, USA
fDate :
12/1/1989 12:00:00 AM
Abstract :
The electrostatic discharge (ESD) sensitivities of thin-film passive components from various hybrid integrated circuits (HICs) were characterized using two ESD standard models: the human body model (HBM) and the charge device model (CDM). It was found that thin-film Au conductors made with a minimum linewidth of 60 μm were insensitive to ESD of 3000 V. Capacitors failed at HBM voltages as low as 300 V when tested following the specification that calls for multiple HBM discharges. However, this test procedure was not indicative of the capacitors´ ESD robustness due to a cumulative effect of the capacitors´ ESD charging voltages. Low-value resistors were sensitive to ESD voltages as low as 600 V. High-value resistors, when not RTV (room temperature vulcanized) encapsulated, were damaged due to arcing at lower ESD voltages than when encapsulated. On the basis of the experimental results and analysis, rules for ESD robust low-value resistors are recommended. Also, a new meander resistor design is proposed
Keywords :
electrostatic discharge; hybrid integrated circuits; thin film circuits; thin film resistors; 300 V; 3000 V; 60 micron; 600 V; Au thin film conductors; ESD charging voltages; arcing; capacitor ESD robustness; charge device model; electrostatic discharge sensitivity; high value resistors; human body model; hybrid integrated circuits; low value resistors; meander resistor design; minimum linewidth; multiple human body model discharges; room temperature vulcanized encapsulation; thin-film passive components; Biological system modeling; Capacitors; Electrostatic discharge; Hybrid integrated circuits; Integrated circuit modeling; Low voltage; Resistors; Testing; Thin film circuits; Transistors;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
