论文信息 - ESD failure mechanisms of inductive and magnetoresistive recording heads

ESD failure mechanisms of inductive and magnetoresistive recording heads

The response of experimental thin-film recording head structures to the excessive current and voltage during an electrostatic discharge (ESD) event is studied. Inductive and magnetoresistive (MR)-like magnetic recording head structures are tested and modeled from the viewpoint of electrostatic theory. An electrical model for the shielded MR-like head structure is proposed and used in circuit simulations to study the response during Human Body Model (HBM) and Machine Model (MM) transients. A testing methodology is defined using HBM and MM ESD transients. A thermal model for thin-film resistor burnout is compared with experiment and predicts a higher failure current than is measured. Results show that the MR structure can fail due to metalization burnout or air breakdown. The HBM metalization burnout failure voltage ranged from 100 V to 300 V, while MM damage started at about 27 V. Air breakdown ranged from 550 V to 650 V.

[1] J. S. Smith. Electrical Overstress Failure Analysis in Microcircuits , 1978, 16th International Reliability Physics Symposium.

[2] William D. Greason,et al. Electrostatic Discharge in Electronics , 1987 .

[3] Steven H. Voldman,et al. Scaling, optimization and design considerations of electrostatic discharge protection circuits in CMOS technology , 1994 .

[4] A. J. Wallash. Electrostatic modeling and ESD damage of magnetoresistive sensors , 1996 .

[5] Owen J. McAteer. Electrostatic Discharge Control , 1990 .

[6] Dante M. Tasca,et al. Pulse Power Failure Modes in Semiconductors , 1970 .

[7] Eric D. Daniel,et al. Magnetic recording; Vol. I: technology , 1987 .

[8] Timothy J. Maloney,et al. Integrated circuit metal in the charged device model: bootstrap heating, melt damage, and scaling laws , 1993 .

[9] Hong Tian,et al. Electrostatic discharge damage of MR heads , 1995 .