Title :
Development of heating resistor for versatile thermal print heads
Author :
Shibata, Susumu ; Kanamori, Takashi ; Tsuruoka, Taiji
Author_Institution :
OKI Electron. Ind. Co., Hachioji, Japan
fDate :
9/1/1989 12:00:00 AM
Abstract :
Improvement in shock and heat resistance of meander-shaped tantalum nitride heating resistors used in facsimiles and other apparatuses is studied, and life prolongation is achieved under the condition of a large drive power. To solve the problem of resistor failure under high-power and high-speed conditions, the causes of heating resistor deterioration are studied. After predicting the temperature distribution at curves of the meander and confirming the effect of some measures, a simulation for thickness-wise temperature distributions is conducted that shows that the temperature rises and falls violently only in the vicinity of the heating resistor. As a means for improvement, the meander-shaped heating resistor is placed between SiO2 layers. With this structure, the resistance to heat and to thermal shock is improved remarkably. Using the results of the analysis and experiments, a heating resistor is obtained with a remarkably improved resistance to thermal shock
Keywords :
facsimile equipment; sputtered coatings; tantalum compounds; thermal printers; thermal shock; thin film resistors; SiO2-Ta2N-SiO2; Ta2N heating resistors; facsimiles; heat resistance; heating resistor deterioration; high-speed conditions; large drive power; life prolongation; meander-shaped heating resistor; resistor failure; temperature distribution; thermal print heads; thermal shock resistance; thickness-wise temperature distributions; Electric shock; Electrical resistance measurement; Facsimile; Printing; Resistance heating; Resistors; Temperature distribution; Testing; Thermal expansion; Thermal resistance;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
