Thin-Film MEMS Resistors with Enhanced Lifetime for Thermal Inkjet

• Main Authors: Elkana Bar-Levav, Moshe Witman, Moshe Einat
• Format: Article
• Language: English
• Published: MDPI AG 2020-05-01
• Series: Micromachines
• Subjects: 2D printhead; 3D printing; thermal inkjet; thin-film resistors
• Online Access: https://www.mdpi.com/2072-666X/11/5/499

In this paper, the failure mechanisms of the thermal inkjet thin-film resistors are recognized. Additionally, designs of resistors to overcome these mechanisms are suggested and tested by simulation and experiment. The resulting resistors are shown to have improved lifetimes, spanning an order of magnitude up to 2 × 10⁹ pulses. The thermal failure mechanisms were defined according to the electric field magnitude in three critical points—the resistor center, the resistor–conductor edge, and the resistor thermal "hot spots". Lowering the thermal gradients between these points will lead to the improved lifetime of the resistors. Using MATLAB PDE simulations, various resistors shapes, with different electric field ratios in the hot spots, were designed and manufactured on an 8'' silicon wafer. A series of lifetime experiments were conducted on the resistors, and a strong relation between the shape and the lifetime of the resistor was found. These results have immediate ramifications regarding the different printing apparatuses which function with thermal inkjet technology, allowing the commercial production of larger thermal printheads with high MTBF rate. Such heads may fit fast and large 3D printers.