Options
Fraunhofer-Institut für Zuverlässigkeit und Mikrointegration IZM
Now showing
1 - 3 of 3
-
PublicationSensor Systems for Extremely Harsh Environments( 2022)
;Saeidi, NooshinSensors are key elements for the detection of environmental properties and are indispensable in industrial applications for process monitoring and intelligent control of processes. While highly integrated sensor systems are already state -of-theart in many everyday areas, the situation in an industrial environment is significantly different. The use of sensor systems is often not possible because the extreme environmental conditions of industrial processes such as high operating temperatures or strong mechanical loads do not allow the reliable operation of sensitive electronic components. As part of the Fraunhofer Lighthouse project eHarsh, eight institutes have bundled their competencies and created a technology platform as a basis for the development of sensor systems for extremely harsh environments. -
PublicationSmart sensor systems for extremely harsh environmentsSensors systems are key elements for capturing environmental properties and are increasingly important in industry 4.0 for the intelligent control of processes. However, under harsh operating conditions like high temperatures, high mechanic load or aggressive environments, standard electronics cannot be used. Eight Fraunhofer institutes have therefore bundled their competencies in sensors, microelectronics, assembly, board design, laser applications and reliability analysis to establish a technology platform for sensor systems working under extreme conditions.
-
PublicationHOT-300 - a multidisciplinary technology approach targeting microelectronic systems at 300 °C operating temperature( 2016)
;Vogt, Holger ;Celik, Yusuf ;Dietz, Dorothee ;Gabler, Felix ;Goehlich, Andreas ;Nowak, TorstenSeveral applications in the fields of industrial sensors and power electronics are creating a demand for high operating temperature of 300 °C or even higher. Due to the increased temperature range new potential defect risks and material interactions have to be considered. As a consequence, innovation in semiconductor, devices and packaging technologies has to be accompanied by dedicated research of the reliability properties. Therefore various investigations on realizing high temperature capable electronic systems have shown that a multidisciplinary approach is necessary to achieve highly reliable solutions. In the course of the multi-institute Fraunhofer internal research program HOT-300 several aspects of microelectronic systems running up to 300 °C have been investigated like SOI-CMOS technology and circuits, silicon capacitor devices, a capacitive micromachined ultrasonic transducer (CMUT), ceramic substrates and different packaging and assembly techniques. A ceramic molded package has been developed. Die attach on different leadframe alloys were investigated using silver sintering and transient liquid phase bonding (TLPB). Copper and gold wire bonding was studied and used to connect the chips with the package terminals. Investigations in flip chip technology were performed using Au/Sn and Cu/Sn solder bumps for transient liquid phase bonding. High operating temperatures result in new temperature driven mechanisms of degradation and material interactions. It is quite possible that the thermomechanical reliability is a limiting factor for the technology to be developed. Therefore investigations on material diagnostics, reliability testing and modeling have been included in the project, complementing the technology developments.