Company Filing History:
Years Active: 2002
Title: The Innovations of Robert E. Kranz
Introduction
Robert E. Kranz is an accomplished inventor based in Richfield, MN (US). He is known for his significant contributions to the field of thermally conductive materials, particularly in the realm of electronic devices. His innovative work has led to the development of advanced interface pads that enhance the performance of heat-generating solid-state devices.
Latest Patents
One of Robert E. Kranz's notable patents is titled "Integrated release films for phase-change interfaces." This invention describes a thermally conductive conformable interface pad designed to be placed between a heat-generating solid-state electronic device and a heat sinking surface. The interface consists of a laminate of at least two layers, including a relatively soft conformable body layer with an integrally bonded anti-blocking layer. The conformable body layer is made from a thermally stable wax, specifically an alkyl substituted poly (hydro, methyl-siloxane) wax combined with a thermally conductive particulate solid. The anti-blocking layer can be composed of various materials, including a mixture of waxes or a glassy polyester layer.
Career Highlights
Robert E. Kranz is currently employed at The Bergquist Company, where he continues to innovate and develop new materials for electronic applications. His work has been instrumental in improving the efficiency and reliability of electronic devices, making them more effective in managing heat.
Collaborations
Throughout his career, Robert has collaborated with talented individuals such as Sanjay Misra and Radesh Jewram. These partnerships have fostered a creative environment that has led to the successful development of new technologies.
Conclusion
Robert E. Kranz is a prominent figure in the field of thermal management for electronic devices. His innovative patent and contributions to The Bergquist Company highlight his commitment to advancing technology in this critical area. His work continues to impact the efficiency of electronic devices, ensuring they operate effectively under demanding conditions.