In this study, we performed thermal safety design of the electric module of a heat-loaded equipment with consideration of its heat dissipation performance. Initially, we calculated the heat dissipation of natural convection to choose a cooling method. Based on this, we found that some modules required forced convection and selected an air-cooling method with an outdoor temperature of 43 degrees Celsius, which is the maximum temperature in Korea. Prior to module production, we performed thermal analysis of each module and proceeded with a design to increase the thermal conductivity of the module as a primary step, and subsequently proceeded with Heat Sink design to maximize the heat dissipation performance. After considering various constraints according to the system requirements and designing the cooling path, we experimentally and analytically secured thermal safety at the operating temperature of the equipment.

• 이재훈(LIG Nex1 C4ISTAR 기계융합연구소) | Jae-Hoon Lee
• 정의봉(LIG넥스원) | Eui-Bong Jeong
• 이건민(LIG넥스원) | Keon-Min Lee
• 윤창열(국방과학연구소)
• 이규송(국방과학연구소) | Kyu-Song Lee