UltraSense Systems is looking for strong Mechanical & Simulation Engineer. Main
responsibilities include integrating UltraSense HMI products across multiple
applications from mobile to automotive to IoT and involved in the entire
development process from initial concept through manufacturing.
Major Responsibilities
1. In charge of product designs of consumer electronics, automotive, and
appliances and involved in the entire development process from initial
concept through manufacturing
2. Assess/analyze the mechanical structure and new piezoelectrical sensor
with commercial finite element software and optimize sensor performance
by the simulation result.
3. Provide detail design recommendations to the Product Design teams based
on Finite Element Analysis (FEA) results, contributing to the product design
and sensor performance assessment.
4. Aim at improving user experience through well-executed design with our
sensor interface and build Mockup in practices
5. Cooperate with cross-functional teams for innovative solutions, inclusive of
Mechanical Engineering, Optimizing Sensor Design and Issue-resolving
Design
Minimum Qualifications
Master's degree or above in science or technical discipline with a minimum
of 3 years of mechanical design/simulation experience
1. Proficient with commercial finite element software, mainly ABAQUS; can
build meshes for thermal and structural simulations. Other fields are
pluses.
2. Computing expertise in one or more of the following areas: FEM tools,
programming language (python, MATLAB, C, Fortran, etc.), PDE solving
methodology and technics.
3. Familiar with system/product level characterization and material testing
4. Strong conceptualization and creative problem-solving skills, strong
mechanical aptitude, and basic understanding of stress-strain
5. Must be effectively bilingual in Mandarin and English; excellent written and
spoken communication skills are required.
1. Strong knowledge of heat transfer, fluid dynamics, thermodynamics, and
computational fluid dynamics simulations.
2. Experience with liquid cooled and air-cooled design.
3. Validate and test the cooling system, and establish a database for subsequent
system use.
4. Develop thermal systems with associated structures, mechanisms, and
instrumentation elements to solve customer challenges, and see these elements
through build, test, integration, and operation.
5. Perform trades within the mechanical and thermal systems to provide
performance and system resource balance.
6. Design cooling system for battery system to ensure battery is developed with
appropriate requirements, interfaces, and interactions to achieve specific
performance targets.