Electrical Engineer II - Embedded Systems

Duties and responsibilities:

-Support the development of automated test plans/procedures and test cases for battery system components and subsystems related to using Hardware In Loop (HIL) test systems.

-Support the development of automated test plans/procedures and test cases for new embedded system products related to battery systems using HIL test systems.

-Leverage lithium ion battery modeling/simulation to develop advanced battery system test cases and to consult on the development of battery algorithms as well as supporting algorithm testing through HIL test systems.

-Maintain knowledge of new industry improvements in battery system HILs and automated testing, and travel to relevant conferences/training as needed.

-Demonstrate Milwaukee Tools Culture of high performance and agility by independently creating Work Breakdown Structure for your work to drive critical milestones and independently track projects to ensure adherence to schedule.

-Drive urgency and accountability in project schedules to establishing and achieving key project metrics that meet the organization's needs.

-Provide candid and effective communications up, down and across the organization on progress, barrier removal and escalation of business risks/opportunities.

Requirements:

Master's or equivalent degree in Electrical Engineering or related engineering field and one year of experience with hardware in the loop (HIL) testing and/or embedded systems or Bachelor's or equivalent degree in Electrical Engineering or related engineering field and three years of experience with hardware in the loop (HIL) testing and/or embedded systems. Experience must include:

-National Instrument hardware, Test Stand, and/or LabVIEW for automated testing.

-Battery modeling/simulation for use with automated testing

-C programming and related development tools and processes, including microcontroller peripherals.

-Firmware architecture and codebase re-use methodology.

-Using schematics and component data sheets

-Digital circuits, including the interaction between firmware and electronics.

-Using schematic capture, PCB layout software and SPICE.

-Using laboratory equipment such as oscilloscopes, logic analyzers, power supplies, e-loads, data acquisition systems, multimeters, power analyzers, etc.

Ability to travel domestically and internationally up to 10%.