Careers

If you’re a professional or a student with an interest in bringing technologies to change farming practices, then apply for one of our intern/co-op positions. Please send your resume at info@ztractor.com

Mechanical Design Engineer

The Role

A mechanical design engineer within the early technical team is a projects focused position requiring strong engineering skills, a passion to push the boundaries of technology and the determination to improve the overall quality, cost, and manufacturing ease of our prototypes through new or modified designs.

Responsibilities

3D design of parts and assemblies or modifications thereof
Initiating and supervising testing and root cause analysis of testing issues
2D part and assembly drawings and specification creation or modifications thereof
Active relationships with suppliers and oversight of supplier progress, quality, and timing for design changes and new designs
Hands-on prototyping/fabrication for proof of concept testing and mock-ups
Ownership of all aspects of design engineering projects from concept through to successful production launch and ramp
Root cause analysis of test failures, field failures, or production issues and establishment of countermeasures
Fully define part specifications (dimensional, functional/performance requirements, assembly process windows, etc.)
Support production launch and ramp of new designs
Support manufacturing and process change requests and establish value added solutions via design changes
Project management cross-function team lead for engineering improvement projects from project start until completion

Requirements

Bachelors Degree in Mechanical Engineering or equivalent
Evidence of success ownership and completion of design engineering projects
Evidence of being able to independently work and lead design engineering projects
Experience defining test plans, designing test setups, and analyzing test data
Demonstrated competency in 2D (GD&T, specification documents) and 3D CAD
Experience in designing for few volume manufacturing, for both manual and automated assembly
Experience in bill of materials management and engineering change process systems
A detail oriented personality with solid documentation and reporting skills
Proficiency in CAD modeling. CATIA V5/V6 highly preferred

Lead Firmware Software Engineer – BMS

The Role
As a Lead Firmware Engineer on the BMS/Charging development team, you will be responsible for delivering high quality embedded code running on the processors at the heart of Ztractor powertrains, vehicles and energy storage systems. You will solve some of the most ambiguous and challenging problems in the embedded software space and change the way the world produces electric tractors and delivers energy.
Responsibilities

Deliver high-quality C code in a real-time embedded environment
Specify, design, and implement functionality and behaviors of embedded subsystems
Design the software architecture and firmware implementation on hardware through integration, test and prototyping manufacturing
Hands-on hardware bring up, system debugging and code optimization
Make performance and optimization trade-offs to meet product requirements

Requirements

Experience in embedded software development in robotics, real-time controls, or system software with at least 10 years of professional working experience in these areas
Expertise in C, embedded C
Fluent in software fundamentals including software design and maintainability
Experience with embedded microprocessor tools
Controls software and algorithm development
Multithreaded / Multithreading experience
Test driven development and familiarity with developer driven automated testing
Ability to collaborate and communicate complex technical concepts
Understanding of physics and basic principles is highly preferred
RTOS experience as well as HW fundamentals preferred
Experience with C2000 real-time microcontrollers, TI DSPs or NXP microcontrollers is preferred
Linux kernel / platform SW experience is helpful.
BS, MS or PhD in EE/CE/CS, or the equivalent in experience with evidence of exceptional ability

Design Engineer, Body Systems

The Role
The Design Engineer for Body-in-White is responsible for engineering best-in-class body structure architectures and systems for Ztractor’s premium prototype programs. You will Conceptualize, Design, Engineer, Release, Develop and Launch Body Structure components and systems.
Responsibilities

Create and develop Body-in-White component and system requirements and specifications to achieve best-in-class structural, NVH and crash performance
Create vehicle-aligned component and system targets for function, cost, weight and investment
Establish system architecture and functional feasibility
Develop design concepts and production designs in both CATIA V5 and CATIA V6
Complete and release system, sub-system and detail designs
Deliver world-class craftsmanship and fit/finish
Support creation of component specification, component DFMEA, DVP&R and other technical design documents
Release parts for production
Interface with suppliers for manufacturing feasibility, validation, and other engineering activities as specified for the assigned commodity
Create (with component/system supplier) component and subsystem design verification plans and test methods
Complete component and system validation as required, insuring system targets are met and optimized

Requirements

Bachelor of Science or higher in mechanical engineering; or the equivalent in experience and evidence of exceptional ability
3 years minimum experience in automotive body design and engineering
Minimum of 1 full development BIW life cycle through design, development, release and launch
Proficiency in both CATIA V5 and CATIA V6
Understanding of GD&T in design engineering
Demonstrated knowledge and ability to integrate state-of-the-art design and manufacturing methods into product concepts and designs
Ability to interpret CAE results and integrate recommendations into product designs
Demonstrated ability to manage projects with tight timing constraints
Knowledge of relevant manufacturing processes and lightweight, recyclable and sustainable materials (aluminum preferred)
Ability to flexibly work in vague and constantly changing design direction and conditions
Experience in DFSS highly preferred

Powertrain Integration Engineer

The Role
Ztractor Team is seeking an Integration Engineer who will be responsible for ensuring firmware support for new tractor features and new hardware are designed, implemented and tested to achieve industry standards for safety and customer experience.
The Integration Engineer is expected to move projects along at an aggressive pace – keeping track of program milestones and deliverables and pulling together the contributions of many teams into a cohesive final product. The Integration Engineer is also expected to get their hands dirty in the details of their sub-systems – digging through source code, root causing issues and proposing solutions to complex problems, as well as testing prototype firmware implementations in-vehicle. The Integration Engineer is at the center of the iterative firmware development process and has a broad range of responsibilities.
Responsibilities

Work with the design and development engineers throughout the engineering organization to ensure the relevant subsystems are designed with appropriate requirements, interfaces and interactions to achieve specific vehicle functions
Break down new, high-level feature requests into sub-system and component level requirements, and drive the implementation, testing and release of these features against Ztractor’s firmware release schedule
- Utilize critical analysis of potential failure modes and effects to influence these requirements
- Develop overall validation strategy for these features and work with validation teams to ensure automated test coverage is implemented for future firmware releases
Work cross-functionally across mechanical, electrical, system architecture, firmware development and firmware validation teams to understand new component-level hardware changes which are being developed and how to support them in firmware – both in manufacturing and for customer use – so that they can be seamlessly introduced to our tractor platforms
Develop and execute firmware integration test plans on new hardware components and firmware features to rapidly retire risk from new designs and provide feedback to the development teams to accelerate our aggressive development cycles
Dig into data and source code to identify and debug issues at the system level and propose robust solutions
Work with manufacturing and with service to ensure the function(s) are rolled out and functioning properly. This can include development of processes, diagnostic tools and methods, and root-cause diagnosis for product issues
Collaborate with validation teams to design tests which will validate the functions, interfaces, and interactions of the system. Identify areas of concern, and work with teams to rectify any bugs
Develop prototype test setups to integrate new subsystems with simulated and actual tractor components
Lead and manage integration of initial prototype systems including bring-up, debug, and engineering test of alpha- and beta-phase prototype vehicles

Requirements

BS degree in Mechatronics, Mechanical or Electrical Engineering, or Computer Science
Minimum 3 years working on development of complex electro-mechanical projects
Exceptional ability to keep multiple projects moving forwards in parallel
Hands-on technical experience debugging complex systems involving networked microprocessors and software-controlled electrical or electromechanical devices
Proven ability to use programming to solve challenging problems and increase own/team’s efficiency through automation
Experience with C and Python are preferred
Ability to fluently interpret system data to gain an full understanding of logged events
Thorough understanding of mechanics fundamentals – and ability to apply them to tractor concepts
Understanding of low voltage and high voltage circuits and how to debug them
Experience with CAN and Vector CAN tools is a plus
Experience with Failure Mode and Effects Analysis (FMEA) and Hazard Analysis and Risk Assessment (HARA) is a plus