Electrical Design Engineer - Interior Passenger Systems Lighting

Arrival

2000

Banbury, United Kingdom

Posted on: 2022-03-11

Category: emobility

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Expired

Employment type:

Full time

Experience required:

Intermediate

Salary

Salary not provided

About the company:

Zero-emission solutions for cities. Human-centred, intelligent design - to revitalise public transportation.

At Arrival, our team is creating best-in-class electric vehicles using a radical new method of design and production. We work with some of the world's leading businesses and governments to achieve our goal of redefining mobility and transport ecosystems, transforming how people and goods travel and enhancing urban environments for all communities.

Innovation, rapid development and testing help us to push the boundaries. Our New Method takes our portfolio of patented technologies created in-house, and combines it with assembly in Arrival Microfactories. It’s a groundbreaking approach, leading to products with maximum functionality, peak efficiency, and an elevated experience – at a much more competitive price than other electric vehicles, and even fossil fuel vehicles.

At Arrival, our team is creating best-in-class electric vehicles using a radical new method of design and production. We work with some of the world's leading businesses and governments to achieve our goal of redefining mobility and transport ecosystems, transforming how people and goods travel and enhancing urban environments for all communities.

At Arrival we want all of our employees to feel comfortable bringing their passion, creativity and individuality to work. We value all cultures, backgrounds and experiences, as we truly believe that diversity drives innovation. Join our mission to bring better, more sustainable transportation to communities around the world.

Responsibilities

Be responsible for CAD creation of various components such as LED PCBs, wiring harnesses, routing paths and integration of subsystems and their ancillaries.

Assume design ownership of a number of systems and subsystems within the vehicle platform.

Establish a close working relationship with suppliers, both internal and external, becoming the main point of contact for all engineering related matters.

Lead collaborative projects with 3rd party suppliers, consultants, or internal technology teams.

Support in the development of the DFMEA, DVP&Rs, test and validation requests and GD&T documentation for your parts/commodities.

Coordinate multiple design, manufacturing and service stakeholders to arrive upon the best design solutions for the vehicle.

Mount, integrate and package interior passenger systems electrical components (both HV and LV) taking into account vibration, cooling, safety and serviceability needs.

Develop modular solutions that can be re-deployed across multiple different vehicle platforms.

Implement design solutions that have minimal initial tooling investment costs.

Design multi-functional parts, reducing part count, cost and manufacturing complexity.

Design for robotic assembly.

Responsible for the BoM for the parts/commodities and ensuring all attributes are present and correct at all times of development

Responsible for change to the parts/commodities, creating the change requests for the parts/commodities and managing them through the CCB and to closure

Expertise:

Likely to be degree qualified (or equivalent) in an engineering discipline.

Be experienced in modelling solutions and creating manufacturing drawings to automotive specifications.

An understanding of ECE & SAE lighting regulations

Desirable but not essential, lighting systems attributes, design, integration and simulations/ validation.

Automotive lighting experience with an understanding of product creation and delivery tools

Desirable to generate CAD data in Siemens NX and use Teamcenter for BoM management

Understand GD&T with practical knowledge of DFMA (Design for Manufacture and Assembly), datum and float strategies, manufacturing and assembly tolerances.

Detailed knowledge in electrical principles such as grounding schemes, creepage and clearance and component duty cycles.

Practical “hands-on” mechanical skills are beneficial (appreciating how well designed parts get assembled and serviced).

Knowledge of automotive legislative requirements.

Appreciation of all vehicle systems & components.

Knowledge of prototype manufacturing methods.

Ability to communicate ideas and concepts to peers who may not be experienced in the subject in a clear and efficient manner.

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