Electronics Design Engineer - Maritime

Full Job Description

This role is a Hybrid role 3 days on site at Broadoak, and can be flexible with days

We are looking for experience with Safety Hardware Design, Power Supply, Hardware Design and General Electronics. Cadence would be ideal but not mandatory.

Could be scope to be extended/ go perm, programme is running until 2027

This is a technical role relating to the Electronic aspects of hardware design.

* Generate and/or support electronic design solutions for both new products and technology insertions into legacy products.

* Generate and/or support detailed designs from concept to completion.

* Participate in all aspects of board and unit-level designs and including their interfaces with higher levels

This position is at our Broad Oak facility in Portsmouth. We offer a range of hybrid and flexible working arrangements, and can accommodate all levels of experience.

The role holder will undertake some or all of the following tasks :-

• Detailed electronic circuit design including component selection, evaluation, simulation, schematic capture, and liaising with PCB design teams.
• Specification of bespoke procured hardware.
• Design verification using a combination of simulation, analysis, and test techniques, including support to EMC test houses and customer installations.
• Generate design documentation and technical reports.
• Interfacing with related disciplines.
• Assist the development of higher level system designs.
• Assist the development of technical requirement specifications
• Support system integration activities

The role holder will have a degree or equivalent in Electronic Engineering or strongly related subject, and have experience in one or more of the following areas :-

• Generating component level electronic designs for introduction into volume production.
• Digital design including processor interfacing, memory devices, PLD interfacing, UARTs, SPI, I2C, Ethernet etc.
• ADC/DAC devices and techniques
• Analogue design including op-amps, transistor-level design, control loops and and low noise techniques.
• High power techniques including power bricks.
• Design proving, integration, and defect resolution.
• Gathering of evidence to support acceptance, fitness for purpose, legislative requirements, and safety.