Engineering Apprentice (Level 6)
SALTS HEALTHCARE LIMITED
Birmingham (B6 6BQ)
Closes in 9 days (Friday 17 July 2026 at 11:59pm)
Posted on 8 July 2026
Contents
Summary
Launch your career with a Level 6 Engineering Degree Apprenticeship in a dynamic manufacturing setting. Gain hands-on experience in automation, controls and robotics while studying for a bachelor's degree. Build the skills to maintain, fault-find and improve advanced engineering equipment.
- Wage
-
£21,000 a year
- Training course
- Control systems engineer (degree) (level 6)
- Hours
-
Monday to Friday- Hours to be flexible to suit business needs.
37 hours 30 minutes a week
- Start date
-
Monday 7 September 2026
- Duration
-
4 years
- Positions available
-
1
Work
Most of your apprenticeship is spent working. You’ll learn on the job by getting hands-on experience.
What you'll do at work
- Work safely and professionally in a fast-paced manufacturing environment, following Health & Safety, Environmental and Quality standards
- Develop safe working practices, including electrical safety, safe isolation, permit systems and machine safety principles
- Get hands-on with automated manufacturing equipment and associated control systems
- Support engineers to maintain, fault-find and troubleshoot production machinery
- Use engineering tools, test equipment and diagnostic instruments to diagnose problems
- Learn to read engineering drawings, electrical schematics and technical documentation
- Build your understanding of electrical circuits, sensors, actuators, drives and industrial control components
- Develop knowledge of PLC architecture, industrial networks and automation principles
- Assist with fault-finding on automated manufacturing equipment.
- Support maintenance and troubleshooting of PLC-controlled machinery
- Help diagnose electrical, control and automation system faults
- Learn PLC programming principles and software development techniques
- Support robot operation, maintenance and basic programming activities
- Assist with commissioning and validation of automation equipment
- Take part in machine modifications and continuous improvement projects
- Learn about industrial communication protocols such as Ethernet/IP, Profinet, Profibus and CC-Link
- Support machine safety verification activities, including interlocks, light curtains, safety relays and safety PLC systems
- Develop competence in servo drives, motion control systems and machine vision technologies
- Help collect data, monitor performance and support reliability improvements
- Work under supervision to develop, modify and optimise PLC programs
- Diagnose and help rectify complex automation, control system and robotics faults
- Take part in robot programming, integration and optimisation activities
- Support the specification, design and implementation of automation projects
- Help install and commission new manufacturing equipment
- Develop HMI systems, operator interfaces and production monitoring solutions
- Support the integration of industrial networks and communication systems
- Contribute to capital projects involving automation, controls and robotics
- Carry out structured root cause analysis and help develop corrective actions for recurring equipment failures
- Analyse production and machine performance data to identify opportunities for improvement
- Assist in creating technical documentation, standards and engineering procedures
- Support cybersecurity and network integrity of industrial control systems
- Provide technical support and guidance to production teams and maintenance personnel
Where you'll work
Apollo Building, Aston Hall Road
Aston
Birmingham
B6 6BQ
Training
Apprenticeships include time away from working for specialist training. You’ll study to gain professional knowledge and skills.
Training provider
BIRMINGHAM METROPOLITAN COLLEGE
Training course
Control systems engineer (degree) (level 6)
Understanding apprenticeship levels (opens in new tab)
What you'll learn
Course contents
- Translate conceptual designs or technical specifications into operational process control systems.
- Select, use and apply approved problem-solving methods to solve complex problems and determine appropriate solutions such as Define, Measure, Analyse, Improve, and Control (DMAIC), Failure Mode Effects Analysis (FMEA), Plan-Do-Check-Act (PDCA) and fishbone diagrams.
- Select the best method for collating and conveying complex information using a range of data sources and supporting documentation.
- Interpret and produce technical documentation such as schematic diagrams, project plans, fault reports or data analytics using company documentation systems and guidelines.
- Observe, record and draw accurate and auditable conclusions from data and or developmental or test evidence.
- Manage assigned projects or programmes of work, taking into account factors such as safety, quality, cost and performance criteria. Apply techniques and processes for project or programme management including escalation, audit or risk management and risk mitigation.
- Comply with statutory and organisational safety standards and requirements including supporting safety risk assessments and mitigating any risks identified within the control systems environment.
- Identify resources required to complete control system projects, project tasks or programmes of work, with consideration to factors such as cost, quality, safety, security, environmental impact as applicable to the activity.
- Create a project or work programme plan and develop activities in a logical process embedding mechanisms for adapting to changing circumstances or requirements.
- Demonstrate leadership when undertaking control system engineering activities such as system design, integration, operational simulation, installation, testing, pre commissioning, commissioning and maintenance of control systems.
- Ensure that all instrumentation has been correctly configured and calibrated before use.
- Identify areas for improvement and lead continuous improvement activities such as improving safety, quality, technology solutions, operational processes, training and development, equipment performance or cost key performance indicators (KPIs).
- Perform checks on control systems documentation to ensure it meets organisational compliance and traceability requirements. Report any non-conformances using the appropriate processes and procedures.
- Interpret key performance indicators and utilise improvement techniques or processes to improve efficiency and effectiveness such as lean or six sigma.
- Translate conceptual designs or technical specifications into operational process control systems.
- Select, use and apply approved problem-solving methods to solve complex problems and determine appropriate solutions such as Define, Measure, Analyse, Improve, and Control (DMAIC), Failure Mode Effects Analysis (FMEA), Plan-Do-Check-Act (PDCA) and fishbone diagrams.
- Select the best method for collating and conveying complex information using a range of data sources and supporting documentation.
- Interpret and produce technical documentation such as schematic diagrams, project plans, fault reports or data analytics using company documentation systems and guidelines.
- Observe, record and draw accurate and auditable conclusions from data and or developmental or test evidence.
- Manage assigned projects or programmes of work, taking into account factors such as safety, quality, cost and performance criteria. Apply techniques and processes for project or programme management including escalation, audit or risk management and risk mitigation.
- Comply with statutory and organisational safety standards and requirements including supporting safety risk assessments and mitigating any risks identified within the control systems environment.
- Identify resources required to complete control system projects, project tasks or programmes of work, with consideration to factors such as cost, quality, safety, security, environmental impact as applicable to the activity.
- Create a project or work programme plan and develop activities in a logical process embedding mechanisms for adapting to changing circumstances or requirements.
- Demonstrate leadership when undertaking control system engineering activities such as system design, integration, operational simulation, installation, testing, pre commissioning, commissioning and maintenance of control systems.
- Ensure that all instrumentation has been correctly configured and calibrated before use.
- Identify areas for improvement and lead continuous improvement activities such as improving safety, quality, technology solutions, operational processes, training and development, equipment performance or cost key performance indicators (KPIs).
- Perform checks on control systems documentation to ensure it meets organisational compliance and traceability requirements. Report any non-conformances using the appropriate processes and procedures.
- Interpret key performance indicators and utilise improvement techniques or processes to improve efficiency and effectiveness such as lean or six sigma.
Training schedule
- The apprentice will train through a combination of workplace learning and academic study
- They will develop practical skills and knowledge by working on real engineering projects with their employer, supported by experienced engineers
This hands-on experience is complemented by structured academic learning
- Year 1: Foundation Degree Level 4 (1 day per week) plus Foundation Competence Level 2 (2?3 days per week)- 3 days total per week
- Year 2: Foundation Degree Level 5 (1 day per week
- Years 3 and 4: Top-up degree delivered at Birmingham City University (1 day per week) Workplace Learning: Alongside academic study, the apprentice will gain practical experience by working on real engineering projects within the workplace, supported by experienced engineers
Delivery Method:
- Years 1 and 2: Day release at James Watt College
- Years 3 and 4: Day release at Birmingham City University Ongoing workplace learning with employer
This blended approach ensures the apprentice gains both valuable industry experience and a strong theoretical understanding of control systems engineering, progressing from foundation level to a top-up degree.
Requirements
Essential qualifications
GCSE in:
- English (grade 4/C or above)
- Science (grade 4/C or above)
- Maths (grade 5/B or above)
- Any subject (grade 4/C or above)
A Level in:
- Maths (grade 4/C or above)
- Physics or Engineering-related subjects (grade 4/C or above)
Share if you have other relevant qualifications and industry experience. The apprenticeship can be adjusted to reflect what you already know.
Skills
- Analytical skills
- Attention to detail
- Communication skills
- Logical
- Number skills
- Organisation skills
- Problem solving skills
- Team working
Other requirements
- You will train at both the employer's workplace and at James Watt college as part of this apprenticeship
- Before applying, please check how you will travel to each location and how long the journey will take
About this employer
SALTS Healthcare Limited is one of the UK's oldest family-owned healthcare companies, with a heritage dating back over 300 years. Based in Aston, Birmingham, the company is an internationally recognised manufacturer of medical devices specialising in stoma care products and services. SALTS Healthcare is committed to its vision of "Caring, Listening and Innovating to Improve Lives" and is dedicated to delivering high-quality products, exceptional customer support, and continuous innovation. The company values the development of its employees, investing in learning and professional growth, making it an excellent environment for apprentices seeking to build skills, gain valuable industry experience, and contribute to improving the lives of patients worldwide.
https://www.salts.co.uk/ (opens in new tab)
Disability Confident
A fair proportion of interviews for this apprenticeship will be offered to applicants with a disability or long-term health condition. This includes non-visible disabilities and conditions.
You can choose to be considered for an interview under the Disability Confident scheme. You’ll need to meet the essential requirements to be considered for an interview.
After this apprenticeship
Your earnings can increase over time with an apprenticeship. Find out about potential future pay (opens in new tab).
Successful completion of this apprenticeship is expected to prepare you for progression into roles such as Automation Engineer, Controls Engineer, Robotics Engineer, Manufacturing Systems Engineer or Reliability Engineer.
Ask a question
The contact for this apprenticeship is:
BIRMINGHAM METROPOLITAN COLLEGE
BMet Recruitment
recruitment@bmet.ac.uk
0121 362 1122
The reference code for this apprenticeship is VAC2000041219.
Apply now
Closes in 9 days (Friday 17 July 2026 at 11:59pm)