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- Tasks: Design and deliver cutting-edge EAD circuits for complex telecom environments.
- Company: Join @mecscomms, a leader in telecom recruitment with a focus on innovation.
- Benefits: Flexible remote work, competitive pay, and opportunities for professional growth.
- Other info: Collaborate with diverse teams in a fast-paced, dynamic environment.
- Why this job: Make a real impact in the telecom industry while working from anywhere.
- Qualifications: Experience in EAD design and strong communication skills are essential.
The predicted salary is between 40000 - 50000 £ per year.
Ethernet Access Network Design, Fibre Network Design, OSP / FTTP Network Design, EMI, EPR, Telecoms Design in Utility, Substation, Power, Electricity, Rail or Industrial sites UK wide - work from home - full remote working.
Role: EAD Circuit Designer / Service Designer / Access Network Design Engineer
Key Skills: EAD Design, Ethernet Access Direct, FTTP, Fibre Network Design, BT Openreach, Access Network, Telecom Infrastructure, EMC, EPR, Circuit Design, Network Planning
Location: UK (Remote) - work from home - full remote working
Type: Contract / Fixed-Term
Day Rate: Negotiable DOE, Inside IR35
Overview: @mecscomms is recruiting for an EAD Circuit Designer / Service Designer to support a major telecoms delivery programme focused on Ethernet Access Direct (EAD), leased line and carrier Ethernet circuit delivery into utility, power sites and substation environments. The role is specifically focused on sites where telecoms delivery may be affected by electromagnetic interference, EMC requirements, Earth Potential Rise, fibre/copper suitability, cabinet specification, cable entry, ventilation, earthing, and substation access constraints. This is a highly specialised telecom infrastructure design role, requiring deep experience in BT Openreach EAD delivery, fibre access design, circuit feasibility and design pack production. The position focuses on ensuring designs are technically feasible, safe, installable and compliant, particularly in complex environments impacted by electromagnetic interference (EMI), Earth Potential Rise (EPR), and utility constraints within utility, substation, power, rail or industrial environments. You will act as a Subject Matter Expert (SME), working across survey, design and delivery to ensure high-quality, implementation-ready design outputs.
Purpose: To design, validate and deliver high-quality EAD / Ethernet access circuit solutions, ensuring alignment with BT Openreach processes, utility constraints and real-world installation requirements, while reducing delivery risk and rework.
Technology / Domain Stack:
- EAD (Ethernet Access Direct) / Leased Line / Carrier Ethernet
- FTTP / Fibre Network Design
- BT Openreach Access Network
- Circuit Routing & Feasibility Assessment
- HLD / LLD Design Documentation
- EMC (Electromagnetic Compatibility)
- EPR (Earth Potential Rise)
- Substation / Utility / Power Environments
- Telecom Cabinets (45U EMC Cabinets, ventilation, filters, cable entry)
- Fibre vs Copper Access Design
- CAD / Visio / Network Design Tools
Keywords: EAD Designer, Ethernet Access Direct, Fibre Network Designer, FTTP Planner, Access Network Designer, Telecom Design Engineer, Circuit Designer, OSP Design, Openreach EAD, Carrier Ethernet, Network Planning, Telecom Infrastructure, HLD, LLD, Substation Telecoms, Utility Telecoms, EMC, EPR
Core Activity:
- Design and deliver EAD / Ethernet access circuits for complex telecom environments
- Assess site feasibility and access constraints based on surveys and technical inputs
- Translate requirements into practical design packs for delivery and implementation
- Ensure alignment with BT Openreach delivery lifecycle and standards
- Identify and mitigate design, installation and delivery risks early
- Collaborate with stakeholders across design, engineering, utilities and suppliers
- Support delivery teams to resolve design vs field execution issues
Responsibilities:
- Design EAD / leased line / carrier Ethernet circuits for telecom delivery
- Interpret BT Openreach survey outputs, routing constraints and provisioning requirements
- Produce HLD / LLD and implementation-ready design documentation
- Assess fibre vs copper suitability based on environmental and technical constraints
- Identify risks relating to EMI, EMC and Earth Potential Rise (EPR)
- Validate telecom infrastructure including ducting, cabinets, routing and access points
- Ensure cabinet designs meet EMC, ventilation and cable entry requirements
- Work closely with carriers, operators, utility providers, engineers and suppliers
- Translate task sheets and requirements into deliverable design outputs
- Support Acceptance Into Live Support (AILS) readiness and handover documentation
- Proactively identify delivery blockers, risks and design gaps
Deliverables:
- Site-level EAD circuit designs
- Feasibility assessments with risks and assumptions
- HLD / LLD design packs
- Cabinet and infrastructure validation outputs
- Bill of Materials (BoM) and implementation mapping
- Risk and issue logs
- As-built documentation and AILS handover inputs
Working Environment:
- Large-scale telecom infrastructure programme
- Cross-functional collaboration (engineering, utilities, delivery teams)
- High-complexity environments (substations, utilities, industrial sites)
- Strong focus on technical accuracy, safety and delivery assurance
- Fast-paced, delivery-driven environment with real-world impact
Candidate Profile:
Candidates should possess hands-on experience in EAD / Ethernet access circuit design and delivery. You will combine technical depth, practical delivery understanding and strong documentation capability to ensure successful telecom deployments in complex environments.
Essential:
- Proven experience in EAD / Ethernet Access Direct / leased line design
- Strong knowledge of BT Openreach delivery lifecycle and processes
- Experience producing HLD, LLD and implementation design packs
- Ability to interpret site surveys, routing constraints and technical inputs
- Strong understanding of fibre access design and circuit routing
- Experience working across design to delivery lifecycle
- Excellent stakeholder engagement and communication skills
Desirable:
- Experience in substation, utility, rail or industrial telecom environments
- Knowledge of EMI / EMC and Earth Potential Rise (EPR)
- Understanding of copper vs fibre limitations in high-voltage environments
- Experience with telecom cabinet / rack design (EMC cabinets, ventilation, filters)
- Awareness of NRSWA, civils and streetworks considerations
- CAD / Visio / GIS design tooling experience
Key Traits:
- Highly practical and delivery-focused engineer
- Strong problem-solving and analytical capability
- Ability to challenge assumptions and identify risks early
- Detail-oriented with strong documentation discipline
- Comfortable working across technical and non-technical stakeholders
- Proactive, collaborative and solutions-driven
EAD Circuit Designer / OSP Access Network Design in Newbury employer: MECS Communications Ltd
Contact Detail:
MECS Communications Ltd Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land EAD Circuit Designer / OSP Access Network Design in Newbury
✨Tip Number 1
Network like a pro! Reach out to your connections in the telecoms industry, especially those who have experience with EAD and fibre network design. Attend relevant webinars or local meetups to expand your circle and get insider info on job openings.
✨Tip Number 2
Show off your skills! Create a portfolio showcasing your previous EAD designs and projects. This will give potential employers a clear view of what you can bring to the table, especially in complex environments like substations and utilities.
✨Tip Number 3
Prepare for interviews by brushing up on your knowledge of BT Openreach processes and the specific challenges of EMI and EPR in telecom design. Be ready to discuss how you've tackled similar issues in past roles.
✨Tip Number 4
Don't forget to apply through our website! We’ve got loads of opportunities that might be perfect for you. Plus, it’s a great way to ensure your application gets seen by the right people.
We think you need these skills to ace EAD Circuit Designer / OSP Access Network Design in Newbury
Some tips for your application 🫡
Tailor Your Application: Make sure to customise your CV and cover letter to highlight your experience with EAD design and telecom infrastructure. We want to see how your skills align with the specific requirements of the role!
Showcase Your Technical Skills: Don’t hold back on detailing your technical expertise! Mention your experience with BT Openreach processes, circuit design, and any relevant tools like CAD or Visio. This is your chance to shine!
Be Clear and Concise: When writing your application, keep it straightforward. Use clear language and bullet points where possible to make it easy for us to see your qualifications at a glance.
Apply Through Our Website: We encourage you to submit your application through our website. It’s the best way for us to receive your details and ensures you’re considered for the role without any hiccups!
How to prepare for a job interview at MECS Communications Ltd
✨Know Your EAD Inside Out
Make sure you brush up on your knowledge of Ethernet Access Direct (EAD) and its application in telecoms. Be ready to discuss your experience with BT Openreach processes and how you've tackled design challenges in complex environments.
✨Prepare for Technical Questions
Expect to dive deep into technical discussions about fibre network design, circuit feasibility, and electromagnetic interference (EMI). Practise explaining your design decisions and how you ensure compliance with safety standards.
✨Showcase Your Documentation Skills
Since producing HLD and LLD documentation is key, be prepared to talk about your approach to creating implementation-ready design packs. Bring examples of your past work to demonstrate your strong documentation discipline.
✨Engage with Stakeholders
Highlight your experience in collaborating with various stakeholders, from engineers to utility providers. Share specific examples of how you've effectively communicated and resolved issues during the design and delivery lifecycle.