PCB Housing Design

Custom Housing Solutions Designed for Performance and Reliability

We offer comprehensive PCB housing design solutions tailored to various industrial, domestic, and commercial applications. These go hand in hand with our PCB design services.

Our team collaborates closely with clients, industry experts, and manufacturing partners to conceptualise and materialise housing designs that seamlessly integrate with electronic PCBs. Whether it’s single-layer or multi-layer PCBs, our housing designs are crafted to exceed client specifications, ensuring optimal functionality and durability in real-world environments.

In collaboration with industry experts and our manufacturing partners, we can offer expert housing design services to bring your designs to life.

Our Effective PCB Housing Design

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We offer comprehensive PCB housing design solutions tailored to various industrial, domestic, and commercial applications. These go hand in hand with our PCB design services.

Our team collaborates closely with clients, industry experts, and manufacturing partners to conceptualise and materialise housing designs that seamlessly integrate with electronic PCBs. Whether it’s single-layer or multi-layer PCBs, our housing designs are crafted to exceed client specifications, ensuring optimal functionality and durability in real-world environments.

In collaboration with industry experts and our manufacturing partners, we can offer expert housing design services to bring your designs to life.

Key Aspects of our PCB Housing Designs

Effective PCB housing design is important in its role in ensuring the functionality, protection, and usability of electronic components.

  • Protection
    Our PCB housing designs shield PCBs from environmental factors such as dust, moisture, and physical impacts. This ensures reliable operation in challenging environments and reduces the risk of failure.

  • Thermal Management
    We aim to dissipate heat generated by electronic components. Proper heat management prevents overheating, ensuring the device performs consistently and safely under various conditions.

  • Electromagnetic Interference (EMI) Shielding
    Our PCB housing can be designed to block or minimise electromagnetic interference from external sources. This ensures that the device operates within regulatory limits and maintains signal integrity for better performance.

  • Durability
    Our designs provide structural support, protecting the internal components from wear and tear. This increases the overall lifespan of the product, even in demanding environments.

  • Ergonomics and Aesthetics
    PCB housing improves usability by ensuring the device is easy to handle and operate. Our PCB housing design also enhances the visual appeal, creating a polished and professional finished product.

  • Customisation
    Our tailored housing designs ensure compatibility with specific applications. Custom features can address unique requirements, such as size constraints or specialised environmental conditions, optimising the device for its intended use.

Materials and Manufacturing of Our PCB Housing Designs

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Each material and process is selected to ensure the housing design meets the intended functional and environmental requirements while maintaining cost efficiency.

Materials We Commonly Use
We use a range of materials to meet specific project needs, balancing functionality, durability, and cost-effectiveness.

  • Plastics
    Materials like ABS and polycarbonate offer lightweight and affordable options. They’re ideal for providing high-impact resistance and electrical insulation.
  • Metals
    Aluminium and steel provide strength and heat dissipation. Both of these factors are important in PCB housing design to ensure longlasting results.
  • Composites
    Advanced materials like carbon fibre composites are used for specialised applications, offering strength, reduced weight, and resistance to environmental stresses.

Manufacturing Processes 

We ensure compatibility with various manufacturing methods to achieve precise and high-quality results.

  • Injection Moulding
    Suitable for large-scale production of plastic housings, injection moulding allows for consistent, detailed designs.
  • CNC Machining
    Best for creating housings from metal or composite materials, CNC machining provides precision and flexibility for complex designs and tight tolerances.
  • 3D Printing
    Ideal for prototypes or low-volume production, 3D printing can allow for quick fabrication of intricate geometries, reducing time and enabling design iterations.

Our Design Process

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Our approach to designing PCB housing is thorough and collaborative with clients and manufacturing partners. This approach guarantees that every housing design meets functional, aesthetic, and production requirements, delivering a well-rounded, reliable product.

Steps to PCB Housing Design

  • Requirements Gathering
    We begin by identifying the project’s specific goals and constraints. This includes understanding functional requirements, environmental conditions, regulatory standards, and any aesthetic preferences.
  • Conceptualisation
    Our team develops initial design concepts that balance functionality, durability, and appearance. These concepts outline potential shapes, materials, and key design features to align with the project’s objectives.
  • 3D Modelling
    Detailed CAD models are created to visualise the housing design. These models provide precise dimensions and allow us to evaluate the overall structure, ensuring all components fit seamlessly.
  • Virtual Prototyping and Simulation
    We simulate real-world conditions to test the design’s performance, including thermal management, structural integrity, and electromagnetic compatibility. This step ensures the design can meet operational and environmental demands.

  • Collaboration with Manufacturing Partners
    We work closely with manufacturers to confirm the design is optimised for the chosen production methods. This collaboration ensures cost-efficiency and feasibility while maintaining design integrity.

  • Refinement
    Feedback from simulations, prototyping, and manufacturers is used to make adjustments. This iterative process ensures the final design is practical, high-performing, and ready for production.

Collaborate With Masters & Young

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We deliver PCB housing designs that meet your technical and operational needs. Working with us, you gain access to a team dedicated to understanding your goals and translating them into effective, reliable designs.

Collaborate with Masters & Young for housing designs that combine functionality, durability, and efficiency. Contact us today to discuss your project.

In-House Capability

Electronics R&D, Design & Engineering

We take a synergistic, collaborative approach. We partner with you at any stage; from brainstorming fuzzy front-end concepts, through R&D, design, development, software & firmware to finished and tested product.

State of the Art Manufacturing

Pre-production prototypes through to finished PCBs

Our state of the art SMT & PTH Technology production lines are operated by highly experienced production teams that produce with excellence to AS9100D and IPC Class 3.

Industry Leading Quality Management

Mission critical quality

Industry leading quality management Whether prototypes, batch or high volume production, our obsession with accuracy and quality has earned us a reputation for excellence. AS9100D certified our production team members are trained and qualified to the highest level.

Assemble, Flash, Deliver

Full end to end ISO 9001:2015 Quality Management System

Our highly experienced certified assembly team has extensive experience for all fields of industry; most notably Aerospace, Medtech, Industrial, and Communications.

We Are Your Team

In-house high performance team

Together, we work with innovation seeking companies to find ingenious solutions to complex problems, and we deliver with excellence to empower our customers to realise exciting commercial opportunities.

Leading the Way in Electronics R&D and Manufacturing Excellence

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