What Is PCB Panelization and Why Is It Important?

November 12, 2018 Team OrCAD

What Is PCB Panelization and Why Is It Important?

So you’ve just sketched up the perfect PCB design. You carefully laid out your components and traces to allow for optimal EMI/EMC and thermal considerations. You even made sure your board fits perfectly within the tight enclosure of your final product.

There’s just one problem. You call up your favorite fabrication house to find out that the transfer conveyors of their production machinery can’t process single boards with less than 2.0 inch conveyor width. Eager for your business, the sales liaison will likely recommend you make it bigger or try panelization.

Your product design enclosure doesn’t have enough margin to expand the width of your board, and even if it did, the price for single board processing is looking a little steep. PCB panelization it is. In this article we’ll cover PCB panelization, what it is, and how it can help you with your manufacturing needs.

What is PCB Panelization?

PCB panelization is a manufacturing technique in which smaller boards are manufactured en-masse connected together as a single array, making it easier to move through an assembly line. The individual boards can easily be depanelized or removed from the array for packaging or installation into a product. Alternatively a PCB processing edge around an individual board to increase its width to fit on the assembly line.

In order to reap the benefits of mass production that come with panelization, it’s important to factor in the following design considerations:

  • PCB-array strength. There’s a tradeoff between the ease of depanelization and array integrity during production. Increasing board count per array can increase strength and reduce vibration.

  • Component layout. Placement of components and connectors, especially those hanging off the edge of a board can limit your panelization options. Be mindful of the location of sensitive SMT (surface mount technology) components towards the edge of a board.

  • PCB shape. The shape of your board can complicate panelization. Rectangles are ideal, but if the shape of your board is complex, alternating images from 90° to 180° can help you maximize space on a panel. Use a CAD program to fit unusually shaped boards into an array.

  • Tooling holes. Arrays and break-away processing edges can give you space for tooling holes for automated testing on the assembly line.

Advantages of PCB Panelization

PCB panelization doesn’t just help smaller boards fit in standard production processes, it also makes production more efficient. Common advantages of PCB panelization include:

  • Mass production. If you need to build a lot of boards, panelization will save you time and money.

  • Product safety. Panelization protects the PCB from shock and vibration experienced during assembly.

  • Speed and efficiency. From paste printing to component assembly, soldering, and even  testing—it’s faster and more efficient to process multiple boards at once as part of a large array.

  • Standard panel sizes. It’s often more cost effective to manufacture boards using the fabricator’s standard processing panel.

Every manufacturer has their own preferences for panel sizes, but in general 18 x 24 inch panels with ½ inch perimeter of clearance for handling double-sided boards (1 inch for multilayer boards) are standard. You’ll want to check with your fabricator before drafting a panel for their assembly process.

Depanelization Methods

There are many ways to depanelize an array of smaller boards. Which you use often depends on how you chose to connect the boards to each other in the panel:

  • V-grooves: Also known as v-scoring, this method involves tracing a v-shaped cut along the top and bottom edge of the panel. Typically boards are scored to about ⅓ the thickness. A fixture or machine must be used to depanel it, as manual removal can put undue strain on components towards the edge.

  • Tabs: Individual circuits can be connected to the panel frame via narrow tabs which can be snapped or broken to remove the individual boards. These can be subjected to a number of manual or automated processes.

Depanelization methods include:

  • Manual: Remember those plastic model cars, planes, and robots you used to build as a kid? Boards can be cut or even popped out of a panel by hand or using a tool or fixture, however this labor intensive step is being phased out due to quality concerns and the rise of automation.

  • Punch/die cutting: A fixture with die cutter is used to punch individual boards out of a panel. The fixture and blades must often be custom made for the board.

  • Saw cut: A saw blade “like a pizza cutter” can be lined up with the v-groove, and used to cut the individual boards out of a panel.

  • Depaneling router: Similar to a wood router, this machine has a bit that can be used to cut boards from a panel.

  • Laser cut: Sometimes called a laser router, lasers are suitable for designs with tight tolerances or unusual shapes. The process is entirely automated, can be used to carve any path including curves and sharp corners, and does not generate any mechanical stress.

PCB Panelization Matters

On top of performance, functionality and compliance with EMI/EMC requirements, it’s important to factor manufacturability into your PCB (printed circuit board) designs. Designing your boards with panelization in mind can prevent unplanned delays and redesigns. 

 

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