How to use Schematic CAD Drawings for Cable Assemblies: Part 1

April 12, 2016 Sainesh Solanki
The need for computer-aided cable assembly drawings often falls to the electronics design team, but for many the use of high-cost dedicated cabling design software is simply out of reach and overkill. The solution? Use the Schematic Editor! 

Most electronic engineers work on products that require Printed Circuit Board designs to be interconnected by cable assemblies. As you might have already noticed, some dedicated tools that primarily focus on designing cable assemblies, while powerful, are quite expensive and beyond the scope of just creating a simple cable design process. Most of the industries they are focusing on are automotive, HVAC, and aerospace firms. So you inquire yourself, what is the best alternative? The answer is simply in front of you, utilize your ECAD tool to create the cable assembly!

When working in Altium Designer®, I acknowledge all I can do within the tool; I can create my schematic layouts and Printed Circuit Board layouts, I can manage libraries in many ways, and I can control document sources through Version Control. But there are often other questions that come to mind:

  • What if I wanted to create a design that will determine what the routing connections are going to be like through a cable?
  • How can I trace where signals are going, through a designed cable, in an automated way -  and how can the design software and documentation help?
  • How can I quickly and effectively generate a detailed cable assembly drawing for the shop floor? 

The answer is, use the Altium schematic editor! You can generate very detailed cable drawings and wiring harness manufacturing systems with the assistance of importing DXF/DWG files. For example, you can import mechanical drawings of connector heads or crimps that are will be needed for assembly. This way, the assembler can have the life-like drawing to refer to while building the cable. Below is a sample of such a cable drawing:

Figure 1. Example Cable Assembly Drawing.

As an example here (see Figure 1), we have a scaled length mechanical cable drawing, with two 1:1 sized connectors, one at each end. Below the mechanical drawing is the schematic representation of it using schematic symbols for the connectors, joined with wires. Within this schematic symbol diagram, you can see that net labels are linked to each connection. The bubbles with arrows (leader notes) represent a line item that you can refer to within the Bill of Materials. Once you have written your assembly notes, you can then send the ready drawing to the assembly house that makes your cables.

Through my own real-world experience, and in collaboration with other work friends, we came up with a robust and powerful methodology for cable design components in Altium schematics that takes care of these needs. So, throughout this blog series, I want to share with you:

  1. How to generate the as the building blocks of the cable assembly.
  2. How to use the to generate a complete and well drawn cable assembly.
  3. How to prep and finalize the cable drawing to create your labels and generate outputs to hand-off to the wire-harness manufacturer. 

The first step is how can I get my placed as shown in the wiring diagram? The simple answer is to create a multi-part . What the will encompass is the cables, connector heads, crimps, and any other mechanical drawing along with the schematic symbol. This will be further discussed in my next installment (part 2) of the Cable Assembly Blog Series.  

Check out Altium in action...

MCAD Integration

About the Author


More Content by Sainesh Solanki
Previous Article
What's in a Name - Component Development Part 2
What's in a Name - Component Development Part 2

In this blog I outline how Altium Content Team names components, symbols and footprints. Why we’ve chosen t...

Next Article
How to use Schematic CAD Drawings for Cable Assemblies: Part 2
How to use Schematic CAD Drawings for Cable Assemblies: Part 2

The need to design cable assemblies often falls to the electronics design team, but for many the use of hig...