The contacts I picked have a 3mm pitch. Based on that I think I would need the Engineer Pad-12 potentially.
I use the SN-28 that he dissed. It's possible that the tools he got were of poor quality. I'll see if I can get some decent pictures to post.Any specific recomendations for an (almost) equivalent tool for cheaper cost (author used the Engineer PA-09 with some success)?


Are you saying it will wear down the tool faster? Or is it actually demanding on the user when they have to do this 10,000 times in a day? For comparison I need 16 crimps for my prototype and another 1,008 crimps if this makes it to production.That style crimp is very demanding on the crimper to produce the correct set of bends, and to squeeze hard enough to create the proper amount of deformation and metal flow.
And unless you're 20 years old, a simple scissors joint for this work is probably abusing your hand joints and worsening arthritis.Which is why I prefer a force multiplying compound joint with a ratcheting mechanism over a simple scissors joint.
Thanks for that info. I never knew about conductor brush length and have been trying to get it to line up with the far end of the conductor crimp.Here is a manual from Molex on best practices for crimping. It’s pretty deep in the weeds because it concentrates on quality control. Well worth reading.
I know what you mean. Before I explicitly researched crimped connections I had a lot of misconceptions based on assumptions I had made. But I knew from some milspec documents that required crimped connections they were considered more reliable than soldered connections.Thanks for that info. I never knew about conductor brush length and have been trying to get it to line up with the far end of the conductor crimp.