If you are part of an industry where people can reasonably expect people contributing to a 'common data environment' to keep transmittal records of when each version of each controlled document was provided to whom, then git maintains that document register in a form much closer to a traditional transmittal or document register.
There is also the capacity for branching and milestone archiving in git:
- explore an option study in a branch separate from the 'current' version;
- look at a drawing transmittal (pull request) from an external party and review it or fix it before merging it into the 'current' version visible to the whole team;
- implement an ISO 9001 review process for internal sign off of a branch (proposed transmittal) before it is permitted to be committed to the team's common data environment;
- save milestones of the current controlled document set at key milestones like development approval, building approval, tender issue, any tender addenda, construction issue. Checkout the milestone issue and browse the filesystem tree just as it was at that milestone. Compare what has changed between then and some other milestone.
As noted above, it is worth noting that most CAD deliverables for construction are proprietary binary formats, like your DWGs and PDFs. These do lose a lot of the other potential points of difference of git versus a basic file syncing tool like dropbox. They are not stored in git as efficiently as a text file. They are stored in some sort of special binary blob 'annex'. On the other hand the loss of the ability to confirm who wrote every word on every line of every document is not a reason to discard the other whole of document version control benefits of git over a cloud file syncing service with a single 'current' state. The github desktop client is a pretty good tool for non-technical people to see a list of altered documents between two states of the project history.
At least in construction with the shift to open standards for BIM collaboration between entities using text based ISO standard file formats like IFC we are on the cusp of a future where 3D models in a structured text file are the deliverable contract documents. I for one would like to be ready with a working understanding of how to use something like git to have a cryptographic signature on a commit that defines who is responsible for every element and property in the federated model, with revision descriptions. My brief investigations of this tend to suggest that ifcxml diffs are a lot easier to make useful sense of than ifc. The work to produce automatically validated simple ifcxml files to match ISO 19650 'information requirements' looks like the way a thoughtfully lazy person might want to set something up. As such, there is also some future proofing scope for git as a common data environment for DWGs, even if they are not fully realisable at present.
You may even convince an entire project team to exchange documents in dxf format. Unless you are drafting all the contracts and reviewing their progress claims, that sounds pretty much like sparkly rainbow unicorn territory to me.
Alternatively we could all continue to use dropbox and excel document registers with a scanned signature on the 12 page pdf, to validate who authorised the documents' release, then do all the rest of the document control in jellyware. It'll probably all be fine until someone calls their lawyer. If there is a problem, the jellyware approach just requires endless hours of super fun busy work that should get any lawyer on hourly rates a bit excited. They could even load each milestone into a git repository and have git present the transmittal history to them so they can work out who's dead tree transmittal to attack.