The value: you open such an URL with a bog standard, just-installed browser, and the browser does not complain about the certificate being suspicious.
The private key of course stays within the device, or anywhere the certificate is generated. The idea is that the CA from which the certificate is derived is already trusted by the browser, in a special way.
Compromise one device, extract the private key, have a "trusted for a very long time" cert that identifies like devices of that type, sneak it into a target network for man in the middle shenanigans.
If someone does that you’ve already been pwned. In reality you limit the CA to be domain scoped. I don’t know why domain-scoped CAs aren’t a thing.
> If someone does that you’ve already been pwned
Then why use encryption at all when your threat model for encrypted communication can't handle a malicious actor on the network?
Because there are various things in HTML and JS that require https.
(Though getting the browser to just assume http to local domains is secure like it already does for http://localhost would solve that)