SHA512, SHA256, SHA1, and MD5 are vulnerable to a length extension attack. SHA224 and SHA384 are not since reduced output to internal state, SHA3 is also not vulnerable. Having that in mind, SHA512 is a good cryptographic collision-resistant hash function.
For practical purposes and the foreseeable future, both SHA384 and SHA512 are good enough for almost any imaginable collision-resistance application. Generally, the primary determining factor of what hash you would use, once we're above 256 bits and collision resistance is infinite for practical purposes, is just how many bits of output you need. For example, if you need the hash to generate both a 256-bit HMAC key and a 128-bit encryption key, SHA384 is a natural choice. If you need as much output as possible for the computational cost, say for output of a PRNG or as random padding, then SHA512 makes sense.
Only reason I could think of using SHA-384 vs. SHA-512 is due to Digest need for signing. For example, if you are adopting ECDSA-384 signing, it requires 384 hash digest, not 512 bit. Ideally, you could throw out any 128-bit from 512-bit. But receiving end need know which 128-bit you throw out. So only difference between SHA384 and SHA512 is to define which 128-bit you need throw out.