Start with both parties already having agreed a password.
In the first part of the protocol, both sides generate a random number and use some neat maths involving that and the password to agree a randomised shared secret. This is done in such a way that it's different every time (even though the password is the same), nobody listening on the wire can determine the shared secret, and it only works if both sides know the password. (The maths involved is based on the discrete logarithm problem, closely related to Diffie-Hellman.)
The parties then go on to prove to each other that they have both agreed the same shared secret (i.e. they both know the password), again without disclosing it to anybody listening. This takes more (different) neat maths.
Provided both sides are satisfied that they have the same shared secret, they can then derive session keys from it and start communicating under their choice of cipher.