One simple approach (especially if you are code-signing or obfuscating your assemblies) is to break your application up into a number of separate Assemblies (dlls). Then if you update the code, you only need to deploy the assemblies that have actually changed.
The most important thing is to control the dependencies: define the interfaces between the assemblies well at the beginning, and add new interfaces to extend the existing functionality (rather than making "breaking changes" to existing interfaces) so that you can make useful changes to the application without having to deploy lots of assemblies in your patch. (If there are many dependencies you will find that making a change anywhere will still require you to deploy almost all of the assemblies to the customer, which defeats the purpose somewhat).
This approach won't deliver the most compact patches possible, but it's extremely simple and easy to implement - and in many cases it can provide "acceptably small" patches. It also encourages developers to think hard about using good, modular designs with minimal dependencies - so it's worth doing (within reason) even if you add a more sophisticated patching mechanism on top.
If using a patch approach I'd also advise giving the customer a full version periodically, as the more patches you apply, the greater the risk of something getting out of sync. (Consider the way Windows Update works - The OS is incrementally updated with patches, but every now and then Microsoft issues a service pack that rolls all the small patches into one large patch, and less frequently they release a whole new version of the operating system that users must reinstall from scratch)