Your concept of using independent RAID 1 mirrors is the correct strategy.

We have implemented similar scenarios at my work and they work very well.

**RAID 1**

RAID 1 gives you the speed of 1 disk for writing but 2 disks for reading.

When you write data to a RAID 1 array, it has to write that data to both disks, so you do not gain any performance increase, however this is where you get your data security.

When reading from a RAID 1 array the controller will read from both disks as they have the same data on them.

**RAID 5**

This is useful for protecting larger amounts of data.  The cost of RAID 5 increases a lot slower than RAID 1 (or RAID 0+1 once you are doing capacities beyond the size of the individual disks) for the same amount of data.

If you want to protect 600gb in with RAID 5 you can achieve that with 4x200gb drives or 3x300gb drives, requiring 800-900gb of total purchased drive space.  RAID 1 would be 2x600gb drives requiring 1,200gb of purchased space (with 600gb drives being quite more expensive) or RAID 0+1 allowing you to use less expensive capacity drives (ie: 4x300gb or 6x200gb) but still requires a total of 1,200gb of purchased space.

**RAID 0+1**

Offers similar advantages as RAID 1 taking it up another notch with the striping across disks.  I am assuming that if you are concerned about higher simultaneous reads, you will also be using multi-processors/multi-cores.  You will be processing multiple queries at once and so the striping isn't going to help as much.  You would see a better advantage on a RAID 0+1 for single applications using large data files, such as video editing.