Tips for upgrading drive in Macintosh computer

Upgrade Drive in Macintosh Computer To upgrade the drive in your Macintosh computer, the first thing to consider is do you want to upgrade the internal drive or do you just want to add additional storage with an external drive?

Internal Drive vs. External Drive

An internal drive will generally provide much better performance on the computer and can be used to store programs and data. An external drive will be slower and suited for data only, however it provides portability and an easier installation.

Internal storage considerations

Internal drives come in several interfaces, Serial ATA (SATA), ATA/IDE (PATA), and SCSI.

Most newer Apple desktop computers use SATA interface. Below is a list of popular Apples and the interfaces used.

Desktops – Desktop systems use 3.5″ drives.
Mac Pro – SATA
G5 – SATA
G4 – ATA (most of these systems are limited to 128GB capacity, see Apple Care document #86178 for details)

Laptops – Laptops use 2.5″ drives. Due to the complexity of installations in laptops professional installation should be considered.

Mac mini – Not user serviceable, see external drives below for additional storage.

G5 and MacPro computers include the cable and rails needed to connect the drive, so no accessories should be needed, just a Phillips screw driver.

G4 computers may require an UltraATA cable with 3 connectors if you are adding a second drive to the computer. A Phillips screw driver would also be required for this installation.

External storage considerations.

External drives come in several interfaces, USB 2.0, IEEE 1394a, IEEE 1394b and eSATA.

Most Apple computers have a 1394 port which will provide enough performance for data backups, but many not provide enough speed for day to day use. For higher speed check if your computer has any IEEE 1394b ports. 1394b offers much higher transfer rates, this interface is offered on our Maxtor line of external drives.

Most older Apple computer G4 and prior used USB 1.1 which is very slow and would not be acceptable for backing up large amounts of data or for day to day use. USB is very popular for PC use, so these drives are the most common, but may not be a good match for an older Macintosh. Newer G5 and Mac Pro computers have USB 2.0 which would provide similar performance to 1394a and should be fine for backup usage. When looking at different external drives, check if the bundled software is compatible with MacOS. Some Seagate and Maxtor product lines are specialized for different markets, so not all drive features will work on a Macintosh if the drive was designed for a Windows PC market. Seagate and Maxtor drives that have a 1394b interface tend to be customized for the Macintosh users.

eSATA offers the best transfer rates for an external drive, however at this time eSATA is not a standard interface on Macintosh computers. So, eSATA would not be a good choice for use with your Apple.

External cables: USB drives include a USB cable so the box should have everything needed to connect the drive as long as the computer has an open USB port. Most 1394a kits include a 6 pin to 6 pin cable which works for desktop computers, but a 4 pin to 6 pin cable may be required for use with a laptop. Most 1394b drives include the 1394b cable, but be sure to check the listing of contents on the box to be sure.

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How to upgrade my computer to a larger capacity drive?

When upgrading to a larger capacity drive, the main thing to consider is whether or not your computer is capable of addressing the extra capacity provided by the larger drive. If the system is several years old this is especially true.

Here are some common thresholds for capacity limitations:

  • 2.1 GigaBytes
  • 8.4 GigaBytes
  • 32 GigaBytes
  • 137 GigaBytes
  • 2 Terabytes

As an example, if you have an 80 GigaByte (GB) drive, and are considering upgrading to a 160 GB drive, it would be wise to verify that your system BIOS (Basic Input/Output System) is capable of addressing capacities above 137GB before purchasing one. If it is, you can safely use drives up to 2 Terabytes in capacity.

To check system BIOS compatibility, contact either the system vendor (HP, Gateway, Dell etc.) or the system mainboard manufacturer. Mainboard manufacturers usually have capacity limitations listed in the specifications on their website.

ATA Controller Cards

A workaround for a capacity issue with a Parallel ATA drive is to install an ATA controller card into a PCI slot in your system.  Drivers will be provided by the card manufacturer to be loaded into Windows or MacOS.  The larger capacity drive would be connected to the card instead of the mainboard so that the card can provide the addressing to the drive and enable larger capacities.  A modern ATA-133 controller card would support up to 2TB in capacity per drive (usually up to 4 drives per controller card).

Serial ATA

For Serial ATA (SATA) drives, all Serial ATA controllers are capable of up to 2TB in capacity so it is safe to assume that when you are upgrading a Serial ATA drive to a large capacity one, it will be compatible with your system.

You can also purchase a SATA-150 or SATA-300 controller to install into a free PCI slot that will enable compatibility with a Serial ATA drive for up to 2TB in capacity (usually up to 2 drives per controller card, commonly up to 4).

External and Networking Products

When upgrading to larger External and Network drive products, the extra capacity is handled by the operating system, so doesn’t rely on BIOS addressing.  It is safe to assume that if you are upgrading to a larger capacity External drive product, the same system would be able to handle the extra capacity if your older drive is already supported by the Operating System.

Controller Vendors

Here is a list of ATA and SATA controller vendors.

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