3 internal connectors, Internal connectors -24, Chapter 2 – Asus M5A88-M User Manual
Page 42: Sb850 controller, M5a88-m intel, Sata 6.0gb/s connectors, M5a88-m lpt connector lpt, 24 chapter 2: hardware information
2-24
Chapter 2: Hardware information
Chapter 2
2.8.3
Internal connectors
1.
AMD
®
SB850 Serial ATA Serial ATA 6.0 Gb/s connectors (7-pin SATA6G_1~6)
These connectors are for the Serial ATA 6.0 Gb/s signal cables for Serial ATA hard disk
drives and optical disc drives.
If you installed Serial ATA hard disk drives, you can create a RAID 0, RAID 1, RAID 5,
or RAID 10 configuration through the onboard AMD
®
SB850 controller.
•
These connectors are set to IDE mode by default. In IDE mode, you can connect
Serial ATA boot/data hard disk drives to these connectors. If you intend to create a
Serial ATA RAID set using these connectors, set the type of the SATA connectors to
[RAID] in the BIOS. See section 3.4.2 SATA Configuration for details.
•
You must install Windows
®
XP Service Pack 3 or later version before using Serial
ATA hard disk drives. The Serial ATA RAID feature is available only if you are using
Windows
®
XP SP3 or later version.
•
When using hot-plug and NCQ, set the type of the SATA connectors to [AHCI] in the
BIOS. See section 3.4.2 SATA Configuration for details.
2.
LPT connector (26-1 pin LPT)
The LPT (Line Printing Terminal) connector supports devices such as a printer. LPT is
standardized as IEEE 1284, which is the parallel port interface on IBM PC-compatible
computers.
GN
D
RSATA_RXN3
RSATA_RXP3
RSATA_TXN3
RSATA_TXP3
GN
D
GN
D
SATA6G_3
GN
D
RSATA_RXN
5
RSATA_RXP
5
RSATA_TXN
5
RSATA_TXP
5
GN
D
GN
D
SATA6G_5
SATA6G_6
GN
D
RSATA_TXP6
RSATA_TXN6
GN
D
RSATA_RXP6
RSATA_RXN6
GN
D
GN
D
RSATA_RXN1
RSATA_RXP1
RSATA_TXN1
RSATA_TXP1
GN
D
GN
D
SATA6G_1
SATA6G_4
GN
D
RSATA_TXP4
RSATA_TXN
4
GN
D
RSATA_RXP4
RSATA_RXN4
GN
D
SATA6G_2
GN
D
RSATA_TXP2
RSATA_TXN2
GN
D
RSATA_RXP2
RSATA_RXN2
GN
D
M5A88-M
M5A88-M Intel
®
SATA 6.0Gb/s connectors
M5A88-M
M5A88-M LPT connector
LPT
PIN 1
SLCT
PE
BUSY
ACK#
PD7
PD6
PD5
PD4
PD3
PD2
PD1
PD0
STB#
GND
GND
GND
GND
GND
GND
GND
GND
SLIN#
INIT#
ERR#
AFD