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ManualsBrandsMaxtor ManualsComputer HardwareAtlas 10K IV

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Feature Descriptions

PRELIMINARY 02/19/03 Maxtor Atlas 10K IV 6-9

6.16 SCSI CONFIGURED AUTOMATICALLY (SCAM)

SCAM is a process of automatic ID assignment that eliminates the need for user

involvement in the setting of unique SCSI IDs. The drives support and conform to

the SCAM-2 automatic ID assignment protocol contained in the SCSI-3 draft

standards for SCAM. The drives are also fully compatible with SCSI devices that do

not comply with SCAM requirements.

6.17 THE ULTRA160 and ULTRA320 LOW VOLTAGE DIFFERENTIAL

(LVD) SCSI INTERFACE

SCSI-3 provides increased performance and versatility to SCSI disks. LVD uses

lower level voltage swings, differential signaling, and double transition (DT)

clocking to allow a maximum bus speed of 160 or 320 MB/second in wide SCSI

configurations.

The Maxtor Atlas 10K IV disk drive supports the LVD/MSE (Multi-Mode LVD and

Single-Ended) interface standard. When installed on a bus with only LVD devices

the Maxtor Atlas 10K IV disk drive operates in LVD mode at transfer rates up to 160

or 320 MB/second. It is fully compatible with Ultra2 LVD devices operating at

slower transfer rates. If an Maxtor Atlas 10K IV disk drive is installed on a bus with

one or more single-ended (SE) devices, it automatically switches modes to operate in

SE mode at the slower, legacy data rates.

Differential SCSI operation has the advantage of higher reliability of data transfer

through increased immunity to electrical noise. Differential signaling uses a two-wire

active system in which current from each wire flows in opposite directions and

reverses direction for a signal transition. The direction of current flow determines

whether the voltage levels on the two wires have a high/low or low/high relationship

to each other. The common mode, or reference, level for the two LVD signals is

+1.25 volts. High and low is defined relative to this level. LVD permits a wide range

of signal amplitudes. The Maxtor Atlas 10K IV interface drivers are designed to

provide a high to low range on each signal of approximately 400 millivolts in a

nominal configuration, resulting in a differential signal of approximately 800

millivolts.

Single-ended SCSI, in contrast, uses one-wire active signaling with the signal return

wire connected to ground. The active signal range is switched between a high in the

range of +2.4 - 3.0 volts and a low in the range of 0 - +.5 volts. LVD/MSE SCSI

devices in single-ended mode do not have the signal return wires connected directly

to ground, as these same pins must be driven to LVD levels when the device is

operating in LVD mode. Instead, when in single-ended mode, the device turns on a

driver transistor for each return line that acts as a switch to connect the signal return

to ground.