Cheetah X15 36LP Product Manual, Rev. D
67
Notes [ ] for Tables 16 through 19.
[1]
See Section 9.6.4.1 for detailed electrical characteristics of these signals.
[2]
The conductor number refers to the conductor position when using 0.025-inch (0.635 mm) centerline flat
ribbon cable. Other cables types may be used to implement equivalent contact assignments.
[3]
Connector contacts are on 0.050 inch (1.27 mm) centers.
[4]
Front panel LED signal; indicates drive activity for host front panel hard drive activity indicator.
[5]
Asserted by host to enable Motor Start option (enables starting motor via SCSI bus command).
[6]
Asserted by host to enable Delayed Motor Start option (motor starts at power on or after a delay of 12
seconds times drive ID). This and [3] above are mutually exclusive options.
[7]
Binary code on A3, A2, A1 and A0 asserted by host to set up SCSI bus ID in drive.
[8]
GND provides a means for differential devices to detect the presence of a single ended device on the bus.
Drive will not operate I/O bus at Ultra2 or faster SCSI data rates if this is grounded.
[9]
Signals [4] through [7] are used in place of installing jumpers and cables on option select connectors J2
and J6. See Section 8.1.1 notes.
[10] “NC” means no connection.
[11] 8 bit devices which are connected to the 16 data bit LVD I/O shall leave the following signals open: –DB8,
–DB9, –DB10, –DB11, –DB12, –DB13, –DB14, –DB15, and –DBP1.
8 bit devices which are connected to the 16 data bit single-ended (SE) I/O shall have the following signals
open: DB8, –DB9, –DB10, –DB11, –DB12, –DB13, –DB14, –DB15, and –DBP1.
All other signals should be connected as shown.
[12] Pins 38, 39, 40, 44, 78, 79, and 80 are option select pins and are tied high by the drive circuitry. The pre-
ferred electrical connection at the backplane is either open or grounded (open for the ‘1’ setting, grounded
for the ‘0’ setting). Alternatively, these pins may be driven by a 3.3V logic device, pulled up to 3.3V
through a pull-up resistor (recommended size of 10K ohm), or grounded through some other means.
9.7
Electrical description
Cheetah X15 36LP drives are multimode devices. That is, their I/O circuits can operate as either single-ended
or low voltage differential drivers/receivers (selectable using the I/O “DIFFSENS” line).
See the SPI-4 standard for detailed electrical specifications.
9.7.1
Multimode—SE and LVD alternatives
When the interface “DIFFSNS” line is between -0.35 V and +0.5 V, the drive interface circuits operate single-
ended and up to and including 20 M transfers/s (Fast-20 or Ultra SCSI). When “DIFFSNS” is b0.7 V
and +1.9 V, the drive interface circuits operate low voltage differential and up to and including 160 M transfers/
s or less (Fast-160 or Ultra320 SCSI).
This multimode design does not allow dynamically changing transmission modes. Drives must operate only in
the mode for which the installation and interface cabling is designed. Multimode I/O circuits used by these
drives do not operate at high voltage differential levels and should never be exposed to high voltage differential
environments unless the common mode voltages in the environment are controlled to safe levels for single-
ended and low voltage differential devices (see the SPI-4 standard).
LC and LW model drives do not have onboard terminators. Termination of the I/O lines must be provided for by
the Host equipment designers or end users.
LVD Output characteristics
Each differential signal driven by LVD interface drivers shall have the following output characteristics when
measured at the disc drive connector:
Steady state Low level output differential voltage = 0.260 V = < V
s
= < 0.640 V (signal negation/logic 0)
Steady state High level output differential voltage = 0.270 V = < V
s
= < 0.780 V (signal assertion/logic 1)
LVD Input characteristics
Each differential signal received by LVD interface receiver circuits shall have the following input characteristics
when measured at the disk drive connector:
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