INSTALLATION

Steps:

1.Turn off the computer and all attached peripheral equipment, such as printers and monitors.

2.Disconnect the AC power cable from the computer.

3.Remove the screws attaching the computer’s cover, and remove the cover from the system.

4.Remove the drive from the ESD (Electro Static Discharge) bag, carefully placing the drive on your work surface.

5.Configure the disk drive jumpers as necessary. Refer to table below for more details.

6.Remove SCSI terminator resitor packs (2) in all drives on the SCSI bus except for the last drive in the chain.

7.Remove and retain any hardware that may be attached to the selected bay.

8.Connect the cables; align the colored striped edge of the interface cable to pin 1 of the drive SCSI interface connector.

9.Partially insert the drive into the drive bay. Select an unused power connector from the power supply and connect it to the drive. If there are no unused power connections on the power supply, you can purchase a “Y” cable adapter from your dealer. This connector will allow you to add another power connection for your new drive.

10.Now that the drives are jumpered, connected, and have power cables attached, secure the drive or the mounting frame with four 6-32x.25 screws.

CAUTION:

Do not use screws of excess length when attaching the drive. Damage to the drive’s circuit board could result. The maximum insertion in

 

bottom holes is .25”, the maximum insertion for side holes is .125”.

SCSI Disk Drive Models

 

 

 

 

 

 

 

Total

Tables

Jumper

 

Warranty

 

 

Blocks

LED

Table

Notes

(Years)

ST31080N/WC

 

2,110,812

D

a

2

5

ST32105N/W/WC

 

4,194,304

D

b,c

1,2

5

ST32107N/W/WC/NV

4,194,304

D

b,c

1,2

5

ST14207N/W/WC/NV

8,388,608

D

b,c

1,2

5

Jumper Table

 

 

 

 

 

 

a

ID0

ID1

ID2

N/A

 

 

b

E1

E2

E3

N/A

 

 

c

OE1

OE2

OE3

N/A

 

 

ST31080N/WC

 

 

HDA

ID0

LED Driver

Connector

Spin Sync

 

 

E1, Enable

ID2

 

Disable

 

Term Power

 

 

Spin

 

SCSI Terminators

 

 

Remove in all but the last

 

 

drive in the chain

J3

J6

SCSI ID

 

 

 

 

J4

 

 

0

OUT

OUT

OUT

OUT

 

 

 

1

IN

OUT

OUT

OUT

 

J2, Pin 1

2

OUT

IN

OUT

OUT

 

50-Pin SCSI

 

Interface

3

IN

IN

OUT

OUT

 

 

J5, Pin 1

4

OUT

OUT

IN

OUT

ID1

 

4-Pin Power

 

Connector

 

 

 

ID0

 

5

IN

OUT

IN

OUT

ID 2

3 4

 

Disable

1 2

6

OUT

IN

IN

OUT

 

Spin

 

 

7

IN

IN

IN

OUT

 

 

 

8

OUT

OUT

OUT

IN

 

 

 

9

IN

OUT

OUT

IN

ST32105/32107/14207/N/W/WC/NV

10

OUT

IN

OUT

IN

11

IN

IN

OUT

IN

HDA

 

 

12

OUT

OUT

IN

IN

LED Driver Connector

 

 

Spin Sync

 

 

 

 

 

 

 

OE1

 

 

13

IN

OUT

IN

IN

OE3

E8, Enable

 

J7

 

Term Power In/Out

 

14

OUT

IN

IN

IN

 

SCSI Terminators

OE5, LED Driver

Remove in all but the last

15

IN

IN

IN

IN

drive in the chain

 

 

 

 

LED Configuration Table

 

Letter

 

Connector LED+

LED-

B

 

J-1

Pin 3

Pin 4

C

 

J-5

Pin 3

Pin 4

D

 

J-3

Pin 3

Pin 4

E

 

J-7

Pin 1

Pin 2

Notes

 

 

 

 

Note 1

-

“W” drives use Jumper Table c, e

Note 2

-

“WC” drives have no jumpers

Note 3

-

Parity is enabled by default. Install jumper E7 to disable parity.

Note 4

-

Most SCSI host adapters are compatible with Seagate drives. Software drivers and installation

 

 

instructions are provided with the host adapter. Most drives are shipped with SCSI ID set to 6.

*- On some drives J5 may be replaced with an LED.

J3

E1..E3

E4

Reserved

E5 (Disable Spin)

E6 (Delay Spin)

E7 (Disable Parity)

J2, Pin 1

-Pin SCSI

Interface

J4, Pin 1

4-Pin Power

Connector

1 2 3 4

P/N 21200027-001, Rev. B

Page 2
Image 2
Seagate ST14207NV, ST14207WC ST31080N/WC, ST32105/32107/14207/N/W/WC/NV, Steps, Jumper Table, LED Configuration Table

ST31080WC, ST32107W, ST14207NV, ST31080N, ST14207WC specifications

Seagate Technology has been a key player in the storage solutions market for decades, and its hard drives are widely recognized for their performance and reliability. Among its notable legacy products are the ST14207WC, ST31080N, ST32107W, ST32107NV, and ST31080WC. These drives were pivotal in the evolution of computer storage technology, catering to both the consumer and enterprise markets during their time.

The Seagate ST14207WC is a SCSI hard drive that was designed for high-performance applications. With a storage capacity of 4.5 GB, it utilizes a 1-inch platter and operates at a rotational speed of 10,000 RPM. This drive is notable for its advanced data caching techniques, which enhance read and write speeds. The ST14207WC supports a SCSI interface, making it ideal for servers and high-end workstations that require rapid data access.

The ST31080N, another SCSI drive, offered a slightly larger storage capacity of 9 GB. Featuring a 7200 RPM rotational speed, this drive was optimized for throughput, striking a balance between performance and capacity. Enhanced error recovery features and a robust design ensure data integrity, making it suitable for mission-critical applications.

Moving on to the ST32107W, this model provides an impressive 21 GB of storage and employs an innovative design that reduces power consumption while enhancing performance. With a SCSI interface and a 7200 RPM speed, the ST32107W was popular among desktop users seeking larger capacity without compromising on performance.

For environments requiring more robust features, the ST32107NV is a specialized variant of the ST32107W, designed for high-demand applications. It incorporates features like advanced error correction and is built to withstand challenging conditions, ensuring data safety and reliability.

Last but not least, the ST31080WC combines the advancements of the previous models, delivering a 9 GB capacity in a similarly rugged design as the other offerings. The 7200 RPM speed, supported by dual-port SCSI capability, makes it well-suited for networked environments.

In summary, each of these Seagate drives exemplifies a commitment to advancing storage technology during their era. Their robust design, varying capacities, and high-speed performance make them noteworthy entries in the history of hard drives. While technology has progressed significantly, these models represent the foundations upon which modern storage solutions are built.